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// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
package ecclient
import (
"context"
"io"
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"io/ioutil"
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"sort"
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"sync"
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"time"
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"github.com/zeebo/errs"
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"go.uber.org/zap"
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monkit "gopkg.in/spacemonkeygo/monkit.v2"
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"storj.io/storj/internal/errs2"
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"storj.io/storj/internal/sync2"
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"storj.io/storj/pkg/pb"
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"storj.io/storj/pkg/ranger"
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"storj.io/storj/pkg/rpc"
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"storj.io/storj/pkg/storj"
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"storj.io/storj/uplink/eestream"
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"storj.io/storj/uplink/piecestore"
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)
var mon = monkit . Package ( )
// Client defines an interface for storing erasure coded data to piece store nodes
type Client interface {
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Put ( ctx context . Context , limits [ ] * pb . AddressedOrderLimit , privateKey storj . PiecePrivateKey , rs eestream . RedundancyStrategy , data io . Reader , expiration time . Time ) ( successfulNodes [ ] * pb . Node , successfulHashes [ ] * pb . PieceHash , err error )
Get ( ctx context . Context , limits [ ] * pb . AddressedOrderLimit , privateKey storj . PiecePrivateKey , es eestream . ErasureScheme , size int64 ) ( ranger . Ranger , error )
Delete ( ctx context . Context , limits [ ] * pb . AddressedOrderLimit , privateKey storj . PiecePrivateKey ) error
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WithForceErrorDetection ( force bool ) Client
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}
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type dialPiecestoreFunc func ( context . Context , * pb . Node ) ( * piecestore . Client , error )
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type ecClient struct {
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log * zap . Logger
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dialer rpc . Dialer
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memoryLimit int
forceErrorDetection bool
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}
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// NewClient from the given identity and max buffer memory
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func NewClient ( log * zap . Logger , dialer rpc . Dialer , memoryLimit int ) Client {
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return & ecClient {
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log : log ,
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dialer : dialer ,
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memoryLimit : memoryLimit ,
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}
}
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func ( ec * ecClient ) WithForceErrorDetection ( force bool ) Client {
ec . forceErrorDetection = force
return ec
}
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func ( ec * ecClient ) dialPiecestore ( ctx context . Context , n * pb . Node ) ( * piecestore . Client , error ) {
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logger := ec . log . Named ( n . Id . String ( ) )
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return piecestore . Dial ( ctx , ec . dialer , n , logger , piecestore . DefaultConfig )
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}
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func ( ec * ecClient ) Put ( ctx context . Context , limits [ ] * pb . AddressedOrderLimit , privateKey storj . PiecePrivateKey , rs eestream . RedundancyStrategy , data io . Reader , expiration time . Time ) ( successfulNodes [ ] * pb . Node , successfulHashes [ ] * pb . PieceHash , err error ) {
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defer mon . Task ( ) ( & ctx ) ( & err )
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pieceCount := len ( limits )
if pieceCount != rs . TotalCount ( ) {
return nil , nil , Error . New ( "size of limits slice (%d) does not match total count (%d) of erasure scheme" , pieceCount , rs . TotalCount ( ) )
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}
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nonNilLimits := nonNilCount ( limits )
if nonNilLimits <= rs . RepairThreshold ( ) && nonNilLimits < rs . OptimalThreshold ( ) {
return nil , nil , Error . New ( "number of non-nil limits (%d) is less than or equal to the repair threshold (%d) of erasure scheme" , nonNilLimits , rs . RepairThreshold ( ) )
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}
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if ! unique ( limits ) {
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return nil , nil , Error . New ( "duplicated nodes are not allowed" )
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}
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ec . log . Debug ( "Uploading to storage nodes" ,
zap . Int ( "Erasure Share Size" , rs . ErasureShareSize ( ) ) ,
zap . Int ( "Stripe Size" , rs . StripeSize ( ) ) ,
zap . Int ( "Repair Threshold" , rs . RepairThreshold ( ) ) ,
zap . Int ( "Optimal Threshold" , rs . OptimalThreshold ( ) ) ,
)
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padded := eestream . PadReader ( ioutil . NopCloser ( data ) , rs . StripeSize ( ) )
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readers , err := eestream . EncodeReader ( ctx , ec . log , padded , rs )
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if err != nil {
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return nil , nil , err
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}
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type info struct {
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i int
err error
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hash * pb . PieceHash
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}
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infos := make ( chan info , pieceCount )
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psCtx , cancel := context . WithCancel ( ctx )
defer cancel ( )
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for i , addressedLimit := range limits {
go func ( i int , addressedLimit * pb . AddressedOrderLimit ) {
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hash , err := ec . putPiece ( psCtx , ctx , addressedLimit , privateKey , readers [ i ] , expiration )
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infos <- info { i : i , err : err , hash : hash }
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} ( i , addressedLimit )
