sha1-armv4-large.pl 16.9 KB
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#!/usr/bin/env perl

# ====================================================================
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# Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
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# 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/.
# ====================================================================

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# sha1_block procedure for ARMv4.
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#
# January 2007.

# Size/performance trade-off
# ====================================================================
# impl		size in bytes	comp cycles[*]	measured performance
# ====================================================================
# thumb		304		3212		4420
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# armv4-small	392/+29%	1958/+64%	2250/+96%
# armv4-compact	740/+89%	1552/+26%	1840/+22%
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# armv4-large	1420/+92%	1307/+19%	1370/+34%[***]
# full unroll	~5100/+260%	~1260/+4%	~1300/+5%
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# ====================================================================
# thumb		= same as 'small' but in Thumb instructions[**] and
#		  with recurring code in two private functions;
# small		= detached Xload/update, loops are folded;
# compact	= detached Xload/update, 5x unroll;
# large		= interleaved Xload/update, 5x unroll;
# full unroll	= interleaved Xload/update, full unroll, estimated[!];
#
# [*]	Manually counted instructions in "grand" loop body. Measured
#	performance is affected by prologue and epilogue overhead,
#	i-cache availability, branch penalties, etc.
# [**]	While each Thumb instruction is twice smaller, they are not as
#	diverse as ARM ones: e.g., there are only two arithmetic
#	instructions with 3 arguments, no [fixed] rotate, addressing
#	modes are limited. As result it takes more instructions to do
#	the same job in Thumb, therefore the code is never twice as
#	small and always slower.
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# [***]	which is also ~35% better than compiler generated code. Dual-
#	issue Cortex A8 core was measured to process input block in
#	~990 cycles.
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# August 2010.
#
# Rescheduling for dual-issue pipeline resulted in 13% improvement on
# Cortex A8 core and in absolute terms ~870 cycles per input block
# [or 13.6 cycles per byte].

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# February 2011.
#
# Profiler-assisted and platform-specific optimization resulted in 10%
# improvement on Cortex A8 core and 12.2 cycles per byte.
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# September 2013.
#
# Add NEON implementation (see sha1-586.pl for background info). On
# Cortex A8 it was measured to process one byte in 6.7 cycles or >80%
# faster than integer-only code. Because [fully unrolled] NEON code
# is ~2.5x larger and there are some redundant instructions executed
# when processing last block, improvement is not as big for smallest
# blocks, only ~30%. Snapdragon S4 is a tad faster, 6.4 cycles per
# byte, which is also >80% faster than integer-only code.

# May 2014.
#
# Add ARMv8 code path performing at 2.35 cpb on Apple A7.

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while (($output=shift) && ($output!~/^\w[\w\-]*\.\w+$/)) {}
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open STDOUT,">$output";

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$ctx="r0";
$inp="r1";
$len="r2";
$a="r3";
$b="r4";
$c="r5";
$d="r6";
$e="r7";
$K="r8";
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$t0="r9";
$t1="r10";
$t2="r11";
$t3="r12";
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$Xi="r14";
@V=($a,$b,$c,$d,$e);

sub Xupdate {
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my ($a,$b,$c,$d,$e,$opt1,$opt2)=@_;
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$code.=<<___;
	ldr	$t0,[$Xi,#15*4]
	ldr	$t1,[$Xi,#13*4]
	ldr	$t2,[$Xi,#7*4]
	add	$e,$K,$e,ror#2			@ E+=K_xx_xx
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	ldr	$t3,[$Xi,#2*4]
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	eor	$t0,$t0,$t1
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	eor	$t2,$t2,$t3			@ 1 cycle stall
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	eor	$t1,$c,$d			@ F_xx_xx
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	mov	$t0,$t0,ror#31
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	add	$e,$e,$a,ror#27			@ E+=ROR(A,27)
	eor	$t0,$t0,$t2,ror#31
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	str	$t0,[$Xi,#-4]!
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	$opt1					@ F_xx_xx
	$opt2					@ F_xx_xx
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	add	$e,$e,$t0			@ E+=X[i]
___
}

