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- /*
- * Fast SHA-256 implementation for SPE instruction set (PPC)
- *
- * This code makes use of the SPE SIMD instruction set as defined in
- * http://cache.freescale.com/files/32bit/doc/ref_manual/SPEPIM.pdf
- * Implementation is based on optimization guide notes from
- * http://cache.freescale.com/files/32bit/doc/app_note/AN2665.pdf
- *
- * Copyright (c) 2015 Markus Stockhausen <stockhausen@collogia.de>
- *
- * This program is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by the Free
- * Software Foundation; either version 2 of the License, or (at your option)
- * any later version.
- *
- */
- #include <asm/ppc_asm.h>
- #include <asm/asm-offsets.h>
- #define rHP r3 /* pointer to hash values in memory */
- #define rKP r24 /* pointer to round constants */
- #define rWP r4 /* pointer to input data */
- #define rH0 r5 /* 8 32 bit hash values in 8 registers */
- #define rH1 r6
- #define rH2 r7
- #define rH3 r8
- #define rH4 r9
- #define rH5 r10
- #define rH6 r11
- #define rH7 r12
- #define rW0 r14 /* 64 bit registers. 16 words in 8 registers */
- #define rW1 r15
- #define rW2 r16
- #define rW3 r17
- #define rW4 r18
- #define rW5 r19
- #define rW6 r20
- #define rW7 r21
- #define rT0 r22 /* 64 bit temporaries */
- #define rT1 r23
- #define rT2 r0 /* 32 bit temporaries */
- #define rT3 r25
- #define CMP_KN_LOOP
- #define CMP_KC_LOOP \
- cmpwi rT1,0;
- #define INITIALIZE \
- stwu r1,-128(r1); /* create stack frame */ \
- evstdw r14,8(r1); /* We must save non volatile */ \
- evstdw r15,16(r1); /* registers. Take the chance */ \
- evstdw r16,24(r1); /* and save the SPE part too */ \
- evstdw r17,32(r1); \
- evstdw r18,40(r1); \
- evstdw r19,48(r1); \
- evstdw r20,56(r1); \
- evstdw r21,64(r1); \
- evstdw r22,72(r1); \
- evstdw r23,80(r1); \
- stw r24,88(r1); /* save normal registers */ \
- stw r25,92(r1);
- #define FINALIZE \
- evldw r14,8(r1); /* restore SPE registers */ \
- evldw r15,16(r1); \
- evldw r16,24(r1); \
- evldw r17,32(r1); \
- evldw r18,40(r1); \
- evldw r19,48(r1); \
- evldw r20,56(r1); \
- evldw r21,64(r1); \
- evldw r22,72(r1); \
- evldw r23,80(r1); \
- lwz r24,88(r1); /* restore normal registers */ \
- lwz r25,92(r1); \
- xor r0,r0,r0; \
- stw r0,8(r1); /* Delete sensitive data */ \
- stw r0,16(r1); /* that we might have pushed */ \
- stw r0,24(r1); /* from other context that runs */ \
- stw r0,32(r1); /* the same code. Assume that */ \
- stw r0,40(r1); /* the lower part of the GPRs */ \
- stw r0,48(r1); /* was already overwritten on */ \
- stw r0,56(r1); /* the way down to here */ \
- stw r0,64(r1); \
- stw r0,72(r1); \
- stw r0,80(r1); \
- addi r1,r1,128; /* cleanup stack frame */
- #ifdef __BIG_ENDIAN__
- #define LOAD_DATA(reg, off) \
- lwz reg,off(rWP); /* load data */
