package exec import ( "context" "fmt" "os" "path/filepath" "runtime" "sync" "time" "github.com/hashicorp/nomad/client/lib/cgutil" "github.com/hashicorp/consul-template/signals" hclog "github.com/hashicorp/go-hclog" "github.com/hashicorp/nomad/drivers/shared/eventer" "github.com/hashicorp/nomad/drivers/shared/executor" "github.com/hashicorp/nomad/drivers/shared/resolvconf" "github.com/hashicorp/nomad/helper" "github.com/hashicorp/nomad/helper/pluginutils/loader" "github.com/hashicorp/nomad/plugins/base" "github.com/hashicorp/nomad/plugins/drivers" "github.com/hashicorp/nomad/plugins/drivers/utils" "github.com/hashicorp/nomad/plugins/shared/hclspec" pstructs "github.com/hashicorp/nomad/plugins/shared/structs" ) const ( // pluginName is the name of the plugin pluginName = "exec" // fingerprintPeriod is the interval at which the driver will send fingerprint responses fingerprintPeriod = 30 * time.Second // taskHandleVersion is the version of task handle which this driver sets // and understands how to decode driver state taskHandleVersion = 1 ) var ( // PluginID is the exec plugin metadata registered in the plugin // catalog. PluginID = loader.PluginID{ Name: pluginName, PluginType: base.PluginTypeDriver, } // PluginConfig is the exec driver factory function registered in the // plugin catalog. PluginConfig = &loader.InternalPluginConfig{ Config: map[string]interface{}{}, Factory: func(ctx context.Context, l hclog.Logger) interface{} { return NewExecDriver(ctx, l) }, } // pluginInfo is the response returned for the PluginInfo RPC pluginInfo = &base.PluginInfoResponse{ Type: base.PluginTypeDriver, PluginApiVersions: []string{drivers.ApiVersion010}, PluginVersion: "0.1.0", Name: pluginName, } // configSpec is the hcl specification returned by the ConfigSchema RPC configSpec = hclspec.NewObject(map[string]*hclspec.Spec{ "no_pivot_root": hclspec.NewDefault( hclspec.NewAttr("no_pivot_root", "bool", false), hclspec.NewLiteral("false"), ), "default_pid_mode": hclspec.NewDefault( hclspec.NewAttr("default_pid_mode", "string", false), hclspec.NewLiteral(`"private"`), ), "default_ipc_mode": hclspec.NewDefault( hclspec.NewAttr("default_ipc_mode", "string", false), hclspec.NewLiteral(`"private"`), ), }) // taskConfigSpec is the hcl specification for the driver config section of // a task within a job. It is returned in the TaskConfigSchema RPC taskConfigSpec = hclspec.NewObject(map[string]*hclspec.Spec{ "command": hclspec.NewAttr("command", "string", true), "args": hclspec.NewAttr("args", "list(string)", false), "pid_mode": hclspec.NewAttr("pid_mode", "string", false), "ipc_mode": hclspec.NewAttr("ipc_mode", "string", false), }) // capabilities is returned by the Capabilities RPC and indicates what // optional features this driver supports capabilities = &drivers.Capabilities{ SendSignals: true, Exec: true, FSIsolation: drivers.FSIsolationChroot, NetIsolationModes: []drivers.NetIsolationMode{ drivers.NetIsolationModeHost, drivers.NetIsolationModeGroup, }, MountConfigs: drivers.MountConfigSupportAll, } ) // Driver fork/execs tasks using many of the underlying OS's isolation // features where configured. type Driver struct { // eventer is used to handle multiplexing of TaskEvents calls such that an // event can be broadcast to all callers eventer *eventer.Eventer // config is the driver configuration set by the SetConfig RPC config Config // nomadConfig is the client config from nomad nomadConfig *base.ClientDriverConfig // tasks is the in