package nomad import ( "context" "errors" "fmt" "strings" "sync" "time" "github.com/armon/go-metrics" "github.com/hashicorp/consul/api" "github.com/hashicorp/go-hclog" "github.com/hashicorp/nomad/command/agent/consul" "github.com/hashicorp/nomad/helper" "github.com/hashicorp/nomad/nomad/structs" "golang.org/x/sync/errgroup" "golang.org/x/time/rate" ) const ( // siTokenDescriptionFmt is the format for the .Description field of // service identity tokens generated on behalf of Nomad. siTokenDescriptionFmt = "_nomad_si [%s] [%s] [%s]" // siTokenRequestRateLimit is the maximum number of requests per second Nomad // will make against Consul for requesting SI tokens. siTokenRequestRateLimit rate.Limit = 500 // siTokenMaxParallelRevokes is the maximum number of parallel SI token // revocation requests Nomad will make against Consul. siTokenMaxParallelRevokes = 64 // siTokenRevocationInterval is the interval at which SI tokens that failed // initial revocation are retried. siTokenRevocationInterval = 5 * time.Minute ) const ( // configEntriesRequestRateLimit is the maximum number of requests per second // Nomad will make against Consul for operations on global Configuration Entry // objects. configEntriesRequestRateLimit rate.Limit = 10 ) const ( // ConsulPolicyWrite is the literal text of the policy field of a Consul Policy // Rule that we check when validating an Operator Consul token against the // necessary permissions for creating a Service Identity token for a given // service. // // The rule may be: // - service. // - service."*" (wildcard) // - service_prefix. (including empty string) // // e.g. // service "web" { policy = "write" } // service_prefix "" { policy = "write" } ConsulPolicyWrite = "write" // ConsulPolicyRead is the literal text of the policy field of a Consul Policy // Rule that we check when validating a job-submitter Consul token against the // necessary permissions for reading the key-value store. // // The only acceptable rule is // - service_prefix "" { policy = "read|write" } ConsulPolicyRead = "read" ) type ServiceIdentityRequest struct { ConsulNamespace string TaskKind structs.TaskKind TaskName string ClusterID string AllocID string } func (sir ServiceIdentityRequest) Validate() error { switch { case sir.ClusterID == "": return errors.New("cluster id not set") case sir.AllocID == "": return errors.New("alloc id not set") case sir.TaskName == "": return errors.New("task name not set") case sir.TaskKind == "": return errors.New("task kind not set") default: return nil } } func (sir ServiceIdentityRequest) Description() string { return fmt.Sprintf(siTokenDescriptionFmt, sir.ClusterID, sir.AllocID, sir.TaskName) } // ConsulACLsAPI is an abstraction over the consul/api.ACL API used by Nomad // Server. // // ACL requirements // - acl:write (transitive through ACLsAPI) type ConsulACLsAPI interface { // CheckPermissions checks that the given Consul token has the necessary ACL // permissions for each way that Consul is used as indicated by usage, // returning an error if not. CheckPermissions(ctx context.Context, namespace string, usage *structs.ConsulUsage, secretID string) error // Create instructs Consul to create a Service Identity token. CreateToken(context.Context, ServiceIdentityRequest) (*structs.SIToken, error) // RevokeTokens instructs Consul to revoke the given token accessors. RevokeTokens(context.Context, []*structs.SITokenAccessor, bool) bool // MarkForRevocation marks the tokens for background revocation MarkForRevocation([]*structs.SITokenAccessor) // Stop is used to stop background token revocations. Intended to be used // on Nomad Server shutdown. Stop() } // PurgeSITokenAccessorFunc is called to remove SI Token accessors from the // system (i.e. raft). If the function returns an error, the token will still // be tracked and revocation attempts will