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authorJason A. Donenfeld <Jason@zx2c4.com>2018-10-02 02:46:31 +0200
committerJason A. Donenfeld <Jason@zx2c4.com>2019-03-22 00:50:53 -0600
commitfa193f4619c68207e6d8c91dbd50866612ce3684 (patch)
treef3f1e1558775f4c5cc9e0ae46af6176f04ccb306
parentzinc: Poly1305 generic C implementations and selftest (diff)
downloadlinux-dev-fa193f4619c68207e6d8c91dbd50866612ce3684.tar.xz
linux-dev-fa193f4619c68207e6d8c91dbd50866612ce3684.zip
zinc: Poly1305 x86_64 implementation
These x86_64 vectorized implementations are based on Andy Polyakov's implementation, and support AVX, AVX-2, and AVX512F. The AVX-512F implementation is disabled on Skylake, due to throttling. The AVX code uses base 2^26, while the scalar code uses base 2^64. If we hit the unfortunate situation of using AVX and then having to go back to scalar -- because the user is silly and has called the update function from two separate contexts -- then we need to convert back to the original base before proceeding. It is possible to reason that the initial reduction below is sufficient given the implementation invariants. However, for an avoidance of doubt and because this is not performance critical, we do the full reduction anyway. This conversion is found in the glue code, and a proof of correctness may be easily obtained from Z3: <https://xn--4db.cc/ltPtHCKN/py>. On the left is cycle counts on a Core i7 6700HQ using the AVX-2 codepath, comparing this implementation ("new") to the implementation in the current crypto api ("old"). On the right are benchmarks on a Xeon Gold 5120 using the AVX-512 codepath. The difference is so stark, because the current crypto api's implementation does not support AVX-512 at all. AVX-2 AVX-512 --------- ----------- size old new size old new ---- ---- ---- ---- ---- ---- 0 70 68 0 74 70 16 92 90 16 96 92 32 134 104 32 136 106 48 172 120 48 184 124 64 218 136 64 218 138 80 254 158 80 260 160 96 298 174 96 300 176 112 342 192 112 342 194 128 388 212 128 384 212 144 428 228 144 420 226 160 466 246 160 464 248 176 510 264 176 504 264 192 550 282 192 544 282 208 594 302 208 582 300 224 628 316 224 624 318 240 676 334 240 662 338 256 716 354 256 708 358 272 764 374 272 748 372 288 802 352 288 788 358 304 420 366 304 422 370 320 428 360 320 432 364 336 484 378 336 486 380 352 426 384 352 434 390 368 478 400 368 480 408 384 488 394 384 490 398 400 542 408 400 542 412 416 486 416 416 492 426 432 534 430 432 538 436 448 544 422 448 546 432 464 600 438 464 600 448 480 540 448 480 548 456 496 594 464 496 594 476 512 602 456 512 606 470 528 656 476 528 656 480 544 600 480 544 606 498 560 650 494 560 652 512 576 664 490 576 662 508 592 714 508 592 716 522 608 656 514 608 664 538 624 708 532 624 710 552 640 716 524 640 720 516 656 770 536 656 772 526 672 716 548 672 722 544 688 770 562 688 768 556 704 774 552 704 778 556 720 826 568 720 832 568 736 768 574 736 780 584 752 822 592 752 826 600 768 830 584 768 836 560 784 884 602 784 888 572 800 828 610 800 838 588 816 884 628 816 884 604 832 888 618 832 894 598 848 942 632 848 946 612 864 884 644 864 896 628 880 936 660 880 942 644 896 948 652 896 952 608 912 1000 664 912 1004 616 928 942 676 928 954 634 944 994 690 944 1000 646 960 1002 680 960 1008 646 976 1054 694 976 1062 658 992 1002 706 992 1012 674 1008 1052 720 1008 1058 690 While this is CRYPTOGAMS code, the originating code for this happens to be derived from OpenSSL's commit 4dfe4310c31c4483705991d9a798ce9be1ed1c68 Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com> Signed-off-by: Samuel Neves <sneves@dei.uc.pt> Co-developed-by: Samuel Neves <sneves@dei.uc.pt> Co-developed-by: Andy Polyakov <appro@openssl.org> Cc: Andy Polyakov <appro@openssl.org> Cc: Thomas Gleixner <tglx@linutronix.de> Cc: Ingo Molnar <mingo@redhat.com> Cc: x86@kernel.org Cc: Samuel Neves <sneves@dei.uc.pt> Cc: Jean-Philippe Aumasson <jeanphilippe.aumasson@gmail.com> Cc: Andy Lutomirski <luto@kernel.org> Cc: Greg KH <gregkh@linuxfoundation.org> Cc: Andrew Morton <akpm@linux-foundation.org> Cc: Linus Torvalds <torvalds@linux-foundation.org> Cc: kernel-hardening@lists.openwall.com Cc: linux-crypto@vger.kernel.org
-rw-r--r--lib/zinc/Makefile2
-rw-r--r--lib/zinc/poly1305/poly1305-x86_64-glue.c154
-rw-r--r--lib/zinc/poly1305/poly1305-x86_64.pl4266
-rw-r--r--lib/zinc/poly1305/poly1305.c4
4 files changed, 4426 insertions, 0 deletions
diff --git a/lib/zinc/Makefile b/lib/zinc/Makefile
index e73600fc3872..6ec02f65f96f 100644
--- a/lib/zinc/Makefile
+++ b/lib/zinc/Makefile
@@ -12,6 +12,8 @@ perlasm-targets += chacha20/chacha20-x86_64.S chacha20/chacha20-arm.S chacha20/c
obj-$(CONFIG_ZINC_CHACHA20) += zinc_chacha20.o
zinc_poly1305-y := poly1305/poly1305.o
+zinc_poly1305-$(CONFIG_ZINC_ARCH_X86_64) += poly1305/poly1305-x86_64.o
+perlasm-targets += poly1305/poly1305-x86_64.S
obj-$(CONFIG_ZINC_POLY1305) += zinc_poly1305.o
quiet_cmd_perlasm = PERLASM $@
diff --git a/lib/zinc/poly1305/poly1305-x86_64-glue.c b/lib/zinc/poly1305/poly1305-x86_64-glue.c
new file mode 100644
index 000000000000..aba167e2bbf0
--- /dev/null
+++ b/lib/zinc/poly1305/poly1305-x86_64-glue.c
@@ -0,0 +1,154 @@
+// SPDX-License-Identifier: GPL-2.0 OR MIT
+/*
+ * Copyright (C) 2015-2019 Jason A. Donenfeld <Jason@zx2c4.com>. All Rights Reserved.
+ */
+
+#include <asm/cpufeature.h>
+#include <asm/processor.h>
+#include <asm/intel-family.h>
+
+asmlinkage void poly1305_init_x86_64(void *ctx,
+ const u8 key[POLY1305_KEY_SIZE]);
+asmlinkage void poly1305_blocks_x86_64(void *ctx, const u8 *inp,
+ const size_t len, const u32 padbit);
+asmlinkage void poly1305_emit_x86_64(void *ctx, u8 mac[POLY1305_MAC_SIZE],
+ const u32 nonce[4]);
+asmlinkage void poly1305_emit_avx(void *ctx, u8 mac[POLY1305_MAC_SIZE],
+ const u32 nonce[4]);
+asmlinkage void poly1305_blocks_avx(void *ctx, const u8 *inp, const size_t len,
+ const u32 padbit);
+asmlinkage void poly1305_blocks_avx2(void *ctx, const u8 *inp, const size_t len,
+ const u32 padbit);
+asmlinkage void poly1305_blocks_avx512(void *ctx, const u8 *inp,
+ const size_t len, const u32 padbit);
+
+static bool poly1305_use_avx __ro_after_init;
+static bool poly1305_use_avx2 __ro_after_init;
+static bool poly1305_use_avx512 __ro_after_init;
+static bool *const poly1305_nobs[] __initconst = {
+ &poly1305_use_avx, &poly1305_use_avx2, &poly1305_use_avx512 };
+
+static void __init poly1305_fpu_init(void)
+{
+ poly1305_use_avx =
+ boot_cpu_has(X86_FEATURE_AVX) &&
+ cpu_has_xfeatures(XFEATURE_MASK_SSE | XFEATURE_MASK_YMM, NULL);
+ poly1305_use_avx2 =
+ boot_cpu_has(X86_FEATURE_AVX) &&
+ boot_cpu_has(X86_FEATURE_AVX2) &&
+ cpu_has_xfeatures(XFEATURE_MASK_SSE | XFEATURE_MASK_YMM, NULL);
+ poly1305_use_avx512 =
+ boot_cpu_has(X86_FEATURE_AVX) &&
+ boot_cpu_has(X86_FEATURE_AVX2) &&
+ boot_cpu_has(X86_FEATURE_AVX512F) &&
+ cpu_has_xfeatures(XFEATURE_MASK_SSE | XFEATURE_MASK_YMM |
+ XFEATURE_MASK_AVX512, NULL) &&
+ /* Skylake downclocks unacceptably much when using zmm. */
+ boot_cpu_data.x86_model != INTEL_FAM6_SKYLAKE_X;
+}
+
+static inline bool poly1305_init_arch(void *ctx,
+ const u8 key[POLY1305_KEY_SIZE])
+{
+ poly1305_init_x86_64(ctx, key);
+ return true;
+}
+
+struct poly1305_arch_internal {
+ union {
+ struct {
+ u32 h[5];
+ u32 is_base2_26;
+ };
+ u64 hs[3];
+ };
+ u64 r[2];
+ u64 pad;
+ struct { u32 r2, r1, r4, r3; } rn[9];
+};
+
+/* The AVX code uses base 2^26, while the scalar code uses base 2^64. If we hit
+ * the unfortunate situation of using AVX and then having to go back to scalar
+ * -- because the user is silly and has called the update function from two
+ * separate contexts -- then we need to convert back to the original base before
+ * proceeding. It is possible to reason that the initial reduction below is
+ * sufficient given the implementation invariants. However, for an avoidance of
+ * doubt and because this is not performance critical, we do the full reduction
+ * anyway.
+ */
+static void convert_to_base2_64(void *ctx)
+{
+ struct poly1305_arch_internal *state = ctx;
+ u32 cy;
+
+ if (!state->is_base2_26)
+ return;
+
+ cy = state->h[0] >> 26; state->h[0] &= 0x3ffffff; state->h[1] += cy;
+ cy = state->h[1] >> 26; state->h[1] &= 0x3ffffff; state->h[2] += cy;
+ cy = state->h[2] >> 26; state->h[2] &= 0x3ffffff; state->h[3] += cy;
+ cy = state->h[3] >> 26; state->h[3] &= 0x3ffffff; state->h[4] += cy;
+ state->hs[0] = ((u64)state->h[2] << 52) | ((u64)state->h[1] << 26) | state->h[0];
+ state->hs[1] = ((u64)state->h[4] << 40) | ((u64)state->h[3] << 14) | (state->h[2] >> 12);
+ state->hs[2] = state->h[4] >> 24;
+#define ULT(a, b) ((a ^ ((a ^ b) | ((a - b) ^ b))) >> (sizeof(a) * 8 - 1))
+ cy = (state->hs[2] >> 2) + (state->hs[2] & ~3ULL);
+ state->hs[2] &= 3;
+ state->hs[0] += cy;
+ state->hs[1] += (cy = ULT(state->hs[0], cy));
+ state->hs[2] += ULT(state->hs[1], cy);
+#undef ULT
+ state->is_base2_26 = 0;
+}
+
+static inline bool poly1305_blocks_arch(void *ctx, const u8 *inp,
+ size_t len, const u32 padbit,
+ simd_context_t *simd_context)
+{
+ struct poly1305_arch_internal *state = ctx;
+
+ /* SIMD disables preemption, so relax after processing each page. */
+ BUILD_BUG_ON(PAGE_SIZE < POLY1305_BLOCK_SIZE ||
+ PAGE_SIZE % POLY1305_BLOCK_SIZE);
+
+ if (!IS_ENABLED(CONFIG_AS_AVX) || !poly1305_use_avx ||
+ (len < (POLY1305_BLOCK_SIZE * 18) && !state->is_base2_26) ||
+ !simd_use(simd_context)) {
+ convert_to_base2_64(ctx);
+ poly1305_blocks_x86_64(ctx, inp, len, padbit);
+ return true;
+ }
+
+ for (;;) {
+ const size_t bytes = min_t(size_t, len, PAGE_SIZE);
+
+ if (IS_ENABLED(CONFIG_AS_AVX512) && poly1305_use_avx512)
+ poly1305_blocks_avx512(ctx, inp, bytes, padbit);
+ else if (IS_ENABLED(CONFIG_AS_AVX2) && poly1305_use_avx2)
+ poly1305_blocks_avx2(ctx, inp, bytes, padbit);
+ else
+ poly1305_blocks_avx(ctx, inp, bytes, padbit);
+ len -= bytes;
+ if (!len)
+ break;
+ inp += bytes;
+ simd_relax(simd_context);
+ }
+
+ return true;
+}
+
+static inline bool poly1305_emit_arch(void *ctx, u8 mac[POLY1305_MAC_SIZE],
+ const u32 nonce[4],
+ simd_context_t *simd_context)
+{
+ struct poly1305_arch_internal *state = ctx;
+
+ if (!IS_ENABLED(CONFIG_AS_AVX) || !poly1305_use_avx ||
+ !state->is_base2_26 || !simd_use(simd_context)) {
+ convert_to_base2_64(ctx);
+ poly1305_emit_x86_64(ctx, mac, nonce);
+ } else
+ poly1305_emit_avx(ctx, mac, nonce);
+ return true;
+}
diff --git a/lib/zinc/poly1305/poly1305-x86_64.pl b/lib/zinc/poly1305/poly1305-x86_64.pl
new file mode 100644
index 000000000000..37ed8699845d
--- /dev/null
+++ b/lib/zinc/poly1305/poly1305-x86_64.pl
@@ -0,0 +1,4266 @@
+#!/usr/bin/env perl
+# SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause
+#
+# Copyright (C) 2017-2018 Samuel Neves <sneves@dei.uc.pt>. All Rights Reserved.
+# Copyright (C) 2017-2019 Jason A. Donenfeld <Jason@zx2c4.com>. All Rights Reserved.
+# Copyright (C) 2006-2017 CRYPTOGAMS by <appro@openssl.org>. All Rights Reserved.
+#
+# This code is taken from the OpenSSL project but the author, Andy Polyakov,
+# has relicensed it under the licenses specified in the SPDX header above.
+# The original headers, including the original license headers, are
+# included below for completeness.
+#
+# ====================================================================
+# Written by Andy Polyakov <appro@openssl.org> 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/.
+# ====================================================================
+#
+# This module implements Poly1305 hash for x86_64.
+#
+# March 2015
+#
+# Initial release.
+#
+# December 2016
+#
+# Add AVX512F+VL+BW code path.
+#
+# November 2017
+#
+# Convert AVX512F+VL+BW code path to pure AVX512F, so that it can be
+# executed even on Knights Landing. Trigger for modification was
+# observation that AVX512 code paths can negatively affect overall
+# Skylake-X system performance. Since we are likely to suppress
+# AVX512F capability flag [at least on Skylake-X], conversion serves
+# as kind of "investment protection". Note that next *lake processor,
+# Cannolake, has AVX512IFMA code path to execute...
+#
+# Numbers are cycles per processed byte with poly1305_blocks alone,
+# measured with rdtsc at fixed clock frequency.
+#
+# IALU/gcc-4.8(*) AVX(**) AVX2 AVX-512
+# P4 4.46/+120% -
+# Core 2 2.41/+90% -
+# Westmere 1.88/+120% -
+# Sandy Bridge 1.39/+140% 1.10
+# Haswell 1.14/+175% 1.11 0.65
+# Skylake[-X] 1.13/+120% 0.96 0.51 [0.35]
+# Silvermont 2.83/+95% -
+# Knights L 3.60/? 1.65 1.10 0.41(***)
+# Goldmont 1.70/+180% -
+# VIA Nano 1.82/+150% -
+# Sledgehammer 1.38/+160% -
+# Bulldozer 2.30/+130% 0.97
+# Ryzen 1.15/+200% 1.08 1.18
+#
+# (*) improvement coefficients relative to clang are more modest and
+# are ~50% on most processors, in both cases we are comparing to
+# __int128 code;
+# (**) SSE2 implementation was attempted, but among non-AVX processors
+# it was faster than integer-only code only on older Intel P4 and
+# Core processors, 50-30%, less newer processor is, but slower on
+# contemporary ones, for example almost 2x slower on Atom, and as
+# former are naturally disappearing, SSE2 is deemed unnecessary;
+# (***) strangely enough performance seems to vary from core to core,
+# listed result is best case;
+
+$flavour = shift;
+$output = shift;
+if ($flavour =~ /\./) { $output = $flavour; undef $flavour; }
+
+$win64=0; $win64=1 if ($flavour =~ /[nm]asm|mingw64/ || $output =~ /\.asm$/);
+$kernel=0; $kernel=1 if (!$flavour && !$output);
+
+if (!$kernel) {
+ $0 =~ m/(.*[\/\\])[^\/\\]+$/; $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]+)/) {
+ $avx = ($1>=2.19) + ($1>=2.22) + ($1>=2.25);
+ }
+
+ if (!$avx && $win64 && ($flavour =~ /nasm/ || $ENV{ASM} =~ /nasm/) &&
+ `nasm -v 2>&1` =~ /NASM version ([2-9]\.[0-9]+)(?:\.([0-9]+))?/) {
+ $avx = ($1>=2.09) + ($1>=2.10) + ($1>=2.12);
+ $avx += 1 if ($1==2.11 && $2>=8);
+ }
+
+ if (!$avx && $win64 && ($flavour =~ /masm/ || $ENV{ASM} =~ /ml64/) &&
+ `ml64 2>&1` =~ /Version ([0-9]+)\./) {
+ $avx = ($1>=10) + ($1>=11);
+ }
+
+ if (!$avx && `$ENV{CC} -v 2>&1` =~ /((?:^clang|LLVM) version|.*based on LLVM) ([3-9]\.[0-9]+)/) {
+ $avx = ($2>=3.0) + ($2>3.0);
+ }
+} else {
+ $avx = 4; # The kernel uses ifdefs for this.
+}
+
+sub declare_function() {
+ my ($name, $align, $nargs) = @_;
+ if($kernel) {
+ $code .= ".align $align\n";
+ $code .= "ENTRY($name)\n";
+ $code .= ".L$name:\n";
+ } else {
+ $code .= ".globl $name\n";
+ $code .= ".type $name,\@function,$nargs\n";
+ $code .= ".align $align\n";
+ $code .= "$name:\n";
+ }
+}
+
+sub end_function() {
+ my ($name) = @_;
+ if($kernel) {
+ $code .= "ENDPROC($name)\n";
+ } else {
+ $code .= ".size $name,.-$name\n";
+ }
+}
+
+$code.=<<___ if $kernel;
+#include <linux/linkage.h>
+___
+
+if ($avx) {
+$code.=<<___ if $kernel;
+.section .rodata
+___
+$code.=<<___;
+.align 64
+.Lconst:
+.Lmask24:
+.long 0x0ffffff,0,0x0ffffff,0,0x0ffffff,0,0x0ffffff,0
+.L129:
+.long `1<<24`,0,`1<<24`,0,`1<<24`,0,`1<<24`,0
+.Lmask26:
+.long 0x3ffffff,0,0x3ffffff,0,0x3ffffff,0,0x3ffffff,0
+.Lpermd_avx2:
+.long 2,2,2,3,2,0,2,1
+.Lpermd_avx512:
+.long 0,0,0,1, 0,2,0,3, 0,4,0,5, 0,6,0,7
+
+.L2_44_inp_permd:
+.long 0,1,1,2,2,3,7,7
+.L2_44_inp_shift:
+.quad 0,12,24,64
+.L2_44_mask:
+.quad 0xfffffffffff,0xfffffffffff,0x3ffffffffff,0xffffffffffffffff
+.L2_44_shift_rgt:
+.quad 44,44,42,64
+.L2_44_shift_lft:
+.quad 8,8,10,64
+
+.align 64
+.Lx_mask44:
+.quad 0xfffffffffff,0xfffffffffff,0xfffffffffff,0xfffffffffff
+.quad 0xfffffffffff,0xfffffffffff,0xfffffffffff,0xfffffffffff
+.Lx_mask42:
+.quad 0x3ffffffffff,0x3ffffffffff,0x3ffffffffff,0x3ffffffffff
+.quad 0x3ffffffffff,0x3ffffffffff,0x3ffffffffff,0x3ffffffffff
+___
+}
+$code.=<<___ if (!$kernel);
+.asciz "Poly1305 for x86_64, CRYPTOGAMS by <appro\@openssl.org>"
+.align 16
+___
+
+my ($ctx,$inp,$len,$padbit)=("%rdi","%rsi","%rdx","%rcx");
+my ($mac,$nonce)=($inp,$len); # *_emit arguments
+my ($d1,$d2,$d3, $r0,$r1,$s1)=("%r8","%r9","%rdi","%r11","%r12","%r13");
+my ($h0,$h1,$h2)=("%r14","%rbx","%r10");
+
+sub poly1305_iteration {
+# input: copy of $r1 in %rax, $h0-$h2, $r0-$r1
+# output: $h0-$h2 *= $r0-$r1
+$code.=<<___;
+ mulq $h0 # h0*r1
+ mov %rax,$d2
+ mov $r0,%rax
+ mov %rdx,$d3
+
+ mulq $h0 # h0*r0
+ mov %rax,$h0 # future $h0
+ mov $r0,%rax
+ mov %rdx,$d1
+
+ mulq $h1 # h1*r0
+ add %rax,$d2
+ mov $s1,%rax
+ adc %rdx,$d3
+
+ mulq $h1 # h1*s1
+ mov $h2,$h1 # borrow $h1
+ add %rax,$h0
+ adc %rdx,$d1
+
+ imulq $s1,$h1 # h2*s1
+ add $h1,$d2
+ mov $d1,$h1
+ adc \$0,$d3
+
+ imulq $r0,$h2 # h2*r0
+ add $d2,$h1
+ mov \$-4,%rax # mask value
+ adc $h2,$d3
+
+ and $d3,%rax # last reduction step
+ mov $d3,$h2
+ shr \$2,$d3
+ and \$3,$h2
+ add $d3,%rax
+ add %rax,$h0
+ adc \$0,$h1
+ adc \$0,$h2
+___
+}
+
+########################################################################
+# Layout of opaque area is following.
+#
+# unsigned __int64 h[3]; # current hash value base 2^64
+# unsigned __int64 r[2]; # key value base 2^64
+
+$code.=<<___;
+.text
+___
+$code.=<<___ if (!$kernel);
+.extern OPENSSL_ia32cap_P
+
+.globl poly1305_init_x86_64
+.hidden poly1305_init_x86_64
+.globl poly1305_blocks_x86_64
+.hidden poly1305_blocks_x86_64
+.globl poly1305_emit_x86_64
+.hidden poly1305_emit_x86_64
+___
+&declare_function("poly1305_init_x86_64", 32, 3);
+$code.=<<___;
+ xor %rax,%rax
+ mov %rax,0($ctx) # initialize hash value
+ mov %rax,8($ctx)
+ mov %rax,16($ctx)
+
+ cmp \$0,$inp
+ je .Lno_key
+___
+$code.=<<___ if (!$kernel);
+ lea poly1305_blocks_x86_64(%rip),%r10
+ lea poly1305_emit_x86_64(%rip),%r11
+___
+$code.=<<___ if (!$kernel && $avx);
+ mov OPENSSL_ia32cap_P+4(%rip),%r9
+ lea poly1305_blocks_avx(%rip),%rax
+ lea poly1305_emit_avx(%rip),%rcx
+ bt \$`60-32`,%r9 # AVX?
+ cmovc %rax,%r10
+ cmovc %rcx,%r11
+___
+$code.=<<___ if (!$kernel && $avx>1);
+ lea poly1305_blocks_avx2(%rip),%rax
+ bt \$`5+32`,%r9 # AVX2?
