crypto: lib/aesgcm - Provide minimal library implementation

Implement a minimal library version of AES-GCM based on the existing
library implementations of AES and multiplication in GF(2^128). Using
these primitives, GCM can be implemented in a straight-forward manner.

GCM has a couple of sharp edges, i.e., the amount of input data
processed with the same initialization vector (IV) should be capped to
protect the counter from 32-bit rollover (or carry), and the size of the
authentication tag should be fixed for a given key. [0]

The former concern is addressed trivially, given that the function call
API uses 32-bit signed types for the input lengths. It is still up to
the caller to avoid IV reuse in general, but this is not something we
can police at the implementation level.

As for the latter concern, let's make the authentication tag size part
of the key schedule, and only permit it to be configured as part of the
key expansion routine.

Note that table based AES implementations are susceptible to known
plaintext timing attacks on the encryption key. The AES library already
attempts to mitigate this to some extent, but given that the counter
mode encryption used by GCM operates exclusively on known plaintext by
construction (the IV and therefore the initial counter value are known
to an attacker), let's take some extra care to mitigate this, by calling
the AES library with interrupts disabled.

[0] https://nvlpubs.nist.gov/nistpubs/legacy/sp/nistspecialpublication800-38d.pdf

Link: https://lore.kernel.org/all/c6fb9b25-a4b6-2e4a-2dd1-63adda055a49@amd.com/
Signed-off-by: Ard Biesheuvel <ardb@kernel.org>
Tested-by: Nikunj A Dadhania <nikunj@amd.com>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
This commit is contained in:
Ard Biesheuvel 2022-11-03 20:22:59 +01:00 committed by Herbert Xu
parent b67ce439fe
commit 520af5da66
4 changed files with 758 additions and 0 deletions

View File

@ -3,6 +3,9 @@
#include <linux/errno.h>
#include <crypto/aes.h>
#include <crypto/gf128mul.h>
#define GCM_AES_IV_SIZE 12
#define GCM_RFC4106_IV_SIZE 8
#define GCM_RFC4543_IV_SIZE 8
@ -60,4 +63,23 @@ static inline int crypto_ipsec_check_assoclen(unsigned int assoclen)
return 0;
}
struct aesgcm_ctx {
be128 ghash_key;
struct crypto_aes_ctx aes_ctx;
unsigned int authsize;
};
int aesgcm_expandkey(struct aesgcm_ctx *ctx, const u8 *key,
unsigned int keysize, unsigned int authsize);
void aesgcm_encrypt(const struct aesgcm_ctx *ctx, u8 *dst, const u8 *src,
int crypt_len, const u8 *assoc, int assoc_len,
const u8 iv[GCM_AES_IV_SIZE], u8 *authtag);
bool __must_check aesgcm_decrypt(const struct aesgcm_ctx *ctx, u8 *dst,
const u8 *src, int crypt_len, const u8 *assoc,
int assoc_len, const u8 iv[GCM_AES_IV_SIZE],
const u8 *authtag);
#endif

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@ -8,6 +8,12 @@ config CRYPTO_LIB_UTILS
config CRYPTO_LIB_AES
tristate
config CRYPTO_LIB_AESGCM
tristate
select CRYPTO_LIB_AES
select CRYPTO_LIB_GF128MUL
select CRYPTO_LIB_UTILS
config CRYPTO_LIB_ARC4
tristate

View File

@ -10,6 +10,9 @@ obj-$(CONFIG_CRYPTO_LIB_CHACHA_GENERIC) += libchacha.o
obj-$(CONFIG_CRYPTO_LIB_AES) += libaes.o
libaes-y := aes.o
obj-$(CONFIG_CRYPTO_LIB_AESGCM) += libaesgcm.o
libaesgcm-y := aesgcm.o
obj-$(CONFIG_CRYPTO_LIB_ARC4) += libarc4.o
libarc4-y := arc4.o

727
lib/crypto/aesgcm.c Normal file
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@ -0,0 +1,727 @@
// SPDX-License-Identifier: GPL-2.0
/*
* Minimal library implementation of GCM
*
* Copyright 2022 Google LLC
*/
#include <linux/module.h>
#include <crypto/algapi.h>
#include <crypto/gcm.h>
#include <crypto/ghash.h>
#include <asm/irqflags.h>
static void aesgcm_encrypt_block(const struct crypto_aes_ctx *ctx, void *dst,
const void *src)
{
unsigned long flags;
/*
* In AES-GCM, both the GHASH key derivation and the CTR mode
* encryption operate on known plaintext, making them susceptible to
* timing attacks on the encryption key. The AES library already
* mitigates this risk to some extent by pulling the entire S-box into
* the caches before doing any substitutions, but this strategy is more
* effective when running with interrupts disabled.
*/
local_irq_save(flags);
aes_encrypt(ctx, dst, src);
local_irq_restore(flags);
}
/**
* aesgcm_expandkey - Expands the AES and GHASH keys for the AES-GCM key
* schedule
*
* @ctx: The data structure that will hold the AES-GCM key schedule
* @key: The AES encryption input key
* @keysize: The length in bytes of the input key
* @authsize: The size in bytes of the GCM authentication tag
*
* Returns: 0 on success, or -EINVAL if @keysize or @authsize contain values
* that are not permitted by the GCM specification.