sub BODY_00_15 {
my ($a,$b,$c,$d,$e)=@_;
$code.=<<___;
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#if __ARM_ARCH__<7
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	ldrb	$t1,[$inp,#2]
	ldrb	$t0,[$inp,#3]
	ldrb	$t2,[$inp,#1]
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	add	$e,$K,$e,ror#2			@ E+=K_00_19
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	ldrb	$t3,[$inp],#4
	orr	$t0,$t0,$t1,lsl#8
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	eor	$t1,$c,$d			@ F_xx_xx
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	orr	$t0,$t0,$t2,lsl#16
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	add	$e,$e,$a,ror#27			@ E+=ROR(A,27)
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	orr	$t0,$t0,$t3,lsl#24
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#else
	ldr	$t0,[$inp],#4			@ handles unaligned
	add	$e,$K,$e,ror#2			@ E+=K_00_19
	eor	$t1,$c,$d			@ F_xx_xx
	add	$e,$e,$a,ror#27			@ E+=ROR(A,27)
#ifdef __ARMEL__
	rev	$t0,$t0				@ byte swap
#endif
#endif
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	and	$t1,$b,$t1,ror#2
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	add	$e,$e,$t0			@ E+=X[i]
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	eor	$t1,$t1,$d,ror#2		@ F_00_19(B,C,D)
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	str	$t0,[$Xi,#-4]!
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	add	$e,$e,$t1			@ E+=F_00_19(B,C,D)
___
}

sub BODY_16_19 {
my ($a,$b,$c,$d,$e)=@_;
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	&Xupdate(@_,"and $t1,$b,$t1,ror#2");
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$code.=<<___;
	eor	$t1,$t1,$d,ror#2		@ F_00_19(B,C,D)
	add	$e,$e,$t1			@ E+=F_00_19(B,C,D)
___
}

sub BODY_20_39 {
my ($a,$b,$c,$d,$e)=@_;
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	&Xupdate(@_,"eor $t1,$b,$t1,ror#2");
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$code.=<<___;
	add	$e,$e,$t1			@ E+=F_20_39(B,C,D)
___
}

sub BODY_40_59 {
my ($a,$b,$c,$d,$e)=@_;
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	&Xupdate(@_,"and $t1,$b,$t1,ror#2","and $t2,$c,$d");
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$code.=<<___;
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	add	$e,$e,$t1			@ E+=F_40_59(B,C,D)
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	add	$e,$e,$t2,ror#2
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___
}

$code=<<___;
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#include "arm_arch.h"

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.text
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.code	32
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.global	sha1_block_data_order
.type	sha1_block_data_order,%function

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.align	5
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sha1_block_data_order:
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#if __ARM_ARCH__>=7
	sub	r3,pc,#8		@ sha1_block_data_order
	ldr	r12,.LOPENSSL_armcap
	ldr	r12,[r3,r12]		@ OPENSSL_armcap_P
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	tst	r12,#ARMV8_SHA1
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	bne	.LARMv8
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	tst	r12,#ARMV7_NEON
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	bne	.LNEON
#endif
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	stmdb	sp!,{r4-r12,lr}
	add	$len,$inp,$len,lsl#6	@ $len to point at the end of $inp
	ldmia	$ctx,{$a,$b,$c,$d,$e}
.Lloop:
	ldr	$K,.LK_00_19
	mov	$Xi,sp
	sub	sp,sp,#15*4
	mov	$c,$c,ror#30
	mov	$d,$d,ror#30
	mov	$e,$e,ror#30		@ [6]
.L_00_15:
___
for($i=0;$i<5;$i++) {
	&BODY_00_15(@V);	unshift(@V,pop(@V));
}
$code.=<<___;
	teq	$Xi,sp
	bne	.L_00_15		@ [((11+4)*5+2)*3]
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	sub	sp,sp,#25*4
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___
	&BODY_00_15(@V);	unshift(@V,pop(@V));
	&BODY_16_19(@V);	unshift(@V,pop(@V));
	&BODY_16_19(@V);	unshift(@V,pop(@V));
	&BODY_16_19(@V);	unshift(@V,pop(@V));
	&BODY_16_19(@V);	unshift(@V,pop(@V));
$code.=<<___;

