xref: /freebsd/crypto/openssl/crypto/ec/asm/x25519-x86_64.pl (revision b077aed33b7b6aefca7b17ddb250cf521f938613)
1#!/usr/bin/env perl
2# Copyright 2018-2020 The OpenSSL Project Authors. All Rights Reserved.
3#
4# Licensed under the Apache License 2.0 (the "License").  You may not use
5# this file except in compliance with the License.  You can obtain a copy
6# in the file LICENSE in the source distribution or at
7# https://www.openssl.org/source/license.html
8#
9# ====================================================================
10# Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
11# project. The module is, however, dual licensed under OpenSSL and
12# CRYPTOGAMS licenses depending on where you obtain it. For further
13# details see http://www.openssl.org/~appro/cryptogams/.
14# ====================================================================
15#
16# X25519 lower-level primitives for x86_64.
17#
18# February 2018.
19#
20# This module implements radix 2^51 multiplication and squaring, and
21# radix 2^64 multiplication, squaring, addition, subtraction and final
22# reduction. Latter radix is used on ADCX/ADOX-capable processors such
23# as Broadwell. On related note one should mention that there are
24# vector implementations that provide significantly better performance
25# on some processors(*), but they are large and overly complex. Which
26# in combination with them being effectively processor-specific makes
27# the undertaking hard to justify. The goal for this implementation
28# is rather versatility and simplicity [and ultimately formal
29# verification].
30#
31# (*)	For example sandy2x should provide ~30% improvement on Sandy
32#	Bridge, but only nominal ~5% on Haswell [and big loss on
33#	Broadwell and successors].
34#
35######################################################################
36# Improvement coefficients:
37#
38#			amd64-51(*)	gcc-5.x(**)
39#
40# P4			+22%		+40%
41# Sandy Bridge		-3%		+11%
42# Haswell		-1%		+13%
43# Broadwell(***)	+30%		+35%
44# Skylake(***)		+33%		+47%
45# Silvermont		+20%		+26%
46# Goldmont		+40%		+50%
47# Bulldozer		+20%		+9%
48# Ryzen(***)		+43%		+40%
49# VIA			+170%		+120%
50#
51# (*)	amd64-51 is popular assembly implementation with 2^51 radix,
52#	only multiplication and squaring subroutines were linked
53#	for comparison, but not complete ladder step; gain on most
54#	processors is because this module refrains from shld, and
55#	minor regression on others is because this does result in
56#	higher instruction count;
57# (**)	compiler is free to inline functions, in assembly one would
58#	need to implement ladder step to do that, and it will improve
59#	performance by several percent;
60# (***)	ADCX/ADOX result for 2^64 radix, there is no corresponding
61#	C implementation, so that comparison is always against
62#	2^51 radix;
63
64# $output is the last argument if it looks like a file (it has an extension)
65# $flavour is the first argument if it doesn't look like a file
66$output = $#ARGV >= 0 && $ARGV[$#ARGV] =~ m|\.\w+$| ? pop : undef;
67$flavour = $#ARGV >= 0 && $ARGV[0] !~ m|\.| ? shift : undef;
68
69$win64=0; $win64=1 if ($flavour =~ /[nm]asm|mingw64/ || $output =~ /\.asm$/);
70
71$0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
72( $xlate="${dir}x86_64-xlate.pl" and -f $xlate ) or
73( $xlate="${dir}../../perlasm/x86_64-xlate.pl" and -f $xlate) or
74die "can't locate x86_64-xlate.pl";
75
76open OUT,"| \"$^X\" \"$xlate\" $flavour \"$output\""
77    or die "can't call $xlate: $!";
78*STDOUT=*OUT;
79
80if (`$ENV{CC} -Wa,-v -c -o /dev/null -x assembler /dev/null 2>&1`