- #define NEXT_BLOCK \
- addi rWP,rWP,64; /* increment per block */
- #else
- #define LOAD_DATA(reg, off) \
- lwbrx reg,0,rWP; /* load data */ \
- addi rWP,rWP,4; /* increment per word */
- #define NEXT_BLOCK /* nothing to do */
- #endif
- #define R_LOAD_W(a, b, c, d, e, f, g, h, w, off) \
- LOAD_DATA(w, off) /* 1: W */ \
- rotrwi rT0,e,6; /* 1: S1 = e rotr 6 */ \
- rotrwi rT1,e,11; /* 1: S1' = e rotr 11 */ \
- rotrwi rT2,e,25; /* 1: S1" = e rotr 25 */ \
- xor rT0,rT0,rT1; /* 1: S1 = S1 xor S1' */ \
- and rT3,e,f; /* 1: ch = e and f */ \
- xor rT0,rT0,rT2; /* 1: S1 = S1 xor S1" */ \
- andc rT1,g,e; /* 1: ch' = ~e and g */ \
- lwz rT2,off(rKP); /* 1: K */ \
- xor rT3,rT3,rT1; /* 1: ch = ch xor ch' */ \
- add h,h,rT0; /* 1: temp1 = h + S1 */ \
- add rT3,rT3,w; /* 1: temp1' = ch + w */ \
- rotrwi rT0,a,2; /* 1: S0 = a rotr 2 */ \
- add h,h,rT3; /* 1: temp1 = temp1 + temp1' */ \
- rotrwi rT1,a,13; /* 1: S0' = a rotr 13 */ \
- add h,h,rT2; /* 1: temp1 = temp1 + K */ \
- rotrwi rT3,a,22; /* 1: S0" = a rotr 22 */ \
- xor rT0,rT0,rT1; /* 1: S0 = S0 xor S0' */ \
- add d,d,h; /* 1: d = d + temp1 */ \
- xor rT3,rT0,rT3; /* 1: S0 = S0 xor S0" */ \
- evmergelo w,w,w; /* shift W */ \
- or rT2,a,b; /* 1: maj = a or b */ \
- and rT1,a,b; /* 1: maj' = a and b */ \
- and rT2,rT2,c; /* 1: maj = maj and c */ \
- LOAD_DATA(w, off+4) /* 2: W */ \
- or rT2,rT1,rT2; /* 1: maj = maj or maj' */ \
- rotrwi rT0,d,6; /* 2: S1 = e rotr 6 */ \
- add rT3,rT3,rT2; /* 1: temp2 = S0 + maj */ \
- rotrwi rT1,d,11; /* 2: S1' = e rotr 11 */ \
- add h,h,rT3; /* 1: h = temp1 + temp2 */ \
- rotrwi rT2,d,25; /* 2: S1" = e rotr 25 */ \
- xor rT0,rT0,rT1; /* 2: S1 = S1 xor S1' */ \
- and rT3,d,e; /* 2: ch = e and f */ \
- xor rT0,rT0,rT2; /* 2: S1 = S1 xor S1" */ \
- andc rT1,f,d; /* 2: ch' = ~e and g */ \
- lwz rT2,off+4(rKP); /* 2: K */ \
- xor rT3,rT3,rT1; /* 2: ch = ch xor ch' */ \
- add g,g,rT0; /* 2: temp1 = h + S1 */ \
- add rT3,rT3,w; /* 2: temp1' = ch + w */ \
- rotrwi rT0,h,2; /* 2: S0 = a rotr 2 */ \
- add g,g,rT3; /* 2: temp1 = temp1 + temp1' */ \
- rotrwi rT1,h,13; /* 2: S0' = a rotr 13 */ \
- add g,g,rT2; /* 2: temp1 = temp1 + K */ \
- rotrwi rT3,h,22; /* 2: S0" = a rotr 22 */ \
- xor rT0,rT0,rT1; /* 2: S0 = S0 xor S0' */ \
- or rT2,h,a; /* 2: maj = a or b */ \
- xor rT3,rT0,rT3; /* 2: S0 = S0 xor S0" */ \
- and rT1,h,a; /* 2: maj' = a and b */ \
- and rT2,rT2,b; /* 2: maj = maj and c */ \
- add c,c,g; /* 2: d = d + temp1 */ \
- or rT2,rT1,rT2; /* 2: maj = maj or maj' */ \
- add rT3,rT3,rT2; /* 2: temp2 = S0 + maj */ \
- add g,g,rT3 /* 2: h = temp1 + temp2 */
- #define R_CALC_W(a, b, c, d, e, f, g, h, w0, w1, w4, w5, w7, k, off) \
- rotrwi rT2,e,6; /* 1: S1 = e rotr 6 */ \
- evmergelohi rT0,w0,w1; /* w[-15] */ \
- rotrwi rT3,e,11; /* 1: S1' = e rotr 11 */ \
- evsrwiu rT1,rT0,3; /* s0 = w[-15] >> 3 */ \
