//go:build linux /* Copyright The containerd Authors. 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 task import ( "context" "fmt" "os" "sync" "github.com/containerd/cgroups/v3" "github.com/containerd/cgroups/v3/cgroup1" cgroupsv2 "github.com/containerd/cgroups/v3/cgroup2" eventstypes "github.com/containerd/containerd/api/events" taskAPI "github.com/containerd/containerd/api/runtime/task/v2" "github.com/containerd/containerd/api/types/task" "github.com/containerd/containerd/errdefs" "github.com/containerd/containerd/namespaces" "github.com/containerd/containerd/pkg/oom" oomv1 "github.com/containerd/containerd/pkg/oom/v1" oomv2 "github.com/containerd/containerd/pkg/oom/v2" "github.com/containerd/containerd/pkg/process" "github.com/containerd/containerd/pkg/shutdown" "github.com/containerd/containerd/pkg/stdio" "github.com/containerd/containerd/pkg/userns" "github.com/containerd/containerd/protobuf" ptypes "github.com/containerd/containerd/protobuf/types" "github.com/containerd/containerd/runtime" "github.com/containerd/containerd/runtime/v2/runc" "github.com/containerd/containerd/runtime/v2/runc/options" "github.com/containerd/containerd/runtime/v2/shim" "github.com/containerd/containerd/sys/reaper" runcC "github.com/containerd/go-runc" "github.com/containerd/log" "github.com/containerd/ttrpc" "github.com/containerd/typeurl/v2" ) var ( _ = shim.TTRPCService(&service{}) empty = &ptypes.Empty{} ) // NewTaskService creates a new instance of a task service func NewTaskService(ctx context.Context, publisher shim.Publisher, sd shutdown.Service) (taskAPI.TaskService, error) { var ( ep oom.Watcher err error ) if cgroups.Mode() == cgroups.Unified { ep, err = oomv2.New(publisher) } else { ep, err = oomv1.New(publisher) } if err != nil { return nil, err } go ep.Run(ctx) s := &service{ context: ctx, events: make(chan interface{}, 128), ec: reaper.Default.Subscribe(), ep: ep, shutdown: sd, containers: make(map[string]*runc.Container), running: make(map[int][]containerProcess), exitSubscribers: make(map[*map[int][]runcC.Exit]struct{}), } go s.processExits() runcC.Monitor = reaper.Default if err := s.initPlatform(); err != nil { return nil, fmt.Errorf("failed to initialized platform behavior: %w", err) } go s.forward(ctx, publisher) sd.RegisterCallback(func(context.Context) error { close(s.events) return nil }) if address, err := shim.ReadAddress("address"); err == nil { sd.RegisterCallback(func(context.Context) error { return shim.RemoveSocket(address) }) } return s, nil } // service is the shim implementation of a remote shim over GRPC type service struct { mu sync.Mutex context context.Context events chan interface{} platform stdio.Platform ec chan runcC.Exit ep oom.Watcher containers map[string]*runc.Container lifecycleMu sync.Mutex running map[int][]containerProcess // pid -> running process, guarded by lifecycleMu // Subscriptions to exits for PIDs. Adding/deleting subscriptions and // dereferencing the subscription pointers must only be done while holding // lifecycleMu. exitSubscribers map[*map[int][]runcC.Exit]struct{} shutdown shutdown.Service } type containerProcess struct { Container *runc.Container Process process.Process } // preStart prepares for starting a container process and handling its exit. // The container being started should be passed in as c when starting the // container init process for an already-created container. c should be nil when // creating a container or when starting an exec. // // The returned handleStarted closure records that the process has started so // that its exit can be handled efficiently. If the process has already exited, // it handles the exit immediately. handleStarted should be called after the // event announcing the start of the process has been published. // Note that handleStarted needs to be aware of whether s.mu is already held // when it is called. If s.mu has been held, we don't need to lock it when // calling handleProcessExit. // // The returned cleanup closure releases resources used to handle early exits. // It must be called before the caller of preStart returns, otherwise severe // memory leaks will occur. func (s *service) preStart(c *runc.Container) (handleStarted func(*runc.Container, process.Process, bool), cleanup func()) { exits := make(map[int][]runcC.Exit) s.lifecycleMu.Lock() defer s.lifecycleMu.Unlock() s.exitSubscribers[&exits] = struct{}{} if c != nil { // Remove container init process from s.running so it