consul/vendor/github.com/fsouza/go-dockerclient/event.go

392 lines
10 KiB
Go

// Copyright 2014 go-dockerclient authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package docker
import (
"encoding/json"
"errors"
"fmt"
"io"
"math"
"net"
"net/http"
"net/http/httputil"
"sync"
"sync/atomic"
"time"
)
// APIEvents represents events coming from the Docker API
// The fields in the Docker API changed in API version 1.22, and
// events for more than images and containers are now fired off.
// To maintain forward and backward compatibility, go-dockerclient
// replicates the event in both the new and old format as faithfully as possible.
//
// For events that only exist in 1.22 in later, `Status` is filled in as
// `"Type:Action"` instead of just `Action` to allow for older clients to
// differentiate and not break if they rely on the pre-1.22 Status types.
//
// The transformEvent method can be consulted for more information about how
// events are translated from new/old API formats
type APIEvents struct {
// New API Fields in 1.22
Action string `json:"action,omitempty"`
Type string `json:"type,omitempty"`
Actor APIActor `json:"actor,omitempty"`
// Old API fields for < 1.22
Status string `json:"status,omitempty"`
ID string `json:"id,omitempty"`
From string `json:"from,omitempty"`
// Fields in both
Time int64 `json:"time,omitempty"`
TimeNano int64 `json:"timeNano,omitempty"`
}
// APIActor represents an actor that accomplishes something for an event
type APIActor struct {
ID string `json:"id,omitempty"`
Attributes map[string]string `json:"attributes,omitempty"`
}
type eventMonitoringState struct {
// `sync/atomic` expects the first word in an allocated struct to be 64-bit
// aligned on both ARM and x86-32. See https://goo.gl/zW7dgq for more details.
lastSeen int64
sync.RWMutex
sync.WaitGroup
enabled bool
C chan *APIEvents
errC chan error
listeners []chan<- *APIEvents
}
const (
maxMonitorConnRetries = 5
retryInitialWaitTime = 10.
)
var (
// ErrNoListeners is the error returned when no listeners are available
// to receive an event.
ErrNoListeners = errors.New("no listeners present to receive event")
// ErrListenerAlreadyExists is the error returned when the listerner already
// exists.
ErrListenerAlreadyExists = errors.New("listener already exists for docker events")
// ErrTLSNotSupported is the error returned when the client does not support
// TLS (this applies to the Windows named pipe client).
ErrTLSNotSupported = errors.New("tls not supported by this client")
// EOFEvent is sent when the event listener receives an EOF error.
EOFEvent = &APIEvents{
Type: "EOF",
Status: "EOF",
}
)
// AddEventListener adds a new listener to container events in the Docker API.
//
// The parameter is a channel through which events will be sent.
func (c *Client) AddEventListener(listener chan<- *APIEvents) error {
var err error
if !c.eventMonitor.isEnabled() {
err = c.eventMonitor.enableEventMonitoring(c)
if err != nil {
return err
}
}
return c.eventMonitor.addListener(listener)
}
// RemoveEventListener removes a listener from the monitor.
func (c *Client) RemoveEventListener(listener chan *APIEvents) error {
err := c.eventMonitor.removeListener(listener)
if err != nil {
return err
}
if c.eventMonitor.listernersCount() == 0 {
c.eventMonitor.disableEventMonitoring()
}
return nil
}
func (eventState *eventMonitoringState) addListener(listener chan<- *APIEvents) error {
eventState.Lock()
defer eventState.Unlock()
if listenerExists(listener, &eventState.listeners) {
return ErrListenerAlreadyExists
}
eventState.Add(1)
eventState.listeners = append(eventState.listeners, listener)
return nil
}
func (eventState *eventMonitoringState) removeListener(listener chan<- *APIEvents) error {
eventState.Lock()
defer eventState.Unlock()
if listenerExists(listener, &eventState.listeners) {
var newListeners []chan<- *APIEvents
for _, l := range eventState.listeners {
if l != listener {
newListeners = append(newListeners, l)
}
}
eventState.listeners = newListeners
eventState.Add(-1)
}
return nil
}
func (eventState *eventMonitoringState) closeListeners() {
for _, l := range eventState.listeners {
close(l)
eventState.Add(-1)
}
eventState.listeners = nil
}
func (eventState *eventMonitoringState) listernersCount() int {
eventState.RLock()
defer eventState.RUnlock()
return len(eventState.listeners)
}
func listenerExists(a chan<- *APIEvents, list *[]chan<- *APIEvents) bool {
for _, b := range *list {
if b == a {
return true
}
}
return false
}
func (eventState *eventMonitoringState) enableEventMonitoring(c *Client) error {
eventState.Lock()
defer eventState.Unlock()
if !eventState.enabled {
eventState.enabled = true
atomic.StoreInt64(&eventState.lastSeen, 0)
eventState.C = make(chan *APIEvents, 100)
eventState.errC = make(chan error, 1)
go eventState.monitorEvents(c)
}
return nil
}
func (eventState *eventMonitoringState) disableEventMonitoring() error {
eventState.Lock()
