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auth.go
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auth.go
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/*
Copyright 2015 Gravitational, Inc.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
// Package auth implements certificate signing authority and access control server
// Authority server is composed of several parts:
//
// * Authority server itself that implements signing and acl logic
// * HTTP server wrapper for authority server
// * HTTP client wrapper
//
package auth
import (
"context"
"crypto/x509"
"fmt"
"math/rand"
"net/url"
"sync"
"time"
"github.com/gravitational/teleport"
"github.com/gravitational/teleport/lib/backend"
"github.com/gravitational/teleport/lib/defaults"
"github.com/gravitational/teleport/lib/events"
"github.com/gravitational/teleport/lib/services"
"github.com/gravitational/teleport/lib/services/local"
"github.com/gravitational/teleport/lib/sshca"
"github.com/gravitational/teleport/lib/sshutils"
"github.com/gravitational/teleport/lib/tlsca"
"github.com/gravitational/teleport/lib/utils"
"github.com/coreos/go-oidc/oauth2"
"github.com/coreos/go-oidc/oidc"
"github.com/gravitational/trace"
"github.com/jonboulle/clockwork"
saml2 "github.com/russellhaering/gosaml2"
"github.com/tstranex/u2f"
)
// AuthServerOption allows setting options as functional arguments to AuthServer
type AuthServerOption func(*AuthServer)
// NewAuthServer creates and configures a new AuthServer instance
func NewAuthServer(cfg *InitConfig, opts ...AuthServerOption) (*AuthServer, error) {
if cfg.Trust == nil {
cfg.Trust = local.NewCAService(cfg.Backend)
}
if cfg.ClusterName == nil {
return nil, trace.BadParameter("missing parameter ClusterName")
}
if cfg.Presence == nil {
cfg.Presence = local.NewPresenceService(cfg.Backend)
}
if cfg.Provisioner == nil {
cfg.Provisioner = local.NewProvisioningService(cfg.Backend)
}
if cfg.Identity == nil {
cfg.Identity = local.NewIdentityService(cfg.Backend)
}
if cfg.Access == nil {
cfg.Access = local.NewAccessService(cfg.Backend)
}
if cfg.ClusterConfiguration == nil {
cfg.ClusterConfiguration = local.NewClusterConfigurationService(cfg.Backend)
}
if cfg.AuditLog == nil {
cfg.AuditLog = events.NewDiscardAuditLog()
}
closeCtx, cancelFunc := context.WithCancel(context.TODO())
as := AuthServer{
clusterName: cfg.ClusterName,
bk: cfg.Backend,
Authority: cfg.Authority,
Trust: cfg.Trust,
Presence: cfg.Presence,
Provisioner: cfg.Provisioner,
Identity: cfg.Identity,
Access: cfg.Access,
AuthServiceName: cfg.AuthServiceName,
ClusterConfiguration: cfg.ClusterConfiguration,
IAuditLog: cfg.AuditLog,
oidcClients: make(map[string]*oidcClient),
samlProviders: make(map[string]*samlProvider),
githubClients: make(map[string]*githubClient),
cancelFunc: cancelFunc,
closeCtx: closeCtx,
}
for _, o := range opts {
o(&as)
}
if as.clock == nil {
as.clock = clockwork.NewRealClock()
}
if !cfg.SkipPeriodicOperations {
log.Infof("Auth server is running periodic operations.")
go as.runPeriodicOperations()
} else {
log.Infof("Auth server is skipping periodic operations.")
}
return &as, nil
}
// AuthServer keeps the cluster together. It acts as a certificate authority (CA) for
// a cluster and:
// - generates the keypair for the node it's running on
// - invites other SSH nodes to a cluster, by issuing invite tokens
// - adds other SSH nodes to a cluster, by checking their token and signing their keys
// - same for users and their sessions
// - checks public keys to see if they're signed by it (can be trusted or not)
type AuthServer struct {
lock sync.Mutex
oidcClients map[string]*oidcClient
samlProviders map[string]*samlProvider
githubClients map[string]*githubClient
clock clockwork.Clock
bk backend.Backend
closeCtx context.Context
cancelFunc context.CancelFunc
sshca.Authority
// AuthServiceName is a human-readable name of this CA. If several Auth services are running
// (managing multiple teleport clusters) this field is used to tell them apart in UIs
// It usually defaults to the hostname of the machine the Auth service runs on.
