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/ *
* Minio Cloud Storage , ( C ) 2017 Minio , Inc .
*
* Licensed under the Apache License , Version 2.0 ( the "License" ) ;
* you may not use this file except in compliance with the License .
* You may obtain a copy of the License at
*
* http : //www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing , software
* distributed under the License is distributed on an "AS IS" BASIS ,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND , either express or implied .
* See the License for the specific language governing permissions and
* limitations under the License .
* /
package cmd
import (
"context"
"crypto/sha256"
"errors"
"fmt"
"hash"
"io"
"strconv"
"strings"
"encoding/hex"
"cloud.google.com/go/storage"
"google.golang.org/api/googleapi"
"google.golang.org/api/iterator"
minio "github.com/minio/minio-go"
"github.com/minio/minio-go/pkg/policy"
)
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var (
// ErrNotValidMultipartIdentifier the multipart identifier is not in the correct form
ErrNotValidMultipartIdentifier = errors . New ( "Not a valid multipart identifier" )
)
const (
// ZZZZMinioPrefix is used for metadata and multiparts. The prefix is being filtered out,
// hence the naming of ZZZZ (last prefix)
ZZZZMinioPrefix = "ZZZZ-Minio"
)
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// Convert Minio errors to minio object layer errors.
func gcsToObjectError ( err error , params ... string ) error {
if err == nil {
return nil
}
e , ok := err . ( * Error )
if ! ok {
// Code should be fixed if this function is called without doing traceError()
// Else handling different situations in this function makes this function complicated.
errorIf ( err , "Expected type *Error" )
return err
}
err = e . e
bucket := ""
object := ""
if len ( params ) >= 1 {
bucket = params [ 0 ]
}
if len ( params ) == 2 {
object = params [ 1 ]
}
// in some cases just a plain error is being returned
switch err . Error ( ) {
case "storage: bucket doesn't exist" :
err = BucketNotFound {
Bucket : bucket ,
}
e . e = err
return e
case "storage: object doesn't exist" :
err = ObjectNotFound {
Bucket : bucket ,
Object : object ,
}
e . e = err
return e
}
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googleAPIErr , ok := err . ( * googleapi . Error )
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if ! ok {
// We don't interpret non Minio errors. As minio errors will
// have StatusCode to help to convert to object errors.
return e
}
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reason := googleAPIErr . Errors [ 0 ] . Reason
message := googleAPIErr . Errors [ 0 ] . Message
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switch reason {
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case "required" :
// Anonymous users does not have storage.xyz access to project 123.
fallthrough
case "keyInvalid" :
fallthrough
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case "forbidden" :
err = PrefixAccessDenied {
Bucket : bucket ,
Object : object ,
}
case "invalid" :
err = BucketNameInvalid {
Bucket : bucket ,
}
case "notFound" :
if object != "" {
err = ObjectNotFound {
Bucket : bucket ,
Object : object ,
}
} else {
err = BucketNotFound {
Bucket : bucket ,
}
}
case "conflict" :
if message == "You already own this bucket. Please select another name." {
err = BucketAlreadyOwnedByYou {
Bucket : bucket ,
}
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} else if message == "Sorry, that name is not available. Please try a different one." {
err = BucketAlreadyExists {
Bucket : bucket ,
}
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} else {
err = BucketNotEmpty {
Bucket : bucket ,
}
}
default :
err = fmt . Errorf ( "Unsupported error reason: %s" , reason )
}
_ = bucket
_ = object
e . e = err
return e
}
// gcsGateway - Implements gateway for Minio and GCS compatible object storage servers.
type gcsGateway struct {
client * storage . Client
anonClient * minio . Core
projectID string
ctx context . Context
}
// newGCSGateway returns gcs gatewaylayer
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func newGCSGateway ( args [ ] string ) ( GatewayLayer , error ) {
if len ( args ) != 1 {
return nil , fmt . Errorf ( "ProjectID expected" )
}
profile := "default"
// TODO: don't know where to set profile yet
_ = profile
endpoint := "storage.googleapis.com"
secure := true
projectID := args [ 0 ]
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ctx := context . Background ( )
// Creates a client.
