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|
// Copyright 2024 Cloudflare, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
use super::cert;
use async_trait::async_trait;
use once_cell::sync::Lazy;
use pingora_cache::cache_control::CacheControl;
use pingora_cache::key::HashBinary;
use pingora_cache::VarianceBuilder;
use pingora_cache::{
eviction::simple_lru::Manager, filters::resp_cacheable, lock::CacheLock, predictor::Predictor,
set_compression_dict_path, CacheMeta, CacheMetaDefaults, CachePhase, MemCache, NoCacheReason,
RespCacheable,
};
use pingora_core::protocols::{l4::socket::SocketAddr, Digest};
use pingora_core::server::configuration::Opt;
use pingora_core::services::Service;
use pingora_core::upstreams::peer::HttpPeer;
use pingora_core::utils::CertKey;
use pingora_error::{Error, ErrorSource, Result};
use pingora_http::{RequestHeader, ResponseHeader};
use pingora_proxy::{ProxyHttp, Session};
use std::sync::Arc;
use std::thread;
use structopt::StructOpt;
pub struct ExampleProxyHttps {}
#[allow(clippy::upper_case_acronyms)]
#[derive(Default)]
pub struct CTX {
conn_reused: bool,
upstream_client_addr: Option<SocketAddr>,
upstream_server_addr: Option<SocketAddr>,
}
// Common logic for both ProxyHttp(s) types
fn connected_to_upstream_common(
reused: bool,
digest: Option<&Digest>,
ctx: &mut CTX,
) -> Result<()> {
ctx.conn_reused = reused;
let socket_digest = digest
.expect("upstream connector digest should be set for HTTP sessions")
.socket_digest
.as_ref()
.expect("socket digest should be set for HTTP sessions");
ctx.upstream_client_addr = socket_digest.local_addr().cloned();
ctx.upstream_server_addr = socket_digest.peer_addr().cloned();
Ok(())
}
fn response_filter_common(
session: &mut Session,
response: &mut ResponseHeader,
ctx: &mut CTX,
) -> Result<()> {
if ctx.conn_reused {
response.insert_header("x-conn-reuse", "1")?;
}
let client_addr = session.client_addr();
let server_addr = session.server_addr();
response.insert_header(
"x-client-addr",
client_addr.map_or_else(|| "unset".into(), |a| a.to_string()),
)?;
response.insert_header(
"x-server-addr",
server_addr.map_or_else(|| "unset".into(), |a| a.to_string()),
)?;
response.insert_header(
"x-upstream-client-addr",
ctx.upstream_client_addr
.as_ref()
.map_or_else(|| "unset".into(), |a| a.to_string()),
)?;
response.insert_header(
"x-upstream-server-addr",
ctx.upstream_server_addr
.as_ref()
.map_or_else(|| "unset".into(), |a| a.to_string()),
)?;
Ok(())
}
#[async_trait]
impl ProxyHttp for ExampleProxyHttps {
type CTX = CTX;
fn new_ctx(&self) -> Self::CTX {
CTX::default()
}
async fn upstream_peer(
&self,
session: &mut Session,
_ctx: &mut Self::CTX,
) -> Result<Box<HttpPeer>> {
let session = session.as_downstream();
let req = session.req_header();
let port = req
.headers
.get("x-port")
.map_or("8443", |v| v.to_str().unwrap());
let sni = req.headers.get("sni").map_or("", |v| v.to_str().unwrap());
let alt = req.headers.get("alt").map_or("", |v| v.to_str().unwrap());
let client_cert = session.get_header_bytes("client_cert");
let mut peer = Box::new(HttpPeer::new(
format!("127.0.0.1:{port}"),
true,
sni.to_string(),
));
peer.options.alternative_cn = Some(alt.to_string());
let verify = session.get_header_bytes("verify") == b"1";
peer.options.verify_cert = verify;
let verify_host = session.get_header_bytes("verify_host") == b"1";
peer.options.verify_hostname = verify_host;
if matches!(client_cert, b"1" | b"2") {
let (mut certs, key) = if client_cert == b"1" {
(vec![cert::LEAF_CERT.clone()], cert::LEAF_KEY.clone())
} else {
(vec![cert::LEAF2_CERT.clone()], cert::LEAF2_KEY.clone())
};
if session.get_header_bytes("client_intermediate") == b"1" {
certs.push(cert::INTERMEDIATE_CERT.clone());
}
peer.client_cert_key = Some(Arc::new(CertKey::new(certs, key)));
}
if session.get_header_bytes("x-h2") == b"true" {
// default is 1, 1
peer.options.set_http_version(2, 2);
}
Ok(peer)
}
async fn response_filter(
&self,
session: &mut Session,
upstream_response: &mut ResponseHeader,
ctx: &mut Self::CTX,
) -> Result<()>
where
Self::CTX: Send + Sync,
{
response_filter_common(session, upstream_response, ctx)
}
async fn upstream_request_filter(
&self,
session: &mut Session,
req: &mut RequestHeader,
_ctx: &mut Self::CTX,
) -> Result<()> {
let host = session.get_header_bytes("host-override");
if host != b"" {
req.insert_header("host", host)?;
}
Ok(())
}
async fn connected_to_upstream(
&self,
_http_session: &mut Session,
reused: bool,
_peer: &HttpPeer,
_fd: std::os::unix::io::RawFd,
digest: Option<&Digest>,
ctx: &mut CTX,
) -> Result<()> {
connected_to_upstream_common(reused, digest, ctx)
}
}
pub struct ExampleProxyHttp {}
#[async_trait]
impl ProxyHttp for ExampleProxyHttp {