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}
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successfulNodes = make ( [ ] * pb . Node , pieceCount )
successfulHashes = make ( [ ] * pb . PieceHash , pieceCount )
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var successfulCount , failureCount , cancellationCount int32
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for range limits {
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info := <- infos
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if limits [ info . i ] == nil {
continue
}
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if info . err != nil {
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if ! errs2 . IsCanceled ( info . err ) {
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failureCount ++
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} else {
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cancellationCount ++
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}
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ec . log . Debug ( "Upload to storage node failed" ,
zap . String ( "NodeID" , limits [ info . i ] . GetLimit ( ) . StorageNodeId . String ( ) ) ,
zap . Error ( info . err ) ,
)
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continue
}
successfulNodes [ info . i ] = & pb . Node {
Id : limits [ info . i ] . GetLimit ( ) . StorageNodeId ,
Address : limits [ info . i ] . GetStorageNodeAddress ( ) ,
}
successfulHashes [ info . i ] = info . hash
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successfulCount ++
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if int ( successfulCount ) >= rs . OptimalThreshold ( ) {
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ec . log . Debug ( "Success threshold reached. Cancelling remaining uploads." ,
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zap . Int ( "Optimal Threshold" , rs . OptimalThreshold ( ) ) ,
)
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cancel ( )
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}
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}
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defer func ( ) {
select {
case <- ctx . Done ( ) :
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err = Error . New ( "upload cancelled by user" )
// TODO: clean up the partially uploaded segment's pieces
// ec.Delete(context.Background(), nodes, pieceID, pba.SatelliteId),
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default :
}
} ( )
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mon . IntVal ( "put_segment_pieces_total" ) . Observe ( int64 ( pieceCount ) )
mon . IntVal ( "put_segment_pieces_optimal" ) . Observe ( int64 ( rs . OptimalThreshold ( ) ) )
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mon . IntVal ( "put_segment_pieces_successful" ) . Observe ( int64 ( successfulCount ) )
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mon . IntVal ( "put_segment_pieces_failed" ) . Observe ( int64 ( failureCount ) )
mon . IntVal ( "put_segment_pieces_canceled" ) . Observe ( int64 ( cancellationCount ) )
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if int ( successfulCount ) <= rs . RepairThreshold ( ) && int ( successfulCount ) < rs . OptimalThreshold ( ) {
return nil , nil , Error . New ( "successful puts (%d) less than or equal to repair threshold (%d)" , successfulCount , rs . RepairThreshold ( ) )
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}
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if int ( successfulCount ) < rs . OptimalThreshold ( ) {
return nil , nil , Error . New ( "successful puts (%d) less than success threshold (%d)" , successfulCount , rs . OptimalThreshold ( ) )
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}
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return successfulNodes , successfulHashes , nil
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}
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func ( ec * ecClient ) putPiece ( ctx , parent context . Context , limit * pb . AddressedOrderLimit , privateKey storj . PiecePrivateKey , data io . ReadCloser , expiration time . Time ) ( hash * pb . PieceHash , err error ) {
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nodeName := "nil"
if limit != nil {
nodeName = limit . GetLimit ( ) . StorageNodeId . String ( ) [ 0 : 8 ]
}
defer mon . Task ( ) ( & ctx , "node: " + nodeName ) ( & err )
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defer func ( ) { err = errs . Combine ( err , data . Close ( ) ) } ( )
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if limit == nil {
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_ , _ = io . Copy ( ioutil . Discard , data )
return nil , nil
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}
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storageNodeID := limit . GetLimit ( ) . StorageNodeId
pieceID := limit . GetLimit ( ) . PieceId
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ps , err := ec . dialPiecestore ( ctx , & pb . Node {
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Id : storageNodeID ,
Address : limit . GetStorageNodeAddress ( ) ,
} )
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if err != nil {
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ec . log . Debug ( "Failed dialing for putting piece to node" ,
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zap . String ( "PieceID" , pieceID . String ( ) ) ,
zap . String ( "NodeID" , storageNodeID . String ( ) ) ,
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zap . Error ( err ) ,
)
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return nil , err
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}
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defer func ( ) { err = errs . Combine ( err , ps . Close ( ) ) } ( )
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upload , err := ps . Upload ( ctx , limit . GetLimit ( ) , privateKey )
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if err != nil {
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ec . log . Debug ( "Failed requesting upload of pieces to node" ,
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zap . String ( "PieceID" , pieceID . String ( ) ) ,
zap . String ( "NodeID" , storageNodeID . String ( ) ) ,
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zap . Error ( err ) ,
)
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return nil , err
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}
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defer func ( ) {
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if err != nil {
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err = errs . Combine ( err , upload . Cancel ( ctx ) )
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return
}
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hash , err = upload . Commit ( ctx )
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} ( )
_ , err = sync2 . Copy ( ctx , upload , data )
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// Canceled context means the piece upload was interrupted by user or due
// to slow connection. No error logging for this case.
