package caddytls import ( "encoding/json" "errors" "fmt" "log" "net" "net/url" "strings" "sync" "time" "github.com/mholt/caddy" "github.com/xenolf/lego/acme" ) // acmeMu ensures that only one ACME challenge occurs at a time. var acmeMu sync.Mutex // ACMEClient is a wrapper over acme.Client with // some custom state attached. It is used to obtain, // renew, and revoke certificates with ACME. type ACMEClient struct { AllowPrompts bool config *Config acmeClient *acme.Client } // newACMEClient creates a new ACMEClient given an email and whether // prompting the user is allowed. It's a variable so we can mock in tests. var newACMEClient = func(config *Config, allowPrompts bool) (*ACMEClient, error) { storage, err := config.StorageFor(config.CAUrl) if err != nil { return nil, err } // Look up or create the LE user account leUser, err := getUser(storage, config.ACMEEmail) if err != nil { return nil, err } // ensure key type is set keyType := DefaultKeyType if config.KeyType != "" { keyType = config.KeyType } // ensure CA URL (directory endpoint) is set caURL := DefaultCAUrl if config.CAUrl != "" { caURL = config.CAUrl } // ensure endpoint is secure (assume HTTPS if scheme is missing) if !strings.Contains(caURL, "://") { caURL = "https://" + caURL } u, err := url.Parse(caURL) if err != nil { return nil, err } if u.Scheme != "https" && !caddy.IsLoopback(u.Host) && !strings.HasPrefix(u.Host, "10.") { return nil, fmt.Errorf("%s: insecure CA URL (HTTPS required)", caURL) } // The client facilitates our communication with the CA server. client, err := acme.NewClient(caURL, &leUser, keyType) if err != nil { return nil, err } // If not registered, the user must register an account with the CA // and agree to terms if leUser.Registration == nil { reg, err := client.Register() if err != nil { return nil, errors.New("registration error: " + err.Error()) } leUser.Registration = reg if allowPrompts { // can't prompt a user who isn't there if !Agreed && reg.TosURL == "" { Agreed = promptUserAgreement(saURL, false) // TODO - latest URL } if !Agreed && reg.TosURL == "" { return nil, errors.New("user must agree to terms") } } err = client.AgreeToTOS() if err != nil { saveUser(storage, leUser) // Might as well try, right? return nil, errors.New("error agreeing to terms: " + err.Error()) } // save user to the file system err = saveUser(storage, leUser) if err != nil { return nil, errors.New("could not save user: " + err.Error()) } } c := &ACMEClient{ AllowPrompts: allowPrompts, config: config, acmeClient: client, } if config.DNSProvider == "" { // Use HTTP and TLS-SNI challenges by default // See if HTTP challenge needs to be proxied useHTTPPort := "" // empty port value will use challenge default if caddy.HasListenerWithAddress(net.JoinHostPort(config.ListenHost, HTTPChallengePort)) { useHTTPPort = config.AltHTTPPort if useHTTPPort == "" { useHTTPPort = DefaultHTTPAlternatePort } } // Always respect user's bind preferences by using config.ListenHost. // NOTE(Sep'16): At time of writing, SetHTTPAddress() and SetTLSaddress() // must be called before SetChallengeProvider(), since they reset the // challenge provider back to the default one! err := c.acmeClient.SetHTTPAddress(net.JoinHostPort(config.ListenHost, useHTTPPort)) if err != nil { return nil, err } err = c.acmeClient.SetTLSAddress(net.JoinHostPort(config.ListenHost, "")) if err != nil { return nil, err } // See if TLS challenge needs to be handled by our own facilities if caddy.HasListenerWithAddress(net.JoinHostPort(config.ListenHost, TLSSNIChallengePort)) { c.acmeClient.SetChallengeProvider(acme.TLSSNI01, tlsSniSolver{}) } } else { // Otherwise, DNS challenge it is // Load provider constructor function provFn, ok := dnsProviders[config.DNSProvider] if !ok { return nil, errors.New("unknown DNS provider by name '" + config.DNSProvider + "'") } // We could pass credentials to create the provider, but for now // just let the solver package get them from the environment prov, err := provFn() if err != nil { return nil, err } // Use the DNS challenge exclusively c.acmeClient.ExcludeChallenges([]acme.Challenge{acme.HTTP01, acme.TLSSNI01}) c.acmeClient.SetChallengeProvider(acme.DNS01, prov) } return c, nil } // Obtain obtains a single certificate for name. It stores the certificate // on the disk if successful. This function is safe for concurrent use. // // Right now our storage mechanism only supports one name per certificate, // so this function (along with Renew and Revoke) only accepts one domain // as input. It can be easily modified to support SAN certificates if our // storage mechanism is upgraded later. // // Callers who have access to a Config value should use the ObtainCert // method on that instead of this lower-level method. func (c *ACMEClient) Obtain(name string) error { // Get access to ACME storage storage, err := c.config.StorageFor(c.config.CAUrl) if err != nil { return err } waiter, err := storage.TryLock(name) if err != nil { return err } if waiter != nil { log.Printf("[INFO] Certificate for %s is already being obtained elsewhere and stored; waiting", name) waiter.Wait() return nil // we assume the process with the lock succeeded, rather than hammering this execution path again } defer func() { if err := storage.Unlock(name); err != nil { log.Printf("[ERROR] Unable to unlock obtain call for %s: %v", name, err) } }() Attempts: for attempts := 0; attempts < 2; attempts++ { namesObtaining.Add([]string{name}) acmeMu.Lock() certificate, failures := c.acmeClient.ObtainCertificate([]string{name}, true, nil, c.config.MustStaple) acmeMu.Unlock() namesObtaining.Remove([]string{name}) if len(failures) > 0 { // Error - try to fix it or report it to the user and abort var errMsg string // we'll combine all the failures into a single error message var promptedForAgreement bool // only prompt user for agreement at most once for errDomain, obtainErr := range failures { if obtainErr == nil { continue } if tosErr, ok := obtainErr.