diff options
Diffstat (limited to 'vendor/github.com/minio/sha256-simd/sha256blockAvx2_amd64.s')
| -rw-r--r-- | vendor/github.com/minio/sha256-simd/sha256blockAvx2_amd64.s | 1449 |
1 files changed, 1449 insertions, 0 deletions
diff --git a/vendor/github.com/minio/sha256-simd/sha256blockAvx2_amd64.s b/vendor/github.com/minio/sha256-simd/sha256blockAvx2_amd64.s new file mode 100644 index 000000000..80b0b739b --- /dev/null +++ b/vendor/github.com/minio/sha256-simd/sha256blockAvx2_amd64.s @@ -0,0 +1,1449 @@ +//+build !noasm,!appengine + +// SHA256 implementation for AVX2 + +// +// Minio Cloud Storage, (C) 2016 Minio, Inc. +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +// + +// +// This code is based on an Intel White-Paper: +// "Fast SHA-256 Implementations on Intel Architecture Processors" +// +// together with the reference implementation from the following authors: +// James Guilford <james.guilford@intel.com> +// Kirk Yap <kirk.s.yap@intel.com> +// Tim Chen <tim.c.chen@linux.intel.com> +// +// For Golang it has been converted to Plan 9 assembly with the help of +// github.com/minio/asm2plan9s to assemble Intel instructions to their Plan9 +// equivalents +// + +DATA K256<>+0x000(SB)/8, $0x71374491428a2f98 +DATA K256<>+0x008(SB)/8, $0xe9b5dba5b5c0fbcf +DATA K256<>+0x010(SB)/8, $0x71374491428a2f98 +DATA K256<>+0x018(SB)/8, $0xe9b5dba5b5c0fbcf +DATA K256<>+0x020(SB)/8, $0x59f111f13956c25b +DATA K256<>+0x028(SB)/8, $0xab1c5ed5923f82a4 +DATA K256<>+0x030(SB)/8, $0x59f111f13956c25b +DATA K256<>+0x038(SB)/8, $0xab1c5ed5923f82a4 +DATA K256<>+0x040(SB)/8, $0x12835b01d807aa98 +DATA K256<>+0x048(SB)/8, $0x550c7dc3243185be +DATA K256<>+0x050(SB)/8, $0x12835b01d807aa98 +DATA K256<>+0x058(SB)/8, $0x550c7dc3243185be +DATA K256<>+0x060(SB)/8, $0x80deb1fe72be5d74 +DATA K256<>+0x068(SB)/8, $0xc19bf1749bdc06a7 +DATA K256<>+0x070(SB)/8, $0x80deb1fe72be5d74 +DATA K256<>+0x078(SB)/8, $0xc19bf1749bdc06a7 +DATA K256<>+0x080(SB)/8, $0xefbe4786e49b69c1 +DATA K256<>+0x088(SB)/8, $0x240ca1cc0fc19dc6 +DATA K256<>+0x090(SB)/8, $0xefbe4786e49b69c1 +DATA K256<>+0x098(SB)/8, $0x240ca1cc0fc19dc6 +DATA K256<>+0x0a0(SB)/8, $0x4a7484aa2de92c6f +DATA K256<>+0x0a8(SB)/8, $0x76f988da5cb0a9dc +DATA K256<>+0x0b0(SB)/8, $0x4a7484aa2de92c6f +DATA K256<>+0x0b8(SB)/8, $0x76f988da5cb0a9dc +DATA K256<>+0x0c0(SB)/8, $0xa831c66d983e5152 +DATA K256<>+0x0c8(SB)/8, $0xbf597fc7b00327c8 +DATA K256<>+0x0d0(SB)/8, $0xa831c66d983e5152 +DATA K256<>+0x0d8(SB)/8, $0xbf597fc7b00327c8 +DATA K256<>+0x0e0(SB)/8, $0xd5a79147c6e00bf3 +DATA K256<>+0x0e8(SB)/8, $0x1429296706ca6351 +DATA K256<>+0x0f0(SB)/8, $0xd5a79147c6e00bf3 +DATA K256<>+0x0f8(SB)/8, $0x1429296706ca6351 +DATA K256<>+0x100(SB)/8, $0x2e1b213827b70a85 +DATA K256<>+0x108(SB)/8, $0x53380d134d2c6dfc +DATA K256<>+0x110(SB)/8, $0x2e1b213827b70a85 +DATA K256<>+0x118(SB)/8, $0x53380d134d2c6dfc +DATA K256<>+0x120(SB)/8, $0x766a0abb650a7354 +DATA K256<>+0x128(SB)/8, $0x92722c8581c2c92e +DATA K256<>+0x130(SB)/8, $0x766a0abb650a7354 +DATA K256<>+0x138(SB)/8, $0x92722c8581c2c92e +DATA K256<>+0x140(SB)/8, $0xa81a664ba2bfe8a1 +DATA K256<>+0x148(SB)/8, $0xc76c51a3c24b8b70 +DATA K256<>+0x150(SB)/8, $0xa81a664ba2bfe8a1 +DATA K256<>+0x158(SB)/8, $0xc76c51a3c24b8b70 +DATA K256<>+0x160(SB)/8, $0xd6990624d192e819 +DATA K256<>+0x168(SB)/8, $0x106aa070f40e3585 +DATA K256<>+0x170(SB)/8, $0xd6990624d192e819 +DATA K256<>+0x178(SB)/8, $0x106aa070f40e3585 +DATA K256<>+0x180(SB)/8, $0x1e376c0819a4c116 +DATA K256<>+0x188(SB)/8, $0x34b0bcb52748774c +DATA K256<>+0x190(SB)/8, $0x1e376c0819a4c116 +DATA K256<>+0x198(SB)/8, $0x34b0bcb52748774c +DATA K256<>+0x1a0(SB)/8, $0x4ed8aa4a391c0cb3 +DATA K256<>+0x1a8(SB)/8, $0x682e6ff35b9cca4f +DATA K256<>+0x1b0(SB)/8, $0x4ed8aa4a391c0cb3 +DATA K256<>+0x1b8(SB)/8, $0x682e6ff35b9cca4f +DATA K256<>+0x1c0(SB)/8, $0x78a5636f748f82ee +DATA K256<>+0x1c8(SB)/8, $0x8cc7020884c87814 +DATA K256<>+0x1d0(SB)/8, $0x78a5636f748f82ee +DATA K256<>+0x1d8(SB)/8, $0x8cc7020884c87814 +DATA K256<>+0x1e0(SB)/8, $0xa4506ceb90befffa +DATA K256<>+0x1e8(SB)/8, $0xc67178f2bef9a3f7 +DATA K256<>+0x1f0(SB)/8, $0xa4506ceb90befffa +DATA K256<>+0x1f8(SB)/8, $0xc67178f2bef9a3f7 + +DATA K256<>+0x200(SB)/8, $0x0405060700010203 +DATA K256<>+0x208(SB)/8, $0x0c0d0e0f08090a0b +DATA K256<>+0x210(SB)/8, $0x0405060700010203 +DATA K256<>+0x218(SB)/8, $0x0c0d0e0f08090a0b +DATA K256<>+0x220(SB)/8, $0x0b0a090803020100 +DATA K256<>+0x228(SB)/8, $0xffffffffffffffff +DATA K256<>+0x230(SB)/8, $0x0b0a090803020100 +DATA K256<>+0x238(SB)/8, $0xffffffffffffffff +DATA K256<>+0x240(SB)/8, $0xffffffffffffffff +DATA K256<>+0x248(SB)/8, $0x0b0a090803020100 +DATA K256<>+0x250(SB)/8, $0xffffffffffffffff +DATA K256<>+0x258(SB)/8, $0x0b0a090803020100 + +GLOBL K256<>(SB), 8, $608 + +// We need 0x220 stack space aligned on a 512 boundary, so for the +// worstcase-aligned SP we need twice this amount, being 1088 (=0x440) +// +// SP aligned end-aligned stacksize +// 100013d0 10001400 10001620 592 +// 100013d8 10001400 10001620 584 +// 100013e0 10001600 10001820 1088 +// 100013e8 10001600 10001820 1080 + +// func blockAvx2(h []uint32, message []uint8) +TEXT ·blockAvx2(SB),$1088-48 + + MOVQ h+0(FP), DI // DI: &h + MOVQ message_base+24(FP), SI // SI: &message + MOVQ message_len+32(FP), DX // len(message) + ADDQ SI, DX // end pointer of input + MOVQ SP, R11 // copy stack pointer + ADDQ $0x220, SP // sp += 0x220 + ANDQ $0xfffffffffffffe00, SP // align stack frame + ADDQ $0x1c0, SP + MOVQ DI, 0x40(SP) // save ctx + MOVQ SI, 0x48(SP) // save input + MOVQ DX, 0x50(SP) // save end pointer + MOVQ R11, 0x58(SP) // save copy of stack pointer + + WORD $0xf8c5; BYTE $0x77 // vzeroupper + ADDQ $0x40, SI // input++ + MOVL (DI), AX + MOVQ SI, R12 // borrow $T1 + MOVL 4(DI), BX + CMPQ SI, DX // $_end + MOVL 8(DI), CX + LONG $0xe4440f4c // cmove r12,rsp /* next block or random data */ + MOVL 12(DI), DX + MOVL 16(DI), R8 + MOVL 20(DI), R9 + MOVL 24(DI), R10 + MOVL 28(DI), R11 + + LEAQ K256<>(SB), BP + LONG $0x856f7dc5; LONG $0x00000220 // VMOVDQA YMM8, 0x220[rbp] /* vmovdqa ymm8,YMMWORD PTR [rip+0x220] */ + LONG $0x8d6f7dc5; LONG $0x00000240 // VMOVDQA YMM9, 0x240[rbp] /* vmovdqa ymm9,YMMWORD PTR [rip+0x240] */ + LONG $0x956f7dc5; LONG $0x00000200 // VMOVDQA YMM10, 0x200[rbp] /* vmovdqa ymm7,YMMWORD PTR [rip+0x200] */ + +loop0: + LONG $0x6f7dc1c4; BYTE $0xfa // VMOVDQA YMM7, YMM10 + + // Load first 16 dwords from two blocks + MOVOU -64(SI), X0 // vmovdqu xmm0,XMMWORD PTR [rsi-0x40] + MOVOU -48(SI), X1 // vmovdqu xmm1,XMMWORD PTR [rsi-0x30] + MOVOU -32(SI), X2 // vmovdqu xmm2,XMMWORD PTR [rsi-0x20] + MOVOU -16(SI), X3 // vmovdqu xmm3,XMMWORD PTR [rsi-0x10] + + // Byte swap data and transpose data into high/low + LONG $0x387dc3c4; WORD $0x2404; BYTE $0x01 // vinserti128 ymm0,ymm0,[r12],0x1 + LONG $0x3875c3c4; LONG $0x0110244c // vinserti128 ymm1,ymm1,0x10[r12],0x1 + LONG $0x007de2c4; BYTE $0xc7 // vpshufb ymm0,ymm0,ymm7 + LONG $0x386dc3c4; LONG $0x01202454 // vinserti128 ymm2,ymm2,0x20[r12],0x1 + LONG $0x0075e2c4; BYTE $0xcf // vpshufb ymm1,ymm1,ymm7 + LONG $0x3865c3c4; LONG $0x0130245c // vinserti128 ymm3,ymm3,0x30[r12],0x1 + + LEAQ K256<>(SB), BP + LONG $0x006de2c4; BYTE $0xd7 // vpshufb ymm2,ymm2,ymm7 + LONG $0x65fefdc5; BYTE $0x00 // vpaddd ymm4,ymm0,[rbp] + LONG $0x0065e2c4; BYTE $0xdf // vpshufb ymm3,ymm3,ymm7 + LONG $0x6dfef5c5; BYTE $0x20 // vpaddd ymm5,ymm1,0x20[rbp] + LONG $0x75feedc5; BYTE $0x40 // vpaddd ymm6,ymm2,0x40[rbp] + LONG $0x7dfee5c5; BYTE $0x60 // vpaddd ymm7,ymm3,0x60[rbp] + + LONG $0x247ffdc5; BYTE $0x24 // vmovdqa [rsp],ymm4 + XORQ R14, R14 + LONG $0x6c7ffdc5; WORD $0x2024 // vmovdqa [rsp+0x20],ymm5 + + ADDQ $-0x40, SP + MOVQ BX, DI + LONG $0x347ffdc5; BYTE $0x24 // vmovdqa [rsp],ymm6 + XORQ CX, DI // magic + LONG $0x7c7ffdc5; WORD $0x2024 // vmovdqa [rsp+0x20],ymm7 + MOVQ R9, R12 + ADDQ $0x80, BP + +loop1: + // Schedule 48 input dwords, by doing 3 rounds of 12 each + // Note: SIMD instructions are interleaved with the SHA calculations + ADDQ $-0x40, SP + LONG $0x0f75e3c4; WORD $0x04e0 // vpalignr ymm4,ymm1,ymm0,0x4 + + // ROUND(AX, BX, CX, DX, R8, R9, R10, R11, R12, R13, R14, R15, DI, SP, 0x80) + LONG $0x249c0344; LONG $0x00000080 // add r11d,[rsp+0x80] + WORD $0x2145; BYTE $0xc4 // and r12d,r8d + LONG $0xf07b43c4; WORD $0x19e8 // rorx r13d,r8d,0x19 + LONG $0x0f65e3c4; WORD $0x04fa // vpalignr ymm7,ymm3,ymm2,0x4 + LONG $0xf07b43c4; WORD $0x0bf8 // rorx r15d,r8d,0xb + LONG $0x30048d42 // lea eax,[rax+r14*1] + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + LONG $0xd472cdc5; BYTE $0x07 // vpsrld ymm6,ymm4,0x7 + LONG $0xf23842c4; BYTE $0xe2 // andn r12d,r8d,r10d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f0 // rorx r14d,r8d,0x6 + LONG $0xc7fefdc5 // vpaddd ymm0,ymm0,ymm7 + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xc7 // mov r15d,eax + LONG $0xd472c5c5; BYTE $0x03 // vpsrld ymm7,ymm4,0x3 + LONG $0xf07b63c4; WORD $0x16e0 // rorx r12d,eax,0x16 + LONG $0x2b1c8d47 // lea r11d,[r11+r13*1] + WORD $0x3141; BYTE $0xdf // xor r15d,ebx + LONG $0xf472d5c5; BYTE $0x0e // vpslld ymm5,ymm4,0xe + LONG $0xf07b63c4; WORD $0x0df0 // rorx r14d,eax,0xd + LONG $0xf07b63c4; WORD $0x02e8 // rorx r13d,eax,0x2 + LONG $0x1a148d42 // lea edx,[rdx+r11*1] + LONG $0xe6efc5c5 // vpxor ymm4,ymm7,ymm6 + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xdf31 // xor edi,ebx + LONG $0xfb70fdc5; BYTE $0xfa // vpshufd ymm7,ymm3,0xfa + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3b1c8d45 // lea r11d,[r11+rdi*1] + WORD $0x8945; BYTE $0xc4 // mov r12d,r8d + LONG $0xd672cdc5; BYTE $0x0b // vpsrld ymm6,ymm6,0xb + + // ROUND(R11, AX, BX, CX, DX, R8, R9, R10, R12, R13, R14, DI, R15, SP, 0x84) + LONG $0x24940344; LONG $0x00000084 // add r10d,[rsp+0x84] + WORD $0x2141; BYTE $0xd4 // and r12d,edx + LONG $0xf07b63c4; WORD $0x19ea // rorx r13d,edx,0x19 + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07be3c4; WORD $0x0bfa // rorx edi,edx,0xb + LONG $0x331c8d47 // lea r11d,[r11+r14*1] + LONG $0x22148d47 // lea r10d,[r10+r12*1] + LONG $0xf572d5c5; BYTE $0x0b // vpslld ymm5,ymm5,0xb + LONG $0xf26842c4; BYTE $0xe1 // andn r12d,edx,r9d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f2 // rorx r14d,edx,0x6 + LONG $0xe6efddc5 // vpxor ymm4,ymm4,ymm6 + LONG $0x22148d47 // lea r10d,[r10+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xdf // mov edi,r11d + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + LONG $0xf07b43c4; WORD $0x16e3 // rorx r12d,r11d,0x16 + LONG $0x2a148d47 // lea r10d,[r10+r13*1] + WORD $0xc731 // xor edi,eax + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07b43c4; WORD $0x0df3 // rorx r14d,r11d,0xd + LONG $0xf07b43c4; WORD $0x02eb // rorx r13d,r11d,0x2 + LONG $0x110c8d42 // lea ecx,[rcx+r10*1] + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xc7 // xor r15d,eax + LONG $0xc4fefdc5 // vpaddd ymm0,ymm0,ymm4 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3a148d47 // lea r10d,[r10+r15*1] + WORD $0x8941; BYTE $0xd4 // mov r12d,edx + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(R10, R11, AX, BX, CX, DX, R8, R9, R12, R13, R14, R15, DI, SP, 0x88) + LONG $0x248c0344; LONG $0x00000088 // add r9d,[rsp+0x88] + WORD $0x2141; BYTE $0xcc // and r12d,ecx + LONG $0xf07b63c4; WORD $0x19e9 // rorx r13d,ecx,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07b63c4; WORD $0x0bf9 // rorx r15d,ecx,0xb + LONG $0x32148d47 // lea r10d,[r10+r14*1] + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf27042c4; BYTE $0xe0 // andn r12d,ecx,r8d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f1 // rorx r14d,ecx,0x6 + LONG $0x004dc2c4; BYTE $0xf0 // vpshufb ymm6,ymm6,ymm8 + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xd7 // mov r15d,r10d + LONG $0xc6fefdc5 // vpaddd ymm0,ymm0,ymm6 + LONG $0xf07b43c4; WORD $0x16e2 // rorx r12d,r10d,0x16 + LONG $0x290c8d47 // lea r9d,[r9+r13*1] + WORD $0x3145; BYTE $0xdf // xor r15d,r11d + LONG $0xf870fdc5; BYTE $0x50 // vpshufd ymm7,ymm0,0x50 + LONG $0xf07b43c4; WORD $0x0df2 // rorx r14d,r10d,0xd + LONG $0xf07b43c4; WORD $0x02ea // rorx r13d,r10d,0x2 + LONG $0x0b1c8d42 // lea ebx,[rbx+r9*1] + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xdf // xor edi,r11d + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d45 // lea r9d,[r9+rdi*1] + WORD $0x8941; BYTE $0xcc // mov r12d,ecx + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(R9, R10, R11, AX, BX, CX, DX, R8, R12, R13, R14, DI, R15, SP, 0x8c) + LONG $0x24840344; LONG $0x0000008c // add r8d,[rsp+0x8c] + WORD $0x2141; BYTE $0xdc // and r12d,ebx + LONG $0xf07b63c4; WORD $0x19eb // rorx r13d,ebx,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07be3c4; WORD $0x0bfb // rorx edi,ebx,0xb + LONG $0x310c8d47 // lea r9d,[r9+r14*1] + LONG $0x20048d47 // lea r8d,[r8+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf26062c4; BYTE $0xe2 // andn r12d,ebx,edx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f3 // rorx r14d,ebx,0x6 + LONG $0x004dc2c4; BYTE $0xf1 // vpshufb ymm6,ymm6,ymm9 + LONG $0x20048d47 // lea r8d,[r8+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xcf // mov edi,r9d + LONG $0xc6fefdc5 // vpaddd ymm0,ymm0,ymm6 + LONG $0xf07b43c4; WORD $0x16e1 // rorx r12d,r9d,0x16 + LONG $0x28048d47 // lea r8d,[r8+r13*1] + WORD $0x3144; BYTE $0xd7 // xor edi,r10d + LONG $0x75fefdc5; BYTE $0x00 // vpaddd ymm6,ymm0,[rbp+0x0] + LONG $0xf07b43c4; WORD $0x0df1 // rorx r14d,r9d,0xd + LONG $0xf07b43c4; WORD $0x02e9 // rorx r13d,r9d,0x2 + LONG $0x00048d42 // lea eax,[rax+r8*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xd7 // xor r15d,r10d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d47 // lea r8d,[r8+r15*1] + WORD $0x8941; BYTE $0xdc // mov r12d,ebx + + LONG $0x347ffdc5; BYTE $0x24 // vmovdqa [rsp],ymm6 + LONG $0x0f6de3c4; WORD $0x04e1 // vpalignr ymm4,ymm2,ymm1,0x4 + + // ROUND(R8, R9, R10, R11, AX, BX, CX, DX, R12, R13, R14, R15, DI, SP, 0xa0) + LONG $0xa0249403; WORD $0x0000; BYTE $0x00 // add edx,[rsp+0xa0] + WORD $0x2141; BYTE $0xc4 // and r12d,eax + LONG $0xf07b63c4; WORD $0x19e8 // rorx r13d,eax,0x19 + LONG $0x0f7de3c4; WORD $0x04fb // vpalignr ymm7,ymm0,ymm3,0x4 + LONG $0xf07b63c4; WORD $0x0bf8 // rorx r15d,eax,0xb + LONG $0x30048d47 // lea r8d,[r8+r14*1] + LONG $0x22148d42 // lea edx,[rdx+r12*1] + LONG $0xd472cdc5; BYTE $0x07 // vpsrld ymm6,ymm4,0x7 + LONG $0xf27862c4; BYTE $0xe1 // andn r12d,eax,ecx + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f0 // rorx r14d,eax,0x6 + LONG $0xcffef5c5 // vpaddd ymm1,ymm1,ymm7 + LONG $0x22148d42 // lea edx,[rdx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xc7 // mov r15d,r8d + LONG $0xd472c5c5; BYTE $0x03 // vpsrld ymm7,ymm4,0x3 + LONG $0xf07b43c4; WORD $0x16e0 // rorx r12d,r8d,0x16 + LONG $0x2a148d42 // lea