type CTX = CTX;
fn new_ctx(&self) -> Self::CTX {
CTX::default()
}
async fn request_filter(&self, session: &mut Session, _ctx: &mut Self::CTX) -> Result<bool> {
let req = session.req_header();
let downstream_compression = req.headers.get("x-downstream-compression").is_some();
if downstream_compression {
session.downstream_compression.adjust_level(6);
} else {
// enable upstream compression for all requests by default
session.upstream_compression.adjust_level(6);
}
Ok(false)
}
async fn response_filter(
&self,
session: &mut Session,
upstream_response: &mut ResponseHeader,
ctx: &mut Self::CTX,
) -> Result<()> {
response_filter_common(session, upstream_response, ctx)
}
async fn upstream_peer(
&self,
session: &mut Session,
_ctx: &mut Self::CTX,
) -> Result<Box<HttpPeer>> {
let req = session.req_header();
if req.headers.contains_key("x-uds-peer") {
return Ok(Box::new(HttpPeer::new_uds(
"/tmp/nginx-test.sock",
false,
"".to_string(),
)));
}
let port = req
.headers
.get("x-port")
.map_or("8000", |v| v.to_str().unwrap());
let peer = Box::new(HttpPeer::new(
format!("127.0.0.1:{port}"),
false,
"".to_string(),
));
Ok(peer)
}
async fn connected_to_upstream(
&self,
_http_session: &mut Session,
reused: bool,
_peer: &HttpPeer,
_fd: std::os::unix::io::RawFd,
digest: Option<&Digest>,
ctx: &mut CTX,
) -> Result<()> {
connected_to_upstream_common(reused, digest, ctx)
}
}
static CACHE_BACKEND: Lazy<MemCache> = Lazy::new(MemCache::new);
const CACHE_DEFAULT: CacheMetaDefaults = CacheMetaDefaults::new(|_| Some(1), 1, 1);
static CACHE_PREDICTOR: Lazy<Predictor<32>> = Lazy::new(|| Predictor::new(5, None));
static EVICTION_MANAGER: Lazy<Manager> = Lazy::new(|| Manager::new(8192)); // 8192 bytes
static CACHE_LOCK: Lazy<CacheLock> =
Lazy::new(|| CacheLock::new(std::time::Duration::from_secs(2)));
// #[allow(clippy::upper_case_acronyms)]
pub struct CacheCTX {
upstream_status: Option<u16>,
}
pub struct ExampleProxyCache {}
#[async_trait]
impl ProxyHttp for ExampleProxyCache {
type CTX = CacheCTX;
fn new_ctx(&self) -> Self::CTX {
CacheCTX {
upstream_status: None,
}
}
async fn upstream_peer(
&self,
session: &mut Session,
_ctx: &mut Self::CTX,
) -> Result<Box<HttpPeer>> {
let req = session.req_header();
let port = req
.headers
.get("x-port")
.map_or("8000", |v| v.to_str().unwrap());
let peer = Box::new(HttpPeer::new(
format!("127.0.0.1:{}", port),
false,
"".to_string(),
));
Ok(peer)
}
fn request_cache_filter(&self, session: &mut Session, _ctx: &mut Self::CTX) -> Result<()> {
// TODO: only allow GET & HEAD
if session.get_header_bytes("x-bypass-cache") != b"" {
return Ok(());
}
// turn on eviction only for some requests to avoid interference across tests
let eviction = session.req_header().headers.get("x-eviction").map(|_| {
&*EVICTION_MANAGER as &'static (dyn pingora_cache::eviction::EvictionManager + Sync)
});
let lock = session
.req_header()
.headers
.get("x-lock")
.map(|_| &*CACHE_LOCK);
session
.cache
.enable(&*CACHE_BACKEND, eviction, Some(&*CACHE_PREDICTOR), lock);
if let Some(max_file_size_hdr) = session
.req_header()
.headers
.get("x-cache-max-file-size-bytes")
{
let bytes = max_file_size_hdr
.to_str()
.unwrap()
.parse::<usize>()
.unwrap();
session.cache.set_max_file_size_bytes(bytes);
}
Ok(())
}
fn cache_vary_filter(
&self,
_meta: &CacheMeta,
_ctx: &mut Self::CTX,
req: &RequestHeader,
) -> Option<HashBinary> {
// Here the response is always vary on request header "x-vary-me" if it exists
// in the real world, this callback should check Vary response header to decide
let vary_me = req.headers.get("x-vary-me")?;
let mut key = VarianceBuilder::new();
key.add_value("headers.x-vary-me", vary_me);
key.finalize()
}
fn response_cache_filter(
&self,
_session: &Session,
resp: &ResponseHeader,
_ctx: &mut Self::CTX,
) -> Result<RespCacheable> {
let cc = CacheControl::from_resp_headers(resp);
Ok(resp_cacheable(cc.as_ref(), resp, false, &CACHE_DEFAULT))
}
fn upstream_response_filter(
&self,
_session: &mut Session,
upstream_response: &mut ResponseHeader,
ctx: &mut Self::CTX,
) where
Self::CTX: Send + Sync,
{
ctx.upstream_status = Some(upstream_response.status.into());
}
async fn response_filter(
&self,
session: &mut Session,
upstream_response: &mut ResponseHeader,
ctx: &mut Self::CTX,
) -> Result<()>
where
Self::CTX: Send + Sync,
{
if session.cache.enabled() {
match session.cache.phase() {
CachePhase::Hit => upstream_response.insert_header("x-cache-status", "hit")?,
CachePhase::Miss => upstream_response.insert_header("x-cache-status", "miss")?,
CachePhase::Stale => upstream_response.insert_header("x-cache-status", "stale")?,
CachePhase::Expired => {
upstream_response.insert_header("x-cache-status", "expired")?
