mirror of https://github.com/telemt/telemt.git
562 lines
23 KiB
Rust
562 lines
23 KiB
Rust
#![allow(clippy::too_many_arguments)]
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use std::convert::Infallible;
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use std::net::{IpAddr, SocketAddr};
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use std::path::PathBuf;
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use std::sync::Arc;
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use std::sync::atomic::{AtomicBool, AtomicU64, Ordering};
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use http_body_util::Full;
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use hyper::body::{Bytes, Incoming};
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use hyper::header::AUTHORIZATION;
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use hyper::server::conn::http1;
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use hyper::service::service_fn;
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use hyper::{Method, Request, Response, StatusCode};
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use tokio::net::TcpListener;
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use tokio::sync::{Mutex, RwLock, watch};
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use tracing::{debug, info, warn};
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use crate::config::ProxyConfig;
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use crate::ip_tracker::UserIpTracker;
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use crate::proxy::route_mode::RouteRuntimeController;
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use crate::startup::StartupTracker;
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use crate::stats::Stats;
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use crate::transport::UpstreamManager;
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use crate::transport::middle_proxy::MePool;
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mod config_store;
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mod events;
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mod http_utils;
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mod model;
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mod runtime_edge;
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mod runtime_init;
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mod runtime_min;
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mod runtime_selftest;
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mod runtime_stats;
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mod runtime_watch;
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mod runtime_zero;
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mod users;
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use config_store::{current_revision, parse_if_match};
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use events::ApiEventStore;
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use http_utils::{error_response, read_json, read_optional_json, success_response};
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use model::{
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ApiFailure, CreateUserRequest, HealthData, PatchUserRequest, RotateSecretRequest, SummaryData,
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};
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use runtime_edge::{
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EdgeConnectionsCacheEntry, build_runtime_connections_summary_data,
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build_runtime_events_recent_data,
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};
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use runtime_init::build_runtime_initialization_data;
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use runtime_min::{
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build_runtime_me_pool_state_data, build_runtime_me_quality_data, build_runtime_nat_stun_data,
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build_runtime_upstream_quality_data, build_security_whitelist_data,
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};
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use runtime_selftest::build_runtime_me_selftest_data;
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use runtime_stats::{
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MinimalCacheEntry, build_dcs_data, build_me_writers_data, build_minimal_all_data,
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build_upstreams_data, build_zero_all_data,
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};
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use runtime_watch::spawn_runtime_watchers;
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use runtime_zero::{
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build_limits_effective_data, build_runtime_gates_data, build_security_posture_data,
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build_system_info_data,
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};
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use users::{create_user, delete_user, patch_user, rotate_secret, users_from_config};
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pub(super) struct ApiRuntimeState {
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pub(super) process_started_at_epoch_secs: u64,
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pub(super) config_reload_count: AtomicU64,
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pub(super) last_config_reload_epoch_secs: AtomicU64,
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pub(super) admission_open: AtomicBool,
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}
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#[derive(Clone)]
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pub(super) struct ApiShared {
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pub(super) stats: Arc<Stats>,
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pub(super) ip_tracker: Arc<UserIpTracker>,
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pub(super) me_pool: Arc<RwLock<Option<Arc<MePool>>>>,
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pub(super) upstream_manager: Arc<UpstreamManager>,
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pub(super) config_path: PathBuf,
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pub(super) detected_ips_rx: watch::Receiver<(Option<IpAddr>, Option<IpAddr>)>,
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pub(super) mutation_lock: Arc<Mutex<()>>,
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pub(super) minimal_cache: Arc<Mutex<Option<MinimalCacheEntry>>>,
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pub(super) runtime_edge_connections_cache: Arc<Mutex<Option<EdgeConnectionsCacheEntry>>>,
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pub(super) runtime_edge_recompute_lock: Arc<Mutex<()>>,
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pub(super) runtime_events: Arc<ApiEventStore>,
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pub(super) request_id: Arc<AtomicU64>,
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pub(super) runtime_state: Arc<ApiRuntimeState>,
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pub(super) startup_tracker: Arc<StartupTracker>,
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pub(super) route_runtime: Arc<RouteRuntimeController>,
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}
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impl ApiShared {
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fn next_request_id(&self) -> u64 {
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self.request_id.fetch_add(1, Ordering::Relaxed)
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}
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fn detected_link_ips(&self) -> (Option<IpAddr>, Option<IpAddr>) {
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*self.detected_ips_rx.borrow()
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}
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}
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pub async fn serve(
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listen: SocketAddr,
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stats: Arc<Stats>,
