package consul import ( "bytes" "compress/gzip" "context" "crypto/md5" "encoding/json" "errors" "fmt" "log" "sync" "time" consulapi "github.com/hashicorp/consul/api" multierror "github.com/hashicorp/go-multierror" "github.com/hashicorp/terraform/states/remote" "github.com/hashicorp/terraform/states/statemgr" ) const ( lockSuffix = "/.lock" lockInfoSuffix = "/.lockinfo" // The Session TTL associated with this lock. lockSessionTTL = "15s" // the delay time from when a session is lost to when the // lock is released by the server lockDelay = 5 * time.Second // interval between attempts to reacquire a lost lock lockReacquireInterval = 2 * time.Second ) var lostLockErr = errors.New("consul lock was lost") // RemoteClient is a remote client that stores data in Consul. type RemoteClient struct { Client *consulapi.Client Path string GZip bool mu sync.Mutex // lockState is true if we're using locks lockState bool // The index of the last state we wrote. // If this is > 0, Put will perform a CAS to ensure that the state wasn't // changed during the operation. This is important even with locks, because // if the client loses the lock for some reason, then reacquires it, we // need to make sure that the state was not modified. modifyIndex uint64 consulLock *consulapi.Lock lockCh <-chan struct{} info *statemgr.LockInfo // cancel our goroutine which is monitoring the lock to automatically // reacquire it when possible. monitorCancel context.CancelFunc monitorWG sync.WaitGroup // sessionCancel cancels the Context use for session.RenewPeriodic, and is // called when unlocking, or before creating a new lock if the lock is // lost. sessionCancel context.CancelFunc } func (c *RemoteClient) Get() (*remote.Payload, error) { c.mu.Lock() defer c.mu.Unlock() pair, _, err := c.Client.KV().Get(c.Path, nil) if err != nil { return nil, err } if pair == nil { return nil, nil } c.modifyIndex = pair.ModifyIndex payload := pair.Value // If the payload starts with 0x1f, it's gzip, not json if len(pair.Value) >= 1 && pair.Value[0] == '\x1f' { if data, err := uncompressState(pair.Value); err == nil { payload = data } else { return nil, err } } md5 := md5.Sum(pair.Value) return &remote.Payload{ Data: payload, MD5: md5[:], }, nil } func (c *RemoteClient) Put(data []byte) error { c.mu.Lock() defer c.mu.Unlock() payload := data if c.GZip { if compressedState, err := compressState(data); err == nil { payload = compressedState } else { return err } } kv := c.Client.KV() // default to doing a CAS verb := consulapi.KVCAS // Assume a 0 index doesn't need a CAS for now, since we are either // creating a new state or purposely overwriting one. if c.modifyIndex == 0 { verb = consulapi.KVSet } // KV.Put doesn't return the new index, so we use a single operation // transaction to get the new index with a single request. txOps := consulapi.KVTxnOps{ &consulapi.KVTxnOp{ Verb: verb, Key: c.Path, Value: payload, Index: c.modifyIndex, }, } ok, resp, _, err := kv.Txn(txOps, nil) if err != nil { return err } // transaction was rolled back if !ok { return fmt.Errorf("consul CAS failed with transaction errors: %v", resp.Errors) } if len(resp.Results) != 1 { // this probably shouldn't happen return fmt.Errorf("expected on 1 response value, got: %d", len(resp.Results)) } c.modifyIndex = resp.Results[0].ModifyIndex return nil } func (c *RemoteClient) Delete() error { c.mu.Lock() defer c.mu.Unlock() kv := c.Client.KV() _, err := kv.Delete(c.Path, nil) return err } func (c *RemoteClient) putLockInfo(info *statemgr.LockInfo) error { info.Path = c.Path info.Created = time.Now().UTC() kv := c.Client.KV() _, err := kv.Put(&consulapi.KVPair{ Key: c.Path + lockInfoSuffix, Value: info.Marshal(), }, nil) return err } func (c *RemoteClient) getLockInfo() (*statemgr.LockInfo, error) { path := c.Path + lockInfoSuffix pair, _, err := c.Client.KV().Get(path, nil) if err != nil { return nil, err } if pair == nil { return nil, nil } li := &statemgr.LockInfo{} err = json.Unmarshal(pair.Value, li) if err != nil { return nil, fmt.Errorf("error unmarshaling lock info: %s", err) } return li, nil } func (c *RemoteClient) Lock(info *statemgr.LockInfo) (string, error) { c.mu.Lock() defer c.mu.Unlock() if !c.lockState { return "", nil } c.info = info // These checks only are to ensure we strictly follow the specification. // Terraform shouldn't ever re-lock, so provide errors for the 2 possible // states if this is called. select { case <-c.lockCh: // We had a lock, but lost it. return "", errors.New("lost consul lock, cannot re-lock") default: if c.lockCh != nil { // we have an active lock already return "", fmt.Errorf("state %q already locked", c.Path) } } return c.lock() } // the lock implementation. // Only to be called while holding Client.mu func (c *RemoteClient) lock() (string, error) { // We create a new session here, so it can be canceled when the lock is // lost or unlocked. lockSession, err := c.createSession() if err != nil { return "", err } // store the session ID for correlation with consul logs c.info.Info = "consul session: " + lockSession opts := &consulapi.LockOptions{ Key: c.Path + lockSuffix, Session: lockSession, // only wait briefly, so terraform has the choice to fail fast or // retry as needed. LockWaitTime: time.Second, LockTryOnce: true, // Don't let the lock monitor give up right away, as it's possible the // session is still OK. While the session is refreshed at a rate of // TTL/2, the lock monitor is an idle blocking request and is more // susceptible to being closed by a lower network layer. MonitorRetries: 5, // // The delay between lock monitor retries. // While the session has a 15s TTL plus a 5s wait period on a lost // lock, if we can't get our lock back in 10+ seconds something is // wrong so we're going to drop the session and start over. MonitorRetryTime: 2 * time.Second, } c.consulLock, err = c.Client.LockOpts(opts) if err != nil { return "", err } lockErr := &statemgr.LockError{} lockCh, err := c.consulLock.Lock(make(chan struct{})) if err != nil { lockErr.Err = err return "", lockErr } if lockCh == nil { lockInfo, e := c.getLockInfo() if e != nil { lockErr.Err = e return "", lockErr } lockErr.Info = lockInfo return "", lockErr } c.lockCh = lockCh err = c.putLockInfo(c.info) if err != nil { if unlockErr := c.unlock(c.info.ID); unlockErr != nil { err = multierror.Append(err, unlockErr) } return "", err } // Start a goroutine to monitor the lock state. // If we lose the lock to due communication issues with the consul agent, // attempt to immediately reacquire the lock. Put will verify the integrity // of the state by using a CAS operation. ctx, cancel := context.WithCancel(context.Background()) c.monitorCancel = cancel c.monitorWG.Add(1) go func() { defer c.monitorWG.Done() select { case <-c.lockCh: log.Println("[ERROR] lost consul lock") for { c.mu.Lock() // We lost our lock, so we need to cancel the session too. // The CancelFunc is only replaced while holding Client.mu, so // this is safe to call here. This will be replaced by the // lock() call below. c.sessionCancel() c.consulLock = nil _, err := c.lock() c.mu.Unlock() if err != nil { // We failed to get the lock, keep trying as long as // terraform is running. There may be changes in progress, // so there's no use in aborting. Either we eventually // reacquire the lock, or a Put will fail on a CAS. log.Printf("[ERROR] could not reacquire lock: %s", err) time.Sleep(lockReacquireInterval) select { case <-ctx.Done(): return default: } continue } // if the error was nil, the new lock started a new copy of // this goroutine. return } case <-ctx.Done(): return } }() if testLockHook != nil { testLockHook() } return c.info.ID, nil } // called after a lock is acquired var testLockHook func() func (c *RemoteClient) createSession() (string, error) { // create the context first. Even if the session creation fails, we assume // that the CancelFunc is always callable. ctx, cancel := context.WithCancel(context.Background()) c.sessionCancel = cancel session := c.Client.Session() se := &consulapi.SessionEntry{ Name: consulapi.DefaultLockSessionName, TTL: lockSessionTTL, LockDelay: lockDelay, } id, _, err := session.Create(se, nil) if err != nil { return "", err } log.Println("[INFO] created consul lock session", id) // keep the session renewed go session.RenewPeriodic(lockSessionTTL, id, nil, ctx.Done()) return id, nil } func (c *RemoteClient) Unlock(id string) error { c.mu.Lock() defer c.mu.Unlock() if !c.lockState { return nil } return c.unlock(id) } // the unlock implementation. // Only to be called while holding Client.mu func (c *RemoteClient) unlock(id string) error { // this doesn't use the lock id, because the lock is tied to the consul client. if c.consulLock == nil || c.lockCh == nil { return nil } // cancel our monitoring goroutine c.monitorCancel() defer func() { c.consulLock = nil // The consul session is only used for this single lock, so cancel it // after we unlock. // The session is only created and replaced holding Client.mu, so the // CancelFunc must be non-nil. c.sessionCancel() }() select { case <-c.lockCh: return lostLockErr default: } kv := c.Client.KV() var errs error if _, err := kv.Delete(c.Path+lockInfoSuffix, nil); err != nil { errs = multierror.Append(errs, err) } if err := c.consulLock.Unlock(); err != nil { errs = multierror.Append(errs, err) } // the monitoring goroutine may be in a select on the lockCh, so we need to // wait for it to return before changing the value. c.monitorWG.Wait() c.lockCh = nil // This is only cleanup, and will fail if the lock was immediately taken by // another client, so we don't report an error to the user here. c.consulLock.Destroy() return errs } func compressState(data []byte) ([]byte, error) { b := new(bytes.Buffer) gz := gzip.NewWriter(b) if _, err := gz.Write(data); err != nil { return nil, err } if err := gz.Flush(); err != nil { return nil, err } if err := gz.Close(); err != nil { return nil, err } return b.Bytes(), nil } func uncompressState(data []byte) ([]byte, error) { b := new(bytes.Buffer) gz, err := gzip.NewReader(bytes.NewReader(data)) if err != nil { return nil, err } b.ReadFrom(gz) if err := gz.Close(); err != nil { return nil, err } return b.Bytes(), nil }