81		=~ /GNU assembler version ([2-9]\.[0-9]+)/) {
82	$addx = ($1>=2.23);
83}
84
85if (!$addx && $win64 && ($flavour =~ /nasm/ || $ENV{ASM} =~ /nasm/) &&
86	    `nasm -v 2>&1` =~ /NASM version ([2-9]\.[0-9]+)/) {
87	$addx = ($1>=2.10);
88}
89
90if (!$addx && $win64 && ($flavour =~ /masm/ || $ENV{ASM} =~ /ml64/) &&
91	    `ml64 2>&1` =~ /Version ([0-9]+)\./) {
92	$addx = ($1>=12);
93}
94
95if (!$addx && `$ENV{CC} -v 2>&1` =~ /((?:clang|LLVM) version|.*based on LLVM) ([0-9]+)\.([0-9]+)/) {
96	my $ver = $2 + $3/100.0;	# 3.1->3.01, 3.10->3.10
97	$addx = ($ver>=3.03);
98}
99
100$code.=<<___;
101.text
102
103.globl	x25519_fe51_mul
104.type	x25519_fe51_mul,\@function,3
105.align	32
106x25519_fe51_mul:
107.cfi_startproc
108	push	%rbp
109.cfi_push	%rbp
110	push	%rbx
111.cfi_push	%rbx
112	push	%r12
113.cfi_push	%r12
114	push	%r13
115.cfi_push	%r13
116	push	%r14
117.cfi_push	%r14
118	push	%r15
119.cfi_push	%r15
120	lea	-8*5(%rsp),%rsp
121.cfi_adjust_cfa_offset	40
122.Lfe51_mul_body:
123
124	mov	8*0(%rsi),%rax		# f[0]
125	mov	8*0(%rdx),%r11		# load g[0-4]
126	mov	8*1(%rdx),%r12
127	mov	8*2(%rdx),%r13
128	mov	8*3(%rdx),%rbp
129	mov	8*4(%rdx),%r14
130
131	mov	%rdi,8*4(%rsp)		# offload 1st argument
132	mov	%rax,%rdi
133	mulq	%r11			# f[0]*g[0]
134	mov	%r11,8*0(%rsp)		# offload g[0]
135	mov	%rax,%rbx		# %rbx:%rcx = h0
136	mov	%rdi,%rax
137	mov	%rdx,%rcx
138	mulq	%r12			# f[0]*g[1]
139	mov	%r12,8*1(%rsp)		# offload g[1]
140	mov	%rax,%r8		# %r8:%r9 = h1
141	mov	%rdi,%rax
142	lea	(%r14,%r14,8),%r15
143	mov	%rdx,%r9
144	mulq	%r13			# f[0]*g[2]
145	mov	%r13,8*2(%rsp)		# offload g[2]
146	mov	%rax,%r10		# %r10:%r11 = h2
147	mov	%rdi,%rax
148	lea	(%r14,%r15,2),%rdi	# g[4]*19
149	mov	%rdx,%r11
150	mulq	%rbp			# f[0]*g[3]
151	mov	%rax,%r12		# %r12:%r13 = h3
152	mov	8*0(%rsi),%rax		# f[0]
153	mov	%rdx,%r13
154	mulq	%r14			# f[0]*g[4]
155	mov	%rax,%r14		# %r14:%r15 = h4
156	mov	8*1(%rsi),%rax		# f[1]
157	mov	%rdx,%r15
158
159	mulq	%rdi			# f[1]*g[4]*19
160	add	%rax,%rbx
161	mov	8*2(%rsi),%rax		# f[2]
162	adc	%rdx,%rcx
163	mulq	%rdi			# f[2]*g[4]*19
164	add	%rax,%r8
165	mov	8*3(%rsi),%rax		# f[3]
166	adc	%rdx,%r9
167	mulq	%rdi			# f[3]*g[4]*19
168	add	%rax,%r10
169	mov	8*4(%rsi),%rax		# f[4]
170	adc	%rdx,%r11
171	mulq	%rdi			# f[4]*g[4]*19
172	imulq	\$19,%rbp,%rdi		# g[3]*19
173	add	%rax,%r12
174	mov	8*1(%rsi),%rax		# f[1]
175	adc	%rdx,%r13
176	mulq	%rbp			# f[1]*g[3]
177	mov	8*2(%rsp),%rbp		# g[2]
178	add	%rax,%r14
179	mov	8*2(%rsi),%rax		# f[2]
180	adc	%rdx,%r15
181
182	mulq	%rdi			# f[2]*g[3]*19
183	add	%rax,%rbx
184	mov	8*3(%rsi),%rax		# f[3]
185	adc	%rdx,%rcx
186	mulq	%rdi			# f[3]*g[3]*19
187	add	%rax,%r8
188	mov	8*4(%rsi),%rax		# f[4]
189	adc	%rdx,%r9
190	mulq	%rdi			# f[4]*g[3]*19
191	imulq	\$19,%rbp,%rdi		# g[2]*19
192	add	%rax,%r10
193	mov	8*1(%rsi),%rax		# f[1]
194	adc	%rdx,%r11
195	mulq	%rbp			# f[1]*g[2]
196	add	%rax,%r12
197	mov	8*2(%rsi),%rax		# f[2]
198	adc	%rdx,%r13
199	mulq	%rbp			# f[2]*g[2]
200	mov	8*1(%rsp),%rbp		# g[1]
201	add	%rax,%r14
202	mov	8*3(%rsi),%rax		# f[3]
203	adc	%rdx,%r15
204
205	mulq	%rdi			# f[3]*g[2]*19
206	add	%rax,%rbx
207	mov	8*4(%rsi),%rax		# f[3]
208	adc	%rdx,%rcx
209	mulq	%rdi			# f[4]*g[2]*19
210	add	%rax,%r8
211	mov	8*1(%rsi),%rax		# f[1]
212	adc	%rdx,%r9
213	mulq	%rbp			# f[1]*g[1]
214	imulq	\$19,%rbp,%rdi
215	add	%rax,%r10
216	mov	8*2(%rsi),%rax		# f[2]
217	adc	%rdx,%r11
218	mulq	%rbp			# f[2]*g[1]
219	add	%rax,%r12
220	mov	8*3(%rsi),%rax		# f[3]
221	adc	%rdx,%r13
222	mulq	%rbp			# f[3]*g[1]
223	mov	8*0(%rsp),%rbp		# g[0]
224	add	%rax,%r14
225	mov	8*4(%rsi),%rax		# f[4]
226	adc	%rdx,%r15
