Merge pull request #214 from telemt/flow

Desync Full Forensics + ME Pool Updater + Soft Reinit
Update defaults.rs
2026-04-14 17:14:09 +03:00 · 2026-02-23 16:15:30 +03:00 · 2026-02-23 16:10:39 +03:00 · 2026-02-23 16:09:09 +03:00 · 2026-02-23 16:04:19 +03:00 · 2026-02-23 15:28:02 +03:00
79 changed files with 13315 additions and 2889 deletions
--- a/.github/codeql/codeql-config.yml
+++ b/.github/codeql/codeql-config.yml
@@ -0,0 +1,19 @@
+name: "Rust without tests"
+
+disable-default-queries: false
+
+queries:
+  - uses: security-extended
+  - uses: security-and-quality
+  - uses: ./.github/codeql/queries
+
+query-filters:
+  - exclude:
+      id:
+        - rust/unwrap-on-option
+        - rust/unwrap-on-result
+        - rust/expect-used
+
+analysis:
+  dataflow:
+    default-precision: high
--- a/.github/workflows/queries/common/ProductionOnly.qll
+++ b/.github/workflows/queries/common/ProductionOnly.qll
--- a/.github/workflows/queries/qlpack.yml
+++ b/.github/workflows/queries/qlpack.yml
--- a/.github/workflows/codeql.yml
+++ b/.github/workflows/codeql.yml
@@ -2,9 +2,9 @@ name: "CodeQL Advanced"

 on:
  push:
-    branches: [ "main" ]
+    branches: [ "*" ]
  pull_request:
-    branches: [ "main" ]
+    branches: [ "*" ]
  schedule:
    - cron: '0 0 * * 0'

--- a/.github/workflows/release.yml
+++ b/.github/workflows/release.yml
@@ -0,0 +1,161 @@
+name: Release
+
+on:
+  push:
+    tags:
+      - '[0-9]+.[0-9]+.[0-9]+' # Matches tags like 3.0.0, 3.1.2, etc.
+  workflow_dispatch: # Manual trigger from GitHub Actions UI
+
+permissions:
+  contents: read
+
+env:
+  CARGO_TERM_COLOR: always
+
+jobs:
+  build:
+    name: Build ${{ matrix.target }}
+    runs-on: ubuntu-latest
+    permissions:
+      contents: read
+
+    strategy:
+      fail-fast: false
+      matrix:
+        include:
+          - target: x86_64-unknown-linux-gnu
+            artifact_name: telemt
+            asset_name: telemt-x86_64-linux-gnu
+          - target: aarch64-unknown-linux-gnu
+            artifact_name: telemt
+            asset_name: telemt-aarch64-linux-gnu
+          - target: x86_64-unknown-linux-musl
+            artifact_name: telemt
+            asset_name: telemt-x86_64-linux-musl
+          - target: aarch64-unknown-linux-musl
+            artifact_name: telemt
+            asset_name: telemt-aarch64-linux-musl
+
+    steps:
+      - name: Checkout repository
+        uses: actions/checkout@11bd71901bbe5b1630ceea73d27597364c9af683 # v4.2.2
+
+      - name: Install stable Rust toolchain
+        uses: dtolnay/rust-toolchain@888c2e1ea69ab0d4330cbf0af1ecc7b68f368cc1 # v1
+        with:
+          toolchain: stable
+          targets: ${{ matrix.target }}
+
+      - name: Install cross-compilation tools
+        run: |
+          sudo apt-get update
+          sudo apt-get install -y gcc-aarch64-linux-gnu
+
+      - name: Cache cargo registry & build artifacts
+        uses: actions/cache@d4323d4df104b026a6aa633fdb11d772146be0bf # v4.2.2
+        with:
+          path: |
+            ~/.cargo/registry
+            ~/.cargo/git
+            target
+          key: ${{ runner.os }}-${{ matrix.target }}-cargo-${{ hashFiles('**/Cargo.lock') }}
+          restore-keys: |
+            ${{ runner.os }}-${{ matrix.target }}-cargo-
+
+      - name: Install cross
+        run: cargo install cross --git https://github.com/cross-rs/cross
+
+      - name: Build Release
+        env:
+          RUSTFLAGS: ${{ contains(matrix.target, 'musl') && '-C target-feature=+crt-static' || '' }}
+        run: cross build --release --target ${{ matrix.target }}
+
+      - name: Package binary
+        run: |
+          cd target/${{ matrix.target }}/release
+          tar -czvf ${{ matrix.asset_name }}.tar.gz ${{ matrix.artifact_name }}
+          sha256sum ${{ matrix.asset_name }}.tar.gz > ${{ matrix.asset_name }}.sha256
+
+      - name: Upload artifact
+        uses: actions/upload-artifact@65c4c4a1ddee5b72f698fdd19549f0f0fb45cf08 # v4.6.0
+        with:
+          name: ${{ matrix.asset_name }}
+          path: |
+            target/${{ matrix.target }}/release/${{ matrix.asset_name }}.tar.gz
+            target/${{ matrix.target }}/release/${{ matrix.asset_name }}.sha256
+
+  build-docker-image:
+    runs-on: ubuntu-latest
+    steps:
+      - name: Checkout
+        uses: actions/checkout@v3
+
+      - name: Set up QEMU
+        uses: docker/setup-qemu-action@v3
+
+      - name: Set up Docker Buildx
+        uses: docker/setup-buildx-action@v2
+
+      - name: Login to GitHub Container Registry
+        uses: docker/login-action@v2
+        with:
+          registry: ghcr.io
+          username: ${{ github.repository_owner }}
+          password: ${{ secrets.TOKEN_GH_DEPLOY }}
+
+      - name: Build and push
+        uses: docker/build-push-action@v6
+        with:
+          context: .
+          push: true
+          tags: ${{ github.ref }}
+
+  release:
+    name: Create Release
+    needs: build
+    runs-on: ubuntu-latest
+    permissions:
+      contents: write
+
+    steps:
+      - name: Checkout repository
+        uses: actions/checkout@11bd71901bbe5b1630ceea73d27597364c9af683 # v4.2.2
+        with:
+          fetch-depth: 0
+          token: ${{ secrets.GITHUB_TOKEN }}
+
+      - name: Download all artifacts
+        uses: actions/download-artifact@fa0a91b85d4f404e444e00e005971372dc801d16 # v4.1.8
+        with:
+          path: artifacts
+
+      - name: Update version in Cargo.toml and Cargo.lock
+        run: |
+          # Extract version from tag (remove 'v' prefix if present)
+          VERSION="${GITHUB_REF#refs/tags/}"
+          VERSION="${VERSION#v}"
+
+          # Install cargo-edit for version bumping
+          cargo install cargo-edit
+
+          # Update Cargo.toml version
+          cargo set-version "$VERSION"
+
+          # Configure git
+          git config user.name "github-actions[bot]"
+          git config user.email "github-actions[bot]@users.noreply.github.com"
+
+          # Commit and push changes
+          #git add Cargo.toml Cargo.lock
+          #git commit -m "chore: bump version to $VERSION" || echo "No changes to commit"
+          #git push origin HEAD:main
+        env:
+          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+
+      - name: Create Release
+        uses: softprops/action-gh-release@v2
+        with:
+          files: artifacts/**/*
+          generate_release_notes: true
+          draft: false
+          prerelease: ${{ contains(github.ref, '-rc') || contains(github.ref, '-beta') || contains(github.ref, '-alpha') }}
--- a/.github/workflows/rust.yml
+++ b/.github/workflows/rust.yml
@@ -2,9 +2,9 @@ name: Rust

 on:
  push:
-    branches: [ main ]
+    branches: [ "*" ]
  pull_request:
-    branches: [ main ]
+    branches: [ "*" ]

 env:
  CARGO_TERM_COLOR: always
@@ -42,5 +42,13 @@ jobs:
    - name: Build Release
      run: cargo build --release --verbose

+    - name: Run tests
+      run: cargo test --verbose
+
+# clippy dont fail on warnings because of active development of telemt 
+# and many warnings
+    - name: Run clippy
+      run: cargo clippy -- --cap-lints warn
+
    - name: Check for unused dependencies
      run: cargo udeps || true
--- a/.kilocode/rules-architect/AGENTS.md
+++ b/.kilocode/rules-architect/AGENTS.md
@@ -0,0 +1,58 @@
+# Architect Mode Rules for Telemt
+
+## Architecture Overview
+
+```mermaid
+graph TB
+    subgraph Entry
+        Client[Clients] --> Listener[TCP/Unix Listener]
+    end
+    
+    subgraph Proxy Layer
+        Listener --> ClientHandler[ClientHandler]
+        ClientHandler --> Handshake[Handshake Validator]
+        Handshake --> |Valid| Relay[Relay Layer]
+        Handshake --> |Invalid| Masking[Masking/TLS Fronting]
+    end
+    
+    subgraph Transport
+        Relay --> MiddleProxy[Middle-End Proxy Pool]
+        Relay --> DirectRelay[Direct DC Relay]
+        MiddleProxy --> TelegramDC[Telegram DCs]
+        DirectRelay --> TelegramDC
+    end
+```
+
+## Module Dependencies
+- [`src/main.rs`](src/main.rs) - Entry point, spawns all async tasks
+- [`src/config/`](src/config/) - Configuration loading with auto-migration
+- [`src/error.rs`](src/error.rs) - Error types, must be used by all modules
+- [`src/crypto/`](src/crypto/) - AES, SHA, random number generation
+- [`src/protocol/`](src/protocol/) - MTProto constants, frame encoding, obfuscation
+- [`src/stream/`](src/stream/) - Stream wrappers, buffer pool, frame codecs
+- [`src/proxy/`](src/proxy/) - Client handling, handshake, relay logic
+- [`src/transport/`](src/transport/) - Upstream management, middle-proxy, SOCKS support
+- [`src/stats/`](src/stats/) - Statistics and replay protection
+- [`src/ip_tracker.rs`](src/ip_tracker.rs) - Per-user IP tracking
+
+## Key Architectural Constraints
+
+### Middle-End Proxy Mode
+- Requires public IP on interface OR 1:1 NAT with STUN probing
+- Uses separate `proxy-secret` from Telegram (NOT user secrets)
+- Falls back to direct mode automatically on STUN mismatch
+
+### TLS Fronting
+- Invalid handshakes are transparently proxied to `mask_host`
+- This is critical for DPI evasion - do not change this behavior
+- `mask_unix_sock` and `mask_host` are mutually exclusive
+
+### Stream Architecture
+- Buffer pool is shared globally via Arc - prevents allocation storms
+- Frame codecs implement tokio-util Encoder/Decoder traits
+- State machine in [`src/stream/state.rs`](src/stream/state.rs) manages stream transitions
+
+### Configuration Migration
+- [`ProxyConfig::load()`](src/config/mod.rs:641) mutates config in-place
+- New fields must have sensible defaults
+- DC203 override is auto-injected for CDN/media support
--- a/.kilocode/rules-code/AGENTS.md
+++ b/.kilocode/rules-code/AGENTS.md
@@ -0,0 +1,23 @@
+# Code Mode Rules for Telemt
+
+## Error Handling
+- Always use [`ProxyError`](src/error.rs:168) from [`src/error.rs`](src/error.rs) for proxy operations
+- [`HandshakeResult<T,R,W>`](src/error.rs:292) returns streams on bad client - these MUST be returned for masking, never dropped
+- Use [`Recoverable`](src/error.rs:110) trait to check if errors are retryable
+
+## Configuration Changes
+- [`ProxyConfig::load()`](src/config/mod.rs:641) auto-mutates config - new fields should have defaults
+- DC203 override is auto-injected if missing - do not remove this behavior
+- When adding config fields, add migration logic in [`ProxyConfig::load()`](src/config/mod.rs:641)
+
+## Crypto Code
+- [`SecureRandom`](src/crypto/random.rs) from [`src/crypto/random.rs`](src/crypto/random.rs) must be used for all crypto operations
+- Never use `rand::thread_rng()` directly - use the shared `Arc<SecureRandom>`
+
+## Stream Handling
+- Buffer pool [`BufferPool`](src/stream/buffer_pool.rs) is shared via Arc - always use it instead of allocating
+- Frame codecs in [`src/stream/frame_codec.rs`](src/stream/frame_codec.rs) implement tokio-util's Encoder/Decoder traits
+
+## Testing
+- Tests are inline in modules using `#[cfg(test)]`
+- Use `cargo test --lib <module_name>` to run tests for specific modules
--- a/.kilocode/rules-debug/AGENTS.md
+++ b/.kilocode/rules-debug/AGENTS.md
@@ -0,0 +1,27 @@
+# Debug Mode Rules for Telemt
+
+## Logging
+- `RUST_LOG` environment variable takes absolute priority over all config log levels
+- Log levels: `trace`, `debug`, `info`, `warn`, `error`
+- Use `RUST_LOG=debug cargo run` for detailed operational logs
+- Use `RUST_LOG=trace cargo run` for full protocol-level debugging
+
+## Middle-End Proxy Debugging
+- Set `ME_DIAG=1` environment variable for high-precision cryptography diagnostics
+- STUN probe results are logged at startup - check for mismatch between local and reflected IP
+- If Middle-End fails, check `proxy_secret_path` points to valid file from https://core.telegram.org/getProxySecret
+
+## Connection Issues
+- DC connectivity is logged at startup with RTT measurements
+- If DC ping fails, check `dc_overrides` for custom addresses
+- Use `prefer_ipv6=false` in config if IPv6 is unreliable
+
+## TLS Fronting Issues
+- Invalid handshakes are proxied to `mask_host` - check this host is reachable
+- `mask_unix_sock` and `mask_host` are mutually exclusive - only one can be set
+- If `mask_unix_sock` is set, socket must exist before connections arrive
+
+## Common Errors
+- `ReplayAttack` - client replayed a handshake nonce, potential attack
+- `TimeSkew` - client clock is off, can disable with `ignore_time_skew=true`
+- `TgHandshakeTimeout` - upstream DC connection failed, check network
--- a/AGENTS.md
+++ b/AGENTS.md
@@ -0,0 +1,40 @@
+# AGENTS.md
+
+** Use general system promt from AGENTS_SYSTEM_PROMT.md **
+** Additional techiques and architectury details are here **
+
+This file provides guidance to agents when working with code in this repository.
+
+## Build & Test Commands
+```bash
+cargo build --release          # Production build
+cargo test                     # Run all tests
+cargo test --lib error         # Run tests for specific module (error module)
+cargo bench --bench crypto_bench  # Run crypto benchmarks
+cargo clippy -- -D warnings    # Lint with clippy
+```
+
+## Project-Specific Conventions
+
+### Rust Edition
+- Uses **Rust edition 2024** (not 2021) - specified in Cargo.toml
+
+### Error Handling Pattern
+- Custom [`Recoverable`](src/error.rs:110) trait distinguishes recoverable vs fatal errors
+- [`HandshakeResult<T,R,W>`](src/error.rs:292) returns streams on bad client for masking - do not drop them
+- Always use [`ProxyError`](src/error.rs:168) from [`src/error.rs`](src/error.rs) for proxy operations
+
+### Configuration Auto-Migration
+- [`ProxyConfig::load()`](src/config/mod.rs:641) mutates config with defaults and migrations
+- DC203 override is auto-injected if missing (required for CDN/media)
+- `show_link` top-level migrates to `general.links.show`
+
+### Middle-End Proxy Requirements
+- Requires public IP on interface OR 1:1 NAT with STUN probing
+- Falls back to direct mode on STUN/interface mismatch unless `stun_iface_mismatch_ignore=true`
+- Proxy-secret from Telegram is separate from user secrets
+
+### TLS Fronting Behavior
+- Invalid handshakes are transparently proxied to `mask_host` for DPI evasion
+- `fake_cert_len` is randomized at startup (1024-4096 bytes)
+- `mask_unix_sock` and `mask_host` are mutually exclusive
--- a/AGENTS_SYSTEM_PROMT.md
+++ b/AGENTS_SYSTEM_PROMT.md
@@ -0,0 +1,410 @@
+## System Prompt — Production Rust Codebase: Modification and Architecture Guidelines
+
+You are a senior Rust Engineer and pricipal Rust Architect acting as a strict code reviewer and implementation partner. 
+Your responses are precise, minimal, and architecturally sound. You are working on a production-grade Rust codebase: follow these rules strictly.
+
+---
+
+### 0. Priority Resolution — Scope Control
+
+This section resolves conflicts between code quality enforcement and scope limitation.
+
+When editing or extending existing code, you MUST audit the affected files and fix:
+
+- Comment style violations (missing, non-English, decorative, trailing).
+- Missing or incorrect documentation on public items.
+- Comment placement issues (trailing comments → move above the code).
+
+These are **coordinated changes** — they are always in scope.
+
+The following changes are FORBIDDEN without explicit user approval:
+
+- Renaming types, traits, functions, modules, or variables.
+- Altering business logic, control flow, or data transformations.
+- Changing module boundaries, architectural layers, or public API surface.
+- Adding or removing functions, structs, enums, or trait implementations.
+- Fixing compiler warnings or removing unused code.
+
+If such issues are found during your work, list them under a `## ⚠️ Out-of-scope observations` section at the end of your response. Include file path, context, and a brief description. Do not apply these changes.
+
+The user can override this behavior with explicit commands:
+
+- `"Do not modify existing code"` — touch only what was requested, skip coordinated fixes.
+- `"Make minimal changes"` — no coordinated fixes, narrowest possible diff.
+- `"Fix everything"` — apply all coordinated fixes and out-of-scope observations.
+
+### Core Rule
+
+The codebase must never enter an invalid intermediate state.
+No response may leave the repository in a condition that requires follow-up fixes.
+
+---
+
+### 1. Comments and Documentation
+
+- All comments MUST be written in English.
+- Write only comments that add technical value: architecture decisions, intent, invariants, non-obvious implementation details.
+- Place all comments on separate lines above the relevant code.
+- Use `///` doc-comments for public items. Use `//` for internal clarifications.
+
+Correct example:
+
+```rust
+// Handles MTProto client authentication and establishes encrypted session state.
+fn handle_authenticated_client(...) { ... }
+```
+
+Incorrect examples:
+
+```rust
+let x = 5; // set x to 5
+```
+
+```rust
+// This function does stuff
+fn do_stuff() { ... }
+```
+
+---
+
+### 2. File Size and Module Structure
+
+- Files MUST NOT exceed 350–550 lines.
+- If a file exceeds this limit, split it into submodules organized by responsibility (e.g., protocol, transport, state, handlers).
+- Parent modules MUST declare and describe their submodules.
+- Maintain clear architectural boundaries between modules.
+
+Correct example:
+
+```rust
+// Client connection handling logic.
+// Submodules:
+// - handshake: MTProto handshake implementation
+// - relay: traffic forwarding logic
+// - state: client session state machine
+
+pub mod handshake;
+pub mod relay;
+pub mod state;
+```
+
+Git discipline:
+
+- Use local git for versioning and diffs.
+- Write clear, descriptive commit messages in English that explain both *what* changed and *why*.
+
+---
+
+### 3. Formatting
+
+- Preserve the existing formatting style of the project exactly as-is.
+- Reformat code only when explicitly instructed to do so.
+- Do not run `cargo fmt` unless explicitly instructed.
+
+---
+
+### 4. Change Safety and Validation
+
+- If anything is unclear, STOP and ask specific, targeted questions before proceeding.
+- List exactly what is ambiguous and offer possible interpretations for the user to choose from.
+- Prefer clarification over assumptions. Do not guess intent, behavior, or missing requirements.
+- Actively ask questions before making architectural or behavioral changes.
+
+---
+
+### 5. Warnings and Unused Code
+
+- Leave all warnings, unused variables, functions, imports, and dead code untouched unless explicitly instructed to modify them.
+- These may be intentional or part of work-in-progress code.
+- `todo!()` and `unimplemented!()` are permitted and should not be removed or replaced unless explicitly instructed.
+
+---
+
+### 6. Architectural Integrity
+
+- Preserve existing architecture unless explicitly instructed to refactor.
+- Do not introduce hidden behavioral changes.
+- Do not introduce implicit refactors.
+- Keep changes minimal, isolated, and intentional.
+
+---
+
+### 7. When Modifying Code
+
+You MUST:
+
+- Maintain architectural consistency with the existing codebase.
+- Document non-obvious logic with comments that describe *why*, not *what*.
+- Limit changes strictly to the requested scope (plus coordinated fixes per Section 0).
+- Keep all existing symbol names unless renaming is explicitly requested.
+- Preserve global formatting as-is
+- Result every modification in a self-contained, compilable, runnable state of the codebase
+
+You MUST NOT:
+
+- Use placeholders: no `// ... rest of code`, no `// implement here`, no `/* TODO */` stubs that replace existing working code. Write full, working implementation. If the implementation is unclear, ask first
+- Refactor code outside the requested scope
+- Make speculative improvements
+- Spawn multiple agents for EDITING
+- Produce partial changes
+- Introduce references to entities that are not yet implemented
+- Leave TODO placeholders in production paths
+
+Note: `todo!()` and `unimplemented!()` are allowed as idiomatic Rust markers for genuinely unfinished code paths.
+
+Every change must:
+   - compile,
+   - pass type checks,
+   - have no broken imports,
+   - preserve invariants,
+   - not rely on future patches.
+
+If the task requires multiple phases:
+   - either implement all required phases,
+   - or explicitly refuse and explain missing dependencies.
+
+---
+
+### 8. Decision Process for Complex Changes
+
+When facing a non-trivial modification, follow this sequence:
+
+1. **Clarify**: Restate the task in one sentence to confirm understanding.
+2. **Assess impact**: Identify which modules, types, and invariants are affected.
+3. **Propose**: Describe the intended change before implementing it.
+4. **Implement**: Make the minimal, isolated change.
+5. **Verify**: Explain why the change preserves existing behavior and architectural integrity.
+
+---
+
+### 9. Context Awareness
+
+- When provided with partial code, assume the rest of the codebase exists and functions correctly unless stated otherwise.
+- Reference existing types, functions, and module structures by their actual names as shown in the provided code.
+- When the provided context is insufficient to make a safe change, request the missing context explicitly.
+- Spawn multiple agents for SEARCHING information, code, functions
+
+---
+
+### 10. Response Format
+
+#### Language Policy
+
+- Code, comments, commit messages, documentation ONLY ON **English**!
+- Reasoning and explanations in response text on language from promt
+
+#### Response Structure
+
+Your response MUST consist of two sections:
+
+**Section 1: `## Reasoning`**
+
+- What needs to be done and why.
+- Which files and modules are affected.
+- Architectural decisions and their rationale.
+- Potential risks or side effects.
+
+**Section 2: `## Changes`**
+
+- For each modified or created file: the filename on a separate line in backticks, followed by the code block.
+- For files **under 200 lines**: return the full file with all changes applied.
+- For files **over 200 lines**: return only the changed functions/blocks with at least 3 lines of surrounding context above and below. If the user requests the full file, provide it.
+- New files: full file content.
+- End with a suggested git commit message in English.
+
+#### Reporting Out-of-Scope Issues
+
+If during modification you discover issues outside the requested scope (potential bugs, unsafe code, architectural concerns, missing error handling, unused imports, dead code):
+
+- Do not fix them silently.
+- List them under `## ⚠️ Out-of-scope observations` at the end of your response.
+- Include: file path, line/function context, brief description of the issue, and severity estimate.
+
+#### Splitting Protocol
+
+If the response exceeds the output limit:
+
+1. End the current part with: **SPLIT: PART N — CONTINUE? (remaining: file_list)**
+2. List the files that will be provided in subsequent parts.
+3. Wait for user confirmation before continuing.
+4. No single file may be split across parts.
+
+## 11. Anti-LLM Degeneration Safeguards (Principal-Paranoid, Visionary)
+
+This section exists to prevent common LLM failure modes: scope creep, semantic drift, cargo-cult refactors, performance regressions, contract breakage, and hidden behavior changes.
+
+### 11.1 Non-Negotiable Invariants
+
+- **No semantic drift:** Do not reinterpret requirements, rename concepts, or change meaning of existing terms.
+- **No “helpful refactors”:** Any refactor not explicitly requested is forbidden.
+- **No architectural drift:** Do not introduce new layers, patterns, abstractions, or “clean architecture” migrations unless requested.
+- **No dependency drift:** Do not add crates, features, or versions unless explicitly requested.
+- **No behavior drift:** If a change could alter runtime behavior, you MUST call it out explicitly in `## Reasoning` and justify it.
+
+### 11.2 Minimal Surface Area Rule
+
+- Touch the smallest number of files possible.
+- Prefer local changes over cross-cutting edits.
+- Do not “align style” across a file/module—only adjust the modified region.
+- Do not reorder items, imports, or code unless required for correctness.
+
+### 11.3 No Implicit Contract Changes
+
+Contracts include:
+- public APIs, trait bounds, visibility, error types, timeouts/retries, logging semantics, metrics semantics,
+- protocol formats, framing, padding, keepalive cadence, state machine transitions,
+- concurrency guarantees, cancellation behavior, backpressure behavior.
+
+Rule:
+- If you change a contract, you MUST update all dependents in the same patch AND document the contract delta explicitly.
+
+### 11.4 Hot-Path Preservation (Performance Paranoia)
+
+- Do not introduce extra allocations, cloning, or formatting in hot paths.
+- Do not add logging/metrics on hot paths unless requested.
+- Do not add new locks or broaden lock scope.
+- Prefer `&str` / slices / borrowed data where the codebase already does so.
+- Avoid `String` building for errors/logs if it changes current patterns.
+
+If you cannot prove performance neutrality, label it as risk in `## Reasoning`.
+
+### 11.5 Async / Concurrency Safety (Cancellation & Backpressure)
+
+- No blocking calls inside async contexts.
+- Preserve cancellation safety: do not introduce `await` between lock acquisition and critical invariants unless already present.
+- Preserve backpressure: do not replace bounded channels with unbounded, do not remove flow control.
+- Do not change task lifecycle semantics (spawn patterns, join handles, shutdown order) unless requested.
+- Do not introduce `tokio::spawn` / background tasks unless explicitly requested.
+
+### 11.6 Error Semantics Integrity
+
+- Do not replace structured errors with generic strings.
+- Do not widen/narrow error types or change error categories without explicit approval.
+- Avoid introducing panics in production paths (`unwrap`, `expect`) unless the codebase already treats that path as impossible and documented.
+
+### 11.7 “No New Abstractions” Default
+
+Default stance:
+- No new traits, generics, macros, builder patterns, type-level cleverness, or “frameworking”.
+- If abstraction is necessary, prefer the smallest possible local helper (private function) and justify it.
+
+### 11.8 Negative-Diff Protection
+
+Avoid “diff inflation” patterns:
+- mass edits,
+- moving code between files,
+- rewrapping long lines,
+- rearranging module order,
+- renaming for aesthetics.
+
+If a diff becomes large, STOP and ask before proceeding.
+
+### 11.9 Consistency with Existing Style (But Not Style Refactors)
+
+- Follow existing conventions of the touched module (naming, error style, return patterns).
+- Do not enforce global “best practices” that the codebase does not already use.
+
+### 11.10 Two-Phase Safety Gate (Plan → Patch)
+
+For non-trivial changes:
+1) Provide a micro-plan (1–5 bullets): what files, what functions, what invariants, what risks.
+2) Implement exactly that plan—no extra improvements.
+
+### 11.11 Pre-Response Checklist (Hard Gate)
+
+Before final output, verify internally:
+
+- No unresolved symbols / broken imports.
+- No partially updated call sites.
+- No new public surface changes unless requested.
+- No transitional states / TODO placeholders replacing working code.
+- Changes are atomic: the repository remains buildable and runnable.
+- Any behavior change is explicitly stated.
+
+If any check fails: fix it before responding.
+
+### 11.12 Truthfulness Policy (No Hallucinated Claims)
+
+- Do not claim “this compiles” or “tests pass” unless you actually verified with the available tooling/context.
+- If verification is not possible, state: “Not executed; reasoning-based consistency check only.”
+
+### 11.13 Visionary Guardrail: Preserve Optionality
+
+When multiple valid designs exist, prefer the one that:
+- minimally constrains future evolution,
+- preserves existing extension points,
+- avoids locking the project into a new paradigm,
+- keeps interfaces stable and implementation local.
+
+Default to reversible changes.
+
+### 11.14 Stop Conditions
+
+STOP and ask targeted questions if:
+- required context is missing,
+- a change would cross module boundaries,
+- a contract might change,
+- concurrency/protocol invariants are unclear,
+- the diff is growing beyond a minimal patch.
+
+No guessing.
+
+### 12. Invariant Preservation
+
+You MUST explicitly preserve:
+- Thread-safety guarantees (`Send` / `Sync` expectations).
+- Memory safety assumptions (no hidden `unsafe` expansions).
+- Lock ordering and deadlock invariants.
+- State machine correctness (no new invalid transitions).
+- Backward compatibility of serialized formats (if applicable).
+
+If a change touches concurrency, networking, protocol logic, or state machines,
+you MUST explain why existing invariants remain valid.
+
+### 13. Error Handling Policy
+
+- Do not replace structured errors with generic strings.
+- Preserve existing error propagation semantics.
+- Do not widen or narrow error types without approval.
+- Avoid introducing panics in production paths.
+- Prefer explicit error mapping over implicit conversions.
+
+### 14. Test Safety
+
+- Do not modify existing tests unless the task explicitly requires it.
+- Do not weaken assertions.
+- Preserve determinism in testable components.
+
+### 15. Security Constraints
+
+- Do not weaken cryptographic assumptions.
+- Do not modify key derivation logic without explicit request.
+- Do not change constant-time behavior.
+- Do not introduce logging of secrets.
+- Preserve TLS/MTProto protocol correctness.
+
+### 16. Logging Policy
+
+- Do not introduce excessive logging in hot paths.
+- Do not log sensitive data.
+- Preserve existing log levels and style.
+
+### 17. Pre-Response Verification Checklist
+
+Before producing the final answer, verify internally:
+
+- The change compiles conceptually.
+- No unresolved symbols exist.
+- All modified call sites are updated.
+- No accidental behavioral changes were introduced.
+- Architectural boundaries remain intact.
+
+### 18. Atomic Change Principle
+Every patch must be **atomic and production-safe**.
+* **Self-contained** — no dependency on future patches or unimplemented components.
+* **Build-safe** — the project must compile successfully after the change.
+* **Contract-consistent** — no partial interface or behavioral changes; all dependent code must be updated within the same patch.
+* **No transitional states** — no placeholders, incomplete refactors, or temporary inconsistencies.
+
+**Invariant:** After any single patch, the repository remains fully functional and buildable.
+
--- a/CONTRIBUTING.md
+++ b/CONTRIBUTING.md
@@ -0,0 +1,14 @@
+# Pull Requests - Rules
+## General
+- ONLY signed and verified commits
+- ONLY from your name
+- DO NOT commit with `codex` or `claude` as author/commiter
+- PREFER `flow` branch for development, not `main`
+
+## AI
+We are not against modern tools, like AI, where you act as a principal or architect, but we consider it important:
+
+- you really understand what you're doing
+- you understand the relationships and dependencies of the components being modified
+- you understand the architecture of Telegram MTProto, MTProxy, Middle-End KDF at least generically
+- you DO NOT commit for the sake of commits, but to help the community, core-developers and ordinary users
--- a/Cargo.lock
+++ b/Cargo.lock
--- a/Cargo.toml
+++ b/Cargo.toml
@@ -1,6 +1,6 @@
 [package]
 name = "telemt"
-version = "1.2.0"
+version = "3.0.12"
 edition = "2024"

 [dependencies]
@@ -9,7 +9,7 @@ libc = "0.2"

 # Async runtime
 tokio = { version = "1.42", features = ["full", "tracing"] }
-tokio-util = { version = "0.7", features = ["codec"] }
+tokio-util = { version = "0.7", features = ["full"] }

 # Crypto
 aes = "0.8"
@@ -20,15 +20,18 @@ sha1 = "0.10"
 md-5 = "0.10"
 hmac = "0.12"
 crc32fast = "1.4"
+crc32c = "0.6"
 zeroize = { version = "1.8", features = ["derive"] }

 # Network
 socket2 = { version = "0.5", features = ["all"] }
+nix = { version = "0.28", default-features = false, features = ["net"] }

 # Serialization
 serde = { version = "1.0", features = ["derive"] }
 serde_json = "1.0"
 toml = "0.8"
+x509-parser = "0.15"

 # Utils
 bytes = "1.9"
@@ -37,7 +40,7 @@ tracing = "0.1"
 tracing-subscriber = { version = "0.3", features = ["env-filter"] }
 parking_lot = "0.12"
 dashmap = "5.5"
-lru = "0.12"
+lru = "0.16"
 rand = "0.9"
 chrono = { version = "0.4", features = ["serde"] }
 hex = "0.4"
@@ -45,9 +48,21 @@ base64 = "0.22"
 url = "2.5"
 regex = "1.11"
 crossbeam-queue = "0.3"
+num-bigint = "0.4"
+num-traits = "0.2"
+anyhow = "1.0"

 # HTTP
 reqwest = { version = "0.12", features = ["rustls-tls"], default-features = false }
+notify = { version = "6", features = ["macos_fsevent"] }
+ipnetwork = "0.20"
+hyper = { version = "1", features = ["server", "http1"] }
+hyper-util = { version = "0.1", features = ["tokio", "server-auto"] }
+http-body-util = "0.1"
+httpdate = "1.0"
+tokio-rustls = { version = "0.26", default-features = false, features = ["tls12"] }
+rustls = { version = "0.23", default-features = false, features = ["std", "tls12", "ring"] }
+webpki-roots = "0.26"

 [dev-dependencies]
 tokio-test = "0.4"
@@ -57,4 +72,4 @@ futures = "0.3"

 [[bench]]
 name = "crypto_bench"
-harness = false
+harness = false
--- a/43
+++ b/43
@@ -0,0 +1,43 @@
+# ==========================
+# Stage 1: Build
+# ==========================
+FROM rust:1.85-slim-bookworm AS builder
+
+RUN apt-get update && apt-get install -y --no-install-recommends \
+    pkg-config \
+    && rm -rf /var/lib/apt/lists/*
+
+WORKDIR /build
+
+COPY Cargo.toml Cargo.lock* ./
+RUN mkdir src && echo 'fn main() {}' > src/main.rs && \
+    cargo build --release 2>/dev/null || true && \
+    rm -rf src
+
+COPY . .
+RUN cargo build --release && strip target/release/telemt
+
+# ==========================
+# Stage 2: Runtime
+# ==========================
+FROM debian:bookworm-slim
+
+RUN apt-get update && apt-get install -y --no-install-recommends \
+    ca-certificates \
+    && rm -rf /var/lib/apt/lists/*
+
+RUN useradd -r -s /usr/sbin/nologin telemt
+
+WORKDIR /app
+
+COPY --from=builder /build/target/release/telemt /app/telemt
+COPY config.toml /app/config.toml
+
+RUN chown -R telemt:telemt /app
+USER telemt
+
+EXPOSE 443
+EXPOSE 9090
+
+ENTRYPOINT ["/app/telemt"]
+CMD ["config.toml"]
--- a/LICENSING.md
+++ b/LICENSING.md
@@ -0,0 +1,17 @@
+# LICENSING
+## Licenses for Versions
+| Version | License       |
+|---------|---------------|
+| 1.0     | NO LICNESE    |
+| 1.1     | NO LICENSE    |
+| 1.2     | NO LICENSE    |
+| 2.0     | NO LICENSE    |
+| 3.0     | TELEMT UL 1   |
+
+### License Types
+- **NO LICENSE** = ***ALL RIGHT RESERVED***
+- **TELEMT UL1** - work in progress license for source code of `telemt`, which encourages:
+  - fair use, 
+  - contributions, 
+  - distribution, 
+  - but prohibits NOT mentioning the authors
--- a/README.md
+++ b/README.md
@@ -2,29 +2,95 @@

 **Telemt** is a fast, secure, and feature-rich server written in Rust: it fully implements the official Telegram proxy algo and adds many production-ready improvements such as connection pooling, replay protection, detailed statistics, masking from "prying" eyes

-## Emergency
-**Важное сообщение для пользователей из России**
+## NEWS and EMERGENCY
+### ✈️ Telemt 3 is released!
+<table>
+<tr>
+<td width="50%" valign="top">

-Мы работаем над проектом с Нового года и сейчас готовим новый релиз - 1.2
+### 🇷🇺 RU

-В нём имплементируется поддержка Middle Proxy Protocol - основного терминатора для Ad Tag:
-работа над ним идёт с 6 ферваля, а уже 10 февраля произошли "громкие события"...
+#### Драфтинг LTS и текущие улучшения

-Если у вас есть компетенции в асинхронных сетевых приложениях - мы открыты к предложениям и pull requests
+С 21 февраля мы начали подготовку LTS-версии.

-**Important message for users from Russia**
+Мы внимательно анализируем весь доступный фидбек.  
+Наша цель — сделать LTS-кандидаты максимально стабильными, тщательно отлаженными и готовыми к long-run и highload production-сценариям.

-We've been working on the project since December 30 and are currently preparing a new release – 1.2
+---

-It implements support for the Middle Proxy Protocol – the primary point for the Ad Tag:
-development on it started on February 6th, and by February 10th, "big activity" in Russia had already "taken place"...
+#### Улучшения от 23 февраля

-If you have expertise in asynchronous network applications – we are open to ideas and pull requests!
+23 февраля были внесены улучшения производительности в режимах **DC** и **Middle-End (ME)**, с акцентом на обратный канал (путь клиент → DC / ME).
+
+Дополнительно реализован ряд изменений, направленных на повышение устойчивости системы:
+
+- Смягчение сетевой нестабильности  
+- Повышение устойчивости к десинхронизации криптографии  
+- Снижение дрейфа сессий при неблагоприятных условиях  
+- Улучшение обработки ошибок в edge-case транспортных сценариях  
+
+Релиз:  
+[3.0.9](https://github.com/telemt/telemt/releases/tag/3.0.9)
+
+---
+
+Если у вас есть компетенции в:
+
+- Асинхронных сетевых приложениях  
+- Анализе трафика  
+- Реверс-инжиниринге  
+- Сетевых расследованиях  
+
+Мы открыты к архитектурным предложениям, идеям и pull requests
+</td>
+<td width="50%" valign="top">
+
+### 🇬🇧 EN
+
+#### LTS Drafting and Ongoing Improvements
+
+Starting February 21, we began drafting the upcoming LTS version.
+
+We are carefully reviewing and analyzing all available feedback.  
+The goal is to ensure that LTS candidates are максимально stable, thoroughly debugged, and ready for long-run and high-load production scenarios.
+
+---
+
+#### February 23 Improvements
+
+On February 23, we introduced performance improvements for both **DC** and **Middle-End (ME)** modes, specifically optimizing the reverse channel (client → DC / ME data path).
+
+Additionally, we implemented a set of robustness enhancements designed to:
+
+- Mitigate network-related instability
+- Improve resilience against cryptographic desynchronization
+- Reduce session drift under adverse conditions
+- Improve error handling in edge-case transport scenarios
+
+Release:  
+[3.0.9](https://github.com/telemt/telemt/releases/tag/3.0.9)
+
+---
+
+If you have expertise in:
+
+- Asynchronous network applications  
+- Traffic analysis  
+- Reverse engineering  
+- Network forensics  
+
+We welcome ideas, architectural feedback, and pull requests.
+</td>
+</tr>
+</table>

 # Features
-💥 The configuration structure has changed since version 1.1.0.0, change it in your environment!
+💥 The configuration structure has changed since version 1.1.0.0. change it in your environment!

-⚓ Our implementation of **TLS-fronting** is one of the most deeply debugged, focused, advanced and *almost* **"behaviorally consistent to real"**:  we are confident we have it right - [see evidence on our validation and traces](#recognizability-for-dpi-and-crawler) 
+⚓ Our implementation of **TLS-fronting** is one of the most deeply debugged, focused, advanced and *almost* **"behaviorally consistent to real"**:  we are confident we have it right - [see evidence on our validation and traces](#recognizability-for-dpi-and-crawler)
+
+⚓ Our ***Middle-End Pool*** is fastest by design in standard scenarios, compared to other implementations of connecting to the Middle-End Proxy: non dramatically, but usual

 # GOTO
 - [Features](#features)
@@ -44,7 +110,9 @@ If you have expertise in asynchronous network applications – we are open to id
  - [Telegram Calls](#telegram-calls-via-mtproxy)
  - [DPI](#how-does-dpi-see-mtproxy-tls)
  - [Whitelist on Network Level](#whitelist-on-ip)
+  - [Too many open files](#too-many-open-files)
 - [Build](#build)
+- [Docker](#docker)
 - [Why Rust?](#why-rust)

 ## Features
@@ -63,7 +131,7 @@ If you have expertise in asynchronous network applications – we are open to id
 **This software is designed for Debian-based OS: in addition to Debian, these are Ubuntu, Mint, Kali, MX and many other Linux**
 1. Download release
 ```bash
-wget https://github.com/telemt/telemt/releases/latest/download/telemt
+wget -qO- "https://github.com/telemt/telemt/releases/latest/download/telemt-$(uname -m)-linux-$(ldd --version 2>&1 | grep -iq musl && echo musl || echo gnu).tar.gz" | tar -xz
 ```
 2. Move to Bin Folder
 ```bash
@@ -128,6 +196,7 @@ Type=simple
 WorkingDirectory=/bin
 ExecStart=/bin/telemt /etc/telemt.toml
 Restart=on-failure
+LimitNOFILE=65536

 [Install]
 WantedBy=multi-user.target
@@ -143,85 +212,23 @@ then Ctrl+X -> Y -> Enter to save
 ## Configuration
 ### Minimal Configuration for First Start
 ```toml
-# === UI ===
-# Users to show in the startup log (tg:// links)
-show_link = ["hello"]
-
 # === General Settings ===
 [general]
-prefer_ipv6 = false
-fast_mode = true
-use_middle_proxy = false
-# ad_tag = "..."
+# ad_tag = "00000000000000000000000000000000"

 [general.modes]
 classic = false
 secure = false
 tls = true

-# === Server Binding ===
-[server]
-port = 443
-listen_addr_ipv4 = "0.0.0.0"
-listen_addr_ipv6 = "::"
-# metrics_port = 9090
-# metrics_whitelist = ["127.0.0.1", "::1"]
-
-# Listen on multiple interfaces/IPs (overrides listen_addr_*)
-[[server.listeners]]
-ip = "0.0.0.0"
-# announce_ip = "1.2.3.4" # Optional: Public IP for tg:// links
-
-[[server.listeners]]
-ip = "::"
-
-# === Timeouts (in seconds) ===
-[timeouts]
-client_handshake = 15
-tg_connect = 10
-client_keepalive = 60
-client_ack = 300
-
 # === Anti-Censorship & Masking ===
 [censorship]
 tls_domain = "petrovich.ru"
-mask = true
-mask_port = 443
-# mask_host = "petrovich.ru" # Defaults to tls_domain if not set
-# mask_unix_sock = "/var/run/nginx.sock" # Unix socket (mutually exclusive with mask_host)
-fake_cert_len = 2048
-
-# === Access Control & Users ===
-# username "hello" is used for example
-[access]
-replay_check_len = 65536
-ignore_time_skew = false

 [access.users]
 # format: "username" = "32_hex_chars_secret"
 hello = "00000000000000000000000000000000"

-# [access.user_max_tcp_conns]
-# hello = 50
-
-# [access.user_data_quota]
-# hello = 1073741824 # 1 GB
-
-# === Upstreams & Routing ===
-# By default, direct connection is used, but you can add SOCKS proxy
-
-# Direct - Default
-[[upstreams]]
-type = "direct"
-enabled = true
-weight = 10
-
-# SOCKS5
-# [[upstreams]]
-# type = "socks5"
-# address = "127.0.0.1:9050"
-# enabled = false
-# weight = 1
 ```
 ### Advanced
 #### Adtag
@@ -377,6 +384,23 @@ Keep-Alive: timeout=60
  - in China behind the Great Firewall
  - in Russia on mobile networks, less in wired networks
  - in Iran during "activity"
+### Too many open files
+- On a fresh Linux install the default open file limit is low; under load `telemt` may fail with `Accept error: Too many open files`
+- **Systemd**: add `LimitNOFILE=65536` to the `[Service]` section (already included in the example above)
+- **Docker**: add `--ulimit nofile=65536:65536` to your `docker run` command, or in `docker-compose.yml`:
+```yaml
+ulimits:
+  nofile:
+    soft: 65536
+    hard: 65536
+```
+- **System-wide** (optional): add to `/etc/security/limits.conf`:
+```
+*       soft    nofile  1048576
+*       hard    nofile  1048576
+root    soft    nofile  1048576
+root    hard    nofile  1048576
+```


 ## Build
@@ -395,9 +419,44 @@ chmod +x /bin/telemt
 telemt config.toml
 ```

+## Docker
+**Quick start (Docker Compose)**
+
+1. Edit `config.toml` in repo root (at least: port, users secrets, tls_domain)
+2. Start container:
+```bash
+docker compose up -d --build
+```
+3. Check logs:
+```bash
+docker compose logs -f telemt
+```
+4. Stop:
+```bash
+docker compose down
+```
+
+**Notes**
+- `docker-compose.yml` maps `./config.toml` to `/app/config.toml` (read-only)
+- By default it publishes `443:443` and runs with dropped capabilities (only `NET_BIND_SERVICE` is added)
+- If you really need host networking (usually only for some IPv6 setups) uncomment `network_mode: host`
+
+**Run without Compose**
+```bash
+docker build -t telemt:local .
+docker run --name telemt --restart unless-stopped \
+  -p 443:443 \
+  -e RUST_LOG=info \
+  -v "$PWD/config.toml:/app/config.toml:ro" \
+  --read-only \
+  --cap-drop ALL --cap-add NET_BIND_SERVICE \
+  --ulimit nofile=65536:65536 \
+  telemt:local
+```
+
 ## Why Rust?
 - Long-running reliability and idempotent behavior
- Rust’s deterministic resource management - RAII 
+- Rust's deterministic resource management - RAII 
 - No garbage collector
 - Memory safety and reduced attack surface
 - Tokio's asynchronous architecture
--- a/ROADMAP.md
+++ b/ROADMAP.md
@@ -0,0 +1,34 @@
+### 3.0.0 Anschluss
+- **Middle Proxy now is stable**, confirmed on canary-deploy over ~20 users
+- Ad-tag now is working
+- DC=203/CDN now is working over ME
+- `getProxyConfig` and `ProxySecret` are automated
+- Version order is now in format `3.0.0` - without Windows-style "microfixes"
+
+### 3.0.1 Kabelsammler
+- Handshake timeouts fixed
+- Connectivity logging refactored
+- Docker: tmpfs for ProxyConfig and ProxySecret
+- Public Host and Port in config
+- ME Relays Head-of-Line Blocking fixed
+- ME Ping
+
+### 3.0.2 Microtrencher
+- New [network] section
+- ME Fixes
+- Small bugs coverage
+
+### 3.0.3 Ausrutscher
+- ME as stateful, no conn-id migration
+- No `flush()` on datapath after RpcWriter
+- Hightech parser for IPv6 without regexp
+- `nat_probe = true` by default
+- Timeout for `recv()` in STUN-client
+- ConnRegistry review
+- Dualstack emergency reconnect
+
+### 3.0.4 Schneeflecken
+- Only WARN and Links in Normal log
+- Consistent IP-family detection
+- Includes for config
+- `nonce_frame_hex` in log only with `DEBUG`
--- a/config.toml
+++ b/config.toml
@@ -1,55 +1,109 @@
-# === UI ===
-# Users to show in the startup log (tg:// links)
-show_link = ["hello"]
-
 # === General Settings ===
 [general]
-prefer_ipv6 = false
 fast_mode = true
 use_middle_proxy = true
-ad_tag = "00000000000000000000000000000000"
+# ad_tag = "00000000000000000000000000000000"
+# Path to proxy-secret binary (auto-downloaded if missing).
+proxy_secret_path = "proxy-secret"
+# disable_colors = false  # Disable colored output in logs (useful for files/systemd)

+# === Log Level ===
 # Log level: debug | verbose | normal | silent
 # Can be overridden with --silent or --log-level CLI flags
 # RUST_LOG env var takes absolute priority over all of these
 log_level = "normal"

+# === Middle Proxy - ME ===
+# Public IP override for ME KDF when behind NAT; leave unset to auto-detect.
+# middle_proxy_nat_ip = "203.0.113.10"
+# Enable STUN probing to discover public IP:port for ME.
+middle_proxy_nat_probe = true
+# Primary STUN server (host:port); defaults to Telegram STUN when empty.
+middle_proxy_nat_stun = "stun.l.google.com:19302"
+# Optional fallback STUN servers list.
+middle_proxy_nat_stun_servers = ["stun1.l.google.com:19302", "stun2.l.google.com:19302"]
+# Desired number of concurrent ME writers in pool.
+middle_proxy_pool_size = 16
+# Pre-initialized warm-standby ME connections kept idle.
+middle_proxy_warm_standby = 8
+# Ignore STUN/interface mismatch and keep ME enabled even if IP differs.
+stun_iface_mismatch_ignore = false
+# Keepalive padding frames - fl==4
+me_keepalive_enabled = true
+me_keepalive_interval_secs = 25           # Period between keepalives
+me_keepalive_jitter_secs = 5              # Jitter added to interval
+me_keepalive_payload_random = true        # Randomize 4-byte payload (vs zeros)
+# Stagger extra ME connections on warmup to de-phase lifecycles.
+me_warmup_stagger_enabled = true
+me_warmup_step_delay_ms = 500             # Base delay between extra connects
+me_warmup_step_jitter_ms = 300            # Jitter for warmup delay
+# Reconnect policy knobs.
+me_reconnect_max_concurrent_per_dc = 1    # Parallel reconnects per DC - EXPERIMENTAL! UNSTABLE!
+me_reconnect_backoff_base_ms = 500        # Backoff start
+me_reconnect_backoff_cap_ms = 30000       # Backoff cap
+me_reconnect_fast_retry_count = 11        # Quick retries before backoff
+
 [general.modes]
 classic = false
 secure = false
 tls = true

+[general.links]
+show = "*"
+# show = ["alice", "bob"] # Only show links for alice and bob
+# show = "*"              # Show links for all users
+# public_host = "proxy.example.com"  # Host (IP or domain) for tg:// links
+# public_port = 443                  # Port for tg:// links (default: server.port)
+
+# === Network Parameters ===
+[network]
+# Enable/disable families: true/false/auto(None)
+ipv4 = true
+ipv6 = false # UNSTABLE WITH ME
+# prefer = 4 or 6
+prefer = 4
+multipath = false # EXPERIMENTAL!
+
 # === Server Binding ===
 [server]
 port = 443
 listen_addr_ipv4 = "0.0.0.0"
 listen_addr_ipv6 = "::"
+# listen_unix_sock = "/var/run/telemt.sock" # Unix socket
+# listen_unix_sock_perm = "0666" # Socket file permissions
+# proxy_protocol = false           # Enable if behind HAProxy/nginx with PROXY protocol
 # metrics_port = 9090
 # metrics_whitelist = ["127.0.0.1", "::1"]

-# Listen on multiple interfaces/IPs (overrides listen_addr_*)
+# Listen on multiple interfaces/IPs - IPv4
 [[server.listeners]]
 ip = "0.0.0.0"
-# announce_ip = "1.2.3.4" # Optional: Public IP for tg:// links

+# Listen on multiple interfaces/IPs - IPv6
 [[server.listeners]]
 ip = "::"

 # === Timeouts (in seconds) ===
 [timeouts]
-client_handshake = 15
+client_handshake = 30
 tg_connect = 10
 client_keepalive = 60
 client_ack = 300
+# Quick ME reconnects for single-address DCs (count and per-attempt timeout, ms).
+me_one_retry = 12
+me_one_timeout_ms = 1200

 # === Anti-Censorship & Masking ===
 [censorship]
 tls_domain = "petrovich.ru"
+# tls_domains = ["example.com", "cdn.example.net"] # Additional domains for EE links
 mask = true
 mask_port = 443
 # mask_host = "petrovich.ru" # Defaults to tls_domain if not set
 # mask_unix_sock = "/var/run/nginx.sock" # Unix socket (mutually exclusive with mask_host)
 fake_cert_len = 2048
+# tls_emulation = false        # Fetch real cert lengths and emulate TLS records
+# tls_front_dir = "tlsfront"   # Cache directory for TLS emulation

 # === Access Control & Users ===
 [access]
@@ -64,17 +118,30 @@ hello = "00000000000000000000000000000000"
 # [access.user_max_tcp_conns]
 # hello = 50

+# [access.user_max_unique_ips]
+# hello = 5
+
 # [access.user_data_quota]
 # hello = 1073741824 # 1 GB

+# [access.user_expirations]
+# format: username = "[year]-[month]-[day]T[hour]:[minute]:[second]Z" UTC
+# hello = "2027-01-01T00:00:00Z"
+
 # === Upstreams & Routing ===
 [[upstreams]]
 type = "direct"
 enabled = true
 weight = 10
+# interface = "192.168.1.100"           # Bind outgoing to specific IP or iface name
+# bind_addresses = ["192.168.1.100"]    # List for round-robin binding (family must match target)

 # [[upstreams]]
 # type = "socks5"
 # address = "127.0.0.1:1080"
 # enabled = false
-# weight = 1
+# weight = 1
+
+# === DC Address Overrides ===
+# [dc_overrides]
+# "203" = "91.105.192.100:443"
--- a/docker-compose.yml
+++ b/docker-compose.yml
@@ -0,0 +1,29 @@
+services:
+  telemt:
+    build: .
+    container_name: telemt
+    restart: unless-stopped
+    ports:
+      - "443:443"
+      - "9090:9090"
+    # Allow caching 'proxy-secret' in read-only container
+    working_dir: /run/telemt
+    volumes:
+      - ./config.toml:/run/telemt/config.toml:ro
+    tmpfs:
+      - /run/telemt:rw,mode=1777,size=1m
+    environment:
+      - RUST_LOG=info
+    # Uncomment this line if you want to use host network for IPv6, but bridge is default and usually better
+    # network_mode: host
+    cap_drop:
+      - ALL
+    cap_add:
+      - NET_BIND_SERVICE   # allow binding to port 443
+    read_only: true
+    security_opt:
+      - no-new-privileges:true
+    ulimits:
+      nofile:
+        soft: 65536
+        hard: 65536
--- a/src/cli.rs
+++ b/src/cli.rs
@@ -189,10 +189,20 @@ r#"# Telemt MTProxy — auto-generated config
 show_link = ["{username}"]

 [general]
+# prefer_ipv6 is deprecated; use [network].prefer
 prefer_ipv6 = false
 fast_mode = true
 use_middle_proxy = false
 log_level = "normal"
+desync_all_full = false
+update_every = 43200
+me_reinit_drain_timeout_secs = 300
+
+[network]
+ipv4 = true
+ipv6 = true
+prefer = 4
+multipath = false

 [general.modes]
 classic = false
@@ -206,6 +216,7 @@ listen_addr_ipv6 = "::"

 [[server.listeners]]
 ip = "0.0.0.0"
+# reuse_allow = false # Set true only when intentionally running multiple telemt instances on same port

 [[server.listeners]]
 ip = "::"
@@ -221,6 +232,7 @@ tls_domain = "{domain}"
 mask = true
 mask_port = 443
 fake_cert_len = 2048
+tls_full_cert_ttl_secs = 90

