#!/usr/bin/env perl # Copyright 2018 The OpenSSL Project Authors. All Rights Reserved. # # Licensed under the OpenSSL license (the "License"). You may not use # this file except in compliance with the License. You can obtain a copy # in the file LICENSE in the source distribution or at # https://www.openssl.org/source/license.html # # ==================================================================== # Written by Andy Polyakov for the OpenSSL # project. The module is, however, dual licensed under OpenSSL and # CRYPTOGAMS licenses depending on where you obtain it. For further # details see http://www.openssl.org/~appro/cryptogams/. # ==================================================================== # # X25519 lower-level primitives for x86_86. # # February 2018. # # This module implements radix 2^51 multiplication and squaring, and # radix 2^64 multiplication, squaring, addition, subtraction and final # reduction. Latter radix is used on ADCX/ADOX-capable processors such # as Broadwell. On related note one should mention that there are # vector implementations that provide significantly better performance # on some processors(*), but they are large and overly complex. Which # in combination with them being effectively processor-specific makes # the undertaking hard to justify. The goal for this implementation # is rather versatility and simplicity [and ultimately formal # verification]. # # (*) For example sandy2x should provide ~30% improvement on Sandy # Bridge, but only nominal ~5% on Haswell [and big loss on # Broadwell and successors]. # ###################################################################### # Improvement coefficients: # # amd64-51(*) gcc-5.x(**) # # P4 +22% +40% # Sandy Bridge -3% +11% # Haswell -1% +13% # Broadwell(***) +30% +35% # Skylake(***) +33% +47% # Silvermont +20% +26% # Goldmont +40% +50% # Bulldozer +20% +9% # Ryzen(***) +43% +40% # VIA +170% +120% # # (*) amd64-51 is popular assembly implementation with 2^51 radix, # only multiplication and squaring subroutines were linked # for comparison, but not complete ladder step; gain on most # processors is because this module refrains from shld, and # minor regression on others is because this does result in # higher instruction count; # (**) compiler is free to inline functions, in assembly one would # need to implement ladder step to do that, and it will improve # performance by several percent; # (***) ADCX/ADOX result for 2^64 radix, there is no corresponding # C implementation, so that comparison is always against # 2^51 radix; $flavour = shift; $output = shift; if ($flavour =~ /\./) { $output = $flavour; undef $flavour; } $win64=0; $win64=1 if ($flavour =~ /[nm]asm|mingw64/ || $output =~ /\.asm$/); $0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1; ( $xlate="${dir}x86_64-xlate.pl" and -f $xlate ) or ( $xlate="${dir}../../perlasm/x86_64-xlate.pl" and -f $xlate) or die "can't locate x86_64-xlate.pl"; open OUT,"| \"$^X\" \"$xlate\" $flavour \"$output\""; *STDOUT=*OUT; if (`$ENV{CC} -Wa,-v -c -o /dev/null -x assembler /dev/null 2>&1` =~ /GNU assembler version ([2-9]\.