/* * Minio Cloud Storage, (C) 2015, 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" "io/ioutil" "net" "net/http" "net/url" "os" "strings" "regexp" "runtime" "github.com/minio/cli" ) var serverFlags = []cli.Flag{ cli.StringFlag{ Name: "address", Value: ":9000", Usage: `Bind to a specific IP:PORT. Defaults to ":9000".`, }, } var serverCmd = cli.Command{ Name: "server", Usage: "Start object storage server.", Flags: append(serverFlags, globalFlags...), Action: serverMain, CustomHelpTemplate: `NAME: minio {{.Name}} - {{.Usage}} USAGE: minio {{.Name}} [FLAGS] PATH [PATH...] FLAGS: {{range .Flags}}{{.}} {{end}} ENVIRONMENT VARIABLES: ACCESS: MINIO_ACCESS_KEY: Username or access key of 5 to 20 characters in length. MINIO_SECRET_KEY: Password or secret key of 8 to 40 characters in length. EXAMPLES: 1. Start minio server on "/home/shared" directory. $ minio {{.Name}} /home/shared 2. Start minio server bound to a specific IP:PORT. $ minio {{.Name}} --address 192.168.1.101:9000 /home/shared 3. Start erasure coded minio server on a 12 disks server. $ minio {{.Name}} /mnt/export1/ /mnt/export2/ /mnt/export3/ /mnt/export4/ \ /mnt/export5/ /mnt/export6/ /mnt/export7/ /mnt/export8/ /mnt/export9/ \ /mnt/export10/ /mnt/export11/ /mnt/export12/ 4. Start erasure coded distributed minio server on a 4 node setup with 1 drive each. Run following commands on all the 4 nodes. $ export MINIO_ACCESS_KEY=minio $ export MINIO_SECRET_KEY=miniostorage $ minio {{.Name}} http://192.168.1.11/mnt/export/ http://192.168.1.12/mnt/export/ \ http://192.168.1.13/mnt/export/ http://192.168.1.14/mnt/export/ `, } type serverCmdConfig struct { serverAddr string endpoints []*url.URL storageDisks []StorageAPI } // Parse an array of end-points (from the command line) func parseStorageEndpoints(eps []string) (endpoints []*url.URL, err error) { for _, ep := range eps { if ep == "" { return nil, errInvalidArgument } var u *url.URL u, err = url.Parse(ep) if err != nil { return nil, err } if u.Host != "" { _, port, err := net.SplitHostPort(u.Host) // Ignore the missing port error as the default port can be globalMinioPort. if err != nil && !strings.Contains(err.Error(), "missing port in address") { return nil, err } if globalMinioHost == "" { // For ex.: minio server host1:port1 host2:port2... // we return error as port is configurable only // using "--address :port" if port != "" { errorIf(fmt.Errorf("Invalid argument %s, port configurable using --address :", u.Host), "") return nil, errInvalidArgument } u.Host = net.JoinHostPort(u.Host, globalMinioPort) } else { // For ex.: minio server --address host:port host1:port1 host2:port2... // i.e if "--address host:port" is specified // port info in u.Host is mandatory else return error. if port == "" { errorIf(fmt.Errorf("Invalid argument %s, port mandatory when --address : is used", u.Host), "") return nil, errInvalidArgument } } } endpoints = append(endpoints, u) } return endpoints, nil } // getListenIPs - gets all the ips to listen on. func getListenIPs(serverAddr string) (hosts []string, port string, err error) { var host string host, port, err = net.SplitHostPort(serverAddr) if err != nil { return nil, port, fmt.Errorf("Unable to parse host address %s", err) } if host == "" { var ipv4s []net.IP ipv4s, err = getInterfaceIPv4s() if err != nil { return nil, port, fmt.Errorf("Unable reverse sorted ips from hosts %s", err) } for _, ip := range ipv4s { hosts = append(hosts, ip.String()) } return hosts, port, nil } // if host != "" { // Proceed to append itself, since user requested a specific endpoint. hosts = append(hosts, host) return hosts, port, nil } // Finalizes the endpoints based on the host list and port. func finalizeEndpoints(tls bool, apiServer *http.Server) (endPoints []string) { // Verify current scheme. scheme := "http" if tls { scheme = "https" } // Get list of listen ips and port. hosts, port, err := getListenIPs(apiServer.Addr) fatalIf(err, "Unable to get list of ips to listen on") // Construct proper endpoints. for _, host := range hosts { endPoints = append(endPoints, fmt.Sprintf("%s://%s:%s", scheme, host, port)) } // Success. return endPoints } // loadRootCAs fetches CA files provided in minio config and adds them to globalRootCAs // Currently under Windows, there is no way to load system + user CAs at the same time func