retry in the background until there // is a success. type PurgeSITokenAccessorFunc func([]*structs.SITokenAccessor) error type SITokenStats struct { TrackedForRevoke int } type consulACLsAPI struct { // aclClient is the API subset of the real consul client we need for // managing Service Identity tokens aclClient consul.ACLsAPI // limiter is used to rate limit requests to consul limiter *rate.Limiter bgRevokeLock sync.Mutex // Track accessors that must have their revocation retried in the background. bgRetryRevocation []*structs.SITokenAccessor // Track whether the background revocations have been stopped, to avoid // creating tokens we would no longer be able to revoke. Expected to be used // on a Server shutdown. bgRevokeStopped bool // purgeFunc is the Nomad Server function that removes the reference to the // SI token accessor from the persistent raft store purgeFunc PurgeSITokenAccessorFunc // stopC is used to signal the client is shutting down and token revocation // background goroutine should stop stopC chan struct{} // logger is used to log messages logger hclog.Logger } func NewConsulACLsAPI(aclClient consul.ACLsAPI, logger hclog.Logger, purgeFunc PurgeSITokenAccessorFunc) *consulACLsAPI { if purgeFunc == nil { purgeFunc = func([]*structs.SITokenAccessor) error { return nil } } c := &consulACLsAPI{ aclClient: aclClient, limiter: rate.NewLimiter(siTokenRequestRateLimit, int(siTokenRequestRateLimit)), stopC: make(chan struct{}), purgeFunc: purgeFunc, logger: logger.Named("consul_acl"), } go c.bgRetryRevokeDaemon() return c } // Stop stops background token revocations from happening. Once stopped, tokens // may no longer be created. func (c *consulACLsAPI) Stop() { c.bgRevokeLock.Lock() defer c.bgRevokeLock.Unlock() c.stopC <- struct{}{} c.bgRevokeStopped = true } func (c *consulACLsAPI) readToken(ctx context.Context, secretID string) (*api.ACLToken, error) { defer metrics.MeasureSince([]string{"nomad", "consul", "read_token"}, time.Now()) if id := strings.TrimSpace(secretID); !helper.IsUUID(id) { return nil, errors.New("missing consul token") } // Ensure we are under our rate limit. if err := c.limiter.Wait(ctx); err != nil { return nil, fmt.Errorf("unable to read consul token: %w", err) } consulToken, _, err := c.aclClient.TokenReadSelf(&api.QueryOptions{ AllowStale: false, Token: secretID, }) if err != nil { return nil, fmt.Errorf("unable to read consul token: %w", err) } return consulToken, nil } func (c *consulACLsAPI) CheckPermissions(ctx context.Context, namespace string, usage *structs.ConsulUsage, secretID string) error { // consul not used, nothing to check if !usage.Used() { return nil } // lookup the token from consul token, readErr := c.readToken(ctx, secretID) if readErr != nil { return readErr } // if the token is a global-management token, it has unrestricted privileges if c.isManagementToken(token) { return nil } // if the token cannot possibly be used to act on objects in the desired // namespace, reject it immediately if err := namespaceCheck(namespace, token); err != nil { return err } // verify token has keystore read permission, if using template if usage.KV { allowable, err := c.canReadKeystore(namespace, token) if err != nil { return err } else if !allowable { return errors.New("insufficient Consul ACL permissions to use template") } } // verify token has service write permission for group+task services for _, service := range usage.Services { allowable, err := c.canWriteService(namespace, service, token) if err != nil { return err } else if !allowable { return fmt.Errorf("insufficient Consul ACL permissions to write service %q", service) } } // verify token has service identity permission for connect services for _, kind := range usage.Kinds { service := kind.Value() allowable, err := c.canWriteService(namespace, service, token) if err != nil { return