memory datastore mapping taskIDs to driverHandles tasks *taskStore // ctx is the context for the driver. It is passed to other subsystems to // coordinate shutdown ctx context.Context // logger will log to the Nomad agent logger hclog.Logger // A tri-state boolean to know if the fingerprinting has happened and // whether it has been successful fingerprintSuccess *bool fingerprintLock sync.Mutex } // Config is the driver configuration set by the SetConfig RPC call type Config struct { // NoPivotRoot disables the use of pivot_root, useful when the root partition // is on ramdisk NoPivotRoot bool `codec:"no_pivot_root"` // DefaultModePID is the default PID isolation set for all tasks using // exec-based task drivers. DefaultModePID string `codec:"default_pid_mode"` // DefaultModeIPC is the default IPC isolation set for all tasks using // exec-based task drivers. DefaultModeIPC string `codec:"default_ipc_mode"` } func (c *Config) validate() error { switch c.DefaultModePID { case executor.IsolationModePrivate, executor.IsolationModeHost: default: return fmt.Errorf("default_pid_mode must be %q or %q, got %q", executor.IsolationModePrivate, executor.IsolationModeHost, c.DefaultModePID) } switch c.DefaultModeIPC { case executor.IsolationModePrivate, executor.IsolationModeHost: default: return fmt.Errorf("default_ipc_mode must be %q or %q, got %q", executor.IsolationModePrivate, executor.IsolationModeHost, c.DefaultModeIPC) } return nil } // TaskConfig is the driver configuration of a task within a job type TaskConfig struct { // Command is the thing to exec. Command string `codec:"command"` // Args are passed along to Command. Args []string `codec:"args"` // ModePID indicates whether PID namespace isolation is enabled for the task. // Must be "private" or "host" if set. ModePID string `codec:"pid_mode"` // ModeIPC indicates whether IPC namespace isolation is enabled for the task. // Must be "private" or "host" if set. ModeIPC string `codec:"ipc_mode"` } func (tc *TaskConfig) validate() error { switch tc.ModePID { case "", executor.IsolationModePrivate, executor.IsolationModeHost: default: return fmt.Errorf("pid_mode must be %q or %q, got %q", executor.IsolationModePrivate, executor.IsolationModeHost, tc.ModePID) } switch tc.ModeIPC { case "", executor.IsolationModePrivate, executor.IsolationModeHost: default: return fmt.Errorf("ipc_mode must be %q or %q, got %q", executor.IsolationModePrivate, executor.IsolationModeHost, tc.ModeIPC) } return nil } // TaskState is the state which is encoded in the handle returned in // StartTask. This information is needed to rebuild the task state and handler // during recovery. type TaskState struct { ReattachConfig *pstructs.ReattachConfig TaskConfig *drivers.TaskConfig Pid int StartedAt time.Time } // NewExecDriver returns a new DrivePlugin implementation func NewExecDriver(ctx context.Context, logger hclog.Logger) drivers.DriverPlugin { logger = logger.Named(pluginName) return &Driver{ eventer: eventer.NewEventer(ctx, logger), tasks: newTaskStore(), ctx: ctx, logger: logger, } } // setFingerprintSuccess marks the driver as having fingerprinted successfully func (d *Driver) setFingerprintSuccess() { d.fingerprintLock.Lock() d.fingerprintSuccess = helper.BoolToPtr(true) d.fingerprintLock.Unlock() } // setFingerprintFailure marks the driver as having failed fingerprinting func (d *Driver) setFingerprintFailure() { d.fingerprintLock.Lock() d.fingerprintSuccess = helper.BoolToPtr(false) d.fingerprintLock.Unlock() } // fingerprintSuccessful