// Copyright (c) 2015-2023 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "context" "encoding/hex" "errors" "fmt" "io" "log" "math/rand" "net" "os" "os/signal" "runtime" "strings" "sync" "syscall" "time" "github.com/coreos/go-systemd/v22/daemon" "github.com/minio/cli" "github.com/minio/madmin-go/v2" "github.com/minio/minio-go/v7" "github.com/minio/minio-go/v7/pkg/credentials" "github.com/minio/minio-go/v7/pkg/set" "github.com/minio/minio/internal/auth" "github.com/minio/minio/internal/bucket/bandwidth" "github.com/minio/minio/internal/color" "github.com/minio/minio/internal/config" "github.com/minio/minio/internal/handlers" "github.com/minio/minio/internal/hash/sha256" xhttp "github.com/minio/minio/internal/http" "github.com/minio/minio/internal/logger" "github.com/minio/pkg/certs" "github.com/minio/pkg/env" ) // ServerFlags - server command specific flags var ServerFlags = []cli.Flag{ cli.StringFlag{ Name: "address", Value: ":" + GlobalMinioDefaultPort, Usage: "bind to a specific ADDRESS:PORT, ADDRESS can be an IP or hostname", EnvVar: "MINIO_ADDRESS", }, cli.IntFlag{ Name: "listeners", // Deprecated Oct 2022 Value: 1, Usage: "bind N number of listeners per ADDRESS:PORT", EnvVar: "MINIO_LISTENERS", Hidden: true, }, cli.StringFlag{ Name: "console-address", Usage: "bind to a specific ADDRESS:PORT for embedded Console UI, ADDRESS can be an IP or hostname", EnvVar: "MINIO_CONSOLE_ADDRESS", }, cli.DurationFlag{ Name: "shutdown-timeout", Value: xhttp.DefaultShutdownTimeout, Usage: "shutdown timeout to gracefully shutdown server", EnvVar: "MINIO_SHUTDOWN_TIMEOUT", Hidden: true, }, cli.DurationFlag{ Name: "idle-timeout", Value: xhttp.DefaultIdleTimeout, Usage: "idle timeout is the maximum amount of time to wait for the next request when keep-alives are enabled", EnvVar: "MINIO_IDLE_TIMEOUT", Hidden: true, }, cli.DurationFlag{ Name: "read-header-timeout", Value: xhttp.DefaultReadHeaderTimeout, Usage: "read header timeout is the amount of time allowed to read request headers", EnvVar: "MINIO_READ_HEADER_TIMEOUT", Hidden: true, }, cli.DurationFlag{ Name: "conn-read-deadline", Usage: "custom connection READ deadline", Hidden: true, Value: 10 * time.Minute, EnvVar: "MINIO_CONN_READ_DEADLINE", }, cli.DurationFlag{ Name: "conn-write-deadline", Usage: "custom connection WRITE deadline", Hidden: true, Value: 10 * time.Minute, EnvVar: "MINIO_CONN_WRITE_DEADLINE", }, cli.DurationFlag{ Name: "conn-user-timeout", Usage: "custom TCP_USER_TIMEOUT for socket buffers", Hidden: true, Value: 10 * time.Minute, EnvVar: "MINIO_CONN_USER_TIMEOUT", }, cli.StringFlag{ Name: "interface", Usage: "bind to right VRF device for MinIO services", Hidden: true, EnvVar: "MINIO_INTERFACE", }, cli.StringSliceFlag{ Name: "ftp", Usage: "enable and configure an FTP(Secure) server", }, cli.StringSliceFlag{ Name: "sftp", Usage: "enable and configure an SFTP server", }, } var gatewayCmd = cli.Command{ Name: "gateway", Usage: "start object storage gateway", Hidden: true, Flags: append(ServerFlags, GlobalFlags...), HideHelpCommand: true, Action: gatewayMain, } func gatewayMain(ctx *cli.Context) error { logger.Fatal(errInvalidArgument, "Gateway is deprecated, To continue to use Gateway please use releases no later than 'RELEASE.2022-10-24T18-35-07Z'. We recommend all our users to migrate from gateway mode to server mode. Please read https://blog.min.io/deprecation-of-the-minio-gateway/") return nil } var serverCmd = cli.Command{ Name: "server", Usage: "start object storage server", Flags: append(ServerFlags, GlobalFlags...), Action: serverMain, CustomHelpTemplate: `NAME: {{.HelpName}} - {{.Usage}} USAGE: {{.HelpName}} {{if .VisibleFlags}}[FLAGS] {{end}}DIR1 [DIR2..] {{.HelpName}} {{if .VisibleFlags}}[FLAGS] {{end}}DIR{1...64} {{.HelpName}} {{if .VisibleFlags}}[FLAGS] {{end}}DIR{1...64} DIR{65...128} DIR: DIR points to a directory on a filesystem. When you want to combine multiple drives into a single large system, pass one directory per filesystem separated by space. You may also use a '...' convention to abbreviate the directory arguments. Remote directories in a distributed setup are encoded as HTTP(s) URIs. {{if .VisibleFlags}} FLAGS: {{range .VisibleFlags}}{{.