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if err != nil {
if errs2 . IsCanceled ( err ) {
if parent . Err ( ) == context . Canceled {
ec . log . Info ( "Upload to node canceled by user" , zap . Stringer ( "NodeID" , storageNodeID ) )
} else {
ec . log . Debug ( "Node cut from upload due to slow connection" , zap . Stringer ( "NodeID" , storageNodeID ) )
}
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} else {
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nodeAddress := ""
if limit . GetStorageNodeAddress ( ) != nil {
nodeAddress = limit . GetStorageNodeAddress ( ) . GetAddress ( )
}
ec . log . Debug ( "Failed uploading piece to node" ,
zap . Stringer ( "PieceID" , pieceID ) ,
zap . Stringer ( "NodeID" , storageNodeID ) ,
zap . String ( "Node Address" , nodeAddress ) ,
zap . Error ( err ) ,
)
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}
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return nil , err
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}
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return nil , nil
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}
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func ( ec * ecClient ) Get ( ctx context . Context , limits [ ] * pb . AddressedOrderLimit , privateKey storj . PiecePrivateKey , es eestream . ErasureScheme , size int64 ) ( rr ranger . Ranger , err error ) {
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defer mon . Task ( ) ( & ctx ) ( & err )
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if len ( limits ) != es . TotalCount ( ) {
return nil , Error . New ( "size of limits slice (%d) does not match total count (%d) of erasure scheme" , len ( limits ) , es . TotalCount ( ) )
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}
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if nonNilCount ( limits ) < es . RequiredCount ( ) {
return nil , Error . New ( "number of non-nil limits (%d) is less than required count (%d) of erasure scheme" , nonNilCount ( limits ) , es . RequiredCount ( ) )
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}
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paddedSize := calcPadded ( size , es . StripeSize ( ) )
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pieceSize := paddedSize / int64 ( es . RequiredCount ( ) )
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rrs := map [ int ] ranger . Ranger { }
for i , addressedLimit := range limits {
if addressedLimit == nil {
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continue
}
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rrs [ i ] = & lazyPieceRanger {
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dialPiecestore : ec . dialPiecestore ,
limit : addressedLimit ,
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privateKey : privateKey ,
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size : pieceSize ,
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}
}
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rr , err = eestream . Decode ( ec . log , rrs , es , ec . memoryLimit , ec . forceErrorDetection )
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if err != nil {
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return nil , Error . Wrap ( err )
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}
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ranger , err := eestream . Unpad ( rr , int ( paddedSize - size ) )
return ranger , Error . Wrap ( err )
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}
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func ( ec * ecClient ) Delete ( ctx context . Context , limits [ ] * pb . AddressedOrderLimit , privateKey storj . PiecePrivateKey ) ( err error ) {
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defer mon . Task ( ) ( & ctx ) ( & err )
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errch := make ( chan error , len ( limits ) )
for _ , addressedLimit := range limits {
if addressedLimit == nil {
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errch <- nil
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continue
}
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go func ( addressedLimit * pb . AddressedOrderLimit ) {
limit := addressedLimit . GetLimit ( )
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ps , err := ec . dialPiecestore ( ctx , & pb . Node {
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Id : limit . StorageNodeId ,
Address : addressedLimit . GetStorageNodeAddress ( ) ,
} )
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if err != nil {
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ec . log . Debug ( "Failed dialing for deleting piece from node" ,
zap . String ( "PieceID" , limit . PieceId . String ( ) ) ,
zap . String ( "NodeID" , limit . StorageNodeId . String ( ) ) ,
zap . Error ( err ) ,
)
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errch <- err
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return
}
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err = ps . Delete ( ctx , limit , privateKey )
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err = errs . Combine ( err , ps . Close ( ) )
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if err != nil {
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ec . log . Debug ( "Failed deleting piece from node" ,
zap . String ( "PieceID" , limit . PieceId . String ( ) ) ,
zap . String ( "NodeID" , limit . StorageNodeId . String ( ) ) ,
zap . Error ( err ) ,
)
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}
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errch <- err
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} ( addressedLimit )
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}
