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package graph
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import (
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"compress/gzip"
"crypto/sha256"
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"encoding/json"
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"errors"
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"fmt"
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"io"
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"io/ioutil"
"os"
"path/filepath"
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"runtime"
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"strconv"
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"strings"
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"sync"
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"time"
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"github.com/Sirupsen/logrus"
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"github.com/docker/distribution/digest"
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"github.com/docker/docker/autogen/dockerversion"
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"github.com/docker/docker/daemon/graphdriver"
"github.com/docker/docker/image"
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"github.com/docker/docker/pkg/archive"
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"github.com/docker/docker/pkg/progressreader"
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"github.com/docker/docker/pkg/streamformatter"
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"github.com/docker/docker/pkg/stringid"
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"github.com/docker/docker/pkg/system"
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"github.com/docker/docker/pkg/truncindex"
"github.com/docker/docker/runconfig"
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"github.com/vbatts/tar-split/tar/asm"
"github.com/vbatts/tar-split/tar/storage"
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)
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// The type is used to protect pulling or building related image
// layers from deleteing when filtered by dangling=true
// The key of layers is the images ID which is pulling or building
// The value of layers is a slice which hold layer IDs referenced to
// pulling or building images
type retainedLayers struct {
layerHolders map [ string ] map [ string ] struct { } // map[layerID]map[sessionID]
sync . Mutex
}
func ( r * retainedLayers ) Add ( sessionID string , layerIDs [ ] string ) {
r . Lock ( )
defer r . Unlock ( )
for _ , layerID := range layerIDs {
if r . layerHolders [ layerID ] == nil {
r . layerHolders [ layerID ] = map [ string ] struct { } { }
}
r . layerHolders [ layerID ] [ sessionID ] = struct { } { }
}
}
func ( r * retainedLayers ) Delete ( sessionID string , layerIDs [ ] string ) {
r . Lock ( )
defer r . Unlock ( )
for _ , layerID := range layerIDs {
holders , ok := r . layerHolders [ layerID ]
if ! ok {
continue
}
delete ( holders , sessionID )
if len ( holders ) == 0 {
delete ( r . layerHolders , layerID ) // Delete any empty reference set.
}
}
}
func ( r * retainedLayers ) Exists ( layerID string ) bool {
r . Lock ( )
_ , exists := r . layerHolders [ layerID ]
r . Unlock ( )
return exists
}
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// A Graph is a store for versioned filesystem images and the relationship between them.
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type Graph struct {
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root string
idIndex * truncindex . TruncIndex
driver graphdriver . Driver
imageMutex imageMutex // protect images in driver.
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retained * retainedLayers
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}
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// file names for ./graph/<ID>/
const (
jsonFileName = "json"
layersizeFileName = "layersize"
digestFileName = "checksum"
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tarDataFileName = "tar-data.json.gz"
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)
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var (
// ErrDigestNotSet is used when request the digest for a layer
// but the layer has no digest value or content to compute the
// the digest.
ErrDigestNotSet = errors . New ( "digest is not set for layer" )
)
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// NewGraph instantiates a new graph at the given root path in the filesystem.
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// `root` will be created if it doesn't exist.
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func NewGraph ( root string , driver graphdriver . Driver ) ( * Graph , error ) {
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abspath , err := filepath . Abs ( root )
if err != nil {
return nil , err
}
// Create the root directory if it doesn't exists
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if err := system . MkdirAll ( root , 0700 ) ; err != nil && ! os . IsExist ( err ) {
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return nil , err
}
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graph := & Graph {
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root : abspath ,
idIndex : truncindex . NewTruncIndex ( [ ] string { } ) ,
driver : driver ,
retained : & retainedLayers { layerHolders : make ( map [ string ] map [ string ] struct { } ) } ,
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}
if err := graph . restore ( ) ; err != nil {
return nil , err
}
return graph , nil
}
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// IsHeld returns whether the given layerID is being used by an ongoing pull or build.
