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authorDamjan Marion <damarion@cisco.com>2020-02-25 11:51:48 +0100
committerDamjan Marion <damarion@cisco.com>2020-02-25 11:51:48 +0100
commit47d8f5dcd655f0e01774822fca17dd38e7f557dd (patch)
tree044235f10e7e53b25abb0bfc13f4aabcbfe77487 /src/plugins/crypto_native/aes_gcm.c
parent8d6d74cdf43d7560eab3cf609cab27e5deb816e0 (diff)
crypto-native: GCM implementation with vector AESNI instructions
Introduced on intel IceLake uarch. Type: feature Change-Id: I1514c76c34e53ce0577666caf32a50f95eb6548f Signed-off-by: Damjan Marion <damarion@cisco.com>
Diffstat (limited to 'src/plugins/crypto_native/aes_gcm.c')
-rw-r--r--src/plugins/crypto_native/aes_gcm.c483
1 files changed, 479 insertions, 4 deletions
diff --git a/src/plugins/crypto_native/aes_gcm.c b/src/plugins/crypto_native/aes_gcm.c
index cb4590085c0..16bcfc4b01d 100644
--- a/src/plugins/crypto_native/aes_gcm.c
+++ b/src/plugins/crypto_native/aes_gcm.c
@@ -26,19 +26,31 @@
#pragma GCC optimize ("O3")
#endif
+#ifdef __VAES__
+#define NUM_HI 32
+#else
#define NUM_HI 8
+#endif
+
typedef struct
{
/* pre-calculated hash key values */
const u8x16 Hi[NUM_HI];
/* extracted AES key */
const u8x16 Ke[15];
+#ifdef __VAES__
+ const u8x64 Ke4[15];
+#endif
} aes_gcm_key_data_t;
typedef struct
{
u32 counter;
- u32x4 Y;
+ union
+ {
+ u32x4 Y;
+ u32x16 Y4;
+ };
} aes_gcm_counter_t;
typedef enum
@@ -51,8 +63,6 @@ typedef enum
static const u32x4 ctr_inv_1 = { 0, 0, 0, 1 << 24 };
-
-
static_always_inline void
aes_gcm_enc_first_round (u8x16 * r, aes_gcm_counter_t * ctr, u8x16 k,
int n_blocks)
@@ -405,6 +415,334 @@ aes_gcm_ghash_last (u8x16 T, aes_gcm_key_data_t * kd, u8x16 * d,
return ghash_final (gd);
}
+#ifdef __VAES__
+static const u32x16 ctr_inv_1234 = {
+ 0, 0, 0, 1 << 24, 0, 0, 0, 2 << 24, 0, 0, 0, 3 << 24, 0, 0, 0, 4 << 24,
+};
+
+static 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
+};
+
+static const u32x16 ctr_1234 = {
+ 1, 0, 0, 0, 2, 0, 0, 0, 3, 0, 0, 0, 4, 0, 0, 0,
+};
+
+static_always_inline void
+aes4_gcm_enc_first_round (u8x64 * r, aes_gcm_counter_t * ctr, u8x64 k, int n)
+{
+ u8 last_byte = (u8) ctr->counter;
+ int i = 0;
+
+ /* As counter is stored in network byte order for performance reasons we
+ are incrementing least significant byte only except in case where we
+ overlow. As we are processing four 512-blocks in parallel except the
+ last round, overflow can happen only when n == 4 */
+
+ if (n == 4)
+ for (; i < 2; i++)
+ {
+ r[i] = k ^ (u8x64) ctr->Y4;
+ ctr->Y4 += ctr_inv_4444;
+ }
+
+ if (n == 4 && PREDICT_TRUE (last_byte == 241))
+ {
+ u32x16 Yc, Yr = (u32x16) u8x64_reflect_u8x16 ((u8x64) ctr->Y4);
+
+ for (; i < n; i++)
+ {
+ r[i] = k ^ (u8x64) ctr->Y4;
+ Yc = u32x16_splat (ctr->counter + 4 * (i + 1)) + ctr_1234;
+ Yr = (u32x16) u32x16_mask_blend (Yr, Yc, 0x1111);
+ ctr->Y4 = (u32x16) u8x64_reflect_u8x16 ((u8x64) Yr);
+ }
+ }
+ else
+ {
+ for (; i < n; i++)
+ {
+ r[i] = k ^ (u8x64) ctr->Y4;
+ ctr->Y4 += ctr_inv_4444;
+ }
+ }
+ ctr->counter += n * 4;
+}
+
+static_always_inline void