+ cmovc %rax,%r10
+___
+$code.=<<___ if (!$kernel && $avx>3);
+ mov \$`(1<<31|1<<21|1<<16)`,%rax
+ shr \$32,%r9
+ and %rax,%r9
+ cmp %rax,%r9
+ je .Linit_base2_44
+___
+$code.=<<___;
+ mov \$0x0ffffffc0fffffff,%rax
+ mov \$0x0ffffffc0ffffffc,%rcx
+ and 0($inp),%rax
+ and 8($inp),%rcx
+ mov %rax,24($ctx)
+ mov %rcx,32($ctx)
+___
+$code.=<<___ if (!$kernel && $flavour !~ /elf32/);
+ mov %r10,0(%rdx)
+ mov %r11,8(%rdx)
+___
+$code.=<<___ if (!$kernel && $flavour =~ /elf32/);
+ mov %r10d,0(%rdx)
+ mov %r11d,4(%rdx)
+___
+$code.=<<___;
+ mov \$1,%eax
+.Lno_key:
+ ret
+___
+&end_function("poly1305_init_x86_64");
+
+&declare_function("poly1305_blocks_x86_64", 32, 4);
+$code.=<<___;
+.cfi_startproc
+.Lblocks:
+ shr \$4,$len
+ jz .Lno_data # too short
+
+ 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 $ctx
+.cfi_push $ctx
+.Lblocks_body:
+
+ mov $len,%r15 # reassign $len
+
+ mov 24($ctx),$r0 # load r
+ mov 32($ctx),$s1
+
+ mov 0($ctx),$h0 # load hash value
+ mov 8($ctx),$h1
+ mov 16($ctx),$h2
+
+ mov $s1,$r1
+ shr \$2,$s1
+ mov $r1,%rax
+ add $r1,$s1 # s1 = r1 + (r1 >> 2)
+ jmp .Loop
+
+.align 32
+.Loop:
+ add 0($inp),$h0 # accumulate input
+ adc 8($inp),$h1
+ lea 16($inp),$inp
+ adc $padbit,$h2
+___
+
+ &poly1305_iteration();
+
+$code.=<<___;
+ mov $r1,%rax
+ dec %r15 # len-=16
+ jnz .Loop
+
+ mov 0(%rsp),$ctx
+.cfi_restore $ctx
+
+ mov $h0,0($ctx) # store hash value
+ mov $h1,8($ctx)
+ mov $h2,16($ctx)
+
+ mov 8(%rsp),%r15
+.cfi_restore %r15
+ mov 16(%rsp),%r14
+.cfi_restore %r14
+ mov 24(%rsp),%r13
+.cfi_restore %r13
+ mov 32(%rsp),%r12
+.cfi_restore %r12
+ mov 40(%rsp),%rbx
+.cfi_restore %rbx
+ lea 48(%rsp),%rsp
+.cfi_adjust_cfa_offset -48
+.Lno_data:
+.Lblocks_epilogue:
+ ret
+.cfi_endproc
+___
+&end_function("poly1305_blocks_x86_64");
+
+&declare_function("poly1305_emit_x86_64", 32, 3);
+$code.=<<___;
+.Lemit:
+ mov 0($ctx),%r8 # load hash value
+ mov 8($ctx),%r9
+ mov 16($ctx),%r10
+
+ mov %r8,%rax
+ add \$5,%r8 # compare to modulus
+ mov %r9,%rcx
+ adc \$0,%r9
+ adc \$0,%r10
+ shr \$2,%r10 # did 130-bit value overflow?
+ cmovnz %r8,%rax
+ cmovnz %r9,%rcx
+
+ add 0($nonce),%rax # accumulate nonce
+ adc 8($nonce),%rcx
+ mov %rax,0($mac) # write result
+ mov %rcx,8($mac)
+
+ ret
+___
+&end_function("poly1305_emit_x86_64");
+if ($avx) {
+
+if($kernel) {
+ $code .= "#ifdef CONFIG_AS_AVX\n";
+}
+
+########################################################################
+# Layout of opaque area is following.
+#
+# unsigned __int32 h[5]; # current hash value base 2^26
+# unsigned __int32 is_base2_26;
+# unsigned __int64 r[2]; # key value base 2^64
+# unsigned __int64 pad;
+# struct { unsigned __int32 r^2, r^1, r^4, r^3; } r[9];
+#
+# where r^n are base 2^26 digits of degrees of multiplier key. There are
+# 5 digits, but last four are interleaved with multiples of 5, totalling
+# in 9 elements: r0, r1, 5*r1, r2, 5*r2, r3, 5*r3, r4, 5*r4.
+
+my ($H0,$H1,$H2,$H3,$H4, $T0,$T1,$T2,$T3,$T4, $D0,$D1,$D2,$D3,$D4, $MASK) =
+ map("%xmm$_",(0..15));
+
+$code.=<<___;
+.type __poly1305_block,\@abi-omnipotent
+.align 32
+__poly1305_block:
+ push $ctx
+___
+ &poly1305_iteration();
+$code.=<<___;
+ pop $ctx
+ ret
+.size __poly1305_block,.-__poly1305_block
+
+.type __poly1305_init_avx,\@abi-omnipotent
+.align 32
+__poly1305_init_avx:
+ push %rbp
+ mov %rsp,%rbp
+ mov $r0,$h0
+ mov $r1,$h1
+ xor $h2,$h2
+
+ lea 48+64($ctx),$ctx # size optimization
+
+ mov $r1,%rax
+ call __poly1305_block # r^2
+
+ mov \$0x3ffffff,%eax # save interleaved r^2 and r base 2^26
+ mov \$0x3ffffff,%edx
+ mov $h0,$d1
+ and $h0#d,%eax
+ mov $r0,$d2
+ and $r0#d,%edx
+ mov %eax,`16*0+0-64`($ctx)
+ shr \$26,$d1
+ mov %edx,`16*0+4-64`($ctx)
+ shr \$26,$d2
+
+ mov \$0x3ffffff,%eax
+ mov \$0x3ffffff,%edx
+ and $d1#d,%eax
+ and $d2#d,%edx
+ mov %eax,`16*1+0-64`($ctx)
+ lea (%rax,%rax,4),%eax # *5
+ mov %edx,`16*1+4-64`($ctx)
+ lea (%rdx,%rdx,4),%edx # *5
+ mov %eax,`16*2+0-64`($ctx)
+ shr \$26,$d1
+ mov %edx,`16*2+4-64`($ctx)
+ shr \$26,$d2
+
+ mov $h1,%rax
+ mov $r1,%rdx
+ shl \$12,%rax
+ shl \$12,%rdx
+ or $d1,%rax
+ or $d2,%rdx
+ and \$0x3ffffff,%eax
+ and \$0x3ffffff,%edx
+ mov %eax,`16*3+0-64`($ctx)
+ lea (%rax,%rax,4),%eax # *5
+ mov %edx,`16*3+4-64`($ctx)
+ lea (%rdx,%rdx,4),%edx # *5
+ mov %eax,`16*4+0-64`($ctx)
+ mov $h1,$d1
+ mov %edx,`16*4+4-64`($ctx)
+ mov $r1,$d2
+
+ mov \$0x3ffffff,%eax
+ mov \$0x3ffffff,%edx
+ shr \$14,$d1
+ shr \$14,$d2
+ and $d1#d,%eax
+ and $d2#d,%edx
+ mov %eax,`16*5+0-64`($ctx)
+ lea (%rax,%rax,4),%eax # *5
+ mov %edx,`16*5+4-64`($ctx)
+ lea (%rdx,%rdx,4),%edx # *5
+ mov %eax,`16*6+0-64`($ctx)
+ shr \$26,$d1
+ mov %edx,`16*6+4-64`($ctx)
+ shr \$26,$d2
+
+ mov $h2,%rax
+ shl \$24,%rax
+ or %rax,$d1
+ mov $d1#d,`16*7+0-64`($ctx)
+ lea ($d1,$d1,4),$d1 # *5
+ mov $d2#d,`16*7+4-64`($ctx)
+ lea ($d2,$d2,4),$d2 # *5
+ mov $d1#d,`16*8+0-64`($ctx)
+ mov $d2#d,`16*8+4-64`($ctx)
+
+ mov $r1,%rax
+ call __poly1305_block # r^3
+
+ mov \$0x3ffffff,%eax # save r^3 base 2^26
+ mov $h0,$d1
+ and $h0#d,%eax
+ shr \$26,$d1
+ mov %eax,`16*0+12-64`($ctx)
+
+ mov \$0x3ffffff,%edx
+ and $d1#d,%edx
+ mov %edx,`16*1+12-64`($ctx)
+ lea (%rdx,%rdx,4),%edx # *5
+ shr \$26,$d1
+ mov %edx,`16*2+12-64`($ctx)
+
+ mov $h1,%rax
+ shl \$12,%rax
+ or $d1,%rax
+ and \$0x3ffffff,%eax
+ mov %eax,`16*3+12-64`($ctx)
+ lea (%rax,%rax,4),%eax # *5
+ mov $h1,$d1
+ mov %eax,`16*4+12-64`($ctx)
+
+ mov \$0x3ffffff,%edx
+ shr \$14,$d1
+ and $d1#d,%edx
+ mov %edx,`16*5+12-64`($ctx)
+ lea (%rdx,%rdx,4),%edx # *5
+ shr \$26,$d1
+ mov %edx,`16*6+12-64`($ctx)
+
+ mov $h2,%rax
+ shl \$24,%rax
+ or %rax,$d1
+ mov $d1#d,`16*7+12-64`($ctx)
+ lea ($d1,$d1,4),$d1 # *5
+ mov $d1#d,`16*8+12-64`($ctx)
+
+ mov $r1,%rax
+ call __poly1305_block # r^4
+
+ mov \$0x3ffffff,%eax # save r^4 base 2^26
+ mov $h0,$d1
+ and $h0#d,%eax
+ shr \$26,$d1
+ mov %eax,`16*0+8-64`($ctx)
+
+ mov \$0x3ffffff,%edx
+ and $d1#d,%edx
+ mov %edx,`16*1+8-64`($ctx)
+ lea (%rdx,%rdx,4),%edx # *5
+ shr \$26,$d1
+ mov %edx,`16*2+8-64`($ctx)
+
+ mov $h1,%rax
+ shl \$12,%rax
+ or $d1,%rax
+ and \$0x3ffffff,%eax
+ mov %eax,`16*3+8-64`($ctx)
+ lea (%rax,%rax,4),%eax # *5
+ mov $h1,$d1
+ mov %eax,`16*4+8-64`($ctx)
+
+ mov \$0x3ffffff,%edx
+ shr \$14,$d1
+ and $d1#d,%edx
+ mov %edx,`16*5+8-64`($ctx)
+ lea (%rdx,%rdx,4),%edx # *5
+ shr \$26,$d1
+ mov %edx,`16*6+8-64`($ctx)
+
+ mov $h2,%rax
+ shl \$24,%rax
+ or %rax,$d1
+ mov $d1#d,`16*7+8-64`($ctx)
+ lea ($d1,$d1,4),$d1 # *5
+ mov $d1#d,`16*8+8-64`($ctx)
+
+ lea -48-64($ctx),$ctx # size [de-]optimization
+ pop %rbp
+ ret
+.size __poly1305_init_avx,.-__poly1305_init_avx
+___
+
+&declare_function("poly1305_blocks_avx", 32, 4);
+$code.=<<___;
+.cfi_startproc
+ mov 20($ctx),%r8d # is_base2_26
+ cmp \$128,$len
+ jae .Lblocks_avx
+ test %r8d,%r8d
+ jz .Lblocks
+
+.Lblocks_avx:
+ and \$-16,$len
+ jz .Lno_data_avx
+
+ vzeroupper
+
+ test %r8d,%r8d
+ jz .Lbase2_64_avx
+
+ test \$31,$len
+ jz .Leven_avx
+
+ push %rbp
+.cfi_push %rbp
+ mov %rsp,%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
+.Lblocks_avx_body:
+
+ mov $len,%r15 # reassign $len
+
+ mov 0($ctx),$d1 # load hash value
+ mov 8($ctx),$d2
+ mov 16($ctx),$h2#d
+
+ mov 24($ctx),$r0 # load r
+ mov 32($ctx),$s1
+
+ ################################# base 2^26 -> base 2^64
+ mov $d1#d,$h0#d
+ and \$`-1*(1<<31)`,$d1
+ mov $d2,$r1 # borrow $r1
+ mov $d2#d,$h1#d
+ and \$`-1*(1<<31)`,$d2
+
+ shr \$6,$d1
+ shl \$52,$r1
+ add $d1,$h0
+ shr \$12,$h1
+ shr \$18,$d2
+ add $r1,$h0
+ adc $d2,$h1
+
+ mov $h2,$d1
+ shl \$40,$d1
+ shr \$24,$h2
+ add $d1,$h1
+ adc \$0,$h2 # can be partially reduced...
+
+ mov \$-4,$d2 # ... so reduce
+ mov $h2,$d1
+ and $h2,$d2
+ shr \$2,$d1
+ and \$3,$h2
+ add $d2,$d1 # =*5
+ add $d1,$h0
+ adc \$0,$h1
+ adc \$0,$h2
+
+ mov $s1,$r1
+ mov $s1,%rax
+ shr \$2,$s1
+ add $r1,$s1 # s1 = r1 + (r1 >> 2)
+
+ add 0($inp),$h0 # accumulate input
+ adc 8($inp),$h1
+ lea 16($inp),$inp
+ adc $padbit,$h2
+
+ call __poly1305_block
+
+ test $padbit,$padbit # if $padbit is zero,
+ jz .Lstore_base2_64_avx # store hash in base 2^64 format
+
+ ################################# base 2^64 -> base 2^26
+ mov $h0,%rax
+ mov $h0,%rdx
+ shr \$52,$h0
+ mov $h1,$r0
+ mov $h1,$r1
+ shr \$26,%rdx
+ and \$0x3ffffff,%rax # h[0]
+ shl \$12,$r0
+ and \$0x3ffffff,%rdx # h[1]
+ shr \$14,$h1
+ or $r0,$h0
+ shl \$24,$h2
+ and \$0x3ffffff,$h0 # h[2]
+ shr \$40,$r1
+ and \$0x3ffffff,$h1 # h[3]
+ or $r1,$h2 # h[4]
+
+ sub \$16,%r15
+ jz .Lstore_base2_26_avx
+
+ vmovd %rax#d,$H0
+ vmovd %rdx#d,$H1
+ vmovd $h0#d,$H2
+ vmovd $h1#d,$H3
+ vmovd $h2#d,$H4
+ jmp .Lproceed_avx
+
+.align 32
+.Lstore_base2_64_avx:
+ mov $h0,0($ctx)
+ mov $h1,8($ctx)
+ mov $h2,16($ctx) # note that is_base2_26 is zeroed
+ jmp .Ldone_avx
+
+.align 16
+.Lstore_base2_26_avx:
+ mov %rax#d,0($ctx) # store hash value base 2^26
+ mov %rdx#d,4($ctx)
+ mov $h0#d,8($ctx)
+ mov $h1#d,12($ctx)
+ mov $h2#d,16($ctx)
+.align 16
+.Ldone_avx:
+ pop %r15
+.cfi_restore %r15
+ pop %r14
+.cfi_restore %r14
+ pop %r13
+.cfi_restore %r13
+ pop %r12
+.cfi_restore %r12
+ pop %rbx
+.cfi_restore %rbx
+ pop %rbp
+.cfi_restore %rbp
+.Lno_data_avx:
+.Lblocks_avx_epilogue:
+ ret
+.cfi_endproc
+
+.align 32
+.Lbase2_64_avx:
+.cfi_startproc
+ push %rbp
+.cfi_push %rbp
+ mov %rsp,%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
+.Lbase2_64_avx_body:
+
+ mov $len,%r15 # reassign $len
+
+ mov 24($ctx),$r0 # load r
+ mov 32($ctx),$s1
+
+ mov 0($ctx),$h0 # load hash value
+ mov 8($ctx),$h1
+ mov 16($ctx),$h2#d
+
+ mov $s1,$r1
+ mov $s1,%rax
+ shr \$2,$s1
+ add $r1,$s1 # s1 = r1 + (r1 >> 2)
+
+ test \$31,$len
+ jz .Linit_avx
+
+ add 0($inp),$h0 # accumulate input
+ adc 8($inp),$h1
+ lea 16($inp),$inp
+ adc $padbit,$h2
+ sub \$16,%r15
+
+ call __poly1305_block
+
+.Linit_avx:
+ ################################# base 2^64 -> base 2^26
+ mov $h0,%rax
+ mov $h0,%rdx
+ shr \$52,$h0
+ mov $h1,$d1
+ mov $h1,$d2
+ shr \$26,%rdx
+ and \$0x3ffffff,%rax # h[0]
+ shl \$12,$d1
+ and \$0x3ffffff,%rdx # h[1]
+ shr \$14,$h1
+ or $d1,$h0
+ shl \$24,$h2
+ and \$0x3ffffff,$h0 # h[2]
+ shr \$40,$d2
+ and \$0x3ffffff,$h1 # h[3]
+ or $d2,$h2 # h[4]
+
+ vmovd %rax#d,$H0
+ vmovd %rdx#d,$H1
+ vmovd $h0#d,$H2
+ vmovd $h1#d,$H3
+ vmovd $h2#d,$H4
+ movl \$1,20($ctx) # set is_base2_26
+
+ call __poly1305_init_avx
+
+.Lproceed_avx:
+ mov %r15,$len
+ pop %r15
+.cfi_restore %r15
+ pop %r14
+.cfi_restore %r14
+ pop %r13
+.cfi_restore %r13
+ pop %r12
+.cfi_restore %r12
+ pop %rbx
+.cfi_restore %rbx
+ pop %rbp
+.cfi_restore %rbp
+.Lbase2_64_avx_epilogue:
+ jmp .Ldo_avx
+.cfi_endproc
+
+.align 32
+.Leven_avx:
+.cfi_startproc
+ vmovd 4*0($ctx),$H0 # load hash value
+ vmovd 4*1($ctx),$H1
+ vmovd 4*2($ctx),$H2
+ vmovd 4*3($ctx),$H3
+ vmovd 4*4($ctx),$H4
+
+.Ldo_avx:
+___
+$code.=<<___ if (!$win64);
+ lea 8(%rsp),%r10
+.cfi_def_cfa_register %r10
+ and \$-32,%rsp
+ sub \$-8,%rsp
+ lea -0x58(%rsp),%r11
+ sub \$0x178,%rsp
+
+___
+$code.=<<___ if ($win64);
+ lea -0xf8(%rsp),%r11
+ sub \$0x218,%rsp
+ vmovdqa %xmm6,0x50(%r11)
+ vmovdqa %xmm7,0x60(%r11)
+ vmovdqa %xmm8,0x70(%r11)
+ vmovdqa %xmm9,0x80(%r11)
+ vmovdqa %xmm10,0x90(%r11)
+ vmovdqa %xmm11,0xa0(%r11)
+ vmovdqa %xmm12,0xb0(%r11)
+ vmovdqa %xmm13,0xc0(%r11)
+ vmovdqa %xmm14,0xd0(%r11)
+ vmovdqa %xmm15,0xe0(%r11)
+.Ldo_avx_body:
+___
+$code.=<<___;
+ sub \$64,$len
+ lea -32($inp),%rax
+ cmovc %rax,$inp
+
+ vmovdqu `16*3`($ctx),$D4 # preload r0^2
+ lea `16*3+64`($ctx),$ctx # size optimization
+ lea .Lconst(%rip),%rcx
+
+ ################################################################
+ # load input
+ vmovdqu 16*2($inp),$T0
+ vmovdqu 16*3($inp),$T1
+ vmovdqa 64(%rcx),$MASK # .Lmask26
+
+ vpsrldq \$6,$T0,$T2 # splat input
+ vpsrldq \$6,$T1,$T3
+ vpunpckhqdq $T1,$T0,$T4 # 4
+ vpunpcklqdq $T1,$T0,$T0 # 0:1
+ vpunpcklqdq $T3,$T2,$T3 # 2:3
+
+ vpsrlq \$40,$T4,$T4 # 4
+ vpsrlq \$26,$T0,$T1
+ vpand $MASK,$T0,$T0 # 0
+ vpsrlq \$4,$T3,$T2
+ vpand $MASK,$T1,$T1 # 1
+ vpsrlq \$30,$T3,$T3
+ vpand $MASK,$T2,$T2 # 2
+ vpand $MASK,$T3,$T3 # 3
+ vpor 32(%rcx),$T4,$T4 # padbit, yes, always
+
+ jbe .Lskip_loop_avx
+
+ # expand and copy pre-calculated table to stack
+ vmovdqu `16*1-64`($ctx),$D1
+ vmovdqu `16*2-64`($ctx),$D2
+ vpshufd \$0xEE,$D4,$D3 # 34xx -> 3434
+ vpshufd \$0x44,$D4,$D0 # xx12 -> 1212
+ vmovdqa $D3,-0x90(%r11)
+ vmovdqa $D0,0x00(%rsp)
+ vpshufd \$0xEE,$D1,$D4
+ vmovdqu `16*3-64`($ctx),$D0
+ vpshufd \$0x44,$D1,$D1
+ vmovdqa $D4,-0x80(%r11)
+ vmovdqa $D1,0x10(%rsp)
+ vpshufd \$0xEE,$D2,$D3
+ vmovdqu `16*4-64`($ctx),$D1
+ vpshufd \$0x44,$D2,$D2
+ vmovdqa $D3,-0x70(%r11)
+ vmovdqa $D2,0x20(%rsp)
+ vpshufd \$0xEE,$D0,$D4
+ vmovdqu `16*5-64`($ctx),$D2
+ vpshufd \$0x44,$D0,$D0
+ vmovdqa $D4,-0x60(%r11)
+ vmovdqa $D0,0x30(%rsp)
+ vpshufd \$0xEE,$D1,$D3
+ vmovdqu `16*6-64`($ctx),$D0
+ vpshufd \$0x44,$D1,$D1
+ vmovdqa $D3,-0x50(%r11)
+ vmovdqa $D1,0x40(%rsp)
+ vpshufd \$0xEE,$D2,$D4
+ vmovdqu `16*7-64`($ctx),$D1
+ vpshufd \$0x44,$D2,$D2
+ vmovdqa $D4,-0x40(%r11)
+ vmovdqa $D2,0x50(%rsp)
+ vpshufd \$0xEE,$D0,$D3
+ vmovdqu `16*8-64`($ctx),$D2
+ vpshufd \$0x44,$D0,$D0
+ vmovdqa $D3,-0x30(%r11)
+ vmovdqa $D0,0x60(%rsp)
+ vpshufd \$0xEE,$D1,$D4
+ vpshufd \$0x44,$D1,$D1
+ vmovdqa $D4,-0x20(%r11)
+ vmovdqa $D1,0x70(%rsp)
+ vpshufd \$0xEE,$D2,$D3
+ vmovdqa 0x00(%rsp),$D4 # preload r0^2
+ vpshufd \$0x44,$D2,$D2
+ vmovdqa $D3,-0x10(%r11)
+ vmovdqa $D2,0x80(%rsp)
+
+ jmp .Loop_avx
+
+.align 32
+.Loop_avx:
+ ################################################################
+ # ((inp[0]*r^4+inp[2]*r^2+inp[4])*r^4+inp[6]*r^2
+ # ((inp[1]*r^4+inp[3]*r^2+inp[5])*r^3+inp[7]*r
+ # \___________________/
+ # ((inp[0]*r^4+inp[2]*r^2+inp[4])*r^4+inp[6]*r^2+inp[8])*r^2
+ # ((inp[1]*r^4+inp[3]*r^2+inp[5])*r^4+inp[7]*r^2+inp[9])*r
+ # \___________________/ \____________________/
+ #
+ # Note that we start with inp[2:3]*r^2. This is because it
+ # doesn't depend on reduction in previous iteration.
+ ################################################################
+ # d4 = h4*r0 + h3*r1 + h2*r2 + h1*r3 + h0*r4
+ # d3 = h3*r0 + h2*r1 + h1*r2 + h0*r3 + h4*5*r4
+ # d2 = h2*r0 + h1*r1 + h0*r2 + h4*5*r3 + h3*5*r4
+ # d1 = h1*r0 + h0*r1 + h4*5*r2 + h3*5*r3 + h2*5*r4
+ # d0 = h0*r0 + h4*5*r1 + h3*5*r2 + h2*5*r3 + h1*5*r4
+ #
+ # though note that $Tx and $Hx are "reversed" in this section,
+ # and $D4 is preloaded with r0^2...
