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feat(metrics): add per-backend connection, error, protocol, and pool metrics with stale backend pruning

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This commit is contained in:
Jürgen Kunz
2026-03-12 15:16:11 +00:00
parent 0380a957d0
commit 0d4399d7f1
7 changed files with 561 additions and 36 deletions
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7
changelog.md
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@@ -1,5 +1,12 @@
# Changelog # Changelog
## 2026-03-12 - 25.10.0 - feat(metrics)
add per-backend connection, error, protocol, and pool metrics with stale backend pruning
- tracks backend connection lifecycle, connect timing, protocol detection, pool hit/miss rates, handshake/request errors, and h2 fallback failures in Rust metrics
- exposes backend metrics through the TypeScript metrics adapter with backend listings, protocol lookup, and top error summaries
- prunes backend metrics for backends no longer referenced by active routes, including preserved-port targets expanded across listening ports
## 2026-03-11 - 25.9.3 - fix(rustproxy-http) ## 2026-03-11 - 25.9.3 - fix(rustproxy-http)
Evict stale HTTP/2 pooled senders and retry bodyless requests with fresh backend connections to avoid 502s Evict stale HTTP/2 pooled senders and retry bodyless requests with fresh backend connections to avoid 502s

154
rust/crates/rustproxy-http/src/proxy_service.rs
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@@ -618,6 +618,8 @@ impl HttpProxyService {
// H2 pool checkout (H2 senders are Clone and multiplexed) // H2 pool checkout (H2 senders are Clone and multiplexed)
if use_h2 { if use_h2 {
if let Some(sender) = self.connection_pool.checkout_h2(&pool_key) { if let Some(sender) = self.connection_pool.checkout_h2(&pool_key) {
self.metrics.backend_pool_hit(&upstream_key);
self.metrics.set_backend_protocol(&upstream_key, "h2");
let result = self.forward_h2_pooled( let result = self.forward_h2_pooled(
sender, parts, body, upstream_headers, &upstream_path, sender, parts, body, upstream_headers, &upstream_path,
route_match.route, route_id, &ip_str, &pool_key, route_match.route, route_id, &ip_str, &pool_key,
@@ -629,6 +631,8 @@ impl HttpProxyService {
} }
// --- Fresh connection path --- // --- Fresh connection path ---
self.metrics.backend_pool_miss(&upstream_key);
// Choose TLS config: use ALPN config for auto-detect probe, plain config otherwise // Choose TLS config: use ALPN config for auto-detect probe, plain config otherwise
let tls_config = if needs_alpn_probe { let tls_config = if needs_alpn_probe {
&self.backend_tls_config_alpn &self.backend_tls_config_alpn
@@ -637,6 +641,7 @@ impl HttpProxyService {
}; };
// Establish backend connection // Establish backend connection
let connect_start = std::time::Instant::now();
let (backend, detected_h2) = if upstream.use_tls { let (backend, detected_h2) = if upstream.use_tls {
match tokio::time::timeout( match tokio::time::timeout(
self.connect_timeout, self.connect_timeout,
@@ -661,25 +666,39 @@ impl HttpProxyService {
}; };
self.protocol_cache.insert(cache_key, detected); self.protocol_cache.insert(cache_key, detected);
debug!( info!(
"Auto-detected {} for backend {}:{}", backend = %upstream_key,
if is_h2 { "HTTP/2" } else { "HTTP/1.1" }, protocol = if is_h2 { "h2" } else { "h1" },
upstream.host, upstream.port connect_time_ms = %connect_start.elapsed().as_millis(),
"Backend protocol detected via ALPN"
); );
is_h2 is_h2
} else { } else {
use_h2 use_h2
}; };
self.metrics.backend_connection_opened(&upstream_key, connect_start.elapsed());
self.metrics.set_backend_protocol(&upstream_key, if final_h2 { "h2" } else { "h1" });
(BackendStream::Tls(tls), final_h2) (BackendStream::Tls(tls), final_h2)
} }
Ok(Err(e)) => { Ok(Err(e)) => {
error!("Failed TLS connect to upstream {}:{}: {}", upstream.host, upstream.port, e); error!(
backend = %upstream_key,
connect_time_ms = %connect_start.elapsed().as_millis(),
error = %e,
"Backend TLS connect failed"
);
self.metrics.backend_connect_error(&upstream_key);
self.upstream_selector.connection_ended(&upstream_key); self.upstream_selector.connection_ended(&upstream_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend TLS unavailable")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend TLS unavailable"));
} }
Err(_) => { Err(_) => {
error!("Upstream TLS connect timeout for {}:{}", upstream.host, upstream.port); error!(
backend = %upstream_key,
connect_time_ms = %connect_start.elapsed().as_millis(),
"Backend TLS connect timeout"
);
self.metrics.backend_connect_error(&upstream_key);
self.upstream_selector.connection_ended(&upstream_key); self.upstream_selector.connection_ended(&upstream_key);
return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend TLS connect timeout")); return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend TLS connect timeout"));
} }
@@ -694,15 +713,28 @@ impl HttpProxyService {
let _ = socket2::SockRef::from(&s).set_tcp_keepalive( let _ = socket2::SockRef::from(&s).set_tcp_keepalive(
&socket2::TcpKeepalive::new().with_time(std::time::Duration::from_secs(60)) &socket2::TcpKeepalive::new().with_time(std::time::Duration::from_secs(60))
); );
self.metrics.backend_connection_opened(&upstream_key, connect_start.elapsed());
