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- /* Copyright (C) 1995-1998 Eric Young (eay@cryptsoft.com)
- * All rights reserved.
- *
- * This package is an SSL implementation written
- * by Eric Young (eay@cryptsoft.com).
- * The implementation was written so as to conform with Netscapes SSL.
- *
- * This library is free for commercial and non-commercial use as long as
- * the following conditions are aheared to. The following conditions
- * apply to all code found in this distribution, be it the RC4, RSA,
- * lhash, DES, etc., code; not just the SSL code. The SSL documentation
- * included with this distribution is covered by the same copyright terms
- * except that the holder is Tim Hudson (tjh@cryptsoft.com).
- *
- * Copyright remains Eric Young's, and as such any Copyright notices in
- * the code are not to be removed.
- * If this package is used in a product, Eric Young should be given attribution
- * as the author of the parts of the library used.
- * This can be in the form of a textual message at program startup or
- * in documentation (online or textual) provided with the package.
- *
- * 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 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.
- * 3. All advertising materials mentioning features or use of this software
- * must display the following acknowledgement:
- * "This product includes cryptographic software written by
- * Eric Young (eay@cryptsoft.com)"
- * The word 'cryptographic' can be left out if the rouines from the library
- * being used are not cryptographic related :-).
- * 4. If you include any Windows specific code (or a derivative thereof) from
- * the apps directory (application code) you must include an acknowledgement:
- * "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
- *
- * THIS SOFTWARE IS PROVIDED BY ERIC YOUNG ``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 AUTHOR 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.
- *
- * The licence and distribution terms for any publically available version or
- * derivative of this code cannot be changed. i.e. this code cannot simply be
- * copied and put under another distribution licence
- * [including the GNU Public Licence.] */
-
- /* Altivec-optimized SHA1 in C. This is tested on ppc64le only.
- *
- * References:
- * https://software.intel.com/en-us/articles/improving-the-performance-of-the-secure-hash-algorithm-1
- * http://arctic.org/~dean/crypto/sha1.html
- *
- * This code used the generic SHA-1 from OpenSSL as a basis and AltiVec
- * optimisations were added on top. */
-
- #include <openssl/sha.h>
-
- #if defined(OPENSSL_PPC64LE)
-
- #include <altivec.h>
-
- void sha1_block_data_order(uint32_t *state, const uint8_t *data, size_t num);
-
- static uint32_t rotate(uint32_t a, int n) { return (a << n) | (a >> (32 - n)); }
-
- typedef vector unsigned int vec_uint32_t;
- typedef vector unsigned char vec_uint8_t;
-
- /* Vector constants */
- static const vec_uint8_t k_swap_endianness = {3, 2, 1, 0, 7, 6, 5, 4,
- 11, 10, 9, 8, 15, 14, 13, 12};
-
- /* Shift amounts for byte and bit shifts and rotations */
- static const vec_uint8_t k_4_bytes = {32, 32, 32, 32, 32, 32, 32, 32,
- 32, 32, 32, 32, 32, 32, 32, 32};
- static const vec_uint8_t k_12_bytes = {96, 96, 96, 96, 96, 96, 96, 96,
- 96, 96, 96, 96, 96, 96, 96, 96};
-
- #define K_00_19 0x5a827999UL
- #define K_20_39 0x6ed9eba1UL
- #define K_40_59 0x8f1bbcdcUL
- #define K_60_79 0xca62c1d6UL
-
- /* Vector versions of the above. */
- static const vec_uint32_t K_00_19_x_4 = {K_00_19, K_00_19, K_00_19, K_00_19};
- static const vec_uint32_t K_20_39_x_4 = {K_20_39, K_20_39, K_20_39, K_20_39};
- static const vec_uint32_t K_40_59_x_4 = {K_40_59, K_40_59, K_40_59, K_40_59};
- static const vec_uint32_t K_60_79_x_4 = {K_60_79, K_60_79, K_60_79, K_60_79};
-
- /* vector message scheduling: compute message schedule for round i..i+3 where i
- * is divisible by 4. We return the schedule w[i..i+3] as a vector. In
- * addition, we also precompute sum w[i..+3] and an additive constant K. This
- * is done to offload some computation of f() in the integer execution units.
