package physical import ( "context" "encoding/base64" "fmt" "net/url" "os" "path/filepath" "strconv" "strings" "sync" "time" metrics "github.com/armon/go-metrics" "github.com/coreos/etcd/client" "github.com/coreos/etcd/pkg/transport" log "github.com/mgutz/logxi/v1" ) const ( // Ideally, this prefix would match the "_" used in the file backend, but // that prefix has special meaining in etcd. Specifically, it excludes those // entries from directory listings. Etcd2NodeFilePrefix = "." // The lock prefix can (and probably should) cause an entry to be excluded // from diretory listings, so "_" works here. Etcd2NodeLockPrefix = "_" // The delimiter is the same as the `-C` flag of etcdctl. Etcd2MachineDelimiter = "," // The lock TTL matches the default that Consul API uses, 15 seconds. Etcd2LockTTL = 15 * time.Second // The amount of time to wait between the semaphore key renewals Etcd2LockRenewInterval = 5 * time.Second // The amount of time to wait if a watch fails before trying again. Etcd2WatchRetryInterval = time.Second // The number of times to re-try a failed watch before signaling that leadership is lost. Etcd2WatchRetryMax = 5 ) // Etcd2Backend is a physical backend that stores data at specific // prefix within etcd. It is used for most production situations as // it allows Vault to run on multiple machines in a highly-available manner. type Etcd2Backend struct { path string kAPI client.KeysAPI permitPool *PermitPool logger log.Logger haEnabled bool } func newEtcd2Backend(conf map[string]string, logger log.Logger) (Backend, error) { // Get the etcd path form the configuration. path, ok := conf["path"] if !ok { path = "/vault" } // Ensure path is prefixed. if !strings.HasPrefix(path, "/") { path = "/" + path } c, err := newEtcdV2Client(conf) if err != nil { return nil, err } haEnabled := os.Getenv("ETCD_HA_ENABLED") if haEnabled == "" { haEnabled = conf["ha_enabled"] } if haEnabled == "" { haEnabled = "false" } haEnabledBool, err := strconv.ParseBool(haEnabled) if err != nil { return nil, fmt.Errorf("value [%v] of 'ha_enabled' could not be understood", haEnabled) } // Should we sync the cluster state? There are three available options // for our client library: don't sync (required for some proxies), sync // once, or sync periodically with AutoSync. We currently support the // first two. sync, ok := conf["sync"] if !ok { sync = "yes" } switch sync { case "yes", "true", "y", "1": ctx, cancel := context.WithTimeout(context.Background(), client.DefaultRequestTimeout) syncErr := c.Sync(ctx) cancel() if syncErr != nil { return nil, fmt.Errorf("%s: %s", EtcdSyncClusterError, syncErr) } case "no", "false", "n", "0": default: return nil, fmt.Errorf("value of 'sync' could not be understood") } kAPI := client.NewKeysAPI(c) // Setup the backend. return &Etcd2Backend{ path: path, kAPI: kAPI, permitPool: NewPermitPool(DefaultParallelOperations), logger: logger, haEnabled: haEnabledBool, }, nil } func newEtcdV2Client(conf map[string]string) (client.Client, error) { // Set a default machines list and check for an overriding address value. machines := "http://127.0.0.1:2379" if address, ok := conf["address"]; ok { machines = address } machinesEnv := os.Getenv("ETCD_ADDR") if machinesEnv != "" { machines = machinesEnv } machinesParsed := strings.Split(machines, Etcd2MachineDelimiter) // Verify that the machines are valid URLs for _, machine := range machinesParsed { u, urlErr := url.Parse(machine) if urlErr != nil || u.Scheme == "" { return nil, EtcdAddressError } } // Create a new client from the supplied address and attempt to sync with the // cluster. var cTransport client.CancelableTransport cert, hasCert := conf["tls_cert_file"] key, hasKey := conf["tls_key_file"] ca, hasCa := conf["tls_ca_file"] if (hasCert && hasKey) || hasCa { var transportErr error tls := transport.TLSInfo{ CAFile: ca, CertFile: cert, KeyFile: key, } cTransport, transportErr = transport.NewTransport(tls, 30*time.Second) if transportErr != nil { return nil, transportErr } } else { cTransport = client.DefaultTransport } cfg := client.Config{ Endpoints: machinesParsed, Transport: cTransport, } // Set credentials. username := os.Getenv("ETCD_USERNAME") if username == "" { username, _ = conf["username"] } password := os.Getenv("ETCD_PASSWORD") if password == "" { password, _ = conf["password"] } if username != "" && password != "" { cfg.Username = username cfg.Password = password } return client.New(cfg) } // Put is used to insert or update an entry. func (c *Etcd2Backend) Put(entry *Entry) error { defer metrics.MeasureSince([]string{"etcd", "put"}, time.Now()) value := base64.StdEncoding.EncodeToString(entry.Value) c.permitPool.Acquire() defer c.permitPool.Release() _, err := c.kAPI.Set(context.Background(), c.nodePath(entry.Key), value, nil) return err } // Get is used to fetch an entry. func (c *Etcd2Backend) Get(key string) (*Entry, error) { defer metrics.MeasureSince([]string{"etcd", "get"}, time.Now()) c.permitPool.Acquire() defer c.permitPool.Release() getOpts := &client.GetOptions{ Recursive: false, Sort: false, } response, err := c.kAPI.Get(context.Background(), c.nodePath(key), getOpts) if err != nil { if errorIsMissingKey(err) { return nil, nil } return nil, err } // Decode the stored value from base-64. value, err := base64.StdEncoding.DecodeString(response.Node.Value) if err != nil { return nil, err } // Construct and return a new entry. return &Entry{ Key: key, Value: value, }, nil } // Delete is used to permanently delete an entry. func (c *Etcd2Backend) Delete(key string) error { defer metrics.MeasureSince([]string{"etcd", "delete"}, time.Now()) c.permitPool.Acquire() defer c.permitPool.Release() // Remove the key, non-recursively. delOpts := &client.DeleteOptions{ Recursive: false, } _, err := c.kAPI.Delete(context.Background(), c.nodePath(key), delOpts) if err != nil && !errorIsMissingKey(err) { return err } return nil } // List is used to list all the keys under a given prefix, up to the next // prefix. func (c *Etcd2Backend) List(prefix string) ([]string, error) { defer metrics.MeasureSince([]string{"etcd", "list"}, time.Now()) // Set a directory path from the given prefix. path := c.nodePathDir(prefix) c.permitPool.Acquire() defer c.permitPool.Release() // Get the directory, non-recursively, from etcd. If the directory is // missing, we just return an empty list of contents. getOpts := &client.GetOptions{ Recursive: false, Sort: true, } response, err := c.kAPI.Get(context.Background(), path, getOpts) if err != nil { if errorIsMissingKey(err) { return []string{}, nil } return nil, err } out := make([]string, len(response.Node.Nodes)) for i, node := range response.Node.Nodes { // etcd keys include the full path, so let's trim the prefix directory // path. name := strings.TrimPrefix(node.Key, path) // Check if this node is itself a directory. If it is, add a trailing // slash; if it isn't remove the node file prefix. if node.Dir { out[i] = name + "/" } else { out[i] = name[1:] } } return out, nil } // nodePath returns an etcd filepath based on the given key. func (b *Etcd2Backend) nodePath(key string) string { return filepath.Join(b.path, filepath.Dir(key), Etcd2NodeFilePrefix+filepath.Base(key)) } // nodePathDir returns an etcd directory path based on the given key. func (b *Etcd2Backend) nodePathDir(key string) string { return filepath.Join(b.path, key) + "/" } // nodePathLock returns an etcd directory path used specifically for semaphore // indicies based on the given key. func (b *Etcd2Backend) nodePathLock(key string) string { return filepath.Join(b.path, filepath.Dir(key), Etcd2NodeLockPrefix+filepath.Base(key)+"/") } // Lock is used for mutual exclusion based on the given key. func (c *Etcd2Backend) LockWith(key, value string) (Lock, error) { return &Etcd2Lock{ kAPI: c.kAPI, value: value, semaphoreDirKey: c.nodePathLock(key), }, nil } // HAEnabled indicates whether the HA functionality should be exposed. // Currently always returns true. func (e *Etcd2Backend) HAEnabled() bool { return e.haEnabled } // Etcd2Lock emplements a lock using and