func ( graph * Graph ) IsHeld ( layerID string ) bool {
return graph . retained . Exists ( layerID )
}
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func ( graph * Graph ) restore ( ) error {
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dir , err := ioutil . ReadDir ( graph . root )
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if err != nil {
return err
}
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var ids = [ ] string { }
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for _ , v := range dir {
id := v . Name ( )
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if graph . driver . Exists ( id ) {
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ids = append ( ids , id )
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}
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}
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baseIds , err := graph . restoreBaseImages ( )
if err != nil {
return err
}
ids = append ( ids , baseIds ... )
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graph . idIndex = truncindex . NewTruncIndex ( ids )
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logrus . Debugf ( "Restored %d elements" , len ( ids ) )
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return nil
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}
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// FIXME: Implement error subclass instead of looking at the error text
// Note: This is the way golang implements os.IsNotExists on Plan9
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func ( graph * Graph ) IsNotExist ( err error , id string ) bool {
return err != nil && ( strings . Contains ( strings . ToLower ( err . Error ( ) ) , "does not exist" ) || strings . Contains ( strings . ToLower ( err . Error ( ) ) , "no such" ) ) && strings . Contains ( err . Error ( ) , id )
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}
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// Exists returns true if an image is registered at the given id.
// If the image doesn't exist or if an error is encountered, false is returned.
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func ( graph * Graph ) Exists ( id string ) bool {
if _ , err := graph . Get ( id ) ; err != nil {
return false
}
return true
}
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// Get returns the image with the given id, or an error if the image doesn't exist.
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func ( graph * Graph ) Get ( name string ) ( * image . Image , error ) {
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id , err := graph . idIndex . Get ( name )
if err != nil {
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return nil , fmt . Errorf ( "could not find image: %v" , err )
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}
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img , err := graph . loadImage ( id )
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if err != nil {
return nil , err
}
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if img . ID != id {
return nil , fmt . Errorf ( "Image stored at '%s' has wrong id '%s'" , id , img . ID )
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}
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if img . Size < 0 {
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size , err := graph . driver . DiffSize ( img . ID , img . Parent )
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if err != nil {
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return nil , fmt . Errorf ( "unable to calculate size of image id %q: %s" , img . ID , err )
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}
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img . Size = size
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if err := graph . saveSize ( graph . imageRoot ( id ) , int ( img . Size ) ) ; err != nil {
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return nil , err
}
}
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return img , nil
}
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// Create creates a new image and registers it in the graph.
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func ( graph * Graph ) Create ( layerData archive . ArchiveReader , containerID , containerImage , comment , author string , containerConfig , config * runconfig . Config ) ( * image . Image , error ) {
img := & image . Image {
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ID : stringid . GenerateRandomID ( ) ,
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Comment : comment ,
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Created : time . Now ( ) . UTC ( ) ,
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DockerVersion : dockerversion . VERSION ,
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Author : author ,
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Config : config ,
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Architecture : runtime . GOARCH ,
OS : runtime . GOOS ,
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}
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if containerID != "" {
img . Parent = containerImage
img . Container = containerID
img . ContainerConfig = * containerConfig
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}
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if err := graph . Register ( img , layerData ) ; err != nil {
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return nil , err
}
return img , nil
}
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// Register imports a pre-existing image into the graph.
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func ( graph * Graph ) Register ( img * image . Image , layerData archive . ArchiveReader ) ( err error ) {
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if err := image . ValidateID ( img . ID ) ; err != nil {
return err
}
// We need this entire operation to be atomic within the engine. Note that
// this doesn't mean Register is fully safe yet.
graph . imageMutex . Lock ( img . ID )
defer graph . imageMutex . Unlock ( img . ID )
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// The returned `error` must be named in this function's signature so that
// `err` is not shadowed in this deferred cleanup.
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defer func ( ) {
// If any error occurs, remove the new dir from the driver.
// Don't check for errors since the dir might not have been created.
if err != nil {
graph . driver . Remove ( img . ID )
}
} ( )
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// (This is a convenience to save time. Race conditions are taken care of by os.Rename)
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if graph . Exists ( img . ID ) {
return fmt . Errorf ( "Image %s already exists" , img . ID )
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}
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// Ensure that the image root does not exist on the filesystem
// when it is not registered in the graph.