client , err := storage . NewClient ( ctx )
if err != nil {
return nil , err
}
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anonClient , err := minio . NewCore ( endpoint , "" , "" , secure )
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if err != nil {
return nil , err
}
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return & gcsGateway {
client : client ,
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projectID : projectID ,
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ctx : ctx ,
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anonClient : anonClient ,
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} , nil
}
// Shutdown - save any gateway metadata to disk
// if necessary and reload upon next restart.
func ( l * gcsGateway ) Shutdown ( ) error {
// TODO
return nil
}
// StorageInfo - Not relevant to GCS backend.
func ( l * gcsGateway ) StorageInfo ( ) StorageInfo {
return StorageInfo { }
}
// MakeBucket - Create a new container on GCS backend.
func ( l * gcsGateway ) MakeBucket ( bucket string ) error {
// will never be called, only satisfy ObjectLayer interface
return traceError ( NotImplemented { } )
}
// MakeBucket - Create a new container on GCS backend.
func ( l * gcsGateway ) MakeBucketWithLocation ( bucket , location string ) error {
bkt := l . client . Bucket ( bucket )
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// this will map s3 regions to google multi regions
if v , ok := map [ string ] string {
"ap-northeast-1" : "asia" ,
"ap-northeast-2" : "asia" ,
"ap-south-1" : "asia" ,
"ap-southeast-1" : "asia" ,
"ap-southeast-2" : "asia" ,
"eu-central-1" : "eu" ,
"eu-west-1" : "eu" ,
"eu-west-2" : "eu" ,
"ca-central-1" : "us" ,
"sa-east-1" : "us" ,
"us-east-1" : "us" ,
"us-east-2" : "us" ,
"us-west-1" : "us" ,
"us-west-2" : "us" ,
} [ location ] ; ok {
location = v
}
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if err := bkt . Create ( l . ctx , l . projectID , & storage . BucketAttrs {
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Location : location ,
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} ) ; err != nil {
return gcsToObjectError ( traceError ( err ) , bucket )
}
return nil
}
// GetBucketInfo - Get bucket metadata..
func ( l * gcsGateway ) GetBucketInfo ( bucket string ) ( BucketInfo , error ) {
attrs , err := l . client . Bucket ( bucket ) . Attrs ( l . ctx )
if err != nil {
return BucketInfo { } , gcsToObjectError ( traceError ( err ) , bucket )
}
return BucketInfo {
Name : attrs . Name ,
Created : attrs . Created ,
} , nil
}
// ListBuckets lists all GCS buckets
func ( l * gcsGateway ) ListBuckets ( ) ( [ ] BucketInfo , error ) {
it := l . client . Buckets ( l . ctx , l . projectID )
b := [ ] BucketInfo { }
for {
attrs , err := it . Next ( )
if err == iterator . Done {
break
}
if err != nil {
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return [ ] BucketInfo { } , gcsToObjectError ( traceError ( err ) )
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}
b = append ( b , BucketInfo {
Name : attrs . Name ,
Created : attrs . Created ,
} )
}
return b , nil
}
// DeleteBucket delete a bucket on GCS
func ( l * gcsGateway ) DeleteBucket ( bucket string ) error {
err := l . client . Bucket ( bucket ) . Delete ( l . ctx )
