| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/C/Firefox/security/nss/lib/freebl/ (Browser von der Mozilla Stiftung Version 136.0.1©) Datei vom 10.2.2025 mit Größe 22 kB |
|
Quelle ppc-gcm.s Sprache: Sparc |
|||||||||||||||
|
# This submission to NSS is to be made available under the terms of the # Mozilla Public License, v. 2.0. You can obtain one at //mozilla.org/MPL/2.0/ # Copyright(c) 2021, Niels Möller and Mamone Tarsha # Registers: .set SP, 1 .set TOCP, 2 .macro VEC_LOAD_DATA VR, DATA, GPR addis \GPR, 2, \DATA@got@ha ld \GPR, \DATA@got@l(\GPR) lvx \VR, 0, \GPR .endm .macro VEC_LOAD VR, GPR, IDX lxvd2x \VR+32, \IDX, \GPR vperm \VR, \VR, \VR, SWAP_MASK .endm .macro VEC_LOAD_INC VR, GPR, IDX lxvd2x \VR+32, \IDX, \GPR addi \IDX,\IDX,16 vperm \VR, \VR, \VR, SWAP_MASK .endm .macro VEC_STORE VR, GPR, IDX vperm \VR, \VR, \VR, SWAP_MASK stxvd2x \VR+32, \IDX, \GPR .endm # 0 < LEN < 16, pad the remaining bytes with zeros .macro LOAD_LEN DATA, LEN, VAL1, VAL0, TMP0, TMP1, TMP2 li \TMP0, 0 li \VAL1, 0 li \VAL0, 0 andi. \TMP1, \LEN, 8 beq 1f ldbrx \VAL1, 0, \DATA li \TMP0, 8 1: andi. \TMP1, \LEN, 7 beq 3f li \TMP1, 56 2: lbzx \TMP2, \TMP0, \DATA sld \TMP2, \TMP2, \TMP1 subi \TMP1, \TMP1, 8 or \VAL0, \VAL0, \TMP2 addi \TMP0, \TMP0, 1 cmpld \TMP0, \LEN bne 2b andi. \TMP1, \LEN, 8 bne 3f mr \VAL1, \VAL0 li \VAL0, 0 3: .endm # 0 < LEN < 16 .macro STORE_LEN DATA, LEN, VAL1, VAL0, TMP0, TMP1, TMP2 andi. \TMP1, \LEN, 8 beq 1f stdbrx \VAL1, 0, \DATA li \TMP0, 8 b 2f 1: li \TMP0, 0 mr \VAL0, \VAL1 2: andi. \TMP1, \LEN, 7 beq 4f li \TMP1, 56 3: srd \TMP2, \VAL0, \TMP1 subi \TMP1, \TMP1, 8 stbx \TMP2, \TMP0, \DATA addi \TMP0, \TMP0, 1 cmpld \TMP0, \LEN bne 3b 4: .endm .text ################################################################################ # Generates the H table # void ppc_aes_gcmINIT(uint8_t Htbl[16*8], uint32_t *KS, int NR); .globl ppc_aes_gcmINIT .type ppc_aes_gcmINIT,@function .align 5 ppc_aes_gcmINIT: addis TOCP,12,(.TOC.-ppc_aes_gcmINIT)@ha addi TOCP,TOCP,(.TOC.-ppc_aes_gcmINIT)@l .localentry ppc_aes_gcmINIT, .