Etcd2 backend. type Etcd2Lock struct { kAPI client.KeysAPI value, semaphoreDirKey, semaphoreKey string lock sync.Mutex } // addSemaphoreKey acquires a new ordered semaphore key. func (c *Etcd2Lock) addSemaphoreKey() (string, uint64, error) { // CreateInOrder is an atomic operation that can be used to enqueue a // request onto a semaphore. In the rest of the comments, we refer to the // resulting key as a "semaphore key". // https://coreos.com/etcd/docs/2.0.8/api.html#atomically-creating-in-order-keys opts := &client.CreateInOrderOptions{ TTL: Etcd2LockTTL, } response, err := c.kAPI.CreateInOrder(context.Background(), c.semaphoreDirKey, c.value, opts) if err != nil { return "", 0, err } return response.Node.Key, response.Index, nil } // renewSemaphoreKey renews an existing semaphore key. func (c *Etcd2Lock) renewSemaphoreKey() (string, uint64, error) { setOpts := &client.SetOptions{ TTL: Etcd2LockTTL, PrevExist: client.PrevExist, } response, err := c.kAPI.Set(context.Background(), c.semaphoreKey, c.value, setOpts) if err != nil { return "", 0, err } return response.Node.Key, response.Index, nil } // getSemaphoreKey determines which semaphore key holder has acquired the lock // and its value. func (c *Etcd2Lock) getSemaphoreKey() (string, string, uint64, error) { // Get the list of waiters in order to see if we are next. getOpts := &client.GetOptions{ Recursive: false, Sort: true, } response, err := c.kAPI.Get(context.Background(), c.semaphoreDirKey, getOpts) if err != nil { return "", "", 0, err } // Make sure the list isn't empty. if response.Node.Nodes.Len() == 0 { return "", "", response.Index, nil } return response.Node.Nodes[0].Key, response.Node.Nodes[0].Value, response.Index, nil } // isHeld determines if we are the current holders of the lock. func (c *Etcd2Lock) isHeld() (bool, error) { if c.semaphoreKey == "" { return false, nil } // Get the key of the curren holder of the lock. currentSemaphoreKey, _, _, err := c.getSemaphoreKey() if err != nil { return false, err } return c.semaphoreKey == currentSemaphoreKey, nil } // assertHeld determines whether or not we are the current holders of the lock // and returns an Etcd2LockNotHeldError if we are not. func (c *Etcd2Lock) assertHeld() error { held, err := c.isHeld() if err != nil { return err } // Check if we don't hold the lock. if !held { return EtcdLockNotHeldError } return nil } // assertNotHeld determines whether or not we are the current holders of the // lock and returns an Etcd2LockHeldError if we are. func (c *Etcd2Lock) assertNotHeld() error { held, err := c.isHeld() if err != nil { return err } // Check if we hold the lock. if held { return EtcdLockHeldError } return nil } // periodically renew our semaphore key so that it doesn't expire func (c *Etcd2Lock) periodicallyRenewSemaphoreKey(stopCh chan struct{}) { for { select { case <-time.After(Etcd2LockRenewInterval): c.renewSemaphoreKey() case <-stopCh: return } } } // watchForKeyRemoval continuously watches a single non-directory key starting // from the provided etcd index and closes the provided channel when it's // deleted, expires, or appears to be missing. func (c *Etcd2Lock) watchForKeyRemoval(key string, etcdIndex uint64, closeCh chan struct{}) { retries := Etcd2WatchRetryMax for { // Start a non-recursive watch of the given key. w := c.kAPI.Watcher(key, &client.WatcherOptions{AfterIndex: etcdIndex, Recursive: false}) response, err := w.Next(context.TODO()) if err != nil { // If the key is just missing, we can exit the loop. if errorIsMissingKey(err) { break } // If the error is something else, there's nothing we can do but retry // the watch. Check that we still have retries left. retries -= 1 if retries == 0 { break } // Sleep for a period of time to avoid slamming etcd. time.Sleep(Etcd2WatchRetryInterval) continue } // Check if the key we are concerned with has been removed. If it has, we // can exit the loop. if response.Node.Key == key && (response.Action == "delete" || response.Action == "expire") { break } // Update the etcd