- *
- * Byte shifting code below may not be correct for big-endian systems. */
- static vec_uint32_t sched_00_15(vec_uint32_t *pre_added, const void *data,
- vec_uint32_t k) {
- const vec_uint32_t v = *((const vec_uint32_t *)data);
- const vec_uint32_t w = vec_perm(v, v, k_swap_endianness);
- vec_st(w + k, 0, pre_added);
- return w;
- }
-
- /* Compute w[i..i+3] using these steps for i in [16, 20, 24, 28]
- *
- * w'[i ] = (w[i-3] ^ w[i-8] ^ w[i-14] ^ w[i-16]) <<< 1
- * w'[i+1] = (w[i-2] ^ w[i-7] ^ w[i-13] ^ w[i-15]) <<< 1
- * w'[i+2] = (w[i-1] ^ w[i-6] ^ w[i-12] ^ w[i-14]) <<< 1
- * w'[i+3] = ( 0 ^ w[i-5] ^ w[i-11] ^ w[i-13]) <<< 1
- *
- * w[ i] = w'[ i]
- * w[i+1] = w'[i+1]
- * w[i+2] = w'[i+2]
- * w[i+3] = w'[i+3] ^ (w'[i] <<< 1) */
- static vec_uint32_t sched_16_31(vec_uint32_t *pre_added, vec_uint32_t minus_4,
- vec_uint32_t minus_8, vec_uint32_t minus_12,
- vec_uint32_t minus_16, vec_uint32_t k) {
- const vec_uint32_t minus_3 = vec_sro(minus_4, k_4_bytes);
- const vec_uint32_t minus_14 = vec_sld((minus_12), (minus_16), 8);
- const vec_uint32_t k_1_bit = vec_splat_u32(1);
- const vec_uint32_t w_prime =
- vec_rl(minus_3 ^ minus_8 ^ minus_14 ^ minus_16, k_1_bit);
- const vec_uint32_t w =
- w_prime ^ vec_rl(vec_slo(w_prime, k_12_bytes), k_1_bit);
- vec_st(w + k, 0, pre_added);
- return w;
- }
-
- /* Compute w[i..i+3] using this relation for i in [32, 36, 40 ... 76]
- * w[i] = (w[i-6] ^ w[i-16] ^ w[i-28] ^ w[i-32]), 2) <<< 2 */
- static vec_uint32_t sched_32_79(vec_uint32_t *pre_added, vec_uint32_t minus_4,
- vec_uint32_t minus_8, vec_uint32_t minus_16,
- vec_uint32_t minus_28, vec_uint32_t minus_32,
- vec_uint32_t k) {
- const vec_uint32_t minus_6 = vec_sld(minus_4, minus_8, 8);
- const vec_uint32_t k_2_bits = vec_splat_u32(2);
- const vec_uint32_t w =
- vec_rl(minus_6 ^ minus_16 ^ minus_28 ^ minus_32, k_2_bits);
- vec_st(w + k, 0, pre_added);
- return w;
- }
-
- /* As pointed out by Wei Dai <weidai@eskimo.com>, F() below can be simplified
- * to the code in F_00_19. Wei attributes these optimisations to Peter
- * Gutmann's SHS code, and he attributes it to Rich Schroeppel. #define
- * F(x,y,z) (((x) & (y)) | ((~(x)) & (z))) I've just become aware of another
- * tweak to be made, again from Wei Dai, in F_40_59, (x&a)|(y&a) -> (x|y)&a */
- #define F_00_19(b, c, d) ((((c) ^ (d)) & (b)) ^ (d))
- #define F_20_39(b, c, d) ((b) ^ (c) ^ (d))
- #define F_40_59(b, c, d) (((b) & (c)) | (((b) | (c)) & (d)))
- #define F_60_79(b, c, d) F_20_39(b, c, d)
-
- /* We pre-added the K constants during message scheduling. */
- #define BODY_00_19(i, a, b, c, d, e, f) \
- do { \
- (f) = w[i] + (e) + rotate((a), 5) + F_00_19((b), (c), (d)); \
- (b) = rotate((b), 30); \
- } while (0)
-
- #define BODY_20_39(i, a, b, c, d, e, f) \
- do { \