*/
int aesgcm_expandkey(struct aesgcm_ctx *ctx, const u8 *key,
unsigned int keysize, unsigned int authsize)
{
u8 kin[AES_BLOCK_SIZE] = {};
int ret;
ret = crypto_gcm_check_authsize(authsize) ?:
aes_expandkey(&ctx->aes_ctx, key, keysize);
if (ret)
return ret;
ctx->authsize = authsize;
aesgcm_encrypt_block(&ctx->aes_ctx, &ctx->ghash_key, kin);
return 0;
}
EXPORT_SYMBOL(aesgcm_expandkey);
static void aesgcm_ghash(be128 *ghash, const be128 *key, const void *src,
int len)
{
while (len > 0) {
crypto_xor((u8 *)ghash, src, min(len, GHASH_BLOCK_SIZE));
gf128mul_lle(ghash, key);
src += GHASH_BLOCK_SIZE;
len -= GHASH_BLOCK_SIZE;
}
}
static void aesgcm_mac(const struct aesgcm_ctx *ctx, const u8 *src, int src_len,
const u8 *assoc, int assoc_len, __be32 *ctr, u8 *authtag)
{
be128 tail = { cpu_to_be64(assoc_len * 8), cpu_to_be64(src_len * 8) };
u8 buf[AES_BLOCK_SIZE];
be128 ghash = {};
aesgcm_ghash(&ghash, &ctx->ghash_key, assoc, assoc_len);
aesgcm_ghash(&ghash, &ctx->ghash_key, src, src_len);
aesgcm_ghash(&ghash, &ctx->ghash_key, &tail, sizeof(tail));
ctr[3] = cpu_to_be32(1);
aesgcm_encrypt_block(&ctx->aes_ctx, buf, ctr);
crypto_xor_cpy(authtag, buf, (u8 *)&ghash, ctx->authsize);
memzero_explicit(&ghash, sizeof(ghash));
memzero_explicit(buf, sizeof(buf));
}
static void aesgcm_crypt(const struct aesgcm_ctx *ctx, u8 *dst, const u8 *src,
int len, __be32 *ctr)
{
u8 buf[AES_BLOCK_SIZE];
unsigned int n = 2;
while (len > 0) {
/*
* The counter increment below must not result in overflow or
* carry into the next 32-bit word, as this could result in
* inadvertent IV reuse, which must be avoided at all cost for
* stream ciphers such as AES-CTR. Given the range of 'int
* len', this cannot happen, so no explicit test is necessary.
*/
ctr[3] = cpu_to_be32(n++);
aesgcm_encrypt_block(&ctx->aes_ctx, buf, ctr);
crypto_xor_cpy(dst, src, buf, min(len, AES_BLOCK_SIZE));
dst += AES_BLOCK_SIZE;
src += AES_BLOCK_SIZE;
len -= AES_BLOCK_SIZE;
}
memzero_explicit(buf, sizeof(buf));
}
/**
* aesgcm_encrypt - Perform AES-GCM encryption on a block of data
*
* @ctx: The AES-GCM key schedule
* @dst: Pointer to the ciphertext output buffer
* @src: Pointer the plaintext (may equal @dst for encryption in place)
* @crypt_len: The size in bytes of the plaintext and ciphertext.
* @assoc: Pointer to the associated data,
* @assoc_len: The size in bytes of the associated data
* @iv: The initialization vector (IV) to use for this block of data
* (must be 12 bytes in size as per the GCM spec recommendation)
* @authtag: The address of the buffer in memory where the authentication
* tag should be stored. The buffer is assumed to have space for
* @ctx->authsize bytes.
*/
void aesgcm_encrypt(const struct aesgcm_ctx *ctx, u8 *dst, const u8 *src,
int crypt_len, const u8 *assoc, int assoc_len,
const u8 iv[GCM_AES_IV_SIZE], u8 *authtag)
{
__be32 ctr[4];
memcpy(ctr, iv, GCM_AES_IV_SIZE);
aesgcm_crypt(ctx, dst, src, crypt_len, ctr);
aesgcm_mac(ctx, dst, crypt_len, assoc, assoc_len, ctr, authtag);
}
EXPORT_SYMBOL(aesgcm_encrypt);
/**
* aesgcm_decrypt - Perform AES-GCM decryption on a block of data
*
* @ctx: The AES-GCM key schedule
* @dst: Pointer to the plaintext output buffer
* @src: Pointer the ciphertext (may equal @dst for decryption in place)
* @crypt_len: The size in bytes of the plaintext and ciphertext.
* @assoc: Pointer to the associated data,
* @assoc_len: The size in bytes of the associated data
* @iv: The initialization vector (IV) to use for this block of data
* (must be 12 bytes in size as per the GCM spec recommendation)
* @authtag: The address of the buffer in memory where the authentication
* tag is stored.
*
* Returns: true on success, or false if the ciphertext failed authentication.
* On failure, no plaintext will be returned.