}} {{end}}{{end}} EXAMPLES: 1. Start MinIO server on "/home/shared" directory. {{.Prompt}} {{.HelpName}} /home/shared 2. Start single node server with 64 local drives "/mnt/data1" to "/mnt/data64". {{.Prompt}} {{.HelpName}} /mnt/data{1...64} 3. Start distributed MinIO server on an 32 node setup with 32 drives each, run following command on all the nodes {{.Prompt}} {{.HelpName}} http://node{1...32}.example.com/mnt/export{1...32} 4. Start distributed MinIO server in an expanded setup, run the following command on all the nodes {{.Prompt}} {{.HelpName}} http://node{1...16}.example.com/mnt/export{1...32} \ http://node{17...64}.example.com/mnt/export{1...64} 5. Start distributed MinIO server, with FTP and SFTP servers on all interfaces via port 8021, 8022 respectively {{.Prompt}} {{.HelpName}} http://node{1...4}.example.com/mnt/export{1...4} \ --ftp="address=:8021" --ftp="passive-port-range=30000-40000" \ --sftp="address=:8022" --sftp="ssh-private-key=${HOME}/.ssh/id_rsa" `, } func serverCmdArgs(ctx *cli.Context) []string { v, _, _, err := env.LookupEnv(config.EnvArgs) if err != nil { logger.FatalIf(err, "Unable to validate passed arguments in %s:%s", config.EnvArgs, os.Getenv(config.EnvArgs)) } if v == "" { v, _, _, err = env.LookupEnv(config.EnvVolumes) if err != nil { logger.FatalIf(err, "Unable to validate passed arguments in %s:%s", config.EnvVolumes, os.Getenv(config.EnvVolumes)) } } if v == "" { // Fall back to older environment value MINIO_ENDPOINTS v, _, _, err = env.LookupEnv(config.EnvEndpoints) if err != nil { logger.FatalIf(err, "Unable to validate passed arguments in %s:%s", config.EnvEndpoints, os.Getenv(config.EnvEndpoints)) } } if v == "" { if !ctx.Args().Present() || ctx.Args().First() == "help" { cli.ShowCommandHelpAndExit(ctx, ctx.Command.Name, 1) } return ctx.Args() } return strings.Fields(v) } func serverHandleCmdArgs(ctx *cli.Context) { // Handle common command args. handleCommonCmdArgs(ctx) logger.FatalIf(CheckLocalServerAddr(globalMinioAddr), "Unable to validate passed arguments") var err error var setupType SetupType // Check and load TLS certificates. globalPublicCerts, globalTLSCerts, globalIsTLS, err = getTLSConfig() logger.FatalIf(err, "Unable to load the TLS configuration") // Check and load Root CAs. globalRootCAs, err = certs.GetRootCAs(globalCertsCADir.Get()) logger.FatalIf(err, "Failed to read root CAs (%v)", err) // Add the global public crts as part of global root CAs for _, publicCrt := range globalPublicCerts { globalRootCAs.AddCert(publicCrt) } // Register root CAs for remote ENVs env.RegisterGlobalCAs(globalRootCAs) globalEndpoints, setupType, err = createServerEndpoints(globalMinioAddr, serverCmdArgs(ctx)...) logger.FatalIf(err, "Invalid command line arguments") globalLocalNodeName = GetLocalPeer(globalEndpoints, globalMinioHost, globalMinioPort) nodeNameSum := sha256.Sum256([]byte(globalLocalNodeNameHex)) globalLocalNodeNameHex = hex.EncodeToString(nodeNameSum[:]) globalRemoteEndpoints = make(map[string]Endpoint) for _, z := range globalEndpoints { for _, ep := range z.Endpoints { if ep.IsLocal { globalRemoteEndpoints[globalLocalNodeName] = ep } else { globalRemoteEndpoints[ep.Host] = ep } } } // allow transport to be HTTP/1.1 for proxying. globalProxyTransport = NewCustomHTTPProxyTransport()() globalProxyEndpoints = GetProxyEndpoints(globalEndpoints) globalInternodeTransport = NewInternodeHTTPTransport()() globalRemoteTargetTransport = NewRemoteTargetHTTPTransport()() globalForwarder = handlers.NewForwarder(&handlers.Forwarder{ PassHost: true, RoundTripper: NewHTTPTransportWithTimeout(1 * time.Hour), Logger: func(err error) { if err != nil && !errors.Is(err, context.Canceled) { logger.LogIf(GlobalContext, err) } }, }) globalTCPOptions = xhttp.TCPOptions{ UserTimeout: int(ctx.Duration("conn-user-timeout").Milliseconds()), Interface: ctx.String("interface"), } // On macOS, if a process already listens on LOCALIPADDR:PORT, net.Listen() falls back // to IPv6 address ie minio will start listening on IPv6 address whereas another // (non-)minio process is listening on IPv4 of given port. // To avoid this error situation we check for port availability. logger.FatalIf(xhttp.CheckPortAvailability(globalMinioHost, globalMinioPort, globalTCPOptions), "Unable to start the server") globalIsErasure = (setupType == ErasureSetupType) globalIsDistErasure = (setupType == DistErasureSetupType) if globalIsDistErasure { globalIsErasure = true } globalIsErasureSD = (setupType == ErasureSDSetupType) globalConnReadDeadline = ctx.Duration("conn-read-deadline") globalConnWriteDeadline = ctx.Duration("conn-write-deadline") } func serverHandleEnvVars() { // Handle common environment variables. handleCommonEnvVars() } var globalHealStateLK sync.RWMutex func initAllSubsystems(ctx context.Context) { globalHealStateLK.Lock() // New global heal state globalAllHealState = newHealState(ctx, true) globalBackgroundHealState = newHealState(ctx, false) globalHealStateLK.Unlock() // Initialize notification peer targets globalNotificationSys = NewNotificationSys(globalEndpoints) // Create new notification system globalEventNotifier = NewEventNotifier() // Create new bucket metadata system. if globalBucketMetadataSys == nil { globalBucketMetadataSys = NewBucketMetadataSys() } else { // Reinitialize safely when testing. globalBucketMetadataSys.Reset() } // Create the bucket bandwidth monitor globalBucketMonitor = bandwidth.NewMonitor(ctx, totalNodeCount()) // Create a new config system. globalConfigSys = NewConfigSys() // Create new IAM system. globalIAMSys = NewIAMSys() // Create new policy system. globalPolicySys = NewPolicySys() // Create new lifecycle system. globalLifecycleSys = NewLifecycleSys() // Create new bucket encryption subsystem globalBucketSSEConfigSys = NewBucketSSEConfigSys() // Create new bucket object lock subsystem globalBucketObjectLockSys = NewBucketObjectLockSys() // Create new bucket quota subsystem globalBucketQuotaSys = NewBucketQuotaSys() // Create new bucket versioning subsystem if globalBucketVersioningSys == nil { globalBucketVersioningSys = NewBucketVersioningSys() } // Create new bucket replication subsytem globalBucketTargetSys = NewBucketTargetSys(GlobalContext) // Create new ILM tier configuration subsystem globalTierConfigMgr = NewTierConfigMgr() globalTransitionState = newTransitionState(GlobalContext) globalSiteResyncMetrics = newSiteResyncMetrics(GlobalContext) } func configRetriableErrors(err error) bool { // Initializing sub-systems needs a retry mechanism for // the following reasons: // - Read quorum is lost just after the initialization // of the object layer. // - Write quorum not met when upgrading configuration // version is needed, migration is needed etc. rquorum := InsufficientReadQuorum{} wquorum := InsufficientWriteQuorum{} // One of these retriable errors shall be retried. return errors.Is(err, errDiskNotFound) || errors.Is(err, errConfigNotFound) || errors.Is(err, context.DeadlineExceeded) || errors.Is(err, errErasureWriteQuorum) || errors.Is(err, errErasureReadQuorum) || errors.Is(err, io.ErrUnexpectedEOF) || errors.As(err, &rquorum) || errors.As(err, &wquorum) || isErrObjectNotFound(err) || isErrBucketNotFound(err) || errors.Is(err, os.ErrDeadlineExceeded) } func bootstrapTrace(msg string) { globalBootstrapTracer.Record(msg, 2) if globalTrace.NumSubscribers(madmin.TraceBootstrap) == 0 { return } globalTrace.Publish(madmin.TraceInfo{ TraceType: madmin.TraceBootstrap, Time: time.Now().UTC(), NodeName: globalLocalNodeName, FuncName: "BOOTSTRAP", Message: fmt.Sprintf("%s %s", getSource(2), msg), }) } func initServer(ctx context.Context, newObject ObjectLayer) error { t1 := time.Now() // Once the config is fully loaded, initialize the