loadRootCAs() { caFiles := mustGetCAFiles() if len(caFiles) == 0 { return } // Get system cert pool, and empty cert pool under Windows because it is not supported globalRootCAs = mustGetSystemCertPool() // Load custom root CAs for client requests for _, caFile := range mustGetCAFiles() { caCert, err := ioutil.ReadFile(caFile) if err != nil { fatalIf(err, "Unable to load a CA file") } globalRootCAs.AppendCertsFromPEM(caCert) } } // initServerConfig initialize server config. func initServerConfig(c *cli.Context) { // Create certs path. err := createCertsPath() fatalIf(err, "Unable to create \"certs\" directory.") // Load user supplied root CAs loadRootCAs() // When credentials inherited from the env, server cmd has to save them in the disk if os.Getenv("MINIO_ACCESS_KEY") != "" && os.Getenv("MINIO_SECRET_KEY") != "" { // Env credentials are already loaded in serverConfig, just save in the disk err = serverConfig.Save() fatalIf(err, "Unable to save credentials in the disk.") } // Set maxOpenFiles, This is necessary since default operating // system limits of 1024, 2048 are not enough for Minio server. setMaxOpenFiles() // Set maxMemory, This is necessary since default operating // system limits might be changed and we need to make sure we // do not crash the server so the set the maxCacheSize appropriately. setMaxMemory() // Do not fail if this is not allowed, lower limits are fine as well. } // Validate if input disks are sufficient for initializing XL. func checkSufficientDisks(eps []*url.URL) error { // Verify total number of disks. total := len(eps) if total > maxErasureBlocks { return errXLMaxDisks } if total < minErasureBlocks { return errXLMinDisks } // isEven function to verify if a given number if even. isEven := func(number int) bool { return number%2 == 0 } // Verify if we have even number of disks. // only combination of 4, 6, 8, 10, 12, 14, 16 are supported. if !isEven(total) { return errXLNumDisks } // Success. return nil } // Returns if slice of disks is a distributed setup. func isDistributedSetup(eps []*url.URL) bool { // Validate if one the disks is not local. for _, ep := range eps { if !isLocalStorage(ep) { // One or more disks supplied as arguments are // not attached to the local node. return true } } return false } // We just exit for invalid endpoints. func checkEndpointsSyntax(eps []*url.URL, disks []string) { for i, u := range eps { switch u.Scheme { case "", "http", "https": // Scheme is "" for FS and singlenode-XL, hence pass. default: if runtime.GOOS == "windows" { // On windows for "C:\export" scheme will be "C" matched, err := regexp.MatchString("^[a-zA-Z]$", u.Scheme) fatalIf(err, "Parsing scheme : %s (%s)", u.Scheme, disks[i]) if matched { break } } fatalIf(errInvalidArgument, "Invalid scheme : %s (%s)", u.Scheme, disks[i]) } if runtime.GOOS == "windows" { if u.Scheme == "http" || u.Scheme == "https" { // "http://server1/" is not allowed if u.Path == "" || u.Path == "/" || u.Path == "\\" { fatalIf(errInvalidArgument, "Empty path for %s", disks[i]) } } } else { if u.Scheme == "http" || u.Scheme == "https" { // "http://server1/" is not allowed. if u.Path == "" || u.Path == "/" { fatalIf(errInvalidArgument, "Empty path for %s", disks[i]) } } else { // "/" is not allowed. if u.Path == "" || u.Path == "/" { fatalIf(errInvalidArgument, "Empty path for %s", disks[i]) } } } } if err := checkDuplicateEndpoints(eps); err != nil { fatalIf(errInvalidArgument, "Duplicate entries in %s", strings.Join(disks, " ")) } } // Make sure all the command line parameters are OK and exit in case of invalid parameters. func checkServerSyntax(c *cli.Context) { serverAddr := c.String("address") host, portStr, err := net.SplitHostPort(serverAddr) fatalIf(err, "Unable to parse %s.", serverAddr) // Verify syntax for all the XL disks. disks := c.Args() endpoints, err := parseStorageEndpoints(disks) fatalIf(err, "Unable to parse storage endpoints %s", disks) checkEndpointsSyntax(endpoints, disks) if len(endpoints) > 1 { // For XL setup. err = checkSufficientDisks(endpoints) fatalIf(err, "Storage endpoint error.") } if !isDistributedSetup(endpoints) { // for FS and singlenode-XL validation is done, return. return } // Rest of the checks applies only to distributed XL setup. if host != "" { // We are here implies --address host:port is passed, hence the