*/
bool __must_check aesgcm_decrypt(const struct aesgcm_ctx *ctx, u8 *dst,
const u8 *src, int crypt_len, const u8 *assoc,
int assoc_len, const u8 iv[GCM_AES_IV_SIZE],
const u8 *authtag)
{
u8 tagbuf[AES_BLOCK_SIZE];
__be32 ctr[4];
memcpy(ctr, iv, GCM_AES_IV_SIZE);
aesgcm_mac(ctx, src, crypt_len, assoc, assoc_len, ctr, tagbuf);
if (crypto_memneq(authtag, tagbuf, ctx->authsize)) {
memzero_explicit(tagbuf, sizeof(tagbuf));
return false;
}
aesgcm_crypt(ctx, dst, src, crypt_len, ctr);
return true;
}
EXPORT_SYMBOL(aesgcm_decrypt);
MODULE_DESCRIPTION("Generic AES-GCM library");
MODULE_AUTHOR("Ard Biesheuvel <ardb@kernel.org>");
MODULE_LICENSE("GPL");
#ifndef CONFIG_CRYPTO_MANAGER_DISABLE_TESTS
/*
* Test code below. Vectors taken from crypto/testmgr.h
*/
static const u8 __initconst ctext0[16] =
"\x58\xe2\xfc\xce\xfa\x7e\x30\x61"
"\x36\x7f\x1d\x57\xa4\xe7\x45\x5a";
static const u8 __initconst ptext1[16];
static const u8 __initconst ctext1[32] =
"\x03\x88\xda\xce\x60\xb6\xa3\x92"
"\xf3\x28\xc2\xb9\x71\xb2\xfe\x78"
"\xab\x6e\x47\xd4\x2c\xec\x13\xbd"
"\xf5\x3a\x67\xb2\x12\x57\xbd\xdf";
static const u8 __initconst ptext2[64] =
"\xd9\x31\x32\x25\xf8\x84\x06\xe5"
"\xa5\x59\x09\xc5\xaf\xf5\x26\x9a"
"\x86\xa7\xa9\x53\x15\x34\xf7\xda"
"\x2e\x4c\x30\x3d\x8a\x31\x8a\x72"
"\x1c\x3c\x0c\x95\x95\x68\x09\x53"
"\x2f\xcf\x0e\x24\x49\xa6\xb5\x25"
"\xb1\x6a\xed\xf5\xaa\x0d\xe6\x57"
"\xba\x63\x7b\x39\x1a\xaf\xd2\x55";
static const u8 __initconst ctext2[80] =
"\x42\x83\x1e\xc2\x21\x77\x74\x24"
"\x4b\x72\x21\xb7\x84\xd0\xd4\x9c"
"\xe3\xaa\x21\x2f\x2c\x02\xa4\xe0"
"\x35\xc1\x7e\x23\x29\xac\xa1\x2e"
"\x21\xd5\x14\xb2\x54\x66\x93\x1c"
"\x7d\x8f\x6a\x5a\xac\x84\xaa\x05"
"\x1b\xa3\x0b\x39\x6a\x0a\xac\x97"
"\x3d\x58\xe0\x91\x47\x3f\x59\x85"
"\x4d\x5c\x2a\xf3\x27\xcd\x64\xa6"
"\x2c\xf3\x5a\xbd\x2b\xa6\xfa\xb4";
static const u8 __initconst ptext3[60] =
"\xd9\x31\x32\x25\xf8\x84\x06\xe5"
"\xa5\x59\x09\xc5\xaf\xf5\x26\x9a"
"\x86\xa7\xa9\x53\x15\x34\xf7\xda"
"\x2e\x4c\x30\x3d\x8a\x31\x8a\x72"
"\x1c\x3c\x0c\x95\x95\x68\x09\x53"
"\x2f\xcf\x0e\x24\x49\xa6\xb5\x25"
"\xb1\x6a\xed\xf5\xaa\x0d\xe6\x57"
"\xba\x63\x7b\x39";
static const u8 __initconst ctext3[76] =
"\x42\x83\x1e\xc2\x21\x77\x74\x24"
"\x4b\x72\x21\xb7\x84\xd0\xd4\x9c"
"\xe3\xaa\x21\x2f\x2c\x02\xa4\xe0"
"\x35\xc1\x7e\x23\x29\xac\xa1\x2e"
"\x21\xd5\x14\xb2\x54\x66\x93\x1c"
"\x7d\x8f\x6a\x5a\xac\x84\xaa\x05"
"\x1b\xa3\x0b\x39\x6a\x0a\xac\x97"
"\x3d\x58\xe0\x91"
"\x5b\xc9\x4f\xbc\x32\x21\xa5\xdb"
"\x94\xfa\xe9\x5a\xe7\x12\x1a\x47";
static const u8 __initconst ctext4[16] =
"\xcd\x33\xb2\x8a\xc7\x73\xf7\x4b"
"\xa0\x0e\xd1\xf3\x12\x57\x24\x35";
static const u8 __initconst ctext5[32] =
"\x98\xe7\x24\x7c\x07\xf0\xfe\x41"
"\x1c\x26\x7e\x43\x84\xb0\xf6\x00"
"\x2f\xf5\x8d\x80\x03\x39\x27\xab"
