mirror of
https://github.com/cwinfo/matterbridge.git
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178 lines
4.0 KiB
Go
178 lines
4.0 KiB
Go
// Copyright 2017 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package blake2b
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import (
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"encoding/binary"
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"errors"
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"io"
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)
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// XOF defines the interface to hash functions that
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// support arbitrary-length output.
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type XOF interface {
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// Write absorbs more data into the hash's state. It panics if called
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// after Read.
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io.Writer
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// Read reads more output from the hash. It returns io.EOF if the limit
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// has been reached.
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io.Reader
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// Clone returns a copy of the XOF in its current state.
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Clone() XOF
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// Reset resets the XOF to its initial state.
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Reset()
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}
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// OutputLengthUnknown can be used as the size argument to NewXOF to indicate
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// the length of the output is not known in advance.
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const OutputLengthUnknown = 0
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// magicUnknownOutputLength is a magic value for the output size that indicates
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// an unknown number of output bytes.
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const magicUnknownOutputLength = (1 << 32) - 1
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// maxOutputLength is the absolute maximum number of bytes to produce when the
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// number of output bytes is unknown.
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const maxOutputLength = (1 << 32) * 64
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// NewXOF creates a new variable-output-length hash. The hash either produce a
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// known number of bytes (1 <= size < 2**32-1), or an unknown number of bytes
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// (size == OutputLengthUnknown). In the latter case, an absolute limit of
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// 256GiB applies.
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//
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// A non-nil key turns the hash into a MAC. The key must between
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// zero and 32 bytes long.
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func NewXOF(size uint32, key []byte) (XOF, error) {
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if len(key) > Size {
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return nil, errKeySize
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}
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if size == magicUnknownOutputLength {
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// 2^32-1 indicates an unknown number of bytes and thus isn't a
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// valid length.
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return nil, errors.New("blake2b: XOF length too large")
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}
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if size == OutputLengthUnknown {
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size = magicUnknownOutputLength
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}
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x := &xof{
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d: digest{
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size: Size,
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keyLen: len(key),
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},
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length: size,
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}
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copy(x.d.key[:], key)
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x.Reset()
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return x, nil
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}
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type xof struct {
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d digest
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length uint32
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remaining uint64
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cfg, root, block [Size]byte
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offset int
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nodeOffset uint32
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readMode bool
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}
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func (x *xof) Write(p []byte) (n int, err error) {
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if x.readMode {
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panic("blake2b: write to XOF after read")
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}
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return x.d.Write(p)
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}
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func (x *xof) Clone() XOF {
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clone := *x
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return &clone
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}
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func (x *xof) Reset() {
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x.cfg[0] = byte(Size)
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binary.LittleEndian.PutUint32(x.cfg[4:], uint32(Size)) // leaf length
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binary.LittleEndian.PutUint32(x.cfg[12:], x.length) // XOF length
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x.cfg[17] = byte(Size) // inner hash size
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x.d.Reset()
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x.d.h[1] ^= uint64(x.length) << 32
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x.remaining = uint64(x.length)
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if x.remaining == magicUnknownOutputLength {
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x.remaining = maxOutputLength
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}
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x.offset, x.nodeOffset = 0, 0
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x.readMode = false
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}
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func (x *xof) Read(p []byte) (n int, err error) {
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if !x.readMode {
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x.d.finalize(&x.root)
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x.readMode = true
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}
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if x.remaining == 0 {
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return 0, io.EOF
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}
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n = len(p)
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if uint64(n) > x.remaining {
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n = int(x.remaining)
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p = p[:n]
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}
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if x.offset > 0 {
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blockRemaining := Size - x.offset
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if n < blockRemaining {
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x.offset += copy(p, x.block[x.offset:])
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x.remaining -= uint64(n)
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return
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}
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copy(p, x.block[x.offset:])
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p = p[blockRemaining:]
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x.offset = 0
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x.remaining -= uint64(blockRemaining)
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}
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for len(p) >= Size {
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binary.LittleEndian.PutUint32(x.cfg[8:], x.nodeOffset)
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x.nodeOffset++
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x.d.initConfig(&x.cfg)
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x.d.Write(x.root[:])
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x.d.finalize(&x.block)
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copy(p, x.block[:])
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p = p[Size:]
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x.remaining -= uint64(Size)
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}
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if todo := len(p); todo > 0 {
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if x.remaining < uint64(Size) {
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x.cfg[0] = byte(x.remaining)
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}
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binary.LittleEndian.PutUint32(x.cfg[8:], x.nodeOffset)
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x.nodeOffset++
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x.d.initConfig(&x.cfg)
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x.d.Write(x.root[:])
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x.d.finalize(&x.block)
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x.offset = copy(p, x.block[:todo])
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x.remaining -= uint64(todo)
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}
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return
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}
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func (d *digest) initConfig(cfg *[Size]byte) {
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d.offset, d.c[0], d.c[1] = 0, 0, 0
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for i := range d.h {
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d.h[i] = iv[i] ^ binary.LittleEndian.Uint64(cfg[i*8:])
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}
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}
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