-ppc_aes_gcmINIT .set Htbl, 3 .set KS, 4 .set NR, 5 .set ZERO, 19 .set MSB, 18 .set ONE, 17 .set SWAP_MASK, 0 .set POLY, 1 .set K, 2 .set H, 3 .set H2, 4 .set H3, 5 .set H4, 6 .set HP, 7 .set HS, 8 .set R, 9 .set F, 10 .set T, 11 .set H1M, 12 .set H1L, 13 .set H2M, 14 .set H2L, 15 .set H3M, 16 .set H3L, 17 .set H4M, 18 .set H4L, 19 VEC_LOAD_DATA SWAP_MASK, .Ldb_bswap_mask, 6 VEC_LOAD_DATA POLY, .Lpoly, 6 li 6, 0 VEC_LOAD_INC H, KS, 6 VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K cmpwi NR, 10 beq .LH_done VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K cmpwi NR, 12 beq .LH_done VEC_LOAD_INC K, KS, 6 vcipher H, H, K VEC_LOAD_INC K, KS, 6 vcipher H, H, K .LH_done: VEC_LOAD K, KS, 6 vcipherlast H, H, K vupkhsb MSB, H vspltisb ONE, 1 vspltb MSB, MSB, 0 vsl H, H, ONE vand MSB, MSB, POLY vxor ZERO, ZERO, ZERO vxor H, H, MSB vsldoi POLY, ZERO, POLY, 8 vpmsumd HP, H, POLY vsldoi HS, H, H, 8 vxor HP, HP, HS vsldoi H1L, HP, HS, 8 vsldoi H1M, HS, HP, 8 vsldoi H1L, H1L, H1L, 8 # calculate H^2 vpmsumd F, H, H1L vpmsumd R, H, H1M vpmsumd T, F, POLY vsldoi H2, F, F, 8 vxor R, R, T vxor H2, H2, R vpmsumd HP, H2, POLY vsldoi HS, H2, H2, 8 vxor HP, HP, HS vsldoi H2L, HP, HS, 8 vsldoi H2M, HS, HP, 8 vsldoi H2L, H2L, H2L, 8 # calculate H^3 vpmsumd F, H2, H1L vpmsumd R, H2, H1M vpmsumd T, F, POLY vsldoi H3, F, F, 8 vxor R, R, T vxor H3, H3, R vpmsumd HP, H3, POLY vsldoi HS, H3, H3, 8 vxor HP, HP, HS vsldoi H3L, HP, HS, 8 vsldoi H3M, HS, HP, 8 vsldoi H3L, H3L, H3L, 8 # calculate H^4 vpmsumd F, H2, H2L vpmsumd R, H2, H2M vpmsumd T, F, POLY vsldoi H4, F, F, 8 vxor R, R, T vxor H4, H4, R vpmsumd HP, H4, POLY vsldoi HS, H4, H4, 8 vxor HP, HP, HS vsldoi H4L, HP, HS, 8 vsldoi H4M, HS, HP, 8 vsldoi H4L, H4L, H4L, 8 li 8, 16*1 li 9, 16*2 li 10, 16*3 stxvd2x H1L+32, 0, Htbl stxvd2x H1M+32, 8, Htbl stxvd2x H2L+32, 9, Htbl stxvd2x H2M+32, 10, Htbl li 7, 16*4 li 8, 16*5 li 9, 16*6 li 10, 16*7 stxvd2x H3L+32, 7, Htbl stxvd2x H3M+32, 8, Htbl stxvd2x H4L+32, 9, Htbl stxvd2x H4M+32, 10, Htbl blr .size ppc_aes_gcmINIT, . - ppc_aes_gcmINIT ################################################################################ # Authenticate only # void ppc_aes_gcmHASH(uint8_t Htbl[16*8], uint8_t *AAD, uint64_t Alen, uint8_t *Tp); .globl ppc_aes_gcmHASH .type ppc_aes_gcmHASH,@function .align 5 ppc_aes_gcmHASH: addis TOCP,12,(.TOC.-ppc_aes_gcmHASH)@ha addi TOCP,TOCP,(.TOC.-ppc_aes_gcmHASH)@l .localentry ppc_aes_gcmHASH, .