152 lines
4.5 KiB
Go
152 lines
4.5 KiB
Go
package blake3
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import (
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"bytes"
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"encoding/binary"
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"io"
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"math/bits"
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)
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// BaoEncodedSize returns the size of a Bao encoding for the provided quantity
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// of data.
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func BaoEncodedSize(dataLen int, outboard bool) int {
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size := 8
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if dataLen > 0 {
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chunks := (dataLen + chunkSize - 1) / chunkSize
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cvs := 2*chunks - 2 // no I will not elaborate
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size += cvs * 32
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}
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if !outboard {
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size += dataLen
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}
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return size
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}
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// BaoEncode computes the intermediate BLAKE3 tree hashes of data and writes
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// them to dst. If outboard is false, the contents of data are also written to
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// dst, interleaved with the tree hashes. It also returns the tree root, i.e.
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// the 256-bit BLAKE3 hash.
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//
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// Note that dst is not written sequentially, and therefore must be initialized
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// with sufficient capacity to hold the encoding; see BaoEncodedSize.
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func BaoEncode(dst io.WriterAt, data io.Reader, dataLen int64, outboard bool) ([32]byte, error) {
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var counter uint64
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var chunkBuf [chunkSize]byte
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var err error
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read := func(p []byte) []byte {
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if err == nil {
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_, err = io.ReadFull(data, p)
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}
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return p
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}
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write := func(p []byte, off uint64) {
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if err == nil {
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_, err = dst.WriteAt(p, int64(off))
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}
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}
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// NOTE: unlike the reference implementation, we write directly in
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// pre-order, rather than writing in post-order and then flipping. This cuts
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// the I/O required in half, but also makes hashing multiple chunks in SIMD
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// a lot trickier. I'll save that optimization for a rainy day.
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var rec func(bufLen uint64, flags uint32, off uint64) (uint64, [8]uint32)
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rec = func(bufLen uint64, flags uint32, off uint64) (uint64, [8]uint32) {
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if err != nil {
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return 0, [8]uint32{}
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} else if bufLen <= chunkSize {
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cv := chainingValue(compressChunk(read(chunkBuf[:bufLen]), &iv, counter, flags))
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counter++
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if !outboard {
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write(chunkBuf[:bufLen], off)
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}
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return 0, cv
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}
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mid := uint64(1) << (bits.Len64(bufLen-1) - 1)
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lchildren, l := rec(mid, 0, off+64)
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llen := lchildren * 32
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if !outboard {
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llen += (mid / chunkSize) * chunkSize
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}
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rchildren, r := rec(bufLen-mid, 0, off+64+llen)
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write(cvToBytes(&l)[:], off)
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write(cvToBytes(&r)[:], off+32)
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return 2 + lchildren + rchildren, chainingValue(parentNode(l, r, iv, flags))
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}
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binary.LittleEndian.PutUint64(chunkBuf[:8], uint64(dataLen))
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write(chunkBuf[:8], 0)
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_, root := rec(uint64(dataLen), flagRoot, 8)
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return *cvToBytes(&root), err
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}
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// BaoDecode reads content and tree data from the provided reader(s), and
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// streams the verified content to dst. It returns false if verification fails.
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// If the content and tree data are interleaved, outboard should be nil.
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func BaoDecode(dst io.Writer, data, outboard io.Reader, root [32]byte) (bool, error) {
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if outboard == nil {
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outboard = data
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}
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var counter uint64
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var buf [chunkSize]byte
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var err error
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read := func(r io.Reader, p []byte) []byte {
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if err == nil {
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_, err = io.ReadFull(r, p)
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}
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return p
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}
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readParent := func() (l, r [8]uint32) {
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read(outboard, buf[:64])
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return bytesToCV(buf[:32]), bytesToCV(buf[32:])
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}
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var rec func(cv [8]uint32, bufLen uint64, flags uint32) bool
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rec = func(cv [8]uint32, bufLen uint64, flags uint32) bool {
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if err != nil {
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return false
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} else if bufLen <= chunkSize {
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n := compressChunk(read(data, buf[:bufLen]), &iv, counter, flags)
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counter++
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return cv == chainingValue(n)
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}
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l, r := readParent()
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n := parentNode(l, r, iv, flags)
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mid := uint64(1) << (bits.Len64(bufLen-1) - 1)
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return chainingValue(n) == cv && rec(l, mid, 0) && rec(r, bufLen-mid, 0)
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}
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read(outboard, buf[:8])
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dataLen := binary.LittleEndian.Uint64(buf[:8])
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ok := rec(bytesToCV(root[:]), dataLen, flagRoot)
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return ok, err
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}
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type bufferAt struct {
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buf []byte
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}
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func (b *bufferAt) WriteAt(p []byte, off int64) (int, error) {
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if copy(b.buf[off:], p) != len(p) {
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panic("bad buffer size")
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}
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return len(p), nil
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}
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// BaoEncodeBuf returns the Bao encoding and root (i.e. BLAKE3 hash) for data.
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func BaoEncodeBuf(data []byte, outboard bool) ([]byte, [32]byte) {
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buf := bufferAt{buf: make([]byte, BaoEncodedSize(len(data), outboard))}
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root, _ := BaoEncode(&buf, bytes.NewReader(data), int64(len(data)), outboard)
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return buf.buf, root
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}
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// BaoVerifyBuf verifies the Bao encoding and root (i.e. BLAKE3 hash) for data.
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// If the content and tree data are interleaved, outboard should be nil.
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func BaoVerifyBuf(data, outboard []byte, root [32]byte) bool {
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var or io.Reader = bytes.NewReader(outboard)
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if outboard == nil {
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or = nil
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}
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ok, _ := BaoDecode(io.Discard, bytes.NewReader(data), or, root)
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return ok
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}
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