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fffe4ac7e6
* Prevent unnecessary verification of parity blocks while reading erasure coded file. * Update klauspost/reedsolomon and just only reconstruct data blocks while reading (prevent unnecessary parity block reconstruction) * Remove Verification of (all) reconstructed Data and Parity blocks since in our case we are protected by bit rot protection. And even if the verification would fail (essentially impossible) there is no way to definitively say whether the data is still correct or not, so this call make no sense for our use case.
585 lines
15 KiB
Go
585 lines
15 KiB
Go
/**
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* Reed-Solomon Coding over 8-bit values.
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*
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* Copyright 2015, Klaus Post
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* Copyright 2015, Backblaze, Inc.
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*/
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package reedsolomon
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import (
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"bytes"
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"errors"
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"fmt"
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"io"
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"sync"
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)
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// StreamEncoder is an interface to encode Reed-Salomon parity sets for your data.
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// It provides a fully streaming interface, and processes data in blocks of up to 4MB.
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//
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// For small shard sizes, 10MB and below, it is recommended to use the in-memory interface,
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// since the streaming interface has a start up overhead.
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//
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// For all operations, no readers and writers should not assume any order/size of
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// individual reads/writes.
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//
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// For usage examples, see "stream-encoder.go" and "streamdecoder.go" in the examples
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// folder.
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type StreamEncoder interface {
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// Encodes parity shards for a set of data shards.
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//
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// Input is 'shards' containing readers for data shards followed by parity shards
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// io.Writer.
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//
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// The number of shards must match the number given to NewStream().
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//
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// Each reader must supply the same number of bytes.
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//
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// The parity shards will be written to the writer.
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// The number of bytes written will match the input size.
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//
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// If a data stream returns an error, a StreamReadError type error
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// will be returned. If a parity writer returns an error, a
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// StreamWriteError will be returned.
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Encode(data []io.Reader, parity []io.Writer) error
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// Verify returns true if the parity shards contain correct data.
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//
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// The number of shards must match the number total data+parity shards
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// given to NewStream().
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//
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// Each reader must supply the same number of bytes.
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// If a shard stream returns an error, a StreamReadError type error
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// will be returned.
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Verify(shards []io.Reader) (bool, error)
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// Reconstruct will recreate the missing shards if possible.
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//
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// Given a list of valid shards (to read) and invalid shards (to write)
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//
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// You indicate that a shard is missing by setting it to nil in the 'valid'
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// slice and at the same time setting a non-nil writer in "fill".
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// An index cannot contain both non-nil 'valid' and 'fill' entry.
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// If both are provided 'ErrReconstructMismatch' is returned.
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//
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// If there are too few shards to reconstruct the missing
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// ones, ErrTooFewShards will be returned.
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//
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// The reconstructed shard set is complete, but integrity is not verified.
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// Use the Verify function to check if data set is ok.
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Reconstruct(valid []io.Reader, fill []io.Writer) error
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// Split a an input stream into the number of shards given to the encoder.
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//
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// The data will be split into equally sized shards.
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// If the data size isn't dividable by the number of shards,
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// the last shard will contain extra zeros.
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//
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// You must supply the total size of your input.
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// 'ErrShortData' will be returned if it is unable to retrieve the
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// number of bytes indicated.
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Split(data io.Reader, dst []io.Writer, size int64) (err error)
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// Join the shards and write the data segment to dst.
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//
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// Only the data shards are considered.
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//
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// You must supply the exact output size you want.
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// If there are to few shards given, ErrTooFewShards will be returned.
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// If the total data size is less than outSize, ErrShortData will be returned.
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Join(dst io.Writer, shards []io.Reader, outSize int64) error
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}
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// StreamReadError is returned when a read error is encountered
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// that relates to a supplied stream.
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// This will allow you to find out which reader has failed.
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type StreamReadError struct {
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Err error // The error
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Stream int // The stream number on which the error occurred
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}
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// Error returns the error as a string
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func (s StreamReadError) Error() string {
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return fmt.Sprintf("error reading stream %d: %s", s.Stream, s.Err)
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}
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// String returns the error as a string
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func (s StreamReadError) String() string {
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return s.Error()
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}
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// StreamWriteError is returned when a write error is encountered
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// that relates to a supplied stream. This will allow you to
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// find out which reader has failed.