 [access]
 replay_check_len = 65536
@@ -297,4 +309,4 @@ fn print_links(username: &str, secret: &str, port: u16, domain: &str) {
    println!("The proxy will auto-detect and display the correct link on startup.");
    println!("Check: journalctl -u telemt.service | head -30");
    println!("===================");
-}
+}
--- a/src/config/defaults.rs
+++ b/src/config/defaults.rs
@@ -0,0 +1,226 @@
+use std::net::IpAddr;
+use std::collections::HashMap;
+use ipnetwork::IpNetwork;
+use serde::Deserialize;
+
+// Helper defaults kept private to the config module.
+pub(crate) fn default_true() -> bool {
+    true
+}
+
+pub(crate) fn default_port() -> u16 {
+    443
+}
+
+pub(crate) fn default_tls_domain() -> String {
+    "www.google.com".to_string()
+}
+
+pub(crate) fn default_mask_port() -> u16 {
+    443
+}
+
+pub(crate) fn default_fake_cert_len() -> usize {
+    2048
+}
+
+pub(crate) fn default_tls_front_dir() -> String {
+    "tlsfront".to_string()
+}
+
+pub(crate) fn default_replay_check_len() -> usize {
+    65_536
+}
+
+pub(crate) fn default_replay_window_secs() -> u64 {
+    1800
+}
+
+pub(crate) fn default_handshake_timeout() -> u64 {
+    15
+}
+
+pub(crate) fn default_connect_timeout() -> u64 {
+    10
+}
+
+pub(crate) fn default_keepalive() -> u64 {
+    60
+}
+
+pub(crate) fn default_ack_timeout() -> u64 {
+    300
+}
+pub(crate) fn default_me_one_retry() -> u8 {
+    3
+}
+
+pub(crate) fn default_me_one_timeout() -> u64 {
+    1500
+}
+
+pub(crate) fn default_listen_addr() -> String {
+    "0.0.0.0".to_string()
+}
+
+pub(crate) fn default_weight() -> u16 {
+    1
+}
+
+pub(crate) fn default_metrics_whitelist() -> Vec<IpNetwork> {
+    vec![
+        "127.0.0.1/32".parse().unwrap(),
+        "::1/128".parse().unwrap(),
+    ]
+}
+
+pub(crate) fn default_prefer_4() -> u8 {
+    4
+}
+
+pub(crate) fn default_unknown_dc_log_path() -> Option<String> {
+    Some("unknown-dc.txt".to_string())
+}
+
+pub(crate) fn default_pool_size() -> usize {
+    2
+}
+
+pub(crate) fn default_keepalive_interval() -> u64 {
+    25
+}
+
+pub(crate) fn default_keepalive_jitter() -> u64 {
+    5
+}
+
+pub(crate) fn default_warmup_step_delay_ms() -> u64 {
+    500
+}
+
+pub(crate) fn default_warmup_step_jitter_ms() -> u64 {
+    300
+}
+
+pub(crate) fn default_reconnect_backoff_base_ms() -> u64 {
+    500
+}
+
+pub(crate) fn default_reconnect_backoff_cap_ms() -> u64 {
+    30_000
+}
+
+pub(crate) fn default_crypto_pending_buffer() -> usize {
+    256 * 1024
+}
+
+pub(crate) fn default_max_client_frame() -> usize {
+    16 * 1024 * 1024
+}
+
+pub(crate) fn default_desync_all_full() -> bool {
+    false
+}
+
+pub(crate) fn default_tls_new_session_tickets() -> u8 {
+    0
+}
+
+pub(crate) fn default_tls_full_cert_ttl_secs() -> u64 {
+    90
+}
+
+pub(crate) fn default_server_hello_delay_min_ms() -> u64 {
+    0
+}
+
+pub(crate) fn default_server_hello_delay_max_ms() -> u64 {
+    0
+}
+
+pub(crate) fn default_alpn_enforce() -> bool {
+    true
+}
+
+pub(crate) fn default_stun_servers() -> Vec<String> {
+    vec![
+        "stun.l.google.com:19302".to_string(),
+        "stun1.l.google.com:19302".to_string(),
+        "stun2.l.google.com:19302".to_string(),
+        "stun.stunprotocol.org:3478".to_string(),
+        "stun.voip.eutelia.it:3478".to_string(),
+    ]
+}
+
+pub(crate) fn default_http_ip_detect_urls() -> Vec<String> {
+    vec![
+        "https://ifconfig.me/ip".to_string(),
+        "https://api.ipify.org".to_string(),
+    ]
+}
+
+pub(crate) fn default_cache_public_ip_path() -> String {
+    "cache/public_ip.txt".to_string()
+}
+
+pub(crate) fn default_proxy_secret_reload_secs() -> u64 {
+    12 * 60 * 60
+}
+
+pub(crate) fn default_proxy_config_reload_secs() -> u64 {
+    12 * 60 * 60
+}
+
+pub(crate) fn default_update_every_secs() -> u64 {
+    2 * 60 * 60
+}
+
+pub(crate) fn default_me_reinit_drain_timeout_secs() -> u64 {
+    300
+}
+
+pub(crate) fn default_ntp_check() -> bool {
+    true
+}
+
+pub(crate) fn default_ntp_servers() -> Vec<String> {
+    vec!["pool.ntp.org".to_string()]
+}
+
+pub(crate) fn default_fast_mode_min_tls_record() -> usize {
+    0
+}
+
+pub(crate) fn default_degradation_min_unavailable_dc_groups() -> u8 {
+    2
+}
+
+// Custom deserializer helpers
+
+#[derive(Deserialize)]
+#[serde(untagged)]
+pub(crate) enum OneOrMany {
+    One(String),
+    Many(Vec<String>),
+}
+
+pub(crate) fn deserialize_dc_overrides<'de, D>(
+    deserializer: D,
+) -> std::result::Result<HashMap<String, Vec<String>>, D::Error>
+where
+    D: serde::de::Deserializer<'de>,
+{
+    let raw: HashMap<String, OneOrMany> = HashMap::deserialize(deserializer)?;
+    let mut out = HashMap::new();
+    for (dc, val) in raw {
+        let mut addrs = match val {
+            OneOrMany::One(s) => vec![s],
+            OneOrMany::Many(v) => v,
+        };
+        addrs.retain(|s| !s.trim().is_empty());
+        if !addrs.is_empty() {
+            out.insert(dc, addrs);
+        }
+    }
+    Ok(out)
+}
--- a/src/config/hot_reload.rs
+++ b/src/config/hot_reload.rs
@@ -0,0 +1,451 @@
+//! Hot-reload: watches the config file via inotify (Linux) / FSEvents (macOS)
+//! / ReadDirectoryChangesW (Windows) using the `notify` crate.
+//! SIGHUP is also supported on Unix as an additional manual trigger.
+//!
+//! # What can be reloaded without restart
+//!
+//! | Section   | Field                         | Effect                            |
+//! |-----------|-------------------------------|-----------------------------------|
+//! | `general` | `log_level`                   | Filter updated via `log_level_tx` |
+//! | `general` | `ad_tag`                      | Passed on next connection         |
+//! | `general` | `middle_proxy_pool_size`      | Passed on next connection         |
+//! | `general` | `me_keepalive_*`              | Passed on next connection         |
+//! | `general` | `desync_all_full`             | Applied immediately               |
+//! | `general` | `update_every`                | Applied to ME updater immediately |
+//! | `general` | `me_reinit_drain_timeout_secs`| Applied on next ME map update     |
+//! | `access`  | All user/quota fields         | Effective immediately             |
+//!
+//! Fields that require re-binding sockets (`server.port`, `censorship.*`,
+//! `network.*`, `use_middle_proxy`) are **not** applied; a warning is emitted.
+
+use std::net::IpAddr;
+use std::path::PathBuf;
+use std::sync::Arc;
+
+use notify::{EventKind, RecursiveMode, Watcher, recommended_watcher};
+use tokio::sync::{mpsc, watch};
+use tracing::{error, info, warn};
+
+use crate::config::LogLevel;
+use super::load::ProxyConfig;
+
+// ── Hot fields ────────────────────────────────────────────────────────────────
+
+/// Fields that are safe to swap without restarting listeners.
+#[derive(Debug, Clone, PartialEq)]
+pub struct HotFields {
+    pub log_level:               LogLevel,
+    pub ad_tag:                  Option<String>,
+    pub middle_proxy_pool_size:  usize,
+    pub desync_all_full:         bool,
+    pub update_every_secs:       u64,
+    pub me_reinit_drain_timeout_secs: u64,
+    pub me_keepalive_enabled:    bool,
+    pub me_keepalive_interval_secs: u64,
+    pub me_keepalive_jitter_secs:   u64,
+    pub me_keepalive_payload_random: bool,
+    pub access:                  crate::config::AccessConfig,
+}
+
+impl HotFields {
+    pub fn from_config(cfg: &ProxyConfig) -> Self {
+        Self {
+            log_level:               cfg.general.log_level.clone(),
+            ad_tag:                  cfg.general.ad_tag.clone(),
+            middle_proxy_pool_size:  cfg.general.middle_proxy_pool_size,
+            desync_all_full:         cfg.general.desync_all_full,
+            update_every_secs:       cfg.general.effective_update_every_secs(),
+            me_reinit_drain_timeout_secs: cfg.general.me_reinit_drain_timeout_secs,
+            me_keepalive_enabled:    cfg.general.me_keepalive_enabled,
+            me_keepalive_interval_secs: cfg.general.me_keepalive_interval_secs,
+            me_keepalive_jitter_secs:   cfg.general.me_keepalive_jitter_secs,
+            me_keepalive_payload_random: cfg.general.me_keepalive_payload_random,
+            access:                  cfg.access.clone(),
+        }
+    }
+}
+
+// ── Helpers ───────────────────────────────────────────────────────────────────
+
+/// Warn if any non-hot fields changed (require restart).
+fn warn_non_hot_changes(old: &ProxyConfig, new: &ProxyConfig) {
+    if old.server.port != new.server.port {
+        warn!(
+            "config reload: server.port changed ({} → {}); restart required",
+            old.server.port, new.server.port
+        );
+    }
+    if old.censorship.tls_domain != new.censorship.tls_domain {
+        warn!(
+            "config reload: censorship.tls_domain changed ('{}' → '{}'); restart required",
+            old.censorship.tls_domain, new.censorship.tls_domain
+        );
+    }
+    if old.network.ipv4 != new.network.ipv4 || old.network.ipv6 != new.network.ipv6 {
+        warn!("config reload: network.ipv4/ipv6 changed; restart required");
+    }
+    if old.general.use_middle_proxy != new.general.use_middle_proxy {
+        warn!("config reload: use_middle_proxy changed; restart required");
+    }
+}
+
+/// Resolve the public host for link generation — mirrors the logic in main.rs.
+///
+/// Priority:
+/// 1. `[general.links] public_host` — explicit override in config
+/// 2. `detected_ip_v4` — from STUN/interface probe at startup
+/// 3. `detected_ip_v6` — fallback
+/// 4. `"UNKNOWN"` — warn the user to set `public_host`
+fn resolve_link_host(
+    cfg: &ProxyConfig,
+    detected_ip_v4: Option<IpAddr>,
+    detected_ip_v6: Option<IpAddr>,
+) -> String {
+    if let Some(ref h) = cfg.general.links.public_host {
+        return h.clone();
+    }
+    detected_ip_v4
+        .or(detected_ip_v6)
+        .map(|ip| ip.to_string())
+        .unwrap_or_else(|| {
+            warn!(
+                "config reload: could not determine public IP for proxy links. \
+                 Set [general.links] public_host in config."
+            );
+            "UNKNOWN".to_string()
+        })
+}
+
+/// Print TG proxy links for a single user — mirrors print_proxy_links() in main.rs.
+fn print_user_links(user: &str, secret: &str, host: &str, port: u16, cfg: &ProxyConfig) {
+    info!(target: "telemt::links", "--- New user: {} ---", user);
+    if cfg.general.modes.classic {
+        info!(
+            target: "telemt::links",
+            "  Classic: tg://proxy?server={}&port={}&secret={}",
+            host, port, secret
+        );
+    }
+    if cfg.general.modes.secure {
+        info!(
+            target: "telemt::links",
+            "  DD:      tg://proxy?server={}&port={}&secret=dd{}",
+            host, port, secret
+        );
+    }
+    if cfg.general.modes.tls {
+        let mut domains = vec![cfg.censorship.tls_domain.clone()];
+        for d in &cfg.censorship.tls_domains {
+            if !domains.contains(d) {
+                domains.push(d.clone());
+            }
+        }
+        for domain in &domains {
+            let domain_hex = hex::encode(domain.as_bytes());
+            info!(
+                target: "telemt::links",
+                "  EE-TLS:  tg://proxy?server={}&port={}&secret=ee{}{}",
+                host, port, secret, domain_hex
+            );
+        }
+    }
+    info!(target: "telemt::links", "--------------------");
+}
+
+/// Log all detected changes and emit TG links for new users.
+fn log_changes(
+    old_hot: &HotFields,
+    new_hot: &HotFields,
+    new_cfg: &ProxyConfig,
+    log_tx: &watch::Sender<LogLevel>,
+    detected_ip_v4: Option<IpAddr>,
+    detected_ip_v6: Option<IpAddr>,
+) {
+    if old_hot.log_level != new_hot.log_level {
+        info!(
+            "config reload: log_level: '{}' → '{}'",
+            old_hot.log_level, new_hot.log_level
+        );
+        log_tx.send(new_hot.log_level.clone()).ok();
+    }
+
+    if old_hot.ad_tag != new_hot.ad_tag {
+        info!(
+            "config reload: ad_tag: {} → {}",
+            old_hot.ad_tag.as_deref().unwrap_or("none"),
+            new_hot.ad_tag.as_deref().unwrap_or("none"),
+        );
+    }
+
+    if old_hot.middle_proxy_pool_size != new_hot.middle_proxy_pool_size {
+        info!(
+            "config reload: middle_proxy_pool_size: {} → {}",
+            old_hot.middle_proxy_pool_size, new_hot.middle_proxy_pool_size,
+        );
+    }
+
+    if old_hot.desync_all_full != new_hot.desync_all_full {
+        info!(
+            "config reload: desync_all_full: {} → {}",
+            old_hot.desync_all_full, new_hot.desync_all_full,
+        );
+    }
+
+    if old_hot.update_every_secs != new_hot.update_every_secs {
+        info!(
+            "config reload: update_every(effective): {}s → {}s",
+            old_hot.update_every_secs, new_hot.update_every_secs,
+        );
+    }
+
+    if old_hot.me_reinit_drain_timeout_secs != new_hot.me_reinit_drain_timeout_secs {
+        info!(
+            "config reload: me_reinit_drain_timeout_secs: {}s → {}s",
+            old_hot.me_reinit_drain_timeout_secs, new_hot.me_reinit_drain_timeout_secs,
+        );
+    }
+
+    if old_hot.me_keepalive_enabled        != new_hot.me_keepalive_enabled
+    || old_hot.me_keepalive_interval_secs  != new_hot.me_keepalive_interval_secs
+    || old_hot.me_keepalive_jitter_secs    != new_hot.me_keepalive_jitter_secs
+    || old_hot.me_keepalive_payload_random != new_hot.me_keepalive_payload_random
+    {
+        info!(
+            "config reload: me_keepalive: enabled={} interval={}s jitter={}s random_payload={}",
+            new_hot.me_keepalive_enabled,
+            new_hot.me_keepalive_interval_secs,
+            new_hot.me_keepalive_jitter_secs,
+            new_hot.me_keepalive_payload_random,
+        );
+    }
+
+    if old_hot.access.users != new_hot.access.users {
+        let mut added: Vec<&String> = new_hot.access.users.keys()
+            .filter(|u| !old_hot.access.users.contains_key(*u))
+            .collect();
+        added.sort();
+
+        let mut removed: Vec<&String> = old_hot.access.users.keys()
+            .filter(|u| !new_hot.access.users.contains_key(*u))
+            .collect();
+        removed.sort();
+
+        let mut changed: Vec<&String> = new_hot.access.users.keys()
+            .filter(|u| {
+                old_hot.access.users.get(*u)
+                    .map(|s| s != &new_hot.access.users[*u])
+                    .unwrap_or(false)
+            })
+            .collect();
+        changed.sort();
+
+        if !added.is_empty() {
+            info!(
+                "config reload: users added: [{}]",
+                added.iter().map(|s| s.as_str()).collect::<Vec<_>>().join(", ")
+            );
+            let host = resolve_link_host(new_cfg, detected_ip_v4, detected_ip_v6);
+            let port = new_cfg.general.links.public_port.unwrap_or(new_cfg.server.port);
+            for user in &added {
+                if let Some(secret) = new_hot.access.users.get(*user) {
+                    print_user_links(user, secret, &host, port, new_cfg);
+                }
+            }
+        }
+        if !removed.is_empty() {
+            info!(
+                "config reload: users removed: [{}]",
+                removed.iter().map(|s| s.as_str()).collect::<Vec<_>>().join(", ")
+            );
+        }
+        if !changed.is_empty() {
+            info!(
+                "config reload: users secret changed: [{}]",
+                changed.iter().map(|s| s.as_str()).collect::<Vec<_>>().join(", ")
+            );
+        }
+    }
+
+    if old_hot.access.user_max_tcp_conns != new_hot.access.user_max_tcp_conns {
+        info!(
+            "config reload: user_max_tcp_conns updated ({} entries)",
+            new_hot.access.user_max_tcp_conns.len()
+        );
+    }
+    if old_hot.access.user_expirations != new_hot.access.user_expirations {
+        info!(
+            "config reload: user_expirations updated ({} entries)",
+            new_hot.access.user_expirations.len()
+        );
+    }
+    if old_hot.access.user_data_quota != new_hot.access.user_data_quota {
+        info!(
+            "config reload: user_data_quota updated ({} entries)",
+            new_hot.access.user_data_quota.len()
+        );
+    }
+    if old_hot.access.user_max_unique_ips != new_hot.access.user_max_unique_ips {
+        info!(
+            "config reload: user_max_unique_ips updated ({} entries)",
+            new_hot.access.user_max_unique_ips.len()
+        );
+    }
+}
+
+/// Load config, validate, diff against current, and broadcast if changed.
+fn reload_config(
+    config_path: &PathBuf,
+    config_tx: &watch::Sender<Arc<ProxyConfig>>,
+    log_tx: &watch::Sender<LogLevel>,
+    detected_ip_v4: Option<IpAddr>,
+    detected_ip_v6: Option<IpAddr>,
+) {
+    let new_cfg = match ProxyConfig::load(config_path) {
+        Ok(c) => c,
+        Err(e) => {
+            error!("config reload: failed to parse {:?}: {}", config_path, e);
+            return;
+        }
+    };
+
+    if let Err(e) = new_cfg.validate() {
+        error!("config reload: validation failed: {}; keeping old config", e);
+        return;
+    }
+
+    let old_cfg = config_tx.borrow().clone();
+    let old_hot = HotFields::from_config(&old_cfg);
+    let new_hot = HotFields::from_config(&new_cfg);
+
+    if old_hot == new_hot {
+        return;
+    }
+
+    warn_non_hot_changes(&old_cfg, &new_cfg);
+    log_changes(&old_hot, &new_hot, &new_cfg, log_tx, detected_ip_v4, detected_ip_v6);
+    config_tx.send(Arc::new(new_cfg)).ok();
+}
+
+// ── Public API ────────────────────────────────────────────────────────────────
+
+/// Spawn the hot-reload watcher task.
+///
+/// Uses `notify` (inotify on Linux) to detect file changes instantly.
+/// SIGHUP is also handled on Unix as an additional manual trigger.
+///
+/// `detected_ip_v4` / `detected_ip_v6` are the IPs discovered during the
+/// startup probe — used when generating proxy links for newly added users,
+/// matching the same logic as the startup output.
+pub fn spawn_config_watcher(
+    config_path: PathBuf,
+    initial: Arc<ProxyConfig>,
+    detected_ip_v4: Option<IpAddr>,
+    detected_ip_v6: Option<IpAddr>,
+) -> (watch::Receiver<Arc<ProxyConfig>>, watch::Receiver<LogLevel>) {
+    let initial_level = initial.general.log_level.clone();
+    let (config_tx, config_rx) = watch::channel(initial);
+    let (log_tx, log_rx)       = watch::channel(initial_level);
+
+    // Bridge: sync notify callbacks → async task via mpsc.
+    let (notify_tx, mut notify_rx) = mpsc::channel::<()>(4);
+
+    // Canonicalize so path matches what notify returns (absolute) in events.
+    let config_path = match config_path.canonicalize() {
+        Ok(p) => p,
+        Err(_) => config_path.to_path_buf(),
+    };
+
+    // Watch the parent directory rather than the file itself, because many
+    // editors (vim, nano) and systemd write via rename, which would cause
+    // inotify to lose track of the original inode.
+    let watch_dir = config_path
+        .parent()
+        .unwrap_or_else(|| std::path::Path::new("."))
+        .to_path_buf();
+
+    // ── inotify watcher (instant on local fs) ────────────────────────────
+    let config_file = config_path.clone();
+    let tx_inotify  = notify_tx.clone();
+    let inotify_ok = match recommended_watcher(move |res: notify::Result<notify::Event>| {
+        let Ok(event) = res else { return };
+        let is_our_file = event.paths.iter().any(|p| p == &config_file);
+        if !is_our_file { return; }
+        if matches!(event.kind, EventKind::Modify(_) | EventKind::Create(_) | EventKind::Remove(_)) {
+            let _ = tx_inotify.try_send(());
+        }
+    }) {
+        Ok(mut w) => match w.watch(&watch_dir, RecursiveMode::NonRecursive) {
+            Ok(()) => {
+                info!("config watcher: inotify active on {:?}", config_path);
+                Box::leak(Box::new(w));
+                true
+            }
+            Err(e) => { warn!("config watcher: inotify watch failed: {}", e); false }
+        },
+        Err(e) => { warn!("config watcher: inotify unavailable: {}", e); false }
+    };
+
+    // ── poll watcher (always active, fixes Docker bind mounts / NFS) ─────
+    // inotify does not receive events for files mounted from the host into
+    // a container. PollWatcher compares file contents every 3 s and fires
+    // on any change regardless of the underlying fs.
+    let config_file2 = config_path.clone();
+    let tx_poll      = notify_tx.clone();
+    match notify::poll::PollWatcher::new(
+        move |res: notify::Result<notify::Event>| {
+            let Ok(event) = res else { return };
+            let is_our_file = event.paths.iter().any(|p| p == &config_file2);
+            if !is_our_file { return; }
+            if matches!(event.kind, EventKind::Modify(_) | EventKind::Create(_) | EventKind::Remove(_)) {
+                let _ = tx_poll.try_send(());
+            }
+        },
+        notify::Config::default()
+            .with_poll_interval(std::time::Duration::from_secs(3))
+            .with_compare_contents(true),
+    ) {
+        Ok(mut w) => match w.watch(&config_path, RecursiveMode::NonRecursive) {
+            Ok(()) => {
+                if inotify_ok {
+                    info!("config watcher: poll watcher also active (Docker/NFS safe)");
+                } else {
+                    info!("config watcher: poll watcher active on {:?} (3s interval)", config_path);
+                }
+                Box::leak(Box::new(w));
+            }
+            Err(e) => warn!("config watcher: poll watch failed: {}", e),
+        },
+        Err(e) => warn!("config watcher: poll watcher unavailable: {}", e),
+    }
+
+    // ── event loop ───────────────────────────────────────────────────────
+    tokio::spawn(async move {
+        #[cfg(unix)]
+        let mut sighup = {
+            use tokio::signal::unix::{SignalKind, signal};
+            signal(SignalKind::hangup()).expect("Failed to register SIGHUP handler")
+        };
+
+        loop {
+            #[cfg(unix)]
+            tokio::select! {
+                msg = notify_rx.recv() => {
+                    if msg.is_none() { break; }
+                }
+                _ = sighup.recv() => {
+                    info!("SIGHUP received — reloading {:?}", config_path);
+                }
+            }
+            #[cfg(not(unix))]
+            if notify_rx.recv().await.is_none() { break; }
+
+            // Debounce: drain extra events that arrive within 50 ms.
+            tokio::time::sleep(std::time::Duration::from_millis(50)).await;
+            while notify_rx.try_recv().is_ok() {}
+
+            reload_config(&config_path, &config_tx, &log_tx, detected_ip_v4, detected_ip_v6);
+        }
+    });
+
+    (config_rx, log_rx)
+}
--- a/src/config/load.rs
+++ b/src/config/load.rs
@@ -0,0 +1,442 @@
+use std::collections::HashMap;
+use std::net::IpAddr;
+use std::path::Path;
+
+use rand::Rng;
+use tracing::warn;
+use serde::{Serialize, Deserialize};
+
+use crate::error::{ProxyError, Result};
+
+use super::defaults::*;
+use super::types::*;
+
+fn preprocess_includes(content: &str, base_dir: &Path, depth: u8) -> Result<String> {
+    if depth > 10 {
+        return Err(ProxyError::Config("Include depth > 10".into()));
+    }
+    let mut output = String::with_capacity(content.len());
+    for line in content.lines() {
+        let trimmed = line.trim();
+        if let Some(rest) = trimmed.strip_prefix("include") {
+            let rest = rest.trim();
+            if let Some(rest) = rest.strip_prefix('=') {
+                let path_str = rest.trim().trim_matches('"');
+                let resolved = base_dir.join(path_str);
+                let included = std::fs::read_to_string(&resolved)
+                    .map_err(|e| ProxyError::Config(e.to_string()))?;
+                let included_dir = resolved.parent().unwrap_or(base_dir);
+                output.push_str(&preprocess_includes(&included, included_dir, depth + 1)?);
+                output.push('\n');
+                continue;
+            }
+        }
+        output.push_str(line);
+        output.push('\n');
+    }
+    Ok(output)
+}
+
+fn validate_network_cfg(net: &mut NetworkConfig) -> Result<()> {
+    if !net.ipv4 && matches!(net.ipv6, Some(false)) {
+        return Err(ProxyError::Config(
+            "Both ipv4 and ipv6 are disabled in [network]".to_string(),
+        ));
+    }
+
+    if net.prefer != 4 && net.prefer != 6 {
+        return Err(ProxyError::Config(
+            "network.prefer must be 4 or 6".to_string(),
+        ));
+    }
+
+    if !net.ipv4 && net.prefer == 4 {
+        warn!("prefer=4 but ipv4=false; forcing prefer=6");
+        net.prefer = 6;
+    }
+
+    if matches!(net.ipv6, Some(false)) && net.prefer == 6 {
+        warn!("prefer=6 but ipv6=false; forcing prefer=4");
+        net.prefer = 4;
+    }
+
+    Ok(())
+}
+
+// ============= Main Config =============
+
+#[derive(Debug, Clone, Serialize, Deserialize, Default)]
+pub struct ProxyConfig {
+    #[serde(default)]
+    pub general: GeneralConfig,
+
+    #[serde(default)]
+    pub network: NetworkConfig,
+
+    #[serde(default)]
+    pub server: ServerConfig,
+
+    #[serde(default)]
+    pub timeouts: TimeoutsConfig,
+
+    #[serde(default)]
+    pub censorship: AntiCensorshipConfig,
+
+    #[serde(default)]
+    pub access: AccessConfig,
+
+    #[serde(default)]
+    pub upstreams: Vec<UpstreamConfig>,
+
+    #[serde(default)]
+    pub show_link: ShowLink,
+
+    /// DC address overrides for non-standard DCs (CDN, media, test, etc.)
+    /// Keys are DC indices as strings, values are one or more "ip:port" addresses.
+    /// Matches the C implementation's `proxy_for <dc_id> <ip>:<port>` config directive.
+    /// Example in config.toml:
+    ///   [dc_overrides]
+    ///   "203" = ["149.154.175.100:443", "91.105.192.100:443"]
+    #[serde(default, deserialize_with = "deserialize_dc_overrides")]
+    pub dc_overrides: HashMap<String, Vec<String>>,
+
+    /// Default DC index (1-5) for unmapped non-standard DCs.
+    /// Matches the C implementation's `default <dc_id>` config directive.
+    /// If not set, defaults to 2 (matching Telegram's official `default 2;` in proxy-multi.conf).
+    #[serde(default)]
+    pub default_dc: Option<u8>,
+}
+
+impl ProxyConfig {
+    pub fn load<P: AsRef<Path>>(path: P) -> Result<Self> {
+        let content =
+            std::fs::read_to_string(&path).map_err(|e| ProxyError::Config(e.to_string()))?;
+        let base_dir = path.as_ref().parent().unwrap_or(Path::new("."));
+        let processed = preprocess_includes(&content, base_dir, 0)?;
+
+        let mut config: ProxyConfig =
+            toml::from_str(&processed).map_err(|e| ProxyError::Config(e.to_string()))?;
+
+        if let Some(update_every) = config.general.update_every {
+            if update_every == 0 {
+                return Err(ProxyError::Config(
+                    "general.update_every must be > 0".to_string(),
+                ));
+            }
+        } else {
+            let legacy_secret = config.general.proxy_secret_auto_reload_secs;
+            let legacy_config = config.general.proxy_config_auto_reload_secs;
+            let effective = legacy_secret.min(legacy_config);
+            if effective == 0 {
+                return Err(ProxyError::Config(
+                    "legacy proxy_*_auto_reload_secs values must be > 0 when general.update_every is not set".to_string(),
+                ));
+            }
+
+            if legacy_secret != default_proxy_secret_reload_secs()
+                || legacy_config != default_proxy_config_reload_secs()
+            {
+                warn!(
+                    proxy_secret_auto_reload_secs = legacy_secret,
+                    proxy_config_auto_reload_secs = legacy_config,
+                    effective_update_every_secs = effective,
+                    "proxy_*_auto_reload_secs are deprecated; set general.update_every"
+                );
+            }
+        }
+
+        // Validate secrets.
+        for (user, secret) in &config.access.users {
+            if !secret.chars().all(|c| c.is_ascii_hexdigit()) || secret.len() != 32 {
+                return Err(ProxyError::InvalidSecret {
+                    user: user.clone(),
+                    reason: "Must be 32 hex characters".to_string(),
+                });
+            }
+        }
+
+        // Validate tls_domain.
+        if config.censorship.tls_domain.is_empty() {
+            return Err(ProxyError::Config("tls_domain cannot be empty".to_string()));
+        }
+
+        // Validate mask_unix_sock.
+        if let Some(ref sock_path) = config.censorship.mask_unix_sock {
+            if sock_path.is_empty() {
+                return Err(ProxyError::Config(
+                    "mask_unix_sock cannot be empty".to_string(),
+                ));
+            }
+            #[cfg(unix)]
+            if sock_path.len() > 107 {
+                return Err(ProxyError::Config(format!(
+                    "mask_unix_sock path too long: {} bytes (max 107)",
+                    sock_path.len()
+                )));
+            }
+            #[cfg(not(unix))]
+            return Err(ProxyError::Config(
+                "mask_unix_sock is only supported on Unix platforms".to_string(),
+            ));
+
+            if config.censorship.mask_host.is_some() {
+                return Err(ProxyError::Config(
+                    "mask_unix_sock and mask_host are mutually exclusive".to_string(),
+                ));
+            }
+        }
+
+        // Default mask_host to tls_domain if not set and no unix socket configured.
+        if config.censorship.mask_host.is_none() && config.censorship.mask_unix_sock.is_none() {
+            config.censorship.mask_host = Some(config.censorship.tls_domain.clone());
+        }
+
+        // Merge primary + extra TLS domains, deduplicate (primary always first).
+        if !config.censorship.tls_domains.is_empty() {
+            let mut all = Vec::with_capacity(1 + config.censorship.tls_domains.len());
+            all.push(config.censorship.tls_domain.clone());
+            for d in std::mem::take(&mut config.censorship.tls_domains) {
+                if !d.is_empty() && !all.contains(&d) {
+                    all.push(d);
+                }
+            }
+            // keep primary as tls_domain; store remaining back to tls_domains
+            if all.len() > 1 {
+                config.censorship.tls_domains = all[1..].to_vec();
+            }
+        }
+
+        // Migration: prefer_ipv6 -> network.prefer.
+        if config.general.prefer_ipv6 {
+            if config.network.prefer == 4 {
+                config.network.prefer = 6;
+            }
+            warn!("prefer_ipv6 is deprecated, use [network].prefer = 6");
+        }
+
+        // Auto-enable NAT probe when Middle Proxy is requested.
+        if config.general.use_middle_proxy && !config.general.middle_proxy_nat_probe {
+            config.general.middle_proxy_nat_probe = true;
+            warn!("Auto-enabled middle_proxy_nat_probe for middle proxy mode");
+        }
+
+        validate_network_cfg(&mut config.network)?;
+
+        if config.general.use_middle_proxy && config.network.ipv6 == Some(true) {
+            warn!("IPv6 with Middle Proxy is experimental and may cause KDF address mismatch; consider disabling IPv6 or ME");
+        }
+
+        // Random fake_cert_len only when default is in use.
+        if !config.censorship.tls_emulation && config.censorship.fake_cert_len == default_fake_cert_len() {
+            config.censorship.fake_cert_len = rand::rng().gen_range(1024..4096);
+        }
+
+        // Resolve listen_tcp: explicit value wins, otherwise auto-detect.
+        // If unix socket is set → TCP only when listen_addr_ipv4 or listeners are explicitly provided.
+        // If no unix socket → TCP always (backward compat).
+        let listen_tcp = config.server.listen_tcp.unwrap_or_else(|| {
+            if config.server.listen_unix_sock.is_some() {
+                // Unix socket present: TCP only if user explicitly set addresses or listeners.
+                config.server.listen_addr_ipv4.is_some()
+                    || !config.server.listeners.is_empty()
+            } else {
+                true
+            }
+        });
+
+        // Migration: Populate listeners if empty (skip when listen_tcp = false).
+        if config.server.listeners.is_empty() && listen_tcp {
+            let ipv4_str = config.server.listen_addr_ipv4
+                .as_deref()
+                .unwrap_or("0.0.0.0");
+            if let Ok(ipv4) = ipv4_str.parse::<IpAddr>() {
+                config.server.listeners.push(ListenerConfig {
+                    ip: ipv4,
+                    announce: None,
+                    announce_ip: None,
+                    proxy_protocol: None,
+                    reuse_allow: false,
+                });
+            }
+            if let Some(ipv6_str) = &config.server.listen_addr_ipv6 {
+                if let Ok(ipv6) = ipv6_str.parse::<IpAddr>() {
+                    config.server.listeners.push(ListenerConfig {
+                        ip: ipv6,
+                        announce: None,
+                        announce_ip: None,
+                        proxy_protocol: None,
+                        reuse_allow: false,
+                    });
+                }
+            }
+        }
+
+        // Migration: announce_ip → announce for each listener.
+        for listener in &mut config.server.listeners {
+            if listener.announce.is_none() && listener.announce_ip.is_some() {
+                listener.announce = Some(listener.announce_ip.unwrap().to_string());
+            }
+        }
+
+        // Migration: show_link (top-level) → general.links.show.
+        if !config.show_link.is_empty() && config.general.links.show.is_empty() {
+            config.general.links.show = config.show_link.clone();
+        }
+
+        // Migration: Populate upstreams if empty (Default Direct).
+        if config.upstreams.is_empty() {
+            config.upstreams.push(UpstreamConfig {
+                upstream_type: UpstreamType::Direct { interface: None, bind_addresses: None },
+                weight: 1,
+                enabled: true,
+                scopes: String::new(),
+                selected_scope: String::new(),
+            });
+        }
+
+        // Ensure default DC203 override is present.
+        config
+            .dc_overrides
+            .entry("203".to_string())
+            .or_insert_with(|| vec!["91.105.192.100:443".to_string()]);
+
+        Ok(config)
+    }
+
+    pub fn validate(&self) -> Result<()> {
+        if self.access.users.is_empty() {
+            return Err(ProxyError::Config("No users configured".to_string()));
+        }
+
+        if !self.general.modes.classic && !self.general.modes.secure && !self.general.modes.tls {
+            return Err(ProxyError::Config("No modes enabled".to_string()));
+        }
+
+        if self.censorship.tls_domain.contains(' ') || self.censorship.tls_domain.contains('/') {
+            return Err(ProxyError::Config(format!(
+                "Invalid tls_domain: '{}'. Must be a valid domain name",
+                self.censorship.tls_domain
+            )));
+        }
+
+        if let Some(tag) = &self.general.ad_tag {
+            let zeros = "00000000000000000000000000000000";
+            if tag == zeros {
+                warn!("ad_tag is all zeros; register a valid proxy tag via @MTProxybot to enable sponsored channel");
+            }
+            if tag.len() != 32 || tag.chars().any(|c| !c.is_ascii_hexdigit()) {
+                warn!("ad_tag is not a 32-char hex string; ensure you use value issued by @MTProxybot");
+            }
+        }
+
+        Ok(())
+    }
+}
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    #[test]
+    fn dc_overrides_allow_string_and_array() {
+        let toml = r#"
+            [dc_overrides]
+            "201" = "149.154.175.50:443"
+            "202" = ["149.154.167.51:443", "149.154.175.100:443"]
+        "#;
+        let cfg: ProxyConfig = toml::from_str(toml).unwrap();
+        assert_eq!(cfg.dc_overrides["201"], vec!["149.154.175.50:443"]);
+        assert_eq!(
+            cfg.dc_overrides["202"],
+            vec!["149.154.167.51:443", "149.154.175.100:443"]
+        );
+    }
+
+    #[test]
+    fn dc_overrides_inject_dc203_default() {
+        let toml = r#"
+            [general]
+            use_middle_proxy = false
+
+            [censorship]
+            tls_domain = "example.com"
+
+            [access.users]
+            user = "00000000000000000000000000000000"
+        "#;
+        let dir = std::env::temp_dir();
+        let path = dir.join("telemt_dc_override_test.toml");
+        std::fs::write(&path, toml).unwrap();
+        let cfg = ProxyConfig::load(&path).unwrap();
+        assert!(cfg
+            .dc_overrides
+            .get("203")
+            .map(|v| v.contains(&"91.105.192.100:443".to_string()))
+            .unwrap_or(false));
+        let _ = std::fs::remove_file(path);
+    }
+
+    #[test]
+    fn update_every_overrides_legacy_fields() {
+        let toml = r#"
+            [general]
+            update_every = 123
+            proxy_secret_auto_reload_secs = 700
+            proxy_config_auto_reload_secs = 800
+
+            [censorship]
+            tls_domain = "example.com"
+
+            [access.users]
+            user = "00000000000000000000000000000000"
+        "#;
+        let dir = std::env::temp_dir();
+        let path = dir.join("telemt_update_every_override_test.toml");
+        std::fs::write(&path, toml).unwrap();
+        let cfg = ProxyConfig::load(&path).unwrap();
+        assert_eq!(cfg.general.effective_update_every_secs(), 123);
+        let _ = std::fs::remove_file(path);
+    }
+
+    #[test]
+    fn update_every_fallback_to_legacy_min() {
+        let toml = r#"
+            [general]
+            proxy_secret_auto_reload_secs = 600
+            proxy_config_auto_reload_secs = 120
+
+            [censorship]
+            tls_domain = "example.com"
+
+            [access.users]
+            user = "00000000000000000000000000000000"
+        "#;
+        let dir = std::env::temp_dir();
+        let path = dir.join("telemt_update_every_legacy_min_test.toml");
+        std::fs::write(&path, toml).unwrap();
+        let cfg = ProxyConfig::load(&path).unwrap();
+        assert_eq!(cfg.general.update_every, None);
+        assert_eq!(cfg.general.effective_update_every_secs(), 120);
+        let _ = std::fs::remove_file(path);
+    }
+
+    #[test]
+    fn update_every_zero_is_rejected() {
+        let toml = r#"
+            [general]
+            update_every = 0
+
+            [censorship]
+            tls_domain = "example.com"
+
+            [access.users]
+            user = "00000000000000000000000000000000"
+        "#;
+        let dir = std::env::temp_dir();
+        let path = dir.join("telemt_update_every_zero_test.toml");
+        std::fs::write(&path, toml).unwrap();
+        let err = ProxyConfig::load(&path).unwrap_err().to_string();
+        assert!(err.contains("general.update_every must be > 0"));
+        let _ = std::fs::remove_file(path);
+    }
+}
--- a/src/config/mod.rs
+++ b/src/config/mod.rs
@@ -1,518 +1,9 @@
-//! Configuration
+//! Configuration.

-use crate::error::{ProxyError, Result};
-use chrono::{DateTime, Utc};
-use serde::{Deserialize, Serialize};
-use std::collections::HashMap;
-use std::net::{IpAddr, SocketAddr};
-use std::path::Path;
+pub(crate) mod defaults;
+mod types;
+mod load;
+pub mod hot_reload;

-// ============= Helper Defaults =============
-
-fn default_true() -> bool {
-    true
-}
-fn default_port() -> u16 {
-    443
-}
-fn default_tls_domain() -> String {
-    "www.google.com".to_string()
-}
-fn default_mask_port() -> u16 {
-    443
-}
-fn default_replay_check_len() -> usize {
-    65536
-}
-fn default_replay_window_secs() -> u64 {
-    1800
-}
-fn default_handshake_timeout() -> u64 {
-    15
-}
-fn default_connect_timeout() -> u64 {
-    10
-}
-fn default_keepalive() -> u64 {
-    60
-}
-fn default_ack_timeout() -> u64 {
-    300
-}
-fn default_listen_addr() -> String {
-    "0.0.0.0".to_string()
-}
-fn default_fake_cert_len() -> usize {
-    2048
-}
-fn default_weight() -> u16 {
-    1
-}
-fn default_metrics_whitelist() -> Vec<IpAddr> {
-    vec!["127.0.0.1".parse().unwrap(), "::1".parse().unwrap()]
-}
-
-// ============= Log Level =============
-
-/// Logging verbosity level
-#[derive(Debug, Clone, PartialEq, Serialize, Deserialize, Default)]
-#[serde(rename_all = "lowercase")]
-pub enum LogLevel {
-    /// All messages including trace (trace + debug + info + warn + error)
-    Debug,
-    /// Detailed operational logs (debug + info + warn + error)
-    Verbose,
-    /// Standard operational logs (info + warn + error)
-    #[default]
-    Normal,
-    /// Minimal output: only warnings and errors (warn + error).
-    /// Startup messages (config, DC connectivity, proxy links) are always shown
-    /// via info! before the filter is applied.
-    Silent,
-}
-
-impl LogLevel {
-    /// Convert to tracing EnvFilter directive string
-    pub fn to_filter_str(&self) -> &'static str {
-        match self {
-            LogLevel::Debug => "trace",
-            LogLevel::Verbose => "debug",
-            LogLevel::Normal => "info",
-            LogLevel::Silent => "warn",
-        }
-    }
-
-    /// Parse from a loose string (CLI argument)
-    pub fn from_str_loose(s: &str) -> Self {
-        match s.to_lowercase().as_str() {
-            "debug" | "trace" => LogLevel::Debug,
-            "verbose" => LogLevel::Verbose,
-            "normal" | "info" => LogLevel::Normal,
-            "silent" | "quiet" | "error" | "warn" => LogLevel::Silent,
-            _ => LogLevel::Normal,
-        }
-    }
-}
-
-impl std::fmt::Display for LogLevel {
-    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
-        match self {
-            LogLevel::Debug => write!(f, "debug"),
-            LogLevel::Verbose => write!(f, "verbose"),
-            LogLevel::Normal => write!(f, "normal"),
-            LogLevel::Silent => write!(f, "silent"),
-        }
-    }
-}
-
-// ============= Sub-Configs =============
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct ProxyModes {
-    #[serde(default)]
-    pub classic: bool,
-    #[serde(default)]
-    pub secure: bool,
-    #[serde(default = "default_true")]
-    pub tls: bool,
-}
-
-impl Default for ProxyModes {
-    fn default() -> Self {
-        Self {
-            classic: true,
-            secure: true,
-            tls: true,
-        }
-    }
-}
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct GeneralConfig {
-    #[serde(default)]
-    pub modes: ProxyModes,
-
-    #[serde(default)]
-    pub prefer_ipv6: bool,
-
-    #[serde(default = "default_true")]
-    pub fast_mode: bool,
-
-    #[serde(default)]
-    pub use_middle_proxy: bool,
-
-    #[serde(default)]
-    pub ad_tag: Option<String>,
-
-    /// Path to proxy-secret binary file (auto-downloaded if absent).
-    /// Infrastructure secret from https://core.telegram.org/getProxySecret
-    #[serde(default)]
-    pub proxy_secret_path: Option<String>,
-
-    /// Public IP override for middle-proxy NAT environments.
-    /// When set, this IP is used in ME key derivation and RPC_PROXY_REQ "our_addr".
-    #[serde(default)]
-    pub middle_proxy_nat_ip: Option<IpAddr>,
-
-    /// Enable STUN-based NAT probing to discover public IP:port for ME KDF.
-    #[serde(default)]
-    pub middle_proxy_nat_probe: bool,
-
-    /// Optional STUN server address (host:port) for NAT probing.
-    #[serde(default)]
-    pub middle_proxy_nat_stun: Option<String>,
-
-    #[serde(default)]
-    pub log_level: LogLevel,
-}
-
-impl Default for GeneralConfig {
-    fn default() -> Self {
-        Self {
-            modes: ProxyModes::default(),
-            prefer_ipv6: false,
-            fast_mode: true,
-            use_middle_proxy: false,
-            ad_tag: None,
-            proxy_secret_path: None,
-            middle_proxy_nat_ip: None,
-            middle_proxy_nat_probe: false,
-            middle_proxy_nat_stun: None,
-            log_level: LogLevel::Normal,
-        }
-    }
-}
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct ServerConfig {
-    #[serde(default = "default_port")]
-    pub port: u16,
-
-    #[serde(default = "default_listen_addr")]
-    pub listen_addr_ipv4: String,
-
-    #[serde(default)]
-    pub listen_addr_ipv6: Option<String>,
-
-    #[serde(default)]
-    pub listen_unix_sock: Option<String>,
-
-    #[serde(default)]
-    pub metrics_port: Option<u16>,
-
-    #[serde(default = "default_metrics_whitelist")]
-    pub metrics_whitelist: Vec<IpAddr>,
-
-    #[serde(default)]
-    pub listeners: Vec<ListenerConfig>,
-}
-
-impl Default for ServerConfig {
-    fn default() -> Self {
-        Self {
-            port: default_port(),
-            listen_addr_ipv4: default_listen_addr(),
-            listen_addr_ipv6: Some("::".to_string()),
-            listen_unix_sock: None,
-            metrics_port: None,
-            metrics_whitelist: default_metrics_whitelist(),
-            listeners: Vec::new(),
-        }
-    }
-}
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct TimeoutsConfig {
-    #[serde(default = "default_handshake_timeout")]
-    pub client_handshake: u64,
-
-    #[serde(default = "default_connect_timeout")]
-    pub tg_connect: u64,
-
-    #[serde(default = "default_keepalive")]
-    pub client_keepalive: u64,
-
-    #[serde(default = "default_ack_timeout")]
-    pub client_ack: u64,
-}
-
-impl Default for TimeoutsConfig {
-    fn default() -> Self {
-        Self {
-            client_handshake: default_handshake_timeout(),
-            tg_connect: default_connect_timeout(),
-            client_keepalive: default_keepalive(),
-            client_ack: default_ack_timeout(),
-        }
-    }
-}
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct AntiCensorshipConfig {
-    #[serde(default = "default_tls_domain")]
-    pub tls_domain: String,
-
-    #[serde(default = "default_true")]
-    pub mask: bool,
-
-    #[serde(default)]
-    pub mask_host: Option<String>,
-
-    #[serde(default = "default_mask_port")]
-    pub mask_port: u16,
-
-    #[serde(default)]
-    pub mask_unix_sock: Option<String>,
-
-    #[serde(default = "default_fake_cert_len")]
-    pub fake_cert_len: usize,
-}
-
-impl Default for AntiCensorshipConfig {
-    fn default() -> Self {
-        Self {
-            tls_domain: default_tls_domain(),
-            mask: true,
-            mask_host: None,
-            mask_port: default_mask_port(),
-            mask_unix_sock: None,
-            fake_cert_len: default_fake_cert_len(),
-        }
-    }
-}
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct AccessConfig {
-    #[serde(default)]
-    pub users: HashMap<String, String>,
-
-    #[serde(default)]
-    pub user_max_tcp_conns: HashMap<String, usize>,
-
-    #[serde(default)]
-    pub user_expirations: HashMap<String, DateTime<Utc>>,
-
-    #[serde(default)]
-    pub user_data_quota: HashMap<String, u64>,
-
-    #[serde(default = "default_replay_check_len")]
-    pub replay_check_len: usize,
-
-    #[serde(default = "default_replay_window_secs")]
-    pub replay_window_secs: u64,
-
-    #[serde(default)]
-    pub ignore_time_skew: bool,
-}
-
-impl Default for AccessConfig {
-    fn default() -> Self {
-        let mut users = HashMap::new();
-        users.insert(
-            "default".to_string(),
-            "00000000000000000000000000000000".to_string(),
-        );
-        Self {
-            users,
-            user_max_tcp_conns: HashMap::new(),
-            user_expirations: HashMap::new(),
-            user_data_quota: HashMap::new(),
-            replay_check_len: default_replay_check_len(),
-            replay_window_secs: default_replay_window_secs(),
-            ignore_time_skew: false,
-        }
-    }
-}
-
-// ============= Aux Structures =============
-
-#[derive(Debug, Clone, Serialize, Deserialize, PartialEq)]
-#[serde(tag = "type", rename_all = "lowercase")]
-pub enum UpstreamType {
-    Direct {
-        #[serde(default)]
-        interface: Option<String>,
-    },
-    Socks4 {
-        address: String,
-        #[serde(default)]
-        interface: Option<String>,
-        #[serde(default)]
-        user_id: Option<String>,
-    },
-    Socks5 {
-        address: String,
-        #[serde(default)]
-        interface: Option<String>,
-        #[serde(default)]
-        username: Option<String>,
-        #[serde(default)]
-        password: Option<String>,
-    },
-}
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct UpstreamConfig {
-    #[serde(flatten)]
-    pub upstream_type: UpstreamType,
-    #[serde(default = "default_weight")]
-    pub weight: u16,
-    #[serde(default = "default_true")]
-    pub enabled: bool,
-}
-
-#[derive(Debug, Clone, Serialize, Deserialize)]
-pub struct ListenerConfig {
-    pub ip: IpAddr,
-    #[serde(default)]
-    pub announce_ip: Option<IpAddr>,
-}
-
-// ============= Main Config =============
-
-#[derive(Debug, Clone, Serialize, Deserialize, Default)]
-pub struct ProxyConfig {
-    #[serde(default)]
-    pub general: GeneralConfig,
-
-    #[serde(default)]
-    pub server: ServerConfig,
-
-    #[serde(default)]
-    pub timeouts: TimeoutsConfig,
-
-    #[serde(default)]
-    pub censorship: AntiCensorshipConfig,
-
-    #[serde(default)]
-    pub access: AccessConfig,
-
-    #[serde(default)]
-    pub upstreams: Vec<UpstreamConfig>,
-
-    #[serde(default)]
-    pub show_link: Vec<String>,
-
-    /// DC address overrides for non-standard DCs (CDN, media, test, etc.)
-    /// Keys are DC indices as strings, values are "ip:port" addresses.
-    /// Matches the C implementation's `proxy_for <dc_id> <ip>:<port>` config directive.
-    /// Example in config.toml:
-    ///   [dc_overrides]
-    ///   "203" = "149.154.175.100:443"
-    #[serde(default)]
-    pub dc_overrides: HashMap<String, String>,
-
-    /// Default DC index (1-5) for unmapped non-standard DCs.
-    /// Matches the C implementation's `default <dc_id>` config directive.
-    /// If not set, defaults to 2 (matching Telegram's official `default 2;` in proxy-multi.conf).
-    #[serde(default)]
-    pub default_dc: Option<u8>,
-}
-
-impl ProxyConfig {
-    pub fn load<P: AsRef<Path>>(path: P) -> Result<Self> {
-        let content =
-            std::fs::read_to_string(path).map_err(|e| ProxyError::Config(e.to_string()))?;
-
-        let mut config: ProxyConfig =
-            toml::from_str(&content).map_err(|e| ProxyError::Config(e.to_string()))?;
-
-        // Validate secrets
-        for (user, secret) in &config.access.users {
-            if !secret.chars().all(|c| c.is_ascii_hexdigit()) || secret.len() != 32 {
-                return Err(ProxyError::InvalidSecret {
-                    user: user.clone(),
-                    reason: "Must be 32 hex characters".to_string(),
-                });
-            }
-        }
-
-        // Validate tls_domain
-        if config.censorship.tls_domain.is_empty() {
-            return Err(ProxyError::Config("tls_domain cannot be empty".to_string()));
-        }
-
-        // Validate mask_unix_sock
-        if let Some(ref sock_path) = config.censorship.mask_unix_sock {
-            if sock_path.is_empty() {
-                return Err(ProxyError::Config(
-                    "mask_unix_sock cannot be empty".to_string(),
-                ));
-            }
-            #[cfg(unix)]
-            if sock_path.len() > 107 {
-                return Err(ProxyError::Config(format!(
-                    "mask_unix_sock path too long: {} bytes (max 107)",
-                    sock_path.len()
-                )));
-            }
-            #[cfg(not(unix))]
-            return Err(ProxyError::Config(
-                "mask_unix_sock is only supported on Unix platforms".to_string(),
-            ));
-
-            if config.censorship.mask_host.is_some() {
-                return Err(ProxyError::Config(
-                    "mask_unix_sock and mask_host are mutually exclusive".to_string(),
-                ));
-            }
-        }
-
-        // Default mask_host to tls_domain if not set and no unix socket configured
-        if config.censorship.mask_host.is_none() && config.censorship.mask_unix_sock.is_none() {
-            config.censorship.mask_host = Some(config.censorship.tls_domain.clone());
-        }
-
-        // Random fake_cert_len
-        use rand::Rng;
-        config.censorship.fake_cert_len = rand::rng().gen_range(1024..4096);
-
-        // Migration: Populate listeners if empty
-        if config.server.listeners.is_empty() {
-            if let Ok(ipv4) = config.server.listen_addr_ipv4.parse::<IpAddr>() {
-                config.server.listeners.push(ListenerConfig {
-                    ip: ipv4,
-                    announce_ip: None,
-                });
-            }
-            if let Some(ipv6_str) = &config.server.listen_addr_ipv6 {
-                if let Ok(ipv6) = ipv6_str.parse::<IpAddr>() {
-                    config.server.listeners.push(ListenerConfig {
-                        ip: ipv6,
-                        announce_ip: None,
-                    });
-                }
-            }
-        }
-
-        // Migration: Populate upstreams if empty (Default Direct)
-        if config.upstreams.is_empty() {
-            config.upstreams.push(UpstreamConfig {
-                upstream_type: UpstreamType::Direct { interface: None },
-                weight: 1,
-                enabled: true,
-            });
-        }
-
-        Ok(config)
-    }
-
-    pub fn validate(&self) -> Result<()> {
-        if self.access.users.is_empty() {
-            return Err(ProxyError::Config("No users configured".to_string()));
-        }
-
-        if !self.general.modes.classic && !self.general.modes.secure && !self.general.modes.tls {
-            return Err(ProxyError::Config("No modes enabled".to_string()));
-        }
-
-        if self.censorship.tls_domain.contains(' ') || self.censorship.tls_domain.contains('/') {
-            return Err(ProxyError::Config(format!(
-                "Invalid tls_domain: '{}'. Must be a valid domain name",
-                self.censorship.tls_domain
-            )));
-        }
-
-        Ok(())
-    }
-}
+pub use load::ProxyConfig;
+pub use types::*;
--- a/src/config/types.rs
+++ b/src/config/types.rs
@@ -0,0 +1,741 @@
+use chrono::{DateTime, Utc};
+use ipnetwork::IpNetwork;
+use serde::{Deserialize, Serialize};
+use std::collections::HashMap;
+use std::net::IpAddr;
+
+use super::defaults::*;
+
+// ============= Log Level =============
+
+/// Logging verbosity level.
+#[derive(Debug, Clone, PartialEq, Serialize, Deserialize, Default)]
+#[serde(rename_all = "lowercase")]
+pub enum LogLevel {
+    /// All messages including trace (trace + debug + info + warn + error).
+    Debug,
+    /// Detailed operational logs (debug + info + warn + error).
+    Verbose,
+    /// Standard operational logs (info + warn + error).
+    #[default]
+    Normal,
+    /// Minimal output: only warnings and errors (warn + error).
+    /// Startup messages (config, DC connectivity, proxy links) are always shown
+    /// via info! before the filter is applied.
+    Silent,
+}
+
+impl LogLevel {
+    /// Convert to tracing EnvFilter directive string.
+    pub fn to_filter_str(&self) -> &'static str {
+        match self {
+            LogLevel::Debug => "trace",
+            LogLevel::Verbose => "debug",
+            LogLevel::Normal => "info",
+            LogLevel::Silent => "warn",
+        }
+    }
+
+    /// Parse from a loose string (CLI argument).
+    pub fn from_str_loose(s: &str) -> Self {
+        match s.to_lowercase().as_str() {
+            "debug" | "trace" => LogLevel::Debug,
+            "verbose" => LogLevel::Verbose,
+            "normal" | "info" => LogLevel::Normal,
+            "silent" | "quiet" | "error" | "warn" => LogLevel::Silent,
+            _ => LogLevel::Normal,
+        }
+    }
+}
+
+impl std::fmt::Display for LogLevel {
+    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
+        match self {
+            LogLevel::Debug => write!(f, "debug"),
+            LogLevel::Verbose => write!(f, "verbose"),
+            LogLevel::Normal => write!(f, "normal"),
+            LogLevel::Silent => write!(f, "silent"),
+        }
+    }
+}
+
+// ============= Sub-Configs =============
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct ProxyModes {
+    #[serde(default)]
+    pub classic: bool,
+    #[serde(default)]
+    pub secure: bool,
+    #[serde(default = "default_true")]
+    pub tls: bool,
+}
+
+impl Default for ProxyModes {
+    fn default() -> Self {
+        Self {
+            classic: false,
+            secure: false,
+            tls: true,
+        }
+    }
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct NetworkConfig {
+    #[serde(default = "default_true")]
+    pub ipv4: bool,
+
+    /// None = auto-detect IPv6 availability.
+    #[serde(default)]
+    pub ipv6: Option<bool>,
+
+    /// 4 or 6.
+    #[serde(default = "default_prefer_4")]
+    pub prefer: u8,
+
+    #[serde(default)]
+    pub multipath: bool,
+
+    /// STUN servers list for public IP discovery.
+    #[serde(default = "default_stun_servers")]
+    pub stun_servers: Vec<String>,
+
+    /// Enable TCP STUN fallback when UDP is blocked.
+    #[serde(default)]
+    pub stun_tcp_fallback: bool,
+
+    /// HTTP-based public IP detection endpoints (fallback after STUN).
+    #[serde(default = "default_http_ip_detect_urls")]
+    pub http_ip_detect_urls: Vec<String>,
+
+    /// Cache file path for detected public IP.
+    #[serde(default = "default_cache_public_ip_path")]
+    pub cache_public_ip_path: String,
+}
+
+impl Default for NetworkConfig {
+    fn default() -> Self {
+        Self {
+            ipv4: true,
+            ipv6: Some(false),
+            prefer: 4,
+            multipath: false,
+            stun_servers: default_stun_servers(),
+            stun_tcp_fallback: true,
+            http_ip_detect_urls: default_http_ip_detect_urls(),
+            cache_public_ip_path: default_cache_public_ip_path(),
+        }
+    }
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct GeneralConfig {
+    #[serde(default)]
+    pub modes: ProxyModes,
+
+    #[serde(default)]
+    pub prefer_ipv6: bool,
+
+    #[serde(default = "default_true")]
+    pub fast_mode: bool,
+
+    #[serde(default)]
+    pub use_middle_proxy: bool,
+
+    #[serde(default)]
+    pub ad_tag: Option<String>,
+
+    /// Path to proxy-secret binary file (auto-downloaded if absent).
+    /// Infrastructure secret from https://core.telegram.org/getProxySecret.
+    #[serde(default)]
+    pub proxy_secret_path: Option<String>,
+
+    /// Public IP override for middle-proxy NAT environments.
+    /// When set, this IP is used in ME key derivation and RPC_PROXY_REQ "our_addr".
+    #[serde(default)]
+    pub middle_proxy_nat_ip: Option<IpAddr>,
+
+    /// Enable STUN-based NAT probing to discover public IP:port for ME KDF.
+    #[serde(default)]
+    pub middle_proxy_nat_probe: bool,
+
+    /// Optional STUN server address (host:port) for NAT probing.
+    #[serde(default)]
+    pub middle_proxy_nat_stun: Option<String>,
+
+    /// Optional list of STUN servers for NAT probing fallback.
+    #[serde(default)]
+    pub middle_proxy_nat_stun_servers: Vec<String>,
+
+    /// Desired size of active Middle-Proxy writer pool.
+    #[serde(default = "default_pool_size")]
+    pub middle_proxy_pool_size: usize,
+
+    /// Number of warm standby ME connections kept pre-initialized.
+    #[serde(default)]
+    pub middle_proxy_warm_standby: usize,
+
+    /// Enable ME keepalive padding frames.
+    #[serde(default = "default_true")]
+    pub me_keepalive_enabled: bool,
+
+    /// Keepalive interval in seconds.
+    #[serde(default = "default_keepalive_interval")]
+    pub me_keepalive_interval_secs: u64,
+
+    /// Keepalive jitter in seconds.
+    #[serde(default = "default_keepalive_jitter")]
+    pub me_keepalive_jitter_secs: u64,
+
+    /// Keepalive payload randomized (4 bytes); otherwise zeros.
+    #[serde(default = "default_true")]
+    pub me_keepalive_payload_random: bool,
+
+    /// Max pending ciphertext buffer per client writer (bytes).
+    /// Controls FakeTLS backpressure vs throughput.
+    #[serde(default = "default_crypto_pending_buffer")]
+    pub crypto_pending_buffer: usize,
+
+    /// Maximum allowed client MTProto frame size (bytes).
+    #[serde(default = "default_max_client_frame")]
+    pub max_client_frame: usize,
+
+    /// Emit full crypto-desync forensic logs for every event.
+    /// When false, full forensic details are emitted once per key window.
+    #[serde(default = "default_desync_all_full")]
+    pub desync_all_full: bool,
+
+    /// Enable staggered warmup of extra ME writers.
+    #[serde(default = "default_true")]
+    pub me_warmup_stagger_enabled: bool,
+
+    /// Base delay between warmup connections in ms.
+    #[serde(default = "default_warmup_step_delay_ms")]
+    pub me_warmup_step_delay_ms: u64,
+
+    /// Jitter for warmup delay in ms.
+    #[serde(default = "default_warmup_step_jitter_ms")]
+    pub me_warmup_step_jitter_ms: u64,
+
+    /// Max concurrent reconnect attempts per DC.
+    #[serde(default)]
+    pub me_reconnect_max_concurrent_per_dc: u32,
+
+    /// Base backoff in ms for reconnect.
+    #[serde(default = "default_reconnect_backoff_base_ms")]
+    pub me_reconnect_backoff_base_ms: u64,
+
+    /// Cap backoff in ms for reconnect.
+    #[serde(default = "default_reconnect_backoff_cap_ms")]
+    pub me_reconnect_backoff_cap_ms: u64,
+
+    /// Fast retry attempts before backoff.
+    #[serde(default)]
+    pub me_reconnect_fast_retry_count: u32,
+
+    /// Ignore STUN/interface IP mismatch (keep using Middle Proxy even if NAT detected).
+    #[serde(default)]
+    pub stun_iface_mismatch_ignore: bool,
+
+    /// Log unknown (non-standard) DC requests to a file (default: unknown-dc.txt). Set to null to disable.
+    #[serde(default = "default_unknown_dc_log_path")]
+    pub unknown_dc_log_path: Option<String>,
+
+    #[serde(default)]
+    pub log_level: LogLevel,
+
+    /// Disable colored output in logs (useful for files/systemd).
+    #[serde(default)]
+    pub disable_colors: bool,
+
+    /// [general.links] — proxy link generation overrides.
+    #[serde(default)]
+    pub links: LinksConfig,
+
+    /// Minimum TLS record size when fast_mode coalescing is enabled (0 = disabled).
+    #[serde(default = "default_fast_mode_min_tls_record")]
+    pub fast_mode_min_tls_record: usize,
+
+    /// Unified ME updater interval in seconds for getProxyConfig/getProxyConfigV6/getProxySecret.
+    /// When omitted, effective value falls back to legacy proxy_*_auto_reload_secs fields.
+    #[serde(default)]
+    pub update_every: Option<u64>,
+
+    /// Drain timeout in seconds for stale ME writers after endpoint map changes.
+    /// Set to 0 to keep stale writers draining indefinitely (no force-close).
+    #[serde(default = "default_me_reinit_drain_timeout_secs")]
+    pub me_reinit_drain_timeout_secs: u64,
+
+    /// Deprecated legacy setting; kept for backward compatibility fallback.
+    /// Use `update_every` instead.
+    #[serde(default = "default_proxy_secret_reload_secs")]
+    pub proxy_secret_auto_reload_secs: u64,
+
+    /// Deprecated legacy setting; kept for backward compatibility fallback.
+    /// Use `update_every` instead.
+    #[serde(default = "default_proxy_config_reload_secs")]
+    pub proxy_config_auto_reload_secs: u64,
+
+    /// Enable NTP drift check at startup.
+    #[serde(default = "default_ntp_check")]
+    pub ntp_check: bool,
+
+    /// NTP servers for drift check.
+    #[serde(default = "default_ntp_servers")]
+    pub ntp_servers: Vec<String>,
+
+    /// Enable auto-degradation from ME to Direct-DC.
+    #[serde(default = "default_true")]
+    pub auto_degradation_enabled: bool,
+
+    /// Minimum unavailable ME DC groups before degrading.
+    #[serde(default = "default_degradation_min_unavailable_dc_groups")]
+    pub degradation_min_unavailable_dc_groups: u8,
+}
+
+impl Default for GeneralConfig {
+    fn default() -> Self {
+        Self {
+            modes: ProxyModes::default(),
+            prefer_ipv6: false,
+            fast_mode: true,
+            use_middle_proxy: false,
+            ad_tag: None,
+            proxy_secret_path: None,
+            middle_proxy_nat_ip: None,
+            middle_proxy_nat_probe: false,
+            middle_proxy_nat_stun: None,
+            middle_proxy_nat_stun_servers: Vec::new(),
+            middle_proxy_pool_size: default_pool_size(),
+            middle_proxy_warm_standby: 8,
+            me_keepalive_enabled: true,
+            me_keepalive_interval_secs: default_keepalive_interval(),
+            me_keepalive_jitter_secs: default_keepalive_jitter(),
+            me_keepalive_payload_random: true,
+            me_warmup_stagger_enabled: true,
+            me_warmup_step_delay_ms: default_warmup_step_delay_ms(),
+            me_warmup_step_jitter_ms: default_warmup_step_jitter_ms(),
+            me_reconnect_max_concurrent_per_dc: 4,
+            me_reconnect_backoff_base_ms: default_reconnect_backoff_base_ms(),
+            me_reconnect_backoff_cap_ms: default_reconnect_backoff_cap_ms(),
+            me_reconnect_fast_retry_count: 8,
+            stun_iface_mismatch_ignore: false,
+            unknown_dc_log_path: default_unknown_dc_log_path(),
+            log_level: LogLevel::Normal,
+            disable_colors: false,
+            links: LinksConfig::default(),
+            crypto_pending_buffer: default_crypto_pending_buffer(),
+            max_client_frame: default_max_client_frame(),
+            desync_all_full: default_desync_all_full(),
+            fast_mode_min_tls_record: default_fast_mode_min_tls_record(),
+            update_every: Some(default_update_every_secs()),
+            me_reinit_drain_timeout_secs: default_me_reinit_drain_timeout_secs(),
+            proxy_secret_auto_reload_secs: default_proxy_secret_reload_secs(),
+            proxy_config_auto_reload_secs: default_proxy_config_reload_secs(),
+            ntp_check: default_ntp_check(),
+            ntp_servers: default_ntp_servers(),
+            auto_degradation_enabled: true,
+            degradation_min_unavailable_dc_groups: default_degradation_min_unavailable_dc_groups(),
+        }
+    }
+}
+
+impl GeneralConfig {
+    /// Resolve the active updater interval for ME infrastructure refresh tasks.
+    /// `update_every` has priority, otherwise legacy proxy_*_auto_reload_secs are used.
+    pub fn effective_update_every_secs(&self) -> u64 {
+        self.update_every
+            .unwrap_or_else(|| self.proxy_secret_auto_reload_secs.min(self.proxy_config_auto_reload_secs))
+    }
+}
+
+/// `[general.links]` — proxy link generation settings.
+#[derive(Debug, Clone, Serialize, Deserialize, Default)]
+pub struct LinksConfig {
+    /// List of usernames whose tg:// links to display at startup.
+    /// `"*"` = all users, `["alice", "bob"]` = specific users.
+    #[serde(default)]
+    pub show: ShowLink,
+
+    /// Public hostname/IP for tg:// link generation (overrides detected IP).
+    #[serde(default)]
+    pub public_host: Option<String>,
+
+    /// Public port for tg:// link generation (overrides server.port).
+    #[serde(default)]
+    pub public_port: Option<u16>,
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct ServerConfig {
+    #[serde(default = "default_port")]
+    pub port: u16,
+
+    #[serde(default)]
+    pub listen_addr_ipv4: Option<String>,
+
+    #[serde(default)]
+    pub listen_addr_ipv6: Option<String>,
+
+    #[serde(default)]
+    pub listen_unix_sock: Option<String>,
+
+    /// Unix socket file permissions (octal, e.g. "0666" or "0777").
+    /// Applied via chmod after bind. Default: no change (inherits umask).
+    #[serde(default)]
+    pub listen_unix_sock_perm: Option<String>,
+
+    /// Enable TCP listening. Default: true when no unix socket, false when
+    /// listen_unix_sock is set. Set explicitly to override auto-detection.
+    #[serde(default)]
+    pub listen_tcp: Option<bool>,
+
+    /// Accept HAProxy PROXY protocol headers on incoming connections.
+    /// When enabled, real client IPs are extracted from PROXY v1/v2 headers.
+    #[serde(default)]
+    pub proxy_protocol: bool,
+
+    #[serde(default)]
+    pub metrics_port: Option<u16>,
+
+    #[serde(default = "default_metrics_whitelist")]
+    pub metrics_whitelist: Vec<IpNetwork>,
+
+    #[serde(default)]
+    pub listeners: Vec<ListenerConfig>,
+}
+
+impl Default for ServerConfig {
+    fn default() -> Self {
+        Self {
+            port: default_port(),
+            listen_addr_ipv4: Some(default_listen_addr()),
+            listen_addr_ipv6: Some("::".to_string()),
+            listen_unix_sock: None,
+            listen_unix_sock_perm: None,
+            listen_tcp: None,
+            proxy_protocol: false,
+            metrics_port: None,
+            metrics_whitelist: default_metrics_whitelist(),
+            listeners: Vec::new(),
+        }
+    }
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct TimeoutsConfig {
+    #[serde(default = "default_handshake_timeout")]
+    pub client_handshake: u64,
+
+    #[serde(default = "default_connect_timeout")]
+    pub tg_connect: u64,
+
+    #[serde(default = "default_keepalive")]
+    pub client_keepalive: u64,
+
+    #[serde(default = "default_ack_timeout")]
+    pub client_ack: u64,
+
+    /// Number of quick ME reconnect attempts for single-address DC.
+    #[serde(default = "default_me_one_retry")]
+    pub me_one_retry: u8,
+
+    /// Timeout per quick attempt in milliseconds for single-address DC.
+    #[serde(default = "default_me_one_timeout")]
+    pub me_one_timeout_ms: u64,
+}
+
+impl Default for TimeoutsConfig {
+    fn default() -> Self {
+        Self {
+            client_handshake: default_handshake_timeout(),
+            tg_connect: default_connect_timeout(),
+            client_keepalive: default_keepalive(),
+            client_ack: default_ack_timeout(),
+            me_one_retry: default_me_one_retry(),
+            me_one_timeout_ms: default_me_one_timeout(),
+        }
+    }
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct AntiCensorshipConfig {
+    #[serde(default = "default_tls_domain")]
+    pub tls_domain: String,
+
+    /// Additional TLS domains for generating multiple proxy links.
+    #[serde(default)]
+    pub tls_domains: Vec<String>,
+
+    #[serde(default = "default_true")]
+    pub mask: bool,
+
+    #[serde(default)]
+    pub mask_host: Option<String>,
+
+    #[serde(default = "default_mask_port")]
+    pub mask_port: u16,
+
+    #[serde(default)]
+    pub mask_unix_sock: Option<String>,
+
+    #[serde(default = "default_fake_cert_len")]
+    pub fake_cert_len: usize,
+
+    /// Enable TLS certificate emulation using cached real certificates.
+    #[serde(default)]
+    pub tls_emulation: bool,
+
+    /// Directory to store TLS front cache (on disk).
+    #[serde(default = "default_tls_front_dir")]
+    pub tls_front_dir: String,
+
+    /// Minimum server_hello delay in milliseconds (anti-fingerprint).
+    #[serde(default = "default_server_hello_delay_min_ms")]
+    pub server_hello_delay_min_ms: u64,
+
+    /// Maximum server_hello delay in milliseconds.
+    #[serde(default = "default_server_hello_delay_max_ms")]
+    pub server_hello_delay_max_ms: u64,
+
+    /// Number of NewSessionTicket messages to emit post-handshake.
+    #[serde(default = "default_tls_new_session_tickets")]
+    pub tls_new_session_tickets: u8,
+
+    /// TTL in seconds for sending full certificate payload per client IP.
+    /// First client connection per (SNI domain, client IP) gets full cert payload.
+    /// Subsequent handshakes within TTL use compact cert metadata payload.
+    #[serde(default = "default_tls_full_cert_ttl_secs")]
+    pub tls_full_cert_ttl_secs: u64,
+
+    /// Enforce ALPN echo of client preference.
+    #[serde(default = "default_alpn_enforce")]
+    pub alpn_enforce: bool,
+}
+
+impl Default for AntiCensorshipConfig {
+    fn default() -> Self {
+        Self {
+            tls_domain: default_tls_domain(),
+            tls_domains: Vec::new(),
+            mask: true,
+            mask_host: None,
+            mask_port: default_mask_port(),
+            mask_unix_sock: None,
+            fake_cert_len: default_fake_cert_len(),
+            tls_emulation: false,
+            tls_front_dir: default_tls_front_dir(),
+            server_hello_delay_min_ms: default_server_hello_delay_min_ms(),
+            server_hello_delay_max_ms: default_server_hello_delay_max_ms(),
+            tls_new_session_tickets: default_tls_new_session_tickets(),
+            tls_full_cert_ttl_secs: default_tls_full_cert_ttl_secs(),
+            alpn_enforce: default_alpn_enforce(),
+        }
+    }
+}
+
+#[derive(Debug, Clone, PartialEq, Serialize, Deserialize)]
+pub struct AccessConfig {
+    #[serde(default)]
+    pub users: HashMap<String, String>,
+
+    #[serde(default)]
+    pub user_max_tcp_conns: HashMap<String, usize>,
+
+    #[serde(default)]
+    pub user_expirations: HashMap<String, DateTime<Utc>>,
+
+    #[serde(default)]
+    pub user_data_quota: HashMap<String, u64>,
+
+    #[serde(default)]
+    pub user_max_unique_ips: HashMap<String, usize>,
+
+    #[serde(default = "default_replay_check_len")]
+    pub replay_check_len: usize,
+
+    #[serde(default = "default_replay_window_secs")]
+    pub replay_window_secs: u64,
+
+    #[serde(default)]
+    pub ignore_time_skew: bool,
+}
+
+impl Default for AccessConfig {
+    fn default() -> Self {
+        let mut users = HashMap::new();
+        users.insert(
+            "default".to_string(),
+            "00000000000000000000000000000000".to_string(),
+        );
+        Self {
+            users,
+            user_max_tcp_conns: HashMap::new(),
+            user_expirations: HashMap::new(),
+            user_data_quota: HashMap::new(),
+            user_max_unique_ips: HashMap::new(),
+            replay_check_len: default_replay_check_len(),
+            replay_window_secs: default_replay_window_secs(),
+            ignore_time_skew: false,
+        }
+    }
+}
+
+// ============= Aux Structures =============
+
+#[derive(Debug, Clone, Serialize, Deserialize, PartialEq)]
+#[serde(tag = "type", rename_all = "lowercase")]
+pub enum UpstreamType {
+    Direct {
+        #[serde(default)]
+        interface: Option<String>,
+        #[serde(default)]
+        bind_addresses: Option<Vec<String>>,
+    },
+    Socks4 {
+        address: String,
+        #[serde(default)]
+        interface: Option<String>,
+        #[serde(default)]
+        user_id: Option<String>,
+    },
+    Socks5 {
+        address: String,
+        #[serde(default)]
+        interface: Option<String>,
+        #[serde(default)]
+        username: Option<String>,
+        #[serde(default)]
+        password: Option<String>,
+    },
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct UpstreamConfig {
+    #[serde(flatten)]
+    pub upstream_type: UpstreamType,
+    #[serde(default = "default_weight")]
+    pub weight: u16,
+    #[serde(default = "default_true")]
+    pub enabled: bool,
+    #[serde(default)]
+    pub scopes: String,
+    #[serde(skip)]
+    pub selected_scope: String,
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct ListenerConfig {
+    pub ip: IpAddr,
+    /// IP address or hostname to announce in proxy links.
+    /// Takes precedence over `announce_ip` if both are set.
+    #[serde(default)]
+    pub announce: Option<String>,
+    /// Deprecated: Use `announce` instead. IP address to announce in proxy links.
+    /// Migrated to `announce` automatically if `announce` is not set.
+    #[serde(default)]
+    pub announce_ip: Option<IpAddr>,
+    /// Per-listener PROXY protocol override. When set, overrides global server.proxy_protocol.
+    #[serde(default)]
+    pub proxy_protocol: Option<bool>,
+    /// Allow multiple telemt instances to listen on the same IP:port (SO_REUSEPORT).
+    /// Default is false for safety.
+    #[serde(default)]
+    pub reuse_allow: bool,
+}
+
+// ============= ShowLink =============
+
+/// Controls which users' proxy links are displayed at startup.
+///
+/// In TOML, this can be:
+/// - `show_link = "*"`          — show links for all users
+/// - `show_link = ["a", "b"]`   — show links for specific users
+/// - omitted                    — show no links (default)
+#[derive(Debug, Clone)]
+pub enum ShowLink {
+    /// Don't show any links (default when omitted).
+    None,
+    /// Show links for all configured users.
+    All,
+    /// Show links for specific users.
+    Specific(Vec<String>),
+}
+
+impl Default for ShowLink {
+    fn default() -> Self {
+        ShowLink::None
+    }
+}
+
+impl ShowLink {
+    /// Returns true if no links should be shown.
+    pub fn is_empty(&self) -> bool {
+        matches!(self, ShowLink::None) || matches!(self, ShowLink::Specific(v) if v.is_empty())
+    }
+
+    /// Resolve the list of user names to display, given all configured users.
+    pub fn resolve_users<'a>(&'a self, all_users: &'a HashMap<String, String>) -> Vec<&'a String> {
+        match self {
+            ShowLink::None => vec![],
+            ShowLink::All => {
+                let mut names: Vec<&String> = all_users.keys().collect();
+                names.sort();
+                names
+            }
+            ShowLink::Specific(names) => names.iter().collect(),
+        }
+    }
+}
+
+impl Serialize for ShowLink {
+    fn serialize<S: serde::Serializer>(&self, serializer: S) -> std::result::Result<S::Ok, S::Error> {
+        match self {
+            ShowLink::None => Vec::<String>::new().serialize(serializer),
+            ShowLink::All => serializer.serialize_str("*"),
+            ShowLink::Specific(v) => v.serialize(serializer),
+        }
+    }
+}
+
+impl<'de> Deserialize<'de> for ShowLink {
+    fn deserialize<D: serde::Deserializer<'de>>(deserializer: D) -> std::result::Result<Self, D::Error> {
+        use serde::de;
+
+        struct ShowLinkVisitor;
+
+        impl<'de> de::Visitor<'de> for ShowLinkVisitor {
+            type Value = ShowLink;
+
+            fn expecting(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result {
+                formatter.write_str(r#""*" or an array of user names"#)
+            }
+
+            fn visit_str<E: de::Error>(self, v: &str) -> std::result::Result<ShowLink, E> {
+                if v == "*" {
+                    Ok(ShowLink::All)
+                } else {
+                    Err(de::Error::invalid_value(
+                        de::Unexpected::Str(v),
+                        &r#""*""#,
+                    ))
+                }
+            }
+
+            fn visit_seq<A: de::SeqAccess<'de>>(self, mut seq: A) -> std::result::Result<ShowLink, A::Error> {
+                let mut names = Vec::new();
+                while let Some(name) = seq.next_element::<String>()? {
+                    names.push(name);
+                }
+                if names.is_empty() {
+                    Ok(ShowLink::None)
+                } else {
+                    Ok(ShowLink::Specific(names))
+                }
+            }
+        }
+
+        deserializer.deserialize_any(ShowLinkVisitor)
+    }
+}
--- a/src/crypto/hash.rs
+++ b/src/crypto/hash.rs
@@ -55,6 +55,11 @@ pub fn crc32(data: &[u8]) -> u32 {
    crc32fast::hash(data)
 }

+/// CRC32C (Castagnoli)
+pub fn crc32c(data: &[u8]) -> u32 {
+    crc32c::crc32c(data)
+}
+
 /// Build the exact prekey buffer used by Telegram Middle Proxy KDF.
 ///
 /// Returned buffer layout (IPv4):
@@ -172,7 +177,7 @@ mod tests {
        let digest = sha256(&prekey);
        assert_eq!(
            hex::encode(digest),
-            "a4595b75f1f610f2575ace802ddc65c91b5acef3b0e0d18189e0c7c9f787d15c"
+            "934f5facdafd65a44d5c2df90d2f35ddc81faaaeb337949dfeef817c8a7c1e00"
        );
    }
 }
--- a/src/crypto/mod.rs
+++ b/src/crypto/mod.rs
@@ -5,5 +5,8 @@ pub mod hash;
 pub mod random;

 pub use aes::{AesCtr, AesCbc};
-pub use hash::{sha256, sha256_hmac, sha1, md5, crc32, derive_middleproxy_keys, build_middleproxy_prekey};
+pub use hash::{
+    build_middleproxy_prekey, crc32, crc32c, derive_middleproxy_keys, md5, sha1, sha256,
+    sha256_hmac,
+};
 pub use random::SecureRandom;
--- a/src/crypto/random.rs
+++ b/src/crypto/random.rs
@@ -11,6 +11,9 @@ pub struct SecureRandom {
    inner: Mutex<SecureRandomInner>,
 }

+unsafe impl Send for SecureRandom {}
+unsafe impl Sync for SecureRandom {}
+
 struct SecureRandomInner {
    rng: StdRng,
    cipher: AesCtr,
@@ -46,19 +49,32 @@ impl SecureRandom {
        }
    }
    
-    /// Generate random bytes
-    pub fn bytes(&self, len: usize) -> Vec<u8> {
+    /// Fill a caller-provided buffer with random bytes.
+    pub fn fill(&self, out: &mut [u8]) {
        let mut inner = self.inner.lock();
        const CHUNK_SIZE: usize = 512;
-        
-        while inner.buffer.len() < len {
-            let mut chunk = vec![0u8; CHUNK_SIZE];
-            inner.rng.fill_bytes(&mut chunk);
-            inner.cipher.apply(&mut chunk);
-            inner.buffer.extend_from_slice(&chunk);
+
+        let mut written = 0usize;
+        while written < out.len() {
+            if inner.buffer.is_empty() {
+                let mut chunk = vec![0u8; CHUNK_SIZE];
+                inner.rng.fill_bytes(&mut chunk);
+                inner.cipher.apply(&mut chunk);
+                inner.buffer.extend_from_slice(&chunk);
+            }
+
+            let take = (out.len() - written).min(inner.buffer.len());
+            out[written..written + take].copy_from_slice(&inner.buffer[..take]);
+            inner.buffer.drain(..take);
+            written += take;
        }
-        
-        inner.buffer.drain(..len).collect()
+    }
+
+    /// Generate random bytes
+    pub fn bytes(&self, len: usize) -> Vec<u8> {
+        let mut out = vec![0u8; len];
+        self.fill(&mut out);
+        out
    }
    