- xor rT2,rT2,rT3; /* 1: S1 = S1 xor S1' */ \
- evrlwi rT0,rT0,25; /* s0' = w[-15] rotr 7 */ \
- rotrwi rT3,e,25; /* 1: S1' = e rotr 25 */ \
- evxor rT1,rT1,rT0; /* s0 = s0 xor s0' */ \
- xor rT2,rT2,rT3; /* 1: S1 = S1 xor S1' */ \
- evrlwi rT0,rT0,21; /* s0' = w[-15] rotr 18 */ \
- add h,h,rT2; /* 1: temp1 = h + S1 */ \
- evxor rT0,rT0,rT1; /* s0 = s0 xor s0' */ \
- and rT2,e,f; /* 1: ch = e and f */ \
- evaddw w0,w0,rT0; /* w = w[-16] + s0 */ \
- andc rT3,g,e; /* 1: ch' = ~e and g */ \
- evsrwiu rT0,w7,10; /* s1 = w[-2] >> 10 */ \
- xor rT2,rT2,rT3; /* 1: ch = ch xor ch' */ \
- evrlwi rT1,w7,15; /* s1' = w[-2] rotr 17 */ \
- add h,h,rT2; /* 1: temp1 = temp1 + ch */ \
- evxor rT0,rT0,rT1; /* s1 = s1 xor s1' */ \
- rotrwi rT2,a,2; /* 1: S0 = a rotr 2 */ \
- evrlwi rT1,w7,13; /* s1' = w[-2] rotr 19 */ \
- rotrwi rT3,a,13; /* 1: S0' = a rotr 13 */ \
- evxor rT0,rT0,rT1; /* s1 = s1 xor s1' */ \
- xor rT2,rT2,rT3; /* 1: S0 = S0 xor S0' */ \
- evldw rT1,off(rKP); /* k */ \
- rotrwi rT3,a,22; /* 1: S0' = a rotr 22 */ \
- evaddw w0,w0,rT0; /* w = w + s1 */ \
- xor rT2,rT2,rT3; /* 1: S0 = S0 xor S0' */ \
- evmergelohi rT0,w4,w5; /* w[-7] */ \
- and rT3,a,b; /* 1: maj = a and b */ \
- evaddw w0,w0,rT0; /* w = w + w[-7] */ \
- CMP_K##k##_LOOP \
- add rT2,rT2,rT3; /* 1: temp2 = S0 + maj */ \
- evaddw rT1,rT1,w0; /* wk = w + k */ \
- xor rT3,a,b; /* 1: maj = a xor b */ \
- evmergehi rT0,rT1,rT1; /* wk1/wk2 */ \
- and rT3,rT3,c; /* 1: maj = maj and c */ \
- add h,h,rT0; /* 1: temp1 = temp1 + wk */ \
- add rT2,rT2,rT3; /* 1: temp2 = temp2 + maj */ \
- add g,g,rT1; /* 2: temp1 = temp1 + wk */ \
- add d,d,h; /* 1: d = d + temp1 */ \
- rotrwi rT0,d,6; /* 2: S1 = e rotr 6 */ \
- add h,h,rT2; /* 1: h = temp1 + temp2 */ \
- rotrwi rT1,d,11; /* 2: S1' = e rotr 11 */ \
- rotrwi rT2,d,25; /* 2: S" = e rotr 25 */ \
- xor rT0,rT0,rT1; /* 2: S1 = S1 xor S1' */ \
- and rT3,d,e; /* 2: ch = e and f */ \
- xor rT0,rT0,rT2; /* 2: S1 = S1 xor S1" */ \
- andc rT1,f,d; /* 2: ch' = ~e and g */ \
- add g,g,rT0; /* 2: temp1 = h + S1 */ \
- xor rT3,rT3,rT1; /* 2: ch = ch xor ch' */ \
- rotrwi rT0,h,2; /* 2: S0 = a rotr 2 */ \
- add g,g,rT3; /* 2: temp1 = temp1 + ch */ \
- rotrwi rT1,h,13; /* 2: S0' = a rotr 13 */ \
- rotrwi rT3,h,22; /* 2: S0" = a rotr 22 */ \
- xor rT0,rT0,rT1; /* 2: S0 = S0 xor S0' */ \
- or rT2,h,a; /* 2: maj = a or b */ \
- and rT1,h,a; /* 2: maj' = a and b */ \
- and rT2,rT2,b; /* 2: maj = maj and c */ \
- xor rT3,rT0,rT3; /* 2: S0 = S0 xor S0" */ \
- or rT2,rT1,rT2; /* 2: maj = maj or maj' */ \
- add c,c,g; /* 2: d = d + temp1 */ \
- add rT3,rT3,rT2; /* 2: temp2 = S0 + maj */ \
- add g,g,rT3 /* 2: h = temp1 + temp2 */
- _GLOBAL(ppc_spe_sha256_transform)
- INITIALIZE
- mtctr r5
- lwz rH0,0(rHP)
- lwz rH1,4(rHP)
- lwz rH2,8(rHP)
- lwz rH3,12(rHP)