returns true if the driver has // never fingerprinted or has successfully fingerprinted func (d *Driver) fingerprintSuccessful() bool { d.fingerprintLock.Lock() defer d.fingerprintLock.Unlock() return d.fingerprintSuccess == nil || *d.fingerprintSuccess } func (d *Driver) PluginInfo() (*base.PluginInfoResponse, error) { return pluginInfo, nil } func (d *Driver) ConfigSchema() (*hclspec.Spec, error) { return configSpec, nil } func (d *Driver) SetConfig(cfg *base.Config) error { // unpack, validate, and set agent plugin config var config Config if len(cfg.PluginConfig) != 0 { if err := base.MsgPackDecode(cfg.PluginConfig, &config); err != nil { return err } } if err := config.validate(); err != nil { return err } d.config = config if cfg != nil && cfg.AgentConfig != nil { d.nomadConfig = cfg.AgentConfig.Driver } return nil } func (d *Driver) TaskConfigSchema() (*hclspec.Spec, error) { return taskConfigSpec, nil } func (d *Driver) Capabilities() (*drivers.Capabilities, error) { return capabilities, nil } func (d *Driver) Fingerprint(ctx context.Context) (<-chan *drivers.Fingerprint, error) { ch := make(chan *drivers.Fingerprint) go d.handleFingerprint(ctx, ch) return ch, nil } func (d *Driver) handleFingerprint(ctx context.Context, ch chan<- *drivers.Fingerprint) { defer close(ch) ticker := time.NewTimer(0) for { select { case <-ctx.Done(): return case <-d.ctx.Done(): return case <-ticker.C: ticker.Reset(fingerprintPeriod) ch <- d.buildFingerprint() } } } func (d *Driver) buildFingerprint() *drivers.Fingerprint { if runtime.GOOS != "linux" { d.setFingerprintFailure() return &drivers.Fingerprint{ Health: drivers.HealthStateUndetected, HealthDescription: "exec driver unsupported on client OS", } } fp := &drivers.Fingerprint{ Attributes: map[string]*pstructs.Attribute{}, Health: drivers.HealthStateHealthy, HealthDescription: drivers.DriverHealthy, } if !utils.IsUnixRoot() { fp.Health = drivers.HealthStateUndetected fp.HealthDescription = drivers.DriverRequiresRootMessage d.setFingerprintFailure() return fp } mount, err := cgutil.FindCgroupMountpointDir() if err != nil { fp.Health = drivers.HealthStateUnhealthy fp.HealthDescription = drivers.NoCgroupMountMessage if d.fingerprintSuccessful() { d.logger.Warn(fp.HealthDescription, "error", err) } d.setFingerprintFailure() return fp } if mount == "" { fp.Health = drivers.HealthStateUnhealthy fp.HealthDescription = drivers.CgroupMountEmpty d.setFingerprintFailure() return fp } fp.Attributes["driver.exec"] = pstructs.NewBoolAttribute(true) d.setFingerprintSuccess() return fp } func (d *Driver) RecoverTask(handle *drivers.TaskHandle) error { if handle == nil { return fmt.Errorf("handle cannot be nil") } // COMPAT(0.10): pre 0.9 upgrade path check if handle.Version == 0 { return d.recoverPre09Task(handle) } // If already attached to handle there's nothing to recover. if _, ok := d.tasks.Get(handle.Config.ID); ok { d.logger.Trace("nothing to recover; task already exists", "task_id", handle.Config.ID, "task_name", handle.Config.Name, ) return nil } // Handle doesn't already exist, try to reattach var taskState TaskState if err := handle.GetDriverState(&taskState); err != nil { d.logger.Error("failed to decode task state from handle", "error", err, "task_id", handle.Config.ID) return fmt.Errorf("failed to decode task state from handle: %v", err) } // Create client for reattached executor plugRC, err := pstructs.ReattachConfigToGoPlugin(taskState.ReattachConfig) if