1c56a4cf5c
* Decoder can tolerate readers with unexpected EOF * Return EOF if required number of inbufs are at EOF * Use existing randData() to generate random data for tests * Test case for io.ErrUnexpectedEOF * Add TransformReaderSize constructor
154 lines
4.7 KiB
Go
154 lines
4.7 KiB
Go
// Copyright (C) 2018 Storj Labs, Inc.
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// See LICENSE for copying information.
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package eestream
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import (
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"bytes"
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"io"
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"io/ioutil"
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"storj.io/storj/internal/pkg/readcloser"
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"storj.io/storj/pkg/ranger"
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)
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// A Transformer is a data transformation that may change the size of the blocks
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// of data it operates on in a deterministic fashion.
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type Transformer interface {
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InBlockSize() int // The block size prior to transformation
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OutBlockSize() int // The block size after transformation
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Transform(out, in []byte, blockNum int64) ([]byte, error)
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}
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type transformedReader struct {
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r io.ReadCloser
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t Transformer
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blockNum int64
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inbuf []byte
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outbuf []byte
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expectedSize int64
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bytesRead int
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}
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// TransformReader applies a Transformer to a Reader. startingBlockNum should
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// probably be 0 unless you know you're already starting at a block offset.
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func TransformReader(r io.ReadCloser, t Transformer,
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startingBlockNum int64) io.ReadCloser {
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return &transformedReader{
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r: r,
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t: t,
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blockNum: startingBlockNum,
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inbuf: make([]byte, t.InBlockSize()),
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outbuf: make([]byte, 0, t.OutBlockSize()),
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}
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}
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// TransformReaderSize creates a TransformReader with expected size,
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// i.e. the number of bytes that is expected to be read from this reader.
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// If less than the expected bytes are read, the reader will return
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// io.ErrUnexpectedEOF instead of io.EOF.
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func TransformReaderSize(r io.ReadCloser, t Transformer,
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startingBlockNum int64, expectedSize int64) io.ReadCloser {
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return &transformedReader{
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r: r,
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t: t,
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blockNum: startingBlockNum,
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inbuf: make([]byte, t.InBlockSize()),
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outbuf: make([]byte, 0, t.OutBlockSize()),
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expectedSize: expectedSize,
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}
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}
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func (t *transformedReader) Read(p []byte) (n int, err error) {
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if len(t.outbuf) <= 0 {
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// If there's no more buffered data left, let's fill the buffer with
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// the next block
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b, err := io.ReadFull(t.r, t.inbuf)
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t.bytesRead += b
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if err == io.EOF && int64(t.bytesRead) < t.expectedSize {
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return 0, io.ErrUnexpectedEOF
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} else if err != nil {
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return 0, err
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}
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t.outbuf, err = t.t.Transform(t.outbuf, t.inbuf, t.blockNum)
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if err != nil {
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return 0, Error.Wrap(err)
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}
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t.blockNum++
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}
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// return as much as we can from the current buffered block
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n = copy(p, t.outbuf)
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// slide the uncopied data to the beginning of the buffer
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copy(t.outbuf, t.outbuf[n:])
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// resize the buffer
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t.outbuf = t.outbuf[:len(t.outbuf)-n]
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return n, nil
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}
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func (t *transformedReader) Close() error {
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return t.r.Close()
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}
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type transformedRanger struct {
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rr ranger.Ranger
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t Transformer
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}
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// Transform will apply a Transformer to a Ranger.
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func Transform(rr ranger.Ranger, t Transformer) (ranger.Ranger, error) {
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if rr.Size()%int64(t.InBlockSize()) != 0 {
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return nil, Error.New("invalid transformer and range reader combination." +
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"the range reader size is not a multiple of the block size")
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}
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return &transformedRanger{rr: rr, t: t}, nil
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}
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func (t *transformedRanger) Size() int64 {
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blocks := t.rr.Size() / int64(t.t.InBlockSize())
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return blocks * int64(t.t.OutBlockSize())
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}
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// calcEncompassingBlocks is a useful helper function that, given an offset,
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// length, and blockSize, will tell you which blocks contain the requested
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// offset and length
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func calcEncompassingBlocks(offset, length int64, blockSize int) (
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firstBlock, blockCount int64) {
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firstBlock = offset / int64(blockSize)
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if length <= 0 {
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return firstBlock, 0
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}
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lastBlock := (offset + length) / int64(blockSize)
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if (offset+length)%int64(blockSize) == 0 {
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return firstBlock, lastBlock - firstBlock
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}
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return firstBlock, 1 + lastBlock - firstBlock
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}
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func (t *transformedRanger) Range(offset, length int64) io.ReadCloser {
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// Range may not have been called for block-aligned offsets and lengths, so
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// let's figure out which blocks encompass the request
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firstBlock, blockCount := calcEncompassingBlocks(
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offset, length, t.t.OutBlockSize())
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// okay, now let's get the range on the underlying ranger for those blocks
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// and then Transform it.
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r := TransformReaderSize(
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t.rr.Range(
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firstBlock*int64(t.t.InBlockSize()),
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blockCount*int64(t.t.InBlockSize())),
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t.t, firstBlock, blockCount*int64(t.t.InBlockSize()))
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// the range we got potentially includes more than we wanted. if the
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// offset started past the beginning of the first block, we need to
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// swallow the first few bytes
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_, err := io.CopyN(ioutil.Discard, r,
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offset-firstBlock*int64(t.t.OutBlockSize()))
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if err != nil {
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if err == io.EOF {
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return ioutil.NopCloser(bytes.NewReader(nil))
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}
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return readcloser.FatalReadCloser(Error.Wrap(err))
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}
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// the range might have been too long. only return what was requested
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return readcloser.LimitReadCloser(r, length)
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}
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