+aes4_gcm_enc_round (u8x64 * r, u8x64 k, int n_blocks)
+{
+ for (int i = 0; i < n_blocks; i++)
+ r[i] = aes_enc_round_x4 (r[i], k);
+}
+
+static_always_inline void
+aes4_gcm_enc_last_round (u8x64 * r, u8x64 * d, u8x64 const *k,
+ int rounds, int n_blocks)
+{
+
+ /* additional ronuds for AES-192 and AES-256 */
+ for (int i = 10; i < rounds; i++)
+ aes4_gcm_enc_round (r, k[i], n_blocks);
+
+ for (int i = 0; i < n_blocks; i++)
+ d[i] ^= aes_enc_last_round_x4 (r[i], k[rounds]);
+}
+
+static_always_inline u8x16
+aes4_gcm_calc (u8x16 T, aes_gcm_key_data_t * kd, u8x64 * d,
+ aes_gcm_counter_t * ctr, u8x16u * in, u8x16u * out,
+ int rounds, int n, int last_4block_bytes, aes_gcm_flags_t f)
+{
+ ghash4_data_t _gd, *gd = &_gd;
+ const u8x64 *rk = (u8x64 *) kd->Ke4;
+ int i, ghash_blocks, gc = 1;
+ u8x64u *Hi4, *inv = (u8x64u *) in, *outv = (u8x64u *) out;
+ u8x64 r[4];
+ u64 byte_mask = _bextr_u64 (-1LL, 0, last_4block_bytes);
+
+ if (f & AES_GCM_F_ENCRYPT)
+ {
+ /* during encryption we either hash four 512-bit blocks from previous
+ round or we don't hash at all */
+ ghash_blocks = 4;
+ Hi4 = (u8x64u *) (kd->Hi + NUM_HI - ghash_blocks * 4);
+ }
+ else
+ {
+ /* during deccryption we hash 1..4 512-bit blocks from current round */
+ ghash_blocks = n;
+ int n_128bit_blocks = n * 4;
+ /* if this is last round of decryption, we may have less than 4
+ 128-bit blocks in the last 512-bit data block, so we need to adjust
+ Hi4 pointer accordingly */
+ if (f & AES_GCM_F_LAST_ROUND)
+ n_128bit_blocks += ((last_4block_bytes + 15) >> 4) - 4;
+ Hi4 = (u8x64u *) (kd->Hi + NUM_HI - n_128bit_blocks);
+ }
+
+ /* AES rounds 0 and 1 */
+ aes4_gcm_enc_first_round (r, ctr, rk[0], n);
+ aes4_gcm_enc_round (r, rk[1], n);
+
+ /* load 4 blocks of data - decrypt round */
+ if (f & AES_GCM_F_DECRYPT)
+ {
+ for (i = 0; i < n - ((f & AES_GCM_F_LAST_ROUND) != 0); i++)
+ d[i] = inv[i];
+
+ if (f & AES_GCM_F_LAST_ROUND)
+ d[i] = u8x64_mask_load (u8x64_splat (0), inv + i, byte_mask);
+ }
+
+ /* GHASH multiply block 0 */
+ if (f & AES_GCM_F_WITH_GHASH)
+ ghash4_mul_first (gd, u8x64_reflect_u8x16 (d[0]) ^
+ u8x64_insert_u8x16 (u8x64_splat (0), T, 0), Hi4[0]);
+
+ /* AES rounds 2 and 3 */
+ aes4_gcm_enc_round (r, rk[2], n);
+ aes4_gcm_enc_round (r, rk[3], n);
+
+ /* GHASH multiply block 1 */
+ if ((f & AES_GCM_F_WITH_GHASH) && gc++ < ghash_blocks)
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[1]), Hi4[1]);
+
+ /* AES rounds 4 and 5 */
+ aes4_gcm_enc_round (r, rk[4], n);
+ aes4_gcm_enc_round (r, rk[5], n);
+
+ /* GHASH multiply block 2 */
+ if ((f & AES_GCM_F_WITH_GHASH) && gc++ < ghash_blocks)
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[2]), Hi4[2]);
+
+ /* AES rounds 6 and 7 */
+ aes4_gcm_enc_round (r, rk[6], n);
+ aes4_gcm_enc_round (r, rk[7], n);
+
+ /* GHASH multiply block 3 */
+ if ((f & AES_GCM_F_WITH_GHASH) && gc++ < ghash_blocks)
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[3]), Hi4[3]);
+
+ /* load 4 blocks of data - decrypt round */
+ if (f & AES_GCM_F_ENCRYPT)
+ {
+ for (i = 0; i < n - ((f & AES_GCM_F_LAST_ROUND) != 0); i++)
+ d[i] = inv[i];
+
