| // Copyright 2016 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| // +build ignore |
| |
| package aes |
| |
| import ( |
| "crypto/cipher" |
| "crypto/subtle" |
| "errors" |
| ) |
| |
| // gcmCount represents a 16-byte big-endian count value. |
| type gcmCount [16]byte |
| |
| // inc increments the rightmost 32-bits of the count value by 1. |
| func (x *gcmCount) inc() { |
| // The compiler should optimize this to a 32-bit addition. |
| n := uint32(x[15]) | uint32(x[14])<<8 | uint32(x[13])<<16 | uint32(x[12])<<24 |
| n += 1 |
| x[12] = byte(n >> 24) |
| x[13] = byte(n >> 16) |
| x[14] = byte(n >> 8) |
| x[15] = byte(n) |
| } |
| |
| // gcmLengths writes len0 || len1 as big-endian values to a 16-byte array. |
| func gcmLengths(len0, len1 uint64) [16]byte { |
| return [16]byte{ |
| byte(len0 >> 56), |
| byte(len0 >> 48), |
| byte(len0 >> 40), |
| byte(len0 >> 32), |
| byte(len0 >> 24), |
| byte(len0 >> 16), |
| byte(len0 >> 8), |
| byte(len0), |
| byte(len1 >> 56), |
| byte(len1 >> 48), |
| byte(len1 >> 40), |
| byte(len1 >> 32), |
| byte(len1 >> 24), |
| byte(len1 >> 16), |
| byte(len1 >> 8), |
| byte(len1), |
| } |
| } |
| |
| // gcmHashKey represents the 16-byte hash key required by the GHASH algorithm. |
| type gcmHashKey [16]byte |
| |
| type gcmAsm struct { |
| block *aesCipherAsm |
| hashKey gcmHashKey |
| nonceSize int |
| } |
| |
| const ( |
| gcmBlockSize = 16 |
| gcmTagSize = 16 |
| gcmStandardNonceSize = 12 |
| ) |
| |
| var errOpen = errors.New("cipher: message authentication failed") |
| |
| // Assert that aesCipherAsm implements the gcmAble interface. |
| var _ gcmAble = (*aesCipherAsm)(nil) |
| |
| // NewGCM returns the AES cipher wrapped in Galois Counter Mode. This is only |
| // called by crypto/cipher.NewGCM via the gcmAble interface. |
| func (c *aesCipherAsm) NewGCM(nonceSize int) (cipher.AEAD, error) { |
| var hk gcmHashKey |
| c.Encrypt(hk[:], hk[:]) |
| g := &gcmAsm{ |
| block: c, |
| hashKey: hk, |
| nonceSize: nonceSize, |
| } |
| return g, nil |
| } |
| |
| func (g *gcmAsm) NonceSize() int { |
| return g.nonceSize |
| } |
| |
| func (*gcmAsm) Overhead() int { |
| return gcmTagSize |
| } |
| |
| // sliceForAppend takes a slice and a requested number of bytes. It returns a |
| // slice with the contents of the given slice followed by that many bytes and a |
| // second slice that aliases into it and contains only the extra bytes. If the |
| // original slice has sufficient capacity then no allocation is performed. |
| func sliceForAppend(in []byte, n int) (head, tail []byte) { |
| if total := len(in) + n; cap(in) >= total { |
| head = in[:total] |
| } else { |
| head = make([]byte, total) |
| copy(head, in) |
| } |
| tail = head[len(in):] |
| return |
| } |
| |
| // ghash uses the GHASH algorithm to hash data with the given key. The initial |
| // hash value is given by hash which will be updated with the new hash value. |
| // The length of data must be a multiple of 16-bytes. |
| //go:noescape |
| func ghash(key *gcmHashKey, hash *[16]byte, data []byte) |
| |
| // paddedGHASH pads data with zeroes until its length is a multiple of |
| // 16-bytes. It then calculates a new value for hash using the GHASH algorithm. |
| func (g *gcmAsm) paddedGHASH(hash *[16]byte, data []byte) { |
| siz := len(data) &^ 0xf // align size to 16-bytes |
| if siz > 0 { |
| ghash(&g.hashKey, hash, data[:siz]) |
| data = data[siz:] |
| } |
| if len(data) > 0 { |
| var s [16]byte |
| copy(s[:], data) |
| ghash(&g.hashKey, hash, s[:]) |
| } |
| } |
| |
| // cryptBlocksGCM encrypts src using AES in counter mode using the given |
| // function code and key. The rightmost 32-bits of the counter are incremented |
| // between each block as required by the GCM spec. The initial counter value |
| // is given by cnt, which is updated with the value of the next counter value |
| // to use. |
| // |
| // The lengths of both dst and buf must be greater than or equal to the length |
| // of src. buf may be partially or completely overwritten during the execution |
| // of the function. |
| //go:noescape |
| func cryptBlocksGCM(fn code, key, dst, src, buf []byte, cnt *gcmCount) |
| |
| // counterCrypt encrypts src using AES in counter mode and places the result |
| // into dst. cnt is the initial count value and will be updated with the next |