edx,[rdx+r13*1] + WORD $0x3145; BYTE $0xcf // xor r15d,r9d + LONG $0xf472d5c5; BYTE $0x0e // vpslld ymm5,ymm4,0xe + LONG $0xf07b43c4; WORD $0x0df0 // rorx r14d,r8d,0xd + LONG $0xf07b43c4; WORD $0x02e8 // rorx r13d,r8d,0x2 + LONG $0x131c8d45 // lea r11d,[r11+rdx*1] + LONG $0xe6efc5c5 // vpxor ymm4,ymm7,ymm6 + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xcf // xor edi,r9d + LONG $0xf870fdc5; BYTE $0xfa // vpshufd ymm7,ymm0,0xfa + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x148d; BYTE $0x3a // lea edx,[rdx+rdi*1] + WORD $0x8941; BYTE $0xc4 // mov r12d,eax + LONG $0xd672cdc5; BYTE $0x0b // vpsrld ymm6,ymm6,0xb + + // ROUND(DX, R8, R9, R10, R11, AX, BX, CX, R12, R13, R14, DI, R15, SP, 0xa4) + LONG $0xa4248c03; WORD $0x0000; BYTE $0x00 // add ecx,[rsp+0xa4] + WORD $0x2145; BYTE $0xdc // and r12d,r11d + LONG $0xf07b43c4; WORD $0x19eb // rorx r13d,r11d,0x19 + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07bc3c4; WORD $0x0bfb // rorx edi,r11d,0xb + LONG $0x32148d42 // lea edx,[rdx+r14*1] + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + LONG $0xf572d5c5; BYTE $0x0b // vpslld ymm5,ymm5,0xb + LONG $0xf22062c4; BYTE $0xe3 // andn r12d,r11d,ebx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f3 // rorx r14d,r11d,0x6 + LONG $0xe6efddc5 // vpxor ymm4,ymm4,ymm6 + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xd789 // mov edi,edx + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + LONG $0xf07b63c4; WORD $0x16e2 // rorx r12d,edx,0x16 + LONG $0x290c8d42 // lea ecx,[rcx+r13*1] + WORD $0x3144; BYTE $0xc7 // xor edi,r8d + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07b63c4; WORD $0x0df2 // rorx r14d,edx,0xd + LONG $0xf07b63c4; WORD $0x02ea // rorx r13d,edx,0x2 + LONG $0x0a148d45 // lea r10d,[r10+rcx*1] + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xc7 // xor r15d,r8d + LONG $0xccfef5c5 // vpaddd ymm1,ymm1,ymm4 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d42 // lea ecx,[rcx+r15*1] + WORD $0x8945; BYTE $0xdc // mov r12d,r11d + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(CX, DX, R8, R9, R10, R11, AX, BX, R12, R13, R14, R15, DI, SP, 0xa8) + LONG $0xa8249c03; WORD $0x0000; BYTE $0x00 // add ebx,[rsp+0xa8] + WORD $0x2145; BYTE $0xd4 // and r12d,r10d + LONG $0xf07b43c4; WORD $0x19ea // rorx r13d,r10d,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07b43c4; WORD $0x0bfa // rorx r15d,r10d,0xb + LONG $0x310c8d42 // lea ecx,[rcx+r14*1] + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf22862c4; BYTE $0xe0 // andn r12d,r10d,eax + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f2 // rorx r14d,r10d,0x6 + LONG $0x004dc2c4; BYTE $0xf0 // vpshufb ymm6,ymm6,ymm8 + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xcf // mov r15d,ecx + LONG $0xcefef5c5 // vpaddd ymm1,ymm1,ymm6 + LONG $0xf07b63c4; WORD $0x16e1 // rorx r12d,ecx,0x16 + LONG $0x2b1c8d42 // lea ebx,[rbx+r13*1] + WORD $0x3141; BYTE $0xd7 // xor r15d,edx + LONG $0xf970fdc5; BYTE $0x50 // vpshufd ymm7,ymm1,0x50 + LONG $0xf07b63c4; WORD $0x0df1 // rorx r14d,ecx,0xd + LONG $0xf07b63c4; WORD $0x02e9 // rorx r13d,ecx,0x2 + LONG $0x190c8d45 // lea r9d,[r9+rbx*1] + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xd731 // xor edi,edx + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x1c8d; BYTE $0x3b // lea ebx,[rbx+rdi*1] + WORD $0x8945; BYTE $0xd4 // mov r12d,r10d + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(BX, CX, DX, R8, R9, R10, R11, AX, R12, R13, R14, DI, R15, SP, 0xac) + LONG $0xac248403; WORD $0x0000; BYTE $0x00 // add eax,[rsp+0xac] + WORD $0x2145; BYTE $0xcc // and r12d,r9d + LONG $0xf07b43c4; WORD $0x19e9 // rorx r13d,r9d,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07bc3c4; WORD $0x0bf9 // rorx edi,r9d,0xb + LONG $0x331c8d42 // lea ebx,[rbx+r14*1] + LONG $0x20048d42 // lea eax,[rax+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf23042c4; BYTE $0xe3 // andn r12d,r9d,r11d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f1 // rorx r14d,r9d,0x6 + LONG $0x004dc2c4; BYTE $0xf1 // vpshufb ymm6,ymm6,ymm9 + LONG $0x20048d42 // lea eax,[rax+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xdf89 // mov edi,ebx + LONG $0xcefef5c5 // vpaddd ymm1,ymm1,ymm6 + LONG $0xf07b63c4; WORD $0x16e3 // rorx r12d,ebx,0x16 + LONG $0x28048d42 // lea eax,[rax+r13*1] + WORD $0xcf31 // xor edi,ecx + LONG $0x75fef5c5; BYTE $0x20 // vpaddd ymm6,ymm1,[rbp+0x20] + LONG $0xf07b63c4; WORD $0x0df3 // rorx r14d,ebx,0xd + LONG $0xf07b63c4; WORD $0x02eb // rorx r13d,ebx,0x2 + LONG $0x00048d45 // lea r8d,[r8+rax*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xcf // xor r15d,ecx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d42 // lea eax,[rax+r15*1] + WORD $0x8945; BYTE $0xcc // mov r12d,r9d + + LONG $0x747ffdc5; WORD $0x2024 // vmovdqa [rsp+0x20],ymm6 + + LONG $0x24648d48; BYTE $0xc0 // lea rsp,[rsp-0x40] + LONG $0x0f65e3c4; WORD $0x04e2 // vpalignr ymm4,ymm3,ymm2,0x4 + + // ROUND(AX, BX, CX, DX, R8, R9, R10, R11, R12, R13, R14, R15, DI, SP, 0x80) + LONG $0x249c0344; LONG $0x00000080 // add r11d,[rsp+0x80] + WORD $0x2145; BYTE $0xc4 // and r12d,r8d + LONG $0xf07b43c4; WORD $0x19e8 // rorx r13d,r8d,0x19 + LONG $0x0f75e3c4; WORD $0x04f8 // vpalignr ymm7,ymm1,ymm0,0x4 + LONG $0xf07b43c4; WORD $0x0bf8 // rorx r15d,r8d,0xb + LONG $0x30048d42 // lea eax,[rax+r14*1] + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + LONG $0xd472cdc5; BYTE $0x07 // vpsrld ymm6,ymm4,0x7 + LONG $0xf23842c4; BYTE $0xe2 // andn r12d,r8d,r10d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f0 // rorx r14d,r8d,0x6 + LONG $0xd7feedc5 // vpaddd ymm2,ymm2,ymm7 + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xc7 // mov r15d,eax + LONG $0xd472c5c5; BYTE $0x03 // vpsrld ymm7,ymm4,0x3 + LONG $0xf07b63c4; WORD $0x16e0 // rorx r12d,eax,0x16 + LONG $0x2b1c8d47 // lea r11d,[r11+r13*1] + WORD $0x3141; BYTE $0xdf // xor r15d,ebx + LONG $0xf472d5c5; BYTE $0x0e // vpslld ymm5,ymm4,0xe + LONG $0xf07b63c4; WORD $0x0df0 // rorx r14d,eax,0xd + LONG $0xf07b63c4; WORD $0x02e8 // rorx r13d,eax,0x2 + LONG $0x1a148d42 // lea edx,[rdx+r11*1] + LONG $0xe6efc5c5 // vpxor ymm4,ymm7,ymm6 + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xdf31 // xor edi,ebx + LONG $0xf970fdc5; BYTE $0xfa // vpshufd ymm7,ymm1,0xfa + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3b1c8d45 // lea r11d,[r11+rdi*1] + WORD $0x8945; BYTE $0xc4 // mov r12d,r8d + LONG $0xd672cdc5; BYTE $0x0b // vpsrld ymm6,ymm6,0xb + + // ROUND(R11, AX, BX, CX, DX, R8, R9, R10, R12, R13, R14, DI, R15, SP, 0x84) + LONG $0x24940344; LONG $0x00000084 // add r10d,[rsp+0x84] + WORD $0x2141; BYTE $0xd4 // and r12d,edx + LONG $0xf07b63c4; WORD $0x19ea // rorx r13d,edx,0x19 + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07be3c4; WORD $0x0bfa // rorx edi,edx,0xb + LONG $0x331c8d47 // lea r11d,[r11+r14*1] + LONG $0x22148d47 // lea r10d,[r10+r12*1] + LONG $0xf572d5c5; BYTE $0x0b // vpslld ymm5,ymm5,0xb + LONG $0xf26842c4; BYTE $0xe1 // andn r12d,edx,r9d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f2 // rorx r14d,edx,0x6 + LONG $0xe6efddc5 // vpxor ymm4,ymm4,ymm6 + LONG $0x22148d47 // lea r10d,[r10+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xdf // mov edi,r11d + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + LONG $0xf07b43c4; WORD $0x16e3 // rorx r12d,r11d,0x16 + LONG $0x2a148d47 // lea r10d,[r10+r13*1] + WORD $0xc731 // xor edi,eax + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07b43c4; WORD $0x0df3 // rorx r14d,r11d,0xd + LONG $0xf07b43c4; WORD $0x02eb // rorx r13d,r11d,0x2 + LONG $0x110c8d42 // lea ecx,[rcx+r10*1] + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xc7 // xor r15d,eax + LONG $0xd4feedc5 // vpaddd ymm2,ymm2,ymm4 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3a148d47 // lea r10d,[r10+r15*1] + WORD $0x8941; BYTE $0xd4 // mov r12d,edx + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(R10, R11, AX, BX, CX, DX, R8, R9, R12, R13, R14, R15, DI, SP, 0x88) + LONG $0x248c0344; LONG $0x00000088 // add r9d,[rsp+0x88] + WORD $0x2141; BYTE $0xcc // and r12d,ecx + LONG $0xf07b63c4; WORD $0x19e9 // rorx r13d,ecx,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07b63c4; WORD $0x0bf9 // rorx r15d,ecx,0xb + LONG $0x32148d47 // lea r10d,[r10+r14*1] + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf27042c4; BYTE $0xe0 // andn r12d,ecx,r8d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f1 // rorx r14d,ecx,0x6 + LONG $0x004dc2c4; BYTE $0xf0 // vpshufb ymm6,ymm6,ymm8 + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xd7 // mov r15d,r10d + LONG $0xd6feedc5 // vpaddd ymm2,ymm2,ymm6 + LONG $0xf07b43c4; WORD $0x16e2 // rorx r12d,r10d,0x16 + LONG $0x290c8d47 // lea r9d,[r9+r13*1] + WORD $0x3145; BYTE $0xdf // xor r15d,r11d + LONG $0xfa70fdc5; BYTE $0x50 // vpshufd ymm7,ymm2,0x50 + LONG $0xf07b43c4; WORD $0x0df2 // rorx r14d,r10d,0xd + LONG $0xf07b43c4; WORD $0x02ea // rorx r13d,r10d,0x2 + LONG $0x0b1c8d42 // lea ebx,[rbx+r9*1] + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xdf // xor edi,r11d + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d45 // lea r9d,[r9+rdi*1] + WORD $0x8941; BYTE $0xcc // mov r12d,ecx + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(R9, R10, R11, AX, BX, CX, DX, R8, R12, R13, R14, DI, R15, SP, 0x8c) + LONG $0x24840344; LONG $0x0000008c // add r8d,[rsp+0x8c] + WORD $0x2141; BYTE $0xdc // and r12d,ebx + LONG $0xf07b63c4; WORD $0x19eb // rorx r13d,ebx,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07be3c4; WORD $0x0bfb // rorx edi,ebx,0xb + LONG $0x310c8d47 // lea r9d,[r9+r14*1] + LONG $0x20048d47 // lea r8d,[r8+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf26062c4; BYTE $0xe2 // andn r12d,ebx,edx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f3 // rorx r14d,ebx,0x6 + LONG $0x004dc2c4; BYTE $0xf1 // vpshufb ymm6,ymm6,ymm9 + LONG $0x20048d47 // lea r8d,[r8+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xcf // mov edi,r9d + LONG $0xd6feedc5 // vpaddd ymm2,ymm2,ymm6 + LONG $0xf07b43c4; WORD $0x16e1 // rorx r12d,r9d,0x16 + LONG $0x28048d47 // lea r8d,[r8+r13*1] + WORD $0x3144; BYTE $0xd7 // xor edi,r10d + LONG $0x75feedc5; BYTE $0x40 // vpaddd ymm6,ymm2,[rbp+0x40] + LONG $0xf07b43c4; WORD $0x0df1 // rorx r14d,r9d,0xd + LONG $0xf07b43c4; WORD $0x02e9 // rorx r13d,r9d,0x2 + LONG $0x00048d42 // lea eax,[rax+r8*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xd7 // xor r15d,r10d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d47 // lea r8d,[r8+r15*1] + WORD $0x8941; BYTE $0xdc // mov r12d,ebx + + LONG $0x347ffdc5; BYTE $0x24 // vmovdqa [rsp],ymm6 + LONG $0x0f7de3c4; WORD $0x04e3 // vpalignr ymm4,ymm0,ymm3,0x4 + + // ROUND(R8, R9, R10, R11, AX, BX, CX, DX, R12, R13, R14, R15, DI, SP, 0xa0) + LONG $0xa0249403; WORD $0x0000; BYTE $0x00 // add edx,[rsp+0xa0] + WORD $0x2141; BYTE $0xc4 // and r12d,eax + LONG $0xf07b63c4; WORD $0x19e8 // rorx r13d,eax,0x19 + LONG $0x0f6de3c4; WORD $0x04f9 // vpalignr ymm7,ymm2,ymm1,0x4 + LONG $0xf07b63c4; WORD $0x0bf8 // rorx r15d,eax,0xb + LONG $0x30048d47 // lea r8d,[r8+r14*1] + LONG $0x22148d42 // lea edx,[rdx+r12*1] + LONG $0xd472cdc5; BYTE $0x07 // vpsrld ymm6,ymm4,0x7 + LONG $0xf27862c4; BYTE $0xe1 // andn r12d,eax,ecx + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f0 // rorx r14d,eax,0x6 + LONG $0xdffee5c5 // vpaddd ymm3,ymm3,ymm7 + LONG $0x22148d42 // lea edx,[rdx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xc7 // mov r15d,r8d + LONG $0xd472c5c5; BYTE $0x03 // vpsrld ymm7,ymm4,0x3 + LONG $0xf07b43c4; WORD $0x16e0 // rorx r12d,r8d,0x16 + LONG $0x2a148d42 // lea edx,[rdx+r13*1] + WORD $0x3145; BYTE $0xcf // xor r15d,r9d + LONG $0xf472d5c5; BYTE $0x0e // vpslld ymm5,ymm4,0xe + LONG $0xf07b43c4; WORD $0x0df0 // rorx r14d,r8d,0xd + LONG $0xf07b43c4; WORD $0x02e8 // rorx r13d,r8d,0x2 + LONG $0x131c8d45 // lea r11d,[r11+rdx*1] + LONG $0xe6efc5c5 // vpxor ymm4,ymm7,ymm6 + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xcf // xor edi,r9d + LONG $0xfa70fdc5; BYTE $0xfa // vpshufd ymm7,ymm2,0xfa + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x148d; BYTE $0x3a // lea edx,[rdx+rdi*1] + WORD $0x8941; BYTE $0xc4 // mov r12d,eax + LONG $0xd672cdc5; BYTE $0x0b // vpsrld ymm6,ymm6,0xb + + // ROUND(DX, R8, R9, R10, R11, AX, BX, CX, R12, R13, R14, DI, R15, SP, 0xa4) + LONG $0xa4248c03; WORD $0x0000; BYTE $0x00 // add ecx,[rsp+0xa4] + WORD $0x2145; BYTE $0xdc // and r12d,r11d + LONG $0xf07b43c4; WORD $0x19eb // rorx r13d,r11d,0x19 + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07bc3c4; WORD $0x0bfb // rorx edi,r11d,0xb + LONG $0x32148d42 // lea edx,[rdx+r14*1] + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + LONG $0xf572d5c5; BYTE $0x0b // vpslld ymm5,ymm5,0xb + LONG $0xf22062c4; BYTE $0xe3 // andn r12d,r11d,ebx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f3 // rorx r14d,r11d,0x6 + LONG $0xe6efddc5 // vpxor ymm4,ymm4,ymm6 + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xd789 // mov edi,edx + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + LONG $0xf07b63c4; WORD $0x16e2 // rorx r12d,edx,0x16 + LONG $0x290c8d42 // lea ecx,[rcx+r13*1] + WORD $0x3144; BYTE $0xc7 // xor edi,r8d + LONG $0xe5efddc5 // vpxor ymm4,ymm4,ymm5 + LONG $0xf07b63c4; WORD $0x0df2 // rorx r14d,edx,0xd + LONG $0xf07b63c4; WORD $0x02ea // rorx r13d,edx,0x2 + LONG $0x0a148d45 // lea r10d,[r10+rcx*1] + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xc7 // xor r15d,r8d + LONG $0xdcfee5c5 // vpaddd ymm3,ymm3,ymm4 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d42 // lea ecx,[rcx+r15*1] + WORD $0x8945; BYTE $0xdc // mov r12d,r11d + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(CX, DX, R8, R9, R10, R11, AX, BX, R12, R13, R14, R15, DI, SP, 0xa8) + LONG $0xa8249c03; WORD $0x0000; BYTE $0x00 // add ebx,[rsp+0xa8] + WORD $0x2145; BYTE $0xd4 // and r12d,r10d + LONG $0xf07b43c4; WORD $0x19ea // rorx r13d,r10d,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07b43c4; WORD $0x0bfa // rorx r15d,r10d,0xb + LONG $0x310c8d42 // lea ecx,[rcx+r14*1] + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf22862c4; BYTE $0xe0 // andn r12d,r10d,eax + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f2 // rorx r14d,r10d,0x6 + LONG $0x004dc2c4; BYTE $0xf0 // vpshufb ymm6,ymm6,ymm8 + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xcf // mov r15d,ecx + LONG $0xdefee5c5 // vpaddd ymm3,ymm3,ymm6 + LONG $0xf07b63c4; WORD $0x16e1 // rorx r12d,ecx,0x16 + LONG $0x2b1c8d42 // lea ebx,[rbx+r13*1] + WORD $0x3141; BYTE $0xd7 // xor r15d,edx + LONG $0xfb70fdc5; BYTE $0x50 // vpshufd ymm7,ymm3,0x50 + LONG $0xf07b63c4; WORD $0x0df1 // rorx r14d,ecx,0xd + LONG $0xf07b63c4; WORD $0x02e9 // rorx r13d,ecx,0x2 + LONG $0x190c8d45 // lea r9d,[r9+rbx*1] + LONG $0xd772cdc5; BYTE $0x0a // vpsrld ymm6,ymm7,0xa + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xd731 // xor edi,edx + LONG $0xd773c5c5; BYTE $0x11 // vpsrlq ymm7,ymm7,0x11 + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x1c8d; BYTE $0x3b // lea ebx,[rbx+rdi*1] + WORD $0x8945; BYTE $0xd4 // mov r12d,r10d + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + + // ROUND(BX, CX, DX, R8, R9, R10, R11, AX, R12, R13, R14, DI, R15, SP, 0xac) + LONG $0xac248403; WORD $0x0000; BYTE $0x00 // add eax,[rsp+0xac] + WORD $0x2145; BYTE $0xcc // and r12d,r9d + LONG $0xf07b43c4; WORD $0x19e9 // rorx r13d,r9d,0x19 + LONG $0xd773c5c5; BYTE $0x02 // vpsrlq ymm7,ymm7,0x2 + LONG $0xf07bc3c4; WORD $0x0bf9 // rorx edi,r9d,0xb + LONG $0x331c8d42 // lea ebx,[rbx+r14*1] + LONG $0x20048d42 // lea eax,[rax+r12*1] + LONG $0xf7efcdc5 // vpxor ymm6,ymm6,ymm7 + LONG $0xf23042c4; BYTE $0xe3 // andn r12d,r9d,r11d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f1 // rorx r14d,r9d,0x6 + LONG $0x004dc2c4; BYTE $0xf1 // vpshufb ymm6,ymm6,ymm9 + LONG $0x20048d42 // lea eax,[rax+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xdf89 // mov edi,ebx + LONG $0xdefee5c5 // vpaddd ymm3,ymm3,ymm6 + LONG $0xf07b63c4; WORD $0x16e3 // rorx r12d,ebx,0x16 + LONG $0x28048d42 // lea eax,[rax+r13*1] + WORD $0xcf31 // xor edi,ecx + LONG $0x75fee5c5; BYTE $0x60 // vpaddd ymm6,ymm3,[rbp+0x60] + LONG $0xf07b63c4; WORD $0x0df3 // rorx r14d,ebx,0xd + LONG $0xf07b63c4; WORD $0x02eb // rorx r13d,ebx,0x2 + LONG $0x00048d45 // lea r8d,[r8+rax*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xcf // xor r15d,ecx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d42 // lea eax,[rax+r15*1] + WORD $0x8945; BYTE $0xcc // mov r12d,r9d + + LONG $0x747ffdc5; WORD $0x2024 // vmovdqa [rsp+0x20],ymm6 + ADDQ $0x80, BP + + CMPB 0x3(BP), $0x0 + JNE loop1 + + // ROUND(AX, BX, CX, DX, R8, R9, R10, R11, R12, R13, R14, R15, DI, SP, 0x40) + LONG $0x245c0344; BYTE $0x40 // add r11d,[rsp+0x40] + WORD $0x2145; BYTE $0xc4 // and r12d,r8d + LONG $0xf07b43c4; WORD $0x19e8 // rorx r13d,r8d,0x19 + LONG $0xf07b43c4; WORD $0x0bf8 // rorx r15d,r8d,0xb + LONG $0x30048d42 // lea eax,[rax+r14*1] + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + LONG $0xf23842c4; BYTE $0xe2 // andn r12d,r8d,r10d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f0 // rorx r14d,r8d,0x6 + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xc7 // mov r15d,eax + LONG $0xf07b63c4; WORD $0x16e0 // rorx r12d,eax,0x16 + LONG $0x2b1c8d47 // lea r11d,[r11+r13*1] + WORD $0x3141; BYTE $0xdf // xor r15d,ebx + LONG $0xf07b63c4; WORD $0x0df0 // rorx r14d,eax,0xd + LONG $0xf07b63c4; WORD $0x02e8 // rorx r13d,eax,0x2 + LONG $0x1a148d42 // lea edx,[rdx+r11*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xdf31 // xor edi,ebx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3b1c8d45 // lea r11d,[r11+rdi*1] + WORD $0x8945; BYTE $0xc4 // mov r12d,r8d + + // ROUND(R11, AX, BX, CX, DX, R8, R9, R10, R12, R13, R14, DI, R15, SP, 0x44) + LONG $0x24540344; BYTE $0x44 // add r10d,[rsp+0x44] + WORD $0x2141; BYTE $0xd4 // and r12d,edx + LONG $0xf07b63c4; WORD $0x19ea // rorx r13d,edx,0x19 + LONG $0xf07be3c4; WORD $0x0bfa // rorx edi,edx,0xb + LONG $0x331c8d47 // lea r11d,[r11+r14*1] + LONG $0x22148d47 // lea r10d,[r10+r12*1] + LONG $0xf26842c4; BYTE $0xe1 // andn r12d,edx,r9d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f2 // rorx r14d,edx,0x6 + LONG $0x22148d47 // lea r10d,[r10+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xdf // mov edi,r11d + LONG $0xf07b43c4; WORD $0x16e3 // rorx r12d,r11d,0x16 + LONG $0x2a148d47 // lea r10d,[r10+r13*1] + WORD $0xc731 // xor edi,eax + LONG $0xf07b43c4; WORD $0x0df3 // rorx r14d,r11d,0xd + LONG $0xf07b43c4; WORD $0x02eb // rorx r13d,r11d,0x2 + LONG $0x110c8d42 // lea ecx,[rcx+r10*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xc7 // xor r15d,eax + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3a148d47 // lea r10d,[r10+r15*1] + WORD $0x8941; BYTE $0xd4 // mov r12d,edx + + // ROUND(R10, R11, AX, BX, CX, DX, R8, R9, R12, R13, R14, R15, DI, SP, 0x48) + LONG $0x244c0344; BYTE $0x48 // add r9d,[rsp+0x48] + WORD $0x2141; BYTE $0xcc // and r12d,ecx + LONG $0xf07b63c4; WORD $0x19e9 // rorx r13d,ecx,0x19 + LONG $0xf07b63c4; WORD $0x0bf9 // rorx r15d,ecx,0xb + LONG $0x32148d47 // lea r10d,[r10+r14*1] + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + LONG $0xf27042c4; BYTE $0xe0 // andn r12d,ecx,r8d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f1 // rorx r14d,ecx,0x6 + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xd7 // mov r15d,r10d + LONG $0xf07b43c4; WORD $0x16e2 // rorx r12d,r10d,0x16 + LONG $0x290c8d47 // lea r9d,[r9+r13*1] + WORD $0x3145; BYTE $0xdf // xor r15d,r11d + LONG $0xf07b43c4; WORD $0x0df2 // rorx r14d,r10d,0xd + LONG $0xf07b43c4; WORD $0x02ea // rorx r13d,r10d,0x2 + LONG $0x0b1c8d42 // lea ebx,[rbx+r9*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xdf // xor edi,r11d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d45 // lea r9d,[r9+rdi*1] + WORD $0x8941; BYTE $0xcc // mov r12d,ecx + + // ROUND(R9, R10, R11, AX, BX, CX, DX, R8, R12, R13, R14, DI, R15, SP, 0x4c) + LONG $0x24440344; BYTE $0x4c // add r8d,[rsp+0x4c] + WORD $0x2141; BYTE $0xdc // and r12d,ebx + LONG $0xf07b63c4; WORD $0x19eb // rorx r13d,ebx,0x19 + LONG $0xf07be3c4; WORD $0x0bfb // rorx edi,ebx,0xb + LONG $0x310c8d47 // lea r9d,[r9+r14*1] + LONG $0x20048d47 // lea r8d,[r8+r12*1] + LONG $0xf26062c4; BYTE $0xe2 // andn r12d,ebx,edx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f3 // rorx r14d,ebx,0x6 + LONG $0x20048d47 // lea r8d,[r8+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xcf // mov edi,r9d + LONG $0xf07b43c4; WORD $0x16e1 // rorx r12d,r9d,0x16 + LONG $0x28048d47 // lea r8d,[r8+r13*1] + WORD $0x3144; BYTE $0xd7 // xor edi,r10d + LONG $0xf07b43c4; WORD $0x0df1 // rorx r14d,r9d,0xd + LONG $0xf07b43c4; WORD $0x02e9 // rorx r13d,r9d,0x2 + LONG $0x00048d42 // lea eax,[rax+r8*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xd7 // xor r15d,r10d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d47 // lea r8d,[r8+r15*1] + WORD $0x8941; BYTE $0xdc // mov r12d,ebx + + // ROUND(R8, R9, R10, R11, AX, BX, CX, DX, R12, R13, R14, R15, DI, SP, 0x60) + LONG $0x60245403 // add edx,[rsp+0x60] + WORD $0x2141; BYTE $0xc4 // and r12d,eax + LONG $0xf07b63c4; WORD $0x19e8 // rorx r13d,eax,0x19 + LONG $0xf07b63c4; WORD $0x0bf8 // rorx r15d,eax,0xb + LONG $0x30048d47 // lea r8d,[r8+r14*1] + LONG $0x22148d42 // lea edx,[rdx+r12*1] + LONG $0xf27862c4; BYTE $0xe1 // andn r12d,eax,ecx + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f0 // rorx r14d,eax,0x6 + LONG $0x22148d42 // lea edx,[rdx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xc7 // mov r15d,r8d + LONG $0xf07b43c4; WORD $0x16e0 // rorx r12d,r8d,0x16 + LONG $0x2a148d42 // lea edx,[rdx+r13*1] + WORD $0x3145; BYTE $0xcf // xor r15d,r9d + LONG $0xf07b43c4; WORD $0x0df0 // rorx r14d,r8d,0xd + LONG $0xf07b43c4; WORD $0x02e8 // rorx r13d,r8d,0x2 + LONG $0x131c8d45 // lea r11d,[r11+rdx*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xcf // xor edi,r9d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x148d; BYTE $0x3a // lea edx,[rdx+rdi*1] + WORD $0x8941; BYTE $0xc4 // mov r12d,eax + + // ROUND(DX, R8, R9, R10, R11, AX, BX, CX, R12, R13, R14, DI, R15, SP, 