self.metrics.set_backend_protocol(&upstream_key, if use_h2 { "h2" } else { "h1" });
(BackendStream::Plain(s), use_h2) (BackendStream::Plain(s), use_h2)
} }
Ok(Err(e)) => { Ok(Err(e)) => {
error!("Failed to connect to upstream {}:{}: {}", upstream.host, upstream.port, e); error!(
backend = %upstream_key,
connect_time_ms = %connect_start.elapsed().as_millis(),
error = %e,
"Backend TCP connect failed"
);
self.metrics.backend_connect_error(&upstream_key);
self.upstream_selector.connection_ended(&upstream_key); self.upstream_selector.connection_ended(&upstream_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable"));
} }
Err(_) => { Err(_) => {
error!("Upstream connect timeout for {}:{}", upstream.host, upstream.port); error!(
backend = %upstream_key,
connect_time_ms = %connect_start.elapsed().as_millis(),
"Backend TCP connect timeout"
);
self.metrics.backend_connect_error(&upstream_key);
self.upstream_selector.connection_ended(&upstream_key); self.upstream_selector.connection_ended(&upstream_key);
return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend connect timeout")); return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend connect timeout"));
} }
@@ -740,6 +772,7 @@ impl HttpProxyService {
).await ).await
}; };
self.upstream_selector.connection_ended(&upstream_key); self.upstream_selector.connection_ended(&upstream_key);
self.metrics.backend_connection_closed(&upstream_key);
result result
} }
@@ -758,8 +791,11 @@ impl HttpProxyService {
source_ip: &str, source_ip: &str,
pool_key: &crate::connection_pool::PoolKey, pool_key: &crate::connection_pool::PoolKey,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> { ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
// Try pooled H1 connection first — avoids TCP+TLS handshake // Try pooled H1 connection first — avoids TCP+TLS handshake
if let Some(pooled_sender) = self.connection_pool.checkout_h1(pool_key) { if let Some(pooled_sender) = self.connection_pool.checkout_h1(pool_key) {
self.metrics.backend_pool_hit(&backend_key);
return self.forward_h1_with_sender( return self.forward_h1_with_sender(
pooled_sender, parts, body, upstream_headers, upstream_path, pooled_sender, parts, body, upstream_headers, upstream_path,
route, route_id, source_ip, pool_key, route, route_id, source_ip, pool_key,
@@ -773,7 +809,8 @@ impl HttpProxyService {
) = match hyper::client::conn::http1::handshake(io).await { ) = match hyper::client::conn::http1::handshake(io).await {
Ok(h) => h, Ok(h) => h,
Err(e) => { Err(e) => {
error!("Upstream handshake failed: {}", e); error!(backend = %backend_key, error = %e, "Backend H1 handshake failed");
self.metrics.backend_handshake_error(&backend_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend handshake failed")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend handshake failed"));
} }
}; };
@@ -825,7 +862,9 @@ impl HttpProxyService {
let upstream_response = match sender.send_request(upstream_req).await { let upstream_response = match sender.send_request(upstream_req).await {
Ok(resp) => resp, Ok(resp) => resp,
Err(e) => { Err(e) => {
error!("Upstream request failed: {}", e); let bk = format!("{}:{}", pool_key.host, pool_key.port);
error!(backend = %bk, error = %e, "Backend H1 request failed");
self.metrics.backend_request_error(&bk);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend request failed")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend request failed"));
} }
}; };
@@ -851,6 +890,7 @@ impl HttpProxyService {
source_ip: &str, source_ip: &str,
pool_key: &crate::connection_pool::PoolKey, pool_key: &crate::connection_pool::PoolKey,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> { ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
let exec = hyper_util::rt::TokioExecutor::new(); let exec = hyper_util::rt::TokioExecutor::new();
// Explicitly type the handshake with BoxBody for uniform pool type // Explicitly type the handshake with BoxBody for uniform pool type
let (sender, conn): ( let (sender, conn): (
@@ -859,7 +899,8 @@ impl HttpProxyService {
) = match hyper::client::conn::http2::handshake(exec, io).await { ) = match hyper::client::conn::http2::handshake(exec, io).await {
Ok(h) => h, Ok(h) => h,
Err(e) => { Err(e) => {
error!("HTTP/2 upstream handshake failed: {}", e); error!(backend = %backend_key, error = %e, "Backend H2 handshake failed");
self.metrics.backend_handshake_error(&backend_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 handshake failed")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 handshake failed"));
} }
}; };
@@ -930,7 +971,10 @@ impl HttpProxyService {
route_id: Option<&str>, route_id: Option<&str>,
source_ip: &str, source_ip: &str,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> { ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
// Establish fresh backend connection // Establish fresh backend connection
let retry_connect_start = std::time::Instant::now();
let backend = if pool_key.use_tls { let backend = if pool_key.use_tls {
match tokio::time::timeout( match tokio::time::timeout(
self.connect_timeout, self.connect_timeout,
@@ -938,11 +982,13 @@ impl HttpProxyService {
).await { ).await {
Ok(Ok(tls)) => BackendStream::Tls(tls), Ok(Ok(tls)) => BackendStream::Tls(tls),
Ok(Err(e)) => { Ok(Err(e)) => {
error!("H2 retry: TLS connect failed for {}:{}: {}", pool_key.host, pool_key.port, e); error!(backend = %backend_key, error = %e, "H2 retry: TLS connect failed");