    /// Generate random number in range [0, max)
@@ -211,4 +227,4 @@ mod tests {
        
        assert_ne!(shuffled, original);
    }
-}
+}
--- a/src/ip_tracker.rs
+++ b/src/ip_tracker.rs
@@ -0,0 +1,462 @@
+// src/ip_tracker.rs
+// Модуль для отслеживания и ограничения уникальных IP-адресов пользователей
+
+use std::collections::{HashMap, HashSet};
+use std::net::IpAddr;
+use std::sync::Arc;
+use tokio::sync::RwLock;
+
+/// Трекер уникальных IP-адресов для каждого пользователя MTProxy
+/// 
+/// Предоставляет thread-safe механизм для:
+/// - Отслеживания активных IP-адресов каждого пользователя
+/// - Ограничения количества уникальных IP на пользователя
+/// - Автоматической очистки при отключении клиентов
+#[derive(Debug, Clone)]
+pub struct UserIpTracker {
+    /// Маппинг: Имя пользователя -> Множество активных IP-адресов
+    active_ips: Arc<RwLock<HashMap<String, HashSet<IpAddr>>>>,
+    
+    /// Маппинг: Имя пользователя -> Максимально разрешенное количество уникальных IP
+    max_ips: Arc<RwLock<HashMap<String, usize>>>,
+}
+
+impl UserIpTracker {
+    /// Создать новый пустой трекер
+    pub fn new() -> Self {
+        Self {
+            active_ips: Arc::new(RwLock::new(HashMap::new())),
+            max_ips: Arc::new(RwLock::new(HashMap::new())),
+        }
+    }
+
+    /// Установить лимит уникальных IP для конкретного пользователя
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    /// * `max_ips` - Максимальное количество одновременно активных IP-адресов
+    pub async fn set_user_limit(&self, username: &str, max_ips: usize) {
+        let mut limits = self.max_ips.write().await;
+        limits.insert(username.to_string(), max_ips);
+    }
+
+    /// Загрузить лимиты из конфигурации
+    /// 
+    /// # Arguments
+    /// * `limits` - HashMap с лимитами из config.toml
+    pub async fn load_limits(&self, limits: &HashMap<String, usize>) {
+        let mut max_ips = self.max_ips.write().await;
+        for (user, limit) in limits {
+            max_ips.insert(user.clone(), *limit);
+        }
+    }
+
+    /// Проверить, может ли пользователь подключиться с данного IP-адреса
+    /// и добавить IP в список активных, если проверка успешна
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    /// * `ip` - IP-адрес клиента
+    /// 
+    /// # Returns
+    /// * `Ok(())` - Подключение разрешено, IP добавлен в активные
+    /// * `Err(String)` - Подключение отклонено с описанием причины
+    pub async fn check_and_add(&self, username: &str, ip: IpAddr) -> Result<(), String> {
+        // Получаем лимит для пользователя
+        let max_ips = self.max_ips.read().await;
+        let limit = match max_ips.get(username) {
+            Some(limit) => *limit,
+            None => {
+                // Если лимит не задан - разрешаем безлимитный доступ
+                drop(max_ips);
+                let mut active_ips = self.active_ips.write().await;
+                let user_ips = active_ips
+                    .entry(username.to_string())
+                    .or_insert_with(HashSet::new);
+                user_ips.insert(ip);
+                return Ok(());
+            }
+        };
+        drop(max_ips);
+
+        // Проверяем и обновляем активные IP
+        let mut active_ips = self.active_ips.write().await;
+        let user_ips = active_ips
+            .entry(username.to_string())
+            .or_insert_with(HashSet::new);
+
+        // Если IP уже есть в списке - это повторное подключение, разрешаем
+        if user_ips.contains(&ip) {
+            return Ok(());
+        }
+
+        // Проверяем, не превышен ли лимит
+        if user_ips.len() >= limit {
+            return Err(format!(
+                "IP limit reached for user '{}': {}/{} unique IPs already connected",
+                username,
+                user_ips.len(),
+                limit
+            ));
+        }
+
+        // Лимит не превышен - добавляем новый IP
+        user_ips.insert(ip);
+        Ok(())
+    }
+
+    /// Удалить IP-адрес из списка активных при отключении клиента
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    /// * `ip` - IP-адрес отключившегося клиента
+    pub async fn remove_ip(&self, username: &str, ip: IpAddr) {
+        let mut active_ips = self.active_ips.write().await;
+        
+        if let Some(user_ips) = active_ips.get_mut(username) {
+            user_ips.remove(&ip);
+            
+            // Если у пользователя не осталось активных IP - удаляем запись
+            // для экономии памяти
+            if user_ips.is_empty() {
+                active_ips.remove(username);
+            }
+        }
+    }
+
+    /// Получить текущее количество активных IP-адресов для пользователя
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    /// 
+    /// # Returns
+    /// Количество уникальных активных IP-адресов
+    pub async fn get_active_ip_count(&self, username: &str) -> usize {
+        let active_ips = self.active_ips.read().await;
+        active_ips
+            .get(username)
+            .map(|ips| ips.len())
+            .unwrap_or(0)
+    }
+
+    /// Получить список всех активных IP-адресов для пользователя
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    /// 
+    /// # Returns
+    /// Вектор с активными IP-адресами
+    pub async fn get_active_ips(&self, username: &str) -> Vec<IpAddr> {
+        let active_ips = self.active_ips.read().await;
+        active_ips
+            .get(username)
+            .map(|ips| ips.iter().copied().collect())
+            .unwrap_or_else(Vec::new)
+    }
+
+    /// Получить статистику по всем пользователям
+    /// 
+    /// # Returns
+    /// Вектор кортежей: (имя_пользователя, количество_активных_IP, лимит)
+    pub async fn get_stats(&self) -> Vec<(String, usize, usize)> {
+        let active_ips = self.active_ips.read().await;
+        let max_ips = self.max_ips.read().await;
+
+        let mut stats = Vec::new();
+        
+        // Собираем статистику по пользователям с активными подключениями
+        for (username, user_ips) in active_ips.iter() {
+            let limit = max_ips.get(username).copied().unwrap_or(0);
+            stats.push((username.clone(), user_ips.len(), limit));
+        }
+        
+        stats.sort_by(|a, b| a.0.cmp(&b.0)); // Сортируем по имени пользователя
+        stats
+    }
+
+    /// Очистить все активные IP для пользователя (при необходимости)
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    pub async fn clear_user_ips(&self, username: &str) {
+        let mut active_ips = self.active_ips.write().await;
+        active_ips.remove(username);
+    }
+
+    /// Очистить всю статистику (использовать с осторожностью!)
+    pub async fn clear_all(&self) {
+        let mut active_ips = self.active_ips.write().await;
+        active_ips.clear();
+    }
+
+    /// Проверить, подключен ли пользователь с данного IP
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    /// * `ip` - IP-адрес для проверки
+    /// 
+    /// # Returns
+    /// `true` если IP активен, `false` если нет
+    pub async fn is_ip_active(&self, username: &str, ip: IpAddr) -> bool {
+        let active_ips = self.active_ips.read().await;
+        active_ips
+            .get(username)
+            .map(|ips| ips.contains(&ip))
+            .unwrap_or(false)
+    }
+
+    /// Получить лимит для пользователя
+    /// 
+    /// # Arguments
+    /// * `username` - Имя пользователя
+    /// 
+    /// # Returns
+    /// Лимит IP-адресов или None, если лимит не установлен
+    pub async fn get_user_limit(&self, username: &str) -> Option<usize> {
+        let max_ips = self.max_ips.read().await;
+        max_ips.get(username).copied()
+    }
+
+    /// Форматировать статистику в читаемый текст
+    /// 
+    /// # Returns
+    /// Строка со статистикой для логов или мониторинга
+    pub async fn format_stats(&self) -> String {
+        let stats = self.get_stats().await;
+        
+        if stats.is_empty() {
+            return String::from("No active users");
+        }
+        
+        let mut output = String::from("User IP Statistics:\n");
+        output.push_str("==================\n");
+        
+        for (username, active_count, limit) in stats {
+            output.push_str(&format!(
+                "User: {:<20} Active IPs: {}/{}\n",
+                username,
+                active_count,
+                if limit > 0 { limit.to_string() } else { "unlimited".to_string() }
+            ));
+            
+            let ips = self.get_active_ips(&username).await;
+            for ip in ips {
+                output.push_str(&format!("  └─ {}\n", ip));
+            }
+        }
+        
+        output
+    }
+}
+
+impl Default for UserIpTracker {
+    fn default() -> Self {
+        Self::new()
+    }
+}
+
+// ============================================================================
+// ТЕСТЫ
+// ============================================================================
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+    use std::net::{IpAddr, Ipv4Addr, Ipv6Addr};
+
+    fn test_ipv4(oct1: u8, oct2: u8, oct3: u8, oct4: u8) -> IpAddr {
+        IpAddr::V4(Ipv4Addr::new(oct1, oct2, oct3, oct4))
+    }
+
+    fn test_ipv6() -> IpAddr {
+        IpAddr::V6(Ipv6Addr::new(0x2001, 0xdb8, 0, 0, 0, 0, 0, 1))
+    }
+
+    #[tokio::test]
+    async fn test_basic_ip_limit() {
+        let tracker = UserIpTracker::new();
+        tracker.set_user_limit("test_user", 2).await;
+
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        let ip2 = test_ipv4(192, 168, 1, 2);
+        let ip3 = test_ipv4(192, 168, 1, 3);
+
+        // Первые два IP должны быть приняты
+        assert!(tracker.check_and_add("test_user", ip1).await.is_ok());
+        assert!(tracker.check_and_add("test_user", ip2).await.is_ok());
+
+        // Третий IP должен быть отклонен
+        assert!(tracker.check_and_add("test_user", ip3).await.is_err());
+
+        // Проверяем счетчик
+        assert_eq!(tracker.get_active_ip_count("test_user").await, 2);
+    }
+
+    #[tokio::test]
+    async fn test_reconnection_from_same_ip() {
+        let tracker = UserIpTracker::new();
+        tracker.set_user_limit("test_user", 2).await;
+
+        let ip1 = test_ipv4(192, 168, 1, 1);
+
+        // Первое подключение
+        assert!(tracker.check_and_add("test_user", ip1).await.is_ok());
+        
+        // Повторное подключение с того же IP должно пройти
+        assert!(tracker.check_and_add("test_user", ip1).await.is_ok());
+        
+        // Счетчик не должен увеличиться
+        assert_eq!(tracker.get_active_ip_count("test_user").await, 1);
+    }
+
+    #[tokio::test]
+    async fn test_ip_removal() {
+        let tracker = UserIpTracker::new();
+        tracker.set_user_limit("test_user", 2).await;
+
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        let ip2 = test_ipv4(192, 168, 1, 2);
+        let ip3 = test_ipv4(192, 168, 1, 3);
+
+        // Добавляем два IP
+        assert!(tracker.check_and_add("test_user", ip1).await.is_ok());
+        assert!(tracker.check_and_add("test_user", ip2).await.is_ok());
+        
+        // Третий не должен пройти
+        assert!(tracker.check_and_add("test_user", ip3).await.is_err());
+
+        // Удаляем первый IP
+        tracker.remove_ip("test_user", ip1).await;
+        
+        // Теперь третий должен пройти
+        assert!(tracker.check_and_add("test_user", ip3).await.is_ok());
+        
+        assert_eq!(tracker.get_active_ip_count("test_user").await, 2);
+    }
+
+    #[tokio::test]
+    async fn test_no_limit() {
+        let tracker = UserIpTracker::new();
+        // Не устанавливаем лимит для test_user
+
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        let ip2 = test_ipv4(192, 168, 1, 2);
+        let ip3 = test_ipv4(192, 168, 1, 3);
+
+        // Без лимита все IP должны проходить
+        assert!(tracker.check_and_add("test_user", ip1).await.is_ok());
+        assert!(tracker.check_and_add("test_user", ip2).await.is_ok());
+        assert!(tracker.check_and_add("test_user", ip3).await.is_ok());
+        
+        assert_eq!(tracker.get_active_ip_count("test_user").await, 3);
+    }
+
+    #[tokio::test]
+    async fn test_multiple_users() {
+        let tracker = UserIpTracker::new();
+        tracker.set_user_limit("user1", 2).await;
+        tracker.set_user_limit("user2", 1).await;
+
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        let ip2 = test_ipv4(192, 168, 1, 2);
+
+        // user1 может использовать 2 IP
+        assert!(tracker.check_and_add("user1", ip1).await.is_ok());
+        assert!(tracker.check_and_add("user1", ip2).await.is_ok());
+
+        // user2 может использовать только 1 IP
+        assert!(tracker.check_and_add("user2", ip1).await.is_ok());
+        assert!(tracker.check_and_add("user2", ip2).await.is_err());
+    }
+
+    #[tokio::test]
+    async fn test_ipv6_support() {
+        let tracker = UserIpTracker::new();
+        tracker.set_user_limit("test_user", 2).await;
+
+        let ipv4 = test_ipv4(192, 168, 1, 1);
+        let ipv6 = test_ipv6();
+
+        // Должны работать оба типа адресов
+        assert!(tracker.check_and_add("test_user", ipv4).await.is_ok());
+        assert!(tracker.check_and_add("test_user", ipv6).await.is_ok());
+        
+        assert_eq!(tracker.get_active_ip_count("test_user").await, 2);
+    }
+
+    #[tokio::test]
+    async fn test_get_active_ips() {
+        let tracker = UserIpTracker::new();
+        tracker.set_user_limit("test_user", 3).await;
+
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        let ip2 = test_ipv4(192, 168, 1, 2);
+
+        tracker.check_and_add("test_user", ip1).await.unwrap();
+        tracker.check_and_add("test_user", ip2).await.unwrap();
+
+        let active_ips = tracker.get_active_ips("test_user").await;
+        assert_eq!(active_ips.len(), 2);
+        assert!(active_ips.contains(&ip1));
+        assert!(active_ips.contains(&ip2));
+    }
+
+    #[tokio::test]
+    async fn test_stats() {
+        let tracker = UserIpTracker::new();
+        tracker.set_user_limit("user1", 3).await;
+        tracker.set_user_limit("user2", 2).await;
+
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        let ip2 = test_ipv4(192, 168, 1, 2);
+
+        tracker.check_and_add("user1", ip1).await.unwrap();
+        tracker.check_and_add("user2", ip2).await.unwrap();
+
+        let stats = tracker.get_stats().await;
+        assert_eq!(stats.len(), 2);
+        
+        // Проверяем наличие обоих пользователей в статистике
+        assert!(stats.iter().any(|(name, _, _)| name == "user1"));
+        assert!(stats.iter().any(|(name, _, _)| name == "user2"));
+    }
+
+    #[tokio::test]
+    async fn test_clear_user_ips() {
+        let tracker = UserIpTracker::new();
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        
+        tracker.check_and_add("test_user", ip1).await.unwrap();
+        assert_eq!(tracker.get_active_ip_count("test_user").await, 1);
+        
+        tracker.clear_user_ips("test_user").await;
+        assert_eq!(tracker.get_active_ip_count("test_user").await, 0);
+    }
+
+    #[tokio::test]
+    async fn test_is_ip_active() {
+        let tracker = UserIpTracker::new();
+        let ip1 = test_ipv4(192, 168, 1, 1);
+        let ip2 = test_ipv4(192, 168, 1, 2);
+        
+        tracker.check_and_add("test_user", ip1).await.unwrap();
+        
+        assert!(tracker.is_ip_active("test_user", ip1).await);
+        assert!(!tracker.is_ip_active("test_user", ip2).await);
+    }
+
+    #[tokio::test]
+    async fn test_load_limits_from_config() {
+        let tracker = UserIpTracker::new();
+        
+        let mut config_limits = HashMap::new();
+        config_limits.insert("user1".to_string(), 5);
+        config_limits.insert("user2".to_string(), 3);
+        
+        tracker.load_limits(&config_limits).await;
+        
+        assert_eq!(tracker.get_user_limit("user1").await, Some(5));
+        assert_eq!(tracker.get_user_limit("user2").await, Some(3));
+        assert_eq!(tracker.get_user_limit("user3").await, None);
+    }
+}
--- a/src/main.rs
+++ b/src/main.rs
--- a/src/metrics.rs
+++ b/src/metrics.rs
@@ -0,0 +1,280 @@
+use std::convert::Infallible;
+use std::net::SocketAddr;
+use std::sync::Arc;
+
+use http_body_util::{Full, BodyExt};
+use hyper::body::Bytes;
+use hyper::server::conn::http1;
+use hyper::service::service_fn;
+use hyper::{Request, Response, StatusCode};
+use ipnetwork::IpNetwork;
+use tokio::net::TcpListener;
+use tracing::{info, warn, debug};
+
+use crate::stats::Stats;
+
+pub async fn serve(port: u16, stats: Arc<Stats>, whitelist: Vec<IpNetwork>) {
+    let addr = SocketAddr::from(([0, 0, 0, 0], port));
+    let listener = match TcpListener::bind(addr).await {
+        Ok(l) => l,
+        Err(e) => {
+            warn!(error = %e, "Failed to bind metrics on {}", addr);
+            return;
+        }
+    };
+    info!("Metrics endpoint: http://{}/metrics", addr);
+
+    loop {
+        let (stream, peer) = match listener.accept().await {
+            Ok(v) => v,
+            Err(e) => {
+                warn!(error = %e, "Metrics accept error");
+                continue;
+            }
+        };
+
+        if !whitelist.is_empty() && !whitelist.iter().any(|net| net.contains(peer.ip())) {
+            debug!(peer = %peer, "Metrics request denied by whitelist");
+            continue;
+        }
+
+        let stats = stats.clone();
+        tokio::spawn(async move {
+            let svc = service_fn(move |req| {
+                let stats = stats.clone();
+                async move { handle(req, &stats) }
+            });
+            if let Err(e) = http1::Builder::new()
+                .serve_connection(hyper_util::rt::TokioIo::new(stream), svc)
+                .await
+            {
+                debug!(error = %e, "Metrics connection error");
+            }
+        });
+    }
+}
+
+fn handle<B>(req: Request<B>, stats: &Stats) -> Result<Response<Full<Bytes>>, Infallible> {
+    if req.uri().path() != "/metrics" {
+        let resp = Response::builder()
+            .status(StatusCode::NOT_FOUND)
+            .body(Full::new(Bytes::from("Not Found\n")))
+            .unwrap();
+        return Ok(resp);
+    }
+
+    let body = render_metrics(stats);
+    let resp = Response::builder()
+        .status(StatusCode::OK)
+        .header("content-type", "text/plain; version=0.0.4; charset=utf-8")
+        .body(Full::new(Bytes::from(body)))
+        .unwrap();
+    Ok(resp)
+}
+
+fn render_metrics(stats: &Stats) -> String {
+    use std::fmt::Write;
+    let mut out = String::with_capacity(4096);
+
+    let _ = writeln!(out, "# HELP telemt_uptime_seconds Proxy uptime");
+    let _ = writeln!(out, "# TYPE telemt_uptime_seconds gauge");
+    let _ = writeln!(out, "telemt_uptime_seconds {:.1}", stats.uptime_secs());
+
+    let _ = writeln!(out, "# HELP telemt_connections_total Total accepted connections");
+    let _ = writeln!(out, "# TYPE telemt_connections_total counter");
+    let _ = writeln!(out, "telemt_connections_total {}", stats.get_connects_all());
+
+    let _ = writeln!(out, "# HELP telemt_connections_bad_total Bad/rejected connections");
+    let _ = writeln!(out, "# TYPE telemt_connections_bad_total counter");
+    let _ = writeln!(out, "telemt_connections_bad_total {}", stats.get_connects_bad());
+
+    let _ = writeln!(out, "# HELP telemt_handshake_timeouts_total Handshake timeouts");
+    let _ = writeln!(out, "# TYPE telemt_handshake_timeouts_total counter");
+    let _ = writeln!(out, "telemt_handshake_timeouts_total {}", stats.get_handshake_timeouts());
+
+    let _ = writeln!(out, "# HELP telemt_me_keepalive_sent_total ME keepalive frames sent");
+    let _ = writeln!(out, "# TYPE telemt_me_keepalive_sent_total counter");
+    let _ = writeln!(out, "telemt_me_keepalive_sent_total {}", stats.get_me_keepalive_sent());
+
+    let _ = writeln!(out, "# HELP telemt_me_keepalive_failed_total ME keepalive send failures");
+    let _ = writeln!(out, "# TYPE telemt_me_keepalive_failed_total counter");
+    let _ = writeln!(out, "telemt_me_keepalive_failed_total {}", stats.get_me_keepalive_failed());
+
+    let _ = writeln!(out, "# HELP telemt_me_keepalive_pong_total ME keepalive pong replies");
+    let _ = writeln!(out, "# TYPE telemt_me_keepalive_pong_total counter");
+    let _ = writeln!(out, "telemt_me_keepalive_pong_total {}", stats.get_me_keepalive_pong());
+
+    let _ = writeln!(out, "# HELP telemt_me_keepalive_timeout_total ME keepalive ping timeouts");
+    let _ = writeln!(out, "# TYPE telemt_me_keepalive_timeout_total counter");
+    let _ = writeln!(out, "telemt_me_keepalive_timeout_total {}", stats.get_me_keepalive_timeout());
+
+    let _ = writeln!(out, "# HELP telemt_me_reconnect_attempts_total ME reconnect attempts");
+    let _ = writeln!(out, "# TYPE telemt_me_reconnect_attempts_total counter");
+    let _ = writeln!(out, "telemt_me_reconnect_attempts_total {}", stats.get_me_reconnect_attempts());
+
+    let _ = writeln!(out, "# HELP telemt_me_reconnect_success_total ME reconnect successes");
+    let _ = writeln!(out, "# TYPE telemt_me_reconnect_success_total counter");
+    let _ = writeln!(out, "telemt_me_reconnect_success_total {}", stats.get_me_reconnect_success());
+
+    let _ = writeln!(out, "# HELP telemt_me_crc_mismatch_total ME CRC mismatches");
+    let _ = writeln!(out, "# TYPE telemt_me_crc_mismatch_total counter");
+    let _ = writeln!(out, "telemt_me_crc_mismatch_total {}", stats.get_me_crc_mismatch());
+
+    let _ = writeln!(out, "# HELP telemt_me_seq_mismatch_total ME sequence mismatches");
+    let _ = writeln!(out, "# TYPE telemt_me_seq_mismatch_total counter");
+    let _ = writeln!(out, "telemt_me_seq_mismatch_total {}", stats.get_me_seq_mismatch());
+
+    let _ = writeln!(out, "# HELP telemt_me_route_drop_no_conn_total ME route drops: no conn");
+    let _ = writeln!(out, "# TYPE telemt_me_route_drop_no_conn_total counter");
+    let _ = writeln!(out, "telemt_me_route_drop_no_conn_total {}", stats.get_me_route_drop_no_conn());
+
+    let _ = writeln!(out, "# HELP telemt_me_route_drop_channel_closed_total ME route drops: channel closed");
+    let _ = writeln!(out, "# TYPE telemt_me_route_drop_channel_closed_total counter");
+    let _ = writeln!(out, "telemt_me_route_drop_channel_closed_total {}", stats.get_me_route_drop_channel_closed());
+
+    let _ = writeln!(out, "# HELP telemt_me_route_drop_queue_full_total ME route drops: queue full");
+    let _ = writeln!(out, "# TYPE telemt_me_route_drop_queue_full_total counter");
+    let _ = writeln!(out, "telemt_me_route_drop_queue_full_total {}", stats.get_me_route_drop_queue_full());
+
+    let _ = writeln!(out, "# HELP telemt_secure_padding_invalid_total Invalid secure frame lengths");
+    let _ = writeln!(out, "# TYPE telemt_secure_padding_invalid_total counter");
+    let _ = writeln!(out, "telemt_secure_padding_invalid_total {}", stats.get_secure_padding_invalid());
+
+    let _ = writeln!(out, "# HELP telemt_desync_total Total crypto-desync detections");
+    let _ = writeln!(out, "# TYPE telemt_desync_total counter");
+    let _ = writeln!(out, "telemt_desync_total {}", stats.get_desync_total());
+
+    let _ = writeln!(out, "# HELP telemt_desync_full_logged_total Full forensic desync logs emitted");
+    let _ = writeln!(out, "# TYPE telemt_desync_full_logged_total counter");
+    let _ = writeln!(out, "telemt_desync_full_logged_total {}", stats.get_desync_full_logged());
+
+    let _ = writeln!(out, "# HELP telemt_desync_suppressed_total Suppressed desync forensic events");
+    let _ = writeln!(out, "# TYPE telemt_desync_suppressed_total counter");
+    let _ = writeln!(out, "telemt_desync_suppressed_total {}", stats.get_desync_suppressed());
+
+    let _ = writeln!(out, "# HELP telemt_desync_frames_bucket_total Desync count by frames_ok bucket");
+    let _ = writeln!(out, "# TYPE telemt_desync_frames_bucket_total counter");
+    let _ = writeln!(
+        out,
+        "telemt_desync_frames_bucket_total{{bucket=\"0\"}} {}",
+        stats.get_desync_frames_bucket_0()
+    );
+    let _ = writeln!(
+        out,
+        "telemt_desync_frames_bucket_total{{bucket=\"1_2\"}} {}",
+        stats.get_desync_frames_bucket_1_2()
+    );
+    let _ = writeln!(
+        out,
+        "telemt_desync_frames_bucket_total{{bucket=\"3_10\"}} {}",
+        stats.get_desync_frames_bucket_3_10()
+    );
+    let _ = writeln!(
+        out,
+        "telemt_desync_frames_bucket_total{{bucket=\"gt_10\"}} {}",
+        stats.get_desync_frames_bucket_gt_10()
+    );
+
+    let _ = writeln!(out, "# HELP telemt_user_connections_total Per-user total connections");
+    let _ = writeln!(out, "# TYPE telemt_user_connections_total counter");
+    let _ = writeln!(out, "# HELP telemt_user_connections_current Per-user active connections");
+    let _ = writeln!(out, "# TYPE telemt_user_connections_current gauge");
+    let _ = writeln!(out, "# HELP telemt_user_octets_from_client Per-user bytes received");
+    let _ = writeln!(out, "# TYPE telemt_user_octets_from_client counter");
+    let _ = writeln!(out, "# HELP telemt_user_octets_to_client Per-user bytes sent");
+    let _ = writeln!(out, "# TYPE telemt_user_octets_to_client counter");
+    let _ = writeln!(out, "# HELP telemt_user_msgs_from_client Per-user messages received");
+    let _ = writeln!(out, "# TYPE telemt_user_msgs_from_client counter");
+    let _ = writeln!(out, "# HELP telemt_user_msgs_to_client Per-user messages sent");
+    let _ = writeln!(out, "# TYPE telemt_user_msgs_to_client counter");
+
+    for entry in stats.iter_user_stats() {
+        let user = entry.key();
+        let s = entry.value();
+        let _ = writeln!(out, "telemt_user_connections_total{{user=\"{}\"}} {}", user, s.connects.load(std::sync::atomic::Ordering::Relaxed));
+        let _ = writeln!(out, "telemt_user_connections_current{{user=\"{}\"}} {}", user, s.curr_connects.load(std::sync::atomic::Ordering::Relaxed));
+        let _ = writeln!(out, "telemt_user_octets_from_client{{user=\"{}\"}} {}", user, s.octets_from_client.load(std::sync::atomic::Ordering::Relaxed));
+        let _ = writeln!(out, "telemt_user_octets_to_client{{user=\"{}\"}} {}", user, s.octets_to_client.load(std::sync::atomic::Ordering::Relaxed));
+        let _ = writeln!(out, "telemt_user_msgs_from_client{{user=\"{}\"}} {}", user, s.msgs_from_client.load(std::sync::atomic::Ordering::Relaxed));
+        let _ = writeln!(out, "telemt_user_msgs_to_client{{user=\"{}\"}} {}", user, s.msgs_to_client.load(std::sync::atomic::Ordering::Relaxed));
+    }
+
+    out
+}
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    #[test]
+    fn test_render_metrics_format() {
+        let stats = Arc::new(Stats::new());
+        stats.increment_connects_all();
+        stats.increment_connects_all();
+        stats.increment_connects_bad();
+        stats.increment_handshake_timeouts();
+        stats.increment_user_connects("alice");
+        stats.increment_user_curr_connects("alice");
+        stats.add_user_octets_from("alice", 1024);
+        stats.add_user_octets_to("alice", 2048);
+        stats.increment_user_msgs_from("alice");
+        stats.increment_user_msgs_to("alice");
+        stats.increment_user_msgs_to("alice");
+
+        let output = render_metrics(&stats);
+
+        assert!(output.contains("telemt_connections_total 2"));
+        assert!(output.contains("telemt_connections_bad_total 1"));
+        assert!(output.contains("telemt_handshake_timeouts_total 1"));
+        assert!(output.contains("telemt_user_connections_total{user=\"alice\"} 1"));
+        assert!(output.contains("telemt_user_connections_current{user=\"alice\"} 1"));
+        assert!(output.contains("telemt_user_octets_from_client{user=\"alice\"} 1024"));
+        assert!(output.contains("telemt_user_octets_to_client{user=\"alice\"} 2048"));
+        assert!(output.contains("telemt_user_msgs_from_client{user=\"alice\"} 1"));
+        assert!(output.contains("telemt_user_msgs_to_client{user=\"alice\"} 2"));
+    }
+
+    #[test]
+    fn test_render_empty_stats() {
+        let stats = Stats::new();
+        let output = render_metrics(&stats);
+        assert!(output.contains("telemt_connections_total 0"));
+        assert!(output.contains("telemt_connections_bad_total 0"));
+        assert!(output.contains("telemt_handshake_timeouts_total 0"));
+        assert!(!output.contains("user="));
+    }
+
+    #[test]
+    fn test_render_has_type_annotations() {
+        let stats = Stats::new();
+        let output = render_metrics(&stats);
+        assert!(output.contains("# TYPE telemt_uptime_seconds gauge"));
+        assert!(output.contains("# TYPE telemt_connections_total counter"));
+        assert!(output.contains("# TYPE telemt_connections_bad_total counter"));
+        assert!(output.contains("# TYPE telemt_handshake_timeouts_total counter"));
+    }
+
+    #[tokio::test]
+    async fn test_endpoint_integration() {
+        let stats = Arc::new(Stats::new());
+        stats.increment_connects_all();
+        stats.increment_connects_all();
+        stats.increment_connects_all();
+
+        let req = Request::builder()
+            .uri("/metrics")
+            .body(())
+            .unwrap();
+        let resp = handle(req, &stats).unwrap();
+        assert_eq!(resp.status(), StatusCode::OK);
+        let body = resp.into_body().collect().await.unwrap().to_bytes();
+        assert!(std::str::from_utf8(body.as_ref()).unwrap().contains("telemt_connections_total 3"));
+
+        let req404 = Request::builder()
+            .uri("/other")
+            .body(())
+            .unwrap();
+        let resp404 = handle(req404, &stats).unwrap();
+        assert_eq!(resp404.status(), StatusCode::NOT_FOUND);
+    }
+}
--- a/src/network/mod.rs
+++ b/src/network/mod.rs
@@ -0,0 +1,4 @@
+pub mod probe;
+pub mod stun;
+
+pub use stun::IpFamily;
--- a/src/network/probe.rs
+++ b/src/network/probe.rs
@@ -0,0 +1,231 @@
+use std::net::{IpAddr, Ipv4Addr, Ipv6Addr, SocketAddr, UdpSocket};
+
+use tracing::{info, warn};
+
+use crate::config::NetworkConfig;
+use crate::error::Result;
+use crate::network::stun::{stun_probe_dual, DualStunResult, IpFamily};
+
+#[derive(Debug, Clone, Default)]
+pub struct NetworkProbe {
+    pub detected_ipv4: Option<Ipv4Addr>,
+    pub detected_ipv6: Option<Ipv6Addr>,
+    pub reflected_ipv4: Option<SocketAddr>,
+    pub reflected_ipv6: Option<SocketAddr>,
+    pub ipv4_is_bogon: bool,
+    pub ipv6_is_bogon: bool,
+    pub ipv4_nat_detected: bool,
+    pub ipv6_nat_detected: bool,
+    pub ipv4_usable: bool,
+    pub ipv6_usable: bool,
+}
+
+#[derive(Debug, Clone, Default)]
+pub struct NetworkDecision {
+    pub ipv4_dc: bool,
+    pub ipv6_dc: bool,
+    pub ipv4_me: bool,
+    pub ipv6_me: bool,
+    pub effective_prefer: u8,
+    pub effective_multipath: bool,
+}
+
+impl NetworkDecision {
+    pub fn prefer_ipv6(&self) -> bool {
+        self.effective_prefer == 6
+    }
+
+    pub fn me_families(&self) -> Vec<IpFamily> {
+        let mut res = Vec::new();
+        if self.ipv4_me {
+            res.push(IpFamily::V4);
+        }
+        if self.ipv6_me {
+            res.push(IpFamily::V6);
+        }
+        res
+    }
+}
+
+pub async fn run_probe(config: &NetworkConfig, stun_addr: Option<String>, nat_probe: bool) -> Result<NetworkProbe> {
+    let mut probe = NetworkProbe::default();
+
+    probe.detected_ipv4 = detect_local_ip_v4();
+    probe.detected_ipv6 = detect_local_ip_v6();
+
+    probe.ipv4_is_bogon = probe.detected_ipv4.map(is_bogon_v4).unwrap_or(false);
+    probe.ipv6_is_bogon = probe.detected_ipv6.map(is_bogon_v6).unwrap_or(false);
+
+    let stun_server = stun_addr.unwrap_or_else(|| "stun.l.google.com:19302".to_string());
+    let stun_res = if nat_probe {
+        match stun_probe_dual(&stun_server).await {
+            Ok(res) => res,
+            Err(e) => {
+                warn!(error = %e, "STUN probe failed, continuing without reflection");
+                DualStunResult::default()
+            }
+        }
+    } else {
+        DualStunResult::default()
+    };
+    probe.reflected_ipv4 = stun_res.v4.map(|r| r.reflected_addr);
+    probe.reflected_ipv6 = stun_res.v6.map(|r| r.reflected_addr);
+
+    probe.ipv4_nat_detected = match (probe.detected_ipv4, probe.reflected_ipv4) {
+        (Some(det), Some(reflected)) => det != reflected.ip(),
+        _ => false,
+    };
+    probe.ipv6_nat_detected = match (probe.detected_ipv6, probe.reflected_ipv6) {
+        (Some(det), Some(reflected)) => det != reflected.ip(),
+        _ => false,
+    };
+
+    probe.ipv4_usable = config.ipv4
+        && probe.detected_ipv4.is_some()
+        && (!probe.ipv4_is_bogon || probe.reflected_ipv4.map(|r| !is_bogon(r.ip())).unwrap_or(false));
+
+    let ipv6_enabled = config.ipv6.unwrap_or(probe.detected_ipv6.is_some());
+    probe.ipv6_usable = ipv6_enabled
+        && probe.detected_ipv6.is_some()
+        && (!probe.ipv6_is_bogon || probe.reflected_ipv6.map(|r| !is_bogon(r.ip())).unwrap_or(false));
+
+    Ok(probe)
+}
+
+pub fn decide_network_capabilities(config: &NetworkConfig, probe: &NetworkProbe) -> NetworkDecision {
+    let mut decision = NetworkDecision::default();
+
+    decision.ipv4_dc = config.ipv4 && probe.detected_ipv4.is_some();
+    decision.ipv6_dc = config.ipv6.unwrap_or(probe.detected_ipv6.is_some()) && probe.detected_ipv6.is_some();
+
+    decision.ipv4_me = config.ipv4
+        && probe.detected_ipv4.is_some()
+        && (!probe.ipv4_is_bogon || probe.reflected_ipv4.is_some());
+
+    let ipv6_enabled = config.ipv6.unwrap_or(probe.detected_ipv6.is_some());
+    decision.ipv6_me = ipv6_enabled
+        && probe.detected_ipv6.is_some()
+        && (!probe.ipv6_is_bogon || probe.reflected_ipv6.is_some());
+
+    decision.effective_prefer = match config.prefer {
+        6 if decision.ipv6_me || decision.ipv6_dc => 6,
+        4 if decision.ipv4_me || decision.ipv4_dc => 4,
+        6 => {
+            warn!("prefer=6 requested but IPv6 unavailable; falling back to IPv4");
+            4
+        }
+        _ => 4,
+    };
+
+    let me_families = decision.ipv4_me as u8 + decision.ipv6_me as u8;
+    decision.effective_multipath = config.multipath && me_families >= 2;
+
+    decision
+}
+
+fn detect_local_ip_v4() -> Option<Ipv4Addr> {
+    let socket = UdpSocket::bind("0.0.0.0:0").ok()?;
+    socket.connect("8.8.8.8:80").ok()?;
+    match socket.local_addr().ok()?.ip() {
+        IpAddr::V4(v4) => Some(v4),
+        _ => None,
+    }
+}
+
+fn detect_local_ip_v6() -> Option<Ipv6Addr> {
+    let socket = UdpSocket::bind("[::]:0").ok()?;
+    socket.connect("[2001:4860:4860::8888]:80").ok()?;
+    match socket.local_addr().ok()?.ip() {
+        IpAddr::V6(v6) => Some(v6),
+        _ => None,
+    }
+}
+
+pub fn is_bogon(ip: IpAddr) -> bool {
+    match ip {
+        IpAddr::V4(v4) => is_bogon_v4(v4),
+        IpAddr::V6(v6) => is_bogon_v6(v6),
+    }
+}
+
+pub fn is_bogon_v4(ip: Ipv4Addr) -> bool {
+    let octets = ip.octets();
+    if ip.is_private() || ip.is_loopback() || ip.is_link_local() {
+        return true;
+    }
+    if octets[0] == 0 {
+        return true;
+    }
+    if octets[0] == 100 && (octets[1] & 0xC0) == 64 {
+        return true;
+    }
+    if octets[0] == 192 && octets[1] == 0 && octets[2] == 0 {
+        return true;
+    }
+    if octets[0] == 192 && octets[1] == 0 && octets[2] == 2 {
+        return true;
+    }
+    if octets[0] == 198 && (octets[1] & 0xFE) == 18 {
+        return true;
+    }
+    if octets[0] == 198 && octets[1] == 51 && octets[2] == 100 {
+        return true;
+    }
+    if octets[0] == 203 && octets[1] == 0 && octets[2] == 113 {
+        return true;
+    }
+    if ip.is_multicast() {
+        return true;
+    }
+    if octets[0] >= 240 {
+        return true;
+    }
+    if ip.is_broadcast() {
+        return true;
+    }
+    false
+}
+
+pub fn is_bogon_v6(ip: Ipv6Addr) -> bool {
+    if ip.is_unspecified() || ip.is_loopback() || ip.is_unique_local() {
+        return true;
+    }
+    let segs = ip.segments();
+    if (segs[0] & 0xFFC0) == 0xFE80 {
+        return true;
+    }
+    if segs[0..5] == [0, 0, 0, 0, 0] && segs[5] == 0xFFFF {
+        return true;
+    }
+    if segs[0] == 0x0100 && segs[1..4] == [0, 0, 0] {
+        return true;
+    }
+    if segs[0] == 0x2001 && segs[1] == 0x0db8 {
+        return true;
+    }
+    if segs[0] == 0x2002 {
+        return true;
+    }
+    if ip.is_multicast() {
+        return true;
+    }
+    false
+}
+
+pub fn log_probe_result(probe: &NetworkProbe, decision: &NetworkDecision) {
+    info!(
+        ipv4 = probe.detected_ipv4.as_ref().map(|v| v.to_string()).unwrap_or_else(|| "-".into()),
+        ipv6 = probe.detected_ipv6.as_ref().map(|v| v.to_string()).unwrap_or_else(|| "-".into()),
+        reflected_v4 = probe.reflected_ipv4.as_ref().map(|v| v.ip().to_string()).unwrap_or_else(|| "-".into()),
+        reflected_v6 = probe.reflected_ipv6.as_ref().map(|v| v.ip().to_string()).unwrap_or_else(|| "-".into()),
+        ipv4_bogon = probe.ipv4_is_bogon,
+        ipv6_bogon = probe.ipv6_is_bogon,
+        ipv4_me = decision.ipv4_me,
+        ipv6_me = decision.ipv6_me,
+        ipv4_dc = decision.ipv4_dc,
+        ipv6_dc = decision.ipv6_dc,
+        prefer = decision.effective_prefer,
+        multipath = decision.effective_multipath,
+        "Network capabilities resolved"
+    );
+}
--- a/src/network/stun.rs
+++ b/src/network/stun.rs
@@ -0,0 +1,210 @@
+use std::net::{IpAddr, Ipv4Addr, Ipv6Addr, SocketAddr};
+
+use tokio::net::{lookup_host, UdpSocket};
+use tokio::time::{timeout, Duration, sleep};
+
+use crate::error::{ProxyError, Result};
+
+#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
+pub enum IpFamily {
+    V4,
+    V6,
+}
+
+#[derive(Debug, Clone, Copy)]
+pub struct StunProbeResult {
+    pub local_addr: SocketAddr,
+    pub reflected_addr: SocketAddr,
+    pub family: IpFamily,
+}
+
+#[derive(Debug, Default, Clone)]
+pub struct DualStunResult {
+    pub v4: Option<StunProbeResult>,
+    pub v6: Option<StunProbeResult>,
+}
+
+pub async fn stun_probe_dual(stun_addr: &str) -> Result<DualStunResult> {
+    let (v4, v6) = tokio::join!(
+        stun_probe_family(stun_addr, IpFamily::V4),
+        stun_probe_family(stun_addr, IpFamily::V6),
+    );
+
+    Ok(DualStunResult {
+        v4: v4?,
+        v6: v6?,
+    })
+}
+
+pub async fn stun_probe_family(stun_addr: &str, family: IpFamily) -> Result<Option<StunProbeResult>> {
+    use rand::RngCore;
+
+    let bind_addr = match family {
+        IpFamily::V4 => "0.0.0.0:0",
+        IpFamily::V6 => "[::]:0",
+    };
+
+    let socket = UdpSocket::bind(bind_addr)
+        .await
+        .map_err(|e| ProxyError::Proxy(format!("STUN bind failed: {e}")))?;
+
+    let target_addr = resolve_stun_addr(stun_addr, family).await?;
+    if let Some(addr) = target_addr {
+        match socket.connect(addr).await {
+            Ok(()) => {}
+            Err(e) if family == IpFamily::V6 && matches!(
+                e.kind(),
+                std::io::ErrorKind::NetworkUnreachable
+                | std::io::ErrorKind::HostUnreachable
+                | std::io::ErrorKind::Unsupported
+                | std::io::ErrorKind::NetworkDown
+            ) => return Ok(None),
+            Err(e) => return Err(ProxyError::Proxy(format!("STUN connect failed: {e}"))),
+        }
+    } else {
+        return Ok(None);
+    }
+
+    let mut req = [0u8; 20];
+    req[0..2].copy_from_slice(&0x0001u16.to_be_bytes()); // Binding Request
+    req[2..4].copy_from_slice(&0u16.to_be_bytes()); // length
+    req[4..8].copy_from_slice(&0x2112A442u32.to_be_bytes()); // magic cookie
+    rand::rng().fill_bytes(&mut req[8..20]); // transaction ID
+
+    let mut buf = [0u8; 256];
+    let mut attempt = 0;
+    let mut backoff = Duration::from_secs(1);
+    loop {
+        socket
+            .send(&req)
+            .await
+            .map_err(|e| ProxyError::Proxy(format!("STUN send failed: {e}")))?;
+
+        let recv_res = timeout(Duration::from_secs(3), socket.recv(&mut buf)).await;
+        let n = match recv_res {
+            Ok(Ok(n)) => n,
+            Ok(Err(e)) => return Err(ProxyError::Proxy(format!("STUN recv failed: {e}"))),
+            Err(_) => {
+                attempt += 1;
+                if attempt >= 3 {
+                    return Ok(None);
+                }
+                sleep(backoff).await;
+                backoff *= 2;
+                continue;
+            }
+        };
+
+        if n < 20 {
+            return Ok(None);
+        }
+
+        let magic = 0x2112A442u32.to_be_bytes();
+        let txid = &req[8..20];
+    let mut idx = 20;
+    while idx + 4 <= n {
+        let atype = u16::from_be_bytes(buf[idx..idx + 2].try_into().unwrap());
+        let alen = u16::from_be_bytes(buf[idx + 2..idx + 4].try_into().unwrap()) as usize;
+        idx += 4;
+        if idx + alen > n {
+            break;
+        }
+
+        match atype {
+            0x0020 /* XOR-MAPPED-ADDRESS */ | 0x0001 /* MAPPED-ADDRESS */ => {
+                if alen < 8 {
+                    break;
+                }
+                let family_byte = buf[idx + 1];
+                let port_bytes = [buf[idx + 2], buf[idx + 3]];
+                let len_check = match family_byte {
+                    0x01 => 4,
+                    0x02 => 16,
+                    _ => 0,
+                };
+                if len_check == 0 || alen < 4 + len_check {
+                    break;
+                }
+
+                let raw_ip = &buf[idx + 4..idx + 4 + len_check];
+                let mut port = u16::from_be_bytes(port_bytes);
+
+                let reflected_ip = if atype == 0x0020 {
+                    port ^= ((magic[0] as u16) << 8) | magic[1] as u16;
+                    match family_byte {
+                        0x01 => {
+                            let ip = [
+                                raw_ip[0] ^ magic[0],
+                                raw_ip[1] ^ magic[1],
+                                raw_ip[2] ^ magic[2],
+                                raw_ip[3] ^ magic[3],
+                            ];
+                            IpAddr::V4(Ipv4Addr::new(ip[0], ip[1], ip[2], ip[3]))
+                        }
+                        0x02 => {
+                            let mut ip = [0u8; 16];
+                            let xor_key = [magic.as_slice(), txid].concat();
+                            for (i, b) in raw_ip.iter().enumerate().take(16) {
+                                ip[i] = *b ^ xor_key[i];
+                            }
+                            IpAddr::V6(Ipv6Addr::from(ip))
+                        }
+                        _ => {
+                            idx += (alen + 3) & !3;
+                            continue;
+                        }
+                    }
+                } else {
+                    match family_byte {
+                        0x01 => IpAddr::V4(Ipv4Addr::new(raw_ip[0], raw_ip[1], raw_ip[2], raw_ip[3])),
+                        0x02 => IpAddr::V6(Ipv6Addr::from(<[u8; 16]>::try_from(raw_ip).unwrap())),
+                        _ => {
+                            idx += (alen + 3) & !3;
+                            continue;
+                        }
+                    }
+                };
+
+                let reflected_addr = SocketAddr::new(reflected_ip, port);
+                let local_addr = socket
+                    .local_addr()
+                    .map_err(|e| ProxyError::Proxy(format!("STUN local_addr failed: {e}")))?;
+
+                return Ok(Some(StunProbeResult {
+                    local_addr,
+                    reflected_addr,
+                    family,
+                }));
+            }
+            _ => {}
+        }
+
+        idx += (alen + 3) & !3;
+    }
+
+    }
+
+    Ok(None)
+}
+
+async fn resolve_stun_addr(stun_addr: &str, family: IpFamily) -> Result<Option<SocketAddr>> {
+    if let Ok(addr) = stun_addr.parse::<SocketAddr>() {
+        return Ok(match (addr.is_ipv4(), family) {
+            (true, IpFamily::V4) | (false, IpFamily::V6) => Some(addr),
+            _ => None,
+        });
+    }
+
+    let addrs = lookup_host(stun_addr)
+        .await
+        .map_err(|e| ProxyError::Proxy(format!("STUN resolve failed: {e}")))?;
+
+    let target = addrs
+        .filter(|a| match (a.is_ipv4(), family) {
+            (true, IpFamily::V4) => true,
+            (false, IpFamily::V6) => true,
+            _ => false,
+        })
+        .next();
+    Ok(target)
+}
--- a/src/protocol/constants.rs
+++ b/src/protocol/constants.rs
@@ -1,6 +1,8 @@
 //! Protocol constants and datacenter addresses

 use std::net::{IpAddr, Ipv4Addr, Ipv6Addr};
+
+use crate::crypto::SecureRandom;
 use std::sync::LazyLock;

 // ============= Telegram Datacenters =============
@@ -151,7 +153,32 @@ pub const TLS_RECORD_ALERT: u8 = 0x15;
 /// Maximum TLS record size
 pub const MAX_TLS_RECORD_SIZE: usize = 16384;
 /// Maximum TLS chunk size (with overhead)
-pub const MAX_TLS_CHUNK_SIZE: usize = 16384 + 24;
+/// RFC 8446 §5.2 allows up to 16384 + 256 bytes of ciphertext
+pub const MAX_TLS_CHUNK_SIZE: usize = 16384 + 256;
+
+/// Secure Intermediate payload is expected to be 4-byte aligned.
+pub fn is_valid_secure_payload_len(data_len: usize) -> bool {
+    data_len % 4 == 0
+}
+
+/// Compute Secure Intermediate payload length from wire length.
+/// Secure mode strips up to 3 random tail bytes by truncating to 4-byte boundary.
+pub fn secure_payload_len_from_wire_len(wire_len: usize) -> Option<usize> {
+    if wire_len < 4 {
+        return None;
+    }
+    Some(wire_len - (wire_len % 4))
+}
+
+/// Generate padding length for Secure Intermediate protocol.
+/// Data must be 4-byte aligned; padding is 1..=3 so total is never divisible by 4.
+pub fn secure_padding_len(data_len: usize, rng: &SecureRandom) -> usize {
+    debug_assert!(
+        is_valid_secure_payload_len(data_len),
+        "Secure payload must be 4-byte aligned, got {data_len}"
+    );
+    (rng.range(3) + 1) as usize
+}

 // ============= Timeouts =============

@@ -284,6 +311,10 @@ pub mod rpc_flags {
        pub const FLAG_ABRIDGED: u32      = 0x40000000;
        pub const FLAG_QUICKACK: u32      = 0x80000000;
    }
+
+    pub mod rpc_crypto_flags {
+        pub const USE_CRC32C: u32 = 0x800;
+    }
    
    pub const ME_CONNECT_TIMEOUT_SECS: u64 = 5;
    pub const ME_HANDSHAKE_TIMEOUT_SECS: u64 = 10;
@@ -319,4 +350,43 @@ mod tests {
        assert_eq!(TG_DATACENTERS_V4.len(), 5);
        assert_eq!(TG_DATACENTERS_V6.len(), 5);
    }
-}
+
+    #[test]
+    fn secure_padding_never_produces_aligned_total() {
+        let rng = SecureRandom::new();
+        for data_len in (0..1000).step_by(4) {
+            for _ in 0..100 {
+                let padding = secure_padding_len(data_len, &rng);
+                assert!(
+                    padding <= 3,
+                    "padding out of range: data_len={data_len}, padding={padding}"
+                );
+                assert_ne!(
+                    (data_len + padding) % 4,
+                    0,
+                    "invariant violated: data_len={data_len}, padding={padding}, total={}",
+                    data_len + padding
+                );
+            }
+        }
+    }
+
+    #[test]
+    fn secure_wire_len_roundtrip_for_aligned_payload() {
+        for payload_len in (4..4096).step_by(4) {
+            for padding in 0..=3usize {
+                let wire_len = payload_len + padding;
+                let recovered = secure_payload_len_from_wire_len(wire_len);
+                assert_eq!(recovered, Some(payload_len));
+            }
+        }
+    }
+
+    #[test]
+    fn secure_wire_len_rejects_too_short_frames() {
+        assert_eq!(secure_payload_len_from_wire_len(0), None);
+        assert_eq!(secure_payload_len_from_wire_len(1), None);
+        assert_eq!(secure_payload_len_from_wire_len(2), None);
+        assert_eq!(secure_payload_len_from_wire_len(3), None);
+    }
+}
--- a/src/protocol/obfuscation.rs
+++ b/src/protocol/obfuscation.rs
@@ -160,6 +160,12 @@ pub fn prepare_tg_nonce(
 }

 /// Encrypt the outgoing nonce for Telegram
+/// Legacy helper — **do not use**.
+/// WARNING: logic diverges from Python/C reference (SHA256 of 48 bytes, IV from head).
+/// Kept only to avoid breaking external callers; prefer `encrypt_tg_nonce_with_ciphers`.
+#[deprecated(
+    note = "Incorrect MTProto obfuscation KDF; use proxy::handshake::encrypt_tg_nonce_with_ciphers"
+)]
 pub fn encrypt_nonce(nonce: &[u8; HANDSHAKE_LEN]) -> Vec<u8> {
    let key_iv = &nonce[SKIP_LEN..SKIP_LEN + KEY_LEN + IV_LEN];
    let enc_key = sha256(key_iv);
@@ -208,4 +214,4 @@ mod tests {
        assert!(is_valid_nonce(&nonce));
        assert_eq!(nonce.len(), HANDSHAKE_LEN);
    }
-}
+}
--- a/src/protocol/tls.rs
+++ b/src/protocol/tls.rs
@@ -8,6 +8,8 @@ use crate::crypto::{sha256_hmac, SecureRandom};
 use crate::error::{ProxyError, Result};
 use super::constants::*;
 use std::time::{SystemTime, UNIX_EPOCH};
+use num_bigint::BigUint;
+use num_traits::One;

 // ============= Public Constants =============

@@ -30,6 +32,7 @@ pub const TIME_SKEW_MAX: i64 = 10 * 60;  // 10 minutes after
 mod extension_type {
    pub const KEY_SHARE: u16 = 0x0033;
    pub const SUPPORTED_VERSIONS: u16 = 0x002b;
+    pub const ALPN: u16 = 0x0010;
 }

 /// TLS Cipher Suites
@@ -60,6 +63,7 @@ pub struct TlsValidation {
 // ============= TLS Extension Builder =============

 /// Builder for TLS extensions with correct length calculation
+#[derive(Clone)]
 struct TlsExtensionBuilder {
    extensions: Vec<u8>,
 }
@@ -106,6 +110,27 @@ impl TlsExtensionBuilder {
        
        self
    }
+
+    /// Add ALPN extension with a single selected protocol.
+    fn add_alpn(&mut self, proto: &[u8]) -> &mut Self {
+        // Extension type: ALPN (0x0010)
+        self.extensions.extend_from_slice(&extension_type::ALPN.to_be_bytes());
+
+        // ALPN extension format:
+        // extension_data length (2 bytes)
+        //   protocols length (2 bytes)
+        //     protocol name length (1 byte)
+        //     protocol name bytes
+        let proto_len = proto.len() as u8;
+        let list_len: u16 = 1 + proto_len as u16;
+        let ext_len: u16 = 2 + list_len;
+
+        self.extensions.extend_from_slice(&ext_len.to_be_bytes());
+        self.extensions.extend_from_slice(&list_len.to_be_bytes());
+        self.extensions.push(proto_len);
+        self.extensions.extend_from_slice(proto);
+        self
+    }
    
    /// Build final extensions with length prefix
    fn build(self) -> Vec<u8> {
@@ -142,6 +167,8 @@ struct ServerHelloBuilder {
    compression: u8,
    /// Extensions
    extensions: TlsExtensionBuilder,
+    /// Selected ALPN protocol (if any)
+    alpn: Option<Vec<u8>>,
 }

 impl ServerHelloBuilder {
@@ -152,6 +179,7 @@ impl ServerHelloBuilder {
            cipher_suite: cipher_suite::TLS_AES_128_GCM_SHA256,
            compression: 0x00,
            extensions: TlsExtensionBuilder::new(),
+            alpn: None,
        }
    }
    
@@ -165,10 +193,19 @@ impl ServerHelloBuilder {
        self.extensions.add_supported_versions(0x0304);
        self
    }
+
+    fn with_alpn(mut self, proto: Option<Vec<u8>>) -> Self {
+        self.alpn = proto;
+        self
+    }
    
    /// Build ServerHello message (without record header)
    fn build_message(&self) -> Vec<u8> {
-        let extensions = self.extensions.extensions.clone();
+        let mut ext_builder = self.extensions.clone();
+        if let Some(ref alpn) = self.alpn {
+            ext_builder.add_alpn(alpn);
+        }
+        let extensions = ext_builder.extensions.clone();
        let extensions_len = extensions.len() as u16;
        
        // Calculate total length
@@ -311,13 +348,27 @@ pub fn validate_tls_handshake(
    None
 }

+fn curve25519_prime() -> BigUint {
+    (BigUint::one() << 255) - BigUint::from(19u32)
+}
+
 /// Generate a fake X25519 public key for TLS
 ///
-/// This generates random bytes that look like a valid X25519 public key.
-/// Since we're not doing real TLS, the actual cryptographic properties don't matter.
+/// Produces a quadratic residue mod p = 2^255 - 19 by computing n² mod p,
+/// which matches Python/C behavior and avoids DPI fingerprinting.
 pub fn gen_fake_x25519_key(rng: &SecureRandom) -> [u8; 32] {
-    let bytes = rng.bytes(32);
-    bytes.try_into().unwrap()
+    let mut n_bytes = [0u8; 32];
+    n_bytes.copy_from_slice(&rng.bytes(32));
+
+    let n = BigUint::from_bytes_le(&n_bytes);
+    let p = curve25519_prime();
+    let pk = (&n * &n) % &p;
+
+    let mut out = pk.to_bytes_le();
+    out.resize(32, 0);
+    let mut result = [0u8; 32];
+    result.copy_from_slice(&out[..32]);
+    result
 }

 /// Build TLS ServerHello response
@@ -334,13 +385,19 @@ pub fn build_server_hello(
    session_id: &[u8],
    fake_cert_len: usize,
    rng: &SecureRandom,
+    alpn: Option<Vec<u8>>,
+    new_session_tickets: u8,
 ) -> Vec<u8> {
+    const MIN_APP_DATA: usize = 64;
+    const MAX_APP_DATA: usize = 16640; // RFC 8446 §5.2 upper bound
+    let fake_cert_len = fake_cert_len.max(MIN_APP_DATA).min(MAX_APP_DATA);
    let x25519_key = gen_fake_x25519_key(rng);
    
    // Build ServerHello
    let server_hello = ServerHelloBuilder::new(session_id.to_vec())
        .with_x25519_key(&x25519_key)
        .with_tls13_version()
+        .with_alpn(alpn)
        .build_record();
    
    // Build Change Cipher Spec record
@@ -357,15 +414,35 @@ pub fn build_server_hello(
    app_data_record.push(TLS_RECORD_APPLICATION);
    app_data_record.extend_from_slice(&TLS_VERSION);
    app_data_record.extend_from_slice(&(fake_cert_len as u16).to_be_bytes());
+    // Fill ApplicationData with fully random bytes of desired length to avoid
+    // deterministic DPI fingerprints (fixed inner content type markers).
    app_data_record.extend_from_slice(&fake_cert);
    
+    // Build optional NewSessionTicket records (TLS 1.3 handshake messages are encrypted;
+    // here we mimic with opaque ApplicationData records of plausible size).
+    let mut tickets = Vec::new();
+    if new_session_tickets > 0 {
+        for _ in 0..new_session_tickets {
+            let ticket_len: usize = rng.range(48) + 48; // 48-95 bytes
+            let mut record = Vec::with_capacity(5 + ticket_len);
+            record.push(TLS_RECORD_APPLICATION);
+            record.extend_from_slice(&TLS_VERSION);
+            record.extend_from_slice(&(ticket_len as u16).to_be_bytes());
+            record.extend_from_slice(&rng.bytes(ticket_len));
+            tickets.push(record);
+        }
+    }
+
    // Combine all records
    let mut response = Vec::with_capacity(
-        server_hello.len() + change_cipher_spec.len() + app_data_record.len()
+        server_hello.len() + change_cipher_spec.len() + app_data_record.len() + tickets.iter().map(|r| r.len()).sum::<usize>()
    );
    response.extend_from_slice(&server_hello);
    response.extend_from_slice(&change_cipher_spec);
    response.extend_from_slice(&app_data_record);
+    for t in &tickets {
+        response.extend_from_slice(t);
+    }
    
    // Compute HMAC for the response
    let mut hmac_input = Vec::with_capacity(TLS_DIGEST_LEN + response.len());
@@ -381,6 +458,131 @@ pub fn build_server_hello(
    response
 }

+/// Extract SNI (server_name) from a TLS ClientHello.
+pub fn extract_sni_from_client_hello(handshake: &[u8]) -> Option<String> {
+    if handshake.len() < 43 || handshake[0] != TLS_RECORD_HANDSHAKE {
+        return None;
+    }
+
+    let mut pos = 5; // after record header
+    if handshake.get(pos).copied()? != 0x01 {
+        return None; // not ClientHello
+    }
+
+    // Handshake length bytes
+    pos += 4; // type + len (3)
+
+    // version (2) + random (32)
+    pos += 2 + 32;
+    if pos + 1 > handshake.len() {
+        return None;
+    }
+
+    let session_id_len = *handshake.get(pos)? as usize;
+    pos += 1 + session_id_len;
+    if pos + 2 > handshake.len() {
+        return None;
+    }
+
+    let cipher_suites_len = u16::from_be_bytes([handshake[pos], handshake[pos + 1]]) as usize;
+    pos += 2 + cipher_suites_len;
+    if pos + 1 > handshake.len() {
+        return None;
+    }
+
+    let comp_len = *handshake.get(pos)? as usize;
+    pos += 1 + comp_len;
+    if pos + 2 > handshake.len() {
+        return None;
+    }
+
+    let ext_len = u16::from_be_bytes([handshake[pos], handshake[pos + 1]]) as usize;
+    pos += 2;
+    let ext_end = pos + ext_len;
+    if ext_end > handshake.len() {
+        return None;
+    }
+
+    while pos + 4 <= ext_end {
+        let etype = u16::from_be_bytes([handshake[pos], handshake[pos + 1]]);
+        let elen = u16::from_be_bytes([handshake[pos + 2], handshake[pos + 3]]) as usize;
+        pos += 4;
+        if pos + elen > ext_end {
+            break;
+        }
+        if etype == 0x0000 && elen >= 5 {
+            // server_name extension
+            let list_len = u16::from_be_bytes([handshake[pos], handshake[pos + 1]]) as usize;
+            let mut sn_pos = pos + 2;
+            let sn_end = std::cmp::min(sn_pos + list_len, pos + elen);
+            while sn_pos + 3 <= sn_end {
+                let name_type = handshake[sn_pos];
+                let name_len = u16::from_be_bytes([handshake[sn_pos + 1], handshake[sn_pos + 2]]) as usize;
+                sn_pos += 3;
+                if sn_pos + name_len > sn_end {
+                    break;
+                }
+                if name_type == 0 && name_len > 0 {
+                    if let Ok(host) = std::str::from_utf8(&handshake[sn_pos..sn_pos + name_len]) {
+                        return Some(host.to_string());
+                    }
+                }
+                sn_pos += name_len;
+            }
+        }
+        pos += elen;
+    }
+
+    None
+}
+
+/// Extract ALPN protocol list from ClientHello, return in offered order.
+pub fn extract_alpn_from_client_hello(handshake: &[u8]) -> Vec<Vec<u8>> {
+    let mut pos = 5; // after record header
+    if handshake.get(pos) != Some(&0x01) {
+        return Vec::new();
+    }
+    pos += 4; // type + len
+    pos += 2 + 32; // version + random
+    if pos >= handshake.len() { return Vec::new(); }
+    let session_id_len = *handshake.get(pos).unwrap_or(&0) as usize;
+    pos += 1 + session_id_len;
+    if pos + 2 > handshake.len() { return Vec::new(); }
+    let cipher_len = u16::from_be_bytes([handshake[pos], handshake[pos+1]]) as usize;
+    pos += 2 + cipher_len;
+    if pos >= handshake.len() { return Vec::new(); }
+    let comp_len = *handshake.get(pos).unwrap_or(&0) as usize;
+    pos += 1 + comp_len;
+    if pos + 2 > handshake.len() { return Vec::new(); }
+    let ext_len = u16::from_be_bytes([handshake[pos], handshake[pos+1]]) as usize;
+    pos += 2;
+    let ext_end = pos + ext_len;
+    if ext_end > handshake.len() { return Vec::new(); }
+    let mut out = Vec::new();
+    while pos + 4 <= ext_end {
+        let etype = u16::from_be_bytes([handshake[pos], handshake[pos+1]]);
+        let elen = u16::from_be_bytes([handshake[pos+2], handshake[pos+3]]) as usize;
+        pos += 4;
+        if pos + elen > ext_end { break; }
+        if etype == extension_type::ALPN && elen >= 3 {
+            let list_len = u16::from_be_bytes([handshake[pos], handshake[pos+1]]) as usize;
+            let mut lp = pos + 2;
+            let list_end = (pos + 2).saturating_add(list_len).min(pos + elen);
+            while lp + 1 <= list_end {
+                let plen = handshake[lp] as usize;
+                lp += 1;
+                if lp + plen > list_end { break; }
+                out.push(handshake[lp..lp+plen].to_vec());
+                lp += plen;
+            }
+            break;
+        }
+        pos += elen;
+    }
+    out
+}
+
+
 /// Check if bytes look like a TLS ClientHello
 pub fn is_tls_handshake(first_bytes: &[u8]) -> bool {
    if first_bytes.len() < 3 {
@@ -498,6 +700,17 @@ mod tests {
        assert_eq!(key2.len(), 32);
        assert_ne!(key1, key2); // Should be random
    }
+
+    #[test]
+    fn test_fake_x25519_key_is_quadratic_residue() {
+        let rng = SecureRandom::new();
+        let key = gen_fake_x25519_key(&rng);
+        let p = curve25519_prime();
+        let k_num = BigUint::from_bytes_le(&key);
+        let exponent = (&p - BigUint::one()) >> 1;
+        let legendre = k_num.modpow(&exponent, &p);
+        assert_eq!(legendre, BigUint::one());
+    }
    
    #[test]
    fn test_tls_extension_builder() {
@@ -548,7 +761,7 @@ mod tests {
        let session_id = vec![0xAA; 32];
        
        let rng = SecureRandom::new();
-        let response = build_server_hello(secret, &client_digest, &session_id, 2048, &rng);
+        let response = build_server_hello(secret, &client_digest, &session_id, 2048, &rng, None, 0);
        
        // Should have at least 3 records
        assert!(response.len() > 100);
@@ -581,8 +794,8 @@ mod tests {
        let session_id = vec![0xAA; 32];
        
        let rng = SecureRandom::new();
-        let response1 = build_server_hello(secret, &client_digest, &session_id, 1024, &rng);
-        let response2 = build_server_hello(secret, &client_digest, &session_id, 1024, &rng);
+        let response1 = build_server_hello(secret, &client_digest, &session_id, 1024, &rng, None, 0);
+        let response2 = build_server_hello(secret, &client_digest, &session_id, 1024, &rng, None, 0);
        
        // Digest position should have non-zero data
        let digest1 = &response1[TLS_DIGEST_POS..TLS_DIGEST_POS + TLS_DIGEST_LEN];
@@ -641,4 +854,101 @@ mod tests {
        // Should return None (no match) but not panic
        assert!(result.is_none());
    }
-}
+
+    fn build_client_hello_with_exts(exts: Vec<(u16, Vec<u8>)>, host: &str) -> Vec<u8> {
+        let mut body = Vec::new();
+        body.extend_from_slice(&TLS_VERSION); // legacy version
+        body.extend_from_slice(&[0u8; 32]); // random
+        body.push(0); // session id len
+        body.extend_from_slice(&2u16.to_be_bytes()); // cipher suites len
+        body.extend_from_slice(&[0x13, 0x01]); // TLS_AES_128_GCM_SHA256
+        body.push(1); // compression len
+        body.push(0); // null compression
+
+        // Build SNI extension
+        let host_bytes = host.as_bytes();
+        let mut sni_ext = Vec::new();
+        sni_ext.extend_from_slice(&(host_bytes.len() as u16 + 3).to_be_bytes());
+        sni_ext.push(0);
+        sni_ext.extend_from_slice(&(host_bytes.len() as u16).to_be_bytes());
+        sni_ext.extend_from_slice(host_bytes);
+
+        let mut ext_blob = Vec::new();
+        for (typ, data) in exts {
+            ext_blob.extend_from_slice(&typ.to_be_bytes());
+            ext_blob.extend_from_slice(&(data.len() as u16).to_be_bytes());
+            ext_blob.extend_from_slice(&data);
+        }
+        // SNI last
+        ext_blob.extend_from_slice(&0x0000u16.to_be_bytes());
+        ext_blob.extend_from_slice(&(sni_ext.len() as u16).to_be_bytes());
+        ext_blob.extend_from_slice(&sni_ext);
+
+        body.extend_from_slice(&(ext_blob.len() as u16).to_be_bytes());
+        body.extend_from_slice(&ext_blob);
+
+        let mut handshake = Vec::new();
+        handshake.push(0x01); // ClientHello
+        let len_bytes = (body.len() as u32).to_be_bytes();
+        handshake.extend_from_slice(&len_bytes[1..4]);
+        handshake.extend_from_slice(&body);
+
+        let mut record = Vec::new();
+        record.push(TLS_RECORD_HANDSHAKE);
+        record.extend_from_slice(&[0x03, 0x01]);
+        record.extend_from_slice(&(handshake.len() as u16).to_be_bytes());
+        record.extend_from_slice(&handshake);
+        record
+    }
+
+    #[test]
+    fn test_extract_sni_with_grease_extension() {
+        // GREASE type 0x0a0a with zero length before SNI
+        let ch = build_client_hello_with_exts(vec![(0x0a0a, Vec::new())], "example.com");
+        let sni = extract_sni_from_client_hello(&ch);
+        assert_eq!(sni.as_deref(), Some("example.com"));
+    }
+
+    #[test]
+    fn test_extract_sni_tolerates_empty_unknown_extension() {
+        let ch = build_client_hello_with_exts(vec![(0x1234, Vec::new())], "test.local");
+        let sni = extract_sni_from_client_hello(&ch);
+        assert_eq!(sni.as_deref(), Some("test.local"));
+    }
+
+    #[test]
+    fn test_extract_alpn_single() {
+        let mut alpn_data = Vec::new();
+        // list length = 3 (1 length byte + "h2")
+        alpn_data.extend_from_slice(&3u16.to_be_bytes());
+        alpn_data.push(2);
+        alpn_data.extend_from_slice(b"h2");
+        let ch = build_client_hello_with_exts(vec![(0x0010, alpn_data)], "alpn.test");
+        let alpn = extract_alpn_from_client_hello(&ch);
+        let alpn_str: Vec<String> = alpn
+            .iter()
+            .map(|p| std::str::from_utf8(p).unwrap().to_string())
+            .collect();
+        assert_eq!(alpn_str, vec!["h2"]);
+    }
+
+    #[test]
+    fn test_extract_alpn_multiple() {
+        let mut alpn_data = Vec::new();
+        // list length = 11 (sum of per-proto lengths including length bytes)
+        alpn_data.extend_from_slice(&11u16.to_be_bytes());
+        alpn_data.push(2);
+        alpn_data.extend_from_slice(b"h2");
+        alpn_data.push(4);
+        alpn_data.extend_from_slice(b"spdy");
+        alpn_data.push(2);
+        alpn_data.extend_from_slice(b"h3");
+        let ch = build_client_hello_with_exts(vec![(0x0010, alpn_data)], "alpn.test");
+        let alpn = extract_alpn_from_client_hello(&ch);
+        let alpn_str: Vec<String> = alpn
+            .iter()
+            .map(|p| std::str::from_utf8(p).unwrap().to_string())
+            .collect();
+        assert_eq!(alpn_str, vec!["h2", "spdy", "h3"]);
+    }
+}
--- a/src/proxy/client.rs
+++ b/src/proxy/client.rs
@@ -1,6 +1,8 @@
 //! Client Handler

+use std::future::Future;
 use std::net::SocketAddr;
+use std::pin::Pin;
 use std::sync::Arc;
 use std::time::Duration;
 use tokio::io::{AsyncRead, AsyncReadExt, AsyncWrite};
@@ -8,21 +10,212 @@ use tokio::net::TcpStream;
 use tokio::time::timeout;
 use tracing::{debug, warn};

+/// Post-handshake future (relay phase, runs outside handshake timeout)
+type PostHandshakeFuture = Pin<Box<dyn Future<Output = Result<()>> + Send>>;
+
+/// Result of the handshake phase
+enum HandshakeOutcome {
+    /// Handshake succeeded, relay work to do (outside timeout)
+    NeedsRelay(PostHandshakeFuture),
+    /// Already fully handled (bad client masking, etc.)
+    Handled,
+}
+
 use crate::config::ProxyConfig;
 use crate::crypto::SecureRandom;
 use crate::error::{HandshakeResult, ProxyError, Result};
+use crate::ip_tracker::UserIpTracker;
 use crate::protocol::constants::*;
 use crate::protocol::tls;
 use crate::stats::{ReplayChecker, Stats};
 use crate::stream::{BufferPool, CryptoReader, CryptoWriter};
 use crate::transport::middle_proxy::MePool;
-use crate::transport::{UpstreamManager, configure_client_socket};
+use crate::transport::{UpstreamManager, configure_client_socket, parse_proxy_protocol};
+use crate::transport::socket::normalize_ip;
+use crate::tls_front::TlsFrontCache;

 use crate::proxy::direct_relay::handle_via_direct;
 use crate::proxy::handshake::{HandshakeSuccess, handle_mtproto_handshake, handle_tls_handshake};
 use crate::proxy::masking::handle_bad_client;
 use crate::proxy::middle_relay::handle_via_middle_proxy;

