centralize all the checks in the same place

This commit is contained in:
Quentin 2023-11-30 17:34:07 +01:00
parent 753903ee02
commit b9b035034f
Signed by untrusted user: quentin
GPG key ID: E9602264D639FF68

View file

@ -22,12 +22,19 @@ pub struct CertStore {
consul: Consul,
node_name: String,
letsencrypt_email: String,
certs: RwLock<HashMap<String, Arc<Cert>>>,
self_signed_certs: RwLock<HashMap<String, Arc<Cert>>>,
rx_proxy_config: watch::Receiver<Arc<ProxyConfig>>,
tx_need_cert: mpsc::UnboundedSender<String>,
}
struct ProcessedDomains {
static_domains: HashSet<String>,
on_demand_domains: Vec<(glob::Pattern, Option<String>)>,
}
impl CertStore {
pub fn new(
consul: Consul,
@ -41,10 +48,10 @@ impl CertStore {
let cert_store = Arc::new(Self {
consul,
node_name,
letsencrypt_email,
certs: RwLock::new(HashMap::new()),
self_signed_certs: RwLock::new(HashMap::new()),
rx_proxy_config,
letsencrypt_email,
tx_need_cert: tx,
});
@ -66,23 +73,21 @@ impl CertStore {
let mut rx_proxy_config = self.rx_proxy_config.clone();
let mut t_last_check: HashMap<String, Instant> = HashMap::new();
// Collect data from proxy config
let mut static_domains: HashSet<String> = HashSet::new();
let mut on_demand_checks: Vec<(glob::Pattern, Option<String>)> = vec![];
let mut proc_domains: Option<ProcessedDomains> = None;
loop {
// Collect domains that need a TLS certificate
// either from the proxy configuration (eagerly)
// or on reaction to a user request (lazily)
let domains = select! {
// Refresh some internal states, schedule static_domains for renew
res = rx_proxy_config.changed() => {
if res.is_err() {
bail!("rx_proxy_config closed");
}
on_demand_checks.clear();
let mut static_domains: HashSet<String> = HashSet::new();
let mut on_demand_domains: Vec<(glob::Pattern, Option<String>)> = vec![];
let proxy_config: Arc<ProxyConfig> = rx_proxy_config.borrow().clone();
for ent in proxy_config.entries.iter() {
// Eagerly generate certificates for domains that
// are not patterns
@ -90,21 +95,21 @@ impl CertStore {
HostDescription::Hostname(domain) => {
if let Some((host, _port)) = domain.split_once(':') {
static_domains.insert(host.to_string());
//domains.insert(host.to_string());
} else {
static_domains.insert(domain.clone());
//domains.insert(domain.clone());
}
},
HostDescription::Pattern(pattern) => {
on_demand_checks.push((pattern.clone(), ent.on_demand_tls_ask.clone()));
}
on_demand_domains.push((pattern.clone(), ent.on_demand_tls_ask.clone()));
},
}
}
// only static_domains are refreshed
static_domains.clone()
proc_domains = Some(ProcessedDomains { static_domains: static_domains.clone(), on_demand_domains });
self.domain_validation(static_domains, proc_domains.as_ref()).await
}
// renew static and on-demand domains
need_cert = rx_need_cert.recv() => {
match need_cert {
Some(dom) => {
@ -116,7 +121,7 @@ impl CertStore {
candidates.insert(dom2);
}
self.domain_validation(candidates, &static_domains, on_demand_checks.as_slice()).await
self.domain_validation(candidates, proc_domains.as_ref()).await
}
None => bail!("rx_need_cert closed"),
}
@ -145,28 +150,36 @@ impl CertStore {
async fn domain_validation(
&self,
candidates: HashSet<String>,
static_domains: &HashSet<String>,
checks: &[(glob::Pattern, Option<String>)],
maybe_proc_domains: Option<&ProcessedDomains>,
) -> HashSet<String> {
let mut domains: HashSet<String> = HashSet::new();
// Handle initialization
let proc_domains = match maybe_proc_domains {
None => {
warn!("Proxy config is not yet loaded, refusing all certificate generation");
return domains;
}
Some(proc) => proc,
};
// Filter certificates...
for candidate in candidates.into_iter() {
'outer: for candidate in candidates.into_iter() {
// Disallow obvious wrong domains...
if !candidate.contains('.') || candidate.ends_with(".local") {
warn!("Probably not a publicly accessible domain, skipping (a self-signed certificate will be used)");
warn!("{} is probably not a publicly accessible domain, skipping (a self-signed certificate will be used)", candidate);
continue;
}
// Try to register domain as a static domain
if static_domains.contains(&candidate) {
if proc_domains.static_domains.contains(&candidate) {
trace!("domain {} validated as static domain", candidate);
domains.insert(candidate);
continue;
}
// It's not a static domain, maybe an on-demand domain?
for (pattern, maybe_check_url) in checks.iter() {
for (pattern, maybe_check_url) in proc_domains.on_demand_domains.iter() {
// check glob pattern
if pattern.matches(&candidate) {
// if no check url is set, accept domain as long as it matches the pattern
@ -178,12 +191,14 @@ impl CertStore {
pattern
);
domains.insert(candidate);
break;
continue 'outer;
}
Some(url) => url,
};
// if a check url is set, call it
// -- avoid DDoSing a backend
tokio::time::sleep(Duration::from_secs(2)).await;
match self.on_demand_tls_ask(check_url, &candidate).await {
Ok(()) => {
trace!(
@ -193,7 +208,7 @@ impl CertStore {
check_url
);
domains.insert(candidate);
break;
continue 'outer;
}
Err(e) => {
warn!("domain {} validation refused on glob pattern {} and on check url {} with error: {}", candidate, pattern, check_url, e);
@ -201,8 +216,6 @@ impl CertStore {
}
}
}
// Avoid DDoSing a backend
tokio::time::sleep(Duration::from_secs(2)).await;
}
return domains;
@ -210,17 +223,6 @@ impl CertStore {
/// This function is also in charge of the refresh of the domain names
fn get_cert_for_https(self: &Arc<Self>, domain: &str) -> Result<Arc<Cert>> {
// Check if domain is authorized
if !self
.rx_proxy_config
.borrow()
.entries
.iter()
.any(|ent| ent.url_prefix.host.matches(domain))
{
bail!("Domain {} should not have a TLS certificate.", domain);
}
// Check in local memory if it exists
if let Some(cert) = self.certs.read().unwrap().get(domain) {
if cert.is_old() {