self.metrics.backend_connect_error(&backend_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable on H2 retry")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable on H2 retry"));
} }
Err(_) => { Err(_) => {
error!("H2 retry: TLS connect timeout for {}:{}", pool_key.host, pool_key.port); error!(backend = %backend_key, "H2 retry: TLS connect timeout");
self.metrics.backend_connect_error(&backend_key);
return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend timeout on H2 retry")); return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend timeout on H2 retry"));
} }
} }
@@ -956,15 +1002,18 @@ impl HttpProxyService {
BackendStream::Plain(s) BackendStream::Plain(s)
} }
Ok(Err(e)) => { Ok(Err(e)) => {
error!("H2 retry: connect failed for {}:{}: {}", pool_key.host, pool_key.port, e); error!(backend = %backend_key, error = %e, "H2 retry: TCP connect failed");
self.metrics.backend_connect_error(&backend_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable on H2 retry")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable on H2 retry"));
} }
Err(_) => { Err(_) => {
error!("H2 retry: connect timeout for {}:{}", pool_key.host, pool_key.port); error!(backend = %backend_key, "H2 retry: TCP connect timeout");
self.metrics.backend_connect_error(&backend_key);
return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend timeout on H2 retry")); return Ok(error_response(StatusCode::GATEWAY_TIMEOUT, "Backend timeout on H2 retry"));
} }
} }
}; };
self.metrics.backend_connection_opened(&backend_key, retry_connect_start.elapsed());
let io = TokioIo::new(backend); let io = TokioIo::new(backend);
let exec = hyper_util::rt::TokioExecutor::new(); let exec = hyper_util::rt::TokioExecutor::new();
@@ -974,7 +1023,8 @@ impl HttpProxyService {
) = match hyper::client::conn::http2::handshake(exec, io).await { ) = match hyper::client::conn::http2::handshake(exec, io).await {
Ok(h) => h, Ok(h) => h,
Err(e) => { Err(e) => {
error!("H2 retry: handshake failed for {}:{}: {}", pool_key.host, pool_key.port, e); error!(backend = %backend_key, error = %e, "H2 retry: handshake failed");
self.metrics.backend_handshake_error(&backend_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 retry handshake failed")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 retry handshake failed"));
} }
}; };
@@ -1004,11 +1054,17 @@ impl HttpProxyService {
match sender.send_request(upstream_req).await { match sender.send_request(upstream_req).await {
Ok(resp) => { Ok(resp) => {
self.build_streaming_response(resp, route, route_id, source_ip).await let result = self.build_streaming_response(resp, route, route_id, source_ip).await;
// Close the fresh backend connection (opened at line 1016 above)
self.metrics.backend_connection_closed(&backend_key);
result
} }
Err(e) => { Err(e) => {
error!("H2 retry: request failed for {}:{}: {}", pool_key.host, pool_key.port, e); error!(backend = %backend_key, error = %e, "H2 retry: request failed");
self.metrics.backend_request_error(&backend_key);
self.connection_pool.remove_h2(pool_key); self.connection_pool.remove_h2(pool_key);
// Close the fresh backend connection (opened at line 1016 above)
self.metrics.backend_connection_closed(&backend_key);
Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 request failed on retry")) Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 request failed on retry"))
} }
} }
@@ -1086,10 +1142,13 @@ impl HttpProxyService {
Err(e) => { Err(e) => {
// H2 request failed — backend advertises h2 via ALPN but doesn't // H2 request failed — backend advertises h2 via ALPN but doesn't
// actually speak it. Update cache so future requests use H1. // actually speak it. Update cache so future requests use H1.
let bk = format!("{}:{}", upstream.host, upstream.port);
warn!( warn!(
"Auto-detect: H2 request failed for {}:{}, falling back to H1: {}", backend = %bk,
upstream.host, upstream.port, e error = %e,
"Auto-detect: H2 request failed, falling back to H1"
); );
self.metrics.backend_h2_failure(&bk);
let cache_key = crate::protocol_cache::ProtocolCacheKey { let cache_key = crate::protocol_cache::ProtocolCacheKey {
host: upstream.host.clone(), host: upstream.host.clone(),
port: upstream.port, port: upstream.port,
@@ -1108,10 +1167,13 @@ impl HttpProxyService {
h2: false, h2: false,
}; };
let fallback_io = TokioIo::new(fallback_backend); let fallback_io = TokioIo::new(fallback_backend);
self.forward_h1_empty_body( let result = self.forward_h1_empty_body(
fallback_io, method, headers, upstream_path, fallback_io, method, headers, upstream_path,
route, route_id, source_ip, &h1_pool_key, route, route_id, source_ip, &h1_pool_key,
).await ).await;
// Close the reconnected backend connection (opened in reconnect_backend)
self.metrics.backend_connection_closed(&bk);
result
} }
None => { None => {
Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable after H2 fallback")) Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable after H2 fallback"))
@@ -1126,10 +1188,14 @@ impl HttpProxyService {
Err(e) => { Err(e) => {
// H2 handshake truly failed — fall back to H1 // H2 handshake truly failed — fall back to H1
// Body is NOT consumed yet, so we can retry the full request. // Body is NOT consumed yet, so we can retry the full request.