+
+ vpmuludq $T0,$D4,$D0 # d0 = h0*r0
+ vpmuludq $T1,$D4,$D1 # d1 = h1*r0
+ vmovdqa $H2,0x20(%r11) # offload hash
+ vpmuludq $T2,$D4,$D2 # d3 = h2*r0
+ vmovdqa 0x10(%rsp),$H2 # r1^2
+ vpmuludq $T3,$D4,$D3 # d3 = h3*r0
+ vpmuludq $T4,$D4,$D4 # d4 = h4*r0
+
+ vmovdqa $H0,0x00(%r11) #
+ vpmuludq 0x20(%rsp),$T4,$H0 # h4*s1
+ vmovdqa $H1,0x10(%r11) #
+ vpmuludq $T3,$H2,$H1 # h3*r1
+ vpaddq $H0,$D0,$D0 # d0 += h4*s1
+ vpaddq $H1,$D4,$D4 # d4 += h3*r1
+ vmovdqa $H3,0x30(%r11) #
+ vpmuludq $T2,$H2,$H0 # h2*r1
+ vpmuludq $T1,$H2,$H1 # h1*r1
+ vpaddq $H0,$D3,$D3 # d3 += h2*r1
+ vmovdqa 0x30(%rsp),$H3 # r2^2
+ vpaddq $H1,$D2,$D2 # d2 += h1*r1
+ vmovdqa $H4,0x40(%r11) #
+ vpmuludq $T0,$H2,$H2 # h0*r1
+ vpmuludq $T2,$H3,$H0 # h2*r2
+ vpaddq $H2,$D1,$D1 # d1 += h0*r1
+
+ vmovdqa 0x40(%rsp),$H4 # s2^2
+ vpaddq $H0,$D4,$D4 # d4 += h2*r2
+ vpmuludq $T1,$H3,$H1 # h1*r2
+ vpmuludq $T0,$H3,$H3 # h0*r2
+ vpaddq $H1,$D3,$D3 # d3 += h1*r2
+ vmovdqa 0x50(%rsp),$H2 # r3^2
+ vpaddq $H3,$D2,$D2 # d2 += h0*r2
+ vpmuludq $T4,$H4,$H0 # h4*s2
+ vpmuludq $T3,$H4,$H4 # h3*s2
+ vpaddq $H0,$D1,$D1 # d1 += h4*s2
+ vmovdqa 0x60(%rsp),$H3 # s3^2
+ vpaddq $H4,$D0,$D0 # d0 += h3*s2
+
+ vmovdqa 0x80(%rsp),$H4 # s4^2
+ vpmuludq $T1,$H2,$H1 # h1*r3
+ vpmuludq $T0,$H2,$H2 # h0*r3
+ vpaddq $H1,$D4,$D4 # d4 += h1*r3
+ vpaddq $H2,$D3,$D3 # d3 += h0*r3
+ vpmuludq $T4,$H3,$H0 # h4*s3
+ vpmuludq $T3,$H3,$H1 # h3*s3
+ vpaddq $H0,$D2,$D2 # d2 += h4*s3
+ vmovdqu 16*0($inp),$H0 # load input
+ vpaddq $H1,$D1,$D1 # d1 += h3*s3
+ vpmuludq $T2,$H3,$H3 # h2*s3
+ vpmuludq $T2,$H4,$T2 # h2*s4
+ vpaddq $H3,$D0,$D0 # d0 += h2*s3
+
+ vmovdqu 16*1($inp),$H1 #
+ vpaddq $T2,$D1,$D1 # d1 += h2*s4
+ vpmuludq $T3,$H4,$T3 # h3*s4
+ vpmuludq $T4,$H4,$T4 # h4*s4
+ vpsrldq \$6,$H0,$H2 # splat input
+ vpaddq $T3,$D2,$D2 # d2 += h3*s4
+ vpaddq $T4,$D3,$D3 # d3 += h4*s4
+ vpsrldq \$6,$H1,$H3 #
+ vpmuludq 0x70(%rsp),$T0,$T4 # h0*r4
+ vpmuludq $T1,$H4,$T0 # h1*s4
+ vpunpckhqdq $H1,$H0,$H4 # 4
+ vpaddq $T4,$D4,$D4 # d4 += h0*r4
+ vmovdqa -0x90(%r11),$T4 # r0^4
+ vpaddq $T0,$D0,$D0 # d0 += h1*s4
+
+ vpunpcklqdq $H1,$H0,$H0 # 0:1
+ vpunpcklqdq $H3,$H2,$H3 # 2:3
+
+ #vpsrlq \$40,$H4,$H4 # 4
+ vpsrldq \$`40/8`,$H4,$H4 # 4
+ vpsrlq \$26,$H0,$H1
+ vpand $MASK,$H0,$H0 # 0
+ vpsrlq \$4,$H3,$H2
+ vpand $MASK,$H1,$H1 # 1
+ vpand 0(%rcx),$H4,$H4 # .Lmask24
+ vpsrlq \$30,$H3,$H3
+ vpand $MASK,$H2,$H2 # 2
+ vpand $MASK,$H3,$H3 # 3
+ vpor 32(%rcx),$H4,$H4 # padbit, yes, always
+
+ vpaddq 0x00(%r11),$H0,$H0 # add hash value
+ vpaddq 0x10(%r11),$H1,$H1
+ vpaddq 0x20(%r11),$H2,$H2
+ vpaddq 0x30(%r11),$H3,$H3
+ vpaddq 0x40(%r11),$H4,$H4
+
+ lea 16*2($inp),%rax
+ lea 16*4($inp),$inp
+ sub \$64,$len
+ cmovc %rax,$inp
+
+ ################################################################
+ # Now we accumulate (inp[0:1]+hash)*r^4
+ ################################################################
+ # d4 = h4*r0 + h3*r1 + h2*r2 + h1*r3 + h0*r4
+ # d3 = h3*r0 + h2*r1 + h1*r2 + h0*r3 + h4*5*r4
+ # d2 = h2*r0 + h1*r1 + h0*r2 + h4*5*r3 + h3*5*r4
+ # d1 = h1*r0 + h0*r1 + h4*5*r2 + h3*5*r3 + h2*5*r4
+ # d0 = h0*r0 + h4*5*r1 + h3*5*r2 + h2*5*r3 + h1*5*r4
+
+ vpmuludq $H0,$T4,$T0 # h0*r0
+ vpmuludq $H1,$T4,$T1 # h1*r0
+ vpaddq $T0,$D0,$D0
+ vpaddq $T1,$D1,$D1
+ vmovdqa -0x80(%r11),$T2 # r1^4
+ vpmuludq $H2,$T4,$T0 # h2*r0
+ vpmuludq $H3,$T4,$T1 # h3*r0
+ vpaddq $T0,$D2,$D2
+ vpaddq $T1,$D3,$D3
+ vpmuludq $H4,$T4,$T4 # h4*r0
+ vpmuludq -0x70(%r11),$H4,$T0 # h4*s1
+ vpaddq $T4,$D4,$D4
+
+ vpaddq $T0,$D0,$D0 # d0 += h4*s1
+ vpmuludq $H2,$T2,$T1 # h2*r1
+ vpmuludq $H3,$T2,$T0 # h3*r1
+ vpaddq $T1,$D3,$D3 # d3 += h2*r1
+ vmovdqa -0x60(%r11),$T3 # r2^4
+ vpaddq $T0,$D4,$D4 # d4 += h3*r1
+ vpmuludq $H1,$T2,$T1 # h1*r1
+ vpmuludq $H0,$T2,$T2 # h0*r1
+ vpaddq $T1,$D2,$D2 # d2 += h1*r1
+ vpaddq $T2,$D1,$D1 # d1 += h0*r1
+
+ vmovdqa -0x50(%r11),$T4 # s2^4
+ vpmuludq $H2,$T3,$T0 # h2*r2
+ vpmuludq $H1,$T3,$T1 # h1*r2
+ vpaddq $T0,$D4,$D4 # d4 += h2*r2
+ vpaddq $T1,$D3,$D3 # d3 += h1*r2
+ vmovdqa -0x40(%r11),$T2 # r3^4
+ vpmuludq $H0,$T3,$T3 # h0*r2
+ vpmuludq $H4,$T4,$T0 # h4*s2
+ vpaddq $T3,$D2,$D2 # d2 += h0*r2
+ vpaddq $T0,$D1,$D1 # d1 += h4*s2
+ vmovdqa -0x30(%r11),$T3 # s3^4
+ vpmuludq $H3,$T4,$T4 # h3*s2
+ vpmuludq $H1,$T2,$T1 # h1*r3
+ vpaddq $T4,$D0,$D0 # d0 += h3*s2
+
+ vmovdqa -0x10(%r11),$T4 # s4^4
+ vpaddq $T1,$D4,$D4 # d4 += h1*r3
+ vpmuludq $H0,$T2,$T2 # h0*r3
+ vpmuludq $H4,$T3,$T0 # h4*s3
+ vpaddq $T2,$D3,$D3 # d3 += h0*r3
+ vpaddq $T0,$D2,$D2 # d2 += h4*s3
+ vmovdqu 16*2($inp),$T0 # load input
+ vpmuludq $H3,$T3,$T2 # h3*s3
+ vpmuludq $H2,$T3,$T3 # h2*s3
+ vpaddq $T2,$D1,$D1 # d1 += h3*s3
+ vmovdqu 16*3($inp),$T1 #
+ vpaddq $T3,$D0,$D0 # d0 += h2*s3
+
+ vpmuludq $H2,$T4,$H2 # h2*s4
+ vpmuludq $H3,$T4,$H3 # h3*s4
+ vpsrldq \$6,$T0,$T2 # splat input
+ vpaddq $H2,$D1,$D1 # d1 += h2*s4
+ vpmuludq $H4,$T4,$H4 # h4*s4
+ vpsrldq \$6,$T1,$T3 #
+ vpaddq $H3,$D2,$H2 # h2 = d2 + h3*s4
+ vpaddq $H4,$D3,$H3 # h3 = d3 + h4*s4
+ vpmuludq -0x20(%r11),$H0,$H4 # h0*r4
+ vpmuludq $H1,$T4,$H0
+ vpunpckhqdq $T1,$T0,$T4 # 4
+ vpaddq $H4,$D4,$H4 # h4 = d4 + h0*r4
+ vpaddq $H0,$D0,$H0 # h0 = d0 + h1*s4
+
+ vpunpcklqdq $T1,$T0,$T0 # 0:1
+ vpunpcklqdq $T3,$T2,$T3 # 2:3
+
+ #vpsrlq \$40,$T4,$T4 # 4
+ vpsrldq \$`40/8`,$T4,$T4 # 4
+ vpsrlq \$26,$T0,$T1
+ vmovdqa 0x00(%rsp),$D4 # preload r0^2
+ vpand $MASK,$T0,$T0 # 0
+ vpsrlq \$4,$T3,$T2
+ vpand $MASK,$T1,$T1 # 1
+ vpand 0(%rcx),$T4,$T4 # .Lmask24
+ vpsrlq \$30,$T3,$T3
+ vpand $MASK,$T2,$T2 # 2
+ vpand $MASK,$T3,$T3 # 3
+ vpor 32(%rcx),$T4,$T4 # padbit, yes, always
+
+ ################################################################
+ # lazy reduction as discussed in "NEON crypto" by D.J. Bernstein
+ # and P. Schwabe
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpaddq $D0,$D1,$H1 # h0 -> h1
+
+ vpsrlq \$26,$H4,$D0
+ vpand $MASK,$H4,$H4
+
+ vpsrlq \$26,$H1,$D1
+ vpand $MASK,$H1,$H1
+ vpaddq $D1,$H2,$H2 # h1 -> h2
+
+ vpaddq $D0,$H0,$H0
+ vpsllq \$2,$D0,$D0
+ vpaddq $D0,$H0,$H0 # h4 -> h0
+
+ vpsrlq \$26,$H2,$D2
+ vpand $MASK,$H2,$H2
+ vpaddq $D2,$H3,$H3 # h2 -> h3
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpaddq $D0,$H1,$H1 # h0 -> h1
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ ja .Loop_avx
+
+.Lskip_loop_avx:
+ ################################################################
+ # multiply (inp[0:1]+hash) or inp[2:3] by r^2:r^1
+
+ vpshufd \$0x10,$D4,$D4 # r0^n, xx12 -> x1x2
+ add \$32,$len
+ jnz .Long_tail_avx
+
+ vpaddq $H2,$T2,$T2
+ vpaddq $H0,$T0,$T0
+ vpaddq $H1,$T1,$T1
+ vpaddq $H3,$T3,$T3
+ vpaddq $H4,$T4,$T4
+
+.Long_tail_avx:
+ vmovdqa $H2,0x20(%r11)
+ vmovdqa $H0,0x00(%r11)
+ vmovdqa $H1,0x10(%r11)
+ vmovdqa $H3,0x30(%r11)
+ vmovdqa $H4,0x40(%r11)
+
+ # d4 = h4*r0 + h3*r1 + h2*r2 + h1*r3 + h0*r4
+ # d3 = h3*r0 + h2*r1 + h1*r2 + h0*r3 + h4*5*r4
+ # d2 = h2*r0 + h1*r1 + h0*r2 + h4*5*r3 + h3*5*r4
+ # d1 = h1*r0 + h0*r1 + h4*5*r2 + h3*5*r3 + h2*5*r4
+ # d0 = h0*r0 + h4*5*r1 + h3*5*r2 + h2*5*r3 + h1*5*r4
+
+ vpmuludq $T2,$D4,$D2 # d2 = h2*r0
+ vpmuludq $T0,$D4,$D0 # d0 = h0*r0
+ vpshufd \$0x10,`16*1-64`($ctx),$H2 # r1^n
+ vpmuludq $T1,$D4,$D1 # d1 = h1*r0
+ vpmuludq $T3,$D4,$D3 # d3 = h3*r0
+ vpmuludq $T4,$D4,$D4 # d4 = h4*r0
+
+ vpmuludq $T3,$H2,$H0 # h3*r1
+ vpaddq $H0,$D4,$D4 # d4 += h3*r1
+ vpshufd \$0x10,`16*2-64`($ctx),$H3 # s1^n
+ vpmuludq $T2,$H2,$H1 # h2*r1
+ vpaddq $H1,$D3,$D3 # d3 += h2*r1
+ vpshufd \$0x10,`16*3-64`($ctx),$H4 # r2^n
+ vpmuludq $T1,$H2,$H0 # h1*r1
+ vpaddq $H0,$D2,$D2 # d2 += h1*r1
+ vpmuludq $T0,$H2,$H2 # h0*r1
+ vpaddq $H2,$D1,$D1 # d1 += h0*r1
+ vpmuludq $T4,$H3,$H3 # h4*s1
+ vpaddq $H3,$D0,$D0 # d0 += h4*s1
+
+ vpshufd \$0x10,`16*4-64`($ctx),$H2 # s2^n
+ vpmuludq $T2,$H4,$H1 # h2*r2
+ vpaddq $H1,$D4,$D4 # d4 += h2*r2
+ vpmuludq $T1,$H4,$H0 # h1*r2
+ vpaddq $H0,$D3,$D3 # d3 += h1*r2
+ vpshufd \$0x10,`16*5-64`($ctx),$H3 # r3^n
+ vpmuludq $T0,$H4,$H4 # h0*r2
+ vpaddq $H4,$D2,$D2 # d2 += h0*r2
+ vpmuludq $T4,$H2,$H1 # h4*s2
+ vpaddq $H1,$D1,$D1 # d1 += h4*s2
+ vpshufd \$0x10,`16*6-64`($ctx),$H4 # s3^n
+ vpmuludq $T3,$H2,$H2 # h3*s2
+ vpaddq $H2,$D0,$D0 # d0 += h3*s2
+
+ vpmuludq $T1,$H3,$H0 # h1*r3
+ vpaddq $H0,$D4,$D4 # d4 += h1*r3
+ vpmuludq $T0,$H3,$H3 # h0*r3
+ vpaddq $H3,$D3,$D3 # d3 += h0*r3
+ vpshufd \$0x10,`16*7-64`($ctx),$H2 # r4^n
+ vpmuludq $T4,$H4,$H1 # h4*s3
+ vpaddq $H1,$D2,$D2 # d2 += h4*s3
+ vpshufd \$0x10,`16*8-64`($ctx),$H3 # s4^n
+ vpmuludq $T3,$H4,$H0 # h3*s3
+ vpaddq $H0,$D1,$D1 # d1 += h3*s3
+ vpmuludq $T2,$H4,$H4 # h2*s3
+ vpaddq $H4,$D0,$D0 # d0 += h2*s3
+
+ vpmuludq $T0,$H2,$H2 # h0*r4
+ vpaddq $H2,$D4,$D4 # h4 = d4 + h0*r4
+ vpmuludq $T4,$H3,$H1 # h4*s4
+ vpaddq $H1,$D3,$D3 # h3 = d3 + h4*s4
+ vpmuludq $T3,$H3,$H0 # h3*s4
+ vpaddq $H0,$D2,$D2 # h2 = d2 + h3*s4
+ vpmuludq $T2,$H3,$H1 # h2*s4
+ vpaddq $H1,$D1,$D1 # h1 = d1 + h2*s4
+ vpmuludq $T1,$H3,$H3 # h1*s4
+ vpaddq $H3,$D0,$D0 # h0 = d0 + h1*s4
+
+ jz .Lshort_tail_avx
+
+ vmovdqu 16*0($inp),$H0 # load input
+ vmovdqu 16*1($inp),$H1
+
+ vpsrldq \$6,$H0,$H2 # splat input
+ vpsrldq \$6,$H1,$H3
+ vpunpckhqdq $H1,$H0,$H4 # 4
+ vpunpcklqdq $H1,$H0,$H0 # 0:1
+ vpunpcklqdq $H3,$H2,$H3 # 2:3
+
+ vpsrlq \$40,$H4,$H4 # 4
+ vpsrlq \$26,$H0,$H1
+ vpand $MASK,$H0,$H0 # 0
+ vpsrlq \$4,$H3,$H2
+ vpand $MASK,$H1,$H1 # 1
+ vpsrlq \$30,$H3,$H3
+ vpand $MASK,$H2,$H2 # 2
+ vpand $MASK,$H3,$H3 # 3
+ vpor 32(%rcx),$H4,$H4 # padbit, yes, always
+
+ vpshufd \$0x32,`16*0-64`($ctx),$T4 # r0^n, 34xx -> x3x4
+ vpaddq 0x00(%r11),$H0,$H0
+ vpaddq 0x10(%r11),$H1,$H1
+ vpaddq 0x20(%r11),$H2,$H2
+ vpaddq 0x30(%r11),$H3,$H3
+ vpaddq 0x40(%r11),$H4,$H4
+
+ ################################################################
+ # multiply (inp[0:1]+hash) by r^4:r^3 and accumulate
+
+ vpmuludq $H0,$T4,$T0 # h0*r0
+ vpaddq $T0,$D0,$D0 # d0 += h0*r0
+ vpmuludq $H1,$T4,$T1 # h1*r0
+ vpaddq $T1,$D1,$D1 # d1 += h1*r0
+ vpmuludq $H2,$T4,$T0 # h2*r0
+ vpaddq $T0,$D2,$D2 # d2 += h2*r0
+ vpshufd \$0x32,`16*1-64`($ctx),$T2 # r1^n
+ vpmuludq $H3,$T4,$T1 # h3*r0
+ vpaddq $T1,$D3,$D3 # d3 += h3*r0
+ vpmuludq $H4,$T4,$T4 # h4*r0
+ vpaddq $T4,$D4,$D4 # d4 += h4*r0
+
+ vpmuludq $H3,$T2,$T0 # h3*r1
+ vpaddq $T0,$D4,$D4 # d4 += h3*r1
+ vpshufd \$0x32,`16*2-64`($ctx),$T3 # s1
+ vpmuludq $H2,$T2,$T1 # h2*r1
+ vpaddq $T1,$D3,$D3 # d3 += h2*r1
+ vpshufd \$0x32,`16*3-64`($ctx),$T4 # r2
+ vpmuludq $H1,$T2,$T0 # h1*r1
+ vpaddq $T0,$D2,$D2 # d2 += h1*r1
+ vpmuludq $H0,$T2,$T2 # h0*r1
+ vpaddq $T2,$D1,$D1 # d1 += h0*r1
+ vpmuludq $H4,$T3,$T3 # h4*s1
+ vpaddq $T3,$D0,$D0 # d0 += h4*s1
+
+ vpshufd \$0x32,`16*4-64`($ctx),$T2 # s2
+ vpmuludq $H2,$T4,$T1 # h2*r2
+ vpaddq $T1,$D4,$D4 # d4 += h2*r2
+ vpmuludq $H1,$T4,$T0 # h1*r2
+ vpaddq $T0,$D3,$D3 # d3 += h1*r2
+ vpshufd \$0x32,`16*5-64`($ctx),$T3 # r3
+ vpmuludq $H0,$T4,$T4 # h0*r2
+ vpaddq $T4,$D2,$D2 # d2 += h0*r2
+ vpmuludq $H4,$T2,$T1 # h4*s2
+ vpaddq $T1,$D1,$D1 # d1 += h4*s2
+ vpshufd \$0x32,`16*6-64`($ctx),$T4 # s3
+ vpmuludq $H3,$T2,$T2 # h3*s2
+ vpaddq $T2,$D0,$D0 # d0 += h3*s2
+
+ vpmuludq $H1,$T3,$T0 # h1*r3
+ vpaddq $T0,$D4,$D4 # d4 += h1*r3
+ vpmuludq $H0,$T3,$T3 # h0*r3
+ vpaddq $T3,$D3,$D3 # d3 += h0*r3
+ vpshufd \$0x32,`16*7-64`($ctx),$T2 # r4
+ vpmuludq $H4,$T4,$T1 # h4*s3
+ vpaddq $T1,$D2,$D2 # d2 += h4*s3
+ vpshufd \$0x32,`16*8-64`($ctx),$T3 # s4
+ vpmuludq $H3,$T4,$T0 # h3*s3
+ vpaddq $T0,$D1,$D1 # d1 += h3*s3
+ vpmuludq $H2,$T4,$T4 # h2*s3
+ vpaddq $T4,$D0,$D0 # d0 += h2*s3
+
+ vpmuludq $H0,$T2,$T2 # h0*r4
+ vpaddq $T2,$D4,$D4 # d4 += h0*r4
+ vpmuludq $H4,$T3,$T1 # h4*s4
+ vpaddq $T1,$D3,$D3 # d3 += h4*s4
+ vpmuludq $H3,$T3,$T0 # h3*s4
+ vpaddq $T0,$D2,$D2 # d2 += h3*s4
+ vpmuludq $H2,$T3,$T1 # h2*s4
+ vpaddq $T1,$D1,$D1 # d1 += h2*s4
+ vpmuludq $H1,$T3,$T3 # h1*s4
+ vpaddq $T3,$D0,$D0 # d0 += h1*s4
+
+.Lshort_tail_avx:
+ ################################################################
+ # horizontal addition
+
+ vpsrldq \$8,$D4,$T4
+ vpsrldq \$8,$D3,$T3
+ vpsrldq \$8,$D1,$T1
+ vpsrldq \$8,$D0,$T0
+ vpsrldq \$8,$D2,$T2
+ vpaddq $T3,$D3,$D3
+ vpaddq $T4,$D4,$D4
+ vpaddq $T0,$D0,$D0
+ vpaddq $T1,$D1,$D1
+ vpaddq $T2,$D2,$D2
+
+ ################################################################
+ # lazy reduction
+
+ vpsrlq \$26,$D3,$H3
+ vpand $MASK,$D3,$D3
+ vpaddq $H3,$D4,$D4 # h3 -> h4
+
+ vpsrlq \$26,$D0,$H0
+ vpand $MASK,$D0,$D0
+ vpaddq $H0,$D1,$D1 # h0 -> h1
+
+ vpsrlq \$26,$D4,$H4
+ vpand $MASK,$D4,$D4
+
+ vpsrlq \$26,$D1,$H1
+ vpand $MASK,$D1,$D1
+ vpaddq $H1,$D2,$D2 # h1 -> h2
+
+ vpaddq $H4,$D0,$D0
+ vpsllq \$2,$H4,$H4
+ vpaddq $H4,$D0,$D0 # h4 -> h0
+
+ vpsrlq \$26,$D2,$H2
+ vpand $MASK,$D2,$D2
+ vpaddq $H2,$D3,$D3 # h2 -> h3
+
+ vpsrlq \$26,$D0,$H0
+ vpand $MASK,$D0,$D0
+ vpaddq $H0,$D1,$D1 # h0 -> h1
+
+ vpsrlq \$26,$D3,$H3
+ vpand $MASK,$D3,$D3
+ vpaddq $H3,$D4,$D4 # h3 -> h4
+
+ vmovd $D0,`4*0-48-64`($ctx) # save partially reduced
+ vmovd $D1,`4*1-48-64`($ctx)
+ vmovd $D2,`4*2-48-64`($ctx)
+ vmovd $D3,`4*3-48-64`($ctx)
+ vmovd $D4,`4*4-48-64`($ctx)
+___
+$code.=<<___ if ($win64);
+ vmovdqa 0x50(%r11),%xmm6
+ vmovdqa 0x60(%r11),%xmm7
+ vmovdqa 0x70(%r11),%xmm8
+ vmovdqa 0x80(%r11),%xmm9
+ vmovdqa 0x90(%r11),%xmm10
+ vmovdqa 0xa0(%r11),%xmm11
+ vmovdqa 0xb0(%r11),%xmm12
+ vmovdqa 0xc0(%r11),%xmm13
+ vmovdqa 0xd0(%r11),%xmm14
+ vmovdqa 0xe0(%r11),%xmm15
+ lea 0xf8(%r11),%rsp
+.Ldo_avx_epilogue:
+___
+$code.=<<___ if (!$win64);
+ lea -8(%r10),%rsp
+.cfi_def_cfa_register %rsp
+___
+$code.=<<___;
+ vzeroupper
+ ret
+.cfi_endproc
+___
+&end_function("poly1305_blocks_avx");
+
+&declare_function("poly1305_emit_avx", 32, 3);
+$code.=<<___;
+ cmpl \$0,20($ctx) # is_base2_26?