new object layer. setObjectLayer(newObject) r := rand.New(rand.NewSource(time.Now().UnixNano())) for { select { case <-ctx.Done(): // Retry was canceled successfully. return fmt.Errorf("Initializing sub-systems stopped gracefully %w", ctx.Err()) default: } // These messages only meant primarily for distributed setup, so only log during distributed setup. if globalIsDistErasure { logger.Info("Waiting for all MinIO sub-systems to be initialize...") } // Upon success migrating the config, initialize all sub-systems // if all sub-systems initialized successfully return right away err := initConfigSubsystem(ctx, newObject) if err == nil { // All successful return. if globalIsDistErasure { // These messages only meant primarily for distributed setup, so only log during distributed setup. logger.Info("All MinIO sub-systems initialized successfully in %s", time.Since(t1)) } return nil } if configRetriableErrors(err) { logger.Info("Waiting for all MinIO sub-systems to be initialized.. possible cause (%v)", err) time.Sleep(time.Duration(r.Float64() * float64(5*time.Second))) continue } // Any other unhandled return right here. return fmt.Errorf("Unable to initialize sub-systems: %w", err) } } func initConfigSubsystem(ctx context.Context, newObject ObjectLayer) error { // %w is used by all error returns here to make sure // we wrap the underlying error, make sure when you // are modifying this code that you do so, if and when // you want to add extra context to your error. This // ensures top level retry works accordingly. // Initialize config system. if err := globalConfigSys.Init(newObject); err != nil { if configRetriableErrors(err) { return fmt.Errorf("Unable to initialize config system: %w", err) } // Any other config errors we simply print a message and proceed forward. logger.LogIf(ctx, fmt.Errorf("Unable to initialize config, some features may be missing: %w", err)) } return nil } // Return the list of address that MinIO server needs to listen on: // - Returning 127.0.0.1 is necessary so Console will be able to send // requests to the local S3 API. // - The returned List needs to be deduplicated as well. func getServerListenAddrs() []string { // Use a string set to avoid duplication addrs := set.NewStringSet() // Listen on local interface to receive requests from Console for _, ip := range mustGetLocalIPs() { if ip != nil && ip.IsLoopback() { addrs.Add(net.JoinHostPort(ip.String(), globalMinioPort)) } } host, _ := mustSplitHostPort(globalMinioAddr) if host != "" { ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second) defer cancel() haddrs, err := globalDNSCache.LookupHost(ctx, host) if err == nil { for _, addr := range haddrs { addrs.Add(net.JoinHostPort(addr, globalMinioPort)) } } else { // Unable to lookup host in 2-secs, let it fail later anyways. addrs.Add(globalMinioAddr) } } else { addrs.Add(globalMinioAddr) } return addrs.ToSlice() } // serverMain handler called for 'minio server' command. func serverMain(ctx *cli.Context) { signal.Notify(globalOSSignalCh, os.Interrupt, syscall.SIGTERM, syscall.SIGQUIT) go handleSignals() setDefaultProfilerRates() // Initialize globalConsoleSys system globalConsoleSys = NewConsoleLogger(GlobalContext) logger.AddSystemTarget(globalConsoleSys) // Perform any self-tests bitrotSelfTest() erasureSelfTest() compressSelfTest() // Handle all server environment vars. serverHandleEnvVars() // Handle all server command args. serverHandleCmdArgs(ctx) // Initialize KMS configuration handleKMSConfig() // Set node name, only set for distributed setup. globalConsoleSys.SetNodeName(globalLocalNodeName) // Initialize all help initHelp() // Initialize all sub-systems initAllSubsystems(GlobalContext) // Is distributed setup, error out if no certificates are found for HTTPS endpoints. if globalIsDistErasure { if globalEndpoints.HTTPS() && !globalIsTLS { logger.Fatal(config.ErrNoCertsAndHTTPSEndpoints(nil), "Unable to start the server") } if !globalEndpoints.HTTPS() && globalIsTLS { logger.Fatal(config.ErrCertsAndHTTPEndpoints(nil), "Unable to start the server") } } // Check for updates in non-blocking manner. go func() { if !globalCLIContext.Quiet && !globalInplaceUpdateDisabled { // Check for new updates from dl.min.io. checkUpdate(getMinioMode()) } }() // Set system resources to maximum. setMaxResources() // Verify kernel release and version. if oldLinux() { logger.Info(color.RedBold("WARNING: Detected Linux kernel version older than 4.0.0 release, there are some known potential performance problems with this kernel version. MinIO recommends a minimum of 4.x.x linux kernel version for best performance")) } maxProcs := runtime.GOMAXPROCS(0) cpuProcs := runtime.NumCPU() if maxProcs < cpuProcs { logger.Info(color.RedBoldf("WARNING: Detected GOMAXPROCS(%d) < NumCPU(%d), please make sure to provide all PROCS to MinIO for optimal performance", maxProcs, cpuProcs)) } // Configure server. handler, err := configureServerHandler(globalEndpoints) if err != nil { logger.Fatal(config.ErrUnexpectedError(err), "Unable to configure one of server's RPC services") } var getCert certs.GetCertificateFunc if globalTLSCerts != nil { getCert = globalTLSCerts.GetCertificate } httpServer := xhttp.NewServer(getServerListenAddrs()). UseHandler(setCriticalErrorHandler(corsHandler(handler))). UseTLSConfig(newTLSConfig(getCert)). UseShutdownTimeout(ctx.Duration("shutdown-timeout")). UseIdleTimeout(ctx.Duration("idle-timeout")). UseReadHeaderTimeout(ctx.Duration("read-header-timeout")). UseBaseContext(GlobalContext). UseCustomLogger(log.New(io.Discard, "", 0)). // Turn-off random logging by Go stdlib UseTCPOptions(globalTCPOptions) go func() { globalHTTPServerErrorCh <- httpServer.Start(GlobalContext) }() setHTTPServer(httpServer) if globalIsDistErasure { bootstrapTrace("verifying system configuration") // Additionally in distributed setup, validate the setup and configuration. if err := verifyServerSystemConfig(GlobalContext, globalEndpoints); err != nil { logger.Fatal(err, "Unable to start the server") } } newObject, err := newObjectLayer(GlobalContext, globalEndpoints) if err != nil { logFatalErrs(err, Endpoint{}, true) } xhttp.SetDeploymentID(globalDeploymentID) xhttp.SetMinIOVersion(Version) globalLeaderLock = newSharedLock(GlobalContext, newObject, "leader.lock") // Enable background operations for erasure coding initAutoHeal(GlobalContext, newObject) initHealMRF(GlobalContext, newObject) initBackgroundExpiry(GlobalContext, newObject) if !globalCLIContext.StrictS3Compat { logger.Info(color.RedBold("WARNING: Strict AWS S3 compatible incoming PUT, POST content payload validation is turned off, caution is advised do not use in production")) } if globalActiveCred.Equal(auth.DefaultCredentials) { msg := fmt.Sprintf("WARNING: Detected default credentials '%s', we recommend that you change these values with 'MINIO_ROOT_USER' and 'MINIO_ROOT_PASSWORD' environment variables", globalActiveCred) logger.Info(color.RedBold(msg)) } bootstrapTrace("initializing the server") if err = initServer(GlobalContext, newObject); err != nil { var cerr config.Err // For any config error, we don't need to drop into safe-mode // instead its a user error and should be fixed by user. if errors.As(err, &cerr) { logger.FatalIf(err, "Unable to initialize the server") } // If context was canceled if errors.Is(err, context.Canceled) { logger.FatalIf(err, "Server startup canceled upon user request") } logger.LogIf(GlobalContext, err) } // Initialize users credentials and policies in background right after config has initialized. go func() { globalIAMSys.Init(GlobalContext, newObject, globalEtcdClient, globalRefreshIAMInterval) // Initialize if globalBrowserEnabled { srv, err := initConsoleServer() if err != nil { logger.FatalIf(err, "Unable to initialize console service") } setConsoleSrv(srv) go func() { server := newConsoleServerFn() logger.FatalIf(server.Listen(), "Unable to initialize console server's