227
228	mulq	%rdi			# f[4]*g[1]*19
229	add	%rax,%rbx
230	mov	8*1(%rsi),%rax		# f[1]
231	adc	%rdx,%rcx
232	mul	%rbp			# f[1]*g[0]
233	add	%rax,%r8
234	mov	8*2(%rsi),%rax		# f[2]
235	adc	%rdx,%r9
236	mul	%rbp			# f[2]*g[0]
237	add	%rax,%r10
238	mov	8*3(%rsi),%rax		# f[3]
239	adc	%rdx,%r11
240	mul	%rbp			# f[3]*g[0]
241	add	%rax,%r12
242	mov	8*4(%rsi),%rax		# f[4]
243	adc	%rdx,%r13
244	mulq	%rbp			# f[4]*g[0]
245	add	%rax,%r14
246	adc	%rdx,%r15
247
248	mov	8*4(%rsp),%rdi		# restore 1st argument
249	jmp	.Lreduce51
250.Lfe51_mul_epilogue:
251.cfi_endproc
252.size	x25519_fe51_mul,.-x25519_fe51_mul
253
254.globl	x25519_fe51_sqr
255.type	x25519_fe51_sqr,\@function,2
256.align	32
257x25519_fe51_sqr:
258.cfi_startproc
259	push	%rbp
260.cfi_push	%rbp
261	push	%rbx
262.cfi_push	%rbx
263	push	%r12
264.cfi_push	%r12
265	push	%r13
266.cfi_push	%r13
267	push	%r14
268.cfi_push	%r14
269	push	%r15
270.cfi_push	%r15
271	lea	-8*5(%rsp),%rsp
272.cfi_adjust_cfa_offset	40
273.Lfe51_sqr_body:
274
275	mov	8*0(%rsi),%rax		# g[0]
276	mov	8*2(%rsi),%r15		# g[2]
277	mov	8*4(%rsi),%rbp		# g[4]
278
279	mov	%rdi,8*4(%rsp)		# offload 1st argument
280	lea	(%rax,%rax),%r14
281	mulq	%rax			# g[0]*g[0]
282	mov	%rax,%rbx
283	mov	8*1(%rsi),%rax		# g[1]
284	mov	%rdx,%rcx
285	mulq	%r14			# 2*g[0]*g[1]
286	mov	%rax,%r8
287	mov	%r15,%rax
288	mov	%r15,8*0(%rsp)		# offload g[2]
289	mov	%rdx,%r9
290	mulq	%r14			# 2*g[0]*g[2]
291	mov	%rax,%r10
292	mov	8*3(%rsi),%rax
293	mov	%rdx,%r11
294	imulq	\$19,%rbp,%rdi		# g[4]*19
295	mulq	%r14			# 2*g[0]*g[3]
296	mov	%rax,%r12
297	mov	%rbp,%rax
298	mov	%rdx,%r13
299	mulq	%r14			# 2*g[0]*g[4]
300	mov	%rax,%r14
301	mov	%rbp,%rax
302	mov	%rdx,%r15
303
304	mulq	%rdi			# g[4]*g[4]*19
305	add	%rax,%r12
306	mov	8*1(%rsi),%rax		# g[1]
307	adc	%rdx,%r13
308
309	mov	8*3(%rsi),%rsi		# g[3]
310	lea	(%rax,%rax),%rbp
311	mulq	%rax			# g[1]*g[1]
312	add	%rax,%r10
313	mov	8*0(%rsp),%rax		# g[2]
314	adc	%rdx,%r11
315	mulq	%rbp			# 2*g[1]*g[2]
316	add	%rax,%r12
317	mov	%rbp,%rax
318	adc	%rdx,%r13
319	mulq	%rsi			# 2*g[1]*g[3]
320	add	%rax,%r14
321	mov	%rbp,%rax
322	adc	%rdx,%r15
323	imulq	\$19,%rsi,%rbp		# g[3]*19
324	mulq	%rdi			# 2*g[1]*g[4]*19
325	add	%rax,%rbx
326	lea	(%rsi,%rsi),%rax
327	adc	%rdx,%rcx
328
329	mulq	%rdi			# 2*g[3]*g[4]*19
330	add	%rax,%r10
331	mov	%rsi,%rax
332	adc	%rdx,%r11
333	mulq	%rbp			# g[3]*g[3]*19
334	add	%rax,%r8
335	mov	8*0(%rsp),%rax		# g[2]
336	adc	%rdx,%r9
337
338	lea	(%rax,%rax),%rsi
339	mulq	%rax			# g[2]*g[2]
340	add	%rax,%r14
341	mov	%rbp,%rax
342	adc	%rdx,%r15
343	mulq	%rsi			# 2*g[2]*g[3]*19
344	add	%rax,%rbx
345	mov	%rsi,%rax
346	adc	%rdx,%rcx
347	mulq	%rdi			# 2*g[2]*g[4]*19
348	add	%rax,%r8
349	adc	%rdx,%r9
350
351	mov	8*4(%rsp),%rdi		# restore 1st argument
352	jmp	.Lreduce51
353
354.align	32
355.Lreduce51:
356	mov	\$0x7ffffffffffff,%rbp
357
358	mov	%r10,%rdx
359	shr	\$51,%r10
360	shl	\$13,%r11
361	and	%rbp,%rdx		# %rdx = g2 = h2 & mask
362	or	%r10,%r11		# h2>>51
363	add	%r11,%r12
364	adc	\$0,%r13		# h3 += h2>>51
365
366	mov	%rbx,%rax
367	shr	\$51,%rbx
368	shl	\$13,%rcx
369	and	%rbp,%rax		# %rax = g0 = h0 & mask
370	or	%rbx,%rcx		# h0>>51
371	add	%rcx,%r8		# h1 += h0>>51
372	adc	\$0,%r9
373
374	mov	%r12,%rbx
375	shr	\$51,%r12
376	shl	\$13,%r13
377	and	%rbp,%rbx		# %rbx = g3 = h3 & mask
378	or	%r12,%r13		# h3>>51
379	add	%r13,%r14		# h4 += h3>>51
380	adc	\$0,%r15
381
382	mov	%r8,%rcx
383	shr	\$51,%r8
384	shl	\$13,%r9
385	and	%rbp,%rcx		# %rcx = g1 = h1 & mask
386	or	%r8,%r9
387	add	%r9,%rdx		# g2 += h1>>51
388
389	mov	%r14,%r10
390	shr	\$51,%r14
391	shl	\$13,%r15
392	and	%rbp,%r10		# %r10 = g4 = h0 & mask