+ je .Lemit
+
+ mov 0($ctx),%eax # load hash value base 2^26
+ mov 4($ctx),%ecx
+ mov 8($ctx),%r8d
+ mov 12($ctx),%r11d
+ mov 16($ctx),%r10d
+
+ shl \$26,%rcx # base 2^26 -> base 2^64
+ mov %r8,%r9
+ shl \$52,%r8
+ add %rcx,%rax
+ shr \$12,%r9
+ add %rax,%r8 # h0
+ adc \$0,%r9
+
+ shl \$14,%r11
+ mov %r10,%rax
+ shr \$24,%r10
+ add %r11,%r9
+ shl \$40,%rax
+ add %rax,%r9 # h1
+ adc \$0,%r10 # h2
+
+ mov %r10,%rax # could be partially reduced, so reduce
+ mov %r10,%rcx
+ and \$3,%r10
+ shr \$2,%rax
+ and \$-4,%rcx
+ add %rcx,%rax
+ add %rax,%r8
+ adc \$0,%r9
+ adc \$0,%r10
+
+ mov %r8,%rax
+ add \$5,%r8 # compare to modulus
+ mov %r9,%rcx
+ adc \$0,%r9
+ adc \$0,%r10
+ shr \$2,%r10 # did 130-bit value overflow?
+ cmovnz %r8,%rax
+ cmovnz %r9,%rcx
+
+ add 0($nonce),%rax # accumulate nonce
+ adc 8($nonce),%rcx
+ mov %rax,0($mac) # write result
+ mov %rcx,8($mac)
+
+ ret
+___
+&end_function("poly1305_emit_avx");
+
+if ($kernel) {
+ $code .= "#endif\n";
+}
+
+if ($avx>1) {
+
+if ($kernel) {
+ $code .= "#ifdef CONFIG_AS_AVX2\n";
+}
+
+my ($H0,$H1,$H2,$H3,$H4, $MASK, $T4,$T0,$T1,$T2,$T3, $D0,$D1,$D2,$D3,$D4) =
+ map("%ymm$_",(0..15));
+my $S4=$MASK;
+
+sub poly1305_blocks_avxN {
+ my ($avx512) = @_;
+ my $suffix = $avx512 ? "_avx512" : "";
+$code.=<<___;
+.cfi_startproc
+ mov 20($ctx),%r8d # is_base2_26
+ cmp \$128,$len
+ jae .Lblocks_avx2$suffix
+ test %r8d,%r8d
+ jz .Lblocks
+
+.Lblocks_avx2$suffix:
+ and \$-16,$len
+ jz .Lno_data_avx2$suffix
+
+ vzeroupper
+
+ test %r8d,%r8d
+ jz .Lbase2_64_avx2$suffix
+
+ test \$63,$len
+ jz .Leven_avx2$suffix
+
+ push %rbp
+.cfi_push %rbp
+ mov %rsp,%rbp
+ push %rbx
+.cfi_push %rbx
+ push %r12
+.cfi_push %r12
+ push %r13
+.cfi_push %r13
+ push %r14
+.cfi_push %r14
+ push %r15
+.cfi_push %r15
+.Lblocks_avx2_body$suffix:
+
+ mov $len,%r15 # reassign $len
+
+ mov 0($ctx),$d1 # load hash value
+ mov 8($ctx),$d2
+ mov 16($ctx),$h2#d
+
+ mov 24($ctx),$r0 # load r
+ mov 32($ctx),$s1
+
+ ################################# base 2^26 -> base 2^64
+ mov $d1#d,$h0#d
+ and \$`-1*(1<<31)`,$d1
+ mov $d2,$r1 # borrow $r1
+ mov $d2#d,$h1#d
+ and \$`-1*(1<<31)`,$d2
+
+ shr \$6,$d1
+ shl \$52,$r1
+ add $d1,$h0
+ shr \$12,$h1
+ shr \$18,$d2
+ add $r1,$h0
+ adc $d2,$h1
+
+ mov $h2,$d1
+ shl \$40,$d1
+ shr \$24,$h2
+ add $d1,$h1
+ adc \$0,$h2 # can be partially reduced...
+
+ mov \$-4,$d2 # ... so reduce
+ mov $h2,$d1
+ and $h2,$d2
+ shr \$2,$d1
+ and \$3,$h2
+ add $d2,$d1 # =*5
+ add $d1,$h0
+ adc \$0,$h1
+ adc \$0,$h2
+
+ mov $s1,$r1
+ mov $s1,%rax
+ shr \$2,$s1
+ add $r1,$s1 # s1 = r1 + (r1 >> 2)
+
+.Lbase2_26_pre_avx2$suffix:
+ add 0($inp),$h0 # accumulate input
+ adc 8($inp),$h1
+ lea 16($inp),$inp
+ adc $padbit,$h2
+ sub \$16,%r15
+
+ call __poly1305_block
+ mov $r1,%rax
+
+ test \$63,%r15
+ jnz .Lbase2_26_pre_avx2$suffix
+
+ test $padbit,$padbit # if $padbit is zero,
+ jz .Lstore_base2_64_avx2$suffix # store hash in base 2^64 format
+
+ ################################# base 2^64 -> base 2^26
+ mov $h0,%rax
+ mov $h0,%rdx
+ shr \$52,$h0
+ mov $h1,$r0
+ mov $h1,$r1
+ shr \$26,%rdx
+ and \$0x3ffffff,%rax # h[0]
+ shl \$12,$r0
+ and \$0x3ffffff,%rdx # h[1]
+ shr \$14,$h1
+ or $r0,$h0
+ shl \$24,$h2
+ and \$0x3ffffff,$h0 # h[2]
+ shr \$40,$r1
+ and \$0x3ffffff,$h1 # h[3]
+ or $r1,$h2 # h[4]
+
+ test %r15,%r15
+ jz .Lstore_base2_26_avx2$suffix
+
+ vmovd %rax#d,%x#$H0
+ vmovd %rdx#d,%x#$H1
+ vmovd $h0#d,%x#$H2
+ vmovd $h1#d,%x#$H3
+ vmovd $h2#d,%x#$H4
+ jmp .Lproceed_avx2$suffix
+
+.align 32
+.Lstore_base2_64_avx2$suffix:
+ mov $h0,0($ctx)
+ mov $h1,8($ctx)
+ mov $h2,16($ctx) # note that is_base2_26 is zeroed
+ jmp .Ldone_avx2$suffix
+
+.align 16
+.Lstore_base2_26_avx2$suffix:
+ mov %rax#d,0($ctx) # store hash value base 2^26
+ mov %rdx#d,4($ctx)
+ mov $h0#d,8($ctx)
+ mov $h1#d,12($ctx)
+ mov $h2#d,16($ctx)
+.align 16
+.Ldone_avx2$suffix:
+ pop %r15
+.cfi_restore %r15
+ pop %r14
+.cfi_restore %r14
+ pop %r13
+.cfi_restore %r13
+ pop %r12
+.cfi_restore %r12
+ pop %rbx
+.cfi_restore %rbx
+ pop %rbp
+.cfi_restore %rbp
+.Lno_data_avx2$suffix:
+.Lblocks_avx2_epilogue$suffix:
+ ret
+.cfi_endproc
+
+.align 32
+.Lbase2_64_avx2$suffix:
+.cfi_startproc
+ push %rbp
+.cfi_push %rbp
+ mov %rsp,%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
+.Lbase2_64_avx2_body$suffix:
+
+ mov $len,%r15 # reassign $len
+
+ mov 24($ctx),$r0 # load r
+ mov 32($ctx),$s1
+
+ mov 0($ctx),$h0 # load hash value
+ mov 8($ctx),$h1
+ mov 16($ctx),$h2#d
+
+ mov $s1,$r1
+ mov $s1,%rax
+ shr \$2,$s1
+ add $r1,$s1 # s1 = r1 + (r1 >> 2)
+
+ test \$63,$len
+ jz .Linit_avx2$suffix
+
+.Lbase2_64_pre_avx2$suffix:
+ add 0($inp),$h0 # accumulate input
+ adc 8($inp),$h1
+ lea 16($inp),$inp
+ adc $padbit,$h2
+ sub \$16,%r15
+
+ call __poly1305_block
+ mov $r1,%rax
+
+ test \$63,%r15
+ jnz .Lbase2_64_pre_avx2$suffix
+
+.Linit_avx2$suffix:
+ ################################# base 2^64 -> base 2^26
+ mov $h0,%rax
+ mov $h0,%rdx
+ shr \$52,$h0
+ mov $h1,$d1
+ mov $h1,$d2
+ shr \$26,%rdx
+ and \$0x3ffffff,%rax # h[0]
+ shl \$12,$d1
+ and \$0x3ffffff,%rdx # h[1]
+ shr \$14,$h1
+ or $d1,$h0
+ shl \$24,$h2
+ and \$0x3ffffff,$h0 # h[2]
+ shr \$40,$d2
+ and \$0x3ffffff,$h1 # h[3]
+ or $d2,$h2 # h[4]
+
+ vmovd %rax#d,%x#$H0
+ vmovd %rdx#d,%x#$H1
+ vmovd $h0#d,%x#$H2
+ vmovd $h1#d,%x#$H3
+ vmovd $h2#d,%x#$H4
+ movl \$1,20($ctx) # set is_base2_26
+
+ call __poly1305_init_avx
+
+.Lproceed_avx2$suffix:
+ mov %r15,$len # restore $len
+___
+$code.=<<___ if (!$kernel);
+ mov OPENSSL_ia32cap_P+8(%rip),%r9d
+ mov \$`(1<<31|1<<30|1<<16)`,%r11d
+___
+$code.=<<___;
+ pop %r15
+.cfi_restore %r15
+ pop %r14
+.cfi_restore %r14
+ pop %r13
+.cfi_restore %r13
+ pop %r12
+.cfi_restore %r12
+ pop %rbx
+.cfi_restore %rbx
+ pop %rbp
+.cfi_restore %rbp
+.Lbase2_64_avx2_epilogue$suffix:
+ jmp .Ldo_avx2$suffix
+.cfi_endproc
+
+.align 32
+.Leven_avx2$suffix:
+.cfi_startproc
+___
+$code.=<<___ if (!$kernel);
+ mov OPENSSL_ia32cap_P+8(%rip),%r9d
+___
+$code.=<<___;
+ vmovd 4*0($ctx),%x#$H0 # load hash value base 2^26
+ vmovd 4*1($ctx),%x#$H1
+ vmovd 4*2($ctx),%x#$H2
+ vmovd 4*3($ctx),%x#$H3
+ vmovd 4*4($ctx),%x#$H4
+
+.Ldo_avx2$suffix:
+___
+$code.=<<___ if (!$kernel && $avx>2);
+ cmp \$512,$len
+ jb .Lskip_avx512
+ and %r11d,%r9d
+ test \$`1<<16`,%r9d # check for AVX512F
+ jnz .Lblocks_avx512
+.Lskip_avx512$suffix:
+___
+$code.=<<___ if ($avx > 2 && $avx512 && $kernel);
+ cmp \$512,$len
+ jae .Lblocks_avx512
+___
+$code.=<<___ if (!$win64);
+ lea 8(%rsp),%r10
+.cfi_def_cfa_register %r10
+ sub \$0x128,%rsp
+___
+$code.=<<___ if ($win64);
+ lea 8(%rsp),%r10
+ sub \$0x1c8,%rsp
+ vmovdqa %xmm6,-0xb0(%r10)
+ vmovdqa %xmm7,-0xa0(%r10)
+ vmovdqa %xmm8,-0x90(%r10)
+ vmovdqa %xmm9,-0x80(%r10)
+ vmovdqa %xmm10,-0x70(%r10)
+ vmovdqa %xmm11,-0x60(%r10)
+ vmovdqa %xmm12,-0x50(%r10)
+ vmovdqa %xmm13,-0x40(%r10)
+ vmovdqa %xmm14,-0x30(%r10)
+ vmovdqa %xmm15,-0x20(%r10)
+.Ldo_avx2_body$suffix:
+___
+$code.=<<___;
+ lea .Lconst(%rip),%rcx
+ lea 48+64($ctx),$ctx # size optimization
+ vmovdqa 96(%rcx),$T0 # .Lpermd_avx2
+
+ # expand and copy pre-calculated table to stack
+ vmovdqu `16*0-64`($ctx),%x#$T2
+ and \$-512,%rsp
+ vmovdqu `16*1-64`($ctx),%x#$T3
+ vmovdqu `16*2-64`($ctx),%x#$T4
+ vmovdqu `16*3-64`($ctx),%x#$D0
+ vmovdqu `16*4-64`($ctx),%x#$D1
+ vmovdqu `16*5-64`($ctx),%x#$D2
+ lea 0x90(%rsp),%rax # size optimization
+ vmovdqu `16*6-64`($ctx),%x#$D3
+ vpermd $T2,$T0,$T2 # 00003412 -> 14243444
+ vmovdqu `16*7-64`($ctx),%x#$D4
+ vpermd $T3,$T0,$T3
+ vmovdqu `16*8-64`($ctx),%x#$MASK
+ vpermd $T4,$T0,$T4
+ vmovdqa $T2,0x00(%rsp)
+ vpermd $D0,$T0,$D0
+ vmovdqa $T3,0x20-0x90(%rax)
+ vpermd $D1,$T0,$D1
+ vmovdqa $T4,0x40-0x90(%rax)
+ vpermd $D2,$T0,$D2
+ vmovdqa $D0,0x60-0x90(%rax)
+ vpermd $D3,$T0,$D3
+ vmovdqa $D1,0x80-0x90(%rax)
+ vpermd $D4,$T0,$D4
+ vmovdqa $D2,0xa0-0x90(%rax)
+ vpermd $MASK,$T0,$MASK
+ vmovdqa $D3,0xc0-0x90(%rax)
+ vmovdqa $D4,0xe0-0x90(%rax)
+ vmovdqa $MASK,0x100-0x90(%rax)
+ vmovdqa 64(%rcx),$MASK # .Lmask26
+
+ ################################################################
+ # load input
+ vmovdqu 16*0($inp),%x#$T0
+ vmovdqu 16*1($inp),%x#$T1
+ vinserti128 \$1,16*2($inp),$T0,$T0
+ vinserti128 \$1,16*3($inp),$T1,$T1
+ lea 16*4($inp),$inp
+
+ vpsrldq \$6,$T0,$T2 # splat input
+ vpsrldq \$6,$T1,$T3
+ vpunpckhqdq $T1,$T0,$T4 # 4
+ vpunpcklqdq $T3,$T2,$T2 # 2:3
+ vpunpcklqdq $T1,$T0,$T0 # 0:1
+
+ vpsrlq \$30,$T2,$T3
+ vpsrlq \$4,$T2,$T2
+ vpsrlq \$26,$T0,$T1
+ vpsrlq \$40,$T4,$T4 # 4
+ vpand $MASK,$T2,$T2 # 2
+ vpand $MASK,$T0,$T0 # 0
+ vpand $MASK,$T1,$T1 # 1
+ vpand $MASK,$T3,$T3 # 3
+ vpor 32(%rcx),$T4,$T4 # padbit, yes, always
+
+ vpaddq $H2,$T2,$H2 # accumulate input
+ sub \$64,$len
+ jz .Ltail_avx2$suffix
+ jmp .Loop_avx2$suffix
+
+.align 32
+.Loop_avx2$suffix:
+ ################################################################
+ # ((inp[0]*r^4+inp[4])*r^4+inp[ 8])*r^4
+ # ((inp[1]*r^4+inp[5])*r^4+inp[ 9])*r^3
+ # ((inp[2]*r^4+inp[6])*r^4+inp[10])*r^2
+ # ((inp[3]*r^4+inp[7])*r^4+inp[11])*r^1
+ # \________/\__________/
+ ################################################################
+ #vpaddq $H2,$T2,$H2 # accumulate input
+ vpaddq $H0,$T0,$H0
+ vmovdqa `32*0`(%rsp),$T0 # r0^4
+ vpaddq $H1,$T1,$H1
+ vmovdqa `32*1`(%rsp),$T1 # r1^4
+ vpaddq $H3,$T3,$H3
+ vmovdqa `32*3`(%rsp),$T2 # r2^4
+ vpaddq $H4,$T4,$H4
+ vmovdqa `32*6-0x90`(%rax),$T3 # s3^4
+ vmovdqa `32*8-0x90`(%rax),$S4 # s4^4
+
+ # d4 = h4*r0 + h3*r1 + h2*r2 + h1*r3 + h0*r4
+ # d3 = h3*r0 + h2*r1 + h1*r2 + h0*r3 + h4*5*r4
+ # d2 = h2*r0 + h1*r1 + h0*r2 + h4*5*r3 + h3*5*r4
+ # d1 = h1*r0 + h0*r1 + h4*5*r2 + h3*5*r3 + h2*5*r4
+ # d0 = h0*r0 + h4*5*r1 + h3*5*r2 + h2*5*r3 + h1*5*r4
+ #
+ # however, as h2 is "chronologically" first one available pull
+ # corresponding operations up, so it's
+ #
+ # d4 = h2*r2 + h4*r0 + h3*r1 + h1*r3 + h0*r4
+ # d3 = h2*r1 + h3*r0 + h1*r2 + h0*r3 + h4*5*r4
+ # d2 = h2*r0 + h1*r1 + h0*r2 + h4*5*r3 + h3*5*r4
+ # d1 = h2*5*r4 + h1*r0 + h0*r1 + h4*5*r2 + h3*5*r3
+ # d0 = h2*5*r3 + h0*r0 + h4*5*r1 + h3*5*r2 + h1*5*r4
+
+ vpmuludq $H2,$T0,$D2 # d2 = h2*r0
+ vpmuludq $H2,$T1,$D3 # d3 = h2*r1
+ vpmuludq $H2,$T2,$D4 # d4 = h2*r2
+ vpmuludq $H2,$T3,$D0 # d0 = h2*s3
+ vpmuludq $H2,$S4,$D1 # d1 = h2*s4
+
+ vpmuludq $H0,$T1,$T4 # h0*r1
+ vpmuludq $H1,$T1,$H2 # h1*r1, borrow $H2 as temp
+ vpaddq $T4,$D1,$D1 # d1 += h0*r1
+ vpaddq $H2,$D2,$D2 # d2 += h1*r1
+ vpmuludq $H3,$T1,$T4 # h3*r1
+ vpmuludq `32*2`(%rsp),$H4,$H2 # h4*s1
+ vpaddq $T4,$D4,$D4 # d4 += h3*r1
+ vpaddq $H2,$D0,$D0 # d0 += h4*s1
+ vmovdqa `32*4-0x90`(%rax),$T1 # s2
+
+ vpmuludq $H0,$T0,$T4 # h0*r0
+ vpmuludq $H1,$T0,$H2 # h1*r0
+ vpaddq $T4,$D0,$D0 # d0 += h0*r0
+ vpaddq $H2,$D1,$D1 # d1 += h1*r0
+ vpmuludq $H3,$T0,$T4 # h3*r0
+ vpmuludq $H4,$T0,$H2 # h4*r0
+ vmovdqu 16*0($inp),%x#$T0 # load input
+ vpaddq $T4,$D3,$D3 # d3 += h3*r0
+ vpaddq $H2,$D4,$D4 # d4 += h4*r0
+ vinserti128 \$1,16*2($inp),$T0,$T0
+
+ vpmuludq $H3,$T1,$T4 # h3*s2
+ vpmuludq $H4,$T1,$H2 # h4*s2
+ vmovdqu 16*1($inp),%x#$T1
+ vpaddq $T4,$D0,$D0 # d0 += h3*s2
+ vpaddq $H2,$D1,$D1 # d1 += h4*s2
+ vmovdqa `32*5-0x90`(%rax),$H2 # r3
+ vpmuludq $H1,$T2,$T4 # h1*r2
+ vpmuludq $H0,$T2,$T2 # h0*r2
+ vpaddq $T4,$D3,$D3 # d3 += h1*r2
+ vpaddq $T2,$D2,$D2 # d2 += h0*r2
+ vinserti128 \$1,16*3($inp),$T1,$T1
+ lea 16*4($inp),$inp
+
+ vpmuludq $H1,$H2,$T4 # h1*r3
+ vpmuludq $H0,$H2,$H2 # h0*r3
+ vpsrldq \$6,$T0,$T2 # splat input
+ vpaddq $T4,$D4,$D4 # d4 += h1*r3
+ vpaddq $H2,$D3,$D3 # d3 += h0*r3
+ vpmuludq $H3,$T3,$T4 # h3*s3
+ vpmuludq $H4,$T3,$H2 # h4*s3
+ vpsrldq \$6,$T1,$T3
+ vpaddq $T4,$D1,$D1 # d1 += h3*s3
+ vpaddq $H2,$D2,$D2 # d2 += h4*s3
+ vpunpckhqdq $T1,$T0,$T4 # 4
+
+ vpmuludq $H3,$S4,$H3 # h3*s4
+ vpmuludq $H4,$S4,$H4 # h4*s4
+ vpunpcklqdq $T1,$T0,$T0 # 0:1
+ vpaddq $H3,$D2,$H2 # h2 = d2 + h3*r4
+ vpaddq $H4,$D3,$H3 # h3 = d3 + h4*r4
+ vpunpcklqdq $T3,$T2,$T3 # 2:3
+ vpmuludq `32*7-0x90`(%rax),$H0,$H4 # h0*r4
+ vpmuludq $H1,$S4,$H0 # h1*s4
+ vmovdqa 64(%rcx),$MASK # .Lmask26
+ vpaddq $H4,$D4,$H4 # h4 = d4 + h0*r4
+ vpaddq $H0,$D0,$H0 # h0 = d0 + h1*s4
+
+ ################################################################
+ # lazy reduction (interleaved with tail of input splat)
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpaddq $D0,$D1,$H1 # h0 -> h1
+
+ vpsrlq \$26,$H4,$D4
+ vpand $MASK,$H4,$H4
+
+ vpsrlq \$4,$T3,$T2
+
+ vpsrlq \$26,$H1,$D1
+ vpand $MASK,$H1,$H1
+ vpaddq $D1,$H2,$H2 # h1 -> h2
+
+ vpaddq $D4,$H0,$H0
+ vpsllq \$2,$D4,$D4
+ vpaddq $D4,$H0,$H0 # h4 -> h0
+
+ vpand $MASK,$T2,$T2 # 2
+ vpsrlq \$26,$T0,$T1
+
+ vpsrlq \$26,$H2,$D2
+ vpand $MASK,$H2,$H2
+ vpaddq $D2,$H3,$H3 # h2 -> h3
+
+ vpaddq $T2,$H2,$H2 # modulo-scheduled
+ vpsrlq \$30,$T3,$T3
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpaddq $D0,$H1,$H1 # h0 -> h1
+
+ vpsrlq \$40,$T4,$T4 # 4
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ vpand $MASK,$T0,$T0 # 0
+ vpand $MASK,$T1,$T1 # 1
+ vpand $MASK,$T3,$T3 # 3
+ vpor 32(%rcx),$T4,$T4 # padbit, yes, always
+
+ sub \$64,$len
+ jnz .Loop_avx2$suffix
+
+ .byte 0x66,0x90
+.Ltail_avx2$suffix:
+ ################################################################
+ # while above multiplications were by r^4 in all lanes, in last
+ # iteration we multiply least significant lane by r^4 and most
+ # significant one by r, so copy of above except that references
+ # to the precomputed table are displaced by 4...