+pub async fn handle_client_stream<S>(
+    mut stream: S,
+    peer: SocketAddr,
+    config: Arc<ProxyConfig>,
+    stats: Arc<Stats>,
+    upstream_manager: Arc<UpstreamManager>,
+    replay_checker: Arc<ReplayChecker>,
+    buffer_pool: Arc<BufferPool>,
+    rng: Arc<SecureRandom>,
+    me_pool: Option<Arc<MePool>>,
+    tls_cache: Option<Arc<TlsFrontCache>>,
+    ip_tracker: Arc<UserIpTracker>,
+    proxy_protocol_enabled: bool,
+) -> Result<()>
+where
+    S: AsyncRead + AsyncWrite + Unpin + Send + 'static,
+{
+    stats.increment_connects_all();
+    let mut real_peer = normalize_ip(peer);
+
+    if proxy_protocol_enabled {
+        match parse_proxy_protocol(&mut stream, peer).await {
+            Ok(info) => {
+                debug!(
+                    peer = %peer,
+                    client = %info.src_addr,
+                    version = info.version,
+                    "PROXY protocol header parsed"
+                );
+                real_peer = normalize_ip(info.src_addr);
+            }
+            Err(e) => {
+                stats.increment_connects_bad();
+                warn!(peer = %peer, error = %e, "Invalid PROXY protocol header");
+                return Err(e);
+            }
+        }
+    }
+
+    debug!(peer = %real_peer, "New connection (generic stream)");
+
+    let handshake_timeout = Duration::from_secs(config.timeouts.client_handshake);
+    let stats_for_timeout = stats.clone();
+
+    // For non-TCP streams, use a synthetic local address
+    let local_addr: SocketAddr = format!("0.0.0.0:{}", config.server.port)
+        .parse()
+        .unwrap_or_else(|_| "0.0.0.0:443".parse().unwrap());
+
+    // Phase 1: handshake (with timeout)
+    let outcome = match timeout(handshake_timeout, async {
+        let mut first_bytes = [0u8; 5];
+        stream.read_exact(&mut first_bytes).await?;
+
+        let is_tls = tls::is_tls_handshake(&first_bytes[..3]);
+        debug!(peer = %real_peer, is_tls = is_tls, "Handshake type detected");
+
+        if is_tls {
+            let tls_len = u16::from_be_bytes([first_bytes[3], first_bytes[4]]) as usize;
+
+            if tls_len < 512 {
+                debug!(peer = %real_peer, tls_len = tls_len, "TLS handshake too short");
+                stats.increment_connects_bad();
+                let (reader, writer) = tokio::io::split(stream);
+                handle_bad_client(reader, writer, &first_bytes, &config).await;
+                return Ok(HandshakeOutcome::Handled);
+            }
+
+            let mut handshake = vec![0u8; 5 + tls_len];
+            handshake[..5].copy_from_slice(&first_bytes);
+            stream.read_exact(&mut handshake[5..]).await?;
+
+            let (read_half, write_half) = tokio::io::split(stream);
+
+            let (mut tls_reader, tls_writer, _tls_user) = match handle_tls_handshake(
+                &handshake, read_half, write_half, real_peer,
+                &config, &replay_checker, &rng, tls_cache.clone(),
+            ).await {
+                HandshakeResult::Success(result) => result,
+                HandshakeResult::BadClient { reader, writer } => {
+                    stats.increment_connects_bad();
+                    handle_bad_client(reader, writer, &handshake, &config).await;
+                    return Ok(HandshakeOutcome::Handled);
+                }
+                HandshakeResult::Error(e) => return Err(e),
+            };
+
+            debug!(peer = %peer, "Reading MTProto handshake through TLS");
+            let mtproto_data = tls_reader.read_exact(HANDSHAKE_LEN).await?;
+            let mtproto_handshake: [u8; HANDSHAKE_LEN] = mtproto_data[..].try_into()
+                .map_err(|_| ProxyError::InvalidHandshake("Short MTProto handshake".into()))?;
+
+            let (crypto_reader, crypto_writer, success) = match handle_mtproto_handshake(
+                &mtproto_handshake, tls_reader, tls_writer, real_peer,
+                &config, &replay_checker, true,
+            ).await {
+                HandshakeResult::Success(result) => result,
+                HandshakeResult::BadClient { reader: _, writer: _ } => {
+                    stats.increment_connects_bad();
+                    debug!(peer = %peer, "Valid TLS but invalid MTProto handshake");
+                    return Ok(HandshakeOutcome::Handled);
+                }
+                HandshakeResult::Error(e) => return Err(e),
+            };
+
+            Ok(HandshakeOutcome::NeedsRelay(Box::pin(
+                RunningClientHandler::handle_authenticated_static(
+                    crypto_reader, crypto_writer, success,
+                    upstream_manager, stats, config, buffer_pool, rng, me_pool,
+                    local_addr, real_peer, ip_tracker.clone(),
+                ),
+            )))
+        } else {
+            if !config.general.modes.classic && !config.general.modes.secure {
+                debug!(peer = %real_peer, "Non-TLS modes disabled");
+                stats.increment_connects_bad();
+                let (reader, writer) = tokio::io::split(stream);
+                handle_bad_client(reader, writer, &first_bytes, &config).await;
+                return Ok(HandshakeOutcome::Handled);
+            }
+
+            let mut handshake = [0u8; HANDSHAKE_LEN];
+            handshake[..5].copy_from_slice(&first_bytes);
+            stream.read_exact(&mut handshake[5..]).await?;
+
+            let (read_half, write_half) = tokio::io::split(stream);
+
+            let (crypto_reader, crypto_writer, success) = match handle_mtproto_handshake(
+                &handshake, read_half, write_half, real_peer,
+                &config, &replay_checker, false,
+            ).await {
+                HandshakeResult::Success(result) => result,
+                HandshakeResult::BadClient { reader, writer } => {
+                    stats.increment_connects_bad();
+                    handle_bad_client(reader, writer, &handshake, &config).await;
+                    return Ok(HandshakeOutcome::Handled);
+                }
+                HandshakeResult::Error(e) => return Err(e),
+            };
+
+            Ok(HandshakeOutcome::NeedsRelay(Box::pin(
+                RunningClientHandler::handle_authenticated_static(
+                    crypto_reader,
+                    crypto_writer,
+                    success,
+                    upstream_manager,
+                    stats,
+                    config,
+                    buffer_pool,
+                    rng,
+                    me_pool,
+                    local_addr,
+                    real_peer,
+                    ip_tracker.clone(),
+                )
+            )))
+        }
+    }).await {
+        Ok(Ok(outcome)) => outcome,
+        Ok(Err(e)) => {
+            debug!(peer = %peer, error = %e, "Handshake failed");
+            return Err(e);
+        }
+        Err(_) => {
+            stats_for_timeout.increment_handshake_timeouts();
+            debug!(peer = %peer, "Handshake timeout");
+            return Err(ProxyError::TgHandshakeTimeout);
+        }
+    };
+
+    // Phase 2: relay (WITHOUT handshake timeout — relay has its own activity timeouts)
+    match outcome {
+        HandshakeOutcome::NeedsRelay(fut) => fut.await,
+        HandshakeOutcome::Handled => Ok(()),
+    }
+}
+
 pub struct ClientHandler;

 pub struct RunningClientHandler {
@@ -35,6 +228,9 @@ pub struct RunningClientHandler {
    buffer_pool: Arc<BufferPool>,
    rng: Arc<SecureRandom>,
    me_pool: Option<Arc<MePool>>,
+    tls_cache: Option<Arc<TlsFrontCache>>,
+    ip_tracker: Arc<UserIpTracker>,
+    proxy_protocol_enabled: bool,
 }

 impl ClientHandler {
@@ -48,6 +244,9 @@ impl ClientHandler {
        buffer_pool: Arc<BufferPool>,
        rng: Arc<SecureRandom>,
        me_pool: Option<Arc<MePool>>,
+        tls_cache: Option<Arc<TlsFrontCache>>,
+        ip_tracker: Arc<UserIpTracker>,
+        proxy_protocol_enabled: bool,
    ) -> RunningClientHandler {
        RunningClientHandler {
            stream,
@@ -59,6 +258,9 @@ impl ClientHandler {
            buffer_pool,
            rng,
            me_pool,
+            tls_cache,
+            ip_tracker,
+            proxy_protocol_enabled,
        }
    }
 }
@@ -67,7 +269,9 @@ impl RunningClientHandler {
    pub async fn run(mut self) -> Result<()> {
        self.stats.increment_connects_all();

+        self.peer = normalize_ip(self.peer);
        let peer = self.peer;
+        let ip_tracker = self.ip_tracker.clone();
        debug!(peer = %peer, "New connection");

        if let Err(e) = configure_client_socket(
@@ -81,31 +285,53 @@ impl RunningClientHandler {
        let handshake_timeout = Duration::from_secs(self.config.timeouts.client_handshake);
        let stats = self.stats.clone();

-        let result = timeout(handshake_timeout, self.do_handshake()).await;
-
-        match result {
-            Ok(Ok(())) => {
-                debug!(peer = %peer, "Connection handled successfully");
-                Ok(())
-            }
+        // Phase 1: handshake (with timeout)
+        let outcome = match timeout(handshake_timeout, self.do_handshake()).await {
+            Ok(Ok(outcome)) => outcome,
            Ok(Err(e)) => {
                debug!(peer = %peer, error = %e, "Handshake failed");
-                Err(e)
+                return Err(e);
            }
            Err(_) => {
                stats.increment_handshake_timeouts();
                debug!(peer = %peer, "Handshake timeout");
-                Err(ProxyError::TgHandshakeTimeout)
+                return Err(ProxyError::TgHandshakeTimeout);
            }
+        };
+
+        // Phase 2: relay (WITHOUT handshake timeout — relay has its own activity timeouts)
+        match outcome {
+            HandshakeOutcome::NeedsRelay(fut) => fut.await,
+            HandshakeOutcome::Handled => Ok(()),
        }
    }

-    async fn do_handshake(mut self) -> Result<()> {
+    async fn do_handshake(mut self) -> Result<HandshakeOutcome> {
+        if self.proxy_protocol_enabled {
+            match parse_proxy_protocol(&mut self.stream, self.peer).await {
+                Ok(info) => {
+                    debug!(
+                        peer = %self.peer,
+                        client = %info.src_addr,
+                        version = info.version,
+                        "PROXY protocol header parsed"
+                    );
+                    self.peer = normalize_ip(info.src_addr);
+                }
+                Err(e) => {
+                    self.stats.increment_connects_bad();
+                    warn!(peer = %self.peer, error = %e, "Invalid PROXY protocol header");
+                    return Err(e);
+                }
+            }
+        }
+
        let mut first_bytes = [0u8; 5];
        self.stream.read_exact(&mut first_bytes).await?;

        let is_tls = tls::is_tls_handshake(&first_bytes[..3]);
        let peer = self.peer;
+        let ip_tracker = self.ip_tracker.clone();

        debug!(peer = %peer, is_tls = is_tls, "Handshake type detected");

@@ -116,8 +342,9 @@ impl RunningClientHandler {
        }
    }

-    async fn handle_tls_client(mut self, first_bytes: [u8; 5]) -> Result<()> {
+    async fn handle_tls_client(mut self, first_bytes: [u8; 5]) -> Result<HandshakeOutcome> {
        let peer = self.peer;
+        let ip_tracker = self.ip_tracker.clone();

        let tls_len = u16::from_be_bytes([first_bytes[3], first_bytes[4]]) as usize;

@@ -128,7 +355,7 @@ impl RunningClientHandler {
            self.stats.increment_connects_bad();
            let (reader, writer) = self.stream.into_split();
            handle_bad_client(reader, writer, &first_bytes, &self.config).await;
-            return Ok(());
+            return Ok(HandshakeOutcome::Handled);
        }

        let mut handshake = vec![0u8; 5 + tls_len];
@@ -151,6 +378,7 @@ impl RunningClientHandler {
            &config,
            &replay_checker,
            &self.rng,
+            self.tls_cache.clone(),
        )
        .await
        {
@@ -158,7 +386,7 @@ impl RunningClientHandler {
            HandshakeResult::BadClient { reader, writer } => {
                stats.increment_connects_bad();
                handle_bad_client(reader, writer, &handshake, &config).await;
-                return Ok(());
+                return Ok(HandshakeOutcome::Handled);
            }
            HandshakeResult::Error(e) => return Err(e),
        };
@@ -187,35 +415,39 @@ impl RunningClientHandler {
            } => {
                stats.increment_connects_bad();
                debug!(peer = %peer, "Valid TLS but invalid MTProto handshake");
-                return Ok(());
+                return Ok(HandshakeOutcome::Handled);
            }
            HandshakeResult::Error(e) => return Err(e),
        };

-        Self::handle_authenticated_static(
-            crypto_reader,
-            crypto_writer,
-            success,
-            self.upstream_manager,
-            self.stats,
-            self.config,
-            buffer_pool,
-            self.rng,
-            self.me_pool,
-            local_addr,
-        )
-        .await
+        Ok(HandshakeOutcome::NeedsRelay(Box::pin(
+            Self::handle_authenticated_static(
+                crypto_reader,
+                crypto_writer,
+                success,
+                self.upstream_manager,
+                self.stats,
+                self.config,
+                buffer_pool,
+                self.rng,
+                self.me_pool,
+                local_addr,
+                peer,
+                self.ip_tracker,
+            ),
+        )))
    }

-    async fn handle_direct_client(mut self, first_bytes: [u8; 5]) -> Result<()> {
+    async fn handle_direct_client(mut self, first_bytes: [u8; 5]) -> Result<HandshakeOutcome> {
        let peer = self.peer;
+        let ip_tracker = self.ip_tracker.clone();

        if !self.config.general.modes.classic && !self.config.general.modes.secure {
            debug!(peer = %peer, "Non-TLS modes disabled");
            self.stats.increment_connects_bad();
            let (reader, writer) = self.stream.into_split();
            handle_bad_client(reader, writer, &first_bytes, &self.config).await;
-            return Ok(());
+            return Ok(HandshakeOutcome::Handled);
        }

        let mut handshake = [0u8; HANDSHAKE_LEN];
@@ -245,24 +477,27 @@ impl RunningClientHandler {
            HandshakeResult::BadClient { reader, writer } => {
                stats.increment_connects_bad();
                handle_bad_client(reader, writer, &handshake, &config).await;
-                return Ok(());
+                return Ok(HandshakeOutcome::Handled);
            }
            HandshakeResult::Error(e) => return Err(e),
        };

-        Self::handle_authenticated_static(
-            crypto_reader,
-            crypto_writer,
-            success,
-            self.upstream_manager,
-            self.stats,
-            self.config,
-            buffer_pool,
-            self.rng,
-            self.me_pool,
-            local_addr,
-        )
-        .await
+        Ok(HandshakeOutcome::NeedsRelay(Box::pin(
+            Self::handle_authenticated_static(
+                crypto_reader,
+                crypto_writer,
+                success,
+                self.upstream_manager,
+                self.stats,
+                self.config,
+                buffer_pool,
+                self.rng,
+                self.me_pool,
+                local_addr,
+                peer,
+                self.ip_tracker,
+            ),
+        )))
    }

    /// Main dispatch after successful handshake.
@@ -280,6 +515,8 @@ impl RunningClientHandler {
        rng: Arc<SecureRandom>,
        me_pool: Option<Arc<MePool>>,
        local_addr: SocketAddr,
+        peer_addr: SocketAddr,
+        ip_tracker: Arc<UserIpTracker>,
    ) -> Result<()>
    where
        R: AsyncRead + Unpin + Send + 'static,
@@ -287,11 +524,36 @@ impl RunningClientHandler {
    {
        let user = &success.user;

-        if let Err(e) = Self::check_user_limits_static(user, &config, &stats) {
+        if let Err(e) = Self::check_user_limits_static(user, &config, &stats, peer_addr, &ip_tracker).await {
            warn!(user = %user, error = %e, "User limit exceeded");
            return Err(e);
        }

+        // IP Cleanup Guard: автоматически удаляет IP при выходе из scope
+        struct IpCleanupGuard {
+            tracker: Arc<UserIpTracker>,
+            user: String,
+            ip: std::net::IpAddr,
+        }
+        
+        impl Drop for IpCleanupGuard {
+            fn drop(&mut self) {
+                let tracker = self.tracker.clone();
+                let user = self.user.clone();
+                let ip = self.ip;
+                tokio::spawn(async move {
+                    tracker.remove_ip(&user, ip).await;
+                    debug!(user = %user, ip = %ip, "IP cleaned up on disconnect");
+                });
+            }
+        }
+        
+        let _cleanup = IpCleanupGuard {
+            tracker: ip_tracker,
+            user: user.clone(),
+            ip: peer_addr.ip(),
+        };
+
        // Decide: middle proxy or direct
        if config.general.use_middle_proxy {
            if let Some(ref pool) = me_pool {
@@ -304,6 +566,7 @@ impl RunningClientHandler {
                    config,
                    buffer_pool,
                    local_addr,
+                    rng,
                )
                .await;
            }
@@ -324,7 +587,13 @@ impl RunningClientHandler {
        .await
    }

-    fn check_user_limits_static(user: &str, config: &ProxyConfig, stats: &Stats) -> Result<()> {
+    async fn check_user_limits_static(
+        user: &str, 
+        config: &ProxyConfig, 
+        stats: &Stats,
+        peer_addr: SocketAddr,
+        ip_tracker: &UserIpTracker,
+    ) -> Result<()> {
        if let Some(expiration) = config.access.user_expirations.get(user) {
            if chrono::Utc::now() > *expiration {
                return Err(ProxyError::UserExpired {
@@ -333,6 +602,19 @@ impl RunningClientHandler {
            }
        }

+        // IP limit check
+        if let Err(reason) = ip_tracker.check_and_add(user, peer_addr.ip()).await {
+            warn!(
+                user = %user, 
+                ip = %peer_addr.ip(),
+                reason = %reason,
+                "IP limit exceeded"
+            );
+            return Err(ProxyError::ConnectionLimitExceeded {
+                user: user.to_string(),
+            });
+        }
+
        if let Some(limit) = config.access.user_max_tcp_conns.get(user) {
            if stats.get_user_curr_connects(user) >= *limit as u64 {
                return Err(ProxyError::ConnectionLimitExceeded {
--- a/src/proxy/direct_relay.rs
+++ b/src/proxy/direct_relay.rs
@@ -1,3 +1,5 @@
+use std::fs::OpenOptions;
+use std::io::Write;
 use std::net::SocketAddr;
 use std::sync::Arc;

@@ -43,7 +45,7 @@ where
    );

    let tg_stream = upstream_manager
-        .connect(dc_addr, Some(success.dc_idx))
+        .connect(dc_addr, Some(success.dc_idx), user.strip_prefix("scope_").filter(|s| !s.is_empty()))
        .await?;

    debug!(peer = %success.peer, dc_addr = %dc_addr, "Connected, performing TG handshake");
@@ -78,7 +80,8 @@ where
 }

 fn get_dc_addr_static(dc_idx: i16, config: &ProxyConfig) -> Result<SocketAddr> {
-    let datacenters = if config.general.prefer_ipv6 {
+    let prefer_v6 = config.network.prefer == 6 && config.network.ipv6.unwrap_or(true);
+    let datacenters = if prefer_v6 {
        &*TG_DATACENTERS_V6
    } else {
        &*TG_DATACENTERS_V4
@@ -87,17 +90,24 @@ fn get_dc_addr_static(dc_idx: i16, config: &ProxyConfig) -> Result<SocketAddr> {
    let num_dcs = datacenters.len();

    let dc_key = dc_idx.to_string();
-    if let Some(addr_str) = config.dc_overrides.get(&dc_key) {
-        match addr_str.parse::<SocketAddr>() {
-            Ok(addr) => {
-                debug!(dc_idx = dc_idx, addr = %addr, "Using DC override from config");
-                return Ok(addr);
-            }
-            Err(_) => {
-                warn!(dc_idx = dc_idx, addr_str = %addr_str,
-                        "Invalid DC override address in config, ignoring");
+    if let Some(addrs) = config.dc_overrides.get(&dc_key) {
+        let mut parsed = Vec::new();
+        for addr_str in addrs {
+            match addr_str.parse::<SocketAddr>() {
+                Ok(addr) => parsed.push(addr),
+                Err(_) => warn!(dc_idx = dc_idx, addr_str = %addr_str, "Invalid DC override address in config, ignoring"),
            }
        }
+
+        if let Some(addr) = parsed
+            .iter()
+            .find(|a| a.is_ipv6() == prefer_v6)
+            .or_else(|| parsed.first())
+            .copied()
+        {
+            debug!(dc_idx = dc_idx, addr = %addr, count = parsed.len(), "Using DC override from config");
+            return Ok(addr);
+        }
    }

    let abs_dc = dc_idx.unsigned_abs() as usize;
@@ -105,6 +115,16 @@ fn get_dc_addr_static(dc_idx: i16, config: &ProxyConfig) -> Result<SocketAddr> {
        return Ok(SocketAddr::new(datacenters[abs_dc - 1], TG_DATACENTER_PORT));
    }

+    // Unknown DC requested by client without override: log and fall back.
+    if !config.dc_overrides.contains_key(&dc_key) {
+        warn!(dc_idx = dc_idx, "Requested non-standard DC with no override; falling back to default cluster");
+        if let Some(path) = &config.general.unknown_dc_log_path {
+            if let Ok(mut file) = OpenOptions::new().create(true).append(true).open(path) {
+                let _ = writeln!(file, "dc_idx={dc_idx}");
+            }
+        }
+    }
+
    let default_dc = config.default_dc.unwrap_or(2) as usize;
    let fallback_idx = if default_dc >= 1 && default_dc <= num_dcs {
        default_dc - 1
@@ -139,6 +159,8 @@ async fn do_tg_handshake_static(
        success.dc_idx,
        &success.dec_key,
        success.dec_iv,
+        &success.enc_key,
+        success.enc_iv,
        rng,
        config.general.fast_mode,
    );
@@ -156,8 +178,9 @@ async fn do_tg_handshake_static(

    let (read_half, write_half) = stream.into_split();

+    let max_pending = config.general.crypto_pending_buffer;
    Ok((
        CryptoReader::new(read_half, tg_decryptor),
-        CryptoWriter::new(write_half, tg_encryptor),
+        CryptoWriter::new(write_half, tg_encryptor, max_pending),
    ))
 }
--- a/src/proxy/handshake.rs
+++ b/src/proxy/handshake.rs
@@ -1,17 +1,21 @@
 //! MTProto Handshake

 use std::net::SocketAddr;
+use std::sync::Arc;
+use std::time::Duration;
 use tokio::io::{AsyncRead, AsyncWrite, AsyncWriteExt};
 use tracing::{debug, warn, trace, info};
 use zeroize::Zeroize;

 use crate::crypto::{sha256, AesCtr, SecureRandom};
+use rand::Rng;
 use crate::protocol::constants::*;
 use crate::protocol::tls;
 use crate::stream::{FakeTlsReader, FakeTlsWriter, CryptoReader, CryptoWriter};
 use crate::error::{ProxyError, HandshakeResult};
 use crate::stats::ReplayChecker;
 use crate::config::ProxyConfig;
+use crate::tls_front::{TlsFrontCache, emulator};

 /// Result of successful handshake
 ///
@@ -55,6 +59,7 @@ pub async fn handle_tls_handshake<R, W>(
    config: &ProxyConfig,
    replay_checker: &ReplayChecker,
    rng: &SecureRandom,
+    tls_cache: Option<Arc<TlsFrontCache>>,
 ) -> HandshakeResult<(FakeTlsReader<R>, FakeTlsWriter<W>, String), R, W>
 where
    R: AsyncRead + Unpin,
@@ -70,7 +75,7 @@ where
    let digest = &handshake[tls::TLS_DIGEST_POS..tls::TLS_DIGEST_POS + tls::TLS_DIGEST_LEN];
    let digest_half = &digest[..tls::TLS_DIGEST_HALF_LEN];

-    if replay_checker.check_tls_digest(digest_half) {
+    if replay_checker.check_and_add_tls_digest(digest_half) {
        warn!(peer = %peer, "TLS replay attack detected (duplicate digest)");
        return HandshakeResult::BadClient { reader, writer };
    }
@@ -102,13 +107,85 @@ where
        None => return HandshakeResult::BadClient { reader, writer },
    };

-    let response = tls::build_server_hello(
-        secret,
-        &validation.digest,
-        &validation.session_id,
-        config.censorship.fake_cert_len,
-        rng,
-    );
+    let cached = if config.censorship.tls_emulation {
+        if let Some(cache) = tls_cache.as_ref() {
+            let selected_domain = if let Some(sni) = tls::extract_sni_from_client_hello(handshake) {
+                if cache.contains_domain(&sni).await {
+                    sni
+                } else {
+                    config.censorship.tls_domain.clone()
+                }
+            } else {
+                config.censorship.tls_domain.clone()
+            };
+            let cached_entry = cache.get(&selected_domain).await;
+            let use_full_cert_payload = cache
+                .take_full_cert_budget_for_ip(
+                    peer.ip(),
+                    Duration::from_secs(config.censorship.tls_full_cert_ttl_secs),
+                )
+                .await;
+            Some((cached_entry, use_full_cert_payload))
+        } else {
+            None
+        }
+    } else {
+        None
+    };
+
+    let alpn_list = if config.censorship.alpn_enforce {
+        tls::extract_alpn_from_client_hello(handshake)
+    } else {
+        Vec::new()
+    };
+    let selected_alpn = if config.censorship.alpn_enforce {
+        if alpn_list.iter().any(|p| p == b"h2") {
+            Some(b"h2".to_vec())
+        } else if alpn_list.iter().any(|p| p == b"http/1.1") {
+            Some(b"http/1.1".to_vec())
+        } else {
+            None
+        }
+    } else {
+        None
+    };
+
+    let response = if let Some((cached_entry, use_full_cert_payload)) = cached {
+        emulator::build_emulated_server_hello(
+            secret,
+            &validation.digest,
+            &validation.session_id,
+            &cached_entry,
+            use_full_cert_payload,
+            rng,
+            selected_alpn.clone(),
+            config.censorship.tls_new_session_tickets,
+        )
+    } else {
+        tls::build_server_hello(
+            secret,
+            &validation.digest,
+            &validation.session_id,
+            config.censorship.fake_cert_len,
+            rng,
+            selected_alpn.clone(),
+            config.censorship.tls_new_session_tickets,
+        )
+    };
+
+    // Optional anti-fingerprint delay before sending ServerHello.
+    if config.censorship.server_hello_delay_max_ms > 0 {
+        let min = config.censorship.server_hello_delay_min_ms;
+        let max = config.censorship.server_hello_delay_max_ms.max(min);
+        let delay_ms = if max == min {
+            max
+        } else {
+            rand::rng().random_range(min..=max)
+        };
+        if delay_ms > 0 {
+            tokio::time::sleep(std::time::Duration::from_millis(delay_ms)).await;
+        }
+    }

    debug!(peer = %peer, response_len = response.len(), "Sending TLS ServerHello");

@@ -122,8 +199,6 @@ where
        return HandshakeResult::Error(ProxyError::Io(e));
    }

-    replay_checker.add_tls_digest(digest_half);
-
    info!(
        peer = %peer,
        user = %validation.user,
@@ -155,7 +230,7 @@ where

    let dec_prekey_iv = &handshake[SKIP_LEN..SKIP_LEN + PREKEY_LEN + IV_LEN];

-    if replay_checker.check_handshake(dec_prekey_iv) {
+    if replay_checker.check_and_add_handshake(dec_prekey_iv) {
        warn!(peer = %peer, "MTProto replay attack detected");
        return HandshakeResult::BadClient { reader, writer };
    }
@@ -192,7 +267,11 @@ where

        let mode_ok = match proto_tag {
            ProtoTag::Secure => {
-                if is_tls { config.general.modes.tls } else { config.general.modes.secure }
+                if is_tls {
+                    config.general.modes.tls || config.general.modes.secure
+                } else {
+                    config.general.modes.secure || config.general.modes.tls
+                }
            }
            ProtoTag::Intermediate | ProtoTag::Abridged => config.general.modes.classic,
        };
@@ -216,8 +295,6 @@ where

        let enc_iv = u128::from_be_bytes(enc_iv_bytes.try_into().unwrap());

-        replay_checker.add_handshake(dec_prekey_iv);
-
        let encryptor = AesCtr::new(&enc_key, enc_iv);

        let success = HandshakeSuccess {
@@ -241,9 +318,10 @@ where
            "MTProto handshake successful"
        );

+        let max_pending = config.general.crypto_pending_buffer;
        return HandshakeResult::Success((
            CryptoReader::new(reader, decryptor),
-            CryptoWriter::new(writer, encryptor),
+            CryptoWriter::new(writer, encryptor, max_pending),
            success,
        ));
    }
@@ -256,8 +334,10 @@ where
 pub fn generate_tg_nonce(
    proto_tag: ProtoTag, 
    dc_idx: i16,
-    client_dec_key: &[u8; 32],
-    client_dec_iv: u128,
+    _client_dec_key: &[u8; 32],
+    _client_dec_iv: u128,
+    client_enc_key: &[u8; 32],
+    client_enc_iv: u128,
    rng: &SecureRandom,
    fast_mode: bool,
 ) -> ([u8; HANDSHAKE_LEN], [u8; 32], u128, [u8; 32], u128) {
@@ -278,9 +358,11 @@ pub fn generate_tg_nonce(
        nonce[DC_IDX_POS..DC_IDX_POS + 2].copy_from_slice(&dc_idx.to_le_bytes());

        if fast_mode {
-            nonce[SKIP_LEN..SKIP_LEN + KEY_LEN].copy_from_slice(client_dec_key);
-            nonce[SKIP_LEN + KEY_LEN..SKIP_LEN + KEY_LEN + IV_LEN]
-                .copy_from_slice(&client_dec_iv.to_be_bytes());
+            let mut key_iv = Vec::with_capacity(KEY_LEN + IV_LEN);
+            key_iv.extend_from_slice(client_enc_key);
+            key_iv.extend_from_slice(&client_enc_iv.to_be_bytes());
+            key_iv.reverse(); // Python/C behavior: reversed enc_key+enc_iv in nonce
+            nonce[SKIP_LEN..SKIP_LEN + KEY_LEN + IV_LEN].copy_from_slice(&key_iv);
        }

        let enc_key_iv = &nonce[SKIP_LEN..SKIP_LEN + KEY_LEN + IV_LEN];
@@ -332,10 +414,21 @@ mod tests {
    fn test_generate_tg_nonce() {
        let client_dec_key = [0x42u8; 32];
        let client_dec_iv = 12345u128;
+        let client_enc_key = [0x24u8; 32];
+        let client_enc_iv = 54321u128;

        let rng = SecureRandom::new();
        let (nonce, _tg_enc_key, _tg_enc_iv, _tg_dec_key, _tg_dec_iv) = 
-            generate_tg_nonce(ProtoTag::Secure, 2, &client_dec_key, client_dec_iv, &rng, false);
+            generate_tg_nonce(
+                ProtoTag::Secure,
+                2,
+                &client_dec_key,
+                client_dec_iv,
+                &client_enc_key,
+                client_enc_iv,
+                &rng,
+                false,
+            );

        assert_eq!(nonce.len(), HANDSHAKE_LEN);

@@ -347,10 +440,21 @@ mod tests {
    fn test_encrypt_tg_nonce() {
        let client_dec_key = [0x42u8; 32];
        let client_dec_iv = 12345u128;
+        let client_enc_key = [0x24u8; 32];
+        let client_enc_iv = 54321u128;

        let rng = SecureRandom::new();
        let (nonce, _, _, _, _) = 
-            generate_tg_nonce(ProtoTag::Secure, 2, &client_dec_key, client_dec_iv, &rng, false);
+            generate_tg_nonce(
+                ProtoTag::Secure,
+                2,
+                &client_dec_key,
+                client_dec_iv,
+                &client_enc_key,
+                client_enc_iv,
+                &rng,
+                false,
+            );

        let encrypted = encrypt_tg_nonce(&nonce);

@@ -379,4 +483,4 @@ mod tests {
        drop(success);
        // Drop impl zeroizes key material without panic
    }
-}
+}
--- a/src/proxy/masking.rs
+++ b/src/proxy/masking.rs
@@ -1,7 +1,7 @@
 //! Masking - forward unrecognized traffic to mask host

-use std::time::Duration;
 use std::str;
+use std::time::Duration;
 use tokio::net::TcpStream;
 #[cfg(unix)]
 use tokio::net::UnixStream;
@@ -11,9 +11,9 @@ use tracing::debug;
 use crate::config::ProxyConfig;

 const MASK_TIMEOUT: Duration = Duration::from_secs(5);
-    /// Maximum duration for the entire masking relay.
-    /// Limits resource consumption from slow-loris attacks and port scanners.
-    const MASK_RELAY_TIMEOUT: Duration = Duration::from_secs(60);
+/// Maximum duration for the entire masking relay.
+/// Limits resource consumption from slow-loris attacks and port scanners.
+const MASK_RELAY_TIMEOUT: Duration = Duration::from_secs(60);
 const MASK_BUFFER_SIZE: usize = 8192;

 /// Detect client type based on initial data
@@ -78,7 +78,9 @@ where
        match connect_result {
            Ok(Ok(stream)) => {
                let (mask_read, mask_write) = stream.into_split();
-                relay_to_mask(reader, writer, mask_read, mask_write, initial_data).await;
+                if timeout(MASK_RELAY_TIMEOUT, relay_to_mask(reader, writer, mask_read, mask_write, initial_data)).await.is_err() {
+                    debug!("Mask relay timed out (unix socket)");
+                }
            }
            Ok(Err(e)) => {
                debug!(error = %e, "Failed to connect to mask unix socket");
@@ -110,7 +112,9 @@ where
    match connect_result {
        Ok(Ok(stream)) => {
            let (mask_read, mask_write) = stream.into_split();
-            relay_to_mask(reader, writer, mask_read, mask_write, initial_data).await;
+            if timeout(MASK_RELAY_TIMEOUT, relay_to_mask(reader, writer, mask_read, mask_write, initial_data)).await.is_err() {
+                debug!("Mask relay timed out");
+            }
        }
        Ok(Err(e)) => {
            debug!(error = %e, "Failed to connect to mask host");
--- a/src/proxy/middle_relay.rs
+++ b/src/proxy/middle_relay.rs
@@ -1,26 +1,181 @@
-use std::net::SocketAddr;
-use std::sync::Arc;
+use std::collections::HashMap;
+use std::collections::hash_map::DefaultHasher;
+use std::hash::{Hash, Hasher};
+use std::net::{IpAddr, SocketAddr};
+use std::sync::atomic::{AtomicU64, Ordering};
+use std::sync::{Arc, Mutex, OnceLock};
+use std::time::{Duration, Instant};

 use tokio::io::{AsyncRead, AsyncReadExt, AsyncWrite, AsyncWriteExt};
-use tracing::{debug, info, trace};
+use tokio::sync::{mpsc, oneshot};
+use tracing::{debug, info, trace, warn};

 use crate::config::ProxyConfig;
+use crate::crypto::SecureRandom;
 use crate::error::{ProxyError, Result};
-use crate::protocol::constants::*;
+use crate::protocol::constants::{*, secure_padding_len};
 use crate::proxy::handshake::HandshakeSuccess;
 use crate::stats::Stats;
 use crate::stream::{BufferPool, CryptoReader, CryptoWriter};
 use crate::transport::middle_proxy::{MePool, MeResponse, proto_flags_for_tag};

+enum C2MeCommand {
+    Data { payload: Vec<u8>, flags: u32 },
+    Close,
+}
+
+const DESYNC_DEDUP_WINDOW: Duration = Duration::from_secs(60);
+const DESYNC_ERROR_CLASS: &str = "frame_too_large_crypto_desync";
+static DESYNC_DEDUP: OnceLock<Mutex<HashMap<u64, Instant>>> = OnceLock::new();
+
+struct RelayForensicsState {
+    trace_id: u64,
+    conn_id: u64,
+    user: String,
+    peer: SocketAddr,
+    peer_hash: u64,
+    started_at: Instant,
+    bytes_c2me: u64,
+    bytes_me2c: Arc<AtomicU64>,
+    desync_all_full: bool,
+}
+
+fn hash_value<T: Hash>(value: &T) -> u64 {
+    let mut hasher = DefaultHasher::new();
+    value.hash(&mut hasher);
+    hasher.finish()
+}
+
+fn hash_ip(ip: IpAddr) -> u64 {
+    hash_value(&ip)
+}
+
+fn should_emit_full_desync(key: u64, all_full: bool, now: Instant) -> bool {
+    if all_full {
+        return true;
+    }
+
+    let dedup = DESYNC_DEDUP.get_or_init(|| Mutex::new(HashMap::new()));
+    let mut guard = dedup.lock().expect("desync dedup mutex poisoned");
+    guard.retain(|_, seen_at| now.duration_since(*seen_at) < DESYNC_DEDUP_WINDOW);
+
+    match guard.get_mut(&key) {
+        Some(seen_at) => {
+            if now.duration_since(*seen_at) >= DESYNC_DEDUP_WINDOW {
+                *seen_at = now;
+                true
+            } else {
+                false
+            }
+        }
+        None => {
+            guard.insert(key, now);
+            true
+        }
+    }
+}
+
+fn report_desync_frame_too_large(
+    state: &RelayForensicsState,
+    proto_tag: ProtoTag,
+    frame_counter: u64,
+    max_frame: usize,
+    len: usize,
+    raw_len_bytes: Option<[u8; 4]>,
+    stats: &Stats,
+) -> ProxyError {
+    let len_buf = raw_len_bytes.unwrap_or((len as u32).to_le_bytes());
+    let looks_like_tls = raw_len_bytes
+        .map(|b| b[0] == 0x16 && b[1] == 0x03)
+        .unwrap_or(false);
+    let looks_like_http = raw_len_bytes
+        .map(|b| matches!(b[0], b'G' | b'P' | b'H' | b'C' | b'D'))
+        .unwrap_or(false);
+    let now = Instant::now();
+    let dedup_key = hash_value(&(
+        state.user.as_str(),
+        state.peer_hash,
+        proto_tag,
+        DESYNC_ERROR_CLASS,
+    ));
+    let emit_full = should_emit_full_desync(dedup_key, state.desync_all_full, now);
+    let duration_ms = state.started_at.elapsed().as_millis() as u64;
+    let bytes_me2c = state.bytes_me2c.load(Ordering::Relaxed);
+
+    stats.increment_desync_total();
+    stats.observe_desync_frames_ok(frame_counter);
+    if emit_full {
+        stats.increment_desync_full_logged();
+        warn!(
+            trace_id = format_args!("0x{:016x}", state.trace_id),
+            conn_id = state.conn_id,
+            user = %state.user,
+            peer_hash = format_args!("0x{:016x}", state.peer_hash),
+            proto = ?proto_tag,
+            mode = "middle_proxy",
+            is_tls = true,
+            duration_ms,
+            bytes_c2me = state.bytes_c2me,
+            bytes_me2c,
+            raw_len = len,
+            raw_len_hex = format_args!("0x{:08x}", len),
+            raw_bytes = format_args!(
+                "{:02x} {:02x} {:02x} {:02x}",
+                len_buf[0], len_buf[1], len_buf[2], len_buf[3]
+            ),
+            max_frame,
+            tls_like = looks_like_tls,
+            http_like = looks_like_http,
+            frames_ok = frame_counter,
+            dedup_window_secs = DESYNC_DEDUP_WINDOW.as_secs(),
+            desync_all_full = state.desync_all_full,
+            full_reason = if state.desync_all_full { "desync_all_full" } else { "first_in_dedup_window" },
+            error_class = DESYNC_ERROR_CLASS,
+            "Frame too large — crypto desync forensics"
+        );
+        debug!(
+            trace_id = format_args!("0x{:016x}", state.trace_id),
+            conn_id = state.conn_id,
+            user = %state.user,
+            peer = %state.peer,
+            "Frame too large forensic peer detail"
+        );
+    } else {
+        stats.increment_desync_suppressed();
+        debug!(
+            trace_id = format_args!("0x{:016x}", state.trace_id),
+            conn_id = state.conn_id,
+            user = %state.user,
+            peer_hash = format_args!("0x{:016x}", state.peer_hash),
+            proto = ?proto_tag,
+            duration_ms,
+            bytes_c2me = state.bytes_c2me,
+            bytes_me2c,
+            raw_len = len,
+            frames_ok = frame_counter,
+            dedup_window_secs = DESYNC_DEDUP_WINDOW.as_secs(),
+            error_class = DESYNC_ERROR_CLASS,
+            "Frame too large — crypto desync forensic suppressed"
+        );
+    }
+
+    ProxyError::Proxy(format!(
+        "Frame too large: {len} (max {max_frame}), frames_ok={frame_counter}, conn_id={}, trace_id=0x{:016x}",
+        state.conn_id,
+        state.trace_id
+    ))
+}
+
 pub(crate) async fn handle_via_middle_proxy<R, W>(
    mut crypto_reader: CryptoReader<R>,
-    mut crypto_writer: CryptoWriter<W>,
+    crypto_writer: CryptoWriter<W>,
    success: HandshakeSuccess,
    me_pool: Arc<MePool>,
    stats: Arc<Stats>,
-    _config: Arc<ProxyConfig>,
+    config: Arc<ProxyConfig>,
    _buffer_pool: Arc<BufferPool>,
    local_addr: SocketAddr,
+    rng: Arc<SecureRandom>,
 ) -> Result<()>
 where
    R: AsyncRead + Unpin + Send + 'static,
@@ -39,70 +194,228 @@ where
        "Routing via Middle-End"
    );

-    let (conn_id, mut me_rx) = me_pool.registry().register().await;
+    let (conn_id, me_rx) = me_pool.registry().register().await;
+    let trace_id = conn_id;
+    let bytes_me2c = Arc::new(AtomicU64::new(0));
+    let mut forensics = RelayForensicsState {
+        trace_id,
+        conn_id,
+        user: user.clone(),
+        peer,
+        peer_hash: hash_ip(peer.ip()),
+        started_at: Instant::now(),
+        bytes_c2me: 0,
+        bytes_me2c: bytes_me2c.clone(),
+        desync_all_full: config.general.desync_all_full,
+    };

    stats.increment_user_connects(&user);
    stats.increment_user_curr_connects(&user);

    let proto_flags = proto_flags_for_tag(proto_tag, me_pool.has_proxy_tag());
    debug!(
+        trace_id = format_args!("0x{:016x}", trace_id),
        user = %user,
        conn_id,
+        peer_hash = format_args!("0x{:016x}", forensics.peer_hash),
+        desync_all_full = forensics.desync_all_full,
        proto_flags = format_args!("0x{:08x}", proto_flags),
        "ME relay started"
    );

    let translated_local_addr = me_pool.translate_our_addr(local_addr);

-    let result: Result<()> = loop {
-        tokio::select! {
-            client_frame = read_client_payload(&mut crypto_reader, proto_tag) => {
-                match client_frame {
-                    Ok(Some(payload)) => {
-                        trace!(conn_id, bytes = payload.len(), "C->ME frame");
-                        stats.add_user_octets_from(&user, payload.len() as u64);
-                        me_pool.send_proxy_req(
-                            conn_id,
-                            success.dc_idx,
-                            peer,
-                            translated_local_addr,
-                            &payload,
-                            proto_flags,
-                        ).await?;
-                    }
-                    Ok(None) => {
-                        debug!(conn_id, "Client EOF");
-                        let _ = me_pool.send_close(conn_id).await;
-                        break Ok(());
-                    }
-                    Err(e) => break Err(e),
+    let frame_limit = config.general.max_client_frame;
+
+    let (c2me_tx, mut c2me_rx) = mpsc::channel::<C2MeCommand>(1024);
+    let me_pool_c2me = me_pool.clone();
+    let c2me_sender = tokio::spawn(async move {
+        while let Some(cmd) = c2me_rx.recv().await {
+            match cmd {
+                C2MeCommand::Data { payload, flags } => {
+                    me_pool_c2me.send_proxy_req(
+                        conn_id,
+                        success.dc_idx,
+                        peer,
+                        translated_local_addr,
+                        &payload,
+                        flags,
+                    ).await?;
                }
-            }
-            me_msg = me_rx.recv() => {
-                match me_msg {
-                    Some(MeResponse::Data { flags, data }) => {
-                        trace!(conn_id, bytes = data.len(), flags, "ME->C data");
-                        stats.add_user_octets_to(&user, data.len() as u64);
-                        write_client_payload(&mut crypto_writer, proto_tag, flags, &data).await?;
-                    }
-                    Some(MeResponse::Ack(confirm)) => {
-                        trace!(conn_id, confirm, "ME->C quickack");
-                        write_client_ack(&mut crypto_writer, proto_tag, confirm).await?;
-                    }
-                    Some(MeResponse::Close) => {
-                        debug!(conn_id, "ME sent close");
-                        break Ok(());
-                    }
-                    None => {
-                        debug!(conn_id, "ME channel closed");
-                        break Err(ProxyError::Proxy("ME connection lost".into()));
-                    }
+                C2MeCommand::Close => {
+                    let _ = me_pool_c2me.send_close(conn_id).await;
+                    return Ok(());
                }
            }
        }
+        Ok(())
+    });
+
+    let (stop_tx, mut stop_rx) = oneshot::channel::<()>();
+    let mut me_rx_task = me_rx;
+    let stats_clone = stats.clone();
+    let rng_clone = rng.clone();
+    let user_clone = user.clone();
+    let bytes_me2c_clone = bytes_me2c.clone();
+    let me_writer = tokio::spawn(async move {
+        let mut writer = crypto_writer;
+        let mut frame_buf = Vec::with_capacity(16 * 1024);
+        loop {
+            tokio::select! {
+                msg = me_rx_task.recv() => {
+                    match msg {
+                        Some(MeResponse::Data { flags, data }) => {
+                            trace!(conn_id, bytes = data.len(), flags, "ME->C data");
+                            bytes_me2c_clone.fetch_add(data.len() as u64, Ordering::Relaxed);
+                            stats_clone.add_user_octets_to(&user_clone, data.len() as u64);
+                            write_client_payload(
+                                &mut writer,
+                                proto_tag,
+                                flags,
+                                &data,
+                                rng_clone.as_ref(),
+                                &mut frame_buf,
+                            )
+                            .await?;
+
+                            // Drain all immediately queued ME responses and flush once.
+                            while let Ok(next) = me_rx_task.try_recv() {
+                                match next {
+                                    MeResponse::Data { flags, data } => {
+                                        trace!(conn_id, bytes = data.len(), flags, "ME->C data (batched)");
+                                        bytes_me2c_clone.fetch_add(data.len() as u64, Ordering::Relaxed);
+                                        stats_clone.add_user_octets_to(&user_clone, data.len() as u64);
+                                        write_client_payload(
+                                            &mut writer,
+                                            proto_tag,
+                                            flags,
+                                            &data,
+                                            rng_clone.as_ref(),
+                                            &mut frame_buf,
+                                        ).await?;
+                                    }
+                                    MeResponse::Ack(confirm) => {
+                                        trace!(conn_id, confirm, "ME->C quickack (batched)");
+                                        write_client_ack(&mut writer, proto_tag, confirm).await?;
+                                    }
+                                    MeResponse::Close => {
+                                        debug!(conn_id, "ME sent close (batched)");
+                                        let _ = writer.flush().await;
+                                        return Ok(());
+                                    }
+                                }
+                            }
+
+                            writer.flush().await.map_err(ProxyError::Io)?;
+                        }
+                        Some(MeResponse::Ack(confirm)) => {
+                            trace!(conn_id, confirm, "ME->C quickack");
+                            write_client_ack(&mut writer, proto_tag, confirm).await?;
+                        }
+                        Some(MeResponse::Close) => {
+                            debug!(conn_id, "ME sent close");
+                            let _ = writer.flush().await;
+                            return Ok(());
+                        }
+                        None => {
+                            debug!(conn_id, "ME channel closed");
+                            return Err(ProxyError::Proxy("ME connection lost".into()));
+                        }
+                    }
+                }
+                _ = &mut stop_rx => {
+                    debug!(conn_id, "ME writer stop signal");
+                    return Ok(());
+                }
+            }
+        }
+    });
+
+    let mut main_result: Result<()> = Ok(());
+    let mut client_closed = false;
+    let mut frame_counter: u64 = 0;
+    loop {
+        match read_client_payload(
+            &mut crypto_reader,
+            proto_tag,
+            frame_limit,
+            &forensics,
+            &mut frame_counter,
+            &stats,
+        ).await {
+            Ok(Some((payload, quickack))) => {
+                trace!(conn_id, bytes = payload.len(), "C->ME frame");
+                forensics.bytes_c2me = forensics
+                    .bytes_c2me
+                    .saturating_add(payload.len() as u64);
+                stats.add_user_octets_from(&user, payload.len() as u64);
+                let mut flags = proto_flags;
+                if quickack {
+                    flags |= RPC_FLAG_QUICKACK;
+                }
+                if payload.len() >= 8 && payload[..8].iter().all(|b| *b == 0) {
+                    flags |= RPC_FLAG_NOT_ENCRYPTED;
+                }
+                // Keep client read loop lightweight: route heavy ME send path via a dedicated task.
+                if c2me_tx
+                    .send(C2MeCommand::Data { payload, flags })
+                    .await
+                    .is_err()
+                {
+                    main_result = Err(ProxyError::Proxy("ME sender channel closed".into()));
+                    break;
+                }
+            }
+            Ok(None) => {
+                debug!(conn_id, "Client EOF");
+                client_closed = true;
+                let _ = c2me_tx.send(C2MeCommand::Close).await;
+                break;
+            }
+            Err(e) => {
+                main_result = Err(e);
+                break;
+            }
+        }
+    }
+
+    drop(c2me_tx);
+    let c2me_result = c2me_sender
+        .await
+        .unwrap_or_else(|e| Err(ProxyError::Proxy(format!("ME sender join error: {e}"))));
+
+    let _ = stop_tx.send(());
+    let mut writer_result = me_writer
+        .await
+        .unwrap_or_else(|e| Err(ProxyError::Proxy(format!("ME writer join error: {e}"))));
+
+    // When client closes, but ME channel stopped as unregistered - it isnt error
+    if client_closed {
+        if matches!(
+            writer_result,
+            Err(ProxyError::Proxy(ref msg)) if msg == "ME connection lost"
+        ) {
+            writer_result = Ok(());
+        }
+    }
+
+    let result = match (main_result, c2me_result, writer_result) {
+        (Ok(()), Ok(()), Ok(())) => Ok(()),
+        (Err(e), _, _) => Err(e),
+        (_, Err(e), _) => Err(e),
+        (_, _, Err(e)) => Err(e),
    };

-    debug!(user = %user, conn_id, "ME relay cleanup");
+    debug!(
+        user = %user,
+        conn_id,
+        trace_id = format_args!("0x{:016x}", trace_id),
+        duration_ms = forensics.started_at.elapsed().as_millis() as u64,
+        bytes_c2me = forensics.bytes_c2me,
+        bytes_me2c = forensics.bytes_me2c.load(Ordering::Relaxed),
+        frames_ok = frame_counter,
+        "ME relay cleanup"
+    );
    me_pool.registry().unregister(conn_id).await;
    stats.decrement_user_curr_connects(&user);
    result
@@ -111,55 +424,111 @@ where
 async fn read_client_payload<R>(
    client_reader: &mut CryptoReader<R>,
    proto_tag: ProtoTag,
-) -> Result<Option<Vec<u8>>>
+    max_frame: usize,
+    forensics: &RelayForensicsState,
+    frame_counter: &mut u64,
+    stats: &Stats,
+) -> Result<Option<(Vec<u8>, bool)>>
 where
    R: AsyncRead + Unpin + Send + 'static,
 {
-    let len = match proto_tag {
-        ProtoTag::Abridged => {
-            let mut first = [0u8; 1];
-            match client_reader.read_exact(&mut first).await {
-                Ok(_) => {}
-                Err(e) if e.kind() == std::io::ErrorKind::UnexpectedEof => return Ok(None),
-                Err(e) => return Err(ProxyError::Io(e)),
+    loop {
+        let (len, quickack, raw_len_bytes) = match proto_tag {
+            ProtoTag::Abridged => {
+                let mut first = [0u8; 1];
+                match client_reader.read_exact(&mut first).await {
+                    Ok(_) => {}
+                    Err(e) if e.kind() == std::io::ErrorKind::UnexpectedEof => return Ok(None),
+                    Err(e) => return Err(ProxyError::Io(e)),
+                }
+
+                let quickack = (first[0] & 0x80) != 0;
+                let len_words = if (first[0] & 0x7f) == 0x7f {
+                    let mut ext = [0u8; 3];
+                    client_reader
+                        .read_exact(&mut ext)
+                        .await
+                        .map_err(ProxyError::Io)?;
+                    u32::from_le_bytes([ext[0], ext[1], ext[2], 0]) as usize
+                } else {
+                    (first[0] & 0x7f) as usize
+                };
+
+                let len = len_words
+                    .checked_mul(4)
+                    .ok_or_else(|| ProxyError::Proxy("Abridged frame length overflow".into()))?;
+                (len, quickack, None)
            }
-
-            let len_words = if (first[0] & 0x7f) == 0x7f {
-                let mut ext = [0u8; 3];
-                client_reader
-                    .read_exact(&mut ext)
-                    .await
-                    .map_err(ProxyError::Io)?;
-                u32::from_le_bytes([ext[0], ext[1], ext[2], 0]) as usize
-            } else {
-                (first[0] & 0x7f) as usize
-            };
-
-            len_words
-                .checked_mul(4)
-                .ok_or_else(|| ProxyError::Proxy("Abridged frame length overflow".into()))?
-        }
-        ProtoTag::Intermediate | ProtoTag::Secure => {
-            let mut len_buf = [0u8; 4];
-            match client_reader.read_exact(&mut len_buf).await {
-                Ok(_) => {}
-                Err(e) if e.kind() == std::io::ErrorKind::UnexpectedEof => return Ok(None),
-                Err(e) => return Err(ProxyError::Io(e)),
+            ProtoTag::Intermediate | ProtoTag::Secure => {
+                let mut len_buf = [0u8; 4];
+                match client_reader.read_exact(&mut len_buf).await {
+                    Ok(_) => {}
+                    Err(e) if e.kind() == std::io::ErrorKind::UnexpectedEof => return Ok(None),
+                    Err(e) => return Err(ProxyError::Io(e)),
+                }
+                let quickack = (len_buf[3] & 0x80) != 0;
+                (
+                    (u32::from_le_bytes(len_buf) & 0x7fff_ffff) as usize,
+                    quickack,
+                    Some(len_buf),
+                )
            }
-            (u32::from_le_bytes(len_buf) & 0x7fff_ffff) as usize
-        }
-    };
+        };

-    if len > 16 * 1024 * 1024 {
-        return Err(ProxyError::Proxy(format!("Frame too large: {len}")));
+        if len == 0 {
+            continue;
+        }
+        if len < 4 && proto_tag != ProtoTag::Abridged {
+            warn!(
+                trace_id = format_args!("0x{:016x}", forensics.trace_id),
+                conn_id = forensics.conn_id,
+                user = %forensics.user,
+                len,
+                proto = ?proto_tag,
+                "Frame too small — corrupt or probe"
+            );
+            return Err(ProxyError::Proxy(format!("Frame too small: {len}")));
+        }
+
+        if len > max_frame {
+            return Err(report_desync_frame_too_large(
+                forensics,
+                proto_tag,
+                *frame_counter,
+                max_frame,
+                len,
+                raw_len_bytes,
+                stats,
+            ));
+        }
+
+        let secure_payload_len = if proto_tag == ProtoTag::Secure {
+            match secure_payload_len_from_wire_len(len) {
+                Some(payload_len) => payload_len,
+                None => {
+                    stats.increment_secure_padding_invalid();
+                    return Err(ProxyError::Proxy(format!(
+                        "Invalid secure frame length: {len}"
+                    )));
+                }
+            }
+        } else {
+            len
+        };
+
+        let mut payload = vec![0u8; len];
+        client_reader
+            .read_exact(&mut payload)
+            .await
+            .map_err(ProxyError::Io)?;
+
+        // Secure Intermediate: strip validated trailing padding bytes.
+        if proto_tag == ProtoTag::Secure {
+            payload.truncate(secure_payload_len);
+        }
+        *frame_counter += 1;
+        return Ok(Some((payload, quickack)));
    }
-
-    let mut payload = vec![0u8; len];
-    client_reader
-        .read_exact(&mut payload)
-        .await
-        .map_err(ProxyError::Io)?;
-    Ok(Some(payload))
 }

 async fn write_client_payload<W>(
@@ -167,6 +536,8 @@ async fn write_client_payload<W>(
    proto_tag: ProtoTag,
    flags: u32,
    data: &[u8],
+    rng: &SecureRandom,
+    frame_buf: &mut Vec<u8>,
 ) -> Result<()>
 where
    W: AsyncWrite + Unpin + Send + 'static,
@@ -188,8 +559,12 @@ where
                if quickack {
                    first |= 0x80;
                }
+                frame_buf.clear();
+                frame_buf.reserve(1 + data.len());
+                frame_buf.push(first);
+                frame_buf.extend_from_slice(data);
                client_writer
-                    .write_all(&[first])
+                    .write_all(&frame_buf)
                    .await
                    .map_err(ProxyError::Io)?;
            } else if len_words < (1 << 24) {
@@ -198,8 +573,12 @@ where
                    first |= 0x80;
                }
                let lw = (len_words as u32).to_le_bytes();
+                frame_buf.clear();
+                frame_buf.reserve(4 + data.len());
+                frame_buf.extend_from_slice(&[first, lw[0], lw[1], lw[2]]);
+                frame_buf.extend_from_slice(data);
                client_writer
-                    .write_all(&[first, lw[0], lw[1], lw[2]])
+                    .write_all(&frame_buf)
                    .await
                    .map_err(ProxyError::Io)?;
            } else {
@@ -208,29 +587,41 @@ where
                    data.len()
                )));
            }
-
-            client_writer
-                .write_all(data)
-                .await
-                .map_err(ProxyError::Io)?;
        }
        ProtoTag::Intermediate | ProtoTag::Secure => {
-            let mut len = data.len() as u32;
+            let padding_len = if proto_tag == ProtoTag::Secure {
+                if !is_valid_secure_payload_len(data.len()) {
+                    return Err(ProxyError::Proxy(format!(
+                        "Secure payload must be 4-byte aligned, got {}",
+                        data.len()
+                    )));
+                }
+                secure_padding_len(data.len(), rng)
+            } else {
+                0
+            };
+            let mut len_val = (data.len() + padding_len) as u32;
            if quickack {
-                len |= 0x8000_0000;
+                len_val |= 0x8000_0000;
+            }
+            let total = 4 + data.len() + padding_len;
+            frame_buf.clear();
+            frame_buf.reserve(total);
+            frame_buf.extend_from_slice(&len_val.to_le_bytes());
+            frame_buf.extend_from_slice(data);
+            if padding_len > 0 {
+                let start = frame_buf.len();
+                frame_buf.resize(start + padding_len, 0);
+                rng.fill(&mut frame_buf[start..]);
            }
            client_writer
-                .write_all(&len.to_le_bytes())
-                .await
-                .map_err(ProxyError::Io)?;
-            client_writer
-                .write_all(data)
+                .write_all(&frame_buf)
                .await
                .map_err(ProxyError::Io)?;
        }
    }

-    client_writer.flush().await.map_err(ProxyError::Io)
+    Ok(())
 }

 async fn write_client_ack<W>(
@@ -250,5 +641,6 @@ where
        .write_all(&bytes)
        .await
        .map_err(ProxyError::Io)?;
+    // ACK should remain low-latency.
    client_writer.flush().await.map_err(ProxyError::Io)
 }
--- a/src/stats/mod.rs
+++ b/src/stats/mod.rs
@@ -19,6 +19,25 @@ pub struct Stats {
    connects_all: AtomicU64,
    connects_bad: AtomicU64,
    handshake_timeouts: AtomicU64,
+    me_keepalive_sent: AtomicU64,
+    me_keepalive_failed: AtomicU64,
+    me_keepalive_pong: AtomicU64,
+    me_keepalive_timeout: AtomicU64,
+    me_reconnect_attempts: AtomicU64,
+    me_reconnect_success: AtomicU64,
+    me_crc_mismatch: AtomicU64,
+    me_seq_mismatch: AtomicU64,
+    me_route_drop_no_conn: AtomicU64,
+    me_route_drop_channel_closed: AtomicU64,
+    me_route_drop_queue_full: AtomicU64,
+    secure_padding_invalid: AtomicU64,
+    desync_total: AtomicU64,
+    desync_full_logged: AtomicU64,
+    desync_suppressed: AtomicU64,
+    desync_frames_bucket_0: AtomicU64,
+    desync_frames_bucket_1_2: AtomicU64,
+    desync_frames_bucket_3_10: AtomicU64,
+    desync_frames_bucket_gt_10: AtomicU64,
    user_stats: DashMap<String, UserStats>,
    start_time: parking_lot::RwLock<Option<Instant>>,
 }
@@ -43,8 +62,93 @@ impl Stats {
    pub fn increment_connects_all(&self) { self.connects_all.fetch_add(1, Ordering::Relaxed); }
    pub fn increment_connects_bad(&self) { self.connects_bad.fetch_add(1, Ordering::Relaxed); }
    pub fn increment_handshake_timeouts(&self) { self.handshake_timeouts.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_keepalive_sent(&self) { self.me_keepalive_sent.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_keepalive_failed(&self) { self.me_keepalive_failed.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_keepalive_pong(&self) { self.me_keepalive_pong.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_keepalive_timeout(&self) { self.me_keepalive_timeout.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_keepalive_timeout_by(&self, value: u64) {
+        self.me_keepalive_timeout.fetch_add(value, Ordering::Relaxed);
+    }
+    pub fn increment_me_reconnect_attempt(&self) { self.me_reconnect_attempts.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_reconnect_success(&self) { self.me_reconnect_success.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_crc_mismatch(&self) { self.me_crc_mismatch.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_seq_mismatch(&self) { self.me_seq_mismatch.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_route_drop_no_conn(&self) { self.me_route_drop_no_conn.fetch_add(1, Ordering::Relaxed); }
+    pub fn increment_me_route_drop_channel_closed(&self) {
+        self.me_route_drop_channel_closed.fetch_add(1, Ordering::Relaxed);
+    }
+    pub fn increment_me_route_drop_queue_full(&self) {
+        self.me_route_drop_queue_full.fetch_add(1, Ordering::Relaxed);
+    }
+    pub fn increment_secure_padding_invalid(&self) {
+        self.secure_padding_invalid.fetch_add(1, Ordering::Relaxed);
+    }
+    pub fn increment_desync_total(&self) {
+        self.desync_total.fetch_add(1, Ordering::Relaxed);
+    }
+    pub fn increment_desync_full_logged(&self) {
+        self.desync_full_logged.fetch_add(1, Ordering::Relaxed);
+    }
+    pub fn increment_desync_suppressed(&self) {
+        self.desync_suppressed.fetch_add(1, Ordering::Relaxed);
+    }
+    pub fn observe_desync_frames_ok(&self, frames_ok: u64) {
+        match frames_ok {
+            0 => {
+                self.desync_frames_bucket_0.fetch_add(1, Ordering::Relaxed);
+            }
+            1..=2 => {
+                self.desync_frames_bucket_1_2.fetch_add(1, Ordering::Relaxed);
+            }
+            3..=10 => {
+                self.desync_frames_bucket_3_10.fetch_add(1, Ordering::Relaxed);
+            }
+            _ => {
+                self.desync_frames_bucket_gt_10.fetch_add(1, Ordering::Relaxed);
+            }
+        }
+    }
    pub fn get_connects_all(&self) -> u64 { self.connects_all.load(Ordering::Relaxed) }
    pub fn get_connects_bad(&self) -> u64 { self.connects_bad.load(Ordering::Relaxed) }
+    pub fn get_me_keepalive_sent(&self) -> u64 { self.me_keepalive_sent.load(Ordering::Relaxed) }
+    pub fn get_me_keepalive_failed(&self) -> u64 { self.me_keepalive_failed.load(Ordering::Relaxed) }
+    pub fn get_me_keepalive_pong(&self) -> u64 { self.me_keepalive_pong.load(Ordering::Relaxed) }
+    pub fn get_me_keepalive_timeout(&self) -> u64 { self.me_keepalive_timeout.load(Ordering::Relaxed) }
+    pub fn get_me_reconnect_attempts(&self) -> u64 { self.me_reconnect_attempts.load(Ordering::Relaxed) }
+    pub fn get_me_reconnect_success(&self) -> u64 { self.me_reconnect_success.load(Ordering::Relaxed) }
+    pub fn get_me_crc_mismatch(&self) -> u64 { self.me_crc_mismatch.load(Ordering::Relaxed) }
+    pub fn get_me_seq_mismatch(&self) -> u64 { self.me_seq_mismatch.load(Ordering::Relaxed) }
+    pub fn get_me_route_drop_no_conn(&self) -> u64 { self.me_route_drop_no_conn.load(Ordering::Relaxed) }
+    pub fn get_me_route_drop_channel_closed(&self) -> u64 {
+        self.me_route_drop_channel_closed.load(Ordering::Relaxed)
+    }
+    pub fn get_me_route_drop_queue_full(&self) -> u64 {
+        self.me_route_drop_queue_full.load(Ordering::Relaxed)
+    }
+    pub fn get_secure_padding_invalid(&self) -> u64 {
+        self.secure_padding_invalid.load(Ordering::Relaxed)
+    }
+    pub fn get_desync_total(&self) -> u64 {
+        self.desync_total.load(Ordering::Relaxed)
+    }
+    pub fn get_desync_full_logged(&self) -> u64 {
+        self.desync_full_logged.load(Ordering::Relaxed)
+    }
+    pub fn get_desync_suppressed(&self) -> u64 {
+        self.desync_suppressed.load(Ordering::Relaxed)
+    }
+    pub fn get_desync_frames_bucket_0(&self) -> u64 {
+        self.desync_frames_bucket_0.load(Ordering::Relaxed)
+    }
+    pub fn get_desync_frames_bucket_1_2(&self) -> u64 {
+        self.desync_frames_bucket_1_2.load(Ordering::Relaxed)
+    }
+    pub fn get_desync_frames_bucket_3_10(&self) -> u64 {
+        self.desync_frames_bucket_3_10.load(Ordering::Relaxed)
+    }
+    pub fn get_desync_frames_bucket_gt_10(&self) -> u64 {
+        self.desync_frames_bucket_gt_10.load(Ordering::Relaxed)
+    }
    
    pub fn increment_user_connects(&self, user: &str) {
        self.user_stats.entry(user.to_string()).or_default()
@@ -58,7 +162,22 @@ impl Stats {
    
    pub fn decrement_user_curr_connects(&self, user: &str) {
        if let Some(stats) = self.user_stats.get(user) {
-            stats.curr_connects.fetch_sub(1, Ordering::Relaxed);
+            let counter = &stats.curr_connects;
+            let mut current = counter.load(Ordering::Relaxed);
+            loop {
+                if current == 0 {
+                    break;
+                }
+                match counter.compare_exchange_weak(
+                    current,
+                    current - 1,
+                    Ordering::Relaxed,
+                    Ordering::Relaxed,
+                ) {
+                    Ok(_) => break,
+                    Err(actual) => current = actual,
+                }
+            }
        }
    }
    
@@ -97,6 +216,12 @@ impl Stats {
            .unwrap_or(0)
    }
    
+    pub fn get_handshake_timeouts(&self) -> u64 { self.handshake_timeouts.load(Ordering::Relaxed) }
+
+    pub fn iter_user_stats(&self) -> dashmap::iter::Iter<'_, String, UserStats> {
+        self.user_stats.iter()
+    }
+
    pub fn uptime_secs(&self) -> f64 {
        self.start_time.read()
            .map(|t| t.elapsed().as_secs_f64())
@@ -212,28 +337,41 @@ impl ReplayChecker {
        (hasher.finish() as usize) & self.shard_mask
    }

-    fn check(&self, data: &[u8]) -> bool {
+    fn check_and_add_internal(&self, data: &[u8]) -> bool {
        self.checks.fetch_add(1, Ordering::Relaxed);
        let idx = self.get_shard_idx(data);
        let mut shard = self.shards[idx].lock();
-        let found = shard.check(data, Instant::now(), self.window);
+        let now = Instant::now();
+        let found = shard.check(data, now, self.window);
        if found {
            self.hits.fetch_add(1, Ordering::Relaxed);
+        } else {
+            shard.add(data, now, self.window);
+            self.additions.fetch_add(1, Ordering::Relaxed);
        }
        found
    }

-    fn add(&self, data: &[u8]) {
+    fn add_only(&self, data: &[u8]) {
        self.additions.fetch_add(1, Ordering::Relaxed);
        let idx = self.get_shard_idx(data);
        let mut shard = self.shards[idx].lock();
        shard.add(data, Instant::now(), self.window);
    }

-    pub fn check_handshake(&self, data: &[u8]) -> bool { self.check(data) }
-    pub fn add_handshake(&self, data: &[u8]) { self.add(data) }
-    pub fn check_tls_digest(&self, data: &[u8]) -> bool { self.check(data) }
-    pub fn add_tls_digest(&self, data: &[u8]) { self.add(data) }
+    pub fn check_and_add_handshake(&self, data: &[u8]) -> bool {
+        self.check_and_add_internal(data)
+    }
+
+    pub fn check_and_add_tls_digest(&self, data: &[u8]) -> bool {
+        self.check_and_add_internal(data)
+    }
+
+    // Compatibility helpers (non-atomic split operations) — prefer check_and_add_*.
+    pub fn check_handshake(&self, data: &[u8]) -> bool { self.check_and_add_handshake(data) }
+    pub fn add_handshake(&self, data: &[u8]) { self.add_only(data) }
+    pub fn check_tls_digest(&self, data: &[u8]) -> bool { self.check_and_add_tls_digest(data) }
+    pub fn add_tls_digest(&self, data: &[u8]) { self.add_only(data) }
    
    pub fn stats(&self) -> ReplayStats {
        let mut total_entries = 0;
@@ -326,10 +464,9 @@ mod tests {
    #[test]
    fn test_replay_checker_basic() {
        let checker = ReplayChecker::new(100, Duration::from_secs(60));
-        assert!(!checker.check_handshake(b"test1"));
-        checker.add_handshake(b"test1");
-        assert!(checker.check_handshake(b"test1"));
-        assert!(!checker.check_handshake(b"test2"));
+        assert!(!checker.check_handshake(b"test1")); // first time, inserts
+        assert!(checker.check_handshake(b"test1"));  // duplicate
+        assert!(!checker.check_handshake(b"test2")); // new key inserts
    }
    
    #[test]
@@ -343,7 +480,7 @@ mod tests {
    #[test]
    fn test_replay_checker_expiration() {
        let checker = ReplayChecker::new(100, Duration::from_millis(50));
-        checker.add_handshake(b"expire");
+        assert!(!checker.check_handshake(b"expire"));
        assert!(checker.check_handshake(b"expire"));
        std::thread::sleep(Duration::from_millis(100));
        assert!(!checker.check_handshake(b"expire"));
@@ -352,25 +489,25 @@ mod tests {
    #[test]
    fn test_replay_checker_stats() {
        let checker = ReplayChecker::new(100, Duration::from_secs(60));
-        checker.add_handshake(b"k1");
-        checker.add_handshake(b"k2");
-        checker.check_handshake(b"k1");
-        checker.check_handshake(b"k3");
+        assert!(!checker.check_handshake(b"k1"));
+        assert!(!checker.check_handshake(b"k2"));
+        assert!(checker.check_handshake(b"k1"));
+        assert!(!checker.check_handshake(b"k3"));
        let stats = checker.stats();
-        assert_eq!(stats.total_additions, 2);
-        assert_eq!(stats.total_checks, 2);
+        assert_eq!(stats.total_additions, 3);
+        assert_eq!(stats.total_checks, 4);
        assert_eq!(stats.total_hits, 1);
    }
    
    #[test]
    fn test_replay_checker_many_keys() {
-        let checker = ReplayChecker::new(1000, Duration::from_secs(60));
+        let checker = ReplayChecker::new(10_000, Duration::from_secs(60));
        for i in 0..500u32 {
-            checker.add(&i.to_le_bytes());
+            checker.add_only(&i.to_le_bytes());
        }
        for i in 0..500u32 {
-            assert!(checker.check(&i.to_le_bytes()));
+            assert!(checker.check_handshake(&i.to_le_bytes()));
        }
        assert_eq!(checker.stats().total_entries, 500);
    }
-}
+}
--- a/src/stream/buffer_pool.rs
+++ b/src/stream/buffer_pool.rs
@@ -381,9 +381,14 @@ mod tests {
        // Add a buffer to pool
        pool.preallocate(1);
        
-        // Now try_get should succeed
-        assert!(pool.try_get().is_some());
+        // Now try_get should succeed once while the buffer is held
+        let buf = pool.try_get();
+        assert!(buf.is_some());
+        // While buffer is held, pool is empty
        assert!(pool.try_get().is_none());
+        // Drop buffer -> returns to pool, should be obtainable again
+        drop(buf);
+        assert!(pool.try_get().is_some());
    }
    
    #[test]
@@ -448,4 +453,4 @@ mod tests {
        // All buffers should be returned
        assert!(stats.pooled > 0);
    }
-}
+}
--- a/src/stream/crypto_stream.rs
+++ b/src/stream/crypto_stream.rs
@@ -34,7 +34,7 @@
 //! └────────────────────────────────────────┘
 //!
 //! Backpressure
-//! - pending ciphertext buffer is bounded (MAX_PENDING_WRITE)
+//! - pending ciphertext buffer is bounded (configurable per connection)
 //! - pending is full and upstream is pending 
 //!   -> poll_write returns Poll::Pending
 //!   -> do not accept any plaintext
@@ -62,10 +62,9 @@ use super::state::{StreamState, YieldBuffer};