index. etcdIndex = response.Index + 1 } // Regardless of what happened, we need to close the close channel. close(closeCh) } // Lock attempts to acquire the lock by waiting for a new semaphore key in etcd // to become the first in the queue and will block until it is successful or // it receives a signal on the provided channel. The returned channel will be // closed when the lock is lost, either by an explicit call to Unlock or by // the associated semaphore key in etcd otherwise being deleted or expiring. // // If the lock is currently held by this instance of Etcd2Lock, Lock will // return an Etcd2LockHeldError error. func (c *Etcd2Lock) Lock(stopCh <-chan struct{}) (doneCh <-chan struct{}, retErr error) { // Get the local lock before interacting with etcd. c.lock.Lock() defer c.lock.Unlock() // Check if the lock is already held. if err := c.assertNotHeld(); err != nil { return nil, err } // Add a new semaphore key that we will track. semaphoreKey, _, err := c.addSemaphoreKey() if err != nil { return nil, err } c.semaphoreKey = semaphoreKey // Get the current semaphore key. currentSemaphoreKey, _, currentEtcdIndex, err := c.getSemaphoreKey() if err != nil { return nil, err } // Create an etcd-compatible boolean stop channel from the provided // interface stop channel. ctx, cancel := context.WithCancel(context.Background()) go func() { <-stopCh cancel() }() defer cancel() // Create a channel to signal when we lose the semaphore key. done := make(chan struct{}) defer func() { if retErr != nil { close(done) } }() go c.periodicallyRenewSemaphoreKey(done) // Loop until the we current semaphore key matches ours. for semaphoreKey != currentSemaphoreKey { var err error // Start a watch of the entire lock directory w := c.kAPI.Watcher(c.semaphoreDirKey, &client.WatcherOptions{AfterIndex: currentEtcdIndex, Recursive: true}) response, err := w.Next(ctx) if err != nil { // If the error is not an etcd error, we can assume it's a notification // of the stop channel having closed. In this scenario, we also want to // remove our semaphore key as we are no longer waiting to acquire the // lock. if _, ok := err.(*client.Error); !ok { delOpts := &client.DeleteOptions{ Recursive: false, } _, err = c.kAPI.Delete(context.Background(), c.semaphoreKey, delOpts) } return nil, err } // Make sure the index we are waiting for has not been removed. If it has, // this is an error and nothing else needs to be done. if response.Node.Key == semaphoreKey && (response.Action == "delete" || response.Action == "expire") { return nil, EtcdSemaphoreKeyRemovedError } // Get the current semaphore key and etcd index. currentSemaphoreKey, _, currentEtcdIndex, err = c.getSemaphoreKey() if err != nil { return nil, err } } go c.watchForKeyRemoval(c.semaphoreKey, currentEtcdIndex, done) return done, nil } // Unlock releases the lock by deleting the associated semaphore key in etcd. // // If the lock is not currently held by this instance of Etcd2Lock, Unlock will // return an Etcd2LockNotHeldError error. func (c *Etcd2Lock) Unlock() error { // Get the local lock before interacting with etcd. c.lock.Lock() defer c.lock.Unlock() // Check that the lock is held. if err := c.assertHeld(); err != nil { return err } // Delete our semaphore key. delOpts := &client.DeleteOptions{ Recursive: false, } if _, err := c.kAPI.Delete(context.Background(), c.semaphoreKey, delOpts); err != nil { return err } return nil } // Value checks whether or not the lock is held by any instance of Etcd2Lock, // including this one, and returns the current value. func (c *Etcd2Lock) Value() (bool, string, error) { semaphoreKey, semaphoreValue, _, err := c.getSemaphoreKey() if err != nil { return false, "", err } if semaphoreKey == "" { return false, "", nil } return true, semaphoreValue, nil } // errorIsMissingKey returns true if the given error is an etcd error with an // error code corresponding to a missing key. func errorIsMissingKey(err error) bool { etcdErr, ok := err.(client.Error) return ok && etcdErr.Code == client.ErrorCodeKeyNotFound }