"\x8e\xf4\xd4\x58\x75\x14\xf0\xfb";
static const u8 __initconst ptext6[64] =
"\xd9\x31\x32\x25\xf8\x84\x06\xe5"
"\xa5\x59\x09\xc5\xaf\xf5\x26\x9a"
"\x86\xa7\xa9\x53\x15\x34\xf7\xda"
"\x2e\x4c\x30\x3d\x8a\x31\x8a\x72"
"\x1c\x3c\x0c\x95\x95\x68\x09\x53"
"\x2f\xcf\x0e\x24\x49\xa6\xb5\x25"
"\xb1\x6a\xed\xf5\xaa\x0d\xe6\x57"
"\xba\x63\x7b\x39\x1a\xaf\xd2\x55";
static const u8 __initconst ctext6[80] =
"\x39\x80\xca\x0b\x3c\x00\xe8\x41"
"\xeb\x06\xfa\xc4\x87\x2a\x27\x57"
"\x85\x9e\x1c\xea\xa6\xef\xd9\x84"
"\x62\x85\x93\xb4\x0c\xa1\xe1\x9c"
"\x7d\x77\x3d\x00\xc1\x44\xc5\x25"
"\xac\x61\x9d\x18\xc8\x4a\x3f\x47"
"\x18\xe2\x44\x8b\x2f\xe3\x24\xd9"
"\xcc\xda\x27\x10\xac\xad\xe2\x56"
"\x99\x24\xa7\xc8\x58\x73\x36\xbf"
"\xb1\x18\x02\x4d\xb8\x67\x4a\x14";
static const u8 __initconst ctext7[16] =
"\x53\x0f\x8a\xfb\xc7\x45\x36\xb9"
"\xa9\x63\xb4\xf1\xc4\xcb\x73\x8b";
static const u8 __initconst ctext8[32] =
"\xce\xa7\x40\x3d\x4d\x60\x6b\x6e"
"\x07\x4e\xc5\xd3\xba\xf3\x9d\x18"
"\xd0\xd1\xc8\xa7\x99\x99\x6b\xf0"
"\x26\x5b\x98\xb5\xd4\x8a\xb9\x19";
static const u8 __initconst ptext9[64] =
"\xd9\x31\x32\x25\xf8\x84\x06\xe5"
"\xa5\x59\x09\xc5\xaf\xf5\x26\x9a"
"\x86\xa7\xa9\x53\x15\x34\xf7\xda"
"\x2e\x4c\x30\x3d\x8a\x31\x8a\x72"
"\x1c\x3c\x0c\x95\x95\x68\x09\x53"
"\x2f\xcf\x0e\x24\x49\xa6\xb5\x25"
"\xb1\x6a\xed\xf5\xaa\x0d\xe6\x57"
"\xba\x63\x7b\x39\x1a\xaf\xd2\x55";
static const u8 __initconst ctext9[80] =
"\x52\x2d\xc1\xf0\x99\x56\x7d\x07"
"\xf4\x7f\x37\xa3\x2a\x84\x42\x7d"
"\x64\x3a\x8c\xdc\xbf\xe5\xc0\xc9"
"\x75\x98\xa2\xbd\x25\x55\xd1\xaa"
"\x8c\xb0\x8e\x48\x59\x0d\xbb\x3d"
"\xa7\xb0\x8b\x10\x56\x82\x88\x38"
"\xc5\xf6\x1e\x63\x93\xba\x7a\x0a"
"\xbc\xc9\xf6\x62\x89\x80\x15\xad"
"\xb0\x94\xda\xc5\xd9\x34\x71\xbd"
"\xec\x1a\x50\x22\x70\xe3\xcc\x6c";
static const u8 __initconst ptext10[60] =
"\xd9\x31\x32\x25\xf8\x84\x06\xe5"
"\xa5\x59\x09\xc5\xaf\xf5\x26\x9a"
"\x86\xa7\xa9\x53\x15\x34\xf7\xda"
"\x2e\x4c\x30\x3d\x8a\x31\x8a\x72"
"\x1c\x3c\x0c\x95\x95\x68\x09\x53"
"\x2f\xcf\x0e\x24\x49\xa6\xb5\x25"
"\xb1\x6a\xed\xf5\xaa\x0d\xe6\x57"
"\xba\x63\x7b\x39";
static const u8 __initconst ctext10[76] =
"\x52\x2d\xc1\xf0\x99\x56\x7d\x07"
"\xf4\x7f\x37\xa3\x2a\x84\x42\x7d"
"\x64\x3a\x8c\xdc\xbf\xe5\xc0\xc9"
"\x75\x98\xa2\xbd\x25\x55\xd1\xaa"
"\x8c\xb0\x8e\x48\x59\x0d\xbb\x3d"
"\xa7\xb0\x8b\x10\x56\x82\x88\x38"
"\xc5\xf6\x1e\x63\x93\xba\x7a\x0a"
"\xbc\xc9\xf6\x62"
"\x76\xfc\x6e\xce\x0f\x4e\x17\x68"
"\xcd\xdf\x88\x53\xbb\x2d\x55\x1b";
static const u8 __initconst ptext11[60] =
"\xd9\x31\x32\x25\xf8\x84\x06\xe5"
"\xa5\x59\x09\xc5\xaf\xf5\x26\x9a"
"\x86\xa7\xa9\x53\x15\x34\xf7\xda"
"\x2e\x4c\x30\x3d\x8a\x31\x8a\x72"
"\x1c\x3c\x0c\x95\x95\x68\x09\x53"
"\x2f\xcf\x0e\x24\x49\xa6\xb5\x25"
"\xb1\x6a\xed\xf5\xaa\x0d\xe6\x57"
"\xba\x63\x7b\x39";