if err != nil {
return gcsToObjectError ( traceError ( err ) , bucket )
}
return nil
}
// ListObjects - lists all blobs in GCS bucket filtered by prefix
func ( l * gcsGateway ) ListObjects ( bucket string , prefix string , marker string , delimiter string , maxKeys int ) ( ListObjectsInfo , error ) {
it := l . client . Bucket ( bucket ) . Objects ( l . ctx , & storage . Query { Delimiter : delimiter , Prefix : prefix , Versions : false } )
isTruncated := false
nextMarker := ""
prefixes := [ ] string { }
objects := [ ] ObjectInfo { }
for {
if len ( objects ) >= maxKeys {
// check if there is one next object and
// if that one next object is our hidden
// metadata folder, then just break
// otherwise we've truncated the output
m := it . PageInfo ( ) . Token
attrs , _ := it . Next ( )
if attrs == nil {
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} else if attrs . Prefix == ZZZZMinioPrefix {
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break
}
isTruncated = true
nextMarker = m
break
}
attrs , err := it . Next ( )
if err == iterator . Done {
break
}
if err != nil {
return ListObjectsInfo { } , gcsToObjectError ( traceError ( err ) , bucket , prefix )
}
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if attrs . Prefix == ZZZZMinioPrefix {
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// we don't return our metadata prefix
continue
} else if attrs . Prefix != "" {
prefixes = append ( prefixes , attrs . Prefix )
continue
}
objects = append ( objects , ObjectInfo {
Name : attrs . Name ,
Bucket : attrs . Bucket ,
ModTime : attrs . Updated ,
Size : attrs . Size ,
MD5Sum : hex . EncodeToString ( attrs . MD5 ) ,
UserDefined : attrs . Metadata ,
ContentType : attrs . ContentType ,
ContentEncoding : attrs . ContentEncoding ,
} )
}
return ListObjectsInfo {
IsTruncated : isTruncated ,
NextMarker : nextMarker ,
Prefixes : prefixes ,
Objects : objects ,
} , nil
}
// ListObjectsV2 - lists all blobs in GCS bucket filtered by prefix
func ( l * gcsGateway ) ListObjectsV2 ( bucket , prefix , continuationToken string , fetchOwner bool , delimiter string , maxKeys int ) ( ListObjectsV2Info , error ) {
it := l . client . Bucket ( bucket ) . Objects ( l . ctx , & storage . Query { Delimiter : delimiter , Prefix : prefix , Versions : false } )
isTruncated := false
nextMarker := ""
prefixes := [ ] string { }
objects := [ ] ObjectInfo { }
for {
if maxKeys < len ( objects ) {
isTruncated = true
nextMarker = it . PageInfo ( ) . Token
break
}
attrs , err := it . Next ( )
if err == iterator . Done {
break
}
if err != nil {
return ListObjectsV2Info { } , gcsToObjectError ( traceError ( err ) , bucket , prefix )
}
if attrs . Prefix != "" {
prefixes = append ( prefixes , attrs . Prefix )
continue
}
objects = append ( objects , fromGCSObjectInfo ( attrs ) )
}
return ListObjectsV2Info {
IsTruncated : isTruncated ,
ContinuationToken : continuationToken ,
NextContinuationToken : nextMarker ,
Prefixes : prefixes ,
Objects : objects ,
} , nil
}
// GetObject - reads an object from GCS. Supports additional
// parameters like offset and length which are synonymous with
// HTTP Range requests.
//
// startOffset indicates the starting read location of the object.
// length indicates the total length of the object.