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type StreamWriteError struct {
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Err error // The error
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Stream int // The stream number on which the error occurred
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}
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// Error returns the error as a string
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func (s StreamWriteError) Error() string {
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return fmt.Sprintf("error writing stream %d: %s", s.Stream, s.Err)
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}
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// String returns the error as a string
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func (s StreamWriteError) String() string {
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return s.Error()
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}
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// rsStream contains a matrix for a specific
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// distribution of datashards and parity shards.
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// Construct if using NewStream()
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type rsStream struct {
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r *reedSolomon
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bs int // Block size
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// Shard reader
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readShards func(dst [][]byte, in []io.Reader) error
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// Shard writer
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writeShards func(out []io.Writer, in [][]byte) error
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creads bool
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cwrites bool
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}
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// NewStream creates a new encoder and initializes it to
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// the number of data shards and parity shards that
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// you want to use. You can reuse this encoder.
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// Note that the maximum number of data shards is 256.
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func NewStream(dataShards, parityShards int, o ...Option) (StreamEncoder, error) {
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enc, err := New(dataShards, parityShards, o...)
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if err != nil {
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return nil, err
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}
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rs := enc.(*reedSolomon)
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r := rsStream{r: rs, bs: 4 << 20}
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r.readShards = readShards
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r.writeShards = writeShards
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return &r, err
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}
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// NewStreamC creates a new encoder and initializes it to
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// the number of data shards and parity shards given.
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//
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// This functions as 'NewStream', but allows you to enable CONCURRENT reads and writes.
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func NewStreamC(dataShards, parityShards int, conReads, conWrites bool, o ...Option) (StreamEncoder, error) {
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enc, err := New(dataShards, parityShards, o...)
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if err != nil {
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return nil, err
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}
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rs := enc.(*reedSolomon)
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r := rsStream{r: rs, bs: 4 << 20}
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r.readShards = readShards
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r.writeShards = writeShards
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if conReads {
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r.readShards = cReadShards
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}
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if conWrites {
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r.writeShards = cWriteShards
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}
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return &r, err
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}
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func createSlice(n, length int) [][]byte {
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out := make([][]byte, n)
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for i := range out {
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out[i] = make([]byte, length)
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}
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return out
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}
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// Encodes parity shards for a set of data shards.
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//
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// Input is 'shards' containing readers for data shards followed by parity shards
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// io.Writer.
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//
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// The number of shards must match the number given to NewStream().
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//
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// Each reader must supply the same number of bytes.
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//
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// The parity shards will be written to the writer.
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// The number of bytes written will match the input size.
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//
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// If a data stream returns an error, a StreamReadError type error
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// will be returned. If a parity writer returns an error, a
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// StreamWriteError will be returned.
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func (r rsStream) Encode(data []io.Reader, parity []io.Writer) error {
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if len(data) != r.r.DataShards {
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return ErrTooFewShards
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}
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if len(parity) != r.r.ParityShards {
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return ErrTooFewShards
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}
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all := createSlice(r.r.Shards, r.bs)
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in := all[:r.r.DataShards]
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out := all[r.r.DataShards:]
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read := 0
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for {
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err := r.readShards(in, data)
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switch err {
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case nil:
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case io.EOF:
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if read == 0 {
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return ErrShardNoData
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}
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return nil
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default:
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return err
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}
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out = trimShards(out, shardSize(in))
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read += shardSize(in)
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err = r.r.Encode(all)
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if err != nil {
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return err
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}
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err = r.writeShards(parity, out)
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if err != nil {
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return err
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}
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}
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}
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// Trim the shards so they are all the same size
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func trimShards(in [][]byte, size int) [][]byte {
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for i := range in {
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if in[i] != nil {
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in[i] = in[i][0:size]
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}
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if len(in[i]) < size {
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in[i] = nil
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}
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}
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return in
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}
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func readShards(dst [][]byte, in []io.Reader) error {
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if len(in) != len(dst) {
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panic("internal error: in and dst size do not match")
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}
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size := -1
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for i := range in {
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if in[i] == nil {
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dst[i] = nil
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continue
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}
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n, err := io.ReadFull(in[i], dst[i])
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// The error is EOF only if no bytes were read.
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// If an EOF happens after reading some but not all the bytes,
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// ReadFull returns ErrUnexpectedEOF.