-ppc_aes_gcmHASH .set Htbl, 3 .set AAD, 4 .set Alen, 5 .set Tp, 6 .set SWAP_MASK, 0 .set POLY, 1 .set D, 2 .set C0, 3 .set C1, 4 .set C2, 5 .set C3, 6 .set T, 7 .set R, 8 .set F, 9 .set R2, 10 .set F2, 11 .set R3, 12 .set F3, 13 .set R4, 14 .set F4, 15 .set H1M, 16 .set H1L, 17 .set H2M, 18 .set H2L, 19 .set H3M, 28 .set H3L, 29 .set H4M, 30 .set H4L, 31 # store non-volatile vector registers addi 7, SP, -16 stvx 31, 0, 7 addi 7, SP, -32 stvx 30, 0, 7 addi 7, SP, -48 stvx 29, 0, 7 addi 7, SP, -64 stvx 28, 0, 7 VEC_LOAD_DATA SWAP_MASK, .Ldb_bswap_mask, 7 VEC_LOAD_DATA POLY, .Lpoly_r, 7 VEC_LOAD D, Tp, 0 # --- process 4 blocks --- srdi. 7, Alen, 6 # 4-blocks loop count beq .L2x mtctr 7 # set counter register # load table elements li 8, 1*16 li 9, 2*16 li 10, 3*16 lxvd2x H1L+32, 0, Htbl lxvd2x H1M+32, 8, Htbl lxvd2x H2L+32, 9, Htbl lxvd2x H2M+32, 10, Htbl li 7, 4*16 li 8, 5*16 li 9, 6*16 li 10, 7*16 lxvd2x H3L+32, 7, Htbl lxvd2x H3M+32, 8, Htbl lxvd2x H4L+32, 9, Htbl lxvd2x H4M+32, 10, Htbl li 8, 0x10 li 9, 0x20 li 10, 0x30 .align 5 .L4x_loop: # load input lxvd2x C0+32, 0, AAD lxvd2x C1+32, 8, AAD lxvd2x C2+32, 9, AAD lxvd2x C3+32, 10, AAD vperm C0, C0, C0, SWAP_MASK vperm C1, C1, C1, SWAP_MASK vperm C2, C2, C2, SWAP_MASK vperm C3, C3, C3, SWAP_MASK # digest combining vxor C0, C0, D # polynomial multiplication vpmsumd F2, H3L, C1 vpmsumd R2, H3M, C1 vpmsumd F3, H2L, C2 vpmsumd R3, H2M, C2 vpmsumd F4, H1L, C3 vpmsumd R4, H1M, C3 vpmsumd F, H4L, C0 vpmsumd R, H4M, C0 # deferred recombination of partial products vxor F3, F3, F4 vxor R3, R3, R4 vxor F, F, F2 vxor R, R, R2 vxor F, F, F3 vxor R, R, R3 # reduction vpmsumd T, F, POLY vsldoi D, F, F, 8 vxor R, R, T vxor D, R, D addi AAD, AAD, 0x40 bdnz .L4x_loop clrldi Alen, Alen, 58 .L2x: # --- process 2 blocks --- srdi. 7, Alen, 5 beq .L1x # load table elements li 8, 1*16 li 9, 2*16 li 10, 3*16 lxvd2x H1L+32, 0, Htbl lxvd2x H1M+32, 8, Htbl lxvd2x H2L+32, 9, Htbl lxvd2x H2M+32, 10, Htbl # load input li 10, 0x10 lxvd2x C0+32, 0, AAD lxvd2x C1+32, 10, AAD vperm C0, C0, C0, SWAP_MASK vperm C1, C1, C1, SWAP_MASK # previous digest combining vxor C0, C0, D # polynomial multiplication vpmsumd F2, H1L, C1 vpmsumd R2, H1M, C1 vpmsumd F, H2L, C0 vpmsumd R, H2M, C0 # deferred recombination of partial products vxor F, F, F2 vxor R, R, R2 # reduction vpmsumd T, F, POLY vsldoi D, F, F, 8 vxor R, R, T vxor D, R, D addi AAD, AAD, 0x20 clrldi Alen, Alen, 59 .L1x: # --- process 1 block --- srdi. 7, Alen, 4 beq .Ltail # load table elements li 8, 1*16 lxvd2x H1L+32, 0, Htbl lxvd2x H1M+32, 8, Htbl # load input lxvd2x