- (f) = w[i] + (e) + rotate((a), 5) + F_20_39((b), (c), (d)); \
- (b) = rotate((b), 30); \
- } while (0)
-
- #define BODY_40_59(i, a, b, c, d, e, f) \
- do { \
- (f) = w[i] + (e) + rotate((a), 5) + F_40_59((b), (c), (d)); \
- (b) = rotate((b), 30); \
- } while (0)
-
- #define BODY_60_79(i, a, b, c, d, e, f) \
- do { \
- (f) = w[i] + (e) + rotate((a), 5) + F_60_79((b), (c), (d)); \
- (b) = rotate((b), 30); \
- } while (0)
-
- void sha1_block_data_order(uint32_t *state, const uint8_t *data, size_t num) {
- uint32_t A, B, C, D, E, T;
-
- A = state[0];
- B = state[1];
- C = state[2];
- D = state[3];
- E = state[4];
-
- for (;;) {
- vec_uint32_t vw[20];
- const uint32_t *w = (const uint32_t *)&vw;
-
- vec_uint32_t k = K_00_19_x_4;
- const vec_uint32_t w0 = sched_00_15(vw + 0, data + 0, k);
- BODY_00_19(0, A, B, C, D, E, T);
- BODY_00_19(1, T, A, B, C, D, E);
- BODY_00_19(2, E, T, A, B, C, D);
- BODY_00_19(3, D, E, T, A, B, C);
-
- const vec_uint32_t w4 = sched_00_15(vw + 1, data + 16, k);
- BODY_00_19(4, C, D, E, T, A, B);
- BODY_00_19(5, B, C, D, E, T, A);
- BODY_00_19(6, A, B, C, D, E, T);
- BODY_00_19(7, T, A, B, C, D, E);
-
- const vec_uint32_t w8 = sched_00_15(vw + 2, data + 32, k);
- BODY_00_19(8, E, T, A, B, C, D);
- BODY_00_19(9, D, E, T, A, B, C);
- BODY_00_19(10, C, D, E, T, A, B);
- BODY_00_19(11, B, C, D, E, T, A);
-
- const vec_uint32_t w12 = sched_00_15(vw + 3, data + 48, k);
- BODY_00_19(12, A, B, C, D, E, T);
- BODY_00_19(13, T, A, B, C, D, E);
- BODY_00_19(14, E, T, A, B, C, D);
- BODY_00_19(15, D, E, T, A, B, C);
-
- const vec_uint32_t w16 = sched_16_31(vw + 4, w12, w8, w4, w0, k);
- BODY_00_19(16, C, D, E, T, A, B);
- BODY_00_19(17, B, C, D, E, T, A);
- BODY_00_19(18, A, B, C, D, E, T);
- BODY_00_19(19, T, A, B, C, D, E);
-
- k = K_20_39_x_4;
- const vec_uint32_t w20 = sched_16_31(vw + 5, w16, w12, w8, w4, k);
- BODY_20_39(20, E, T, A, B, C, D);
- BODY_20_39(21, D, E, T, A, B, C);
- BODY_20_39(22, C, D, E, T, A, B);
- BODY_20_39(23, B, C, D, E, T, A);
-
- const vec_uint32_t w24 = sched_16_31(vw + 6, w20, w16, w12, w8, k);
- BODY_20_39(24, A, B, C, D, E, T);
- BODY_20_39(25, T, A, B, C, D, E);
- BODY_20_39(26, E, T, A, B, C, D);
- BODY_20_39(27, D, E, T, A, B, C);
-
- const vec_uint32_t w28 = sched_16_31(vw + 7, w24, w20, w16, w12, k);
- BODY_20_39(28, C, D, E, T, A, B);
- BODY_20_39(29, B, C, D, E, T, A);
- BODY_20_39(30, A, B, C, D, E, T);
- BODY_20_39(31, T, A, B, C, D, E);
-
- const vec_uint32_t w32 = sched_32_79(vw + 8, w28, w24, w16, w4, w0, k);
- BODY_20_39(32, E, T, A, B, C, D);
- BODY_20_39(33, D, E, T, A, B, C);
- BODY_20_39(34, C, D, E, T, A, B);
- BODY_20_39(35, B, C, D, E, T, A);
-
- const vec_uint32_t w36 = sched_32_79(vw + 9, w32, w28, w20, w8, w4, k);
- BODY_20_39(36, A, B, C, D, E, T);
- BODY_20_39(37, T, A, B, C, D, E);