err } else if !allowable { return fmt.Errorf("insufficient Consul ACL permissions to write Connect service %q", service) } } return nil } func (c *consulACLsAPI) CreateToken(ctx context.Context, sir ServiceIdentityRequest) (*structs.SIToken, error) { defer metrics.MeasureSince([]string{"nomad", "consul", "create_token"}, time.Now()) // make sure the background token revocations have not been stopped c.bgRevokeLock.Lock() stopped := c.bgRevokeStopped c.bgRevokeLock.Unlock() if stopped { return nil, errors.New("client stopped and may no longer create tokens") } // Check the metadata for the token we want if err := sir.Validate(); err != nil { return nil, err } // the SI token created must be for the service, not the sidecar of the service // https://www.consul.io/docs/acl/acl-system.html#acl-service-identities service := sir.TaskKind.Value() partial := &api.ACLToken{ Description: sir.Description(), ServiceIdentities: []*api.ACLServiceIdentity{{ServiceName: service}}, Namespace: sir.ConsulNamespace, Local: true, } // Ensure we are under our rate limit. if err := c.limiter.Wait(ctx); err != nil { return nil, err } token, _, err := c.aclClient.TokenCreate(partial, nil) if err != nil { return nil, err } return &structs.SIToken{ ConsulNamespace: token.Namespace, AccessorID: token.AccessorID, SecretID: token.SecretID, TaskName: sir.TaskName, }, nil } // RevokeTokens revokes the passed set of SI token accessors. If committed is set, // the client's purge function is called (which purges the tokens from the Server's // persistent store). If there is an error purging either because of Consul failures // or because of the purge function, the revocation is retried in the background. // // The revocation of an SI token accessor is idempotent. // // A return value of true indicates one or more accessors were stored for // a revocation retry attempt in the background (intended for tests). func (c *consulACLsAPI) RevokeTokens(ctx context.Context, accessors []*structs.SITokenAccessor, committed bool) bool { defer metrics.MeasureSince([]string{"nomad", "consul", "revoke_tokens"}, time.Now()) nTokens := float32(len(accessors)) if err := c.parallelRevoke(ctx, accessors); err != nil { // If these tokens were uncommitted into raft, it is a best effort to // revoke them now. If this immediate revocation does not work, Nomad loses // track of them and will need to do a brute reconciliation later. This // should happen rarely, and will be implemented soon. if !committed { metrics.IncrCounter([]string{"nomad", "consul", "undistributed_si_tokens_abandoned"}, nTokens) } c.logger.Warn("failed to revoke tokens, will reattempt later", "error", err) c.storeForRevocation(accessors) return true } if !committed { // Un-committed tokens were revoked without incident (nothing to purge) metrics.IncrCounter([]string{"nomad", "consul", "undistributed_si_tokens_revoked"}, nTokens) return false } // Committed tokens were revoked without incident, now purge them if err := c.purgeFunc(accessors); err != nil { c.logger.Error("failed to purge SI token accessors", "error", err) c.storeForRevocation(accessors) return true } // Track that the SI tokens were revoked and purged successfully metrics.IncrCounter([]string{"nomad", "consul", "distributed_si_tokens_revoked"}, nTokens) return false } func (c *consulACLsAPI) MarkForRevocation(accessors []*structs.SITokenAccessor) { c.storeForRevocation(accessors) } func (c *consulACLsAPI) storeForRevocation(accessors []*structs.SITokenAccessor) { c.bgRevokeLock.Lock() defer c.bgRevokeLock.Unlock() // copy / append the set of accessors we must track for revocation in the // background c.bgRetryRevocation = append(c.bgRetryRevocation, accessors...) } func (c *consulACLsAPI) parallelRevoke(ctx context.Context, accessors []*structs.SITokenAccessor) error { g, pCtx := errgroup.WithContext(ctx) // Cap