moby/distribution/xfer/download.go

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package xfer // import "github.com/docker/docker/distribution/xfer"
import (
"context"
"errors"
"fmt"
"io"
"runtime"
"time"
"github.com/docker/distribution"
"github.com/docker/docker/image"
"github.com/docker/docker/layer"
"github.com/docker/docker/pkg/archive"
"github.com/docker/docker/pkg/ioutils"
"github.com/docker/docker/pkg/progress"
"github.com/docker/docker/pkg/system"
"github.com/sirupsen/logrus"
)
const maxDownloadAttempts = 5
// LayerDownloadManager figures out which layers need to be downloaded, then
// registers and downloads those, taking into account dependencies between
// layers.
type LayerDownloadManager struct {
layerStores map[string]layer.Store
tm TransferManager
waitDuration time.Duration
}
// SetConcurrency sets the max concurrent downloads for each pull
func (ldm *LayerDownloadManager) SetConcurrency(concurrency int) {
ldm.tm.SetConcurrency(concurrency)
}
// NewLayerDownloadManager returns a new LayerDownloadManager.
func NewLayerDownloadManager(layerStores map[string]layer.Store, concurrencyLimit int, options ...func(*LayerDownloadManager)) *LayerDownloadManager {
manager := LayerDownloadManager{
layerStores: layerStores,
tm: NewTransferManager(concurrencyLimit),
waitDuration: time.Second,
}
for _, option := range options {
option(&manager)
}
return &manager
}
type downloadTransfer struct {
Transfer
layerStore layer.Store
layer layer.Layer
err error
}
// result returns the layer resulting from the download, if the download
// and registration were successful.
func (d *downloadTransfer) result() (layer.Layer, error) {
return d.layer, d.err
}
// A DownloadDescriptor references a layer that may need to be downloaded.
type DownloadDescriptor interface {
// Key returns the key used to deduplicate downloads.
Key() string
// ID returns the ID for display purposes.
ID() string
// DiffID should return the DiffID for this layer, or an error
// if it is unknown (for example, if it has not been downloaded
// before).
DiffID() (layer.DiffID, error)
// Download is called to perform the download.
Download(ctx context.Context, progressOutput progress.Output) (io.ReadCloser, int64, error)
// Close is called when the download manager is finished with this
// descriptor and will not call Download again or read from the reader
// that Download returned.
Close()
}
// DownloadDescriptorWithRegistered is a DownloadDescriptor that has an
// additional Registered method which gets called after a downloaded layer is
// registered. This allows the user of the download manager to know the DiffID
// of each registered layer. This method is called if a cast to
// DownloadDescriptorWithRegistered is successful.
type DownloadDescriptorWithRegistered interface {
DownloadDescriptor
Registered(diffID layer.DiffID)
}
// Download is a blocking function which ensures the requested layers are
// present in the layer store. It uses the string returned by the Key method to
// deduplicate downloads. If a given layer is not already known to present in
// the layer store, and the key is not used by an in-progress download, the
// Download method is called to get the layer tar data. Layers are then
// registered in the appropriate order. The caller must call the returned
// release function once it is done with the returned RootFS object.
func (ldm *LayerDownloadManager) Download(ctx context.Context, initialRootFS image.RootFS, os string, layers []DownloadDescriptor, progressOutput progress.Output) (image.RootFS, func(), error) {
var (
topLayer layer.Layer
topDownload *downloadTransfer
watcher *Watcher
missingLayer bool
transferKey = ""
downloadsByKey = make(map[string]*downloadTransfer)
)
// Assume that the operating system is the host OS if blank, and validate it
// to ensure we don't cause a panic by an invalid index into the layerstores.
if os == "" {
os = runtime.GOOS
}
if !system.IsOSSupported(os) {
return image.RootFS{}, nil, system.ErrNotSupportedOperatingSystem
}
rootFS := initialRootFS
for _, descriptor := range layers {
key := descriptor.Key()
transferKey += key
if !missingLayer {
missingLayer = true
diffID, err := descriptor.DiffID()
if err == nil {
getRootFS := rootFS
getRootFS.Append(diffID)
l, err := ldm.layerStores[os].Get(getRootFS.ChainID())
if err == nil {
// Layer already exists.
logrus.Debugf("Layer already exists: %s", descriptor.ID())
progress.Update(progressOutput, descriptor.ID(), "Already exists")
if topLayer != nil {
layer.ReleaseAndLog(ldm.layerStores[os], topLayer)
}
topLayer = l
missingLayer = false
rootFS.Append(diffID)
// Register this repository as a source of this layer.
