Merge remote-tracking branch 'upstream/main'

2026-02-23 10:34:41 +03:00 · 2026-02-23 10:34:41 +03:00 · 836eb6f777
parent 21289e7964 23af3cad5d
commit 836eb6f777
32 changed files with 2182 additions and 477 deletions
--- a/.github/workflows/release.yml
+++ b/.github/workflows/release.yml
@ -84,6 +84,32 @@ jobs:
            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
--- a/AGENTS_SYSTEM_PROMT.md
+++ b/AGENTS_SYSTEM_PROMT.md
@ -1,6 +1,7 @@
 ## System Prompt — Production Rust Codebase: Modification and Architecture Guidelines
-You are a senior Rust systems engineer 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.
+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.
 ---
@ -32,6 +33,11 @@ The user can override this behavior with explicit commands:
 - `"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
@ -131,16 +137,32 @@ You MUST:
 - 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.
+- 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.
+- 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.
+- Refactor code outside the requested scope
- Make speculative improvements.
+- 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
@ -160,6 +182,7 @@ When facing a non-trivial modification, follow this sequence:
 - 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
 ---
@ -167,14 +190,14 @@ When facing a non-trivial modification, follow this sequence:
 #### Language Policy
- Code, comments, commit messages, documentation: **English**.
+- Code, comments, commit messages, documentation ONLY ON **English**!
- Reasoning and explanations in response text: **Russian**.
+- Reasoning and explanations in response text on language from promt
 #### Response Structure
 Your response MUST consist of two sections:
-**Section 1: `## Reasoning` (in Russian)**
+**Section 1: `## Reasoning`**
 - What needs to be done and why.
 - Which files and modules are affected.
@ -205,3 +228,183 @@ If the response exceeds the output limit:
 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/Cargo.toml
+++ b/Cargo.toml
@ -1,6 +1,6 @@
 [package]
 name = "telemt"
-version = "3.0.8"
+version = "3.0.11"
 edition = "2024"
 [dependencies]
@ -20,6 +20,7 @@ sha1 = "0.10"
 md-5 = "0.10"
 hmac = "0.12"
 crc32fast = "1.4"
 crc32c = "0.6"
 zeroize = { version = "1.8", features = ["derive"] }
 # Network
--- a/README.md
+++ b/README.md
@ -10,41 +10,77 @@
 ### 🇷🇺 RU
-18 февраля мы опубликовали `telemt 3.0.3`, он имеет:
+#### Драфтинг LTS и текущие улучшения
- улучшенный механизм Middle-End Health Check
+С 21 февраля мы начали подготовку LTS-версии.
 - высокоскоростное восстановление инициализации Middle-End
 - меньше задержек на hot-path
 - более корректную работу в Dualstack, а именно - IPv6 Middle-End
 - аккуратное переподключение клиента без дрифта сессий между Middle-End
 - автоматическая деградация на Direct-DC при массовой (>2 ME-DC-групп) недоступности Middle-End
 - автодетект IP за NAT, при возможности - будет выполнен хендшейк с ME, при неудаче - автодеградация
 - единственный известный специальный DC=203 уже добавлен в код: медиа загружаются с CDN в Direct-DC режиме
-[Здесь вы можете найти релиз](https://github.com/telemt/telemt/releases/tag/3.0.3)
+Мы внимательно анализируем весь доступный фидбек.  
 Наша цель — сделать LTS-кандидаты максимально стабильными, тщательно отлаженными и готовыми к long-run и highload production-сценариям.
-Если у вас есть компетенции в асинхронных сетевых приложениях, анализе трафика, реверс-инжиниринге или сетевых расследованиях - мы открыты к идеям и pull requests!
+---
 #### Улучшения от 23 февраля
 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
-On February 18, we released `telemt 3.0.3`. This version introduces:
+#### LTS Drafting and Ongoing Improvements
- improved Middle-End Health Check method  
+Starting February 21, we began drafting the upcoming LTS version.
 - high-speed recovery of Middle-End init
 - reduced latency on the hot path  
 - correct Dualstack support: proper handling of IPv6 Middle-End  
 - *clean* client reconnection without session "drift" between Middle-End
 - automatic degradation to Direct-DC mode in case of large-scale (>2 ME-DC groups) Middle-End unavailability  
 - automatic public IP detection behind NAT; first - Middle-End handshake is performed, otherwise automatic degradation is applied  
 - known special DC=203 is now handled natively: media is delivered from the CDN via Direct-DC mode  
-[Release is available here](https://github.com/telemt/telemt/releases/tag/3.0.3)
+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.
-If you have expertise in asynchronous network applications, traffic analysis, reverse engineering, or network forensics - we welcome ideas and pull requests!