0x64) + LONG $0x64244c03 // add ecx,[rsp+0x64] + WORD $0x2145; BYTE $0xdc // and r12d,r11d + LONG $0xf07b43c4; WORD $0x19eb // rorx r13d,r11d,0x19 + LONG $0xf07bc3c4; WORD $0x0bfb // rorx edi,r11d,0xb + LONG $0x32148d42 // lea edx,[rdx+r14*1] + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + LONG $0xf22062c4; BYTE $0xe3 // andn r12d,r11d,ebx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f3 // rorx r14d,r11d,0x6 + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xd789 // mov edi,edx + LONG $0xf07b63c4; WORD $0x16e2 // rorx r12d,edx,0x16 + LONG $0x290c8d42 // lea ecx,[rcx+r13*1] + WORD $0x3144; BYTE $0xc7 // xor edi,r8d + LONG $0xf07b63c4; WORD $0x0df2 // rorx r14d,edx,0xd + LONG $0xf07b63c4; WORD $0x02ea // rorx r13d,edx,0x2 + LONG $0x0a148d45 // lea r10d,[r10+rcx*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xc7 // xor r15d,r8d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d42 // lea ecx,[rcx+r15*1] + WORD $0x8945; BYTE $0xdc // mov r12d,r11d + + // ROUND(CX, DX, R8, R9, R10, R11, AX, BX, R12, R13, R14, R15, DI, SP, 0x68) + LONG $0x68245c03 // add ebx,[rsp+0x68] + WORD $0x2145; BYTE $0xd4 // and r12d,r10d + LONG $0xf07b43c4; WORD $0x19ea // rorx r13d,r10d,0x19 + LONG $0xf07b43c4; WORD $0x0bfa // rorx r15d,r10d,0xb + LONG $0x310c8d42 // lea ecx,[rcx+r14*1] + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + LONG $0xf22862c4; BYTE $0xe0 // andn r12d,r10d,eax + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f2 // rorx r14d,r10d,0x6 + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xcf // mov r15d,ecx + LONG $0xf07b63c4; WORD $0x16e1 // rorx r12d,ecx,0x16 + LONG $0x2b1c8d42 // lea ebx,[rbx+r13*1] + WORD $0x3141; BYTE $0xd7 // xor r15d,edx + LONG $0xf07b63c4; WORD $0x0df1 // rorx r14d,ecx,0xd + LONG $0xf07b63c4; WORD $0x02e9 // rorx r13d,ecx,0x2 + LONG $0x190c8d45 // lea r9d,[r9+rbx*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xd731 // xor edi,edx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x1c8d; BYTE $0x3b // lea ebx,[rbx+rdi*1] + WORD $0x8945; BYTE $0xd4 // mov r12d,r10d + + // ROUND(BX, CX, DX, R8, R9, R10, R11, AX, R12, R13, R14, DI, R15, SP, 0x6c) + LONG $0x6c244403 // add eax,[rsp+0x6c] + WORD $0x2145; BYTE $0xcc // and r12d,r9d + LONG $0xf07b43c4; WORD $0x19e9 // rorx r13d,r9d,0x19 + LONG $0xf07bc3c4; WORD $0x0bf9 // rorx edi,r9d,0xb + LONG $0x331c8d42 // lea ebx,[rbx+r14*1] + LONG $0x20048d42 // lea eax,[rax+r12*1] + LONG $0xf23042c4; BYTE $0xe3 // andn r12d,r9d,r11d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f1 // rorx r14d,r9d,0x6 + LONG $0x20048d42 // lea eax,[rax+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xdf89 // mov edi,ebx + LONG $0xf07b63c4; WORD $0x16e3 // rorx r12d,ebx,0x16 + LONG $0x28048d42 // lea eax,[rax+r13*1] + WORD $0xcf31 // xor edi,ecx + LONG $0xf07b63c4; WORD $0x0df3 // rorx r14d,ebx,0xd + LONG $0xf07b63c4; WORD $0x02eb // rorx r13d,ebx,0x2 + LONG $0x00048d45 // lea r8d,[r8+rax*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xcf // xor r15d,ecx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d42 // lea eax,[rax+r15*1] + WORD $0x8945; BYTE $0xcc // mov r12d,r9d + + // ROUND(AX, BX, CX, DX, R8, R9, R10, R11, R12, R13, R14, R15, DI, SP, 0x00) + LONG $0x241c0344 // add r11d,[rsp] + WORD $0x2145; BYTE $0xc4 // and r12d,r8d + LONG $0xf07b43c4; WORD $0x19e8 // rorx r13d,r8d,0x19 + LONG $0xf07b43c4; WORD $0x0bf8 // rorx r15d,r8d,0xb + LONG $0x30048d42 // lea eax,[rax+r14*1] + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + LONG $0xf23842c4; BYTE $0xe2 // andn r12d,r8d,r10d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f0 // rorx r14d,r8d,0x6 + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xc7 // mov r15d,eax + LONG $0xf07b63c4; WORD $0x16e0 // rorx r12d,eax,0x16 + LONG $0x2b1c8d47 // lea r11d,[r11+r13*1] + WORD $0x3141; BYTE $0xdf // xor r15d,ebx + LONG $0xf07b63c4; WORD $0x0df0 // rorx r14d,eax,0xd + LONG $0xf07b63c4; WORD $0x02e8 // rorx r13d,eax,0x2 + LONG $0x1a148d42 // lea edx,[rdx+r11*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xdf31 // xor edi,ebx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3b1c8d45 // lea r11d,[r11+rdi*1] + WORD $0x8945; BYTE $0xc4 // mov r12d,r8d + + // ROUND(R11, AX, BX, CX, DX, R8, R9, R10, R12, R13, R14, DI, R15, SP, 0x04) + LONG $0x24540344; BYTE $0x04 // add r10d,[rsp+0x4] + WORD $0x2141; BYTE $0xd4 // and r12d,edx + LONG $0xf07b63c4; WORD $0x19ea // rorx r13d,edx,0x19 + LONG $0xf07be3c4; WORD $0x0bfa // rorx edi,edx,0xb + LONG $0x331c8d47 // lea r11d,[r11+r14*1] + LONG $0x22148d47 // lea r10d,[r10+r12*1] + LONG $0xf26842c4; BYTE $0xe1 // andn r12d,edx,r9d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f2 // rorx r14d,edx,0x6 + LONG $0x22148d47 // lea r10d,[r10+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xdf // mov edi,r11d + LONG $0xf07b43c4; WORD $0x16e3 // rorx r12d,r11d,0x16 + LONG $0x2a148d47 // lea r10d,[r10+r13*1] + WORD $0xc731 // xor edi,eax + LONG $0xf07b43c4; WORD $0x0df3 // rorx r14d,r11d,0xd + LONG $0xf07b43c4; WORD $0x02eb // rorx r13d,r11d,0x2 + LONG $0x110c8d42 // lea ecx,[rcx+r10*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xc7 // xor r15d,eax + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3a148d47 // lea r10d,[r10+r15*1] + WORD $0x8941; BYTE $0xd4 // mov r12d,edx + + // ROUND(R10, R11, AX, BX, CX, DX, R8, R9, R12, R13, R14, R15, DI, SP, 0x08) + LONG $0x244c0344; BYTE $0x08 // add r9d,[rsp+0x8] + WORD $0x2141; BYTE $0xcc // and r12d,ecx + LONG $0xf07b63c4; WORD $0x19e9 // rorx r13d,ecx,0x19 + LONG $0xf07b63c4; WORD $0x0bf9 // rorx r15d,ecx,0xb + LONG $0x32148d47 // lea r10d,[r10+r14*1] + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + LONG $0xf27042c4; BYTE $0xe0 // andn r12d,ecx,r8d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f1 // rorx r14d,ecx,0x6 + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xd7 // mov r15d,r10d + LONG $0xf07b43c4; WORD $0x16e2 // rorx r12d,r10d,0x16 + LONG $0x290c8d47 // lea r9d,[r9+r13*1] + WORD $0x3145; BYTE $0xdf // xor r15d,r11d + LONG $0xf07b43c4; WORD $0x0df2 // rorx r14d,r10d,0xd + LONG $0xf07b43c4; WORD $0x02ea // rorx r13d,r10d,0x2 + LONG $0x0b1c8d42 // lea ebx,[rbx+r9*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xdf // xor edi,r11d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d45 // lea r9d,[r9+rdi*1] + WORD $0x8941; BYTE $0xcc // mov r12d,ecx + + // ROUND(R9, R10, R11, AX, BX, CX, DX, R8, R12, R13, R14, DI, R15, SP, 0x0c) + LONG $0x24440344; BYTE $0x0c // add r8d,[rsp+0xc] + WORD $0x2141; BYTE $0xdc // and r12d,ebx + LONG $0xf07b63c4; WORD $0x19eb // rorx r13d,ebx,0x19 + LONG $0xf07be3c4; WORD $0x0bfb // rorx edi,ebx,0xb + LONG $0x310c8d47 // lea r9d,[r9+r14*1] + LONG $0x20048d47 // lea r8d,[r8+r12*1] + LONG $0xf26062c4; BYTE $0xe2 // andn r12d,ebx,edx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f3 // rorx r14d,ebx,0x6 + LONG $0x20048d47 // lea r8d,[r8+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xcf // mov edi,r9d + LONG $0xf07b43c4; WORD $0x16e1 // rorx r12d,r9d,0x16 + LONG $0x28048d47 // lea r8d,[r8+r13*1] + WORD $0x3144; BYTE $0xd7 // xor edi,r10d + LONG $0xf07b43c4; WORD $0x0df1 // rorx r14d,r9d,0xd + LONG $0xf07b43c4; WORD $0x02e9 // rorx r13d,r9d,0x2 + LONG $0x00048d42 // lea eax,[rax+r8*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xd7 // xor