393	or	%r14,%r15		# h0>>51
394
395	lea	(%r15,%r15,8),%r14
396	lea	(%r15,%r14,2),%r15
397	add	%r15,%rax		# g0 += (h0>>51)*19
398
399	mov	%rdx,%r8
400	and	%rbp,%rdx		# g2 &= mask
401	shr	\$51,%r8
402	add	%r8,%rbx		# g3 += g2>>51
403
404	mov	%rax,%r9
405	and	%rbp,%rax		# g0 &= mask
406	shr	\$51,%r9
407	add	%r9,%rcx		# g1 += g0>>51
408
409	mov	%rax,8*0(%rdi)		# save the result
410	mov	%rcx,8*1(%rdi)
411	mov	%rdx,8*2(%rdi)
412	mov	%rbx,8*3(%rdi)
413	mov	%r10,8*4(%rdi)
414
415	mov	8*5(%rsp),%r15
416.cfi_restore	%r15
417	mov	8*6(%rsp),%r14
418.cfi_restore	%r14
419	mov	8*7(%rsp),%r13
420.cfi_restore	%r13
421	mov	8*8(%rsp),%r12
422.cfi_restore	%r12
423	mov	8*9(%rsp),%rbx
424.cfi_restore	%rbx
425	mov	8*10(%rsp),%rbp
426.cfi_restore	%rbp
427	lea	8*11(%rsp),%rsp
428.cfi_adjust_cfa_offset	88
429.Lfe51_sqr_epilogue:
430	ret
431.cfi_endproc
432.size	x25519_fe51_sqr,.-x25519_fe51_sqr
433
434.globl	x25519_fe51_mul121666
435.type	x25519_fe51_mul121666,\@function,2
436.align	32
437x25519_fe51_mul121666:
438.cfi_startproc
439	push	%rbp
440.cfi_push	%rbp
441	push	%rbx
442.cfi_push	%rbx
443	push	%r12
444.cfi_push	%r12
445	push	%r13
446.cfi_push	%r13
447	push	%r14
448.cfi_push	%r14
449	push	%r15
450.cfi_push	%r15
451	lea	-8*5(%rsp),%rsp
452.cfi_adjust_cfa_offset	40
453.Lfe51_mul121666_body:
454	mov	\$121666,%eax
455
456	mulq	8*0(%rsi)
457	mov	%rax,%rbx		# %rbx:%rcx = h0
458	mov	\$121666,%eax
459	mov	%rdx,%rcx
460	mulq	8*1(%rsi)
461	mov	%rax,%r8		# %r8:%r9 = h1
462	mov	\$121666,%eax
463	mov	%rdx,%r9
464	mulq	8*2(%rsi)
465	mov	%rax,%r10		# %r10:%r11 = h2
466	mov	\$121666,%eax
467	mov	%rdx,%r11
468	mulq	8*3(%rsi)
469	mov	%rax,%r12		# %r12:%r13 = h3
470	mov	\$121666,%eax		# f[0]
471	mov	%rdx,%r13
472	mulq	8*4(%rsi)
473	mov	%rax,%r14		# %r14:%r15 = h4
474	mov	%rdx,%r15
475
476	jmp	.Lreduce51
477.Lfe51_mul121666_epilogue:
478.cfi_endproc
479.size	x25519_fe51_mul121666,.-x25519_fe51_mul121666
480___
481########################################################################
482# Base 2^64 subroutines modulo 2*(2^255-19)
483#
484if ($addx) {
485my ($acc0,$acc1,$acc2,$acc3,$acc4,$acc5,$acc6,$acc7) = map("%r$_",(8..15));
486
487$code.=<<___;
488.extern	OPENSSL_ia32cap_P
489.globl	x25519_fe64_eligible
490.type	x25519_fe64_eligible,\@abi-omnipotent
491.align	32
492x25519_fe64_eligible:
493.cfi_startproc
494	mov	OPENSSL_ia32cap_P+8(%rip),%ecx
495	xor	%eax,%eax
496	and	\$0x80100,%ecx
497	cmp	\$0x80100,%ecx
498	cmove	%ecx,%eax
499	ret
500.cfi_endproc
501.size	x25519_fe64_eligible,.-x25519_fe64_eligible
502
503.globl	x25519_fe64_mul
504.type	x25519_fe64_mul,\@function,3
505.align	32
506x25519_fe64_mul:
507.cfi_startproc
508	push	%rbp
509.cfi_push	%rbp
510	push	%rbx
511.cfi_push	%rbx
512	push	%r12
513.cfi_push	%r12
514	push	%r13
515.cfi_push	%r13
516	push	%r14
517.cfi_push	%r14
518	push	%r15
519.cfi_push	%r15
520	push	%rdi			# offload dst
521.cfi_push	%rdi
522	lea	-8*2(%rsp),%rsp
523.cfi_adjust_cfa_offset	16
524.Lfe64_mul_body:
525
526	mov	%rdx,%rax
527	mov	8*0(%rdx),%rbp		# b[0]
528	mov	8*0(%rsi),%rdx		# a[0]
529	mov	8*1(%rax),%rcx		# b[1]
530	mov	8*2(%rax),$acc6		# b[2]
531	mov	8*3(%rax),$acc7		# b[3]
532
533	mulx	%rbp,$acc0,%rax		# a[0]*b[0]
534	xor	%edi,%edi		# cf=0,of=0
535	mulx	%rcx,$acc1,%rbx		# a[0]*b[1]
536	adcx	%rax,$acc1
537	mulx	$acc6,$acc2,%rax	# a[0]*b[2]
538	adcx	%rbx,$acc2
539	mulx	$acc7,$acc3,$acc4	# a[0]*b[3]
540	 mov	8*1(%rsi),%rdx		# a[1]
541	adcx	%rax,$acc3
542	mov	$acc6,(%rsp)		# offload b[2]
543	adcx	%rdi,$acc4		# cf=0
544
545	mulx	%rbp,%rax,%rbx		# a[1]*b[0]
546	adox	%rax,$acc1
547	adcx	%rbx,$acc2
548	mulx	%rcx,%rax,%rbx		# a[1]*b[1]