AuthServiceName string
services.Trust
services.Presence
services.Provisioner
services.Identity
services.Access
services.ClusterConfiguration
events.IAuditLog
clusterName services.ClusterName
// privateKey is used in tests to use pre-generated private keys
privateKey []byte
}
// runPeriodicOperations runs some periodic bookkeeping operations
// performed by auth server
func (a *AuthServer) runPeriodicOperations() {
// run periodic functions with a semi-random period
// to avoid contention on the database in case if there are multiple
// auth servers running - so they don't compete trying
// to update the same resources.
r := rand.New(rand.NewSource(a.GetClock().Now().UnixNano()))
period := defaults.HighResPollingPeriod + time.Duration(r.Intn(int(defaults.HighResPollingPeriod/time.Second)))*time.Second
log.Debugf("Ticking with period: %v.", period)
ticker := time.NewTicker(period)
defer ticker.Stop()
for {
select {
case <-a.closeCtx.Done():
return
case <-ticker.C:
err := a.autoRotateCertAuthorities()
if err != nil {
if trace.IsCompareFailed(err) {
log.Debugf("Cert authority has been updated concurrently: %v.", err)
} else {
log.Errorf("Failed to perform cert rotation check: %v.", err)
}
}
}
}
}
func (a *AuthServer) Close() error {
a.cancelFunc()
if a.bk != nil {
return trace.Wrap(a.bk.Close())
}
return nil
}
func (a *AuthServer) GetClock() clockwork.Clock {
a.lock.Lock()
defer a.lock.Unlock()
return a.clock
}
// SetClock sets clock, used in tests
func (a *AuthServer) SetClock(clock clockwork.Clock) {
a.lock.Lock()
defer a.lock.Unlock()
a.clock = clock
}
// SetAuditLog sets the server's audit log
func (a *AuthServer) SetAuditLog(auditLog events.IAuditLog) {
a.IAuditLog = auditLog
}
// GetClusterName returns the domain name that identifies this authority server.
// Also known as "cluster name"
func (a *AuthServer) GetClusterName() (services.ClusterName, error) {
return a.clusterName, nil
}
// GetDomainName returns the domain name that identifies this authority server.
// Also known as "cluster name"
func (a *AuthServer) GetDomainName() (string, error) {
return a.clusterName.GetClusterName(), nil
}
// GenerateHostCert uses the private key of the CA to sign the public key of the host
// (along with meta data like host ID, node name, roles, and ttl) to generate a host certificate.
func (s *AuthServer) GenerateHostCert(hostPublicKey []byte, hostID, nodeName string, principals []string, clusterName string, roles teleport.Roles, ttl time.Duration) ([]byte, error) {
domainName, err := s.GetDomainName()
if err != nil {
return nil, trace.Wrap(err)
}
// get the certificate authority that will be signing the public key of the host
ca, err := s.Trust.GetCertAuthority(services.CertAuthID{
Type: services.HostCA,
DomainName: domainName,
}, true)
if err != nil {
return nil, trace.BadParameter("failed to load host CA for '%s': %v", domainName, err)
}
// get the private key of the certificate authority
caPrivateKey, err := ca.FirstSigningKey()
if err != nil {
return nil, trace.Wrap(err)
}
// create and sign!
return s.Authority.GenerateHostCert(services.HostCertParams{
PrivateCASigningKey: caPrivateKey,
PublicHostKey: hostPublicKey,
HostID: hostID,
NodeName: nodeName,
Principals: principals,
ClusterName: clusterName,
Roles: roles,
TTL: ttl,
})
}
// certs is a pair of SSH and TLS certificates
type certs struct {
// ssh is PEM encoded SSH certificate
ssh []byte
// tls is PEM encoded TLS certificate
tls []byte
}
type certRequest struct {
// user is a user to generate certificate for
user services.User
// roles is a list of user roles with rendered variables
roles services.AccessChecker
// ttl is Duration of the certificate
ttl time.Duration
// publicKey is RSA public key in authorized_keys format
publicKey []byte
// compatibility is compatibility mode
compatibility string
// overrideRoleTTL is used for requests when the requested TTL should not be
// adjusted based off the role of the user. This is used by tctl to allow
// creating long lived user certs.