+---
 #### 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>
@ -178,147 +214,21 @@ then Ctrl+X -> Y -> Enter to save
 ```toml
 # === General Settings ===
 [general]
 fast_mode = true
 use_middle_proxy = true
 # 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
 # metrics_port = 9090
 # metrics_whitelist = [
 #    "192.168.0.0/24",
 #    "172.16.0.0/12",
 #    "127.0.0.1/32",
 #    "::1/128"
 #]
 # Listen on multiple interfaces/IPs - IPv4
 [[server.listeners]]
 ip = "0.0.0.0"
 # Listen on multiple interfaces/IPs - IPv6
 [[server.listeners]]
 ip = "::"
 # === Timeouts (in seconds) ===
 [timeouts]
 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"
 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 ===
 [access]
 replay_check_len = 65536
 replay_window_secs = 1800
 ignore_time_skew = false
 [access.users]
 # format: "username" = "32_hex_chars_secret"
 hello = "00000000000000000000000000000000"
 # [access.user_max_tcp_conns]
 # hello = 50
 # [access.user_max_unique_ips]
 # hello = 5
 # [access.user_data_quota]
 # hello = 1073741824 # 1 GB
 # === Upstreams & Routing ===
 [[upstreams]]
 type = "direct"
 enabled = true
 weight = 10
 # [[upstreams]]
 # type = "socks5"
 # address = "127.0.0.1:1080"
 # enabled = false
 # weight = 1
 # === DC Address Overrides ===
 # [dc_overrides]
 # "203" = "91.105.192.100:443"
 ```
 ### Advanced
 #### Adtag
--- a/src/cli.rs
+++ b/src/cli.rs
@ -213,6 +213,7 @@ 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 = "::"
@ -228,6 +229,7 @@ tls_domain = "{domain}"
 mask = true
 mask_port = 443
 fake_cert_len = 2048
 tls_full_cert_ttl_secs = 90
 [access]
 replay_check_len = 65536
--- a/src/config/defaults.rs
+++ b/src/config/defaults.rs
@ -122,6 +122,10 @@ 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
 }
--- a/src/config/load.rs
+++ b/src/config/load.rs
@ -227,6 +227,7 @@ impl ProxyConfig {
                    announce: None,
                    announce_ip: None,
                    proxy_protocol: None,
                    reuse_allow: false,
                });
            }
            if let Some(ipv6_str) = &config.server.listen_addr_ipv6 {
@ -236,6 +237,7 @@ impl ProxyConfig {
                        announce: None,
                        announce_ip: None,
                        proxy_protocol: None,
                        reuse_allow: false,
                    });
                }
            }
--- a/src/config/types.rs
+++ b/src/config/types.rs
@ -74,8 +74,8 @@ pub struct ProxyModes {
 impl Default for ProxyModes {
    fn default() -> Self {
        Self {
-            classic: true,
+            classic: false,
-            secure: true,
+            secure: false,
            tls: true,
        }
    }
@ -118,7 +118,7 @@ impl Default for NetworkConfig {
    fn default() -> Self {
        Self {
            ipv4: true,
-            ipv6: None,
+            ipv6: Some(false),
            prefer: 4,
            multipath: false,
            stun_servers: default_stun_servers(),
@ -291,7 +291,7 @@ impl Default for GeneralConfig {
            middle_proxy_nat_stun: None,
            middle_proxy_nat_stun_servers: Vec::new(),
            middle_proxy_pool_size: default_pool_size(),
-            middle_proxy_warm_standby: 0,
+            middle_proxy_warm_standby: 8,
            me_keepalive_enabled: true,
            me_keepalive_interval_secs: default_keepalive_interval(),
            me_keepalive_jitter_secs: default_keepalive_jitter(),
@ -299,10 +299,10 @@ impl Default for GeneralConfig {
            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: 1,
+            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: 1,
+            me_reconnect_fast_retry_count: 8,
            stun_iface_mismatch_ignore: false,
            unknown_dc_log_path: default_unknown_dc_log_path(),
            log_level: LogLevel::Normal,
@ -474,6 +474,12 @@ pub struct AntiCensorshipConfig {
    #[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,
@ -494,6 +500,7 @@ impl Default for AntiCensorshipConfig {
            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(),
        }
    }
@ -603,6 +610,10 @@ pub struct ListenerConfig {
    /// 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 =============
--- 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):
--- 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
@ -49,19 +49,32 @@ impl SecureRandom {
        }
    }
-    /// Generate random bytes
+    /// Fill a caller-provided buffer with random bytes.
-    pub fn bytes(&self, len: usize) -> Vec<u8> {
+    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 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);
            }
-        inner.buffer.drain(..len).collect()
+            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;
        }
    }
    /// 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)
--- a/src/main.rs
+++ b/src/main.rs
@ -38,7 +38,7 @@ use crate::stream::BufferPool;
 use crate::transport::middle_proxy::{
    MePool, fetch_proxy_config, run_me_ping, MePingFamily, MePingSample, format_sample_line,
 };
-use crate::transport::{ListenOptions, UpstreamManager, create_listener};
+use crate::transport::{ListenOptions, UpstreamManager, create_listener, find_listener_processes};
 use crate::tls_front::TlsFrontCache;
 fn parse_cli() -> (String, bool, Option<String>) {
@ -265,7 +265,7 @@ async fn main() -> std::result::Result<(), Box<dyn std::error::Error>> {
    }
    // Connection concurrency limit
-    let _max_connections = Arc::new(Semaphore::new(10_000));
+    let max_connections = Arc::new(Semaphore::new(10_000));
    if use_middle_proxy && !decision.ipv4_me && !decision.ipv6_me {
        warn!("No usable IP family for Middle Proxy detected; falling back to direct DC");
@ -715,6 +715,7 @@ match crate::transport::middle_proxy::fetch_proxy_secret(proxy_secret_path).awai
            continue;
        }
        let options = ListenOptions {
            reuse_port: listener_conf.reuse_allow,
            ipv6_only: listener_conf.ip.is_ipv6(),
            ..Default::default()
        };
@ -753,10 +754,36 @@ match crate::transport::middle_proxy::fetch_proxy_secret(proxy_secret_path).awai
                listeners.push((listener, listener_proxy_protocol));
            }
            Err(e) => {
                if e.kind() == std::io::ErrorKind::AddrInUse {
                    let owners = find_listener_processes(addr);
                    if owners.is_empty() {
                        error!(
                            %addr,
                            "Failed to bind: address already in use (owner process unresolved)"
                        );
                    } else {
                        for owner in owners {
                            error!(
                                %addr,
                                pid = owner.pid,
                                process = %owner.process,
                                "Failed to bind: address already in use"
                            );
                        }
                    }
                    if !listener_conf.reuse_allow {
                        error!(
                            %addr,
                            "reuse_allow=false; set [[server.listeners]].reuse_allow=true to allow multi-instance listening"
                        );
                    }
                } else {
                    error!("Failed to bind to {}: {}", addr, e);
                }
            }
        }
    }
    // Show proxy links once when public_host is set, OR when there are no TCP listeners
    // (unix-only mode) — use detected IP as fallback
@ -817,6 +844,7 @@ match crate::transport::middle_proxy::fetch_proxy_secret(proxy_secret_path).awai