549	adox	%rax,$acc2
550	adcx	%rbx,$acc3
551	mulx	$acc6,%rax,%rbx		# a[1]*b[2]
552	adox	%rax,$acc3
553	adcx	%rbx,$acc4
554	mulx	$acc7,%rax,$acc5	# a[1]*b[3]
555	 mov	8*2(%rsi),%rdx		# a[2]
556	adox	%rax,$acc4
557	adcx	%rdi,$acc5		# cf=0
558	adox	%rdi,$acc5		# of=0
559
560	mulx	%rbp,%rax,%rbx		# a[2]*b[0]
561	adcx	%rax,$acc2
562	adox	%rbx,$acc3
563	mulx	%rcx,%rax,%rbx		# a[2]*b[1]
564	adcx	%rax,$acc3
565	adox	%rbx,$acc4
566	mulx	$acc6,%rax,%rbx		# a[2]*b[2]
567	adcx	%rax,$acc4
568	adox	%rbx,$acc5
569	mulx	$acc7,%rax,$acc6	# a[2]*b[3]
570	 mov	8*3(%rsi),%rdx		# a[3]
571	adcx	%rax,$acc5
572	adox	%rdi,$acc6		# of=0
573	adcx	%rdi,$acc6		# cf=0
574
575	mulx	%rbp,%rax,%rbx		# a[3]*b[0]
576	adox	%rax,$acc3
577	adcx	%rbx,$acc4
578	mulx	%rcx,%rax,%rbx		# a[3]*b[1]
579	adox	%rax,$acc4
580	adcx	%rbx,$acc5
581	mulx	(%rsp),%rax,%rbx	# a[3]*b[2]
582	adox	%rax,$acc5
583	adcx	%rbx,$acc6
584	mulx	$acc7,%rax,$acc7	# a[3]*b[3]
585	 mov	\$38,%edx
586	adox	%rax,$acc6
587	adcx	%rdi,$acc7		# cf=0
588	adox	%rdi,$acc7		# of=0
589
590	jmp	.Lreduce64
591.Lfe64_mul_epilogue:
592.cfi_endproc
593.size	x25519_fe64_mul,.-x25519_fe64_mul
594
595.globl	x25519_fe64_sqr
596.type	x25519_fe64_sqr,\@function,2
597.align	32
598x25519_fe64_sqr:
599.cfi_startproc
600	push	%rbp
601.cfi_push	%rbp
602	push	%rbx
603.cfi_push	%rbx
604	push	%r12
605.cfi_push	%r12
606	push	%r13
607.cfi_push	%r13
608	push	%r14
609.cfi_push	%r14
610	push	%r15
611.cfi_push	%r15
612	push	%rdi			# offload dst
613.cfi_push	%rdi
614	lea	-8*2(%rsp),%rsp
615.cfi_adjust_cfa_offset	16
616.Lfe64_sqr_body:
617
618	mov	8*0(%rsi),%rdx		# a[0]
619	mov	8*1(%rsi),%rcx		# a[1]
620	mov	8*2(%rsi),%rbp		# a[2]
621	mov	8*3(%rsi),%rsi		# a[3]
622
623	################################################################
624	mulx	%rdx,$acc0,$acc7	# a[0]*a[0]
625	mulx	%rcx,$acc1,%rax		# a[0]*a[1]
626	xor	%edi,%edi		# cf=0,of=0
627	mulx	%rbp,$acc2,%rbx		# a[0]*a[2]
628	adcx	%rax,$acc2
629	mulx	%rsi,$acc3,$acc4	# a[0]*a[3]
630	 mov	%rcx,%rdx		# a[1]
631	adcx	%rbx,$acc3
632	adcx	%rdi,$acc4		# cf=0
633
634	################################################################
635	mulx	%rbp,%rax,%rbx		# a[1]*a[2]
636	adox	%rax,$acc3
637	adcx	%rbx,$acc4
638	mulx	%rsi,%rax,$acc5		# a[1]*a[3]
639	 mov	%rbp,%rdx		# a[2]
640	adox	%rax,$acc4
641	adcx	%rdi,$acc5
642
643	################################################################
644	mulx	%rsi,%rax,$acc6		# a[2]*a[3]
645	 mov	%rcx,%rdx		# a[1]
646	adox	%rax,$acc5
647	adcx	%rdi,$acc6		# cf=0
648	adox	%rdi,$acc6		# of=0
649
650	 adcx	$acc1,$acc1		# acc1:6<<1
651	adox	$acc7,$acc1
652	 adcx	$acc2,$acc2
653	mulx	%rdx,%rax,%rbx		# a[1]*a[1]
654	 mov	%rbp,%rdx		# a[2]
655	 adcx	$acc3,$acc3
656	adox	%rax,$acc2
657	 adcx	$acc4,$acc4
658	adox	%rbx,$acc3
659	mulx	%rdx,%rax,%rbx		# a[2]*a[2]
660	 mov	%rsi,%rdx		# a[3]
661	 adcx	$acc5,$acc5
662	adox	%rax,$acc4
663	 adcx	$acc6,$acc6
664	adox	%rbx,$acc5
665	mulx	%rdx,%rax,$acc7		# a[3]*a[3]
666	 mov	\$38,%edx
667	adox	%rax,$acc6
668	adcx	%rdi,$acc7		# cf=0
669	adox	%rdi,$acc7		# of=0
670	jmp	.Lreduce64
671
672.align	32
673.Lreduce64:
674	mulx	$acc4,%rax,%rbx
675	adcx	%rax,$acc0
676	adox	%rbx,$acc1
677	mulx	$acc5,%rax,%rbx
678	adcx	%rax,$acc1
679	adox	%rbx,$acc2
680	mulx	$acc6,%rax,%rbx
681	adcx	%rax,$acc2
682	adox	%rbx,$acc3
683	mulx	$acc7,%rax,$acc4
684	adcx	%rax,$acc3
685	adox	%rdi,$acc4
686	adcx	%rdi,$acc4
687
688	mov	8*2(%rsp),%rdi		# restore dst
689	imulq	%rdx,$acc4
690
691	add	$acc4,$acc0
692	adc	\$0,$acc1
693	adc	\$0,$acc2
694	adc	\$0,$acc3
695
696	sbb	%rax,%rax		# cf -> mask
697	and	\$38,%rax
698
699	add	%rax,$acc0
