371 lines
10 KiB
Rust
371 lines
10 KiB
Rust
use std::collections::{HashMap, HashSet};
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use std::sync::{Arc, RwLock};
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use std::time::{Duration, Instant};
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use anyhow::Result;
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use chrono::Utc;
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use futures::TryFutureExt;
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use log::*;
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use tokio::select;
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use tokio::sync::{mpsc, watch};
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use tokio::task::block_in_place;
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use acme_micro::create_p384_key;
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use acme_micro::{Directory, DirectoryUrl};
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use rustls::sign::CertifiedKey;
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use crate::cert::{Cert, CertSer};
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use crate::consul::*;
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use crate::exit_on_err;
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use crate::proxy_config::*;
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pub struct CertStore {
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consul: Consul,
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letsencrypt_email: String,
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certs: RwLock<HashMap<String, Arc<Cert>>>,
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self_signed_certs: RwLock<HashMap<String, Arc<Cert>>>,
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rx_proxy_config: watch::Receiver<Arc<ProxyConfig>>,
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tx_need_cert: mpsc::UnboundedSender<String>,
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}
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impl CertStore {
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pub fn new(
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consul: Consul,
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rx_proxy_config: watch::Receiver<Arc<ProxyConfig>>,
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letsencrypt_email: String,
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) -> Arc<Self> {
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let (tx, rx) = mpsc::unbounded_channel();
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let cert_store = Arc::new(Self {
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consul,
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certs: RwLock::new(HashMap::new()),
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self_signed_certs: RwLock::new(HashMap::new()),
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rx_proxy_config,
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letsencrypt_email,
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tx_need_cert: tx,
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});
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tokio::spawn(cert_store.clone().certificate_loop(rx).map_err(exit_on_err));
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cert_store
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}
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async fn certificate_loop(
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self: Arc<Self>,
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mut rx_need_cert: mpsc::UnboundedReceiver<String>,
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) -> Result<()> {
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let mut rx_proxy_config = self.rx_proxy_config.clone();
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let mut t_last_check: HashMap<String, Instant> = HashMap::new();
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loop {
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let mut domains: HashSet<String> = HashSet::new();
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select! {
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res = rx_proxy_config.changed() => {
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if res.is_err() {
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bail!("rx_proxy_config closed");
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}
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let proxy_config: Arc<ProxyConfig> = rx_proxy_config.borrow().clone();
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for ent in proxy_config.entries.iter() {
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if let HostDescription::Hostname(domain) = &ent.host {
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if let Some((host, _port)) = domain.split_once(':') {
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domains.insert(host.to_string());
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} else {
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domains.insert(domain.clone());
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}
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}
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}
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}
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need_cert = rx_need_cert.recv() => {
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match need_cert {
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Some(dom) => {
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domains.insert(dom);
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while let Ok(dom2) = rx_need_cert.try_recv() {
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domains.insert(dom2);
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}
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}
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None => bail!("rx_need_cert closed"),
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};
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}
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}
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for dom in domains.iter() {
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match t_last_check.get(dom) {
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Some(t) if Instant::now() - *t < Duration::from_secs(60) => continue,
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_ => t_last_check.insert(dom.to_string(), Instant::now()),
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};
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debug!("Checking cert for domain: {}", dom);
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if let Err(e) = self.check_cert(dom).await {
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warn!("({}) Could not get certificate: {}", dom, e);
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}
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}
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}
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}
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fn get_cert_for_https(self: &Arc<Self>, domain: &str) -> Result<Arc<Cert>> {
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// Check if domain is authorized
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if !self
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.rx_proxy_config
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.borrow()
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.entries
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.iter()
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.any(|ent| ent.host.matches(domain))
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{
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bail!("Domain {} should not have a TLS certificate.", domain);
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}
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// Check in local memory if it exists
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if let Some(cert) = self.certs.read().unwrap().get(domain) {
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if cert.is_old() {
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self.tx_need_cert.send(domain.to_string())?;
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}
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return Ok(cert.clone());
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}
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// Not found in local memory, try to get it in background
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self.tx_need_cert.send(domain.to_string())?;
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// In the meantime, use a self-signed certificate
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if let Some(cert) = self.self_signed_certs.read().unwrap().get(domain) {
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return Ok(cert.clone());
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}
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self.gen_self_signed_certificate(domain)
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}
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pub async fn check_cert(self: &Arc<Self>, domain: &str) -> Result<()> {
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// First, try locally.