	ldr	$K,.LK_20_39		@ [+15+16*4]
	cmn	sp,#0			@ [+3], clear carry to denote 20_39
.L_20_39_or_60_79:
___
for($i=0;$i<5;$i++) {
	&BODY_20_39(@V);	unshift(@V,pop(@V));
}
$code.=<<___;
	teq	$Xi,sp			@ preserve carry
	bne	.L_20_39_or_60_79	@ [+((12+3)*5+2)*4]
	bcs	.L_done			@ [+((12+3)*5+2)*4], spare 300 bytes

	ldr	$K,.LK_40_59
	sub	sp,sp,#20*4		@ [+2]
.L_40_59:
___
for($i=0;$i<5;$i++) {
	&BODY_40_59(@V);	unshift(@V,pop(@V));
}
$code.=<<___;
	teq	$Xi,sp
	bne	.L_40_59		@ [+((12+5)*5+2)*4]

	ldr	$K,.LK_60_79
	sub	sp,sp,#20*4
	cmp	sp,#0			@ set carry to denote 60_79
	b	.L_20_39_or_60_79	@ [+4], spare 300 bytes
.L_done:
	add	sp,sp,#80*4		@ "deallocate" stack frame
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	ldmia	$ctx,{$K,$t0,$t1,$t2,$t3}
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	add	$a,$K,$a
	add	$b,$t0,$b
	add	$c,$t1,$c,ror#2
	add	$d,$t2,$d,ror#2
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	add	$e,$t3,$e,ror#2
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	stmia	$ctx,{$a,$b,$c,$d,$e}
	teq	$inp,$len
	bne	.Lloop			@ [+18], total 1307

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#if __ARM_ARCH__>=5
	ldmia	sp!,{r4-r12,pc}
#else
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	ldmia	sp!,{r4-r12,lr}
	tst	lr,#1
	moveq	pc,lr			@ be binary compatible with V4, yet
	bx	lr			@ interoperable with Thumb ISA:-)
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#endif
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.size	sha1_block_data_order,.-sha1_block_data_order

.align	5
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.LK_00_19:	.word	0x5a827999
.LK_20_39:	.word	0x6ed9eba1
.LK_40_59:	.word	0x8f1bbcdc
.LK_60_79:	.word	0xca62c1d6
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.LOPENSSL_armcap:
.word	OPENSSL_armcap_P-sha1_block_data_order
.asciz	"SHA1 block transform for ARMv4/NEON/ARMv8, CRYPTOGAMS by <appro\@openssl.org>"
.align	5
___
#####################################################################
# NEON stuff
#
{{{
my @V=($a,$b,$c,$d,$e);
my ($K_XX_XX,$Ki,$t0,$t1,$Xfer,$saved_sp)=map("r$_",(8..12,14));
my $Xi=4;
my @X=map("q$_",(8..11,0..3));
my @Tx=("q12","q13");
my ($K,$zero)=("q14","q15");
my $j=0;

sub AUTOLOAD()          # thunk [simplified] x86-style perlasm
{ my $opcode = $AUTOLOAD; $opcode =~ s/.*:://; $opcode =~ s/_/\./;
  my $arg = pop;
    $arg = "#$arg" if ($arg*1 eq $arg);
    $code .= "\t$opcode\t".join(',',@_,$arg)."\n";
}