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ip_tracker: Arc<UserIpTracker>,
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me_pool: Arc<RwLock<Option<Arc<MePool>>>>,
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route_runtime: Arc<RouteRuntimeController>,
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upstream_manager: Arc<UpstreamManager>,
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config_rx: watch::Receiver<Arc<ProxyConfig>>,
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admission_rx: watch::Receiver<bool>,
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config_path: PathBuf,
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detected_ips_rx: watch::Receiver<(Option<IpAddr>, Option<IpAddr>)>,
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process_started_at_epoch_secs: u64,
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startup_tracker: Arc<StartupTracker>,
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) {
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let listener = match TcpListener::bind(listen).await {
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Ok(listener) => listener,
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Err(error) => {
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warn!(
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error = %error,
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listen = %listen,
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"Failed to bind API listener"
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);
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return;
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}
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};
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info!("API endpoint: http://{}/v1/*", listen);
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let runtime_state = Arc::new(ApiRuntimeState {
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process_started_at_epoch_secs,
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config_reload_count: AtomicU64::new(0),
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last_config_reload_epoch_secs: AtomicU64::new(0),
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admission_open: AtomicBool::new(*admission_rx.borrow()),
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});
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let shared = Arc::new(ApiShared {
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stats,
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ip_tracker,
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me_pool,
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upstream_manager,
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config_path,
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detected_ips_rx,
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mutation_lock: Arc::new(Mutex::new(())),
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minimal_cache: Arc::new(Mutex::new(None)),
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runtime_edge_connections_cache: Arc::new(Mutex::new(None)),
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runtime_edge_recompute_lock: Arc::new(Mutex::new(())),
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runtime_events: Arc::new(ApiEventStore::new(
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config_rx.borrow().server.api.runtime_edge_events_capacity,
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)),
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request_id: Arc::new(AtomicU64::new(1)),
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runtime_state: runtime_state.clone(),
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startup_tracker,
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route_runtime,
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});
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spawn_runtime_watchers(
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config_rx.clone(),
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admission_rx.clone(),
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runtime_state.clone(),
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shared.runtime_events.clone(),
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);
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loop {
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let (stream, peer) = match listener.accept().await {
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Ok(v) => v,
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Err(error) => {
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warn!(error = %error, "API accept error");
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continue;
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}
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};
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let shared_conn = shared.clone();
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let config_rx_conn = config_rx.clone();
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tokio::spawn(async move {
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let svc = service_fn(move |req: Request<Incoming>| {
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let shared_req = shared_conn.clone();
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let config_rx_req = config_rx_conn.clone();
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async move { handle(req, peer, shared_req, config_rx_req).await }
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});
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if let Err(error) = http1::Builder::new()
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.serve_connection(hyper_util::rt::TokioIo::new(stream), svc)
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.await
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{
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debug!(error = %error, "API connection error");
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}
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});
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}
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}
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async fn handle(
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req: Request<Incoming>,
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peer: SocketAddr,
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shared: Arc<ApiShared>,
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config_rx: watch::Receiver<Arc<ProxyConfig>>,
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) -> Result<Response<Full<Bytes>>, Infallible> {
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let request_id = shared.next_request_id();
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let cfg = config_rx.borrow().clone();
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let api_cfg = &cfg.server.api;
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if !api_cfg.enabled {
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return Ok(error_response(
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request_id,
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ApiFailure::new(
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StatusCode::SERVICE_UNAVAILABLE,
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"api_disabled",
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"API is disabled",
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),
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));
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}
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if !api_cfg.whitelist.is_empty() && !api_cfg.whitelist.iter().any(|net| net.contains(peer.ip()))
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{
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return Ok(error_response(
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request_id,
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ApiFailure::new(
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StatusCode::FORBIDDEN,
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"forbidden",
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"Source IP is not allowed",