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{
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let certs = self.certs.read().unwrap();
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if let Some(cert) = certs.get(domain) {
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if !cert.is_old() {
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return Ok(());
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}
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}
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}
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// Second, try from Consul.
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if let Some(consul_cert) = self
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.consul
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.kv_get_json::<CertSer>(&format!("certs/{}", domain))
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.await?
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{
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if let Ok(cert) = Cert::new(consul_cert) {
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let cert = Arc::new(cert);
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self.certs
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.write()
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.unwrap()
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.insert(domain.to_string(), cert.clone());
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if !cert.is_old() {
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return Ok(());
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}
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}
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}
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// Third, ask from Let's Encrypt
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self.renew_cert(domain).await
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}
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pub async fn renew_cert(self: &Arc<Self>, domain: &str) -> Result<()> {
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info!("({}) Renewing certificate", domain);
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// Basic sanity check (we could add more kinds of checks here)
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// This is just to help avoid getting rate-limited against ACME server
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if !domain.contains('.') || domain.ends_with(".local") {
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bail!("Probably not a publicly accessible domain, skipping (a self-signed certificate will be used)");
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}
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// ---- Acquire lock ----
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// the lock is acquired for half an hour,
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// so that in case of an error we won't retry before
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// that delay expires
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let lock_path = format!("renew_lock/{}", domain);
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let lock_name = format!("tricot/renew:{}@{}", domain, self.consul.local_node.clone());
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let session = self
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.consul
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.create_session(&ConsulSessionRequest {
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name: lock_name.clone(),
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node: None,
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lock_delay: Some("30m".into()),
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ttl: Some("45m".into()),
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behavior: Some("delete".into()),
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})
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.await?;
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debug!("Lock session: {}", session);
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if !self
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.consul
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.acquire(&lock_path, lock_name.clone().into(), &session)
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.await?
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{
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bail!("Lock is already taken, not renewing for now.");
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}
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// ---- Accessibility check ----
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// We don't want to ask Let's encrypt for a domain that
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// is not configured to point here. This can happen with wildcards: someone can send
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// a fake SNI to a domain that is not ours. We have to detect it here.
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self.check_domain_accessibility(domain, &session).await?;
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// ---- Do let's encrypt stuff ----
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let dir = Directory::from_url(DirectoryUrl::LetsEncrypt)?;
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let contact = vec![format!("mailto:{}", self.letsencrypt_email)];
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// Use existing Let's encrypt account or register new one if necessary
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let acc = match self.consul.kv_get("letsencrypt_account_key.pem").await? {
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Some(acc_privkey) => {
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info!("Using existing Let's encrypt account");
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dir.load_account(std::str::from_utf8(&acc_privkey)?, contact)?
