librespot/core/src/http_client.rs
Christian König 979d9d0aa0
Update sysinfo to 0.30.5
Signed-off-by: Christian König <ckoenig@posteo.de>
2024-02-23 23:24:18 +01:00

299 lines
12 KiB
Rust

use std::{
collections::HashMap,
env::consts::OS,
time::{Duration, Instant},
};
use bytes::Bytes;
use futures_util::{future::IntoStream, FutureExt};
use governor::{
clock::MonotonicClock, middleware::NoOpMiddleware, state::InMemoryState, Quota, RateLimiter,
};
use http::{header::HeaderValue, Uri};
use hyper::{
client::{HttpConnector, ResponseFuture},
header::USER_AGENT,
Body, Client, HeaderMap, Request, Response, StatusCode,
};
use hyper_proxy::{Intercept, Proxy, ProxyConnector};
use hyper_rustls::{HttpsConnector, HttpsConnectorBuilder};
use nonzero_ext::nonzero;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use sysinfo::System;
use thiserror::Error;
use url::Url;
use crate::{
date::Date,
version::{spotify_version, FALLBACK_USER_AGENT, VERSION_STRING},
Error,
};
// The 30 seconds interval is documented by Spotify, but the calls per interval
// is a guesstimate and probably subject to licensing (purchasing extra calls)
// and may change at any time.
pub const RATE_LIMIT_INTERVAL: Duration = Duration::from_secs(30);
pub const RATE_LIMIT_MAX_WAIT: Duration = Duration::from_secs(10);
pub const RATE_LIMIT_CALLS_PER_INTERVAL: u32 = 300;
#[derive(Debug, Error)]
pub enum HttpClientError {
#[error("Response status code: {0}")]
StatusCode(hyper::StatusCode),
}
impl From<HttpClientError> for Error {
fn from(err: HttpClientError) -> Self {
match err {
HttpClientError::StatusCode(code) => {
// not exhaustive, but what reasonably could be expected
match code {
StatusCode::GATEWAY_TIMEOUT | StatusCode::REQUEST_TIMEOUT => {
Error::deadline_exceeded(err)
}
StatusCode::GONE
| StatusCode::NOT_FOUND
| StatusCode::MOVED_PERMANENTLY
| StatusCode::PERMANENT_REDIRECT
| StatusCode::TEMPORARY_REDIRECT => Error::not_found(err),
StatusCode::FORBIDDEN | StatusCode::PAYMENT_REQUIRED => {
Error::permission_denied(err)
}
StatusCode::NETWORK_AUTHENTICATION_REQUIRED
| StatusCode::PROXY_AUTHENTICATION_REQUIRED
| StatusCode::UNAUTHORIZED => Error::unauthenticated(err),
StatusCode::EXPECTATION_FAILED
| StatusCode::PRECONDITION_FAILED
| StatusCode::PRECONDITION_REQUIRED => Error::failed_precondition(err),
StatusCode::RANGE_NOT_SATISFIABLE => Error::out_of_range(err),
StatusCode::INTERNAL_SERVER_ERROR
| StatusCode::MISDIRECTED_REQUEST
| StatusCode::SERVICE_UNAVAILABLE
| StatusCode::UNAVAILABLE_FOR_LEGAL_REASONS => Error::unavailable(err),
StatusCode::BAD_REQUEST
| StatusCode::HTTP_VERSION_NOT_SUPPORTED
| StatusCode::LENGTH_REQUIRED
| StatusCode::METHOD_NOT_ALLOWED
| StatusCode::NOT_ACCEPTABLE
| StatusCode::PAYLOAD_TOO_LARGE
| StatusCode::REQUEST_HEADER_FIELDS_TOO_LARGE
| StatusCode::UNSUPPORTED_MEDIA_TYPE
| StatusCode::URI_TOO_LONG => Error::invalid_argument(err),
StatusCode::TOO_MANY_REQUESTS => Error::resource_exhausted(err),
StatusCode::NOT_IMPLEMENTED => Error::unimplemented(err),
_ => Error::unknown(err),
}
}
}
}
}
type HyperClient = Client<ProxyConnector<HttpsConnector<HttpConnector>>, Body>;
pub struct HttpClient {
user_agent: HeaderValue,
proxy_url: Option<Url>,
hyper_client: OnceCell<HyperClient>,
// while the DashMap variant is more performant, our level of concurrency
// is pretty low so we can save pulling in that extra dependency
rate_limiter:
RateLimiter<String, Mutex<HashMap<String, InMemoryState>>, MonotonicClock, NoOpMiddleware>,
}
impl HttpClient {
pub fn new(proxy_url: Option<&Url>) -> Self {
let zero_str = String::from("0");
let os_version = System::os_version().unwrap_or_else(|| zero_str.clone());
let (spotify_platform, os_version) = match OS {
"android" => ("Android", os_version),
"ios" => ("iOS", os_version),
"macos" => ("OSX", zero_str),
"windows" => ("Win32", zero_str),
_ => ("Linux", zero_str),
};
let user_agent_str = &format!(
"Spotify/{} {}/{} ({})",
spotify_version(),
spotify_platform,
os_version,
VERSION_STRING
);
let user_agent = HeaderValue::from_str(user_agent_str).unwrap_or_else(|err| {
error!("Invalid user agent <{}>: {}", user_agent_str, err);
HeaderValue::from_static(FALLBACK_USER_AGENT)
});
let replenish_interval_ns =
RATE_LIMIT_INTERVAL.as_nanos() / RATE_LIMIT_CALLS_PER_INTERVAL as u128;
let quota = Quota::with_period(Duration::from_nanos(replenish_interval_ns as u64))
.expect("replenish interval should be valid")
.allow_burst(nonzero![RATE_LIMIT_CALLS_PER_INTERVAL]);
let rate_limiter = RateLimiter::keyed(quota);
Self {
user_agent,
proxy_url: proxy_url.cloned(),
hyper_client: OnceCell::new(),
rate_limiter,
}
}
fn try_create_hyper_client(proxy_url: Option<&Url>) -> Result<HyperClient, Error> {
// configuring TLS is expensive and should be done once per process
let https_connector = HttpsConnectorBuilder::new()
.with_native_roots()
.https_or_http()
.enable_http1()
.enable_http2()
.build();
// When not using a proxy a dummy proxy is configured that will not intercept any traffic.