[0-9]+)/) { $addx = ($1>=2.23); } if (!$addx && $win64 && ($flavour =~ /nasm/ || $ENV{ASM} =~ /nasm/) && `nasm -v 2>&1` =~ /NASM version ([2-9]\.[0-9]+)/) { $addx = ($1>=2.10); } if (!$addx && $win64 && ($flavour =~ /masm/ || $ENV{ASM} =~ /ml64/) && `ml64 2>&1` =~ /Version ([0-9]+)\./) { $addx = ($1>=12); } if (!$addx && `$ENV{CC} -v 2>&1` =~ /((?:^clang|LLVM) version|.*based on LLVM) ([3-9])\.([0-9]+)/) { my $ver = $2 + $3/100.0; # 3.1->3.01, 3.10->3.10 $addx = ($ver>=3.03); } $code.=<<___; .text .globl x25519_fe51_mul .type x25519_fe51_mul,\@function,3 .align 32 x25519_fe51_mul: .cfi_startproc push %rbp .cfi_push %rbp push %rbx .cfi_push %rbx push %r12 .cfi_push %r12 push %r13 .cfi_push %r13 push %r14 .cfi_push %r14 push %r15 .cfi_push %r15 lea -8*5(%rsp),%rsp .cfi_adjust_cfa_offset 40 .Lfe51_mul_body: mov 8*0(%rsi),%rax # f[0] mov 8*0(%rdx),%r11 # load g[0-4] mov 8*1(%rdx),%r12 mov 8*2(%rdx),%r13 mov 8*3(%rdx),%rbp mov 8*4(%rdx),%r14 mov %rdi,8*4(%rsp) # offload 1st argument mov %rax,%rdi mulq %r11 # f[0]*g[0] mov %r11,8*0(%rsp) # offload g[0] mov %rax,%rbx # %rbx:%rcx = h0 mov %rdi,%rax mov %rdx,%rcx mulq %r12 # f[0]*g[1] mov %r12,8*1(%rsp) # offload g[1] mov %rax,%r8 # %r8:%r9 = h1 mov %rdi,%rax lea (%r14,%r14,8),%r15 mov %rdx,%r9 mulq %r13 # f[0]*g[2] mov %r13,8*2(%rsp) # offload g[2] mov %rax,%r10 # %r10:%r11 = h2 mov %rdi,%rax lea (%r14,%r15,2),%rdi # g[4]*19 mov %rdx,%r11 mulq %rbp # f[0]*g[3] mov %rax,%r12 # %r12:%r13 = h3 mov 8*0(%rsi),%rax # f[0] mov %rdx,%r13 mulq %r14 # f[0]*g[4] mov %rax,%r14 # %r14:%r15 = h4 mov 8*1(%rsi),%rax # f[1] mov %rdx,%r15 mulq %rdi # f[1]*g[4]*19 add %rax,%rbx mov 8*2(%rsi),%rax # f[2] adc %rdx,%rcx mulq %rdi # f[2]*g[4]*19 add %rax,%r8 mov 8*3(%rsi),%rax # f[3] adc %rdx,%r9 mulq %rdi # f[3]*g[4]*19 add %rax,%r10 mov 8*4(%rsi),%rax # f[4] adc %rdx,%r11 mulq %rdi # f[4]*g[4]*19 imulq \$19,%rbp,%rdi # g[3]*19 add %rax,%r12 mov 8*1(%rsi),%rax # f[1] adc %rdx,%r13 mulq %rbp # f[1]*g[3] mov 8*2(%rsp),%rbp # g[2] add %rax,%r14 mov 8*2(%rsi),%rax # f[2] adc %rdx,%r15 mulq %rdi # f[2]*g[3]*19 add %rax,%rbx mov 8*3(%rsi),%rax # f[3] adc %rdx,%rcx mulq %rdi # f[3]*g[3]*19 add %rax,%r8 mov 8*4(%rsi),%rax # f[4] adc %rdx,%r9 mulq %rdi # f[4]*g[3]*19 imulq \$19,%rbp,%rdi # g[2]*19 add %rax,%r10 mov 8*1(%rsi),%rax # f[1] adc %rdx,%r11 mulq %rbp # f[1]*g[2] add %rax,%r12 mov 8*2(%rsi),%rax # f[2] adc %rdx,%r13 mulq %rbp # f[2]*g[2] mov 8*1(%rsp),%rbp # g[1] add %rax,%r14 mov 8*3(%rsi),%rax # f[3] adc %rdx,%r15 mulq %rdi # f[3]*g[2]*19 add %rax,%rbx mov 8*4(%rsi),%rax # f[3] adc %rdx,%rcx mulq %rdi # f[4]*g[2]*19 add %rax,%r8 mov 8*1(%rsi),%rax # f[1] adc %rdx,%r9 mulq %rbp # f[1]*g[1] imulq \$19,%rbp,%rdi add %rax,%r10 mov 8*2(%rsi),%rax # f[2] adc %rdx,%r11 mulq %rbp # f[2]*g[1] add %rax,%r12 mov 8*3(%rsi),%rax # f[3] adc %rdx,%r13 mulq %rbp # f[3]*g[1] mov 8*0(%rsp),%rbp # g[0] add %rax,%r14 mov 8*4(%rsi),%rax # f[4] adc %rdx,%r15 mulq %rdi # f[4]*g[1]*19 add %rax,%rbx mov 8*1(%rsi),%rax # f[1] adc %rdx,%rcx mul %rbp # f[1]*g[0] add %rax,%r8 mov 8*2(%rsi),%rax # f[2] adc %rdx,%r9 mul %rbp # f[2]*g[0] add %rax,%r10 mov 8*3(%rsi),%rax # f[3] adc %rdx,%r11 mul %rbp # f[3]*g[0] add %rax,%r12 mov 8*4(%rsi),%rax # f[4] adc %rdx,%r13 mulq %rbp # f[4]*g[0] add %rax,%r14 adc %rdx,%r15 mov 8*4(%rsp),%rdi # restore 1st argument jmp .Lreduce51 .Lfe51_mul_epilogue: .cfi_endproc .size x25519_fe51_mul,.-x25519_fe51_mul .globl x25519_fe51_sqr .type x25519_fe51_sqr,\@function,2 .align 32 x25519_fe51_sqr: .cfi_startproc push %rbp .cfi_push %rbp push %rbx .cfi_push %rbx push %r12 .cfi_push %r12 push %r13 .cfi_push %r13 push %r14 .cfi_push %r14 push %r15 .cfi_push %r15 lea -8*5(%rsp),%rsp .cfi_adjust_cfa_offset 40 .Lfe51_sqr_body: mov 8*0(%rsi),%rax # g[0] mov 8*2(%rsi),%r15 # g[2] mov 8*4(%rsi),%rbp # g[4] mov %rdi,8*4(%rsp) # offload 1st argument lea (%rax,%rax),%r14 mulq %rax # g[0]*g[0] mov %rax,%rbx mov 8*1(%rsi),%rax # g[1] mov %rdx,%rcx mulq %r14 # 2*g[0]*g[1] mov %rax,%r8 mov %r15,%rax mov %r15,8*0(%rsp) # offload g[2] mov %rdx,%r9 mulq %r14 # 2*g[0]*g[2] mov %rax,%r10 mov 8*3(%rsi),%rax mov %rdx,%r11 imulq \$19,%rbp,%rdi # g[4]*19 mulq %r14 # 2*g[0]*g[3] mov %rax,%r12 mov %rbp,%rax mov %rdx,%r13 mulq %r14 # 2*g[0]*g[4] mov %rax,%r14 mov %rbp,%rax mov %rdx,%r15 mulq %rdi # g[4]*g[4]*19 add %rax,%r12 mov 8*1(%rsi),%rax # g[1] adc %rdx,%r13 mov 8*3(%rsi),%rsi # g[3] lea (%rax,%rax),%rbp mulq %rax # g[1]*g[1] add %rax,%r10 mov 8*0(%rsp),%rax # g[2] adc %rdx,%r11 mulq %rbp # 2*g[1]*g[2] add %rax,%r12 mov %rbp,%rax adc %rdx,%r13 mulq %rsi # 2*g[1]*g[3] add %rax,%r14 mov %rbp,%rax adc %rdx,%r15 imulq \$19,%rsi,%rbp # g[3]*19 mulq %rdi # 2*g[1]*g[4]*19 add %rax,%rbx lea (%rsi,%rsi),%rax adc %rdx,%rcx mulq %rdi # 2*g[3]*g[4]*19 add %rax,%r10 mov %rsi,%rax adc %rdx,%r11 mulq %rbp # g[3]*g[3]*19 add %rax,%r8 mov 8*0(%rsp),%rax # g[2] adc %rdx,%r9 lea (%rax,%rax),%rsi mulq %rax # g[2]*g[2] add %rax,%r14 mov %rbp,%rax adc %rdx,%r15 mulq %rsi # 2*g[2]*g[3]*19 add %rax,%rbx mov %rsi,%rax adc %rdx,%rcx mulq %rdi # 2*g[2]*g[4]*19 add %rax,%r8 adc %rdx,%r9 mov 8*4(%rsp),%rdi # restore 1st argument jmp .Lreduce51 .align 32 .Lreduce51: mov \$0x7ffffffffffff,%rbp mov %r10,%rdx shr \$51,%r10 shl \$13,%r11 and %rbp,%rdx # %rdx = g2 = h2 & mask or %r10,%r11 # h2>>51 add %r11,%r12 adc \$0,%r13 # h3 += h2>>51 mov %rbx,%rax shr \$51,%rbx shl \$13,%rcx and %rbp,%rax # %rax = g0 = h0 & mask or %rbx,%rcx # h0>>51 add %rcx,%r8 # h1 += h0>>51 adc \$0,%r9 mov %r12,%rbx shr \$51,%r12 shl \$13,%r13 and %rbp,%rbx # %rbx = g3 = h3 & mask or %r12,%r13 # h3>>51 add %r13,%r14 # h4 += h3>>51 adc \$0,%r15 mov %r8,%rcx shr \$51,%r8 shl \$13,%r9 and %rbp,%rcx # %rcx = g1 = h1 & mask or %r8,%r9 add %r9,%rdx # g2 += h1>>51 mov %r14,%r10 shr \$51,%r14 shl \$13,%r15 and %rbp,%r10 # %r10 = g4 = h0 & mask or %r14,%r15 # h0>>51 lea (%r15,%r15,8),%r14 lea (%r15,%r14,2),%r15 add %r15,%rax # g0 += (h0>>51)*19 mov %rdx,%r8 and %rbp,%rdx # g2 &= mask shr \$51,%r8 add %r8,%rbx # g3 += g2>>51 mov %rax,%r9 and %rbp,%rax # g0 &= mask shr \$51,%r9 add %r9,%rcx # g1 += g0>>51 mov %rax,8*0(%rdi) # save the result mov %rcx,8*1(%rdi) mov %rdx,8*2(%rdi) mov %rbx,8*3(%rdi) mov %r10,8*4(%rdi) mov 8*5(%rsp),%r15 .cfi_restore %r15 mov 8*6(%rsp),%r14 .cfi_restore %r14 mov 8*7(%rsp),%r13 .cfi_restore %r13 mov 8*8(%rsp),%r12 .cfi_restore %r12 mov 8*9(%rsp),%rbx .cfi_restore %rbx mov 8*10(%rsp),%rbp .cfi_restore %rbp lea 8*11(%rsp),%rsp .cfi_adjust_cfa_offset 88 .Lfe51_sqr_epilogue: ret .cfi_endproc .size x25519_fe51_sqr,.-x25519_fe51_sqr .globl x25519_fe51_mul121666 .type x25519_fe51_mul121666,\@function,2 .align 32 x25519_fe51_mul121666: .cfi_startproc push %rbp .cfi_push %rbp push %rbx .cfi_push %rbx push %r12 .cfi_push %r12 push %r13 .cfi_push %r13 push %r14 .cfi_push %r14 push %r15 .cfi_push %r15 lea -8*5(%rsp),%rsp .cfi_adjust_cfa_offset 40 .Lfe51_mul121666_body: mov \$121666,%eax mulq 8*0(%rsi) mov %rax,%rbx # %rbx:%rcx = h0 mov \$121666,%eax mov %rdx,%rcx mulq 8*1(%rsi) mov %rax,%r8 # %r8:%r9 = h1 mov \$121666,%eax mov %rdx,%r9 mulq 8*2(%rsi) mov %rax,%r10 # %r10:%r11 = h2 mov \$121666,%eax mov %rdx,%r11 mulq 8*3(%rsi) mov %rax,%r12 # %r12:%r13 = h3 mov \$121666,%eax # f[0] mov %rdx,%r13 mulq 8*4(%rsi) mov %rax,%r14 # %r14:%r15 = h4 mov %rdx,%r15 jmp .Lreduce51 .Lfe51_mul121666_epilogue: .cfi_endproc .size x25519_fe51_mul121666,.-x25519_fe51_mul121666 ___ ######################################################################## # Base 2^64 subroutines modulo 2*(2^255-19) # if ($addx) { my ($acc0,$acc1,$acc2,$acc3,$acc4,$acc5,$acc6,$acc7) = map("%r$_",(8..15)); $code.=<<___; .extern OPENSSL_ia32cap_P .globl x25519_fe64_eligible .type x25519_fe64_eligible,\@abi-omnipotent .align 32 x25519_fe64_eligible: mov OPENSSL_ia32cap_P+8(%rip),%ecx xor %eax,%eax and \$0x80100,%ecx cmp \$0x80100,%ecx cmove %ecx,%eax ret .size x25519_fe64_eligible,.-x25519_fe64_eligible .globl x25519_fe64_mul .type x25519_fe64_mul,\@function,3 .align 32 x25519_fe64_mul: .cfi_startproc push %rbp .cfi_push %rbp push %rbx .cfi_push %rbx push %r12 .cfi_push %r12 push %r13 .cfi_push %r13 push %r14 .cfi_push %r14 push %r15 .cfi_push %r15 push %rdi # offload dst .cfi_push %rdi lea -8*2(%rsp),%rsp .cfi_adjust_cfa_offset 16 .Lfe64_mul_body: mov %rdx,%rax mov 8*0(%rdx),%rbp # b[0] mov 8*0(%rsi),%rdx # a[0] mov 8*1(%rax),%rcx # b[1] mov 8*2(%rax),$acc6 # b[2] mov 8*3(%rax),$acc7 # b[3] mulx %rbp,$acc0,%rax # a[0]*b[0] xor %edi,%edi # cf=0,of=0 mulx %rcx,$acc1,%rbx # a[0]*b[1] adcx %rax,$acc1 mulx $acc6,$acc2,%rax # a[0]*b[2] adcx %rbx,$acc2 mulx $acc7,$acc3,$acc4 # a[0]*b[3] mov 