+
+ #vpaddq $H2,$T2,$H2 # accumulate input
+ vpaddq $H0,$T0,$H0
+ vmovdqu `32*0+4`(%rsp),$T0 # r0^4
+ vpaddq $H1,$T1,$H1
+ vmovdqu `32*1+4`(%rsp),$T1 # r1^4
+ vpaddq $H3,$T3,$H3
+ vmovdqu `32*3+4`(%rsp),$T2 # r2^4
+ vpaddq $H4,$T4,$H4
+ vmovdqu `32*6+4-0x90`(%rax),$T3 # s3^4
+ vmovdqu `32*8+4-0x90`(%rax),$S4 # s4^4
+
+ vpmuludq $H2,$T0,$D2 # d2 = h2*r0
+ vpmuludq $H2,$T1,$D3 # d3 = h2*r1
+ vpmuludq $H2,$T2,$D4 # d4 = h2*r2
+ vpmuludq $H2,$T3,$D0 # d0 = h2*s3
+ vpmuludq $H2,$S4,$D1 # d1 = h2*s4
+
+ vpmuludq $H0,$T1,$T4 # h0*r1
+ vpmuludq $H1,$T1,$H2 # h1*r1
+ vpaddq $T4,$D1,$D1 # d1 += h0*r1
+ vpaddq $H2,$D2,$D2 # d2 += h1*r1
+ vpmuludq $H3,$T1,$T4 # h3*r1
+ vpmuludq `32*2+4`(%rsp),$H4,$H2 # h4*s1
+ vpaddq $T4,$D4,$D4 # d4 += h3*r1
+ vpaddq $H2,$D0,$D0 # d0 += h4*s1
+
+ vpmuludq $H0,$T0,$T4 # h0*r0
+ vpmuludq $H1,$T0,$H2 # h1*r0
+ vpaddq $T4,$D0,$D0 # d0 += h0*r0
+ vmovdqu `32*4+4-0x90`(%rax),$T1 # s2
+ vpaddq $H2,$D1,$D1 # d1 += h1*r0
+ vpmuludq $H3,$T0,$T4 # h3*r0
+ vpmuludq $H4,$T0,$H2 # h4*r0
+ vpaddq $T4,$D3,$D3 # d3 += h3*r0
+ vpaddq $H2,$D4,$D4 # d4 += h4*r0
+
+ vpmuludq $H3,$T1,$T4 # h3*s2
+ vpmuludq $H4,$T1,$H2 # h4*s2
+ vpaddq $T4,$D0,$D0 # d0 += h3*s2
+ vpaddq $H2,$D1,$D1 # d1 += h4*s2
+ vmovdqu `32*5+4-0x90`(%rax),$H2 # r3
+ vpmuludq $H1,$T2,$T4 # h1*r2
+ vpmuludq $H0,$T2,$T2 # h0*r2
+ vpaddq $T4,$D3,$D3 # d3 += h1*r2
+ vpaddq $T2,$D2,$D2 # d2 += h0*r2
+
+ vpmuludq $H1,$H2,$T4 # h1*r3
+ vpmuludq $H0,$H2,$H2 # h0*r3
+ vpaddq $T4,$D4,$D4 # d4 += h1*r3
+ vpaddq $H2,$D3,$D3 # d3 += h0*r3
+ vpmuludq $H3,$T3,$T4 # h3*s3
+ vpmuludq $H4,$T3,$H2 # h4*s3
+ vpaddq $T4,$D1,$D1 # d1 += h3*s3
+ vpaddq $H2,$D2,$D2 # d2 += h4*s3
+
+ vpmuludq $H3,$S4,$H3 # h3*s4
+ vpmuludq $H4,$S4,$H4 # h4*s4
+ vpaddq $H3,$D2,$H2 # h2 = d2 + h3*r4
+ vpaddq $H4,$D3,$H3 # h3 = d3 + h4*r4
+ vpmuludq `32*7+4-0x90`(%rax),$H0,$H4 # h0*r4
+ vpmuludq $H1,$S4,$H0 # h1*s4
+ vmovdqa 64(%rcx),$MASK # .Lmask26
+ vpaddq $H4,$D4,$H4 # h4 = d4 + h0*r4
+ vpaddq $H0,$D0,$H0 # h0 = d0 + h1*s4
+
+ ################################################################
+ # horizontal addition
+
+ vpsrldq \$8,$D1,$T1
+ vpsrldq \$8,$H2,$T2
+ vpsrldq \$8,$H3,$T3
+ vpsrldq \$8,$H4,$T4
+ vpsrldq \$8,$H0,$T0
+ vpaddq $T1,$D1,$D1
+ vpaddq $T2,$H2,$H2
+ vpaddq $T3,$H3,$H3
+ vpaddq $T4,$H4,$H4
+ vpaddq $T0,$H0,$H0
+
+ vpermq \$0x2,$H3,$T3
+ vpermq \$0x2,$H4,$T4
+ vpermq \$0x2,$H0,$T0
+ vpermq \$0x2,$D1,$T1
+ vpermq \$0x2,$H2,$T2
+ vpaddq $T3,$H3,$H3
+ vpaddq $T4,$H4,$H4
+ vpaddq $T0,$H0,$H0
+ vpaddq $T1,$D1,$D1
+ vpaddq $T2,$H2,$H2
+
+ ################################################################
+ # lazy reduction
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpaddq $D0,$D1,$H1 # h0 -> h1
+
+ vpsrlq \$26,$H4,$D4
+ vpand $MASK,$H4,$H4
+
+ vpsrlq \$26,$H1,$D1
+ vpand $MASK,$H1,$H1
+ vpaddq $D1,$H2,$H2 # h1 -> h2
+
+ vpaddq $D4,$H0,$H0
+ vpsllq \$2,$D4,$D4
+ vpaddq $D4,$H0,$H0 # h4 -> h0
+
+ vpsrlq \$26,$H2,$D2
+ vpand $MASK,$H2,$H2
+ vpaddq $D2,$H3,$H3 # h2 -> h3
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpaddq $D0,$H1,$H1 # h0 -> h1
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ vmovd %x#$H0,`4*0-48-64`($ctx)# save partially reduced
+ vmovd %x#$H1,`4*1-48-64`($ctx)
+ vmovd %x#$H2,`4*2-48-64`($ctx)
+ vmovd %x#$H3,`4*3-48-64`($ctx)
+ vmovd %x#$H4,`4*4-48-64`($ctx)
+___
+$code.=<<___ if ($win64);
+ vmovdqa -0xb0(%r10),%xmm6
+ vmovdqa -0xa0(%r10),%xmm7
+ vmovdqa -0x90(%r10),%xmm8
+ vmovdqa -0x80(%r10),%xmm9
+ vmovdqa -0x70(%r10),%xmm10
+ vmovdqa -0x60(%r10),%xmm11
+ vmovdqa -0x50(%r10),%xmm12
+ vmovdqa -0x40(%r10),%xmm13
+ vmovdqa -0x30(%r10),%xmm14
+ vmovdqa -0x20(%r10),%xmm15
+ lea -8(%r10),%rsp
+.Ldo_avx2_epilogue$suffix:
+___
+$code.=<<___ if (!$win64);
+ lea -8(%r10),%rsp
+.cfi_def_cfa_register %rsp
+___
+$code.=<<___;
+ vzeroupper
+ ret
+.cfi_endproc
+___
+if($avx > 2 && $avx512) {
+my ($R0,$R1,$R2,$R3,$R4, $S1,$S2,$S3,$S4) = map("%zmm$_",(16..24));
+my ($M0,$M1,$M2,$M3,$M4) = map("%zmm$_",(25..29));
+my $PADBIT="%zmm30";
+
+map(s/%y/%z/,($T4,$T0,$T1,$T2,$T3)); # switch to %zmm domain
+map(s/%y/%z/,($D0,$D1,$D2,$D3,$D4));
+map(s/%y/%z/,($H0,$H1,$H2,$H3,$H4));
+map(s/%y/%z/,($MASK));
+
+$code.=<<___;
+.cfi_startproc
+.Lblocks_avx512:
+ mov \$15,%eax
+ kmovw %eax,%k2
+___
+$code.=<<___ if (!$win64);
+ lea 8(%rsp),%r10
+.cfi_def_cfa_register %r10
+ sub \$0x128,%rsp
+___
+$code.=<<___ if ($win64);
+ lea 8(%rsp),%r10
+ sub \$0x1c8,%rsp
+ vmovdqa %xmm6,-0xb0(%r10)
+ vmovdqa %xmm7,-0xa0(%r10)
+ vmovdqa %xmm8,-0x90(%r10)
+ vmovdqa %xmm9,-0x80(%r10)
+ vmovdqa %xmm10,-0x70(%r10)
+ vmovdqa %xmm11,-0x60(%r10)
+ vmovdqa %xmm12,-0x50(%r10)
+ vmovdqa %xmm13,-0x40(%r10)
+ vmovdqa %xmm14,-0x30(%r10)
+ vmovdqa %xmm15,-0x20(%r10)
+.Ldo_avx512_body:
+___
+$code.=<<___;
+ lea .Lconst(%rip),%rcx
+ lea 48+64($ctx),$ctx # size optimization
+ vmovdqa 96(%rcx),%y#$T2 # .Lpermd_avx2
+
+ # expand pre-calculated table
+ vmovdqu `16*0-64`($ctx),%x#$D0 # will become expanded ${R0}
+ and \$-512,%rsp
+ vmovdqu `16*1-64`($ctx),%x#$D1 # will become ... ${R1}
+ mov \$0x20,%rax
+ vmovdqu `16*2-64`($ctx),%x#$T0 # ... ${S1}
+ vmovdqu `16*3-64`($ctx),%x#$D2 # ... ${R2}
+ vmovdqu `16*4-64`($ctx),%x#$T1 # ... ${S2}
+ vmovdqu `16*5-64`($ctx),%x#$D3 # ... ${R3}
+ vmovdqu `16*6-64`($ctx),%x#$T3 # ... ${S3}
+ vmovdqu `16*7-64`($ctx),%x#$D4 # ... ${R4}
+ vmovdqu `16*8-64`($ctx),%x#$T4 # ... ${S4}
+ vpermd $D0,$T2,$R0 # 00003412 -> 14243444
+ vpbroadcastq 64(%rcx),$MASK # .Lmask26
+ vpermd $D1,$T2,$R1
+ vpermd $T0,$T2,$S1
+ vpermd $D2,$T2,$R2
+ vmovdqa64 $R0,0x00(%rsp){%k2} # save in case $len%128 != 0
+ vpsrlq \$32,$R0,$T0 # 14243444 -> 01020304
+ vpermd $T1,$T2,$S2
+ vmovdqu64 $R1,0x00(%rsp,%rax){%k2}
+ vpsrlq \$32,$R1,$T1
+ vpermd $D3,$T2,$R3
+ vmovdqa64 $S1,0x40(%rsp){%k2}
+ vpermd $T3,$T2,$S3
+ vpermd $D4,$T2,$R4
+ vmovdqu64 $R2,0x40(%rsp,%rax){%k2}
+ vpermd $T4,$T2,$S4
+ vmovdqa64 $S2,0x80(%rsp){%k2}
+ vmovdqu64 $R3,0x80(%rsp,%rax){%k2}
+ vmovdqa64 $S3,0xc0(%rsp){%k2}
+ vmovdqu64 $R4,0xc0(%rsp,%rax){%k2}
+ vmovdqa64 $S4,0x100(%rsp){%k2}
+
+ ################################################################
+ # calculate 5th through 8th powers of the key
+ #
+ # d0 = r0'*r0 + r1'*5*r4 + r2'*5*r3 + r3'*5*r2 + r4'*5*r1
+ # d1 = r0'*r1 + r1'*r0 + r2'*5*r4 + r3'*5*r3 + r4'*5*r2
+ # d2 = r0'*r2 + r1'*r1 + r2'*r0 + r3'*5*r4 + r4'*5*r3
+ # d3 = r0'*r3 + r1'*r2 + r2'*r1 + r3'*r0 + r4'*5*r4
+ # d4 = r0'*r4 + r1'*r3 + r2'*r2 + r3'*r1 + r4'*r0
+
+ vpmuludq $T0,$R0,$D0 # d0 = r0'*r0
+ vpmuludq $T0,$R1,$D1 # d1 = r0'*r1
+ vpmuludq $T0,$R2,$D2 # d2 = r0'*r2
+ vpmuludq $T0,$R3,$D3 # d3 = r0'*r3
+ vpmuludq $T0,$R4,$D4 # d4 = r0'*r4
+ vpsrlq \$32,$R2,$T2
+
+ vpmuludq $T1,$S4,$M0
+ vpmuludq $T1,$R0,$M1
+ vpmuludq $T1,$R1,$M2
+ vpmuludq $T1,$R2,$M3
+ vpmuludq $T1,$R3,$M4
+ vpsrlq \$32,$R3,$T3
+ vpaddq $M0,$D0,$D0 # d0 += r1'*5*r4
+ vpaddq $M1,$D1,$D1 # d1 += r1'*r0
+ vpaddq $M2,$D2,$D2 # d2 += r1'*r1
+ vpaddq $M3,$D3,$D3 # d3 += r1'*r2
+ vpaddq $M4,$D4,$D4 # d4 += r1'*r3
+
+ vpmuludq $T2,$S3,$M0
+ vpmuludq $T2,$S4,$M1
+ vpmuludq $T2,$R1,$M3
+ vpmuludq $T2,$R2,$M4
+ vpmuludq $T2,$R0,$M2
+ vpsrlq \$32,$R4,$T4
+ vpaddq $M0,$D0,$D0 # d0 += r2'*5*r3
+ vpaddq $M1,$D1,$D1 # d1 += r2'*5*r4
+ vpaddq $M3,$D3,$D3 # d3 += r2'*r1
+ vpaddq $M4,$D4,$D4 # d4 += r2'*r2
+ vpaddq $M2,$D2,$D2 # d2 += r2'*r0
+
+ vpmuludq $T3,$S2,$M0
+ vpmuludq $T3,$R0,$M3
+ vpmuludq $T3,$R1,$M4
+ vpmuludq $T3,$S3,$M1
+ vpmuludq $T3,$S4,$M2
+ vpaddq $M0,$D0,$D0 # d0 += r3'*5*r2
+ vpaddq $M3,$D3,$D3 # d3 += r3'*r0
+ vpaddq $M4,$D4,$D4 # d4 += r3'*r1
+ vpaddq $M1,$D1,$D1 # d1 += r3'*5*r3
+ vpaddq $M2,$D2,$D2 # d2 += r3'*5*r4
+
+ vpmuludq $T4,$S4,$M3
+ vpmuludq $T4,$R0,$M4
+ vpmuludq $T4,$S1,$M0
+ vpmuludq $T4,$S2,$M1
+ vpmuludq $T4,$S3,$M2
+ vpaddq $M3,$D3,$D3 # d3 += r2'*5*r4
+ vpaddq $M4,$D4,$D4 # d4 += r2'*r0
+ vpaddq $M0,$D0,$D0 # d0 += r2'*5*r1
+ vpaddq $M1,$D1,$D1 # d1 += r2'*5*r2
+ vpaddq $M2,$D2,$D2 # d2 += r2'*5*r3
+
+ ################################################################
+ # load input
+ vmovdqu64 16*0($inp),%z#$T3
+ vmovdqu64 16*4($inp),%z#$T4
+ lea 16*8($inp),$inp
+
+ ################################################################
+ # lazy reduction
+
+ vpsrlq \$26,$D3,$M3
+ vpandq $MASK,$D3,$D3
+ vpaddq $M3,$D4,$D4 # d3 -> d4
+
+ vpsrlq \$26,$D0,$M0
+ vpandq $MASK,$D0,$D0
+ vpaddq $M0,$D1,$D1 # d0 -> d1
+
+ vpsrlq \$26,$D4,$M4
+ vpandq $MASK,$D4,$D4
+
+ vpsrlq \$26,$D1,$M1
+ vpandq $MASK,$D1,$D1
+ vpaddq $M1,$D2,$D2 # d1 -> d2
+
+ vpaddq $M4,$D0,$D0
+ vpsllq \$2,$M4,$M4
+ vpaddq $M4,$D0,$D0 # d4 -> d0
+
+ vpsrlq \$26,$D2,$M2
+ vpandq $MASK,$D2,$D2
+ vpaddq $M2,$D3,$D3 # d2 -> d3
+
+ vpsrlq \$26,$D0,$M0
+ vpandq $MASK,$D0,$D0
+ vpaddq $M0,$D1,$D1 # d0 -> d1
+
+ vpsrlq \$26,$D3,$M3
+ vpandq $MASK,$D3,$D3
+ vpaddq $M3,$D4,$D4 # d3 -> d4
+
+ ################################################################
+ # at this point we have 14243444 in $R0-$S4 and 05060708 in
+ # $D0-$D4, ...
+
+ vpunpcklqdq $T4,$T3,$T0 # transpose input
+ vpunpckhqdq $T4,$T3,$T4
+
+ # ... since input 64-bit lanes are ordered as 73625140, we could
+ # "vperm" it to 76543210 (here and in each loop iteration), *or*
+ # we could just flow along, hence the goal for $R0-$S4 is
+ # 1858286838784888 ...
+
+ vmovdqa32 128(%rcx),$M0 # .Lpermd_avx512:
+ mov \$0x7777,%eax
+ kmovw %eax,%k1
+
+ vpermd $R0,$M0,$R0 # 14243444 -> 1---2---3---4---
+ vpermd $R1,$M0,$R1
+ vpermd $R2,$M0,$R2
+ vpermd $R3,$M0,$R3
+ vpermd $R4,$M0,$R4
+
+ vpermd $D0,$M0,${R0}{%k1} # 05060708 -> 1858286838784888
+ vpermd $D1,$M0,${R1}{%k1}
+ vpermd $D2,$M0,${R2}{%k1}
+ vpermd $D3,$M0,${R3}{%k1}
+ vpermd $D4,$M0,${R4}{%k1}
+
+ vpslld \$2,$R1,$S1 # *5
+ vpslld \$2,$R2,$S2
+ vpslld \$2,$R3,$S3
+ vpslld \$2,$R4,$S4
+ vpaddd $R1,$S1,$S1
+ vpaddd $R2,$S2,$S2
+ vpaddd $R3,$S3,$S3
+ vpaddd $R4,$S4,$S4
+
+ vpbroadcastq 32(%rcx),$PADBIT # .L129
+
+ vpsrlq \$52,$T0,$T2 # splat input
+ vpsllq \$12,$T4,$T3
+ vporq $T3,$T2,$T2
+ vpsrlq \$26,$T0,$T1
+ vpsrlq \$14,$T4,$T3
+ vpsrlq \$40,$T4,$T4 # 4
+ vpandq $MASK,$T2,$T2 # 2
+ vpandq $MASK,$T0,$T0 # 0
+ #vpandq $MASK,$T1,$T1 # 1
+ #vpandq $MASK,$T3,$T3 # 3
+ #vporq $PADBIT,$T4,$T4 # padbit, yes, always
+
+ vpaddq $H2,$T2,$H2 # accumulate input
+ sub \$192,$len
+ jbe .Ltail_avx512
+ jmp .Loop_avx512
+
+.align 32
+.Loop_avx512:
+ ################################################################
+ # ((inp[0]*r^8+inp[ 8])*r^8+inp[16])*r^8
+ # ((inp[1]*r^8+inp[ 9])*r^8+inp[17])*r^7
+ # ((inp[2]*r^8+inp[10])*r^8+inp[18])*r^6
+ # ((inp[3]*r^8+inp[11])*r^8+inp[19])*r^5
+ # ((inp[4]*r^8+inp[12])*r^8+inp[20])*r^4
+ # ((inp[5]*r^8+inp[13])*r^8+inp[21])*r^3
+ # ((inp[6]*r^8+inp[14])*r^8+inp[22])*r^2
+ # ((inp[7]*r^8+inp[15])*r^8+inp[23])*r^1
+ # \________/\___________/
+ ################################################################
+ #vpaddq $H2,$T2,$H2 # accumulate input
+
+ # d4 = h4*r0 + h3*r1 + h2*r2 + h1*r3 + h0*r4
+ # d3 = h3*r0 + h2*r1 + h1*r2 + h0*r3 + h4*5*r4
+ # d2 = h2*r0 + h1*r1 + h0*r2 + h4*5*r3 + h3*5*r4
+ # d1 = h1*r0 + h0*r1 + h4*5*r2 + h3*5*r3 + h2*5*r4
+ # d0 = h0*r0 + h4*5*r1 + h3*5*r2 + h2*5*r3 + h1*5*r4
+ #
+ # however, as h2 is "chronologically" first one available pull
+ # corresponding operations up, so it's
+ #
+ # d3 = h2*r1 + h0*r3 + h1*r2 + h3*r0 + h4*5*r4
+ # d4 = h2*r2 + h0*r4 + h1*r3 + h3*r1 + h4*r0
+ # d0 = h2*5*r3 + h0*r0 + h1*5*r4 + h3*5*r2 + h4*5*r1
+ # d1 = h2*5*r4 + h0*r1 + h1*r0 + h3*5*r3 + h4*5*r2
+ # d2 = h2*r0 + h0*r2 + h1*r1 + h3*5*r4 + h4*5*r3
+
+ vpmuludq $H2,$R1,$D3 # d3 = h2*r1
+ vpaddq $H0,$T0,$H0
+ vpmuludq $H2,$R2,$D4 # d4 = h2*r2
+ vpandq $MASK,$T1,$T1 # 1
+ vpmuludq $H2,$S3,$D0 # d0 = h2*s3
+ vpandq $MASK,$T3,$T3 # 3
+ vpmuludq $H2,$S4,$D1 # d1 = h2*s4
+ vporq $PADBIT,$T4,$T4 # padbit, yes, always
+ vpmuludq $H2,$R0,$D2 # d2 = h2*r0
+ vpaddq $H1,$T1,$H1 # accumulate input
+ vpaddq $H3,$T3,$H3
+ vpaddq $H4,$T4,$H4
+
+ vmovdqu64 16*0($inp),$T3 # load input
+ vmovdqu64 16*4($inp),$T4
+ lea 16*8($inp),$inp
+ vpmuludq $H0,$R3,$M3
+ vpmuludq $H0,$R4,$M4
+ vpmuludq $H0,$R0,$M0
+ vpmuludq $H0,$R1,$M1
+ vpaddq $M3,$D3,$D3 # d3 += h0*r3
+ vpaddq $M4,$D4,$D4 # d4 += h0*r4
+ vpaddq $M0,$D0,$D0 # d0 += h0*r0
+ vpaddq $M1,$D1,$D1 # d1 += h0*r1
+
+ vpmuludq $H1,$R2,$M3
+ vpmuludq $H1,$R3,$M4
+ vpmuludq $H1,$S4,$M0
+ vpmuludq $H0,$R2,$M2
+ vpaddq $M3,$D3,$D3 # d3 += h1*r2
+ vpaddq $M4,$D4,$D4 # d4 += h1*r3
+ vpaddq $M0,$D0,$D0 # d0 += h1*s4
+ vpaddq $M2,$D2,$D2 # d2 += h0*r2
+
+ vpunpcklqdq $T4,$T3,$T0 # transpose input
+ vpunpckhqdq $T4,$T3,$T4
+
+ vpmuludq $H3,$R0,$M3
+ vpmuludq $H3,$R1,$M4
+ vpmuludq $H1,$R0,$M1
+ vpmuludq $H1,$R1,$M2
+ vpaddq $M3,$D3,$D3 # d3 += h3*r0
+ vpaddq $M4,$D4,$D4 # d4 += h3*r1
+ vpaddq $M1,$D1,$D1 # d1 += h1*r0
+ vpaddq $M2,$D2,$D2 # d2 += h1*r1
+
+ vpmuludq $H4,$S4,$M3
+ vpmuludq $H4,$R0,$M4
+ vpmuludq $H3,$S2,$M0
+ vpmuludq $H3,$S3,$M1
+ vpaddq $M3,$D3,$D3 # d3 += h4*s4
+ vpmuludq $H3,$S4,$M2
+ vpaddq $M4,$D4,$D4 # d4 += h4*r0
+ vpaddq $M0,$D0,$D0 # d0 += h3*s2
+ vpaddq $M1,$D1,$D1 # d1 += h3*s3
+ vpaddq $M2,$D2,$D2 # d2 += h3*s4
+
+ vpmuludq $H4,$S1,$M0
+ vpmuludq $H4,$S2,$M1
+ vpmuludq $H4,$S3,$M2
+ vpaddq $M0,$D0,$H0 # h0 = d0 + h4*s1
+ vpaddq $M1,$D1,$H1 # h1 = d2 + h4*s2
+ vpaddq $M2,$D2,$H2 # h2 = d3 + h4*s3
+
+ ################################################################
+ # lazy reduction (interleaved with input splat)
+
+ vpsrlq \$52,$T0,$T2 # splat input
+ vpsllq \$12,$T4,$T3
+
+ vpsrlq \$26,$D3,$H3
+ vpandq $MASK,$D3,$D3
+ vpaddq $H3,$D4,$H4 # h3 -> h4
+
+ vporq $T3,$T2,$T2
+
+ vpsrlq \$26,$H0,$D0
+ vpandq $MASK,$H0,$H0
+ vpaddq $D0,$H1,$H1 # h0 -> h1
+
+ vpandq $MASK,$T2,$T2 # 2
+
+ vpsrlq \$26,$H4,$D4
+ vpandq $MASK,$H4,$H4
+
+ vpsrlq \$26,$H1,$D1
+ vpandq $MASK,$H1,$H1
+ vpaddq $D1,$H2,$H2 # h1 -> h2
+
+ vpaddq $D4,$H0,$H0
+ vpsllq \$2,$D4,$D4
+ vpaddq $D4,$H0,$H0 # h4 -> h0
+
+ vpaddq $T2,$H2,$H2 # modulo-scheduled
+ vpsrlq \$26,$T0,$T1
+
+ vpsrlq \$26,$H2,$D2
+ vpandq $MASK,$H2,$H2
+ vpaddq $D2,$D3,$H3 # h2 -> h3
+
+ vpsrlq \$14,$T4,$T3
+
+ vpsrlq \$26,$H0,$D0
+ vpandq $MASK,$H0,$H0
+ vpaddq $D0,$H1,$H1 # h0 -> h1
+
+ vpsrlq \$40,$T4,$T4 # 4
+
+ vpsrlq \$26,$H3,$D3
+ vpandq $MASK,$H3,$H3
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ vpandq $MASK,$T0,$T0 # 0
+ #vpandq $MASK,$T1,$T1 # 1
+ #vpandq $MASK,$T3,$T3 # 3
+ #vporq $PADBIT,$T4,$T4 # padbit, yes, always
+
+ sub \$128,$len
+ ja .Loop_avx512
+
+.Ltail_avx512:
+ ################################################################
+ # while above multiplications were by r^8 in all lanes, in last
+ # iteration we multiply least significant lane by r^8 and most
+ # significant one by r, that's why table gets shifted...