overrideRoleTTL bool
}
// GenerateUserCerts is used to generate user certificate, used internally for tests
func (a *AuthServer) GenerateUserCerts(key []byte, username string, ttl time.Duration, compatibility string) ([]byte, []byte, error) {
user, err := a.GetUser(username)
if err != nil {
return nil, nil, trace.Wrap(err)
}
checker, err := services.FetchRoles(user.GetRoles(), a, user.GetTraits())
if err != nil {
return nil, nil, trace.Wrap(err)
}
certs, err := a.generateUserCert(certRequest{
user: user,
roles: checker,
ttl: ttl,
compatibility: compatibility,
publicKey: key,
})
if err != nil {
return nil, nil, trace.Wrap(err)
}
return certs.ssh, certs.tls, nil
}
// generateUserCert generates user certificates
func (s *AuthServer) generateUserCert(req certRequest) (*certs, error) {
// reuse the same RSA keys for SSH and TLS keys
cryptoPubKey, err := sshutils.CryptoPublicKey(req.publicKey)
if err != nil {
return nil, trace.Wrap(err)
}
// extract the passed in certificate format. if nothing was passed in, fetch
// the certificate format from the role.
certificateFormat, err := utils.CheckCertificateFormatFlag(req.compatibility)
if err != nil {
return nil, trace.Wrap(err)
}
if certificateFormat == teleport.CertificateFormatUnspecified {
certificateFormat = req.roles.CertificateFormat()
}
var sessionTTL time.Duration
var allowedLogins []string
// If the role TTL is ignored, do not restrict session TTL and allowed logins.
// The only caller setting this parameter should be "tctl auth sign".
// Otherwise set the session TTL to the smallest of all roles and
// then only grant access to allowed logins based on that.
if req.overrideRoleTTL {
// Take whatever was passed in. Pass in 0 to CheckLoginDuration so all
// logins are returned for the role set.
sessionTTL = req.ttl
allowedLogins, err = req.roles.CheckLoginDuration(0)
if err != nil {
return nil, trace.Wrap(err)
}
} else {
// Adjust session TTL to the smaller of two values: the session TTL
// requested in tsh or the session TTL for the role.
sessionTTL = req.roles.AdjustSessionTTL(req.ttl)
// Return a list of logins that meet the session TTL limit. This means if
// the requested session TTL is larger than the max session TTL for a login,
// that login will not be included in the list of allowed logins.
allowedLogins, err = req.roles.CheckLoginDuration(sessionTTL)
if err != nil {
return nil, trace.Wrap(err)
}
}
clusterName, err := s.GetDomainName()
if err != nil {
return nil, trace.Wrap(err)
}
ca, err := s.Trust.GetCertAuthority(services.CertAuthID{
Type: services.UserCA,
DomainName: clusterName,
}, true)
if err != nil {
return nil, trace.Wrap(err)
}
privateKey, err := ca.FirstSigningKey()
if err != nil {
return nil, trace.Wrap(err)
}
sshCert, err := s.Authority.GenerateUserCert(services.UserCertParams{
PrivateCASigningKey: privateKey,
PublicUserKey: req.publicKey,
Username: req.user.GetName(),
AllowedLogins: allowedLogins,
TTL: sessionTTL,
Roles: req.user.GetRoles(),
CertificateFormat: certificateFormat,
PermitPortForwarding: req.roles.CanPortForward(),
PermitAgentForwarding: req.roles.CanForwardAgents(),
})
if err != nil {
return nil, trace.Wrap(err)
}
// CHANGE IN (2.7.0) Use user CA and not host CA here,
// currently host CA is used for backwards compatibility,
// because pre 2.6.0 remote clusters did not have TLS CA
// in user certificate authorities.
