mirror of
https://github.com/caddyserver/caddy.git
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286d8d1e89
* Remove manual TLS clone method * WiP tls * Use GetClientConfig for tls.Config * gofmt -s -w * GetConfig * Handshake * Removed comment * Disable HTTP2 on demand * Remove junk * Remove http2 enable (no-op)
319 lines
11 KiB
Go
319 lines
11 KiB
Go
package caddytls
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import (
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"crypto/tls"
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"errors"
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"fmt"
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"log"
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"strings"
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"sync"
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"sync/atomic"
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"time"
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)
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// configGroup is a type that keys configs by their hostname
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// (hostnames can have wildcard characters; use the getConfig
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// method to get a config by matching its hostname). Its
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// GetCertificate function can be used with tls.Config.
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type ConfigGroup map[string]*Config
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// getConfig gets the config by the first key match for name.
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// In other words, "sub.foo.bar" will get the config for "*.foo.bar"
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// if that is the closest match. This function MAY return nil
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// if no match is found.
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//
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// This function follows nearly the same logic to lookup
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// a hostname as the getCertificate function uses.
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func (cg ConfigGroup) getConfig(name string) *Config {
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name = strings.ToLower(name)
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// exact match? great, let's use it
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if config, ok := cg[name]; ok {
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return config
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}
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// try replacing labels in the name with wildcards until we get a match
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labels := strings.Split(name, ".")
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for i := range labels {
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labels[i] = "*"
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candidate := strings.Join(labels, ".")
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if config, ok := cg[candidate]; ok {
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return config
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}
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}
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// as last resort, try a config that serves all names
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if config, ok := cg[""]; ok {
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return config
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}
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return nil
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}
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// GetCertificate gets a certificate to satisfy clientHello. In getting
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// the certificate, it abides the rules and settings defined in the
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// Config that matches clientHello.ServerName. It first checks the in-
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// memory cache, then, if the config enables "OnDemand", it accesses
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// disk, then accesses the network if it must obtain a new certificate
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// via ACME.
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//
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// This method is safe for use as a tls.Config.GetCertificate callback.
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func (cg ConfigGroup) GetCertificate(clientHello *tls.ClientHelloInfo) (*tls.Certificate, error) {
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cert, err := cg.getCertDuringHandshake(strings.ToLower(clientHello.ServerName), true, true)
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return &cert.Certificate, err
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}
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// GetConfigForClient gets a TLS configuration satisfying clientHello. In getting
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// the configuration, it abides the rules and settings defined in the
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// Config that matches clientHello.ServerName.
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//
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// This method is safe for use as a tls.Config.GetConfigForClient callback.
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func (cg ConfigGroup) GetConfigForClient(clientHello *tls.ClientHelloInfo) (*tls.Config, error) {
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config := cg.getConfig(clientHello.ServerName)
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if config != nil {
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return config.tlsConfig, nil
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}
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return nil, nil
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}
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// getCertDuringHandshake will get a certificate for name. It first tries
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// the in-memory cache. If no certificate for name is in the cache, the
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// config most closely corresponding to name will be loaded. If that config
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// allows it (OnDemand==true) and if loadIfNecessary == true, it goes to disk
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// to load it into the cache and serve it. If it's not on disk and if
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// obtainIfNecessary == true, the certificate will be obtained from the CA,
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// cached, and served. If obtainIfNecessary is true, then loadIfNecessary
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// must also be set to true. An error will be returned if and only if no
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// certificate is available.
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//
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// This function is safe for concurrent use.
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func (cg ConfigGroup) getCertDuringHandshake(name string, loadIfNecessary, obtainIfNecessary bool) (Certificate, error) {
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// First check our in-memory cache to see if we've already loaded it
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cert, matched, defaulted := getCertificate(name)
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if matched {
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return cert, nil
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}
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// Get the relevant TLS config for this name. If OnDemand is enabled,
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// then we might be able to load or obtain a needed certificate.
