/* Do not modify. This file is auto-generated from ghashv8-armx.pl. */ #include "arm_arch.h" #if __ARM_MAX_ARCH__>=7 .text .fpu neon .code 32 #undef __thumb2__ .globl gcm_init_v8 .type gcm_init_v8,%function .align 4 gcm_init_v8: vld1.64 {q9},[r1] @ load input H vmov.i8 q11,#0xe1 vshl.i64 q11,q11,#57 @ 0xc2.0 vext.8 q3,q9,q9,#8 vshr.u64 q10,q11,#63 vdup.32 q9,d18[1] vext.8 q8,q10,q11,#8 @ t0=0xc2....01 vshr.u64 q10,q3,#63 vshr.s32 q9,q9,#31 @ broadcast carry bit vand q10,q10,q8 vshl.i64 q3,q3,#1 vext.8 q10,q10,q10,#8 vand q8,q8,q9 vorr q3,q3,q10 @ H<<<=1 veor q12,q3,q8 @ twisted H vst1.64 {q12},[r0]! @ store Htable[0] @ calculate H^2 vext.8 q8,q12,q12,#8 @ Karatsuba pre-processing .byte 0xa8,0x0e,0xa8,0xf2 @ pmull q0,q12,q12 veor q8,q8,q12 .byte 0xa9,0x4e,0xa9,0xf2 @ pmull2 q2,q12,q12 .byte 0xa0,0x2e,0xa0,0xf2 @ pmull q1,q8,q8 vext.8 q9,q0,q2,#8 @ Karatsuba post-processing veor q10,q0,q2 veor q1,q1,q9 veor q1,q1,q10 .byte 0x26,0x4e,0xe0,0xf2 @ pmull q10,q0,q11 @ 1st phase vmov d4,d3 @ Xh|Xm - 256-bit result vmov d3,d0 @ Xm is rotated Xl veor q0,q1,q10 vext.8 q10,q0,q0,#8 @ 2nd phase .byte 0x26,0x0e,0xa0,0xf2 @ pmull q0,q0,q11 veor q10,q10,q2 veor q14,q0,q10 vext.8 q9,q14,q14,#8 @ Karatsuba pre-processing veor q9,q9,q14 vext.8 q13,q8,q9,#8 @ pack Karatsuba pre-processed vst1.64 {q13,q14},[r0]! @ store Htable[1..2] bx lr .size gcm_init_v8,.-gcm_init_v8 .globl gcm_gmult_v8 .type gcm_gmult_v8,%function .align 4 gcm_gmult_v8: vld1.64 {q9},[r0] @ load Xi vmov.i8 q11,#0xe1 vld1.64 {q12,q13},[r1] @ load twisted H, ... vshl.u64 q11,q11,#57 #ifndef __ARMEB__ vrev64.8 q9,q9 #endif vext.8 q3,q9,q9,#8 .byte 0x86,0x0e,0xa8,0xf2 @ pmull q0,q12,q3 @ H.lo·Xi.lo veor q9,q9,q3 @ Karatsuba pre-processing .byte 0x87,0x4e,0xa9,0xf2 @ pmull2 q2,q12,q3 @ H.hi·Xi.hi .byte 0xa2,0x2e,0xaa,0xf2 @ pmull q1,q13,q9 @ (H.lo+H.hi)·(Xi.lo+Xi.hi) vext.8 q9,q0,q2,#8 @ Karatsuba post-processing veor q10,q0,q2 veor q1,q1,q9 veor q1,q1,q10 .byte 0x26,0x4e,0xe0,0xf2 @ pmull q10,q0,q11 @ 1st phase of reduction vmov d4,d3 @ Xh|Xm - 256-bit result vmov d3,d0 @ Xm is rotated Xl veor q0,q1,q10 vext.8 q10,q0,q0,#8 @ 2nd phase of reduction .byte 0x26,0x0e,0xa0,0xf2 @ pmull q0,q0,q11 veor q10,q10,q2 veor q0,q0,q10 #ifndef __ARMEB__ vrev64.8 q0,q0 #endif vext.8 q0,q0,q0,#8 vst1.64 {q0},[r0] @ write out Xi bx lr .size gcm_gmult_v8,.-gcm_gmult_v8 .globl gcm_ghash_v8 .type gcm_ghash_v8,%function .align 4 gcm_ghash_v8: vstmdb sp!,{d8,d9,d10,d11,d12,d13,d14,d15} @ 32-bit ABI says so vld1.64 {q0},[r0] @ load [rotated] Xi @ "[rotated]" means that @ loaded value would have @ to be rotated in order to @ make it appear as in @ algorithm specification subs r3,r3,#32 @ see if r3 is 32 or larger mov r12,#16 @ r12 is used as post- @ increment for input pointer; @ as loop is modulo-scheduled @ r12 is zeroed just in time @ to preclude overstepping @ inp[len], which means that @ last block[s] are actually @ loaded twice, but last @ copy is not processed vld1.64 {q12,q13},[r1]! @ load twisted H, ..., H^2 vmov.i8 q11,#0xe1 vld1.64 {q14},[r1] moveq r12,#0 @ is it time to zero