// Copyright (C) 2018 Storj Labs, Inc. // See LICENSE for copying information. package main import ( "context" "crypto/rand" "encoding/hex" "errors" "fmt" "net" "os" "os/exec" "path/filepath" "strconv" "strings" "github.com/zeebo/errs" "golang.org/x/sync/errgroup" "storj.io/storj/internal/fpath" "storj.io/storj/internal/processgroup" ) const folderPermissions = 0744 func networkExec(flags *Flags, args []string, command string) error { processes, err := newNetwork(flags) if err != nil { return err } ctx, cancel := NewCLIContext(context.Background()) defer cancel() err = processes.Exec(ctx, command) closeErr := processes.Close() return errs.Combine(err, closeErr) } func networkTest(flags *Flags, command string, args []string) error { processes, err := newNetwork(flags) if err != nil { return err } ctx, cancel := NewCLIContext(context.Background()) var group errgroup.Group processes.Start(ctx, &group, "run") for _, process := range processes.List { process.Status.Started.Wait() } cmd := exec.CommandContext(ctx, command, args...) cmd.Env = append(os.Environ(), processes.Env()...) stdout := processes.Output.Prefixed("test:out") stderr := processes.Output.Prefixed("test:err") cmd.Stdout, cmd.Stderr = stdout, stderr processgroup.Setup(cmd) if printCommands { fmt.Fprintf(processes.Output, "exec: %v\n", strings.Join(cmd.Args, " ")) } errRun := cmd.Run() cancel() return errs.Combine(errRun, processes.Close(), group.Wait()) } func networkDestroy(flags *Flags, args []string) error { if fpath.IsRoot(flags.Directory) { return errors.New("safety check: disallowed to remove root directory " + flags.Directory) } if printCommands { fmt.Println("sdk | exec: rm -rf", flags.Directory) } return os.RemoveAll(flags.Directory) } // newNetwork creates a default network func newNetwork(flags *Flags) (*Processes, error) { // with common adds all common arguments to the process withCommon := func(all Arguments) Arguments { for command, args := range all { all[command] = append([]string{ "--log.level", "debug", "--config-dir", ".", command, }, args...) } return all } processes := NewProcesses() var ( configDir = flags.Directory host = flags.Host gatewayPort = 9000 satellitePort = 10000 storageNodePort = 11000 difficulty = "10" ) var bootstrapSatellite *Process // Create satellites making the first satellite bootstrap for i := 0; i < flags.SatelliteCount; i++ { process := processes.New(Info{ Name: fmt.Sprintf("satellite/%d", i), Executable: "satellite", Directory: filepath.Join(configDir, "satellite", fmt.Sprint(i)), Address: net.JoinHostPort(host, strconv.Itoa(satellitePort+i)), }) bootstrapAddr := process.Address if bootstrapSatellite != nil { bootstrapAddr = bootstrapSatellite.Address process.WaitForStart(bootstrapSatellite) } else { bootstrapSatellite = process } process.Arguments = withCommon(Arguments{ "setup": { "--ca.difficulty", difficulty, }, "run": { "--kademlia.bootstrap-addr", bootstrapAddr, "--server.address", process.Address, "--audit.satellite-addr", process.Address, "--repairer.overlay-addr", process.Address, "--repairer.pointer-db-addr", process.Address, }, }) } // Create gateways for each satellite for i := 0; i < flags.SatelliteCount; i++ { accessKey, secretKey := randomKey(), randomKey() satellite := processes.List[i] process := processes.New(Info{ Name: fmt.Sprintf("gateway/%d", i), Executable: "gateway", Directory: filepath.Join(configDir, "gateway", fmt.Sprint(i)), Address: net.JoinHostPort(host, strconv.Itoa(gatewayPort+i)), Extra: []string{ "ACCESS_KEY=" + accessKey, "SECRET_KEY=" + secretKey, }, }) // gateway must wait for the corresponding satellite to start up process.WaitForStart(satellite) process.Arguments = withCommon(Arguments{ "setup": { "--satellite-addr", satellite.Address, "--ca.difficulty", difficulty, }, "run": { "--server.address", process.Address, "--minio.access-key", accessKey, "--minio.secret-key", secretKey, "--client.overlay-addr", satellite.Address, "--client.pointer-db-addr", satellite.Address, "--rs.min-threshold", strconv.Itoa(1 * flags.StorageNodeCount / 5), "--rs.repair-threshold", strconv.Itoa(2 * flags.StorageNodeCount / 5), "--rs.success-threshold", strconv.Itoa(3 * flags.StorageNodeCount / 5), "--rs.max-threshold", strconv.Itoa(4 * flags.StorageNodeCount / 5), }, }) } // Create storage nodes for i := 0; i < flags.StorageNodeCount; i++ { process := processes.New(Info{ Name: fmt.Sprintf("storagenode/%d", i), Executable: "storagenode", Directory: filepath.Join(configDir, "storage", fmt.Sprint(i)), Address: net.JoinHostPort(host, strconv.Itoa(storageNodePort+i)), }) // storage node must wait for bootstrap to start process.WaitForStart(bootstrapSatellite) process.Arguments = withCommon(Arguments{ "setup": { "--ca.difficulty", difficulty, "--piecestore.agreementsender.overlay-addr", bootstrapSatellite.Address, }, "run": { "--piecestore.agreementsender.overlay-addr", bootstrapSatellite.Address, "--kademlia.bootstrap-addr", bootstrapSatellite.Address, "--kademlia.operator.email", fmt.Sprintf("storage%d@example.com", i), "--kademlia.operator.wallet", "0x0123456789012345678901234567890123456789", "--server.address", process.Address, }, }) } // Create directories for all processes for _, process := range processes.List { if err := os.MkdirAll(process.Directory, folderPermissions); err != nil { return nil, err } } return processes, nil } func randomKey() string { var data [10]byte _, _ = rand.Read(data[:]) return hex.EncodeToString(data[:]) }