static const u8 __initconst ctext11[76] =
"\x39\x80\xca\x0b\x3c\x00\xe8\x41"
"\xeb\x06\xfa\xc4\x87\x2a\x27\x57"
"\x85\x9e\x1c\xea\xa6\xef\xd9\x84"
"\x62\x85\x93\xb4\x0c\xa1\xe1\x9c"
"\x7d\x77\x3d\x00\xc1\x44\xc5\x25"
"\xac\x61\x9d\x18\xc8\x4a\x3f\x47"
"\x18\xe2\x44\x8b\x2f\xe3\x24\xd9"
"\xcc\xda\x27\x10"
"\x25\x19\x49\x8e\x80\xf1\x47\x8f"
"\x37\xba\x55\xbd\x6d\x27\x61\x8c";
static const u8 __initconst ptext12[719] =
"\x42\xc1\xcc\x08\x48\x6f\x41\x3f"
"\x2f\x11\x66\x8b\x2a\x16\xf0\xe0"
"\x58\x83\xf0\xc3\x70\x14\xc0\x5b"
"\x3f\xec\x1d\x25\x3c\x51\xd2\x03"
"\xcf\x59\x74\x1f\xb2\x85\xb4\x07"
"\xc6\x6a\x63\x39\x8a\x5b\xde\xcb"
"\xaf\x08\x44\xbd\x6f\x91\x15\xe1"
"\xf5\x7a\x6e\x18\xbd\xdd\x61\x50"
"\x59\xa9\x97\xab\xbb\x0e\x74\x5c"
"\x00\xa4\x43\x54\x04\x54\x9b\x3b"
"\x77\xec\xfd\x5c\xa6\xe8\x7b\x08"
"\xae\xe6\x10\x3f\x32\x65\xd1\xfc"
"\xa4\x1d\x2c\x31\xfb\x33\x7a\xb3"
"\x35\x23\xf4\x20\x41\xd4\xad\x82"
"\x8b\xa4\xad\x96\x1c\x20\x53\xbe"
"\x0e\xa6\xf4\xdc\x78\x49\x3e\x72"
"\xb1\xa9\xb5\x83\xcb\x08\x54\xb7"
"\xad\x49\x3a\xae\x98\xce\xa6\x66"
"\x10\x30\x90\x8c\x55\x83\xd7\x7c"
"\x8b\xe6\x53\xde\xd2\x6e\x18\x21"
"\x01\x52\xd1\x9f\x9d\xbb\x9c\x73"
"\x57\xcc\x89\x09\x75\x9b\x78\x70"
"\xed\x26\x97\x4d\xb4\xe4\x0c\xa5"
"\xfa\x70\x04\x70\xc6\x96\x1c\x7d"
"\x54\x41\x77\xa8\xe3\xb0\x7e\x96"
"\x82\xd9\xec\xa2\x87\x68\x55\xf9"
"\x8f\x9e\x73\x43\x47\x6a\x08\x36"
"\x93\x67\xa8\x2d\xde\xac\x41\xa9"
"\x5c\x4d\x73\x97\x0f\x70\x68\xfa"
"\x56\x4d\x00\xc2\x3b\x1f\xc8\xb9"
"\x78\x1f\x51\x07\xe3\x9a\x13\x4e"
"\xed\x2b\x2e\xa3\xf7\x44\xb2\xe7"
"\xab\x19\x37\xd9\xba\x76\x5e\xd2"
"\xf2\x53\x15\x17\x4c\x6b\x16\x9f"
"\x02\x66\x49\xca\x7c\x91\x05\xf2"
"\x45\x36\x1e\xf5\x77\xad\x1f\x46"
"\xa8\x13\xfb\x63\xb6\x08\x99\x63"
"\x82\xa2\xed\xb3\xac\xdf\x43\x19"
"\x45\xea\x78\x73\xd9\xb7\x39\x11"
"\xa3\x13\x7c\xf8\x3f\xf7\xad\x81"
"\x48\x2f\xa9\x5c\x5f\xa0\xf0\x79"
"\xa4\x47\x7d\x80\x20\x26\xfd\x63"
"\x0a\xc7\x7e\x6d\x75\x47\xff\x76"
"\x66\x2e\x8a\x6c\x81\x35\xaf\x0b"
"\x2e\x6a\x49\x60\xc1\x10\xe1\xe1"
"\x54\x03\xa4\x09\x0c\x37\x7a\x15"
"\x23\x27\x5b\x8b\x4b\xa5\x64\x97"
"\xae\x4a\x50\x73\x1f\x66\x1c\x5c"
"\x03\x25\x3c\x8d\x48\x58\x71\x34"
"\x0e\xec\x4e\x55\x1a\x03\x6a\xe5"
"\xb6\x19\x2b\x84\x2a\x20\xd1\xea"
"\x80\x6f\x96\x0e\x05\x62\xc7\x78"
"\x87\x79\x60\x38\x46\xb4\x25\x57"
"\x6e\x16\x63\xf8\xad\x6e\xd7\x42"
"\x69\xe1\x88\xef\x6e\xd5\xb4\x9a"
"\x3c\x78\x6c\x3b\xe5\xa0\x1d\x22"
"\x86\x5c\x74\x3a\xeb\x24\x26\xc7"
"\x09\xfc\x91\x96\x47\x87\x4f\x1a"
"\xd6\x6b\x2c\x18\x47\xc0\xb8\x24"
"\xa8\x5a\x4a\x9e\xcb\x03\xe7\x2a"
"\x09\xe6\x4d\x9c\x6d\x86\x60\xf5"
"\x2f\x48\x69\x37\x9f\xf2\xd2\xcb"
"\x0e\x5a\xdd\x6e\x8a\xfb\x6a\xfe"
"\x0b\x63\xde\x87\x42\x79\x8a\x68"
"\x51\x28\x9b\x7a\xeb\xaf\xb8\x2f"
"\x9d\xd1\xc7\x45\x90\x08\xc9\x83"
"\xe9\x83\x84\xcb\x28\x69\x09\x69"