userCA, err := s.Trust.GetCertAuthority(services.CertAuthID{
Type: services.HostCA,
DomainName: clusterName,
}, true)
if err != nil {
return nil, trace.Wrap(err)
}
// generate TLS certificate
tlsAuthority, err := userCA.TLSCA()
if err != nil {
return nil, trace.Wrap(err)
}
identity := tlsca.Identity{
Username: req.user.GetName(),
Groups: req.roles.RoleNames(),
}
certRequest := tlsca.CertificateRequest{
Clock: s.clock,
PublicKey: cryptoPubKey,
Subject: identity.Subject(),
NotAfter: s.clock.Now().UTC().Add(req.ttl),
}
tlsCert, err := tlsAuthority.GenerateCertificate(certRequest)
if err != nil {
return nil, trace.Wrap(err)
}
return &certs{ssh: sshCert, tls: tlsCert}, nil
}
// WithUserLock executes function authenticateFn that performs user authentication
// if authenticateFn returns non nil error, the login attempt will be logged in as failed.
// The only exception to this rule is ConnectionProblemError, in case if it occurs
// access will be denied, but login attempt will not be recorded
// this is done to avoid potential user lockouts due to backend failures
// In case if user exceeds defaults.MaxLoginAttempts
// the user account will be locked for defaults.AccountLockInterval
func (s *AuthServer) WithUserLock(username string, authenticateFn func() error) error {
user, err := s.Identity.GetUser(username)
if err != nil {
return trace.Wrap(err)
}
status := user.GetStatus()
if status.IsLocked && status.LockExpires.After(s.clock.Now().UTC()) {
return trace.AccessDenied("%v exceeds %v failed login attempts, locked until %v",
user.GetName(), defaults.MaxLoginAttempts, utils.HumanTimeFormat(status.LockExpires))
}
fnErr := authenticateFn()
if fnErr == nil {
// upon successful login, reset the failed attempt counter
err = s.DeleteUserLoginAttempts(username)
if !trace.IsNotFound(err) {
return trace.Wrap(err)
}
return nil
}
// do not lock user in case if DB is flaky or down
if trace.IsConnectionProblem(err) {
return trace.Wrap(fnErr)
}
// log failed attempt and possibly lock user
attempt := services.LoginAttempt{Time: s.clock.Now().UTC(), Success: false}
err = s.AddUserLoginAttempt(username, attempt, defaults.AttemptTTL)
if err != nil {
log.Error(trace.DebugReport(err))
return trace.Wrap(fnErr)
}
loginAttempts, err := s.Identity.GetUserLoginAttempts(username)
if err != nil {
log.Error(trace.DebugReport(err))
return trace.Wrap(fnErr)
}
if !services.LastFailed(defaults.MaxLoginAttempts, loginAttempts) {
log.Debugf("%v user has less than %v failed login attempts", username, defaults.MaxLoginAttempts)
return trace.Wrap(fnErr)
}
lockUntil := s.clock.Now().UTC().Add(defaults.AccountLockInterval)
message := fmt.Sprintf("%v exceeds %v failed login attempts, locked until %v",
username, defaults.MaxLoginAttempts, utils.HumanTimeFormat(status.LockExpires))
log.Debug(message)
user.SetLocked(lockUntil, "user has exceeded maximum failed login attempts")
err = s.Identity.UpsertUser(user)
if err != nil {
log.Error(trace.DebugReport(err))
return trace.Wrap(fnErr)
}
return trace.AccessDenied(message)
}
// PreAuthenticatedSignIn is for 2-way authentication methods like U2F where the password is
// already checked before issuing the second factor challenge
func (s *AuthServer) PreAuthenticatedSignIn(user string) (services.WebSession, error) {
sess, err := s.NewWebSession(user)
if err != nil {
return nil, trace.Wrap(err)
}
if err := s.UpsertWebSession(user, sess); err != nil {
return nil, trace.Wrap(err)
}
return sess.WithoutSecrets(), nil
}
func (s *AuthServer) U2FSignRequest(user string, password []byte) (*u2f.SignRequest, error) {
cap, err := s.GetAuthPreference()
if err != nil {
return nil, trace.Wrap(err)
}
universalSecondFactor, err := cap.GetU2F()
if err != nil {
return nil, trace.Wrap(err)
}
err = s.WithUserLock(user, func() error {
return s.CheckPasswordWOToken(user, password)
})
if err != nil {
return nil, trace.Wrap(err)
}
registration, err := s.GetU2FRegistration(user)
if err != nil {
return nil, trace.Wrap(err)
}
challenge, err := u2f.NewChallenge(universalSecondFactor.AppID, universalSecondFactor.Facets)
if err != nil {
return nil, trace.Wrap(err)
}
err = s.UpsertU2FSignChallenge(user, challenge)