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switch err {
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case io.ErrUnexpectedEOF, io.EOF:
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if size < 0 {
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size = n
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} else if n != size {
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// Shard sizes must match.
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return ErrShardSize
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}
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dst[i] = dst[i][0:n]
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case nil:
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continue
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default:
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return StreamReadError{Err: err, Stream: i}
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}
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}
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if size == 0 {
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return io.EOF
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}
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return nil
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}
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func writeShards(out []io.Writer, in [][]byte) error {
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if len(out) != len(in) {
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panic("internal error: in and out size do not match")
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}
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for i := range in {
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if out[i] == nil {
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continue
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}
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n, err := out[i].Write(in[i])
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if err != nil {
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return StreamWriteError{Err: err, Stream: i}
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}
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//
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if n != len(in[i]) {
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return StreamWriteError{Err: io.ErrShortWrite, Stream: i}
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}
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}
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return nil
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}
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type readResult struct {
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n int
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size int
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err error
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}
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// cReadShards reads shards concurrently
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func cReadShards(dst [][]byte, in []io.Reader) error {
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if len(in) != len(dst) {
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panic("internal error: in and dst size do not match")
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}
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var wg sync.WaitGroup
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wg.Add(len(in))
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res := make(chan readResult, len(in))
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for i := range in {
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if in[i] == nil {
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dst[i] = nil
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wg.Done()
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continue
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}
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go func(i int) {
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defer wg.Done()
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n, err := io.ReadFull(in[i], dst[i])
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// The error is EOF only if no bytes were read.
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// If an EOF happens after reading some but not all the bytes,
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// ReadFull returns ErrUnexpectedEOF.
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res <- readResult{size: n, err: err, n: i}
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}(i)
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}
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wg.Wait()
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close(res)
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size := -1
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for r := range res {
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switch r.err {
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case io.ErrUnexpectedEOF, io.EOF:
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if size < 0 {
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size = r.size
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} else if r.size != size {
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// Shard sizes must match.
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return ErrShardSize
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}
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dst[r.n] = dst[r.n][0:r.size]
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case nil:
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default:
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return StreamReadError{Err: r.err, Stream: r.n}
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}
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}
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if size == 0 {
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return io.EOF
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}
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return nil
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}
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// cWriteShards writes shards concurrently
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func cWriteShards(out []io.Writer, in [][]byte) error {
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if len(out) != len(in) {
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panic("internal error: in and out size do not match")
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}
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var errs = make(chan error, len(out))
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var wg sync.WaitGroup
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wg.Add(len(out))
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for i := range in {
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go func(i int) {
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defer wg.Done()
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if out[i] == nil {
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errs <- nil
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return
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}
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n, err := out[i].Write(in[i])
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if err != nil {
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errs <- StreamWriteError{Err: err, Stream: i}
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return
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}
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if n != len(in[i]) {
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errs <- StreamWriteError{Err: io.ErrShortWrite, Stream: i}
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}
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}(i)
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}
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wg.Wait()
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close(errs)
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for err := range errs {
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if err != nil {
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return err
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}
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}
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return nil
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}
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// Verify returns true if the parity shards contain correct data.
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//
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// The number of shards must match the number total data+parity shards
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// given to NewStream().
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//
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// Each reader must supply the same number of bytes.
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// If a shard stream returns an error, a StreamReadError type error
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// will be returned.
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func (r rsStream) Verify(shards []io.Reader) (bool, error) {
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if len(shards) != r.r.Shards {
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return false, ErrTooFewShards
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}
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read := 0
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all := createSlice(r.r.Shards, r.bs)
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for {
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err := r.readShards(all, shards)
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if err == io.EOF {
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if read == 0 {
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return false, ErrShardNoData
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}
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return true, nil
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}
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if err != nil {
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return false, err
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}
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read += shardSize(all)
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ok, err := r.r.Verify(all)
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if !ok || err != nil {
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return ok, err
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}
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}
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}
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// ErrReconstructMismatch is returned by the StreamEncoder, if you supply
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// "valid" and "fill" streams on the same index.
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// Therefore it is impossible to see if you consider the shard valid
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// or would like to have it reconstructed.
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var ErrReconstructMismatch = errors.New("valid shards and fill shards are mutually exclusive")
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// Reconstruct will recreate the missing shards if possible.
