registry/docs/storage/driver/azure/randomwriter.go
Stephen J Day 6e4f9a2e3e Move storagedriver package to registry/storage/driver
This change is slightly more complex than previous package maves in that the
package name changed. To address this, we simply always reference the package
driver as storagedriver to avoid compatbility issues with existing code. While
unfortunate, this can be cleaned up over time.

Signed-off-by: Stephen J Day <stephen.day@docker.com>
2015-02-11 12:43:04 -08:00

208 lines
6.8 KiB
Go

package azure
import (
"fmt"
"io"
"io/ioutil"
azure "github.com/MSOpenTech/azure-sdk-for-go/clients/storage"
)
// blockStorage is the interface required from a block storage service
// client implementation
type blockStorage interface {
CreateBlockBlob(container, blob string) error
GetBlob(container, blob string) (io.ReadCloser, error)
GetSectionReader(container, blob string, start, length int64) (io.ReadCloser, error)
PutBlock(container, blob, blockID string, chunk []byte) error
GetBlockList(container, blob string, blockType azure.BlockListType) (azure.BlockListResponse, error)
PutBlockList(container, blob string, blocks []azure.Block) error
}
// randomBlobWriter enables random access semantics on Azure block blobs
// by enabling writing arbitrary length of chunks to arbitrary write offsets
// within the blob. Normally, Azure Blob Storage does not support random
// access semantics on block blobs; however, this writer can download, split and
// reupload the overlapping blocks and discards those being overwritten entirely.
type randomBlobWriter struct {
bs blockStorage
blockSize int
}
func newRandomBlobWriter(bs blockStorage, blockSize int) randomBlobWriter {
return randomBlobWriter{bs: bs, blockSize: blockSize}
}
// WriteBlobAt writes the given chunk to the specified position of an existing blob.
// The offset must be equals to size of the blob or smaller than it.
func (r *randomBlobWriter) WriteBlobAt(container, blob string, offset int64, chunk io.Reader) (int64, error) {
rand := newBlockIDGenerator()
blocks, err := r.bs.GetBlockList(container, blob, azure.BlockListTypeCommitted)
if err != nil {
return 0, err
}
rand.Feed(blocks) // load existing block IDs
// Check for write offset for existing blob
size := getBlobSize(blocks)
if offset < 0 || offset > size {
return 0, fmt.Errorf("wrong offset for Write: %v", offset)
}
// Upload the new chunk as blocks
blockList, nn, err := r.writeChunkToBlocks(container, blob, chunk, rand)
if err != nil {
return 0, err
}
// For non-append operations, existing blocks may need to be splitted
if offset != size {
// Split the block on the left end (if any)
leftBlocks, err := r.blocksLeftSide(container, blob, offset, rand)
if err != nil {
return 0, err
}
blockList = append(leftBlocks, blockList...)
// Split the block on the right end (if any)
rightBlocks, err := r.blocksRightSide(container, blob, offset, nn, rand)
if err != nil {
return 0, err
}
blockList = append(blockList, rightBlocks...)
} else {
// Use existing block list
var existingBlocks []azure.Block
for _, v := range blocks.CommittedBlocks {
existingBlocks = append(existingBlocks, azure.Block{Id: v.Name, Status: azure.BlockStatusCommitted})
}
blockList = append(existingBlocks, blockList...)
}
// Put block list
return nn, r.bs.PutBlockList(container, blob, blockList)
}
func (r *randomBlobWriter) GetSize(container, blob string) (int64, error) {
blocks, err := r.bs.GetBlockList(container, blob, azure.BlockListTypeCommitted)
if err != nil {
return 0, err
}
return getBlobSize(blocks), nil
}
// writeChunkToBlocks writes given chunk to one or multiple blocks within specified
// blob and returns their block representations. Those blocks are not committed, yet
func (r *randomBlobWriter) writeChunkToBlocks(container, blob string, chunk io.Reader, rand *blockIDGenerator) ([]azure.Block, int64, error) {
var newBlocks []azure.Block
var nn int64
// Read chunks of at most size N except the last chunk to
// maximize block size and minimize block count.
buf := make([]byte, r.blockSize)
for {
n, err := io.ReadFull(chunk, buf)
if err == io.EOF {
break
}
nn += int64(n)
data := buf[:n]
blockID := rand.Generate()
if err := r.bs.PutBlock(container, blob, blockID, data); err != nil {
return newBlocks, nn, err
}
newBlocks = append(newBlocks, azure.Block{Id: blockID, Status: azure.BlockStatusUncommitted})
}
return newBlocks, nn, nil
}
// blocksLeftSide returns the blocks that are going to be at the left side of
// the writeOffset: [0, writeOffset) by identifying blocks that will remain
// the same and splitting blocks and reuploading them as needed.
func (r *randomBlobWriter) blocksLeftSide(container, blob string, writeOffset int64, rand *blockIDGenerator) ([]azure.Block, error) {
var left []azure.Block
bx, err := r.bs.GetBlockList(container, blob, azure.BlockListTypeAll)
if err != nil {
return left, err
}
o := writeOffset
elapsed := int64(0)
for _, v := range bx.CommittedBlocks {
blkSize := int64(v.Size)
if o >= blkSize { // use existing block
left = append(left, azure.Block{Id: v.Name, Status: azure.BlockStatusCommitted})
o -= blkSize
elapsed += blkSize
} else if o > 0 { // current block needs to be splitted
start := elapsed
size := o
part, err := r.bs.GetSectionReader(container, blob, start, size)
if err != nil {
return left, err
}
newBlockID := rand.Generate()
data, err := ioutil.ReadAll(part)
if err != nil {
return left, err
}
if err = r.bs.PutBlock(container, blob, newBlockID, data); err != nil {
return left, err
}
left = append(left, azure.Block{Id: newBlockID, Status: azure.BlockStatusUncommitted})
break
}
}
return left, nil
}
// blocksRightSide returns the blocks that are going to be at the right side of
// the written chunk: [writeOffset+size, +inf) by identifying blocks that will remain
// the same and splitting blocks and reuploading them as needed.
func (r *randomBlobWriter) blocksRightSide(container, blob string, writeOffset int64, chunkSize int64, rand *blockIDGenerator) ([]azure.Block, error) {
var right []azure.Block
bx, err := r.bs.GetBlockList(container, blob, azure.BlockListTypeAll)
if err != nil {
return nil, err
}
re := writeOffset + chunkSize - 1 // right end of written chunk
var elapsed int64
for _, v := range bx.CommittedBlocks {
var (
bs = elapsed // left end of current block
be = elapsed + int64(v.Size) - 1 // right end of current block
)
if bs > re { // take the block as is
right = append(right, azure.Block{Id: v.Name, Status: azure.BlockStatusCommitted})
} else if be > re { // current block needs to be splitted
part, err := r.bs.GetSectionReader(container, blob, re+1, be-(re+1)+1)
if err != nil {
return right, err
}
newBlockID := rand.Generate()
data, err := ioutil.ReadAll(part)
if err != nil {
return right, err
}
if err = r.bs.PutBlock(container, blob, newBlockID, data); err != nil {
return right, err
}
right = append(right, azure.Block{Id: newBlockID, Status: azure.BlockStatusUncommitted})
}
elapsed += int64(v.Size)
}
return right, nil
}
func getBlobSize(blocks azure.BlockListResponse) int64 {
var n int64
for _, v := range blocks.CommittedBlocks {
n += int64(v.Size)
}
return n
}