- lwz rH4,16(rHP)
- lwz rH5,20(rHP)
- lwz rH6,24(rHP)
- lwz rH7,28(rHP)
- ppc_spe_sha256_main:
- lis rKP,PPC_SPE_SHA256_K@ha
- addi rKP,rKP,PPC_SPE_SHA256_K@l
- R_LOAD_W(rH0, rH1, rH2, rH3, rH4, rH5, rH6, rH7, rW0, 0)
- R_LOAD_W(rH6, rH7, rH0, rH1, rH2, rH3, rH4, rH5, rW1, 8)
- R_LOAD_W(rH4, rH5, rH6, rH7, rH0, rH1, rH2, rH3, rW2, 16)
- R_LOAD_W(rH2, rH3, rH4, rH5, rH6, rH7, rH0, rH1, rW3, 24)
- R_LOAD_W(rH0, rH1, rH2, rH3, rH4, rH5, rH6, rH7, rW4, 32)
- R_LOAD_W(rH6, rH7, rH0, rH1, rH2, rH3, rH4, rH5, rW5, 40)
- R_LOAD_W(rH4, rH5, rH6, rH7, rH0, rH1, rH2, rH3, rW6, 48)
- R_LOAD_W(rH2, rH3, rH4, rH5, rH6, rH7, rH0, rH1, rW7, 56)
- ppc_spe_sha256_16_rounds:
- addi rKP,rKP,64
- R_CALC_W(rH0, rH1, rH2, rH3, rH4, rH5, rH6, rH7,
- rW0, rW1, rW4, rW5, rW7, N, 0)
- R_CALC_W(rH6, rH7, rH0, rH1, rH2, rH3, rH4, rH5,
- rW1, rW2, rW5, rW6, rW0, N, 8)
- R_CALC_W(rH4, rH5, rH6, rH7, rH0, rH1, rH2, rH3,
- rW2, rW3, rW6, rW7, rW1, N, 16)
- R_CALC_W(rH2, rH3, rH4, rH5, rH6, rH7, rH0, rH1,
- rW3, rW4, rW7, rW0, rW2, N, 24)
- R_CALC_W(rH0, rH1, rH2, rH3, rH4, rH5, rH6, rH7,
- rW4, rW5, rW0, rW1, rW3, N, 32)
- R_CALC_W(rH6, rH7, rH0, rH1, rH2, rH3, rH4, rH5,
- rW5, rW6, rW1, rW2, rW4, N, 40)
- R_CALC_W(rH4, rH5, rH6, rH7, rH0, rH1, rH2, rH3,
- rW6, rW7, rW2, rW3, rW5, N, 48)
- R_CALC_W(rH2, rH3, rH4, rH5, rH6, rH7, rH0, rH1,
- rW7, rW0, rW3, rW4, rW6, C, 56)
- bt gt,ppc_spe_sha256_16_rounds
- lwz rW0,0(rHP)
- NEXT_BLOCK
- lwz rW1,4(rHP)
- lwz rW2,8(rHP)
- lwz rW3,12(rHP)
- lwz rW4,16(rHP)
- lwz rW5,20(rHP)
- lwz rW6,24(rHP)
- lwz rW7,28(rHP)
- add rH0,rH0,rW0
- stw rH0,0(rHP)
- add rH1,rH1,rW1
- stw rH1,4(rHP)
- add rH2,rH2,rW2
- stw rH2,8(rHP)
- add rH3,rH3,rW3
- stw rH3,12(rHP)
- add rH4,rH4,rW4
- stw rH4,16(rHP)
- add rH5,rH5,rW5
- stw rH5,20(rHP)
- add rH6,rH6,rW6
- stw rH6,24(rHP)
- add rH7,rH7,rW7
- stw rH7,28(rHP)
- bdnz ppc_spe_sha256_main
- FINALIZE
- blr
- .data
- .align 5
- PPC_SPE_SHA256_K:
- .long 0x428a2f98,0x71374491,0xb5c0fbcf,0xe9b5dba5
- .long 0x3956c25b,0x59f111f1,0x923f82a4,0xab1c5ed5
- .long 0xd807aa98,0x12835b01,0x243185be,0x550c7dc3
- .long 0x72be5d74,0x80deb1fe,0x9bdc06a7,0xc19bf174
- .long 0xe49b69c1,0xefbe4786,0x0fc19dc6,0x240ca1cc
- .long 0x2de92c6f,0x4a7484aa,0x5cb0a9dc,0x76f988da
- .long 0x983e5152,0xa831c66d,0xb00327c8,0xbf597fc7
- .long 0xc6e00bf3,0xd5a79147,0x06ca6351,0x14292967
- .long 0x27b70a85,0x2e1b2138,0x4d2c6dfc,0x53380d13
- .long 0x650a7354,0x766a0abb,0x81c2c92e,0x92722c85
- .long 0xa2bfe8a1,0xa81a664b,0xc24b8b70,0xc76c51a3
- .long 0xd192e819,0xd6990624,0xf40e3585,0x106aa070
- .long 0x19a4c116,0x1e376c08,0x2748774c,0x34b0bcb5
- .long 0x391c0cb3,0x4ed8aa4a,0x5b9cca4f,0x682e6ff3
- .long 0x748f82ee,0x78a5636f,0x84c87814,0x8cc70208
- .long 0x90befffa,0xa4506ceb,0xbef9a3f7,0xc67178f2
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