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),
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));
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}
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if !api_cfg.auth_header.is_empty() {
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let auth_ok = req
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.headers()
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.get(AUTHORIZATION)
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.and_then(|v| v.to_str().ok())
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.map(|v| v == api_cfg.auth_header)
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.unwrap_or(false);
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if !auth_ok {
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return Ok(error_response(
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request_id,
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ApiFailure::new(
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StatusCode::UNAUTHORIZED,
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"unauthorized",
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"Missing or invalid Authorization header",
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),
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));
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}
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}
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let method = req.method().clone();
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let path = req.uri().path().to_string();
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let query = req.uri().query().map(str::to_string);
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let body_limit = api_cfg.request_body_limit_bytes;
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let result: Result<Response<Full<Bytes>>, ApiFailure> = async {
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match (method.as_str(), path.as_str()) {
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("GET", "/v1/health") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = HealthData {
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status: "ok",
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read_only: api_cfg.read_only,
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};
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/system/info") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_system_info_data(shared.as_ref(), cfg.as_ref(), &revision);
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/gates") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_gates_data(shared.as_ref(), cfg.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/initialization") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_initialization_data(shared.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/limits/effective") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_limits_effective_data(cfg.as_ref());
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/security/posture") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_security_posture_data(cfg.as_ref());
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/security/whitelist") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_security_whitelist_data(cfg.as_ref());
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/stats/summary") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = SummaryData {
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uptime_seconds: shared.stats.uptime_secs(),
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connections_total: shared.stats.get_connects_all(),
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connections_bad_total: shared.stats.get_connects_bad(),
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handshake_timeouts_total: shared.stats.get_handshake_timeouts(),
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configured_users: cfg.access.users.len(),
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};
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/stats/zero/all") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_zero_all_data(&shared.stats, cfg.access.users.len());
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/stats/upstreams") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_upstreams_data(shared.as_ref(), api_cfg);
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/stats/minimal/all") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_minimal_all_data(shared.as_ref(), api_cfg).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/stats/me-writers") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_me_writers_data(shared.as_ref(), api_cfg).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/stats/dcs") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_dcs_data(shared.as_ref(), api_cfg).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/me_pool_state") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_me_pool_state_data(shared.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/me_quality") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_me_quality_data(shared.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/upstream_quality") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_upstream_quality_data(shared.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/nat_stun") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_nat_stun_data(shared.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/me-selftest") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_me_selftest_data(shared.as_ref(), cfg.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/connections/summary") => {
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let revision = current_revision(&shared.config_path).await?;
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let data =
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build_runtime_connections_summary_data(shared.as_ref(), cfg.as_ref()).await;
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/runtime/events/recent") => {
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let revision = current_revision(&shared.config_path).await?;
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let data = build_runtime_events_recent_data(
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shared.as_ref(),
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cfg.as_ref(),
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query.as_deref(),
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);
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Ok(success_response(StatusCode::OK, data, revision))
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}
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("GET", "/v1/stats/users") | ("GET", "/v1/users") => {
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let revision = current_revision(&shared.config_path).await?;
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let (detected_ip_v4, detected_ip_v6) = shared.detected_link_ips();
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let users = users_from_config(
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&cfg,
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&shared.stats,
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&shared.ip_tracker,
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detected_ip_v4,
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detected_ip_v6,
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)
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.await;
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Ok(success_response(StatusCode::OK, users, revision))
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}
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("POST", "/v1/users") => {
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if api_cfg.read_only {
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return Ok(error_response(
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request_id,
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ApiFailure::new(
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StatusCode::FORBIDDEN,
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"read_only",
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"API runs in read-only mode",
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),
