open-nomad/client/driver/docker_coordinator.go

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package driver
import (
"context"
"fmt"
"log"
"regexp"
"sync"
"time"
docker "github.com/fsouza/go-dockerclient"
"github.com/hashicorp/nomad/nomad/structs"
)
var (
// createCoordinator allows us to only create a single coordinator
createCoordinator sync.Once
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// globalCoordinator is the shared coordinator and should only be retrieved
// using the GetDockerCoordinator() method.
globalCoordinator *dockerCoordinator
// imageNotFoundMatcher is a regex expression that matches the image not
// found error Docker returns.
imageNotFoundMatcher = regexp.MustCompile(`Error: image .+ not found`)
)
const (
// dockerPullProgressEmitInterval is the interval at which the pull progress
// is emitted to the allocation
dockerPullProgressEmitInterval = 2 * time.Minute
)
// pullFuture is a sharable future for retrieving a pulled images ID and any
// error that may have occurred during the pull.
type pullFuture struct {
waitCh chan struct{}
err error
imageID string
}
// newPullFuture returns a new pull future
func newPullFuture() *pullFuture {
return &pullFuture{
waitCh: make(chan struct{}),
}
}
// wait waits till the future has a result
func (p *pullFuture) wait() *pullFuture {
<-p.waitCh
return p
}
// result returns the results of the future and should only ever be called after
// wait returns.
func (p *pullFuture) result() (imageID string, err error) {
return p.imageID, p.err
}
// set is used to set the results and unblock any waiter. This may only be
// called once.
func (p *pullFuture) set(imageID string, err error) {
p.imageID = imageID
p.err = err
close(p.waitCh)
}
// DockerImageClient provides the methods required to do CRUD operations on the
// Docker images
type DockerImageClient interface {
PullImage(opts docker.PullImageOptions, auth docker.AuthConfiguration) error
InspectImage(id string) (*docker.Image, error)
RemoveImage(id string) error
}
// dockerCoordinatorConfig is used to configure the Docker coordinator.
type dockerCoordinatorConfig struct {
// logger is the logger the coordinator should use
logger *log.Logger
// cleanup marks whether images should be deleting when the reference count
// is zero
cleanup bool
// client is the Docker client to use for communicating with Docker
client DockerImageClient
// removeDelay is the delay between an image's reference count going to
// zero and the image actually being deleted.
removeDelay time.Duration
}
// dockerCoordinator is used to coordinate actions against images to prevent
// racy deletions. It can be thought of as a reference counter on images.
type dockerCoordinator struct {
*dockerCoordinatorConfig
// imageLock is used to lock access to all images
imageLock sync.Mutex
// pullFutures is used to allow multiple callers to pull the same image but
// only have one request be sent to Docker
pullFutures map[string]*pullFuture
// pullLoggers is used to track the LogEventFn for each alloc pulling an image
pullLoggers map[string][]LogEventFn
// pullLoggerLock is used to sync access to the pullLoggers map
pullLoggerLock sync.RWMutex
// imageRefCount is the reference count of image IDs
imageRefCount map[string]map[string]struct{}
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// deleteFuture is indexed by image ID and has a cancelable delete future
deleteFuture map[string]context.CancelFunc
}
// NewDockerCoordinator returns a new Docker coordinator
func NewDockerCoordinator(config *dockerCoordinatorConfig) *dockerCoordinator {
if config.client == nil {
return nil
}
return &dockerCoordinator{
dockerCoordinatorConfig: config,
pullFutures: make(map[string]*pullFuture),
pullLoggers: make(map[string][]LogEventFn),
imageRefCount: make(map[string]map[string]struct{}),
deleteFuture: make(map[string]context.CancelFunc),
}
}
// GetDockerCoordinator returns the shared dockerCoordinator instance
func GetDockerCoordinator(config *dockerCoordinatorConfig) *dockerCoordinator {
createCoordinator.Do(func() {
globalCoordinator = NewDockerCoordinator(config)
})
return globalCoordinator
}
// PullImage is used to pull an image. It returns the pulled imaged ID or an
// error that occurred during the pull
func (d *dockerCoordinator) PullImage(image string, authOptions *docker.AuthConfiguration, pullTimeout time.Duration, callerID string, emitFn LogEventFn) (imageID string, err error) {
// Get the future
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d.imageLock.Lock()
future, ok := d.pullFutures[image]
d.registerPullLogger(image, emitFn)
if !ok {
// Make the future
future = newPullFuture()
d.pullFutures[image] = future
go d.pullImageImpl(image, authOptions, pullTimeout, future)
}
d.imageLock.Unlock()
// We unlock while we wait since this can take a while
id, err := future.wait().result()
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d.imageLock.Lock()
defer d.imageLock.Unlock()
// Delete the future since we don't need it and we don't want to cache an
// image being there if it has possibly been manually deleted (outside of
// Nomad).