err != nil { d.logger.Error("failed to build ReattachConfig from task state", "error", err, "task_id", handle.Config.ID) return fmt.Errorf("failed to build ReattachConfig from task state: %v", err) } exec, pluginClient, err := executor.ReattachToExecutor(plugRC, d.logger.With("task_name", handle.Config.Name, "alloc_id", handle.Config.AllocID)) if err != nil { d.logger.Error("failed to reattach to executor", "error", err, "task_id", handle.Config.ID) return fmt.Errorf("failed to reattach to executor: %v", err) } h := &taskHandle{ exec: exec, pid: taskState.Pid, pluginClient: pluginClient, taskConfig: taskState.TaskConfig, procState: drivers.TaskStateRunning, startedAt: taskState.StartedAt, exitResult: &drivers.ExitResult{}, logger: d.logger, } d.tasks.Set(taskState.TaskConfig.ID, h) go h.run() return nil } func (d *Driver) StartTask(cfg *drivers.TaskConfig) (*drivers.TaskHandle, *drivers.DriverNetwork, error) { if _, ok := d.tasks.Get(cfg.ID); ok { return nil, nil, fmt.Errorf("task with ID %q already started", cfg.ID) } var driverConfig TaskConfig if err := cfg.DecodeDriverConfig(&driverConfig); err != nil { return nil, nil, fmt.Errorf("failed to decode driver config: %v", err) } if err := driverConfig.validate(); err != nil { return nil, nil, fmt.Errorf("failed driver config validation: %v", err) } d.logger.Info("starting task", "driver_cfg", hclog.Fmt("%+v", driverConfig)) handle := drivers.NewTaskHandle(taskHandleVersion) handle.Config = cfg pluginLogFile := filepath.Join(cfg.TaskDir().Dir, "executor.out") executorConfig := &executor.ExecutorConfig{ LogFile: pluginLogFile, LogLevel: "debug", FSIsolation: true, } exec, pluginClient, err := executor.CreateExecutor( d.logger.With("task_name", handle.Config.Name, "alloc_id", handle.Config.AllocID), d.nomadConfig, executorConfig) if err != nil { return nil, nil, fmt.Errorf("failed to create executor: %v", err) } user := cfg.User if user == "" { user = "nobody" } if cfg.DNS != nil { dnsMount, err := resolvconf.GenerateDNSMount(cfg.TaskDir().Dir, cfg.DNS) if err != nil { return nil, nil, fmt.Errorf("failed to build mount for resolv.conf: %v", err) } cfg.Mounts = append(cfg.Mounts, dnsMount) } execCmd := &executor.ExecCommand{ Cmd: driverConfig.Command, Args: driverConfig.Args, Env: cfg.EnvList(), User: user, ResourceLimits: true, NoPivotRoot: d.config.NoPivotRoot, Resources: cfg.Resources, TaskDir: cfg.TaskDir().Dir, StdoutPath: cfg.StdoutPath, StderrPath: cfg.StderrPath, Mounts: cfg.Mounts, Devices: cfg.Devices, NetworkIsolation: cfg.NetworkIsolation, ModePID: executor.IsolationMode(d.config.DefaultModePID, driverConfig.ModePID), ModeIPC: executor.IsolationMode(d.config.DefaultModeIPC, driverConfig.ModeIPC), } ps, err := exec.Launch(execCmd) if err != nil { pluginClient.Kill() return nil, nil, fmt.Errorf("failed to launch command with executor: %v", err) } h := &taskHandle{ exec: exec, pid: ps.Pid, pluginClient: pluginClient, taskConfig: cfg, procState: drivers.TaskStateRunning, startedAt: time.Now().Round(time.Millisecond), logger: d.logger, } driverState := TaskState{ ReattachConfig: pstructs.ReattachConfigFromGoPlugin(pluginClient.ReattachConfig()), Pid: ps.Pid, TaskConfig: cfg, StartedAt: h.startedAt, } if err := handle.SetDriverState(&driverState); err != nil { d.logger.Error("failed to start task, error setting driver state", "error", err) exec.Shutdown("", 0) pluginClient.Kill() return nil, nil, fmt.Errorf("failed to set driver state: %v", err) } d.tasks.Set(cfg.ID, h) go