8*1(%rsi),%rdx # a[1] adcx %rax,$acc3 mov $acc6,(%rsp) # offload b[2] adcx %rdi,$acc4 # cf=0 mulx %rbp,%rax,%rbx # a[1]*b[0] adox %rax,$acc1 adcx %rbx,$acc2 mulx %rcx,%rax,%rbx # a[1]*b[1] adox %rax,$acc2 adcx %rbx,$acc3 mulx $acc6,%rax,%rbx # a[1]*b[2] adox %rax,$acc3 adcx %rbx,$acc4 mulx $acc7,%rax,$acc5 # a[1]*b[3] mov 8*2(%rsi),%rdx # a[2] adox %rax,$acc4 adcx %rdi,$acc5 # cf=0 adox %rdi,$acc5 # of=0 mulx %rbp,%rax,%rbx # a[2]*b[0] adcx %rax,$acc2 adox %rbx,$acc3 mulx %rcx,%rax,%rbx # a[2]*b[1] adcx %rax,$acc3 adox %rbx,$acc4 mulx $acc6,%rax,%rbx # a[2]*b[2] adcx %rax,$acc4 adox %rbx,$acc5 mulx $acc7,%rax,$acc6 # a[2]*b[3] mov 8*3(%rsi),%rdx # a[3] adcx %rax,$acc5 adox %rdi,$acc6 # of=0 adcx %rdi,$acc6 # cf=0 mulx %rbp,%rax,%rbx # a[3]*b[0] adox %rax,$acc3 adcx %rbx,$acc4 mulx %rcx,%rax,%rbx # a[3]*b[1] adox %rax,$acc4 adcx %rbx,$acc5 mulx (%rsp),%rax,%rbx # a[3]*b[2] adox %rax,$acc5 adcx %rbx,$acc6 mulx $acc7,%rax,$acc7 # a[3]*b[3] mov \$38,%edx adox %rax,$acc6 adcx %rdi,$acc7 # cf=0 adox %rdi,$acc7 # of=0 jmp .Lreduce64 .Lfe64_mul_epilogue: .cfi_endproc .size x25519_fe64_mul,.-x25519_fe64_mul .globl x25519_fe64_sqr .type x25519_fe64_sqr,\@function,2 .align 32 x25519_fe64_sqr: .cfi_startproc push %rbp .cfi_push %rbp push %rbx .cfi_push %rbx push %r12 .cfi_push %r12 push %r13 .cfi_push %r13 push %r14 .cfi_push %r14 push %r15 .cfi_push %r15 push %rdi # offload dst .cfi_push %rdi lea -8*2(%rsp),%rsp .cfi_adjust_cfa_offset 16 .Lfe64_sqr_body: mov 8*0(%rsi),%rdx # a[0] mov 8*1(%rsi),%rcx # a[1] mov 8*2(%rsi),%rbp # a[2] mov 8*3(%rsi),%rsi # a[3] ################################################################ mulx %rdx,$acc0,$acc7 # a[0]*a[0] mulx %rcx,$acc1,%rax # a[0]*a[1] xor %edi,%edi # cf=0,of=0 mulx %rbp,$acc2,%rbx # a[0]*a[2] adcx %rax,$acc2 mulx %rsi,$acc3,$acc4 # a[0]*a[3] mov %rcx,%rdx # a[1] adcx %rbx,$acc3 adcx %rdi,$acc4 # cf=0 ################################################################ mulx %rbp,%rax,%rbx # a[1]*a[2] adox %rax,$acc3 adcx %rbx,$acc4 mulx %rsi,%rax,$acc5 # a[1]*a[3] mov %rbp,%rdx # a[2] adox %rax,$acc4 adcx %rdi,$acc5 ################################################################ mulx %rsi,%rax,$acc6 # a[2]*a[3] mov %rcx,%rdx # a[1] adox %rax,$acc5 adcx %rdi,$acc6 # cf=0 adox %rdi,$acc6 # of=0 adcx $acc1,$acc1 # acc1:6<<1 adox $acc7,$acc1 adcx $acc2,$acc2 mulx %rdx,%rax,%rbx # a[1]*a[1] mov %rbp,%rdx # a[2] adcx $acc3,$acc3 adox %rax,$acc2 adcx $acc4,$acc4 adox %rbx,$acc3 mulx %rdx,%rax,%rbx # a[2]*a[2] mov %rsi,%rdx # a[3] adcx $acc5,$acc5 adox %rax,$acc4 adcx $acc6,$acc6 adox %rbx,$acc5 mulx %rdx,%rax,$acc7 # a[3]*a[3] mov \$38,%edx adox %rax,$acc6 adcx %rdi,$acc7 # cf=0 adox %rdi,$acc7 # of=0 jmp .Lreduce64 .align 32 .Lreduce64: mulx $acc4,%rax,%rbx adcx %rax,$acc0 adox %rbx,$acc1 mulx $acc5,%rax,%rbx adcx %rax,$acc1 adox %rbx,$acc2 mulx $acc6,%rax,%rbx adcx %rax,$acc2 adox %rbx,$acc3 mulx $acc7,%rax,$acc4 adcx %rax,$acc3 adox %rdi,$acc4 