        let me_pool = me_pool.clone();
        let tls_cache = tls_cache.clone();
        let ip_tracker = ip_tracker.clone();
        let max_connections_unix = max_connections.clone();
        tokio::spawn(async move {
            let unix_conn_counter = std::sync::Arc::new(std::sync::atomic::AtomicU64::new(1));
@ -824,6 +852,13 @@ match crate::transport::middle_proxy::fetch_proxy_secret(proxy_secret_path).awai
            loop {
                match unix_listener.accept().await {
                    Ok((stream, _)) => {
                        let permit = match max_connections_unix.clone().acquire_owned().await {
                            Ok(permit) => permit,
                            Err(_) => {
                                error!("Connection limiter is closed");
                                break;
                            }
                        };
                        let conn_id = unix_conn_counter.fetch_add(1, std::sync::atomic::Ordering::Relaxed);
                        let fake_peer = SocketAddr::from(([127, 0, 0, 1], (conn_id % 65535) as u16));
@ -839,6 +874,7 @@ match crate::transport::middle_proxy::fetch_proxy_secret(proxy_secret_path).awai
                        let proxy_protocol_enabled = config.server.proxy_protocol;
                        tokio::spawn(async move {
                            let _permit = permit;
                            if let Err(e) = crate::proxy::client::handle_client_stream(
                                stream, fake_peer, config, stats,
                                upstream_manager, replay_checker, buffer_pool, rng,
@ -906,11 +942,19 @@ match crate::transport::middle_proxy::fetch_proxy_secret(proxy_secret_path).awai
        let me_pool = me_pool.clone();
        let tls_cache = tls_cache.clone();
        let ip_tracker = ip_tracker.clone();
        let max_connections_tcp = max_connections.clone();
        tokio::spawn(async move {
            loop {
                match listener.accept().await {
                    Ok((stream, peer_addr)) => {
                        let permit = match max_connections_tcp.clone().acquire_owned().await {
                            Ok(permit) => permit,
                            Err(_) => {
                                error!("Connection limiter is closed");
                                break;
                            }
                        };
                        let config = config_rx.borrow_and_update().clone();
                        let stats = stats.clone();
                        let upstream_manager = upstream_manager.clone();
@ -923,6 +967,7 @@ match crate::transport::middle_proxy::fetch_proxy_secret(proxy_secret_path).awai
                        let proxy_protocol_enabled = listener_proxy_protocol;
                        tokio::spawn(async move {
                            let _permit = permit;
                            if let Err(e) = ClientHandler::new(
                                stream,
                                peer_addr,
--- a/src/metrics.rs
+++ b/src/metrics.rs
@ -100,6 +100,14 @@ fn render_metrics(stats: &Stats) -> String {
    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());
@ -108,6 +116,30 @@ fn render_metrics(stats: &Stats) -> String {
    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_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");
--- a/src/protocol/constants.rs
+++ b/src/protocol/constants.rs
@ -156,14 +156,28 @@ pub const MAX_TLS_RECORD_SIZE: usize = 16384;
 /// RFC 8446 §5.2 allows up to 16384 + 256 bytes of ciphertext
 pub const MAX_TLS_CHUNK_SIZE: usize = 16384 + 256;
-/// Generate padding length for Secure Intermediate protocol.
+/// Secure Intermediate payload is expected to be 4-byte aligned.
-/// Total (data + padding) must not be divisible by 4 per MTProto spec.
+pub fn is_valid_secure_payload_len(data_len: usize) -> bool {
-pub fn secure_padding_len(data_len: usize, rng: &SecureRandom) -> usize {
+    data_len % 4 == 0
    if data_len % 4 == 0 {
        (rng.range(3) + 1) as usize // 1-3
    } else {
        rng.range(4) as usize // 0-3
 }
 /// 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 =============
@ -298,6 +312,10 @@ pub mod rpc_flags {
        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;
@ -332,4 +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/proxy/handshake.rs
+++ b/src/proxy/handshake.rs
@ -2,6 +2,7 @@
 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;
@ -108,11 +109,23 @@ where
    let cached = if config.censorship.tls_emulation {
        if let Some(cache) = tls_cache.as_ref() {
-            if let Some(sni) = tls::extract_sni_from_client_hello(handshake) {
+            let selected_domain = if let Some(sni) = tls::extract_sni_from_client_hello(handshake) {
-                Some(cache.get(&sni).await)
+                if cache.contains_domain(&sni).await {
                    sni
                } else {
-                Some(cache.get(&config.censorship.tls_domain).await)
+                    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
        }
@ -137,12 +150,13 @@ where
        None
    };
-    let response = if let Some(cached_entry) = cached {
+    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,
@ -253,7 +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,
        };
--- a/src/proxy/middle_relay.rs
+++ b/src/proxy/middle_relay.rs
@ -2,7 +2,7 @@ use std::net::SocketAddr;
 use std::sync::Arc;
 use tokio::io::{AsyncRead, AsyncReadExt, AsyncWrite, AsyncWriteExt};
-use tokio::sync::oneshot;
+use tokio::sync::{mpsc, oneshot};
 use tracing::{debug, info, trace, warn};
 use crate::config::ProxyConfig;
@ -14,6 +14,11 @@ 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,
 }
 pub(crate) async fn handle_via_middle_proxy<R, W>(
    mut crypto_reader: CryptoReader<R>,
    crypto_writer: CryptoWriter<W>,
@ -59,6 +64,30 @@ where
    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?;
                }
                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();
@ -66,6 +95,7 @@ where
    let user_clone = user.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() => {
@ -73,7 +103,44 @@ where
                        Some(MeResponse::Data { flags, data }) => {
                            trace!(conn_id, bytes = data.len(), flags, "ME->C data");
                            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()).await?;
+                            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)");
                                        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");
@ -81,6 +148,7 @@ where
                        }
                        Some(MeResponse::Close) => {
                            debug!(conn_id, "ME sent close");
                            let _ = writer.flush().await;
                            return Ok(());
                        }
                        None => {
@ -99,8 +167,16 @@ where
    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, &user).await {
+        match read_client_payload(
            &mut crypto_reader,
            proto_tag,
            frame_limit,
            &user,
            &mut frame_counter,
            &stats,
        ).await {
            Ok(Some((payload, quickack))) => {
                trace!(conn_id, bytes = payload.len(), "C->ME frame");
                stats.add_user_octets_from(&user, payload.len() as u64);
@ -111,22 +187,20 @@ where
                if payload.len() >= 8 && payload[..8].iter().all(|b| *b == 0) {
                    flags |= RPC_FLAG_NOT_ENCRYPTED;
                }
-                if let Err(e) = me_pool.send_proxy_req(
+                // Keep client read loop lightweight: route heavy ME send path via a dedicated task.