sub body_00_19 () {
	(
	'($a,$b,$c,$d,$e)=@V;'.		# '$code.="@ $j\n";'.
	'&bic	($t0,$d,$b)',
	'&add	($e,$e,$Ki)',		# e+=X[i]+K
	'&and	($t1,$c,$b)',
	'&ldr	($Ki,sprintf "[sp,#%d]",4*(($j+1)&15))',
	'&add	($e,$e,$a,"ror#27")',	# e+=ROR(A,27)
	'&eor	($t1,$t1,$t0)',		# F_00_19
	'&mov	($b,$b,"ror#2")',	# b=ROR(b,2)
	'&add	($e,$e,$t1);'.		# e+=F_00_19
	'$j++;	unshift(@V,pop(@V));'
	)
}
sub body_20_39 () {
	(
	'($a,$b,$c,$d,$e)=@V;'.		# '$code.="@ $j\n";'.
	'&eor	($t0,$b,$d)',
	'&add	($e,$e,$Ki)',		# e+=X[i]+K
	'&ldr	($Ki,sprintf "[sp,#%d]",4*(($j+1)&15)) if ($j<79)',
	'&eor	($t1,$t0,$c)',		# F_20_39
	'&add	($e,$e,$a,"ror#27")',	# e+=ROR(A,27)
	'&mov	($b,$b,"ror#2")',	# b=ROR(b,2)
	'&add	($e,$e,$t1);'.		# e+=F_20_39
	'$j++;	unshift(@V,pop(@V));'
	)
}
sub body_40_59 () {
	(
	'($a,$b,$c,$d,$e)=@V;'.		# '$code.="@ $j\n";'.
	'&add	($e,$e,$Ki)',		# e+=X[i]+K
	'&and	($t0,$c,$d)',
	'&ldr	($Ki,sprintf "[sp,#%d]",4*(($j+1)&15))',
	'&add	($e,$e,$a,"ror#27")',	# e+=ROR(A,27)
	'&eor	($t1,$c,$d)',
	'&add	($e,$e,$t0)',
	'&and	($t1,$t1,$b)',
	'&mov	($b,$b,"ror#2")',	# b=ROR(b,2)
	'&add	($e,$e,$t1);'.		# e+=F_40_59
	'$j++;	unshift(@V,pop(@V));'
	)
}

sub Xupdate_16_31 ()
{ use integer;
  my $body = shift;
  my @insns = (&$body,&$body,&$body,&$body);
  my ($a,$b,$c,$d,$e);

	&vext_8		(@X[0],@X[-4&7],@X[-3&7],8);	# compose "X[-14]" in "X[0]"
	 eval(shift(@insns));
	 eval(shift(@insns));
	 eval(shift(@insns));
	  &vadd_i32	(@Tx[1],@X[-1&7],$K);
	 eval(shift(@insns));
	  &vld1_32	("{$K\[]}","[$K_XX_XX,:32]!")	if ($Xi%5==0);
	 eval(shift(@insns));
	&vext_8		(@Tx[0],@X[-1&7],$zero,4);	# "X[-3]", 3 words
	 eval(shift(@insns));
	 eval(shift(@insns));
	 eval(shift(@insns));
	&veor		(@X[0],@X[0],@X[-4&7]);		# "X[0]"^="X[-16]"
	 eval(shift(@insns));
	 eval(shift(@insns));
	&veor		(@Tx[0],@Tx[0],@X[-2&7]);	# "X[-3]"^"X[-8]"
	 eval(shift(@insns));
	 eval(shift(@insns));
	&veor		(@Tx[0],@Tx[0],@X[0]);		# "X[0]"^="X[-3]"^"X[-8]
	 eval(shift(@insns));
	 eval(shift(@insns));
	  &vst1_32	("{@Tx[1]}","[$Xfer,:128]!");	# X[]+K xfer
	  &sub		($Xfer,$Xfer,64)		if ($Xi%4==0);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vext_8		(@Tx[1],$zero,@Tx[0],4);	# "X[0]"<<96, extract one dword
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vadd_i32	(@X[0],@Tx[0],@Tx[0]);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vsri_32	(@X[0],@Tx[0],31);		# "X[0]"<<<=1
	 eval(shift(@insns));
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vshr_u32	(@Tx[0],@Tx[1],30);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vshl_u32	(@Tx[1],@Tx[1],2);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&veor		(@X[0],@X[0],@Tx[0]);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&veor		(@X[0],@X[0],@Tx[1]);		# "X[0]"^=("X[0]">>96)<<<2

	foreach (@insns) { eval; }	# remaining instructions [if any]