adcx %rdi,$acc4 mov 8*2(%rsp),%rdi # restore dst imulq %rdx,$acc4 add $acc4,$acc0 adc \$0,$acc1 adc \$0,$acc2 adc \$0,$acc3 sbb %rax,%rax # cf -> mask and \$38,%rax add %rax,$acc0 mov $acc1,8*1(%rdi) mov $acc2,8*2(%rdi) mov $acc3,8*3(%rdi) mov $acc0,8*0(%rdi) mov 8*3(%rsp),%r15 .cfi_restore %r15 mov 8*4(%rsp),%r14 .cfi_restore %r14 mov 8*5(%rsp),%r13 .cfi_restore %r13 mov 8*6(%rsp),%r12 .cfi_restore %r12 mov 8*7(%rsp),%rbx .cfi_restore %rbx mov 8*8(%rsp),%rbp .cfi_restore %rbp lea 8*9(%rsp),%rsp .cfi_adjust_cfa_offset 88 .Lfe64_sqr_epilogue: ret .cfi_endproc .size x25519_fe64_sqr,.-x25519_fe64_sqr .globl x25519_fe64_mul121666 .type x25519_fe64_mul121666,\@function,2 .align 32 x25519_fe64_mul121666: .Lfe64_mul121666_body: mov \$121666,%edx mulx 8*0(%rsi),$acc0,%rcx mulx 8*1(%rsi),$acc1,%rax add %rcx,$acc1 mulx 8*2(%rsi),$acc2,%rcx adc %rax,$acc2 mulx 8*3(%rsi),$acc3,%rax adc %rcx,$acc3 adc \$0,%rax imulq \$38,%rax,%rax add %rax,$acc0 adc \$0,$acc1 adc \$0,$acc2 adc \$0,$acc3 sbb %rax,%rax # cf -> mask and \$38,%rax add %rax,$acc0 mov $acc1,8*1(%rdi) mov $acc2,8*2(%rdi) mov $acc3,8*3(%rdi) mov $acc0,8*0(%rdi) .Lfe64_mul121666_epilogue: ret .size x25519_fe64_mul121666,.-x25519_fe64_mul121666 .globl x25519_fe64_add .type x25519_fe64_add,\@function,3 .align 32 x25519_fe64_add: .Lfe64_add_body: mov 8*0(%rsi),$acc0 mov 8*1(%rsi),$acc1 mov 8*2(%rsi),$acc2 mov 8*3(%rsi),$acc3 add 8*0(%rdx),$acc0 adc 8*1(%rdx),$acc1 adc 8*2(%rdx),$acc2 adc 8*3(%rdx),$acc3 sbb %rax,%rax # cf -> mask and \$38,%rax add %rax,$acc0 adc \$0,$acc1 adc \$0,$acc2 mov $acc1,8*1(%rdi) adc \$0,$acc3 mov $acc2,8*2(%rdi) sbb %rax,%rax # cf -> mask mov $acc3,8*3(%rdi) and \$38,%rax add %rax,$acc0 mov $acc0,8*0(%rdi) .Lfe64_add_epilogue: ret .size x25519_fe64_add,.-x25519_fe64_add .globl x25519_fe64_sub .type x25519_fe64_sub,\@function,3 .align 32 x25519_fe64_sub: .Lfe64_sub_body: mov 8*0(%rsi),$acc0 mov 8*1(%rsi),$acc1 mov 8*2(%rsi),$acc2 mov 8*3(%rsi),$acc3 sub 8*0(%rdx),$acc0 sbb 8*1(%rdx),$acc1 sbb 8*2(%rdx),$acc2 sbb 8*3(%rdx),$acc3 sbb %rax,%rax # cf -> mask and \$38,%rax sub %rax,$acc0 sbb \$0,$acc1 sbb \$0,$acc2 mov $acc1,8*1(%rdi) sbb \$0,$acc3 mov $acc2,8*2(%rdi) sbb %rax,%rax # cf -> mask mov $acc3,8*3(%rdi) and \$38,%rax sub %rax,$acc0 mov $acc0,8*0(%rdi) .Lfe64_sub_epilogue: ret .size x25519_fe64_sub,.-x25519_fe64_sub .globl x25519_fe64_tobytes .type x25519_fe64_tobytes,\@function,2 .align 32 x25519_fe64_tobytes: .Lfe64_to_body: mov 8*0(%rsi),$acc0 mov 8*1(%rsi),$acc1 mov 8*2(%rsi),$acc2 mov 8*3(%rsi),$acc3 ################################# reduction modulo 2^255-19 lea ($acc3,$acc3),%rax sar \$63,$acc3 # most significant bit -> mask shr \$1,%rax # most significant bit cleared and \$19,$acc3 add \$19,$acc3 # compare to modulus in the same go add $acc3,$acc0 adc \$0,$acc1 adc \$0,$acc2 adc \$0,%rax lea (%rax,%rax),$acc3 sar \$63,%rax # most significant bit -> mask shr \$1,$acc3 # most significant bit cleared not %rax and \$19,%rax sub %rax,$acc0 sbb \$0,$acc1 sbb \$0,$acc2 sbb \$0,$acc3 mov $acc0,8*0(%rdi) mov $acc1,8*1(%rdi) mov $acc2,8*2(%rdi) mov $acc3,8*3(%rdi) .Lfe64_to_epilogue: ret .size x25519_fe64_tobytes,.