-                    conn_id,
+                if c2me_tx
-                    success.dc_idx,
+                    .send(C2MeCommand::Data { payload, flags })
-                    peer,
+                    .await
-                    translated_local_addr,
+                    .is_err()
-                    &payload,
+                {
-                    flags,
+                    main_result = Err(ProxyError::Proxy("ME sender channel closed".into()));
                ).await {
                    main_result = Err(e);
                    break;
                }
            }
            Ok(None) => {
                debug!(conn_id, "Client EOF");
                client_closed = true;
-                let _ = me_pool.send_close(conn_id).await;
+                let _ = c2me_tx.send(C2MeCommand::Close).await;
                break;
            }
            Err(e) => {
@ -136,6 +210,11 @@ where
        }
    }
    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
@ -151,10 +230,11 @@ where
        }
    }
-    let result = match (main_result, writer_result) {
+    let result = match (main_result, c2me_result, writer_result) {
-        (Ok(()), Ok(())) => Ok(()),
+        (Ok(()), Ok(()), Ok(())) => Ok(()),
-        (Err(e), _) => Err(e),
+        (Err(e), _, _) => Err(e),
-        (_, Err(e)) => Err(e),
+        (_, Err(e), _) => Err(e),
        (_, _, Err(e)) => Err(e),
    };
    debug!(user = %user, conn_id, "ME relay cleanup");
@ -168,11 +248,14 @@ async fn read_client_payload<R>(
    proto_tag: ProtoTag,
    max_frame: usize,
    user: &str,
    frame_counter: &mut u64,
    stats: &Stats,
 ) -> Result<Option<(Vec<u8>, bool)>>
 where
    R: AsyncRead + Unpin + Send + 'static,
 {
-    let (len, quickack) = match proto_tag {
+    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 {
@ -196,7 +279,7 @@ where
                let len = len_words
                    .checked_mul(4)
                    .ok_or_else(|| ProxyError::Proxy("Abridged frame length overflow".into()))?;
-            (len, quickack)
+                (len, quickack, None)
            }
            ProtoTag::Intermediate | ProtoTag::Secure => {
                let mut len_buf = [0u8; 4];
@ -206,35 +289,82 @@ where
                    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)
+                (
                    (u32::from_le_bytes(len_buf) & 0x7fff_ffff) as usize,
                    quickack,
                    Some(len_buf),
                )
            }
        };
        if len == 0 {
            continue;
        }
        if len < 4 && proto_tag != ProtoTag::Abridged {
            warn!(
                user = %user,
                len,
                proto = ?proto_tag,
                "Frame too small — corrupt or probe"
            );
            return Err(ProxyError::Proxy(format!("Frame too small: {len}")));
        }
        if len > max_frame {
            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);
            warn!(
                user = %user,
                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]
                ),
                proto = ?proto_tag,
-            "Frame too large — possible crypto desync or TLS record error"
+                tls_like = looks_like_tls,
                http_like = looks_like_http,
                frames_ok = *frame_counter,
                "Frame too large — crypto desync forensics"
            );
-        return Err(ProxyError::Proxy(format!("Frame too large: {len} (max {max_frame})")));
+            return Err(ProxyError::Proxy(format!(
                "Frame too large: {len} (max {max_frame}), frames_ok={}",
                *frame_counter
            )));
        }
        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: remove random padding (last len%4 bytes)
+        // Secure Intermediate: strip validated trailing padding bytes.
        if proto_tag == ProtoTag::Secure {
-        let rem = len % 4;
+            payload.truncate(secure_payload_len);
        if rem != 0 && payload.len() >= rem {
            payload.truncate(len - rem);
        }
        *frame_counter += 1;
        return Ok(Some((payload, quickack)));
    }
    Ok(Some((payload, quickack)))
 }
 async fn write_client_payload<W>(
@ -243,6 +373,7 @@ async fn write_client_payload<W>(
    flags: u32,
    data: &[u8],
    rng: &SecureRandom,
    frame_buf: &mut Vec<u8>,
 ) -> Result<()>
 where
    W: AsyncWrite + Unpin + Send + 'static,
@ -264,8 +395,12 @@ 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) {
@ -274,8 +409,12 @@ 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 {
@ -284,46 +423,39 @@ where
                    data.len()
                )));
            }
            client_writer
                .write_all(data)
                .await
                .map_err(ProxyError::Io)?;
        }
        ProtoTag::Intermediate | ProtoTag::Secure => {
            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 = (data.len() + padding_len) as u32;
+            let mut len_val = (data.len() + padding_len) as u32;
            if quickack {
-                len |= 0x8000_0000;
+                len_val |= 0x8000_0000;
            }
-            client_writer
+            let total = 4 + data.len() + padding_len;
-                .write_all(&len.to_le_bytes())
+            frame_buf.clear();
-                .await
+            frame_buf.reserve(total);
-                .map_err(ProxyError::Io)?;
+            frame_buf.extend_from_slice(&len_val.to_le_bytes());
-            client_writer
+            frame_buf.extend_from_slice(data);
                .write_all(data)
                .await
                .map_err(ProxyError::Io)?;
            if padding_len > 0 {
-                let pad = rng.bytes(padding_len);
+                let start = frame_buf.len();
                frame_buf.resize(start + padding_len, 0);
                rng.fill(&mut frame_buf[start..]);
            }
            client_writer
-                    .write_all(&pad)
+                .write_all(&frame_buf)
                .await
                .map_err(ProxyError::Io)?;
        }
    }
    }
    // Avoid unconditional per-frame flush (throughput killer on large downloads).
    // Flush only when low-latency ack semantics are requested or when
    // CryptoWriter has buffered pending ciphertext that must be drained.