  $Xi++;	push(@X,shift(@X));	# "rotate" X[]
}

sub Xupdate_32_79 ()
{ use integer;
  my $body = shift;
  my @insns = (&$body,&$body,&$body,&$body);
  my ($a,$b,$c,$d,$e);

	&vext_8		(@Tx[0],@X[-2&7],@X[-1&7],8);	# compose "X[-6]"
	 eval(shift(@insns));
	 eval(shift(@insns));
	 eval(shift(@insns));
	&veor		(@X[0],@X[0],@X[-4&7]);		# "X[0]"="X[-32]"^"X[-16]"
	 eval(shift(@insns));
	 eval(shift(@insns));
	&veor		(@X[0],@X[0],@X[-7&7]);		# "X[0]"^="X[-28]"
	 eval(shift(@insns));
	 eval(shift(@insns));
	  &vadd_i32	(@Tx[1],@X[-1&7],$K);
	 eval(shift(@insns));
	  &vld1_32	("{$K\[]}","[$K_XX_XX,:32]!")	if ($Xi%5==0);
	 eval(shift(@insns));
	&veor		(@Tx[0],@Tx[0],@X[0]);		# "X[-6]"^="X[0]"
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vshr_u32	(@X[0],@Tx[0],30);
	 eval(shift(@insns));
	 eval(shift(@insns));
	  &vst1_32	("{@Tx[1]}","[$Xfer,:128]!");	# X[]+K xfer
	  &sub		($Xfer,$Xfer,64)		if ($Xi%4==0);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vsli_32	(@X[0],@Tx[0],2);		# "X[0]"="X[-6]"<<<2

	foreach (@insns) { eval; }	# remaining instructions [if any]

  $Xi++;	push(@X,shift(@X));	# "rotate" X[]
}

sub Xuplast_80 ()
{ use integer;
  my $body = shift;
  my @insns = (&$body,&$body,&$body,&$body);
  my ($a,$b,$c,$d,$e);

	&vadd_i32	(@Tx[1],@X[-1&7],$K);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vst1_32	("{@Tx[1]}","[$Xfer,:128]!");
	&sub		($Xfer,$Xfer,64);

	&teq		($inp,$len);
	&sub		($K_XX_XX,$K_XX_XX,16);	# rewind $K_XX_XX
	&subeq		($inp,$inp,64);		# reload last block to avoid SEGV
	&vld1_8		("{@X[-4&7]-@X[-3&7]}","[$inp]!");
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vld1_8		("{@X[-2&7]-@X[-1&7]}","[$inp]!");
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vld1_32	("{$K\[]}","[$K_XX_XX,:32]!");	# load K_00_19
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vrev32_8	(@X[-4&7],@X[-4&7]);

	foreach (@insns) { eval; }		# remaining instructions

   $Xi=0;
}

sub Xloop()
{ use integer;
  my $body = shift;
  my @insns = (&$body,&$body,&$body,&$body);
  my ($a,$b,$c,$d,$e);

	&vrev32_8	(@X[($Xi-3)&7],@X[($Xi-3)&7]);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vadd_i32	(@X[$Xi&7],@X[($Xi-4)&7],$K);
	 eval(shift(@insns));
	 eval(shift(@insns));
	&vst1_32	("{@X[$Xi&7]}","[$Xfer,:128]!");# X[]+K xfer to IALU

	foreach (@insns) { eval; }

  $Xi++;
}

$code.=<<___;
#if __ARM_ARCH__>=7
.fpu	neon

.type	sha1_block_data_order_neon,%function
.align	4
sha1_block_data_order_neon:
.LNEON:
	stmdb	sp!,{r4-r12,lr}
	add	$len,$inp,$len,lsl#6	@ $len to point at the end of $inp
	@ dmb				@ errata #451034 on early Cortex A8
	@ vstmdb	sp!,{d8-d15}	@ ABI specification says so
	mov	$saved_sp,sp
	sub	sp,sp,#64		@ alloca
	adr	$K_XX_XX,.LK_00_19
	bic	sp,sp,#15		@ align for 128-bit stores