 // ============= Constants =============

-/// Maximum size for pending ciphertext buffer (bounded backpressure).
-/// Reduced to 64KB to prevent bufferbloat on mobile networks.
-/// 512KB was causing high latency on 3G/LTE connections.
-const MAX_PENDING_WRITE: usize = 64 * 1024;
+/// Default size for pending ciphertext buffer (bounded backpressure).
+/// Actual limit is supplied at runtime from configuration.
+const DEFAULT_MAX_PENDING_WRITE: usize = 64 * 1024;

 /// Default read buffer capacity (reader mostly decrypts in-place into caller buffer).
 const DEFAULT_READ_CAPACITY: usize = 16 * 1024;
@@ -427,15 +426,22 @@ pub struct CryptoWriter<W> {
    encryptor: AesCtr,
    state: CryptoWriterState,
    scratch: BytesMut,
+    max_pending_write: usize,
 }

 impl<W> CryptoWriter<W> {
-    pub fn new(upstream: W, encryptor: AesCtr) -> Self {
+    pub fn new(upstream: W, encryptor: AesCtr, max_pending_write: usize) -> Self {
+        let max_pending = if max_pending_write == 0 {
+            DEFAULT_MAX_PENDING_WRITE
+        } else {
+            max_pending_write
+        };
        Self {
            upstream,
            encryptor,
            state: CryptoWriterState::Idle,
            scratch: BytesMut::with_capacity(16 * 1024),
+            max_pending_write: max_pending.max(4 * 1024),
        }
    }

@@ -484,10 +490,10 @@ impl<W> CryptoWriter<W> {
    }

    /// Ensure we are in Flushing state and return mutable pending buffer.
-    fn ensure_pending<'a>(state: &'a mut CryptoWriterState) -> &'a mut PendingCiphertext {
+    fn ensure_pending<'a>(state: &'a mut CryptoWriterState, max_pending: usize) -> &'a mut PendingCiphertext {
        if matches!(state, CryptoWriterState::Idle) {
            *state = CryptoWriterState::Flushing {
-                pending: PendingCiphertext::new(MAX_PENDING_WRITE),
+                pending: PendingCiphertext::new(max_pending),
            };
        }

@@ -498,14 +504,14 @@ impl<W> CryptoWriter<W> {
    }

    /// Select how many plaintext bytes can be accepted in buffering path
-    fn select_to_accept_for_buffering(state: &CryptoWriterState, buf_len: usize) -> usize {
+    fn select_to_accept_for_buffering(state: &CryptoWriterState, buf_len: usize, max_pending: usize) -> usize {
        if buf_len == 0 {
            return 0;
        }

        match state {
            CryptoWriterState::Flushing { pending } => buf_len.min(pending.remaining_capacity()),
-            CryptoWriterState::Idle => buf_len.min(MAX_PENDING_WRITE),
+            CryptoWriterState::Idle => buf_len.min(max_pending),
            CryptoWriterState::Poisoned { .. } => 0,
        }
    }
@@ -603,7 +609,7 @@ impl<W: AsyncWrite + Unpin> AsyncWrite for CryptoWriter<W> {
                Poll::Pending => {
                    // Upstream blocked. Apply ideal backpressure
                    let to_accept =
-                        Self::select_to_accept_for_buffering(&this.state, buf.len());
+                        Self::select_to_accept_for_buffering(&this.state, buf.len(), this.max_pending_write);

                    if to_accept == 0 {
                        trace!(
@@ -618,7 +624,7 @@ impl<W: AsyncWrite + Unpin> AsyncWrite for CryptoWriter<W> {

                    // Disjoint borrows
                    let encryptor = &mut this.encryptor;
-                    let pending = Self::ensure_pending(&mut this.state);
+                    let pending = Self::ensure_pending(&mut this.state, this.max_pending_write);

                    if let Err(e) = pending.push_encrypted(encryptor, plaintext) {
                        if e.kind() == ErrorKind::WouldBlock {
@@ -635,7 +641,7 @@ impl<W: AsyncWrite + Unpin> AsyncWrite for CryptoWriter<W> {
        // 2) Fast path: pending empty -> write-through
        debug_assert!(matches!(this.state, CryptoWriterState::Idle));

-        let to_accept = buf.len().min(MAX_PENDING_WRITE);
+        let to_accept = buf.len().min(this.max_pending_write);
        let plaintext = &buf[..to_accept];

        Self::encrypt_into_scratch(&mut this.encryptor, &mut this.scratch, plaintext);
@@ -645,7 +651,7 @@ impl<W: AsyncWrite + Unpin> AsyncWrite for CryptoWriter<W> {
                // Upstream blocked: buffer FULL ciphertext for accepted bytes.
                let ciphertext = std::mem::take(&mut this.scratch);

-                let pending = Self::ensure_pending(&mut this.state);
+                let pending = Self::ensure_pending(&mut this.state, this.max_pending_write);
                pending.replace_with(ciphertext);

                Poll::Ready(Ok(to_accept))
@@ -672,7 +678,7 @@ impl<W: AsyncWrite + Unpin> AsyncWrite for CryptoWriter<W> {
                let remainder = this.scratch.split_off(n);
                this.scratch.clear();

-                let pending = Self::ensure_pending(&mut this.state);
+                let pending = Self::ensure_pending(&mut this.state, this.max_pending_write);
                pending.replace_with(remainder);

                Poll::Ready(Ok(to_accept))
@@ -767,4 +773,4 @@ impl<S: AsyncWrite + Unpin> AsyncWrite for PassthroughStream<S> {
    fn poll_shutdown(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> {
        Pin::new(&mut self.inner).poll_shutdown(cx)
    }
-}
+}
--- a/src/stream/frame_codec.rs
+++ b/src/stream/frame_codec.rs
@@ -8,7 +8,9 @@ use std::io::{self, Error, ErrorKind};
 use std::sync::Arc;
 use tokio_util::codec::{Decoder, Encoder};

-use crate::protocol::constants::ProtoTag;
+use crate::protocol::constants::{
+    ProtoTag, is_valid_secure_payload_len, secure_padding_len, secure_payload_len_from_wire_len,
+};
 use crate::crypto::SecureRandom;
 use super::frame::{Frame, FrameMeta, FrameCodec as FrameCodecTrait};

@@ -274,13 +276,13 @@ fn decode_secure(src: &mut BytesMut, max_size: usize) -> io::Result<Option<Frame
        return Ok(None);
    }
    
-    // Calculate padding (indicated by length not divisible by 4)
-    let padding_len = len % 4;
-    let data_len = if padding_len != 0 {
-        len - padding_len
-    } else {
-        len
-    };
+    let data_len = secure_payload_len_from_wire_len(len).ok_or_else(|| {
+        Error::new(
+            ErrorKind::InvalidData,
+            format!("invalid secure frame length: {len}"),
+        )
+    })?;
+    let padding_len = len - data_len;
    
    meta.padding_len = padding_len as u8;
    
@@ -303,14 +305,15 @@ fn encode_secure(frame: &Frame, dst: &mut BytesMut, rng: &SecureRandom) -> io::R
        return Ok(());
    }
    
-    // Generate padding to make length not divisible by 4
-    let padding_len = if data.len() % 4 == 0 {
-        // Add 1-3 bytes to make it non-aligned
-        (rng.range(3) + 1) as usize
-    } else {
-        // Already non-aligned, can add 0-3
-        rng.range(4) as usize
-    };
+    if !is_valid_secure_payload_len(data.len()) {
+        return Err(Error::new(
+            ErrorKind::InvalidData,
+            format!("secure payload must be 4-byte aligned, got {}", data.len()),
+        ));
+    }
+
+    // Generate padding that keeps total length non-divisible by 4.
+    let padding_len = secure_padding_len(data.len(), rng);
    
    let total_len = data.len() + padding_len;
    dst.reserve(4 + total_len);
@@ -625,4 +628,4 @@ mod tests {
        let result = codec.decode(&mut buf);
        assert!(result.is_err());
    }
-}
+}
--- a/src/stream/frame_stream.rs
+++ b/src/stream/frame_stream.rs
@@ -232,11 +232,13 @@ impl<R: AsyncRead + Unpin> SecureIntermediateFrameReader<R> {
        let mut data = vec![0u8; len];
        self.upstream.read_exact(&mut data).await?;
        
-        // Strip padding (not aligned to 4)
-        if len % 4 != 0 {
-            let actual_len = len - (len % 4);
-            data.truncate(actual_len);
-        }
+        let payload_len = secure_payload_len_from_wire_len(len).ok_or_else(|| {
+            Error::new(
+                ErrorKind::InvalidData,
+                format!("Invalid secure frame length: {len}"),
+            )
+        })?;
+        data.truncate(payload_len);
        
        Ok((Bytes::from(data), meta))
    }
@@ -267,8 +269,15 @@ impl<W: AsyncWrite + Unpin> SecureIntermediateFrameWriter<W> {
            return Ok(());
        }
        
-        // Add random padding (0-3 bytes)
-        let padding_len = self.rng.range(4);
+        if !is_valid_secure_payload_len(data.len()) {
+            return Err(Error::new(
+                ErrorKind::InvalidData,
+                format!("Secure payload must be 4-byte aligned, got {}", data.len()),
+            ));
+        }
+
+        // Add padding so total length is never divisible by 4 (MTProto Secure)
+        let padding_len = secure_padding_len(data.len(), &self.rng);
        let padding = self.rng.bytes(padding_len);
        
        let total_len = data.len() + padding_len;
@@ -550,9 +559,7 @@ mod tests {
        writer.flush().await.unwrap();
        
        let (received, _meta) = reader.read_frame().await.unwrap();
-        // Received should have padding stripped to align to 4
-        let expected_len = (data.len() / 4) * 4;
-        assert_eq!(received.len(), expected_len);
+        assert_eq!(received.len(), data.len());
    }
    
    #[tokio::test]
@@ -585,4 +592,4 @@ mod tests {
        let (received, _) = reader.read_frame().await.unwrap();
        assert_eq!(&received[..], &data[..]);
    }
-}
+}
--- a/src/stream/mod.rs
+++ b/src/stream/mod.rs
@@ -40,4 +40,4 @@ pub use frame_stream::{
    SecureIntermediateFrameReader, SecureIntermediateFrameWriter,
    MtprotoFrameReader, MtprotoFrameWriter,
    FrameReaderKind, FrameWriterKind,
-};
+};
--- a/src/stream/tls_stream.rs
+++ b/src/stream/tls_stream.rs
@@ -25,14 +25,15 @@
 //! - However, the on-the-wire record length can exceed 16384 because TLS 1.3
 //!   uses AEAD and can include tag/overhead/padding.
 //! - Telegram FakeTLS clients (notably iOS) may send Application Data records
-//!   with length up to 16384 + 24 bytes. We accept that as MAX_TLS_CHUNK_SIZE.
+//!   with length up to 16384 + 256 bytes (RFC 8446 §5.2). We accept that as
+//!   MAX_TLS_CHUNK_SIZE.
 //!
 //! If you reject those (e.g. validate length <= 16384), you will see errors like:
 //!   "TLS record too large: 16408 bytes"
 //! and uploads from iOS will break (media/file sending), while small traffic
 //! may still work.

-use bytes::{Bytes, BytesMut, BufMut};
+use bytes::{Bytes, BytesMut};
 use std::io::{self, Error, ErrorKind, Result};
 use std::pin::Pin;
 use std::task::{Context, Poll};
@@ -51,9 +52,9 @@ use super::state::{StreamState, HeaderBuffer, YieldBuffer, WriteBuffer};
 /// TLS record header size (type + version + length)
 const TLS_HEADER_SIZE: usize = 5;

-/// Maximum TLS fragment size per spec (plaintext fragment).
-/// We use this for *outgoing* chunking, because we build plain ApplicationData records.
-const MAX_TLS_PAYLOAD: usize = 16384;
+/// Maximum TLS fragment size we emit for Application Data.
+/// Real TLS 1.3 allows up to 16384 + 256 bytes of ciphertext (incl. tag).
+const MAX_TLS_PAYLOAD: usize = 16384 + 256;

 /// Maximum pending write buffer for one record remainder.
 /// Note: we never queue unlimited amount of data here; state holds at most one record.
@@ -90,7 +91,7 @@ impl TlsRecordHeader {
    /// - We accept TLS 1.0 header version for ClientHello-like records (0x03 0x01),
    ///   and TLS 1.2/1.3 style version bytes for the rest (we use TLS_VERSION = 0x03 0x03).
    /// - For Application Data, Telegram FakeTLS may send payload length up to
-    ///   MAX_TLS_CHUNK_SIZE (16384 + 24).
+    ///   MAX_TLS_CHUNK_SIZE (16384 + 256).
    /// - For other record types we keep stricter bounds to avoid memory abuse.
    fn validate(&self) -> Result<()> {
        // Version: accept TLS 1.0 header (ClientHello quirk) and TLS_VERSION (0x0303).
@@ -104,7 +105,7 @@ impl TlsRecordHeader {
        let len = self.length as usize;

        // Length checks depend on record type.
-        // Telegram FakeTLS: ApplicationData length may be 16384 + 24.
+        // Telegram FakeTLS: ApplicationData length may be 16384 + 256.
        match self.record_type {
            TLS_RECORD_APPLICATION => {
                if len > MAX_TLS_CHUNK_SIZE {
@@ -754,9 +755,6 @@ impl<W: AsyncWrite + Unpin> AsyncWrite for FakeTlsWriter<W> {
                    payload_size: chunk_size,
                };

-                // Wake to retry flushing soon.
-                cx.waker().wake_by_ref();
-
                Poll::Ready(Ok(chunk_size))
            }
        }
@@ -918,10 +916,8 @@ mod tests {
        let reader = ChunkedReader::new(&record, 100);
        let mut tls_reader = FakeTlsReader::new(reader);
        
-        let mut buf = vec![0u8; payload.len()];
-        tls_reader.read_exact(&mut buf).await.unwrap();
-        
-        assert_eq!(&buf, payload);
+        let buf = tls_reader.read_exact(payload.len()).await.unwrap();
+        assert_eq!(&buf[..], payload);
    }
    
    #[tokio::test]
@@ -935,13 +931,11 @@ mod tests {
        let reader = ChunkedReader::new(&data, 100);
        let mut tls_reader = FakeTlsReader::new(reader);
        
-        let mut buf1 = vec![0u8; payload1.len()];
-        tls_reader.read_exact(&mut buf1).await.unwrap();
-        assert_eq!(&buf1, payload1);
+        let buf1 = tls_reader.read_exact(payload1.len()).await.unwrap();
+        assert_eq!(&buf1[..], payload1);
        
-        let mut buf2 = vec![0u8; payload2.len()];
-        tls_reader.read_exact(&mut buf2).await.unwrap();
-        assert_eq!(&buf2, payload2);
+        let buf2 = tls_reader.read_exact(payload2.len()).await.unwrap();
+        assert_eq!(&buf2[..], payload2);
    }
    
    #[tokio::test]
@@ -953,10 +947,9 @@ mod tests {
        let reader = ChunkedReader::new(&record, 1); // 1 byte at a time!
        let mut tls_reader = FakeTlsReader::new(reader);
        
-        let mut buf = vec![0u8; payload.len()];
-        tls_reader.read_exact(&mut buf).await.unwrap();
+        let buf = tls_reader.read_exact(payload.len()).await.unwrap();
        
-        assert_eq!(&buf, payload);
+        assert_eq!(&buf[..], payload);
    }
    
    #[tokio::test]
@@ -967,10 +960,9 @@ mod tests {
        let reader = ChunkedReader::new(&record, 7); // Awkward chunk size
        let mut tls_reader = FakeTlsReader::new(reader);
        
-        let mut buf = vec![0u8; payload.len()];
-        tls_reader.read_exact(&mut buf).await.unwrap();
+        let buf = tls_reader.read_exact(payload.len()).await.unwrap();
        
-        assert_eq!(&buf, payload);
+        assert_eq!(&buf[..], payload);
    }
    
    #[tokio::test]
@@ -983,10 +975,9 @@ mod tests {
        let reader = ChunkedReader::new(&data, 100);
        let mut tls_reader = FakeTlsReader::new(reader);
        
-        let mut buf = vec![0u8; payload.len()];
-        tls_reader.read_exact(&mut buf).await.unwrap();
+        let buf = tls_reader.read_exact(payload.len()).await.unwrap();
        
-        assert_eq!(&buf, payload);
+        assert_eq!(&buf[..], payload);
    }
    
    #[tokio::test]
@@ -1000,10 +991,9 @@ mod tests {
        let reader = ChunkedReader::new(&data, 3); // Small chunks
        let mut tls_reader = FakeTlsReader::new(reader);
        
-        let mut buf = vec![0u8; payload.len()];
-        tls_reader.read_exact(&mut buf).await.unwrap();
+        let buf = tls_reader.read_exact(payload.len()).await.unwrap();
        
-        assert_eq!(&buf, payload);
+        assert_eq!(&buf[..], payload);
    }
    
    #[tokio::test]
@@ -1244,4 +1234,4 @@ mod tests {
        let bytes = header.to_bytes();
        assert_eq!(bytes, [0x17, 0x03, 0x03, 0x12, 0x34]);
    }
-}
+}
--- a/src/tls_front/cache.rs
+++ b/src/tls_front/cache.rs
@@ -0,0 +1,254 @@
+use std::collections::HashMap;
+use std::net::IpAddr;
+use std::path::{Path, PathBuf};
+use std::sync::Arc;
+use std::time::{Duration, Instant, SystemTime};
+
+use tokio::sync::RwLock;
+use tokio::time::sleep;
+use tracing::{debug, warn, info};
+
+use crate::tls_front::types::{CachedTlsData, ParsedServerHello, TlsFetchResult};
+
+/// Lightweight in-memory + optional on-disk cache for TLS fronting data.
+#[derive(Debug)]
+pub struct TlsFrontCache {
+    memory: RwLock<HashMap<String, Arc<CachedTlsData>>>,
+    default: Arc<CachedTlsData>,
+    full_cert_sent: RwLock<HashMap<IpAddr, Instant>>,
+    disk_path: PathBuf,
+}
+
+impl TlsFrontCache {
+    pub fn new(domains: &[String], default_len: usize, disk_path: impl AsRef<Path>) -> Self {
+        let default_template = ParsedServerHello {
+            version: [0x03, 0x03],
+            random: [0u8; 32],
+            session_id: Vec::new(),
+            cipher_suite: [0x13, 0x01],
+            compression: 0,
+            extensions: Vec::new(),
+        };
+
+        let default = Arc::new(CachedTlsData {
+            server_hello_template: default_template,
+            cert_info: None,
+            cert_payload: None,
+            app_data_records_sizes: vec![default_len],
+            total_app_data_len: default_len,
+            fetched_at: SystemTime::now(),
+            domain: "default".to_string(),
+        });
+
+        let mut map = HashMap::new();
+        for d in domains {
+            map.insert(d.clone(), default.clone());
+        }
+
+        Self {
+            memory: RwLock::new(map),
+            default,
+            full_cert_sent: RwLock::new(HashMap::new()),
+            disk_path: disk_path.as_ref().to_path_buf(),
+        }
+    }
+
+    pub async fn get(&self, sni: &str) -> Arc<CachedTlsData> {
+        let guard = self.memory.read().await;
+        guard.get(sni).cloned().unwrap_or_else(|| self.default.clone())
+    }
+
+    pub async fn contains_domain(&self, domain: &str) -> bool {
+        self.memory.read().await.contains_key(domain)
+    }
+
+    /// Returns true when full cert payload should be sent for client_ip
+    /// according to TTL policy.
+    pub async fn take_full_cert_budget_for_ip(
+        &self,
+        client_ip: IpAddr,
+        ttl: Duration,
+    ) -> bool {
+        if ttl.is_zero() {
+            self.full_cert_sent
+                .write()
+                .await
+                .insert(client_ip, Instant::now());
+            return true;
+        }
+
+        let now = Instant::now();
+        let mut guard = self.full_cert_sent.write().await;
+        guard.retain(|_, seen_at| now.duration_since(*seen_at) < ttl);
+
+        match guard.get_mut(&client_ip) {
+            Some(seen_at) => {
+                if now.duration_since(*seen_at) >= ttl {
+                    *seen_at = now;
+                    true
+                } else {
+                    false
+                }
+            }
+            None => {
+                guard.insert(client_ip, now);
+                true
+            }
+        }
+    }
+
+    pub async fn set(&self, domain: &str, data: CachedTlsData) {
+        let mut guard = self.memory.write().await;
+        guard.insert(domain.to_string(), Arc::new(data));
+    }
+
+    pub async fn load_from_disk(&self) {
+        let path = self.disk_path.clone();
+        if tokio::fs::create_dir_all(&path).await.is_err() {
+            return;
+        }
+        let mut loaded = 0usize;
+        if let Ok(mut dir) = tokio::fs::read_dir(&path).await {
+            while let Ok(Some(entry)) = dir.next_entry().await {
+                if let Ok(name) = entry.file_name().into_string() {
+                    if !name.ends_with(".json") {
+                        continue;
+                    }
+                    if let Ok(data) = tokio::fs::read(entry.path()).await {
+                        if let Ok(mut cached) = serde_json::from_slice::<CachedTlsData>(&data) {
+                            if cached.domain.is_empty()
+                                || cached.domain.len() > 255
+                                || !cached.domain.chars().all(|c| c.is_ascii_alphanumeric() || c == '.' || c == '-')
+                            {
+                                warn!(file = %name, "Skipping TLS cache entry with invalid domain");
+                                continue;
+                            }
+                            // fetched_at is skipped during deserialization; approximate with file mtime if available.
+                            if let Ok(meta) = entry.metadata().await {
+                                if let Ok(modified) = meta.modified() {
+                                    cached.fetched_at = modified;
+                                }
+                            }
+                            // Drop entries older than 72h
+                            if let Ok(age) = cached.fetched_at.elapsed() {
+                                if age > Duration::from_secs(72 * 3600) {
+                                    warn!(domain = %cached.domain, "Skipping stale TLS cache entry (>72h)");
+                                    continue;
+                                }
+                            }
+                            let domain = cached.domain.clone();
+                            self.set(&domain, cached).await;
+                            loaded += 1;
+                        }
+                    }
+                }
+            }
+        }
+        if loaded > 0 {
+            info!(count = loaded, "Loaded TLS cache entries from disk");
+        }
+    }
+
+    async fn persist(&self, domain: &str, data: &CachedTlsData) {
+        if tokio::fs::create_dir_all(&self.disk_path).await.is_err() {
+            return;
+        }
+        let fname = format!("{}.json", domain.replace(['/', '\\'], "_"));
+        let path = self.disk_path.join(fname);
+        if let Ok(json) = serde_json::to_vec_pretty(data) {
+            // best-effort write
+            let _ = tokio::fs::write(path, json).await;
+        }
+    }
+
+    /// Spawn background updater that periodically refreshes cached domains using provided fetcher.
+    pub fn spawn_updater<F>(
+        self: Arc<Self>,
+        domains: Vec<String>,
+        interval: Duration,
+        fetcher: F,
+    ) where
+        F: Fn(String) -> tokio::task::JoinHandle<()> + Send + Sync + 'static,
+    {
+        tokio::spawn(async move {
+            loop {
+                for domain in &domains {
+                    fetcher(domain.clone()).await;
+                }
+                sleep(interval).await;
+            }
+        });
+    }
+
+    /// Replace cached entry from a fetch result.
+    pub async fn update_from_fetch(&self, domain: &str, fetched: TlsFetchResult) {
+        let data = CachedTlsData {
+            server_hello_template: fetched.server_hello_parsed,
+            cert_info: fetched.cert_info,
+            cert_payload: fetched.cert_payload,
+            app_data_records_sizes: fetched.app_data_records_sizes.clone(),
+            total_app_data_len: fetched.total_app_data_len,
+            fetched_at: SystemTime::now(),
+            domain: domain.to_string(),
+        };
+
+        self.set(domain, data.clone()).await;
+        self.persist(domain, &data).await;
+        debug!(domain = %domain, len = fetched.total_app_data_len, "TLS cache updated");
+    }
+
+    pub fn default_entry(&self) -> Arc<CachedTlsData> {
+        self.default.clone()
+    }
+
+    pub fn disk_path(&self) -> &Path {
+        &self.disk_path
+    }
+}
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    #[tokio::test]
+    async fn test_take_full_cert_budget_for_ip_uses_ttl() {
+        let cache = TlsFrontCache::new(
+            &["example.com".to_string()],
+            1024,
+            "tlsfront-test-cache",
+        );
+        let ip: IpAddr = "127.0.0.1".parse().expect("ip");
+        let ttl = Duration::from_millis(80);
+
+        assert!(cache
+            .take_full_cert_budget_for_ip(ip, ttl)
+            .await);
+        assert!(!cache
+            .take_full_cert_budget_for_ip(ip, ttl)
+            .await);
+
+        tokio::time::sleep(Duration::from_millis(90)).await;
+
+        assert!(cache
+            .take_full_cert_budget_for_ip(ip, ttl)
+            .await);
+    }
+
+    #[tokio::test]
+    async fn test_take_full_cert_budget_for_ip_zero_ttl_always_allows_full_payload() {
+        let cache = TlsFrontCache::new(
+            &["example.com".to_string()],
+            1024,
+            "tlsfront-test-cache",
+        );
+        let ip: IpAddr = "127.0.0.1".parse().expect("ip");
+        let ttl = Duration::ZERO;
+
+        assert!(cache
+            .take_full_cert_budget_for_ip(ip, ttl)
+            .await);
+        assert!(cache
+            .take_full_cert_budget_for_ip(ip, ttl)
+            .await);
+    }
+}
--- a/src/tls_front/emulator.rs
+++ b/src/tls_front/emulator.rs
@@ -0,0 +1,390 @@
+use crate::crypto::{sha256_hmac, SecureRandom};
+use crate::protocol::constants::{
+    TLS_RECORD_APPLICATION, TLS_RECORD_CHANGE_CIPHER, TLS_RECORD_HANDSHAKE, TLS_VERSION,
+};
+use crate::protocol::tls::{TLS_DIGEST_LEN, TLS_DIGEST_POS, gen_fake_x25519_key};
+use crate::tls_front::types::{CachedTlsData, ParsedCertificateInfo};
+
+const MIN_APP_DATA: usize = 64;
+const MAX_APP_DATA: usize = 16640; // RFC 8446 §5.2 allows up to 2^14 + 256
+
+fn jitter_and_clamp_sizes(sizes: &[usize], rng: &SecureRandom) -> Vec<usize> {
+    sizes
+        .iter()
+        .map(|&size| {
+            let base = size.max(MIN_APP_DATA).min(MAX_APP_DATA);
+            let jitter_range = ((base as f64) * 0.03).round() as i64;
+            if jitter_range == 0 {
+                return base;
+            }
+            let mut rand_bytes = [0u8; 2];
+            rand_bytes.copy_from_slice(&rng.bytes(2));
+            let span = 2 * jitter_range + 1;
+            let delta = (u16::from_le_bytes(rand_bytes) as i64 % span) - jitter_range;
+            let adjusted = (base as i64 + delta).clamp(MIN_APP_DATA as i64, MAX_APP_DATA as i64);
+            adjusted as usize
+        })
+        .collect()
+}
+
+fn app_data_body_capacity(sizes: &[usize]) -> usize {
+    sizes.iter().map(|&size| size.saturating_sub(17)).sum()
+}
+
+fn ensure_payload_capacity(mut sizes: Vec<usize>, payload_len: usize) -> Vec<usize> {
+    if payload_len == 0 {
+        return sizes;
+    }
+
+    let mut body_total = app_data_body_capacity(&sizes);
+    if body_total >= payload_len {
+        return sizes;
+    }
+
+    if let Some(last) = sizes.last_mut() {
+        let free = MAX_APP_DATA.saturating_sub(*last);
+        let grow = free.min(payload_len - body_total);
+        *last += grow;
+        body_total += grow;
+    }
+
+    while body_total < payload_len {
+        let remaining = payload_len - body_total;
+        let chunk = (remaining + 17).min(MAX_APP_DATA).max(MIN_APP_DATA);
+        sizes.push(chunk);
+        body_total += chunk.saturating_sub(17);
+    }
+
+    sizes
+}
+
+fn build_compact_cert_info_payload(cert_info: &ParsedCertificateInfo) -> Option<Vec<u8>> {
+    let mut fields = Vec::new();
+
+    if let Some(subject) = cert_info.subject_cn.as_deref() {
+        fields.push(format!("CN={subject}"));
+    }
+    if let Some(issuer) = cert_info.issuer_cn.as_deref() {
+        fields.push(format!("ISSUER={issuer}"));
+    }
+    if let Some(not_before) = cert_info.not_before_unix {
+        fields.push(format!("NB={not_before}"));
+    }
+    if let Some(not_after) = cert_info.not_after_unix {
+        fields.push(format!("NA={not_after}"));
+    }
+    if !cert_info.san_names.is_empty() {
+        let san = cert_info
+            .san_names
+            .iter()
+            .take(8)
+            .map(String::as_str)
+            .collect::<Vec<_>>()
+            .join(",");
+        fields.push(format!("SAN={san}"));
+    }
+
+    if fields.is_empty() {
+        return None;
+    }
+
+    let mut payload = fields.join(";").into_bytes();
+    if payload.len() > 512 {
+        payload.truncate(512);
+    }
+    Some(payload)
+}
+
+/// Build a ServerHello + CCS + ApplicationData sequence using cached TLS metadata.
+pub fn build_emulated_server_hello(
+    secret: &[u8],
+    client_digest: &[u8; TLS_DIGEST_LEN],
+    session_id: &[u8],
+    cached: &CachedTlsData,
+    use_full_cert_payload: bool,
+    rng: &SecureRandom,
+    alpn: Option<Vec<u8>>,
+    new_session_tickets: u8,
+) -> Vec<u8> {
+    // --- ServerHello ---
+    let mut extensions = Vec::new();
+    // KeyShare (x25519)
+    let key = gen_fake_x25519_key(rng);
+    extensions.extend_from_slice(&0x0033u16.to_be_bytes()); // key_share
+    extensions.extend_from_slice(&(2 + 2 + 32u16).to_be_bytes()); // len
+    extensions.extend_from_slice(&0x001du16.to_be_bytes()); // X25519
+    extensions.extend_from_slice(&(32u16).to_be_bytes());
+    extensions.extend_from_slice(&key);
+    // supported_versions (TLS1.3)
+    extensions.extend_from_slice(&0x002bu16.to_be_bytes());
+    extensions.extend_from_slice(&(2u16).to_be_bytes());
+    extensions.extend_from_slice(&0x0304u16.to_be_bytes());
+    if let Some(alpn_proto) = &alpn {
+        extensions.extend_from_slice(&0x0010u16.to_be_bytes());
+        let list_len: u16 = 1 + alpn_proto.len() as u16;
+        let ext_len: u16 = 2 + list_len;
+        extensions.extend_from_slice(&ext_len.to_be_bytes());
+        extensions.extend_from_slice(&list_len.to_be_bytes());
+        extensions.push(alpn_proto.len() as u8);
+        extensions.extend_from_slice(alpn_proto);
+    }
+
+    let extensions_len = extensions.len() as u16;
+
+    let body_len = 2 + // version
+        32 + // random
+        1 + session_id.len() + // session id
+        2 + // cipher
+        1 + // compression
+        2 + extensions.len(); // extensions
+
+    let mut message = Vec::with_capacity(4 + body_len);
+    message.push(0x02); // ServerHello
+    let len_bytes = (body_len as u32).to_be_bytes();
+    message.extend_from_slice(&len_bytes[1..4]);
+    message.extend_from_slice(&cached.server_hello_template.version); // 0x0303
+    message.extend_from_slice(&[0u8; 32]); // random placeholder
+    message.push(session_id.len() as u8);
+    message.extend_from_slice(session_id);
+    let cipher = if cached.server_hello_template.cipher_suite == [0, 0] {
+        [0x13, 0x01]
+    } else {
+        cached.server_hello_template.cipher_suite
+    };
+    message.extend_from_slice(&cipher);
+    message.push(cached.server_hello_template.compression);
+    message.extend_from_slice(&extensions_len.to_be_bytes());
+    message.extend_from_slice(&extensions);
+
+    let mut server_hello = Vec::with_capacity(5 + message.len());
+    server_hello.push(TLS_RECORD_HANDSHAKE);
+    server_hello.extend_from_slice(&TLS_VERSION);
+    server_hello.extend_from_slice(&(message.len() as u16).to_be_bytes());
+    server_hello.extend_from_slice(&message);
+
+    // --- ChangeCipherSpec ---
+    let change_cipher_spec = [
+        TLS_RECORD_CHANGE_CIPHER,
+        TLS_VERSION[0],
+        TLS_VERSION[1],
+        0x00,
+        0x01,
+        0x01,
+    ];
+
+    // --- ApplicationData (fake encrypted records) ---
+    // Use the same number and sizes of ApplicationData records as the cached server.
+    let mut sizes = cached.app_data_records_sizes.clone();
+    if sizes.is_empty() {
+        sizes.push(cached.total_app_data_len.max(1024));
+    }
+    let mut sizes = jitter_and_clamp_sizes(&sizes, rng);
+    let compact_payload = cached
+        .cert_info
+        .as_ref()
+        .and_then(build_compact_cert_info_payload);
+    let selected_payload: Option<&[u8]> = if use_full_cert_payload {
+        cached
+            .cert_payload
+            .as_ref()
+            .map(|payload| payload.certificate_message.as_slice())
+            .filter(|payload| !payload.is_empty())
+            .or_else(|| compact_payload.as_deref())
+    } else {
+        compact_payload.as_deref()
+    };
+
+    if let Some(payload) = selected_payload {
+        sizes = ensure_payload_capacity(sizes, payload.len());
+    }
+
+    let mut app_data = Vec::new();
+    let mut payload_offset = 0usize;
+    for size in sizes {
+        let mut rec = Vec::with_capacity(5 + size);
+        rec.push(TLS_RECORD_APPLICATION);
+        rec.extend_from_slice(&TLS_VERSION);
+        rec.extend_from_slice(&(size as u16).to_be_bytes());
+
+        if let Some(payload) = selected_payload {
+            if size > 17 {
+                let body_len = size - 17;
+                let remaining = payload.len().saturating_sub(payload_offset);
+                let copy_len = remaining.min(body_len);
+                if copy_len > 0 {
+                    rec.extend_from_slice(&payload[payload_offset..payload_offset + copy_len]);
+                    payload_offset += copy_len;
+                }
+                if body_len > copy_len {
+                    rec.extend_from_slice(&rng.bytes(body_len - copy_len));
+                }
+                rec.push(0x16); // inner content type marker (handshake)
+                rec.extend_from_slice(&rng.bytes(16)); // AEAD-like tag
+            } else {
+                rec.extend_from_slice(&rng.bytes(size));
+            }
+        } else {
+            if size > 17 {
+                let body_len = size - 17;
+                rec.extend_from_slice(&rng.bytes(body_len));
+                rec.push(0x16); // inner content type marker (handshake)
+                rec.extend_from_slice(&rng.bytes(16)); // AEAD-like tag
+            } else {
+                rec.extend_from_slice(&rng.bytes(size));
+            }
+        }
+        app_data.extend_from_slice(&rec);
+    }
+
+    // --- Combine ---
+    // Optional NewSessionTicket mimic records (opaque ApplicationData for fingerprint).
+    let mut tickets = Vec::new();
+    if new_session_tickets > 0 {
+        for _ in 0..new_session_tickets {
+            let ticket_len: usize = rng.range(48) + 48;
+            let mut rec = Vec::with_capacity(5 + ticket_len);
+            rec.push(TLS_RECORD_APPLICATION);
+            rec.extend_from_slice(&TLS_VERSION);
+            rec.extend_from_slice(&(ticket_len as u16).to_be_bytes());
+            rec.extend_from_slice(&rng.bytes(ticket_len));
+            tickets.extend_from_slice(&rec);
+        }
+    }
+
+    let mut response = Vec::with_capacity(server_hello.len() + change_cipher_spec.len() + app_data.len() + tickets.len());
+    response.extend_from_slice(&server_hello);
+    response.extend_from_slice(&change_cipher_spec);
+    response.extend_from_slice(&app_data);
+    response.extend_from_slice(&tickets);
+
+    // --- HMAC ---
+    let mut hmac_input = Vec::with_capacity(TLS_DIGEST_LEN + response.len());
+    hmac_input.extend_from_slice(client_digest);
+    hmac_input.extend_from_slice(&response);
+    let digest = sha256_hmac(secret, &hmac_input);
+    response[TLS_DIGEST_POS..TLS_DIGEST_POS + TLS_DIGEST_LEN].copy_from_slice(&digest);
+
+    response
+}
+
+#[cfg(test)]
+mod tests {
+    use std::time::SystemTime;
+
+    use crate::tls_front::types::{CachedTlsData, ParsedServerHello, TlsCertPayload};
+
+    use super::build_emulated_server_hello;
+    use crate::crypto::SecureRandom;
+    use crate::protocol::constants::{
+        TLS_RECORD_APPLICATION, TLS_RECORD_CHANGE_CIPHER, TLS_RECORD_HANDSHAKE,
+    };
+
+    fn first_app_data_payload(response: &[u8]) -> &[u8] {
+        let hello_len = u16::from_be_bytes([response[3], response[4]]) as usize;
+        let ccs_start = 5 + hello_len;
+        let ccs_len = u16::from_be_bytes([response[ccs_start + 3], response[ccs_start + 4]]) as usize;
+        let app_start = ccs_start + 5 + ccs_len;
+        let app_len = u16::from_be_bytes([response[app_start + 3], response[app_start + 4]]) as usize;
+        &response[app_start + 5..app_start + 5 + app_len]
+    }
+
+    fn make_cached(cert_payload: Option<TlsCertPayload>) -> CachedTlsData {
+        CachedTlsData {
+            server_hello_template: ParsedServerHello {
+                version: [0x03, 0x03],
+                random: [0u8; 32],
+                session_id: Vec::new(),
+                cipher_suite: [0x13, 0x01],
+                compression: 0,
+                extensions: Vec::new(),
+            },
+            cert_info: None,
+            cert_payload,
+            app_data_records_sizes: vec![64],
+            total_app_data_len: 64,
+            fetched_at: SystemTime::now(),
+            domain: "example.com".to_string(),
+        }
+    }
+
+    #[test]
+    fn test_build_emulated_server_hello_uses_cached_cert_payload() {
+        let cert_msg = vec![0x0b, 0x00, 0x00, 0x05, 0x00, 0xaa, 0xbb, 0xcc, 0xdd];
+        let cached = make_cached(Some(TlsCertPayload {
+            cert_chain_der: vec![vec![0x30, 0x01, 0x00]],
+            certificate_message: cert_msg.clone(),
+        }));
+        let rng = SecureRandom::new();
+        let response = build_emulated_server_hello(
+            b"secret",
+            &[0x11; 32],
+            &[0x22; 16],
+            &cached,
+            true,
+            &rng,
+            None,
+            0,
+        );
+
+        assert_eq!(response[0], TLS_RECORD_HANDSHAKE);
+        let hello_len = u16::from_be_bytes([response[3], response[4]]) as usize;
+        let ccs_start = 5 + hello_len;
+        assert_eq!(response[ccs_start], TLS_RECORD_CHANGE_CIPHER);
+        let app_start = ccs_start + 6;
+        assert_eq!(response[app_start], TLS_RECORD_APPLICATION);
+
+        let payload = first_app_data_payload(&response);
+        assert!(payload.starts_with(&cert_msg));
+    }
+
+    #[test]
+    fn test_build_emulated_server_hello_random_fallback_when_no_cert_payload() {
+        let cached = make_cached(None);
+        let rng = SecureRandom::new();
+        let response = build_emulated_server_hello(
+            b"secret",
+            &[0x22; 32],
+            &[0x33; 16],
+            &cached,
+            true,
+            &rng,
+            None,
+            0,
+        );
+
+        let payload = first_app_data_payload(&response);
+        assert!(payload.len() >= 64);
+        assert_eq!(payload[payload.len() - 17], 0x16);
+    }
+
+    #[test]
+    fn test_build_emulated_server_hello_uses_compact_payload_after_first() {
+        let cert_msg = vec![0x0b, 0x00, 0x00, 0x05, 0x00, 0xaa, 0xbb, 0xcc, 0xdd];
+        let mut cached = make_cached(Some(TlsCertPayload {
+            cert_chain_der: vec![vec![0x30, 0x01, 0x00]],
+            certificate_message: cert_msg,
+        }));
+        cached.cert_info = Some(crate::tls_front::types::ParsedCertificateInfo {
+            not_after_unix: Some(1_900_000_000),
+            not_before_unix: Some(1_700_000_000),
+            issuer_cn: Some("Issuer".to_string()),
+            subject_cn: Some("example.com".to_string()),
+            san_names: vec!["example.com".to_string(), "www.example.com".to_string()],
+        });
+
+        let rng = SecureRandom::new();
+        let response = build_emulated_server_hello(
+            b"secret",
+            &[0x44; 32],
+            &[0x55; 16],
+            &cached,
+            false,
+            &rng,
+            None,
+            0,
+        );
+
+        let payload = first_app_data_payload(&response);
+        assert!(payload.starts_with(b"CN=example.com"));
+    }
+}
--- a/src/tls_front/fetcher.rs
+++ b/src/tls_front/fetcher.rs
@@ -0,0 +1,591 @@
+use std::sync::Arc;
+use std::time::Duration;
+
+use anyhow::{Result, anyhow};
+use tokio::io::{AsyncReadExt, AsyncWriteExt};
+use tokio::net::TcpStream;
+use tokio::time::timeout;
+use tokio_rustls::client::TlsStream;
+use tokio_rustls::TlsConnector;
+use tracing::{debug, warn};
+
+use rustls::client::danger::{HandshakeSignatureValid, ServerCertVerified, ServerCertVerifier};
+use rustls::client::ClientConfig;
+use rustls::pki_types::{CertificateDer, ServerName, UnixTime};
+use rustls::{DigitallySignedStruct, Error as RustlsError};
+
+use x509_parser::prelude::FromDer;
+use x509_parser::certificate::X509Certificate;
+
+use crate::crypto::SecureRandom;
+use crate::protocol::constants::{TLS_RECORD_APPLICATION, TLS_RECORD_HANDSHAKE};
+use crate::tls_front::types::{
+    ParsedCertificateInfo,
+    ParsedServerHello,
+    TlsCertPayload,
+    TlsExtension,
+    TlsFetchResult,
+};
+
+/// No-op verifier: accept any certificate (we only need lengths and metadata).
+#[derive(Debug)]
+struct NoVerify;
+
+impl ServerCertVerifier for NoVerify {
+    fn verify_server_cert(
+        &self,
+        _end_entity: &CertificateDer<'_>,
+        _intermediates: &[CertificateDer<'_>],
+        _server_name: &ServerName<'_>,
+        _ocsp: &[u8],
+        _now: UnixTime,
+    ) -> Result<ServerCertVerified, RustlsError> {
+        Ok(ServerCertVerified::assertion())
+    }
+
+    fn verify_tls12_signature(
+        &self,
+        _message: &[u8],
+        _cert: &CertificateDer<'_>,
+        _dss: &DigitallySignedStruct,
+    ) -> Result<HandshakeSignatureValid, RustlsError> {
+        Ok(HandshakeSignatureValid::assertion())
+    }
+
+    fn verify_tls13_signature(
+        &self,
+        _message: &[u8],
+        _cert: &CertificateDer<'_>,
+        _dss: &DigitallySignedStruct,
+    ) -> Result<HandshakeSignatureValid, RustlsError> {
+        Ok(HandshakeSignatureValid::assertion())
+    }
+
+    fn supported_verify_schemes(&self) -> Vec<rustls::SignatureScheme> {
+        use rustls::SignatureScheme::*;
+        vec![
+            RSA_PKCS1_SHA256,
+            RSA_PSS_SHA256,
+            ECDSA_NISTP256_SHA256,
+            ECDSA_NISTP384_SHA384,
+        ]
+    }
+}
+
+fn build_client_config() -> Arc<ClientConfig> {
+    let root = rustls::RootCertStore::empty();
+
+    let provider = rustls::crypto::ring::default_provider();
+    let mut config = ClientConfig::builder_with_provider(Arc::new(provider))
+        .with_protocol_versions(&[&rustls::version::TLS13, &rustls::version::TLS12])
+        .expect("protocol versions")
+        .with_root_certificates(root)
+        .with_no_client_auth();
+
+    config
+        .dangerous()
+        .set_certificate_verifier(Arc::new(NoVerify));
+
+    Arc::new(config)
+}
+
+fn build_client_hello(sni: &str, rng: &SecureRandom) -> Vec<u8> {
+    // === ClientHello body ===
+    let mut body = Vec::new();
+
+    // Legacy version (TLS 1.0) as in real ClientHello headers
+    body.extend_from_slice(&[0x03, 0x03]);
+
+    // Random
+    body.extend_from_slice(&rng.bytes(32));
+
+    // Session ID: empty
+    body.push(0);
+
+    // Cipher suites (common minimal set, TLS1.3 + a few 1.2 fallbacks)
+    let cipher_suites: [u8; 10] = [
+        0x13, 0x01, // TLS_AES_128_GCM_SHA256
+        0x13, 0x02, // TLS_AES_256_GCM_SHA384
+        0x13, 0x03, // TLS_CHACHA20_POLY1305_SHA256
+        0x00, 0x2f, // TLS_RSA_WITH_AES_128_CBC_SHA (legacy)
+        0x00, 0xff, // RENEGOTIATION_INFO_SCSV
+    ];
+    body.extend_from_slice(&(cipher_suites.len() as u16).to_be_bytes());
+    body.extend_from_slice(&cipher_suites);
+
+    // Compression methods: null only
+    body.push(1);
+    body.push(0);
+
+    // === Extensions ===
+    let mut exts = Vec::new();
+
+    // server_name (SNI)
+    let sni_bytes = sni.as_bytes();
+    let mut sni_ext = Vec::with_capacity(5 + sni_bytes.len());
+    sni_ext.extend_from_slice(&(sni_bytes.len() as u16 + 3).to_be_bytes());
+    sni_ext.push(0); // host_name
+    sni_ext.extend_from_slice(&(sni_bytes.len() as u16).to_be_bytes());
+    sni_ext.extend_from_slice(sni_bytes);
+    exts.extend_from_slice(&0x0000u16.to_be_bytes());
+    exts.extend_from_slice(&(sni_ext.len() as u16).to_be_bytes());
+    exts.extend_from_slice(&sni_ext);
+
+    // supported_groups
+    let groups: [u16; 2] = [0x001d, 0x0017]; // x25519, secp256r1
+    exts.extend_from_slice(&0x000au16.to_be_bytes());
+    exts.extend_from_slice(&((2 + groups.len() * 2) as u16).to_be_bytes());
+    exts.extend_from_slice(&(groups.len() as u16 * 2).to_be_bytes());
+    for g in groups { exts.extend_from_slice(&g.to_be_bytes()); }
+
+    // signature_algorithms
+    let sig_algs: [u16; 4] = [0x0804, 0x0805, 0x0403, 0x0503]; // rsa_pss_rsae_sha256/384, ecdsa_secp256r1_sha256, rsa_pkcs1_sha256
+    exts.extend_from_slice(&0x000du16.to_be_bytes());
+    exts.extend_from_slice(&((2 + sig_algs.len() * 2) as u16).to_be_bytes());
+    exts.extend_from_slice(&(sig_algs.len() as u16 * 2).to_be_bytes());
+    for a in sig_algs { exts.extend_from_slice(&a.to_be_bytes()); }
+
+    // supported_versions (TLS1.3 + TLS1.2)
+    let versions: [u16; 2] = [0x0304, 0x0303];
+    exts.extend_from_slice(&0x002bu16.to_be_bytes());
+    exts.extend_from_slice(&((1 + versions.len() * 2) as u16).to_be_bytes());
+    exts.push((versions.len() * 2) as u8);
+    for v in versions { exts.extend_from_slice(&v.to_be_bytes()); }
+
+    // key_share (x25519)
+    let key = gen_key_share(rng);
+    let mut keyshare = Vec::with_capacity(4 + key.len());
+    keyshare.extend_from_slice(&0x001du16.to_be_bytes()); // group
+    keyshare.extend_from_slice(&(key.len() as u16).to_be_bytes());
+    keyshare.extend_from_slice(&key);
+    exts.extend_from_slice(&0x0033u16.to_be_bytes());
+    exts.extend_from_slice(&((2 + keyshare.len()) as u16).to_be_bytes());
+    exts.extend_from_slice(&(keyshare.len() as u16).to_be_bytes());
+    exts.extend_from_slice(&keyshare);
+
+    // ALPN (http/1.1)
+    let alpn_proto = b"http/1.1";
+    exts.extend_from_slice(&0x0010u16.to_be_bytes());
+    exts.extend_from_slice(&((2 + 1 + alpn_proto.len()) as u16).to_be_bytes());
+    exts.extend_from_slice(&((1 + alpn_proto.len()) as u16).to_be_bytes());
+    exts.push(alpn_proto.len() as u8);
+    exts.extend_from_slice(alpn_proto);
+
+    // padding to reduce recognizability and keep length ~500 bytes
+    const TARGET_EXT_LEN: usize = 180;
+    if exts.len() < TARGET_EXT_LEN {
+        let remaining = TARGET_EXT_LEN - exts.len();
+        if remaining > 4 {
+            let pad_len = remaining - 4; // minus type+len
+            exts.extend_from_slice(&0x0015u16.to_be_bytes()); // padding extension
+            exts.extend_from_slice(&(pad_len as u16).to_be_bytes());
+            exts.resize(exts.len() + pad_len, 0);
+        }
+    }
+
+    // Extensions length prefix
+    body.extend_from_slice(&(exts.len() as u16).to_be_bytes());
+    body.extend_from_slice(&exts);
+
+    // === Handshake wrapper ===
+    let mut handshake = Vec::new();
+    handshake.push(0x01); // ClientHello
+    let len_bytes = (body.len() as u32).to_be_bytes();
+    handshake.extend_from_slice(&len_bytes[1..4]);
+    handshake.extend_from_slice(&body);
+
+    // === Record ===
+    let mut record = Vec::new();
+    record.push(TLS_RECORD_HANDSHAKE);
+    record.extend_from_slice(&[0x03, 0x01]); // legacy record version
+    record.extend_from_slice(&(handshake.len() as u16).to_be_bytes());
+    record.extend_from_slice(&handshake);
+
+    record
+}
+
+fn gen_key_share(rng: &SecureRandom) -> [u8; 32] {
+    let mut key = [0u8; 32];
+    key.copy_from_slice(&rng.bytes(32));
+    key
+}
+
+async fn read_tls_record(stream: &mut TcpStream) -> Result<(u8, Vec<u8>)> {
+    let mut header = [0u8; 5];
+    stream.read_exact(&mut header).await?;
+    let len = u16::from_be_bytes([header[3], header[4]]) as usize;
+    let mut body = vec![0u8; len];
+    stream.read_exact(&mut body).await?;
+    Ok((header[0], body))
+}
+
+fn parse_server_hello(body: &[u8]) -> Option<ParsedServerHello> {
+    if body.len() < 4 || body[0] != 0x02 {
+        return None;
+    }
+
+    let msg_len = u32::from_be_bytes([0, body[1], body[2], body[3]]) as usize;
+    if msg_len + 4 > body.len() {
+        return None;
+    }
+
+    let mut pos = 4;
+    let version = [*body.get(pos)?, *body.get(pos + 1)?];
+    pos += 2;
+
+    let mut random = [0u8; 32];
+    random.copy_from_slice(body.get(pos..pos + 32)?);
+    pos += 32;
+
+    let session_len = *body.get(pos)? as usize;
+    pos += 1;
+    let session_id = body.get(pos..pos + session_len)?.to_vec();
+    pos += session_len;
+
+    let cipher_suite = [*body.get(pos)?, *body.get(pos + 1)?];
+    pos += 2;
+
+    let compression = *body.get(pos)?;
+    pos += 1;
+
+    let ext_len = u16::from_be_bytes([*body.get(pos)?, *body.get(pos + 1)?]) as usize;
+    pos += 2;
+    let ext_end = pos.checked_add(ext_len)?;
+    if ext_end > body.len() {
+        return None;
+    }
+
+    let mut extensions = Vec::new();
+    while pos + 4 <= ext_end {
+        let etype = u16::from_be_bytes([body[pos], body[pos + 1]]);
+        let elen = u16::from_be_bytes([body[pos + 2], body[pos + 3]]) as usize;
+        pos += 4;
+        let data = body.get(pos..pos + elen)?.to_vec();
+        pos += elen;
+        extensions.push(TlsExtension { ext_type: etype, data });
+    }
+
+    Some(ParsedServerHello {
+        version,
+        random,
+        session_id,
+        cipher_suite,
+        compression,
+        extensions,
+    })
+}
+
+fn parse_cert_info(certs: &[CertificateDer<'static>]) -> Option<ParsedCertificateInfo> {
+    let first = certs.first()?;
+    let (_rem, cert) = X509Certificate::from_der(first.as_ref()).ok()?;
+
+    let not_before = Some(cert.validity().not_before.to_datetime().unix_timestamp());
+    let not_after = Some(cert.validity().not_after.to_datetime().unix_timestamp());
+
+    let issuer_cn = cert
+        .issuer()
+        .iter_common_name()
+        .next()
+        .and_then(|cn| cn.as_str().ok())
+        .map(|s| s.to_string());
+
+    let subject_cn = cert
+        .subject()
+        .iter_common_name()
+        .next()
+        .and_then(|cn| cn.as_str().ok())
+        .map(|s| s.to_string());
+
+    let san_names = cert
+        .subject_alternative_name()
+        .ok()
+        .flatten()
+        .map(|san| {
+            san.value
+                .general_names
+                .iter()
+                .filter_map(|gn| match gn {
+                    x509_parser::extensions::GeneralName::DNSName(n) => Some(n.to_string()),
+                    _ => None,
+                })
+                .collect::<Vec<_>>()
+        })
+        .unwrap_or_default();
+
+    Some(ParsedCertificateInfo {
+        not_after_unix: not_after,
+        not_before_unix: not_before,
+        issuer_cn,
+        subject_cn,
+        san_names,
+    })
+}
+
+fn u24_bytes(value: usize) -> Option<[u8; 3]> {
+    if value > 0x00ff_ffff {
+        return None;
+    }
+    Some([
+        ((value >> 16) & 0xff) as u8,
+        ((value >> 8) & 0xff) as u8,
+        (value & 0xff) as u8,
+    ])
+}
+
+fn encode_tls13_certificate_message(cert_chain_der: &[Vec<u8>]) -> Option<Vec<u8>> {
+    if cert_chain_der.is_empty() {
+        return None;
+    }
+
+    let mut certificate_list = Vec::new();
+    for cert in cert_chain_der {
+        if cert.is_empty() {
+            return None;
+        }
+        certificate_list.extend_from_slice(&u24_bytes(cert.len())?);
+        certificate_list.extend_from_slice(cert);
+        certificate_list.extend_from_slice(&0u16.to_be_bytes()); // cert_entry extensions
+    }
+
+    // Certificate = context_len(1) + certificate_list_len(3) + entries
+    let body_len = 1usize
+        .checked_add(3)?
+        .checked_add(certificate_list.len())?;
+
+    let mut message = Vec::with_capacity(4 + body_len);
+    message.push(0x0b); // HandshakeType::certificate
+    message.extend_from_slice(&u24_bytes(body_len)?);
+    message.push(0x00); // certificate_request_context length
+    message.extend_from_slice(&u24_bytes(certificate_list.len())?);
+    message.extend_from_slice(&certificate_list);
+    Some(message)
+}
+
+async fn fetch_via_raw_tls(
+    host: &str,
+    port: u16,
+    sni: &str,
+    connect_timeout: Duration,
+) -> Result<TlsFetchResult> {
+    let addr = format!("{host}:{port}");
+    let mut stream = timeout(connect_timeout, TcpStream::connect(addr)).await??;
+
+    let rng = SecureRandom::new();
+    let client_hello = build_client_hello(sni, &rng);
+    timeout(connect_timeout, async {
+        stream.write_all(&client_hello).await?;
+        stream.flush().await?;
+        Ok::<(), std::io::Error>(())
+    })
+    .await??;
+
+    let mut records = Vec::new();
+    // Read up to 4 records: ServerHello, CCS, and up to two ApplicationData.
+    for _ in 0..4 {
+        match timeout(connect_timeout, read_tls_record(&mut stream)).await {
+            Ok(Ok(rec)) => records.push(rec),
+            Ok(Err(e)) => return Err(e.into()),
+            Err(_) => break,
+        }
+        if records.len() >= 3 && records.iter().any(|(t, _)| *t == TLS_RECORD_APPLICATION) {
+            break;
+        }
+    }
+
+    let mut app_sizes = Vec::new();
+    let mut server_hello = None;
+    for (t, body) in &records {
+        if *t == TLS_RECORD_HANDSHAKE && server_hello.is_none() {
+            server_hello = parse_server_hello(body);
+        } else if *t == TLS_RECORD_APPLICATION {
+            app_sizes.push(body.len());
+        }
+    }
+
+    let parsed = server_hello.ok_or_else(|| anyhow!("ServerHello not received"))?;
+    let total_app_data_len = app_sizes.iter().sum::<usize>().max(1024);
+
+    Ok(TlsFetchResult {
+        server_hello_parsed: parsed,
+        app_data_records_sizes: if app_sizes.is_empty() {
+            vec![total_app_data_len]
+        } else {
+            app_sizes
+        },
+        total_app_data_len,
+        cert_info: None,
+        cert_payload: None,
+    })
+}
+
+async fn fetch_via_rustls(
+    host: &str,
+    port: u16,
+    sni: &str,
+    connect_timeout: Duration,
+    upstream: Option<std::sync::Arc<crate::transport::UpstreamManager>>,
+) -> Result<TlsFetchResult> {
+    // rustls handshake path for certificate and basic negotiated metadata.
+    let stream = if let Some(manager) = upstream {
+        // Resolve host to SocketAddr
+        if let Ok(mut addrs) = tokio::net::lookup_host((host, port)).await {
+            if let Some(addr) = addrs.find(|a| a.is_ipv4()) {
+                match manager.connect(addr, None, None).await {
+                    Ok(s) => s,
+                    Err(e) => {
+                        warn!(sni = %sni, error = %e, "Upstream connect failed, using direct connect");
+                        timeout(connect_timeout, TcpStream::connect((host, port))).await??
+                    }
+                }
+            } else {
+                timeout(connect_timeout, TcpStream::connect((host, port))).await??
+            }
+        } else {
+            timeout(connect_timeout, TcpStream::connect((host, port))).await??
+        }
+    } else {
+        timeout(connect_timeout, TcpStream::connect((host, port))).await??
+    };
+
+    let config = build_client_config();
+    let connector = TlsConnector::from(config);
+
+    let server_name = ServerName::try_from(sni.to_owned())
+        .or_else(|_| ServerName::try_from(host.to_owned()))
+        .map_err(|_| RustlsError::General("invalid SNI".into()))?;
+
+    let tls_stream: TlsStream<TcpStream> = connector.connect(server_name, stream).await?;
+
+    // Extract negotiated parameters and certificates
+    let (_io, session) = tls_stream.get_ref();
+    let cipher_suite = session
+        .negotiated_cipher_suite()
+        .map(|s| u16::from(s.suite()).to_be_bytes())
+        .unwrap_or([0x13, 0x01]);
+
+    let certs: Vec<CertificateDer<'static>> = session
+        .peer_certificates()
+        .map(|slice| slice.to_vec())
+        .unwrap_or_default();
+    let cert_chain_der: Vec<Vec<u8>> = certs.iter().map(|c| c.as_ref().to_vec()).collect();
+    let cert_payload = encode_tls13_certificate_message(&cert_chain_der).map(|certificate_message| {
+        TlsCertPayload {
+            cert_chain_der: cert_chain_der.clone(),
+            certificate_message,
+        }
+    });
+
+    let total_cert_len = cert_payload
+        .as_ref()
+        .map(|payload| payload.certificate_message.len())
+        .unwrap_or_else(|| cert_chain_der.iter().map(Vec::len).sum::<usize>())
+        .max(1024);
+    let cert_info = parse_cert_info(&certs);
+
+    // Heuristic: split across two records if large to mimic real servers a bit.
+    let app_data_records_sizes = if total_cert_len > 3000 {
+        vec![total_cert_len / 2, total_cert_len - total_cert_len / 2]
+    } else {
+        vec![total_cert_len]
+    };
+
+    let parsed = ParsedServerHello {
+        version: [0x03, 0x03],
+        random: [0u8; 32],
+        session_id: Vec::new(),
+        cipher_suite,
+        compression: 0,
+        extensions: Vec::new(),
+    };
+
+    debug!(
+        sni = %sni,
+        len = total_cert_len,
+        cipher = format!("0x{:04x}", u16::from_be_bytes(cipher_suite)),
+        has_cert_payload = cert_payload.is_some(),
+        "Fetched TLS metadata via rustls"
+    );
+
+    Ok(TlsFetchResult {
+        server_hello_parsed: parsed,
+        app_data_records_sizes: app_data_records_sizes.clone(),
+        total_app_data_len: app_data_records_sizes.iter().sum(),
+        cert_info,
+        cert_payload,
+    })
+}
+
+/// Fetch real TLS metadata for the given SNI.
+///
+/// Strategy:
+/// 1) Probe raw TLS for realistic ServerHello and ApplicationData record sizes.
+/// 2) Fetch certificate chain via rustls to build cert payload.
+/// 3) Merge both when possible; otherwise auto-fallback to whichever succeeded.
+pub async fn fetch_real_tls(
+    host: &str,
+    port: u16,
+    sni: &str,
+    connect_timeout: Duration,
+    upstream: Option<std::sync::Arc<crate::transport::UpstreamManager>>,
+) -> Result<TlsFetchResult> {
+    let raw_result = match fetch_via_raw_tls(host, port, sni, connect_timeout).await {
+        Ok(res) => Some(res),
+        Err(e) => {
+            warn!(sni = %sni, error = %e, "Raw TLS fetch failed");
+            None
+        }
+    };
+
+    match fetch_via_rustls(host, port, sni, connect_timeout, upstream).await {
+        Ok(rustls_result) => {
+            if let Some(mut raw) = raw_result {
+                raw.cert_info = rustls_result.cert_info;
+                raw.cert_payload = rustls_result.cert_payload;
+                debug!(sni = %sni, "Fetched TLS metadata via raw probe + rustls cert chain");
+                Ok(raw)
+            } else {
+                Ok(rustls_result)
+            }
+        }
+        Err(e) => {
+            if let Some(raw) = raw_result {
+                warn!(sni = %sni, error = %e, "Rustls cert fetch failed, using raw TLS metadata only");
+                Ok(raw)
+            } else {
+                Err(e)
+            }
+        }
+    }
+}
+
+#[cfg(test)]
+mod tests {
+    use super::encode_tls13_certificate_message;
+
+    fn read_u24(bytes: &[u8]) -> usize {
+        ((bytes[0] as usize) << 16) | ((bytes[1] as usize) << 8) | (bytes[2] as usize)
+    }
+
+    #[test]
+    fn test_encode_tls13_certificate_message_single_cert() {
+        let cert = vec![0x30, 0x03, 0x02, 0x01, 0x01];
+        let message = encode_tls13_certificate_message(&[cert.clone()]).expect("message");
+
+        assert_eq!(message[0], 0x0b);
+        assert_eq!(read_u24(&message[1..4]), message.len() - 4);
+        assert_eq!(message[4], 0x00);
+
+        let cert_list_len = read_u24(&message[5..8]);
+        assert_eq!(cert_list_len, cert.len() + 5);
+
+        let cert_len = read_u24(&message[8..11]);
+        assert_eq!(cert_len, cert.len());
+        assert_eq!(&message[11..11 + cert.len()], cert.as_slice());
+        assert_eq!(&message[11 + cert.len()..13 + cert.len()], &[0x00, 0x00]);
+    }
+
+    #[test]
+    fn test_encode_tls13_certificate_message_empty_chain() {
+        assert!(encode_tls13_certificate_message(&[]).is_none());
+    }
+}
--- a/src/tls_front/mod.rs
+++ b/src/tls_front/mod.rs
@@ -0,0 +1,7 @@
+pub mod types;
+pub mod cache;
+pub mod fetcher;
+pub mod emulator;
+
+pub use cache::TlsFrontCache;
+pub use types::{CachedTlsData, TlsFetchResult};
--- a/src/tls_front/types.rs
+++ b/src/tls_front/types.rs
@@ -0,0 +1,68 @@
+use std::time::SystemTime;
+use serde::{Serialize, Deserialize};
+
+/// Parsed representation of an unencrypted TLS ServerHello.
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct ParsedServerHello {
+    pub version: [u8; 2],
+    pub random: [u8; 32],
+    pub session_id: Vec<u8>,
+    pub cipher_suite: [u8; 2],
+    pub compression: u8,
+    pub extensions: Vec<TlsExtension>,
+}
+
+/// Generic TLS extension container.
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct TlsExtension {
+    pub ext_type: u16,
+    pub data: Vec<u8>,
+}
+
+/// Basic certificate metadata (optional, informative).
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct ParsedCertificateInfo {
+    pub not_after_unix: Option<i64>,
+    pub not_before_unix: Option<i64>,
+    pub issuer_cn: Option<String>,
+    pub subject_cn: Option<String>,
+    pub san_names: Vec<String>,
+}
+
+/// TLS certificate payload captured from profiled upstream.
+///
+/// `certificate_message` stores an encoded TLS 1.3 Certificate handshake
+/// message body that can be replayed as opaque ApplicationData bytes in FakeTLS.
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct TlsCertPayload {
+    pub cert_chain_der: Vec<Vec<u8>>,
+    pub certificate_message: Vec<u8>,
+}
+
+/// Cached data per SNI used by the emulator.
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct CachedTlsData {
+    pub server_hello_template: ParsedServerHello,
+    pub cert_info: Option<ParsedCertificateInfo>,
+    #[serde(default)]
+    pub cert_payload: Option<TlsCertPayload>,
+    pub app_data_records_sizes: Vec<usize>,
+    pub total_app_data_len: usize,
+    #[serde(default = "now_system_time", skip_serializing, skip_deserializing)]
+    pub fetched_at: SystemTime,
+    pub domain: String,
+}
+
+fn now_system_time() -> SystemTime {
+    SystemTime::now()
+}
+
+/// Result of attempting to fetch real TLS artifacts.
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct TlsFetchResult {
+    pub server_hello_parsed: ParsedServerHello,
+    pub app_data_records_sizes: Vec<usize>,
+    pub total_app_data_len: usize,
+    pub cert_info: Option<ParsedCertificateInfo>,
+    pub cert_payload: Option<TlsCertPayload>,
+}
--- a/src/transport/middle_proxy.rs
+++ b/src/transport/middle_proxy.rs
@@ -1,925 +0,0 @@
-//! Middle Proxy RPC Transport
-//!
-//! Implements Telegram Middle-End RPC protocol for routing to ALL DCs (including CDN).
-//!
-//! ## Phase 3 fixes:
-//! - ROOT CAUSE: Use Telegram proxy-secret (binary file) not user secret
-//! - Streaming handshake response (no fixed-size read deadlock)
-//! - Health monitoring + reconnection
-//! - Hex diagnostics for debugging
-
-use std::collections::HashMap;
-use std::net::{IpAddr, Ipv4Addr, SocketAddr};
-use std::sync::Arc;
-use std::sync::atomic::{AtomicU64, Ordering};
-use std::time::Duration;
-use bytes::{Bytes, BytesMut};
-use tokio::io::{AsyncReadExt, AsyncWriteExt};
-use tokio::net::TcpStream;
-use tokio::sync::{mpsc, Mutex, RwLock};
-use tokio::time::{timeout, Instant};
-use tracing::{debug, info, trace, warn, error};
-
-use crate::crypto::{crc32, derive_middleproxy_keys, AesCbc, SecureRandom};
-use crate::error::{ProxyError, Result};
-use crate::protocol::constants::*;
-
-// ========== Proxy Secret Fetching ==========
-
-/// Fetch the Telegram proxy-secret binary file.
-///
-/// This is NOT the user secret (-S flag, 16 bytes hex for clients).
-/// This is the infrastructure secret (--aes-pwd in C MTProxy),
-/// a binary file of 32-512 bytes used for ME RPC key derivation.
-///
-/// Strategy: try local cache, then download from Telegram.
-pub async fn fetch_proxy_secret(cache_path: Option<&str>) -> Result<Vec<u8>> {
-    let cache = cache_path.unwrap_or("proxy-secret");
-
-    // 1. Try local cache (< 24h old)
-    if let Ok(metadata) = tokio::fs::metadata(cache).await {
-        if let Ok(modified) = metadata.modified() {
-            let age = std::time::SystemTime::now()
-                .duration_since(modified)
-                .unwrap_or(Duration::from_secs(u64::MAX));
-            if age < Duration::from_secs(86400) {
-                if let Ok(data) = tokio::fs::read(cache).await {
-                    if data.len() >= 32 {
-                        info!(
-                            path = cache,
-                            len = data.len(),
-                            age_hours = age.as_secs() / 3600,
-                            "Loaded proxy-secret from cache"
-                        );
-                        return Ok(data);
-                    }
-                    warn!(path = cache, len = data.len(), "Cached proxy-secret too short");
-                }
-            }
-        }
-    }
-
-    // 2. Download from Telegram
-    info!("Downloading proxy-secret from core.telegram.org...");
-    let data = download_proxy_secret().await?;
-
-    // 3. Cache locally (best-effort)
-    if let Err(e) = tokio::fs::write(cache, &data).await {
-        warn!(error = %e, "Failed to cache proxy-secret (non-fatal)");
-    } else {
-        debug!(path = cache, len = data.len(), "Cached proxy-secret");
-    }
-
-    Ok(data)
-}
-
-async fn download_proxy_secret() -> Result<Vec<u8>> {
-    let url = "https://core.telegram.org/getProxySecret";
-    let resp = reqwest::get(url)
-        .await
-        .map_err(|e| ProxyError::Proxy(format!("Failed to download proxy-secret: {}", e)))?;
-
-    if !resp.status().is_success() {
-        return Err(ProxyError::Proxy(format!(
-            "proxy-secret download HTTP {}", resp.status()
-        )));
-    }
-
-    let data = resp.bytes().await
-        .map_err(|e| ProxyError::Proxy(format!("Read proxy-secret body: {}", e)))?
-        .to_vec();
-
-    if data.len() < 32 {
-        return Err(ProxyError::Proxy(format!(
-            "proxy-secret too short: {} bytes (need >= 32)", data.len()
-        )));
-    }
-
-    info!(len = data.len(), "Downloaded proxy-secret OK");
-    Ok(data)
-}
-
-// ========== RPC Frame helpers ==========
-
-/// Build an RPC frame: [len(4) | seq_no(4) | payload | crc32(4)]
-fn build_rpc_frame(seq_no: i32, payload: &[u8]) -> Vec<u8> {
-    let total_len = (4 + 4 + payload.len() + 4) as u32;
-    let mut f = Vec::with_capacity(total_len as usize);
-    f.extend_from_slice(&total_len.to_le_bytes());
-    f.extend_from_slice(&seq_no.to_le_bytes());
-    f.extend_from_slice(payload);
-    let c = crc32(&f);
-    f.extend_from_slice(&c.to_le_bytes());
-    f
-}
-
-/// Read one plaintext RPC frame. Returns (seq_no, payload).
-async fn read_rpc_frame_plaintext(
-    rd: &mut (impl AsyncReadExt + Unpin),
-) -> Result<(i32, Vec<u8>)> {
-    let mut len_buf = [0u8; 4];
-    rd.read_exact(&mut len_buf).await.map_err(ProxyError::Io)?;
-    let total_len = u32::from_le_bytes(len_buf) as usize;
-
-    if total_len < 12 || total_len > (1 << 24) {
-        return Err(ProxyError::InvalidHandshake(
-            format!("Bad RPC frame length: {}", total_len),
-        ));
-    }
-
-    let mut rest = vec![0u8; total_len - 4];
-    rd.read_exact(&mut rest).await.map_err(ProxyError::Io)?;
-
-    let mut full = Vec::with_capacity(total_len);
-    full.extend_from_slice(&len_buf);
-    full.extend_from_slice(&rest);
-
-    let crc_offset = total_len - 4;
-    let expected_crc = u32::from_le_bytes([
-        full[crc_offset], full[crc_offset + 1],
-        full[crc_offset + 2], full[crc_offset + 3],
-    ]);
-    let actual_crc = crc32(&full[..crc_offset]);
-    if expected_crc != actual_crc {
-        return Err(ProxyError::InvalidHandshake(
-            format!("CRC mismatch: 0x{:08x} vs 0x{:08x}", expected_crc, actual_crc),
-        ));
-    }
-
-    let seq_no = i32::from_le_bytes([full[4], full[5], full[6], full[7]]);
-    let payload = full[8..crc_offset].to_vec();
-    Ok((seq_no, payload))
-}
-
-// ========== RPC Nonce (32 bytes payload) ==========
-
-fn build_nonce_payload(key_selector: u32, crypto_ts: u32, nonce: &[u8; 16]) -> [u8; 32] {
-    let mut p = [0u8; 32];
-    p[0..4].copy_from_slice(&RPC_NONCE_U32.to_le_bytes());
-    p[4..8].copy_from_slice(&key_selector.to_le_bytes());
-    p[8..12].copy_from_slice(&RPC_CRYPTO_AES_U32.to_le_bytes());
-    p[12..16].copy_from_slice(&crypto_ts.to_le_bytes());
-    p[16..32].copy_from_slice(nonce);
-    p
-}
-
-fn parse_nonce_payload(d: &[u8]) -> Result<(u32, u32, [u8; 16])> {
-    if d.len() < 32 {
-        return Err(ProxyError::InvalidHandshake(
-            format!("Nonce payload too short: {} bytes", d.len()),
-        ));
-    }
-    let t = u32::from_le_bytes([d[0], d[1], d[2], d[3]]);
-    if t != RPC_NONCE_U32 {
-        return Err(ProxyError::InvalidHandshake(
-            format!("Expected RPC_NONCE 0x{:08x}, got 0x{:08x}", RPC_NONCE_U32, t),
-        ));
-    }
-    let schema = u32::from_le_bytes([d[8], d[9], d[10], d[11]]);
-    let ts = u32::from_le_bytes([d[12], d[13], d[14], d[15]]);
-    let mut nonce = [0u8; 16];
-    nonce.copy_from_slice(&d[16..32]);
-    Ok((schema, ts, nonce))
-}
-
-// ========== RPC Handshake (32 bytes payload) ==========
-
-fn build_handshake_payload(our_ip: u32, our_port: u16, peer_ip: u32, peer_port: u16) -> [u8; 32] {
-    let mut p = [0u8; 32];
-    p[0..4].copy_from_slice(&RPC_HANDSHAKE_U32.to_le_bytes());
-    // flags = 0 at offset 4..8
-
-    // sender_pid: {ip(4), port(2), pid(2), utime(4)} at offset 8..20
-    p[8..12].copy_from_slice(&our_ip.to_le_bytes());
-    p[12..14].copy_from_slice(&our_port.to_le_bytes());
-    let pid = (std::process::id() & 0xFFFF) as u16;
-    p[14..16].copy_from_slice(&pid.to_le_bytes());
-    let utime = std::time::SystemTime::now()
-        .duration_since(std::time::UNIX_EPOCH)
-        .unwrap_or_default()
-        .as_secs() as u32;
-    p[16..20].copy_from_slice(&utime.to_le_bytes());
-
-    // peer_pid: {ip(4), port(2), pid(2), utime(4)} at offset 20..32
-    p[20..24].copy_from_slice(&peer_ip.to_le_bytes());
-    p[24..26].copy_from_slice(&peer_port.to_le_bytes());
-    p
-}
-
-// ========== CBC helpers ==========
-
-fn cbc_encrypt_padded(key: &[u8; 32], iv: &[u8; 16], plaintext: &[u8]) -> Result<(Vec<u8>, [u8; 16])> {
-    let pad = (16 - (plaintext.len() % 16)) % 16;
-    let mut buf = plaintext.to_vec();
-    let pad_pattern: [u8; 4] = [0x04, 0x00, 0x00, 0x00];
-    for i in 0..pad {
-        buf.push(pad_pattern[i % 4]);
-    }
-    let cipher = AesCbc::new(*key, *iv);
-    cipher.encrypt_in_place(&mut buf)
-        .map_err(|e| ProxyError::Crypto(format!("CBC encrypt: {}", e)))?;
-    let mut new_iv = [0u8; 16];
-    if buf.len() >= 16 {
-        new_iv.copy_from_slice(&buf[buf.len() - 16..]);
-    }
-    Ok((buf, new_iv))
-}
-
-fn cbc_decrypt_inplace(key: &[u8; 32], iv: &[u8; 16], data: &mut [u8]) -> Result<[u8; 16]> {
-    let mut new_iv = [0u8; 16];
-    if data.len() >= 16 {
-        new_iv.copy_from_slice(&data[data.len() - 16..]);
-    }
-    AesCbc::new(*key, *iv)
-        .decrypt_in_place(data)
-        .map_err(|e| ProxyError::Crypto(format!("CBC decrypt: {}", e)))?;
-    Ok(new_iv)
-}
-
-// ========== IPv4 helpers ==========
-
-fn ipv4_to_mapped_v6(ip: Ipv4Addr) -> [u8; 16] {
-    let mut buf = [0u8; 16];
-    buf[10] = 0xFF;
-    buf[11] = 0xFF;
-    let o = ip.octets();
-    buf[12] = o[0]; buf[13] = o[1]; buf[14] = o[2]; buf[15] = o[3];
-    buf
-}
-
-fn addr_to_ip_u32(addr: &SocketAddr) -> u32 {
-    match addr.ip() {
-        IpAddr::V4(v4) => u32::from_be_bytes(v4.octets()),
-        IpAddr::V6(v6) => {
-            if let Some(v4) = v6.to_ipv4_mapped() {
-                u32::from_be_bytes(v4.octets())
-            } else { 0 }
-        }
-    }
-}
-
-// ========== ME Response ==========
-
-#[derive(Debug)]
-pub enum MeResponse {
-    Data(Bytes),
-    Ack(u32),
-    Close,
-}
-
-// ========== Connection Registry ==========
-
-pub struct ConnRegistry {
-    map: RwLock<HashMap<u64, mpsc::Sender<MeResponse>>>,
-    next_id: AtomicU64,
-}
-
-impl ConnRegistry {
-    pub fn new() -> Self {
-        Self {
-            map: RwLock::new(HashMap::new()),
-            next_id: AtomicU64::new(1),
-        }
-    }
-    pub async fn register(&self) -> (u64, mpsc::Receiver<MeResponse>) {
-        let id = self.next_id.fetch_add(1, Ordering::Relaxed);
-        let (tx, rx) = mpsc::channel(256);
-        self.map.write().await.insert(id, tx);
-        (id, rx)
-    }
-    pub async fn unregister(&self, id: u64) {
-        self.map.write().await.remove(&id);
-    }
-    pub async fn route(&self, id: u64, resp: MeResponse) -> bool {
-        let m = self.map.read().await;
-        if let Some(tx) = m.get(&id) {
-            tx.send(resp).await.is_ok()
-        } else { false }
-    }
-}
-
-// ========== RPC Writer (streaming CBC) ==========
-
-struct RpcWriter {
-    writer: tokio::io::WriteHalf<TcpStream>,
-    key: [u8; 32],
-    iv: [u8; 16],
-    seq_no: i32,
-}
-
-impl RpcWriter {
-    async fn send(&mut self, payload: &[u8]) -> Result<()> {
-        let frame = build_rpc_frame(self.seq_no, payload);
-        self.seq_no += 1;
-
-        let pad = (16 - (frame.len() % 16)) % 16;
-        let mut buf = frame;
-        let pad_pattern: [u8; 4] = [0x04, 0x00, 0x00, 0x00];
-        for i in 0..pad {
-            buf.push(pad_pattern[i % 4]);
-        }
-
-        let cipher = AesCbc::new(self.key, self.iv);
-        cipher.encrypt_in_place(&mut buf)
-            .map_err(|e| ProxyError::Crypto(format!("{}", e)))?;
-
-        if buf.len() >= 16 {
-            self.iv.copy_from_slice(&buf[buf.len() - 16..]);
-        }
-        self.writer.write_all(&buf).await.map_err(ProxyError::Io)
-    }
-}
-
-// ========== RPC_PROXY_REQ ==========
-
-
-fn build_proxy_req_payload(
-    conn_id: u64,
-    client_addr: SocketAddr,
-    our_addr: SocketAddr,
-    data: &[u8],
-    proxy_tag: Option<&[u8]>,
-    proto_flags: u32,
-) -> Vec<u8> {
-    // flags are pre-calculated by proto_flags_for_tag
-    // We just need to ensure FLAG_HAS_AD_TAG is set if we have a tag (it is set by default in our new function, but let's be safe)
-    let mut flags = proto_flags;
-
-    // The C code logic:
-    // flags = (transport_flags) | 0x1000 | 0x20000 | 0x8 (if tag)
-    // Our proto_flags_for_tag returns: 0x8 | 0x1000 | 0x20000 | transport_flags
-    // So we are good.
-
-    let b_cap = 128 + data.len();
-    let mut b = Vec::with_capacity(b_cap);
-
-    b.extend_from_slice(&RPC_PROXY_REQ_U32.to_le_bytes());
-    b.extend_from_slice(&flags.to_le_bytes());
-    b.extend_from_slice(&conn_id.to_le_bytes());
-
-    // Client IP (16 bytes IPv4-mapped-v6) + port (4 bytes)
-    match client_addr.ip() {
-        IpAddr::V4(v4) => b.extend_from_slice(&ipv4_to_mapped_v6(v4)),
-        IpAddr::V6(v6) => b.extend_from_slice(&v6.octets()),
-    }
-    b.extend_from_slice(&(client_addr.port() as u32).to_le_bytes());
-
-    // Our IP (16 bytes) + port (4 bytes)
-    match our_addr.ip() {
-        IpAddr::V4(v4) => b.extend_from_slice(&ipv4_to_mapped_v6(v4)),
-        IpAddr::V6(v6) => b.extend_from_slice(&v6.octets()),
-    }
-    b.extend_from_slice(&(our_addr.port() as u32).to_le_bytes());
-
-    // Extra section (proxy_tag)
-    if flags & 12 != 0 {
-        let extra_start = b.len();
-        b.extend_from_slice(&0u32.to_le_bytes()); // placeholder
-
-        if let Some(tag) = proxy_tag {
-            b.extend_from_slice(&TL_PROXY_TAG_U32.to_le_bytes());
-            // TL string encoding
-            if tag.len() < 254 {
-                b.push(tag.len() as u8);
-                b.extend_from_slice(tag);
-                let pad = (4 - ((1 + tag.len()) % 4)) % 4;
-                b.extend(std::iter::repeat(0u8).take(pad));
-            } else {
-                b.push(0xfe);
-                let len_bytes = (tag.len() as u32).to_le_bytes();
-                b.extend_from_slice(&len_bytes[..3]);
-                b.extend_from_slice(tag);
-                let pad = (4 - (tag.len() % 4)) % 4;
-                b.extend(std::iter::repeat(0u8).take(pad));
-            }
-        }
-
-        let extra_bytes = (b.len() - extra_start - 4) as u32;
-        let eb = extra_bytes.to_le_bytes();
-        b[extra_start..extra_start + 4].copy_from_slice(&eb);
-    }
-
-    b.extend_from_slice(data);
-    b
-}
-
-// ========== ME Pool ==========
-
-pub struct MePool {
-    registry: Arc<ConnRegistry>,
-    writers: Arc<RwLock<Vec<Arc<Mutex<RpcWriter>>>>>,
-    rr: AtomicU64,
-    proxy_tag: Option<Vec<u8>>,
-    /// Telegram proxy-secret (binary, 32-512 bytes)
-    proxy_secret: Vec<u8>,
-    pool_size: usize,
-}
-
-impl MePool {
-    pub fn new(proxy_tag: Option<Vec<u8>>, proxy_secret: Vec<u8>) -> Arc<Self> {
-        Arc::new(Self {
-            registry: Arc::new(ConnRegistry::new()),
-            writers: Arc::new(RwLock::new(Vec::new())),
-            rr: AtomicU64::new(0),
-            proxy_tag,
-            proxy_secret,
-            pool_size: 2,
-        })
-    }
-
-    pub fn registry(&self) -> &Arc<ConnRegistry> {
-        &self.registry
-    }
-
-    fn writers_arc(&self) -> Arc<RwLock<Vec<Arc<Mutex<RpcWriter>>>>> {
-        self.writers.clone()
-    }
-
-    /// key_selector = first 4 bytes of proxy-secret as LE u32
-    /// C: main_secret.key_signature via union { char secret[]; int key_signature; }
-    fn key_selector(&self) -> u32 {
-        if self.proxy_secret.len() >= 4 {
-            u32::from_le_bytes([
-                self.proxy_secret[0], self.proxy_secret[1],
-                self.proxy_secret[2], self.proxy_secret[3],
-            ])
-        } else { 0 }
-    }
-
-    pub async fn init(
-        self: &Arc<Self>,
-        pool_size: usize,
-        rng: &SecureRandom,
-    ) -> Result<()> {
-        let addrs = &*TG_MIDDLE_PROXIES_FLAT_V4;
-        let ks = self.key_selector();
-        info!(
-            me_servers = addrs.len(),
-            pool_size,
-            key_selector = format_args!("0x{:08x}", ks),
-            secret_len = self.proxy_secret.len(),
-            "Initializing ME pool"
-        );
-
-        for &(ip, port) in addrs.iter() {
-            for i in 0..pool_size {
-                let addr = SocketAddr::new(ip, port);
-                match self.connect_one(addr, rng).await {
-                    Ok(()) => info!(%addr, idx = i, "ME connected"),
-                    Err(e) => warn!(%addr, idx = i, error = %e, "ME connect failed"),
-                }
-            }
-            if self.writers.read().await.len() >= pool_size {
-                break;
-            }
-        }
-
-        if self.writers.read().await.is_empty() {
-            return Err(ProxyError::Proxy("No ME connections".into()));
-        }
-        Ok(())
-    }
-
-    async fn connect_one(
-        self: &Arc<Self>,
-        addr: SocketAddr,
-        rng: &SecureRandom,
-    ) -> Result<()> {
-        let secret = &self.proxy_secret;
-        if secret.len() < 32 {
-            return Err(ProxyError::Proxy("proxy-secret too short for ME auth".into()));
-        }
-
-        // ===== TCP connect =====
-        let stream = timeout(
-            Duration::from_secs(ME_CONNECT_TIMEOUT_SECS),
-            TcpStream::connect(addr),
-        )
-        .await
-        .map_err(|_| ProxyError::ConnectionTimeout { addr: addr.to_string() })?
-        .map_err(ProxyError::Io)?;
-        stream.set_nodelay(true).ok();
-
-        let local_addr = stream.local_addr().map_err(ProxyError::Io)?;
-        let peer_addr = stream.peer_addr().map_err(ProxyError::Io)?;
-        let (mut rd, mut wr) = tokio::io::split(stream);
-
-        // ===== 1. Send RPC nonce (plaintext, seq=-2) =====
-        let my_nonce: [u8; 16] = rng.bytes(16).try_into().unwrap();
-        let crypto_ts = std::time::SystemTime::now()
-            .duration_since(std::time::UNIX_EPOCH)
-            .unwrap_or_default()
-            .as_secs() as u32;
-        let ks = self.key_selector();
-
-        let nonce_payload = build_nonce_payload(ks, crypto_ts, &my_nonce);
-        let nonce_frame = build_rpc_frame(-2, &nonce_payload);
-
-        debug!(
-            %addr,
-            frame_len = nonce_frame.len(),
-            key_sel = format_args!("0x{:08x}", ks),
-            crypto_ts,
-            "Sending nonce"
-        );
-
-        wr.write_all(&nonce_frame).await.map_err(ProxyError::Io)?;
-        wr.flush().await.map_err(ProxyError::Io)?;
-
-        // ===== 2. Read server nonce (plaintext, seq=-2) =====
-        let (srv_seq, srv_nonce_payload) = timeout(
-            Duration::from_secs(ME_HANDSHAKE_TIMEOUT_SECS),
-            read_rpc_frame_plaintext(&mut rd),
-        )
-        .await
-        .map_err(|_| ProxyError::TgHandshakeTimeout)??;
-
-        if srv_seq != -2 {
-            return Err(ProxyError::InvalidHandshake(
-                format!("Expected seq=-2, got {}", srv_seq),
-            ));
-        }
-
-        let (schema, _srv_ts, srv_nonce) = parse_nonce_payload(&srv_nonce_payload)?;
-        if schema != RPC_CRYPTO_AES_U32 {
-            return Err(ProxyError::InvalidHandshake(
-                format!("Unsupported crypto schema: 0x{:x}", schema),
-            ));
-        }
-
-        debug!(%addr, "Nonce exchange OK, deriving keys");
-
-        // ===== 3. Derive AES-256-CBC keys =====
-        // C buffer layout:
-        //   [0..16]  nonce_server (srv_nonce)
-        //   [16..32] nonce_client (my_nonce)
-        //   [32..36] client_timestamp
-        //   [36..40] server_ip
-        //   [40..42] client_port
-        //   [42..48] "CLIENT" or "SERVER"
-        //   [48..52] client_ip
-        //   [52..54] server_port
-        //   [54..54+N] secret (proxy-secret binary)
-        //   [54+N..70+N] nonce_server
-        //   nonce_client(16)
-
-        let ts_bytes = crypto_ts.to_le_bytes();
-        let server_ip = addr_to_ip_u32(&peer_addr);
-        let client_ip = addr_to_ip_u32(&local_addr);
-        let server_ip_bytes = server_ip.to_le_bytes();
-        let client_ip_bytes = client_ip.to_le_bytes();
-        let server_port_bytes = peer_addr.port().to_le_bytes();
-        let client_port_bytes = local_addr.port().to_le_bytes();
-
-        let (wk, wi) = derive_middleproxy_keys(
-            &srv_nonce, &my_nonce, &ts_bytes,
-            Some(&server_ip_bytes), &client_port_bytes,
-            b"CLIENT",
-            Some(&client_ip_bytes), &server_port_bytes,
-            secret, None, None,
-        );
-        let (rk, ri) = derive_middleproxy_keys(
-            &srv_nonce, &my_nonce, &ts_bytes,
-            Some(&server_ip_bytes), &client_port_bytes,
-            b"SERVER",
-            Some(&client_ip_bytes), &server_port_bytes,
-            secret, None, None,
-        );
-
-        debug!(
-            %addr,
-            write_key = %hex::encode(&wk[..8]),
-            read_key = %hex::encode(&rk[..8]),
-            "Keys derived"
-        );
-
-        // ===== 4. Send encrypted handshake (seq=-1) =====
-        let hs_payload = build_handshake_payload(
-            client_ip, local_addr.port(),
-            server_ip, peer_addr.port(),
-        );
-        let hs_frame = build_rpc_frame(-1, &hs_payload);
-        let (encrypted_hs, write_iv) = cbc_encrypt_padded(&wk, &wi, &hs_frame)?;
-        wr.write_all(&encrypted_hs).await.map_err(ProxyError::Io)?;
-        wr.flush().await.map_err(ProxyError::Io)?;
-
-        debug!(%addr, enc_len = encrypted_hs.len(), "Sent encrypted handshake");
-
-        // ===== 5. Read encrypted handshake response (STREAMING) =====
-        // Server sends encrypted handshake. C crypto layer may send partial
-        // blocks (only complete 16-byte blocks get encrypted at a time).
-        // We read incrementally and decrypt block-by-block.
-        let deadline = Instant::now() + Duration::from_secs(ME_HANDSHAKE_TIMEOUT_SECS);
-        let mut enc_buf = BytesMut::with_capacity(256);
-        let mut dec_buf = BytesMut::with_capacity(256);
-        let mut read_iv = ri;
-        let mut handshake_ok = false;
-
-        while Instant::now() < deadline && !handshake_ok {
-            let remaining = deadline - Instant::now();
-            let mut tmp = [0u8; 256];
-            let n = match timeout(remaining, rd.read(&mut tmp)).await {
-                Ok(Ok(0)) => return Err(ProxyError::Io(std::io::Error::new(
-                    std::io::ErrorKind::UnexpectedEof, "ME closed during handshake",
-                ))),
-                Ok(Ok(n)) => n,
-                Ok(Err(e)) => return Err(ProxyError::Io(e)),
-                Err(_) => return Err(ProxyError::TgHandshakeTimeout),
-            };
-            enc_buf.extend_from_slice(&tmp[..n]);
-
-            // Decrypt complete 16-byte blocks
-            let blocks = enc_buf.len() / 16 * 16;
-            if blocks > 0 {
-                let mut chunk = vec![0u8; blocks];
-                chunk.copy_from_slice(&enc_buf[..blocks]);
-                let new_iv = cbc_decrypt_inplace(&rk, &read_iv, &mut chunk)?;
-                read_iv = new_iv;
-                dec_buf.extend_from_slice(&chunk);
-                let _ = enc_buf.split_to(blocks);
-            }
-
-            // Try to parse RPC frame from decrypted data
-            while dec_buf.len() >= 4 {
-                let fl = u32::from_le_bytes([
-                    dec_buf[0], dec_buf[1], dec_buf[2], dec_buf[3],
-                ]) as usize;
-
-                // Skip noop padding
-                if fl == 4 {
-                    let _ = dec_buf.split_to(4);
-                    continue;
-                }
-                if fl < 12 || fl > (1 << 24) {
-                    return Err(ProxyError::InvalidHandshake(
-                        format!("Bad HS response frame len: {}", fl),
-                    ));
-                }
-                if dec_buf.len() < fl {
-                    break; // need more data
-                }
-
-                let frame = dec_buf.split_to(fl);
-
-                // CRC32 check
-                let pe = fl - 4;
-                let ec = u32::from_le_bytes([
-                    frame[pe], frame[pe + 1], frame[pe + 2], frame[pe + 3],
-                ]);
-                let ac = crc32(&frame[..pe]);
-                if ec != ac {
-                    return Err(ProxyError::InvalidHandshake(
-                        format!("HS CRC mismatch: 0x{:08x} vs 0x{:08x}", ec, ac),
-                    ));
-                }
-
-                // Check type
-                let hs_type = u32::from_le_bytes([
-                    frame[8], frame[9], frame[10], frame[11],
-                ]);
-                if hs_type == RPC_HANDSHAKE_ERROR_U32 {
-                    let err_code = if frame.len() >= 16 {
-                        i32::from_le_bytes([frame[12], frame[13], frame[14], frame[15]])
-                    } else { -1 };
-                    return Err(ProxyError::InvalidHandshake(
-                        format!("ME rejected handshake (error={})", err_code),
-                    ));
-                }
-                if hs_type != RPC_HANDSHAKE_U32 {
-                    return Err(ProxyError::InvalidHandshake(
-                        format!("Expected HANDSHAKE 0x{:08x}, got 0x{:08x}", RPC_HANDSHAKE_U32, hs_type),
-                    ));
-                }
-
-                handshake_ok = true;
-                break;
-            }
-        }
-
-        if !handshake_ok {
-            return Err(ProxyError::TgHandshakeTimeout);
-        }
-
-        info!(%addr, "RPC handshake OK");
-
-        // ===== 6. Setup writer + reader =====
-        let rpc_w = Arc::new(Mutex::new(RpcWriter {
-            writer: wr,
-            key: wk,
-            iv: write_iv,
-            seq_no: 0,
-        }));
-        self.writers.write().await.push(rpc_w.clone());
-
-        let reg = self.registry.clone();
-        let w_pong = rpc_w.clone();
-        let w_pool = self.writers_arc();
-        tokio::spawn(async move {
-            if let Err(e) = reader_loop(rd, rk, read_iv, reg, enc_buf, dec_buf, w_pong.clone()).await {
-                warn!(error = %e, "ME reader ended");
-            }
-            // Remove dead writer from pool
-            let mut ws = w_pool.write().await;
-            ws.retain(|w| !Arc::ptr_eq(w, &w_pong));
-            info!(remaining = ws.len(), "Dead ME writer removed from pool");
-        });
-
-        Ok(())
-    }
-
-    pub async fn send_proxy_req(
-        &self,
-        conn_id: u64,
-        client_addr: SocketAddr,
-        our_addr: SocketAddr,
-        data: &[u8],
-        proto_flags: u32,
-    ) -> Result<()> {
-        let payload = build_proxy_req_payload(
-            conn_id, client_addr, our_addr, data,
-            self.proxy_tag.as_deref(), proto_flags,
-        );
-        loop {
-            let ws = self.writers.read().await;
-            if ws.is_empty() {
-                return Err(ProxyError::Proxy("All ME connections dead".into()));
-            }
-            let idx = self.rr.fetch_add(1, Ordering::Relaxed) as usize % ws.len();
-            let w = ws[idx].clone();
-            drop(ws);
-            match w.lock().await.send(&payload).await {
-                Ok(()) => return Ok(()),
-                Err(e) => {
-                    warn!(error = %e, "ME write failed, removing dead conn");
-                    let mut ws = self.writers.write().await;
-                    ws.retain(|o| !Arc::ptr_eq(o, &w));
-                    if ws.is_empty() {
-                        return Err(ProxyError::Proxy("All ME connections dead".into()));
-                    }
-                }
-            }
-        }
-    }
-
-    pub async fn send_close(&self, conn_id: u64) -> Result<()> {
-        let ws = self.writers.read().await;
-        if !ws.is_empty() {
-            let w = ws[0].clone();
-            drop(ws);
-            let mut p = Vec::with_capacity(12);
-            p.extend_from_slice(&RPC_CLOSE_EXT_U32.to_le_bytes());
-            p.extend_from_slice(&conn_id.to_le_bytes());
-            if let Err(e) = w.lock().await.send(&p).await {
-                debug!(error = %e, "ME close write failed");
-                let mut ws = self.writers.write().await;
-                ws.retain(|o| !Arc::ptr_eq(o, &w));
-            }
-        }
-        self.registry.unregister(conn_id).await;
-        Ok(())
-    }
-
-    pub fn connection_count(&self) -> usize {
-        self.writers.try_read().map(|w| w.len()).unwrap_or(0)
-    }
-}
-
-// ========== Reader Loop ==========
-
-async fn reader_loop(
-    mut rd: tokio::io::ReadHalf<TcpStream>,
-    dk: [u8; 32],
-    mut div: [u8; 16],
-    reg: Arc<ConnRegistry>,
-    mut enc_leftover: BytesMut,
-    mut dec: BytesMut,
-    writer: Arc<Mutex<RpcWriter>>,
-) -> Result<()> {
-    let mut raw = enc_leftover;
-    loop {
-        let mut tmp = [0u8; 16384];
-        let n = rd.read(&mut tmp).await.map_err(ProxyError::Io)?;
-        if n == 0 { return Ok(()); }
-        raw.extend_from_slice(&tmp[..n]);
-
-        // Decrypt complete 16-byte blocks
-        let blocks = raw.len() / 16 * 16;
-        if blocks > 0 {
-            let mut new_iv = [0u8; 16];
-            new_iv.copy_from_slice(&raw[blocks - 16..blocks]);
-            let mut chunk = vec![0u8; blocks];
-            chunk.copy_from_slice(&raw[..blocks]);
-            AesCbc::new(dk, div)
-                .decrypt_in_place(&mut chunk)
-                .map_err(|e| ProxyError::Crypto(format!("{}", e)))?;
-            div = new_iv;
-            dec.extend_from_slice(&chunk);
-            let _ = raw.split_to(blocks);
-        }
-
-        // Parse RPC frames
-        while dec.len() >= 12 {
-            let fl = u32::from_le_bytes([dec[0], dec[1], dec[2], dec[3]]) as usize;
-            if fl == 4 { let _ = dec.split_to(4); continue; }
-            if fl < 12 || fl > (1 << 24) {
-                warn!(frame_len = fl, "Invalid RPC frame len");
-                dec.clear();
-                break;
-            }
-            if dec.len() < fl { break; }
-
-            let frame = dec.split_to(fl);
-            let pe = fl - 4;
-            let ec = u32::from_le_bytes([frame[pe], frame[pe+1], frame[pe+2], frame[pe+3]]);
-            if crc32(&frame[..pe]) != ec {
-                warn!("CRC mismatch in data frame");
-                continue;
-            }
-
-            let payload = &frame[8..pe];
-            if payload.len() < 4 { continue; }
-            let pt = u32::from_le_bytes([payload[0], payload[1], payload[2], payload[3]]);
-            let body = &payload[4..];
-
-            if pt == RPC_PROXY_ANS_U32 && body.len() >= 12 {
-                let flags = u32::from_le_bytes(body[0..4].try_into().unwrap());
-                let cid = u64::from_le_bytes(body[4..12].try_into().unwrap());
-                let data = Bytes::copy_from_slice(&body[12..]);
-                trace!(cid, len = data.len(), flags, "ANS");
-                reg.route(cid, MeResponse::Data(data)).await;
-            } else if pt == RPC_SIMPLE_ACK_U32 && body.len() >= 12 {
-                let cid = u64::from_le_bytes(body[0..8].try_into().unwrap());
-                let cfm = u32::from_le_bytes(body[8..12].try_into().unwrap());
-                trace!(cid, cfm, "ACK");
-                reg.route(cid, MeResponse::Ack(cfm)).await;
-            } else if pt == RPC_CLOSE_EXT_U32 && body.len() >= 8 {
-                let cid = u64::from_le_bytes(body[0..8].try_into().unwrap());
-                debug!(cid, "CLOSE_EXT from ME");
-                reg.route(cid, MeResponse::Close).await;
-                reg.unregister(cid).await;
-            } else if pt == RPC_CLOSE_CONN_U32 && body.len() >= 8 {
-                let cid = u64::from_le_bytes(body[0..8].try_into().unwrap());
-                debug!(cid, "CLOSE_CONN from ME");
-                reg.route(cid, MeResponse::Close).await;
-                reg.unregister(cid).await;
-            } else if pt == RPC_PING_U32 && body.len() >= 8 {
-                let ping_id = i64::from_le_bytes(body[0..8].try_into().unwrap());
-                trace!(ping_id, "RPC_PING -> PONG");
-                let mut pong = Vec::with_capacity(12);
-                pong.extend_from_slice(&RPC_PONG_U32.to_le_bytes());
-                pong.extend_from_slice(&ping_id.to_le_bytes());
-                if let Err(e) = writer.lock().await.send(&pong).await {
-                    warn!(error = %e, "PONG send failed");
-                    break;
-                }
-            } else {
-                debug!(rpc_type = format_args!("0x{:08x}", pt), len = body.len(), "Unknown RPC");
-            }
-        }
-    }
-}
-
-// ========== Proto flags ==========
-
-/// Map ProtoTag to C-compatible RPC_PROXY_REQ transport flags.
-/// C: RPC_F_COMPACT(0x40000000)=abridged, RPC_F_MEDIUM(0x20000000)=intermediate/secure
-/// The 0x1000(magic) and 0x8(proxy_tag) are added inside build_proxy_req_payload.
-
-pub fn proto_flags_for_tag(tag: crate::protocol::constants::ProtoTag) -> u32 {
-    use crate::protocol::constants::*;
-    let mut flags = RPC_FLAG_HAS_AD_TAG | RPC_FLAG_MAGIC | RPC_FLAG_EXTMODE2;
-    match tag {
-        ProtoTag::Abridged     => flags | RPC_FLAG_ABRIDGED,
-        ProtoTag::Intermediate => flags | RPC_FLAG_INTERMEDIATE,
-        ProtoTag::Secure       => flags | RPC_FLAG_PAD | RPC_FLAG_INTERMEDIATE,
-    }
-}
-
-
-// ========== Health Monitor (Phase 4) ==========
-
-pub async fn me_health_monitor(
-    pool: Arc<MePool>,
-    rng: Arc<SecureRandom>,
-    min_connections: usize,
-) {
-    loop {
-        tokio::time::sleep(Duration::from_secs(30)).await;
-        let current = pool.writers.read().await.len();
-        if current < min_connections {
-            warn!(current, min = min_connections, "ME pool below minimum, reconnecting...");
-            let addrs = TG_MIDDLE_PROXIES_FLAT_V4.clone();
-            for &(ip, port) in addrs.iter() {
-                let needed = min_connections.saturating_sub(pool.writers.read().await.len());
-                if needed == 0 { break; }
-                for _ in 0..needed {
-                    let addr = SocketAddr::new(ip, port);
-                    match pool.connect_one(addr, &rng).await {
-                        Ok(()) => info!(%addr, "ME reconnected"),
-                        Err(e) => debug!(%addr, error = %e, "ME reconnect failed"),
-                    }
-                }
-            }
-        }
-    }
-}
--- a/src/transport/middle_proxy/codec.rs
+++ b/src/transport/middle_proxy/codec.rs
@@ -1,16 +1,53 @@
 use tokio::io::{AsyncReadExt, AsyncWriteExt};

