399 lines
11 KiB
Rust
399 lines
11 KiB
Rust
use crate::error::MyError;
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use activitystreams::url::Url;
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use actix_web::{client::Client, http::header::Date, web::Bytes};
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use async_mutex::Mutex;
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use async_rwlock::RwLock;
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use chrono::{DateTime, Utc};
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use http_signature_normalization_actix::prelude::*;
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use log::{debug, info, warn};
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use rsa::{hash::Hash, padding::PaddingScheme, RSAPrivateKey};
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use sha2::{Digest, Sha256};
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use std::{
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cell::RefCell,
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collections::HashMap,
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rc::Rc,
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sync::{
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atomic::{AtomicUsize, Ordering},
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Arc,
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},
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time::SystemTime,
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};
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#[derive(Clone)]
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pub struct Breakers {
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inner: Arc<RwLock<HashMap<String, Arc<Mutex<Breaker>>>>>,
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}
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impl Breakers {
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pub fn new() -> Self {
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Self::default()
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}
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async fn should_try(&self, url: &Url) -> bool {
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if let Some(domain) = url.domain() {
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if let Some(breaker) = self.inner.read().await.get(domain) {
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breaker.lock().await.should_try()
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} else {
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true
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}
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} else {
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false
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}
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}
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async fn fail(&self, url: &Url) {
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if let Some(domain) = url.domain() {
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if let Some(breaker) = self.inner.read().await.get(domain) {
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let owned_breaker = Arc::clone(&breaker);
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drop(breaker);
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owned_breaker.lock().await.fail();
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} else {
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let mut hm = self.inner.write().await;
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let breaker = hm
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.entry(domain.to_owned())
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.or_insert(Arc::new(Mutex::new(Breaker::default())));
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breaker.lock().await.fail();
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}
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}
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}
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async fn succeed(&self, url: &Url) {
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if let Some(domain) = url.domain() {
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if let Some(breaker) = self.inner.read().await.get(domain) {
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let owned_breaker = Arc::clone(&breaker);
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drop(breaker);
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owned_breaker.lock().await.succeed();
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} else {
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let mut hm = self.inner.write().await;
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let breaker = hm
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.entry(domain.to_owned())
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.or_insert(Arc::new(Mutex::new(Breaker::default())));
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breaker.lock().await.succeed();
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}
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}
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}
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}
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impl Default for Breakers {
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fn default() -> Self {
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Breakers {
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inner: Arc::new(RwLock::new(HashMap::new())),
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}
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}
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}
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struct Breaker {
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failures: usize,
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last_attempt: DateTime<Utc>,
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last_success: DateTime<Utc>,
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}
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impl Breaker {
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const fn failure_threshold() -> usize {
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10
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}
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fn failure_wait() -> chrono::Duration {
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chrono::Duration::days(1)
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}
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fn should_try(&self) -> bool {
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self.failures < Self::failure_threshold()
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|| self.last_attempt + Self::failure_wait() < Utc::now()
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}
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fn fail(&mut self) {
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self.failures += 1;
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self.last_attempt = Utc::now();
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}
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fn succeed(&mut self) {
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self.failures = 0;
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self.last_attempt = Utc::now();
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self.last_success = Utc::now();
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}
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}
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impl Default for Breaker {
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fn default() -> Self {
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let now = Utc::now();
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Breaker {
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failures: 0,
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last_attempt: now,
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last_success: now,
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}
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}
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}
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#[derive(Clone)]
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pub struct Requests {
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client: Rc<RefCell<Client>>,
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consecutive_errors: Rc<AtomicUsize>,
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error_limit: usize,
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key_id: String,
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user_agent: String,
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private_key: RSAPrivateKey,
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config: Config,
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breakers: Breakers,
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}
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impl Requests {
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pub fn new(
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key_id: String,
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private_key: RSAPrivateKey,
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user_agent: String,
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breakers: Breakers,
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) -> Self {
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Requests {
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client: Rc::new(RefCell::new(
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Client::builder()
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.header("User-Agent", user_agent.clone())
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.finish(),
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)),
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consecutive_errors: Rc::new(AtomicUsize::new(0)),
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error_limit: 3,
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key_id,
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user_agent,
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private_key,
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config: Config::default().mastodon_compat(),
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breakers,
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}
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}
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fn count_err(&self) {
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let count = self.consecutive_errors.fetch_add(1, Ordering::Relaxed);
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if count + 1 >= self.error_limit {
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warn!("{} consecutive errors, rebuilding http client", count);
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*self.client.borrow_mut() = Client::builder()
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.header("User-Agent", self.user_agent.clone())
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.finish();
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self.reset_err();
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}
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}
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fn reset_err(&self) {
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self.consecutive_errors.swap(0, Ordering::Relaxed);
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}
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pub async fn fetch_json<T>(&self, url: &str) -> Result<T, MyError>
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where
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T: serde::de::DeserializeOwned,
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{
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self.do_fetch(url, "application/json").await
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}
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pub async fn fetch<T>(&self, url: &str) -> Result<T, MyError>
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where
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T: serde::de::DeserializeOwned,
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{
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self.do_fetch(url, "application/activity+json").await
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}
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async fn do_fetch<T>(&self, url: &str, accept: &str) -> Result<T, MyError>
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where
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T: serde::de::DeserializeOwned,
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{
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let parsed_url = url.parse::<Url>()?;
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if !self.breakers.should_try(&parsed_url).await {
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return Err(MyError::Breaker);
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}
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let signer = self.signer();
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let client: Client = self.client.borrow().clone();
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let res = client
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.get(url)
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.header("Accept", accept)
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.set(Date(SystemTime::now().into()))
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.signature(
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self.config.clone(),
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self.key_id.clone(),
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move |signing_string| signer.sign(signing_string),
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)
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.await?