- BODY_20_39(38, E, T, A, B, C, D);
- BODY_20_39(39, D, E, T, A, B, C);
-
- k = K_40_59_x_4;
- const vec_uint32_t w40 = sched_32_79(vw + 10, w36, w32, w24, w12, w8, k);
- BODY_40_59(40, C, D, E, T, A, B);
- BODY_40_59(41, B, C, D, E, T, A);
- BODY_40_59(42, A, B, C, D, E, T);
- BODY_40_59(43, T, A, B, C, D, E);
-
- const vec_uint32_t w44 = sched_32_79(vw + 11, w40, w36, w28, w16, w12, k);
- BODY_40_59(44, E, T, A, B, C, D);
- BODY_40_59(45, D, E, T, A, B, C);
- BODY_40_59(46, C, D, E, T, A, B);
- BODY_40_59(47, B, C, D, E, T, A);
-
- const vec_uint32_t w48 = sched_32_79(vw + 12, w44, w40, w32, w20, w16, k);
- BODY_40_59(48, A, B, C, D, E, T);
- BODY_40_59(49, T, A, B, C, D, E);
- BODY_40_59(50, E, T, A, B, C, D);
- BODY_40_59(51, D, E, T, A, B, C);
-
- const vec_uint32_t w52 = sched_32_79(vw + 13, w48, w44, w36, w24, w20, k);
- BODY_40_59(52, C, D, E, T, A, B);
- BODY_40_59(53, B, C, D, E, T, A);
- BODY_40_59(54, A, B, C, D, E, T);
- BODY_40_59(55, T, A, B, C, D, E);
-
- const vec_uint32_t w56 = sched_32_79(vw + 14, w52, w48, w40, w28, w24, k);
- BODY_40_59(56, E, T, A, B, C, D);
- BODY_40_59(57, D, E, T, A, B, C);
- BODY_40_59(58, C, D, E, T, A, B);
- BODY_40_59(59, B, C, D, E, T, A);
-
- k = K_60_79_x_4;
- const vec_uint32_t w60 = sched_32_79(vw + 15, w56, w52, w44, w32, w28, k);
- BODY_60_79(60, A, B, C, D, E, T);
- BODY_60_79(61, T, A, B, C, D, E);
- BODY_60_79(62, E, T, A, B, C, D);
- BODY_60_79(63, D, E, T, A, B, C);
-
- const vec_uint32_t w64 = sched_32_79(vw + 16, w60, w56, w48, w36, w32, k);
- BODY_60_79(64, C, D, E, T, A, B);
- BODY_60_79(65, B, C, D, E, T, A);
- BODY_60_79(66, A, B, C, D, E, T);
- BODY_60_79(67, T, A, B, C, D, E);
-
- const vec_uint32_t w68 = sched_32_79(vw + 17, w64, w60, w52, w40, w36, k);
- BODY_60_79(68, E, T, A, B, C, D);
- BODY_60_79(69, D, E, T, A, B, C);
- BODY_60_79(70, C, D, E, T, A, B);
- BODY_60_79(71, B, C, D, E, T, A);
-
- const vec_uint32_t w72 = sched_32_79(vw + 18, w68, w64, w56, w44, w40, k);
- BODY_60_79(72, A, B, C, D, E, T);
- BODY_60_79(73, T, A, B, C, D, E);
- BODY_60_79(74, E, T, A, B, C, D);
- BODY_60_79(75, D, E, T, A, B, C);
-
- /* We don't use the last value */
- (void)sched_32_79(vw + 19, w72, w68, w60, w48, w44, k);
- BODY_60_79(76, C, D, E, T, A, B);
- BODY_60_79(77, B, C, D, E, T, A);
- BODY_60_79(78, A, B, C, D, E, T);
- BODY_60_79(79, T, A, B, C, D, E);
-
- const uint32_t mask = 0xffffffffUL;
- state[0] = (state[0] + E) & mask;
- state[1] = (state[1] + T) & mask;
- state[2] = (state[2] + A) & mask;
- state[3] = (state[3] + B) & mask;
- state[4] = (state[4] + C) & mask;
-
- data += 64;
- if (--num == 0) {
- break;
- }
-
- A = state[0];
- B = state[1];
- C = state[2];
- D = state[3];
- E = state[4];
- }
- }
-
- #endif /* OPENSSL_PPC64LE */
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