-x25519_fe64_tobytes ___ } else { $code.=<<___; .globl x25519_fe64_eligible .type x25519_fe64_eligible,\@abi-omnipotent .align 32 x25519_fe64_eligible: xor %eax,%eax ret .size x25519_fe64_eligible,.-x25519_fe64_eligible .globl x25519_fe64_mul .type x25519_fe64_mul,\@abi-omnipotent .globl x25519_fe64_sqr .globl x25519_fe64_mul121666 .globl x25519_fe64_add .globl x25519_fe64_sub .globl x25519_fe64_tobytes x25519_fe64_mul: x25519_fe64_sqr: x25519_fe64_mul121666: x25519_fe64_add: x25519_fe64_sub: x25519_fe64_tobytes: .byte 0x0f,0x0b # ud2 ret .size x25519_fe64_mul,.-x25519_fe64_mul ___ } $code.=<<___; .asciz "X25519 primitives for x86_64, CRYPTOGAMS by " ___ # EXCEPTION_DISPOSITION handler (EXCEPTION_RECORD *rec,ULONG64 frame, # CONTEXT *context,DISPATCHER_CONTEXT *disp) if ($win64) { $rec="%rcx"; $frame="%rdx"; $context="%r8"; $disp="%r9"; $code.=<<___; .extern __imp_RtlVirtualUnwind .type short_handler,\@abi-omnipotent .align 16 short_handler: push %rsi push %rdi push %rbx push %rbp push %r12 push %r13 push %r14 push %r15 pushfq sub \$64,%rsp mov 120($context),%rax # pull context->Rax mov 248($context),%rbx # pull context->Rip mov 8($disp),%rsi # disp->ImageBase mov 56($disp),%r11 # disp->HandlerData mov 0(%r11),%r10d # HandlerData[0] lea (%rsi,%r10),%r10 # end of prologue label cmp %r10,%rbx # context->RipRsp jmp .Lcommon_seh_tail .size short_handler,.-short_handler .type full_handler,\@abi-omnipotent .align 16 full_handler: push %rsi push %rdi push %rbx push %rbp push %r12 push %r13 push %r14 push %r15 pushfq sub \$64,%rsp mov 120($context),%rax # pull context->Rax mov 248($context),%rbx # pull context->Rip mov 8($disp),%rsi # disp->ImageBase mov 56($disp),%r11 # disp->HandlerData mov 0(%r11),%r10d # HandlerData[0] lea (%rsi,%r10),%r10 # end of prologue label cmp %r10,%rbx # context->RipRsp mov 4(%r11),%r10d # HandlerData[1] lea (%rsi,%r10),%r10 # epilogue label cmp %r10,%rbx # context->Rip>=epilogue label jae .Lcommon_seh_tail mov 8(%r11),%r10d # HandlerData[2] lea (%rax,%r10),%rax mov -8(%rax),%rbp mov -16(%rax),%rbx mov -24(%rax),%r12 mov -32(%rax),%r13 mov -40(%rax),%r14 mov -48(%rax),%r15 mov %rbx,144($context) # restore context->Rbx mov %rbp,160($context) # restore context->Rbp mov %r12,216($context) # restore context->R12 mov %r13,224($context) # restore context->R13 mov %r14,232($context) # restore context->R14 mov %r15,240($context) # restore context->R15 .Lcommon_seh_tail: mov 8(%rax),%rdi mov 16(%rax),%rsi mov %rax,152($context) # restore context->Rsp mov %rsi,168($context) # restore context->Rsi mov %rdi,176($context) # restore context->Rdi mov 40($disp),%rdi # disp->ContextRecord mov $context,%rsi # context mov \$154,%ecx # sizeof(CONTEXT) .long 0xa548f3fc # cld; rep movsq mov $disp,%rsi xor %rcx,%rcx # arg1, UNW_FLAG_NHANDLER mov 8(%rsi),%rdx # arg2, disp->ImageBase mov 0(%rsi),%r8 # arg3, disp->ControlPc mov 16(%rsi),%r9 # arg4, disp->FunctionEntry mov 40(%rsi),%r10 # disp->ContextRecord lea 56(%rsi),%r11 # &disp->HandlerData lea 24(%rsi),%r12 # &disp->EstablisherFrame mov %r10,32(%rsp) # arg5 mov %r11,40(%rsp) # arg6 mov %r12,48(%rsp) # arg7 mov %rcx,56(%rsp) # arg8, (NULL) call *__imp_RtlVirtualUnwind(%rip) mov \$1,%eax # ExceptionContinueSearch add \$64,%rsp popfq pop %r15 pop %r14 pop %r13 pop %r12 pop %rbp pop %rbx pop %rdi pop %rsi ret .size full_handler,.-full_handler .section .pdata .align 4 .rva .LSEH_begin_x25519_fe51_mul .rva .LSEH_end_x25519_fe51_mul .rva .LSEH_info_x25519_fe51_mul .rva .LSEH_begin_x25519_fe51_sqr .rva .LSEH_end_x25519_fe51_sqr .rva .LSEH_info_x25519_fe51_sqr .rva .LSEH_begin_x25519_fe51_mul121666 .rva .LSEH_end_x25519_fe51_mul121666 .rva .LSEH_info_x25519_fe51_mul121666 ___ $code.=<<___ if ($addx); .rva .LSEH_begin_x25519_fe64_mul .rva .LSEH_end_x25519_fe64_mul .rva .LSEH_info_x25519_fe64_mul .rva .LSEH_begin_x25519_fe64_sqr .rva .LSEH_end_x25519_fe64_sqr .rva .LSEH_info_x25519_fe64_sqr .rva .LSEH_begin_x25519_fe64_mul121666 .rva .LSEH_end_x25519_fe64_mul121666 .rva .LSEH_info_x25519_fe64_mul121666 .rva .LSEH_begin_x25519_fe64_add .rva .LSEH_end_x25519_fe64_add .rva .LSEH_info_x25519_fe64_add .rva .LSEH_begin_x25519_fe64_sub .rva .LSEH_end_x25519_fe64_sub .rva .LSEH_info_x25519_fe64_sub .rva .LSEH_begin_x25519_fe64_tobytes .rva .LSEH_end_x25519_fe64_tobytes .rva .LSEH_info_x25519_fe64_tobytes ___ $code.=<<___; .section .xdata .align 8 .LSEH_info_x25519_fe51_mul: .byte 9,0,0,0 .rva full_handler .rva .Lfe51_mul_body,.Lfe51_mul_epilogue # HandlerData[] .long 88,0 .LSEH_info_x25519_fe51_sqr: .byte 9,0,0,0 .rva full_handler .rva .Lfe51_sqr_body,.Lfe51_sqr_epilogue # HandlerData[] .long 88,0 .LSEH_info_x25519_fe51_mul121666: .byte 9,0,0,0 .rva full_handler .rva .Lfe51_mul121666_body,.Lfe51_mul121666_epilogue # HandlerData[] .long 88,0 ___ $code.=<<___ if ($addx); .LSEH_info_x25519_fe64_mul: .byte 9,0,0,0 .rva full_handler .rva .Lfe64_mul_body,.Lfe64_mul_epilogue # HandlerData[] .long 72,0 .LSEH_info_x25519_fe64_sqr: .byte 9,0,0,0 .rva full_handler .rva .Lfe64_sqr_body,.Lfe64_sqr_epilogue # HandlerData[] .long 72,0 .LSEH_info_x25519_fe64_mul121666: .byte 9,0,0,0 .rva short_handler .rva .Lfe64_mul121666_body,.Lfe64_mul121666_epilogue # HandlerData[] .LSEH_info_x25519_fe64_add: .byte 9,0,0,0 .rva short_handler .rva .Lfe64_add_body,.Lfe64_add_epilogue # HandlerData[] .LSEH_info_x25519_fe64_sub: .byte 9,0,0,0 .rva short_handler .rva .Lfe64_sub_body,.Lfe64_sub_epilogue # HandlerData[] .LSEH_info_x25519_fe64_tobytes: .byte 9,0,0,0 .rva short_handler .rva .Lfe64_to_body,.Lfe64_to_epilogue # HandlerData[] ___ } $code =~ s/\`([^\`]*)\`/eval $1/gem; print $code; close STDOUT;