    if quickack || client_writer.has_pending() {
        client_writer.flush().await.map_err(ProxyError::Io)?;
    }
    Ok(())
 }
--- a/src/stats/mod.rs
+++ b/src/stats/mod.rs
@ -21,8 +21,16 @@ pub struct Stats {
    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,
    user_stats: DashMap<String, UserStats>,
    start_time: parking_lot::RwLock<Option<Instant>>,
 }
@ -49,14 +57,45 @@ impl Stats {
    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 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 increment_user_connects(&self, user: &str) {
        self.user_stats.entry(user.to_string()).or_default()
@ -70,7 +109,22 @@ 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,
                }
            }
        }
    }
--- 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 data_len = secure_payload_len_from_wire_len(len).ok_or_else(|| {
-    let padding_len = len % 4;
+        Error::new(
-    let data_len = if padding_len != 0 {
+            ErrorKind::InvalidData,
-        len - padding_len
+            format!("invalid secure frame length: {len}"),
-    } else {
+        )
-        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
+    if !is_valid_secure_payload_len(data.len()) {
-    let padding_len = if data.len() % 4 == 0 {
+        return Err(Error::new(
-        // Add 1-3 bytes to make it non-aligned
+            ErrorKind::InvalidData,
-        (rng.range(3) + 1) as usize
+            format!("secure payload must be 4-byte aligned, got {}", data.len()),
-    } else {
+        ));
-        // Already non-aligned, can add 0-3
+    }
-        rng.range(4) as usize
+
-    };
+    // 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);
--- 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)
+        let payload_len = secure_payload_len_from_wire_len(len).ok_or_else(|| {
-        if len % 4 != 0 {
+            Error::new(
-            let actual_len = len - (len % 4);
+                ErrorKind::InvalidData,
-            data.truncate(actual_len);
+                format!("Invalid secure frame length: {len}"),
-        }
+            )
        })?;
        data.truncate(payload_len);
        Ok((Bytes::from(data), meta))
    }
@ -267,6 +269,13 @@ impl<W: AsyncWrite + Unpin> SecureIntermediateFrameWriter<W> {
            return Ok(());
        }
        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);
@ -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
+        assert_eq!(received.len(), data.len());
        let expected_len = (data.len() / 4) * 4;
        assert_eq!(received.len(), expected_len);
    }
    #[tokio::test]
--- a/src/tls_front/cache.rs
+++ b/src/tls_front/cache.rs
@ -1,7 +1,8 @@
 use std::collections::HashMap;
 use std::net::IpAddr;
 use std::path::{Path, PathBuf};
 use std::sync::Arc;
-use std::time::{SystemTime, Duration};
+use std::time::{Duration, Instant, SystemTime};
 use tokio::sync::RwLock;
 use tokio::time::sleep;
@ -14,6 +15,7 @@ use crate::tls_front::types::{CachedTlsData, ParsedServerHello, TlsFetchResult};
 pub struct TlsFrontCache {
    memory: RwLock<HashMap<String, Arc<CachedTlsData>>>,
    default: Arc<CachedTlsData>,
    full_cert_sent: RwLock<HashMap<IpAddr, Instant>>,
    disk_path: PathBuf,
 }
@ -31,6 +33,7 @@ impl TlsFrontCache {
        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(),
@ -45,6 +48,7 @@ impl TlsFrontCache {
        Self {
            memory: RwLock::new(map),
            default,
            full_cert_sent: RwLock::new(HashMap::new()),
            disk_path: disk_path.as_ref().to_path_buf(),
        }
    }
@ -54,6 +58,45 @@ impl TlsFrontCache {
        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));
@ -142,6 +185,7 @@ impl TlsFrontCache {
        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(),
@ -161,3 +205,50 @@ impl TlsFrontCache {
        &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
@ -3,7 +3,7 @@ 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;
+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
@ -27,12 +27,81 @@ fn jitter_and_clamp_sizes(sizes: &[usize], rng: &SecureRandom) -> Vec<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,
@ -109,14 +178,52 @@ pub fn build_emulated_server_hello(
    if sizes.is_empty() {
        sizes.push(cached.total_app_data_len.max(1024));
    }
-    let sizes = jitter_and_clamp_sizes(&sizes, rng);
+    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));
@ -125,6 +232,7 @@ pub fn build_emulated_server_hello(
            } else {
                rec.extend_from_slice(&rng.bytes(size));
            }
        }
        app_data.extend_from_slice(&rec);
    }
@ -158,3 +266,125 @@ pub fn build_emulated_server_hello(
    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
@ -1,7 +1,7 @@
 use std::sync::Arc;
 use std::time::Duration;
-use anyhow::{Context, Result, anyhow};
+use anyhow::{Result, anyhow};
 use tokio::io::{AsyncReadExt, AsyncWriteExt};
 use tokio::net::TcpStream;
 use tokio::time::timeout;
@ -19,7 +19,13 @@ use x509_parser::certificate::X509Certificate;
 use crate::crypto::SecureRandom;
 use crate::protocol::constants::{TLS_RECORD_APPLICATION, TLS_RECORD_HANDSHAKE};
-use crate::tls_front::types::{ParsedServerHello, TlsExtension, TlsFetchResult, ParsedCertificateInfo};
+use crate::tls_front::types::{
    ParsedCertificateInfo,
    ParsedServerHello,
    TlsCertPayload,
    TlsExtension,
    TlsFetchResult,
 };
 /// No-op verifier: accept any certificate (we only need lengths and metadata).
 #[derive(Debug)]
@ -315,6 +321,46 @@ fn parse_cert_info(certs: &[CertificateDer<'static>]) -> Option<ParsedCertificat
    })
 }
 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,
@ -368,26 +414,18 @@ async fn fetch_via_raw_tls(
        },
        total_app_data_len,
        cert_info: None,
        cert_payload: None,
    })
 }
-/// Fetch real TLS metadata for the given SNI: negotiated cipher and cert lengths.
+async fn fetch_via_rustls(
 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> {
-    // Preferred path: raw TLS probe for accurate record sizing
+    // rustls handshake path for certificate and basic negotiated metadata.
    match fetch_via_raw_tls(host, port, sni, connect_timeout).await {
        Ok(res) => return Ok(res),
        Err(e) => {
            warn!(sni = %sni, error = %e, "Raw TLS fetch failed, falling back to rustls");
        }
    }
    // Fallback: rustls handshake to at least get certificate sizes
    let stream = if let Some(manager) = upstream {
        // Resolve host to SocketAddr
        if let Ok(mut addrs) = tokio::net::lookup_host((host, port)).await {
@ -429,8 +467,19 @@ pub async fn fetch_real_tls(
        .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: usize = certs.iter().map(|c| c.len()).sum::<usize>().max(1024);
+    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.
@ -453,6 +502,7 @@ pub async fn fetch_real_tls(
        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"
    );
@ -461,5 +511,81 @@ pub async fn fetch_real_tls(
        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/types.rs
+++ b/src/tls_front/types.rs
@ -29,11 +29,23 @@ pub struct ParsedCertificateInfo {
    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)]
@ -52,4 +64,5 @@ pub struct TlsFetchResult {
    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/codec.rs
+++ b/src/transport/middle_proxy/codec.rs
@ -1,6 +1,6 @@
 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::*;
@ -8,17 +8,46 @@ use crate::protocol::constants::*;
 pub(crate) enum WriterCommand {
    Data(Vec<u8>),
    DataAndFlush(Vec<u8>),
    Keepalive,
    Close,
 }
-pub(crate) fn build_rpc_frame(seq_no: i32, payload: &[u8]) -> Vec<u8> {
+#[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
 }
@ -45,7 +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}"
@ -95,24 +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(&process_pid16().to_le_bytes());
-    p[14..16].copy_from_slice(&pid.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());
+    utime
    p[20..24].copy_from_slice(&peer_ip);
    p[24..26].copy_from_slice(&peer_port.to_le_bytes());
    p
 }
 pub(crate) fn cbc_encrypt_padded(
@ -160,12 +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);
+        let frame = build_rpc_frame(self.seq_no, payload, self.crc_mode);
-        self.seq_no += 1;
+        self.seq_no = self.seq_no.wrapping_add(1);
        let pad = (16 - (frame.len() % 16)) % 16;
        let mut buf = frame;
@ -189,12 +247,4 @@ impl RpcWriter {
        self.send(payload).await?;
        self.writer.flush().await.map_err(ProxyError::Io)
    }
    pub(crate) async fn send_keepalive(&mut self, payload: [u8; 4]) -> Result<()> {
        // Keepalive is a frame with fl == 4 and 4 bytes payload.