"\xce\x99\x46\x00\x54\xcb\xd8\x38"
"\xf9\x53\x4a\xbf\x31\xce\x57\x15"
"\x33\xfa\x96\x04\x33\x42\xe3\xc0"
"\xb7\x54\x4a\x65\x7a\x7c\x02\xe6"
"\x19\x95\xd0\x0e\x82\x07\x63\xf9"
"\xe1\x2b\x2a\xfc\x55\x92\x52\xc9"
"\xb5\x9f\x23\x28\x60\xe7\x20\x51"
"\x10\xd3\xed\x6d\x9b\xab\xb8\xe2"
"\x5d\x9a\x34\xb3\xbe\x9c\x64\xcb"
"\x78\xc6\x91\x22\x40\x91\x80\xbe"
"\xd7\x78\x5c\x0e\x0a\xdc\x08\xe9"
"\x67\x10\xa4\x83\x98\x79\x23\xe7"
"\x92\xda\xa9\x22\x16\xb1\xe7\x78"
"\xa3\x1c\x6c\x8f\x35\x7c\x4d\x37"
"\x2f\x6e\x0b\x50\x5c\x34\xb9\xf9"
"\xe6\x3d\x91\x0d\x32\x95\xaa\x3d"
"\x48\x11\x06\xbb\x2d\xf2\x63\x88"
"\x3f\x73\x09\xe2\x45\x56\x31\x51"
"\xfa\x5e\x4e\x62\xf7\x90\xf9\xa9"
"\x7d\x7b\x1b\xb1\xc8\x26\x6e\x66"
"\xf6\x90\x9a\x7f\xf2\x57\xcc\x23"
"\x59\xfa\xfa\xaa\x44\x04\x01\xa7"
"\xa4\x78\xdb\x74\x3d\x8b\xb5";
static const u8 __initconst ctext12[735] =
"\x84\x0b\xdb\xd5\xb7\xa8\xfe\x20"
"\xbb\xb1\x12\x7f\x41\xea\xb3\xc0"
"\xa2\xb4\x37\x19\x11\x58\xb6\x0b"
"\x4c\x1d\x38\x05\x54\xd1\x16\x73"
"\x8e\x1c\x20\x90\xa2\x9a\xb7\x74"
"\x47\xe6\xd8\xfc\x18\x3a\xb4\xea"
"\xd5\x16\x5a\x2c\x53\x01\x46\xb3"
"\x18\x33\x74\x6c\x50\xf2\xe8\xc0"
"\x73\xda\x60\x22\xeb\xe3\xe5\x9b"
"\x20\x93\x6c\x4b\x37\x99\xb8\x23"
"\x3b\x4e\xac\xe8\x5b\xe8\x0f\xb7"
"\xc3\x8f\xfb\x4a\x37\xd9\x39\x95"
"\x34\xf1\xdb\x8f\x71\xd9\xc7\x0b"
"\x02\xf1\x63\xfc\x9b\xfc\xc5\xab"
"\xb9\x14\x13\x21\xdf\xce\xaa\x88"
"\x44\x30\x1e\xce\x26\x01\x92\xf8"
"\x9f\x00\x4b\x0c\x4b\xf7\x5f\xe0"
"\x89\xca\x94\x66\x11\x21\x97\xca"
"\x3e\x83\x74\x2d\xdb\x4d\x11\xeb"
"\x97\xc2\x14\xff\x9e\x1e\xa0\x6b"
"\x08\xb4\x31\x2b\x85\xc6\x85\x6c"
"\x90\xec\x39\xc0\xec\xb3\xb5\x4e"
"\xf3\x9c\xe7\x83\x3a\x77\x0a\xf4"
"\x56\xfe\xce\x18\x33\x6d\x0b\x2d"
"\x33\xda\xc8\x05\x5c\xb4\x09\x2a"
"\xde\x6b\x52\x98\x01\xef\x36\x3d"
"\xbd\xf9\x8f\xa8\x3e\xaa\xcd\xd1"
"\x01\x2d\x42\x49\xc3\xb6\x84\xbb"
"\x48\x96\xe0\x90\x93\x6c\x48\x64"
"\xd4\xfa\x7f\x93\x2c\xa6\x21\xc8"
"\x7a\x23\x7b\xaa\x20\x56\x12\xae"
"\x16\x9d\x94\x0f\x54\xa1\xec\xca"
"\x51\x4e\xf2\x39\xf4\xf8\x5f\x04"
"\x5a\x0d\xbf\xf5\x83\xa1\x15\xe1"
"\xf5\x3c\xd8\x62\xa3\xed\x47\x89"
"\x85\x4c\xe5\xdb\xac\x9e\x17\x1d"
"\x0c\x09\xe3\x3e\x39\x5b\x4d\x74"
"\x0e\xf5\x34\xee\x70\x11\x4c\xfd"
"\xdb\x34\xb1\xb5\x10\x3f\x73\xb7"
"\xf5\xfa\xed\xb0\x1f\xa5\xcd\x3c"
"\x8d\x35\x83\xd4\x11\x44\x6e\x6c"
"\x5b\xe0\x0e\x69\xa5\x39\xe5\xbb"
"\xa9\x57\x24\x37\xe6\x1f\xdd\xcf"
"\x16\x2a\x13\xf9\x6a\x2d\x90\xa0"
"\x03\x60\x7a\xed\x69\xd5\x00\x8b"
"\x7e\x4f\xcb\xb9\xfa\x91\xb9\x37"
"\xc1\x26\xce\x90\x97\x22\x64\x64"
"\xc1\x72\x43\x1b\xf6\xac\xc1\x54"
"\x8a\x10\x9c\xdd\x8d\xd5\x8e\xb2"
"\xe4\x85\xda\xe0\x20\x5f\xf4\xb4"
"\x15\xb5\xa0\x8d\x12\x74\x49\x23"
"\x3a\xdf\x4a\xd3\xf0\x3b\x89\xeb"
"\xf8\xcc\x62\x7b\xfb\x93\x07\x41"
"\x61\x26\x94\x58\x70\xa6\x3c\xe4"