if err != nil {
return nil, trace.Wrap(err)
}
u2fSignReq := challenge.SignRequest(*registration)
return u2fSignReq, nil
}
func (s *AuthServer) CheckU2FSignResponse(user string, response *u2f.SignResponse) error {
// before trying to register a user, see U2F is actually setup on the backend
cap, err := s.GetAuthPreference()
if err != nil {
return trace.Wrap(err)
}
_, err = cap.GetU2F()
if err != nil {
return trace.Wrap(err)
}
reg, err := s.GetU2FRegistration(user)
if err != nil {
return trace.Wrap(err)
}
counter, err := s.GetU2FRegistrationCounter(user)
if err != nil {
return trace.Wrap(err)
}
challenge, err := s.GetU2FSignChallenge(user)
if err != nil {
return trace.Wrap(err)
}
newCounter, err := reg.Authenticate(*response, *challenge, counter)
if err != nil {
return trace.Wrap(err)
}
err = s.UpsertU2FRegistrationCounter(user, newCounter)
if err != nil {
return trace.Wrap(err)
}
return nil
}
// ExtendWebSession creates a new web session for a user based on a valid previous sessionID,
// method is used to renew the web session for a user
func (s *AuthServer) ExtendWebSession(user string, prevSessionID string) (services.WebSession, error) {
prevSession, err := s.GetWebSession(user, prevSessionID)
if err != nil {
return nil, trace.Wrap(err)
}
// consider absolute expiry time that may be set for this session
// by some external identity serivce, so we can not renew this session
// any more without extra logic for renewal with external OIDC provider
expiresAt := prevSession.GetExpiryTime()
if !expiresAt.IsZero() && expiresAt.Before(s.clock.Now().UTC()) {
return nil, trace.NotFound("web session has expired")
}
sess, err := s.NewWebSession(user)
if err != nil {
return nil, trace.Wrap(err)
}
sess.SetExpiryTime(expiresAt)
bearerTokenTTL := utils.MinTTL(utils.ToTTL(s.clock, expiresAt), BearerTokenTTL)
sess.SetBearerTokenExpiryTime(s.clock.Now().UTC().Add(bearerTokenTTL))
if err := s.UpsertWebSession(user, sess); err != nil {
return nil, trace.Wrap(err)
}
sess, err = services.GetWebSessionMarshaler().ExtendWebSession(sess)
if err != nil {
return nil, trace.Wrap(err)
}
return sess, nil
}
// CreateWebSession creates a new web session for user without any
// checks, is used by admins
func (s *AuthServer) CreateWebSession(user string) (services.WebSession, error) {
sess, err := s.NewWebSession(user)
if err != nil {
return nil, trace.Wrap(err)
}
if err := s.UpsertWebSession(user, sess); err != nil {
return nil, trace.Wrap(err)
}
sess, err = services.GetWebSessionMarshaler().GenerateWebSession(sess)
if err != nil {
return nil, trace.Wrap(err)
}
return sess, nil
}
// GenerateTokenRequest is a request to generate auth token
type GenerateTokenRequest struct {
// Token if provided sets the token value, otherwise will be auto generated
Token string `json:"token"`
// Roles is a list of roles this token authenticates as
Roles teleport.Roles `json:"roles"`
// TTL is a time to live for token
TTL time.Duration `json:"ttl"`
}
// CheckAndSetDefaults checks and sets default values of request
func (req *GenerateTokenRequest) CheckAndSetDefaults() error {
for _, role := range req.Roles {
if err := role.Check(); err != nil {
return trace.Wrap(err)
}
}
if req.Token == "" {
token, err := utils.CryptoRandomHex(TokenLenBytes)
if err != nil {
return trace.Wrap(err)
}
req.Token = token
}
return nil
}
// GenerateToken generates multi-purpose authentication token
func (s *AuthServer) GenerateToken(req GenerateTokenRequest) (string, error) {
if err := req.CheckAndSetDefaults(); err != nil {
return "", trace.Wrap(err)
}
if err := s.Provisioner.UpsertToken(req.Token, req.Roles, req.TTL); err != nil {
return "", trace.Wrap(err)
}
return req.Token, nil
}
// ClientCertPool returns trusted x509 cerificate authority pool
func (s *AuthServer) ClientCertPool() (*x509.CertPool, error) {
pool := x509.NewCertPool()
var authorities []services.CertAuthority
hostCAs, err := s.GetCertAuthorities(services.HostCA, false)
if err != nil {
return nil, trace.Wrap(err)
}
userCAs, err := s.GetCertAuthorities(services.UserCA, false)
if err != nil {
return nil, trace.Wrap(err)
}
authorities = append(authorities, hostCAs...)
