crypto/sha/asm/sha1-thumb.pl - platform/external/openssl - Git at Google

 #!/usr/bin/env perl

 # ====================================================================
 # Written by Andy Polyakov <appro@fy.chalmers.se> 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/.
 # ====================================================================

 # sha1_block for Thumb.
 #
 # January 2007.
 #
 # The code does not present direct interest to OpenSSL, because of low
 # performance. Its purpose is to establish _size_ benchmark. Pretty
 # useless one I must say, because 30% or 88 bytes larger ARMv4 code
 # [avialable on demand] is almost _twice_ as fast. It should also be
 # noted that in-lining of .Lcommon and .Lrotate improves performance
 # by over 40%, while code increases by only 10% or 32 bytes. But once
 # again, the goal was to establish _size_ benchmark, not performance.

 $output=shift;
 open STDOUT,">$output";

 $inline=0;
 #$cheat_on_binutils=1;

 $t0="r0";
 $t1="r1";
 $t2="r2";
 $a="r3";
 $b="r4";
 $c="r5";
 $d="r6";
 $e="r7";
 $K="r8";	# "upper" registers can be used in add/sub and mov insns
 $ctx="r9";
 $inp="r10";
 $len="r11";
 $Xi="r12";

 sub common {
 <<___;
 	sub	$t0,#4
 	ldr	$t1,[$t0]
 	add	$e,$K			@ E+=K_xx_xx
 	lsl	$t2,$a,#5
 	add	$t2,$e
 	lsr	$e,$a,#27
 	add	$t2,$e			@ E+=ROR(A,27)
 	add	$t2,$t1			@ E+=X[i]
 ___
 }
 sub rotate {
 <<___;
 	mov	$e,$d			@ E=D
 	mov	$d,$c			@ D=C
 	lsl	$c,$b,#30
 	lsr	$b,$b,#2
 	orr	$c,$b			@ C=ROR(B,2)
 	mov	$b,$a			@ B=A
 	add	$a,$t2,$t1		@ A=E+F_xx_xx(B,C,D)
 ___
 }

 sub BODY_00_19 {
 $code.=$inline?&common():"\tbl	.Lcommon\n";
 $code.=<<___;
 	mov	$t1,$c
 	eor	$t1,$d
 	and	$t1,$b
 	eor	$t1,$d			@ F_00_19(B,C,D)
 ___
 $code.=$inline?&rotate():"\tbl	.Lrotate\n";
 }

 sub BODY_20_39 {
 $code.=$inline?&common():"\tbl	.Lcommon\n";
 $code.=<<___;
 	mov	$t1,$b
 	eor	$t1,$c
 	eor	$t1,$d			@ F_20_39(B,C,D)
 ___
 $code.=$inline?&rotate():"\tbl	.Lrotate\n";
 }

 sub BODY_40_59 {
 $code.=$inline?&common():"\tbl	.Lcommon\n";
 $code.=<<___;
 	mov	$t1,$b
 	and	$t1,$c
 	mov	$e,$b
 	orr	$e,$c
 	and	$e,$d
 	orr	$t1,$e			@ F_40_59(B,C,D)
 ___
 $code.=$inline?&rotate():"\tbl	.Lrotate\n";
 }

 $code=<<___;
 .text
 .code	16

 .global	sha1_block_data_order
 .type	sha1_block_data_order,%function

 .align	2
 sha1_block_data_order:
 ___
 if ($cheat_on_binutils) {
 $code.=<<___;
 .code	32
 	add	r3,pc,#1
 	bx	r3			@ switch to Thumb ISA
 .code	16
 ___
 }
 $code.=<<___;
 	push	{r4-r7}
 	mov	r3,r8
 	mov	r4,r9
 	mov	r5,r10
 	mov	r6,r11
 	mov	r7,r12
 	push	{r3-r7,lr}
 	lsl	r2,#6
 	mov	$ctx,r0			@ save context
 	mov	$inp,r1			@ save inp
 	mov	$len,r2			@ save len
 	add	$len,$inp		@ $len to point at inp end