withRegistered, hasRegistered := descriptor.(DownloadDescriptorWithRegistered)
if hasRegistered { // As layerstore may set the driver
withRegistered.Registered(diffID)
}
continue
}
}
}
// Does this layer have the same data as a previous layer in
// the stack? If so, avoid downloading it more than once.
var topDownloadUncasted Transfer
if existingDownload, ok := downloadsByKey[key]; ok {
xferFunc := ldm.makeDownloadFuncFromDownload(descriptor, existingDownload, topDownload, os)
defer topDownload.Transfer.Release(watcher)
topDownloadUncasted, watcher = ldm.tm.Transfer(transferKey, xferFunc, progressOutput)
topDownload = topDownloadUncasted.(*downloadTransfer)
continue
}
// Layer is not known to exist - download and register it.
progress.Update(progressOutput, descriptor.ID(), "Pulling fs layer")
var xferFunc DoFunc
if topDownload != nil {
xferFunc = ldm.makeDownloadFunc(descriptor, "", topDownload, os)
defer topDownload.Transfer.Release(watcher)
} else {
xferFunc = ldm.makeDownloadFunc(descriptor, rootFS.ChainID(), nil, os)
}
topDownloadUncasted, watcher = ldm.tm.Transfer(transferKey, xferFunc, progressOutput)
topDownload = topDownloadUncasted.(*downloadTransfer)
downloadsByKey[key] = topDownload
}
if topDownload == nil {
return rootFS, func() {
if topLayer != nil {
layer.ReleaseAndLog(ldm.layerStores[os], topLayer)
}
}, nil
}
// Won't be using the list built up so far - will generate it
// from downloaded layers instead.
rootFS.DiffIDs = []layer.DiffID{}
defer func() {
if topLayer != nil {
layer.ReleaseAndLog(ldm.layerStores[os], topLayer)
}
}()
select {
case <-ctx.Done():
topDownload.Transfer.Release(watcher)
return rootFS, func() {}, ctx.Err()
case <-topDownload.Done():
break
}
l, err := topDownload.result()
if err != nil {
topDownload.Transfer.Release(watcher)
return rootFS, func() {}, err
}
// Must do this exactly len(layers) times, so we don't include the
// base layer on Windows.
for range layers {
if l == nil {
topDownload.Transfer.Release(watcher)
return rootFS, func() {}, errors.New("internal error: too few parent layers")
}
rootFS.DiffIDs = append([]layer.DiffID{l.DiffID()}, rootFS.DiffIDs...)
l = l.Parent()
}
return rootFS, func() { topDownload.Transfer.Release(watcher) }, err
}
// makeDownloadFunc returns a function that performs the layer download and
// registration. If parentDownload is non-nil, it waits for that download to
// complete before the registration step, and registers the downloaded data
// on top of parentDownload's resulting layer. Otherwise, it registers the
// layer on top of the ChainID given by parentLayer.
func (ldm *LayerDownloadManager) makeDownloadFunc(descriptor DownloadDescriptor, parentLayer layer.ChainID, parentDownload *downloadTransfer, os string) DoFunc {
return func(progressChan chan<- progress.Progress, start <-chan struct{}, inactive chan<- struct{}) Transfer {
d := &downloadTransfer{
Transfer: NewTransfer(),
layerStore: ldm.layerStores[os],
}
go func() {
defer func() {
close(progressChan)
}()
progressOutput := progress.ChanOutput(progressChan)
select {
case <-start:
default:
progress.Update(progressOutput, descriptor.ID(), "Waiting")
<-start
}
if parentDownload != nil {
// Did the parent download already fail or get
// cancelled?
select {
case <-parentDownload.Done():
_, err := parentDownload.result()
if err != nil {
d.err = err
return
}
default:
}
}
var (
downloadReader io.ReadCloser
size int64
err error
retries int
)
defer descriptor.Close()
for {
downloadReader, size, err = descriptor.Download(d.Transfer.Context(), progressOutput)
if err == nil {
break
}
// If an error was returned because the context
// was cancelled, we shouldn't retry.