700	mov	$acc1,8*1(%rdi)
701	mov	$acc2,8*2(%rdi)
702	mov	$acc3,8*3(%rdi)
703	mov	$acc0,8*0(%rdi)
704
705	mov	8*3(%rsp),%r15
706.cfi_restore	%r15
707	mov	8*4(%rsp),%r14
708.cfi_restore	%r14
709	mov	8*5(%rsp),%r13
710.cfi_restore	%r13
711	mov	8*6(%rsp),%r12
712.cfi_restore	%r12
713	mov	8*7(%rsp),%rbx
714.cfi_restore	%rbx
715	mov	8*8(%rsp),%rbp
716.cfi_restore	%rbp
717	lea	8*9(%rsp),%rsp
718.cfi_adjust_cfa_offset	88
719.Lfe64_sqr_epilogue:
720	ret
721.cfi_endproc
722.size	x25519_fe64_sqr,.-x25519_fe64_sqr
723
724.globl	x25519_fe64_mul121666
725.type	x25519_fe64_mul121666,\@function,2
726.align	32
727x25519_fe64_mul121666:
728.Lfe64_mul121666_body:
729.cfi_startproc
730	mov	\$121666,%edx
731	mulx	8*0(%rsi),$acc0,%rcx
732	mulx	8*1(%rsi),$acc1,%rax
733	add	%rcx,$acc1
734	mulx	8*2(%rsi),$acc2,%rcx
735	adc	%rax,$acc2
736	mulx	8*3(%rsi),$acc3,%rax
737	adc	%rcx,$acc3
738	adc	\$0,%rax
739
740	imulq	\$38,%rax,%rax
741
742	add	%rax,$acc0
743	adc	\$0,$acc1
744	adc	\$0,$acc2
745	adc	\$0,$acc3
746
747	sbb	%rax,%rax		# cf -> mask
748	and	\$38,%rax
749
750	add	%rax,$acc0
751	mov	$acc1,8*1(%rdi)
752	mov	$acc2,8*2(%rdi)
753	mov	$acc3,8*3(%rdi)
754	mov	$acc0,8*0(%rdi)
755
756.Lfe64_mul121666_epilogue:
757	ret
758.cfi_endproc
759.size	x25519_fe64_mul121666,.-x25519_fe64_mul121666
760
761.globl	x25519_fe64_add
762.type	x25519_fe64_add,\@function,3
763.align	32
764x25519_fe64_add:
765.Lfe64_add_body:
766.cfi_startproc
767	mov	8*0(%rsi),$acc0
768	mov	8*1(%rsi),$acc1
769	mov	8*2(%rsi),$acc2
770	mov	8*3(%rsi),$acc3
771
772	add	8*0(%rdx),$acc0
773	adc	8*1(%rdx),$acc1
774	adc	8*2(%rdx),$acc2
775	adc	8*3(%rdx),$acc3
776
777	sbb	%rax,%rax		# cf -> mask
778	and	\$38,%rax
779
780	add	%rax,$acc0
781	adc	\$0,$acc1
782	adc	\$0,$acc2
783	mov	$acc1,8*1(%rdi)
784	adc	\$0,$acc3
785	mov	$acc2,8*2(%rdi)
786	sbb	%rax,%rax		# cf -> mask
787	mov	$acc3,8*3(%rdi)
788	and	\$38,%rax
789
790	add	%rax,$acc0
791	mov	$acc0,8*0(%rdi)
792
793.Lfe64_add_epilogue:
794	ret
795.cfi_endproc
796.size	x25519_fe64_add,.-x25519_fe64_add
797
798.globl	x25519_fe64_sub
799.type	x25519_fe64_sub,\@function,3
800.align	32
801x25519_fe64_sub:
802.Lfe64_sub_body:
803.cfi_startproc
804	mov	8*0(%rsi),$acc0
805	mov	8*1(%rsi),$acc1
806	mov	8*2(%rsi),$acc2
807	mov	8*3(%rsi),$acc3
808
809	sub	8*0(%rdx),$acc0
810	sbb	8*1(%rdx),$acc1
811	sbb	8*2(%rdx),$acc2
812	sbb	8*3(%rdx),$acc3
813
814	sbb	%rax,%rax		# cf -> mask
815	and	\$38,%rax
816
817	sub	%rax,$acc0
818	sbb	\$0,$acc1
819	sbb	\$0,$acc2
820	mov	$acc1,8*1(%rdi)
821	sbb	\$0,$acc3
822	mov	$acc2,8*2(%rdi)
823	sbb	%rax,%rax		# cf -> mask
824	mov	$acc3,8*3(%rdi)
825	and	\$38,%rax
826
827	sub	%rax,$acc0
828	mov	$acc0,8*0(%rdi)
829
830.Lfe64_sub_epilogue:
831	ret
832.cfi_endproc
833.size	x25519_fe64_sub,.-x25519_fe64_sub
834
835.globl	x25519_fe64_tobytes
836.type	x25519_fe64_tobytes,\@function,2
837.align	32
838x25519_fe64_tobytes:
839.Lfe64_to_body:
840.cfi_startproc
841	mov	8*0(%rsi),$acc0
842	mov	8*1(%rsi),$acc1
843	mov	8*2(%rsi),$acc2
844	mov	8*3(%rsi),$acc3
845
846	################################# reduction modulo 2^255-19
847	lea	($acc3,$acc3),%rax
848	sar	\$63,$acc3		# most significant bit -> mask
849	shr	\$1,%rax		# most significant bit cleared
850	and	\$19,$acc3
851	add	\$19,$acc3		# compare to modulus in the same go
852
853	add	$acc3,$acc0
854	adc	\$0,$acc1
855	adc	\$0,$acc2
856	adc	\$0,%rax
857
858	lea	(%rax,%rax),$acc3
859	sar	\$63,%rax		# most significant bit -> mask
860	shr	\$1,$acc3		# most significant bit cleared
861	not	%rax
862	and	\$19,%rax
863
864	sub	%rax,$acc0
865	sbb	\$0,$acc1
866	sbb	\$0,$acc2
867	sbb	\$0,$acc3
868
869	mov	$acc0,8*0(%rdi)