func ( l * gcsGateway ) GetObject ( bucket string , key string , startOffset int64 , length int64 , writer io . Writer ) error {
// if we want to mimic S3 behavior exactly, we need to verify if bucket exists first,
// otherwise gcs will just return object not exist in case of non-existing bucket
if _ , err := l . client . Bucket ( bucket ) . Attrs ( l . ctx ) ; err != nil {
return gcsToObjectError ( traceError ( err ) , bucket )
}
object := l . client . Bucket ( bucket ) . Object ( key )
r , err := object . NewRangeReader ( l . ctx , startOffset , length )
if err != nil {
return gcsToObjectError ( traceError ( err ) , bucket , key )
}
defer r . Close ( )
if _ , err := io . Copy ( writer , r ) ; err != nil {
return gcsToObjectError ( traceError ( err ) , bucket , key )
}
return nil
}
// fromGCSObjectInfo converts GCS BucketAttrs to gateway ObjectInfo
func fromGCSObjectInfo ( attrs * storage . ObjectAttrs ) ObjectInfo {
return ObjectInfo {
Name : attrs . Name ,
Bucket : attrs . Bucket ,
ModTime : attrs . Updated ,
Size : attrs . Size ,
MD5Sum : hex . EncodeToString ( attrs . MD5 ) ,
UserDefined : attrs . Metadata ,
ContentType : attrs . ContentType ,
ContentEncoding : attrs . ContentEncoding ,
}
}
// GetObjectInfo - reads object info and replies back ObjectInfo
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func ( l * gcsGateway ) GetObjectInfo ( bucket string , object string ) ( ObjectInfo , error ) {
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// if we want to mimic S3 behavior exactly, we need to verify if bucket exists first,
// otherwise gcs will just return object not exist in case of non-existing bucket
if _ , err := l . client . Bucket ( bucket ) . Attrs ( l . ctx ) ; err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket )
}
attrs , err := l . client . Bucket ( bucket ) . Object ( object ) . Attrs ( l . ctx )
if err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket , object )
}
return fromGCSObjectInfo ( attrs ) , nil
}
// PutObject - Create a new object with the incoming data,
func ( l * gcsGateway ) PutObject ( bucket string , key string , size int64 , data io . Reader , metadata map [ string ] string , sha256sum string ) ( ObjectInfo , error ) {
// if we want to mimic S3 behavior exactly, we need to verify if bucket exists first,
// otherwise gcs will just return object not exist in case of non-existing bucket
if _ , err := l . client . Bucket ( bucket ) . Attrs ( l . ctx ) ; err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket )
}
var sha256Writer hash . Hash
teeReader := data
if sha256sum == "" {
} else if _ , err := hex . DecodeString ( sha256sum ) ; err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket , key )
} else {
sha256Writer = sha256 . New ( )
teeReader = io . TeeReader ( data , sha256Writer )
}
delete ( metadata , "md5Sum" )
object := l . client . Bucket ( bucket ) . Object ( key )
w := object . NewWriter ( l . ctx )
w . ContentType = metadata [ "content-type" ]
w . ContentEncoding = metadata [ "content-encoding" ]
w . Metadata = metadata
_ , err := io . Copy ( w , teeReader )
if err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket , key )
}
err = w . Close ( )
if err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket , key )
}
attrs , err := object . Attrs ( l . ctx )
if err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket , key )
}
if sha256sum != "" {
newSHA256sum := hex . EncodeToString ( sha256Writer . Sum ( nil ) )
if newSHA256sum != sha256sum {
//l.Client.RemoveObject(bucket, object)
return ObjectInfo { } , traceError ( SHA256Mismatch { } )
}
}
return fromGCSObjectInfo ( attrs ) , nil
}
// CopyObject - Copies a blob from source container to destination container.
func ( l * gcsGateway ) CopyObject ( srcBucket string , srcObject string , destBucket string , destObject string , metadata map [ string ] string ) ( ObjectInfo , error ) {
src := l . client . Bucket ( srcBucket ) . Object ( srcObject )
dst := l . client . Bucket ( destBucket ) . Object ( destObject )
attrs , err := dst . CopierFrom ( src ) . Run ( l . ctx )
if err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , destBucket , destObject )
}
return fromGCSObjectInfo ( attrs ) , nil
}
// DeleteObject - Deletes a blob in bucket
func ( l * gcsGateway ) DeleteObject ( bucket string , object string ) error {
err := l . client . Bucket ( bucket ) . Object ( object ) . Delete ( l . ctx )
if err != nil {
return gcsToObjectError ( traceError ( err ) , bucket , object )
}
return nil
}
// ListMultipartUploads - lists all multipart uploads.
func ( l * gcsGateway ) ListMultipartUploads ( bucket string , prefix string , keyMarker string , uploadIDMarker string , delimiter string , maxUploads int ) ( ListMultipartsInfo , error ) {
// TODO: implement prefix and prefixes, how does this work for Multiparts??