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cfg := cg.getConfig(name)
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if cfg != nil && cfg.OnDemand && loadIfNecessary {
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// Then check to see if we have one on disk
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loadedCert, err := CacheManagedCertificate(name, cfg)
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if err == nil {
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loadedCert, err = cg.handshakeMaintenance(name, loadedCert)
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if err != nil {
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log.Printf("[ERROR] Maintaining newly-loaded certificate for %s: %v", name, err)
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}
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return loadedCert, nil
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}
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if obtainIfNecessary {
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// By this point, we need to ask the CA for a certificate
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name = strings.ToLower(name)
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// Make sure aren't over any applicable limits
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err := cg.checkLimitsForObtainingNewCerts(name, cfg)
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if err != nil {
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return Certificate{}, err
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}
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// Name has to qualify for a certificate
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if !HostQualifies(name) {
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return cert, errors.New("hostname '" + name + "' does not qualify for certificate")
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}
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// Obtain certificate from the CA
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return cg.obtainOnDemandCertificate(name, cfg)
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}
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}
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// Fall back to the default certificate if there is one
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if defaulted {
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return cert, nil
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}
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return Certificate{}, fmt.Errorf("no certificate available for %s", name)
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}
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// checkLimitsForObtainingNewCerts checks to see if name can be issued right
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// now according to mitigating factors we keep track of and preferences the
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// user has set. If a non-nil error is returned, do not issue a new certificate
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// for name.
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func (cg ConfigGroup) checkLimitsForObtainingNewCerts(name string, cfg *Config) error {
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// User can set hard limit for number of certs for the process to issue
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if cfg.OnDemandState.MaxObtain > 0 &&
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atomic.LoadInt32(&cfg.OnDemandState.ObtainedCount) >= cfg.OnDemandState.MaxObtain {
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return fmt.Errorf("%s: maximum certificates issued (%d)", name, cfg.OnDemandState.MaxObtain)
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}
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// Make sure name hasn't failed a challenge recently
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failedIssuanceMu.RLock()
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when, ok := failedIssuance[name]
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failedIssuanceMu.RUnlock()
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if ok {
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return fmt.Errorf("%s: throttled; refusing to issue cert since last attempt on %s failed", name, when.String())
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}
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// Make sure, if we've issued a few certificates already, that we haven't
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// issued any recently
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lastIssueTimeMu.Lock()
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since := time.Since(lastIssueTime)
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lastIssueTimeMu.Unlock()
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if atomic.LoadInt32(&cfg.OnDemandState.ObtainedCount) >= 10 && since < 10*time.Minute {
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return fmt.Errorf("%s: throttled; last certificate was obtained %v ago", name, since)
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}
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// 👍Good to go
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return nil
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}
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// obtainOnDemandCertificate obtains a certificate for name for the given
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// name. If another goroutine has already started obtaining a cert for
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// name, it will wait and use what the other goroutine obtained.
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//
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// This function is safe for use by multiple concurrent goroutines.
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func (cg ConfigGroup) obtainOnDemandCertificate(name string, cfg *Config) (Certificate, error) {
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// We must protect this process from happening concurrently, so synchronize.
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obtainCertWaitChansMu.Lock()
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wait, ok := obtainCertWaitChans[name]
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if ok {
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// lucky us -- another goroutine is already obtaining the certificate.
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// wait for it to finish obtaining the cert and then we'll use it.
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obtainCertWaitChansMu.Unlock()
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<-wait
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return cg.getCertDuringHandshake(name, true, false)
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}
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// looks like it's up to us to do all the work and obtain the cert.
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// make a chan others can wait on if needed
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wait = make(chan struct{})
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obtainCertWaitChans[name] = wait
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obtainCertWaitChansMu.Unlock()
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// do the obtain
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log.Printf("[INFO] Obtaining new certificate for %s", name)
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err := cfg.ObtainCert(name, false)
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// immediately unblock anyone waiting for it; doing this in
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// a defer would risk deadlock because of the recursive call
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// to getCertDuringHandshake below when we return!
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obtainCertWaitChansMu.Lock()
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close(wait)
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delete(obtainCertWaitChans, name)
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obtainCertWaitChansMu.Unlock()
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if err != nil {
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// Failed to solve challenge, so don't allow another on-demand
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// issue for this name to be attempted for a little while.