let bk = format!("{}:{}", upstream.host, upstream.port);
warn!( warn!(
"H2 handshake failed for {}:{}, falling back to H1: {}", backend = %bk,
upstream.host, upstream.port, e error = %e,
"H2 handshake failed, falling back to H1"
); );
self.metrics.backend_h2_failure(&bk);
self.metrics.backend_handshake_error(&bk);
// Update cache to H1 so subsequent requests skip H2 // Update cache to H1 so subsequent requests skip H2
let cache_key = crate::protocol_cache::ProtocolCacheKey { let cache_key = crate::protocol_cache::ProtocolCacheKey {
@@ -1149,10 +1215,13 @@ impl HttpProxyService {
h2: false, h2: false,
}; };
let fallback_io = TokioIo::new(fallback_backend); let fallback_io = TokioIo::new(fallback_backend);
self.forward_h1( let result = self.forward_h1(
fallback_io, parts, body, upstream_headers, upstream_path, fallback_io, parts, body, upstream_headers, upstream_path,
upstream, route, route_id, source_ip, &h1_pool_key, upstream, route, route_id, source_ip, &h1_pool_key,
).await ).await;
// Close the reconnected backend connection (opened in reconnect_backend)
self.metrics.backend_connection_closed(&bk);
result
} }
None => { None => {
Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable after H2 fallback")) Ok(error_response(StatusCode::BAD_GATEWAY, "Backend unavailable after H2 fallback"))
@@ -1175,13 +1244,15 @@ impl HttpProxyService {
source_ip: &str, source_ip: &str,
pool_key: &crate::connection_pool::PoolKey, pool_key: &crate::connection_pool::PoolKey,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> { ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
let (mut sender, conn): ( let (mut sender, conn): (
hyper::client::conn::http1::SendRequest<BoxBody<Bytes, hyper::Error>>, hyper::client::conn::http1::SendRequest<BoxBody<Bytes, hyper::Error>>,
hyper::client::conn::http1::Connection<TokioIo<BackendStream>, BoxBody<Bytes, hyper::Error>>, hyper::client::conn::http1::Connection<TokioIo<BackendStream>, BoxBody<Bytes, hyper::Error>>,
) = match hyper::client::conn::http1::handshake(io).await { ) = match hyper::client::conn::http1::handshake(io).await {
Ok(h) => h, Ok(h) => h,
Err(e) => { Err(e) => {
error!("H1 fallback: handshake failed: {}", e); error!(backend = %backend_key, error = %e, "H1 fallback: handshake failed");
self.metrics.backend_handshake_error(&backend_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H1 fallback handshake failed")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H1 fallback handshake failed"));
} }
}; };
@@ -1209,7 +1280,8 @@ impl HttpProxyService {
let upstream_response = match sender.send_request(upstream_req).await { let upstream_response = match sender.send_request(upstream_req).await {
Ok(resp) => resp, Ok(resp) => resp,
Err(e) => { Err(e) => {
error!("H1 fallback: request failed: {}", e); error!(backend = %backend_key, error = %e, "H1 fallback: request failed");
self.metrics.backend_request_error(&backend_key);
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H1 fallback request failed")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H1 fallback request failed"));
} }
}; };
@@ -1225,18 +1297,25 @@ impl HttpProxyService {
&self, &self,
upstream: &crate::upstream_selector::UpstreamSelection, upstream: &crate::upstream_selector::UpstreamSelection,
) -> Option<BackendStream> { ) -> Option<BackendStream> {
let backend_key = format!("{}:{}", upstream.host, upstream.port);
let reconnect_start = std::time::Instant::now();
if upstream.use_tls { if upstream.use_tls {
match tokio::time::timeout( match tokio::time::timeout(
self.connect_timeout, self.connect_timeout,
connect_tls_backend(&self.backend_tls_config, &upstream.host, upstream.port), connect_tls_backend(&self.backend_tls_config, &upstream.host, upstream.port),
).await { ).await {
Ok(Ok(tls)) => Some(BackendStream::Tls(tls)), Ok(Ok(tls)) => {
self.metrics.backend_connection_opened(&backend_key, reconnect_start.elapsed());
Some(BackendStream::Tls(tls))
}
Ok(Err(e)) => { Ok(Err(e)) => {
error!("H1 fallback: TLS reconnect failed for {}:{}: {}", upstream.host, upstream.port, e); error!(backend = %backend_key, error = %e, "H1 fallback: TLS reconnect failed");
self.metrics.backend_connect_error(&backend_key);
None None
} }
Err(_) => { Err(_) => {
error!("H1 fallback: TLS reconnect timeout for {}:{}", upstream.host, upstream.port); error!(backend = %backend_key, "H1 fallback: TLS reconnect timeout");
self.metrics.backend_connect_error(&backend_key);
None None
} }
} }
@@ -1250,14 +1329,17 @@ impl HttpProxyService {
let _ = socket2::SockRef::from(&s).set_tcp_keepalive( let _ = socket2::SockRef::from(&s).set_tcp_keepalive(
&socket2::TcpKeepalive::new().with_time(std::time::Duration::from_secs(60)) &socket2::TcpKeepalive::new().with_time(std::time::Duration::from_secs(60))
); );
self.metrics.backend_connection_opened(&backend_key, reconnect_start.elapsed());
Some(BackendStream::Plain(s)) Some(BackendStream::Plain(s))
} }
Ok(Err(e)) => { Ok(Err(e)) => {
error!("H1 fallback: reconnect failed for {}:{}: {}", upstream.host, upstream.port, e); error!(backend = %backend_key, error = %e, "H1 fallback: TCP reconnect failed");
self.metrics.backend_connect_error(&backend_key);
None None
} }
Err(_) => { Err(_) => {
error!("H1 fallback: reconnect timeout for {}:{}", upstream.host, upstream.port); error!(backend = %backend_key, "H1 fallback: TCP reconnect timeout");
self.metrics.backend_connect_error(&backend_key);
None None
} }
} }
@@ -1300,10 +1382,14 @@ impl HttpProxyService {
let upstream_response = match sender.send_request(upstream_req).await { let upstream_response = match sender.send_request(upstream_req).await {
Ok(resp) => resp, Ok(resp) => resp,
Err(e) => { Err(e) => {
error!("HTTP/2 upstream request failed: {}", e);
// Evict the dead sender so subsequent requests get fresh connections // Evict the dead sender so subsequent requests get fresh connections
if let Some(key) = pool_key { if let Some(key) = pool_key {
let bk = format!("{}:{}", key.host, key.port);
error!(backend = %bk, error = %e, "Backend H2 request failed");
self.metrics.backend_request_error(&bk);
self.connection_pool.remove_h2(key); self.connection_pool.remove_h2(key);
} else {
error!(error = %e, "Backend H2 request failed");
} }
return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 request failed")); return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 request failed"));
} }

336
rust/crates/rustproxy-metrics/src/collector.rs
View File

@@ -3,6 +3,7 @@ use serde::{Deserialize, Serialize};
use std::collections::HashSet; use std::collections::HashSet;
use std::sync::atomic::{AtomicU64, Ordering}; use std::sync::atomic::{AtomicU64, Ordering};
use std::sync::Mutex; use std::sync::Mutex;
use std::time::Duration;
use crate::throughput::{ThroughputSample, ThroughputTracker}; use crate::throughput::{ThroughputSample, ThroughputTracker};
@@ -20,6 +21,7 @@ pub struct Metrics {
pub throughput_recent_out_bytes_per_sec: u64, pub throughput_recent_out_bytes_per_sec: u64,
pub routes: std::collections::HashMap<String, RouteMetrics>, pub routes: std::collections::HashMap<String, RouteMetrics>,
pub ips: std::collections::HashMap<String, IpMetrics>, pub ips: std::collections::HashMap<String, IpMetrics>,
pub backends: std::collections::HashMap<String, BackendMetrics>,
pub throughput_history: Vec<ThroughputSample>, pub throughput_history: Vec<ThroughputSample>,
pub total_http_requests: u64, pub total_http_requests: u64,
pub http_requests_per_sec: u64, pub http_requests_per_sec: u64,
@@ -52,6 +54,23 @@ pub struct IpMetrics {
pub throughput_out_bytes_per_sec: u64, pub throughput_out_bytes_per_sec: u64,
} }
/// Per-backend metrics (keyed by "host:port").