-use crate::crypto::{AesCbc, crc32};
+use crate::crypto::{AesCbc, crc32, crc32c};
 use crate::error::{ProxyError, Result};
 use crate::protocol::constants::*;

-pub(crate) fn build_rpc_frame(seq_no: i32, payload: &[u8]) -> Vec<u8> {
+/// Commands sent to dedicated writer tasks to avoid mutex contention on TCP writes.
+pub(crate) enum WriterCommand {
+    Data(Vec<u8>),
+    DataAndFlush(Vec<u8>),
+    Close,
+}
+
+#[derive(Debug, Clone, Copy, PartialEq, Eq)]
+pub(crate) enum RpcChecksumMode {
+    Crc32,
+    Crc32c,
+}
+
+impl RpcChecksumMode {
+    pub(crate) fn from_handshake_flags(flags: u32) -> Self {
+        if (flags & rpc_crypto_flags::USE_CRC32C) != 0 {
+            Self::Crc32c
+        } else {
+            Self::Crc32
+        }
+    }
+
+    pub(crate) fn advertised_flags(self) -> u32 {
+        match self {
+            Self::Crc32 => 0,
+            Self::Crc32c => rpc_crypto_flags::USE_CRC32C,
+        }
+    }
+}
+
+pub(crate) fn rpc_crc(mode: RpcChecksumMode, data: &[u8]) -> u32 {
+    match mode {
+        RpcChecksumMode::Crc32 => crc32(data),
+        RpcChecksumMode::Crc32c => crc32c(data),
+    }
+}
+
+pub(crate) fn build_rpc_frame(seq_no: i32, payload: &[u8], crc_mode: RpcChecksumMode) -> Vec<u8> {
    let total_len = (4 + 4 + payload.len() + 4) as u32;
    let mut frame = Vec::with_capacity(total_len as usize);
    frame.extend_from_slice(&total_len.to_le_bytes());
    frame.extend_from_slice(&seq_no.to_le_bytes());
    frame.extend_from_slice(payload);
-    let c = crc32(&frame);
+    let c = rpc_crc(crc_mode, &frame);
    frame.extend_from_slice(&c.to_le_bytes());
    frame
 }
@@ -37,7 +74,7 @@ pub(crate) async fn read_rpc_frame_plaintext(

    let crc_offset = total_len - 4;
    let expected_crc = u32::from_le_bytes(full[crc_offset..crc_offset + 4].try_into().unwrap());
-    let actual_crc = crc32(&full[..crc_offset]);
+    let actual_crc = rpc_crc(RpcChecksumMode::Crc32, &full[..crc_offset]);
    if expected_crc != actual_crc {
        return Err(ProxyError::InvalidHandshake(format!(
            "CRC mismatch: 0x{expected_crc:08x} vs 0x{actual_crc:08x}"
@@ -87,24 +124,52 @@ pub(crate) fn build_handshake_payload(
    our_port: u16,
    peer_ip: [u8; 4],
    peer_port: u16,
+    flags: u32,
 ) -> [u8; 32] {
    let mut p = [0u8; 32];
    p[0..4].copy_from_slice(&RPC_HANDSHAKE_U32.to_le_bytes());
+    p[4..8].copy_from_slice(&flags.to_le_bytes());

-    // Keep C memory layout compatibility for PID IPv4 bytes.
+    // process_id sender_pid
    p[8..12].copy_from_slice(&our_ip);
    p[12..14].copy_from_slice(&our_port.to_le_bytes());
-    let pid = (std::process::id() & 0xffff) as u16;
-    p[14..16].copy_from_slice(&pid.to_le_bytes());
+    p[14..16].copy_from_slice(&process_pid16().to_le_bytes());
+    p[16..20].copy_from_slice(&process_utime().to_le_bytes());
+
+    // process_id peer_pid
+    p[20..24].copy_from_slice(&peer_ip);
+    p[24..26].copy_from_slice(&peer_port.to_le_bytes());
+    p[26..28].copy_from_slice(&0u16.to_le_bytes());
+    p[28..32].copy_from_slice(&0u32.to_le_bytes());
+    p
+}
+
+pub(crate) fn parse_handshake_flags(payload: &[u8]) -> Result<u32> {
+    if payload.len() != 32 {
+        return Err(ProxyError::InvalidHandshake(format!(
+            "Bad handshake payload len: {}",
+            payload.len()
+        )));
+    }
+    let hs_type = u32::from_le_bytes(payload[0..4].try_into().unwrap());
+    if hs_type != RPC_HANDSHAKE_U32 {
+        return Err(ProxyError::InvalidHandshake(format!(
+            "Expected HANDSHAKE 0x{RPC_HANDSHAKE_U32:08x}, got 0x{hs_type:08x}"
+        )));
+    }
+    Ok(u32::from_le_bytes(payload[4..8].try_into().unwrap()))
+}
+
+fn process_pid16() -> u16 {
+    (std::process::id() & 0xffff) as u16
+}
+
+fn process_utime() -> u32 {
    let utime = std::time::SystemTime::now()
        .duration_since(std::time::UNIX_EPOCH)
        .unwrap_or_default()
        .as_secs() as u32;
-    p[16..20].copy_from_slice(&utime.to_le_bytes());
-
-    p[20..24].copy_from_slice(&peer_ip);
-    p[24..26].copy_from_slice(&peer_port.to_le_bytes());
-    p
+    utime
 }

 pub(crate) fn cbc_encrypt_padded(
@@ -152,12 +217,13 @@ pub(crate) struct RpcWriter {
    pub(crate) key: [u8; 32],
    pub(crate) iv: [u8; 16],
    pub(crate) seq_no: i32,
+    pub(crate) crc_mode: RpcChecksumMode,
 }

 impl RpcWriter {
    pub(crate) async fn send(&mut self, payload: &[u8]) -> Result<()> {
-        let frame = build_rpc_frame(self.seq_no, payload);
-        self.seq_no += 1;
+        let frame = build_rpc_frame(self.seq_no, payload, self.crc_mode);
+        self.seq_no = self.seq_no.wrapping_add(1);

        let pad = (16 - (frame.len() % 16)) % 16;
        let mut buf = frame;
@@ -176,4 +242,9 @@ impl RpcWriter {
        }
        self.writer.write_all(&buf).await.map_err(ProxyError::Io)
    }
+
+    pub(crate) async fn send_and_flush(&mut self, payload: &[u8]) -> Result<()> {
+        self.send(payload).await?;
+        self.writer.flush().await.map_err(ProxyError::Io)
+    }
 }
--- a/src/transport/middle_proxy/config_updater.rs
+++ b/src/transport/middle_proxy/config_updater.rs
@@ -0,0 +1,287 @@
+use std::collections::HashMap;
+use std::net::IpAddr;
+use std::sync::Arc;
+use std::time::Duration;
+
+use httpdate;
+use tokio::sync::watch;
+use tracing::{debug, info, warn};
+
+use crate::config::ProxyConfig;
+use crate::error::Result;
+
+use super::MePool;
+use super::secret::download_proxy_secret;
+use crate::crypto::SecureRandom;
+use std::time::SystemTime;
+
+async fn retry_fetch(url: &str) -> Option<ProxyConfigData> {
+    let delays = [1u64, 5, 15];
+    for (i, d) in delays.iter().enumerate() {
+        match fetch_proxy_config(url).await {
+            Ok(cfg) => return Some(cfg),
+            Err(e) => {
+                if i == delays.len() - 1 {
+                    warn!(error = %e, url, "fetch_proxy_config failed");
+                } else {
+                    debug!(error = %e, url, "fetch_proxy_config retrying");
+                    tokio::time::sleep(Duration::from_secs(*d)).await;
+                }
+            }
+        }
+    }
+    None
+}
+
+#[derive(Debug, Clone, Default)]
+pub struct ProxyConfigData {
+    pub map: HashMap<i32, Vec<(IpAddr, u16)>>,
+    pub default_dc: Option<i32>,
+}
+
+fn parse_host_port(s: &str) -> Option<(IpAddr, u16)> {
+    if let Some(bracket_end) = s.rfind(']') {
+        if s.starts_with('[') && bracket_end + 1 < s.len() && s.as_bytes().get(bracket_end + 1) == Some(&b':') {
+            let host = &s[1..bracket_end];
+            let port_str = &s[bracket_end + 2..];
+            let ip = host.parse::<IpAddr>().ok()?;
+            let port = port_str.parse::<u16>().ok()?;
+            return Some((ip, port));
+        }
+    }
+
+    let idx = s.rfind(':')?;
+    let host = &s[..idx];
+    let port_str = &s[idx + 1..];
+    let ip = host.parse::<IpAddr>().ok()?;
+    let port = port_str.parse::<u16>().ok()?;
+    Some((ip, port))
+}
+
+fn parse_proxy_line(line: &str) -> Option<(i32, IpAddr, u16)> {
+    // Accepts lines like:
+    // proxy_for 4 91.108.4.195:8888;
+    // proxy_for 2 [2001:67c:04e8:f002::d]:80;
+    // proxy_for 2 2001:67c:04e8:f002::d:80;
+    let trimmed = line.trim();
+    if !trimmed.starts_with("proxy_for") {
+        return None;
+    }
+    // Capture everything between dc and trailing ';'
+    let without_prefix = trimmed.trim_start_matches("proxy_for").trim();
+    let mut parts = without_prefix.split_whitespace();
+    let dc_str = parts.next()?;
+    let rest = parts.next()?;
+    let host_port = rest.trim_end_matches(';');
+    let dc = dc_str.parse::<i32>().ok()?;
+    let (ip, port) = parse_host_port(host_port)?;
+    Some((dc, ip, port))
+}
+
+pub async fn fetch_proxy_config(url: &str) -> Result<ProxyConfigData> {
+    let resp = reqwest::get(url)
+        .await
+        .map_err(|e| crate::error::ProxyError::Proxy(format!("fetch_proxy_config GET failed: {e}")))?
+        ;
+
+    if let Some(date) = resp.headers().get(reqwest::header::DATE) {
+        if let Ok(date_str) = date.to_str() {
+            if let Ok(server_time) = httpdate::parse_http_date(date_str) {
+                if let Ok(skew) = SystemTime::now().duration_since(server_time).or_else(|e| {
+                    server_time.duration_since(SystemTime::now()).map_err(|_| e)
+                }) {
+                    let skew_secs = skew.as_secs();
+                    if skew_secs > 60 {
+                        warn!(skew_secs, "Time skew >60s detected from fetch_proxy_config Date header");
+                    } else if skew_secs > 30 {
+                        warn!(skew_secs, "Time skew >30s detected from fetch_proxy_config Date header");
+                    }
+                }
+            }
+        }
+    }
+
+    let text = resp
+        .text()
+        .await
+        .map_err(|e| crate::error::ProxyError::Proxy(format!("fetch_proxy_config read failed: {e}")))?;
+
+    let mut map: HashMap<i32, Vec<(IpAddr, u16)>> = HashMap::new();
+    for line in text.lines() {
+        if let Some((dc, ip, port)) = parse_proxy_line(line) {
+            map.entry(dc).or_default().push((ip, port));
+        }
+    }
+
+    let default_dc = text
+        .lines()
+        .find_map(|l| {
+            let t = l.trim();
+            if let Some(rest) = t.strip_prefix("default") {
+                return rest
+                    .trim()
+                    .trim_end_matches(';')
+                    .parse::<i32>()
+                    .ok();
+            }
+            None
+        });
+
+    Ok(ProxyConfigData { map, default_dc })
+}
+
+async fn run_update_cycle(pool: &Arc<MePool>, rng: &Arc<SecureRandom>, cfg: &ProxyConfig) {
+    let mut maps_changed = false;
+
+    // Update proxy config v4
+    let cfg_v4 = retry_fetch("https://core.telegram.org/getProxyConfig").await;
+    if let Some(cfg_v4) = cfg_v4 {
+        let changed = pool.update_proxy_maps(cfg_v4.map.clone(), None).await;
+        if let Some(dc) = cfg_v4.default_dc {
+            pool.default_dc
+                .store(dc, std::sync::atomic::Ordering::Relaxed);
+        }
+        if changed {
+            maps_changed = true;
+            info!("ME config updated (v4)");
+        } else {
+            debug!("ME config v4 unchanged");
+        }
+    }
+
+    // Update proxy config v6 (optional)
+    let cfg_v6 = retry_fetch("https://core.telegram.org/getProxyConfigV6").await;
+    if let Some(cfg_v6) = cfg_v6 {
+        let changed = pool.update_proxy_maps(HashMap::new(), Some(cfg_v6.map)).await;
+        if changed {
+            maps_changed = true;
+            info!("ME config updated (v6)");
+        } else {
+            debug!("ME config v6 unchanged");
+        }
+    }
+
+    if maps_changed {
+        let drain_timeout = if cfg.general.me_reinit_drain_timeout_secs == 0 {
+            None
+        } else {
+            Some(Duration::from_secs(cfg.general.me_reinit_drain_timeout_secs))
+        };
+        pool.zero_downtime_reinit_after_map_change(rng.as_ref(), drain_timeout)
+            .await;
+    }
+
+    pool.reset_stun_state();
+
+    // Update proxy-secret
+    match download_proxy_secret().await {
+        Ok(secret) => {
+            if pool.update_secret(secret).await {
+                info!("proxy-secret updated and pool reconnect scheduled");
+            }
+        }
+        Err(e) => warn!(error = %e, "proxy-secret update failed"),
+    }
+}
+
+pub async fn me_config_updater(
+    pool: Arc<MePool>,
+    rng: Arc<SecureRandom>,
+    mut config_rx: watch::Receiver<Arc<ProxyConfig>>,
+) {
+    let mut update_every_secs = config_rx
+        .borrow()
+        .general
+        .effective_update_every_secs()
+        .max(1);
+    let mut update_every = Duration::from_secs(update_every_secs);
+    let mut next_tick = tokio::time::Instant::now() + update_every;
+    info!(update_every_secs, "ME config updater started");
+
+    loop {
+        let sleep = tokio::time::sleep_until(next_tick);
+        tokio::pin!(sleep);
+
+        tokio::select! {
+            _ = &mut sleep => {
+                let cfg = config_rx.borrow().clone();
+                run_update_cycle(&pool, &rng, cfg.as_ref()).await;
+                let refreshed_secs = cfg.general.effective_update_every_secs().max(1);
+                if refreshed_secs != update_every_secs {
+                    info!(
+                        old_update_every_secs = update_every_secs,
+                        new_update_every_secs = refreshed_secs,
+                        "ME config updater interval changed"
+                    );
+                    update_every_secs = refreshed_secs;
+                    update_every = Duration::from_secs(update_every_secs);
+                }
+                next_tick = tokio::time::Instant::now() + update_every;
+            }
+            changed = config_rx.changed() => {
+                if changed.is_err() {
+                    warn!("ME config updater stopped: config channel closed");
+                    break;
+                }
+                let cfg = config_rx.borrow().clone();
+                let new_secs = cfg.general.effective_update_every_secs().max(1);
+                if new_secs == update_every_secs {
+                    continue;
+                }
+
+                if new_secs < update_every_secs {
+                    info!(
+                        old_update_every_secs = update_every_secs,
+                        new_update_every_secs = new_secs,
+                        "ME config updater interval decreased, running immediate refresh"
+                    );
+                    update_every_secs = new_secs;
+                    update_every = Duration::from_secs(update_every_secs);
+                    run_update_cycle(&pool, &rng, cfg.as_ref()).await;
+                    next_tick = tokio::time::Instant::now() + update_every;
+                } else {
+                    info!(
+                        old_update_every_secs = update_every_secs,
+                        new_update_every_secs = new_secs,
+                        "ME config updater interval increased"
+                    );
+                    update_every_secs = new_secs;
+                    update_every = Duration::from_secs(update_every_secs);
+                    next_tick = tokio::time::Instant::now() + update_every;
+                }
+            }
+        }
+    }
+}
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    #[test]
+    fn parse_ipv6_bracketed() {
+        let line = "proxy_for 2 [2001:67c:04e8:f002::d]:80;";
+        let res = parse_proxy_line(line).unwrap();
+        assert_eq!(res.0, 2);
+        assert_eq!(res.1, "2001:67c:04e8:f002::d".parse::<IpAddr>().unwrap());
+        assert_eq!(res.2, 80);
+    }
+
+    #[test]
+    fn parse_ipv6_plain() {
+        let line = "proxy_for 2 2001:67c:04e8:f002::d:80;";
+        let res = parse_proxy_line(line).unwrap();
+        assert_eq!(res.0, 2);
+        assert_eq!(res.1, "2001:67c:04e8:f002::d".parse::<IpAddr>().unwrap());
+        assert_eq!(res.2, 80);
+    }
+
+    #[test]
+    fn parse_ipv4() {
+        let line = "proxy_for 4 91.108.4.195:8888;";
+        let res = parse_proxy_line(line).unwrap();
+        assert_eq!(res.0, 4);
+        assert_eq!(res.1, "91.108.4.195".parse::<IpAddr>().unwrap());
+        assert_eq!(res.2, 8888);
+    }
+}
--- a/src/transport/middle_proxy/handshake.rs
+++ b/src/transport/middle_proxy/handshake.rs
@@ -0,0 +1,466 @@
+use std::net::{IpAddr, SocketAddr};
+use std::time::{Duration, Instant};
+use socket2::{SockRef, TcpKeepalive};
+#[cfg(target_os = "linux")]
+use libc;
+#[cfg(target_os = "linux")]
+use std::os::fd::{AsRawFd, RawFd};
+#[cfg(target_os = "linux")]
+use std::os::raw::c_int;
+
+use bytes::BytesMut;
+use tokio::io::{AsyncReadExt, AsyncWriteExt, ReadHalf, WriteHalf};
+use tokio::net::{TcpStream, TcpSocket};
+use tokio::time::timeout;
+use tracing::{debug, info, warn};
+
+use crate::crypto::{SecureRandom, build_middleproxy_prekey, derive_middleproxy_keys, sha256};
+use crate::error::{ProxyError, Result};
+use crate::network::IpFamily;
+use crate::protocol::constants::{
+    ME_CONNECT_TIMEOUT_SECS, ME_HANDSHAKE_TIMEOUT_SECS, RPC_CRYPTO_AES_U32,
+    RPC_HANDSHAKE_ERROR_U32, rpc_crypto_flags,
+};
+
+use super::codec::{
+    RpcChecksumMode, build_handshake_payload, build_nonce_payload, build_rpc_frame,
+    cbc_decrypt_inplace, cbc_encrypt_padded, parse_handshake_flags, parse_nonce_payload,
+    read_rpc_frame_plaintext, rpc_crc,
+};
+use super::wire::{extract_ip_material, IpMaterial};
+use super::MePool;
+
+/// Result of a successful ME handshake with timings.
+pub(crate) struct HandshakeOutput {
+    pub rd: ReadHalf<TcpStream>,
+    pub wr: WriteHalf<TcpStream>,
+    pub read_key: [u8; 32],
+    pub read_iv: [u8; 16],
+    pub write_key: [u8; 32],
+    pub write_iv: [u8; 16],
+    pub crc_mode: RpcChecksumMode,
+    pub handshake_ms: f64,
+}
+
+impl MePool {
+    /// TCP connect with timeout + return RTT in milliseconds.
+    pub(crate) async fn connect_tcp(&self, addr: SocketAddr) -> Result<(TcpStream, f64)> {
+        let start = Instant::now();
+        let connect_fut = async {
+            if addr.is_ipv6() {
+                if let Some(v6) = self.detected_ipv6 {
+                    match TcpSocket::new_v6() {
+                        Ok(sock) => {
+                            if let Err(e) = sock.bind(SocketAddr::new(IpAddr::V6(v6), 0)) {
+                                debug!(error = %e, bind_ip = %v6, "ME IPv6 bind failed, falling back to default bind");
+                            } else {
+                                match sock.connect(addr).await {
+                                    Ok(stream) => return Ok(stream),
+                                    Err(e) => debug!(error = %e, target = %addr, "ME IPv6 bound connect failed, retrying default connect"),
+                                }
+                            }
+                        }
+                        Err(e) => debug!(error = %e, "ME IPv6 socket creation failed, falling back to default connect"),
+                    }
+                }
+            }
+            TcpStream::connect(addr).await
+        };
+
+        let stream = timeout(Duration::from_secs(ME_CONNECT_TIMEOUT_SECS), connect_fut)
+            .await
+            .map_err(|_| ProxyError::ConnectionTimeout { addr: addr.to_string() })??;
+        let connect_ms = start.elapsed().as_secs_f64() * 1000.0;
+        stream.set_nodelay(true).ok();
+        if let Err(e) = Self::configure_keepalive(&stream) {
+            warn!(error = %e, "ME keepalive setup failed");
+        }
+        #[cfg(target_os = "linux")]
+        if let Err(e) = Self::configure_user_timeout(stream.as_raw_fd()) {
+            warn!(error = %e, "ME TCP_USER_TIMEOUT setup failed");
+        }
+        Ok((stream, connect_ms))
+    }
+
+    fn configure_keepalive(stream: &TcpStream) -> std::io::Result<()> {
+        let sock = SockRef::from(stream);
+        let ka = TcpKeepalive::new()
+            .with_time(Duration::from_secs(30))
+            .with_interval(Duration::from_secs(10))
+            .with_retries(3);
+        sock.set_tcp_keepalive(&ka)?;
+        sock.set_keepalive(true)?;
+        Ok(())
+    }
+
+    #[cfg(target_os = "linux")]
+    fn configure_user_timeout(fd: RawFd) -> std::io::Result<()> {
+        let timeout_ms: c_int = 30_000;
+        let rc = unsafe {
+            libc::setsockopt(
+                fd,
+                libc::IPPROTO_TCP,
+                libc::TCP_USER_TIMEOUT,
+                &timeout_ms as *const _ as *const libc::c_void,
+                std::mem::size_of_val(&timeout_ms) as libc::socklen_t,
+            )
+        };
+        if rc != 0 {
+            return Err(std::io::Error::last_os_error());
+        }
+        Ok(())
+    }
+
+    /// Perform full ME RPC handshake on an established TCP stream.
+    /// Returns cipher keys/ivs and split halves; does not register writer.
+    pub(crate) async fn handshake_only(
+        &self,
+        stream: TcpStream,
+        addr: SocketAddr,
+        rng: &SecureRandom,
+    ) -> Result<HandshakeOutput> {
+        let hs_start = Instant::now();
+
+        let local_addr = stream.local_addr().map_err(ProxyError::Io)?;
+        let peer_addr = stream.peer_addr().map_err(ProxyError::Io)?;
+
+        let _ = self.maybe_detect_nat_ip(local_addr.ip()).await;
+        let family = if local_addr.ip().is_ipv4() {
+            IpFamily::V4
+        } else {
+            IpFamily::V6
+        };
+        let reflected = if self.nat_probe {
+            self.maybe_reflect_public_addr(family).await
+        } else {
+            None
+        };
+
+        let local_addr_nat = self.translate_our_addr_with_reflection(local_addr, reflected);
+        let peer_addr_nat = SocketAddr::new(self.translate_ip_for_nat(peer_addr.ip()), peer_addr.port());
+        let (mut rd, mut wr) = tokio::io::split(stream);
+
+        let my_nonce: [u8; 16] = rng.bytes(16).try_into().unwrap();
+        let crypto_ts = std::time::SystemTime::now()
+            .duration_since(std::time::UNIX_EPOCH)
+            .unwrap_or_default()
+            .as_secs() as u32;
+
+        let ks = self.key_selector().await;
+        let nonce_payload = build_nonce_payload(ks, crypto_ts, &my_nonce);
+        let nonce_frame = build_rpc_frame(-2, &nonce_payload, RpcChecksumMode::Crc32);
+        let dump = hex_dump(&nonce_frame[..nonce_frame.len().min(44)]);
+        debug!(
+            key_selector = format_args!("0x{ks:08x}"),
+            crypto_ts,
+            frame_len = nonce_frame.len(),
+            nonce_frame_hex = %dump,
+            "Sending ME nonce frame"
+        );
+        wr.write_all(&nonce_frame).await.map_err(ProxyError::Io)?;
+        wr.flush().await.map_err(ProxyError::Io)?;
+
+        let (srv_seq, srv_nonce_payload) = timeout(
+            Duration::from_secs(ME_HANDSHAKE_TIMEOUT_SECS),
+            read_rpc_frame_plaintext(&mut rd),
+        )
+        .await
+        .map_err(|_| ProxyError::TgHandshakeTimeout)??;
+
+        if srv_seq != -2 {
+            return Err(ProxyError::InvalidHandshake(format!("Expected seq=-2, got {srv_seq}")));
+        }
+
+        let (srv_key_select, schema, srv_ts, srv_nonce) = parse_nonce_payload(&srv_nonce_payload)?;
+        if schema != RPC_CRYPTO_AES_U32 {
+            warn!(schema = format_args!("0x{schema:08x}"), "Unsupported ME crypto schema");
+            return Err(ProxyError::InvalidHandshake(format!(
+                "Unsupported crypto schema: 0x{schema:x}"
+            )));
+        }
+
+        if srv_key_select != ks {
+            return Err(ProxyError::InvalidHandshake(format!(
+                "Server key_select 0x{srv_key_select:08x} != client 0x{ks:08x}"
+            )));
+        }
+
+        let skew = crypto_ts.abs_diff(srv_ts);
+        if skew > 30 {
+            return Err(ProxyError::InvalidHandshake(format!(
+                "nonce crypto_ts skew too large: client={crypto_ts}, server={srv_ts}, skew={skew}s"
+            )));
+        }
+
+        info!(
+            %local_addr,
+            %local_addr_nat,
+            reflected_ip = reflected.map(|r| r.ip()).as_ref().map(ToString::to_string),
+            %peer_addr,
+            %peer_addr_nat,
+            key_selector = format_args!("0x{ks:08x}"),
+            crypto_schema = format_args!("0x{schema:08x}"),
+            skew_secs = skew,
+            "ME key derivation parameters"
+        );
+
+        let ts_bytes = crypto_ts.to_le_bytes();
+        let server_port_bytes = peer_addr_nat.port().to_le_bytes();
+        let client_port_bytes = local_addr_nat.port().to_le_bytes();
+
+        let server_ip = extract_ip_material(peer_addr_nat);
+        let client_ip = extract_ip_material(local_addr_nat);
+
+        let (srv_ip_opt, clt_ip_opt, clt_v6_opt, srv_v6_opt, hs_our_ip, hs_peer_ip) = match (server_ip, client_ip) {
+            (IpMaterial::V4(mut srv), IpMaterial::V4(mut clt)) => {
+                srv.reverse();
+                clt.reverse();
+                (Some(srv), Some(clt), None, None, clt, srv)
+            }
+            (IpMaterial::V6(srv), IpMaterial::V6(clt)) => {
+                let zero = [0u8; 4];
+                (None, None, Some(clt), Some(srv), zero, zero)
+            }
+            _ => {
+                return Err(ProxyError::InvalidHandshake(
+                    "mixed IPv4/IPv6 endpoints are not supported for ME key derivation".to_string(),
+                ));
+            }
+        };
+
+        let diag_level: u8 = std::env::var("ME_DIAG").ok().and_then(|v| v.parse().ok()).unwrap_or(0);
+
+        let secret: Vec<u8> = self.proxy_secret.read().await.clone();
+
+        let prekey_client = build_middleproxy_prekey(
+            &srv_nonce,
+            &my_nonce,
+            &ts_bytes,
+            srv_ip_opt.as_ref().map(|x| &x[..]),
+            &client_port_bytes,
+            b"CLIENT",
+            clt_ip_opt.as_ref().map(|x| &x[..]),
+            &server_port_bytes,
+            &secret,
+            clt_v6_opt.as_ref(),
+            srv_v6_opt.as_ref(),
+        );
+        let prekey_server = build_middleproxy_prekey(
+            &srv_nonce,
+            &my_nonce,
+            &ts_bytes,
+            srv_ip_opt.as_ref().map(|x| &x[..]),
+            &client_port_bytes,
+            b"SERVER",
+            clt_ip_opt.as_ref().map(|x| &x[..]),
+            &server_port_bytes,
+            &secret,
+            clt_v6_opt.as_ref(),
+            srv_v6_opt.as_ref(),
+        );
+
+        let (wk, wi) = derive_middleproxy_keys(
+            &srv_nonce,
+            &my_nonce,
+            &ts_bytes,
+            srv_ip_opt.as_ref().map(|x| &x[..]),
+            &client_port_bytes,
+            b"CLIENT",
+            clt_ip_opt.as_ref().map(|x| &x[..]),
+            &server_port_bytes,
+            &secret,
+            clt_v6_opt.as_ref(),
+            srv_v6_opt.as_ref(),
+        );
+        let (rk, ri) = derive_middleproxy_keys(
+            &srv_nonce,
+            &my_nonce,
+            &ts_bytes,
+            srv_ip_opt.as_ref().map(|x| &x[..]),
+            &client_port_bytes,
+            b"SERVER",
+            clt_ip_opt.as_ref().map(|x| &x[..]),
+            &server_port_bytes,
+            &secret,
+            clt_v6_opt.as_ref(),
+            srv_v6_opt.as_ref(),
+        );
+
+        let requested_crc_mode = RpcChecksumMode::Crc32c;
+        let hs_payload = build_handshake_payload(
+            hs_our_ip,
+            local_addr.port(),
+            hs_peer_ip,
+            peer_addr.port(),
+            requested_crc_mode.advertised_flags(),
+        );
+        let hs_frame = build_rpc_frame(-1, &hs_payload, RpcChecksumMode::Crc32);
+        if diag_level >= 1 {
+            info!(
+                write_key = %hex_dump(&wk),
+                write_iv = %hex_dump(&wi),
+                read_key = %hex_dump(&rk),
+                read_iv = %hex_dump(&ri),
+                srv_ip = %srv_ip_opt.map(|ip| hex_dump(&ip)).unwrap_or_default(),
+                clt_ip = %clt_ip_opt.map(|ip| hex_dump(&ip)).unwrap_or_default(),
+                srv_port = %hex_dump(&server_port_bytes),
+                clt_port = %hex_dump(&client_port_bytes),
+                crypto_ts = %hex_dump(&ts_bytes),
+                nonce_srv = %hex_dump(&srv_nonce),
+                nonce_clt = %hex_dump(&my_nonce),
+                prekey_sha256_client = %hex_dump(&sha256(&prekey_client)),
+                prekey_sha256_server = %hex_dump(&sha256(&prekey_server)),
+                hs_plain = %hex_dump(&hs_frame),
+                proxy_secret_sha256 = %hex_dump(&sha256(&secret)),
+                "ME diag: derived keys and handshake plaintext"
+            );
+        }
+        if diag_level >= 2 {
+            info!(
+                prekey_client = %hex_dump(&prekey_client),
+                prekey_server = %hex_dump(&prekey_server),
+                "ME diag: full prekey buffers"
+            );
+        }
+
+        let (encrypted_hs, write_iv) = cbc_encrypt_padded(&wk, &wi, &hs_frame)?;
+        if diag_level >= 1 {
+            info!(
+                hs_cipher = %hex_dump(&encrypted_hs),
+                "ME diag: handshake ciphertext"
+            );
+        }
+        wr.write_all(&encrypted_hs).await.map_err(ProxyError::Io)?;
+        wr.flush().await.map_err(ProxyError::Io)?;
+
+        let deadline = Instant::now() + Duration::from_secs(ME_HANDSHAKE_TIMEOUT_SECS);
+        let mut enc_buf = BytesMut::with_capacity(256);
+        let mut dec_buf = BytesMut::with_capacity(256);
+        let mut read_iv = ri;
+        let mut negotiated_crc_mode = RpcChecksumMode::Crc32;
+        let mut handshake_ok = false;
+
+        while Instant::now() < deadline && !handshake_ok {
+            let remaining = deadline - Instant::now();
+            let mut tmp = [0u8; 256];
+            let n = match timeout(remaining, rd.read(&mut tmp)).await {
+                Ok(Ok(0)) => {
+                    return Err(ProxyError::Io(std::io::Error::new(
+                        std::io::ErrorKind::UnexpectedEof,
+                        "ME closed during handshake",
+                    )));
+                }
+                Ok(Ok(n)) => n,
+                Ok(Err(e)) => return Err(ProxyError::Io(e)),
+                Err(_) => return Err(ProxyError::TgHandshakeTimeout),
+            };
+
+            enc_buf.extend_from_slice(&tmp[..n]);
+
+            let blocks = enc_buf.len() / 16 * 16;
+            if blocks > 0 {
+                let mut chunk = vec![0u8; blocks];
+                chunk.copy_from_slice(&enc_buf[..blocks]);
+                read_iv = cbc_decrypt_inplace(&rk, &read_iv, &mut chunk)?;
+                dec_buf.extend_from_slice(&chunk);
+                let _ = enc_buf.split_to(blocks);
+            }
+
+            while dec_buf.len() >= 4 {
+                let fl = u32::from_le_bytes(dec_buf[0..4].try_into().unwrap()) as usize;
+
+                if fl == 4 {
+                    let _ = dec_buf.split_to(4);
+                    continue;
+                }
+                if !(12..=(1 << 24)).contains(&fl) {
+                    return Err(ProxyError::InvalidHandshake(format!(
+                        "Bad HS response frame len: {fl}"
+                    )));
+                }
+                if dec_buf.len() < fl {
+                    break;
+                }
+
+                let frame = dec_buf.split_to(fl);
+                let pe = fl - 4;
+                let ec = u32::from_le_bytes(frame[pe..pe + 4].try_into().unwrap());
+                let ac = rpc_crc(RpcChecksumMode::Crc32, &frame[..pe]);
+                if ec != ac {
+                    return Err(ProxyError::InvalidHandshake(format!(
+                        "HS CRC mismatch: 0x{ec:08x} vs 0x{ac:08x}"
+                    )));
+                }
+
+                let hs_payload = &frame[8..pe];
+                if hs_payload.len() < 4 {
+                    return Err(ProxyError::InvalidHandshake(
+                        "Handshake payload too short".to_string(),
+                    ));
+                }
+                let hs_type = u32::from_le_bytes(hs_payload[0..4].try_into().unwrap());
+                if hs_type == RPC_HANDSHAKE_ERROR_U32 {
+                    let err_code = if hs_payload.len() >= 8 {
+                        i32::from_le_bytes(hs_payload[4..8].try_into().unwrap())
+                    } else {
+                        -1
+                    };
+                    return Err(ProxyError::InvalidHandshake(format!(
+                        "ME rejected handshake (error={err_code})"
+                    )));
+                }
+                let hs_flags = parse_handshake_flags(hs_payload)?;
+                if hs_flags & 0xff != 0 {
+                    return Err(ProxyError::InvalidHandshake(format!(
+                        "Unsupported handshake flags: 0x{hs_flags:08x}"
+                    )));
+                }
+                negotiated_crc_mode = if (hs_flags & requested_crc_mode.advertised_flags()) != 0 {
+                    RpcChecksumMode::from_handshake_flags(hs_flags)
+                } else if (hs_flags & rpc_crypto_flags::USE_CRC32C) != 0 {
+                    return Err(ProxyError::InvalidHandshake(format!(
+                        "Peer negotiated unsupported CRC flags: 0x{hs_flags:08x}"
+                    )));
+                } else {
+                    RpcChecksumMode::Crc32
+                };
+
+                handshake_ok = true;
+                break;
+            }
+        }
+
+        if !handshake_ok {
+            return Err(ProxyError::TgHandshakeTimeout);
+        }
+
+        let handshake_ms = hs_start.elapsed().as_secs_f64() * 1000.0;
+        info!(%addr, "RPC handshake OK");
+
+        Ok(HandshakeOutput {
+            rd,
+            wr,
+            read_key: rk,
+            read_iv,
+            write_key: wk,
+            write_iv,
+            crc_mode: negotiated_crc_mode,
+            handshake_ms,
+        })
+    }
+}
+
+fn hex_dump(data: &[u8]) -> String {
+    const MAX: usize = 64;
+    let mut out = String::with_capacity(data.len() * 2 + 3);
+    for (i, b) in data.iter().take(MAX).enumerate() {
+        if i > 0 {
+            out.push(' ');
+        }
+        out.push_str(&format!("{b:02x}"));
+    }
+    if data.len() > MAX {
+        out.push_str(" …");
+    }
+    out
+}
--- a/src/transport/middle_proxy/health.rs
+++ b/src/transport/middle_proxy/health.rs
@@ -1,38 +1,144 @@
+use std::collections::{HashMap, HashSet};
 use std::net::SocketAddr;
 use std::sync::Arc;
-use std::time::Duration;
+use std::time::{Duration, Instant};

 use tracing::{debug, info, warn};
+use rand::seq::SliceRandom;
+use rand::Rng;

 use crate::crypto::SecureRandom;
-use crate::protocol::constants::TG_MIDDLE_PROXIES_FLAT_V4;
+use crate::network::IpFamily;

 use super::MePool;

