package taskrunner import ( "context" "fmt" "os" "path/filepath" "sync" "time" hclog "github.com/hashicorp/go-hclog" "github.com/hashicorp/nomad/client/allocrunner/interfaces" ti "github.com/hashicorp/nomad/client/allocrunner/taskrunner/interfaces" "github.com/hashicorp/nomad/client/dynamicplugins" "github.com/hashicorp/nomad/nomad/structs" "github.com/hashicorp/nomad/plugins/csi" "github.com/hashicorp/nomad/plugins/drivers" ) // csiPluginSupervisorHook manages supervising plugins that are running as Nomad // tasks. These plugins will be fingerprinted and it will manage connecting them // to their requisite plugin manager. // // It provides a few things to a plugin task running inside Nomad. These are: // * A mount to the `csi_plugin.mount_dir` where the plugin will create its csi.sock // * A mount to `local/csi` that node plugins will use to stage volume mounts. // * When the task has started, it starts a loop of attempting to connect to the // plugin, to perform initial fingerprinting of the plugins capabilities before // notifying the plugin manager of the plugin. type csiPluginSupervisorHook struct { logger hclog.Logger alloc *structs.Allocation task *structs.Task runner *TaskRunner mountPoint string socketMountPoint string socketPath string caps *drivers.Capabilities // eventEmitter is used to emit events to the task eventEmitter ti.EventEmitter lifecycle ti.TaskLifecycle shutdownCtx context.Context shutdownCancelFn context.CancelFunc runOnce sync.Once // previousHealthstate is used by the supervisor goroutine to track historic // health states for gating task events. previousHealthState bool } type csiPluginSupervisorHookConfig struct { clientStateDirPath string events ti.EventEmitter runner *TaskRunner lifecycle ti.TaskLifecycle capabilities *drivers.Capabilities logger hclog.Logger } // The plugin supervisor uses the PrestartHook mechanism to setup the requisite // mount points and configuration for the task that exposes a CSI plugin. var _ interfaces.TaskPrestartHook = &csiPluginSupervisorHook{} // The plugin supervisor uses the PoststartHook mechanism to start polling the // plugin for readiness and supported functionality before registering the // plugin with the catalog. var _ interfaces.TaskPoststartHook = &csiPluginSupervisorHook{} // The plugin supervisor uses the StopHook mechanism to deregister the plugin // with the catalog and to ensure any mounts are cleaned up. var _ interfaces.TaskStopHook = &csiPluginSupervisorHook{} // This hook creates a csi/ directory within the client's datadir used to // manage plugins and mount points volumes. The layout is as follows: // plugins/ // {alloc-id}/csi.sock // Per-allocation directories of unix domain sockets used to communicate // with the CSI plugin. Nomad creates the directory and the plugin creates // the socket file. This directory is bind-mounted to the // csi_plugin.mount_config dir in the plugin task. // // {plugin-type}/{plugin-id}/ // staging/ // {volume-id}/{usage-mode}/ // Intermediate mount point used by node plugins that support // NODE_STAGE_UNSTAGE capability. // // per-alloc/ // {alloc-id}/{volume-id}/{usage-mode}/ // Mount point bound from the staging directory into tasks that use // the mounted volumes func newCSIPluginSupervisorHook(config *csiPluginSupervisorHookConfig) *csiPluginSupervisorHook { task := config.runner.Task() pluginRoot := filepath.Join(config.clientStateDirPath, "csi", string(task.CSIPluginConfig.Type), task.CSIPluginConfig.ID) socketMountPoint := filepath.Join(config.clientStateDirPath, "csi", "plugins", config.runner.Alloc().ID) if task.CSIPluginConfig.HealthTimeout == 0 { task.CSIPluginConfig.HealthTimeout = 30 * time.Second } shutdownCtx, cancelFn := context.WithCancel(context.Background()) hook := &csiPluginSupervisorHook{ alloc: config.runner.Alloc(), runner: config.runner, lifecycle: config.lifecycle, logger: config.logger, task: task, mountPoint: pluginRoot, socketMountPoint: socketMountPoint, caps: config.capabilities, shutdownCtx: shutdownCtx, shutdownCancelFn: cancelFn, eventEmitter: config.events, } return hook } func (*csiPluginSupervisorHook) Name() string { return "csi_plugin_supervisor" } // Prestart is called before the task is started including after every // restart. This requires that the mount paths for a plugin be // idempotent, despite us not knowing the name of the plugin ahead of // time. Because of this, we use the allocid_taskname as the unique // identifier for a plugin on the filesystem. func (h *csiPluginSupervisorHook) Prestart(ctx context.Context, req *interfaces.TaskPrestartRequest, resp *interfaces.TaskPrestartResponse) error { // Create the mount directory that the container will access if it doesn't // already exist. Default to only nomad user access. if err := os.MkdirAll(h.mountPoint, 0700); err != nil && !os.IsExist(err) { return fmt.Errorf("failed to create mount point: %v", err) } if err := os.MkdirAll(h.socketMountPoint, 0700); err != nil && !os.IsExist(err) { return fmt.Errorf("failed to create socket mount point: %v", err) } // where the socket will be mounted configMount := &drivers.MountConfig{ TaskPath: h.task.CSIPluginConfig.MountDir, HostPath: h.socketMountPoint, Readonly: false, PropagationMode: "bidirectional", } // where the staging and per-alloc directories will be mounted volumeStagingMounts := &drivers.MountConfig{ // TODO(tgross): add this TaskPath to the CSIPluginConfig as well TaskPath: "/local/csi", HostPath: h.mountPoint, Readonly: false, PropagationMode: "bidirectional", } // devices from the host devMount := &drivers.MountConfig{ TaskPath: "/dev", HostPath: "/dev", Readonly: false, } h.setSocketHook() if _, ok := h.task.Env["CSI_ENDPOINT"]; !ok { switch h.caps.FSIsolation { case drivers.FSIsolationNone: // Plugin tasks with no filesystem isolation won't have the // plugin dir bind-mounted to their alloc dir, but we can // provide them the path to the socket. These Nomad-only // plugins will need to be aware of the csi directory layout // in the client data dir resp.Env = map[string]string{ "CSI_ENDPOINT": "unix://" + h.socketPath} default: resp.Env = map[string]string{ "CSI_ENDPOINT": "unix://" + filepath.Join( h.task.CSIPluginConfig.MountDir, structs.CSISocketName)} } } mounts := ensureMountpointInserted(h.runner.hookResources.getMounts(), configMount) mounts = ensureMountpointInserted(mounts, volumeStagingMounts) mounts = ensureMountpointInserted(mounts, devMount) // we normally would set resp.Mounts here but without setting the // hookResources before returning we can get a postrun hook that's // missing resources. h.runner.hookResources.setMounts(mounts) return nil } func (h *csiPluginSupervisorHook) setSocketHook() { // TODO(tgross): https://github.com/hashicorp/nomad/issues/11786 // If we're already registered, we should be able to update the // definition in the update hook // For backwards compatibility, ensure that we don't overwrite the // socketPath on client restart with existing plugin allocations. pluginInfo, _ := h.runner.dynamicRegistry.PluginForAlloc( string(h.task.CSIPluginConfig.Type), h.task.CSIPluginConfig.ID, h.alloc.ID) if pluginInfo != nil && pluginInfo.ConnectionInfo.SocketPath != "" { h.socketPath = pluginInfo.ConnectionInfo.SocketPath return } h.socketPath = filepath.Join(h.socketMountPoint, structs.CSISocketName) } // Poststart is called after the task has started. Poststart is not // called if the allocation is terminal. // // The context is cancelled if the task is killed. func (h *csiPluginSupervisorHook) Poststart(_ context.Context, _ *interfaces.TaskPoststartRequest, _ *interfaces.TaskPoststartResponse) error { // If we're already running the supervisor routine, then we don't need to try // and restart it here as it only terminates on `Stop` hooks. h.runOnce.Do(func() { h.setSocketHook() go h.ensureSupervisorLoop(h.shutdownCtx) }) return nil } // ensureSupervisorLoop should be called in a goroutine. It will terminate when // the passed in context is terminated. // // The supervisor works by: // - Initially waiting for the plugin to become available. This loop is expensive // and may do things like create new gRPC Clients on every iteration. // - After receiving an initial healthy status, it will inform the plugin catalog // of the plugin, registering it with the plugins fingerprinted capabilities. // - We then perform a more lightweight check, simply probing the plugin on a less // frequent interval to ensure it is still alive, emitting task events when this // status changes. // // Deeper fingerprinting of the plugin is implemented by the csimanager. func (h *csiPluginSupervisorHook) ensureSupervisorLoop(ctx context.Context) { client := csi.NewClient(h.socketPath, h.logger.Named("csi_client").With( "plugin.name", h.task.CSIPluginConfig.ID, "plugin.type", h.task.CSIPluginConfig.Type)) defer client.Close() t := time.NewTimer(0) // We're in Poststart at this point, so if we can't connect within // this deadline, assume it's broken so we can restart the task startCtx, startCancelFn := context.WithTimeout(ctx, h.task.CSIPluginConfig.HealthTimeout) defer startCancelFn() var err error var pluginHealthy bool // Step 1: Wait for the plugin to initially become available. WAITFORREADY: for { select { case <-startCtx.Done(): h.kill(ctx, fmt.Errorf("CSI plugin failed probe: %v", err)) return case <-t.C: pluginHealthy, err = h.supervisorLoopOnce(startCtx, client) if err != nil || !pluginHealthy { h.logger.Debug("CSI plugin not ready", "error", err) // Use only a short delay here to optimize for quickly // bringing up a plugin t.Reset(5 * time.Second) continue } // Mark the plugin as healthy in a task event h.logger.Debug("CSI plugin is ready") h.previousHealthState = pluginHealthy event := structs.NewTaskEvent(structs.TaskPluginHealthy) event.SetMessage(fmt.Sprintf("plugin: %s", h.task.CSIPluginConfig.ID)) h.eventEmitter.EmitEvent(event) break WAITFORREADY } } // Step 2: Register the plugin with the catalog. deregisterPluginFn, err := h.registerPlugin(client, h.socketPath) if err != nil { h.kill(ctx, fmt.Errorf("CSI plugin failed to register: %v", err)) return } // De-register plugins on task shutdown defer deregisterPluginFn() // Step 3: Start the lightweight supervisor loop. At this point, // probe failures don't cause the task to restart t.Reset(0) for { select { case <-ctx.Done(): return case <-t.C: pluginHealthy, err := h.supervisorLoopOnce(ctx, client) if err != nil { h.logger.Error("CSI plugin fingerprinting failed", "error", err) } // The plugin has transitioned to a healthy state. Emit an event. if !h.previousHealthState && pluginHealthy { event := structs.NewTaskEvent(structs.TaskPluginHealthy) event.SetMessage(fmt.Sprintf("plugin: %s", h.task.CSIPluginConfig.ID)) h.eventEmitter.EmitEvent(event) } // The plugin has transitioned to an unhealthy state. Emit an event. if h.previousHealthState && !pluginHealthy { event := structs.NewTaskEvent(structs.TaskPluginUnhealthy) if err != nil { event.SetMessage(fmt.Sprintf("Error: %v", err)) } else { event.SetMessage("Unknown Reason") } h.eventEmitter.EmitEvent(event) } h.previousHealthState = pluginHealthy // This loop is informational and in some plugins this may be expensive to // validate. We use a longer timeout (30s) to avoid causing undue work. t.Reset(30 * time.Second) } } } func (h *csiPluginSupervisorHook) registerPlugin(client