"\xff\x58\xc4\x13\x3d\xcb\x36\x6b"
"\x32\xe5\xb2\x6d\x03\x74\x6f\x76"
"\x93\x77\xde\x48\xc4\xfa\x30\x4a"
"\xda\x49\x80\x77\x0f\x1c\xbe\x11"
"\xc8\x48\xb1\xe5\xbb\xf2\x8a\xe1"
"\x96\x2f\x9f\xd1\x8e\x8a\x5c\xe2"
"\xf7\xd7\xd8\x54\xf3\x3f\xc4\x91"
"\xb8\xfb\x86\xdc\x46\x24\x91\x60"
"\x6c\x2f\xc9\x41\x37\x51\x49\x54"
"\x09\x81\x21\xf3\x03\x9f\x2b\xe3"
"\x1f\x39\x63\xaf\xf4\xd7\x53\x60"
"\xa7\xc7\x54\xf9\xee\xb1\xb1\x7d"
"\x75\x54\x65\x93\xfe\xb1\x68\x6b"
"\x57\x02\xf9\xbb\x0e\xf9\xf8\xbf"
"\x01\x12\x27\xb4\xfe\xe4\x79\x7a"
"\x40\x5b\x51\x4b\xdf\x38\xec\xb1"
"\x6a\x56\xff\x35\x4d\x42\x33\xaa"
"\x6f\x1b\xe4\xdc\xe0\xdb\x85\x35"
"\x62\x10\xd4\xec\xeb\xc5\x7e\x45"
"\x1c\x6f\x17\xca\x3b\x8e\x2d\x66"
"\x4f\x4b\x36\x56\xcd\x1b\x59\xaa"
"\xd2\x9b\x17\xb9\x58\xdf\x7b\x64"
"\x8a\xff\x3b\x9c\xa6\xb5\x48\x9e"
"\xaa\xe2\x5d\x09\x71\x32\x5f\xb6"
"\x29\xbe\xe7\xc7\x52\x7e\x91\x82"
"\x6b\x6d\x33\xe1\x34\x06\x36\x21"
"\x5e\xbe\x1e\x2f\x3e\xc1\xfb\xea"
"\x49\x2c\xb5\xca\xf7\xb0\x37\xea"
"\x1f\xed\x10\x04\xd9\x48\x0d\x1a"
"\x1c\xfb\xe7\x84\x0e\x83\x53\x74"
"\xc7\x65\xe2\x5c\xe5\xba\x73\x4c"
"\x0e\xe1\xb5\x11\x45\x61\x43\x46"
"\xaa\x25\x8f\xbd\x85\x08\xfa\x4c"
"\x15\xc1\xc0\xd8\xf5\xdc\x16\xbb"
"\x7b\x1d\xe3\x87\x57\xa7\x2a\x1d"
"\x38\x58\x9e\x8a\x43\xdc\x57"
"\xd1\x81\x7d\x2b\xe9\xff\x99\x3a"
"\x4b\x24\x52\x58\x55\xe1\x49\x14";
static struct {
const u8 *ptext;
const u8 *ctext;
u8 key[AES_MAX_KEY_SIZE];
u8 iv[GCM_AES_IV_SIZE];
u8 assoc[20];
int klen;
int clen;
int plen;
int alen;
} const aesgcm_tv[] __initconst = {
{ /* From McGrew & Viega - http://citeseer.ist.psu.edu/656989.html */
.klen = 16,
.ctext = ctext0,
.clen = sizeof(ctext0),
}, {
.klen = 16,
.ptext = ptext1,
.plen = sizeof(ptext1),
.ctext = ctext1,
.clen = sizeof(ctext1),
}, {
.key = "\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08",
.klen = 16,
.iv = "\xca\xfe\xba\xbe\xfa\xce\xdb\xad"
"\xde\xca\xf8\x88",
.ptext = ptext2,
.plen = sizeof(ptext2),
.ctext = ctext2,
.clen = sizeof(ctext2),
}, {
.key = "\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08",
.klen = 16,
.iv = "\xca\xfe\xba\xbe\xfa\xce\xdb\xad"
"\xde\xca\xf8\x88",
.ptext = ptext3,
.plen = sizeof(ptext3),
.assoc = "\xfe\xed\xfa\xce\xde\xad\xbe\xef"
"\xfe\xed\xfa\xce\xde\xad\xbe\xef"
"\xab\xad\xda\xd2",
.alen = 20,
.ctext = ctext3,
.clen = sizeof(ctext3),
}, {
.klen = 24,
.ctext = ctext4,
.clen = sizeof(ctext4),
}, {
.klen = 24,
.ptext = ptext1,
.plen = sizeof(ptext1),
.ctext = ctext5,
.clen = sizeof(ctext5),
}, {
.key = "\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08"
"\xfe\xff\xe9\x92\x86\x65\x73\x1c",
.klen = 24,
.iv = "\xca\xfe\xba\xbe\xfa\xce\xdb\xad"
"\xde\xca\xf8\x88",
.ptext = ptext6,
.plen = sizeof(ptext6),
.ctext = ctext6,
.clen = sizeof(ctext6),
}, {
.klen = 32,
.ctext = ctext7,