 .Lloop:
 	mov	$Xi,sp
 	mov	$t2,sp
 	sub	$t2,#16*4		@ [3]
 .LXload:
 	ldrb	$a,[$t1,#0]		@ $t1 is r1 and holds inp
 	ldrb	$b,[$t1,#1]
 	ldrb	$c,[$t1,#2]
 	ldrb	$d,[$t1,#3]
 	lsl	$a,#24
 	lsl	$b,#16
 	lsl	$c,#8
 	orr	$a,$b
 	orr	$a,$c
 	orr	$a,$d
 	add	$t1,#4
 	push	{$a}
 	cmp	sp,$t2
 	bne	.LXload			@ [+14*16]

 	mov	$inp,$t1		@ update $inp
 	sub	$t2,#32*4
 	sub	$t2,#32*4
 	mov	$e,#31			@ [+4]
 .LXupdate:
 	ldr	$a,[sp,#15*4]
 	ldr	$b,[sp,#13*4]
 	ldr	$c,[sp,#7*4]
 	ldr	$d,[sp,#2*4]
 	eor	$a,$b
 	eor	$a,$c
 	eor	$a,$d
 	ror	$a,$e
 	push	{$a}
 	cmp	sp,$t2
 	bne	.LXupdate		@ [+(11+1)*64]

 	ldmia	$t0!,{$a,$b,$c,$d,$e}	@ $t0 is r0 and holds ctx
 	mov	$t0,$Xi

 	ldr	$t2,.LK_00_19
 	mov	$t1,$t0
 	sub	$t1,#20*4
 	mov	$Xi,$t1
 	mov	$K,$t2			@ [+7+4]
 .L_00_19:
 ___
 	&BODY_00_19();
 $code.=<<___;
 	cmp	$Xi,$t0
 	bne	.L_00_19		@ [+(2+9+4+2+8+2)*20]

 	ldr	$t2,.LK_20_39
 	mov	$t1,$t0
 	sub	$t1,#20*4
 	mov	$Xi,$t1
 	mov	$K,$t2			@ [+5]
 .L_20_39_or_60_79:
 ___
 	&BODY_20_39();
 $code.=<<___;
 	cmp	$Xi,$t0
 	bne	.L_20_39_or_60_79	@ [+(2+9+3+2+8+2)*20*2]
 	cmp	sp,$t0
 	beq	.Ldone			@ [+2]

 	ldr	$t2,.LK_40_59
 	mov	$t1,$t0
 	sub	$t1,#20*4
 	mov	$Xi,$t1
 	mov	$K,$t2			@ [+5]
 .L_40_59:
 ___
 	&BODY_40_59();
 $code.=<<___;
 	cmp	$Xi,$t0
 	bne	.L_40_59		@ [+(2+9+6+2+8+2)*20]

 	ldr	$t2,.LK_60_79
 	mov	$Xi,sp
 	mov	$K,$t2
 	b	.L_20_39_or_60_79	@ [+4]
 .Ldone:
 	mov	$t0,$ctx
 	ldr	$t1,[$t0,#0]
 	ldr	$t2,[$t0,#4]
 	add	$a,$t1
 	ldr	$t1,[$t0,#8]
 	add	$b,$t2
 	ldr	$t2,[$t0,#12]
 	add	$c,$t1
 	ldr	$t1,[$t0,#16]
 	add	$d,$t2
 	add	$e,$t1
 	stmia	$t0!,{$a,$b,$c,$d,$e}	@ [+20]

 	add	sp,#80*4		@ deallocate stack frame
 	mov	$t0,$ctx		@ restore ctx
 	mov	$t1,$inp		@ restore inp
 	cmp	$t1,$len
 	beq	.Lexit
 	b	.Lloop			@ [+6] total 3212 cycles
 .Lexit:
 	pop	{r2-r7}
 	mov	r8,r2
 	mov	r9,r3
 	mov	r10,r4
 	mov	r11,r5
 	mov	r12,r6
 	mov	lr,r7
 	pop	{r4-r7}
 	bx	lr
 .align	2
 ___
 $code.=".Lcommon:\n".&common()."\tmov	pc,lr\n" if (!$inline);
 $code.=".Lrotate:\n".&rotate()."\tmov	pc,lr\n" if (!$inline);
 $code.=<<___;
 .align	2
 .LK_00_19:	.word	0x5a827999
 .LK_20_39:	.word	0x6ed9eba1
 .LK_40_59:	.word	0x8f1bbcdc
 .LK_60_79:	.word	0xca62c1d6
 .size	sha1_block_data_order,.-sha1_block_data_order
 .asciz	"SHA1 block transform for Thumb, CRYPTOGAMS by <appro\@openssl.org>"
 ___

 print $code;
 close STDOUT; # enforce flush
	#!/usr/bin/env perl

	# ====================================================================
	# Written by Andy Polyakov <appro@fy.chalmers.se> 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/.
	# ====================================================================