select {
case <-d.Transfer.Context().Done():
d.err = err
return
default:
}
retries++
if _, isDNR := err.(DoNotRetry); isDNR || retries == maxDownloadAttempts {
logrus.Errorf("Download failed: %v", err)
d.err = err
return
}
logrus.Errorf("Download failed, retrying: %v", err)
delay := retries * 5
ticker := time.NewTicker(ldm.waitDuration)
selectLoop:
for {
progress.Updatef(progressOutput, descriptor.ID(), "Retrying in %d second%s", delay, (map[bool]string{true: "s"})[delay != 1])
select {
case <-ticker.C:
delay--
if delay == 0 {
ticker.Stop()
break selectLoop
}
case <-d.Transfer.Context().Done():
ticker.Stop()
d.err = errors.New("download cancelled during retry delay")
return
}
}
}
close(inactive)
if parentDownload != nil {
select {
case <-d.Transfer.Context().Done():
d.err = errors.New("layer registration cancelled")
downloadReader.Close()
return
case <-parentDownload.Done():
}
l, err := parentDownload.result()
if err != nil {
d.err = err
downloadReader.Close()
return
}
parentLayer = l.ChainID()
}
reader := progress.NewProgressReader(ioutils.NewCancelReadCloser(d.Transfer.Context(), downloadReader), progressOutput, size, descriptor.ID(), "Extracting")
defer reader.Close()
inflatedLayerData, err := archive.DecompressStream(reader)
if err != nil {
d.err = fmt.Errorf("could not get decompression stream: %v", err)
return
}
var src distribution.Descriptor
if fs, ok := descriptor.(distribution.Describable); ok {
src = fs.Descriptor()
}
if ds, ok := d.layerStore.(layer.DescribableStore); ok {
d.layer, err = ds.RegisterWithDescriptor(inflatedLayerData, parentLayer, src)
} else {
d.layer, err = d.layerStore.Register(inflatedLayerData, parentLayer)
}
if err != nil {
select {
case <-d.Transfer.Context().Done():
d.err = errors.New("layer registration cancelled")
default:
d.err = fmt.Errorf("failed to register layer: %v", err)
}
return
}
progress.Update(progressOutput, descriptor.ID(), "Pull complete")
withRegistered, hasRegistered := descriptor.(DownloadDescriptorWithRegistered)
if hasRegistered {
withRegistered.Registered(d.layer.DiffID())
}
// Doesn't actually need to be its own goroutine, but
// done like this so we can defer close(c).
go func() {
<-d.Transfer.Released()
if d.layer != nil {
layer.ReleaseAndLog(d.layerStore, d.layer)
}
}()
}()
return d
}
}
// makeDownloadFuncFromDownload returns a function that performs the layer
// registration when the layer data is coming from an existing download. It
// waits for sourceDownload and parentDownload to complete, and then
// reregisters the data from sourceDownload's top layer on top of
// parentDownload. This function does not log progress output because it would
// interfere with the progress reporting for sourceDownload, which has the same
// Key.
func (ldm *LayerDownloadManager) makeDownloadFuncFromDownload(descriptor DownloadDescriptor, sourceDownload *downloadTransfer, parentDownload *downloadTransfer, os string) DoFunc {
return func(progressChan chan<- progress.Progress, start <-chan struct{}, inactive chan<- struct{}) Transfer {
d := &downloadTransfer{
Transfer: NewTransfer(),
layerStore: ldm.layerStores[os],
}
go func() {
defer func() {
close(progressChan)
}()
<-start
close(inactive)
select {
case <-d.Transfer.Context().Done():
d.err = errors.New("layer registration cancelled")
return
case <-parentDownload.Done():
}
l, err := parentDownload.result()
if err != nil {
d.err = err
return
}
parentLayer := l.ChainID()
// sourceDownload should have already finished if
// parentDownload finished, but wait for it explicitly
// to be sure.
select {
case <-d.Transfer.Context().Done():
d.err = errors.New("layer registration cancelled")
return
case <-sourceDownload.Done():
}
l, err = sourceDownload.result()
if err != nil {
d.err = err
return
}
layerReader, err := l.TarStream()
if err != nil {
d.err = err
return
}
defer layerReader.Close()
var src distribution.Descriptor
if fs, ok := l.(distribution.Describable); ok {
src = fs.Descriptor()
}
if ds, ok := d.layerStore.(layer.DescribableStore); ok {
d.layer, err = ds.RegisterWithDescriptor(layerReader, parentLayer, src)
} else {
d.layer, err = d.layerStore.Register(layerReader, parentLayer)
}
if err != nil {
d.err = fmt.Errorf("failed to register layer: %v", err)
return
}
withRegistered, hasRegistered := descriptor.(DownloadDescriptorWithRegistered)
if hasRegistered {
withRegistered.Registered(d.layer.DiffID())
}
// Doesn't actually need to be its own goroutine, but
// done like this so we can defer close(c).
go func() {
<-d.Transfer.Released()
if d.layer != nil {
layer.ReleaseAndLog(d.layerStore, d.layer)
}
}()
}()
return d
}
}