+ if (f & AES_GCM_F_LAST_ROUND)
+ d[i] = u8x64_mask_load (u8x64_splat (0), inv + i, byte_mask);
+ }
+
+ /* AES rounds 8 and 9 */
+ aes4_gcm_enc_round (r, rk[8], n);
+ aes4_gcm_enc_round (r, rk[9], n);
+
+ /* AES last round(s) */
+ aes4_gcm_enc_last_round (r, d, rk, rounds, n);
+
+ /* store 4 blocks of data */
+ for (i = 0; i < n - ((f & AES_GCM_F_LAST_ROUND) != 0); i++)
+ outv[i] = d[i];
+
+ if (f & AES_GCM_F_LAST_ROUND)
+ u8x64_mask_store (d[i], outv + i, byte_mask);
+
+ /* GHASH reduce 1st step */
+ ghash4_reduce (gd);
+
+ /* GHASH reduce 2nd step */
+ ghash4_reduce2 (gd);
+
+ /* GHASH final step */
+ return ghash4_final (gd);
+}
+
+static_always_inline u8x16
+aes4_gcm_calc_double (u8x16 T, aes_gcm_key_data_t * kd, u8x64 * d,
+ aes_gcm_counter_t * ctr, u8x16u * in, u8x16u * out,
+ int rounds, aes_gcm_flags_t f)
+{
+ u8x64 r[4];
+ ghash4_data_t _gd, *gd = &_gd;
+ const u8x64 *rk = (u8x64 *) kd->Ke4;
+ u8x64 *Hi4 = (u8x64 *) (kd->Hi + NUM_HI - 32);
+ u8x64u *inv = (u8x64u *) in, *outv = (u8x64u *) out;
+
+ /* AES rounds 0 and 1 */
+ aes4_gcm_enc_first_round (r, ctr, rk[0], 4);
+ aes4_gcm_enc_round (r, rk[1], 4);
+
+ /* load 4 blocks of data - decrypt round */
+ if (f & AES_GCM_F_DECRYPT)
+ for (int i = 0; i < 4; i++)
+ d[i] = inv[i];
+
+ /* GHASH multiply block 0 */
+ ghash4_mul_first (gd, u8x64_reflect_u8x16 (d[0]) ^
+ u8x64_insert_u8x16 (u8x64_splat (0), T, 0), Hi4[0]);
+
+ /* AES rounds 2 and 3 */
+ aes4_gcm_enc_round (r, rk[2], 4);
+ aes4_gcm_enc_round (r, rk[3], 4);
+
+ /* GHASH multiply block 1 */
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[1]), Hi4[1]);
+
+ /* AES rounds 4 and 5 */
+ aes4_gcm_enc_round (r, rk[4], 4);
+ aes4_gcm_enc_round (r, rk[5], 4);
+
+ /* GHASH multiply block 2 */
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[2]), Hi4[2]);
+
+ /* AES rounds 6 and 7 */
+ aes4_gcm_enc_round (r, rk[6], 4);
+ aes4_gcm_enc_round (r, rk[7], 4);
+
+ /* GHASH multiply block 3 */
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[3]), Hi4[3]);
+
+ /* AES rounds 8 and 9 */
+ aes4_gcm_enc_round (r, rk[8], 4);
+ aes4_gcm_enc_round (r, rk[9], 4);
+
+ /* load 4 blocks of data - encrypt round */
+ if (f & AES_GCM_F_ENCRYPT)
+ for (int i = 0; i < 4; i++)
+ d[i] = inv[i];
+
+ /* AES last round(s) */
+ aes4_gcm_enc_last_round (r, d, rk, rounds, 4);
+
+ /* store 4 blocks of data */
+ for (int i = 0; i < 4; i++)
+ outv[i] = d[i];
+
+ /* load 4 blocks of data - decrypt round */
+ if (f & AES_GCM_F_DECRYPT)
+ for (int i = 0; i < 4; i++)
+ d[i] = inv[i + 4];
+
+ /* GHASH multiply block 3 */
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[0]), Hi4[4]);
+
+ /* AES rounds 0 and 1 */
+ aes4_gcm_enc_first_round (r, ctr, rk[0], 4);
+ aes4_gcm_enc_round (r, rk[1], 4);
+
+ /* GHASH multiply block 5 */
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[1]), Hi4[5]);
+
+ /* AES rounds 2 and 3 */
+ aes4_gcm_enc_round (r, rk[2], 4);
+ aes4_gcm_enc_round (r, rk[3], 4);
+
+ /* GHASH multiply block 6 */
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[2]), Hi4[6]);
+
+ /* AES rounds 4 and 5 */
