TOMOYO Linux Cross Reference
Linux/arch/arm64/crypto/aes-ce-glue.c

   // SPDX-License-Identifier: GPL-2.0-only
   /*
    * aes-ce-cipher.c - core AES cipher using ARMv8 Crypto Extensions
    *
    * Copyright (C) 2013 - 2017 Linaro Ltd <ard.biesheuvel@linaro.org>
    */
   
   #include <asm/neon.h>
   #include <asm/simd.h>
  #include <asm/unaligned.h>
  #include <crypto/aes.h>
  #include <crypto/algapi.h>
  #include <crypto/internal/simd.h>
  #include <linux/cpufeature.h>
  #include <linux/module.h>
  
  #include "aes-ce-setkey.h"
  
  MODULE_DESCRIPTION("Synchronous AES cipher using ARMv8 Crypto Extensions");
  MODULE_AUTHOR("Ard Biesheuvel <ard.biesheuvel@linaro.org>");
  MODULE_LICENSE("GPL v2");
  
  struct aes_block {
          u8 b[AES_BLOCK_SIZE];
  };
  
  asmlinkage void __aes_ce_encrypt(u32 *rk, u8 *out, const u8 *in, int rounds);
  asmlinkage void __aes_ce_decrypt(u32 *rk, u8 *out, const u8 *in, int rounds);
  
  asmlinkage u32 __aes_ce_sub(u32 l);
  asmlinkage void __aes_ce_invert(struct aes_block *out,
                                  const struct aes_block *in);
  
  static int num_rounds(struct crypto_aes_ctx *ctx)
  {
          /*
           * # of rounds specified by AES:
           * 128 bit key          10 rounds
           * 192 bit key          12 rounds
           * 256 bit key          14 rounds
           * => n byte key        => 6 + (n/4) rounds
           */
          return 6 + ctx->key_length / 4;
  }
  
  static void aes_cipher_encrypt(struct crypto_tfm *tfm, u8 dst[], u8 const src[])
  {
          struct crypto_aes_ctx *ctx = crypto_tfm_ctx(tfm);
  
          if (!crypto_simd_usable()) {
                  aes_encrypt(ctx, dst, src);
                  return;
          }
  
          kernel_neon_begin();
          __aes_ce_encrypt(ctx->key_enc, dst, src, num_rounds(ctx));
          kernel_neon_end();
  }
  
  static void aes_cipher_decrypt(struct crypto_tfm *tfm, u8 dst[], u8 const src[])
  {
          struct crypto_aes_ctx *ctx = crypto_tfm_ctx(tfm);
  
          if (!crypto_simd_usable()) {
                  aes_decrypt(ctx, dst, src);
                  return;
          }
  
          kernel_neon_begin();
          __aes_ce_decrypt(ctx->key_dec, dst, src, num_rounds(ctx));
          kernel_neon_end();
  }
  
  int ce_aes_expandkey(struct crypto_aes_ctx *ctx, const u8 *in_key,
                       unsigned int key_len)
  {
          /*
           * The AES key schedule round constants
           */
          static u8 const rcon[] = {
                  0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36,
          };
  
          u32 kwords = key_len / sizeof(u32);
          struct aes_block *key_enc, *key_dec;
          int i, j;
  
          if (key_len != AES_KEYSIZE_128 &&
              key_len != AES_KEYSIZE_192 &&
              key_len != AES_KEYSIZE_256)
                  return -EINVAL;
  
          ctx->key_length = key_len;
          for (i = 0; i < kwords; i++)
                  ctx->key_enc[i] = get_unaligned_le32(in_key + i * sizeof(u32));
  
          kernel_neon_begin();
          for (i = 0; i < sizeof(rcon); i++) {
                  u32 *rki = ctx->key_enc + (i * kwords);
                 u32 *rko = rki + kwords;
 
                 rko[0] = ror32(__aes_ce_sub(rki[kwords - 1]), 8) ^ rcon[i] ^ rki[0];
                 rko[1] = rko[0] ^ rki[1];
                 rko[2] = rko[1] ^ rki[2];
                 rko[3] = rko[2] ^ rki[3];
 
                 if (key_len == AES_KEYSIZE_192) {
                         if (i >= 7)
                                 break;
                         rko[4] = rko[3] ^ rki[4];
                         rko[5] = rko[4] ^ rki[5];
                 } else if (key_len == AES_KEYSIZE_256) {
                         if (i >= 6)
                                 break;
                         rko[4] = __aes_ce_sub(rko[3]) ^ rki[4];
                         rko[5] = rko[4] ^ rki[5];
                         rko[6] = rko[5] ^ rki[6];
                         rko[7] = rko[6] ^ rki[7];
                 }
         }
 
         /*
          * Generate the decryption keys for the Equivalent Inverse Cipher.
          * This involves reversing the order of the round keys, and applying
          * the Inverse Mix Columns transformation on all but the first and
          * the last one.
          */
         key_enc = (struct aes_block *)ctx->key_enc;
         key_dec = (struct aes_block *)ctx->key_dec;
         j = num_rounds(ctx);
 
         key_dec[0] = key_enc[j];
         for (i = 1, j--; j > 0; i++, j--)
                 __aes_ce_invert(key_dec + i, key_enc + j);
         key_dec[i] = key_enc[0];
 
         kernel_neon_end();
         return 0;
 }
 EXPORT_SYMBOL(ce_aes_expandkey);
 
 int ce_aes_setkey(struct crypto_tfm *tfm, const u8 *in_key,
                   unsigned int key_len)
 {
         struct crypto_aes_ctx *ctx = crypto_tfm_ctx(tfm);
 
         return ce_aes_expandkey(ctx, in_key, key_len);
 }
 EXPORT_SYMBOL(ce_aes_setkey);
 
 static struct crypto_alg aes_alg = {
         .cra_name               = "aes",
         .cra_driver_name        = "aes-ce",
         .cra_priority           = 250,
         .cra_flags              = CRYPTO_ALG_TYPE_CIPHER,
         .cra_blocksize          = AES_BLOCK_SIZE,
         .cra_ctxsize            = sizeof(struct crypto_aes_ctx),
         .cra_module             = THIS_MODULE,
         .cra_cipher = {
                 .cia_min_keysize        = AES_MIN_KEY_SIZE,
                 .cia_max_keysize        = AES_MAX_KEY_SIZE,
                 .cia_setkey             = ce_aes_setkey,
                 .cia_encrypt            = aes_cipher_encrypt,
                 .cia_decrypt            = aes_cipher_decrypt
         }
 };
 
 static int __init aes_mod_init(void)
 {
         return crypto_register_alg(&aes_alg);
 }
 
 static void __exit aes_mod_exit(void)
 {
         crypto_unregister_alg(&aes_alg);
 }
 
 module_cpu_feature_match(AES, aes_mod_init);
 module_exit(aes_mod_exit);
 

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