authorities = append(authorities, userCAs...)
for _, auth := range authorities {
for _, keyPair := range auth.GetTLSKeyPairs() {
cert, err := tlsca.ParseCertificatePEM(keyPair.Cert)
if err != nil {
return nil, trace.Wrap(err)
}
pool.AddCert(cert)
}
}
return pool, nil
}
// HostFQDN consits of host UUID and cluster name joined via .
func HostFQDN(hostUUID, clusterName string) string {
return fmt.Sprintf("%v.%v", hostUUID, clusterName)
}
// GenerateServerKeysRequest is a request to generate server keys
type GenerateServerKeysRequest struct {
// HostID is a unique ID of the host
HostID string `json:"host_id"`
// NodeName is a user friendly host name
NodeName string `json:"node_name"`
// Roles is a list of roles assigned to node
Roles teleport.Roles `json:"roles"`
// AdditionalPrincipals is a list of additional principals
// to include in OpenSSH and X509 certificates
AdditionalPrincipals []string `json:"additional_principals"`
}
// CheckAndSetDefaults checks and sets default values
func (req *GenerateServerKeysRequest) CheckAndSetDefaults() error {
if req.HostID == "" {
return trace.BadParameter("missing parameter HostID")
}
if len(req.Roles) != 1 {
return trace.BadParameter("expected only one system role, got %v", len(req.Roles))
}
return nil
}
// GenerateServerKeys generates new host private keys and certificates (signed
// by the host certificate authority) for a node.
func (s *AuthServer) GenerateServerKeys(req GenerateServerKeysRequest) (*PackedKeys, error) {
if err := req.CheckAndSetDefaults(); err != nil {
return nil, trace.Wrap(err)
}
// generate private key
privateKeyPEM, pubSSHKey, err := s.GenerateKeyPair("")
if err != nil {
return nil, trace.Wrap(err)
}
// reuse the same RSA keys for SSH and TLS keys
cryptoPubKey, err := sshutils.CryptoPublicKey(pubSSHKey)
if err != nil {
return nil, trace.Wrap(err)
}
// get the certificate authority that will be signing the public key of the host
ca, err := s.Trust.GetCertAuthority(services.CertAuthID{
Type: services.HostCA,
DomainName: s.clusterName.GetClusterName(),
}, true)
if err != nil {
return nil, trace.BadParameter("failed to load host CA for '%s': %v", s.clusterName, err)
}
tlsAuthority, err := ca.TLSCA()
if err != nil {
return nil, trace.Wrap(err)
}
// get the private key of the certificate authority
caPrivateKey, err := ca.FirstSigningKey()
if err != nil {
return nil, trace.Wrap(err)
}
// generate hostSSH certificate
hostSSHCert, err := s.Authority.GenerateHostCert(services.HostCertParams{
PrivateCASigningKey: caPrivateKey,
PublicHostKey: pubSSHKey,
HostID: req.HostID,
NodeName: req.NodeName,
ClusterName: s.clusterName.GetClusterName(),
Roles: req.Roles,
Principals: append([]string{}, req.AdditionalPrincipals...),
})
if err != nil {
return nil, trace.Wrap(err)
}
// generate host TLS certificate
identity := tlsca.Identity{
Username: HostFQDN(req.HostID, s.clusterName.GetClusterName()),
Groups: req.Roles.StringSlice(),
}
certRequest := tlsca.CertificateRequest{
Clock: s.clock,
PublicKey: cryptoPubKey,
Subject: identity.Subject(),
NotAfter: s.clock.Now().UTC().Add(defaults.CATTL),
