src/crypto/aes/aes_gcm.go - go - Git at Google

 // Copyright 2015 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 amd64

 package aes

 import (
 	"crypto/cipher"
 	"crypto/subtle"
 	"errors"
 )

 // The following functions are defined in gcm_amd64.s.
 func hasGCMAsm() bool

 //go:noescape
 func aesEncBlock(dst, src *[16]byte, ks []uint32)

 //go:noescape
 func gcmAesInit(productTable *[256]byte, ks []uint32)

 //go:noescape
 func gcmAesData(productTable *[256]byte, data []byte, T *[16]byte)

 //go:noescape
 func gcmAesEnc(productTable *[256]byte, dst, src []byte, ctr, T *[16]byte, ks []uint32)

 //go:noescape
 func gcmAesDec(productTable *[256]byte, dst, src []byte, ctr, T *[16]byte, ks []uint32)

 //go:noescape
 func gcmAesFinish(productTable *[256]byte, tagMask, T *[16]byte, pLen, dLen uint64)

 const (
 	gcmBlockSize         = 16
 	gcmTagSize           = 16
 	gcmStandardNonceSize = 12
 )

 var errOpen = errors.New("cipher: message authentication failed")

 // aesCipherGCM implements crypto/cipher.gcmAble so that crypto/cipher.NewGCM
 // will use the optimised implementation in this file when possible. Instances
 // of this type only exist when hasGCMAsm returns true.
 type aesCipherGCM struct {
 	aesCipherAsm
 }

 // Assert that aesCipherGCM implements the gcmAble interface.
 var _ gcmAble = (*aesCipherGCM)(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 *aesCipherGCM) NewGCM(nonceSize int) (cipher.AEAD, error) {
 	g := &gcmAsm{ks: c.enc, nonceSize: nonceSize}
 	gcmAesInit(&g.productTable, g.ks)
 	return g, nil
 }

 type gcmAsm struct {
 	// ks is the key schedule, the length of which depends on the size of
 	// the AES key.
 	ks []uint32
 	// productTable contains pre-computed multiples of the binary-field
 	// element used in GHASH.
 	productTable [256]byte
 	// nonceSize contains the expected size of the nonce, in bytes.
 	nonceSize int
 }

 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
 }

 // 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")
 	}

 	var counter, tagMask [gcmBlockSize]byte

 	if len(nonce) == gcmStandardNonceSize {
 		// Init counter to nonce||1
 		copy(counter[:], nonce)
 		counter[gcmBlockSize-1] = 1
 	} else {
 		// Otherwise counter = GHASH(nonce)
 		gcmAesData(&g.productTable, nonce, &counter)
 		gcmAesFinish(&g.productTable, &tagMask, &counter, uint64(len(nonce)), uint64(0))
 	}

 	aesEncBlock(&tagMask, &counter, g.ks)

 	var tagOut [gcmTagSize]byte
 	gcmAesData(&g.productTable, data, &tagOut)

 	ret, out := sliceForAppend(dst, len(plaintext)+gcmTagSize)
 	if len(plaintext) > 0 {
 		gcmAesEnc(&g.productTable, out, plaintext, &counter, &tagOut, g.ks)
 	}
 	gcmAesFinish(&g.productTable, &tagMask, &tagOut, uint64(len(plaintext)), uint64(len(data)))
 	copy(out[len(plaintext):], tagOut[:])

 	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]

 	// See GCM spec, section 7.1.
 	var counter, tagMask [gcmBlockSize]byte

 	if len(nonce) == gcmStandardNonceSize {
 		// Init counter to nonce||1
 		copy(counter[:], nonce)
 		counter[gcmBlockSize-1] = 1
 	} else {
 		// Otherwise counter = GHASH(nonce)
 		gcmAesData(&g.productTable, nonce, &counter)
 		gcmAesFinish(&g.productTable, &tagMask, &counter, uint64(len(nonce)), uint64(0))
 	}

 	aesEncBlock(&tagMask, &counter, g.ks)

 	var expectedTag [gcmTagSize]byte
 	gcmAesData(&g.productTable, data, &expectedTag)

 	ret, out := sliceForAppend(dst, len(ciphertext))
 	if len(ciphertext) > 0 {
 		gcmAesDec(&g.productTable, out, ciphertext, &counter, &expectedTag, g.ks)
 	}
 	gcmAesFinish(&g.productTable, &tagMask, &expectedTag, uint64(len(ciphertext)), uint64(len(data)))

 	if subtle.ConstantTimeCompare(expectedTag[:], tag) != 1 {
 		for i := range out {
 			out[i] = 0
 		}
 		return nil, errOpen
 	}

 	return ret, nil
 }
	// Copyright 2015 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 amd64

	package aes

	import (
	"crypto/cipher"
	"crypto/subtle"
	"errors"
	)