user is trying // to run one minio process per export disk. if portStr == "" { fatalIf(errInvalidArgument, "Port missing, Host:Port should be specified for --address") } foundCnt := 0 for _, ep := range endpoints { if ep.Host == serverAddr { foundCnt++ } } if foundCnt == 0 { // --address host:port should be available in the XL disk list. fatalIf(errInvalidArgument, "%s is not available in %s", serverAddr, strings.Join(disks, " ")) } if foundCnt > 1 { // --address host:port should match exactly one entry in the XL disk list. fatalIf(errInvalidArgument, "%s matches % entries in %s", serverAddr, foundCnt, strings.Join(disks, " ")) } } tls := isSSL() for _, ep := range endpoints { if ep.Scheme == "https" && !tls { // Certificates should be provided for https configuration. fatalIf(errInvalidArgument, "Certificates not provided for https") } } } // serverMain handler called for 'minio server' command. func serverMain(c *cli.Context) { if !c.Args().Present() || c.Args().First() == "help" { cli.ShowCommandHelpAndExit(c, "server", 1) } // Set global variables after parsing passed arguments setGlobalsFromContext(c) checkUpdate() // Generic initialization minioInit() // Server address. serverAddr := c.String("address") // Check if requested port is available. host, portStr, err := net.SplitHostPort(serverAddr) fatalIf(err, "Unable to parse %s.", serverAddr) if portStr == "0" || portStr == "" { // Port zero or empty means use requested to choose any freely available // port. Avoid this since it won't work with any configured clients, // can lead to serious loss of availability. fatalIf(errInvalidArgument, "Invalid port `%s`, please use `--address` to pick a specific port", portStr) } globalMinioHost = host // Check if requested port is available. fatalIf(checkPortAvailability(portStr), "Port unavailable %s", portStr) globalMinioPort = portStr // Check server syntax and exit in case of errors. // Done after globalMinioHost and globalMinioPort is set as parseStorageEndpoints() // depends on it. checkServerSyntax(c) // Disks to be used in server init. endpoints, err := parseStorageEndpoints(c.Args()) fatalIf(err, "Unable to parse storage endpoints %s", c.Args()) storageDisks, err := initStorageDisks(endpoints) fatalIf(err, "Unable to initialize storage disk(s).") // Cleanup objects that weren't successfully written into the namespace. fatalIf(houseKeeping(storageDisks), "Unable to purge temporary files.") // Initialize server config. initServerConfig(c) // First disk argument check if it is local. firstDisk := isLocalStorage(endpoints[0]) // Check if endpoints are part of distributed setup. globalIsDistXL = isDistributedSetup(endpoints) // Configure server. srvConfig := serverCmdConfig{ serverAddr: serverAddr, endpoints: endpoints, storageDisks: storageDisks, } // Configure server. handler, err := configureServerHandler(srvConfig) fatalIf(err, "Unable to configure one of server's RPC services.") // Set nodes for dsync for distributed setup. if globalIsDistXL { fatalIf(initDsyncNodes(endpoints), "Unable to initialize distributed locking") } // Initialize name space lock. initNSLock(globalIsDistXL) // Initialize a new HTTP server. apiServer := NewServerMux(serverAddr, handler) // If https. tls := isSSL() // Fetch endpoints which we are going to serve from. endPoints := finalizeEndpoints(tls, apiServer.Server) // Initialize local server address globalMinioAddr = getLocalAddress(srvConfig) // Initialize S3 Peers inter-node communication initGlobalS3Peers(endpoints) // Start server, automatically configures TLS if certs are available. go func(tls bool) { var lerr error cert, key := "", "" if tls { cert, key = mustGetCertFile(), mustGetKeyFile() } lerr = apiServer.ListenAndServe(cert, key) fatalIf(lerr, "Failed to start minio server.") }(tls) // Wait for formatting of disks. formattedDisks, err := waitForFormatDisks(firstDisk, endpoints, storageDisks) fatalIf(err, "formatting storage disks failed") // Once formatted, initialize object layer. newObject, err := newObjectLayer(formattedDisks) fatalIf(err, "intializing object layer failed") globalObjLayerMutex.Lock() globalObjectAPI = newObject globalObjLayerMutex.Unlock() // Prints the formatted startup message once object layer is initialized. printStartupMessage(endPoints) // Waits on the server. <-globalServiceDoneCh }