#!/bin/sh # We don't regenerate it on every "make" invocation - only by hand. # The reason is that the changes to generated code are difficult # to visualize by looking only at this script, it helps when the commit # also contains the diff of the generated file. exec >hash_md5_sha_x86-64.S echo \ '### Generated by hash_md5_sha_x86-64.S.sh ### #if CONFIG_SHA1_SMALL == 0 && defined(__GNUC__) && defined(__x86_64__) .section .text.sha1_process_block64,"ax",@progbits .globl sha1_process_block64 .hidden sha1_process_block64 .type sha1_process_block64, @function .balign 8 # allow decoders to fetch at least 4 first insns sha1_process_block64: pushq %r15 # pushq %r14 # pushq %r13 # pushq %r12 # pushq %rbp # pushq %rbx # pushq %rdi # we need ctx at the end #Register and stack use: # eax..edx: a..d # ebp: e # esi,edi: temps # -32+4*n(%rsp),r8...r15: W[0..7,8..15] # (TODO: actually W[0..7] are used a bit more often, put _them_ into r8..r15?) movq 4*8(%rdi), %r8 bswapq %r8 movl %r8d, %r9d shrq $32, %r8 movq 4*10(%rdi), %r10 bswapq %r10 movl %r10d, %r11d shrq $32, %r10 movq 4*12(%rdi), %r12 bswapq %r12 movl %r12d, %r13d shrq $32, %r12 movq 4*14(%rdi), %r14 bswapq %r14 movl %r14d, %r15d shrq $32, %r14 movl $3, %eax 1: movq (%rdi,%rax,8), %rsi bswapq %rsi rolq $32, %rsi movq %rsi, -32(%rsp,%rax,8) decl %eax jns 1b movl 80(%rdi), %eax # a = ctx->hash[0] movl 84(%rdi), %ebx # b = ctx->hash[1] movl 88(%rdi), %ecx # c = ctx->hash[2] movl 92(%rdi), %edx # d = ctx->hash[3] movl 96(%rdi), %ebp # e = ctx->hash[4] ' W32() { test "$1" || exit 1 test "$1" -lt 0 && exit 1 test "$1" -gt 15 && exit 1 test "$1" -lt 8 && echo "-32+4*$1(%rsp)" test "$1" -ge 8 && echo "%r${1}d" } RD1A() { local a=$1;local b=$2;local c=$3;local d=$4;local e=$5 local n=$(($6)) local n0=$(((n+0) & 15)) echo " # $n ";test $n0 = 0 && echo " # W[0], already in %esi ";test $n0 != 0 && test $n0 -lt 8 && echo " movl `W32 $n0`, %esi # W[n] ";test $n0 -ge 8 && echo " # W[n], in %r$n0 ";echo " movl %e$c, %edi # c xorl %e$d, %edi # ^d andl %e$b, %edi # &b xorl %e$d, %edi # (((c ^ d) & b) ^ d) ";test $n0 -lt 8 && echo " leal $RCONST(%r$e,%rsi), %e$e # e += RCONST + W[n] ";test $n0 -ge 8 && echo " leal $RCONST(%r$e,%r$n0), %e$e # e += RCONST + W[n] ";echo " addl %edi, %e$e # e += (((c ^ d) & b) ^ d) movl %e$a, %esi # roll \$5, %esi # rotl32(a,5) addl %esi, %e$e # e += rotl32(a,5) rorl \$2, %e$b # b = rotl32(b,30) " } RD1B() { local a=$1;local b=$2;local c=$3;local d=$4;local e=$5 local n=$(($6)) local n13=$(((n+13) & 15)) local n8=$(((n+8) & 15)) local n2=$(((n+2) & 15)) local n0=$(((n+0) & 15)) echo " # $n ";test $n0 -lt 8 && echo " movl `W32 $n13`, %esi # W[(n+13) & 15] xorl `W32 $n8`, %esi # ^W[(n+8) & 15] xorl `W32 $n2`, %esi # ^W[(n+2) & 15] xorl `W32 $n0`, %esi # ^W[n & 15] roll %esi # movl %esi, `W32 $n0` # store to W[n & 15] ";test $n0 -ge 8 && echo " xorl `W32 $n13`, `W32 $n0` # W[n & 15] ^= W[(n+13) & 15] xorl `W32 $n8`, `W32 $n0` # ^W[(n+8) & 15] xorl `W32 $n2`, `W32 $n0` # ^W[(n+2) & 15] roll `W32 $n0` # ";echo " movl %e$c, %edi # c xorl %e$d, %edi # ^d andl %e$b, %edi # &b xorl %e$d, %edi # (((c ^ d) & b) ^ d) ";test $n0 -lt 8 && echo " leal $RCONST(%r$e,%rsi), %e$e # e += RCONST + W[n & 15] ";test $n0 -ge 8 && echo " leal $RCONST(%r$e,%r$n0), %e$e # e += RCONST + W[n & 15] ";echo " addl %edi, %e$e # e += (((c ^ d) & b) ^ d) movl %e$a, %esi # roll \$5, %esi # rotl32(a,5) addl %esi, %e$e # e += rotl32(a,5) rorl \$2, %e$b # b = rotl32(b,30) " } { RCONST=0x5A827999 RD1A ax bx cx dx bp 0; RD1A bp ax bx cx dx 1; RD1A dx bp ax bx cx 2; RD1A cx dx bp ax bx 3; RD1A bx cx dx bp ax 4 RD1A ax bx cx dx bp 5; RD1A bp ax bx cx dx 6; RD1A dx bp ax bx cx 7; RD1A cx dx bp ax bx 8; RD1A bx cx dx bp ax 9 RD1A ax bx cx dx bp 10; RD1A bp ax bx cx dx 11; RD1A dx bp ax bx cx 12; RD1A cx dx bp ax bx 13; RD1A bx cx dx bp ax 14 RD1A ax bx cx dx bp 15; RD1B bp ax bx cx dx 16; RD1B dx bp ax bx cx 17; RD1B cx dx bp ax bx 18; RD1B bx cx dx bp ax 19 } | grep -v '^$' RD2() { local a=$1;local b=$2;local c=$3;local d=$4;local e=$5 local n=$(($6)) local n13=$(((n+13) & 15)) local n8=$(((n+8) & 15)) local n2=$(((n+2) & 15)) local n0=$(((n+0) & 15)) echo " # $n ";test $n0 -lt 8 && echo " movl `W32 $n13`, %esi # W[(n+13) & 15] xorl `W32 $n8`, %esi # ^W[(n+8) & 15] xorl `W32 $n2`, %esi # ^W[(n+2) & 15] xorl `W32 $n0`, %esi # ^W[n & 15] roll %esi # movl %esi, `W32 $n0` # store to W[n & 15] ";test $n0 -ge 8 && echo " xorl `W32 $n13`, `W32 $n0` # W[n & 15] ^= W[(n+13) & 15] xorl `W32 $n8`, `W32 $n0` # ^W[(n+8) & 15] xorl `W32 $n2`, `W32 $n0` # ^W[(n+2) & 15] roll `W32 $n0` # ";echo " movl %e$c, %edi # c xorl %e$d, %edi # ^d xorl %e$b, %edi # ^b ";test $n0 -lt 8 && echo " leal $RCONST(%r$e,%rsi), %e$e # e += RCONST + W[n & 15] ";test $n0 -ge 8 && echo " leal $RCONST(%r$e,%r$n0), %e$e # e += RCONST + W[n & 15] ";echo " addl %edi, %e$e # e += (c ^ d ^ b) movl %e$a, %esi # roll \$5, %esi # rotl32(a,5) addl %esi, %e$e # e += rotl32(a,5) rorl \$2, %e$b # b = rotl32(b,30) " } { RCONST=0x6ED9EBA1 RD2 ax bx cx dx bp 20; RD2 bp ax bx cx dx 21; RD2 dx bp ax bx cx 22; RD2 cx dx bp ax bx 23; RD2 bx cx dx bp ax 24 RD2 ax bx cx dx bp 25; RD2 bp ax bx cx dx 26; RD2 dx bp ax bx cx 27; RD2 cx dx bp ax bx 28; RD2 bx cx dx bp ax 29 RD2 ax bx cx dx bp 30; RD2 bp ax bx cx dx 31; RD2 dx bp ax bx cx 32; RD2 cx dx bp ax bx 33; RD2 bx cx dx bp ax 34 RD2 ax bx cx dx bp 35; RD2 bp ax bx cx dx 36; RD2 dx bp ax bx cx 37; RD2 cx dx bp ax bx 38; RD2 bx cx dx bp ax 39 } | grep -v '^$' RD3() { local a=$1;local b=$2;local c=$3;local d=$4;local e=$5 local n=$(($6)) local n13=$(((n+13) & 15)) local n8=$(((n+8) & 15)) local n2=$(((n+2) & 15)) local n0=$(((n+0) & 15)) echo " # $n movl %e$b, %edi # di: b movl %e$b, %esi # si: b orl %e$c, %edi # di: b | c andl %e$c, %esi # si: b & c andl %e$d, %edi # di: (b | c) & d orl %esi, %edi # ((b | c) & d) | (b & c) ";test $n0 -lt 8 && echo " movl `W32 $n13`, %esi # W[(n+13) & 15] xorl `W32 $n8`, %esi # ^W[(n+8) & 15] xorl `W32 $n2`, %esi # ^W[(n+2) & 15] xorl `W32 $n0`, %esi # ^W[n & 15] roll %esi # movl %esi, `W32 $n0` # store to W[n & 15] ";test $n0 -ge 8 && echo " xorl `W32 $n13`, `W32 $n0` # W[n & 15] ^= W[(n+13) & 15] xorl `W32 $n8`, `W32 $n0` # ^W[(n+8) & 15] xorl `W32 $n2`, `W32 $n0` # ^W[(n+2) & 15] roll `W32 $n0` # ";echo " addl %edi, %e$e # += ((b | c) & d) | (b & c) ";test $n0 -lt 8 && echo " leal $RCONST(%r$e,%rsi), %e$e # e += RCONST + W[n & 15] ";test $n0 -ge 8 && echo " leal $RCONST(%r$e,%r$n0), %e$e # e += RCONST + W[n & 15] ";echo " movl %e$a, %esi # roll \$5, %esi # rotl32(a,5) addl %esi, %e$e # e += rotl32(a,5) rorl \$2, %e$b # b = rotl32(b,30) " } { #RCONST=0x8F1BBCDC "out of range for signed 32bit displacement" RCONST=-0x70E44324 RD3 ax bx cx dx bp 40; RD3 bp ax bx cx dx 41; RD3 dx bp ax bx cx 42; RD3 cx dx bp ax bx 43; RD3 bx cx dx bp ax 44 RD3 ax bx cx dx bp 45; RD3 bp ax bx cx dx 46; RD3 dx bp ax bx cx 47; RD3 cx dx bp ax bx 48; RD3 bx cx dx bp ax 49 RD3 ax bx cx dx bp 50; RD3 bp ax bx cx dx 51; RD3 dx bp ax bx cx 52; RD3 cx dx bp ax bx 53; RD3 bx cx dx bp ax 54 RD3 ax bx cx dx bp 55; RD3 bp ax bx cx dx 56; RD3 dx bp ax bx cx 57; RD3 cx dx bp ax bx 58; RD3 bx cx dx bp ax 59 } | grep -v '^$' # Round 4 has the same logic as round 2, only n and RCONST are different { #RCONST=0xCA62C1D6 "out of range for signed 32bit displacement" RCONST=-0x359D3E2A RD2 ax bx cx dx bp 60; RD2 bp ax bx cx dx 61; RD2 dx bp ax bx cx 62; RD2 cx dx bp ax bx 63; RD2 bx cx dx bp ax 64 RD2 ax bx cx dx bp 65; RD2 bp ax bx cx dx 66; RD2 dx bp ax bx cx 67; RD2 cx dx bp ax bx 68; RD2 bx cx dx bp ax 69 RD2 ax bx cx dx bp 70; RD2 bp ax bx cx dx 71; RD2 dx bp ax bx cx 72; RD2 cx dx bp ax bx 73; RD2 bx cx dx bp ax 74 RD2 ax bx cx dx bp 75; RD2 bp ax bx cx dx 76; RD2 dx bp ax bx cx 77; RD2 cx dx bp ax bx 78; RD2 bx cx dx bp ax 79 # Note: new W[n&15] values generated in last 3 iterations # (W[13,14,15]) are unused after each of these iterations. # Since we use r8..r15 for W[8..15], this does not matter. # If we switch to e.g. using r8..r15 for W[0..7], then saving of W[13,14,15] # (the "movl %esi, `W32 $n0`" insn) is a dead store and can be removed. } | grep -v '^$' echo " popq %rdi # addl %eax, 80(%rdi) # ctx->hash[0] += a addl %ebx, 84(%rdi) # ctx->hash[1] += b addl %ecx, 88(%rdi) # ctx->hash[2] += c addl %edx, 92(%rdi) # ctx->hash[3] += d addl %ebp, 96(%rdi) # ctx->hash[4] += e popq %rbx # popq %rbp # popq %r12 # popq %r13 # popq %r14 # popq %r15 # ret .size sha1_process_block64, .-sha1_process_block64 #endif"