defer eventState.Unlock()
eventState.closeListeners()
eventState.Wait()
if eventState.enabled {
eventState.enabled = false
close(eventState.C)
close(eventState.errC)
}
return nil
}
func (eventState *eventMonitoringState) monitorEvents(c *Client) {
var err error
for eventState.noListeners() {
time.Sleep(10 * time.Millisecond)
}
if err = eventState.connectWithRetry(c); err != nil {
// terminate if connect failed
eventState.disableEventMonitoring()
return
}
for eventState.isEnabled() {
timeout := time.After(100 * time.Millisecond)
select {
case ev, ok := <-eventState.C:
if !ok {
return
}
if ev == EOFEvent {
eventState.disableEventMonitoring()
return
}
eventState.updateLastSeen(ev)
go eventState.sendEvent(ev)
case err = <-eventState.errC:
if err == ErrNoListeners {
eventState.disableEventMonitoring()
return
} else if err != nil {
defer func() { go eventState.monitorEvents(c) }()
return
}
case <-timeout:
continue
}
}
}
func (eventState *eventMonitoringState) connectWithRetry(c *Client) error {
var retries int
eventState.RLock()
eventChan := eventState.C
errChan := eventState.errC
eventState.RUnlock()
err := c.eventHijack(atomic.LoadInt64(&eventState.lastSeen), eventChan, errChan)
for ; err != nil && retries < maxMonitorConnRetries; retries++ {
waitTime := int64(retryInitialWaitTime * math.Pow(2, float64(retries)))
time.Sleep(time.Duration(waitTime) * time.Millisecond)
eventState.RLock()
eventChan = eventState.C
errChan = eventState.errC
eventState.RUnlock()
err = c.eventHijack(atomic.LoadInt64(&eventState.lastSeen), eventChan, errChan)
}
return err
}
func (eventState *eventMonitoringState) noListeners() bool {
eventState.RLock()
defer eventState.RUnlock()
return len(eventState.listeners) == 0
}
func (eventState *eventMonitoringState) isEnabled() bool {
eventState.RLock()
defer eventState.RUnlock()
return eventState.enabled
}
func (eventState *eventMonitoringState) sendEvent(event *APIEvents) {
eventState.RLock()
defer eventState.RUnlock()
eventState.Add(1)
defer eventState.Done()
if eventState.enabled {
if len(eventState.listeners) == 0 {
eventState.errC <- ErrNoListeners
return
}
for _, listener := range eventState.listeners {
listener <- event
}
}
}
func (eventState *eventMonitoringState) updateLastSeen(e *APIEvents) {
eventState.Lock()
defer eventState.Unlock()
if atomic.LoadInt64(&eventState.lastSeen) < e.Time {
atomic.StoreInt64(&eventState.lastSeen, e.Time)
}
}
func (c *Client) eventHijack(startTime int64, eventChan chan *APIEvents, errChan chan error) error {
uri := "/events"
if startTime != 0 {
uri += fmt.Sprintf("?since=%d", startTime)
}
protocol := c.endpointURL.Scheme
address := c.endpointURL.Path
if protocol != "unix" && protocol != "npipe" {
protocol = "tcp"
address = c.endpointURL.Host
}
var dial net.Conn
var err error
if c.TLSConfig == nil {
dial, err = c.Dialer.Dial(protocol, address)
} else {
netDialer, ok := c.Dialer.(*net.Dialer)
if !ok {
return ErrTLSNotSupported
}
dial, err = tlsDialWithDialer(netDialer, protocol, address, c.TLSConfig)
}
if err != nil {
return err
}
conn := httputil.NewClientConn(dial, nil)
req, err := http.NewRequest("GET", uri, nil)
if err != nil {
return err
}
res, err := conn.Do(req)
if err != nil {
return err
}
go func(res *http.Response, conn *httputil.ClientConn) {
defer conn.Close()
defer res.Body.Close()
decoder := json.NewDecoder(res.Body)
for {
var event APIEvents
if err = decoder.Decode(&event); err != nil {
if err == io.EOF || err == io.ErrUnexpectedEOF {
c.eventMonitor.RLock()
if c.eventMonitor.enabled && c.eventMonitor.C == eventChan {
// Signal that we're exiting.
eventChan <- EOFEvent
}
c.eventMonitor.RUnlock()
break
}
errChan <- err
}
if event.Time == 0 {
continue
}
if !c.eventMonitor.isEnabled() || c.eventMonitor.C != eventChan {
return
}
transformEvent(&event)
eventChan <- &event
}
}(res, conn)
return nil
}
// transformEvent takes an event and determines what version it is from
// then populates both versions of the event
func transformEvent(event *APIEvents) {
// if event version is <= 1.21 there will be no Action and no Type
if event.Action == "" && event.Type == "" {
event.Action = event.Status
event.Actor.ID = event.ID
event.Actor.Attributes = map[string]string{}
switch event.Status {
case "delete", "import", "pull", "push", "tag", "untag":
event.Type = "image"
default:
event.Type = "container"
if event.From != "" {
event.Actor.Attributes["image"] = event.From
}
}
} else {
if event.Status == "" {
if event.Type == "image" || event.Type == "container" {
event.Status = event.Action
} else {
// Because just the Status has been overloaded with different Types
// if an event is not for an image or a container, we prepend the type
// to avoid problems for people relying on actions being only for
// images and containers
event.Status = event.Type + ":" + event.Action
}
}
if event.ID == "" {
event.ID = event.Actor.ID
}
if event.From == "" {
event.From = event.Actor.Attributes["image"]
}
}
}