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.send()
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.await;
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if res.is_err() {
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self.count_err();
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self.breakers.fail(&parsed_url).await;
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}
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let mut res = res.map_err(|e| MyError::SendRequest(url.to_string(), e.to_string()))?;
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self.reset_err();
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if !res.status().is_success() {
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if let Ok(bytes) = res.body().await {
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if let Ok(s) = String::from_utf8(bytes.as_ref().to_vec()) {
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if !s.is_empty() {
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debug!("Response from {}, {}", url, s);
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}
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}
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}
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self.breakers.fail(&parsed_url).await;
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return Err(MyError::Status(url.to_string(), res.status()));
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}
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self.breakers.succeed(&parsed_url).await;
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let body = res
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.body()
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.await
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.map_err(|e| MyError::ReceiveResponse(url.to_string(), e.to_string()))?;
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Ok(serde_json::from_slice(body.as_ref())?)
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}
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pub async fn fetch_bytes(&self, url: &str) -> Result<(String, Bytes), MyError> {
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let parsed_url = url.parse::<Url>()?;
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if !self.breakers.should_try(&parsed_url).await {
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return Err(MyError::Breaker);
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}
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info!("Fetching bytes for {}", url);
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let signer = self.signer();
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let client: Client = self.client.borrow().clone();
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let res = client
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.get(url)
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.header("Accept", "*/*")
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.set(Date(SystemTime::now().into()))
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.signature(
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self.config.clone(),
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self.key_id.clone(),
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move |signing_string| signer.sign(signing_string),
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)
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.await?
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.send()
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.await;
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if res.is_err() {
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self.breakers.fail(&parsed_url).await;
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self.count_err();
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}
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let mut res = res.map_err(|e| MyError::SendRequest(url.to_string(), e.to_string()))?;
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self.reset_err();
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let content_type = if let Some(content_type) = res.headers().get("content-type") {
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if let Ok(s) = content_type.to_str() {
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s.to_owned()
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} else {
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return Err(MyError::ContentType);
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}
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} else {
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return Err(MyError::ContentType);
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};
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if !res.status().is_success() {
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if let Ok(bytes) = res.body().await {
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if let Ok(s) = String::from_utf8(bytes.as_ref().to_vec()) {
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if !s.is_empty() {
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debug!("Response from {}, {}", url, s);
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}
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}
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}
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self.breakers.fail(&parsed_url).await;
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return Err(MyError::Status(url.to_string(), res.status()));
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}
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self.breakers.succeed(&parsed_url).await;
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let bytes = match res.body().limit(1024 * 1024 * 4).await {
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Err(e) => {
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return Err(MyError::ReceiveResponse(url.to_string(), e.to_string()));
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}
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Ok(bytes) => bytes,
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};
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Ok((content_type, bytes))
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}
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pub async fn deliver<T>(&self, inbox: Url, item: &T) -> Result<(), MyError>
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where
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T: serde::ser::Serialize,
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{
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if !self.breakers.should_try(&inbox).await {
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return Err(MyError::Breaker);
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}
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let signer = self.signer();
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let item_string = serde_json::to_string(item)?;
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let client: Client = self.client.borrow().clone();
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let res = client
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.post(inbox.as_str())
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.header("Accept", "application/activity+json")
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.header("Content-Type", "application/activity+json")
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.set(Date(SystemTime::now().into()))
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.signature_with_digest(
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self.config.clone(),
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self.key_id.clone(),
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Sha256::new(),
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item_string,
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move |signing_string| signer.sign(signing_string),
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)
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.await?
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.send()
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.await;
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if res.is_err() {
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self.count_err();
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self.breakers.fail(&inbox).await;
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}
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let mut res = res.map_err(|e| MyError::SendRequest(inbox.to_string(), e.to_string()))?;
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self.reset_err();
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if !res.status().is_success() {
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if let Ok(bytes) = res.body().await {
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if let Ok(s) = String::from_utf8(bytes.as_ref().to_vec()) {
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if !s.is_empty() {
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debug!("Response from {}, {}", inbox.as_str(), s);
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}
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}
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}
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self.breakers.fail(&inbox).await;
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return Err(MyError::Status(inbox.to_string(), res.status()));
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}
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self.breakers.succeed(&inbox).await;
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Ok(())
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}
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fn signer(&self) -> Signer {
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Signer {
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private_key: self.private_key.clone(),
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}
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}
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}
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struct Signer {
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private_key: RSAPrivateKey,
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}
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impl Signer {
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fn sign(&self, signing_string: &str) -> Result<String, MyError> {
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let hashed = Sha256::digest(signing_string.as_bytes());
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let bytes = self.private_key.sign(
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PaddingScheme::PKCS1v15Sign {
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hash: Some(Hash::SHA2_256),
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},
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&hashed,
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)?;
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Ok(base64::encode(bytes))
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}
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}
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