will once again be // treated as an early exit if it exits before handleStarted is called. pid := c.Pid() var newRunning []containerProcess for _, cp := range s.running[pid] { if cp.Container != c { newRunning = append(newRunning, cp) } } if len(newRunning) > 0 { s.running[pid] = newRunning } else { delete(s.running, pid) } } handleStarted = func(c *runc.Container, p process.Process, muLocked bool) { var pid int if p != nil { pid = p.Pid() } s.lifecycleMu.Lock() ees, exited := exits[pid] delete(s.exitSubscribers, &exits) exits = nil if pid == 0 { // no-op s.lifecycleMu.Unlock() } else if exited { s.lifecycleMu.Unlock() for _, ee := range ees { if muLocked { s.handleProcessExit(ee, c, p) } else { s.mu.Lock() s.handleProcessExit(ee, c, p) s.mu.Unlock() } } } else { s.running[pid] = append(s.running[pid], containerProcess{ Container: c, Process: p, }) s.lifecycleMu.Unlock() } } cleanup = func() { if exits != nil { s.lifecycleMu.Lock() defer s.lifecycleMu.Unlock() delete(s.exitSubscribers, &exits) } } return handleStarted, cleanup } // Create a new initial process and container with the underlying OCI runtime func (s *service) Create(ctx context.Context, r *taskAPI.CreateTaskRequest) (_ *taskAPI.CreateTaskResponse, err error) { s.mu.Lock() defer s.mu.Unlock() handleStarted, cleanup := s.preStart(nil) defer cleanup() container, err := runc.NewContainer(ctx, s.platform, r) if err != nil { return nil, err } s.containers[r.ID] = container s.send(&eventstypes.TaskCreate{ ContainerID: r.ID, Bundle: r.Bundle, Rootfs: r.Rootfs, IO: &eventstypes.TaskIO{ Stdin: r.Stdin, Stdout: r.Stdout, Stderr: r.Stderr, Terminal: r.Terminal, }, Checkpoint: r.Checkpoint, Pid: uint32(container.Pid()), }) // The following line cannot return an error as the only state in which that // could happen would also cause the container.Pid() call above to // nil-deference panic. proc, _ := container.Process("") handleStarted(container, proc, true) return &taskAPI.CreateTaskResponse{ Pid: uint32(container.Pid()), }, nil } func (s *service) RegisterTTRPC(server *ttrpc.Server) error { taskAPI.RegisterTaskService(server, s) return nil } // Start a process func (s *service) Start(ctx context.Context, r *taskAPI.StartRequest) (*taskAPI.StartResponse, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } var cinit *runc.Container if r.ExecID == "" { cinit = container } handleStarted, cleanup := s.preStart(cinit) defer cleanup() p, err := container.Start(ctx, r) if err != nil { handleStarted(container, p, false) return nil, errdefs.ToGRPC(err) } switch r.ExecID { case "": switch cg := container.Cgroup().(type) { case cgroup1.Cgroup: if err := s.ep.Add(container.ID, cg); err != nil { log.G(ctx).WithError(err).Error("add cg to OOM monitor") } case *cgroupsv2.Manager: allControllers, err := cg.RootControllers() if err != nil { log.G(ctx).WithError(err).Error("failed to get root controllers") } else { if err := cg.ToggleControllers(allControllers, cgroupsv2.Enable); err != nil { if userns.RunningInUserNS() { log.G(ctx).WithError(err).Debugf("failed to enable controllers (%v)", allControllers) } else { log.G(ctx).WithError(err).Errorf("failed to enable controllers (%v)", allControllers) } } } if err := s.ep.Add(container.ID, cg); err != nil { log.G(ctx).WithError(err).Error("add cg to OOM monitor") } } s.send(&eventstypes.TaskStart{ ContainerID: container.ID, Pid: uint32(p.Pid()), }) default: s.send(&eventstypes.TaskExecStarted{ ContainerID: container.ID, ExecID: r.ExecID, Pid: uint32(p.Pid()), }) } handleStarted(container, p, false) return &taskAPI.StartResponse{ Pid: uint32(p.Pid()), }, nil } // Delete the initial process and container func (s *service) Delete(ctx context.Context, r *taskAPI.DeleteRequest) (*taskAPI.DeleteResponse, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } p, err := container.Delete(ctx, r) if err != nil { return nil, errdefs.ToGRPC(err) } // if we deleted an init task, send the task delete event if r.ExecID == "" { s.mu.Lock() delete(s.containers, r.ID) s.mu.Unlock() s.send(&eventstypes.TaskDelete{ ContainerID: container.ID, Pid: uint32(p.Pid()), ExitStatus: uint32(p.ExitStatus()), ExitedAt: protobuf.ToTimestamp(p.ExitedAt()), }) } return &taskAPI.DeleteResponse{ ExitStatus: uint32(p.ExitStatus()), ExitedAt: protobuf.ToTimestamp(p.ExitedAt()), Pid: uint32(p.Pid()), }, nil } // Exec an additional process inside the container func (s *service) Exec(ctx context.Context, r *taskAPI.ExecProcessRequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } ok, cancel := container.ReserveProcess(r.ExecID) if !ok { return nil, errdefs.ToGRPCf(errdefs.ErrAlreadyExists, "id %s", r.ExecID) } process, err := container.Exec(ctx, r) if err != nil { cancel() return nil, errdefs.ToGRPC(err) } s.send(&eventstypes.TaskExecAdded{ ContainerID: container.ID, ExecID: process.ID(), }) return empty, nil } // ResizePty of a process func (s *service) ResizePty(ctx context.Context, r *taskAPI.ResizePtyRequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } if err := container.ResizePty(ctx, r); err != nil { return nil, errdefs.ToGRPC(err) } return empty, nil } // State returns runtime state information for a process func (s *service) State(ctx context.Context, r *taskAPI.StateRequest) (*taskAPI.StateResponse, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } p, err := container.Process(r.ExecID) if err != nil { return nil, errdefs.ToGRPC(err) } st, err := p.Status(ctx) if err != nil { return nil, err } status := task.Status_UNKNOWN switch st { case "created": status = task.Status_CREATED case "running": status = task.Status_RUNNING case "stopped": status = task.Status_STOPPED case "paused": status = task.Status_PAUSED case "pausing": status = task.Status_PAUSING } sio := p.Stdio() return &taskAPI.StateResponse{ ID: p.ID(), Bundle: container.Bundle, Pid: uint32(p.Pid()), Status: status, Stdin: sio.Stdin, Stdout: sio.Stdout, Stderr: sio.Stderr, Terminal: sio.Terminal, ExitStatus: uint32(p.ExitStatus()), ExitedAt: protobuf.ToTimestamp(p.ExitedAt()), }, nil } // Pause the container func (s *service) Pause(ctx context.Context, r *taskAPI.PauseRequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } if err := container.Pause(ctx); err != nil { return nil, errdefs.ToGRPC(err) } s.send(&eventstypes.TaskPaused{ ContainerID: container.ID, }) return empty, nil } // Resume the container func (s *service) Resume(ctx context.Context, r *taskAPI.ResumeRequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } if err := container.Resume(ctx); err != nil { return nil, errdefs.ToGRPC(err) } s.send(&eventstypes.TaskResumed{ ContainerID: container.ID, }) return empty, nil } // Kill a process with the provided signal func (s *service) Kill(ctx context.Context, r *taskAPI.KillRequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } if err := container.Kill(ctx, r); err != nil { return nil, errdefs.ToGRPC(err) } return empty, nil } // Pids returns all pids inside the container func (s *service) Pids(ctx context.Context, r *taskAPI.PidsRequest) (*taskAPI.PidsResponse, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } pids, err := s.getContainerPids(ctx, container) if err != nil { return nil, errdefs.ToGRPC(err) } var processes []*task.ProcessInfo for _, pid := range pids { pInfo := task.ProcessInfo{ Pid: pid, } for _, p := range container.ExecdProcesses() { if p.Pid() == int(pid) { d := &options.ProcessDetails{ ExecID: p.ID(), } a, err := protobuf.MarshalAnyToProto(d) if err != nil { return nil, fmt.Errorf("failed to marshal process %d info: %w", pid, err) } pInfo.Info = a break } } processes = append(processes, &pInfo) } return &taskAPI.PidsResponse{ Processes: processes, }, nil } // CloseIO of a process func (s *service) CloseIO(ctx context.Context, r *taskAPI.CloseIORequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } if err := container.CloseIO(ctx, r); err != nil { return nil, err } return empty, nil } // Checkpoint the container func (s *service) Checkpoint(ctx context.Context, r *taskAPI.CheckpointTaskRequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } if err := container.Checkpoint(ctx, r); err != nil { return nil, errdefs.ToGRPC(err) } return empty, nil } // Update a running container func (s *service) Update(ctx context.Context, r *taskAPI.UpdateTaskRequest) (*ptypes.Empty, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } if err := container.Update(ctx, r); err != nil { return nil, errdefs.ToGRPC(err) } return empty, nil } // Wait for a process to exit func (s *service) Wait(ctx context.Context, r *taskAPI.WaitRequest) (*taskAPI.WaitResponse, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } p, err := container.Process(r.ExecID) if err != nil { return nil, errdefs.ToGRPC(err) } p.Wait() return &taskAPI.WaitResponse{ ExitStatus: uint32(p.ExitStatus()), ExitedAt: protobuf.ToTimestamp(p.ExitedAt()), }, nil } // Connect returns shim information such as the shim's pid func (s *service) Connect(ctx context.Context, r *taskAPI.ConnectRequest) (*taskAPI.ConnectResponse, error) { var pid int if container, err := s.getContainer(r.ID); err == nil { pid = container.Pid() } return &taskAPI.ConnectResponse{ ShimPid: uint32(os.Getpid()), TaskPid: uint32(pid), }, nil } func (s *service) Shutdown(ctx context.Context, r *taskAPI.ShutdownRequest) (*ptypes.Empty, error) { s.mu.Lock() defer s.mu.Unlock() // return out if the shim is still servicing containers if len(s.containers) > 0 { return empty, nil } // please make sure that temporary resource has been cleanup or registered // for cleanup before calling shutdown s.shutdown.Shutdown() return empty, nil } func (s *service) Stats(ctx context.Context, r *taskAPI.StatsRequest) (*taskAPI.StatsResponse, error) { container, err := s.getContainer(r.ID) if err != nil { return nil, err } cgx := container.Cgroup() if cgx == nil { return nil, errdefs.ToGRPCf(errdefs.ErrNotFound, "cgroup does not exist") } var statsx interface{} switch cg := cgx.(type) { case cgroup1.Cgroup: stats, err := cg.Stat(cgroup1.IgnoreNotExist) if err != nil { return nil, err } statsx = stats case *cgroupsv2.Manager: stats, err := cg.Stat() if err != nil { return nil, err } statsx = stats default: return nil, errdefs.ToGRPCf(errdefs.ErrNotImplemented, "unsupported cgroup type %T", cg) } data, err := typeurl.MarshalAny(statsx) if err != nil { return nil, err } return &taskAPI.StatsResponse{ Stats: protobuf.FromAny(data), }, nil } func (s *service) processExits() { for e := range s.ec { // While unlikely, it is not impossible for a container process to exit // and have its PID be recycled for a new container process before we // have a chance to process the first exit. As we have no way to tell // for sure which of the processes the exit event corresponds to (until // pidfd support is implemented) there is no way for us to handle the // exit correctly in that case. s.lifecycleMu.Lock() // Inform any concurrent s.Start() calls so they can handle the exit // if the PID belongs to them. for subscriber := range s.exitSubscribers { (*subscriber)[e.Pid] = append((*subscriber)[e.Pid], e) } // Handle the exit for a created/started process. If there's more than // one, assume they've all exited. One of them will be the correct // process. cps := s.running[e.Pid] delete(s.running, e.Pid) s.lifecycleMu.Unlock() for _, cp := range cps { s.mu.Lock() s.handleProcessExit(e, cp.Container, cp.Process) s.mu.Unlock() } } } func (s *service) send(evt interface{}) { s.events <- evt } // s.mu must be locked when calling handleProcessExit func (s *service) handleProcessExit(e runcC.Exit, c *runc.Container, p process.Process) { if ip, ok := p.(*process.Init); ok { // Ensure all children are killed if runc.ShouldKillAllOnExit(s.context, c.Bundle) { if err := ip.KillAll(s.context); err != nil { log.G(s.context).WithError(err).WithField("id", ip.ID()). Error("failed to kill init's children") } } } p.SetExited(e.Status) s.send(&eventstypes.TaskExit{ ContainerID: c.ID, ID: p.ID(), Pid: uint32(e.Pid), ExitStatus: uint32(e.Status), ExitedAt: protobuf.ToTimestamp(p.ExitedAt()), }) } func (s *service) getContainerPids(ctx context.Context, container *runc.Container) ([]uint32, error) { p, err := container.Process("") if err != nil { return nil, errdefs.ToGRPC(err) } ps, err := p.(*process.Init).Runtime().Ps(ctx, container.ID) if err != nil { return nil, err } pids := make([]uint32, 0, len(ps)) for _, pid := range ps { pids = append(pids, uint32(pid)) } return pids, nil } func (s *service) forward(ctx context.Context, publisher shim.Publisher) { ns, _ := namespaces.Namespace(ctx) ctx = namespaces.WithNamespace(context.Background(), ns) for e := range s.events { err := publisher.Publish(ctx, runtime.GetTopic(e), e) if err != nil { log.G(ctx).WithError(err).Error("post event") } } publisher.Close() } func (s *service) getContainer(id string) (*runc.Container, error) { s.mu.Lock() container := s.containers[id] s.mu.Unlock() if container == nil { return nil, errdefs.ToGRPCf(errdefs.ErrNotFound, "container not created") } return container, nil } // initialize a single epoll fd to manage our consoles. `initPlatform` should // only be called once. func (s *service) initPlatform() error { if s.platform != nil { return nil } p, err := runc.NewPlatform() if err != nil { return err } s.platform = p s.shutdown.RegisterCallback(func(context.Context) error { return s.platform.Close() }) return nil }