diff options
Diffstat (limited to 'src/vppinfra/crypto/aes_gcm.h')
-rw-r--r-- | src/vppinfra/crypto/aes_gcm.h | 274 |
1 files changed, 111 insertions, 163 deletions
diff --git a/src/vppinfra/crypto/aes_gcm.h b/src/vppinfra/crypto/aes_gcm.h index 3d1b220f7b8..5b628c87745 100644 --- a/src/vppinfra/crypto/aes_gcm.h +++ b/src/vppinfra/crypto/aes_gcm.h @@ -13,47 +13,25 @@ #include <vppinfra/crypto/ghash.h> #define NUM_HI 36 -#if defined(__VAES__) && defined(__AVX512F__) -typedef u8x64 aes_data_t; +#if N_AES_LANES == 4 typedef u8x64u aes_ghash_t; -typedef u8x64u aes_mem_t; -typedef u32x16 aes_gcm_counter_t; -#define N 64 -#define aes_gcm_load_partial(p, n) u8x64_load_partial ((u8 *) (p), n) -#define aes_gcm_store_partial(v, p, n) u8x64_store_partial (v, (u8 *) (p), n) #define aes_gcm_splat(v) u8x64_splat (v) -#define aes_gcm_reflect(r) u8x64_reflect_u8x16 (r) #define aes_gcm_ghash_reduce(c) ghash4_reduce (&(c)->gd) #define aes_gcm_ghash_reduce2(c) ghash4_reduce2 (&(c)->gd) #define aes_gcm_ghash_final(c) (c)->T = ghash4_final (&(c)->gd) -#elif defined(__VAES__) -typedef u8x32 aes_data_t; +#elif N_AES_LANES == 2 typedef u8x32u aes_ghash_t; -typedef u8x32u aes_mem_t; -typedef u32x8 aes_gcm_counter_t; -#define N 32 -#define aes_gcm_load_partial(p, n) u8x32_load_partial ((u8 *) (p), n) -#define aes_gcm_store_partial(v, p, n) u8x32_store_partial (v, (u8 *) (p), n) #define aes_gcm_splat(v) u8x32_splat (v) -#define aes_gcm_reflect(r) u8x32_reflect_u8x16 (r) #define aes_gcm_ghash_reduce(c) ghash2_reduce (&(c)->gd) #define aes_gcm_ghash_reduce2(c) ghash2_reduce2 (&(c)->gd) #define aes_gcm_ghash_final(c) (c)->T = ghash2_final (&(c)->gd) #else -typedef u8x16 aes_data_t; typedef u8x16 aes_ghash_t; -typedef u8x16u aes_mem_t; -typedef u32x4 aes_gcm_counter_t; -#define N 16 -#define aes_gcm_load_partial(p, n) u8x16_load_partial ((u8 *) (p), n) -#define aes_gcm_store_partial(v, p, n) u8x16_store_partial (v, (u8 *) (p), n) #define aes_gcm_splat(v) u8x16_splat (v) -#define aes_gcm_reflect(r) u8x16_reflect (r) #define aes_gcm_ghash_reduce(c) ghash_reduce (&(c)->gd) #define aes_gcm_ghash_reduce2(c) ghash_reduce2 (&(c)->gd) #define aes_gcm_ghash_final(c) (c)->T = ghash_final (&(c)->gd) #endif -#define N_LANES (N / 16) typedef enum { @@ -63,21 +41,12 @@ typedef enum AES_GCM_OP_GMAC } aes_gcm_op_t; -typedef union -{ - u8x16 x1; - u8x32 x2; - u8x64 x4; - u8x16 lanes[4]; -} __clib_aligned (64) -aes_gcm_expaned_key_t; - typedef struct { /* pre-calculated hash key values */ const u8x16 Hi[NUM_HI]; /* extracted AES key */ - const aes_gcm_expaned_key_t Ke[AES_KEY_ROUNDS (AES_KEY_256) + 1]; + const