+
+ vpsrlq \$32,$R0,$R0 # 0105020603070408
+ vpsrlq \$32,$R1,$R1
+ vpsrlq \$32,$R2,$R2
+ vpsrlq \$32,$S3,$S3
+ vpsrlq \$32,$S4,$S4
+ vpsrlq \$32,$R3,$R3
+ vpsrlq \$32,$R4,$R4
+ vpsrlq \$32,$S1,$S1
+ vpsrlq \$32,$S2,$S2
+
+ ################################################################
+ # load either next or last 64 byte of input
+ lea ($inp,$len),$inp
+
+ #vpaddq $H2,$T2,$H2 # accumulate input
+ vpaddq $H0,$T0,$H0
+
+ vpmuludq $H2,$R1,$D3 # d3 = h2*r1
+ vpmuludq $H2,$R2,$D4 # d4 = h2*r2
+ vpmuludq $H2,$S3,$D0 # d0 = h2*s3
+ vpandq $MASK,$T1,$T1 # 1
+ vpmuludq $H2,$S4,$D1 # d1 = h2*s4
+ vpandq $MASK,$T3,$T3 # 3
+ vpmuludq $H2,$R0,$D2 # d2 = h2*r0
+ vporq $PADBIT,$T4,$T4 # padbit, yes, always
+ vpaddq $H1,$T1,$H1 # accumulate input
+ vpaddq $H3,$T3,$H3
+ vpaddq $H4,$T4,$H4
+
+ vmovdqu 16*0($inp),%x#$T0
+ vpmuludq $H0,$R3,$M3
+ vpmuludq $H0,$R4,$M4
+ vpmuludq $H0,$R0,$M0
+ vpmuludq $H0,$R1,$M1
+ vpaddq $M3,$D3,$D3 # d3 += h0*r3
+ vpaddq $M4,$D4,$D4 # d4 += h0*r4
+ vpaddq $M0,$D0,$D0 # d0 += h0*r0
+ vpaddq $M1,$D1,$D1 # d1 += h0*r1
+
+ vmovdqu 16*1($inp),%x#$T1
+ vpmuludq $H1,$R2,$M3
+ vpmuludq $H1,$R3,$M4
+ vpmuludq $H1,$S4,$M0
+ vpmuludq $H0,$R2,$M2
+ vpaddq $M3,$D3,$D3 # d3 += h1*r2
+ vpaddq $M4,$D4,$D4 # d4 += h1*r3
+ vpaddq $M0,$D0,$D0 # d0 += h1*s4
+ vpaddq $M2,$D2,$D2 # d2 += h0*r2
+
+ vinserti128 \$1,16*2($inp),%y#$T0,%y#$T0
+ vpmuludq $H3,$R0,$M3
+ vpmuludq $H3,$R1,$M4
+ vpmuludq $H1,$R0,$M1
+ vpmuludq $H1,$R1,$M2
+ vpaddq $M3,$D3,$D3 # d3 += h3*r0
+ vpaddq $M4,$D4,$D4 # d4 += h3*r1
+ vpaddq $M1,$D1,$D1 # d1 += h1*r0
+ vpaddq $M2,$D2,$D2 # d2 += h1*r1
+
+ vinserti128 \$1,16*3($inp),%y#$T1,%y#$T1
+ vpmuludq $H4,$S4,$M3
+ vpmuludq $H4,$R0,$M4
+ vpmuludq $H3,$S2,$M0
+ vpmuludq $H3,$S3,$M1
+ vpmuludq $H3,$S4,$M2
+ vpaddq $M3,$D3,$H3 # h3 = d3 + h4*s4
+ vpaddq $M4,$D4,$D4 # d4 += h4*r0
+ vpaddq $M0,$D0,$D0 # d0 += h3*s2
+ vpaddq $M1,$D1,$D1 # d1 += h3*s3
+ vpaddq $M2,$D2,$D2 # d2 += h3*s4
+
+ vpmuludq $H4,$S1,$M0
+ vpmuludq $H4,$S2,$M1
+ vpmuludq $H4,$S3,$M2
+ vpaddq $M0,$D0,$H0 # h0 = d0 + h4*s1
+ vpaddq $M1,$D1,$H1 # h1 = d2 + h4*s2
+ vpaddq $M2,$D2,$H2 # h2 = d3 + h4*s3
+
+ ################################################################
+ # horizontal addition
+
+ mov \$1,%eax
+ vpermq \$0xb1,$H3,$D3
+ vpermq \$0xb1,$D4,$H4
+ vpermq \$0xb1,$H0,$D0
+ vpermq \$0xb1,$H1,$D1
+ vpermq \$0xb1,$H2,$D2
+ vpaddq $D3,$H3,$H3
+ vpaddq $D4,$H4,$H4
+ vpaddq $D0,$H0,$H0
+ vpaddq $D1,$H1,$H1
+ vpaddq $D2,$H2,$H2
+
+ kmovw %eax,%k3
+ vpermq \$0x2,$H3,$D3
+ vpermq \$0x2,$H4,$D4
+ vpermq \$0x2,$H0,$D0
+ vpermq \$0x2,$H1,$D1
+ vpermq \$0x2,$H2,$D2
+ vpaddq $D3,$H3,$H3
+ vpaddq $D4,$H4,$H4
+ vpaddq $D0,$H0,$H0
+ vpaddq $D1,$H1,$H1
+ vpaddq $D2,$H2,$H2
+
+ vextracti64x4 \$0x1,$H3,%y#$D3
+ vextracti64x4 \$0x1,$H4,%y#$D4
+ vextracti64x4 \$0x1,$H0,%y#$D0
+ vextracti64x4 \$0x1,$H1,%y#$D1
+ vextracti64x4 \$0x1,$H2,%y#$D2
+ vpaddq $D3,$H3,${H3}{%k3}{z} # keep single qword in case
+ vpaddq $D4,$H4,${H4}{%k3}{z} # it's passed to .Ltail_avx2
+ vpaddq $D0,$H0,${H0}{%k3}{z}
+ vpaddq $D1,$H1,${H1}{%k3}{z}
+ vpaddq $D2,$H2,${H2}{%k3}{z}
+___
+map(s/%z/%y/,($T0,$T1,$T2,$T3,$T4, $PADBIT));
+map(s/%z/%y/,($H0,$H1,$H2,$H3,$H4, $D0,$D1,$D2,$D3,$D4, $MASK));
+$code.=<<___;
+ ################################################################
+ # lazy reduction (interleaved with input splat)
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpsrldq \$6,$T0,$T2 # splat input
+ vpsrldq \$6,$T1,$T3
+ vpunpckhqdq $T1,$T0,$T4 # 4
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpunpcklqdq $T3,$T2,$T2 # 2:3
+ vpunpcklqdq $T1,$T0,$T0 # 0:1
+ vpaddq $D0,$H1,$H1 # h0 -> h1
+
+ vpsrlq \$26,$H4,$D4
+ vpand $MASK,$H4,$H4
+
+ vpsrlq \$26,$H1,$D1
+ vpand $MASK,$H1,$H1
+ vpsrlq \$30,$T2,$T3
+ vpsrlq \$4,$T2,$T2
+ vpaddq $D1,$H2,$H2 # h1 -> h2
+
+ vpaddq $D4,$H0,$H0
+ vpsllq \$2,$D4,$D4
+ vpsrlq \$26,$T0,$T1
+ vpsrlq \$40,$T4,$T4 # 4
+ vpaddq $D4,$H0,$H0 # h4 -> h0
+
+ vpsrlq \$26,$H2,$D2
+ vpand $MASK,$H2,$H2
+ vpand $MASK,$T2,$T2 # 2
+ vpand $MASK,$T0,$T0 # 0
+ vpaddq $D2,$H3,$H3 # h2 -> h3
+
+ vpsrlq \$26,$H0,$D0
+ vpand $MASK,$H0,$H0
+ vpaddq $H2,$T2,$H2 # accumulate input for .Ltail_avx2
+ vpand $MASK,$T1,$T1 # 1
+ vpaddq $D0,$H1,$H1 # h0 -> h1
+
+ vpsrlq \$26,$H3,$D3
+ vpand $MASK,$H3,$H3
+ vpand $MASK,$T3,$T3 # 3
+ vpor 32(%rcx),$T4,$T4 # padbit, yes, always
+ vpaddq $D3,$H4,$H4 # h3 -> h4
+
+ lea 0x90(%rsp),%rax # size optimization for .Ltail_avx2
+ add \$64,$len
+ jnz .Ltail_avx2$suffix
+
+ vpsubq $T2,$H2,$H2 # undo input accumulation
+ vmovd %x#$H0,`4*0-48-64`($ctx)# save partially reduced
+ vmovd %x#$H1,`4*1-48-64`($ctx)
+ vmovd %x#$H2,`4*2-48-64`($ctx)
+ vmovd %x#$H3,`4*3-48-64`($ctx)
+ vmovd %x#$H4,`4*4-48-64`($ctx)
+ vzeroall
+___
+$code.=<<___ if ($win64);
+ movdqa -0xb0(%r10),%xmm6
+ movdqa -0xa0(%r10),%xmm7
+ movdqa -0x90(%r10),%xmm8
+ movdqa -0x80(%r10),%xmm9
+ movdqa -0x70(%r10),%xmm10
+ movdqa -0x60(%r10),%xmm11
+ movdqa -0x50(%r10),%xmm12
+ movdqa -0x40(%r10),%xmm13
+ movdqa -0x30(%r10),%xmm14
+ movdqa -0x20(%r10),%xmm15
+ lea -8(%r10),%rsp
+.Ldo_avx512_epilogue:
+___
+$code.=<<___ if (!$win64);
+ lea -8(%r10),%rsp
+.cfi_def_cfa_register %rsp
+___
+$code.=<<___;
+ ret
+.cfi_endproc
+___
+
+}
+
+}
+
+&declare_function("poly1305_blocks_avx2", 32, 4);
+poly1305_blocks_avxN(0);
+&end_function("poly1305_blocks_avx2");
+
+if($kernel) {
+ $code .= "#endif\n";
+}
+
+#######################################################################
+if ($avx>2) {
+# On entry we have input length divisible by 64. But since inner loop
+# processes 128 bytes per iteration, cases when length is not divisible
+# by 128 are handled by passing tail 64 bytes to .Ltail_avx2. For this
+# reason stack layout is kept identical to poly1305_blocks_avx2. If not
+# for this tail, we wouldn't have to even allocate stack frame...
+
+if($kernel) {
+ $code .= "#ifdef CONFIG_AS_AVX512\n";
+}
+
+&declare_function("poly1305_blocks_avx512", 32, 4);
+poly1305_blocks_avxN(1);
+&end_function("poly1305_blocks_avx512");
+
+if ($kernel) {
+ $code .= "#endif\n";
+}
+
+if (!$kernel && $avx>3) {
+########################################################################
+# VPMADD52 version using 2^44 radix.
+#
+# One can argue that base 2^52 would be more natural. Well, even though
+# some operations would be more natural, one has to recognize couple of
+# things. Base 2^52 doesn't provide advantage over base 2^44 if you look
+# at amount of multiply-n-accumulate operations. Secondly, it makes it
+# impossible to pre-compute multiples of 5 [referred to as s[]/sN in
+# reference implementations], which means that more such operations
+# would have to be performed in inner loop, which in turn makes critical
+# path longer. In other words, even though base 2^44 reduction might
+# look less elegant, overall critical path is actually shorter...
+
+########################################################################
+# Layout of opaque area is following.
+#
+# unsigned __int64 h[3]; # current hash value base 2^44
+# unsigned __int64 s[2]; # key value*20 base 2^44
+# unsigned __int64 r[3]; # key value base 2^44
+# struct { unsigned __int64 r^1, r^3, r^2, r^4; } R[4];
+# # r^n positions reflect
+# # placement in register, not
+# # memory, R[3] is R[1]*20
+
+$code.=<<___;
+.type poly1305_init_base2_44,\@function,3
+.align 32
+poly1305_init_base2_44:
+ xor %rax,%rax
+ mov %rax,0($ctx) # initialize hash value
+ mov %rax,8($ctx)
+ mov %rax,16($ctx)
+
+.Linit_base2_44:
+ lea poly1305_blocks_vpmadd52(%rip),%r10
+ lea poly1305_emit_base2_44(%rip),%r11
+
+ mov \$0x0ffffffc0fffffff,%rax
+ mov \$0x0ffffffc0ffffffc,%rcx
+ and 0($inp),%rax
+ mov \$0x00000fffffffffff,%r8
+ and 8($inp),%rcx
+ mov \$0x00000fffffffffff,%r9
+ and %rax,%r8
+ shrd \$44,%rcx,%rax
+ mov %r8,40($ctx) # r0
+ and %r9,%rax
+ shr \$24,%rcx
+ mov %rax,48($ctx) # r1
+ lea (%rax,%rax,4),%rax # *5
+ mov %rcx,56($ctx) # r2
+ shl \$2,%rax # magic <<2
+ lea (%rcx,%rcx,4),%rcx # *5
+ shl \$2,%rcx # magic <<2
+ mov %rax,24($ctx) # s1
+ mov %rcx,32($ctx) # s2
+ movq \$-1,64($ctx) # write impossible value
+___
+$code.=<<___ if ($flavour !~ /elf32/);
+ mov %r10,0(%rdx)
+ mov %r11,8(%rdx)
+___
+$code.=<<___ if ($flavour =~ /elf32/);
+ mov %r10d,0(%rdx)
+ mov %r11d,4(%rdx)
+___
+$code.=<<___;
+ mov \$1,%eax
+ ret
+.size poly1305_init_base2_44,.-poly1305_init_base2_44
+___
+{
+my ($H0,$H1,$H2,$r2r1r0,$r1r0s2,$r0s2s1,$Dlo,$Dhi) = map("%ymm$_",(0..5,16,17));
+my ($T0,$inp_permd,$inp_shift,$PAD) = map("%ymm$_",(18..21));
+my ($reduc_mask,$reduc_rght,$reduc_left) = map("%ymm$_",(22..25));
+
+$code.=<<___;
+.type poly1305_blocks_vpmadd52,\@function,4
+.align 32
+poly1305_blocks_vpmadd52:
+ shr \$4,$len
+ jz .Lno_data_vpmadd52 # too short
+
+ shl \$40,$padbit
+ mov 64($ctx),%r8 # peek on power of the key
+
+ # if powers of the key are not calculated yet, process up to 3
+ # blocks with this single-block subroutine, otherwise ensure that
+ # length is divisible by 2 blocks and pass the rest down to next
+ # subroutine...
+
+ mov \$3,%rax
+ mov \$1,%r10
+ cmp \$4,$len # is input long
+ cmovae %r10,%rax
+ test %r8,%r8 # is power value impossible?
+ cmovns %r10,%rax
+
+ and $len,%rax # is input of favourable length?
+ jz .Lblocks_vpmadd52_4x
+
+ sub %rax,$len
+ mov \$7,%r10d
+ mov \$1,%r11d
+ kmovw %r10d,%k7
+ lea .L2_44_inp_permd(%rip),%r10
+ kmovw %r11d,%k1
+
+ vmovq $padbit,%x#$PAD
+ vmovdqa64 0(%r10),$inp_permd # .L2_44_inp_permd
+ vmovdqa64 32(%r10),$inp_shift # .L2_44_inp_shift
+ vpermq \$0xcf,$PAD,$PAD
+ vmovdqa64 64(%r10),$reduc_mask # .L2_44_mask
+
+ vmovdqu64 0($ctx),${Dlo}{%k7}{z} # load hash value
+ vmovdqu64 40($ctx),${r2r1r0}{%k7}{z} # load keys
+ vmovdqu64 32($ctx),${r1r0s2}{%k7}{z}
+ vmovdqu64 24($ctx),${r0s2s1}{%k7}{z}
+
+ vmovdqa64 96(%r10),$reduc_rght # .L2_44_shift_rgt
+ vmovdqa64 128(%r10),$reduc_left # .L2_44_shift_lft
+
+ jmp .Loop_vpmadd52
+
+.align 32
+.Loop_vpmadd52:
+ vmovdqu32 0($inp),%x#$T0 # load input as ----3210
+ lea 16($inp),$inp
+
+ vpermd $T0,$inp_permd,$T0 # ----3210 -> --322110
+ vpsrlvq $inp_shift,$T0,$T0
+ vpandq $reduc_mask,$T0,$T0
+ vporq $PAD,$T0,$T0
+
+ vpaddq $T0,$Dlo,$Dlo # accumulate input
+
+ vpermq \$0,$Dlo,${H0}{%k7}{z} # smash hash value
+ vpermq \$0b01010101,$Dlo,${H1}{%k7}{z}
+ vpermq \$0b10101010,$Dlo,${H2}{%k7}{z}
+
+ vpxord $Dlo,$Dlo,$Dlo
+ vpxord $Dhi,$Dhi,$Dhi
+
+ vpmadd52luq $r2r1r0,$H0,$Dlo
+ vpmadd52huq $r2r1r0,$H0,$Dhi
+
+ vpmadd52luq $r1r0s2,$H1,$Dlo
+ vpmadd52huq $r1r0s2,$H1,$Dhi
+
+ vpmadd52luq $r0s2s1,$H2,$Dlo
+ vpmadd52huq $r0s2s1,$H2,$Dhi
+
+ vpsrlvq $reduc_rght,$Dlo,$T0 # 0 in topmost qword
+ vpsllvq $reduc_left,$Dhi,$Dhi # 0 in topmost qword
+ vpandq $reduc_mask,$Dlo,$Dlo
+
+ vpaddq $T0,$Dhi,$Dhi
+
+ vpermq \$0b10010011,$Dhi,$Dhi # 0 in lowest qword
+
+ vpaddq $Dhi,$Dlo,$Dlo # note topmost qword :-)
+
+ vpsrlvq $reduc_rght,$Dlo,$T0 # 0 in topmost word
+ vpandq $reduc_mask,$Dlo,$Dlo
+
+ vpermq \$0b10010011,$T0,$T0
+
+ vpaddq $T0,$Dlo,$Dlo
+
+ vpermq \$0b10010011,$Dlo,${T0}{%k1}{z}
+
+ vpaddq $T0,$Dlo,$Dlo
+ vpsllq \$2,$T0,$T0
+
+ vpaddq $T0,$Dlo,$Dlo
+
+ dec %rax # len-=16
+ jnz .Loop_vpmadd52
+
+ vmovdqu64 $Dlo,0($ctx){%k7} # store hash value
+
+ test $len,$len
+ jnz .Lblocks_vpmadd52_4x
+
+.Lno_data_vpmadd52:
+ ret
+.size poly1305_blocks_vpmadd52,.-poly1305_blocks_vpmadd52
+___
+}
+{
+########################################################################
+# As implied by its name 4x subroutine processes 4 blocks in parallel
+# (but handles even 4*n+2 blocks lengths). It takes up to 4th key power
+# and is handled in 256-bit %ymm registers.
+
+my ($H0,$H1,$H2,$R0,$R1,$R2,$S1,$S2) = map("%ymm$_",(0..5,16,17));
+my ($D0lo,$D0hi,$D1lo,$D1hi,$D2lo,$D2hi) = map("%ymm$_",(18..23));
+my ($T0,$T1,$T2,$T3,$mask44,$mask42,$tmp,$PAD) = map("%ymm$_",(24..31));
+
+$code.=<<___;
+.type poly1305_blocks_vpmadd52_4x,\@function,4
+.align 32
+poly1305_blocks_vpmadd52_4x:
+ shr \$4,$len
+ jz .Lno_data_vpmadd52_4x # too short
+
+ shl \$40,$padbit
+ mov 64($ctx),%r8 # peek on power of the key
+
+.Lblocks_vpmadd52_4x:
+ vpbroadcastq $padbit,$PAD
+
+ vmovdqa64 .Lx_mask44(%rip),$mask44
+ mov \$5,%eax
+ vmovdqa64 .Lx_mask42(%rip),$mask42
+ kmovw %eax,%k1 # used in 2x path
+
+ test %r8,%r8 # is power value impossible?
+ js .Linit_vpmadd52 # if it is, then init R[4]
+
+ vmovq 0($ctx),%x#$H0 # load current hash value
+ vmovq 8($ctx),%x#$H1
+ vmovq 16($ctx),%x#$H2
+
+ test \$3,$len # is length 4*n+2?
+ jnz .Lblocks_vpmadd52_2x_do
+
+.Lblocks_vpmadd52_4x_do:
+ vpbroadcastq 64($ctx),$R0 # load 4th power of the key
+ vpbroadcastq 96($ctx),$R1
+ vpbroadcastq 128($ctx),$R2
+ vpbroadcastq 160($ctx),$S1
+
+.Lblocks_vpmadd52_4x_key_loaded:
+ vpsllq \$2,$R2,$S2 # S2 = R2*5*4
+ vpaddq $R2,$S2,$S2
+ vpsllq \$2,$S2,$S2
+
+ test \$7,$len # is len 8*n?