(acme.TOSError); ok { // Terms of Service agreement error; we can probably deal with this if !Agreed && !promptedForAgreement && c.AllowPrompts { Agreed = promptUserAgreement(tosErr.Detail, true) // TODO: Use latest URL promptedForAgreement = true } if Agreed || !c.AllowPrompts { err := c.acmeClient.AgreeToTOS() if err != nil { return errors.New("error agreeing to updated terms: " + err.Error()) } continue Attempts } } // If user did not agree or it was any other kind of error, just append to the list of errors errMsg += "[" + errDomain + "] failed to get certificate: " + obtainErr.Error() + "\n" } return errors.New(errMsg) } // Success - immediately save the certificate resource err = saveCertResource(storage, certificate) if err != nil { return fmt.Errorf("error saving assets for %v: %v", name, err) } break } return nil } // Renew renews the managed certificate for name. This function is // safe for concurrent use. // // Callers who have access to a Config value should use the RenewCert // method on that instead of this lower-level method. func (c *ACMEClient) Renew(name string) error { // Get access to ACME storage storage, err := c.config.StorageFor(c.config.CAUrl) if err != nil { return err } waiter, err := storage.TryLock(name) if err != nil { return err } if waiter != nil { log.Printf("[INFO] Certificate for %s is already being renewed elsewhere and stored; waiting", name) waiter.Wait() return nil // we assume the process with the lock succeeded, rather than hammering this execution path again } defer func() { if err := storage.Unlock(name); err != nil { log.Printf("[ERROR] Unable to unlock renew call for %s: %v", name, err) } }() // Prepare for renewal (load PEM cert, key, and meta) siteData, err := storage.LoadSite(name) if err != nil { return err } var certMeta acme.CertificateResource err = json.Unmarshal(siteData.Meta, &certMeta) certMeta.Certificate = siteData.Cert certMeta.PrivateKey = siteData.Key // Perform renewal and retry if necessary, but not too many times. var newCertMeta acme.CertificateResource var success bool for attempts := 0; attempts < 2; attempts++ { namesObtaining.Add([]string{name}) acmeMu.Lock() newCertMeta, err = c.acmeClient.RenewCertificate(certMeta, true, c.config.MustStaple) acmeMu.Unlock() namesObtaining.Remove([]string{name}) if err == nil { success = true break } // If the legal terms were updated and need to be // agreed to again, we can handle that. if _, ok := err.(acme.TOSError); ok { err := c.acmeClient.AgreeToTOS() if err != nil { return err } continue } // For any other kind of error, wait 10s and try again. wait := 10 * time.Second log.Printf("[ERROR] Renewing: %v; trying again in %s", err, wait) time.Sleep(wait) } if !success { return errors.New("too many renewal attempts; last error: " + err.Error()) } return saveCertResource(storage, newCertMeta) } // Revoke revokes the certificate for name and deltes // it from storage. func (c *ACMEClient) Revoke(name string) error { storage, err := c.config.StorageFor(c.config.CAUrl) if err != nil { return err } siteExists, err := storage.SiteExists(name) if err != nil { return err } if !siteExists { return errors.New("no certificate and key for " + name) } siteData, err := storage.LoadSite(name) if err != nil { return err } err = c.acmeClient.RevokeCertificate(siteData.Cert) if err != nil { return err } err = storage.DeleteSite(name) if err != nil { return errors.New("certificate revoked, but unable to delete certificate file: " + err.Error()) } return nil } // namesObtaining is a set of hostnames with thread-safe // methods. A name should be in this set only while this // package is in the process of obtaining a certificate // for the name. ACME challenges that are received for // names which are not in this set were not initiated by // this package and probably should not be handled by // this package. var namesObtaining = nameCoordinator{names: make(map[string]struct{})} type nameCoordinator struct { names map[string]struct{} mu sync.RWMutex } // Add adds names to c. It is safe for concurrent use. func (c *nameCoordinator) Add(names []string) { c.mu.Lock() for _, name := range names { c.names[strings.ToLower(name)] = struct{}{} } c.mu.Unlock() } // Remove removes names from c. It is safe for concurrent use. func (c *nameCoordinator) Remove(names []string) { c.mu.Lock() for _, name := range names { delete(c.names, strings.ToLower(name)) } c.mu.Unlock() } // Has returns true if c has name. It is safe for concurrent use. func (c *nameCoordinator) Has(name string) bool { hostname, _, err := net.SplitHostPort(name) if err != nil { hostname = name } c.mu.RLock() _, ok := c.names[strings.ToLower(hostname)] c.mu.RUnlock() return ok }