        let mut frame = Vec::with_capacity(8);
        frame.extend_from_slice(&4u32.to_le_bytes());
        frame.extend_from_slice(&payload);
        self.send(&frame).await
    }
 }
--- a/src/transport/middle_proxy/handshake.rs
+++ b/src/transport/middle_proxy/handshake.rs
@ -18,13 +18,14 @@ use crate::crypto::{SecureRandom, build_middleproxy_prekey, derive_middleproxy_k
 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,
+    ME_CONNECT_TIMEOUT_SECS, ME_HANDSHAKE_TIMEOUT_SECS, RPC_CRYPTO_AES_U32,
-    RPC_HANDSHAKE_U32, RPC_PING_U32, RPC_PONG_U32, RPC_NONCE_U32,
+    RPC_HANDSHAKE_ERROR_U32, rpc_crypto_flags,
 };
 use super::codec::{
-    build_handshake_payload, build_nonce_payload, build_rpc_frame, cbc_decrypt_inplace,
+    RpcChecksumMode, build_handshake_payload, build_nonce_payload, build_rpc_frame,
-    cbc_encrypt_padded, parse_nonce_payload, read_rpc_frame_plaintext,
+    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;
@ -37,6 +38,7 @@ pub(crate) struct HandshakeOutput {
    pub read_iv: [u8; 16],
    pub write_key: [u8; 32],
    pub write_iv: [u8; 16],
    pub crc_mode: RpcChecksumMode,
    pub handshake_ms: f64,
 }
@ -146,7 +148,7 @@ impl MePool {
        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);
+        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}"),
@ -284,8 +286,15 @@ impl MePool {
            srv_v6_opt.as_ref(),
        );
-        let hs_payload = build_handshake_payload(hs_our_ip, local_addr.port(), hs_peer_ip, peer_addr.port());
+        let requested_crc_mode = RpcChecksumMode::Crc32c;
-        let hs_frame = build_rpc_frame(-1, &hs_payload);
+        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),
@ -314,7 +323,7 @@ impl MePool {
            );
        }
-        let (encrypted_hs, mut write_iv) = cbc_encrypt_padded(&wk, &wi, &hs_frame)?;
+        let (encrypted_hs, write_iv) = cbc_encrypt_padded(&wk, &wi, &hs_frame)?;
        if diag_level >= 1 {
            info!(
                hs_cipher = %hex_dump(&encrypted_hs),
@ -328,6 +337,7 @@ impl MePool {
        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 {
@ -375,17 +385,23 @@ impl MePool {
                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 = crate::crypto::crc32(&frame[..pe]);
+                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_type = u32::from_le_bytes(frame[8..12].try_into().unwrap());
+                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 frame.len() >= 16 {
+                    let err_code = if hs_payload.len() >= 8 {
-                        i32::from_le_bytes(frame[12..16].try_into().unwrap())
+                        i32::from_le_bytes(hs_payload[4..8].try_into().unwrap())
                    } else {
                        -1
                    };
@ -393,11 +409,21 @@ impl MePool {
                        "ME rejected handshake (error={err_code})"
                    )));
                }
-                if hs_type != RPC_HANDSHAKE_U32 {
+                let hs_flags = parse_handshake_flags(hs_payload)?;
                if hs_flags & 0xff != 0 {
                    return Err(ProxyError::InvalidHandshake(format!(
-                        "Expected HANDSHAKE 0x{RPC_HANDSHAKE_U32:08x}, got 0x{hs_type:08x}"
+                        "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;
@ -418,6 +444,7 @@ impl MePool {
            read_iv,
            write_key: wk,
            write_iv,
            crc_mode: negotiated_crc_mode,
            handshake_ms,
        })
    }
--- a/src/transport/middle_proxy/pool.rs
+++ b/src/transport/middle_proxy/pool.rs
@ -17,13 +17,11 @@ use crate::network::IpFamily;
 use crate::protocol::constants::*;
 use super::ConnRegistry;
-use super::registry::{BoundConn, ConnMeta};
+use super::registry::BoundConn;
 use super::codec::{RpcWriter, WriterCommand};
 use super::reader::reader_loop;
 use super::MeResponse;
 const ME_ACTIVE_PING_SECS: u64 = 25;
 const ME_ACTIVE_PING_JITTER_SECS: i64 = 5;
 const ME_KEEPALIVE_PAYLOAD_LEN: usize = 4;
 #[derive(Clone)]
 pub struct MeWriter {
@ -361,7 +359,6 @@ impl MePool {
        // Additional connections up to pool_size total (round-robin across DCs), staggered to de-phase lifecycles.