C0+32, 0, AAD vperm C0, C0, C0, SWAP_MASK # previous digest combining vxor C0, C0, D # polynomial multiplication vpmsumd F, H1L, C0 vpmsumd R, H1M, C0 # reduction vpmsumd T, F, POLY vsldoi D, F, F, 8 vxor R, R, T vxor D, R, D addi AAD, AAD, 0x10 clrldi Alen, Alen, 60 .Ltail: cmpldi Alen, 0 beq .Lh_done # --- process the final partial block --- # load table elements li 8, 1*16 lxvd2x H1L+32, 0, Htbl lxvd2x H1M+32, 8, Htbl LOAD_LEN AAD, Alen, 10, 9, 3, 7, 8 mtvrd C0, 10 mtvrd C1, 9 xxmrghd C0+32, C0+32, C1+32 # previous digest combining vxor C0, C0, D # polynomial multiplication vpmsumd F, H1L, C0 vpmsumd R, H1M, C0 # reduction vpmsumd T, F, POLY vsldoi D, F, F, 8 vxor R, R, T vxor D, R, D .Lh_done: VEC_STORE D, Tp, 0 # restore non-volatile vector registers addi 7, SP, -16 lvx 31, 0, 7 addi 7, SP, -32 lvx 30, 0, 7 addi 7, SP, -48 lvx 29, 0, 7 addi 7, SP, -64 lvx 28, 0, 7 blr .size ppc_aes_gcmHASH, . - ppc_aes_gcmHASH ################################################################################ # Generates the final GCM tag # void ppc_aes_gcmTAG(uint8_t Htbl[16*8], uint8_t *Tp, uint64_t Mlen, uint64_t Alen, uint8 .globl ppc_aes_gcmTAG .type ppc_aes_gcmTAG,@function .align 5 ppc_aes_gcmTAG: addis TOCP,12,(.TOC.-ppc_aes_gcmTAG)@ha addi TOCP,TOCP,(.TOC.-ppc_aes_gcmTAG)@l .localentry ppc_aes_gcmTAG, .-ppc_aes_gcmTAG .set Htbl, 3 .set Tp, 4 .set Mlen, 5 .set Alen, 6 .set X0, 7 .set TAG, 8 .set SWAP_MASK, 0 .set POLY, 1 .set D, 2 .set C0, 3 .set C1, 4 .set T, 5 .set R, 6 .set F, 7 .set H1M, 8 .set H1L, 9 .set X, 10 VEC_LOAD_DATA SWAP_MASK, .Ldb_bswap_mask, 9 VEC_LOAD_DATA POLY, .Lpoly_r, 9 VEC_LOAD D, Tp, 0 # load table elements li 9, 1*16 lxvd2x H1L+32, 0, Htbl lxvd2x H1M+32, 9, Htbl sldi Alen, Alen, 3 sldi Mlen, Mlen, 3 mtvrd C0, Alen mtvrd C1, Mlen xxmrghd C0+32, C0+32, C1+32 # previous digest combining vxor C0, C0, D # polynomial multiplication vpmsumd F, H1L, C0 vpmsumd R, H1M, C0 # reduction vpmsumd T, F, POLY vsldoi D, F, F, 8 vxor R, R, T vxor D, R, D lxvd2x X+32, 0, X0 vperm D, D, D, SWAP_MASK vxor X, X, D stxvd2x X+32, 0, TAG blr .size ppc_aes_gcmTAG, . - ppc_aes_gcmTAG ################################################################################ # Crypt only # void ppc_aes_gcmCRYPT(const uint8_t* PT, uint8_t* CT, uint64_t LEN, uint8_t *CTRP, uint32 .globl ppc_aes_gcmCRYPT .type ppc_aes_gcmCRYPT,@function .align 5 ppc_aes_gcmCRYPT: addis TOCP,12,(.TOC.