870	mov	$acc1,8*1(%rdi)
871	mov	$acc2,8*2(%rdi)
872	mov	$acc3,8*3(%rdi)
873
874.Lfe64_to_epilogue:
875	ret
876.cfi_endproc
877.size	x25519_fe64_tobytes,.-x25519_fe64_tobytes
878___
879} else {
880$code.=<<___;
881.globl	x25519_fe64_eligible
882.type	x25519_fe64_eligible,\@abi-omnipotent
883.align	32
884x25519_fe64_eligible:
885.cfi_startproc
886	xor	%eax,%eax
887	ret
888.cfi_endproc
889.size	x25519_fe64_eligible,.-x25519_fe64_eligible
890
891.globl	x25519_fe64_mul
892.type	x25519_fe64_mul,\@abi-omnipotent
893.globl	x25519_fe64_sqr
894.globl	x25519_fe64_mul121666
895.globl	x25519_fe64_add
896.globl	x25519_fe64_sub
897.globl	x25519_fe64_tobytes
898x25519_fe64_mul:
899x25519_fe64_sqr:
900x25519_fe64_mul121666:
901x25519_fe64_add:
902x25519_fe64_sub:
903x25519_fe64_tobytes:
904.cfi_startproc
905	.byte	0x0f,0x0b	# ud2
906	ret
907.cfi_endproc
908.size	x25519_fe64_mul,.-x25519_fe64_mul
909___
910}
911$code.=<<___;
912.asciz	"X25519 primitives for x86_64, CRYPTOGAMS by <appro\@openssl.org>"
913___
914
915# EXCEPTION_DISPOSITION handler (EXCEPTION_RECORD *rec,ULONG64 frame,
916#		CONTEXT *context,DISPATCHER_CONTEXT *disp)
917if ($win64) {
918$rec="%rcx";
919$frame="%rdx";
920$context="%r8";
921$disp="%r9";
922
923$code.=<<___;
924.extern	__imp_RtlVirtualUnwind
925
926.type	short_handler,\@abi-omnipotent
927.align	16
928short_handler:
929	push	%rsi
930	push	%rdi
931	push	%rbx
932	push	%rbp
933	push	%r12
934	push	%r13
935	push	%r14
936	push	%r15
937	pushfq
938	sub	\$64,%rsp
939
940	mov	120($context),%rax	# pull context->Rax
941	mov	248($context),%rbx	# pull context->Rip
942
943	mov	8($disp),%rsi		# disp->ImageBase
944	mov	56($disp),%r11		# disp->HandlerData
945
946	mov	0(%r11),%r10d		# HandlerData[0]
947	lea	(%rsi,%r10),%r10	# end of prologue label
948	cmp	%r10,%rbx		# context->Rip<end of prologue label
949	jb	.Lcommon_seh_tail
950
951	mov	152($context),%rax	# pull context->Rsp
952	jmp	.Lcommon_seh_tail
953.size	short_handler,.-short_handler
954
955.type	full_handler,\@abi-omnipotent
956.align	16
957full_handler:
958	push	%rsi
959	push	%rdi
960	push	%rbx
961	push	%rbp
962	push	%r12
963	push	%r13
964	push	%r14
965	push	%r15
966	pushfq
967	sub	\$64,%rsp
968
969	mov	120($context),%rax	# pull context->Rax
970	mov	248($context),%rbx	# pull context->Rip
971
972	mov	8($disp),%rsi		# disp->ImageBase
973	mov	56($disp),%r11		# disp->HandlerData
974
975	mov	0(%r11),%r10d		# HandlerData[0]
976	lea	(%rsi,%r10),%r10	# end of prologue label
977	cmp	%r10,%rbx		# context->Rip<end of prologue label
978	jb	.Lcommon_seh_tail
979
980	mov	152($context),%rax	# pull context->Rsp
981
982	mov	4(%r11),%r10d		# HandlerData[1]
983	lea	(%rsi,%r10),%r10	# epilogue label
984	cmp	%r10,%rbx		# context->Rip>=epilogue label
985	jae	.Lcommon_seh_tail
986
987	mov	8(%r11),%r10d		# HandlerData[2]
988	lea	(%rax,%r10),%rax
989
990	mov	-8(%rax),%rbp
991	mov	-16(%rax),%rbx
992	mov	-24(%rax),%r12
993	mov	-32(%rax),%r13
994	mov	-40(%rax),%r14
995	mov	-48(%rax),%r15
996	mov	%rbx,144($context)	# restore context->Rbx
997	mov	%rbp,160($context)	# restore context->Rbp
998	mov	%r12,216($context)	# restore context->R12
999	mov	%r13,224($context)	# restore context->R13
1000	mov	%r14,232($context)	# restore context->R14
1001	mov	%r15,240($context)	# restore context->R15
1002
1003.Lcommon_seh_tail:
1004	mov	8(%rax),%rdi
1005	mov	16(%rax),%rsi
1006	mov	%rax,152($context)	# restore context->Rsp
1007	mov	%rsi,168($context)	# restore context->Rsi
1008	mov	%rdi,176($context)	# restore context->Rdi
1009
1010	mov	40($disp),%rdi		# disp->ContextRecord
1011	mov	$context,%rsi		# context
