mirror of
https://github.com/Luzifer/cloudkeys-go.git
synced 2024-11-14 17:02:43 +00:00
Knut Ahlers
a1df72edc5
commitf0db1ff1f8
Author: Knut Ahlers <knut@ahlers.me> Date: Sun Dec 24 12:19:56 2017 +0100 Mark option as deprecated Signed-off-by: Knut Ahlers <knut@ahlers.me> commit9891df2a16
Author: Knut Ahlers <knut@ahlers.me> Date: Sun Dec 24 12:11:56 2017 +0100 Fix: Typo Signed-off-by: Knut Ahlers <knut@ahlers.me> commit836006de64
Author: Knut Ahlers <knut@ahlers.me> Date: Sun Dec 24 12:04:20 2017 +0100 Add new dependencies Signed-off-by: Knut Ahlers <knut@ahlers.me> commitd64fee60c8
Author: Knut Ahlers <knut@ahlers.me> Date: Sun Dec 24 11:55:52 2017 +0100 Replace insecure password hashing Prior this commit passwords were hashed with a static salt and using the SHA1 hashing function. This could lead to passwords being attackable in case someone gets access to the raw data stored inside the database. This commit introduces password hashing using bcrypt hashing function which addresses this issue. Old passwords are not automatically re-hashed as they are unknown. Replacing the old password scheme is not that easy and needs #10 to be solved. Therefore the old hashing scheme is kept for compatibility reason. Signed-off-by: Knut Ahlers <knut@ahlers.me> Signed-off-by: Knut Ahlers <knut@ahlers.me> closes #14 closes #15
187 lines
4.2 KiB
Go
187 lines
4.2 KiB
Go
// Copyright 2016 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 blake2s implements the BLAKE2s hash algorithm defined by RFC 7693
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// and the extendable output function (XOF) BLAKE2Xs.
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//
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// For a detailed specification of BLAKE2s see https://blake2.net/blake2.pdf
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// and for BLAKE2Xs see https://blake2.net/blake2x.pdf
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//
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// If you aren't sure which function you need, use BLAKE2s (Sum256 or New256).
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// If you need a secret-key MAC (message authentication code), use the New256
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// function with a non-nil key.
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//
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// BLAKE2X is a construction to compute hash values larger than 32 bytes. It
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// can produce hash values between 0 and 65535 bytes.
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package blake2s // import "golang.org/x/crypto/blake2s"
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import (
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"encoding/binary"
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"errors"
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"hash"
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)
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const (
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// The blocksize of BLAKE2s in bytes.
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BlockSize = 64
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// The hash size of BLAKE2s-256 in bytes.
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Size = 32
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// The hash size of BLAKE2s-128 in bytes.
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Size128 = 16
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)
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var errKeySize = errors.New("blake2s: invalid key size")
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var iv = [8]uint32{
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0x6a09e667, 0xbb67ae85, 0x3c6ef372, 0xa54ff53a,
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0x510e527f, 0x9b05688c, 0x1f83d9ab, 0x5be0cd19,
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}
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// Sum256 returns the BLAKE2s-256 checksum of the data.
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func Sum256(data []byte) [Size]byte {
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var sum [Size]byte
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checkSum(&sum, Size, data)
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return sum
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}
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// New256 returns a new hash.Hash computing the BLAKE2s-256 checksum. A non-nil
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// key turns the hash into a MAC. The key must between zero and 32 bytes long.
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func New256(key []byte) (hash.Hash, error) { return newDigest(Size, key) }
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// New128 returns a new hash.Hash computing the BLAKE2s-128 checksum given a
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// non-empty key. Note that a 128-bit digest is too small to be secure as a
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// cryptographic hash and should only be used as a MAC, thus the key argument
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// is not optional.
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func New128(key []byte) (hash.Hash, error) {
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if len(key) == 0 {
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return nil, errors.New("blake2s: a key is required for a 128-bit hash")
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}
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return newDigest(Size128, key)
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}
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func newDigest(hashSize int, key []byte) (*digest, error) {
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if len(key) > Size {
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return nil, errKeySize
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}
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d := &digest{
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size: hashSize,
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keyLen: len(key),
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}
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copy(d.key[:], key)
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d.Reset()
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return d, nil
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}
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func checkSum(sum *[Size]byte, hashSize int, data []byte) {
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var (
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h [8]uint32
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c [2]uint32
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)
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h = iv
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h[0] ^= uint32(hashSize) | (1 << 16) | (1 << 24)
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if length := len(data); length > BlockSize {
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n := length &^ (BlockSize - 1)
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if length == n {
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n -= BlockSize
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}
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hashBlocks(&h, &c, 0, data[:n])
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data = data[n:]
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}
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var block [BlockSize]byte
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offset := copy(block[:], data)
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remaining := uint32(BlockSize - offset)
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if c[0] < remaining {
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c[1]--
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}
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c[0] -= remaining
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hashBlocks(&h, &c, 0xFFFFFFFF, block[:])
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for i, v := range h {
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binary.LittleEndian.PutUint32(sum[4*i:], v)
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}
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}
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type digest struct {
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h [8]uint32
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c [2]uint32
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size int
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block [BlockSize]byte
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offset int
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key [BlockSize]byte
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keyLen int
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}
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func (d *digest) BlockSize() int { return BlockSize }
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func (d *digest) Size() int { return d.size }
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func (d *digest) Reset() {
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d.h = iv
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d.h[0] ^= uint32(d.size) | (uint32(d.keyLen) << 8) | (1 << 16) | (1 << 24)
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d.offset, d.c[0], d.c[1] = 0, 0, 0
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if d.keyLen > 0 {
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d.block = d.key
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d.offset = BlockSize
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}
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}
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func (d *digest) Write(p []byte) (n int, err error) {
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n = len(p)
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if d.offset > 0 {
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remaining := BlockSize - d.offset
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if n <= remaining {
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d.offset += copy(d.block[d.offset:], p)
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return
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}
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copy(d.block[d.offset:], p[:remaining])
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hashBlocks(&d.h, &d.c, 0, d.block[:])
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d.offset = 0
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p = p[remaining:]
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}
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if length := len(p); length > BlockSize {
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nn := length &^ (BlockSize - 1)
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if length == nn {
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nn -= BlockSize
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}
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hashBlocks(&d.h, &d.c, 0, p[:nn])
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p = p[nn:]
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}
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d.offset += copy(d.block[:], p)
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return
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}
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func (d *digest) Sum(sum []byte) []byte {
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var hash [Size]byte
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d.finalize(&hash)
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return append(sum, hash[:d.size]...)
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}
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func (d *digest) finalize(hash *[Size]byte) {
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var block [BlockSize]byte
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h := d.h
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c := d.c
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copy(block[:], d.block[:d.offset])
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remaining := uint32(BlockSize - d.offset)
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if c[0] < remaining {
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c[1]--
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}
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c[0] -= remaining
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hashBlocks(&h, &c, 0xFFFFFFFF, block[:])
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for i, v := range h {
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binary.LittleEndian.PutUint32(hash[4*i:], v)
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}
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}
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