// This prevents needing to carry the Client Connector generics through the whole project
let proxy = match &proxy_url {
Some(proxy_url) => Proxy::new(Intercept::All, proxy_url.to_string().parse()?),
None => Proxy::new(Intercept::None, Uri::from_static("0.0.0.0")),
};
let proxy_connector = ProxyConnector::from_proxy(https_connector, proxy)?;
let client = Client::builder()
.http2_adaptive_window(true)
.build(proxy_connector);
Ok(client)
}
fn hyper_client(&self) -> Result<&HyperClient, Error> {
self.hyper_client
.get_or_try_init(|| Self::try_create_hyper_client(self.proxy_url.as_ref()))
}
pub async fn request(&self, req: Request<Body>) -> Result<Response<Body>, Error> {
debug!("Requesting {}", req.uri().to_string());
// `Request` does not implement `Clone` because its `Body` may be a single-shot stream.
// As correct as that may be technically, we now need all this boilerplate to clone it
// ourselves, as any `Request` is moved in the loop.
let (parts, body) = req.into_parts();
let body_as_bytes = hyper::body::to_bytes(body)
.await
.unwrap_or_else(|_| Bytes::new());
loop {
let mut req = Request::builder()
.method(parts.method.clone())
.uri(parts.uri.clone())
.version(parts.version)
.body(Body::from(body_as_bytes.clone()))?;
*req.headers_mut() = parts.headers.clone();
let request = self.request_fut(req)?;
let response = request.await;
if let Ok(response) = &response {
let code = response.status();
if code == StatusCode::TOO_MANY_REQUESTS {
if let Some(duration) = Self::get_retry_after(response.headers()) {
warn!(
"Rate limited by service, retrying in {} seconds...",
duration.as_secs()
);
tokio::time::sleep(duration).await;
continue;
}
}
if code != StatusCode::OK {
return Err(HttpClientError::StatusCode(code).into());
}
}
return Ok(response?);
}
}
pub async fn request_body(&self, req: Request<Body>) -> Result<Bytes, Error> {
let response = self.request(req).await?;
Ok(hyper::body::to_bytes(response.into_body()).await?)
}
pub fn request_stream(&self, req: Request<Body>) -> Result<IntoStream<ResponseFuture>, Error> {
Ok(self.request_fut(req)?.into_stream())
}
pub fn request_fut(&self, mut req: Request<Body>) -> Result<ResponseFuture, Error> {
let headers_mut = req.headers_mut();
headers_mut.insert(USER_AGENT, self.user_agent.clone());
// For rate limiting we cannot *just* depend on Spotify sending us HTTP/429
// Retry-After headers. For example, when there is a service interruption
// and HTTP/500 is returned, we don't want to DoS the Spotify infrastructure.
let domain = match req.uri().host() {
Some(host) => {
// strip the prefix from *.domain.tld (assume rate limit is per domain, not subdomain)
let mut parts = host
.split('.')
.map(|s| s.to_string())
.collect::<Vec<String>>();
let n = parts.len().saturating_sub(2);
parts.drain(n..).collect()
}
None => String::from(""),
};
self.rate_limiter.check_key(&domain).map_err(|e| {
Error::resource_exhausted(format!(
"rate limited for at least another {} seconds",
e.wait_time_from(Instant::now()).as_secs()
))
})?;
Ok(self.hyper_client()?.request(req))
}
pub fn get_retry_after(headers: &HeaderMap<HeaderValue>) -> Option<Duration> {
let now = Date::now_utc().as_timestamp_ms();
let mut retry_after_ms = None;
if let Some(header_val) = headers.get("X-RateLimit-Next") {
// *.akamaized.net (Akamai)
if let Ok(date_str) = header_val.to_str() {
if let Ok(target) = Date::from_iso8601(date_str) {
retry_after_ms = Some(target.as_timestamp_ms().saturating_sub(now))
}
}
} else if let Some(header_val) = headers.get("Fastly-RateLimit-Reset") {
// *.scdn.co (Fastly)
if let Ok(timestamp) = header_val.to_str() {
if let Ok(target) = timestamp.parse::<i64>() {
retry_after_ms = Some(target.saturating_sub(now))
}
}
} else if let Some(header_val) = headers.get("Retry-After") {
// Generic RFC compliant (including *.spotify.com)
if let Ok(retry_after) = header_val.to_str() {
if let Ok(duration) = retry_after.parse::<i64>() {
retry_after_ms = Some(duration * 1000)
}
}
}
if let Some(retry_after) = retry_after_ms {
let duration = Duration::from_millis(retry_after as u64);
if duration <= RATE_LIMIT_MAX_WAIT {
return Some(duration);
} else {
debug!(
"Waiting {} seconds would exceed {} second limit",
duration.as_secs(),
RATE_LIMIT_MAX_WAIT.as_secs()
);
}
}
None
}
}