h.run() return handle, nil, nil } func (d *Driver) WaitTask(ctx context.Context, taskID string) (<-chan *drivers.ExitResult, error) { handle, ok := d.tasks.Get(taskID) if !ok { return nil, drivers.ErrTaskNotFound } ch := make(chan *drivers.ExitResult) go d.handleWait(ctx, handle, ch) return ch, nil } func (d *Driver) handleWait(ctx context.Context, handle *taskHandle, ch chan *drivers.ExitResult) { defer close(ch) var result *drivers.ExitResult ps, err := handle.exec.Wait(ctx) if err != nil { result = &drivers.ExitResult{ Err: fmt.Errorf("executor: error waiting on process: %v", err), } } else { result = &drivers.ExitResult{ ExitCode: ps.ExitCode, Signal: ps.Signal, } } select { case <-ctx.Done(): return case <-d.ctx.Done(): return case ch <- result: } } func (d *Driver) StopTask(taskID string, timeout time.Duration, signal string) error { handle, ok := d.tasks.Get(taskID) if !ok { return drivers.ErrTaskNotFound } if err := handle.exec.Shutdown(signal, timeout); err != nil { if handle.pluginClient.Exited() { return nil } return fmt.Errorf("executor Shutdown failed: %v", err) } return nil } func (d *Driver) DestroyTask(taskID string, force bool) error { handle, ok := d.tasks.Get(taskID) if !ok { return drivers.ErrTaskNotFound } if handle.IsRunning() && !force { return fmt.Errorf("cannot destroy running task") } if !handle.pluginClient.Exited() { if err := handle.exec.Shutdown("", 0); err != nil { handle.logger.Error("destroying executor failed", "err", err) } handle.pluginClient.Kill() } d.tasks.Delete(taskID) return nil } func (d *Driver) InspectTask(taskID string) (*drivers.TaskStatus, error) { handle, ok := d.tasks.Get(taskID) if !ok { return nil, drivers.ErrTaskNotFound } return handle.TaskStatus(), nil } func (d *Driver) TaskStats(ctx context.Context, taskID string, interval time.Duration) (<-chan *drivers.TaskResourceUsage, error) { handle, ok := d.tasks.Get(taskID) if !ok { return nil, drivers.ErrTaskNotFound } return handle.exec.Stats(ctx, interval) } func (d *Driver) TaskEvents(ctx context.Context) (<-chan *drivers.TaskEvent, error) { return d.eventer.TaskEvents(ctx) } func (d *Driver) SignalTask(taskID string, signal string) error { handle, ok := d.tasks.Get(taskID) if !ok { return drivers.ErrTaskNotFound } sig := os.Interrupt if s, ok := signals.SignalLookup[signal]; ok { sig = s } else { d.logger.Warn("unknown signal to send to task, using SIGINT instead", "signal", signal, "task_id", handle.taskConfig.ID) } return handle.exec.Signal(sig) } func (d *Driver) ExecTask(taskID string, cmd []string, timeout time.Duration) (*drivers.ExecTaskResult, error) { if len(cmd) == 0 { return nil, fmt.Errorf("error cmd must have at least one value") } handle, ok := d.tasks.Get(taskID) if !ok { return nil, drivers.ErrTaskNotFound } args := []string{} if len(cmd) > 1 { args = cmd[1:] } out, exitCode, err := handle.exec.Exec(time.Now().Add(timeout), cmd[0], args) if err != nil { return nil, err } return &drivers.ExecTaskResult{ Stdout: out, ExitResult: &drivers.ExitResult{ ExitCode: exitCode, }, }, nil } var _ drivers.ExecTaskStreamingRawDriver = (*Driver)(nil) func (d *Driver) ExecTaskStreamingRaw(ctx context.Context, taskID string, command []string, tty bool, stream drivers.ExecTaskStream) error { if len(command) == 0 { return fmt.Errorf("error cmd must have at least one value") } handle, ok := d.tasks.Get(taskID) if !ok { return drivers.ErrTaskNotFound } return handle.exec.ExecStreaming(ctx, command, tty, stream) }