	# sha1_block for Thumb.
	#
	# January 2007.
	#
	# The code does not present direct interest to OpenSSL, because of low
	# performance. Its purpose is to establish _size_ benchmark. Pretty
	# useless one I must say, because 30% or 88 bytes larger ARMv4 code
	# [avialable on demand] is almost _twice_ as fast. It should also be
	# noted that in-lining of .Lcommon and .Lrotate improves performance
	# by over 40%, while code increases by only 10% or 32 bytes. But once
	# again, the goal was to establish _size_ benchmark, not performance.

	$output=shift;
	open STDOUT,">$output";

	$inline=0;
	#$cheat_on_binutils=1;

	$t0="r0";
	$t1="r1";
	$t2="r2";
	$a="r3";
	$b="r4";
	$c="r5";
	$d="r6";
	$e="r7";
	$K="r8"; # "upper" registers can be used in add/sub and mov insns
	$ctx="r9";
	$inp="r10";
	$len="r11";
	$Xi="r12";

	sub common {
	<<___;
	sub $t0,#4
	ldr $t1,[$t0]
	add $e,$K @ E+=K_xx_xx
	lsl $t2,$a,#5
	add $t2,$e
	lsr $e,$a,#27
	add $t2,$e @ E+=ROR(A,27)
	add $t2,$t1 @ E+=X[i]
	___
	}
	sub rotate {
	<<___;
	mov $e,$d @ E=D
	mov $d,$c @ D=C
	lsl $c,$b,#30
	lsr $b,$b,#2
	orr $c,$b @ C=ROR(B,2)
	mov $b,$a @ B=A
	add $a,$t2,$t1 @ A=E+F_xx_xx(B,C,D)
	___
	}

	sub BODY_00_19 {
	$code.=$inline?&common():"\tbl .Lcommon\n";
	$code.=<<___;
	mov $t1,$c
	eor $t1,$d
	and $t1,$b
	eor $t1,$d @ F_00_19(B,C,D)
	___
	$code.=$inline?&rotate():"\tbl .Lrotate\n";
	}

	sub BODY_20_39 {
	$code.=$inline?&common():"\tbl .Lcommon\n";
	$code.=<<___;
	mov $t1,$b
	eor $t1,$c
	eor $t1,$d @ F_20_39(B,C,D)
	___
	$code.=$inline?&rotate():"\tbl .Lrotate\n";
	}

	sub BODY_40_59 {
	$code.=$inline?&common():"\tbl .Lcommon\n";
	$code.=<<___;
	mov $t1,$b
	and $t1,$c
	mov $e,$b
	orr $e,$c
	and $e,$d
	orr $t1,$e @ F_40_59(B,C,D)
	___
	$code.=$inline?&rotate():"\tbl .Lrotate\n";
	}

	$code=<<___;
	.text
	.code 16

	.global sha1_block_data_order
	.type sha1_block_data_order,%function

	.align 2
	sha1_block_data_order:
	___
	if ($cheat_on_binutils) {
	$code.=<<___;
	.code 32
	add r3,pc,#1
	bx r3 @ switch to Thumb ISA
	.code 16
	___
	}
	$code.=<<___;
	push {r4-r7}
	mov r3,r8
	mov r4,r9
	mov r5,r10
	mov r6,r11
	mov r7,r12
	push {r3-r7,lr}
	lsl r2,#6
	mov $ctx,r0 @ save context
	mov $inp,r1 @ save inp
	mov $len,r2 @ save len
	add $len,$inp @ $len to point at inp end