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//
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// Given a list of valid shards (to read) and invalid shards (to write)
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//
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// You indicate that a shard is missing by setting it to nil in the 'valid'
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// slice and at the same time setting a non-nil writer in "fill".
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// An index cannot contain both non-nil 'valid' and 'fill' entry.
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//
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// If there are too few shards to reconstruct the missing
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// ones, ErrTooFewShards will be returned.
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//
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// The reconstructed shard set is complete when explicitly asked for all missing shards.
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// However its integrity is not automatically verified.
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// Use the Verify function to check in case the data set is complete.
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func (r rsStream) Reconstruct(valid []io.Reader, fill []io.Writer) error {
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if len(valid) != r.r.Shards {
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return ErrTooFewShards
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}
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if len(fill) != r.r.Shards {
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return ErrTooFewShards
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}
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all := createSlice(r.r.Shards, r.bs)
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reconDataOnly := true
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for i := range valid {
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if valid[i] != nil && fill[i] != nil {
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return ErrReconstructMismatch
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}
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if i >= r.r.DataShards && fill[i] != nil {
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reconDataOnly = false
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}
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}
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read := 0
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for {
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err := r.readShards(all, valid)
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if err == io.EOF {
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if read == 0 {
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return ErrShardNoData
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}
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return nil
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}
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if err != nil {
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return err
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}
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read += shardSize(all)
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all = trimShards(all, shardSize(all))
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if reconDataOnly {
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err = r.r.ReconstructData(all) // just reconstruct missing data shards
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} else {
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err = r.r.Reconstruct(all) // reconstruct all missing shards
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}
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if err != nil {
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return err
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}
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err = r.writeShards(fill, all)
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if err != nil {
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return err
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}
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}
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}
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|
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// Join the shards and write the data segment to dst.
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|
//
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// Only the data shards are considered.
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|
//
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|
// You must supply the exact output size you want.
|
|
// If there are to few shards given, ErrTooFewShards will be returned.
|
|
// If the total data size is less than outSize, ErrShortData will be returned.
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|
func (r rsStream) Join(dst io.Writer, shards []io.Reader, outSize int64) error {
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// Do we have enough shards?
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if len(shards) < r.r.DataShards {
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return ErrTooFewShards
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}
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// Trim off parity shards if any
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shards = shards[:r.r.DataShards]
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for i := range shards {
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if shards[i] == nil {
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return StreamReadError{Err: ErrShardNoData, Stream: i}
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}
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}
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// Join all shards
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src := io.MultiReader(shards...)
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// Copy data to dst
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n, err := io.CopyN(dst, src, outSize)
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if err == io.EOF {
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return ErrShortData
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}
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if err != nil {
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return err
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}
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if n != outSize {
|
|
return ErrShortData
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// Split a an input stream into the number of shards given to the encoder.
|
|
//
|
|
// The data will be split into equally sized shards.
|
|
// If the data size isn't dividable by the number of shards,
|
|
// the last shard will contain extra zeros.
|
|
//
|
|
// You must supply the total size of your input.
|
|
// 'ErrShortData' will be returned if it is unable to retrieve the
|
|
// number of bytes indicated.
|
|
func (r rsStream) Split(data io.Reader, dst []io.Writer, size int64) error {
|
|
if size == 0 {
|
|
return ErrShortData
|
|
}
|
|
if len(dst) != r.r.DataShards {
|
|
return ErrInvShardNum
|
|
}
|
|
|
|
for i := range dst {
|
|
if dst[i] == nil {
|
|
return StreamWriteError{Err: ErrShardNoData, Stream: i}
|
|
}
|
|
}
|
|
|
|
// Calculate number of bytes per shard.
|
|
perShard := (size + int64(r.r.DataShards) - 1) / int64(r.r.DataShards)
|
|
|
|
// Pad data to r.Shards*perShard.
|
|
padding := make([]byte, (int64(r.r.Shards)*perShard)-size)
|
|
data = io.MultiReader(data, bytes.NewBuffer(padding))
|
|
|
|
// Split into equal-length shards and copy.
|
|
for i := range dst {
|
|
n, err := io.CopyN(dst[i], data, perShard)
|
|
if err != io.EOF && err != nil {
|
|
return err
|
|
}
|
|
if n != perShard {
|
|
return ErrShortData
|
|
}
|
|
}
|
|
|
|
return nil
|
|
}
|