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));
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}
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let expected_revision = parse_if_match(req.headers());
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let body = read_json::<CreateUserRequest>(req.into_body(), body_limit).await?;
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let result = create_user(body, expected_revision, &shared).await;
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let (data, revision) = match result {
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Ok(ok) => ok,
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Err(error) => {
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shared
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.runtime_events
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.record("api.user.create.failed", error.code);
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return Err(error);
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}
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};
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shared.runtime_events.record(
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"api.user.create.ok",
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format!("username={}", data.user.username),
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);
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Ok(success_response(StatusCode::CREATED, data, revision))
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}
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_ => {
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if let Some(user) = path.strip_prefix("/v1/users/")
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&& !user.is_empty()
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&& !user.contains('/')
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{
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if method == Method::GET {
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let revision = current_revision(&shared.config_path).await?;
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let (detected_ip_v4, detected_ip_v6) = shared.detected_link_ips();
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let users = users_from_config(
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&cfg,
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&shared.stats,
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&shared.ip_tracker,
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detected_ip_v4,
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detected_ip_v6,
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)
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.await;
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if let Some(user_info) =
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users.into_iter().find(|entry| entry.username == user)
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{
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return Ok(success_response(StatusCode::OK, user_info, revision));
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}
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return Ok(error_response(
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request_id,
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ApiFailure::new(StatusCode::NOT_FOUND, "not_found", "User not found"),
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));
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}
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if method == Method::PATCH {
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if api_cfg.read_only {
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return Ok(error_response(
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request_id,
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ApiFailure::new(
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StatusCode::FORBIDDEN,
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"read_only",
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"API runs in read-only mode",
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),
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));
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}
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let expected_revision = parse_if_match(req.headers());
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let body =
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read_json::<PatchUserRequest>(req.into_body(), body_limit).await?;
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let result = patch_user(user, body, expected_revision, &shared).await;
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let (data, revision) = match result {
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Ok(ok) => ok,
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Err(error) => {
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shared.runtime_events.record(
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"api.user.patch.failed",
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format!("username={} code={}", user, error.code),
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);
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return Err(error);
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}
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};
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shared
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.runtime_events
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.record("api.user.patch.ok", format!("username={}", data.username));
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return Ok(success_response(StatusCode::OK, data, revision));
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}
|
|
if method == Method::DELETE {
|
|
if api_cfg.read_only {
|
|
return Ok(error_response(
|
|
request_id,
|
|
ApiFailure::new(
|
|
StatusCode::FORBIDDEN,
|
|
"read_only",
|
|
"API runs in read-only mode",
|
|
),
|
|
));
|
|
}
|
|
let expected_revision = parse_if_match(req.headers());
|
|
let result = delete_user(user, expected_revision, &shared).await;
|
|
let (deleted_user, revision) = match result {
|
|
Ok(ok) => ok,
|
|
Err(error) => {
|
|
shared.runtime_events.record(
|
|
"api.user.delete.failed",
|
|
format!("username={} code={}", user, error.code),
|
|
);
|
|
return Err(error);
|
|
}
|
|
};
|
|
shared
|
|
.runtime_events
|
|
.record("api.user.delete.ok", format!("username={}", deleted_user));
|
|
return Ok(success_response(StatusCode::OK, deleted_user, revision));
|
|
}
|
|
if method == Method::POST
|
|
&& let Some(base_user) = user.strip_suffix("/rotate-secret")
|
|
&& !base_user.is_empty()
|
|
&& !base_user.contains('/')
|
|
{
|
|
if api_cfg.read_only {
|
|
return Ok(error_response(
|
|
request_id,
|
|
ApiFailure::new(
|
|
StatusCode::FORBIDDEN,
|
|
"read_only",
|
|
"API runs in read-only mode",
|
|
),
|
|
));
|
|
}
|
|
let expected_revision = parse_if_match(req.headers());
|
|
let body =
|
|
read_optional_json::<RotateSecretRequest>(req.into_body(), body_limit)
|
|
.await?;
|
|
let result = rotate_secret(
|
|
base_user,
|
|
body.unwrap_or_default(),
|
|
expected_revision,
|
|
&shared,
|
|
)
|
|
.await;
|
|
let (data, revision) = match result {
|
|
Ok(ok) => ok,
|
|
Err(error) => {
|
|
shared.runtime_events.record(
|
|
"api.user.rotate_secret.failed",
|
|
format!("username={} code={}", base_user, error.code),
|
|
);
|
|
return Err(error);
|
|
}
|
|
};
|
|
shared.runtime_events.record(
|
|
"api.user.rotate_secret.ok",
|
|
format!("username={}", base_user),
|
|
);
|
|
return Ok(success_response(StatusCode::OK, data, revision));
|
|
}
|
|
if method == Method::POST {
|
|
return Ok(error_response(
|
|
request_id,
|
|
ApiFailure::new(StatusCode::NOT_FOUND, "not_found", "Route not found"),
|
|
));
|
|
}
|
|
return Ok(error_response(
|
|
request_id,
|
|
ApiFailure::new(
|
|
StatusCode::METHOD_NOT_ALLOWED,
|
|
"method_not_allowed",
|
|
"Unsupported HTTP method for this route",
|
|
),
|
|
));
|
|
}
|
|
Ok(error_response(
|
|
request_id,
|
|
ApiFailure::new(StatusCode::NOT_FOUND, "not_found", "Route not found"),
|
|
))
|
|
}
|
|
}
|
|
}
|
|
.await;
|
|
|
|
match result {
|
|
Ok(resp) => Ok(resp),
|
|
Err(error) => Ok(error_response(request_id, error)),
|
|
}
|
|
}
|