package containerd import ( "os" "path/filepath" goruntime "runtime" "github.com/Sirupsen/logrus" "github.com/docker/containerd/runtime" "github.com/opencontainers/runc/libcontainer" ) // NewSupervisor returns an initialized Process supervisor. func NewSupervisor(stateDir string, tasks chan *StartTask) (*Supervisor, error) { if err := os.MkdirAll(stateDir, 0755); err != nil { return nil, err } // register counters r, err := newRuntime(stateDir) if err != nil { return nil, err } j, err := newJournal(filepath.Join(stateDir, "journal.json")) if err != nil { return nil, err } machine, err := CollectMachineInformation() if err != nil { return nil, err } s := &Supervisor{ stateDir: stateDir, containers: make(map[string]runtime.Container), processes: make(map[int]runtime.Container), runtime: r, journal: j, tasks: tasks, events: make(chan *Event, 2048), machine: machine, } // register default event handlers s.handlers = map[EventType]Handler{ ExecExitEventType: &ExecExitEvent{s}, ExitEventType: &ExitEvent{s}, StartContainerEventType: &StartEvent{s}, DeleteEventType: &DeleteEvent{s}, GetContainerEventType: &GetContainersEvent{s}, SignalEventType: &SignalEvent{s}, AddProcessEventType: &AddProcessEvent{s}, UpdateContainerEventType: &UpdateEvent{s}, } // start the container workers for concurrent container starts return s, nil } type Supervisor struct { // stateDir is the directory on the system to store container runtime state information. stateDir string containers map[string]runtime.Container processes map[int]runtime.Container handlers map[EventType]Handler runtime runtime.Runtime journal *journal events chan *Event tasks chan *StartTask subscribers map[subscriber]bool machine Machine } type subscriber chan *Event // need proper close logic for jobs and stuff so that sending to the channels dont panic // but can complete jobs func (s *Supervisor) Close() error { //TODO: unsubscribe all channels return s.journal.Close() } func (s *Supervisor) Events() subscriber { return subscriber(make(chan *Event)) } func (s *Supervisor) Unsubscribe(sub subscriber) { delete(s.subscribers, sub) } func (s *Supervisor) NotifySubscribers(e *Event) { for sub := range s.subscribers { sub <- e } } // Start is a non-blocking call that runs the supervisor for monitoring contianer processes and // executing new containers. // // This event loop is the only thing that is allowed to modify state of containers and processes. func (s *Supervisor) Start() error { go func() { // allocate an entire thread to this goroutine for the main event loop // so that nothing else is scheduled over the top of it. goruntime.LockOSThread() for e := range s.events { EventsCounter.Inc(1) s.journal.write(e) h, ok := s.handlers[e.Type] if !ok { e.Err <- ErrUnknownEvent continue } if err := h.Handle(e); err != nil { if err != errDeferedResponse { e.Err <- err close(e.Err) } continue } close(e.Err) } }() return nil } // Machine returns the machine information for which the // supervisor is executing on. func (s *Supervisor) Machine() Machine { return s.machine } func (s *Supervisor) getContainerForPid(pid int) (runtime.Container, error) { for _, container := range s.containers { cpid, err := container.Pid() if err != nil { if lerr, ok := err.(libcontainer.Error); ok { if lerr.Code() == libcontainer.ProcessNotExecuted { continue } } logrus.WithField("error", err).Error("containerd: get container pid") } if pid == cpid { return container, nil } } return nil, errNoContainerForPid } func (s *Supervisor) SendEvent(evt *Event) { s.events <- evt }