// This is common when you switch from one graph driver to another
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if err := os . RemoveAll ( graph . imageRoot ( img . ID ) ) ; err != nil && ! os . IsNotExist ( err ) {
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return err
}
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// If the driver has this ID but the graph doesn't, remove it from the driver to start fresh.
// (the graph is the source of truth).
// Ignore errors, since we don't know if the driver correctly returns ErrNotExist.
// (FIXME: make that mandatory for drivers).
graph . driver . Remove ( img . ID )
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tmp , err := graph . mktemp ( "" )
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defer os . RemoveAll ( tmp )
if err != nil {
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return fmt . Errorf ( "mktemp failed: %s" , err )
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}
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// Create root filesystem in the driver
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if err := createRootFilesystemInDriver ( graph , img , layerData ) ; err != nil {
return err
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}
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// Apply the diff/layer
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if err := graph . storeImage ( img , layerData , tmp ) ; err != nil {
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return err
}
// Commit
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if err := os . Rename ( tmp , graph . imageRoot ( img . ID ) ) ; err != nil {
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return err
}
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graph . idIndex . Add ( img . ID )
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return nil
}
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// TempLayerArchive creates a temporary archive of the given image's filesystem layer.
// The archive is stored on disk and will be automatically deleted as soon as has been read.
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// If output is not nil, a human-readable progress bar will be written to it.
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func ( graph * Graph ) TempLayerArchive ( id string , sf * streamformatter . StreamFormatter , output io . Writer ) ( * archive . TempArchive , error ) {
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image , err := graph . Get ( id )
if err != nil {
return nil , err
}
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tmp , err := graph . mktemp ( "" )
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if err != nil {
return nil , err
}
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a , err := graph . TarLayer ( image )
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if err != nil {
return nil , err
}
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progressReader := progressreader . New ( progressreader . Config {
In : a ,
Out : output ,
Formatter : sf ,
Size : 0 ,
NewLines : false ,
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ID : stringid . TruncateID ( id ) ,
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Action : "Buffering to disk" ,
} )
defer progressReader . Close ( )
return archive . NewTempArchive ( progressReader , tmp )
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}
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// mktemp creates a temporary sub-directory inside the graph's filesystem.
func ( graph * Graph ) mktemp ( id string ) ( string , error ) {
dir := filepath . Join ( graph . root , "_tmp" , stringid . GenerateRandomID ( ) )
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if err := system . MkdirAll ( dir , 0700 ) ; err != nil {
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return "" , err
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}
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return dir , nil
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}
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func ( graph * Graph ) newTempFile ( ) ( * os . File , error ) {
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tmp , err := graph . mktemp ( "" )
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if err != nil {
return nil , err
}
return ioutil . TempFile ( tmp , "" )
}
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func bufferToFile ( f * os . File , src io . Reader ) ( int64 , digest . Digest , error ) {
var (
h = sha256 . New ( )
w = gzip . NewWriter ( io . MultiWriter ( f , h ) )
)
_ , err := io . Copy ( w , src )
w . Close ( )
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if err != nil {
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return 0 , "" , err
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}
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n , err := f . Seek ( 0 , os . SEEK_CUR )
if err != nil {
return 0 , "" , err
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}
if _ , err := f . Seek ( 0 , 0 ) ; err != nil {
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return 0 , "" , err
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}
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return n , digest . NewDigest ( "sha256" , h ) , nil
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}
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// Delete atomically removes an image from the graph.
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func ( graph * Graph ) Delete ( name string ) error {
id , err := graph . idIndex . Get ( name )
if err != nil {
return err
}
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tmp , err := graph . mktemp ( "" )
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graph . idIndex . Delete ( id )
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if err == nil {
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if err := os . Rename ( graph . imageRoot ( id ) , tmp ) ; err != nil {
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// On err make tmp point to old dir and cleanup unused tmp dir
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os . RemoveAll ( tmp )
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tmp = graph . imageRoot ( id )
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}
} else {
// On err make tmp point to old dir for cleanup
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tmp = graph . imageRoot ( id )
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}
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// Remove rootfs data from the driver
graph . driver . Remove ( id )
// Remove the trashed image directory
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return os . RemoveAll ( tmp )
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}
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// Map returns a list of all images in the graph, addressable by ID.
