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/*- * Copyright (c) 2010 Konstantin Belousov <kib@FreeBSD.org> * Copyright (c) 2010 Pawel Jakub Dawidek <pjd@FreeBSD.org> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/crypto/aesni/aesni_wrap.c 231979 2012-02-21 20:56:03Z kib $"); #include <sys/param.h> #include <sys/libkern.h> #include <sys/malloc.h> #include <sys/proc.h> #include <sys/systm.h> #include <crypto/aesni/aesni.h> MALLOC_DECLARE(M_AESNI); void aesni_encrypt_cbc(int rounds, const void *key_schedule, size_t len, const uint8_t *from, uint8_t *to, const uint8_t iv[AES_BLOCK_LEN]) { const uint8_t *ivp; size_t i; len /= AES_BLOCK_LEN; ivp = iv; for (i = 0; i < len; i++) { aesni_enc(rounds - 1, key_schedule, from, to, ivp); ivp = to; from += AES_BLOCK_LEN; to += AES_BLOCK_LEN; } } void aesni_encrypt_ecb(int rounds, const void *key_schedule, size_t len, const uint8_t from[AES_BLOCK_LEN], uint8_t to[AES_BLOCK_LEN]) { size_t i; len /= AES_BLOCK_LEN; for (i = 0; i < len; i++) { aesni_enc(rounds - 1, key_schedule, from, to, NULL); from += AES_BLOCK_LEN; to += AES_BLOCK_LEN; } } void aesni_decrypt_ecb(int rounds, const void *key_schedule, size_t len, const uint8_t from[AES_BLOCK_LEN], uint8_t to[AES_BLOCK_LEN]) { size_t i; len /= AES_BLOCK_LEN; for (i = 0; i < len; i++) { aesni_dec(rounds - 1, key_schedule, from, to, NULL); from += AES_BLOCK_LEN; to += AES_BLOCK_LEN; } } #define AES_XTS_BLOCKSIZE 16 #define AES_XTS_IVSIZE 8 #define AES_XTS_ALPHA 0x87 /* GF(2^128) generator polynomial */ static void aesni_crypt_xts_block(int rounds, const void *key_schedule, uint8_t *tweak, const uint8_t *from, uint8_t *to, int do_encrypt) { uint8_t block[AES_XTS_BLOCKSIZE]; u_int i, carry_in, carry_out; for (i = 0; i < AES_XTS_BLOCKSIZE; i++) block[i] = from[i] ^ tweak[i]; if (do_encrypt) aesni_enc(rounds - 1, key_schedule, block, to, NULL); else aesni_dec(rounds - 1, key_schedule, block, to, NULL); for (i = 0; i < AES_XTS_BLOCKSIZE; i++) to[i] ^= tweak[i]; /* Exponentiate tweak. */ carry_in = 0; for (i = 0; i < AES_XTS_BLOCKSIZE; i++) { carry_out = tweak[i] & 0x80; tweak[i] = (tweak[i] << 1) | (carry_in ? 1 : 0); carry_in = carry_out; } if (carry_in) tweak[0] ^= AES_XTS_ALPHA; bzero(block, sizeof(block)); } static void aesni_crypt_xts(int rounds, const void *data_schedule, const void *tweak_schedule, size_t len, const uint8_t *from, uint8_t *to, const uint8_t iv[AES_BLOCK_LEN], int do_encrypt) { uint8_t tweak[AES_XTS_BLOCKSIZE]; uint64_t blocknum; size_t i; /* * Prepare tweak as E_k2(IV). IV is specified as LE representation * of a 64-bit block number which we allow to be passed in directly. */ bcopy(iv, &blocknum, AES_XTS_IVSIZE); for (i = 0; i < AES_XTS_IVSIZE; i++) { tweak[i] = blocknum & 0xff; blocknum >>= 8; } /* Last 64 bits of IV are always zero. */ bzero(tweak + AES_XTS_IVSIZE, AES_XTS_IVSIZE); aesni_enc(rounds - 1, tweak_schedule, tweak, tweak, NULL); len /= AES_XTS_BLOCKSIZE; for (i = 0; i < len; i++) { aesni_crypt_xts_block(rounds, data_schedule, tweak, from, to, do_encrypt); from += AES_XTS_BLOCKSIZE; to += AES_XTS_BLOCKSIZE; } bzero(tweak, sizeof(tweak)); } static void aesni_encrypt_xts(int rounds, const void *data_schedule, const void *tweak_schedule, size_t len, const uint8_t *from, uint8_t *to, const uint8_t iv[AES_BLOCK_LEN]) { aesni_crypt_xts(rounds, data_schedule, tweak_schedule, len, from, to, iv, 1); } static void aesni_decrypt_xts(int rounds, const void *data_schedule, const void *tweak_schedule, size_t