	// The following functions are defined in gcm_amd64.s.
	func hasGCMAsm() bool

	//go:noescape
	func aesEncBlock(dst, src *[16]byte, ks []uint32)

	//go:noescape
	func gcmAesInit(productTable *[256]byte, ks []uint32)

	//go:noescape
	func gcmAesData(productTable [256]byte, data []byte, T [16]byte)

	//go:noescape
	func gcmAesEnc(productTable [256]byte, dst, src []byte, ctr, T [16]byte, ks []uint32)

	//go:noescape
	func gcmAesDec(productTable [256]byte, dst, src []byte, ctr, T [16]byte, ks []uint32)

	//go:noescape
	func gcmAesFinish(productTable [256]byte, tagMask, T [16]byte, pLen, dLen uint64)

	const (
	gcmBlockSize = 16
	gcmTagSize = 16
	gcmStandardNonceSize = 12
	)

	var errOpen = errors.New("cipher: message authentication failed")

	// aesCipherGCM implements crypto/cipher.gcmAble so that crypto/cipher.NewGCM
	// will use the optimised implementation in this file when possible. Instances
	// of this type only exist when hasGCMAsm returns true.
	type aesCipherGCM struct {
	aesCipherAsm
	}

	// Assert that aesCipherGCM implements the gcmAble interface.
	var _ gcmAble = (*aesCipherGCM)(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 *aesCipherGCM) NewGCM(nonceSize int) (cipher.AEAD, error) {
	g := &gcmAsm{ks: c.enc, nonceSize: nonceSize}
	gcmAesInit(&g.productTable, g.ks)
	return g, nil
	}

	type gcmAsm struct {
	// ks is the key schedule, the length of which depends on the size of
	// the AES key.
	ks []uint32
	// productTable contains pre-computed multiples of the binary-field
	// element used in GHASH.
	productTable [256]byte
	// nonceSize contains the expected size of the nonce, in bytes.
	nonceSize int
	}

	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
	}

	// 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")
	}

	var counter, tagMask [gcmBlockSize]byte

	if len(nonce) == gcmStandardNonceSize {
	// Init counter to nonce\|\|1
	copy(counter[:], nonce)
	counter[gcmBlockSize-1] = 1
	} else {
	// Otherwise counter = GHASH(nonce)
	gcmAesData(&g.productTable, nonce, &counter)
	gcmAesFinish(&g.productTable, &tagMask, &counter, uint64(len(nonce)), uint64(0))
	}

	aesEncBlock(&tagMask, &counter, g.ks)

	var tagOut [gcmTagSize]byte
	gcmAesData(&g.productTable, data, &tagOut)

	ret, out := sliceForAppend(dst, len(plaintext)+gcmTagSize)
	if len(plaintext) > 0 {
	gcmAesEnc(&g.productTable, out, plaintext, &counter, &tagOut, g.ks)
	}
	gcmAesFinish(&g.productTable, &tagMask, &tagOut, uint64(len(plaintext)), uint64(len(data)))
	copy(out[len(plaintext):], tagOut[:])

	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]

	// See GCM spec, section 7.1.
	var counter, tagMask [gcmBlockSize]byte

	if len(nonce) == gcmStandardNonceSize {
	// Init counter to nonce\|\|1
	copy(counter[:], nonce)
	counter[gcmBlockSize-1] = 1
	} else {
	// Otherwise counter = GHASH(nonce)
	gcmAesData(&g.productTable, nonce, &counter)
	gcmAesFinish(&g.productTable, &tagMask, &counter, uint64(len(nonce)), uint64(0))
	}

	aesEncBlock(&tagMask, &counter, g.ks)

	var expectedTag [gcmTagSize]byte
	gcmAesData(&g.productTable, data, &expectedTag)

	ret, out := sliceForAppend(dst, len(ciphertext))
	if len(ciphertext) > 0 {
	gcmAesDec(&g.productTable, out, ciphertext, &counter, &expectedTag, g.ks)
	}
	gcmAesFinish(&g.productTable, &tagMask, &expectedTag, uint64(len(ciphertext)), uint64(len(data)))

	if subtle.ConstantTimeCompare(expectedTag[:], tag) != 1 {
	for i := range out {
	out[i] = 0
	}
	return nil, errOpen
	}

	return ret, nil
	}