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func ( graph * Graph ) Map ( ) map [ string ] * image . Image {
images := make ( map [ string ] * image . Image )
graph . walkAll ( func ( image * image . Image ) {
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images [ image . ID ] = image
} )
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return images
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}
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// walkAll iterates over each image in the graph, and passes it to a handler.
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// The walking order is undetermined.
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func ( graph * Graph ) walkAll ( handler func ( * image . Image ) ) {
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graph . idIndex . Iterate ( func ( id string ) {
if img , err := graph . Get ( id ) ; err != nil {
return
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} else if handler != nil {
handler ( img )
}
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} )
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}
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// ByParent returns a lookup table of images by their parent.
// If an image of id ID has 3 children images, then the value for key ID
// will be a list of 3 images.
// If an image has no children, it will not have an entry in the table.
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func ( graph * Graph ) ByParent ( ) map [ string ] [ ] * image . Image {
byParent := make ( map [ string ] [ ] * image . Image )
graph . walkAll ( func ( img * image . Image ) {
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parent , err := graph . Get ( img . Parent )
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if err != nil {
return
}
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if children , exists := byParent [ parent . ID ] ; exists {
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byParent [ parent . ID ] = append ( children , img )
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} else {
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byParent [ parent . ID ] = [ ] * image . Image { img }
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}
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} )
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return byParent
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}
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// If the images and layers are in pulling chain, retain them.
// If not, they may be deleted by rmi with dangling condition.
func ( graph * Graph ) Retain ( sessionID string , layerIDs ... string ) {
graph . retained . Add ( sessionID , layerIDs )
}
// Release removes the referenced image id from the provided set of layers.
func ( graph * Graph ) Release ( sessionID string , layerIDs ... string ) {
graph . retained . Delete ( sessionID , layerIDs )
}
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// Heads returns all heads in the graph, keyed by id.
// A head is an image which is not the parent of another image in the graph.
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func ( graph * Graph ) Heads ( ) map [ string ] * image . Image {
heads := make ( map [ string ] * image . Image )
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byParent := graph . ByParent ( )
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graph . walkAll ( func ( image * image . Image ) {
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// If it's not in the byParent lookup table, then
// it's not a parent -> so it's a head!
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if _ , exists := byParent [ image . ID ] ; ! exists {
heads [ image . ID ] = image
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}
} )
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return heads
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}
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func ( graph * Graph ) imageRoot ( id string ) string {
return filepath . Join ( graph . root , id )
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}
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// loadImage fetches the image with the given id from the graph.
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func ( graph * Graph ) loadImage ( id string ) ( * image . Image , error ) {
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root := graph . imageRoot ( id )
// Open the JSON file to decode by streaming
jsonSource , err := os . Open ( jsonPath ( root ) )
if err != nil {
return nil , err
}
defer jsonSource . Close ( )
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img := & image . Image { }
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dec := json . NewDecoder ( jsonSource )
// Decode the JSON data
if err := dec . Decode ( img ) ; err != nil {
return nil , err
}
if err := image . ValidateID ( img . ID ) ; err != nil {
return nil , err
}
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if buf , err := ioutil . ReadFile ( filepath . Join ( root , layersizeFileName ) ) ; err != nil {
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if ! os . IsNotExist ( err ) {
return nil , err
}
// If the layersize file does not exist then set the size to a negative number
// because a layer size of 0 (zero) is valid
img . Size = - 1
} else {
// Using Atoi here instead would temporarily convert the size to a machine
// dependent integer type, which causes images larger than 2^31 bytes to
// display negative sizes on 32-bit machines:
size , err := strconv . ParseInt ( string ( buf ) , 10 , 64 )
if err != nil {
return nil , err
}
img . Size = int64 ( size )
}
return img , nil
}
// saveSize stores the `size` in the provided graph `img` directory `root`.
func ( graph * Graph ) saveSize ( root string , size int ) error {
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if err := ioutil . WriteFile ( filepath . Join ( root , layersizeFileName ) , [ ] byte ( strconv . Itoa ( size ) ) , 0600 ) ; err != nil {
return fmt . Errorf ( "Error storing image size in %s/%s: %s" , root , layersizeFileName , err )
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}
return nil
}
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// SetDigest sets the digest for the image layer to the provided value.