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct BackendMetrics {
pub active_connections: u64,
pub total_connections: u64,
pub protocol: String,
pub connect_errors: u64,
pub handshake_errors: u64,
pub request_errors: u64,
pub total_connect_time_us: u64,
pub connect_count: u64,
pub pool_hits: u64,
pub pool_misses: u64,
pub h2_failures: u64,
}
/// Statistics snapshot. /// Statistics snapshot.
#[derive(Debug, Clone, Serialize, Deserialize)] #[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")] #[serde(rename_all = "camelCase")]
@@ -69,6 +88,9 @@ const DEFAULT_RETENTION_SECONDS: usize = 3600;
/// Maximum number of IPs to include in a snapshot (top by active connections). /// Maximum number of IPs to include in a snapshot (top by active connections).
const MAX_IPS_IN_SNAPSHOT: usize = 100; const MAX_IPS_IN_SNAPSHOT: usize = 100;
/// Maximum number of backends to include in a snapshot (top by total connections).
const MAX_BACKENDS_IN_SNAPSHOT: usize = 100;
/// Metrics collector tracking connections and throughput. /// Metrics collector tracking connections and throughput.
/// ///
/// Design: The hot path (`record_bytes`) is entirely lock-free — it only touches /// Design: The hot path (`record_bytes`) is entirely lock-free — it only touches
@@ -96,6 +118,19 @@ pub struct MetricsCollector {
ip_pending_tp: DashMap<String, (AtomicU64, AtomicU64)>, ip_pending_tp: DashMap<String, (AtomicU64, AtomicU64)>,
ip_throughput: DashMap<String, Mutex<ThroughputTracker>>, ip_throughput: DashMap<String, Mutex<ThroughputTracker>>,
// ── Per-backend tracking (keyed by "host:port") ──
backend_active: DashMap<String, AtomicU64>,
backend_total: DashMap<String, AtomicU64>,
backend_protocol: DashMap<String, String>,
backend_connect_errors: DashMap<String, AtomicU64>,
backend_handshake_errors: DashMap<String, AtomicU64>,
backend_request_errors: DashMap<String, AtomicU64>,
backend_connect_time_us: DashMap<String, AtomicU64>,
backend_connect_count: DashMap<String, AtomicU64>,
backend_pool_hits: DashMap<String, AtomicU64>,
backend_pool_misses: DashMap<String, AtomicU64>,
backend_h2_failures: DashMap<String, AtomicU64>,
// ── HTTP request tracking ── // ── HTTP request tracking ──
total_http_requests: AtomicU64, total_http_requests: AtomicU64,
pending_http_requests: AtomicU64, pending_http_requests: AtomicU64,
@@ -134,6 +169,17 @@ impl MetricsCollector {
ip_bytes_out: DashMap::new(), ip_bytes_out: DashMap::new(),
ip_pending_tp: DashMap::new(), ip_pending_tp: DashMap::new(),
ip_throughput: DashMap::new(), ip_throughput: DashMap::new(),
backend_active: DashMap::new(),
backend_total: DashMap::new(),
backend_protocol: DashMap::new(),
backend_connect_errors: DashMap::new(),
backend_handshake_errors: DashMap::new(),
backend_request_errors: DashMap::new(),
backend_connect_time_us: DashMap::new(),
backend_connect_count: DashMap::new(),
backend_pool_hits: DashMap::new(),
backend_pool_misses: DashMap::new(),
backend_h2_failures: DashMap::new(),
total_http_requests: AtomicU64::new(0), total_http_requests: AtomicU64::new(0),
pending_http_requests: AtomicU64::new(0), pending_http_requests: AtomicU64::new(0),
http_request_throughput: Mutex::new(ThroughputTracker::new(retention_seconds)), http_request_throughput: Mutex::new(ThroughputTracker::new(retention_seconds)),
@@ -268,6 +314,113 @@ impl MetricsCollector {
self.pending_http_requests.fetch_add(1, Ordering::Relaxed); self.pending_http_requests.fetch_add(1, Ordering::Relaxed);
} }
// ── Per-backend recording methods ──
/// Record a successful backend connection with its connect duration.