r12? vext.8 q0,q0,q0,#8 @ rotate Xi vld1.64 {q8},[r2]! @ load [rotated] I[0] vshl.u64 q11,q11,#57 @ compose 0xc2.0 constant #ifndef __ARMEB__ vrev64.8 q8,q8 vrev64.8 q0,q0 #endif vext.8 q3,q8,q8,#8 @ rotate I[0] blo .Lodd_tail_v8 @ r3 was less than 32 vld1.64 {q9},[r2],r12 @ load [rotated] I[1] #ifndef __ARMEB__ vrev64.8 q9,q9 #endif vext.8 q7,q9,q9,#8 veor q3,q3,q0 @ I[i]^=Xi .byte 0x8e,0x8e,0xa8,0xf2 @ pmull q4,q12,q7 @ H·Ii+1 veor q9,q9,q7 @ Karatsuba pre-processing .byte 0x8f,0xce,0xa9,0xf2 @ pmull2 q6,q12,q7 b .Loop_mod2x_v8 .align 4 .Loop_mod2x_v8: vext.8 q10,q3,q3,#8 subs r3,r3,#32 @ is there more data? .byte 0x86,0x0e,0xac,0xf2 @ pmull q0,q14,q3 @ H^2.lo·Xi.lo movlo r12,#0 @ is it time to zero r12? .byte 0xa2,0xae,0xaa,0xf2 @ pmull q5,q13,q9 veor q10,q10,q3 @ Karatsuba pre-processing .byte 0x87,0x4e,0xad,0xf2 @ pmull2 q2,q14,q3 @ H^2.hi·Xi.hi veor q0,q0,q4 @ accumulate .byte 0xa5,0x2e,0xab,0xf2 @ pmull2 q1,q13,q10 @ (H^2.lo+H^2.hi)·(Xi.lo+Xi.hi) vld1.64 {q8},[r2],r12 @ load [rotated] I[i+2] veor q2,q2,q6 moveq r12,#0 @ is it time to zero r12? veor q1,q1,q5 vext.8 q9,q0,q2,#8 @ Karatsuba post-processing veor q10,q0,q2 veor q1,q1,q9 vld1.64 {q9},[r2],r12 @ load [rotated] I[i+3] #ifndef __ARMEB__ vrev64.8 q8,q8 #endif veor q1,q1,q10 .byte 0x26,0x4e,0xe0,0xf2 @ pmull q10,q0,q11 @ 1st phase of reduction #ifndef __ARMEB__ vrev64.8 q9,q9 #endif vmov d4,d3 @ Xh|Xm - 256-bit result vmov d3,d0 @ Xm is rotated Xl vext.8 q7,q9,q9,#8 vext.8 q3,q8,q8,#8 veor q0,q1,q10 .byte 0x8e,0x8e,0xa8,0xf2 @ pmull q4,q12,q7 @ H·Ii+1 veor q3,q3,q2 @ accumulate q3 early vext.8 q10,q0,q0,#8 @ 2nd phase of reduction .byte 0x26,0x0e,0xa0,0xf2 @ pmull q0,q0,q11 veor q3,q3,q10 veor q9,q9,q7 @ Karatsuba pre-processing veor q3,q3,q0 .byte 0x8f,0xce,0xa9,0xf2 @ pmull2 q6,q12,q7 bhs .Loop_mod2x_v8 @ there was at least 32 more bytes veor q2,q2,q10 vext.8 q3,q8,q8,#8 @ re-construct q3 adds r3,r3,#32 @ re-construct r3 veor q0,q0,q2 @ re-construct q0 beq .Ldone_v8 @ is r3 zero? .Lodd_tail_v8: vext.8 q10,q0,q0,#8 veor q3,q3,q0 @ inp^=Xi veor q9,q8,q10 @ q9 is rotated inp^Xi .byte 0x86,0x0e,0xa8,0xf2 @ pmull q0,q12,q3 @ H.lo·Xi.lo veor q9,q9,q3 @ Karatsuba pre-processing .byte 0x87,0x4e,0xa9,0xf2 @ pmull2 q2,q12,q3 @ H.hi·Xi.hi .byte 0xa2,0x2e,0xaa,0xf2 @ pmull q1,q13,q9 @ (H.lo+H.hi)·(Xi.lo+Xi.hi) vext.8 q9,q0,q2,#8 @ Karatsuba post-processing veor q10,q0,q2 veor q1,q1,q9 veor q1,q1,q10 .byte 0x26,0x4e,0xe0,0xf2 @ pmull q10,q0,q11 @ 1st phase of reduction vmov d4,d3 @ Xh|Xm - 256-bit result vmov d3,d0 @ Xm is rotated Xl veor q0,q1,q10 vext.8 q10,q0,q0,#8 @ 2nd phase of reduction .byte 0x26,0x0e,0xa0,0xf2 @ pmull q0,q0,q11 veor q10,q10,q2 veor q0,q0,q10 .Ldone_v8: #ifndef __ARMEB__ vrev64.8 q0,q0 #endif vext.8 q0,q0,q0,#8 vst1.64 {q0},[r0] @ write out Xi vldmia sp!,{d8,d9,d10,d11,d12,d13,d14,d15} @ 32-bit ABI says so bx lr .size gcm_ghash_v8,.-gcm_ghash_v8 .byte 71,72,65,83,72,32,102,111,114,32,65,82,77,118,56,44,32,67,82,89,80,84,79,71,65,77,83,32,98,121,32,60,97,112,112,114,111,64,111,112,101,110,115,115,108,46,111,114,103,62,0 .align 2 .align 2 #endif