func ( graph * Graph ) SetDigest ( id string , dgst digest . Digest ) error {
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root := graph . imageRoot ( id )
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if err := ioutil . WriteFile ( filepath . Join ( root , digestFileName ) , [ ] byte ( dgst . String ( ) ) , 0600 ) ; err != nil {
return fmt . Errorf ( "Error storing digest in %s/%s: %s" , root , digestFileName , err )
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}
return nil
}
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// GetDigest gets the digest for the provide image layer id.
func ( graph * Graph ) GetDigest ( id string ) ( digest . Digest , error ) {
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root := graph . imageRoot ( id )
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cs , err := ioutil . ReadFile ( filepath . Join ( root , digestFileName ) )
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if err != nil {
if os . IsNotExist ( err ) {
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return "" , ErrDigestNotSet
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}
return "" , err
}
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return digest . ParseDigest ( string ( cs ) )
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}
// RawJSON returns the JSON representation for an image as a byte array.
func ( graph * Graph ) RawJSON ( id string ) ( [ ] byte , error ) {
root := graph . imageRoot ( id )
buf , err := ioutil . ReadFile ( jsonPath ( root ) )
if err != nil {
return nil , fmt . Errorf ( "Failed to read json for image %s: %s" , id , err )
}
return buf , nil
}
func jsonPath ( root string ) string {
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return filepath . Join ( root , jsonFileName )
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}
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func ( graph * Graph ) disassembleAndApplyTarLayer ( img * image . Image , layerData archive . ArchiveReader , root string ) error {
// this is saving the tar-split metadata
mf , err := os . OpenFile ( filepath . Join ( root , tarDataFileName ) , os . O_CREATE | os . O_WRONLY | os . O_TRUNC , os . FileMode ( 0600 ) )
if err != nil {
return err
}
mfz := gzip . NewWriter ( mf )
metaPacker := storage . NewJSONPacker ( mfz )
defer mf . Close ( )
defer mfz . Close ( )
inflatedLayerData , err := archive . DecompressStream ( layerData )
if err != nil {
return err
}
// we're passing nil here for the file putter, because the ApplyDiff will
// handle the extraction of the archive
rdr , err := asm . NewInputTarStream ( inflatedLayerData , metaPacker , nil )
if err != nil {
return err
}
if img . Size , err = graph . driver . ApplyDiff ( img . ID , img . Parent , archive . ArchiveReader ( rdr ) ) ; err != nil {
return err
}
return nil
}
func ( graph * Graph ) assembleTarLayer ( img * image . Image ) ( archive . Archive , error ) {
root := graph . imageRoot ( img . ID )
mFileName := filepath . Join ( root , tarDataFileName )
mf , err := os . Open ( mFileName )
if err != nil {
if ! os . IsNotExist ( err ) {
logrus . Errorf ( "failed to open %q: %s" , mFileName , err )
}
return nil , err
}
pR , pW := io . Pipe ( )
// this will need to be in a goroutine, as we are returning the stream of a
// tar archive, but can not close the metadata reader early (when this
// function returns)...
go func ( ) {
defer mf . Close ( )
// let's reassemble!
logrus . Debugf ( "[graph] TarLayer with reassembly: %s" , img . ID )
mfz , err := gzip . NewReader ( mf )
if err != nil {
pW . CloseWithError ( fmt . Errorf ( "[graph] error with %s: %s" , mFileName , err ) )
return
}
defer mfz . Close ( )
// get our relative path to the container
fsLayer , err := graph . driver . Get ( img . ID , "" )
if err != nil {
pW . CloseWithError ( err )
return
}
defer graph . driver . Put ( img . ID )
metaUnpacker := storage . NewJSONUnpacker ( mfz )
fileGetter := storage . NewPathFileGetter ( fsLayer )
logrus . Debugf ( "[graph] %s is at %q" , img . ID , fsLayer )
ots := asm . NewOutputTarStream ( fileGetter , metaUnpacker )
defer ots . Close ( )
if _ , err := io . Copy ( pW , ots ) ; err != nil {
pW . CloseWithError ( err )
return
}
pW . Close ( )
} ( )
return pR , nil
}