len, const uint8_t *from, uint8_t *to, const uint8_t iv[AES_BLOCK_LEN]) { aesni_crypt_xts(rounds, data_schedule, tweak_schedule, len, from, to, iv, 0); } static int aesni_cipher_setup_common(struct aesni_session *ses, const uint8_t *key, int keylen) { switch (ses->algo) { case CRYPTO_AES_CBC: switch (keylen) { case 128: ses->rounds = AES128_ROUNDS; break; case 192: ses->rounds = AES192_ROUNDS; break; case 256: ses->rounds = AES256_ROUNDS; break; default: return (EINVAL); } break; case CRYPTO_AES_XTS: switch (keylen) { case 256: ses->rounds = AES128_ROUNDS; break; case 512: ses->rounds = AES256_ROUNDS; break; default: return (EINVAL); } break; default: return (EINVAL); } aesni_set_enckey(key, ses->enc_schedule, ses->rounds); aesni_set_deckey(ses->enc_schedule, ses->dec_schedule, ses->rounds); if (ses->algo == CRYPTO_AES_CBC) arc4rand(ses->iv, sizeof(ses->iv), 0); else /* if (ses->algo == CRYPTO_AES_XTS) */ { aesni_set_enckey(key + keylen / 16, ses->xts_schedule, ses->rounds); } return (0); } int aesni_cipher_setup(struct aesni_session *ses, struct cryptoini *encini) { struct thread *td; int error, saved_ctx; td = curthread; if (!is_fpu_kern_thread(0)) { error = fpu_kern_enter(td, ses->fpu_ctx, FPU_KERN_NORMAL); saved_ctx = 1; } else { error = 0; saved_ctx = 0; } if (error == 0) { error = aesni_cipher_setup_common(ses, encini->cri_key, encini->cri_klen); if (saved_ctx) fpu_kern_leave(td, ses->fpu_ctx); } return (error); } int aesni_cipher_process(struct aesni_session *ses, struct cryptodesc *enccrd, struct cryptop *crp) { struct thread *td; uint8_t *buf; int error, allocated, saved_ctx; buf = aesni_cipher_alloc(enccrd, crp, &allocated); if (buf == NULL) return (ENOMEM); td = curthread; if (!is_fpu_kern_thread(0)) { error = fpu_kern_enter(td, ses->fpu_ctx, FPU_KERN_NORMAL); if (error != 0) goto out; saved_ctx = 1; } else { saved_ctx = 0; error = 0; } if ((enccrd->crd_flags & CRD_F_KEY_EXPLICIT) != 0) { error = aesni_cipher_setup_common(ses, enccrd->crd_key, enccrd->crd_klen); if (error != 0) goto out; } if ((enccrd->crd_flags & CRD_F_ENCRYPT) != 0) { if ((enccrd->crd_flags & CRD_F_IV_EXPLICIT) != 0) bcopy(enccrd->crd_iv, ses->iv, AES_BLOCK_LEN); if ((enccrd->crd_flags & CRD_F_IV_PRESENT) == 0) crypto_copyback(crp->crp_flags, crp->crp_buf, enccrd->crd_inject, AES_BLOCK_LEN, ses->iv); if (ses->algo == CRYPTO_AES_CBC) { aesni_encrypt_cbc(ses->rounds, ses->enc_schedule, enccrd->crd_len, buf, buf, ses->iv); } else /* if (ses->algo == CRYPTO_AES_XTS) */ { aesni_encrypt_xts(ses->rounds, ses->enc_schedule, ses->xts_schedule, enccrd->crd_len, buf, buf, ses->iv); } } else { if ((enccrd->crd_flags & CRD_F_IV_EXPLICIT) != 0) bcopy(enccrd->crd_iv, ses->iv, AES_BLOCK_LEN); else crypto_copydata(crp->crp_flags, crp->crp_buf, enccrd->crd_inject, AES_BLOCK_LEN, ses->iv); if (ses->algo == CRYPTO_AES_CBC) { aesni_decrypt_cbc(ses->rounds, ses->dec_schedule, enccrd->crd_len, buf, ses->iv); } else /* if (ses->algo == CRYPTO_AES_XTS) */ { aesni_decrypt_xts(ses->rounds, ses->dec_schedule, ses->xts_schedule, enccrd->crd_len, buf, buf, ses->iv); } } if (saved_ctx) fpu_kern_leave(td, ses->fpu_ctx); if (allocated) crypto_copyback(crp->crp_flags, crp->crp_buf, enccrd->crd_skip, enccrd->crd_len, buf); if ((enccrd->crd_flags & CRD_F_ENCRYPT) != 0) crypto_copydata(crp->crp_flags, crp->crp_buf, enccrd->crd_skip + enccrd->crd_len - AES_BLOCK_LEN, AES_BLOCK_LEN, ses->iv); out: if (allocated) { bzero(buf, enccrd->crd_len); free(buf, M_AESNI); } return (error); }