	ldmia	$ctx,{$a,$b,$c,$d,$e}	@ load context
	mov	$Xfer,sp

	vld1.8		{@X[-4&7]-@X[-3&7]},[$inp]!	@ handles unaligned
	veor		$zero,$zero,$zero
	vld1.8		{@X[-2&7]-@X[-1&7]},[$inp]!
	vld1.32		{${K}\[]},[$K_XX_XX,:32]!	@ load K_00_19
	vrev32.8	@X[-4&7],@X[-4&7]		@ yes, even on
	vrev32.8	@X[-3&7],@X[-3&7]		@ big-endian...
	vrev32.8	@X[-2&7],@X[-2&7]
	vadd.i32	@X[0],@X[-4&7],$K
	vrev32.8	@X[-1&7],@X[-1&7]
	vadd.i32	@X[1],@X[-3&7],$K
	vst1.32		{@X[0]},[$Xfer,:128]!
	vadd.i32	@X[2],@X[-2&7],$K
	vst1.32		{@X[1]},[$Xfer,:128]!
	vst1.32		{@X[2]},[$Xfer,:128]!
	ldr		$Ki,[sp]			@ big RAW stall

.Loop_neon:
___
	&Xupdate_16_31(\&body_00_19);
	&Xupdate_16_31(\&body_00_19);
	&Xupdate_16_31(\&body_00_19);
	&Xupdate_16_31(\&body_00_19);
	&Xupdate_32_79(\&body_00_19);
	&Xupdate_32_79(\&body_20_39);
	&Xupdate_32_79(\&body_20_39);
	&Xupdate_32_79(\&body_20_39);
	&Xupdate_32_79(\&body_20_39);
	&Xupdate_32_79(\&body_20_39);
	&Xupdate_32_79(\&body_40_59);
	&Xupdate_32_79(\&body_40_59);
	&Xupdate_32_79(\&body_40_59);
	&Xupdate_32_79(\&body_40_59);
	&Xupdate_32_79(\&body_40_59);
	&Xupdate_32_79(\&body_20_39);
	&Xuplast_80(\&body_20_39);
	&Xloop(\&body_20_39);
	&Xloop(\&body_20_39);
	&Xloop(\&body_20_39);
$code.=<<___;
	ldmia	$ctx,{$Ki,$t0,$t1,$Xfer}	@ accumulate context
	add	$a,$a,$Ki
	ldr	$Ki,[$ctx,#16]
	add	$b,$b,$t0
	add	$c,$c,$t1
	add	$d,$d,$Xfer
	moveq	sp,$saved_sp
	add	$e,$e,$Ki
	ldrne	$Ki,[sp]
	stmia	$ctx,{$a,$b,$c,$d,$e}
	addne	$Xfer,sp,#3*16
	bne	.Loop_neon

	@ vldmia	sp!,{d8-d15}
	ldmia	sp!,{r4-r12,pc}
.size	sha1_block_data_order_neon,.-sha1_block_data_order_neon
#endif
___
}}}
#####################################################################
# ARMv8 stuff
#
{{{
my ($ABCD,$E,$E0,$E1)=map("q$_",(0..3));
my @MSG=map("q$_",(4..7));
my @Kxx=map("q$_",(8..11));
my ($W0,$W1,$ABCD_SAVE)=map("q$_",(12..14));

$code.=<<___;
#if __ARM_ARCH__>=7
.type	sha1_block_data_order_armv8,%function
.align	5
sha1_block_data_order_armv8:
.LARMv8:
	vstmdb	sp!,{d8-d15}		@ ABI specification says so

	veor	$E,$E,$E
	adr	r3,.LK_00_19
	vld1.32	{$ABCD},[$ctx]!
	vld1.32	{$E\[0]},[$ctx]
	sub	$ctx,$ctx,#16
	vld1.32	{@Kxx[0]\[]},[r3,:32]!
	vld1.32	{@Kxx[1]\[]},[r3,:32]!
	vld1.32	{@Kxx[2]\[]},[r3,:32]!
	vld1.32	{@Kxx[3]\[]},[r3,:32]