-ppc_aes_gcmCRYPT)@ha addi TOCP,TOCP,(.TOC.-ppc_aes_gcmCRYPT)@l .localentry ppc_aes_gcmCRYPT, .-ppc_aes_gcmCRYPT .set PT, 3 .set CT, 4 .set LEN, 5 .set CTRP, 6 .set KS, 7 .set NR, 8 .set SWAP_MASK, 0 .set K, 1 .set CTR, 2 .set CTR0, 3 .set CTR1, 4 .set CTR2, 5 .set CTR3, 6 .set CTR4, 7 .set CTR5, 8 .set CTR6, 9 .set CTR7, 10 .set ZERO, 11 .set I1, 12 .set I2, 13 .set I3, 14 .set I4, 15 .set I5, 16 .set I6, 17 .set I7, 18 .set I8, 19 .set IN0, 24 .set IN1, 25 .set IN2, 26 .set IN3, 27 .set IN4, 28 .set IN5, 29 .set IN6, 30 .set IN7, 31 .macro ROUND_8 VEC_LOAD_INC K, KS, 10 vcipher CTR0, CTR0, K vcipher CTR1, CTR1, K vcipher CTR2, CTR2, K vcipher CTR3, CTR3, K vcipher CTR4, CTR4, K vcipher CTR5, CTR5, K vcipher CTR6, CTR6, K vcipher CTR7, CTR7, K .endm .macro ROUND_4 VEC_LOAD_INC K, KS, 10 vcipher CTR0, CTR0, K vcipher CTR1, CTR1, K vcipher CTR2, CTR2, K vcipher CTR3, CTR3, K .endm .macro ROUND_2 VEC_LOAD_INC K, KS, 10 vcipher CTR0, CTR0, K vcipher CTR1, CTR1, K .endm .macro ROUND_1 VEC_LOAD_INC K, KS, 10 vcipher CTR0, CTR0, K .endm # store non-volatile general registers std 31,-8(SP); std 30,-16(SP); std 29,-24(SP); std 28,-32(SP); std 27,-40(SP); std 26,-48(SP); std 25,-56(SP); # store non-volatile vector registers addi 9, SP, -80 stvx 31, 0, 9 addi 9, SP, -96 stvx 30, 0, 9 addi 9, SP, -112 stvx 29, 0, 9 addi 9, SP, -128 stvx 28, 0, 9 addi 9, SP, -144 stvx 27, 0, 9 addi 9, SP, -160 stvx 26, 0, 9 addi 9, SP, -176 stvx 25, 0, 9 addi 9, SP, -192 stvx 24, 0, 9 VEC_LOAD_DATA SWAP_MASK, .Ldb_bswap_mask, 9 vxor ZERO, ZERO, ZERO vspltisb I1, 1 vspltisb I2, 2 vspltisb I3, 3 vspltisb I4, 4 vspltisb I5, 5 vspltisb I6, 6 vspltisb I7, 7 vspltisb I8, 8 vsldoi I1, ZERO, I1, 1 vsldoi I2, ZERO, I2, 1 vsldoi I3, ZERO, I3, 1 vsldoi I4, ZERO, I4, 1 vsldoi I5, ZERO, I5, 1 vsldoi I6, ZERO, I6, 1 vsldoi I7, ZERO, I7, 1 vsldoi I8, ZERO, I8, 1 VEC_LOAD CTR, CTRP, 0 srdi. 9, LEN, 7 beq .Lctr_4x mtctr 9 li 25, 0x10 li 26, 0x20 li 27, 0x30 li 28, 0x40 li 29, 0x50 li 30, 0x60 li 31, 0x70 .align 5 .L8x_loop: li 10, 0 VEC_LOAD_INC K, KS, 10 vadduwm CTR1, CTR, I1 vadduwm CTR2, CTR, I2 vadduwm CTR3, CTR, I3 vadduwm CTR4, CTR, I4 vadduwm CTR5, CTR, I5 vadduwm CTR6, CTR, I6 vadduwm CTR7, CTR, I7 vxor CTR0, CTR, K vxor CTR1, CTR1, K vxor CTR2, CTR2, K vxor CTR3, CTR3, K vxor CTR4, CTR4, K vxor CTR5, CTR5, K