	.Lloop:
	mov $Xi,sp
	mov $t2,sp
	sub $t2,#16*4 @ [3]
	.LXload:
	ldrb $a,[$t1,#0] @ $t1 is r1 and holds inp
	ldrb $b,[$t1,#1]
	ldrb $c,[$t1,#2]
	ldrb $d,[$t1,#3]
	lsl $a,#24
	lsl $b,#16
	lsl $c,#8
	orr $a,$b
	orr $a,$c
	orr $a,$d
	add $t1,#4
	push {$a}
	cmp sp,$t2
	bne .LXload @ [+14*16]

	mov $inp,$t1 @ update $inp
	sub $t2,#32*4
	sub $t2,#32*4
	mov $e,#31 @ [+4]
	.LXupdate:
	ldr $a,[sp,#15*4]
	ldr $b,[sp,#13*4]
	ldr $c,[sp,#7*4]
	ldr $d,[sp,#2*4]
	eor $a,$b
	eor $a,$c
	eor $a,$d
	ror $a,$e
	push {$a}
	cmp sp,$t2
	bne .LXupdate @ [+(11+1)*64]

	ldmia $t0!,{$a,$b,$c,$d,$e} @ $t0 is r0 and holds ctx
	mov $t0,$Xi

	ldr $t2,.LK_00_19
	mov $t1,$t0
	sub $t1,#20*4
	mov $Xi,$t1
	mov $K,$t2 @ [+7+4]
	.L_00_19:
	___
	&BODY_00_19();
	$code.=<<___;
	cmp $Xi,$t0
	bne .L_00_19 @ [+(2+9+4+2+8+2)*20]

	ldr $t2,.LK_20_39
	mov $t1,$t0
	sub $t1,#20*4
	mov $Xi,$t1
	mov $K,$t2 @ [+5]
	.L_20_39_or_60_79:
	___
	&BODY_20_39();
	$code.=<<___;
	cmp $Xi,$t0
	bne .L_20_39_or_60_79 @ [+(2+9+3+2+8+2)202]
	cmp sp,$t0
	beq .Ldone @ [+2]

	ldr $t2,.LK_40_59
	mov $t1,$t0
	sub $t1,#20*4
	mov $Xi,$t1
	mov $K,$t2 @ [+5]
	.L_40_59:
	___
	&BODY_40_59();
	$code.=<<___;
	cmp $Xi,$t0
	bne .L_40_59 @ [+(2+9+6+2+8+2)*20]

	ldr $t2,.LK_60_79
	mov $Xi,sp
	mov $K,$t2
	b .L_20_39_or_60_79 @ [+4]
	.Ldone:
	mov $t0,$ctx
	ldr $t1,[$t0,#0]
	ldr $t2,[$t0,#4]
	add $a,$t1
	ldr $t1,[$t0,#8]
	add $b,$t2
	ldr $t2,[$t0,#12]
	add $c,$t1
	ldr $t1,[$t0,#16]
	add $d,$t2
	add $e,$t1
	stmia $t0!,{$a,$b,$c,$d,$e} @ [+20]

	add sp,#80*4 @ deallocate stack frame
	mov $t0,$ctx @ restore ctx
	mov $t1,$inp @ restore inp
	cmp $t1,$len
	beq .Lexit
	b .Lloop @ [+6] total 3212 cycles
	.Lexit:
	pop {r2-r7}
	mov r8,r2
	mov r9,r3
	mov r10,r4
	mov r11,r5
	mov r12,r6
	mov lr,r7
	pop {r4-r7}
	bx lr
	.align 2
	___
	$code.=".Lcommon:\n".&common()."\tmov pc,lr\n" if (!$inline);
	$code.=".Lrotate:\n".&rotate()."\tmov pc,lr\n" if (!$inline);
	$code.=<<___;
	.align 2
	.LK_00_19: .word 0x5a827999
	.LK_20_39: .word 0x6ed9eba1
	.LK_40_59: .word 0x8f1bbcdc
	.LK_60_79: .word 0xca62c1d6
	.size sha1_block_data_order,.-sha1_block_data_order
	.asciz "SHA1 block transform for Thumb, CRYPTOGAMS by <appro\@openssl.org>"
	___

	print $code;
	close STDOUT; # enforce flush