-pub async fn me_health_monitor(pool: Arc<MePool>, rng: Arc<SecureRandom>, min_connections: usize) {
+const HEALTH_INTERVAL_SECS: u64 = 1;
+const JITTER_FRAC_NUM: u64 = 2; // jitter up to 50% of backoff
+const MAX_CONCURRENT_PER_DC_DEFAULT: usize = 1;
+
+pub async fn me_health_monitor(pool: Arc<MePool>, rng: Arc<SecureRandom>, _min_connections: usize) {
+    let mut backoff: HashMap<(i32, IpFamily), u64> = HashMap::new();
+    let mut next_attempt: HashMap<(i32, IpFamily), Instant> = HashMap::new();
+    let mut inflight: HashMap<(i32, IpFamily), usize> = HashMap::new();
    loop {
-        tokio::time::sleep(Duration::from_secs(30)).await;
-        let current = pool.connection_count();
-        if current < min_connections {
-            warn!(
-                current,
-                min = min_connections,
-                "ME pool below minimum, reconnecting..."
-            );
-            let addrs = TG_MIDDLE_PROXIES_FLAT_V4.clone();
-            for &(ip, port) in addrs.iter() {
-                let needed = min_connections.saturating_sub(pool.connection_count());
-                if needed == 0 {
+        tokio::time::sleep(Duration::from_secs(HEALTH_INTERVAL_SECS)).await;
+        check_family(
+            IpFamily::V4,
+            &pool,
+            &rng,
+            &mut backoff,
+            &mut next_attempt,
+            &mut inflight,
+        )
+        .await;
+        check_family(
+            IpFamily::V6,
+            &pool,
+            &rng,
+            &mut backoff,
+            &mut next_attempt,
+            &mut inflight,
+        )
+        .await;
+    }
+}
+
+async fn check_family(
+    family: IpFamily,
+    pool: &Arc<MePool>,
+    rng: &Arc<SecureRandom>,
+    backoff: &mut HashMap<(i32, IpFamily), u64>,
+    next_attempt: &mut HashMap<(i32, IpFamily), Instant>,
+    inflight: &mut HashMap<(i32, IpFamily), usize>,
+) {
+    let enabled = match family {
+        IpFamily::V4 => pool.decision.ipv4_me,
+        IpFamily::V6 => pool.decision.ipv6_me,
+    };
+    if !enabled {
+        return;
+    }
+
+    let map = match family {
+        IpFamily::V4 => pool.proxy_map_v4.read().await.clone(),
+        IpFamily::V6 => pool.proxy_map_v6.read().await.clone(),
+    };
+    let writer_addrs: HashSet<SocketAddr> = pool
+        .writers
+        .read()
+        .await
+        .iter()
+        .map(|w| w.addr)
+        .collect();
+
+    let entries: Vec<(i32, Vec<SocketAddr>)> = map
+        .iter()
+        .map(|(dc, addrs)| {
+            let list = addrs
+                .iter()
+                .map(|(ip, port)| SocketAddr::new(*ip, *port))
+                .collect::<Vec<_>>();
+            (*dc, list)
+        })
+        .collect();
+
+    for (dc, dc_addrs) in entries {
+        let has_coverage = dc_addrs.iter().any(|a| writer_addrs.contains(a));
+        if has_coverage {
+            continue;
+        }
+
+        let key = (dc, family);
+        let now = Instant::now();
+        if let Some(ts) = next_attempt.get(&key) {
+            if now < *ts {
+                continue;
+            }
+        }
+
+        let max_concurrent = pool.me_reconnect_max_concurrent_per_dc.max(1) as usize;
+        if *inflight.get(&key).unwrap_or(&0) >= max_concurrent {
+            return;
+        }
+        *inflight.entry(key).or_insert(0) += 1;
+
+        let mut shuffled = dc_addrs.clone();
+        shuffled.shuffle(&mut rand::rng());
+        let mut success = false;
+        for addr in shuffled {
+            let res = tokio::time::timeout(pool.me_one_timeout, pool.connect_one(addr, rng.as_ref())).await;
+            match res {
+                Ok(Ok(())) => {
+                    info!(%addr, dc = %dc, ?family, "ME reconnected for DC coverage");
+                    pool.stats.increment_me_reconnect_success();
+                    backoff.insert(key, pool.me_reconnect_backoff_base.as_millis() as u64);
+                    let jitter = pool.me_reconnect_backoff_base.as_millis() as u64 / JITTER_FRAC_NUM;
+                    let wait = pool.me_reconnect_backoff_base
+                        + Duration::from_millis(rand::rng().random_range(0..=jitter.max(1)));
+                    next_attempt.insert(key, now + wait);
+                    success = true;
                    break;
                }
-                for _ in 0..needed {
-                    let addr = SocketAddr::new(ip, port);
-                    match pool.connect_one(addr, &rng).await {
-                        Ok(()) => info!(%addr, "ME reconnected"),
-                        Err(e) => debug!(%addr, error = %e, "ME reconnect failed"),
-                    }
+                Ok(Err(e)) => {
+                    pool.stats.increment_me_reconnect_attempt();
+                    debug!(%addr, dc = %dc, error = %e, ?family, "ME reconnect failed")
                }
+                Err(_) => debug!(%addr, dc = %dc, ?family, "ME reconnect timed out"),
            }
        }
+        if !success {
+            pool.stats.increment_me_reconnect_attempt();
+            let curr = *backoff.get(&key).unwrap_or(&(pool.me_reconnect_backoff_base.as_millis() as u64));
+            let next_ms = (curr.saturating_mul(2)).min(pool.me_reconnect_backoff_cap.as_millis() as u64);
+            backoff.insert(key, next_ms);
+            let jitter = next_ms / JITTER_FRAC_NUM;
+            let wait = Duration::from_millis(next_ms)
+                + Duration::from_millis(rand::rng().random_range(0..=jitter.max(1)));
+            next_attempt.insert(key, now + wait);
+            warn!(dc = %dc, backoff_ms = next_ms, ?family, "DC has no ME coverage, scheduled reconnect");
+        }
+        if let Some(v) = inflight.get_mut(&key) {
+            *v = v.saturating_sub(1);
+        }
    }
 }
--- a/src/transport/middle_proxy/mod.rs
+++ b/src/transport/middle_proxy/mod.rs
@@ -1,21 +1,29 @@
 //! Middle Proxy RPC transport.

 mod codec;
+mod handshake;
 mod health;
 mod pool;
 mod pool_nat;
+mod ping;
 mod reader;
 mod registry;
 mod send;
 mod secret;
+mod rotation;
+mod config_updater;
 mod wire;

 use bytes::Bytes;

 pub use health::me_health_monitor;
+pub use ping::{run_me_ping, format_sample_line, MePingReport, MePingSample, MePingFamily};
 pub use pool::MePool;
+pub use pool_nat::{stun_probe, detect_public_ip};
 pub use registry::ConnRegistry;
 pub use secret::fetch_proxy_secret;
+pub use config_updater::{fetch_proxy_config, me_config_updater};
+pub use rotation::me_rotation_task;
 pub use wire::proto_flags_for_tag;

 #[derive(Debug)]
--- a/src/transport/middle_proxy/ping.rs
+++ b/src/transport/middle_proxy/ping.rs
@@ -0,0 +1,173 @@
+use std::collections::HashMap;
+use std::net::{IpAddr, SocketAddr};
+use std::sync::Arc;
+
+use crate::crypto::SecureRandom;
+use crate::error::ProxyError;
+
+use super::MePool;
+
+#[derive(Debug, Clone, Copy, PartialEq, Eq)]
+pub enum MePingFamily {
+    V4,
+    V6,
+}
+
+#[derive(Debug, Clone)]
+pub struct MePingSample {
+    pub dc: i32,
+    pub addr: SocketAddr,
+    pub connect_ms: Option<f64>,
+    pub handshake_ms: Option<f64>,
+    pub error: Option<String>,
+    pub family: MePingFamily,
+}
+
+#[derive(Debug, Clone)]
+pub struct MePingReport {
+    pub dc: i32,
+    pub family: MePingFamily,
+    pub samples: Vec<MePingSample>,
+}
+
+pub fn format_sample_line(sample: &MePingSample) -> String {
+    let sign = if sample.dc >= 0 { "+" } else { "-" };
+    let addr = format!("{}:{}", sample.addr.ip(), sample.addr.port());
+
+    match (sample.connect_ms, sample.handshake_ms.as_ref(), sample.error.as_ref()) {
+        (Some(conn), Some(hs), None) => format!(
+            "     {sign} {addr}\tPing: {:.0} ms / RPC: {:.0} ms / OK",
+            conn, hs
+        ),
+        (Some(conn), None, Some(err)) => format!(
+            "     {sign} {addr}\tPing: {:.0} ms / RPC: FAIL ({err})",
+            conn
+        ),
+        (None, _, Some(err)) => format!("     {sign} {addr}\tPing: FAIL ({err})"),
+        (Some(conn), None, None) => format!("     {sign} {addr}\tPing: {:.0} ms / RPC: FAIL", conn),
+        _ => format!("     {sign} {addr}\tPing: FAIL"),
+    }
+}
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+    use std::net::{IpAddr, Ipv4Addr, SocketAddr};
+
+    fn sample(base: MePingSample) -> MePingSample {
+        base
+    }
+
+    #[test]
+    fn ok_line_contains_both_timings() {
+        let s = sample(MePingSample {
+            dc: 4,
+            addr: SocketAddr::new(IpAddr::V4(Ipv4Addr::new(1, 2, 3, 4)), 8888),
+            connect_ms: Some(12.3),
+            handshake_ms: Some(34.7),
+            error: None,
+            family: MePingFamily::V4,
+        });
+        let line = format_sample_line(&s);
+        assert!(line.contains("Ping: 12 ms"));
+        assert!(line.contains("RPC: 35 ms"));
+        assert!(line.contains("OK"));
+    }
+
+    #[test]
+    fn error_line_mentions_reason() {
+        let s = sample(MePingSample {
+            dc: -5,
+            addr: SocketAddr::new(IpAddr::V4(Ipv4Addr::new(5, 6, 7, 8)), 80),
+            connect_ms: Some(10.0),
+            handshake_ms: None,
+            error: Some("handshake timeout".to_string()),
+            family: MePingFamily::V4,
+        });
+        let line = format_sample_line(&s);
+        assert!(line.contains("- 5.6.7.8:80"));
+        assert!(line.contains("handshake timeout"));
+    }
+}
+
+pub async fn run_me_ping(pool: &Arc<MePool>, rng: &SecureRandom) -> Vec<MePingReport> {
+    let mut reports = Vec::new();
+
+    let v4_map = if pool.decision.ipv4_me {
+        pool.proxy_map_v4.read().await.clone()
+    } else {
+        HashMap::new()
+    };
+    let v6_map = if pool.decision.ipv6_me {
+        pool.proxy_map_v6.read().await.clone()
+    } else {
+        HashMap::new()
+    };
+
+    let mut grouped: Vec<(MePingFamily, i32, Vec<(IpAddr, u16)>)> = Vec::new();
+    for (dc, addrs) in v4_map {
+        grouped.push((MePingFamily::V4, dc, addrs));
+    }
+    for (dc, addrs) in v6_map {
+        grouped.push((MePingFamily::V6, dc, addrs));
+    }
+
+    for (family, dc, addrs) in grouped {
+        let mut samples = Vec::new();
+        for (ip, port) in addrs {
+            let addr = SocketAddr::new(ip, port);
+            let mut connect_ms = None;
+            let mut handshake_ms = None;
+            let mut error = None;
+
+            match pool.connect_tcp(addr).await {
+                Ok((stream, conn_rtt)) => {
+                    connect_ms = Some(conn_rtt);
+                    match pool.handshake_only(stream, addr, rng).await {
+                        Ok(hs) => {
+                            handshake_ms = Some(hs.handshake_ms);
+                            // drop halves to close
+                            drop(hs.rd);
+                            drop(hs.wr);
+                        }
+                        Err(e) => {
+                            error = Some(short_err(&e));
+                        }
+                    }
+                }
+                Err(e) => {
+                    error = Some(short_err(&e));
+                }
+            }
+
+            samples.push(MePingSample {
+                dc,
+                addr,
+                connect_ms,
+                handshake_ms,
+                error,
+                family,
+            });
+        }
+
+        reports.push(MePingReport {
+            dc,
+            family,
+            samples,
+        });
+    }
+
+    reports
+}
+
+fn short_err(err: &ProxyError) -> String {
+    match err {
+        ProxyError::ConnectionTimeout { .. } => "connect timeout".to_string(),
+        ProxyError::TgHandshakeTimeout => "handshake timeout".to_string(),
+        ProxyError::InvalidHandshake(e) => format!("bad handshake: {e}"),
+        ProxyError::Crypto(e) => format!("crypto: {e}"),
+        ProxyError::Proxy(e) => format!("proxy: {e}"),
+        ProxyError::Io(e) => format!("io: {e}"),
+        _ => format!("{err}"),
+    }
+}
--- a/src/transport/middle_proxy/pool.rs
+++ b/src/transport/middle_proxy/pool.rs
--- a/src/transport/middle_proxy/pool_nat.rs
+++ b/src/transport/middle_proxy/pool_nat.rs
@@ -1,16 +1,28 @@
 use std::net::{IpAddr, Ipv4Addr};
+use std::time::Duration;

-use tracing::{info, warn};
+use tracing::{info, warn, debug};

 use crate::error::{ProxyError, Result};
+use crate::network::probe::is_bogon;
+use crate::network::stun::{stun_probe_dual, IpFamily, StunProbeResult};

 use super::MePool;
+use std::time::Instant;
+pub async fn stun_probe(stun_addr: Option<String>) -> Result<crate::network::stun::DualStunResult> {
+    let stun_addr = stun_addr.unwrap_or_else(|| "stun.l.google.com:19302".to_string());
+    stun_probe_dual(&stun_addr).await
+}
+
+pub async fn detect_public_ip() -> Option<IpAddr> {
+    fetch_public_ipv4_with_retry().await.ok().flatten().map(IpAddr::V4)
+}

 impl MePool {
    pub(super) fn translate_ip_for_nat(&self, ip: IpAddr) -> IpAddr {
        let nat_ip = self
            .nat_ip_cfg
-            .or_else(|| self.nat_ip_detected.get().copied());
+            .or_else(|| self.nat_ip_detected.try_read().ok().and_then(|g| (*g).clone()));

        let Some(nat_ip) = nat_ip else {
            return ip;
@@ -18,7 +30,7 @@ impl MePool {

        match (ip, nat_ip) {
            (IpAddr::V4(src), IpAddr::V4(dst))
-                if is_privateish(IpAddr::V4(src))
+                if is_bogon(IpAddr::V4(src))
                    || src.is_loopback()
                    || src.is_unspecified() =>
            {
@@ -38,7 +50,7 @@ impl MePool {
    ) -> std::net::SocketAddr {
        let ip = if let Some(r) = reflected {
            // Use reflected IP (not port) only when local address is non-public.
-            if is_privateish(addr.ip()) || addr.ip().is_loopback() || addr.ip().is_unspecified() {
+            if is_bogon(addr.ip()) || addr.ip().is_loopback() || addr.ip().is_unspecified() {
                r.ip()
            } else {
                self.translate_ip_for_nat(addr.ip())
@@ -56,17 +68,20 @@ impl MePool {
            return self.nat_ip_cfg;
        }

-        if !(is_privateish(local_ip) || local_ip.is_loopback() || local_ip.is_unspecified()) {
+        if !(is_bogon(local_ip) || local_ip.is_loopback() || local_ip.is_unspecified()) {
            return None;
        }

-        if let Some(ip) = self.nat_ip_detected.get().copied() {
+        if let Some(ip) = self.nat_ip_detected.read().await.clone() {
            return Some(ip);
        }

-        match fetch_public_ipv4().await {
+        match fetch_public_ipv4_with_retry().await {
            Ok(Some(ip)) => {
-                let _ = self.nat_ip_detected.set(IpAddr::V4(ip));
+                {
+                    let mut guard = self.nat_ip_detected.write().await;
+                    *guard = Some(IpAddr::V4(ip));
+                }
                info!(public_ip = %ip, "Auto-detected public IP for NAT translation");
                Some(IpAddr::V4(ip))
            }
@@ -78,28 +93,93 @@ impl MePool {
        }
    }

-    pub(super) async fn maybe_reflect_public_addr(&self) -> Option<std::net::SocketAddr> {
-        let stun_addr = self
-            .nat_stun
-            .clone()
-            .unwrap_or_else(|| "stun.l.google.com:19302".to_string());
-        match fetch_stun_binding(&stun_addr).await {
-            Ok(sa) => {
-                if let Some(sa) = sa {
-                    info!(%sa, "NAT probe: reflected address");
+    pub(super) async fn maybe_reflect_public_addr(
+        &self,
+        family: IpFamily,
+    ) -> Option<std::net::SocketAddr> {
+        const STUN_CACHE_TTL: Duration = Duration::from_secs(600);
+        // Backoff window
+        if let Some(until) = *self.stun_backoff_until.read().await {
+            if Instant::now() < until {
+                if let Ok(cache) = self.nat_reflection_cache.try_lock() {
+                    let slot = match family {
+                        IpFamily::V4 => cache.v4,
+                        IpFamily::V6 => cache.v6,
+                    };
+                    return slot.map(|(_, addr)| addr);
                }
-                sa
-            }
-            Err(e) => {
-                warn!(error = %e, "NAT probe failed");
-                None
+                return None;
            }
        }
+
+        if let Ok(mut cache) = self.nat_reflection_cache.try_lock() {
+            let slot = match family {
+                IpFamily::V4 => &mut cache.v4,
+                IpFamily::V6 => &mut cache.v6,
+            };
+            if let Some((ts, addr)) = slot {
+                if ts.elapsed() < STUN_CACHE_TTL {
+                    return Some(*addr);
+                }
+            }
+        }
+
+        let attempt = self.nat_probe_attempts.fetch_add(1, std::sync::atomic::Ordering::Relaxed);
+        let servers = if !self.nat_stun_servers.is_empty() {
+            self.nat_stun_servers.clone()
+        } else if let Some(s) = &self.nat_stun {
+            vec![s.clone()]
+        } else {
+            vec!["stun.l.google.com:19302".to_string()]
+        };
+
+        for stun_addr in servers {
+            match stun_probe_dual(&stun_addr).await {
+                Ok(res) => {
+                    let picked: Option<StunProbeResult> = match family {
+                        IpFamily::V4 => res.v4,
+                        IpFamily::V6 => res.v6,
+                    };
+                    if let Some(result) = picked {
+                        info!(local = %result.local_addr, reflected = %result.reflected_addr, family = ?family, stun = %stun_addr, "NAT probe: reflected address");
+                        self.nat_probe_attempts.store(0, std::sync::atomic::Ordering::Relaxed);
+                        if let Ok(mut cache) = self.nat_reflection_cache.try_lock() {
+                            let slot = match family {
+                                IpFamily::V4 => &mut cache.v4,
+                                IpFamily::V6 => &mut cache.v6,
+                            };
+                            *slot = Some((Instant::now(), result.reflected_addr));
+                        }
+                        return Some(result.reflected_addr);
+                    }
+                }
+                Err(e) => {
+                    warn!(error = %e, stun = %stun_addr, attempt = attempt + 1, "NAT probe failed, trying next server");
+                }
+            }
+        }
+        let backoff = Duration::from_secs(60 * 2u64.pow((attempt as u32).min(6)));
+        *self.stun_backoff_until.write().await = Some(Instant::now() + backoff);
+        None
    }
 }

-async fn fetch_public_ipv4() -> Result<Option<Ipv4Addr>> {
-    let res = reqwest::get("https://checkip.amazonaws.com").await.map_err(|e| {
+async fn fetch_public_ipv4_with_retry() -> Result<Option<Ipv4Addr>> {
+    let providers = [
+        "https://checkip.amazonaws.com",
+        "http://v4.ident.me",
+        "http://ipv4.icanhazip.com",
+    ];
+    for url in providers {
+        if let Ok(Some(ip)) = fetch_public_ipv4_once(url).await {
+            return Ok(Some(ip));
+        }
+    }
+    Ok(None)
+}
+
+async fn fetch_public_ipv4_once(url: &str) -> Result<Option<Ipv4Addr>> {
+    let res = reqwest::get(url).await.map_err(|e| {
        ProxyError::Proxy(format!("public IP detection request failed: {e}"))
    })?;

@@ -110,91 +190,3 @@ async fn fetch_public_ipv4() -> Result<Option<Ipv4Addr>> {
    let ip = text.trim().parse().ok();
    Ok(ip)
 }
-
-async fn fetch_stun_binding(stun_addr: &str) -> Result<Option<std::net::SocketAddr>> {
-    use rand::RngCore;
-    use tokio::net::UdpSocket;
-
-    let socket = UdpSocket::bind("0.0.0.0:0")
-        .await
-        .map_err(|e| ProxyError::Proxy(format!("STUN bind failed: {e}")))?;
-    socket
-        .connect(stun_addr)
-        .await
-        .map_err(|e| ProxyError::Proxy(format!("STUN connect failed: {e}")))?;
-
-    // Build minimal Binding Request.
-    let mut req = vec![0u8; 20];
-    req[0..2].copy_from_slice(&0x0001u16.to_be_bytes()); // Binding Request
-    req[2..4].copy_from_slice(&0u16.to_be_bytes()); // length
-    req[4..8].copy_from_slice(&0x2112A442u32.to_be_bytes()); // magic cookie
-    rand::thread_rng().fill_bytes(&mut req[8..20]);
-
-    socket
-        .send(&req)
-        .await
-        .map_err(|e| ProxyError::Proxy(format!("STUN send failed: {e}")))?;
-
-    let mut buf = [0u8; 128];
-    let n = socket
-        .recv(&mut buf)
-        .await
-        .map_err(|e| ProxyError::Proxy(format!("STUN recv failed: {e}")))?;
-    if n < 20 {
-        return Ok(None);
-    }
-
-    // Parse attributes.
-    let mut idx = 20;
-    while idx + 4 <= n {
-        let atype = u16::from_be_bytes(buf[idx..idx + 2].try_into().unwrap());
-        let alen = u16::from_be_bytes(buf[idx + 2..idx + 4].try_into().unwrap()) as usize;
-        idx += 4;
-        if idx + alen > n {
-            break;
-        }
-        match atype {
-            0x0020 /* XOR-MAPPED-ADDRESS */ | 0x0001 /* MAPPED-ADDRESS */ => {
-                if alen < 8 {
-                    break;
-                }
-                let family = buf[idx + 1];
-                if family != 0x01 {
-                    // only IPv4 supported here
-                    break;
-                }
-                let port_bytes = [buf[idx + 2], buf[idx + 3]];
-                let ip_bytes = [buf[idx + 4], buf[idx + 5], buf[idx + 6], buf[idx + 7]];
-
-                let (port, ip) = if atype == 0x0020 {
-                    let magic = 0x2112A442u32.to_be_bytes();
-                    let port = u16::from_be_bytes(port_bytes) ^ ((magic[0] as u16) << 8 | magic[1] as u16);
-                    let ip = [
-                        ip_bytes[0] ^ magic[0],
-                        ip_bytes[1] ^ magic[1],
-                        ip_bytes[2] ^ magic[2],
-                        ip_bytes[3] ^ magic[3],
-                    ];
-                    (port, ip)
-                } else {
-                    (u16::from_be_bytes(port_bytes), ip_bytes)
-                };
-                return Ok(Some(std::net::SocketAddr::new(
-                    IpAddr::V4(Ipv4Addr::new(ip[0], ip[1], ip[2], ip[3])),
-                    port,
-                )));
-            }
-            _ => {}
-        }
-        idx += (alen + 3) & !3; // 4-byte alignment
-    }
-
-    Ok(None)
-}
-
-fn is_privateish(ip: IpAddr) -> bool {
-    match ip {
-        IpAddr::V4(v4) => v4.is_private() || v4.is_link_local(),
-        IpAddr::V6(v6) => v6.is_unique_local(),
-    }
-}
--- a/src/transport/middle_proxy/reader.rs
+++ b/src/transport/middle_proxy/reader.rs
@@ -1,32 +1,49 @@
+use std::collections::HashMap;
 use std::sync::Arc;
+use std::sync::atomic::{AtomicBool, Ordering};
+use std::time::Instant;

 use bytes::{Bytes, BytesMut};
 use tokio::io::AsyncReadExt;
 use tokio::net::TcpStream;
-use tokio::sync::Mutex;
+use tokio::sync::{Mutex, mpsc};
+use tokio_util::sync::CancellationToken;
 use tracing::{debug, trace, warn};

-use crate::crypto::{AesCbc, crc32};
+use crate::crypto::AesCbc;
 use crate::error::{ProxyError, Result};
 use crate::protocol::constants::*;
+use crate::stats::Stats;

-use super::codec::RpcWriter;
+use super::codec::{RpcChecksumMode, WriterCommand, rpc_crc};
+use super::registry::RouteResult;
 use super::{ConnRegistry, MeResponse};

 pub(crate) async fn reader_loop(
    mut rd: tokio::io::ReadHalf<TcpStream>,
    dk: [u8; 32],
    mut div: [u8; 16],
+    crc_mode: RpcChecksumMode,
    reg: Arc<ConnRegistry>,
    enc_leftover: BytesMut,
    mut dec: BytesMut,
-    writer: Arc<Mutex<RpcWriter>>,
+    tx: mpsc::Sender<WriterCommand>,
+    ping_tracker: Arc<Mutex<HashMap<i64, (Instant, u64)>>>,
+    rtt_stats: Arc<Mutex<HashMap<u64, (f64, f64)>>>,
+    stats: Arc<Stats>,
+    _writer_id: u64,
+    degraded: Arc<AtomicBool>,
+    cancel: CancellationToken,
 ) -> Result<()> {
    let mut raw = enc_leftover;
+    let mut expected_seq: i32 = 0;

    loop {
        let mut tmp = [0u8; 16_384];
-        let n = rd.read(&mut tmp).await.map_err(ProxyError::Io)?;
+        let n = tokio::select! {
+            res = rd.read(&mut tmp) => res.map_err(ProxyError::Io)?,
+            _ = cancel.cancelled() => return Ok(()),
+        };
        if n == 0 {
            return Ok(());
        }
@@ -65,11 +82,29 @@ pub(crate) async fn reader_loop(
            let frame = dec.split_to(fl);
            let pe = fl - 4;
            let ec = u32::from_le_bytes(frame[pe..pe + 4].try_into().unwrap());
-            if crc32(&frame[..pe]) != ec {
-                warn!("CRC mismatch in data frame");
-                continue;
+            let actual_crc = rpc_crc(crc_mode, &frame[..pe]);
+            if actual_crc != ec {
+                stats.increment_me_crc_mismatch();
+                warn!(
+                    frame_len = fl,
+                    expected_crc = format_args!("0x{ec:08x}"),
+                    actual_crc = format_args!("0x{actual_crc:08x}"),
+                    "CRC mismatch — CBC crypto desync, aborting ME connection"
+                );
+                return Err(ProxyError::Proxy("CRC mismatch (crypto desync)".into()));
            }

+            let seq_no = i32::from_le_bytes(frame[4..8].try_into().unwrap());
+            if seq_no != expected_seq {
+                stats.increment_me_seq_mismatch();
+                warn!(seq_no, expected = expected_seq, "ME RPC seq mismatch");
+                return Err(ProxyError::SeqNoMismatch {
+                    expected: expected_seq,
+                    got: seq_no,
+                });
+            }
+            expected_seq = expected_seq.wrapping_add(1);
+
            let payload = &frame[8..pe];
            if payload.len() < 4 {
                continue;
@@ -85,9 +120,15 @@ pub(crate) async fn reader_loop(
                trace!(cid, flags, len = data.len(), "RPC_PROXY_ANS");

                let routed = reg.route(cid, MeResponse::Data { flags, data }).await;
-                if !routed {
+                if !matches!(routed, RouteResult::Routed) {
+                    match routed {
+                        RouteResult::NoConn => stats.increment_me_route_drop_no_conn(),
+                        RouteResult::ChannelClosed => stats.increment_me_route_drop_channel_closed(),
+                        RouteResult::QueueFull => stats.increment_me_route_drop_queue_full(),
+                        RouteResult::Routed => {}
+                    }
                    reg.unregister(cid).await;
-                    send_close_conn(&writer, cid).await;
+                    send_close_conn(&tx, cid).await;
                }
            } else if pt == RPC_SIMPLE_ACK_U32 && body.len() >= 12 {
                let cid = u64::from_le_bytes(body[0..8].try_into().unwrap());
@@ -95,9 +136,15 @@ pub(crate) async fn reader_loop(
                trace!(cid, cfm, "RPC_SIMPLE_ACK");

                let routed = reg.route(cid, MeResponse::Ack(cfm)).await;
-                if !routed {
+                if !matches!(routed, RouteResult::Routed) {
+                    match routed {
+                        RouteResult::NoConn => stats.increment_me_route_drop_no_conn(),
+                        RouteResult::ChannelClosed => stats.increment_me_route_drop_channel_closed(),
+                        RouteResult::QueueFull => stats.increment_me_route_drop_queue_full(),
+                        RouteResult::Routed => {}
+                    }
                    reg.unregister(cid).await;
-                    send_close_conn(&writer, cid).await;
+                    send_close_conn(&tx, cid).await;
                }
            } else if pt == RPC_CLOSE_EXT_U32 && body.len() >= 8 {
                let cid = u64::from_le_bytes(body[0..8].try_into().unwrap());
@@ -115,10 +162,31 @@ pub(crate) async fn reader_loop(
                let mut pong = Vec::with_capacity(12);
                pong.extend_from_slice(&RPC_PONG_U32.to_le_bytes());
                pong.extend_from_slice(&ping_id.to_le_bytes());
-                if let Err(e) = writer.lock().await.send(&pong).await {
-                    warn!(error = %e, "PONG send failed");
+                if tx.send(WriterCommand::DataAndFlush(pong)).await.is_err() {
+                    warn!("PONG send failed");
                    break;
                }
+            } else if pt == RPC_PONG_U32 && body.len() >= 8 {
+                let ping_id = i64::from_le_bytes(body[0..8].try_into().unwrap());
+                stats.increment_me_keepalive_pong();
+                if let Some((sent, wid)) = {
+                    let mut guard = ping_tracker.lock().await;
+                    guard.remove(&ping_id)
+                } {
+                    let rtt = sent.elapsed().as_secs_f64() * 1000.0;
+                    let mut stats = rtt_stats.lock().await;
+                    let entry = stats.entry(wid).or_insert((rtt, rtt));
+                    entry.1 = entry.1 * 0.8 + rtt * 0.2;
+                    if rtt < entry.0 {
+                        entry.0 = rtt;
+                    } else {
+                        // allow slow baseline drift upward to avoid stale minimum
+                        entry.0 = entry.0 * 0.99 + rtt * 0.01;
+                    }
+                    let degraded_now = entry.1 > entry.0 * 2.0;
+                    degraded.store(degraded_now, Ordering::Relaxed);
+                    trace!(writer_id = wid, rtt_ms = rtt, ema_ms = entry.1, base_ms = entry.0, degraded = degraded_now, "ME RTT sample");
+                }
            } else {
                debug!(
                    rpc_type = format_args!("0x{pt:08x}"),
@@ -130,12 +198,10 @@ pub(crate) async fn reader_loop(
    }
 }

-async fn send_close_conn(writer: &Arc<Mutex<RpcWriter>>, conn_id: u64) {
+async fn send_close_conn(tx: &mpsc::Sender<WriterCommand>, conn_id: u64) {
    let mut p = Vec::with_capacity(12);
    p.extend_from_slice(&RPC_CLOSE_CONN_U32.to_le_bytes());
    p.extend_from_slice(&conn_id.to_le_bytes());

-    if let Err(e) = writer.lock().await.send(&p).await {
-        debug!(conn_id, error = %e, "Failed to send RPC_CLOSE_CONN");
-    }
+    let _ = tx.send(WriterCommand::DataAndFlush(p)).await;
 }
--- a/src/transport/middle_proxy/registry.rs
+++ b/src/transport/middle_proxy/registry.rs
@@ -1,42 +1,183 @@
-use std::collections::HashMap;
+use std::collections::{HashMap, HashSet};
+use std::net::SocketAddr;
 use std::sync::atomic::{AtomicU64, Ordering};
+use std::time::Duration;

-use tokio::sync::{RwLock, mpsc};
+use tokio::sync::{mpsc, RwLock};
+use tokio::sync::mpsc::error::TrySendError;

+use super::codec::WriterCommand;
 use super::MeResponse;

+const ROUTE_CHANNEL_CAPACITY: usize = 4096;
+const ROUTE_BACKPRESSURE_TIMEOUT: Duration = Duration::from_millis(25);
+
+#[derive(Debug, Clone, Copy, PartialEq, Eq)]
+pub enum RouteResult {
+    Routed,
+    NoConn,
+    ChannelClosed,
+    QueueFull,
+}
+
+#[derive(Clone)]
+pub struct ConnMeta {
+    pub target_dc: i16,
+    pub client_addr: SocketAddr,
+    pub our_addr: SocketAddr,
+    pub proto_flags: u32,
+}
+
+#[derive(Clone)]
+pub struct BoundConn {
+    pub conn_id: u64,
+    pub meta: ConnMeta,
+}
+
+#[derive(Clone)]
+pub struct ConnWriter {
+    pub writer_id: u64,
+    pub tx: mpsc::Sender<WriterCommand>,
+}
+
+struct RegistryInner {
+    map: HashMap<u64, mpsc::Sender<MeResponse>>,
+    writers: HashMap<u64, mpsc::Sender<WriterCommand>>,
+    writer_for_conn: HashMap<u64, u64>,
+    conns_for_writer: HashMap<u64, HashSet<u64>>,
+    meta: HashMap<u64, ConnMeta>,
+}
+
+impl RegistryInner {
+    fn new() -> Self {
+        Self {
+            map: HashMap::new(),
+            writers: HashMap::new(),
+            writer_for_conn: HashMap::new(),
+            conns_for_writer: HashMap::new(),
+            meta: HashMap::new(),
+        }
+    }
+}
+
 pub struct ConnRegistry {
-    map: RwLock<HashMap<u64, mpsc::Sender<MeResponse>>>,
+    inner: RwLock<RegistryInner>,
    next_id: AtomicU64,
 }

 impl ConnRegistry {
    pub fn new() -> Self {
-        // Avoid fully predictable conn_id sequence from 1.
        let start = rand::random::<u64>() | 1;
        Self {
-            map: RwLock::new(HashMap::new()),
+            inner: RwLock::new(RegistryInner::new()),
            next_id: AtomicU64::new(start),
        }
    }

    pub async fn register(&self) -> (u64, mpsc::Receiver<MeResponse>) {
        let id = self.next_id.fetch_add(1, Ordering::Relaxed);
-        let (tx, rx) = mpsc::channel(256);
-        self.map.write().await.insert(id, tx);
+        let (tx, rx) = mpsc::channel(ROUTE_CHANNEL_CAPACITY);
+        self.inner.write().await.map.insert(id, tx);
        (id, rx)
    }

-    pub async fn unregister(&self, id: u64) {
-        self.map.write().await.remove(&id);
+    /// Unregister connection, returning associated writer_id if any.
+    pub async fn unregister(&self, id: u64) -> Option<u64> {
+        let mut inner = self.inner.write().await;
+        inner.map.remove(&id);
+        inner.meta.remove(&id);
+        if let Some(writer_id) = inner.writer_for_conn.remove(&id) {
+            if let Some(set) = inner.conns_for_writer.get_mut(&writer_id) {
+                set.remove(&id);
+            }
+            return Some(writer_id);
+        }
+        None
    }

-    pub async fn route(&self, id: u64, resp: MeResponse) -> bool {
-        let m = self.map.read().await;
-        if let Some(tx) = m.get(&id) {
-            tx.send(resp).await.is_ok()
-        } else {
-            false
+    pub async fn route(&self, id: u64, resp: MeResponse) -> RouteResult {
+        let tx = {
+            let inner = self.inner.read().await;
+            inner.map.get(&id).cloned()
+        };
+
+        let Some(tx) = tx else {
+            return RouteResult::NoConn;
+        };
+
+        match tx.try_send(resp) {
+            Ok(()) => RouteResult::Routed,
+            Err(TrySendError::Closed(_)) => RouteResult::ChannelClosed,
+            Err(TrySendError::Full(resp)) => {
+                // Absorb short bursts without dropping/closing the session immediately.
+                match tokio::time::timeout(ROUTE_BACKPRESSURE_TIMEOUT, tx.send(resp)).await {
+                    Ok(Ok(())) => RouteResult::Routed,
+                    Ok(Err(_)) => RouteResult::ChannelClosed,
+                    Err(_) => RouteResult::QueueFull,
+                }
+            }
        }
    }
+
+    pub async fn bind_writer(
+        &self,
+        conn_id: u64,
+        writer_id: u64,
+        tx: mpsc::Sender<WriterCommand>,
+        meta: ConnMeta,
+    ) {
+        let mut inner = self.inner.write().await;
+        inner.meta.entry(conn_id).or_insert(meta);
+        inner.writer_for_conn.insert(conn_id, writer_id);
+        inner.writers.entry(writer_id).or_insert_with(|| tx.clone());
+        inner
+            .conns_for_writer
+            .entry(writer_id)
+            .or_insert_with(HashSet::new)
+            .insert(conn_id);
+    }
+
+    pub async fn get_writer(&self, conn_id: u64) -> Option<ConnWriter> {
+        let inner = self.inner.read().await;
+        let writer_id = inner.writer_for_conn.get(&conn_id).cloned()?;
+        let writer = inner.writers.get(&writer_id).cloned()?;
+        Some(ConnWriter { writer_id, tx: writer })
+    }
+
+    pub async fn writer_lost(&self, writer_id: u64) -> Vec<BoundConn> {
+        let mut inner = self.inner.write().await;
+        inner.writers.remove(&writer_id);
+        let conns = inner
+            .conns_for_writer
+            .remove(&writer_id)
+            .unwrap_or_default()
+            .into_iter()
+            .collect::<Vec<_>>();
+
+        let mut out = Vec::new();
+        for conn_id in conns {
+            inner.writer_for_conn.remove(&conn_id);
+            if let Some(m) = inner.meta.get(&conn_id) {
+                out.push(BoundConn {
+                    conn_id,
+                    meta: m.clone(),
+                });
+            }
+        }
+        out
+    }
+
+    pub async fn get_meta(&self, conn_id: u64) -> Option<ConnMeta> {
+        let inner = self.inner.read().await;
+        inner.meta.get(&conn_id).cloned()
+    }
+
+    pub async fn is_writer_empty(&self, writer_id: u64) -> bool {
+        let inner = self.inner.read().await;
+        inner
+            .conns_for_writer
+            .get(&writer_id)
+            .map(|s| s.is_empty())
+            .unwrap_or(true)
+    }
 }
--- a/src/transport/middle_proxy/rotation.rs
+++ b/src/transport/middle_proxy/rotation.rs
@@ -0,0 +1,51 @@
+use std::sync::Arc;
+use std::sync::atomic::Ordering;
+use std::time::Duration;
+
+use tracing::{info, warn};
+
+use crate::crypto::SecureRandom;
+
+use super::MePool;
+
+/// Periodically refresh ME connections to avoid long-lived degradation.
+pub async fn me_rotation_task(pool: Arc<MePool>, rng: Arc<SecureRandom>, interval: Duration) {
+    let interval = interval.max(Duration::from_secs(600));
+    loop {
+        tokio::time::sleep(interval).await;
+
+        let candidate = {
+            let ws = pool.writers.read().await;
+            if ws.is_empty() {
+                None
+            } else {
+                let idx = (pool.rr.load(std::sync::atomic::Ordering::Relaxed) as usize) % ws.len();
+                ws.get(idx).cloned()
+            }
+        };
+
+        let Some(w) = candidate else {
+            continue;
+        };
+
+        info!(addr = %w.addr, writer_id = w.id, "Rotating ME connection");
+        match pool.connect_one(w.addr, rng.as_ref()).await {
+            Ok(()) => {
+                tokio::time::sleep(Duration::from_secs(2)).await;
+                let ws = pool.writers.read().await;
+                let new_alive = ws.iter().any(|nw|
+                    nw.id != w.id && nw.addr == w.addr && !nw.degraded.load(Ordering::Relaxed) && !nw.draining.load(Ordering::Relaxed)
+                );
+                drop(ws);
+                if new_alive {
+                    pool.mark_writer_draining(w.id).await;
+                } else {
+                    warn!(addr = %w.addr, writer_id = w.id, "New writer died, keeping old");
+                }
+            }
+            Err(e) => {
+                warn!(addr = %w.addr, writer_id = w.id, error = %e, "ME rotation connect failed");
+            }
+        }
+    }
+}
--- a/src/transport/middle_proxy/secret.rs
+++ b/src/transport/middle_proxy/secret.rs
@@ -1,6 +1,8 @@
 use std::time::Duration;

 use tracing::{debug, info, warn};
+use std::time::SystemTime;
+use httpdate;

 use crate::error::{ProxyError, Result};

@@ -51,7 +53,7 @@ pub async fn fetch_proxy_secret(cache_path: Option<&str>) -> Result<Vec<u8>> {
    }
 }

-async fn download_proxy_secret() -> Result<Vec<u8>> {
+pub async fn download_proxy_secret() -> Result<Vec<u8>> {
    let resp = reqwest::get("https://core.telegram.org/getProxySecret")
        .await
        .map_err(|e| ProxyError::Proxy(format!("Failed to download proxy-secret: {e}")))?;
@@ -63,6 +65,23 @@ async fn download_proxy_secret() -> Result<Vec<u8>> {
        )));
    }

+    if let Some(date) = resp.headers().get(reqwest::header::DATE) {
+        if let Ok(date_str) = date.to_str() {
+            if let Ok(server_time) = httpdate::parse_http_date(date_str) {
+                if let Ok(skew) = SystemTime::now().duration_since(server_time).or_else(|e| {
+                    server_time.duration_since(SystemTime::now()).map_err(|_| e)
+                }) {
+                    let skew_secs = skew.as_secs();
+                    if skew_secs > 60 {
+                        warn!(skew_secs, "Time skew >60s detected from proxy-secret Date header");
+                    } else if skew_secs > 30 {
+                        warn!(skew_secs, "Time skew >30s detected from proxy-secret Date header");
+                    }
+                }
+            }
+        }
+    }
+
    let data = resp
        .bytes()
        .await
--- a/src/transport/middle_proxy/send.rs
+++ b/src/transport/middle_proxy/send.rs
@@ -1,20 +1,23 @@
 use std::net::SocketAddr;
 use std::sync::Arc;
 use std::sync::atomic::Ordering;
+use std::time::Duration;

-use tokio::sync::Mutex;
 use tracing::{debug, warn};

 use crate::error::{ProxyError, Result};
-use crate::protocol::constants::{RPC_CLOSE_EXT_U32, TG_MIDDLE_PROXIES_V4};
+use crate::network::IpFamily;
+use crate::protocol::constants::RPC_CLOSE_EXT_U32;

 use super::MePool;
-use super::codec::RpcWriter;
+use super::codec::WriterCommand;
 use super::wire::build_proxy_req_payload;
+use rand::seq::SliceRandom;
+use super::registry::ConnMeta;

 impl MePool {
    pub async fn send_proxy_req(
-        &self,
+        self: &Arc<Self>,
        conn_id: u64,
        target_dc: i16,
        client_addr: SocketAddr,
@@ -30,73 +33,161 @@ impl MePool {
            self.proxy_tag.as_deref(),
            proto_flags,
        );
+        let meta = ConnMeta {
+            target_dc,
+            client_addr,
+            our_addr,
+            proto_flags,
+        };
+        let mut emergency_attempts = 0;

        loop {
-            let ws = self.writers.read().await;
-            if ws.is_empty() {
-                return Err(ProxyError::Proxy("All ME connections dead".into()));
-            }
-            let writers: Vec<(SocketAddr, Arc<Mutex<RpcWriter>>)> = ws.iter().cloned().collect();
-            drop(ws);
-
-            let candidate_indices = candidate_indices_for_dc(&writers, target_dc);
-            if candidate_indices.is_empty() {
-                return Err(ProxyError::Proxy("No ME writers available for target DC".into()));
-            }
-            let start = self.rr.fetch_add(1, Ordering::Relaxed) as usize % candidate_indices.len();
-
-            // Prefer immediately available writer to avoid waiting on stalled connection.
-            for offset in 0..candidate_indices.len() {
-                let cidx = (start + offset) % candidate_indices.len();
-                let idx = candidate_indices[cidx];
-                let w = writers[idx].1.clone();
-                if let Ok(mut guard) = w.try_lock() {
-                    let send_res = guard.send(&payload).await;
-                    drop(guard);
-                    match send_res {
-                        Ok(()) => return Ok(()),
-                        Err(e) => {
-                            warn!(error = %e, "ME write failed, removing dead conn");
-                            let mut ws = self.writers.write().await;
-                            ws.retain(|(_, o)| !Arc::ptr_eq(o, &w));
-                            if ws.is_empty() {
-                                return Err(ProxyError::Proxy("All ME connections dead".into()));
-                            }
-                            continue;
-                        }
+            if let Some(current) = self.registry.get_writer(conn_id).await {
+                let send_res = {
+                    current
+                        .tx
+                        .send(WriterCommand::Data(payload.clone()))
+                        .await
+                };
+                match send_res {
+                    Ok(()) => return Ok(()),
+                    Err(_) => {
+                        warn!(writer_id = current.writer_id, "ME writer channel closed");
+                        self.remove_writer_and_close_clients(current.writer_id).await;
+                        continue;
                    }
                }
            }

-            // All writers are currently busy, wait for the selected one.
-            let w = writers[candidate_indices[start]].1.clone();
-            match w.lock().await.send(&payload).await {
-                Ok(()) => return Ok(()),
-                Err(e) => {
-                    warn!(error = %e, "ME write failed, removing dead conn");
-                    let mut ws = self.writers.write().await;
-                    ws.retain(|(_, o)| !Arc::ptr_eq(o, &w));
-                    if ws.is_empty() {
-                        return Err(ProxyError::Proxy("All ME connections dead".into()));
+            let mut writers_snapshot = {
+                let ws = self.writers.read().await;
+                if ws.is_empty() {
+                    // Create waiter before recovery attempts so notify_one permits are not missed.
+                    let waiter = self.writer_available.notified();
+                    drop(ws);
+                    for family in self.family_order() {
+                        let map = match family {
+                            IpFamily::V4 => self.proxy_map_v4.read().await.clone(),
+                            IpFamily::V6 => self.proxy_map_v6.read().await.clone(),
+                        };
+                        for (_dc, addrs) in map.iter() {
+                            for (ip, port) in addrs {
+                                let addr = SocketAddr::new(*ip, *port);
+                                if self.connect_one(addr, self.rng.as_ref()).await.is_ok() {
+                                    self.writer_available.notify_one();
+                                    break;
+                                }
+                            }
+                        }
                    }
+                    if !self.writers.read().await.is_empty() {
+                        continue;
+                    }
+                    if tokio::time::timeout(Duration::from_secs(3), waiter).await.is_err() {
+                        if !self.writers.read().await.is_empty() {
+                            continue;
+                        }
+                        return Err(ProxyError::Proxy("All ME connections dead (waited 3s)".into()));
+                    }
+                    continue;
+                }
+                ws.clone()
+            };
+
+            let mut candidate_indices = self.candidate_indices_for_dc(&writers_snapshot, target_dc).await;
+            if candidate_indices.is_empty() {
+                // Emergency connect-on-demand
+                if emergency_attempts >= 3 {
+                    return Err(ProxyError::Proxy("No ME writers available for target DC".into()));
+                }
+                emergency_attempts += 1;
+                for family in self.family_order() {
+                    let map_guard = match family {
+                        IpFamily::V4 => self.proxy_map_v4.read().await,
+                        IpFamily::V6 => self.proxy_map_v6.read().await,
+                    };
+                    if let Some(addrs) = map_guard.get(&(target_dc as i32)) {
+                        let mut shuffled = addrs.clone();
+                        shuffled.shuffle(&mut rand::rng());
+                        drop(map_guard);
+                        for (ip, port) in shuffled {
+                            let addr = SocketAddr::new(ip, port);
+                            if self.connect_one(addr, self.rng.as_ref()).await.is_ok() {
+                                break;
+                            }
+                        }
+                        tokio::time::sleep(Duration::from_millis(100 * emergency_attempts)).await;
+                        let ws2 = self.writers.read().await;
+                        writers_snapshot = ws2.clone();
+                        drop(ws2);
+                        candidate_indices = self.candidate_indices_for_dc(&writers_snapshot, target_dc).await;
+                        if !candidate_indices.is_empty() {
+                            break;
+                        }
+                    }
+                }
+                if candidate_indices.is_empty() {
+                    return Err(ProxyError::Proxy("No ME writers available for target DC".into()));
+                }
+            }
+
+            candidate_indices.sort_by_key(|idx| {
+                let w = &writers_snapshot[*idx];
+                let degraded = w.degraded.load(Ordering::Relaxed);
+                let draining = w.draining.load(Ordering::Relaxed);
+                (draining as usize, degraded as usize)
+            });
+
+            let start = self.rr.fetch_add(1, Ordering::Relaxed) as usize % candidate_indices.len();
+
+            for offset in 0..candidate_indices.len() {
+                let idx = candidate_indices[(start + offset) % candidate_indices.len()];
+                let w = &writers_snapshot[idx];
+                if w.draining.load(Ordering::Relaxed) {
+                    continue;
+                }
+                if w.tx.send(WriterCommand::Data(payload.clone())).await.is_ok() {
+                    self.registry
+                        .bind_writer(conn_id, w.id, w.tx.clone(), meta.clone())
+                        .await;
+                    return Ok(());
+                } else {
+                    warn!(writer_id = w.id, "ME writer channel closed");
+                    self.remove_writer_and_close_clients(w.id).await;
+                    continue;
+                }
+            }
+
+            let w = writers_snapshot[candidate_indices[start]].clone();
+            if w.draining.load(Ordering::Relaxed) {
+                continue;
+            }
+            match w.tx.send(WriterCommand::Data(payload.clone())).await {
+                Ok(()) => {
+                    self.registry
+                        .bind_writer(conn_id, w.id, w.tx.clone(), meta.clone())
+                        .await;
+                    return Ok(());
+                }
+                Err(_) => {
+                    warn!(writer_id = w.id, "ME writer channel closed (blocking)");
+                    self.remove_writer_and_close_clients(w.id).await;
                }
            }
        }
    }

-    pub async fn send_close(&self, conn_id: u64) -> Result<()> {
-        let ws = self.writers.read().await;
-        if !ws.is_empty() {
-            let w = ws[0].1.clone();
-            drop(ws);
+    pub async fn send_close(self: &Arc<Self>, conn_id: u64) -> Result<()> {
+        if let Some(w) = self.registry.get_writer(conn_id).await {
            let mut p = Vec::with_capacity(12);
            p.extend_from_slice(&RPC_CLOSE_EXT_U32.to_le_bytes());
            p.extend_from_slice(&conn_id.to_le_bytes());
-            if let Err(e) = w.lock().await.send(&p).await {
-                debug!(error = %e, "ME close write failed");
-                let mut ws = self.writers.write().await;
-                ws.retain(|(_, o)| !Arc::ptr_eq(o, &w));
+            if w.tx.send(WriterCommand::DataAndFlush(p)).await.is_err() {
+                debug!("ME close write failed");
+                self.remove_writer_and_close_clients(w.writer_id).await;
            }
+        } else {
+            debug!(conn_id, "ME close skipped (writer missing)");
        }

        self.registry.unregister(conn_id).await;
@@ -104,43 +195,75 @@ impl MePool {
    }

    pub fn connection_count(&self) -> usize {
-        self.writers.try_read().map(|w| w.len()).unwrap_or(0)
+        self.conn_count.load(Ordering::Relaxed)
    }
-}
+    
+    pub(super) async fn candidate_indices_for_dc(
+        &self,
+        writers: &[super::pool::MeWriter],
+        target_dc: i16,
+    ) -> Vec<usize> {
+        let key = target_dc as i32;
+        let mut preferred = Vec::<SocketAddr>::new();

-fn candidate_indices_for_dc(
-    writers: &[(SocketAddr, Arc<Mutex<RpcWriter>>)],
-    target_dc: i16,
-) -> Vec<usize> {
-    let mut preferred = Vec::<SocketAddr>::new();
-    let key = target_dc as i32;
-    if let Some(v) = TG_MIDDLE_PROXIES_V4.get(&key) {
-        preferred.extend(v.iter().map(|(ip, port)| SocketAddr::new(*ip, *port)));
-    }
-    if preferred.is_empty() {
-        let abs = key.abs();
-        if let Some(v) = TG_MIDDLE_PROXIES_V4.get(&abs) {
-            preferred.extend(v.iter().map(|(ip, port)| SocketAddr::new(*ip, *port)));
+        for family in self.family_order() {
+            let map_guard = match family {
+                IpFamily::V4 => self.proxy_map_v4.read().await,
+                IpFamily::V6 => self.proxy_map_v6.read().await,
+            };
+
+            if let Some(v) = map_guard.get(&key) {
+                preferred.extend(v.iter().map(|(ip, port)| SocketAddr::new(*ip, *port)));
+            }
+            if preferred.is_empty() {
+                let abs = key.abs();
+                if let Some(v) = map_guard.get(&abs) {
+                    preferred.extend(v.iter().map(|(ip, port)| SocketAddr::new(*ip, *port)));
+                }
+            }
+            if preferred.is_empty() {
+                let abs = key.abs();
+                if let Some(v) = map_guard.get(&-abs) {
+                    preferred.extend(v.iter().map(|(ip, port)| SocketAddr::new(*ip, *port)));
+                }
+            }
+            if preferred.is_empty() {
+                let def = self.default_dc.load(Ordering::Relaxed);
+                if def != 0 {
+                    if let Some(v) = map_guard.get(&def) {
+                        preferred.extend(v.iter().map(|(ip, port)| SocketAddr::new(*ip, *port)));
+                    }
+                }
+            }
+
+            drop(map_guard);
+
+            if !preferred.is_empty() && !self.decision.effective_multipath {
+                break;
+            }
        }
-    }
-    if preferred.is_empty() {
-        let abs = key.abs();
-        if let Some(v) = TG_MIDDLE_PROXIES_V4.get(&-abs) {
-            preferred.extend(v.iter().map(|(ip, port)| SocketAddr::new(*ip, *port)));
+
+        if preferred.is_empty() {
+            return (0..writers.len())
+                .filter(|i| !writers[*i].draining.load(Ordering::Relaxed))
+                .collect();
        }
-    }
-    if preferred.is_empty() {
-        return (0..writers.len()).collect();
+
+        let mut out = Vec::new();
+        for (idx, w) in writers.iter().enumerate() {
+            if w.draining.load(Ordering::Relaxed) {
+                continue;
+            }
+            if preferred.iter().any(|p| *p == w.addr) {
+                out.push(idx);
+            }
+        }
+        if out.is_empty() {
+            return (0..writers.len())
+                .filter(|i| !writers[*i].draining.load(Ordering::Relaxed))
+                .collect();
+        }
+        out
    }

-    let mut out = Vec::new();
-    for (idx, (addr, _)) in writers.iter().enumerate() {
-        if preferred.iter().any(|p| p == addr) {
-            out.push(idx);
-        }
-    }
-    if out.is_empty() {
-        return (0..writers.len()).collect();
-    }
-    out
 }
--- a/src/transport/middle_proxy/wire.rs
+++ b/src/transport/middle_proxy/wire.rs
@@ -28,9 +28,7 @@ fn ipv4_to_mapped_v6_c_compat(ip: Ipv4Addr) -> [u8; 16] {
    buf[8..12].copy_from_slice(&(-0x10000i32).to_le_bytes());

    // Matches tl_store_int(htonl(remote_ip_host_order)).
-    let host_order = u32::from_ne_bytes(ip.octets());
-    let network_order = host_order.to_be();
-    buf[12..16].copy_from_slice(&network_order.to_le_bytes());
+    buf[12..16].copy_from_slice(&ip.octets());

    buf
 }
@@ -60,7 +58,7 @@ pub(crate) fn build_proxy_req_payload(
    append_mapped_addr_and_port(&mut b, client_addr);
    append_mapped_addr_and_port(&mut b, our_addr);

-    if proto_flags & 12 != 0 {
+    if proto_flags & RPC_FLAG_HAS_AD_TAG != 0 {
        let extra_start = b.len();
        b.extend_from_slice(&0u32.to_le_bytes());

@@ -104,3 +102,17 @@ pub fn proto_flags_for_tag(tag: crate::protocol::constants::ProtoTag, has_proxy_
        ProtoTag::Secure => flags | RPC_FLAG_PAD | RPC_FLAG_INTERMEDIATE,
    }
 }
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    #[test]
+    fn test_ipv4_mapped_encoding() {
+        let ip = Ipv4Addr::new(149, 154, 175, 50);
+        let buf = ipv4_to_mapped_v6_c_compat(ip);
+        assert_eq!(&buf[0..10], &[0u8; 10]);
+        assert_eq!(&buf[10..12], &[0xff, 0xff]);
+        assert_eq!(&buf[12..16], &[149, 154, 175, 50]);
+    }
+}
--- a/src/transport/pool.rs
+++ b/src/transport/pool.rs
@@ -285,12 +285,17 @@ where
 #[cfg(test)]
 mod tests {
    use super::*;
+    use std::io::ErrorKind;
    use tokio::net::TcpListener;
    
    #[tokio::test]
    async fn test_pool_basic() {
        // Start a test server
-        let listener = TcpListener::bind("127.0.0.1:0").await.unwrap();
+        let listener = match TcpListener::bind("127.0.0.1:0").await {
+            Ok(l) => l,
+            Err(e) if e.kind() == ErrorKind::PermissionDenied => return,
+            Err(e) => panic!("bind failed: {e}"),
+        };
        let addr = listener.local_addr().unwrap();
        
        // Accept connections in background
@@ -303,7 +308,11 @@ mod tests {
        let pool = ConnectionPool::new();
        
        // Get a connection
-        let conn1 = pool.get(addr).await.unwrap();
+        let conn1 = match pool.get(addr).await {
+            Ok(c) => c,
+            Err(ProxyError::Io(e)) if e.kind() == ErrorKind::PermissionDenied => return,
+            Err(e) => panic!("connect failed: {e}"),
+        };
        
        // Return it to pool
        pool.put(addr, conn1).await;
@@ -335,4 +344,4 @@ mod tests {
        assert_eq!(stats.endpoints, 0);
        assert_eq!(stats.total_connections, 0);
    }
-}
+}
--- a/src/transport/proxy_protocol.rs
+++ b/src/transport/proxy_protocol.rs
@@ -283,6 +283,58 @@ impl Default for ProxyProtocolV1Builder {
    }
 }

+/// Builder for PROXY protocol v2 header
+pub struct ProxyProtocolV2Builder {
+    src: Option<SocketAddr>,
+    dst: Option<SocketAddr>,
+}
+
+impl ProxyProtocolV2Builder {
+    pub fn new() -> Self {
+        Self { src: None, dst: None }
+    }
+
+    pub fn with_addrs(mut self, src: SocketAddr, dst: SocketAddr) -> Self {
+        self.src = Some(src);
+        self.dst = Some(dst);
+        self
+    }
+
+    pub fn build(&self) -> Vec<u8> {
+        let mut header = Vec::new();
+        header.extend_from_slice(PROXY_V2_SIGNATURE);
+        // version 2, PROXY command
+        header.push(0x21);
+
+        match (self.src, self.dst) {
+            (Some(SocketAddr::V4(src)), Some(SocketAddr::V4(dst))) => {
+                header.push(0x11); // INET + STREAM
+                header.extend_from_slice(&(12u16).to_be_bytes());
+                header.extend_from_slice(&src.ip().octets());
+                header.extend_from_slice(&dst.ip().octets());
+                header.extend_from_slice(&src.port().to_be_bytes());
+                header.extend_from_slice(&dst.port().to_be_bytes());
+            }
+            (Some(SocketAddr::V6(src)), Some(SocketAddr::V6(dst))) => {
+                header.push(0x21); // INET6 + STREAM
+                header.extend_from_slice(&(36u16).to_be_bytes());
+                header.extend_from_slice(&src.ip().octets());
+                header.extend_from_slice(&dst.ip().octets());
+                header.extend_from_slice(&src.port().to_be_bytes());
+                header.extend_from_slice(&dst.port().to_be_bytes());
+            }
+            _ => {
+                // LOCAL/UNSPEC: no address information
+                header[12] = 0x20; // version 2, LOCAL command
+                header.push(0x00);
+                header.extend_from_slice(&0u16.to_be_bytes());
+            }
+        }
+
+        header
+    }
+}
+
 #[cfg(test)]
 mod tests {
    use super::*;
@@ -378,4 +430,4 @@ mod tests {
        let header = ProxyProtocolV1Builder::new().build();
        assert_eq!(header, b"PROXY UNKNOWN\r\n");
    }
-}
+}
--- a/src/transport/socket.rs
+++ b/src/transport/socket.rs
@@ -1,5 +1,7 @@
 //! TCP Socket Configuration

+use std::collections::HashSet;
+use std::fs;
 use std::io::Result;
 use std::net::{SocketAddr, IpAddr};
 use std::time::Duration;
@@ -122,6 +124,38 @@ pub fn get_local_addr(stream: &TcpStream) -> Option<SocketAddr> {
    stream.local_addr().ok()
 }

+/// Resolve primary IP address of a network interface by name.
+/// Returns the first address matching the requested family (IPv4/IPv6).
+#[cfg(unix)]
+pub fn resolve_interface_ip(name: &str, want_ipv6: bool) -> Option<IpAddr> {
+    use nix::ifaddrs::getifaddrs;
+
+    if let Ok(addrs) = getifaddrs() {
+        for iface in addrs {
+            if iface.interface_name == name {
+                if let Some(address) = iface.address {
+                    if let Some(v4) = address.as_sockaddr_in() {
+                        if !want_ipv6 {
+                            return Some(IpAddr::V4(v4.ip()));
+                        }
+                    } else if let Some(v6) = address.as_sockaddr_in6() {
+                        if want_ipv6 {
+                            return Some(IpAddr::V6(v6.ip().clone()));
+                        }
+                    }
+                }
+            }
+        }
+    }
+    None
+}
+
+/// Stub for non-Unix platforms: interface name resolution unsupported.
+#[cfg(not(unix))]
+pub fn resolve_interface_ip(_name: &str, _want_ipv6: bool) -> Option<IpAddr> {
+    None
+}
+
 /// Get peer address of a socket
 pub fn get_peer_addr(stream: &TcpStream) -> Option<SocketAddr> {
    stream.peer_addr().ok()
@@ -202,18 +236,159 @@ pub fn create_listener(addr: SocketAddr, options: &ListenOptions) -> Result<Sock
    Ok(socket)
 }

+/// Best-effort process list for listeners occupying the same local TCP port.
+#[derive(Debug, Clone)]
+pub struct ListenerProcessInfo {
+    pub pid: u32,
+    pub process: String,
+}
+
+/// Find processes currently listening on the local TCP port of `addr`.
+/// Returns an empty list when unsupported or when no owners can be resolved.
+pub fn find_listener_processes(addr: SocketAddr) -> Vec<ListenerProcessInfo> {
+    #[cfg(target_os = "linux")]
+    {
+        find_listener_processes_linux(addr)
+    }
+    #[cfg(not(target_os = "linux"))]
+    {
+        let _ = addr;
+        Vec::new()
+    }
+}
+
+#[cfg(target_os = "linux")]
+fn find_listener_processes_linux(addr: SocketAddr) -> Vec<ListenerProcessInfo> {
+    let inodes = listening_inodes_for_port(addr);
+    if inodes.is_empty() {
+        return Vec::new();
+    }
+
+    let mut out = Vec::new();
+
+    let proc_entries = match fs::read_dir("/proc") {
+        Ok(entries) => entries,
+        Err(_) => return out,
+    };
+
+    for entry in proc_entries.flatten() {
+        let pid = match entry.file_name().to_string_lossy().parse::<u32>() {
+            Ok(pid) => pid,
+            Err(_) => continue,
+        };
+
+        let fd_dir = entry.path().join("fd");
+        let fd_entries = match fs::read_dir(fd_dir) {
+            Ok(entries) => entries,
+            Err(_) => continue,
+        };
+
+        let mut matched = false;
+        for fd in fd_entries.flatten() {
+            let link_target = match fs::read_link(fd.path()) {
+                Ok(link) => link,
+                Err(_) => continue,
+            };
+
+            let link_str = link_target.to_string_lossy();
+            let Some(rest) = link_str.strip_prefix("socket:[") else {
+                continue;
+            };
+            let Some(inode_str) = rest.strip_suffix(']') else {
+                continue;
+            };
+            let Ok(inode) = inode_str.parse::<u64>() else {
+                continue;
+            };
+
+            if inodes.contains(&inode) {
+                matched = true;
+                break;
+            }
+        }
+
+        if matched {
+            let process = fs::read_to_string(entry.path().join("comm"))
+                .ok()
+                .map(|s| s.trim().to_string())
+                .filter(|s| !s.is_empty())
+                .unwrap_or_else(|| "unknown".to_string());
+            out.push(ListenerProcessInfo { pid, process });
+        }
+    }
+
+    out.sort_by_key(|p| p.pid);
+    out.dedup_by_key(|p| p.pid);
+    out
+}
+
+#[cfg(target_os = "linux")]
+fn listening_inodes_for_port(addr: SocketAddr) -> HashSet<u64> {
+    let path = match addr {
+        SocketAddr::V4(_) => "/proc/net/tcp",
+        SocketAddr::V6(_) => "/proc/net/tcp6",
+    };
+
+    let mut inodes = HashSet::new();
+    let Ok(data) = fs::read_to_string(path) else {
+        return inodes;
+    };
+
+    for line in data.lines().skip(1) {
+        let cols: Vec<&str> = line.split_whitespace().collect();
+        if cols.len() < 10 {
+            continue;
+        }
+
+        // LISTEN state in /proc/net/tcp*
+        if cols[3] != "0A" {
+            continue;
+        }
+
+        let Some(port_hex) = cols[1].split(':').nth(1) else {
+            continue;
+        };
+        let Ok(port) = u16::from_str_radix(port_hex, 16) else {
+            continue;
+        };
+        if port != addr.port() {
+            continue;
+        }
+
+        if let Ok(inode) = cols[9].parse::<u64>() {
+            inodes.insert(inode);
+        }
+    }
+
+    inodes
+}
+
 #[cfg(test)]
 mod tests {
    use super::*;
+    use std::io::ErrorKind;
    use tokio::net::TcpListener;
    
    #[tokio::test]
    async fn test_configure_socket() {
-        let listener = TcpListener::bind("127.0.0.1:0").await.unwrap();
+        let listener = match TcpListener::bind("127.0.0.1:0").await {
+            Ok(l) => l,
+            Err(e) if e.kind() == ErrorKind::PermissionDenied => return,
+            Err(e) => panic!("bind failed: {e}"),
+        };
        let addr = listener.local_addr().unwrap();
        
-        let stream = TcpStream::connect(addr).await.unwrap();
-        configure_tcp_socket(&stream, true, Duration::from_secs(30)).unwrap();
+        let stream = match TcpStream::connect(addr).await {
+            Ok(s) => s,
+            Err(e) if e.kind() == ErrorKind::PermissionDenied => return,
+            Err(e) => panic!("connect failed: {e}"),
+        };
+        if let Err(e) = configure_tcp_socket(&stream, true, Duration::from_secs(30)) {
+            if e.kind() == ErrorKind::PermissionDenied {
+                return;
+            }
+            panic!("configure_tcp_socket failed: {e}");
+        }
    }
    
    #[test]
@@ -234,4 +409,4 @@ mod tests {
        assert!(opts.reuse_port);
        assert_eq!(opts.backlog, 1024);
    }
-}
+}
--- a/src/transport/upstream.rs
+++ b/src/transport/upstream.rs
@@ -2,8 +2,10 @@
 //! 
 //! IPv6/IPv4 connectivity checks with configurable preference.