        if self.me_warmup_stagger_enabled {
            let mut delay_ms = 0u64;
            for (dc, addrs) in dc_addrs.iter() {
                for (ip, port) in addrs {
                    if self.connection_count() >= pool_size {
@ -369,7 +366,7 @@ impl MePool {
                    }
                    let addr = SocketAddr::new(*ip, *port);
                    let jitter = rand::rng().random_range(0..=self.me_warmup_step_jitter.as_millis() as u64);
-                    delay_ms = delay_ms.saturating_add(self.me_warmup_step_delay.as_millis() as u64 + jitter);
+                    let delay_ms = self.me_warmup_step_delay.as_millis() as u64 + jitter;
                    tokio::time::sleep(Duration::from_millis(delay_ms)).await;
                    if let Err(e) = self.connect_one(addr, rng.as_ref()).await {
                        debug!(%addr, dc = %dc, error = %e, "Extra ME connect failed (staggered)");
@ -418,14 +415,12 @@ impl MePool {
        let degraded = Arc::new(AtomicBool::new(false));
        let draining = Arc::new(AtomicBool::new(false));
        let (tx, mut rx) = mpsc::channel::<WriterCommand>(4096);
        let tx_for_keepalive = tx.clone();
        let keepalive_random = self.me_keepalive_payload_random;
        let stats = self.stats.clone();
        let mut rpc_writer = RpcWriter {
            writer: hs.wr,
            key: hs.write_key,
            iv: hs.write_iv,
            seq_no: 0,
            crc_mode: hs.crc_mode,
        };
        let cancel_wr = cancel.clone();
        tokio::spawn(async move {
@ -439,21 +434,6 @@ impl MePool {
                            Some(WriterCommand::DataAndFlush(payload)) => {
                                if rpc_writer.send_and_flush(&payload).await.is_err() { break; }
                            }
                            Some(WriterCommand::Keepalive) => {
                                let mut payload = [0u8; ME_KEEPALIVE_PAYLOAD_LEN];
                                if keepalive_random {
                                    rand::rng().fill(&mut payload);
                                }
                                match rpc_writer.send_keepalive(payload).await {
                                    Ok(()) => {
                                        stats.increment_me_keepalive_sent();
                                    }
                                    Err(_) => {
                                        stats.increment_me_keepalive_failed();
                                        break;
                                    }
                                }
                            }
                            Some(WriterCommand::Close) | None => break,
                        }
                    }
@ -471,12 +451,15 @@ impl MePool {
        };
        self.writers.write().await.push(writer.clone());
        self.conn_count.fetch_add(1, Ordering::Relaxed);
-        self.writer_available.notify_waiters();
+        self.writer_available.notify_one();
        let reg = self.registry.clone();
        let writers_arc = self.writers_arc();
        let ping_tracker = self.ping_tracker.clone();
        let ping_tracker_reader = ping_tracker.clone();
        let rtt_stats = self.rtt_stats.clone();
        let stats_reader = self.stats.clone();
        let stats_ping = self.stats.clone();
        let pool = Arc::downgrade(self);
        let cancel_ping = cancel.clone();
        let tx_ping = tx.clone();
@ -489,19 +472,20 @@ impl MePool {
        let keepalive_jitter = self.me_keepalive_jitter;
        let cancel_reader_token = cancel.clone();
        let cancel_ping_token = cancel_ping.clone();
        let cancel_keepalive_token = cancel.clone();
        tokio::spawn(async move {
            let res = reader_loop(
                hs.rd,
                hs.read_key,
                hs.read_iv,
                hs.crc_mode,
                reg.clone(),
                BytesMut::new(),
                BytesMut::new(),
                tx.clone(),
-                ping_tracker.clone(),
+                ping_tracker_reader,
                rtt_stats.clone(),
                stats_reader,
                writer_id,
                degraded.clone(),
                cancel_reader_token.clone(),
@ -526,15 +510,40 @@ impl MePool {
        let pool_ping = Arc::downgrade(self);
        tokio::spawn(async move {
            let mut ping_id: i64 = rand::random::<i64>();
-            loop {
+            // Per-writer jittered start to avoid phase sync.
            let startup_jitter = if keepalive_enabled {
                let jitter_cap_ms = keepalive_interval.as_millis() / 2;
                let effective_jitter_ms = keepalive_jitter.as_millis().min(jitter_cap_ms).max(1);
                Duration::from_millis(rand::rng().random_range(0..=effective_jitter_ms as u64))
            } else {
                let jitter = rand::rng()
                    .random_range(-ME_ACTIVE_PING_JITTER_SECS..=ME_ACTIVE_PING_JITTER_SECS);
                let wait = (ME_ACTIVE_PING_SECS as i64 + jitter).max(5) as u64;
                Duration::from_secs(wait)
            };
            tokio::select! {
                _ = cancel_ping_token.cancelled() => return,
                _ = tokio::time::sleep(startup_jitter) => {}
            }
            loop {
                let wait = if keepalive_enabled {
                    let jitter_cap_ms = keepalive_interval.as_millis() / 2;
                    let effective_jitter_ms = keepalive_jitter.as_millis().min(jitter_cap_ms).max(1);
                    keepalive_interval
                        + Duration::from_millis(
                            rand::rng().random_range(0..=effective_jitter_ms as u64)
                        )
                } else {
                    let jitter = rand::rng()
                        .random_range(-ME_ACTIVE_PING_JITTER_SECS..=ME_ACTIVE_PING_JITTER_SECS);
                    let secs = (ME_ACTIVE_PING_SECS as i64 + jitter).max(5) as u64;
                    Duration::from_secs(secs)
                };
                tokio::select! {
                    _ = cancel_ping_token.cancelled() => {
                        break;
                    }
-                    _ = tokio::time::sleep(Duration::from_secs(wait)) => {}
+                    _ = tokio::time::sleep(wait) => {}
                }
                let sent_id = ping_id;
                let mut p = Vec::with_capacity(12);
@ -542,12 +551,19 @@ impl MePool {
                p.extend_from_slice(&sent_id.to_le_bytes());
                {
                    let mut tracker = ping_tracker_ping.lock().await;
                    let before = tracker.len();
                    tracker.retain(|_, (ts, _)| ts.elapsed() < Duration::from_secs(120));
                    let expired = before.saturating_sub(tracker.len());
                    if expired > 0 {
                        stats_ping.increment_me_keepalive_timeout_by(expired as u64);
                    }
                    tracker.insert(sent_id, (std::time::Instant::now(), writer_id));
                }
                ping_id = ping_id.wrapping_add(1);
                stats_ping.increment_me_keepalive_sent();
                if tx_ping.send(WriterCommand::DataAndFlush(p)).await.is_err() {
-                    debug!("Active ME ping failed, removing dead writer");
+                    stats_ping.increment_me_keepalive_failed();
                    debug!("ME ping failed, removing dead writer");
                    cancel_ping.cancel();
                    if let Some(pool) = pool_ping.upgrade() {
                        if cleanup_for_ping
@ -562,27 +578,6 @@ impl MePool {
            }
        });
        if keepalive_enabled {
            let tx_keepalive = tx_for_keepalive;
            let cancel_keepalive = cancel_keepalive_token;
            tokio::spawn(async move {
                // Per-writer jittered start to avoid phase sync.