the handlers handlers := len(accessors) if handlers > siTokenMaxParallelRevokes { handlers = siTokenMaxParallelRevokes } // Revoke the SI Token Accessors input := make(chan *structs.SITokenAccessor, handlers) for i := 0; i < handlers; i++ { g.Go(func() error { for { select { case accessor, ok := <-input: if !ok { return nil } if err := c.singleRevoke(ctx, accessor); err != nil { return fmt.Errorf( "failed to revoke SI token accessor (alloc %q, node %q, task %q): %w", accessor.AllocID, accessor.NodeID, accessor.TaskName, err, ) } case <-pCtx.Done(): return nil } } }) } // Send the input go func() { defer close(input) for _, accessor := range accessors { select { case <-pCtx.Done(): return case input <- accessor: } } }() // Wait for everything to complete return g.Wait() } func (c *consulACLsAPI) singleRevoke(ctx context.Context, accessor *structs.SITokenAccessor) error { c.logger.Trace("revoke SI token", "task", accessor.TaskName, "alloc_id", accessor.AllocID, "node_id", accessor.NodeID) // Ensure we are under our rate limit. if err := c.limiter.Wait(ctx); err != nil { return err } // Consul will no-op the deletion of a non-existent token (no error) _, err := c.aclClient.TokenDelete(accessor.AccessorID, &api.WriteOptions{Namespace: accessor.ConsulNamespace}) return err } func (c *consulACLsAPI) bgRetryRevokeDaemon() { ticker := time.NewTicker(siTokenRevocationInterval) defer ticker.Stop() for { select { case <-c.stopC: return case <-ticker.C: c.bgRetryRevoke() } } } // maxConsulRevocationBatchSize is the maximum tokens a bgRetryRevoke should revoke // at any given time. const maxConsulRevocationBatchSize = 1000 func (c *consulACLsAPI) bgRetryRevoke() { c.bgRevokeLock.Lock() defer c.bgRevokeLock.Unlock() // fast path, nothing to do if len(c.bgRetryRevocation) == 0 { return } // unlike vault tokens, SI tokens do not have a TTL, and so we must try to // remove all SI token accessors, every time, until they're gone toRevoke := len(c.bgRetryRevocation) if toRevoke > maxConsulRevocationBatchSize { toRevoke = maxConsulRevocationBatchSize } toPurge := make([]*structs.SITokenAccessor, toRevoke) copy(toPurge, c.bgRetryRevocation) if err := c.parallelRevoke(context.Background(), toPurge); err != nil { c.logger.Warn("background SI token revocation failed", "error", err) return } // Call the revocation function if err := c.purgeFunc(toPurge); err != nil { // Just try again later (revocation is idempotent) c.logger.Error("background SI token purge failed", "error", err) return } // Track that the SI tokens were revoked successfully nTokens := float32(len(toPurge)) metrics.IncrCounter([]string{"nomad", "consul", "distributed_tokens_revoked"}, nTokens) // Reset the list of accessors to retry, since we just removed them all. c.bgRetryRevocation = nil } func (c *consulACLsAPI) ListTokens() ([]string, error) { // defer metrics.MeasureSince([]string{"nomad", "consul", "list_tokens"}, time.Now()) return nil, errors.New("not yet implemented") } // purgeSITokenAccessors is the Nomad Server method which will remove the set // of SI token accessors from the persistent raft store. func (s *Server) purgeSITokenAccessors(accessors []*structs.SITokenAccessor) error { // Commit this update via Raft request := structs.SITokenAccessorsRequest{Accessors: accessors} _, _, err := s.raftApply(structs.ServiceIdentityAccessorDeregisterRequestType, request) return err } // ConsulConfigsAPI is an abstraction over the consul/api.ConfigEntries API used by // Nomad Server. // // Nomad will only perform write operations on Consul Ingress/Terminating Gateway // Configuration Entries. Removing the entries is not yet safe, given that multiple // Nomad clusters may be writing to the same config entries, which are global in // the Consul scope. There was a Meta field introduced which Nomad can leverage // in the future, when