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allerrs := collectErrors ( errch , len ( limits ) )
if len ( allerrs ) > 0 && len ( allerrs ) == len ( limits ) {
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return allerrs [ 0 ]
}
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return nil
}
func collectErrors ( errs <- chan error , size int ) [ ] error {
var result [ ] error
for i := 0 ; i < size ; i ++ {
err := <- errs
if err != nil {
result = append ( result , err )
}
}
return result
}
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func unique ( limits [ ] * pb . AddressedOrderLimit ) bool {
if len ( limits ) < 2 {
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return true
}
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ids := make ( storj . NodeIDList , len ( limits ) )
for i , addressedLimit := range limits {
if addressedLimit != nil {
ids [ i ] = addressedLimit . GetLimit ( ) . StorageNodeId
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}
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}
// sort the ids and check for identical neighbors
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sort . Sort ( ids )
// sort.Slice(ids, func(i, k int) bool { return ids[i].Less(ids[k]) })
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for i := 1 ; i < len ( ids ) ; i ++ {
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if ids [ i ] != ( storj . NodeID { } ) && ids [ i ] == ids [ i - 1 ] {
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return false
}
}
return true
}
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func calcPadded ( size int64 , blockSize int ) int64 {
mod := size % int64 ( blockSize )
if mod == 0 {
return size
}
return size + int64 ( blockSize ) - mod
}
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type lazyPieceRanger struct {
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dialPiecestore dialPiecestoreFunc
limit * pb . AddressedOrderLimit
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privateKey storj . PiecePrivateKey
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size int64
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}
// Size implements Ranger.Size
func ( lr * lazyPieceRanger ) Size ( ) int64 {
return lr . size
}
// Range implements Ranger.Range to be lazily connected
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func ( lr * lazyPieceRanger ) Range ( ctx context . Context , offset , length int64 ) ( _ io . ReadCloser , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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return & lazyPieceReader {
ranger : lr ,
ctx : ctx ,
offset : offset ,
length : length ,
} , nil
}
type lazyPieceReader struct {
ranger * lazyPieceRanger
ctx context . Context
offset int64
length int64
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mu sync . Mutex
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isClosed bool
piecestore . Downloader
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client * piecestore . Client
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}
func ( lr * lazyPieceReader ) Read ( data [ ] byte ) ( _ int , err error ) {
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lr . mu . Lock ( )
defer lr . mu . Unlock ( )
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if lr . isClosed {
return 0 , io . EOF
}
if lr . Downloader == nil {
client , downloader , err := lr . ranger . dial ( lr . ctx , lr . offset , lr . length )
if err != nil {
return 0 , err
}
lr . Downloader = downloader
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lr . client = client
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}
return lr . Downloader . Read ( data )
}
func ( lr * lazyPieceRanger ) dial ( ctx context . Context , offset , length int64 ) ( _ * piecestore . Client , _ piecestore . Downloader , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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ps , err := lr . dialPiecestore ( ctx , & pb . Node {
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Id : lr . limit . GetLimit ( ) . StorageNodeId ,
Address : lr . limit . GetStorageNodeAddress ( ) ,
} )
if err != nil {
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return nil , nil , err
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}
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download , err := ps . Download ( ctx , lr . limit . GetLimit ( ) , lr . privateKey , offset , length )
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if err != nil {
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return nil , nil , errs . Combine ( err , ps . Close ( ) )
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}
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return ps , download , nil
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}
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func ( lr * lazyPieceReader ) Close ( ) ( err error ) {
lr . mu . Lock ( )
defer lr . mu . Unlock ( )
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if lr . isClosed {
return nil
}
lr . isClosed = true
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if lr . Downloader != nil {
err = errs . Combine ( err , lr . Downloader . Close ( ) )
}
if lr . client != nil {
err = errs . Combine ( err , lr . client . Close ( ) )
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}
return err
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}
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func nonNilCount ( limits [ ] * pb . AddressedOrderLimit ) int {
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total := 0
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for _ , limit := range limits {
if limit != nil {
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total ++
}
}
return total
}