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}
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None => {
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info!("Creating new Let's encrypt account");
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let acc = block_in_place(|| dir.register_account(contact.clone()))?;
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self.consul
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.kv_put(
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"letsencrypt_account_key.pem",
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acc.acme_private_key_pem()?.into_bytes().into(),
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)
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.await?;
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acc
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}
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};
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// Order certificate and perform validation
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let mut ord_new = acc.new_order(domain, &[])?;
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let ord_csr = loop {
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if let Some(ord_csr) = ord_new.confirm_validations() {
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break ord_csr;
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}
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let auths = ord_new.authorizations()?;
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info!("({}) Creating challenge and storing in Consul", domain);
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let chall = auths[0].http_challenge().unwrap();
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let chall_key = format!("challenge/{}", chall.http_token());
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self.consul
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.acquire(&chall_key, chall.http_proof()?.into(), &session)
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.await?;
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info!("({}) Validating challenge", domain);
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block_in_place(|| chall.validate(Duration::from_millis(5000)))?;
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info!("({}) Deleting challenge", domain);
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self.consul.kv_delete(&chall_key).await?;
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block_in_place(|| ord_new.refresh())?;
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};
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// Generate key and finalize certificate
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let pkey_pri = create_p384_key()?;
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let ord_cert =
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block_in_place(|| ord_csr.finalize_pkey(pkey_pri, Duration::from_millis(5000)))?;
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let cert = block_in_place(|| ord_cert.download_cert())?;
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info!("({}) Keys and certificate obtained", domain);
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let key_pem = cert.private_key().to_string();
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let cert_pem = cert.certificate().to_string();
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let certser = CertSer {
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hostname: domain.to_string(),
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date: Utc::today().naive_utc(),
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valid_days: cert.valid_days_left()?,
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key_pem,
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cert_pem,
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};
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let cert = Arc::new(Cert::new(certser.clone())?);
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// Store certificate in Consul and local store
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self.certs.write().unwrap().insert(domain.to_string(), cert);
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self.consul
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.kv_put_json(&format!("certs/{}", domain), &certser)
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.await?;
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// Release locks
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self.consul.release(&lock_path, "".into(), &session).await?;
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self.consul.kv_delete(&lock_path).await?;
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info!("({}) Cert successfully renewed and stored", domain);
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Ok(())
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}
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async fn check_domain_accessibility(&self, domain: &str, session: &str) -> Result<()> {
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// Returns Ok(()) only if domain is a correct domain name that
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// redirects to this server
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let self_challenge_id = uuid::Uuid::new_v4().to_string();
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let self_challenge_key = format!("challenge/{}", self_challenge_id);
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let self_challenge_resp = uuid::Uuid::new_v4().to_string();
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self.consul
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.acquire(
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&self_challenge_key,
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self_challenge_resp.as_bytes().to_vec().into(),
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session,
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)
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.await?;
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let httpcli = reqwest::Client::new();
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let chall_url = format!(
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"http://{}/.well-known/acme-challenge/{}",
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domain, self_challenge_id
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);
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for i in 1..=4 {
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tokio::time::sleep(Duration::from_secs(2)).await;
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info!("({}) Accessibility check {}/4", domain, i);
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let httpresp = httpcli.get(&chall_url).send().await?;
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if httpresp.status() == reqwest::StatusCode::OK
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&& httpresp.bytes().await? == self_challenge_resp.as_bytes()
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{
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// Challenge successfully validated
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info!("({}) Accessibility check successfull", domain);
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return Ok(());
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}
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tokio::time::sleep(Duration::from_secs(2)).await;
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}
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bail!("Unable to validate self-challenge for domain accessibility check");
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}
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fn gen_self_signed_certificate(&self, domain: &str) -> Result<Arc<Cert>> {
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let subject_alt_names = vec![domain.to_string(), "localhost".to_string()];
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let cert = rcgen::generate_simple_self_signed(subject_alt_names)?;
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let certser = CertSer {
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hostname: domain.to_string(),
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date: Utc::today().naive_utc(),
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valid_days: 1024,
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key_pem: cert.serialize_private_key_pem(),
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cert_pem: cert.serialize_pem()?,
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};
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let cert = Arc::new(Cert::new(certser)?);
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self.self_signed_certs
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.write()
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.unwrap()
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.insert(domain.to_string(), cert.clone());
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info!("Added self-signed certificate for {}", domain);
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Ok(cert)
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}
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}
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pub struct StoreResolver(pub Arc<CertStore>);
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impl rustls::server::ResolvesServerCert for StoreResolver {
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fn resolve(&self, client_hello: rustls::server::ClientHello<'_>) -> Option<Arc<CertifiedKey>> {
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let domain = client_hello.server_name()?;
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match self.0.get_cert_for_https(domain) {
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Ok(cert) => Some(cert.certkey.clone()),
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Err(e) => {
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warn!("Could not get certificate for {}: {}", domain, e);
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None
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}
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}
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}
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}
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