sockets") daemon.SdNotify(false, daemon.SdNotifyReady) logger.FatalIf(server.Serve(), "Unable to initialize console server") }() } // if we see FTP args, start FTP if possible if len(ctx.StringSlice("ftp")) > 0 { go startFTPServer(ctx) } // If we see SFTP args, start SFTP if possible if len(ctx.StringSlice("sftp")) > 0 { go startSFTPServer(ctx) } }() // Background all other operations such as initializing bucket metadata etc. go func() { // Initialize data scanner. initDataScanner(GlobalContext, newObject) // Initialize background replication initBackgroundReplication(GlobalContext, newObject) globalTransitionState.Init(newObject) // Initialize batch job pool. globalBatchJobPool = newBatchJobPool(GlobalContext, newObject, 100) // Initialize the license update job initLicenseUpdateJob(GlobalContext, newObject) go func() { // Initialize transition tier configuration manager err := globalTierConfigMgr.Init(GlobalContext, newObject) if err != nil { logger.LogIf(GlobalContext, err) } else { globalTierJournal, err = initTierDeletionJournal(GlobalContext) if err != nil { logger.FatalIf(err, "Unable to initialize remote tier pending deletes journal") } } }() // Initialize bucket notification system first before loading bucket metadata. logger.LogIf(GlobalContext, globalEventNotifier.InitBucketTargets(GlobalContext, newObject)) // initialize the new disk cache objects. if globalCacheConfig.Enabled { logger.Info(color.Yellow("WARNING: Drive caching is deprecated for single/multi drive MinIO setups.")) var cacheAPI CacheObjectLayer cacheAPI, err = newServerCacheObjects(GlobalContext, globalCacheConfig) logger.FatalIf(err, "Unable to initialize drive caching") setCacheObjectLayer(cacheAPI) } // List buckets to heal, and be re-used for loading configs. buckets, err := newObject.ListBuckets(GlobalContext, BucketOptions{}) if err != nil { logger.LogIf(GlobalContext, fmt.Errorf("Unable to list buckets to heal: %w", err)) } // initialize replication resync state. go globalReplicationPool.initResync(GlobalContext, buckets, newObject) // Initialize bucket metadata sub-system. globalBucketMetadataSys.Init(GlobalContext, buckets, newObject) // Initialize site replication manager after bucket metadat globalSiteReplicationSys.Init(GlobalContext, newObject) // Initialize quota manager. globalBucketQuotaSys.Init(newObject) // Populate existing buckets to the etcd backend if globalDNSConfig != nil { // Background this operation. go initFederatorBackend(buckets, newObject) } // Prints the formatted startup message, if err is not nil then it prints additional information as well. printStartupMessage(getAPIEndpoints(), err) // Print a warning at the end of the startup banner so it is more noticeable if newObject.BackendInfo().StandardSCParity == 0 { logger.Error("Warning: The standard parity is set to 0. This can lead to data loss.") } }() region := globalSite.Region if region == "" { region = "us-east-1" } globalMinioClient, err = minio.New(globalLocalNodeName, &minio.Options{ Creds: credentials.NewStaticV4(globalActiveCred.AccessKey, globalActiveCred.SecretKey, ""), Secure: globalIsTLS, Transport: globalProxyTransport, Region: region, }) logger.FatalIf(err, "Unable to initialize MinIO client") // Add User-Agent to differentiate the requests. globalMinioClient.SetAppInfo("minio-perf-test", ReleaseTag) if serverDebugLog { logger.Info("== DEBUG Mode enabled ==") logger.Info("Currently set environment settings:") ks := []string{ config.EnvAccessKey, config.EnvSecretKey, config.EnvRootUser, config.EnvRootPassword, } for _, v := range os.Environ() { // Do not print sensitive creds in debug. if contains(ks, strings.Split(v, "=")[0]) { continue } logger.Info(v) } logger.Info("======") } <-globalOSSignalCh } // Initialize object layer with the supplied disks, objectLayer is nil upon any error. func newObjectLayer(ctx context.Context, endpointServerPools EndpointServerPools) (newObject ObjectLayer, err error) { return newErasureServerPools(ctx, endpointServerPools) }