+use std::collections::HashMap;
 use std::net::{SocketAddr, IpAddr};
 use std::sync::Arc;
+use std::sync::atomic::{AtomicUsize, Ordering};
 use std::time::Duration;
 use tokio::net::TcpStream;
 use tokio::sync::RwLock;
@@ -14,7 +16,7 @@ use tracing::{debug, warn, info, trace};
 use crate::config::{UpstreamConfig, UpstreamType};
 use crate::error::{Result, ProxyError};
 use crate::protocol::constants::{TG_DATACENTERS_V4, TG_DATACENTERS_V6, TG_DATACENTER_PORT};
-use crate::transport::socket::create_outgoing_socket_bound;
+use crate::transport::socket::{create_outgoing_socket_bound, resolve_interface_ip};
 use crate::transport::socks::{connect_socks4, connect_socks5};

 /// Number of Telegram datacenters
@@ -22,6 +24,8 @@ const NUM_DCS: usize = 5;

 /// Timeout for individual DC ping attempt
 const DC_PING_TIMEOUT_SECS: u64 = 5;
+/// Timeout for direct TG DC TCP connect readiness.
+const DIRECT_CONNECT_TIMEOUT_SECS: u64 = 10;

 // ============= RTT Tracking =============

@@ -83,6 +87,8 @@ struct UpstreamState {
    dc_latency: [LatencyEma; NUM_DCS],
    /// Per-DC IP version preference (learned from connectivity tests)
    dc_ip_pref: [IpPreference; NUM_DCS],
+    /// Round-robin counter for bind_addresses selection
+    bind_rr: Arc<AtomicUsize>,
 }

 impl UpstreamState {
@@ -94,6 +100,7 @@ impl UpstreamState {
            last_check: std::time::Instant::now(),
            dc_latency: [LatencyEma::new(0.3); NUM_DCS],
            dc_ip_pref: [IpPreference::Unknown; NUM_DCS],
+            bind_rr: Arc::new(AtomicUsize::new(0)),
        }
    }

@@ -165,21 +172,85 @@ impl UpstreamManager {
        }
    }

+    fn resolve_bind_address(
+        interface: &Option<String>,
+        bind_addresses: &Option<Vec<String>>,
+        target: SocketAddr,
+        rr: Option<&AtomicUsize>,
+    ) -> Option<IpAddr> {
+        let want_ipv6 = target.is_ipv6();
+
+        if let Some(addrs) = bind_addresses {
+            let candidates: Vec<IpAddr> = addrs
+                .iter()
+                .filter_map(|s| s.parse::<IpAddr>().ok())
+                .filter(|ip| ip.is_ipv6() == want_ipv6)
+                .collect();
+
+            if !candidates.is_empty() {
+                if let Some(counter) = rr {
+                    let idx = counter.fetch_add(1, Ordering::Relaxed) % candidates.len();
+                    return Some(candidates[idx]);
+                }
+                return candidates.first().copied();
+            }
+        }
+
+        if let Some(iface) = interface {
+            if let Ok(ip) = iface.parse::<IpAddr>() {
+                if ip.is_ipv6() == want_ipv6 {
+                    return Some(ip);
+                }
+            } else {
+                #[cfg(unix)]
+                if let Some(ip) = resolve_interface_ip(iface, want_ipv6) {
+                    return Some(ip);
+                }
+            }
+        }
+
+        None
+    }
+
    /// Select upstream using latency-weighted random selection.
-    async fn select_upstream(&self, dc_idx: Option<i16>) -> Option<usize> {
+    async fn select_upstream(&self, dc_idx: Option<i16>, scope: Option<&str>) -> Option<usize> {
        let upstreams = self.upstreams.read().await;
        if upstreams.is_empty() {
            return None;
        }
-
-        let healthy: Vec<usize> = upstreams.iter()
+        // Scope filter:
+        //   If scope is set: only scoped and matched items
+        //   If scope is not set: only unscoped items
+        let filtered_upstreams : Vec<usize> = upstreams.iter()
            .enumerate()
-            .filter(|(_, u)| u.healthy)
+            .filter(|(_, u)| {
+                scope.map_or(
+                    u.config.scopes.is_empty(),
+                    |req_scope| {
+                        u.config.scopes
+                            .split(',')
+                            .map(str::trim)
+                            .any(|s| s == req_scope)
+                    }
+                )
+            })
            .map(|(i, _)| i)
            .collect();

+        // Healthy filter
+        let healthy: Vec<usize> = filtered_upstreams.iter()
+            .filter(|&&i| upstreams[i].healthy)
+            .copied()
+            .collect();
+
+        if filtered_upstreams.is_empty() {
+            warn!(scope = scope, "No upstreams available! Using first (direct?)");
+            return None;
+        }
+
        if healthy.is_empty() {
-            return Some(rand::rng().gen_range(0..upstreams.len()));
+            warn!(scope = scope, "No healthy upstreams available! Using random.");
+            return Some(filtered_upstreams[rand::rng().gen_range(0..filtered_upstreams.len())]);
        }

        if healthy.len() == 1 {
@@ -221,18 +292,28 @@ impl UpstreamManager {
    }

    /// Connect to target through a selected upstream.
-    pub async fn connect(&self, target: SocketAddr, dc_idx: Option<i16>) -> Result<TcpStream> {
-        let idx = self.select_upstream(dc_idx).await
+    pub async fn connect(&self, target: SocketAddr, dc_idx: Option<i16>, scope: Option<&str>) -> Result<TcpStream> {
+        let idx = self.select_upstream(dc_idx, scope).await
            .ok_or_else(|| ProxyError::Config("No upstreams available".to_string()))?;

-        let upstream = {
+        let mut upstream = {
            let guard = self.upstreams.read().await;
            guard[idx].config.clone()
        };

+        // Set scope for configuration copy
+        if let Some(s) = scope {
+            upstream.selected_scope = s.to_string();
+        }
+
        let start = Instant::now();

-        match self.connect_via_upstream(&upstream, target).await {
+        let bind_rr = {
+            let guard = self.upstreams.read().await;
+            guard.get(idx).map(|u| u.bind_rr.clone())
+        };
+
+        match self.connect_via_upstream(&upstream, target, bind_rr).await {
            Ok(stream) => {
                let rtt_ms = start.elapsed().as_secs_f64() * 1000.0;
                let mut guard = self.upstreams.write().await;
@@ -264,13 +345,27 @@ impl UpstreamManager {
        }
    }

-    async fn connect_via_upstream(&self, config: &UpstreamConfig, target: SocketAddr) -> Result<TcpStream> {
+    async fn connect_via_upstream(
+        &self,
+        config: &UpstreamConfig,
+        target: SocketAddr,
+        bind_rr: Option<Arc<AtomicUsize>>,
+    ) -> Result<TcpStream> {
        match &config.upstream_type {
-            UpstreamType::Direct { interface } => {
-                let bind_ip = interface.as_ref()
-                    .and_then(|s| s.parse::<IpAddr>().ok());
+            UpstreamType::Direct { interface, bind_addresses } => {
+                let bind_ip = Self::resolve_bind_address(
+                    interface,
+                    bind_addresses,
+                    target,
+                    bind_rr.as_deref(),
+                );

                let socket = create_outgoing_socket_bound(target, bind_ip)?;
+                if let Some(ip) = bind_ip {
+                    debug!(bind = %ip, target = %target, "Bound outgoing socket");
+                } else if interface.is_some() || bind_addresses.is_some() {
+                    debug!(target = %target, "No matching bind address for target family");
+                }

                socket.set_nonblocking(true)?;
                match socket.connect(&target.into()) {
@@ -282,7 +377,16 @@ impl UpstreamManager {
                let std_stream: std::net::TcpStream = socket.into();
                let stream = TcpStream::from_std(std_stream)?;

-                stream.writable().await?;
+                let connect_timeout = Duration::from_secs(DIRECT_CONNECT_TIMEOUT_SECS);
+                match tokio::time::timeout(connect_timeout, stream.writable()).await {
+                    Ok(Ok(())) => {}
+                    Ok(Err(e)) => return Err(ProxyError::Io(e)),
+                    Err(_) => {
+                        return Err(ProxyError::ConnectionTimeout {
+                            addr: target.to_string(),
+                        });
+                    }
+                }
                if let Some(e) = stream.take_error()? {
                    return Err(ProxyError::Io(e));
                }
@@ -290,57 +394,150 @@ impl UpstreamManager {
                Ok(stream)
            },
            UpstreamType::Socks4 { address, interface, user_id } => {
-                let proxy_addr: SocketAddr = address.parse()
-                    .map_err(|_| ProxyError::Config("Invalid SOCKS4 address".to_string()))?;
+                let connect_timeout = Duration::from_secs(DIRECT_CONNECT_TIMEOUT_SECS);
+                // Try to parse as SocketAddr first (IP:port), otherwise treat as hostname:port
+                let mut stream = if let Ok(proxy_addr) = address.parse::<SocketAddr>() {
+                    // IP:port format - use socket with optional interface binding
+                    let bind_ip = Self::resolve_bind_address(
+                        interface,
+                        &None,
+                        proxy_addr,
+                        bind_rr.as_deref(),
+                    );

-                let bind_ip = interface.as_ref()
-                    .and_then(|s| s.parse::<IpAddr>().ok());
+                    let socket = create_outgoing_socket_bound(proxy_addr, bind_ip)?;

-                let socket = create_outgoing_socket_bound(proxy_addr, bind_ip)?;
+                    socket.set_nonblocking(true)?;
+                    match socket.connect(&proxy_addr.into()) {
+                        Ok(()) => {},
+                        Err(err) if err.raw_os_error() == Some(libc::EINPROGRESS) || err.kind() == std::io::ErrorKind::WouldBlock => {},
+                        Err(err) => return Err(ProxyError::Io(err)),
+                    }

-                socket.set_nonblocking(true)?;
-                match socket.connect(&proxy_addr.into()) {
-                    Ok(()) => {},
-                    Err(err) if err.raw_os_error() == Some(libc::EINPROGRESS) || err.kind() == std::io::ErrorKind::WouldBlock => {},
-                    Err(err) => return Err(ProxyError::Io(err)),
+                    let std_stream: std::net::TcpStream = socket.into();
+                    let stream = TcpStream::from_std(std_stream)?;
+
+                    match tokio::time::timeout(connect_timeout, stream.writable()).await {
+                        Ok(Ok(())) => {}
+                        Ok(Err(e)) => return Err(ProxyError::Io(e)),
+                        Err(_) => {
+                            return Err(ProxyError::ConnectionTimeout {
+                                addr: proxy_addr.to_string(),
+                            });
+                        }
+                    }
+                    if let Some(e) = stream.take_error()? {
+                        return Err(ProxyError::Io(e));
+                    }
+                    stream
+                } else {
+                    // Hostname:port format - use tokio DNS resolution
+                    // Note: interface binding is not supported for hostnames
+                    if interface.is_some() {
+                        warn!("SOCKS4 interface binding is not supported for hostname addresses, ignoring");
+                    }
+                    match tokio::time::timeout(connect_timeout, TcpStream::connect(address)).await {
+                        Ok(Ok(stream)) => stream,
+                        Ok(Err(e)) => return Err(ProxyError::Io(e)),
+                        Err(_) => {
+                            return Err(ProxyError::ConnectionTimeout {
+                                addr: address.clone(),
+                            });
+                        }
+                    }
+                };
+
+                // replace socks user_id with config.selected_scope, if set
+                let scope: Option<&str> = Some(config.selected_scope.as_str())
+                    .filter(|s| !s.is_empty());
+                let _user_id: Option<&str> = scope.or(user_id.as_deref());
+
+                match tokio::time::timeout(connect_timeout, connect_socks4(&mut stream, target, _user_id)).await {
+                    Ok(Ok(())) => {}
+                    Ok(Err(e)) => return Err(e),
+                    Err(_) => {
+                        return Err(ProxyError::ConnectionTimeout {
+                            addr: target.to_string(),
+                        });
+                    }
                }
-
-                let std_stream: std::net::TcpStream = socket.into();
-                let mut stream = TcpStream::from_std(std_stream)?;
-
-                stream.writable().await?;
-                if let Some(e) = stream.take_error()? {
-                    return Err(ProxyError::Io(e));
-                }
-
-                connect_socks4(&mut stream, target, user_id.as_deref()).await?;
                Ok(stream)
            },
            UpstreamType::Socks5 { address, interface, username, password } => {
-                let proxy_addr: SocketAddr = address.parse()
-                    .map_err(|_| ProxyError::Config("Invalid SOCKS5 address".to_string()))?;
+                let connect_timeout = Duration::from_secs(DIRECT_CONNECT_TIMEOUT_SECS);
+                // Try to parse as SocketAddr first (IP:port), otherwise treat as hostname:port
+                let mut stream = if let Ok(proxy_addr) = address.parse::<SocketAddr>() {
+                    // IP:port format - use socket with optional interface binding
+                    let bind_ip = Self::resolve_bind_address(
+                        interface,
+                        &None,
+                        proxy_addr,
+                        bind_rr.as_deref(),
+                    );

-                let bind_ip = interface.as_ref()
-                    .and_then(|s| s.parse::<IpAddr>().ok());
+                    let socket = create_outgoing_socket_bound(proxy_addr, bind_ip)?;

-                let socket = create_outgoing_socket_bound(proxy_addr, bind_ip)?;
+                    socket.set_nonblocking(true)?;
+                    match socket.connect(&proxy_addr.into()) {
+                        Ok(()) => {},
+                        Err(err) if err.raw_os_error() == Some(libc::EINPROGRESS) || err.kind() == std::io::ErrorKind::WouldBlock => {},
+                        Err(err) => return Err(ProxyError::Io(err)),
+                    }

-                socket.set_nonblocking(true)?;
-                match socket.connect(&proxy_addr.into()) {
-                    Ok(()) => {},
-                    Err(err) if err.raw_os_error() == Some(libc::EINPROGRESS) || err.kind() == std::io::ErrorKind::WouldBlock => {},
-                    Err(err) => return Err(ProxyError::Io(err)),
+                    let std_stream: std::net::TcpStream = socket.into();
+                    let stream = TcpStream::from_std(std_stream)?;
+
+                    match tokio::time::timeout(connect_timeout, stream.writable()).await {
+                        Ok(Ok(())) => {}
+                        Ok(Err(e)) => return Err(ProxyError::Io(e)),
+                        Err(_) => {
+                            return Err(ProxyError::ConnectionTimeout {
+                                addr: proxy_addr.to_string(),
+                            });
+                        }
+                    }
+                    if let Some(e) = stream.take_error()? {
+                        return Err(ProxyError::Io(e));
+                    }
+                    stream
+                } else {
+                    // Hostname:port format - use tokio DNS resolution
+                    // Note: interface binding is not supported for hostnames
+                    if interface.is_some() {
+                        warn!("SOCKS5 interface binding is not supported for hostname addresses, ignoring");
+                    }
+                    match tokio::time::timeout(connect_timeout, TcpStream::connect(address)).await {
+                        Ok(Ok(stream)) => stream,
+                        Ok(Err(e)) => return Err(ProxyError::Io(e)),
+                        Err(_) => {
+                            return Err(ProxyError::ConnectionTimeout {
+                                addr: address.clone(),
+                            });
+                        }
+                    }
+                };
+
+                debug!(config = ?config, "Socks5 connection");
+                // replace socks user:pass with config.selected_scope, if set
+                let scope: Option<&str> = Some(config.selected_scope.as_str())
+                    .filter(|s| !s.is_empty());
+                let _username: Option<&str> = scope.or(username.as_deref());
+                let _password: Option<&str> = scope.or(password.as_deref());
+
+                match tokio::time::timeout(
+                    connect_timeout,
+                    connect_socks5(&mut stream, target, _username, _password),
+                )
+                .await
+                {
+                    Ok(Ok(())) => {}
+                    Ok(Err(e)) => return Err(e),
+                    Err(_) => {
+                        return Err(ProxyError::ConnectionTimeout {
+                            addr: target.to_string(),
+                        });
+                    }
                }
-
-                let std_stream: std::net::TcpStream = socket.into();
-                let mut stream = TcpStream::from_std(std_stream)?;
-
-                stream.writable().await?;
-                if let Some(e) = stream.take_error()? {
-                    return Err(ProxyError::Io(e));
-                }
-
-                connect_socks5(&mut stream, target, username.as_deref(), password.as_deref()).await?;
                Ok(stream)
            },
        }
@@ -350,104 +547,186 @@ impl UpstreamManager {

    /// Ping all Telegram DCs through all upstreams.
    /// Tests BOTH IPv6 and IPv4, returns separate results for each.
-    pub async fn ping_all_dcs(&self, prefer_ipv6: bool) -> Vec<StartupPingResult> {
-        let upstreams: Vec<(usize, UpstreamConfig)> = {
+    pub async fn ping_all_dcs(
+        &self,
+        prefer_ipv6: bool,
+        dc_overrides: &HashMap<String, Vec<String>>,
+        ipv4_enabled: bool,
+        ipv6_enabled: bool,
+    ) -> Vec<StartupPingResult> {
+        let upstreams: Vec<(usize, UpstreamConfig, Arc<AtomicUsize>)> = {
            let guard = self.upstreams.read().await;
            guard.iter().enumerate()
-                .map(|(i, u)| (i, u.config.clone()))
+                .map(|(i, u)| (i, u.config.clone(), u.bind_rr.clone()))
                .collect()
        };

        let mut all_results = Vec::new();

-        for (upstream_idx, upstream_config) in &upstreams {
+        for (upstream_idx, upstream_config, bind_rr) in &upstreams {
            let upstream_name = match &upstream_config.upstream_type {
-                UpstreamType::Direct { interface } => {
+                UpstreamType::Direct { interface, .. } => {
                    format!("direct{}", interface.as_ref().map(|i| format!(" ({})", i)).unwrap_or_default())
                }
                UpstreamType::Socks4 { address, .. } => format!("socks4://{}", address),
                UpstreamType::Socks5 { address, .. } => format!("socks5://{}", address),
            };

-            let mut v6_results = Vec::new();
-            let mut v4_results = Vec::new();
+            let mut v6_results = Vec::with_capacity(NUM_DCS);
+            if ipv6_enabled {
+                for dc_zero_idx in 0..NUM_DCS {
+                    let dc_v6 = TG_DATACENTERS_V6[dc_zero_idx];
+                    let addr_v6 = SocketAddr::new(dc_v6, TG_DATACENTER_PORT);

-            // === Ping IPv6 first ===
-            for dc_zero_idx in 0..NUM_DCS {
-                let dc_v6 = TG_DATACENTERS_V6[dc_zero_idx];
-                let addr_v6 = SocketAddr::new(dc_v6, TG_DATACENTER_PORT);
+                    let result = tokio::time::timeout(
+                        Duration::from_secs(DC_PING_TIMEOUT_SECS),
+                        self.ping_single_dc(&upstream_config, Some(bind_rr.clone()), addr_v6)
+                    ).await;

-                let result = tokio::time::timeout(
-                    Duration::from_secs(DC_PING_TIMEOUT_SECS),
-                    self.ping_single_dc(&upstream_config, addr_v6)
-                ).await;
-
-                let ping_result = match result {
-                    Ok(Ok(rtt_ms)) => {
-                        let mut guard = self.upstreams.write().await;
-                        if let Some(u) = guard.get_mut(*upstream_idx) {
-                            u.dc_latency[dc_zero_idx].update(rtt_ms);
+                    let ping_result = match result {
+                        Ok(Ok(rtt_ms)) => {
+                            let mut guard = self.upstreams.write().await;
+                            if let Some(u) = guard.get_mut(*upstream_idx) {
+                                u.dc_latency[dc_zero_idx].update(rtt_ms);
+                            }
+                            DcPingResult {
+                                dc_idx: dc_zero_idx + 1,
+                                dc_addr: addr_v6,
+                                rtt_ms: Some(rtt_ms),
+                                error: None,
+                            }
                        }
-                        DcPingResult {
+                        Ok(Err(e)) => DcPingResult {
                            dc_idx: dc_zero_idx + 1,
                            dc_addr: addr_v6,
-                            rtt_ms: Some(rtt_ms),
-                            error: None,
-                        }
-                    }
-                    Ok(Err(e)) => DcPingResult {
+                            rtt_ms: None,
+                            error: Some(e.to_string()),
+                        },
+                        Err(_) => DcPingResult {
+                            dc_idx: dc_zero_idx + 1,
+                            dc_addr: addr_v6,
+                            rtt_ms: None,
+                            error: Some("timeout".to_string()),
+                        },
+                    };
+                    v6_results.push(ping_result);
+                }
+            } else {
+                for dc_zero_idx in 0..NUM_DCS {
+                    let dc_v6 = TG_DATACENTERS_V6[dc_zero_idx];
+                    v6_results.push(DcPingResult {
                        dc_idx: dc_zero_idx + 1,
-                        dc_addr: addr_v6,
+                        dc_addr: SocketAddr::new(dc_v6, TG_DATACENTER_PORT),
                        rtt_ms: None,
-                        error: Some(e.to_string()),
-                    },
-                    Err(_) => DcPingResult {
-                        dc_idx: dc_zero_idx + 1,
-                        dc_addr: addr_v6,
-                        rtt_ms: None,
-                        error: Some("timeout".to_string()),
-                    },
-                };
-                v6_results.push(ping_result);
+                        error: Some("ipv6 disabled".to_string()),
+                    });
+                }
            }

-            // === Then ping IPv4 ===
-            for dc_zero_idx in 0..NUM_DCS {
-                let dc_v4 = TG_DATACENTERS_V4[dc_zero_idx];
-                let addr_v4 = SocketAddr::new(dc_v4, TG_DATACENTER_PORT);
+            let mut v4_results = Vec::with_capacity(NUM_DCS);
+            if ipv4_enabled {
+                for dc_zero_idx in 0..NUM_DCS {
+                    let dc_v4 = TG_DATACENTERS_V4[dc_zero_idx];
+                    let addr_v4 = SocketAddr::new(dc_v4, TG_DATACENTER_PORT);

-                let result = tokio::time::timeout(
-                    Duration::from_secs(DC_PING_TIMEOUT_SECS),
-                    self.ping_single_dc(&upstream_config, addr_v4)
-                ).await;
+                    let result = tokio::time::timeout(
+                        Duration::from_secs(DC_PING_TIMEOUT_SECS),
+                        self.ping_single_dc(&upstream_config, Some(bind_rr.clone()), addr_v4)
+                    ).await;

-                let ping_result = match result {
-                    Ok(Ok(rtt_ms)) => {
-                        let mut guard = self.upstreams.write().await;
-                        if let Some(u) = guard.get_mut(*upstream_idx) {
-                            u.dc_latency[dc_zero_idx].update(rtt_ms);
+                    let ping_result = match result {
+                        Ok(Ok(rtt_ms)) => {
+                            let mut guard = self.upstreams.write().await;
+                            if let Some(u) = guard.get_mut(*upstream_idx) {
+                                u.dc_latency[dc_zero_idx].update(rtt_ms);
+                            }
+                            DcPingResult {
+                                dc_idx: dc_zero_idx + 1,
+                                dc_addr: addr_v4,
+                                rtt_ms: Some(rtt_ms),
+                                error: None,
+                            }
                        }
-                        DcPingResult {
+                        Ok(Err(e)) => DcPingResult {
                            dc_idx: dc_zero_idx + 1,
                            dc_addr: addr_v4,
-                            rtt_ms: Some(rtt_ms),
-                            error: None,
-                        }
-                    }
-                    Ok(Err(e)) => DcPingResult {
+                            rtt_ms: None,
+                            error: Some(e.to_string()),
+                        },
+                        Err(_) => DcPingResult {
+                            dc_idx: dc_zero_idx + 1,
+                            dc_addr: addr_v4,
+                            rtt_ms: None,
+                            error: Some("timeout".to_string()),
+                        },
+                    };
+                    v4_results.push(ping_result);
+                }
+            } else {
+                for dc_zero_idx in 0..NUM_DCS {
+                    let dc_v4 = TG_DATACENTERS_V4[dc_zero_idx];
+                    v4_results.push(DcPingResult {
                        dc_idx: dc_zero_idx + 1,
-                        dc_addr: addr_v4,
+                        dc_addr: SocketAddr::new(dc_v4, TG_DATACENTER_PORT),
                        rtt_ms: None,
-                        error: Some(e.to_string()),
-                    },
-                    Err(_) => DcPingResult {
-                        dc_idx: dc_zero_idx + 1,
-                        dc_addr: addr_v4,
-                        rtt_ms: None,
-                        error: Some("timeout".to_string()),
+                        error: Some("ipv4 disabled".to_string()),
+                    });
+                }
+            }
+
+            // === Ping DC overrides (v4/v6) ===
+            for (dc_key, addrs) in dc_overrides {
+                let dc_num: i16 = match dc_key.parse::<i16>() {
+                    Ok(v) if v > 0 => v,
+                    Err(_) => {
+                        warn!(dc = %dc_key, "Invalid dc_overrides key, skipping");
+                        continue;
                    },
+                    _ => continue,
                };
-                v4_results.push(ping_result);
+                let dc_idx = dc_num as usize;
+                for addr_str in addrs {
+                    match addr_str.parse::<SocketAddr>() {
+                        Ok(addr) => {
+                            let is_v6 = addr.is_ipv6();
+                            if (is_v6 && !ipv6_enabled) || (!is_v6 && !ipv4_enabled) {
+                                continue;
+                            }
+                            let result = tokio::time::timeout(
+                                Duration::from_secs(DC_PING_TIMEOUT_SECS),
+                                self.ping_single_dc(&upstream_config, Some(bind_rr.clone()), addr)
+                            ).await;
+
+                            let ping_result = match result {
+                                Ok(Ok(rtt_ms)) => DcPingResult {
+                                    dc_idx,
+                                    dc_addr: addr,
+                                    rtt_ms: Some(rtt_ms),
+                                    error: None,
+                                },
+                                Ok(Err(e)) => DcPingResult {
+                                    dc_idx,
+                                    dc_addr: addr,
+                                    rtt_ms: None,
+                                    error: Some(e.to_string()),
+                                },
+                                Err(_) => DcPingResult {
+                                    dc_idx,
+                                    dc_addr: addr,
+                                    rtt_ms: None,
+                                    error: Some("timeout".to_string()),
+                                },
+                            };
+
+                            if is_v6 {
+                                v6_results.push(ping_result);
+                            } else {
+                                v4_results.push(ping_result);
+                            }
+                        }
+                        Err(_) => warn!(dc = %dc_idx, addr = %addr_str, "Invalid dc_overrides address, skipping"),
+                    }
+                }
            }

            // Check if both IP versions have at least one working DC
@@ -484,9 +763,14 @@ impl UpstreamManager {
        all_results
    }

-    async fn ping_single_dc(&self, config: &UpstreamConfig, target: SocketAddr) -> Result<f64> {
+    async fn ping_single_dc(
+        &self,
+        config: &UpstreamConfig,
+        bind_rr: Option<Arc<AtomicUsize>>,
+        target: SocketAddr,
+    ) -> Result<f64> {
        let start = Instant::now();
-        let _stream = self.connect_via_upstream(config, target).await?;
+        let _stream = self.connect_via_upstream(config, target, bind_rr).await?;
        Ok(start.elapsed().as_secs_f64() * 1000.0)
    }

@@ -494,7 +778,7 @@ impl UpstreamManager {

    /// Background health check: rotates through DCs, 30s interval.
    /// Uses preferred IP version based on config.
-    pub async fn run_health_checks(&self, prefer_ipv6: bool) {
+    pub async fn run_health_checks(&self, prefer_ipv6: bool, ipv4_enabled: bool, ipv6_enabled: bool) {
        let mut dc_rotation = 0usize;

        loop {
@@ -503,30 +787,39 @@ impl UpstreamManager {
            let dc_zero_idx = dc_rotation % NUM_DCS;
            dc_rotation += 1;

-            let dc_addr = if prefer_ipv6 {
-                SocketAddr::new(TG_DATACENTERS_V6[dc_zero_idx], TG_DATACENTER_PORT)
+            let primary_v6 = SocketAddr::new(TG_DATACENTERS_V6[dc_zero_idx], TG_DATACENTER_PORT);
+            let primary_v4 = SocketAddr::new(TG_DATACENTERS_V4[dc_zero_idx], TG_DATACENTER_PORT);
+            let dc_addr = if prefer_ipv6 && ipv6_enabled {
+                primary_v6
+            } else if ipv4_enabled {
+                primary_v4
+            } else if ipv6_enabled {
+                primary_v6
            } else {
-                SocketAddr::new(TG_DATACENTERS_V4[dc_zero_idx], TG_DATACENTER_PORT)
+                continue;
            };

-            let fallback_addr = if prefer_ipv6 {
-                SocketAddr::new(TG_DATACENTERS_V4[dc_zero_idx], TG_DATACENTER_PORT)
+            let fallback_addr = if dc_addr.is_ipv6() && ipv4_enabled {
+                Some(primary_v4)
+            } else if dc_addr.is_ipv4() && ipv6_enabled {
+                Some(primary_v6)
            } else {
-                SocketAddr::new(TG_DATACENTERS_V6[dc_zero_idx], TG_DATACENTER_PORT)
+                None
            };

            let count = self.upstreams.read().await.len();

            for i in 0..count {
-                let config = {
+                let (config, bind_rr) = {
                    let guard = self.upstreams.read().await;
-                    guard[i].config.clone()
+                    let u = &guard[i];
+                    (u.config.clone(), u.bind_rr.clone())
                };

                let start = Instant::now();
                let result = tokio::time::timeout(
                    Duration::from_secs(10),
-                    self.connect_via_upstream(&config, dc_addr)
+                    self.connect_via_upstream(&config, dc_addr, Some(bind_rr.clone()))
                ).await;

                match result {
@@ -551,48 +844,60 @@ impl UpstreamManager {
                        // Try fallback
                        debug!(dc = dc_zero_idx + 1, "Health check failed, trying fallback");

-                        let start2 = Instant::now();
-                        let result2 = tokio::time::timeout(
-                            Duration::from_secs(10),
-                            self.connect_via_upstream(&config, fallback_addr)
-                        ).await;
+                        if let Some(fallback_addr) = fallback_addr {
+                            let start2 = Instant::now();
+                            let result2 = tokio::time::timeout(
+                                Duration::from_secs(10),
+                                self.connect_via_upstream(&config, fallback_addr, Some(bind_rr.clone()))
+                            ).await;
+
+                            let mut guard = self.upstreams.write().await;
+                            let u = &mut guard[i];
+
+                            match result2 {
+                                Ok(Ok(_stream)) => {
+                                    let rtt_ms = start2.elapsed().as_secs_f64() * 1000.0;
+                                    u.dc_latency[dc_zero_idx].update(rtt_ms);
+
+                                    if !u.healthy {
+                                        info!(
+                                            rtt = format!("{:.0} ms", rtt_ms),
+                                            dc = dc_zero_idx + 1,
+                                            "Upstream recovered (fallback)"
+                                        );
+                                    }
+                                    u.healthy = true;
+                                    u.fails = 0;
+                                }
+                                Ok(Err(e)) => {
+                                    u.fails += 1;
+                                    debug!(dc = dc_zero_idx + 1, fails = u.fails,
+                                        "Health check failed (both): {}", e);
+                                    if u.fails > 3 {
+                                        u.healthy = false;
+                                        warn!("Upstream unhealthy (fails)");
+                                    }
+                                }
+                                Err(_) => {
+                                    u.fails += 1;
+                                    debug!(dc = dc_zero_idx + 1, fails = u.fails,
+                                        "Health check timeout (both)");
+                                    if u.fails > 3 {
+                                        u.healthy = false;
+                                        warn!("Upstream unhealthy (timeout)");
+                                    }
+                                }
+                            }
+                            u.last_check = std::time::Instant::now();
+                            continue;
+                        }

                        let mut guard = self.upstreams.write().await;
                        let u = &mut guard[i];
-
-                        match result2 {
-                            Ok(Ok(_stream)) => {
-                                let rtt_ms = start2.elapsed().as_secs_f64() * 1000.0;
-                                u.dc_latency[dc_zero_idx].update(rtt_ms);
-
-                                if !u.healthy {
-                                    info!(
-                                        rtt = format!("{:.0} ms", rtt_ms),
-                                        dc = dc_zero_idx + 1,
-                                        "Upstream recovered (fallback)"
-                                    );
-                                }
-                                u.healthy = true;
-                                u.fails = 0;
-                            }
-                            Ok(Err(e)) => {
-                                u.fails += 1;
-                                debug!(dc = dc_zero_idx + 1, fails = u.fails,
-                                    "Health check failed (both): {}", e);
-                                if u.fails > 3 {
-                                    u.healthy = false;
-                                    warn!("Upstream unhealthy (fails)");
-                                }
-                            }
-                            Err(_) => {
-                                u.fails += 1;
-                                debug!(dc = dc_zero_idx + 1, fails = u.fails,
-                                    "Health check timeout (both)");
-                                if u.fails > 3 {
-                                    u.healthy = false;
-                                    warn!("Upstream unhealthy (timeout)");
-                                }
-                            }
+                        u.fails += 1;
+                        if u.fails > 3 {
+                            u.healthy = false;
+                            warn!("Upstream unhealthy (no fallback family)");
                        }
                        u.last_check = std::time::Instant::now();
                    }
@@ -624,4 +929,4 @@ impl UpstreamManager {

        Some(SocketAddr::new(ip, TG_DATACENTER_PORT))
    }
-}
+}
--- a/telemt.service
+++ b/telemt.service
@@ -7,6 +7,7 @@ Type=simple
 WorkingDirectory=/bin
 ExecStart=/bin/telemt /etc/telemt.toml
 Restart=on-failure
+LimitNOFILE=65536

 [Install]
 WantedBy=multi-user.target
--- a/tools/dc.py
+++ b/tools/dc.py
@@ -0,0 +1,204 @@
+"""Telegram datacenter server checker."""
+
+from __future__ import annotations
+
+import asyncio
+from dataclasses import dataclass, field
+from itertools import groupby
+from operator import attrgetter
+from pathlib import Path
+from typing import TYPE_CHECKING
+
+from telethon import TelegramClient
+from telethon.tl.functions.help import GetConfigRequest
+
+if TYPE_CHECKING:
+    from telethon.tl.types import DcOption
+
+API_ID: int = 123456
+API_HASH: str = ""
+SESSION_NAME: str = "session"
+OUTPUT_FILE: Path = Path("telegram_servers.txt")
+
+_CONSOLE_FLAG_MAP: dict[str, str] = {
+    "IPv6": "IPv6",
+    "MEDIA-ONLY": "🎬 MEDIA-ONLY",
+    "CDN": "📦 CDN",
+    "TCPO": "🔒 TCPO",
+    "STATIC": "📌 STATIC",
+}
+
+
+@dataclass(frozen=True, slots=True)
+class DCServer:
+    """Typed representation of a Telegram DC server.
+
+    Attributes:
+        dc_id: Datacenter identifier.
+        ip: Server IP address.
+        port: Server port.
+        flags: Active flag labels (plain, without emoji).
+    """
+
+    dc_id: int
+    ip: str
+    port: int
+    flags: frozenset[str] = field(default_factory=frozenset)
+
+    @classmethod
+    def from_option(cls, dc: DcOption) -> DCServer:
+        """Create from a Telethon DcOption.
+
+        Args:
+            dc: Raw DcOption object.
+
+        Returns:
+            Parsed DCServer instance.
+        """
+        checks: dict[str, bool] = {
+            "IPv6": dc.ipv6,
+            "MEDIA-ONLY": dc.media_only,
+            "CDN": dc.cdn,
+            "TCPO": dc.tcpo_only,
+            "STATIC": dc.static,
+        }
+        return cls(
+            dc_id=dc.id,
+            ip=dc.ip_address,
+            port=dc.port,
+            flags=frozenset(k for k, v in checks.items() if v),
+        )
+
+    def flags_display(self, *, emoji: bool = False) -> str:
+        """Formatted flags string.
+
+        Args:
+            emoji: Whether to include emoji prefixes.
+
+        Returns:
+            Bracketed flags or '[STANDARD]'.
+        """
+        if not self.flags:
+            return "[STANDARD]"
+        labels = sorted(
+            _CONSOLE_FLAG_MAP[f] if emoji else f for f in self.flags
+        )
+        return f"[{', '.join(labels)}]"
+
+
+class TelegramDCChecker:
+    """Fetches and displays Telegram DC configuration.
+
+    Attributes:
+        _client: Telethon client instance.
+        _servers: Parsed server list.
+    """
+
+    def __init__(self) -> None:
+        """Initialize the checker."""
+        self._client = TelegramClient(SESSION_NAME, API_ID, API_HASH)
+        self._servers: list[DCServer] = []
+
+    async def run(self) -> None:
+        """Connect, fetch config, display and save results."""
+        print("🔄 Подключаемся к Telegram...")  # noqa: T201
+        try:
+            await self._client.start()
+            print("✅ Подключение установлено!\n")  # noqa: T201
+
+            print("📡 Запрашиваем конфигурацию серверов...")  # noqa: T201
+            config = await self._client(GetConfigRequest())
+            self._servers = [DCServer.from_option(dc) for dc in config.dc_options]
+
+            self._print(config)
+            self._save(config)
+        finally:
+            await self._client.disconnect()
+            print("\n👋 Отключились от Telegram")  # noqa: T201
+
+    def _grouped(self) -> dict[int, list[DCServer]]:
+        """Group servers by DC ID.
+
+        Returns:
+            Ordered mapping of DC ID to servers.
+        """
+        ordered = sorted(self._servers, key=attrgetter("dc_id"))
+        return {k: list(g) for k, g in groupby(ordered, key=attrgetter("dc_id"))}
+
+    def _print(self, config: object) -> None:
+        """Print results to stdout in original format.
+
+        Args:
+            config: Raw Telegram config.
+        """
+        sep = "=" * 80
+        dash = "-" * 80
+        total = len(self._servers)
+
+        print(f"📊 Получено серверов: {total}\n")  # noqa: T201
+        print(sep)  # noqa: T201
+
+        for dc_id, servers in self._grouped().items():
+            print(f"\n🌐 DATACENTER {dc_id} ({len(servers)} серверов)")  # noqa: T201
+            print(dash)  # noqa: T201
+            for s in servers:
+                print(f"  {s.ip:45}:{s.port:5} {s.flags_display(emoji=True)}")  # noqa: T201
+
+        ipv4 = total - self._flag_count("IPv6")
+        print(f"\n{sep}")  # noqa: T201
+        print("📈 СТАТИСТИКА:")  # noqa: T201
+        print(sep)  # noqa: T201
+        print(f"  Всего серверов:      {total}")  # noqa: T201
+        print(f"  IPv4 серверы:        {ipv4}")  # noqa: T201
+        print(f"  IPv6 серверы:        {self._flag_count('IPv6')}")  # noqa: T201
+        print(f"  Media-only:          {self._flag_count('MEDIA-ONLY')}")  # noqa: T201
+        print(f"  CDN серверы:         {self._flag_count('CDN')}")  # noqa: T201
+        print(f"  TCPO-only:           {self._flag_count('TCPO')}")  # noqa: T201
+        print(f"  Static:              {self._flag_count('STATIC')}")  # noqa: T201
+
+        print(f"\n{sep}")  # noqa: T201
+        print("ℹ️  ДОПОЛНИТЕЛЬНАЯ ИНФОРМАЦИЯ:")  # noqa: T201
+        print(sep)  # noqa: T201
+        print(f"  Дата конфигурации:   {config.date}")  # noqa: T201  # type: ignore[attr-defined]
+        print(f"  Expires:             {config.expires}")  # noqa: T201  # type: ignore[attr-defined]
+        print(f"  Test mode:           {config.test_mode}")  # noqa: T201  # type: ignore[attr-defined]
+        print(f"  This DC:             {config.this_dc}")  # noqa: T201  # type: ignore[attr-defined]
+
+    def _flag_count(self, flag: str) -> int:
+        """Count servers with a given flag.
+
+        Args:
+            flag: Flag name.
+
+        Returns:
+            Count of matching servers.
+        """
+        return sum(1 for s in self._servers if flag in s.flags)
+
+    def _save(self, config: object) -> None:
+        """Save results to file in original format.
+
+        Args:
+            config: Raw Telegram config.
+        """
+        parts: list[str] = []
+        parts.append("TELEGRAM DATACENTER SERVERS\n")
+        parts.append("=" * 80 + "\n\n")
+
+        for dc_id, servers in self._grouped().items():
+            parts.append(f"\nDATACENTER {dc_id} ({len(servers)} servers)\n")
+            parts.append("-" * 80 + "\n")
+            for s in servers:
+                parts.append(f"  {s.ip}:{s.port} {s.flags_display(emoji=False)}\n")
+
+        parts.append(f"\n\nTotal servers: {len(self._servers)}\n")
+        parts.append(f"Generated: {config.date}\n")  # type: ignore[attr-defined]
+
+        OUTPUT_FILE.write_text("".join(parts), encoding="utf-8")
+
+        print(f"\n💾 Сохраняем результаты в файл {OUTPUT_FILE}...")  # noqa: T201
+        print(f"✅ Результаты сохранены в {OUTPUT_FILE}")  # noqa: T201
+
+
+if __name__ == "__main__":
+    asyncio.run(TelegramDCChecker().run())
--- a/tools/grafana-dashboard.json
+++ b/tools/grafana-dashboard.json
@@ -0,0 +1,804 @@
+{
+  "apiVersion": "dashboard.grafana.app/v1beta1",
+  "kind": "Dashboard",
+  "metadata": {
+    "annotations": {
+      "grafana.app/folder": "afd9kjusw2jnkb",
+      "grafana.app/saved-from-ui": "Grafana v12.4.0-21693836646 (f059795f04)"
+    },
+    "labels": {},
+    "name": "pi9trh5",
+    "namespace": "default"
+  },
+  "spec": {
+    "annotations": {
+      "list": [
+        {
+          "builtIn": 1,
+          "datasource": {
+            "type": "prometheus",
+            "uid": "${datasource}"
+          },
+          "enable": true,
+          "hide": true,
+          "iconColor": "rgba(0, 211, 255, 1)",
+          "name": "Annotations & Alerts",
+          "type": "dashboard"
+        }
+      ]
+    },
+    "editable": true,
+    "fiscalYearStartMonth": 0,
+    "graphTooltip": 0,
+    "links": [],
+    "panels": [
+      {
+        "collapsed": false,
+        "gridPos": {
+          "h": 1,
+          "w": 24,
+          "x": 0,
+          "y": 0
+        },
+        "id": 5,
+        "panels": [],
+        "title": "Common",
+        "type": "row"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "thresholds"
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "red",
+                  "value": 0
+                },
+                {
+                  "color": "green",
+                  "value": 300
+                }
+              ]
+            },
+            "unit": "s"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 6,
+          "x": 0,
+          "y": 1
+        },
+        "id": 1,
+        "options": {
+          "colorMode": "value",
+          "graphMode": "area",
+          "justifyMode": "auto",
+          "orientation": "auto",
+          "percentChangeColorMode": "standard",
+          "reduceOptions": {
+            "calcs": [
+              "lastNotNull"
+            ],
+            "fields": "",
+            "values": false
+          },
+          "showPercentChange": false,
+          "textMode": "auto",
+          "wideLayout": true
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "datasource": {
+              "type": "prometheus",
+              "uid": "${datasource}"
+            },
+            "editorMode": "code",
+            "expr": "max(telemt_uptime_seconds) by (service)",
+            "format": "time_series",
+            "legendFormat": "__auto",
+            "range": true,
+            "refId": "A"
+          }
+        ],
+        "title": "uptime",
+        "type": "stat"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "thresholds"
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "green",
+                  "value": 0
+                },
+                {
+                  "color": "red",
+                  "value": 80
+                }
+              ]
+            },
+            "unit": "none"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 6,
+          "x": 6,
+          "y": 1
+        },
+        "id": 2,
+        "options": {
+          "colorMode": "value",
+          "graphMode": "area",
+          "justifyMode": "auto",
+          "orientation": "auto",
+          "percentChangeColorMode": "standard",
+          "reduceOptions": {
+            "calcs": [
+              "lastNotNull"
+            ],
+            "fields": "",
+            "values": false
+          },
+          "showPercentChange": false,
+          "textMode": "auto",
+          "wideLayout": true
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "datasource": {
+              "type": "prometheus",
+              "uid": "${datasource}"
+            },
+            "editorMode": "code",
+            "expr": "max(telemt_connections_total) by (service)",
+            "format": "time_series",
+            "legendFormat": "__auto",
+            "range": true,
+            "refId": "A"
+          }
+        ],
+        "title": "connections_total",
+        "type": "stat"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "thresholds"
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "green",
+                  "value": 0
+                },
+                {
+                  "color": "red",
+                  "value": 80
+                }
+              ]
+            },
+            "unit": "none"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 6,
+          "x": 12,
+          "y": 1
+        },
+        "id": 3,
+        "options": {
+          "colorMode": "value",
+          "graphMode": "area",
+          "justifyMode": "auto",
+          "orientation": "auto",
+          "percentChangeColorMode": "standard",
+          "reduceOptions": {
+            "calcs": [
+              "lastNotNull"
+            ],
+            "fields": "",
+            "values": false
+          },
+          "showPercentChange": false,
+          "textMode": "auto",
+          "wideLayout": true
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "datasource": {
+              "type": "prometheus",
+              "uid": "${datasource}"
+            },
+            "editorMode": "code",
+            "expr": "max(telemt_connections_bad_total) by (service)",
+            "format": "time_series",
+            "legendFormat": "__auto",
+            "range": true,
+            "refId": "A"
+          }
+        ],
+        "title": "connections_bad",
+        "type": "stat"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "thresholds"
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "green",
+                  "value": 0
+                },
+                {
+                  "color": "red",
+                  "value": 80
+                }
+              ]
+            },
+            "unit": "none"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 6,
+          "x": 18,
+          "y": 1
+        },
+        "id": 4,
+        "options": {
+          "colorMode": "value",
+          "graphMode": "area",
+          "justifyMode": "auto",
+          "orientation": "auto",
+          "percentChangeColorMode": "standard",
+          "reduceOptions": {
+            "calcs": [
+              "lastNotNull"
+            ],
+            "fields": "",
+            "values": false
+          },
+          "showPercentChange": false,
+          "textMode": "auto",
+          "wideLayout": true
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "datasource": {
+              "type": "prometheus",
+              "uid": "${datasource}"
+            },
+            "editorMode": "code",
+            "expr": "max(telemt_handshake_timeouts_total) by (service)",
+            "format": "time_series",
+            "legendFormat": "__auto",
+            "range": true,
+            "refId": "A"
+          }
+        ],
+        "title": "handshake_timeouts",
+        "type": "stat"
+      },
+      {
+        "collapsed": false,
+        "gridPos": {
+          "h": 1,
+          "w": 24,
+          "x": 0,
+          "y": 9
+        },
+        "id": 6,
+        "panels": [],
+        "repeat": "user",
+        "title": "$user",
+        "type": "row"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "palette-classic"
+            },
+            "custom": {
+              "axisBorderShow": false,
+              "axisCenteredZero": false,
+              "axisColorMode": "text",
+              "axisLabel": "",
+              "axisPlacement": "auto",
+              "barAlignment": 0,
+              "barWidthFactor": 0.6,
+              "drawStyle": "line",
+              "fillOpacity": 0,
+              "gradientMode": "none",
+              "hideFrom": {
+                "legend": false,
+                "tooltip": false,
+                "viz": false
+              },
+              "insertNulls": false,
+              "lineInterpolation": "linear",
+              "lineWidth": 1,
+              "pointSize": 5,
+              "scaleDistribution": {
+                "type": "linear"
+              },
+              "showPoints": "auto",
+              "showValues": false,
+              "spanNulls": false,
+              "stacking": {
+                "group": "A",
+                "mode": "none"
+              },
+              "thresholdsStyle": {
+                "mode": "off"
+              }
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "green",
+                  "value": 0
+                },
+                {
+                  "color": "red",
+                  "value": 80
+                }
+              ]
+            },
+            "unit": "none"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 12,
+          "x": 0,
+          "y": 10
+        },
+        "id": 7,
+        "options": {
+          "legend": {
+            "calcs": [],
+            "displayMode": "list",
+            "placement": "bottom",
+            "showLegend": false
+          },
+          "tooltip": {
+            "hideZeros": false,
+            "mode": "single",
+            "sort": "none"
+          }
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "editorMode": "code",
+            "expr": "sum(telemt_user_connections_total{user=\"$user\"}) by (user)",
+            "format": "time_series",
+            "legendFormat": "{{ user }}",
+            "range": true,
+            "refId": "A"
+          }
+        ],
+        "title": "user_connections",
+        "type": "timeseries"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "palette-classic"
+            },
+            "custom": {
+              "axisBorderShow": false,
+              "axisCenteredZero": false,
+              "axisColorMode": "text",
+              "axisLabel": "",
+              "axisPlacement": "auto",
+              "barAlignment": 0,
+              "barWidthFactor": 0.6,
+              "drawStyle": "line",
+              "fillOpacity": 0,
+              "gradientMode": "none",
+              "hideFrom": {
+                "legend": false,
+                "tooltip": false,
+                "viz": false
+              },
+              "insertNulls": false,
+              "lineInterpolation": "linear",
+              "lineWidth": 1,
+              "pointSize": 5,
+              "scaleDistribution": {
+                "type": "linear"
+              },
+              "showPoints": "auto",
+              "showValues": false,
+              "spanNulls": false,
+              "stacking": {
+                "group": "A",
+                "mode": "none"
+              },
+              "thresholdsStyle": {
+                "mode": "off"
+              }
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "green",
+                  "value": 0
+                },
+                {
+                  "color": "red",
+                  "value": 80
+                }
+              ]
+            },
+            "unit": "none"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 12,
+          "x": 12,
+          "y": 10
+        },
+        "id": 8,
+        "options": {
+          "legend": {
+            "calcs": [],
+            "displayMode": "list",
+            "placement": "bottom",
+            "showLegend": false
+          },
+          "tooltip": {
+            "hideZeros": false,
+            "mode": "single",
+            "sort": "none"
+          }
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "editorMode": "code",
+            "expr": "sum(telemt_user_connections_current{user=\"$user\"}) by (user)",
+            "format": "time_series",
+            "legendFormat": "{{ user }}",
+            "range": true,
+            "refId": "A"
+          }
+        ],
+        "title": "user_connections_current",
+        "type": "timeseries"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "palette-classic"
+            },
+            "custom": {
+              "axisBorderShow": false,
+              "axisCenteredZero": false,
+              "axisColorMode": "text",
+              "axisLabel": "",
+              "axisPlacement": "auto",
+              "barAlignment": 0,
+              "barWidthFactor": 0.6,
+              "drawStyle": "line",
+              "fillOpacity": 0,
+              "gradientMode": "none",
+              "hideFrom": {
+                "legend": false,
+                "tooltip": false,
+                "viz": false
+              },
+              "insertNulls": false,
+              "lineInterpolation": "linear",
+              "lineWidth": 1,
+              "pointSize": 5,
+              "scaleDistribution": {
+                "type": "linear"
+              },
+              "showPoints": "auto",
+              "showValues": false,
+              "spanNulls": false,
+              "stacking": {
+                "group": "A",
+                "mode": "none"
+              },
+              "thresholdsStyle": {
+                "mode": "off"
+              }
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "green",
+                  "value": 0
+                },
+                {
+                  "color": "red",
+                  "value": 80
+                }
+              ]
+            },
+            "unit": "binBps"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 12,
+          "x": 0,
+          "y": 18
+        },
+        "id": 9,
+        "options": {
+          "legend": {
+            "calcs": [],
+            "displayMode": "list",
+            "placement": "bottom",
+            "showLegend": false
+          },
+          "tooltip": {
+            "hideZeros": false,
+            "mode": "single",
+            "sort": "none"
+          }
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "editorMode": "code",
+            "expr": "- sum(rate(telemt_user_octets_from_client{user=\"$user\"}[$__rate_interval])) by (user)",
+            "format": "time_series",
+            "legendFormat": "{{ user }} TX",
+            "range": true,
+            "refId": "A"
+          },
+          {
+            "datasource": {
+              "type": "prometheus",
+              "uid": "${datasource}"
+            },
+            "editorMode": "code",
+            "expr": "sum(rate(telemt_user_octets_to_client{user=\"$user\"}[$__rate_interval])) by (user)",
+            "format": "time_series",
+            "legendFormat": "{{ user }} RX",
+            "range": true,
+            "refId": "B"
+          }
+        ],
+        "title": "user_octets",
+        "type": "timeseries"
+      },
+      {
+        "datasource": {
+          "type": "prometheus",
+          "uid": "${datasource}"
+        },
+        "fieldConfig": {
+          "defaults": {
+            "color": {
+              "mode": "palette-classic"
+            },
+            "custom": {
+              "axisBorderShow": false,
+              "axisCenteredZero": false,
+              "axisColorMode": "text",
+              "axisLabel": "",
+              "axisPlacement": "auto",
+              "barAlignment": 0,
+              "barWidthFactor": 0.6,
+              "drawStyle": "line",
+              "fillOpacity": 0,
+              "gradientMode": "none",
+              "hideFrom": {
+                "legend": false,
+                "tooltip": false,
+                "viz": false
+              },
+              "insertNulls": false,
+              "lineInterpolation": "linear",
+              "lineWidth": 1,
+              "pointSize": 5,
+              "scaleDistribution": {
+                "type": "linear"
+              },
+              "showPoints": "auto",
+              "showValues": false,
+              "spanNulls": false,
+              "stacking": {
+                "group": "A",
+                "mode": "none"
+              },
+              "thresholdsStyle": {
+                "mode": "off"
+              }
+            },
+            "mappings": [],
+            "thresholds": {
+              "mode": "absolute",
+              "steps": [
+                {
+                  "color": "green",
+                  "value": 0
+                },
+                {
+                  "color": "red",
+                  "value": 80
+                }
+              ]
+            },
+            "unit": "pps"
+          },
+          "overrides": []
+        },
+        "gridPos": {
+          "h": 8,
+          "w": 12,
+          "x": 12,
+          "y": 18
+        },
+        "id": 10,
+        "options": {
+          "legend": {
+            "calcs": [],
+            "displayMode": "list",
+            "placement": "bottom",
+            "showLegend": false
+          },
+          "tooltip": {
+            "hideZeros": false,
+            "mode": "single",
+            "sort": "none"
+          }
+        },
+        "pluginVersion": "12.4.0-21693836646",
+        "targets": [
+          {
+            "editorMode": "code",
+            "expr": "- sum(rate(telemt_user_msgs_from_client{user=\"$user\"}[$__rate_interval])) by (user)",
+            "format": "time_series",
+            "legendFormat": "{{ user }} TX",
+            "range": true,
+            "refId": "A"
+          },
+          {
+            "datasource": {
+              "type": "prometheus",
+              "uid": "${datasource}"
+            },
+            "editorMode": "code",
+            "expr": "sum(rate(telemt_user_msgs_to_client{user=\"$user\"}[$__rate_interval])) by (user)",
+            "format": "time_series",
+            "legendFormat": "{{ user }} RX",
+            "range": true,
+            "refId": "B"
+          }
+        ],
+        "title": "user_msgs",
+        "type": "timeseries"
+      }
+    ],
+    "preload": false,
+    "schemaVersion": 42,
+    "tags": [],
+    "templating": {
+      "list": [
+        {
+          "current": {
+            "text": "docker",
+            "value": "docker"
+          },
+          "datasource": {
+            "type": "prometheus",
+            "uid": "${datasource}"
+          },
+          "definition": "label_values(telemt_user_connections_total,user)",
+          "hide": 2,
+          "multi": true,
+          "name": "user",
+          "options": [],
+          "query": {
+            "qryType": 1,
+            "query": "label_values(telemt_user_connections_total,user)",
+            "refId": "VariableQueryEditor-VariableQuery"
+          },
+          "refresh": 1,
+          "regex": "",
+          "regexApplyTo": "value",
+          "sort": 1,
+          "type": "query"
+        },
+        {
+          "current": {
+            "text": "VM long-term",
+            "value": "P7D3016A027385E71"
+          },
+          "name": "datasource",
+          "options": [],
+          "query": "prometheus",
+          "refresh": 1,
+          "regex": "",
+          "type": "datasource"
+        }
+      ]
+    },
+    "time": {
+      "from": "now-6h",
+      "to": "now"
+    },
+    "timepicker": {},
+    "timezone": "browser",
+    "title": "Telemt MtProto proxy",
+    "weekStart": ""
+  }
+}
--- a/tools/tlsearch.py
+++ b/tools/tlsearch.py
@@ -0,0 +1,396 @@
+#!/usr/bin/env python3
+"""
+TLS Profile Inspector
+
+Usage:
+  python3 tools/tlsearch.py
+  python3 tools/tlsearch.py tlsfront
+  python3 tools/tlsearch.py tlsfront/petrovich.ru.json
+  python3 tools/tlsearch.py tlsfront --only-current
+"""
+
+from __future__ import annotations
+
+import argparse
+import datetime as dt
+import json
+from dataclasses import dataclass
+from pathlib import Path
+from typing import Any, Iterable
+
+
+TLS_VERSIONS = {
+    0x0301: "TLS 1.0",
+    0x0302: "TLS 1.1",
+    0x0303: "TLS 1.2",
+    0x0304: "TLS 1.3",
+}
+
+EXT_NAMES = {
+    0: "server_name",
+    5: "status_request",
+    10: "supported_groups",
+    11: "ec_point_formats",
+    13: "signature_algorithms",
+    16: "alpn",
+    18: "signed_certificate_timestamp",
+    21: "padding",
+    23: "extended_master_secret",
+    35: "session_ticket",
+    43: "supported_versions",
+    45: "psk_key_exchange_modes",
+    51: "key_share",
+}
+
+CIPHER_NAMES = {
+    0x1301: "TLS_AES_128_GCM_SHA256",
+    0x1302: "TLS_AES_256_GCM_SHA384",
+    0x1303: "TLS_CHACHA20_POLY1305_SHA256",
+    0x1304: "TLS_AES_128_CCM_SHA256",
+    0x1305: "TLS_AES_128_CCM_8_SHA256",
+    0x009C: "TLS_RSA_WITH_AES_128_GCM_SHA256",
+    0x009D: "TLS_RSA_WITH_AES_256_GCM_SHA384",
+    0xC02F: "TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256",
+    0xC030: "TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384",
+    0xCCA8: "TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305_SHA256",
+    0xCCA9: "TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305_SHA256",
+}
+
+NAMED_GROUPS = {
+    0x001D: "x25519",
+    0x0017: "secp256r1",
+    0x0018: "secp384r1",
+    0x0019: "secp521r1",
+    0x0100: "ffdhe2048",
+    0x0101: "ffdhe3072",
+    0x0102: "ffdhe4096",
+}
+
+
+@dataclass
+class ProfileRecognition:
+    schema: str
+    mode: str
+    has_cert_info: bool
+    has_full_cert_payload: bool
+    cert_message_len: int
+    cert_chain_count: int
+    cert_chain_total_len: int
+    issues: list[str]
+
+
+def to_hex(data: Iterable[int]) -> str:
+    return "".join(f"{b:02x}" for b in data)
+
+
+def read_u16be(data: list[int], off: int = 0) -> int:
+    return (data[off] << 8) | data[off + 1]
+
+
+def normalize_u8_list(value: Any) -> list[int]:
+    if not isinstance(value, list):
+        return []
+    out: list[int] = []
+    for item in value:
+        if isinstance(item, int) and 0 <= item <= 0xFF:
+            out.append(item)
+        else:
+            return []
+    return out
+
+
+def as_dict(value: Any) -> dict[str, Any]:
+    return value if isinstance(value, dict) else {}
+
+
+def as_int(value: Any, default: int = 0) -> int:
+    return value if isinstance(value, int) else default
+
+
+def decode_version_pair(v: list[int]) -> str:
+    if len(v) != 2:
+        return f"invalid({v})"
+    ver = read_u16be(v)
+    return f"0x{ver:04x} ({TLS_VERSIONS.get(ver, 'unknown')})"
+
+
+def decode_cipher_suite(v: list[int]) -> str:
+    if len(v) != 2:
+        return f"invalid({v})"
+    cs = read_u16be(v)
+    name = CIPHER_NAMES.get(cs, "unknown")
+    return f"0x{cs:04x} ({name})"
+
+
+def decode_supported_versions(data: list[int]) -> str:
+    if len(data) == 2:
+        ver = read_u16be(data)
+        return f"selected=0x{ver:04x} ({TLS_VERSIONS.get(ver, 'unknown')})"
+    if not data:
+        return "empty"
+    if len(data) < 3:
+        return f"raw={to_hex(data)}"
+    vec_len = data[0]
+    versions: list[str] = []
+    for i in range(1, min(1 + vec_len, len(data)), 2):
+        if i + 1 >= len(data):
+            break
+        ver = read_u16be(data, i)
+        versions.append(f"0x{ver:04x}({TLS_VERSIONS.get(ver, 'unknown')})")
+    return "offered=[" + ", ".join(versions) + "]"
+
+
+def decode_key_share(data: list[int]) -> str:
+    if len(data) < 4:
+        return f"raw={to_hex(data)}"
+    group = read_u16be(data, 0)
+    key_len = read_u16be(data, 2)
+    key_hex = to_hex(data[4 : 4 + min(key_len, len(data) - 4)])
+    gname = NAMED_GROUPS.get(group, "unknown_group")
+    return f"group=0x{group:04x}({gname}), key_len={key_len}, key={key_hex}"
+
+
+def decode_alpn(data: list[int]) -> str:
+    if len(data) < 3:
+        return f"raw={to_hex(data)}"
+    total = read_u16be(data, 0)
+    pos = 2
+    vals: list[str] = []
+    limit = min(len(data), 2 + total)
+    while pos < limit:
+        ln = data[pos]
+        pos += 1
+        if pos + ln > limit:
+            break
+        raw = bytes(data[pos : pos + ln])
+        pos += ln
+        try:
+            vals.append(raw.decode("ascii"))
+        except UnicodeDecodeError:
+            vals.append(raw.hex())
+    return "protocols=[" + ", ".join(vals) + "]"
+
+
+def decode_extension(ext_type: int, data: list[int]) -> str:
+    if ext_type == 43:
+        return decode_supported_versions(data)
+    if ext_type == 51:
+        return decode_key_share(data)
+    if ext_type == 16:
+        return decode_alpn(data)
+    return f"raw={to_hex(data)}"
+
+
+def ts_to_iso(ts: Any) -> str:
+    if not isinstance(ts, int):
+        return "-"
+    return dt.datetime.fromtimestamp(ts, tz=dt.timezone.utc).isoformat()
+
+
+def recognize_profile(obj: dict[str, Any]) -> ProfileRecognition:
+    issues: list[str] = []
+
+    sh = as_dict(obj.get("server_hello_template"))
+    if not sh:
+        issues.append("missing server_hello_template")
+
+    version = normalize_u8_list(sh.get("version"))
+    if version and len(version) != 2:
+        issues.append("server_hello_template.version must have 2 bytes")
+
+    app_sizes = obj.get("app_data_records_sizes")
+    if not isinstance(app_sizes, list) or not app_sizes:
+        issues.append("missing app_data_records_sizes")
+    elif any((not isinstance(v, int) or v <= 0) for v in app_sizes):
+        issues.append("app_data_records_sizes contains invalid values")
+
+    if not isinstance(obj.get("total_app_data_len"), int):
+        issues.append("missing total_app_data_len")
+
+    cert_info = as_dict(obj.get("cert_info"))
+    has_cert_info = bool(
+        cert_info.get("subject_cn")
+        or cert_info.get("issuer_cn")
+        or cert_info.get("san_names")
+        or isinstance(cert_info.get("not_before_unix"), int)
+        or isinstance(cert_info.get("not_after_unix"), int)
+    )
+
+    cert_payload = as_dict(obj.get("cert_payload"))
+    cert_message_len = 0
+    cert_chain_count = 0
+    cert_chain_total_len = 0
+    has_full_cert_payload = False
+
+    if cert_payload:
+        cert_msg = normalize_u8_list(cert_payload.get("certificate_message"))
+        if not cert_msg:
+            issues.append("cert_payload.certificate_message is missing or invalid")
+        else:
+            cert_message_len = len(cert_msg)
+
+        chain_raw = cert_payload.get("cert_chain_der")
+        if not isinstance(chain_raw, list):
+            issues.append("cert_payload.cert_chain_der is missing or invalid")
+        else:
+            for entry in chain_raw:
+                cert = normalize_u8_list(entry)
+                if cert:
+                    cert_chain_count += 1
+                    cert_chain_total_len += len(cert)
+                else:
+                    issues.append("cert_payload.cert_chain_der has invalid certificate entry")
+                    break
+
+        has_full_cert_payload = cert_message_len > 0 and cert_chain_count > 0
+    elif obj.get("cert_payload") is not None:
+        issues.append("cert_payload is not an object")
+
+    if has_full_cert_payload:
+        schema = "current"
+        mode = "full-cert-payload"
+    elif has_cert_info:
+        schema = "current-compact"
+        mode = "compact-cert-info"
+    else:
+        schema = "legacy"
+        mode = "random-fallback"
+
+    if issues:
+        schema = f"{schema}+issues"
+
+    return ProfileRecognition(
+        schema=schema,
+        mode=mode,
+        has_cert_info=has_cert_info,
+        has_full_cert_payload=has_full_cert_payload,
+        cert_message_len=cert_message_len,
+        cert_chain_count=cert_chain_count,
+        cert_chain_total_len=cert_chain_total_len,
+        issues=issues,
+    )
+
+
+def decode_profile(path: Path) -> tuple[str, ProfileRecognition]:
+    obj: dict[str, Any] = json.loads(path.read_text(encoding="utf-8"))
+    recognition = recognize_profile(obj)
+
+    sh = as_dict(obj.get("server_hello_template"))
+    version = normalize_u8_list(sh.get("version"))
+    cipher = normalize_u8_list(sh.get("cipher_suite"))
+    random_bytes = normalize_u8_list(sh.get("random"))
+    session_id = normalize_u8_list(sh.get("session_id"))
+
+    lines: list[str] = []
+    lines.append(f"[{path.name}]")
+    lines.append(f"  domain: {obj.get('domain', '-')}")
+    lines.append(f"  profile.schema: {recognition.schema}")
+    lines.append(f"  profile.mode: {recognition.mode}")
+    lines.append(f"  profile.has_full_cert_payload: {recognition.has_full_cert_payload}")
+    lines.append(f"  profile.has_cert_info: {recognition.has_cert_info}")
+    if recognition.has_full_cert_payload:
+        lines.append(f"  profile.cert_message_len: {recognition.cert_message_len}")
+        lines.append(f"  profile.cert_chain_count: {recognition.cert_chain_count}")
+        lines.append(f"  profile.cert_chain_total_len: {recognition.cert_chain_total_len}")
+    if recognition.issues:
+        lines.append("  profile.issues:")
+        for issue in recognition.issues:
+            lines.append(f"    - {issue}")
+
+    lines.append(f"  tls.version: {decode_version_pair(version)}")
+    lines.append(f"  tls.cipher: {decode_cipher_suite(cipher)}")
+    lines.append(f"  tls.compression: {sh.get('compression', '-')}")
+    lines.append(f"  tls.random: {to_hex(random_bytes)}")
+    lines.append(f"  tls.session_id_len: {len(session_id)}")
+    if session_id:
+        lines.append(f"  tls.session_id: {to_hex(session_id)}")
+
+    app_sizes = obj.get("app_data_records_sizes", [])
+    if isinstance(app_sizes, list):
+        lines.append("  app_data_records_sizes: " + ", ".join(str(v) for v in app_sizes))
+    else:
+        lines.append("  app_data_records_sizes: -")
+    lines.append(f"  total_app_data_len: {obj.get('total_app_data_len', '-')}")
+
+    cert = as_dict(obj.get("cert_info"))
+    if cert:
+        lines.append("  cert_info:")
+        lines.append(f"    subject_cn: {cert.get('subject_cn') or '-'}")
+        lines.append(f"    issuer_cn: {cert.get('issuer_cn') or '-'}")
+        lines.append(f"    not_before: {ts_to_iso(cert.get('not_before_unix'))}")
+        lines.append(f"    not_after:  {ts_to_iso(cert.get('not_after_unix'))}")
+        sans = cert.get("san_names")
+        if isinstance(sans, list) and sans:
+            lines.append("    san_names: " + ", ".join(str(v) for v in sans))
+        else:
+            lines.append("    san_names: -")
+    else:
+        lines.append("  cert_info: -")
+
+    exts = sh.get("extensions", [])
+    if not isinstance(exts, list):
+        exts = []
+    lines.append(f"  extensions[{len(exts)}]:")
+    for ext in exts:
+        ext_obj = as_dict(ext)
+        ext_type = as_int(ext_obj.get("ext_type"), -1)
+        data = normalize_u8_list(ext_obj.get("data"))
+        name = EXT_NAMES.get(ext_type, "unknown")
+        decoded = decode_extension(ext_type, data)
+        lines.append(f"    - type={ext_type} ({name}), len={len(data)}: {decoded}")
+
+    lines.append("")
+    return ("\n".join(lines), recognition)
+
+
+def collect_files(input_path: Path) -> list[Path]:
+    if input_path.is_file():
+        return [input_path]
+    return sorted(p for p in input_path.glob("*.json") if p.is_file())
+
+
+def main() -> int:
+    parser = argparse.ArgumentParser(
+        description="Decode TLS profile JSON files and recognize current schema."
+    )
+    parser.add_argument(
+        "path",
+        nargs="?",
+        default="tlsfront",
+        help="Path to tlsfront directory or a single JSON file.",
+    )
+    parser.add_argument(
+        "--only-current",
+        action="store_true",
+        help="Show only profiles recognized as current/full-cert-payload.",
+    )
+    args = parser.parse_args()
+
+    base = Path(args.path)
+    if not base.exists():
+        print(f"Path not found: {base}")
+        return 1
+
+    files = collect_files(base)
+    if not files:
+        print(f"No JSON files found in: {base}")
+        return 1
+
+    printed = 0
+    for path in files:
+        try:
+            rendered, recognition = decode_profile(path)
+            if args.only_current and recognition.schema != "current":
+                continue
+            print(rendered, end="")
+            printed += 1
+        except Exception as e:  # noqa: BLE001
+            print(f"[{path.name}] decode error: {e}\n")
+
+    if args.only_current and printed == 0:
+        print("No current profiles found.")
+    return 0
+
+
+if __name__ == "__main__":
+    raise SystemExit(main())
--- a/tools/zbx_telemt_template.yaml
+++ b/tools/zbx_telemt_template.yaml
@@ -0,0 +1,276 @@
+zabbix_export:
+  version: '7.0'
+  template_groups:
+    - uuid: 43d0fe04c7094000829b0d28c6e3470c
+      name: 'Custom Templates'
+  templates:
+    - uuid: f2a694213c3d49d88cc03bffb111429e
+      template: Telemt
+      name: Telemt
+      description: |
+        A simple template using Prometheus metrics.
+        Set the {$TELEMT_URL} macro with the metrics URL
+      groups:
+        - name: 'Custom Templates'
+      items:
+        - uuid: fb95391c7f894e3eb6984b92885813a2
+          name: 'Connections bad total'
+          type: DEPENDENT
+          key: telemt.conn_bad_total
+          delay: '0'
+          trends: '0'
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_connections_bad_total
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Server connections'
+        - uuid: f36c9632394a4af3853583857ca8dbf1
+          name: 'Connections total'
+          type: DEPENDENT
+          key: telemt.conn_total
+          delay: '0'
+          trends: '0'
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_connections_total
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Server connections'
+        - uuid: 1618272cf68e44509425f5fab029db7b
+          name: 'Handshake timeouts total'
+          type: DEPENDENT
+          key: telemt.handshake_timeouts_total
+          delay: '0'
+          trends: '0'
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_handshake_timeouts_total
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Server connections'
+        - uuid: fb95391c7f894e3eb6984b92885813d2
+          name: 'ME keepalive send failures'
+          type: DEPENDENT
+          key: telemt.me_keepalive_failed_total
+          delay: '0'
+          trends: '0'
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_me_keepalive_failed_total
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Middle-End connections'
+        - uuid: fb95391c7f894e3eb6984b92885813c2
+          name: 'ME keepalive frames sent'
+          type: DEPENDENT
+          key: telemt.me_keepalive_sent_total
+          delay: '0'
+          trends: '0'
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_me_keepalive_sent_total
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Middle-End connections'
+        - uuid: fb95391c7f894e3eb6984b92885811a2
+          name: 'ME reconnect attempts'
+          type: DEPENDENT
+          key: telemt.me_reconnect_attempts_total
+          delay: '0'
+          trends: '0'
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_me_reconnect_attempts_total
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Middle-End connections'
+        - uuid: fb95391c7f894e3eb6984b92885812a2
+          name: 'ME reconnect successes'
+          type: DEPENDENT
+          key: telemt.me_reconnect_success_total
+          delay: '0'
+          trends: '0'
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_me_reconnect_success_total
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Middle-End connections'
+        - uuid: 991b1858e3f94b3098ff0f84859efc41
+          name: 'Prometheus metrics'
+          type: HTTP_AGENT
+          key: telemt.prom_metrics
+          value_type: TEXT
+          trends: '0'
+          url: '{$TELEMT_URL}'
+        - uuid: fb95391c7f894e3eb6984b92885813b2
+          name: 'Telemt Uptime'
+          type: DEPENDENT
+          key: telemt.uptime
+          delay: '0'
+          trends: '0'
+          units: s
+          preprocessing:
+            - type: PROMETHEUS_PATTERN
+              parameters:
+                - telemt_uptime_seconds
+                - value
+                - ''
+          master_item:
+            key: telemt.prom_metrics
+          tags:
+            - tag: Application
+              value: 'Server connections'
+      discovery_rules:
+        - uuid: 22727585c14049fbb0863c15dd68634c
+          name: 'Get users'
+          type: DEPENDENT
+          key: telemt.users
+          delay: '0'
+          item_prototypes:
+            - uuid: 137e371a47714a21b5c0c89d535dd717
+              name: 'Active connections by {#TELEMT_USER}'
+              type: DEPENDENT
+              key: 'telemt.active_conn_[{#TELEMT_USER}]'
+              delay: '0'
+              preprocessing:
+                - type: PROMETHEUS_PATTERN
+                  parameters:
+                    - 'telemt_user_connections_current{user=~"{#TELEMT_USER}"}'
+                    - value
+                    - ''
+              master_item:
+                key: telemt.prom_metrics
+              tags:
+                - tag: Application
+                  value: 'Users connections'
+            - uuid: 3ccce91ab5d54b4d972280c7b7bda910
+              name: 'Messages received from {#TELEMT_USER}'
+              type: DEPENDENT
+              key: 'telemt.msgs_from_[{#TELEMT_USER}]'
+              delay: '0'
+              preprocessing:
+                - type: PROMETHEUS_PATTERN
+                  parameters:
+                    - 'telemt_user_msgs_from_client{user=~"{#TELEMT_USER}"}'
+                    - value
+                    - ''
+              master_item:
+                key: telemt.prom_metrics
+              tags:
+                - tag: Application
+                  value: 'Users connections'
+            - uuid: e539126215f2419bbfd0d8099aabe1cb
+              name: 'Messages sent to {#TELEMT_USER}'
+              type: DEPENDENT
+              key: 'telemt.msgs_to_[{#TELEMT_USER}]'
+              delay: '0'
+              preprocessing:
+                - type: PROMETHEUS_PATTERN
+                  parameters:
+                    - 'telemt_user_msgs_to_client{user=~"{#TELEMT_USER}"}'
+                    - value
+                    - ''
+              master_item:
+                key: telemt.prom_metrics
+              tags:
+                - tag: Application
+                  value: 'Users connections'
+            - uuid: 810a8f6346a44ae7bd79a357dbfe2b3c
+              name: 'Bytes received from {#TELEMT_USER}'
+              type: DEPENDENT
+              key: 'telemt.octets_from_[{#TELEMT_USER}]'
+              delay: '0'
+              units: B
+              preprocessing:
+                - type: PROMETHEUS_PATTERN
+                  parameters:
+                    - 'telemt_user_octets_from_client{user=~"{#TELEMT_USER}"}'
+                    - value
+                    - ''
+              master_item:
+                key: telemt.prom_metrics
+              tags:
+                - tag: Application
+                  value: 'Users connections'
+            - uuid: d0cc3b4d618b4f0d97f8127b51f872c8
+              name: 'Bytes sent to {#TELEMT_USER}'
+              type: DEPENDENT
+              key: 'telemt.octets_to_[{#TELEMT_USER}]'
+              delay: '0'
+              units: B
+              preprocessing:
+                - type: PROMETHEUS_PATTERN
+                  parameters:
+                    - 'telemt_user_octets_to_client{user=~"{#TELEMT_USER}"}'
+                    - value
+                    - ''
+              master_item:
+                key: telemt.prom_metrics
+              tags:
+                - tag: Application
+                  value: 'Users connections'
+            - uuid: e9735aef967b4af28ed59f6c76ad493d
+              name: 'Total connections by {#TELEMT_USER}'
+              type: DEPENDENT
+              key: 'telemt.total_conn_[{#TELEMT_USER}]'
+              delay: '0'
+              preprocessing:
+                - type: PROMETHEUS_PATTERN
+                  parameters:
+                    - 'telemt_user_connections_total{user=~"{#TELEMT_USER}"}'
+                    - value
+                    - ''
+              master_item:
+                key: telemt.prom_metrics
+              tags:
+                - tag: Application
+                  value: 'Users connections'
+          master_item:
+            key: telemt.prom_metrics
+          lld_macro_paths:
+            - lld_macro: '{#TELEMT_USER}'
+              path: '$.labels[''user'']'
+          preprocessing:
+            - type: PROMETHEUS_TO_JSON
+              parameters:
+                - ''
+      tags:
+        - tag: target
+          value: Telemt