package physical import ( "fmt" "path/filepath" "sort" "strings" "sync" "time" "github.com/armon/go-metrics" "github.com/samuel/go-zookeeper/zk" ) const ( // ZKNodeFilePrefix is prefixed to any "files" in ZooKeeper, // so that they do not collide with directory entries. Otherwise, // we cannot delete a file if the path is a full-prefix of another // key. ZKNodeFilePrefix = "_" ) // ZookeeperBackend is a physical backend that stores data at specific // prefix within Zookeeper. It is used in production situations as // it allows Vault to run on multiple machines in a highly-available manner. type ZookeeperBackend struct { path string client *zk.Conn acl []zk.ACL } // newZookeeperBackend constructs a Zookeeper backend using the given API client // and the prefix in the KV store. func newZookeeperBackend(conf map[string]string) (Backend, error) { // Get the path in Zookeeper path, ok := conf["path"] if !ok { path = "vault/" } // Ensure path is suffixed and prefixed (zk requires prefix /) if !strings.HasSuffix(path, "/") { path += "/" } if !strings.HasPrefix(path, "/") { path = "/" + path } // Configure the client, default to localhost instance var machines string machines, ok = conf["address"] if !ok { machines = "localhost:2181" } // zNode owner and schema. var owner string var schema string var schemaAndOwner string schemaAndOwner, ok = conf["znode_owner"] if !ok { owner = "anyone" schema = "world" } else { parsedSchemaAndOwner := strings.SplitN(schemaAndOwner, ":", 2) if len(parsedSchemaAndOwner) != 2 { return nil, fmt.Errorf("znode_owner expected format is 'schema:owner'") } else { schema = parsedSchemaAndOwner[0] owner = parsedSchemaAndOwner[1] // znode_owner is in config and structured correctly - but does it make any sense? // Either 'owner' or 'schema' was set but not both - this seems like a failed attempt // (e.g. ':MyUser' which omit the schema, or ':' omitting both) if owner == "" || schema == "" { return nil, fmt.Errorf("znode_owner expected format is 'schema:auth'") } } } acl := []zk.ACL{{zk.PermAll, schema, owner}} // Authnetication info var schemaAndUser string var useAddAuth bool schemaAndUser, useAddAuth = conf["auth_info"] if useAddAuth { parsedSchemaAndUser := strings.SplitN(schemaAndUser, ":", 2) if len(parsedSchemaAndUser) != 2 { return nil, fmt.Errorf("auth_info expected format is 'schema:auth'") } else { schema = parsedSchemaAndUser[0] owner = parsedSchemaAndUser[1] // auth_info is in config and structured correctly - but does it make any sense? // Either 'owner' or 'schema' was set but not both - this seems like a failed attempt // (e.g. ':MyUser' which omit the schema, or ':' omitting both) if owner == "" || schema == "" { return nil, fmt.Errorf("auth_info expected format is 'schema:auth'") } } } // We have all of the configuration in hand - let's try and connect to ZK client, _, err := zk.Connect(strings.Split(machines, ","), time.Second) if err != nil { return nil, fmt.Errorf("client setup failed: %v", err) } // ZK AddAuth API if the user asked for it if useAddAuth { err = client.AddAuth(schema, []byte(owner)) if err != nil { return nil, fmt.Errorf("Zookeeper rejected authentication information provided at auth_info: %v", err) } } // Setup the backend c := &ZookeeperBackend{ path: path, client: client, acl: acl, } return c, nil } // ensurePath is used to create each node in the path hierarchy. // We avoid calling this optimistically, and invoke it when we get // an error during an operation func (c *ZookeeperBackend) ensurePath(path string, value []byte) error { nodes := strings.Split(path, "/") fullPath := "" for index, node := range nodes { if strings.TrimSpace(node) != "" { fullPath += "/" + node isLastNode := index+1 == len(nodes) // set parent nodes to nil, leaf to value // this block reduces round trips by being smart on the leaf create/set if exists, _, _ := c.client.Exists(fullPath); !isLastNode && !exists { if _, err := c.client.Create(fullPath, nil, int32(0), c.acl); err != nil { return err } } else if isLastNode && !exists { if _, err := c.client.Create(fullPath, value, int32(0), c.acl); err != nil { return err } } else if isLastNode && exists { if _, err := c.client.Set(fullPath, value, int32(-1)); err != nil { return err } } } } return nil } // nodePath returns an etcd filepath based on the given key. func (c *ZookeeperBackend) nodePath(key string) string { return filepath.Join(c.path, filepath.Dir(key), ZKNodeFilePrefix+filepath.Base(key)) } // Put is used to insert or update an entry func (c *ZookeeperBackend) Put(entry *Entry) error { defer metrics.MeasureSince([]string{"zookeeper", "put"}, time.Now()) // Attempt to set the full path fullPath := c.nodePath(entry.Key) _, err := c.client.Set(fullPath, entry.Value, -1) // If we get ErrNoNode, we need to construct the path hierarchy if err == zk.ErrNoNode { return c.ensurePath(fullPath, entry.Value) } return err } // Get is used to fetch an entry func (c *ZookeeperBackend) Get(key string) (*Entry, error) { defer metrics.MeasureSince([]string{"zookeeper", "get"}, time.Now()) // Attempt to read the full path fullPath := c.nodePath(key) value, _, err := c.client.Get(fullPath) // Ignore if the node does not exist if err == zk.ErrNoNode { err = nil } if err != nil { return nil, err } // Handle a non-existing value if value == nil { return nil, nil } ent := &Entry{ Key: key, Value: value, } return ent, nil } // Delete is used to permanently delete an entry func (c *ZookeeperBackend) Delete(key string) error { defer metrics.MeasureSince([]string{"zookeeper", "delete"}, time.Now()) // Delete the full path fullPath := c.nodePath(key) err := c.client.Delete(fullPath, -1) // Mask if the node does not exist if err == zk.ErrNoNode { err = nil } return err } // List is used ot list all the keys under a given // prefix, up to the next prefix. func (c *ZookeeperBackend) List(prefix string) ([]string, error) { defer metrics.MeasureSince([]string{"zookeeper", "list"}, time.Now()) // Query the children at the full path fullPath := strings.TrimSuffix(c.path+prefix, "/") result, _, err := c.client.Children(fullPath) // If the path nodes are missing, no children! if err == zk.ErrNoNode { return []string{}, nil } children := []string{} for _, key := range result { // Check if this entry has any child entries, // and append the slash which is what Vault depends on // for iteration nodeChildren, _, _ := c.client.Children(fullPath + "/" + key) if nodeChildren != nil && len(nodeChildren) > 0 { children = append(children, key+"/") } else { children = append(children, key[1:]) } } sort.Strings(children) return children, nil } // LockWith is used for mutual exclusion based on the given key. func (c *ZookeeperBackend) LockWith(key, value string) (Lock, error) { l := &ZookeeperHALock{ in: c, key: key, value: value, } return l, nil } // ZookeeperHALock is a Zookeeper Lock implementation for the HABackend type ZookeeperHALock struct { in *ZookeeperBackend key string value string held bool localLock sync.Mutex leaderCh chan struct{} zkLock *zk.Lock } func (i *ZookeeperHALock) Lock(stopCh <-chan struct{}) (<-chan struct{}, error) { i.localLock.Lock() defer i.localLock.Unlock() if i.held { return nil, fmt.Errorf("lock already held") } // Attempt an async acquisition didLock := make(chan struct{}) failLock := make(chan error, 1) releaseCh := make(chan bool, 1) lockpath := i.in.nodePath(i.key) go i.attemptLock(lockpath, didLock, failLock, releaseCh) // Wait for lock acquisition, failure, or shutdown select { case <-didLock: releaseCh <- false case err := <-failLock: return nil, err case <-stopCh: releaseCh <- true return nil, nil } // Create the leader channel i.held = true i.leaderCh = make(chan struct{}) // Watch for Events which could result in loss of our zkLock and close(i.leaderCh) currentVal, _, lockeventCh, err := i.in.client.GetW(lockpath) if err != nil { return nil, fmt.Errorf("unable to watch HA lock: %v", err) } if i.value != string(currentVal) { return nil, fmt.Errorf("lost HA lock immediately before watch") } go i.monitorLock(lockeventCh, i.leaderCh) return i.leaderCh, nil } func (i *ZookeeperHALock) attemptLock(lockpath string, didLock chan struct{}, failLock chan error, releaseCh chan bool) { // Wait to acquire the lock in ZK lock := zk.NewLock(i.in.client, lockpath, i.in.acl) err := lock.Lock() if err != nil { failLock <- err return } // Set node value data := []byte(i.value) err = i.in.ensurePath(lockpath, data) if err != nil { failLock <- err lock.Unlock() return } i.zkLock = lock // Signal that lock is held close(didLock) // Handle an early abort release := <-releaseCh if release { lock.Unlock() } } func (i *ZookeeperHALock) monitorLock(lockeventCh <-chan zk.Event, leaderCh chan struct{}) { for { select { case event := <-lockeventCh: // Lost connection? switch event.State { case zk.StateConnected: case zk.StateHasSession: default: close(leaderCh) return } // Lost lock? switch event.Type { case zk.EventNodeChildrenChanged: case zk.EventSession: default: close(leaderCh) return } } } } func (i *ZookeeperHALock) Unlock() error { i.localLock.Lock() defer i.localLock.Unlock() if !i.held { return nil } i.held = false i.zkLock.Unlock() return nil } func (i *ZookeeperHALock) Value() (bool, string, error) { lockpath := i.in.nodePath(i.key) value, _, err := i.in.client.Get(lockpath) return (value != nil), string(value), err }