Consul no longer supports versions that do not contain the // field. The Meta field would be used to track which Nomad "owns" the CE. // https://github.com/hashicorp/nomad/issues/8971 type ConsulConfigsAPI interface { // SetIngressCE adds the given ConfigEntry to Consul, overwriting // the previous entry if set. SetIngressCE(ctx context.Context, namespace, service string, entry *structs.ConsulIngressConfigEntry) error // SetTerminatingCE adds the given ConfigEntry to Consul, overwriting // the previous entry if set. SetTerminatingCE(ctx context.Context, namespace, service string, entry *structs.ConsulTerminatingConfigEntry) error // Stop is used to stop additional creations of Configuration Entries. Intended to // be used on Nomad Server shutdown. Stop() } type consulConfigsAPI struct { // configsClient is the API subset of the real Consul client we need for // managing Configuration Entries. configsClient consul.ConfigAPI // limiter is used to rate limit requests to Consul limiter *rate.Limiter // logger is used to log messages logger hclog.Logger // lock protects the stopped flag, which prevents use of the consul configs API // client after shutdown. lock sync.Mutex stopped bool } func NewConsulConfigsAPI(configsClient consul.ConfigAPI, logger hclog.Logger) *consulConfigsAPI { return &consulConfigsAPI{ configsClient: configsClient, limiter: rate.NewLimiter(configEntriesRequestRateLimit, int(configEntriesRequestRateLimit)), logger: logger, } } func (c *consulConfigsAPI) Stop() { c.lock.Lock() defer c.lock.Unlock() c.stopped = true } func (c *consulConfigsAPI) SetIngressCE(ctx context.Context, namespace, service string, entry *structs.ConsulIngressConfigEntry) error { return c.setCE(ctx, convertIngressCE(namespace, service, entry)) } func (c *consulConfigsAPI) SetTerminatingCE(ctx context.Context, namespace, service string, entry *structs.ConsulTerminatingConfigEntry) error { return c.setCE(ctx, convertTerminatingCE(namespace, service, entry)) } // setCE will set the Configuration Entry of any type Consul supports. func (c *consulConfigsAPI) setCE(ctx context.Context, entry api.ConfigEntry) error { defer metrics.MeasureSince([]string{"nomad", "consul", "create_config_entry"}, time.Now()) // make sure the background deletion goroutine has not been stopped c.lock.Lock() stopped := c.stopped c.lock.Unlock() if stopped { return errors.New("client stopped and may not longer create config entries") } // ensure we are under our wait limit if err := c.limiter.Wait(ctx); err != nil { return err } _, _, err := c.configsClient.Set(entry, &api.WriteOptions{Namespace: entry.GetNamespace()}) return err } func convertIngressCE(namespace, service string, entry *structs.ConsulIngressConfigEntry) api.ConfigEntry { var listeners []api.IngressListener = nil for _, listener := range entry.Listeners { var services []api.IngressService = nil for _, s := range listener.Services { services = append(services, api.IngressService{ Name: s.Name, Hosts: helper.CopySliceString(s.Hosts), }) } listeners = append(listeners, api.IngressListener{ Port: listener.Port, Protocol: listener.Protocol, Services: services, }) } tlsEnabled := false if entry.TLS != nil && entry.TLS.Enabled { tlsEnabled = true } return &api.IngressGatewayConfigEntry{ Namespace: namespace, Kind: api.IngressGateway, Name: service, TLS: api.GatewayTLSConfig{Enabled: tlsEnabled}, Listeners: listeners, } } func convertTerminatingCE(namespace, service string, entry *structs.ConsulTerminatingConfigEntry) api.ConfigEntry { var linked []api.LinkedService = nil for _, s := range entry.Services { linked = append(linked, api.LinkedService{ Name: s.Name, CAFile: s.CAFile, CertFile: s.CertFile, KeyFile: s.KeyFile, SNI: s.SNI, }) } return &api.TerminatingGatewayConfigEntry{ Namespace: namespace, Kind: api.TerminatingGateway, Name: service, Services: linked, } }