if _, ok := d.pullFutures[image]; ok {
delete(d.pullFutures, image)
}
// If we are cleaning up, we increment the reference count on the image
if err == nil && d.cleanup {
d.incrementImageReferenceImpl(id, image, callerID)
}
return id, err
}
// pullImageImpl is the implementation of pulling an image. The results are
// returned via the passed future
func (d *dockerCoordinator) pullImageImpl(image string, authOptions *docker.AuthConfiguration, pullTimeout time.Duration, future *pullFuture) {
defer d.clearPullLogger(image)
// Parse the repo and tag
repo, tag := docker.ParseRepositoryTag(image)
if tag == "" {
tag = "latest"
}
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
if pullTimeout > 0 {
ctx, cancel = context.WithDeadline(ctx, time.Now().Add(pullTimeout))
}
pm := newImageProgressManager(image, cancel, d.handlePullInactivity, d.handlePullProgressReport)
pullOptions := docker.PullImageOptions{
Repository: repo,
Tag: tag,
OutputStream: pm,
RawJSONStream: true,
Context: ctx,
}
// Attempt to pull the image
var auth docker.AuthConfiguration
if authOptions != nil {
auth = *authOptions
}
pm.start()
defer pm.stop()
err := d.client.PullImage(pullOptions, auth)
if ctxErr := ctx.Err(); ctxErr == context.DeadlineExceeded {
d.logger.Printf("[ERR] driver.docker: timeout pulling container %s:%s", repo, tag)
future.set("", recoverablePullError(ctxErr, image))
return
}
if err != nil {
d.logger.Printf("[ERR] driver.docker: failed pulling container %s:%s: %s", repo, tag, err)
future.set("", recoverablePullError(err, image))
return
}
d.logger.Printf("[DEBUG] driver.docker: docker pull %s:%s succeeded", repo, tag)
dockerImage, err := d.client.InspectImage(image)
if err != nil {
d.logger.Printf("[ERR] driver.docker: failed getting image id for %q: %v", image, err)
future.set("", recoverableErrTimeouts(err))
return
}
future.set(dockerImage.ID, nil)
return
}
// IncrementImageReference is used to increment an image reference count
func (d *dockerCoordinator) IncrementImageReference(imageID, imageName, callerID string) {
d.imageLock.Lock()
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defer d.imageLock.Unlock()
if d.cleanup {
d.incrementImageReferenceImpl(imageID, imageName, callerID)
}
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}
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// incrementImageReferenceImpl assumes the lock is held
func (d *dockerCoordinator) incrementImageReferenceImpl(imageID, imageName, callerID string) {
// Cancel any pending delete
if cancel, ok := d.deleteFuture[imageID]; ok {
d.logger.Printf("[DEBUG] driver.docker: cancelling removal of image %q", imageName)
cancel()
delete(d.deleteFuture, imageID)
}
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// Increment the reference
references, ok := d.imageRefCount[imageID]
if !ok {
references = make(map[string]struct{})
d.imageRefCount[imageID] = references
}
if _, ok := references[callerID]; !ok {
references[callerID] = struct{}{}
d.logger.Printf("[DEBUG] driver.docker: image %q (%v) reference count incremented: %d", imageName, imageID, len(references))
}
}
// RemoveImage removes the given image. If there are any errors removing the
// image, the remove is retried internally.
func (d *dockerCoordinator) RemoveImage(imageID, callerID string) {
d.imageLock.Lock()
defer d.imageLock.Unlock()
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if !d.cleanup {
return
}
references, ok := d.imageRefCount[imageID]
if !ok {
d.logger.Printf("[WARN] driver.docker: RemoveImage on non-referenced counted image id %q", imageID)
return
}
// Decrement the reference count
delete(references, callerID)
count := len(references)
d.logger.Printf("[DEBUG] driver.docker: image id %q reference count decremented: %d", imageID, count)
// Nothing to do
if count != 0 {
return
}
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// This should never be the case but we safety guard so we don't leak a
// cancel.
