/* * Minio Cloud Storage, (C) 2014-2016 Minio, 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 cmd import ( "fmt" "path" "sync" "time" "github.com/minio/minio-go/pkg/set" ) type s3Peers struct { // A map of peer server address (in `host:port` format) to RPC // client connections. rpcClients map[string]*AuthRPCClient mutex *sync.RWMutex // Slice of all peer addresses (in `host:port` format). peers []string } func initGlobalS3Peers(disks []string) { // Get list of de-duplicated peers. peers := getAllPeers(disks) // Initialize global state. globalS3Peers = s3Peers{ rpcClients: make(map[string]*AuthRPCClient), mutex: &sync.RWMutex{}, } // Initialize each peer connection. for _, peer := range peers { globalS3Peers.InitS3PeerClient(peer) } // Additionally setup a local peer if one does not exist. if globalS3Peers.GetPeerClient(globalMinioAddr) == nil { globalS3Peers.InitS3PeerClient(globalMinioAddr) peers = append(peers, globalMinioAddr) } globalS3Peers.peers = peers } func (s3p *s3Peers) GetPeers() []string { return s3p.peers } func (s3p *s3Peers) GetPeerClient(peer string) *AuthRPCClient { // Take a read lock s3p.mutex.RLock() defer s3p.mutex.RUnlock() return s3p.rpcClients[peer] } // Initializes a new RPC connection (or closes and re-opens if it // already exists) to a peer. Note that peer address is in `host:port` // format. func (s3p *s3Peers) InitS3PeerClient(peer string) { // Take a write lock s3p.mutex.Lock() defer s3p.mutex.Unlock() if s3p.rpcClients[peer] != nil { _ = s3p.rpcClients[peer].Close() delete(s3p.rpcClients, peer) } authCfg := &authConfig{ accessKey: serverConfig.GetCredential().AccessKeyID, secretKey: serverConfig.GetCredential().SecretAccessKey, address: peer, path: path.Join(reservedBucket, s3Path), loginMethod: "S3.LoginHandler", } s3p.rpcClients[peer] = newAuthClient(authCfg) } func (s3p *s3Peers) Close() error { // Take a write lock s3p.mutex.Lock() defer s3p.mutex.Unlock() for _, v := range s3p.rpcClients { if err := v.Close(); err != nil { return err } } s3p.rpcClients = nil s3p.peers = nil return nil } // returns the network addresses of all Minio servers in the cluster // in `host:port` format. func getAllPeers(disks []string) []string { res := []string{} // use set to de-duplicate sset := set.NewStringSet() for _, disk := range disks { netAddr, _, err := splitNetPath(disk) if err != nil || netAddr == "" { errorIf(err, "Unexpected error - most likely a bug.") continue } if !sset.Contains(netAddr) { res = append( res, fmt.Sprintf("%s:%d", netAddr, globalMinioPort), ) sset.Add(netAddr) } } return res } // Make RPC calls with the given method and arguments to all the given // peers (in parallel), and collects the results. Since the methods // intended for use here, have only a success or failure response, we // do not return/inspect the `reply` parameter in the RPC call. The // function attempts to connect to a peer only once, and returns a map // of peer address to error response. If the error is nil, it means // the RPC succeeded. func (s3p *s3Peers) SendRPC(peers []string, method string, args interface { SetToken(token string) SetTimestamp(tstamp time.Time) }) map[string]error { // Take read lock for rpcClient map s3p.mutex.RLock() defer s3p.mutex.RUnlock() // Result type type callResult struct { target string err error } // Channel to collect results from goroutines resChan := make(chan callResult) // Closure to make a single request. callTarget := func(target string) { reply := &GenericReply{} client, ok := s3p.rpcClients[target] var err error if !ok { err = fmt.Errorf("Requested client was not initialized - %v", target) } else { err = client.Call(method, args, reply) } resChan <- callResult{target, err} } // Map of errors errsMap := make(map[string]error) // make network calls in parallel for _, target := range peers { go callTarget(target) } // Wait on channel and collect all results for range peers { res := <-resChan if res.err != nil { errsMap[res.target] = res.err } } // Return errors map return errsMap } // S3PeersUpdateBucketNotification - Sends Update Bucket notification // request to all peers. Currently we log an error and continue. func S3PeersUpdateBucketNotification(bucket string, ncfg *notificationConfig) { setBNPArgs := &SetBNPArgs{Bucket: bucket, NCfg: ncfg} peers := globalS3Peers.GetPeers() errsMap := globalS3Peers.SendRPC(peers, "S3.SetBucketNotificationPeer", setBNPArgs) for peer, err := range errsMap { errorIf(err, "Error sending peer update bucket notification to %s - %v", peer, err) } } // S3PeersUpdateBucketListener - Sends Update Bucket listeners request // to all peers. Currently we log an error and continue. func S3PeersUpdateBucketListener(bucket string, lcfg []listenerConfig) { setBLPArgs := &SetBLPArgs{Bucket: bucket, LCfg: lcfg} peers := globalS3Peers.GetPeers() errsMap := globalS3Peers.SendRPC(peers, "S3.SetBucketListenerPeer", setBLPArgs) for peer, err := range errsMap { errorIf(err, "Error sending peer update bucket listener to %s - %v", peer, err) } } // S3PeersUpdateBucketPolicy - Sends update bucket policy request to // all peers. Currently we log an error and continue. func S3PeersUpdateBucketPolicy(bucket string, pCh policyChange) { setBPPArgs := &SetBPPArgs{Bucket: bucket, PCh: pCh} peers := globalS3Peers.GetPeers() errsMap := globalS3Peers.SendRPC(peers, "S3.SetBucketPolicyPeer", setBPPArgs) for peer, err := range errsMap { errorIf(err, "Error sending peer update bucket policy to %s - %v", peer, err) } }