pub fn backend_connection_opened(&self, key: &str, connect_time: Duration) {
self.backend_active
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
self.backend_total
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
self.backend_connect_time_us
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(connect_time.as_micros() as u64, Ordering::Relaxed);
self.backend_connect_count
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
}
/// Record a backend connection closing.
pub fn backend_connection_closed(&self, key: &str) {
if let Some(counter) = self.backend_active.get(key) {
let val = counter.load(Ordering::Relaxed);
if val > 0 {
counter.fetch_sub(1, Ordering::Relaxed);
}
}
}
/// Record a backend connect error (TCP or TLS connect failure/timeout).
pub fn backend_connect_error(&self, key: &str) {
self.backend_connect_errors
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
}
/// Record a backend handshake error (H1 or H2 handshake failure).
pub fn backend_handshake_error(&self, key: &str) {
self.backend_handshake_errors
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
}
/// Record a backend request error (send_request failure).
pub fn backend_request_error(&self, key: &str) {
self.backend_request_errors
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
}
/// Record a connection pool hit for a backend.
pub fn backend_pool_hit(&self, key: &str) {
self.backend_pool_hits
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
}
/// Record a connection pool miss for a backend.
pub fn backend_pool_miss(&self, key: &str) {
self.backend_pool_misses
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
}
/// Record an H2 failure (h2 attempted but fell back to h1).
pub fn backend_h2_failure(&self, key: &str) {
self.backend_h2_failures
.entry(key.to_string())
.or_insert_with(|| AtomicU64::new(0))
.fetch_add(1, Ordering::Relaxed);
}
/// Set the protocol in use for a backend ("h1" or "h2").
pub fn set_backend_protocol(&self, key: &str, protocol: &str) {
self.backend_protocol
.entry(key.to_string())
.and_modify(|v| {
if v != protocol {
*v = protocol.to_string();
}
})
.or_insert_with(|| protocol.to_string());
}
/// Remove per-backend metrics for backends no longer in any route target.
pub fn retain_backends(&self, active_backends: &HashSet<String>) {
self.backend_active.retain(|k, _| active_backends.contains(k));
self.backend_total.retain(|k, _| active_backends.contains(k));
self.backend_protocol.retain(|k, _| active_backends.contains(k));
self.backend_connect_errors.retain(|k, _| active_backends.contains(k));
self.backend_handshake_errors.retain(|k, _| active_backends.contains(k));
self.backend_request_errors.retain(|k, _| active_backends.contains(k));
self.backend_connect_time_us.retain(|k, _| active_backends.contains(k));
self.backend_connect_count.retain(|k, _| active_backends.contains(k));
self.backend_pool_hits.retain(|k, _| active_backends.contains(k));
self.backend_pool_misses.retain(|k, _| active_backends.contains(k));
self.backend_h2_failures.retain(|k, _| active_backends.contains(k));
}
/// Take a throughput sample on all trackers (cold path, call at 1Hz or configured interval). /// Take a throughput sample on all trackers (cold path, call at 1Hz or configured interval).
/// ///
/// Drains the lock-free pending counters and feeds the accumulated bytes /// Drains the lock-free pending counters and feeds the accumulated bytes
@@ -488,6 +641,72 @@ impl MetricsCollector {
}); });
} }
// Collect per-backend metrics, capped at top MAX_BACKENDS_IN_SNAPSHOT by total connections
let mut backend_entries: Vec<(String, BackendMetrics)> = Vec::new();
for entry in self.backend_total.iter() {
let key = entry.key().clone();
let total = entry.value().load(Ordering::Relaxed);
let active = self.backend_active
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let protocol = self.backend_protocol
.get(&key)
.map(|v| v.value().clone())
.unwrap_or_else(|| "unknown".to_string());
let connect_errors = self.backend_connect_errors
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let handshake_errors = self.backend_handshake_errors
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let request_errors = self.backend_request_errors
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let total_connect_time_us = self.backend_connect_time_us
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let connect_count = self.backend_connect_count
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let pool_hits = self.backend_pool_hits
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let pool_misses = self.backend_pool_misses
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
let h2_failures = self.backend_h2_failures
.get(&key)
.map(|c| c.load(Ordering::Relaxed))
.unwrap_or(0);
backend_entries.push((key, BackendMetrics {
active_connections: active,
total_connections: total,
protocol,
connect_errors,
handshake_errors,
request_errors,
total_connect_time_us,
connect_count,
pool_hits,
pool_misses,
h2_failures,
}));
}
// Sort by total connections descending, then cap
backend_entries.sort_by(|a, b| b.1.total_connections.cmp(&a.1.total_connections));
backend_entries.truncate(MAX_BACKENDS_IN_SNAPSHOT);
let backends: std::collections::HashMap<String, BackendMetrics> = backend_entries.into_iter().collect();
// HTTP request rates // HTTP request rates
let (http_rps, http_rps_recent) = self.http_request_throughput let (http_rps, http_rps_recent) = self.http_request_throughput
.lock() .lock()
@@ -509,6 +728,7 @@ impl MetricsCollector {