if cancel, ok := d.deleteFuture[imageID]; ok {
d.logger.Printf("[ERR] driver.docker: image id %q has lingering delete future", imageID)
cancel()
}
// Setup a future to delete the image
ctx, cancel := context.WithCancel(context.Background())
d.deleteFuture[imageID] = cancel
go d.removeImageImpl(imageID, ctx)
// Delete the key from the reference count
delete(d.imageRefCount, imageID)
}
// removeImageImpl is used to remove an image. It wil wait the specified remove
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// delay to remove the image. If the context is cancelled before that the image
// removal will be cancelled.
func (d *dockerCoordinator) removeImageImpl(id string, ctx context.Context) {
// Wait for the delay or a cancellation event
select {
case <-ctx.Done():
// We have been cancelled
return
case <-time.After(d.removeDelay):
}
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// Ensure we are suppose to delete. Do a short check while holding the lock
// so there can't be interleaving. There is still the smallest chance that
// the delete occurs after the image has been pulled but before it has been
// incremented. For handling that we just treat it as a recoverable error in
// the docker driver.
d.imageLock.Lock()
select {
case <-ctx.Done():
d.imageLock.Unlock()
return
default:
}
d.imageLock.Unlock()
for i := 0; i < 3; i++ {
err := d.client.RemoveImage(id)
if err == nil {
break
}
if err == docker.ErrNoSuchImage {
d.logger.Printf("[DEBUG] driver.docker: unable to cleanup image %q: does not exist", id)
return
}
if derr, ok := err.(*docker.Error); ok && derr.Status == 409 {
d.logger.Printf("[DEBUG] driver.docker: unable to cleanup image %q: still in use", id)
return
}
// Retry on unknown errors
d.logger.Printf("[DEBUG] driver.docker: failed to remove image %q (attempt %d): %v", id, i+1, err)
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select {
case <-ctx.Done():
// We have been cancelled
return
case <-time.After(3 * time.Second):
}
}
d.logger.Printf("[DEBUG] driver.docker: cleanup removed downloaded image: %q", id)
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// Cleanup the future from the map and free the context by cancelling it
d.imageLock.Lock()
if cancel, ok := d.deleteFuture[id]; ok {
delete(d.deleteFuture, id)
cancel()
}
d.imageLock.Unlock()
}
func (d *dockerCoordinator) registerPullLogger(image string, logger LogEventFn) {
d.pullLoggerLock.Lock()
defer d.pullLoggerLock.Unlock()
if _, ok := d.pullLoggers[image]; !ok {
d.pullLoggers[image] = []LogEventFn{}
}
d.pullLoggers[image] = append(d.pullLoggers[image], logger)
}
func (d *dockerCoordinator) clearPullLogger(image string) {
d.pullLoggerLock.Lock()
defer d.pullLoggerLock.Unlock()
delete(d.pullLoggers, image)
}
func (d *dockerCoordinator) emitEvent(image, message string, args ...interface{}) {
d.pullLoggerLock.RLock()
defer d.pullLoggerLock.RUnlock()
for i := range d.pullLoggers[image] {
go d.pullLoggers[image][i](message, args...)
}
}
func (d *dockerCoordinator) handlePullInactivity(image, msg string, timestamp, pullStart time.Time) {
d.logger.Printf("[ERR] driver.docker: image %s pull aborted due to inactivity, last message recevieved at [%s]: %s", image, timestamp.String(), msg)
}
func (d *dockerCoordinator) handlePullProgressReport(image, msg string, timestamp, pullStart time.Time) {
d.logger.Printf("[DEBUG] driver.docker: image %s pull progress: %s", image, msg)
if timestamp.Sub(pullStart) > dockerPullProgressEmitInterval {
d.emitEvent(image, "Docker image %s pull progress: %s", image, msg)
}
}
// recoverablePullError wraps the error gotten when trying to pull and image if
// the error is recoverable.
func recoverablePullError(err error, image string) error {
recoverable := true
if imageNotFoundMatcher.MatchString(err.Error()) {
recoverable = false
}
return structs.NewRecoverableError(fmt.Errorf("Failed to pull `%s`: %s", image, err), recoverable)
}