aes_expaned_key_t Ke[AES_KEY_ROUNDS (AES_KEY_256) + 1]; } aes_gcm_key_data_t; typedef struct @@ -95,12 +64,12 @@ typedef struct const aes_ghash_t *next_Hi; /* expaded keys */ - const aes_gcm_expaned_key_t *Ke; + const aes_expaned_key_t *Ke; /* counter */ u32 counter; u8x16 EY0; - aes_gcm_counter_t Y; + aes_counter_t Y; /* ghash */ ghash_ctx_t gd; @@ -117,39 +86,39 @@ aes_gcm_ghash_mul_first (aes_gcm_ctx_t *ctx, aes_data_t data, u32 n_lanes) { uword hash_offset = NUM_HI - n_lanes; ctx->next_Hi = (aes_ghash_t *) (ctx->Hi + hash_offset); -#if N_LANES == 4 +#if N_AES_LANES == 4 u8x64 tag4 = {}; tag4 = u8x64_insert_u8x16 (tag4, ctx->T, 0); - ghash4_mul_first (&ctx->gd, aes_gcm_reflect (data) ^ tag4, *ctx->next_Hi++); -#elif N_LANES == 2 + ghash4_mul_first (&ctx->gd, aes_reflect (data) ^ tag4, *ctx->next_Hi++); +#elif N_AES_LANES == 2 u8x32 tag2 = {}; tag2 = u8x32_insert_lo (tag2, ctx->T); - ghash2_mul_first (&ctx->gd, aes_gcm_reflect (data) ^ tag2, *ctx->next_Hi++); + ghash2_mul_first (&ctx->gd, aes_reflect (data) ^ tag2, *ctx->next_Hi++); #else - ghash_mul_first (&ctx->gd, aes_gcm_reflect (data) ^ ctx->T, *ctx->next_Hi++); + ghash_mul_first (&ctx->gd, aes_reflect (data) ^ ctx->T, *ctx->next_Hi++); #endif } static_always_inline void aes_gcm_ghash_mul_next (aes_gcm_ctx_t *ctx, aes_data_t data) { -#if N_LANES == 4 - ghash4_mul_next (&ctx->gd, aes_gcm_reflect (data), *ctx->next_Hi++); -#elif N_LANES == 2 - ghash2_mul_next (&ctx->gd, aes_gcm_reflect (data), *ctx->next_Hi++); +#if N_AES_LANES == 4 + ghash4_mul_next (&ctx->gd, aes_reflect (data), *ctx->next_Hi++); +#elif N_AES_LANES == 2 + ghash2_mul_next (&ctx->gd, aes_reflect (data), *ctx->next_Hi++); #else - ghash_mul_next (&ctx->gd, aes_gcm_reflect (data), *ctx->next_Hi++); + ghash_mul_next (&ctx->gd, aes_reflect (data), *ctx->next_Hi++); #endif } static_always_inline void aes_gcm_ghash_mul_final_block (aes_gcm_ctx_t *ctx) { -#if N_LANES == 4 +#if N_AES_LANES == 4 u8x64 h = u8x64_insert_u8x16 (u8x64_zero (), ctx->Hi[NUM_HI - 1], 0); u8x64 r4 = u8x64_insert_u8x16 (u8x64_zero (), aes_gcm_final_block (ctx), 0); ghash4_mul_next (&ctx->gd, r4, h); -#elif N_LANES == 2 +#elif N_AES_LANES == 2 u8x32 h = u8x32_insert_lo (u8x32_zero (), ctx->Hi[NUM_HI - 1]); u8x32 r2 = u8x32_insert_lo (u8x32_zero (), aes_gcm_final_block (ctx)); ghash2_mul_next (&ctx->gd, r2, h); @@ -164,9 +133,9 @@ aes_gcm_enc_ctr0_round (aes_gcm_ctx_t *ctx, int aes_round) if (aes_round == 0) ctx->EY0 ^= ctx->Ke[0].x1; else if (aes_round == ctx->rounds) - ctx->EY0 = aes_enc_last_round (ctx->EY0, ctx->Ke[aes_round].x1); + ctx->EY0 = aes_enc_last_round_x1 (ctx->EY0, ctx->Ke[aes_round].x1); else - ctx->EY0 = aes_enc_round (ctx->EY0, ctx->Ke[aes_round].x1); + ctx->EY0 = aes_enc_round_x1 (ctx->EY0, ctx->Ke[aes_round].x1); } static_always_inline void @@ -176,11 +145,11 @@ aes_gcm_ghash (aes_gcm_ctx_t *ctx, u8 *data, u32 n_left) aes_data_t r = {}; const aes_mem_t *d = (aes_mem_t *) data; - for (; n_left >= 8 * N; n_left -= 8 * N, d += 8) + for (int n = 8 * N_AES_BYTES; n_left >= n; n_left -= n, d += 8) { - if (ctx->operation == AES_GCM_OP_GMAC && n_left == N * 8) + if (ctx->operation == AES_GCM_OP_GMAC && n_left == n) { - aes_gcm_ghash_mul_first (ctx, d[0], 8 * N_LANES + 1); + aes_gcm_ghash_mul_first (ctx, d[0], 8 * N_AES_LANES + 1); for (i = 1; i < 8; i++) aes_gcm_ghash_mul_next (ctx, d[i]); aes_gcm_ghash_mul_final_block (ctx); @@ -190,7 +159,7 @@ aes_gcm_ghash (aes_gcm_ctx_t *ctx, u8 *data, u32 n_left) goto done; } - aes_gcm_ghash_mul_first (ctx, d[0], 8 * N_LANES); + aes_gcm_ghash_mul_first (ctx, d[0], 8 * N_AES_LANES); for (i = 1; i < 8; i++) aes_gcm_ghash_mul_next (ctx, d[i]); aes_gcm_ghash_reduce (ctx); @@ -205,7 +174,7 @@ aes_gcm_ghash (aes_gcm_ctx_t *ctx, u8 *data, u32 n_left) if (ctx->operation == AES_GCM_OP_GMAC) n_lanes++; - if (n_left < N) + if (n_left < N_AES_BYTES) { clib_memcpy_fast (&r, d, n_left); aes_gcm_ghash_mul_first (ctx, r, n_lanes); @@ -213,30 +182,30 @@ aes_gcm_ghash (aes_gcm_ctx_t *ctx, u8 *data, u32 n_left) else { aes_gcm_ghash_mul_first (ctx, d[0], n_lanes); - n_left -= N; + n_left -= N_AES_BYTES; i = 1; - if (n_left >= 4 * N) + if (n_left >= 4 * N_AES_BYTES) { aes_gcm_ghash_mul_next (ctx, d[i]); aes_gcm_ghash_mul_next (ctx, d[i + 1]); aes_gcm_ghash_mul_next (ctx, d[i + 2]); aes_gcm_ghash_mul_next (ctx, d[i + 3]); - n_left -= 4 * N; + n_left -= 4 * N_AES_BYTES; i += 4; } - if (n_left >= 2 * N) + if (n_left >= 2 * N_AES_BYTES) { aes_gcm_ghash_mul_next (ctx, d[i]); aes_gcm_ghash_mul_next (ctx, d[i + 1]); - n_left -= 2 * N; + n_left -= 2 * N_AES_BYTES; i += 2; } - if (n_left >= N) + if (n_left >= N_AES_BYTES) { aes_gcm_ghash_mul_next (ctx, d[i]); - n_left -= N; + n_left -= N_AES_BYTES; i += 1; } @@ -267,7 +236,7 @@ done: static_always_inline void aes_gcm_enc_first_round (aes_gcm_ctx_t *ctx, aes_data_t *r, uword n_blocks) { - const aes_gcm_expaned_key_t Ke0 = ctx->Ke[0]; + const aes_expaned_key_t Ke0 = ctx->Ke[0]; uword i = 0; /* As counter is stored in network byte order for performance reasons we @@ -275,7 +244,7 @@ aes_gcm_enc_first_round (aes_gcm_ctx_t *ctx, aes_data_t *r, uword n_blocks) overlow. As we are processing four 128, 256 or 512-blocks in parallel except the last round, overflow can