| // count value. The length of dst must be greater than or equal to the length |
| // of src. |
| func (g *gcmAsm) counterCrypt(dst, src []byte, cnt *gcmCount) { |
| // Copying src into a buffer improves performance on some models when |
| // src and dst point to the same underlying array. We also need a |
| // buffer for counter values. |
| var ctrbuf, srcbuf [2048]byte |
| for len(src) >= 16 { |
| siz := len(src) |
| if len(src) > len(ctrbuf) { |
| siz = len(ctrbuf) |
| } |
| siz &^= 0xf // align siz to 16-bytes |
| copy(srcbuf[:], src[:siz]) |
| cryptBlocksGCM(g.block.function, g.block.key, dst[:siz], srcbuf[:siz], ctrbuf[:], cnt) |
| src = src[siz:] |
| dst = dst[siz:] |
| } |
| if len(src) > 0 { |
| var x [16]byte |
| g.block.Encrypt(x[:], cnt[:]) |
| for i := range src { |
| dst[i] = src[i] ^ x[i] |
| } |
| cnt.inc() |
| } |
| } |
| |
| // deriveCounter computes the initial GCM counter state from the given nonce. |
| // See NIST SP 800-38D, section 7.1. |
| func (g *gcmAsm) deriveCounter(nonce []byte) gcmCount { |
| // GCM has two modes of operation with respect to the initial counter |
| // state: a "fast path" for 96-bit (12-byte) nonces, and a "slow path" |
| // for nonces of other lengths. For a 96-bit nonce, the nonce, along |
| // with a four-byte big-endian counter starting at one, is used |
| // directly as the starting counter. For other nonce sizes, the counter |
| // is computed by passing it through the GHASH function. |
| var counter gcmCount |
| if len(nonce) == gcmStandardNonceSize { |
| copy(counter[:], nonce) |
| counter[gcmBlockSize-1] = 1 |
| } else { |
| var hash [16]byte |
| g.paddedGHASH(&hash, nonce) |
| lens := gcmLengths(0, uint64(len(nonce))*8) |
| g.paddedGHASH(&hash, lens[:]) |
| copy(counter[:], hash[:]) |
| } |
| return counter |
| } |
| |
| // auth calculates GHASH(ciphertext, additionalData), masks the result with |
| // tagMask and writes the result to out. |
| func (g *gcmAsm) auth(out, ciphertext, additionalData []byte, tagMask *[gcmTagSize]byte) { |
| var hash [16]byte |
| g.paddedGHASH(&hash, additionalData) |
| g.paddedGHASH(&hash, ciphertext) |
| lens := gcmLengths(uint64(len(additionalData))*8, uint64(len(ciphertext))*8) |
| g.paddedGHASH(&hash, lens[:]) |
| |
| copy(out, hash[:]) |
| for i := range out { |
| out[i] ^= tagMask[i] |
| } |
| } |
| |
| // Seal encrypts and authenticates plaintext. See the cipher.AEAD interface for |
| // details. |
| func (g *gcmAsm) Seal(dst, nonce, plaintext, data []byte) []byte { |
| if len(nonce) != g.nonceSize { |
| panic("cipher: incorrect nonce length given to GCM") |
| } |
| if uint64(len(plaintext)) > ((1<<32)-2)*BlockSize { |
| panic("cipher: message too large for GCM") |
| } |
| |
| ret, out := sliceForAppend(dst, len(plaintext)+gcmTagSize) |
| |
| counter := g.deriveCounter(nonce) |
| |
| var tagMask [gcmBlockSize]byte |
| g.block.Encrypt(tagMask[:], counter[:]) |
| counter.inc() |
| |
| g.counterCrypt(out, plaintext, &counter) |
| g.auth(out[len(plaintext):], out[:len(plaintext)], data, &tagMask) |
| |
| return ret |
| } |
| |
| // Open authenticates and decrypts ciphertext. See the cipher.AEAD interface |
| // for details. |
| func (g *gcmAsm) Open(dst, nonce, ciphertext, data []byte) ([]byte, error) { |
| if len(nonce) != g.nonceSize { |
| panic("cipher: incorrect nonce length given to GCM") |
| } |
| if len(ciphertext) < gcmTagSize { |
| return nil, errOpen |
| } |
| if uint64(len(ciphertext)) > ((1<<32)-2)*BlockSize+gcmTagSize { |
| return nil, errOpen |
| } |
| |
| tag := ciphertext[len(ciphertext)-gcmTagSize:] |
| ciphertext = ciphertext[:len(ciphertext)-gcmTagSize] |
| |
| counter := g.deriveCounter(nonce) |
| |
| var tagMask [gcmBlockSize]byte |
| g.block.Encrypt(tagMask[:], counter[:]) |
| counter.inc() |
| |
| var expectedTag [gcmTagSize]byte |
| g.auth(expectedTag[:], ciphertext, data, &tagMask) |
| |
| ret, out := sliceForAppend(dst, len(ciphertext)) |
| |
| if subtle.ConstantTimeCompare(expectedTag[:], tag) != 1 { |
| // The AESNI code decrypts and authenticates concurrently, and |
| // so overwrites dst in the event of a tag mismatch. That |
| // behavior is mimicked here in order to be consistent across |
| // platforms. |
| for i := range out { |
| out[i] = 0 |
| } |
| return nil, errOpen |
| } |
| |
| g.counterCrypt(out, ciphertext, &counter) |
| return ret, nil |
| } |