throughput_recent_out_bytes_per_sec: global_recent_out, throughput_recent_out_bytes_per_sec: global_recent_out,
routes, routes,
ips, ips,
backends,
throughput_history, throughput_history,
total_http_requests: self.total_http_requests.load(Ordering::Relaxed), total_http_requests: self.total_http_requests.load(Ordering::Relaxed),
http_requests_per_sec: http_rps, http_requests_per_sec: http_rps,
@@ -805,4 +1025,120 @@ mod tests {
assert_eq!(snapshot.throughput_history[0].bytes_in, 100); assert_eq!(snapshot.throughput_history[0].bytes_in, 100);
assert_eq!(snapshot.throughput_history[4].bytes_in, 500); assert_eq!(snapshot.throughput_history[4].bytes_in, 500);
} }
#[test]
fn test_backend_metrics_basic() {
let collector = MetricsCollector::new();
let key = "backend1:8080";
// Open connections with timing
collector.backend_connection_opened(key, Duration::from_millis(15));
collector.backend_connection_opened(key, Duration::from_millis(25));
assert_eq!(collector.backend_active.get(key).unwrap().load(Ordering::Relaxed), 2);
assert_eq!(collector.backend_total.get(key).unwrap().load(Ordering::Relaxed), 2);
assert_eq!(collector.backend_connect_count.get(key).unwrap().load(Ordering::Relaxed), 2);
// 15ms + 25ms = 40ms = 40_000us
assert_eq!(collector.backend_connect_time_us.get(key).unwrap().load(Ordering::Relaxed), 40_000);
// Close one
collector.backend_connection_closed(key);
assert_eq!(collector.backend_active.get(key).unwrap().load(Ordering::Relaxed), 1);
// total stays
assert_eq!(collector.backend_total.get(key).unwrap().load(Ordering::Relaxed), 2);
// Record errors
collector.backend_connect_error(key);
collector.backend_handshake_error(key);
collector.backend_request_error(key);
collector.backend_h2_failure(key);
collector.backend_pool_hit(key);
collector.backend_pool_hit(key);
collector.backend_pool_miss(key);
assert_eq!(collector.backend_connect_errors.get(key).unwrap().load(Ordering::Relaxed), 1);
assert_eq!(collector.backend_handshake_errors.get(key).unwrap().load(Ordering::Relaxed), 1);
assert_eq!(collector.backend_request_errors.get(key).unwrap().load(Ordering::Relaxed), 1);
assert_eq!(collector.backend_h2_failures.get(key).unwrap().load(Ordering::Relaxed), 1);
assert_eq!(collector.backend_pool_hits.get(key).unwrap().load(Ordering::Relaxed), 2);
assert_eq!(collector.backend_pool_misses.get(key).unwrap().load(Ordering::Relaxed), 1);
// Protocol
collector.set_backend_protocol(key, "h1");
assert_eq!(collector.backend_protocol.get(key).unwrap().value(), "h1");
collector.set_backend_protocol(key, "h2");
assert_eq!(collector.backend_protocol.get(key).unwrap().value(), "h2");
}
#[test]
fn test_backend_metrics_in_snapshot() {
let collector = MetricsCollector::new();
collector.backend_connection_opened("b1:443", Duration::from_millis(10));
collector.backend_connection_opened("b2:8080", Duration::from_millis(20));
collector.set_backend_protocol("b1:443", "h2");
collector.set_backend_protocol("b2:8080", "h1");
collector.backend_connect_error("b1:443");
let snapshot = collector.snapshot();
assert_eq!(snapshot.backends.len(), 2);
let b1 = snapshot.backends.get("b1:443").unwrap();
assert_eq!(b1.active_connections, 1);
assert_eq!(b1.total_connections, 1);
assert_eq!(b1.protocol, "h2");
assert_eq!(b1.connect_errors, 1);
assert_eq!(b1.total_connect_time_us, 10_000);
assert_eq!(b1.connect_count, 1);
let b2 = snapshot.backends.get("b2:8080").unwrap();
assert_eq!(b2.protocol, "h1");
assert_eq!(b2.connect_errors, 0);
}
#[test]
fn test_retain_backends_prunes_stale() {
let collector = MetricsCollector::new();
collector.backend_connection_opened("active:443", Duration::from_millis(5));
collector.backend_connection_opened("stale:8080", Duration::from_millis(10));
collector.set_backend_protocol("active:443", "h1");
collector.set_backend_protocol("stale:8080", "h2");
collector.backend_connect_error("stale:8080");
let active = HashSet::from(["active:443".to_string()]);
collector.retain_backends(&active);
// active:443 should still exist
assert!(collector.backend_total.get("active:443").is_some());
assert!(collector.backend_protocol.get("active:443").is_some());
// stale:8080 should be fully removed
assert!(collector.backend_active.get("stale:8080").is_none());
assert!(collector.backend_total.get("stale:8080").is_none());
assert!(collector.backend_protocol.get("stale:8080").is_none());
assert!(collector.backend_connect_errors.get("stale:8080").is_none());
assert!(collector.backend_connect_time_us.get("stale:8080").is_none());
assert!(collector.backend_connect_count.get("stale:8080").is_none());
assert!(collector.backend_pool_hits.get("stale:8080").is_none());
assert!(collector.backend_pool_misses.get("stale:8080").is_none());
assert!(collector.backend_h2_failures.get("stale:8080").is_none());
}
#[test]
fn test_backend_connection_closed_saturates() {
let collector = MetricsCollector::new();
let key = "b:80";
// Close without opening — should not underflow
collector.backend_connection_closed(key);
// No entry created
assert!(collector.backend_active.get(key).is_none());
// Open one, close two — should saturate at 0
collector.backend_connection_opened(key, Duration::from_millis(1));
collector.backend_connection_closed(key);
collector.backend_connection_closed(key);
assert_eq!(collector.backend_active.get(key).unwrap().load(Ordering::Relaxed), 0);
}
} }

25
rust/crates/rustproxy/src/lib.rs
View File

@@ -603,6 +603,31 @@ impl RustProxy {
.collect(); .collect();
self.metrics.retain_routes(&active_route_ids); self.metrics.retain_routes(&active_route_ids);
// Prune per-backend metrics for backends no longer in any route target.