csi.CSIPlugin, socketPath string) (func(), error) { // At this point we know the plugin is ready and we can fingerprint it // to get its vendor name and version info, err := client.PluginInfo() if err != nil { return nil, fmt.Errorf("failed to probe plugin: %v", err) } mkInfoFn := func(pluginType string) *dynamicplugins.PluginInfo { return &dynamicplugins.PluginInfo{ Type: pluginType, Name: h.task.CSIPluginConfig.ID, Version: info.PluginVersion, ConnectionInfo: &dynamicplugins.PluginConnectionInfo{ SocketPath: socketPath, }, AllocID: h.alloc.ID, Options: map[string]string{ "Provider": info.Name, // vendor name "MountPoint": h.mountPoint, "ContainerMountPoint": "/local/csi", }, } } registrations := []*dynamicplugins.PluginInfo{} switch h.task.CSIPluginConfig.Type { case structs.CSIPluginTypeController: registrations = append(registrations, mkInfoFn(dynamicplugins.PluginTypeCSIController)) case structs.CSIPluginTypeNode: registrations = append(registrations, mkInfoFn(dynamicplugins.PluginTypeCSINode)) case structs.CSIPluginTypeMonolith: registrations = append(registrations, mkInfoFn(dynamicplugins.PluginTypeCSIController)) registrations = append(registrations, mkInfoFn(dynamicplugins.PluginTypeCSINode)) } deregistrationFns := []func(){} for _, reg := range registrations { if err := h.runner.dynamicRegistry.RegisterPlugin(reg); err != nil { for _, fn := range deregistrationFns { fn() } return nil, err } // need to rebind these so that each deregistration function // closes over its own registration rname := reg.Name rtype := reg.Type allocID := reg.AllocID deregistrationFns = append(deregistrationFns, func() { err := h.runner.dynamicRegistry.DeregisterPlugin(rtype, rname, allocID) if err != nil { h.logger.Error("failed to deregister csi plugin", "name", rname, "type", rtype, "error", err) } }) } return func() { for _, fn := range deregistrationFns { fn() } }, nil } func (h *csiPluginSupervisorHook) supervisorLoopOnce(ctx context.Context, client csi.CSIPlugin) (bool, error) { probeCtx, probeCancelFn := context.WithTimeout(ctx, 5*time.Second) defer probeCancelFn() healthy, err := client.PluginProbe(probeCtx) if err != nil { return false, err } return healthy, nil } // Stop is called after the task has exited and will not be started // again. It is the only hook guaranteed to be executed whenever // TaskRunner.Run is called (and not gracefully shutting down). // Therefore it may be called even when prestart and the other hooks // have not. // // Stop hooks must be idempotent. The context is cancelled prematurely if the // task is killed. func (h *csiPluginSupervisorHook) Stop(_ context.Context, req *interfaces.TaskStopRequest, _ *interfaces.TaskStopResponse) error { err := os.RemoveAll(h.socketMountPoint) if err != nil { h.logger.Error("could not remove plugin socket directory", "dir", h.socketMountPoint, "error", err) } h.shutdownCancelFn() return nil } func (h *csiPluginSupervisorHook) kill(ctx context.Context, reason error) { h.logger.Error("killing task because plugin failed", "error", reason) event := structs.NewTaskEvent(structs.TaskPluginUnhealthy) event.SetMessage(fmt.Sprintf("Error: %v", reason.Error())) h.eventEmitter.EmitEvent(event) if err := h.lifecycle.Kill(ctx, structs.NewTaskEvent(structs.TaskKilling). SetFailsTask(). SetDisplayMessage(fmt.Sprintf("CSI plugin did not become healthy before configured %v health timeout", h.task.CSIPluginConfig.HealthTimeout.String())), ); err != nil { h.logger.Error("failed to kill task", "kill_reason", reason, "error", err) } } func ensureMountpointInserted(mounts []*drivers.MountConfig, mount *drivers.MountConfig) []*drivers.MountConfig { for _, mnt := range mounts { if mnt.IsEqual(mount) { return mounts } } mounts = append(mounts, mount) return mounts }