.Loop_v8:
	vld1.8		{@MSG[0]-@MSG[1]},[$inp]!
	vld1.8		{@MSG[2]-@MSG[3]},[$inp]!
	vrev32.8	@MSG[0],@MSG[0]
	vrev32.8	@MSG[1],@MSG[1]

	vadd.i32	$W0,@Kxx[0],@MSG[0]
	vrev32.8	@MSG[2],@MSG[2]
	vmov		$ABCD_SAVE,$ABCD	@ offload
	subs		$len,$len,#1

	vadd.i32	$W1,@Kxx[0],@MSG[1]
	vrev32.8	@MSG[3],@MSG[3]
	sha1h		$E1,$ABCD		@ 0
	sha1c		$ABCD,$E,$W0
	vadd.i32	$W0,@Kxx[$j],@MSG[2]
	sha1su0		@MSG[0],@MSG[1],@MSG[2]
___
for ($j=0,$i=1;$i<20-3;$i++) {
my $f=("c","p","m","p")[$i/5];
$code.=<<___;
	sha1h		$E0,$ABCD		@ $i
	sha1$f		$ABCD,$E1,$W1
	vadd.i32	$W1,@Kxx[$j],@MSG[3]
	sha1su1		@MSG[0],@MSG[3]
___
$code.=<<___ if ($i<20-4);
	sha1su0		@MSG[1],@MSG[2],@MSG[3]
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___
612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670
	($E0,$E1)=($E1,$E0);	($W0,$W1)=($W1,$W0);
	push(@MSG,shift(@MSG));	$j++ if ((($i+3)%5)==0);
}
$code.=<<___;
	sha1h		$E0,$ABCD		@ $i
	sha1p		$ABCD,$E1,$W1
	vadd.i32	$W1,@Kxx[$j],@MSG[3]

	sha1h		$E1,$ABCD		@ 18
	sha1p		$ABCD,$E0,$W0

	sha1h		$E0,$ABCD		@ 19
	sha1p		$ABCD,$E1,$W1

	vadd.i32	$E,$E,$E0
	vadd.i32	$ABCD,$ABCD,$ABCD_SAVE
	bne		.Loop_v8

	vst1.32		{$ABCD},[$ctx]!
	vst1.32		{$E\[0]},[$ctx]

	vldmia	sp!,{d8-d15}
	bx	lr
.size	sha1_block_data_order_armv8,.-sha1_block_data_order_armv8
#endif
___
}}}
$code.=<<___;
.comm	OPENSSL_armcap_P,4,4
___

{   my  %opcode = (
	"sha1c"		=> 0xf2000c40,	"sha1p"		=> 0xf2100c40,
	"sha1m"		=> 0xf2200c40,	"sha1su0"	=> 0xf2300c40,
	"sha1h"		=> 0xf3b902c0,	"sha1su1"	=> 0xf3ba0380	);

    sub unsha1 {
	my ($mnemonic,$arg)=@_;

	$arg =~ m/q([0-9]+)(?:,\s*q([0-9]+))?,\s*q([0-9]+)/o
	&&
	sprintf ".long\t0x%08x\t@ %s %s",
			$opcode{$mnemonic}|(($1&7)<<13)|(($1&8)<<19)
					  |(($2&7)<<17)|(($2&8)<<4)
					  |(($3&7)<<1) |(($3&8)<<2),
			$mnemonic,$arg;
    }
}

foreach (split($/,$code)) {
	s/{q([0-9]+)\[\]}/sprintf "{d%d[],d%d[]}",2*$1,2*$1+1/eo	or
	s/{q([0-9]+)\[0\]}/sprintf "{d%d[0]}",2*$1/eo;

	s/\b(sha1\w+)\s+(q.*)/unsha1($1,$2)/geo;

	s/\bbx\s+lr\b/.word\t0xe12fff1e/o;	# make it possible to compile with -march=armv4

	print $_,$/;
}
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close STDOUT; # enforce flush