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prefix = fmt . Sprintf ( "%s/multipart-" , ZZZZMinioPrefix )
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it := l . client . Bucket ( bucket ) . Objects ( l . ctx , & storage . Query { Delimiter : delimiter , Prefix : prefix , Versions : false } )
isTruncated := false
// prefixes := []string{}
nextMarker := ""
uploads := [ ] uploadMetadata { }
for {
if maxUploads <= len ( uploads ) {
isTruncated = true
nextMarker = it . PageInfo ( ) . Token
break
}
attrs , err := it . Next ( )
if err == iterator . Done {
break
}
if err != nil {
return ListMultipartsInfo { } , gcsToObjectError ( traceError ( err ) , bucket )
}
if attrs . Prefix != "" {
continue
}
objectKey , uploadID , partID , err := fromGCSMultipartKey ( attrs . Name )
if err != nil {
continue
} else if partID != 0 {
continue
}
// we count only partID == 0
uploads = append ( uploads , uploadMetadata {
Object : objectKey ,
UploadID : uploadID ,
Initiated : attrs . Created ,
} )
}
return ListMultipartsInfo {
Uploads : uploads ,
IsTruncated : isTruncated ,
KeyMarker : nextMarker ,
UploadIDMarker : nextMarker ,
NextKeyMarker : nextMarker ,
NextUploadIDMarker : nextMarker ,
MaxUploads : maxUploads ,
} , nil
}
func fromGCSMultipartKey ( s string ) ( key , uploadID string , partID int , err error ) {
parts := strings . Split ( s , "-" )
if parts [ 0 ] != "multipart" {
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return "" , "" , 0 , ErrNotValidMultipartIdentifier
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}
if len ( parts ) != 4 {
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return "" , "" , 0 , ErrNotValidMultipartIdentifier
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}
key = parts [ 1 ]
uploadID = parts [ 3 ]
partID , err = strconv . Atoi ( parts [ 3 ] )
if err != nil {
return "" , "" , 0 , err
}
return
}
func toGCSMultipartKey ( key string , uploadID string , partID int ) string {
// we don't use the etag within the key, because the amazon spec
// explicitly notes that uploaded parts with same number are being overwritten
// parts are allowed to be numbered from 1 to 10,000 (inclusive)
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return fmt . Sprintf ( "%s/multipart-%s-%s-%05d" , ZZZZMinioPrefix , key , uploadID , partID )
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}
// NewMultipartUpload - upload object in multiple parts
func ( l * gcsGateway ) NewMultipartUpload ( bucket string , key string , metadata map [ string ] string ) ( uploadID string , err error ) {
// generate new uploadid
uploadID = mustGetUUID ( )
// generate name for part zero
partZeroKey := toGCSMultipartKey ( key , uploadID , 0 )
// we are writing a 0 sized object to hold the metadata
w := l . client . Bucket ( bucket ) . Object ( partZeroKey ) . NewWriter ( l . ctx )
w . ContentType = metadata [ "content-type" ]
w . ContentEncoding = metadata [ "content-encoding" ]
w . Metadata = metadata
if err = w . Close ( ) ; err != nil {
return "" , gcsToObjectError ( traceError ( err ) , bucket , key )
}
return uploadID , nil
}
// CopyObjectPart - copy part of object to other bucket and object
func ( l * gcsGateway ) CopyObjectPart ( srcBucket string , srcObject string , destBucket string , destObject string , uploadID string , partID int , startOffset int64 , length int64 ) ( info PartInfo , err error ) {
return PartInfo { } , traceError ( NotSupported { } )
}
// PutObjectPart puts a part of object in bucket
func ( l * gcsGateway ) PutObjectPart ( bucket string , key string , uploadID string , partID int , size int64 , data io . Reader , md5Hex string , sha256sum string ) ( PartInfo , error ) {
multipartKey := toGCSMultipartKey ( key , uploadID , partID )
info , err := l . PutObject ( bucket , multipartKey , size , data , map [ string ] string { } , sha256sum )
return PartInfo {
PartNumber : partID ,
LastModified : info . ModTime ,
ETag : info . MD5Sum ,
Size : info . Size ,
} , err
}