vxor CTR6, CTR6, K vxor CTR7, CTR7, K ROUND_8 ROUND_8 ROUND_8 ROUND_8 ROUND_8 ROUND_8 ROUND_8 ROUND_8 ROUND_8 cmpwi NR, 10 beq .Llast_8 ROUND_8 ROUND_8 cmpwi NR, 12 beq .Llast_8 ROUND_8 ROUND_8 .Llast_8: VEC_LOAD K, KS, 10 vcipherlast CTR0, CTR0, K vcipherlast CTR1, CTR1, K vcipherlast CTR2, CTR2, K vcipherlast CTR3, CTR3, K vcipherlast CTR4, CTR4, K vcipherlast CTR5, CTR5, K vcipherlast CTR6, CTR6, K vcipherlast CTR7, CTR7, K lxvd2x IN0+32, 0, PT lxvd2x IN1+32, 25, PT lxvd2x IN2+32, 26, PT lxvd2x IN3+32, 27, PT lxvd2x IN4+32, 28, PT lxvd2x IN5+32, 29, PT lxvd2x IN6+32, 30, PT lxvd2x IN7+32, 31, PT vperm CTR0, CTR0, CTR0, SWAP_MASK vperm CTR1, CTR1, CTR1, SWAP_MASK vperm CTR2, CTR2, CTR2, SWAP_MASK vperm CTR3, CTR3, CTR3, SWAP_MASK vperm CTR4, CTR4, CTR4, SWAP_MASK vperm CTR5, CTR5, CTR5, SWAP_MASK vperm CTR6, CTR6, CTR6, SWAP_MASK vperm CTR7, CTR7, CTR7, SWAP_MASK vxor IN0, IN0, CTR0 vxor IN1, IN1, CTR1 vxor IN2, IN2, CTR2 vxor IN3, IN3, CTR3 vxor IN4, IN4, CTR4 vxor IN5, IN5, CTR5 vxor IN6, IN6, CTR6 vxor IN7, IN7, CTR7 stxvd2x IN0+32, 0, CT stxvd2x IN1+32, 25, CT stxvd2x IN2+32, 26, CT stxvd2x IN3+32, 27, CT stxvd2x IN4+32, 28, CT stxvd2x IN5+32, 29, CT stxvd2x IN6+32, 30, CT stxvd2x IN7+32, 31, CT vadduwm CTR, CTR, I8 addi PT, PT, 0x80 addi CT, CT, 0x80 bdnz .L8x_loop clrldi LEN, LEN, 57 .Lctr_4x: srdi. 9, LEN, 6 beq .Lctr_2x li 10, 0 li 29, 0x10 li 30, 0x20 li 31, 0x30 VEC_LOAD_INC K, KS, 10 vadduwm CTR1, CTR, I1 vadduwm CTR2, CTR, I2 vadduwm CTR3, CTR, I3 vxor CTR0, CTR, K vxor CTR1, CTR1, K vxor CTR2, CTR2, K vxor CTR3, CTR3, K ROUND_4 ROUND_4 ROUND_4 ROUND_4 ROUND_4 ROUND_4 ROUND_4 ROUND_4 ROUND_4 cmpwi NR, 10 beq .Llast_4 ROUND_4 ROUND_4 cmpwi NR, 12 beq .Llast_4 ROUND_4 ROUND_4 .Llast_4: VEC_LOAD K, KS, 10 vcipherlast CTR0, CTR0, K vcipherlast CTR1, CTR1, K vcipherlast CTR2, CTR2, K vcipherlast CTR3, CTR3, K lxvd2x IN0+32, 0, PT lxvd2x IN1+32, 29, PT lxvd2x IN2+32, 30, PT lxvd2x IN3+32, 31, PT vperm CTR0, CTR0, CTR0, SWAP_MASK vperm CTR1, CTR1, CTR1, SWAP_MASK vperm CTR2, CTR2, CTR2, SWAP_MASK vperm CTR3, CTR3, CTR3, SWAP_MASK vxor IN0, IN0, CTR0 vxor IN1, IN1, CTR1 vxor IN2, IN2, CTR2 vxor IN3, IN3, CTR3 stxvd2x IN0+32, 0, CT stxvd2x IN1+32, 29, CT stxvd2x IN2+32, 30, CT stxvd2x IN3+32, 31, CT vadduwm CTR, CTR, I4 addi PT, PT, 0x40 addi CT, CT, 0x40 clrldi LEN, LEN, 58 .Lctr_2x: srdi. 9, LEN, 5 beq .Lctr_1x