.clen = sizeof(ctext7),
}, {
.klen = 32,
.ptext = ptext1,
.plen = sizeof(ptext1),
.ctext = ctext8,
.clen = sizeof(ctext8),
}, {
.key = "\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08"
"\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08",
.klen = 32,
.iv = "\xca\xfe\xba\xbe\xfa\xce\xdb\xad"
"\xde\xca\xf8\x88",
.ptext = ptext9,
.plen = sizeof(ptext9),
.ctext = ctext9,
.clen = sizeof(ctext9),
}, {
.key = "\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08"
"\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08",
.klen = 32,
.iv = "\xca\xfe\xba\xbe\xfa\xce\xdb\xad"
"\xde\xca\xf8\x88",
.ptext = ptext10,
.plen = sizeof(ptext10),
.assoc = "\xfe\xed\xfa\xce\xde\xad\xbe\xef"
"\xfe\xed\xfa\xce\xde\xad\xbe\xef"
"\xab\xad\xda\xd2",
.alen = 20,
.ctext = ctext10,
.clen = sizeof(ctext10),
}, {
.key = "\xfe\xff\xe9\x92\x86\x65\x73\x1c"
"\x6d\x6a\x8f\x94\x67\x30\x83\x08"
"\xfe\xff\xe9\x92\x86\x65\x73\x1c",
.klen = 24,
.iv = "\xca\xfe\xba\xbe\xfa\xce\xdb\xad"
"\xde\xca\xf8\x88",
.ptext = ptext11,
.plen = sizeof(ptext11),
.assoc = "\xfe\xed\xfa\xce\xde\xad\xbe\xef"
"\xfe\xed\xfa\xce\xde\xad\xbe\xef"
"\xab\xad\xda\xd2",
.alen = 20,
.ctext = ctext11,
.clen = sizeof(ctext11),
}, {
.key = "\x62\x35\xf8\x95\xfc\xa5\xeb\xf6"
"\x0e\x92\x12\x04\xd3\xa1\x3f\x2e"
"\x8b\x32\xcf\xe7\x44\xed\x13\x59"
"\x04\x38\x77\xb0\xb9\xad\xb4\x38",
.klen = 32,
.iv = "\x00\xff\xff\xff\xff\x00\x00\xff"
"\xff\xff\x00\xff",
.ptext = ptext12,
.plen = sizeof(ptext12),
.ctext = ctext12,
.clen = sizeof(ctext12),
}
};
static int __init libaesgcm_init(void)
{
for (int i = 0; i < ARRAY_SIZE(aesgcm_tv); i++) {
u8 tagbuf[AES_BLOCK_SIZE];
int plen = aesgcm_tv[i].plen;
struct aesgcm_ctx ctx;
u8 buf[sizeof(ptext12)];
if (aesgcm_expandkey(&ctx, aesgcm_tv[i].key, aesgcm_tv[i].klen,
aesgcm_tv[i].clen - plen)) {
pr_err("aesgcm_expandkey() failed on vector %d\n", i);
return -ENODEV;
}
if (!aesgcm_decrypt(&ctx, buf, aesgcm_tv[i].ctext, plen,
aesgcm_tv[i].assoc, aesgcm_tv[i].alen,
aesgcm_tv[i].iv, aesgcm_tv[i].ctext + plen)
|| memcmp(buf, aesgcm_tv[i].ptext, plen)) {
pr_err("aesgcm_decrypt() #1 failed on vector %d\n", i);
return -ENODEV;
}
/* encrypt in place */
aesgcm_encrypt(&ctx, buf, buf, plen, aesgcm_tv[i].assoc,
aesgcm_tv[i].alen, aesgcm_tv[i].iv, tagbuf);
if (memcmp(buf, aesgcm_tv[i].ctext, plen)) {
pr_err("aesgcm_encrypt() failed on vector %d\n", i);
return -ENODEV;
}
/* decrypt in place */
if (!aesgcm_decrypt(&ctx, buf, buf, plen, aesgcm_tv[i].assoc,
aesgcm_tv[i].alen, aesgcm_tv[i].iv, tagbuf)
|| memcmp(buf, aesgcm_tv[i].ptext, plen)) {
pr_err("aesgcm_decrypt() #2 failed on vector %d\n", i);
return -ENODEV;
}
}
return 0;
}
module_init(libaesgcm_init);
static void __exit libaesgcm_exit(void)
{
}
module_exit(libaesgcm_exit);
#endif