+ aes4_gcm_enc_round (r, rk[4], 4);
+ aes4_gcm_enc_round (r, rk[5], 4);
+
+ /* GHASH multiply block 7 */
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[3]), Hi4[7]);
+
+ /* AES rounds 6 and 7 */
+ aes4_gcm_enc_round (r, rk[6], 4);
+ aes4_gcm_enc_round (r, rk[7], 4);
+
+ /* GHASH reduce 1st step */
+ ghash4_reduce (gd);
+
+ /* AES rounds 8 and 9 */
+ aes4_gcm_enc_round (r, rk[8], 4);
+ aes4_gcm_enc_round (r, rk[9], 4);
+
+ /* GHASH reduce 2nd step */
+ ghash4_reduce2 (gd);
+
+ /* load 4 blocks of data - encrypt round */
+ if (f & AES_GCM_F_ENCRYPT)
+ for (int i = 0; i < 4; i++)
+ d[i] = inv[i + 4];
+
+ /* AES last round(s) */
+ aes4_gcm_enc_last_round (r, d, rk, rounds, 4);
+
+ /* store 4 blocks of data */
+ for (int i = 0; i < 4; i++)
+ outv[i + 4] = d[i];
+
+ /* GHASH final step */
+ return ghash4_final (gd);
+}
+
+static_always_inline u8x16
+aes4_gcm_ghash_last (u8x16 T, aes_gcm_key_data_t * kd, u8x64 * d,
+ int n, int last_4block_bytes)
+{
+ ghash4_data_t _gd, *gd = &_gd;
+ u8x64u *Hi4;
+ int n_128bit_blocks;
+ u64 byte_mask = _bextr_u64 (-1LL, 0, last_4block_bytes);
+ n_128bit_blocks = (n - 1) * 4 + ((last_4block_bytes + 15) >> 4);
+ Hi4 = (u8x64u *) (kd->Hi + NUM_HI - n_128bit_blocks);
+
+ d[n - 1] = u8x64_mask_blend (u8x64_splat (0), d[n - 1], byte_mask);
+ ghash4_mul_first (gd, u8x64_reflect_u8x16 (d[0]) ^
+ u8x64_insert_u8x16 (u8x64_splat (0), T, 0), Hi4[0]);
+ if (n > 1)
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[1]), Hi4[1]);
+ if (n > 2)
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[2]), Hi4[2]);
+ if (n > 3)
+ ghash4_mul_next (gd, u8x64_reflect_u8x16 (d[3]), Hi4[3]);
+ ghash4_reduce (gd);
+ ghash4_reduce2 (gd);
+ return ghash4_final (gd);
+}
+#endif
static_always_inline u8x16
aes_gcm_enc (u8x16 T, aes_gcm_key_data_t * kd, aes_gcm_counter_t * ctr,
@@ -416,6 +754,95 @@ aes_gcm_enc (u8x16 T, aes_gcm_key_data_t * kd, aes_gcm_counter_t * ctr,
if (n_left == 0)
return T;
+#if __VAES__
+ u8x64 d4[4];
+ if (n_left < 256)
+ {
+ f |= AES_GCM_F_LAST_ROUND;
+ if (n_left > 192)
+ {
+ n_left -= 192;
+ aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 4, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 4, n_left);
+ }
+ else if (n_left > 128)
+ {
+ n_left -= 128;
+ aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 3, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 3, n_left);
+ }
+ else if (n_left > 64)
+ {
+ n_left -= 64;
+ aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 2, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 2, n_left);
+ }
+ else
+ {
+ aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 1, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 1, n_left);
+ }
+ }
+
+ aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 4, 0, f);
+
+ /* next */
+ n_left -= 256;
+ outv += 16;
+ inv += 16;
+
+ f |= AES_GCM_F_WITH_GHASH;
+
+ while (n_left >= 512)
+ {
+ T = aes4_gcm_calc_double (T, kd, d4, ctr, inv, outv, rounds, f);
+
+ /* next */
+ n_left -= 512;
+ outv += 32;
+ inv += 32;
+ }
+
+ while (n_left >= 256)
+ {
+ T = aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 4, 0, f);