                let jitter_cap_ms = keepalive_interval.as_millis() / 2;
                let effective_jitter_ms = keepalive_jitter.as_millis().min(jitter_cap_ms).max(1);
                let initial_jitter_ms = rand::rng().random_range(0..=effective_jitter_ms as u64);
                tokio::time::sleep(Duration::from_millis(initial_jitter_ms)).await;
                loop {
                    tokio::select! {
                        _ = cancel_keepalive.cancelled() => break,
                        _ = tokio::time::sleep(keepalive_interval + Duration::from_millis(rand::rng().random_range(0..=effective_jitter_ms as u64))) => {}
                    }
                    if tx_keepalive.send(WriterCommand::Keepalive).await.is_err() {
                        break;
                    }
                }
            });
        }
        Ok(())
    }
@ -619,15 +614,19 @@ impl MePool {
    }
    async fn remove_writer_only(&self, writer_id: u64) -> Vec<BoundConn> {
        let mut close_tx: Option<mpsc::Sender<WriterCommand>> = None;
        {
            let mut ws = self.writers.write().await;
            if let Some(pos) = ws.iter().position(|w| w.id == writer_id) {
                let w = ws.remove(pos);
                w.cancel.cancel();
-                let _ = w.tx.send(WriterCommand::Close).await;
+                close_tx = Some(w.tx.clone());
                self.conn_count.fetch_sub(1, Ordering::Relaxed);
            }
        }
        if let Some(tx) = close_tx {
            let _ = tx.send(WriterCommand::Close).await;
        }
        self.rtt_stats.lock().await.remove(&writer_id);
        self.registry.writer_lost(writer_id).await
    }
--- a/src/transport/middle_proxy/reader.rs
+++ b/src/transport/middle_proxy/reader.rs
@ -10,31 +10,33 @@ 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::WriterCommand;
+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,
    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;
    let mut crc_errors = 0u32;
    let mut seq_mismatch = 0u32;
    loop {
        let mut tmp = [0u8; 16_384];
@ -80,26 +82,28 @@ 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 {
+            let actual_crc = rpc_crc(crc_mode, &frame[..pe]);
-                warn!("CRC mismatch in data frame");
+            if actual_crc != ec {
-                crc_errors += 1;
+                stats.increment_me_crc_mismatch();
-                if crc_errors > 3 {
+                warn!(
-                    return Err(ProxyError::Proxy("Too many CRC mismatches".into()));
+                    frame_len = fl,
-                }
+                    expected_crc = format_args!("0x{ec:08x}"),
-                continue;
+                    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");
-                seq_mismatch += 1;
+                return Err(ProxyError::SeqNoMismatch {
-                if seq_mismatch > 10 {
+                    expected: expected_seq,
-                    return Err(ProxyError::Proxy("Too many seq mismatches".into()));
+                    got: seq_no,
                });
            }
                expected_seq = seq_no.wrapping_add(1);
            } else {
            expected_seq = expected_seq.wrapping_add(1);
            }
            let payload = &frame[8..pe];
            if payload.len() < 4 {
@ -116,7 +120,13 @@ 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(&tx, cid).await;
                }
@ -126,7 +136,13 @@ 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(&tx, cid).await;
                }
@ -152,6 +168,7 @@ pub(crate) async fn reader_loop(
                }
            } 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)
--- a/src/transport/middle_proxy/registry.rs
+++ b/src/transport/middle_proxy/registry.rs
@ -1,13 +1,25 @@
 use std::collections::{HashMap, HashSet};
 use std::net::SocketAddr;
 use std::sync::atomic::{AtomicU64, Ordering};
-use std::sync::Arc;
+use std::time::Duration;
-use tokio::sync::{mpsc, Mutex, RwLock};
+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,
@ -64,7 +76,7 @@ impl ConnRegistry {
    pub async fn register(&self) -> (u64, mpsc::Receiver<MeResponse>) {
        let id = self.next_id.fetch_add(1, Ordering::Relaxed);
-        let (tx, rx) = mpsc::channel(1024);
+        let (tx, rx) = mpsc::channel(ROUTE_CHANNEL_CAPACITY);
        self.inner.write().await.map.insert(id, tx);
        (id, rx)
    }
@ -83,12 +95,27 @@ impl ConnRegistry {
        None
    }
-    pub async fn route(&self, id: u64, resp: MeResponse) -> bool {
+    pub async fn route(&self, id: u64, resp: MeResponse) -> RouteResult {
        let tx = {
            let inner = self.inner.read().await;
-        if let Some(tx) = inner.map.get(&id) {
+            inner.map.get(&id).cloned()
-            tx.try_send(resp).is_ok()
+        };
-        } else {
+
-            false
+        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,
                }
            }
        }
    }
--- a/src/transport/middle_proxy/send.rs
+++ b/src/transport/middle_proxy/send.rs
@ -62,6 +62,8 @@ impl MePool {
            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 {
@ -72,13 +74,19 @@ impl MePool {
                            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_waiters();
+                                    self.writer_available.notify_one();
                                    break;
                                }
                            }
                        }
                    }
-                    if tokio::time::timeout(Duration::from_secs(3), self.writer_available.notified()).await.is_err() {
+                    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;
--- 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;
@ -234,6 +236,133 @@ 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::*;
--- a/src/transport/upstream.rs
+++ b/src/transport/upstream.rs
@ -24,6 +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 =============
@ -375,7 +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));
                }
@ -383,6 +394,7 @@ impl UpstreamManager {
                Ok(stream)
            },
            UpstreamType::Socks4 { address, interface, user_id } => {
                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
@ -405,7 +417,15 @@ impl UpstreamManager {
                    let std_stream: std::net::TcpStream = socket.into();
                    let stream = TcpStream::from_std(std_stream)?;
-                    stream.writable().await?;
+                    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));
                    }
@ -416,8 +436,15 @@ impl UpstreamManager {
                    if interface.is_some() {
                        warn!("SOCKS4 interface binding is not supported for hostname addresses, ignoring");
                    }
-                    TcpStream::connect(address).await
+                    match tokio::time::timeout(connect_timeout, TcpStream::connect(address)).await {
-                        .map_err(ProxyError::Io)?
+                        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
@ -425,10 +452,19 @@ impl UpstreamManager {
                    .filter(|s| !s.is_empty());
                let _user_id: Option<&str> = scope.or(user_id.as_deref());
-                connect_socks4(&mut stream, target, _user_id).await?;
+                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(),
                        });
                    }
                }
                Ok(stream)
            },
            UpstreamType::Socks5 { address, interface, username, password } => {
                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
@ -451,7 +487,15 @@ impl UpstreamManager {
                    let std_stream: std::net::TcpStream = socket.into();
                    let stream = TcpStream::from_std(std_stream)?;
-                    stream.writable().await?;
+                    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));
                    }
@ -462,8 +506,15 @@ impl UpstreamManager {
                    if interface.is_some() {
                        warn!("SOCKS5 interface binding is not supported for hostname addresses, ignoring");
                    }
-                    TcpStream::connect(address).await
+                    match tokio::time::timeout(connect_timeout, TcpStream::connect(address)).await {
-                        .map_err(ProxyError::Io)?
+                        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");
@ -473,7 +524,20 @@ impl UpstreamManager {
                let _username: Option<&str> = scope.or(username.as_deref());
                let _password: Option<&str> = scope.or(password.as_deref());
-                connect_socks5(&mut stream, target, _username, _password).await?;
+                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(),
                        });
                    }
                }
                Ok(stream)
            },
        }
--- 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())