DNSNames: append([]string{}, req.AdditionalPrincipals...),
}
// HTTPS requests need to specify DNS name that should be present in the
// certificate as one of the DNS Names. It is not known in advance,
// that is why there is a default one for all certificates
if req.Roles.Include(teleport.RoleAuth) || req.Roles.Include(teleport.RoleAdmin) {
certRequest.DNSNames = append(certRequest.DNSNames, teleport.APIDomain)
}
hostTLSCert, err := tlsAuthority.GenerateCertificate(certRequest)
if err != nil {
return nil, trace.Wrap(err)
}
return &PackedKeys{
Key: privateKeyPEM,
Cert: hostSSHCert,
TLSCert: hostTLSCert,
TLSCACerts: services.TLSCerts(ca),
}, nil
}
// ValidateToken takes a provisioning token value and finds if it's valid. Returns
// a list of roles this token allows its owner to assume, or an error if the token
// cannot be found.
func (s *AuthServer) ValidateToken(token string) (roles teleport.Roles, e error) {
tkns, err := s.GetStaticTokens()
if err != nil {
return nil, trace.Wrap(err)
}
// First check if the token is a static token. If it is, return right away.
// Static tokens have no expiration.
for _, st := range tkns.GetStaticTokens() {
if st.Token == token {
return st.Roles, nil
}
}
// If it's not a static token, check if it's a ephemeral token in the backend.
// If a ephemeral token is found, make sure it's still valid.
tok, err := s.Provisioner.GetToken(token)
if err != nil {
return nil, trace.Wrap(err)
}
if !s.checkTokenTTL(tok) {
return nil, trace.AccessDenied("token expired")
}
return tok.Roles, nil
}
// checkTokenTTL checks if the token is still valid. If it is not, the token
// is removed from the backend and returns false. Otherwise returns true.
func (s *AuthServer) checkTokenTTL(tok *services.ProvisionToken) bool {
now := s.clock.Now().UTC()
if tok.Expires.Before(now) {
err := s.DeleteToken(tok.Token)
if err != nil {
if !trace.IsNotFound(err) {
log.Warnf("Unable to delete token from backend: %v.", err)
}
}
return false
}
return true
}
// RegisterUsingTokenRequest is a request to register with
// auth server using authentication token
type RegisterUsingTokenRequest struct {
// HostID is a unique host ID, usually a UUID
HostID string `json:"hostID"`
// NodeName is a node name
NodeName string `json:"node_name"`
// Role is a system role, e.g. Proxy
Role teleport.Role `json:"role"`
// Token is an authentication token
Token string `json:"token"`
// AdditionalPrincipals is a list of additional principals
AdditionalPrincipals []string `json:"additional_principals"`
}
// CheckAndSetDefaults checks for errors and sets defaults
func (r *RegisterUsingTokenRequest) CheckAndSetDefaults() error {
if r.HostID == "" {
return trace.BadParameter("missing parameter HostID")
}
if r.Token == "" {
return trace.BadParameter("missing parameter Token")
}
if err := r.Role.Check(); err != nil {
return trace.Wrap(err)
}
return nil
}
// RegisterUsingToken adds a new node to the Teleport cluster using previously issued token.
// A node must also request a specific role (and the role must match one of the roles
// the token was generated for).