// For PortSpec::Preserve routes, expand across all listening ports since
// the actual runtime port depends on the incoming connection.
let listening_ports = self.get_listening_ports();
let active_backends: HashSet<String> = routes.iter()
.filter_map(|r| r.action.targets.as_ref())
.flat_map(|targets| targets.iter())
.flat_map(|target| {
let hosts: Vec<String> = target.host.to_vec().into_iter().map(|s| s.to_string()).collect();
match &target.port {
rustproxy_config::PortSpec::Fixed(p) => {
hosts.into_iter().map(|h| format!("{}:{}", h, p)).collect::<Vec<_>>()
}
_ => {
// Preserve/special: expand across all listening ports
let lp = &listening_ports;
hosts.into_iter()
.flat_map(|h| lp.iter().map(move |p| format!("{}:{}", h, *p)))
.collect::<Vec<_>>()
}
}
})
.collect();
self.metrics.retain_backends(&active_backends);
// Atomically swap the route table // Atomically swap the route table
let new_manager = Arc::new(new_manager); let new_manager = Arc::new(new_manager);
self.route_table.store(Arc::clone(&new_manager)); self.route_table.store(Arc::clone(&new_manager));

2
ts/00_commitinfo_data.ts
View File

@@ -3,6 +3,6 @@
*/ */
export const commitinfo = { export const commitinfo = {
name: '@push.rocks/smartproxy', name: '@push.rocks/smartproxy',
version: '25.9.3', version: '25.10.0',
description: 'A powerful proxy package with unified route-based configuration for high traffic management. Features include SSL/TLS support, flexible routing patterns, WebSocket handling, advanced security options, and automatic ACME certificate management.' description: 'A powerful proxy package with unified route-based configuration for high traffic management. Features include SSL/TLS support, flexible routing patterns, WebSocket handling, advanced security options, and automatic ACME certificate management.'
} }

22
ts/proxies/smart-proxy/models/metrics-types.ts
View File

@@ -67,6 +67,13 @@ export interface IMetrics {
connections(): number; connections(): number;
}; };
// Backend metrics
backends: {
byBackend(): Map<string, IBackendMetrics>;
protocols(): Map<string, string>;
topByErrors(limit?: number): Array<{ backend: string; errors: number }>;
};
// Performance metrics // Performance metrics
percentiles: { percentiles: {
connectionDuration(): { p50: number; p95: number; p99: number }; connectionDuration(): { p50: number; p95: number; p99: number };
@@ -98,6 +105,21 @@ export interface IMetricsConfig {
prometheusPrefix: string; // Default: smartproxy_ prometheusPrefix: string; // Default: smartproxy_
} }
/**
* Per-backend metrics
*/
export interface IBackendMetrics {
protocol: string;
activeConnections: number;
totalConnections: number;
connectErrors: number;
handshakeErrors: number;
requestErrors: number;
avgConnectTimeMs: number;
poolHitRate: number;
h2Failures: number;
}
/** /**
* Internal interface for connection byte tracking * Internal interface for connection byte tracking
*/ */

51
ts/proxies/smart-proxy/rust-metrics-adapter.ts
View File

@@ -1,4 +1,4 @@
import type { IMetrics, IThroughputData, IThroughputHistoryPoint } from './models/metrics-types.js'; import type { IMetrics, IBackendMetrics, IThroughputData, IThroughputHistoryPoint } from './models/metrics-types.js';
import type { RustProxyBridge } from './rust-proxy-bridge.js'; import type { RustProxyBridge } from './rust-proxy-bridge.js';
/** /**
@@ -169,6 +169,55 @@ export class RustMetricsAdapter implements IMetrics {
}, },
}; };
public backends = {
byBackend: (): Map<string, IBackendMetrics> => {
const result = new Map<string, IBackendMetrics>();
if (this.cache?.backends) {
for (const [key, bm] of Object.entries(this.cache.backends)) {
const m = bm as any;
const totalTimeUs = m.totalConnectTimeUs ?? 0;
const count = m.connectCount ?? 0;
const poolHits = m.poolHits ?? 0;
const poolMisses = m.poolMisses ?? 0;
const poolTotal = poolHits + poolMisses;
result.set(key, {
protocol: m.protocol ?? 'unknown',
activeConnections: m.activeConnections ?? 0,
totalConnections: m.totalConnections ?? 0,
connectErrors: m.connectErrors ?? 0,
handshakeErrors: m.handshakeErrors ?? 0,
requestErrors: m.requestErrors ?? 0,
avgConnectTimeMs: count > 0 ? (totalTimeUs / count) / 1000 : 0,
poolHitRate: poolTotal > 0 ? poolHits / poolTotal : 0,
h2Failures: m.h2Failures ?? 0,
});
}
}
return result;
},
protocols: (): Map<string, string> => {
const result = new Map<string, string>();
if (this.cache?.backends) {
for (const [key, bm] of Object.entries(this.cache.backends)) {
result.set(key, (bm as any).protocol ?? 'unknown');
}
}
return result;
},
topByErrors: (limit: number = 10): Array<{ backend: string; errors: number }> => {
const result: Array<{ backend: string; errors: number }> = [];
if (this.cache?.backends) {
for (const [key, bm] of Object.entries(this.cache.backends)) {
const m = bm as any;
const errors = (m.connectErrors ?? 0) + (m.handshakeErrors ?? 0) + (m.requestErrors ?? 0);
if (errors > 0) result.push({ backend: key, errors });
}
}
result.sort((a, b) => b.errors - a.errors);
return result.slice(0, limit);
},
};
public percentiles = { public percentiles = {
connectionDuration: (): { p50: number; p95: number; p99: number } => { connectionDuration: (): { p50: number; p95: number; p99: number } => {
return { p50: 0, p95: 0, p99: 0 }; return { p50: 0, p95: 0, p99: 0 };