+ jz .Lblocks_vpmadd52_8x
+
+ vmovdqu64 16*0($inp),$T2 # load data
+ vmovdqu64 16*2($inp),$T3
+ lea 16*4($inp),$inp
+
+ vpunpcklqdq $T3,$T2,$T1 # transpose data
+ vpunpckhqdq $T3,$T2,$T3
+
+ # at this point 64-bit lanes are ordered as 3-1-2-0
+
+ vpsrlq \$24,$T3,$T2 # splat the data
+ vporq $PAD,$T2,$T2
+ vpaddq $T2,$H2,$H2 # accumulate input
+ vpandq $mask44,$T1,$T0
+ vpsrlq \$44,$T1,$T1
+ vpsllq \$20,$T3,$T3
+ vporq $T3,$T1,$T1
+ vpandq $mask44,$T1,$T1
+
+ sub \$4,$len
+ jz .Ltail_vpmadd52_4x
+ jmp .Loop_vpmadd52_4x
+ ud2
+
+.align 32
+.Linit_vpmadd52:
+ vmovq 24($ctx),%x#$S1 # load key
+ vmovq 56($ctx),%x#$H2
+ vmovq 32($ctx),%x#$S2
+ vmovq 40($ctx),%x#$R0
+ vmovq 48($ctx),%x#$R1
+
+ vmovdqa $R0,$H0
+ vmovdqa $R1,$H1
+ vmovdqa $H2,$R2
+
+ mov \$2,%eax
+
+.Lmul_init_vpmadd52:
+ vpxorq $D0lo,$D0lo,$D0lo
+ vpmadd52luq $H2,$S1,$D0lo
+ vpxorq $D0hi,$D0hi,$D0hi
+ vpmadd52huq $H2,$S1,$D0hi
+ vpxorq $D1lo,$D1lo,$D1lo
+ vpmadd52luq $H2,$S2,$D1lo
+ vpxorq $D1hi,$D1hi,$D1hi
+ vpmadd52huq $H2,$S2,$D1hi
+ vpxorq $D2lo,$D2lo,$D2lo
+ vpmadd52luq $H2,$R0,$D2lo
+ vpxorq $D2hi,$D2hi,$D2hi
+ vpmadd52huq $H2,$R0,$D2hi
+
+ vpmadd52luq $H0,$R0,$D0lo
+ vpmadd52huq $H0,$R0,$D0hi
+ vpmadd52luq $H0,$R1,$D1lo
+ vpmadd52huq $H0,$R1,$D1hi
+ vpmadd52luq $H0,$R2,$D2lo
+ vpmadd52huq $H0,$R2,$D2hi
+
+ vpmadd52luq $H1,$S2,$D0lo
+ vpmadd52huq $H1,$S2,$D0hi
+ vpmadd52luq $H1,$R0,$D1lo
+ vpmadd52huq $H1,$R0,$D1hi
+ vpmadd52luq $H1,$R1,$D2lo
+ vpmadd52huq $H1,$R1,$D2hi
+
+ ################################################################
+ # partial reduction
+ vpsrlq \$44,$D0lo,$tmp
+ vpsllq \$8,$D0hi,$D0hi
+ vpandq $mask44,$D0lo,$H0
+ vpaddq $tmp,$D0hi,$D0hi
+
+ vpaddq $D0hi,$D1lo,$D1lo
+
+ vpsrlq \$44,$D1lo,$tmp
+ vpsllq \$8,$D1hi,$D1hi
+ vpandq $mask44,$D1lo,$H1
+ vpaddq $tmp,$D1hi,$D1hi
+
+ vpaddq $D1hi,$D2lo,$D2lo
+
+ vpsrlq \$42,$D2lo,$tmp
+ vpsllq \$10,$D2hi,$D2hi
+ vpandq $mask42,$D2lo,$H2
+ vpaddq $tmp,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+ vpsllq \$2,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+
+ vpsrlq \$44,$H0,$tmp # additional step
+ vpandq $mask44,$H0,$H0
+
+ vpaddq $tmp,$H1,$H1
+
+ dec %eax
+ jz .Ldone_init_vpmadd52
+
+ vpunpcklqdq $R1,$H1,$R1 # 1,2
+ vpbroadcastq %x#$H1,%x#$H1 # 2,2
+ vpunpcklqdq $R2,$H2,$R2
+ vpbroadcastq %x#$H2,%x#$H2
+ vpunpcklqdq $R0,$H0,$R0
+ vpbroadcastq %x#$H0,%x#$H0
+
+ vpsllq \$2,$R1,$S1 # S1 = R1*5*4
+ vpsllq \$2,$R2,$S2 # S2 = R2*5*4
+ vpaddq $R1,$S1,$S1
+ vpaddq $R2,$S2,$S2
+ vpsllq \$2,$S1,$S1
+ vpsllq \$2,$S2,$S2
+
+ jmp .Lmul_init_vpmadd52
+ ud2
+
+.align 32
+.Ldone_init_vpmadd52:
+ vinserti128 \$1,%x#$R1,$H1,$R1 # 1,2,3,4
+ vinserti128 \$1,%x#$R2,$H2,$R2
+ vinserti128 \$1,%x#$R0,$H0,$R0
+
+ vpermq \$0b11011000,$R1,$R1 # 1,3,2,4
+ vpermq \$0b11011000,$R2,$R2
+ vpermq \$0b11011000,$R0,$R0
+
+ vpsllq \$2,$R1,$S1 # S1 = R1*5*4
+ vpaddq $R1,$S1,$S1
+ vpsllq \$2,$S1,$S1
+
+ vmovq 0($ctx),%x#$H0 # load current hash value
+ vmovq 8($ctx),%x#$H1
+ vmovq 16($ctx),%x#$H2
+
+ test \$3,$len # is length 4*n+2?
+ jnz .Ldone_init_vpmadd52_2x
+
+ vmovdqu64 $R0,64($ctx) # save key powers
+ vpbroadcastq %x#$R0,$R0 # broadcast 4th power
+ vmovdqu64 $R1,96($ctx)
+ vpbroadcastq %x#$R1,$R1
+ vmovdqu64 $R2,128($ctx)
+ vpbroadcastq %x#$R2,$R2
+ vmovdqu64 $S1,160($ctx)
+ vpbroadcastq %x#$S1,$S1
+
+ jmp .Lblocks_vpmadd52_4x_key_loaded
+ ud2
+
+.align 32
+.Ldone_init_vpmadd52_2x:
+ vmovdqu64 $R0,64($ctx) # save key powers
+ vpsrldq \$8,$R0,$R0 # 0-1-0-2
+ vmovdqu64 $R1,96($ctx)
+ vpsrldq \$8,$R1,$R1
+ vmovdqu64 $R2,128($ctx)
+ vpsrldq \$8,$R2,$R2
+ vmovdqu64 $S1,160($ctx)
+ vpsrldq \$8,$S1,$S1
+ jmp .Lblocks_vpmadd52_2x_key_loaded
+ ud2
+
+.align 32
+.Lblocks_vpmadd52_2x_do:
+ vmovdqu64 128+8($ctx),${R2}{%k1}{z}# load 2nd and 1st key powers
+ vmovdqu64 160+8($ctx),${S1}{%k1}{z}
+ vmovdqu64 64+8($ctx),${R0}{%k1}{z}
+ vmovdqu64 96+8($ctx),${R1}{%k1}{z}
+
+.Lblocks_vpmadd52_2x_key_loaded:
+ vmovdqu64 16*0($inp),$T2 # load data
+ vpxorq $T3,$T3,$T3
+ lea 16*2($inp),$inp
+
+ vpunpcklqdq $T3,$T2,$T1 # transpose data
+ vpunpckhqdq $T3,$T2,$T3
+
+ # at this point 64-bit lanes are ordered as x-1-x-0
+
+ vpsrlq \$24,$T3,$T2 # splat the data
+ vporq $PAD,$T2,$T2
+ vpaddq $T2,$H2,$H2 # accumulate input
+ vpandq $mask44,$T1,$T0
+ vpsrlq \$44,$T1,$T1
+ vpsllq \$20,$T3,$T3
+ vporq $T3,$T1,$T1
+ vpandq $mask44,$T1,$T1
+
+ jmp .Ltail_vpmadd52_2x
+ ud2
+
+.align 32
+.Loop_vpmadd52_4x:
+ #vpaddq $T2,$H2,$H2 # accumulate input
+ vpaddq $T0,$H0,$H0
+ vpaddq $T1,$H1,$H1
+
+ vpxorq $D0lo,$D0lo,$D0lo
+ vpmadd52luq $H2,$S1,$D0lo
+ vpxorq $D0hi,$D0hi,$D0hi
+ vpmadd52huq $H2,$S1,$D0hi
+ vpxorq $D1lo,$D1lo,$D1lo
+ vpmadd52luq $H2,$S2,$D1lo
+ vpxorq $D1hi,$D1hi,$D1hi
+ vpmadd52huq $H2,$S2,$D1hi
+ vpxorq $D2lo,$D2lo,$D2lo
+ vpmadd52luq $H2,$R0,$D2lo
+ vpxorq $D2hi,$D2hi,$D2hi
+ vpmadd52huq $H2,$R0,$D2hi
+
+ vmovdqu64 16*0($inp),$T2 # load data
+ vmovdqu64 16*2($inp),$T3
+ lea 16*4($inp),$inp
+ vpmadd52luq $H0,$R0,$D0lo
+ vpmadd52huq $H0,$R0,$D0hi
+ vpmadd52luq $H0,$R1,$D1lo
+ vpmadd52huq $H0,$R1,$D1hi
+ vpmadd52luq $H0,$R2,$D2lo
+ vpmadd52huq $H0,$R2,$D2hi
+
+ vpunpcklqdq $T3,$T2,$T1 # transpose data
+ vpunpckhqdq $T3,$T2,$T3
+ vpmadd52luq $H1,$S2,$D0lo
+ vpmadd52huq $H1,$S2,$D0hi
+ vpmadd52luq $H1,$R0,$D1lo
+ vpmadd52huq $H1,$R0,$D1hi
+ vpmadd52luq $H1,$R1,$D2lo
+ vpmadd52huq $H1,$R1,$D2hi
+
+ ################################################################
+ # partial reduction (interleaved with data splat)
+ vpsrlq \$44,$D0lo,$tmp
+ vpsllq \$8,$D0hi,$D0hi
+ vpandq $mask44,$D0lo,$H0
+ vpaddq $tmp,$D0hi,$D0hi
+
+ vpsrlq \$24,$T3,$T2
+ vporq $PAD,$T2,$T2
+ vpaddq $D0hi,$D1lo,$D1lo
+
+ vpsrlq \$44,$D1lo,$tmp
+ vpsllq \$8,$D1hi,$D1hi
+ vpandq $mask44,$D1lo,$H1
+ vpaddq $tmp,$D1hi,$D1hi
+
+ vpandq $mask44,$T1,$T0
+ vpsrlq \$44,$T1,$T1
+ vpsllq \$20,$T3,$T3
+ vpaddq $D1hi,$D2lo,$D2lo
+
+ vpsrlq \$42,$D2lo,$tmp
+ vpsllq \$10,$D2hi,$D2hi
+ vpandq $mask42,$D2lo,$H2
+ vpaddq $tmp,$D2hi,$D2hi
+
+ vpaddq $T2,$H2,$H2 # accumulate input
+ vpaddq $D2hi,$H0,$H0
+ vpsllq \$2,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+ vporq $T3,$T1,$T1
+ vpandq $mask44,$T1,$T1
+
+ vpsrlq \$44,$H0,$tmp # additional step
+ vpandq $mask44,$H0,$H0
+
+ vpaddq $tmp,$H1,$H1
+
+ sub \$4,$len # len-=64
+ jnz .Loop_vpmadd52_4x
+
+.Ltail_vpmadd52_4x:
+ vmovdqu64 128($ctx),$R2 # load all key powers
+ vmovdqu64 160($ctx),$S1
+ vmovdqu64 64($ctx),$R0
+ vmovdqu64 96($ctx),$R1
+
+.Ltail_vpmadd52_2x:
+ vpsllq \$2,$R2,$S2 # S2 = R2*5*4
+ vpaddq $R2,$S2,$S2
+ vpsllq \$2,$S2,$S2
+
+ #vpaddq $T2,$H2,$H2 # accumulate input
+ vpaddq $T0,$H0,$H0
+ vpaddq $T1,$H1,$H1
+
+ vpxorq $D0lo,$D0lo,$D0lo
+ vpmadd52luq $H2,$S1,$D0lo
+ vpxorq $D0hi,$D0hi,$D0hi
+ vpmadd52huq $H2,$S1,$D0hi
+ vpxorq $D1lo,$D1lo,$D1lo
+ vpmadd52luq $H2,$S2,$D1lo
+ vpxorq $D1hi,$D1hi,$D1hi
+ vpmadd52huq $H2,$S2,$D1hi
+ vpxorq $D2lo,$D2lo,$D2lo
+ vpmadd52luq $H2,$R0,$D2lo
+ vpxorq $D2hi,$D2hi,$D2hi
+ vpmadd52huq $H2,$R0,$D2hi
+
+ vpmadd52luq $H0,$R0,$D0lo
+ vpmadd52huq $H0,$R0,$D0hi
+ vpmadd52luq $H0,$R1,$D1lo
+ vpmadd52huq $H0,$R1,$D1hi
+ vpmadd52luq $H0,$R2,$D2lo
+ vpmadd52huq $H0,$R2,$D2hi
+
+ vpmadd52luq $H1,$S2,$D0lo
+ vpmadd52huq $H1,$S2,$D0hi
+ vpmadd52luq $H1,$R0,$D1lo
+ vpmadd52huq $H1,$R0,$D1hi
+ vpmadd52luq $H1,$R1,$D2lo
+ vpmadd52huq $H1,$R1,$D2hi
+
+ ################################################################
+ # horizontal addition
+
+ mov \$1,%eax
+ kmovw %eax,%k1
+ vpsrldq \$8,$D0lo,$T0
+ vpsrldq \$8,$D0hi,$H0
+ vpsrldq \$8,$D1lo,$T1
+ vpsrldq \$8,$D1hi,$H1
+ vpaddq $T0,$D0lo,$D0lo
+ vpaddq $H0,$D0hi,$D0hi
+ vpsrldq \$8,$D2lo,$T2
+ vpsrldq \$8,$D2hi,$H2
+ vpaddq $T1,$D1lo,$D1lo
+ vpaddq $H1,$D1hi,$D1hi
+ vpermq \$0x2,$D0lo,$T0
+ vpermq \$0x2,$D0hi,$H0
+ vpaddq $T2,$D2lo,$D2lo
+ vpaddq $H2,$D2hi,$D2hi
+
+ vpermq \$0x2,$D1lo,$T1
+ vpermq \$0x2,$D1hi,$H1
+ vpaddq $T0,$D0lo,${D0lo}{%k1}{z}
+ vpaddq $H0,$D0hi,${D0hi}{%k1}{z}
+ vpermq \$0x2,$D2lo,$T2
+ vpermq \$0x2,$D2hi,$H2
+ vpaddq $T1,$D1lo,${D1lo}{%k1}{z}
+ vpaddq $H1,$D1hi,${D1hi}{%k1}{z}
+ vpaddq $T2,$D2lo,${D2lo}{%k1}{z}
+ vpaddq $H2,$D2hi,${D2hi}{%k1}{z}
+
+ ################################################################
+ # partial reduction
+ vpsrlq \$44,$D0lo,$tmp
+ vpsllq \$8,$D0hi,$D0hi
+ vpandq $mask44,$D0lo,$H0
+ vpaddq $tmp,$D0hi,$D0hi
+
+ vpaddq $D0hi,$D1lo,$D1lo
+
+ vpsrlq \$44,$D1lo,$tmp
+ vpsllq \$8,$D1hi,$D1hi
+ vpandq $mask44,$D1lo,$H1
+ vpaddq $tmp,$D1hi,$D1hi
+
+ vpaddq $D1hi,$D2lo,$D2lo
+
+ vpsrlq \$42,$D2lo,$tmp
+ vpsllq \$10,$D2hi,$D2hi
+ vpandq $mask42,$D2lo,$H2
+ vpaddq $tmp,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+ vpsllq \$2,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+
+ vpsrlq \$44,$H0,$tmp # additional step
+ vpandq $mask44,$H0,$H0
+
+ vpaddq $tmp,$H1,$H1
+ # at this point $len is
+ # either 4*n+2 or 0...
+ sub \$2,$len # len-=32
+ ja .Lblocks_vpmadd52_4x_do
+
+ vmovq %x#$H0,0($ctx)
+ vmovq %x#$H1,8($ctx)
+ vmovq %x#$H2,16($ctx)
+ vzeroall
+
+.Lno_data_vpmadd52_4x:
+ ret
+.size poly1305_blocks_vpmadd52_4x,.-poly1305_blocks_vpmadd52_4x
+___
+}
+{
+########################################################################
+# As implied by its name 8x subroutine processes 8 blocks in parallel...
+# This is intermediate version, as it's used only in cases when input
+# length is either 8*n, 8*n+1 or 8*n+2...
+
+my ($H0,$H1,$H2,$R0,$R1,$R2,$S1,$S2) = map("%ymm$_",(0..5,16,17));
+my ($D0lo,$D0hi,$D1lo,$D1hi,$D2lo,$D2hi) = map("%ymm$_",(18..23));
+my ($T0,$T1,$T2,$T3,$mask44,$mask42,$tmp,$PAD) = map("%ymm$_",(24..31));
+my ($RR0,$RR1,$RR2,$SS1,$SS2) = map("%ymm$_",(6..10));
+
+$code.=<<___;
+.type poly1305_blocks_vpmadd52_8x,\@function,4
+.align 32
+poly1305_blocks_vpmadd52_8x:
+ shr \$4,$len
+ jz .Lno_data_vpmadd52_8x # too short
+
+ shl \$40,$padbit
+ mov 64($ctx),%r8 # peek on power of the key
+
+ vmovdqa64 .Lx_mask44(%rip),$mask44
+ vmovdqa64 .Lx_mask42(%rip),$mask42
+
+ test %r8,%r8 # is power value impossible?
+ js .Linit_vpmadd52 # if it is, then init R[4]
+
+ vmovq 0($ctx),%x#$H0 # load current hash value
+ vmovq 8($ctx),%x#$H1
+ vmovq 16($ctx),%x#$H2
+
+.Lblocks_vpmadd52_8x:
+ ################################################################
+ # fist we calculate more key powers
+
+ vmovdqu64 128($ctx),$R2 # load 1-3-2-4 powers
+ vmovdqu64 160($ctx),$S1
+ vmovdqu64 64($ctx),$R0
+ vmovdqu64 96($ctx),$R1
+
+ vpsllq \$2,$R2,$S2 # S2 = R2*5*4
+ vpaddq $R2,$S2,$S2
+ vpsllq \$2,$S2,$S2
+
+ vpbroadcastq %x#$R2,$RR2 # broadcast 4th power
+ vpbroadcastq %x#$R0,$RR0
+ vpbroadcastq %x#$R1,$RR1
+
+ vpxorq $D0lo,$D0lo,$D0lo
+ vpmadd52luq $RR2,$S1,$D0lo
+ vpxorq $D0hi,$D0hi,$D0hi
+ vpmadd52huq $RR2,$S1,$D0hi
+ vpxorq $D1lo,$D1lo,$D1lo
+ vpmadd52luq $RR2,$S2,$D1lo
+ vpxorq $D1hi,$D1hi,$D1hi
+ vpmadd52huq $RR2,$S2,$D1hi
+ vpxorq $D2lo,$D2lo,$D2lo
+ vpmadd52luq $RR2,$R0,$D2lo
+ vpxorq $D2hi,$D2hi,$D2hi
+ vpmadd52huq $RR2,$R0,$D2hi
+
+ vpmadd52luq $RR0,$R0,$D0lo
+ vpmadd52huq $RR0,$R0,$D0hi
+ vpmadd52luq $RR0,$R1,$D1lo
+ vpmadd52huq $RR0,$R1,$D1hi
+ vpmadd52luq $RR0,$R2,$D2lo
+ vpmadd52huq $RR0,$R2,$D2hi
+
+ vpmadd52luq $RR1,$S2,$D0lo
+ vpmadd52huq $RR1,$S2,$D0hi
+ vpmadd52luq $RR1,$R0,$D1lo
+ vpmadd52huq $RR1,$R0,$D1hi
+ vpmadd52luq $RR1,$R1,$D2lo
+ vpmadd52huq $RR1,$R1,$D2hi
+
+ ################################################################
+ # partial reduction
+ vpsrlq \$44,$D0lo,$tmp
+ vpsllq \$8,$D0hi,$D0hi
+ vpandq $mask44,$D0lo,$RR0
+ vpaddq $tmp,$D0hi,$D0hi
+
+ vpaddq $D0hi,$D1lo,$D1lo
+
+ vpsrlq \$44,$D1lo,$tmp
+ vpsllq \$8,$D1hi,$D1hi
+ vpandq $mask44,$D1lo,$RR1
+ vpaddq $tmp,$D1hi,$D1hi
+
+ vpaddq $D1hi,$D2lo,$D2lo
+
+ vpsrlq \$42,$D2lo,$tmp
+ vpsllq \$10,$D2hi,$D2hi
+ vpandq $mask42,$D2lo,$RR2
+ vpaddq $tmp,$D2hi,$D2hi
+
+ vpaddq $D2hi,$RR0,$RR0
+ vpsllq \$2,$D2hi,$D2hi
+
+ vpaddq $D2hi,$RR0,$RR0
+
+ vpsrlq \$44,$RR0,$tmp # additional step
+ vpandq $mask44,$RR0,$RR0
+
+ vpaddq $tmp,$RR1,$RR1
+
+ ################################################################
+ # At this point Rx holds 1324 powers, RRx - 5768, and the goal
+ # is 15263748, which reflects how data is loaded...