r15d,r10d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d47 // lea r8d,[r8+r15*1] + WORD $0x8941; BYTE $0xdc // mov r12d,ebx + + // ROUND(R8, R9, R10, R11, AX, BX, CX, DX, R12, R13, R14, R15, DI, SP, 0x20) + LONG $0x20245403 // add edx,[rsp+0x20] + WORD $0x2141; BYTE $0xc4 // and r12d,eax + LONG $0xf07b63c4; WORD $0x19e8 // rorx r13d,eax,0x19 + LONG $0xf07b63c4; WORD $0x0bf8 // rorx r15d,eax,0xb + LONG $0x30048d47 // lea r8d,[r8+r14*1] + LONG $0x22148d42 // lea edx,[rdx+r12*1] + LONG $0xf27862c4; BYTE $0xe1 // andn r12d,eax,ecx + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f0 // rorx r14d,eax,0x6 + LONG $0x22148d42 // lea edx,[rdx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xc7 // mov r15d,r8d + LONG $0xf07b43c4; WORD $0x16e0 // rorx r12d,r8d,0x16 + LONG $0x2a148d42 // lea edx,[rdx+r13*1] + WORD $0x3145; BYTE $0xcf // xor r15d,r9d + LONG $0xf07b43c4; WORD $0x0df0 // rorx r14d,r8d,0xd + LONG $0xf07b43c4; WORD $0x02e8 // rorx r13d,r8d,0x2 + LONG $0x131c8d45 // lea r11d,[r11+rdx*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xcf // xor edi,r9d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x148d; BYTE $0x3a // lea edx,[rdx+rdi*1] + WORD $0x8941; BYTE $0xc4 // mov r12d,eax + + // ROUND(DX, R8, R9, R10, R11, AX, BX, CX, R12, R13, R14, DI, R15, SP, 0x24) + LONG $0x24244c03 // add ecx,[rsp+0x24] + WORD $0x2145; BYTE $0xdc // and r12d,r11d + LONG $0xf07b43c4; WORD $0x19eb // rorx r13d,r11d,0x19 + LONG $0xf07bc3c4; WORD $0x0bfb // rorx edi,r11d,0xb + LONG $0x32148d42 // lea edx,[rdx+r14*1] + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + LONG $0xf22062c4; BYTE $0xe3 // andn r12d,r11d,ebx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f3 // rorx r14d,r11d,0x6 + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xd789 // mov edi,edx + LONG $0xf07b63c4; WORD $0x16e2 // rorx r12d,edx,0x16 + LONG $0x290c8d42 // lea ecx,[rcx+r13*1] + WORD $0x3144; BYTE $0xc7 // xor edi,r8d + LONG $0xf07b63c4; WORD $0x0df2 // rorx r14d,edx,0xd + LONG $0xf07b63c4; WORD $0x02ea // rorx r13d,edx,0x2 + LONG $0x0a148d45 // lea r10d,[r10+rcx*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xc7 // xor r15d,r8d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d42 // lea ecx,[rcx+r15*1] + WORD $0x8945; BYTE $0xdc // mov r12d,r11d + + // ROUND(CX, DX, R8, R9, R10, R11, AX, BX, R12, R13, R14, R15, DI, SP, 0x28) + LONG $0x28245c03 // add ebx,[rsp+0x28] + WORD $0x2145; BYTE $0xd4 // and r12d,r10d + LONG $0xf07b43c4; WORD $0x19ea // rorx r13d,r10d,0x19 + LONG $0xf07b43c4; WORD $0x0bfa // rorx r15d,r10d,0xb + LONG $0x310c8d42 // lea ecx,[rcx+r14*1] + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + LONG $0xf22862c4; BYTE $0xe0 // andn r12d,r10d,eax + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f2 // rorx r14d,r10d,0x6 + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xcf // mov r15d,ecx + LONG $0xf07b63c4; WORD $0x16e1 // rorx r12d,ecx,0x16 + LONG $0x2b1c8d42 // lea ebx,[rbx+r13*1] + WORD $0x3141; BYTE $0xd7 // xor r15d,edx + LONG $0xf07b63c4; WORD $0x0df1 // rorx r14d,ecx,0xd + LONG $0xf07b63c4; WORD $0x02e9 // rorx r13d,ecx,0x2 + LONG $0x190c8d45 // lea r9d,[r9+rbx*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xd731 // xor edi,edx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x1c8d; BYTE $0x3b // lea ebx,[rbx+rdi*1] + WORD $0x8945; BYTE $0xd4 // mov r12d,r10d + + // ROUND(BX, CX, DX, R8, R9, R10, R11, AX, R12, R13, R14, DI, R15, SP, 0x2c) + LONG $0x2c244403 // add eax,[rsp+0x2c] + WORD $0x2145; BYTE $0xcc // and r12d,r9d + LONG $0xf07b43c4; WORD $0x19e9 // rorx r13d,r9d,0x19 + LONG $0xf07bc3c4; WORD $0x0bf9 // rorx edi,r9d,0xb + LONG $0x331c8d42 // lea ebx,[rbx+r14*1] + LONG $0x20048d42 // lea eax,[rax+r12*1] + LONG $0xf23042c4; BYTE $0xe3 // andn r12d,r9d,r11d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f1 // rorx r14d,r9d,0x6 + LONG $0x20048d42 // lea eax,[rax+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xdf89 // mov edi,ebx + LONG $0xf07b63c4; WORD $0x16e3 // rorx r12d,ebx,0x16 + LONG $0x28048d42 // lea eax,[rax+r13*1] + WORD $0xcf31 // xor edi,ecx + LONG $0xf07b63c4; WORD $0x0df3 // rorx r14d,ebx,0xd + LONG $0xf07b63c4; WORD $0x02eb // rorx r13d,ebx,0x2 + LONG $0x00048d45 // lea r8d,[r8+rax*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xcf // xor r15d,ecx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d42 // lea eax,[rax+r15*1] + WORD $0x8945; BYTE $0xcc // mov r12d,r9d + + MOVQ 0x200(SP), DI // $_ctx + ADDQ R14, AX + + LEAQ 0x1c0(SP), BP + + ADDL (DI), AX + ADDL 4(DI), BX + ADDL 8(DI), CX + ADDL 12(DI), DX + ADDL 16(DI), R8 + ADDL 20(DI), R9 + ADDL 24(DI), R10 + ADDL 28(DI), R11 + + MOVL AX, (DI) + MOVL BX, 4(DI) + MOVL CX, 8(DI) + MOVL DX, 12(DI) + MOVL R8, 16(DI) + MOVL R9, 20(DI) + MOVL R10, 24(DI) + MOVL R11, 28(DI) + + CMPQ SI, 0x50(BP) // $_end + JE done + + XORQ R14, R14 + MOVQ BX, DI + XORQ CX, DI // magic + MOVQ R9, R12 + +loop2: + // ROUND(AX, BX, CX, DX, R8, R9, R10, R11, R12, R13, R14, R15, DI, BP, 0x10) + LONG $0x105d0344 // add r11d,[rbp+0x10] + WORD $0x2145; BYTE $0xc4 // and r12d,r8d + LONG $0xf07b43c4; WORD $0x19e8 // rorx r13d,r8d,0x19 + LONG $0xf07b43c4; WORD $0x0bf8 // rorx r15d,r8d,0xb + LONG $0x30048d42 // lea eax,[rax+r14*1] + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + LONG $0xf23842c4; BYTE $0xe2 // andn r12d,r8d,r10d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f0 // rorx r14d,r8d,0x6 + LONG $0x231c8d47 // lea r11d,[r11+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xc7 // mov r15d,eax + LONG $0xf07b63c4; WORD $0x16e0 // rorx r12d,eax,0x16 + LONG $0x2b1c8d47 // lea r11d,[r11+r13*1] + WORD $0x3141; BYTE $0xdf // xor r15d,ebx + LONG $0xf07b63c4; WORD $0x0df0 // rorx r14d,eax,0xd + LONG $0xf07b63c4; WORD $0x02e8 // rorx r13d,eax,0x2 + LONG $0x1a148d42 // lea edx,[rdx+r11*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xdf31 // xor edi,ebx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3b1c8d45 // lea r11d,[r11+rdi*1] + WORD $0x8945; BYTE $0xc4 // mov r12d,r8d + + // ROUND(R11, AX, BX, CX, DX, R8, R9, R10, R12, R13, R14, DI, R15, BP, 0x14) + LONG $0x14550344 // add r10d,[rbp+0x14] + WORD $0x2141; BYTE $0xd4 // and r12d,edx + LONG $0xf07b63c4; WORD $0x19ea // rorx r13d,edx,0x19 + LONG $0xf07be3c4; WORD $0x0bfa // rorx edi,edx,0xb + LONG $0x331c8d47 // lea r11d,[r11+r14*1] + LONG $0x22148d47 // lea r10d,[r10+r12*1] + LONG $0xf26842c4; BYTE $0xe1 // andn r12d,edx,r9d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f2 // rorx r14d,edx,0x6 + LONG $0x22148d47 // lea r10d,[r10+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xdf // mov edi,r11d + LONG $0xf07b43c4; WORD $0x16e3 // rorx r12d,r11d,0x16 + LONG $0x2a148d47 // lea r10d,[r10+r13*1] + WORD $0xc731 // xor edi,eax + LONG $0xf07b43c4; WORD $0x0df3 // rorx r14d,r11d,0xd + LONG $0xf07b43c4; WORD $0x02eb // rorx r13d,r11d,0x2 + LONG $0x110c8d42 // lea ecx,[rcx+r10*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xc7 // xor r15d,eax + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x3a148d47 // lea r10d,[r10+r15*1] + WORD $0x8941; BYTE $0xd4 // mov r12d,edx + + // ROUND(R10, R11, AX, BX, CX, DX, R8, R9, R12, R13, R14, R15, DI, BP, 0x18) + LONG $0x184d0344 // add r9d,[rbp+0x18] + WORD $0x2141; BYTE $0xcc // and r12d,ecx + LONG $0xf07b63c4; WORD $0x19e9 // rorx r13d,ecx,0x19 + LONG $0xf07b63c4; WORD $0x0bf9 // rorx r15d,ecx,0xb + LONG $0x32148d47 // lea r10d,[r10+r14*1] + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + LONG $0xf27042c4; BYTE $0xe0 // andn r12d,ecx,r8d + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f1 // rorx r14d,ecx,0x6 + LONG $0x210c8d47 // lea r9d,[r9+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xd7 // mov r15d,r10d + LONG $0xf07b43c4; WORD $0x16e2 // rorx r12d,r10d,0x16 + LONG $0x290c8d47 // lea r9d,[r9+r13*1] + WORD $0x3145; BYTE $0xdf // xor r15d,r11d + LONG $0xf07b43c4; WORD $0x0df2 // rorx r14d,r10d,0xd + LONG $0xf07b43c4; WORD $0x02ea // rorx r13d,r10d,0x2 + LONG $0x0b1c8d42 // lea ebx,[rbx+r9*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xdf // xor edi,r11d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d45 // lea r9d,[r9+rdi*1] + WORD $0x8941; BYTE $0xcc // mov r12d,ecx + + // ROUND(R9, R10, R11, AX, BX, CX, DX, R8, R12, R13, R14, DI, R15, BP, 0x1c) + LONG $0x1c450344 // add r8d,[rbp+0x1c] + WORD $0x2141; BYTE $0xdc // and r12d,ebx + LONG $0xf07b63c4; WORD $0x19eb // rorx r13d,ebx,0x19 + LONG $0xf07be3c4; WORD $0x0bfb // rorx edi,ebx,0xb + LONG $0x310c8d47 // lea r9d,[r9+r14*1] + LONG $0x20048d47 // lea r8d,[r8+r12*1] + LONG $0xf26062c4; BYTE $0xe2 // andn r12d,ebx,edx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b63c4; WORD $0x06f3 // rorx r14d,ebx,0x6 + LONG $0x20048d47 // lea r8d,[r8+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8944; BYTE $0xcf // mov edi,r9d + LONG $0xf07b43c4; WORD $0x16e1 // rorx r12d,r9d,0x16 + LONG $0x28048d47 // lea r8d,[r8+r13*1] + WORD $0x3144; BYTE $0xd7 // xor edi,r10d + LONG $0xf07b43c4; WORD $0x0df1 // rorx r14d,r9d,0xd + LONG $0xf07b43c4; WORD $0x02e9 // rorx r13d,r9d,0x2 + LONG $0x00048d42 // lea eax,[rax+r8*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xd7 // xor r15d,r10d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d47 // lea r8d,[r8+r15*1] + WORD $0x8941; BYTE $0xdc // mov r12d,ebx + + // ROUND(R8, R9, R10, R11, AX, BX, CX, DX, R12, R13, R14, R15, DI, BP, 0x30) + WORD $0x5503; BYTE $0x30 // add edx,[rbp+0x30] + WORD $0x2141; BYTE $0xc4 // and r12d,eax + LONG $0xf07b63c4; WORD $0x19e8 // rorx r13d,eax,0x19 + LONG $0xf07b63c4; WORD $0x0bf8 // rorx r15d,eax,0xb + LONG $0x30048d47 // lea r8d,[r8+r14*1] + LONG $0x22148d42 // lea edx,[rdx+r12*1] + LONG $0xf27862c4; BYTE $0xe1 // andn r12d,eax,ecx + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b63c4; WORD $0x06f0 // rorx r14d,eax,0x6 + LONG $0x22148d42 // lea edx,[rdx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8945; BYTE $0xc7 // mov r15d,r8d + LONG $0xf07b43c4; WORD $0x16e0 // rorx r12d,r8d,0x16 + LONG $0x2a148d42 // lea edx,[rdx+r13*1] + WORD $0x3145; BYTE $0xcf // xor r15d,r9d + LONG $0xf07b43c4; WORD $0x0df0 // rorx r14d,r8d,0xd + LONG $0xf07b43c4; WORD $0x02e8 // rorx r13d,r8d,0x2 + LONG $0x131c8d45 // lea r11d,[r11+rdx*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3144; BYTE $0xcf // xor edi,r9d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x148d; BYTE $0x3a // lea edx,[rdx+rdi*1] + WORD $0x8941; BYTE $0xc4 // mov r12d,eax + + // ROUND(DX, R8, R9, R10, R11, AX, BX, CX, R12, R13, R14, DI, R15, BP, 0x34) + WORD $0x4d03; BYTE $0x34 // add ecx,[rbp+0x34] + WORD $0x2145; BYTE $0xdc // and r12d,r11d + LONG $0xf07b43c4; WORD $0x19eb // rorx r13d,r11d,0x19 + LONG $0xf07bc3c4; WORD $0x0bfb // rorx edi,r11d,0xb + LONG $0x32148d42 // lea edx,[rdx+r14*1] + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + LONG $0xf22062c4; BYTE $0xe3 // andn r12d,r11d,ebx + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f3 // rorx r14d,r11d,0x6 + LONG $0x210c8d42 // lea ecx,[rcx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xd789 // mov edi,edx + LONG $0xf07b63c4; WORD $0x16e2 // rorx r12d,edx,0x16 + LONG $0x290c8d42 // lea ecx,[rcx+r13*1] + WORD $0x3144; BYTE $0xc7 // xor edi,r8d + LONG $0xf07b63c4; WORD $0x0df2 // rorx r14d,edx,0xd + LONG $0xf07b63c4; WORD $0x02ea // rorx r13d,edx,0x2 + LONG $0x0a148d45 // lea r10d,[r10+rcx*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3145; BYTE $0xc7 // xor r15d,r8d + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x390c8d42 // lea ecx,[rcx+r15*1] + WORD $0x8945; BYTE $0xdc // mov r12d,r11d + + // ROUND(CX, DX, R8, R9, R10, R11, AX, BX, R12, R13, R14, R15, DI, BP, 0x38) + WORD $0x5d03; BYTE $0x38 // add ebx,[rbp+0x38] + WORD $0x2145; BYTE $0xd4 // and r12d,r10d + LONG $0xf07b43c4; WORD $0x19ea // rorx r13d,r10d,0x19 + LONG $0xf07b43c4; WORD $0x0bfa // rorx r15d,r10d,0xb + LONG $0x310c8d42 // lea ecx,[rcx+r14*1] + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + LONG $0xf22862c4; BYTE $0xe0 // andn r12d,r10d,eax + WORD $0x3145; BYTE $0xfd // xor r13d,r15d + LONG $0xf07b43c4; WORD $0x06f2 // rorx r14d,r10d,0x6 + LONG $0x231c8d42 // lea ebx,[rbx+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0x8941; BYTE $0xcf // mov r15d,ecx + LONG $0xf07b63c4; WORD $0x16e1 // rorx r12d,ecx,0x16 + LONG $0x2b1c8d42 // lea ebx,[rbx+r13*1] + WORD $0x3141; BYTE $0xd7 // xor r15d,edx + LONG $0xf07b63c4; WORD $0x0df1 // rorx r14d,ecx,0xd + LONG $0xf07b63c4; WORD $0x02e9 // rorx r13d,ecx,0x2 + LONG $0x190c8d45 // lea r9d,[r9+rbx*1] + WORD $0x2144; BYTE $0xff // and edi,r15d + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0xd731 // xor edi,edx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + WORD $0x1c8d; BYTE $0x3b // lea ebx,[rbx+rdi*1] + WORD $0x8945; BYTE $0xd4 // mov r12d,r10d + + // ROUND(BX, CX, DX, R8, R9, R10, R11, AX, R12, R13, R14, DI, R15, BP, 0x3c) + WORD $0x4503; BYTE $0x3c // add eax,[rbp+0x3c] + WORD $0x2145; BYTE $0xcc // and r12d,r9d + LONG $0xf07b43c4; WORD $0x19e9 // rorx r13d,r9d,0x19 + LONG $0xf07bc3c4; WORD $0x0bf9 // rorx edi,r9d,0xb + LONG $0x331c8d42 // lea ebx,[rbx+r14*1] + LONG $0x20048d42 // lea eax,[rax+r12*1] + LONG $0xf23042c4; BYTE $0xe3 // andn r12d,r9d,r11d + WORD $0x3141; BYTE $0xfd // xor r13d,edi + LONG $0xf07b43c4; WORD $0x06f1 // rorx r14d,r9d,0x6 + LONG $0x20048d42 // lea eax,[rax+r12*1] + WORD $0x3145; BYTE $0xf5 // xor r13d,r14d + WORD $0xdf89 // mov edi,ebx + LONG $0xf07b63c4; WORD $0x16e3 // rorx r12d,ebx,0x16 + LONG $0x28048d42 // lea eax,[rax+r13*1] + WORD $0xcf31 // xor edi,ecx + LONG $0xf07b63c4; WORD $0x0df3 // rorx r14d,ebx,0xd + LONG $0xf07b63c4; WORD $0x02eb // rorx r13d,ebx,0x2 + LONG $0x00048d45 // lea r8d,[r8+rax*1] + WORD $0x2141; BYTE $0xff // and r15d,edi + WORD $0x3145; BYTE $0xe6 // xor r14d,r12d + WORD $0x3141; BYTE $0xcf // xor r15d,ecx + WORD $0x3145; BYTE $0xee // xor r14d,r13d + LONG $0x38048d42 // lea eax,[rax+r15*1] + WORD $0x8945; BYTE $0xcc // mov r12d,r9d + + ADDQ $-0x40, BP + CMPQ BP, SP + JAE loop2 + + MOVQ 0x200(SP), DI // $_ctx + ADDQ R14, AX + + ADDQ $0x1c0, SP + + ADDL (DI), AX + ADDL 4(DI), BX + ADDL 8(DI), CX + ADDL 12(DI), DX + ADDL 16(DI), R8 + ADDL 20(DI), R9 + + ADDQ $0x80, SI // input += 2 + ADDL 24(DI), R10 + MOVQ SI, R12 + ADDL 28(DI), R11 + CMPQ SI, 0x50(SP) // input == _end + + MOVL AX, (DI) + LONG $0xe4440f4c // cmove r12,rsp /* next block or stale data */ + MOVL AX, (DI) + MOVL BX, 4(DI) + MOVL CX, 8(DI) + MOVL DX, 12(DI) + MOVL R8, 16(DI) + MOVL R9, 20(DI) + MOVL R10, 24(DI) + MOVL R11, 28(DI) + + JBE loop0 + LEAQ (SP), BP + +done: + MOVQ BP, SP + MOVQ 0x58(SP), SP // restore saved stack pointer + WORD $0xf8c5; BYTE $0x77 // vzeroupper + + RET + |