// ListObjectParts returns all object parts for specified object in specified bucket
func ( l * gcsGateway ) ListObjectParts ( bucket string , key string , uploadID string , partNumberMarker int , maxParts int ) ( ListPartsInfo , error ) {
// TODO: support partNumberMarker
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prefix := fmt . Sprintf ( "%s/multipart-%s-%s" , ZZZZMinioPrefix , key , uploadID )
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delimiter := "/"
it := l . client . Bucket ( bucket ) . Objects ( l . ctx , & storage . Query { Delimiter : delimiter , Prefix : prefix , Versions : false } )
isTruncated := false
parts := [ ] PartInfo { }
for {
if maxParts <= len ( parts ) {
isTruncated = true
// nextMarker = it.PageInfo().Token
break
}
attrs , err := it . Next ( )
if err == iterator . Done {
break
}
if err != nil {
return ListPartsInfo { } , gcsToObjectError ( traceError ( err ) , bucket , prefix )
}
if attrs . Prefix != "" {
continue
}
_ , _ , partID , err := fromGCSMultipartKey ( attrs . Name )
if err != nil {
continue
} else if partID == 0 {
// we'll ignore partID 0, it is our zero object, containing
// metadata
continue
}
parts = append ( parts , PartInfo {
PartNumber : partID ,
LastModified : attrs . Updated ,
ETag : hex . EncodeToString ( attrs . MD5 ) ,
Size : attrs . Size ,
} )
}
return ListPartsInfo {
IsTruncated : isTruncated ,
Parts : parts ,
} , nil
}
// AbortMultipartUpload aborts a ongoing multipart upload
func ( l * gcsGateway ) AbortMultipartUpload ( bucket string , key string , uploadID string ) error {
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prefix := fmt . Sprintf ( "%s/multipart-%s-%s" , ZZZZMinioPrefix , key , uploadID )
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delimiter := "/"
// delete part zero, ignoring errors here, we want to clean up all remains
_ = l . client . Bucket ( bucket ) . Object ( toGCSMultipartKey ( key , uploadID , 0 ) ) . Delete ( l . ctx )
// iterate through all parts and delete them
it := l . client . Bucket ( bucket ) . Objects ( l . ctx , & storage . Query { Delimiter : delimiter , Prefix : prefix , Versions : false } )
for {
attrs , err := it . Next ( )
if err == iterator . Done {
break
}
if err != nil {
return gcsToObjectError ( traceError ( err ) , bucket , prefix )
}
// on error continue deleting other parts
l . client . Bucket ( bucket ) . Object ( attrs . Name ) . Delete ( l . ctx )
}
return nil
}
// CompleteMultipartUpload completes ongoing multipart upload and finalizes object
// Note that there is a limit (currently 32) to the number of components that can be composed in a single operation.
// There is a limit (currently 1024) to the total number of components for a given composite object. This means you can append to each object at most 1023 times.
// There is a per-project rate limit (currently 200) to the number of components you can compose per second. This rate counts both the components being appended to a composite object as well as the components being copied when the composite object of which they are a part is copied.
func ( l * gcsGateway ) CompleteMultipartUpload ( bucket string , key string , uploadID string , uploadedParts [ ] completePart ) ( ObjectInfo , error ) {
partZero := l . client . Bucket ( bucket ) . Object ( toGCSMultipartKey ( key , uploadID , 0 ) )
partZeroAttrs , err := partZero . Attrs ( l . ctx )
if err != nil {
return ObjectInfo { } , gcsToObjectError ( traceError ( err ) , bucket , key )
}
parts := make ( [ ] * storage . ObjectHandle , len ( uploadedParts ) )
for i , uploadedPart := range uploadedParts {
// TODO: verify attrs / ETag
parts [ i ] = l . client . Bucket ( bucket ) . Object ( toGCSMultipartKey ( key , uploadID , uploadedPart . PartNumber ) )
}
if len ( parts ) > 32 {
// we need to split up the compose of more than 32 parts
// into subcomposes. This means that the first 32 parts will
// compose to a composed-object-0, next parts to composed-object-1,
// the final compose will compose composed-object* to 1.