+
+ vpunpcklqdq $R2,$RR2,$T2 # 3748
+ vpunpckhqdq $R2,$RR2,$R2 # 1526
+ vpunpcklqdq $R0,$RR0,$T0
+ vpunpckhqdq $R0,$RR0,$R0
+ vpunpcklqdq $R1,$RR1,$T1
+ vpunpckhqdq $R1,$RR1,$R1
+___
+######## switch to %zmm
+map(s/%y/%z/, $H0,$H1,$H2,$R0,$R1,$R2,$S1,$S2);
+map(s/%y/%z/, $D0lo,$D0hi,$D1lo,$D1hi,$D2lo,$D2hi);
+map(s/%y/%z/, $T0,$T1,$T2,$T3,$mask44,$mask42,$tmp,$PAD);
+map(s/%y/%z/, $RR0,$RR1,$RR2,$SS1,$SS2);
+
+$code.=<<___;
+ vshufi64x2 \$0x44,$R2,$T2,$RR2 # 15263748
+ vshufi64x2 \$0x44,$R0,$T0,$RR0
+ vshufi64x2 \$0x44,$R1,$T1,$RR1
+
+ vmovdqu64 16*0($inp),$T2 # load data
+ vmovdqu64 16*4($inp),$T3
+ lea 16*8($inp),$inp
+
+ vpsllq \$2,$RR2,$SS2 # S2 = R2*5*4
+ vpsllq \$2,$RR1,$SS1 # S1 = R1*5*4
+ vpaddq $RR2,$SS2,$SS2
+ vpaddq $RR1,$SS1,$SS1
+ vpsllq \$2,$SS2,$SS2
+ vpsllq \$2,$SS1,$SS1
+
+ vpbroadcastq $padbit,$PAD
+ vpbroadcastq %x#$mask44,$mask44
+ vpbroadcastq %x#$mask42,$mask42
+
+ vpbroadcastq %x#$SS1,$S1 # broadcast 8th power
+ vpbroadcastq %x#$SS2,$S2
+ vpbroadcastq %x#$RR0,$R0
+ vpbroadcastq %x#$RR1,$R1
+ vpbroadcastq %x#$RR2,$R2
+
+ vpunpcklqdq $T3,$T2,$T1 # transpose data
+ vpunpckhqdq $T3,$T2,$T3
+
+ # at this point 64-bit lanes are ordered as 73625140
+
+ vpsrlq \$24,$T3,$T2 # splat the data
+ vporq $PAD,$T2,$T2
+ vpaddq $T2,$H2,$H2 # accumulate input
+ vpandq $mask44,$T1,$T0
+ vpsrlq \$44,$T1,$T1
+ vpsllq \$20,$T3,$T3
+ vporq $T3,$T1,$T1
+ vpandq $mask44,$T1,$T1
+
+ sub \$8,$len
+ jz .Ltail_vpmadd52_8x
+ jmp .Loop_vpmadd52_8x
+
+.align 32
+.Loop_vpmadd52_8x:
+ #vpaddq $T2,$H2,$H2 # accumulate input
+ vpaddq $T0,$H0,$H0
+ vpaddq $T1,$H1,$H1
+
+ vpxorq $D0lo,$D0lo,$D0lo
+ vpmadd52luq $H2,$S1,$D0lo
+ vpxorq $D0hi,$D0hi,$D0hi
+ vpmadd52huq $H2,$S1,$D0hi
+ vpxorq $D1lo,$D1lo,$D1lo
+ vpmadd52luq $H2,$S2,$D1lo
+ vpxorq $D1hi,$D1hi,$D1hi
+ vpmadd52huq $H2,$S2,$D1hi
+ vpxorq $D2lo,$D2lo,$D2lo
+ vpmadd52luq $H2,$R0,$D2lo
+ vpxorq $D2hi,$D2hi,$D2hi
+ vpmadd52huq $H2,$R0,$D2hi
+
+ vmovdqu64 16*0($inp),$T2 # load data
+ vmovdqu64 16*4($inp),$T3
+ lea 16*8($inp),$inp
+ vpmadd52luq $H0,$R0,$D0lo
+ vpmadd52huq $H0,$R0,$D0hi
+ vpmadd52luq $H0,$R1,$D1lo
+ vpmadd52huq $H0,$R1,$D1hi
+ vpmadd52luq $H0,$R2,$D2lo
+ vpmadd52huq $H0,$R2,$D2hi
+
+ vpunpcklqdq $T3,$T2,$T1 # transpose data
+ vpunpckhqdq $T3,$T2,$T3
+ vpmadd52luq $H1,$S2,$D0lo
+ vpmadd52huq $H1,$S2,$D0hi
+ vpmadd52luq $H1,$R0,$D1lo
+ vpmadd52huq $H1,$R0,$D1hi
+ vpmadd52luq $H1,$R1,$D2lo
+ vpmadd52huq $H1,$R1,$D2hi
+
+ ################################################################
+ # partial reduction (interleaved with data splat)
+ vpsrlq \$44,$D0lo,$tmp
+ vpsllq \$8,$D0hi,$D0hi
+ vpandq $mask44,$D0lo,$H0
+ vpaddq $tmp,$D0hi,$D0hi
+
+ vpsrlq \$24,$T3,$T2
+ vporq $PAD,$T2,$T2
+ vpaddq $D0hi,$D1lo,$D1lo
+
+ vpsrlq \$44,$D1lo,$tmp
+ vpsllq \$8,$D1hi,$D1hi
+ vpandq $mask44,$D1lo,$H1
+ vpaddq $tmp,$D1hi,$D1hi
+
+ vpandq $mask44,$T1,$T0
+ vpsrlq \$44,$T1,$T1
+ vpsllq \$20,$T3,$T3
+ vpaddq $D1hi,$D2lo,$D2lo
+
+ vpsrlq \$42,$D2lo,$tmp
+ vpsllq \$10,$D2hi,$D2hi
+ vpandq $mask42,$D2lo,$H2
+ vpaddq $tmp,$D2hi,$D2hi
+
+ vpaddq $T2,$H2,$H2 # accumulate input
+ vpaddq $D2hi,$H0,$H0
+ vpsllq \$2,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+ vporq $T3,$T1,$T1
+ vpandq $mask44,$T1,$T1
+
+ vpsrlq \$44,$H0,$tmp # additional step
+ vpandq $mask44,$H0,$H0
+
+ vpaddq $tmp,$H1,$H1
+
+ sub \$8,$len # len-=128
+ jnz .Loop_vpmadd52_8x
+
+.Ltail_vpmadd52_8x:
+ #vpaddq $T2,$H2,$H2 # accumulate input
+ vpaddq $T0,$H0,$H0
+ vpaddq $T1,$H1,$H1
+
+ vpxorq $D0lo,$D0lo,$D0lo
+ vpmadd52luq $H2,$SS1,$D0lo
+ vpxorq $D0hi,$D0hi,$D0hi
+ vpmadd52huq $H2,$SS1,$D0hi
+ vpxorq $D1lo,$D1lo,$D1lo
+ vpmadd52luq $H2,$SS2,$D1lo
+ vpxorq $D1hi,$D1hi,$D1hi
+ vpmadd52huq $H2,$SS2,$D1hi
+ vpxorq $D2lo,$D2lo,$D2lo
+ vpmadd52luq $H2,$RR0,$D2lo
+ vpxorq $D2hi,$D2hi,$D2hi
+ vpmadd52huq $H2,$RR0,$D2hi
+
+ vpmadd52luq $H0,$RR0,$D0lo
+ vpmadd52huq $H0,$RR0,$D0hi
+ vpmadd52luq $H0,$RR1,$D1lo
+ vpmadd52huq $H0,$RR1,$D1hi
+ vpmadd52luq $H0,$RR2,$D2lo
+ vpmadd52huq $H0,$RR2,$D2hi
+
+ vpmadd52luq $H1,$SS2,$D0lo
+ vpmadd52huq $H1,$SS2,$D0hi
+ vpmadd52luq $H1,$RR0,$D1lo
+ vpmadd52huq $H1,$RR0,$D1hi
+ vpmadd52luq $H1,$RR1,$D2lo
+ vpmadd52huq $H1,$RR1,$D2hi
+
+ ################################################################
+ # horizontal addition
+
+ mov \$1,%eax
+ kmovw %eax,%k1
+ vpsrldq \$8,$D0lo,$T0
+ vpsrldq \$8,$D0hi,$H0
+ vpsrldq \$8,$D1lo,$T1
+ vpsrldq \$8,$D1hi,$H1
+ vpaddq $T0,$D0lo,$D0lo
+ vpaddq $H0,$D0hi,$D0hi
+ vpsrldq \$8,$D2lo,$T2
+ vpsrldq \$8,$D2hi,$H2
+ vpaddq $T1,$D1lo,$D1lo
+ vpaddq $H1,$D1hi,$D1hi
+ vpermq \$0x2,$D0lo,$T0
+ vpermq \$0x2,$D0hi,$H0
+ vpaddq $T2,$D2lo,$D2lo
+ vpaddq $H2,$D2hi,$D2hi
+
+ vpermq \$0x2,$D1lo,$T1
+ vpermq \$0x2,$D1hi,$H1
+ vpaddq $T0,$D0lo,$D0lo
+ vpaddq $H0,$D0hi,$D0hi
+ vpermq \$0x2,$D2lo,$T2
+ vpermq \$0x2,$D2hi,$H2
+ vpaddq $T1,$D1lo,$D1lo
+ vpaddq $H1,$D1hi,$D1hi
+ vextracti64x4 \$1,$D0lo,%y#$T0
+ vextracti64x4 \$1,$D0hi,%y#$H0
+ vpaddq $T2,$D2lo,$D2lo
+ vpaddq $H2,$D2hi,$D2hi
+
+ vextracti64x4 \$1,$D1lo,%y#$T1
+ vextracti64x4 \$1,$D1hi,%y#$H1
+ vextracti64x4 \$1,$D2lo,%y#$T2
+ vextracti64x4 \$1,$D2hi,%y#$H2
+___
+######## switch back to %ymm
+map(s/%z/%y/, $H0,$H1,$H2,$R0,$R1,$R2,$S1,$S2);
+map(s/%z/%y/, $D0lo,$D0hi,$D1lo,$D1hi,$D2lo,$D2hi);
+map(s/%z/%y/, $T0,$T1,$T2,$T3,$mask44,$mask42,$tmp,$PAD);
+
+$code.=<<___;
+ vpaddq $T0,$D0lo,${D0lo}{%k1}{z}
+ vpaddq $H0,$D0hi,${D0hi}{%k1}{z}
+ vpaddq $T1,$D1lo,${D1lo}{%k1}{z}
+ vpaddq $H1,$D1hi,${D1hi}{%k1}{z}
+ vpaddq $T2,$D2lo,${D2lo}{%k1}{z}
+ vpaddq $H2,$D2hi,${D2hi}{%k1}{z}
+
+ ################################################################
+ # partial reduction
+ vpsrlq \$44,$D0lo,$tmp
+ vpsllq \$8,$D0hi,$D0hi
+ vpandq $mask44,$D0lo,$H0
+ vpaddq $tmp,$D0hi,$D0hi
+
+ vpaddq $D0hi,$D1lo,$D1lo
+
+ vpsrlq \$44,$D1lo,$tmp
+ vpsllq \$8,$D1hi,$D1hi
+ vpandq $mask44,$D1lo,$H1
+ vpaddq $tmp,$D1hi,$D1hi
+
+ vpaddq $D1hi,$D2lo,$D2lo
+
+ vpsrlq \$42,$D2lo,$tmp
+ vpsllq \$10,$D2hi,$D2hi
+ vpandq $mask42,$D2lo,$H2
+ vpaddq $tmp,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+ vpsllq \$2,$D2hi,$D2hi
+
+ vpaddq $D2hi,$H0,$H0
+
+ vpsrlq \$44,$H0,$tmp # additional step
+ vpandq $mask44,$H0,$H0
+
+ vpaddq $tmp,$H1,$H1
+
+ ################################################################
+
+ vmovq %x#$H0,0($ctx)
+ vmovq %x#$H1,8($ctx)
+ vmovq %x#$H2,16($ctx)
+ vzeroall
+
+.Lno_data_vpmadd52_8x:
+ ret
+.size poly1305_blocks_vpmadd52_8x,.-poly1305_blocks_vpmadd52_8x
+___
+}
+$code.=<<___;
+.type poly1305_emit_base2_44,\@function,3
+.align 32
+poly1305_emit_base2_44:
+ mov 0($ctx),%r8 # load hash value
+ mov 8($ctx),%r9
+ mov 16($ctx),%r10
+
+ mov %r9,%rax
+ shr \$20,%r9
+ shl \$44,%rax
+ mov %r10,%rcx
+ shr \$40,%r10
+ shl \$24,%rcx
+
+ add %rax,%r8
+ adc %rcx,%r9
+ adc \$0,%r10
+
+ mov %r8,%rax
+ add \$5,%r8 # compare to modulus
+ mov %r9,%rcx
+ adc \$0,%r9
+ adc \$0,%r10
+ shr \$2,%r10 # did 130-bit value overflow?
+ cmovnz %r8,%rax
+ cmovnz %r9,%rcx
+
+ add 0($nonce),%rax # accumulate nonce
+ adc 8($nonce),%rcx
+ mov %rax,0($mac) # write result
+ mov %rcx,8($mac)
+
+ ret
+.size poly1305_emit_base2_44,.-poly1305_emit_base2_44
+___
+} } }
+}
+
+if (!$kernel)
+{ # chacha20-poly1305 helpers
+my ($out,$inp,$otp,$len)=$win64 ? ("%rcx","%rdx","%r8", "%r9") : # Win64 order
+ ("%rdi","%rsi","%rdx","%rcx"); # Unix order
+$code.=<<___;
+.globl xor128_encrypt_n_pad
+.type xor128_encrypt_n_pad,\@abi-omnipotent
+.align 16
+xor128_encrypt_n_pad:
+ sub $otp,$inp
+ sub $otp,$out
+ mov $len,%r10 # put len aside
+ shr \$4,$len # len / 16
+ jz .Ltail_enc
+ nop
+.Loop_enc_xmm:
+ movdqu ($inp,$otp),%xmm0
+ pxor ($otp),%xmm0
+ movdqu %xmm0,($out,$otp)
+ movdqa %xmm0,($otp)
+ lea 16($otp),$otp
+ dec $len
+ jnz .Loop_enc_xmm
+
+ and \$15,%r10 # len % 16
+ jz .Ldone_enc
+
+.Ltail_enc:
+ mov \$16,$len
+ sub %r10,$len
+ xor %eax,%eax
+.Loop_enc_byte:
+ mov ($inp,$otp),%al
+ xor ($otp),%al
+ mov %al,($out,$otp)
+ mov %al,($otp)
+ lea 1($otp),$otp
+ dec %r10
+ jnz .Loop_enc_byte
+
+ xor %eax,%eax
+.Loop_enc_pad:
+ mov %al,($otp)
+ lea 1($otp),$otp
+ dec $len
+ jnz .Loop_enc_pad
+
+.Ldone_enc:
+ mov $otp,%rax
+ ret
+.size xor128_encrypt_n_pad,.-xor128_encrypt_n_pad
+
+.globl xor128_decrypt_n_pad
+.type xor128_decrypt_n_pad,\@abi-omnipotent
+.align 16
+xor128_decrypt_n_pad:
+ sub $otp,$inp
+ sub $otp,$out
+ mov $len,%r10 # put len aside
+ shr \$4,$len # len / 16
+ jz .Ltail_dec
+ nop
+.Loop_dec_xmm:
+ movdqu ($inp,$otp),%xmm0
+ movdqa ($otp),%xmm1
+ pxor %xmm0,%xmm1
+ movdqu %xmm1,($out,$otp)
+ movdqa %xmm0,($otp)
+ lea 16($otp),$otp
+ dec $len
+ jnz .Loop_dec_xmm
+
+ pxor %xmm1,%xmm1
+ and \$15,%r10 # len % 16
+ jz .Ldone_dec
+
+.Ltail_dec:
+ mov \$16,$len
+ sub %r10,$len
+ xor %eax,%eax
+ xor %r11,%r11
+.Loop_dec_byte:
+ mov ($inp,$otp),%r11b
+ mov ($otp),%al
+ xor %r11b,%al
+ mov %al,($out,$otp)
+ mov %r11b,($otp)
+ lea 1($otp),$otp
+ dec %r10
+ jnz .Loop_dec_byte
+
+ xor %eax,%eax
+.Loop_dec_pad:
+ mov %al,($otp)
+ lea 1($otp),$otp
+ dec $len
+ jnz .Loop_dec_pad
+
+.Ldone_dec:
+ mov $otp,%rax
+ ret
+.size xor128_decrypt_n_pad,.-xor128_decrypt_n_pad
+___
+}
+
+# EXCEPTION_DISPOSITION handler (EXCEPTION_RECORD *rec,ULONG64 frame,
+# CONTEXT *context,DISPATCHER_CONTEXT *disp)
+if ($win64) {
+$rec="%rcx";
+$frame="%rdx";
+$context="%r8";
+$disp="%r9";
+
+$code.=<<___;
+.extern __imp_RtlVirtualUnwind
+.type se_handler,\@abi-omnipotent
+.align 16
+se_handler:
+ push %rsi
+ push %rdi
+ push %rbx
+ push %rbp
+ push %r12
+ push %r13
+ push %r14
+ push %r15
+ pushfq
+ sub \$64,%rsp
+
+ mov 120($context),%rax # pull context->Rax
+ mov 248($context),%rbx # pull context->Rip
+
+ mov 8($disp),%rsi # disp->ImageBase
+ mov 56($disp),%r11 # disp->HandlerData
+
+ mov 0(%r11),%r10d # HandlerData[0]
+ lea (%rsi,%r10),%r10 # prologue label
+ cmp %r10,%rbx # context->Rip<.Lprologue
+ jb .Lcommon_seh_tail
+
+ mov 152($context),%rax # pull context->Rsp
+
+ mov 4(%r11),%r10d # HandlerData[1]
+ lea (%rsi,%r10),%r10 # epilogue label
+ cmp %r10,%rbx # context->Rip>=.Lepilogue
+ jae .Lcommon_seh_tail
+
+ lea 48(%rax),%rax
+
+ mov -8(%rax),%rbx
+ mov -16(%rax),%rbp
+ 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->R14
+
+ jmp .Lcommon_seh_tail
+.size se_handler,.-se_handler
+
+.type avx_handler,\@abi-omnipotent
+.align 16
+avx_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 # prologue label
+ cmp %r10,%rbx # context->Rip<prologue label
+ jb .Lcommon_seh_tail
+
+ mov 152($context),%rax # pull context->Rsp
+
+ mov 4(%r11),%r10d # HandlerData[1]
+ lea (%rsi,%r10),%r10 # epilogue label
+ cmp %r10,%rbx # context->Rip>=epilogue label
+ jae .Lcommon_seh_tail
+
+ mov 208($context),%rax # pull context->R11
+
+ lea 0x50(%rax),%rsi
+ lea 0xf8(%rax),%rax
+ lea 512($context),%rdi # &context.Xmm6
+ mov \$20,%ecx
+ .long 0xa548f3fc # cld; rep movsq
+
+.Lcommon_seh_tail:
+ mov 8(%rax),%rdi
+ mov 16(%rax),%rsi
+ mov %rax,152($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 $disp,%rsi
+ xor %rcx,%rcx # arg1, UNW_FLAG_NHANDLER
+ mov 8(%rsi),%rdx # arg2, disp->ImageBase
+ mov 0(%rsi),%r8 # arg3, disp->ControlPc
+ mov 16(%rsi),%r9 # arg4, disp->FunctionEntry
+ mov 40(%rsi),%r10 # disp->ContextRecord
+ lea 56(%rsi),%r11 # &disp->HandlerData
+ lea 24(%rsi),%r12 # &disp->EstablisherFrame
+ mov %r10,32(%rsp) # arg5
+ mov %r11,40(%rsp) # arg6
+ mov %r12,48(%rsp) # arg7
+ mov %rcx,56(%rsp) # arg8, (NULL)
+ call *__imp_RtlVirtualUnwind(%rip)
+
+ mov \$1,%eax # ExceptionContinueSearch
+ add \$64,%rsp
+ popfq
+ pop %r15
+ pop %r14
+ pop %r13
+ pop %r12
+ pop %rbp
+ pop %rbx
+ pop %rdi
+ pop %rsi
+ ret
+.size avx_handler,.-avx_handler
+
+.section .pdata
+.align 4
+ .rva .LSEH_begin_poly1305_init_x86_64
+ .rva .LSEH_end_poly1305_init_x86_64
+ .rva .LSEH_info_poly1305_init_x86_64
+
+ .rva .LSEH_begin_poly1305_blocks_x86_64
+ .rva .LSEH_end_poly1305_blocks_x86_64
+ .rva .LSEH_info_poly1305_blocks_x86_64
+
+ .rva .LSEH_begin_poly1305_emit_x86_64
+ .rva .LSEH_end_poly1305_emit_x86_64
+ .rva .LSEH_info_poly1305_emit_x86_64
+___
+$code.=<<___ if ($avx);
+ .rva .LSEH_begin_poly1305_blocks_avx
+ .rva .Lbase2_64_avx
+ .rva .LSEH_info_poly1305_blocks_avx_1
+
+ .rva .Lbase2_64_avx
+ .rva .Leven_avx
+ .rva .LSEH_info_poly1305_blocks_avx_2
+
+ .rva .Leven_avx
+ .rva .LSEH_end_poly1305_blocks_avx
+ .rva .LSEH_info_poly1305_blocks_avx_3
+
+ .rva .LSEH_begin_poly1305_emit_avx
+ .rva .LSEH_end_poly1305_emit_avx
+ .rva .LSEH_info_poly1305_emit_avx
+___
+$code.=<<___ if ($avx>1);
+ .rva .LSEH_begin_poly1305_blocks_avx2
+ .rva .Lbase2_64_avx2
+ .rva .LSEH_info_poly1305_blocks_avx2_1
+
+ .rva .Lbase2_64_avx2
+ .rva .Leven_avx2
+ .rva .LSEH_info_poly1305_blocks_avx2_2
+
+ .rva .Leven_avx2
+ .rva .LSEH_end_poly1305_blocks_avx2
+ .rva .LSEH_info_poly1305_blocks_avx2_3
+___
+$code.=<<___ if ($avx>2);
+ .rva .LSEH_begin_poly1305_blocks_avx512
+ .rva .LSEH_end_poly1305_blocks_avx512
+ .rva .LSEH_info_poly1305_blocks_avx512
+___
+$code.=<<___;
+.section .xdata
+.align 8
+.LSEH_info_poly1305_init_x86_64:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .LSEH_begin_poly1305_init_x86_64,.LSEH_begin_poly1305_init_x86_64
+
+.LSEH_info_poly1305_blocks_x86_64:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .Lblocks_body,.Lblocks_epilogue
+
+.LSEH_info_poly1305_emit_x86_64:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .LSEH_begin_poly1305_emit_x86_64,.LSEH_begin_poly1305_emit_x86_64
+___
+$code.=<<___ if ($avx);
+.LSEH_info_poly1305_blocks_avx_1:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .Lblocks_avx_body,.Lblocks_avx_epilogue # HandlerData[]
+
+.LSEH_info_poly1305_blocks_avx_2:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .Lbase2_64_avx_body,.Lbase2_64_avx_epilogue # HandlerData[]
+
+.LSEH_info_poly1305_blocks_avx_3:
+ .byte 9,0,0,0
+ .rva avx_handler
+ .rva .Ldo_avx_body,.Ldo_avx_epilogue # HandlerData[]
+
+.LSEH_info_poly1305_emit_avx:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .LSEH_begin_poly1305_emit_avx,.LSEH_begin_poly1305_emit_avx
+___
+$code.=<<___ if ($avx>1);
+.LSEH_info_poly1305_blocks_avx2_1:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .Lblocks_avx2_body,.Lblocks_avx2_epilogue # HandlerData[]
+
+.LSEH_info_poly1305_blocks_avx2_2:
+ .byte 9,0,0,0
+ .rva se_handler
+ .rva .Lbase2_64_avx2_body,.Lbase2_64_avx2_epilogue # HandlerData[]
+
+.LSEH_info_poly1305_blocks_avx2_3:
+ .byte 9,0,0,0
+ .rva avx_handler
+ .rva .Ldo_avx2_body,.Ldo_avx2_epilogue # HandlerData[]
+___
+$code.=<<___ if ($avx>2);
+.LSEH_info_poly1305_blocks_avx512:
+ .byte 9,0,0,0
+ .rva avx_handler
+ .rva .Ldo_avx512_body,.Ldo_avx512_epilogue # HandlerData[]
+___
+}
+
+open SELF,$0;
+while(<SELF>) {
+ next if (/^#!/);
+ last if (!s/^#/\/\// and !/^$/);
+ print;
+}
+close SELF;
+
+foreach (split('\n',$code)) {
+ s/\`([^\`]*)\`/eval($1)/ge;
+ s/%r([a-z]+)#d/%e$1/g;
+ s/%r([0-9]+)#d/%r$1d/g;
+ s/%x#%[yz]/%x/g or s/%y#%z/%y/g or s/%z#%[yz]/%z/g;
+
+ if ($kernel) {
+ s/(^\.type.*),[0-9]+$/\1/;
+ s/(^\.type.*),\@abi-omnipotent+$/\1,\@function/;
+ next if /^\.cfi.*/;
+ }
+
+ print $_,"\n";
+}
+close STDOUT;
diff --git a/lib/zinc/poly1305/poly1305.c b/lib/zinc/poly1305/poly1305.c
index 10b42baf5341..876a431a06f5 100644
--- a/lib/zinc/poly1305/poly1305.c
+++ b/lib/zinc/poly1305/poly1305.c
@@ -16,6 +16,9 @@
#include <linux/module.h>
#include <linux/init.h>
+#if defined(CONFIG_ZINC_ARCH_X86_64)
+#include "poly1305-x86_64-glue.c"
+#else
static inline bool poly1305_init_arch(void *ctx,
const u8 key[POLY1305_KEY_SIZE])
{
@@ -37,6 +40,7 @@ static bool *const poly1305_nobs[] __initconst = { };
static void __init poly1305_fpu_init(void)
{
}
+#endif
#if defined(CONFIG_ARCH_SUPPORTS_INT128) && defined(__SIZEOF_INT128__)
#include "poly1305-donna64.c"