li 10, 0 li 31, 0x10 VEC_LOAD_INC K, KS, 10 vadduwm CTR1, CTR, I1 vxor CTR0, CTR, K vxor CTR1, CTR1, K ROUND_2 ROUND_2 ROUND_2 ROUND_2 ROUND_2 ROUND_2 ROUND_2 ROUND_2 ROUND_2 cmpwi NR, 10 beq .Llast_2 ROUND_2 ROUND_2 cmpwi NR, 12 beq .Llast_2 ROUND_2 ROUND_2 .Llast_2: VEC_LOAD K, KS, 10 vcipherlast CTR0, CTR0, K vcipherlast CTR1, CTR1, K lxvd2x IN0+32, 0, PT lxvd2x IN1+32, 31, PT vperm CTR0, CTR0, CTR0, SWAP_MASK vperm CTR1, CTR1, CTR1, SWAP_MASK vxor IN0, IN0, CTR0 vxor IN1, IN1, CTR1 stxvd2x IN0+32, 0, CT stxvd2x IN1+32, 31, CT vadduwm CTR, CTR, I2 addi PT, PT, 0x20 addi CT, CT, 0x20 clrldi LEN, LEN, 59 .Lctr_1x: srdi. 9, LEN, 4 beq .Lctr_tail li 10, 0 VEC_LOAD_INC K, KS, 10 vxor CTR0, CTR, K ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 cmpwi NR, 10 beq .Llast_1 ROUND_1 ROUND_1 cmpwi NR, 12 beq .Llast_1 ROUND_1 ROUND_1 .Llast_1: VEC_LOAD K, KS, 10 vcipherlast CTR0, CTR0, K lxvd2x IN0+32, 0, PT vperm CTR0, CTR0, CTR0, SWAP_MASK vxor IN0, IN0, CTR0 stxvd2x IN0+32, 0, CT vadduwm CTR, CTR, I1 addi PT, PT, 0x10 addi CT, CT, 0x10 clrldi LEN, LEN, 60 .Lctr_tail: cmpldi LEN, 0 beq .Lc_done li 10, 0 VEC_LOAD_INC K, KS, 10 vxor CTR0, CTR, K ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 ROUND_1 cmpwi NR, 10 beq .Llast_tail ROUND_1 ROUND_1 cmpwi NR, 12 beq .Llast_tail ROUND_1 ROUND_1 .Llast_tail: VEC_LOAD K, KS, 10 vcipherlast CTR0, CTR0, K LOAD_LEN PT, LEN, 10, 9, 29, 30, 31 vsldoi CTR1, CTR0, CTR0, 8 mfvrd 31, CTR0 mfvrd 30, CTR1 xor 10, 10, 31 xor 9, 9, 30 STORE_LEN CT, LEN, 10, 9, 29, 30, 31 vadduwm CTR, CTR, I1 .Lc_done: VEC_STORE CTR, CTRP, 0 # restore non-volatile vector registers addi 9, SP, -80 lvx 31, 0, 9 addi 9, SP, -96 lvx 30, 0, 9 addi 9, SP, -112 lvx 29, 0, 9 addi 9, SP, -128 lvx 28, 0, 9 addi 9, SP, -144 lvx 27, 0, 9 addi 9, SP, -160 lvx 26, 0, 9 addi 9, SP, -176 lvx 25, 0, 9 addi 9, SP, -192 lvx 24, 0, 9 # restore non-volatile general registers ld 31,-8(SP); ld 30,-16(SP); ld 29,-24(SP); ld 28,-32(SP); ld 27,-40(SP); ld 26,-48(SP); ld 25,-56(SP); blr .size ppc_aes_gcmCRYPT, . - ppc_aes_gcmCRYPT .data .align 4 .Lpoly: .byte 1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0xc2 .Lpoly_r: .byte 0,0,0,0,0,0,0,0xc2,0,0,0,0,0,0,0,0 .Ldb_bswap_mask: .byte 8,9,10,11,12,13,14,15,0,1,2,3,4,5,6,7
¤ Dauer der Verarbeitung: 0.8 Sekunden ¤*© Formatika GbR, Deutschland |
|
||||||||||||||
2026-04-04