+
+ /* next */
+ n_left -= 256;
+ outv += 16;
+ inv += 16;
+ }
+
+ if (n_left == 0)
+ return aes4_gcm_ghash_last (T, kd, d4, 4, 64);
+
+ f |= AES_GCM_F_LAST_ROUND;
+
+ if (n_left > 192)
+ {
+ n_left -= 192;
+ T = aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 4, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 4, n_left);
+ }
+
+ if (n_left > 128)
+ {
+ n_left -= 128;
+ T = aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 3, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 3, n_left);
+ }
+
+ if (n_left > 64)
+ {
+ n_left -= 64;
+ T = aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 2, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 2, n_left);
+ }
+
+ T = aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 1, n_left, f);
+ return aes4_gcm_ghash_last (T, kd, d4, 1, n_left);
+#endif
+
if (n_left < 64)
{
f |= AES_GCM_F_LAST_ROUND;
@@ -507,9 +934,47 @@ static_always_inline u8x16
aes_gcm_dec (u8x16 T, aes_gcm_key_data_t * kd, aes_gcm_counter_t * ctr,
u8x16u * inv, u8x16u * outv, u32 n_left, int rounds)
{
- u8x16 d[8];
aes_gcm_flags_t f = AES_GCM_F_WITH_GHASH | AES_GCM_F_DECRYPT;
+#ifdef __VAES__
+ u8x64 d4[4] = { };
+
+ while (n_left >= 512)
+ {
+ T = aes4_gcm_calc_double (T, kd, d4, ctr, inv, outv, rounds, f);
+
+ /* next */
+ n_left -= 512;
+ outv += 32;
+ inv += 32;
+ }
+
+ while (n_left >= 256)
+ {
+ T = aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 4, 0, f);
+
+ /* next */
+ n_left -= 256;
+ outv += 16;
+ inv += 16;
+ }
+
+ if (n_left == 0)
+ return T;
+
+ f |= AES_GCM_F_LAST_ROUND;
+ if (n_left > 192)
+ return aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 4,
+ n_left - 192, f);
+ if (n_left > 128)
+ return aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 3,
+ n_left - 128, f);
+ if (n_left > 64)
+ return aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 2,
+ n_left - 64, f);
+ return aes4_gcm_calc (T, kd, d4, ctr, inv, outv, rounds, 1, n_left, f);
+#else
+ u8x16 d[4];
while (n_left >= 128)
{
T = aes_gcm_calc_double (T, kd, d, ctr, inv, outv, rounds, f);
@@ -545,6 +1010,7 @@ aes_gcm_dec (u8x16 T, aes_gcm_key_data_t * kd, aes_gcm_counter_t * ctr,
return aes_gcm_calc (T, kd, d, ctr, inv, outv, rounds, 2, n_left - 16, f);
return aes_gcm_calc (T, kd, d, ctr, inv, outv, rounds, 1, n_left, f);
+#endif
}
static_always_inline int
@@ -573,7 +1039,11 @@ aes_gcm (u8x16u * in, u8x16u * out, u8x16u * addt, u8x16u * iv, u8x16u * tag,
/* initalize counter */
ctr->counter = 1;
Y0 = (u32x4) aes_load_partial (iv, 12) + ctr_inv_1;
+#ifdef __VAES__
+ ctr->Y4 = u32x16_splat_u32x4 (Y0) + ctr_inv_1234;
+#else
ctr->Y = Y0 + ctr_inv_1;
+#endif
/* ghash and encrypt/edcrypt */
if (is_encrypt)
@@ -701,6 +1171,11 @@ aes_gcm_key_exp (vnet_crypto_key_t * key, aes_key_size_t ks)
H = aes_encrypt_block (u8x16_splat (0), kd->Ke, ks);
H = u8x16_reflect (H);
ghash_precompute (H, (u8x16 *) kd->Hi, NUM_HI);
+#ifdef __VAES__
+ u8x64 *Ke4 = (u8x64 *) kd->Ke4;
+ for (int i = 0; i < AES_KEY_ROUNDS (ks) + 1; i++)
+ Ke4[i] = u8x64_splat_u8x16 (kd->Ke[i]);
+#endif
return kd;
}