happen only when n_blocks == 4 */ -#if N_LANES == 4 +#if N_AES_LANES == 4 const u32x16 ctr_inv_4444 = { 0, 0, 0, 4 << 24, 0, 0, 0, 4 << 24, 0, 0, 0, 4 << 24, 0, 0, 0, 4 << 24 }; @@ -292,13 +261,13 @@ aes_gcm_enc_first_round (aes_gcm_ctx_t *ctx, aes_data_t *r, uword n_blocks) if (n_blocks == 4 && PREDICT_FALSE ((u8) ctx->counter == 242)) { - u32x16 Yr = (u32x16) aes_gcm_reflect ((u8x64) ctx->Y); + u32x16 Yr = (u32x16) aes_reflect ((u8x64) ctx->Y); for (; i < n_blocks; i++) { r[i] = Ke0.x4 ^ (u8x64) ctx->Y; /* Initial AES round */ Yr += ctr_4444; - ctx->Y = (u32x16) aes_gcm_reflect ((u8x64) Yr); + ctx->Y = (u32x16) aes_reflect ((u8x64) Yr); } } else @@ -310,7 +279,7 @@ aes_gcm_enc_first_round (aes_gcm_ctx_t *ctx, aes_data_t *r, uword n_blocks) } } ctx->counter += n_blocks * 4; -#elif N_LANES == 2 +#elif N_AES_LANES == 2 const u32x8 ctr_inv_22 = { 0, 0, 0, 2 << 24, 0, 0, 0, 2 << 24 }; const u32x8 ctr_22 = { 2, 0, 0, 0, 2, 0, 0, 0 }; @@ -323,13 +292,13 @@ aes_gcm_enc_first_round (aes_gcm_ctx_t *ctx, aes_data_t *r, uword n_blocks) if (n_blocks == 4 && PREDICT_FALSE ((u8) ctx->counter == 250)) { - u32x8 Yr = (u32x8) aes_gcm_reflect ((u8x32) ctx->Y); + u32x8 Yr = (u32x8) aes_reflect ((u8x32) ctx->Y); for (; i < n_blocks; i++) { r[i] = Ke0.x2 ^ (u8x32) ctx->Y; /* Initial AES round */ Yr += ctr_22; - ctx->Y = (u32x8) aes_gcm_reflect ((u8x32) Yr); + ctx->Y = (u32x8) aes_reflect ((u8x32) Yr); } } else @@ -370,42 +339,21 @@ aes_gcm_enc_first_round (aes_gcm_ctx_t *ctx, aes_data_t *r, uword n_blocks) } static_always_inline void -aes_gcm_enc_round (aes_data_t *r, const aes_gcm_expaned_key_t *Ke, - uword n_blocks) -{ - for (int i = 0; i < n_blocks; i++) -#if N_LANES == 4 - r[i] = aes_enc_round_x4 (r[i], Ke->x4); -#elif N_LANES == 2 - r[i] = aes_enc_round_x2 (r[i], Ke->x2); -#else - r[i] = aes_enc_round (r[i], Ke->x1); -#endif -} - -static_always_inline void aes_gcm_enc_last_round (aes_gcm_ctx_t *ctx, aes_data_t *r, aes_data_t *d, - const aes_gcm_expaned_key_t *Ke, uword n_blocks) + const aes_expaned_key_t *Ke, uword n_blocks) { /* additional ronuds for AES-192 and AES-256 */ for (int i = 10; i < ctx->rounds; i++) - aes_gcm_enc_round (r, Ke + i, n_blocks); + aes_enc_round (r, Ke + i, n_blocks); - for (int i = 0; i < n_blocks; i++) -#if N_LANES == 4 - d[i] ^= aes_enc_last_round_x4 (r[i], Ke[ctx->rounds].x4); -#elif N_LANES == 2 - d[i] ^= aes_enc_last_round_x2 (r[i], Ke[ctx->rounds].x2); -#else - d[i] ^= aes_enc_last_round (r[i], Ke[ctx->rounds].x1); -#endif + aes_enc_last_round (r, d, Ke + ctx->rounds, n_blocks); } static_always_inline void aes_gcm_calc (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst, u32 n, u32 n_bytes, int with_ghash) { - const aes_gcm_expaned_key_t *k = ctx->Ke; + const aes_expaned_key_t *k = ctx->Ke; const aes_mem_t *sv = (aes_mem_t *) src; aes_mem_t *dv = (aes_mem_t *) dst; uword ghash_blocks, gc = 1; @@ -415,23 +363,23 @@ aes_gcm_calc (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst, u32 n, if (ctx->operation == AES_GCM_OP_ENCRYPT) { ghash_blocks = 4; - n_lanes = N_LANES * 4; + n_lanes = N_AES_LANES * 4; } else { ghash_blocks = n; - n_lanes = n * N_LANES; -#if N_LANES != 1 + n_lanes = n * N_AES_LANES; +#if N_AES_LANES != 1 if (ctx->last) n_lanes = (n_bytes + 15) / 16; #endif } - n_bytes -= (n - 1) * N; + n_bytes -= (n - 1) * N_AES_BYTES; /* AES rounds 0 and 1 */ aes_gcm_enc_first_round (ctx, r, n); - aes_gcm_enc_round (r, k + 1, n); + aes_enc_round (r, k + 1, n); /* load data - decrypt round */ if (ctx->operation == AES_GCM_OP_DECRYPT) @@ -440,7 +388,7 @@ aes_gcm_calc (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst, u32 n, d[i] = sv[i]; if (ctx->last) - d[n - 1] = aes_gcm_load_partial ((u8 *) (sv + n - 1), n_bytes); + d[n - 1] = aes_load_partial ((u8 *) (sv + n - 1), n_bytes); } /* GHASH multiply block 0 */ @@ -448,24 +396,24 @@ aes_gcm_calc (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst, u32 n, aes_gcm_ghash_mul_first (ctx, d[0], n_lanes); /* AES rounds 2 and 3 */ - aes_gcm_enc_round (r, k + 2, n); - aes_gcm_enc_round (r, k + 3, n); + aes_enc_round (r, k + 2, n); + aes_enc_round (r, k + 3, n); /* GHASH multiply block 1 */ if (with_ghash && gc++ < ghash_blocks) aes_gcm_ghash_mul_next (ctx, (d[1])); /* AES rounds 4 and 5 */ - aes_gcm_enc_round (r, k + 4, n); - aes_gcm_enc_round (r, k + 5, n); + aes_enc_round (r, k + 4, n); + aes_enc_round (r, k + 5, n); /* GHASH multiply block 2 */ if (with_ghash && gc++ < ghash_blocks) aes_gcm_ghash_mul_next (ctx, (d[2])); /* AES rounds 6 and 7 */ - aes_gcm_enc_round (r, k + 6, n); - aes_gcm_enc_round (r, k + 7, n); + aes_enc_round (r, k + 6, n); + aes_enc_round (r, k + 7, n); /* GHASH multiply block 3 */ if (with_ghash && gc++ < ghash_blocks) @@ -478,12 +426,12 @@ aes_gcm_calc (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst, u32 n, d[i] = sv[i]; if (ctx->last) - d[n - 1] = aes_gcm_load_partial (sv + n - 1, n_bytes); + d[n - 1] = aes_load_partial (sv + n - 1, n_bytes); } /* AES rounds 8 and 9 */ - aes_gcm_enc_round (r, k + 8, n); - aes_gcm_enc_round (r, k + 9, n); + aes_enc_round (r, k + 8, n); + aes_enc_round (r, k + 9, n); /* AES last round(s) */ aes_gcm_enc_last_round (ctx, r, d, k, n); @@ -493,7 +441,7 @@ aes_gcm_calc (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst, u32 n, dv[i] = d[i]; if (ctx->last) - aes_gcm_store_partial (d[n - 1], dv + n - 1, n_bytes); + aes_store_partial (d[n - 1], dv + n - 1, n_bytes); /* GHASH reduce 1st step */ aes_gcm_ghash_reduce (ctx); @@ -510,14 +458,14 @@ aes_gcm_calc (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst, u32 n, static_always_inline void aes_gcm_calc_double (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst) { - const aes_gcm_expaned_key_t *k = ctx->Ke; + const aes_expaned_key_t *k = ctx->Ke; const aes_mem_t *sv = (aes_mem_t *) src; aes_mem_t *dv = (aes_mem_t *) dst; aes_data_t r[4]; /* AES rounds 0 and 1 */ aes_gcm_enc_first_round (ctx, r, 4); - aes_gcm_enc_round (r, k + 1, 4); + aes_enc_round (r, k + 1, 4); /* load 4 blocks of data - decrypt round */ if (ctx->operation == AES_GCM_OP_DECRYPT) @@ -525,32 +473,32 @@ aes_gcm_calc_double (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst) d[i] = sv[i]; /* GHASH multiply block 0 */ - aes_gcm_ghash_mul_first (ctx, d[0], N_LANES * 8); + aes_gcm_ghash_mul_first (ctx, d[0], N_AES_LANES * 8); /* AES rounds 2 and 3 */ - aes_gcm_enc_round (r, k + 2, 4); - aes_gcm_enc_round (r, k + 3, 4); + aes_enc_round (r, k + 2, 4); + aes_enc_round (r, k + 3, 4); /* GHASH multiply block 1 */ aes_gcm_ghash_mul_next (ctx, (d[1])); /* AES rounds 4 and 5 */ - aes_gcm_enc_round (r, k + 4, 4); - aes_gcm_enc_round (r, k + 5, 4); + aes_enc_round (r, k + 4, 4); + aes_enc_round (r, k + 5, 4); /* GHASH multiply block 2 */ aes_gcm_ghash_mul_next (ctx, (d[2])); /* AES rounds 6 and 7 */ - aes_gcm_enc_round (r, k + 6, 4); - aes_gcm_enc_round (r, k + 7, 4); + aes_enc_round (r, k + 6, 4); + aes_enc_round (r, k + 7, 4); /* GHASH multiply block 3 */ aes_gcm_ghash_mul_next (ctx, (d[3])); /* AES rounds 8 and 9 */ - aes_gcm_enc_round (r, k + 8, 4); - aes_gcm_enc_round (r, k + 9, 4); + aes_enc_round (r, k + 8, 4); + aes_enc_round (r, k + 9, 4); /* load 4 blocks of data - encrypt round */ if (ctx->operation == AES_GCM_OP_ENCRYPT) @@ -574,35 +522,35 @@ aes_gcm_calc_double (aes_gcm_ctx_t *ctx, aes_data_t *d, const u8 *src, u8 *dst) /* AES rounds 0 and 1 */ aes_gcm_enc_first_round (ctx, r, 4); - aes_gcm_enc_round (r, k + 1, 4); + aes_enc_round (r, k + 1, 4); /* GHASH multiply block 5 */ aes_gcm_ghash_mul_next (ctx, (d[1])); /* AES rounds 2 and 3 */ - aes_gcm_enc_round (r, k + 2, 4); - aes_gcm_enc_round (r, k + 3, 4); + aes_enc_round (r, k + 2, 4); + aes_enc_round (r, k + 3, 4); /* GHASH multiply block 6 */ aes_gcm_ghash_mul_next (ctx, (d[2])); /* AES rounds 4 and 5 */ - aes_gcm_enc_round (r, k + 4, 4); - aes_gcm_enc_round (r, k + 5, 4); + aes_enc_round (r, k + 4, 4); + aes_enc_round (r, k + 5, 4); /* GHASH multiply block 7 */ aes_gcm_ghash_mul_next (ctx, (d[3])); /* AES rounds 6 and 7 */ - aes_gcm_enc_round (r, k + 6, 4); - aes_gcm_enc_round (r, k + 7, 4); + aes_enc_round (r, k + 6, 4); + aes_enc_round (r, k + 7, 4); /* GHASH reduce 1st step */ aes_gcm_ghash_reduce (ctx); /* AES rounds 8 and 9 */ - aes_gcm_enc_round (r, k + 8, 4); - aes_gcm_enc_round (r, k + 9, 4); + aes_enc_round (r, k + 8, 4); + aes_enc_round (r, k + 9, 4); /* GHASH reduce 2nd step */ aes_gcm_ghash_reduce2 (ctx); @@ -644,14 +592,14 @@ static_always_inline void aes_gcm_calc_last (aes_gcm_ctx_t *ctx, aes_data_t *d, int n_blocks, u32 n_bytes) { - int n_lanes = (N_LANES == 1 ? n_blocks : (n_bytes + 15) / 16) + 1; - n_bytes -= (n_blocks - 1) * N; + int n_lanes = (N_AES_LANES == 1 ? n_blocks : (n_bytes + 15) / 16) + 1; + n_bytes -= (n_blocks - 1) * N_AES_BYTES; int i; aes_gcm_enc_ctr0_round (ctx, 0); aes_gcm_enc_ctr0_round (ctx, 1); - if (n_bytes != N) + if (n_bytes != N_AES_BYTES) aes_gcm_mask_bytes (d + n_blocks - 1, n_bytes); aes_gcm_ghash_mul_first (ctx, d[0], n_lanes); @@ -703,20 +651,20 @@ aes_gcm_enc (aes_gcm_ctx_t *ctx, const u8 *src, u8 *dst, u32 n_left) return; } - if (n_left < 4 * N) + if (n_left < 4 * N_AES_BYTES) { ctx->last = 1; - if (n_left > 3 * N) + if (n_left > 3 * N_AES_BYTES) { aes_gcm_calc (ctx, d, src, dst, 4, n_left, /* with_ghash */ 0); aes_gcm_calc_last (ctx, d, 4, n_left); } - else if (n_left > 2 * N) + else if (n_left > 2 * N_AES_BYTES) { aes_gcm_calc (ctx, d, src, dst, 3, n_left, /* with_ghash */ 0); aes_gcm_calc_last (ctx, d, 3, n_left); } - else if (n_left > N) + else if (n_left > N_AES_BYTES) { aes_gcm_calc (ctx, d, src, dst, 2, n_left, /* with_ghash */ 0); aes_gcm_calc_last (ctx, d, 2, n_left); @@ -729,45 +677,45 @@ aes_gcm_enc (aes_gcm_ctx_t *ctx, const u8 *src, u8 *dst, u32 n_left) return; } - aes_gcm_calc (ctx, d, src, dst, 4, 4 * N, /* with_ghash */ 0); + aes_gcm_calc (ctx, d, src, dst, 4, 4 * N_AES_BYTES, /* with_ghash */ 0); /* next */ - n_left -= 4 * N; - dst += 4 * N; - src += 4 * N; + n_left -= 4 * N_AES_BYTES; + dst += 4 * N_AES_BYTES; + src += 4 * N_AES_BYTES; - for (; n_left >= 8 * N; n_left -= 8 * N, src += 8 * N, dst += 8 * N) + for (int n = 8 * N_AES_BYTES; n_left >= n; n_left -= n, src += n, dst += n) aes_gcm_calc_double (ctx, d, src, dst); - if (n_left >= 4 * N) + if (n_left >= 4 * N_AES_BYTES) { - aes_gcm_calc (ctx, d, src, dst, 4, 4 * N, /* with_ghash */ 1); + aes_gcm_calc (ctx, d, src, dst, 4, 4 * N_AES_BYTES, /* with_ghash */ 1); /* next */ - n_left -= 4 * N; - dst += 4 * N; - src += 4 * N; + n_left -= 4 * N_AES_BYTES; + dst += 4 * N_AES_BYTES; + src += 4 * N_AES_BYTES; } if (n_left == 0) { - aes_gcm_calc_last (ctx, d, 4, 4 * N); + aes_gcm_calc_last (ctx, d, 4, 4 * N_AES_BYTES); return; } ctx->last = 1; - if (n_left > 3 * N) + if (n_left > 3 * N_AES_BYTES) { aes_gcm_calc (ctx, d, src, dst, 4, n_left, /* with_ghash */ 1); aes_gcm_calc_last (ctx, d, 4, n_left); } - else if (n_left > 2 * N) + else if (n_left > 2 * N_AES_BYTES) { aes_gcm_calc (ctx, d, src, dst, 3, n_left, /* with_ghash */ 1); aes_gcm_calc_last (ctx, d, 3, n_left); } - else if (n_left > N) + else if (n_left > N_AES_BYTES) { aes_gcm_calc (ctx, d, src, dst, 2, n_left, /* with_ghash */ 1); aes_gcm_calc_last (ctx, d, 2, n_left); @@ -786,28 +734,28 @@ aes_gcm_dec (aes_gcm_ctx_t *ctx, const u8 *src, u8 *dst, uword n_left) ghash_ctx_t gd; /* main encryption loop */ - for (; n_left >= 8 * N; n_left -= 8 * N, dst += 8 * N, src += 8 * N) + for (int n = 8 * N_AES_BYTES; n_left >= n; n_left -= n, dst += n, src += n) aes_gcm_calc_double (ctx, d, src, dst); - if (n_left >= 4 * N) + if (n_left >= 4 * N_AES_BYTES) { - aes_gcm_calc (ctx, d, src, dst, 4, 4 * N, /* with_ghash */ 1); + aes_gcm_calc (ctx, d, src, dst, 4, 4 * N_AES_BYTES, /* with_ghash */ 1); /* next */ - n_left -= 4 * N; - dst += N * 4; - src += N * 4; + n_left -= 4 * N_AES_BYTES; + dst += N_AES_BYTES * 4; + src += N_AES_BYTES * 4; } if (n_left) { ctx->last = 1; - if (n_left > 3 * N) + if (n_left > 3 * N_AES_BYTES) aes_gcm_calc (ctx, d, src, dst, 4, n_left, /* with_ghash */ 1); - else if (n_left > 2 * N) + else if (n_left > 2 * N_AES_BYTES) aes_gcm_calc (ctx, d, src, dst, 3, n_left, /* with_ghash */ 1); - else if (n_left > N) + else if (n_left > N_AES_BYTES) aes_gcm_calc (ctx, d, src, dst, 2, n_left, /* with_ghash */ 1); else aes_gcm_calc (ctx, d, src, dst, 1, n_left, /* with_ghash */ 1); @@ -867,11 +815,11 @@ aes_gcm (const u8 *src, u8 *dst, const u8 *aad, u8 *ivp, u8 *tag, Y0[3] = 1 << 24; ctx->EY0 = (u8x16) Y0; -#if N_LANES == 4 +#if N_AES_LANES == 4 ctx->Y = u32x16_splat_u32x4 (Y0) + (u32x16){ 0, 0, 0, 1 << 24, 0, 0, 0, 2 << 24, 0, 0, 0, 3 << 24, 0, 0, 0, 4 << 24, }; -#elif N_LANES == 2 +#elif N_AES_LANES == 2 ctx->Y = u32x8_splat_u32x4 (Y0) + (u32x8){ 0, 0, 0, 1 << 24, 0, 0, 0, 2 << 24 }; #else @@ -926,7 +874,7 @@ clib_aes_gcm_key_expand (aes_gcm_key_data_t *kd, const u8 *key, { u8x16 H; u8x16 ek[AES_KEY_ROUNDS (AES_KEY_256) + 1]; - aes_gcm_expaned_key_t *Ke = (aes_gcm_expaned_key_t *) kd->Ke; + aes_expaned_key_t *Ke = (aes_expaned_key_t *) kd->Ke; /* expand AES key */ aes_key_expand (ek, key, ks); |