//
// If a token was generated with a TTL, it gets enforced (can't register new nodes after TTL expires)
// If a token was generated with a TTL=0, it means it's a single-use token and it gets destroyed
// after a successful registration.
func (s *AuthServer) RegisterUsingToken(req RegisterUsingTokenRequest) (*PackedKeys, error) {
log.Infof("Node %q [%v] is trying to join with role: %v.", req.NodeName, req.HostID, req.Role)
if err := req.CheckAndSetDefaults(); err != nil {
return nil, trace.Wrap(err)
}
// make sure the token is valid
roles, err := s.ValidateToken(req.Token)
if err != nil {
msg := fmt.Sprintf("%q [%v] can not join the cluster with role %s, token error: %v", req.NodeName, req.HostID, req.Role, err)
log.Warn(msg)
return nil, trace.AccessDenied(msg)
}
// make sure the caller is requested the role allowed by the token
if !roles.Include(req.Role) {
msg := fmt.Sprintf("node %q [%v] can not join the cluster, the token does not allow %q role", req.NodeName, req.HostID, req.Role)
log.Warn(msg)
return nil, trace.BadParameter(msg)
}
// generate and return host certificate and keys
keys, err := s.GenerateServerKeys(GenerateServerKeysRequest{
HostID: req.HostID,
NodeName: req.NodeName,
Roles: teleport.Roles{req.Role},
AdditionalPrincipals: req.AdditionalPrincipals,
})
if err != nil {
return nil, trace.Wrap(err)
}
log.Infof("Node %q [%v] has joined the cluster.", req.NodeName, req.HostID)
return keys, nil
}
func (s *AuthServer) RegisterNewAuthServer(token string) error {
tok, err := s.Provisioner.GetToken(token)
if err != nil {
return trace.Wrap(err)
}
if !tok.Roles.Include(teleport.RoleAuth) {
return trace.AccessDenied("role does not match")
}
if err := s.DeleteToken(token); err != nil {
return trace.Wrap(err)
}
return nil
}
func (s *AuthServer) DeleteToken(token string) (err error) {
tkns, err := s.GetStaticTokens()
if err != nil {
return trace.Wrap(err)
}
// is this a static token?
for _, st := range tkns.GetStaticTokens() {
if st.Token == token {
return trace.BadParameter("token %s is statically configured and cannot be removed", token)
}
}
// delete user token:
if err = s.Identity.DeleteSignupToken(token); err == nil {
return nil
}
// delete node token:
if err = s.Provisioner.DeleteToken(token); err == nil {
return nil
}
return trace.Wrap(err)
}
// GetTokens returns all tokens (machine provisioning ones and user invitation tokens). Machine
// tokens usually have "node roles", like auth,proxy,node and user invitation tokens have 'signup' role
func (s *AuthServer) GetTokens() (tokens []services.ProvisionToken, err error) {
// get node tokens:
tokens, err = s.Provisioner.GetTokens()
if err != nil {
return nil, trace.Wrap(err)
}
// get static tokens:
tkns, err := s.GetStaticTokens()
if err != nil && !trace.IsNotFound(err) {
return nil, trace.Wrap(err)
}
if err == nil {
tokens = append(tokens, tkns.GetStaticTokens()...)
}
// get user tokens:
userTokens, err := s.Identity.GetSignupTokens()
if err != nil {
return nil, trace.Wrap(err)
}
// convert user tokens to machine tokens:
for _, t := range userTokens {
roles := teleport.Roles{teleport.RoleSignup}
tokens = append(tokens, services.ProvisionToken{
Token: t.Token,
Expires: t.Expires,
Roles: roles,
})
}
return tokens, nil
}
func (s *AuthServer) NewWebSession(username string) (services.WebSession, error) {
user, err := s.GetUser(username)
if err != nil {
return nil, trace.Wrap(err)
}
roles, err := services.FetchRoles(user.GetRoles(), s.Access, user.GetTraits())
if err != nil {
return nil, trace.Wrap(err)
}
priv, pub, err := s.GetNewKeyPairFromPool()
if err != nil {
return nil, trace.Wrap(err)
}
sessionTTL := roles.AdjustSessionTTL(defaults.CertDuration)
certs, err := s.generateUserCert(certRequest{
user: user,
roles: roles,
ttl: sessionTTL,
publicKey: pub,
})
if err != nil {