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failedIssuanceMu.Lock()
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failedIssuance[name] = time.Now()
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go func(name string) {
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time.Sleep(5 * time.Minute)
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failedIssuanceMu.Lock()
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delete(failedIssuance, name)
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failedIssuanceMu.Unlock()
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}(name)
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failedIssuanceMu.Unlock()
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return Certificate{}, err
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}
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// Success - update counters and stuff
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atomic.AddInt32(&cfg.OnDemandState.ObtainedCount, 1)
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lastIssueTimeMu.Lock()
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lastIssueTime = time.Now()
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lastIssueTimeMu.Unlock()
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// certificate is already on disk; now just start over to load it and serve it
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return cg.getCertDuringHandshake(name, true, false)
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}
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// handshakeMaintenance performs a check on cert for expiration and OCSP
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// validity.
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//
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// This function is safe for use by multiple concurrent goroutines.
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func (cg ConfigGroup) handshakeMaintenance(name string, cert Certificate) (Certificate, error) {
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// Check cert expiration
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timeLeft := cert.NotAfter.Sub(time.Now().UTC())
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if timeLeft < RenewDurationBefore {
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log.Printf("[INFO] Certificate for %v expires in %v; attempting renewal", cert.Names, timeLeft)
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return cg.renewDynamicCertificate(name, cert.Config)
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}
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// Check OCSP staple validity
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if cert.OCSP != nil {
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refreshTime := cert.OCSP.ThisUpdate.Add(cert.OCSP.NextUpdate.Sub(cert.OCSP.ThisUpdate) / 2)
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if time.Now().After(refreshTime) {
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err := stapleOCSP(&cert, nil)
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if err != nil {
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// An error with OCSP stapling is not the end of the world, and in fact, is
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// quite common considering not all certs have issuer URLs that support it.
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log.Printf("[ERROR] Getting OCSP for %s: %v", name, err)
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}
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certCacheMu.Lock()
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certCache[name] = cert
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certCacheMu.Unlock()
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}
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}
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return cert, nil
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}
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// renewDynamicCertificate renews the certificate for name using cfg. It returns the
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// certificate to use and an error, if any. currentCert may be returned even if an
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// error occurs, since we perform renewals before they expire and it may still be
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// usable. name should already be lower-cased before calling this function.
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//
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// This function is safe for use by multiple concurrent goroutines.
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func (cg ConfigGroup) renewDynamicCertificate(name string, cfg *Config) (Certificate, error) {
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obtainCertWaitChansMu.Lock()
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wait, ok := obtainCertWaitChans[name]
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if ok {
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// lucky us -- another goroutine is already renewing the certificate.
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// wait for it to finish, then we'll use the new one.
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obtainCertWaitChansMu.Unlock()
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<-wait
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return cg.getCertDuringHandshake(name, true, false)
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}
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// looks like it's up to us to do all the work and renew the cert
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wait = make(chan struct{})
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obtainCertWaitChans[name] = wait
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obtainCertWaitChansMu.Unlock()
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// do the renew
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log.Printf("[INFO] Renewing certificate for %s", name)
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err := cfg.RenewCert(name, false)
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// immediately unblock anyone waiting for it; doing this in
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// a defer would risk deadlock because of the recursive call
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// to getCertDuringHandshake below when we return!
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obtainCertWaitChansMu.Lock()
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close(wait)
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delete(obtainCertWaitChans, name)
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obtainCertWaitChansMu.Unlock()
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if err != nil {
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return Certificate{}, err
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}
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return cg.getCertDuringHandshake(name, true, false)
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}
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// obtainCertWaitChans is used to coordinate obtaining certs for each hostname.
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var obtainCertWaitChans = make(map[string]chan struct{})
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var obtainCertWaitChansMu sync.Mutex
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// failedIssuance is a set of names that we recently failed to get a
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// certificate for from the ACME CA. They are removed after some time.
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// When a name is in this map, do not issue a certificate for it on-demand.
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var failedIssuance = make(map[string]time.Time)
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var failedIssuanceMu sync.RWMutex
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// lastIssueTime records when we last obtained a certificate successfully.
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// If this value is recent, do not make any on-demand certificate requests.
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var lastIssueTime time.Time
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var lastIssueTimeMu sync.Mutex
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