}
CachePhase::Revalidated | CachePhase::RevalidatedNoCache(_) => {
upstream_response.insert_header("x-cache-status", "revalidated")?
}
_ => upstream_response.insert_header("x-cache-status", "invalid")?,
}
} else {
match session.cache.phase() {
CachePhase::Disabled(NoCacheReason::Deferred) => {
upstream_response.insert_header("x-cache-status", "deferred")?;
}
_ => upstream_response.insert_header("x-cache-status", "no-cache")?,
}
}
if let Some(d) = session.cache.lock_duration() {
upstream_response.insert_header("x-cache-lock-time-ms", format!("{}", d.as_millis()))?
}
if let Some(up_stat) = ctx.upstream_status {
upstream_response.insert_header("x-upstream-status", up_stat.to_string())?;
}
Ok(())
}
fn should_serve_stale(
&self,
_session: &mut Session,
_ctx: &mut Self::CTX,
error: Option<&Error>, // None when it is called during stale while revalidate
) -> bool {
// enable serve stale while updating
error.map_or(true, |e| e.esource() == &ErrorSource::Upstream)
}
fn is_purge(&self, session: &Session, _ctx: &Self::CTX) -> bool {
session.req_header().method == "PURGE"
}
}
fn test_main() {
env_logger::Builder::from_env(env_logger::Env::default().default_filter_or("info")).init();
let opts: Vec<String> = vec![
"pingora-proxy".into(),
"-c".into(),
"tests/pingora_conf.yaml".into(),
];
let mut my_server = pingora_core::server::Server::new(Some(Opt::from_iter(opts))).unwrap();
my_server.bootstrap();
let mut proxy_service_http =
pingora_proxy::http_proxy_service(&my_server.configuration, ExampleProxyHttp {});
proxy_service_http.add_tcp("0.0.0.0:6147");
proxy_service_http.add_uds("/tmp/pingora_proxy.sock", None);
let mut proxy_service_https =
pingora_proxy::http_proxy_service(&my_server.configuration, ExampleProxyHttps {});
proxy_service_https.add_tcp("0.0.0.0:6149");
let cert_path = format!("{}/tests/keys/server.crt", env!("CARGO_MANIFEST_DIR"));
let key_path = format!("{}/tests/keys/key.pem", env!("CARGO_MANIFEST_DIR"));
let mut tls_settings =
pingora_core::listeners::TlsSettings::intermediate(&cert_path, &key_path).unwrap();
tls_settings.enable_h2();
proxy_service_https.add_tls_with_settings("0.0.0.0:6150", None, tls_settings);
let mut proxy_service_cache =
pingora_proxy::http_proxy_service(&my_server.configuration, ExampleProxyCache {});
proxy_service_cache.add_tcp("0.0.0.0:6148");
let services: Vec<Box<dyn Service>> = vec![
Box::new(proxy_service_http),
Box::new(proxy_service_https),
Box::new(proxy_service_cache),
];
set_compression_dict_path("tests/headers.dict");
my_server.add_services(services);
my_server.run_forever();
}
pub struct Server {
pub handle: thread::JoinHandle<()>,
}
impl Server {
pub fn start() -> Self {
let server_handle = thread::spawn(|| {
test_main();
});
Server {
handle: server_handle,
}
}
}
// FIXME: this still allows multiple servers to spawn across integration tests
pub static TEST_SERVER: Lazy<Server> = Lazy::new(Server::start);
use super::mock_origin::MOCK_ORIGIN;
pub fn init() {
let _ = *TEST_SERVER;
let _ = *MOCK_ORIGIN;
}
|
