package libpod import ( "fmt" "github.com/containers/libpod/libpod/events" "github.com/pkg/errors" "github.com/sirupsen/logrus" ) // newEventer returns an eventer that can be used to read/write events func (r *Runtime) newEventer() (events.Eventer, error) { options := events.EventerOptions{ EventerType: r.config.EventsLogger, LogFilePath: r.config.EventsLogFilePath, } return events.NewEventer(options) } // newContainerEvent creates a new event based on a container func (c *Container) newContainerEvent(status events.Status) { e := events.NewEvent(status) e.ID = c.ID() e.Name = c.Name() e.Image = c.config.RootfsImageName e.Type = events.Container if err := c.runtime.eventer.Write(e); err != nil { logrus.Errorf("unable to write pod event: %q", err) } } // newContainerExitedEvent creates a new event for a container's death func (c *Container) newContainerExitedEvent(exitCode int32) { e := events.NewEvent(events.Exited) e.ID = c.ID() e.Name = c.Name() e.Image = c.config.RootfsImageName e.Type = events.Container e.ContainerExitCode = int(exitCode) if err := c.runtime.eventer.Write(e); err != nil { logrus.Errorf("unable to write pod event: %q", err) } } // newPodEvent creates a new event for a libpod pod func (p *Pod) newPodEvent(status events.Status) { e := events.NewEvent(status) e.ID = p.ID() e.Name = p.Name() e.Type = events.Pod if err := p.runtime.eventer.Write(e); err != nil { logrus.Errorf("unable to write pod event: %q", err) } } // newSystemEvent creates a new event for libpod as a whole. func (r *Runtime) newSystemEvent(status events.Status) { e := events.NewEvent(status) e.Type = events.System if err := r.eventer.Write(e); err != nil { logrus.Errorf("unable to write system event: %q", err) } } // newVolumeEvent creates a new event for a libpod volume func (v *Volume) newVolumeEvent(status events.Status) { e := events.NewEvent(status) e.Name = v.Name() e.Type = events.Volume if err := v.runtime.eventer.Write(e); err != nil { logrus.Errorf("unable to write volume event: %q", err) } } // Events is a wrapper function for everyone to begin tailing the events log // with options func (r *Runtime) Events(options events.ReadOptions) error { eventer, err := r.newEventer() if err != nil { return err } return eventer.Read(options) } // GetEvents reads the event log and returns events based on input filters func (r *Runtime) GetEvents(filters []string) ([]*events.Event, error) { var ( logEvents []*events.Event readErr error ) eventChannel := make(chan *events.Event) options := events.ReadOptions{ EventChannel: eventChannel, Filters: filters, FromStart: true, Stream: false, } eventer, err := r.newEventer() if err != nil { return nil, err } go func() { readErr = eventer.Read(options) }() if readErr != nil { return nil, readErr } for e := range eventChannel { logEvents = append(logEvents, e) } return logEvents, nil } // GetLastContainerEvent takes a container name or ID and an event status and returns // the last occurrence of the container event func (r *Runtime) GetLastContainerEvent(nameOrID string, containerEvent events.Status) (*events.Event, error) { // check to make sure the event.Status is valid if _, err := events.StringToStatus(containerEvent.String()); err != nil { return nil, err } filters := []string{ fmt.Sprintf("container=%s", nameOrID), fmt.Sprintf("event=%s", containerEvent), "type=container", } containerEvents, err := r.GetEvents(filters) if err != nil { return nil, err } if len(containerEvents) < 1 { return nil, errors.Wrapf(events.ErrEventNotFound, "%s not found", containerEvent.String()) } // return the last element in the slice return containerEvents[len(containerEvents)-1], nil }