return ObjectInfo { } , NotSupported { }
}
dst := l . client . Bucket ( bucket ) . Object ( key )
composer := dst . ComposerFrom ( parts ... )
composer . ContentType = partZeroAttrs . ContentType
composer . Metadata = partZeroAttrs . Metadata
attrs , err := composer . Run ( l . ctx )
// cleanup, delete all parts
for _ , uploadedPart := range uploadedParts {
l . client . Bucket ( bucket ) . Object ( toGCSMultipartKey ( key , uploadID , uploadedPart . PartNumber ) ) . Delete ( l . ctx )
}
partZero . Delete ( l . ctx )
return fromGCSObjectInfo ( attrs ) , gcsToObjectError ( traceError ( err ) , bucket , key )
}
// SetBucketPolicies - Set policy on bucket
func ( l * gcsGateway ) SetBucketPolicies ( bucket string , policyInfo policy . BucketAccessPolicy ) error {
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var policies [ ] BucketAccessPolicy
for prefix , policy := range policy . GetPolicies ( policyInfo . Statements , bucket ) {
policies = append ( policies , BucketAccessPolicy {
Prefix : prefix ,
Policy : policy ,
} )
}
prefix := bucket + "/*" // For all objects inside the bucket.
if len ( policies ) != 1 {
return traceError ( NotImplemented { } )
} else if policies [ 0 ] . Prefix != prefix {
return traceError ( NotImplemented { } )
}
acl := l . client . Bucket ( bucket ) . ACL ( )
if policies [ 0 ] . Policy == policy . BucketPolicyNone {
if err := acl . Delete ( l . ctx , storage . AllUsers ) ; err != nil {
return gcsToObjectError ( traceError ( err ) , bucket )
}
return nil
}
role := storage . RoleReader
if policies [ 0 ] . Policy == policy . BucketPolicyReadOnly {
role = storage . RoleReader
} else if policies [ 0 ] . Policy == policy . BucketPolicyWriteOnly {
role = storage . RoleWriter
} else if policies [ 0 ] . Policy == policy . BucketPolicyReadWrite {
// not supported, google only has owner role
return gcsToObjectError ( traceError ( NotSupported { } ) , bucket )
} else {
return gcsToObjectError ( traceError ( fmt . Errorf ( "Unknown policy: %s" , policies [ 0 ] . Policy ) ) , bucket )
}
if err := acl . Set ( l . ctx , storage . AllUsers , role ) ; err != nil {
return gcsToObjectError ( traceError ( err ) , bucket )
}
return nil
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}
// GetBucketPolicies - Get policy on bucket
func ( l * gcsGateway ) GetBucketPolicies ( bucket string ) ( policy . BucketAccessPolicy , error ) {
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acl := l . client . Bucket ( bucket ) . ACL ( )
rules , err := acl . List ( l . ctx )
if err != nil {
return policy . BucketAccessPolicy { } , gcsToObjectError ( traceError ( err ) , bucket )
}
policyInfo := policy . BucketAccessPolicy { Version : "2012-10-17" }
for _ , r := range rules {
if r . Entity != storage . AllUsers {
continue
}
switch r . Role {
case storage . RoleOwner :
return policy . BucketAccessPolicy { } , gcsToObjectError ( traceError ( NotSupported { } ) , bucket )
case storage . RoleReader :
policyInfo . Statements = policy . SetPolicy ( policyInfo . Statements , policy . BucketPolicyReadOnly , bucket , "" )
case storage . RoleWriter :
policyInfo . Statements = policy . SetPolicy ( policyInfo . Statements , policy . BucketPolicyWriteOnly , bucket , "" )
}
}
return policyInfo , nil
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}
// DeleteBucketPolicies - Delete all policies on bucket
func ( l * gcsGateway ) DeleteBucketPolicies ( bucket string ) error {
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acl := l . client . Bucket ( bucket ) . ACL ( )
// this only removes the storage.AllUsers policies
if err := acl . Delete ( l . ctx , storage . AllUsers ) ; err != nil {
return gcsToObjectError ( traceError ( err ) , bucket )
}
return nil
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}