1012	mov	\$154,%ecx		# sizeof(CONTEXT)
1013	.long	0xa548f3fc		# cld; rep movsq
1014
1015	mov	$disp,%rsi
1016	xor	%rcx,%rcx		# arg1, UNW_FLAG_NHANDLER
1017	mov	8(%rsi),%rdx		# arg2, disp->ImageBase
1018	mov	0(%rsi),%r8		# arg3, disp->ControlPc
1019	mov	16(%rsi),%r9		# arg4, disp->FunctionEntry
1020	mov	40(%rsi),%r10		# disp->ContextRecord
1021	lea	56(%rsi),%r11		# &disp->HandlerData
1022	lea	24(%rsi),%r12		# &disp->EstablisherFrame
1023	mov	%r10,32(%rsp)		# arg5
1024	mov	%r11,40(%rsp)		# arg6
1025	mov	%r12,48(%rsp)		# arg7
1026	mov	%rcx,56(%rsp)		# arg8, (NULL)
1027	call	*__imp_RtlVirtualUnwind(%rip)
1028
1029	mov	\$1,%eax		# ExceptionContinueSearch
1030	add	\$64,%rsp
1031	popfq
1032	pop	%r15
1033	pop	%r14
1034	pop	%r13
1035	pop	%r12
1036	pop	%rbp
1037	pop	%rbx
1038	pop	%rdi
1039	pop	%rsi
1040	ret
1041.size	full_handler,.-full_handler
1042
1043.section	.pdata
1044.align	4
1045	.rva	.LSEH_begin_x25519_fe51_mul
1046	.rva	.LSEH_end_x25519_fe51_mul
1047	.rva	.LSEH_info_x25519_fe51_mul
1048
1049	.rva	.LSEH_begin_x25519_fe51_sqr
1050	.rva	.LSEH_end_x25519_fe51_sqr
1051	.rva	.LSEH_info_x25519_fe51_sqr
1052
1053	.rva	.LSEH_begin_x25519_fe51_mul121666
1054	.rva	.LSEH_end_x25519_fe51_mul121666
1055	.rva	.LSEH_info_x25519_fe51_mul121666
1056___
1057$code.=<<___	if ($addx);
1058	.rva	.LSEH_begin_x25519_fe64_mul
1059	.rva	.LSEH_end_x25519_fe64_mul
1060	.rva	.LSEH_info_x25519_fe64_mul
1061
1062	.rva	.LSEH_begin_x25519_fe64_sqr
1063	.rva	.LSEH_end_x25519_fe64_sqr
1064	.rva	.LSEH_info_x25519_fe64_sqr
1065
1066	.rva	.LSEH_begin_x25519_fe64_mul121666
1067	.rva	.LSEH_end_x25519_fe64_mul121666
1068	.rva	.LSEH_info_x25519_fe64_mul121666
1069
1070	.rva	.LSEH_begin_x25519_fe64_add
1071	.rva	.LSEH_end_x25519_fe64_add
1072	.rva	.LSEH_info_x25519_fe64_add
1073
1074	.rva	.LSEH_begin_x25519_fe64_sub
1075	.rva	.LSEH_end_x25519_fe64_sub
1076	.rva	.LSEH_info_x25519_fe64_sub
1077
1078	.rva	.LSEH_begin_x25519_fe64_tobytes
1079	.rva	.LSEH_end_x25519_fe64_tobytes
1080	.rva	.LSEH_info_x25519_fe64_tobytes
1081___
1082$code.=<<___;
1083.section	.xdata
1084.align	8
1085.LSEH_info_x25519_fe51_mul:
1086	.byte	9,0,0,0
1087	.rva	full_handler
1088	.rva	.Lfe51_mul_body,.Lfe51_mul_epilogue	# HandlerData[]
1089	.long	88,0
1090.LSEH_info_x25519_fe51_sqr:
1091	.byte	9,0,0,0
1092	.rva	full_handler
1093	.rva	.Lfe51_sqr_body,.Lfe51_sqr_epilogue	# HandlerData[]
1094	.long	88,0
1095.LSEH_info_x25519_fe51_mul121666:
1096	.byte	9,0,0,0
1097	.rva	full_handler
1098	.rva	.Lfe51_mul121666_body,.Lfe51_mul121666_epilogue	# HandlerData[]
1099	.long	88,0
1100___
1101$code.=<<___	if ($addx);
1102.LSEH_info_x25519_fe64_mul:
1103	.byte	9,0,0,0
1104	.rva	full_handler
1105	.rva	.Lfe64_mul_body,.Lfe64_mul_epilogue	# HandlerData[]
1106	.long	72,0
1107.LSEH_info_x25519_fe64_sqr:
1108	.byte	9,0,0,0
1109	.rva	full_handler
1110	.rva	.Lfe64_sqr_body,.Lfe64_sqr_epilogue	# HandlerData[]
1111	.long	72,0
1112.LSEH_info_x25519_fe64_mul121666:
1113	.byte	9,0,0,0
1114	.rva	short_handler
1115	.rva	.Lfe64_mul121666_body,.Lfe64_mul121666_epilogue	# HandlerData[]
1116.LSEH_info_x25519_fe64_add:
1117	.byte	9,0,0,0
1118	.rva	short_handler
1119	.rva	.Lfe64_add_body,.Lfe64_add_epilogue	# HandlerData[]
1120.LSEH_info_x25519_fe64_sub:
1121	.byte	9,0,0,0
1122	.rva	short_handler
1123	.rva	.Lfe64_sub_body,.Lfe64_sub_epilogue	# HandlerData[]
1124.LSEH_info_x25519_fe64_tobytes:
1125	.byte	9,0,0,0
1126	.rva	short_handler
1127	.rva	.Lfe64_to_body,.Lfe64_to_epilogue	# HandlerData[]
1128___
1129}
1130
1131$code =~ s/\`([^\`]*)\`/eval $1/gem;
1132print $code;
1133close STDOUT or die "error closing STDOUT: $!";
1134