Add AES assembly module for Fujitsu SPARC64 X/X+.

Reviewed-by: Richard Levitte <levitte@openssl.org>
2016-04-19 13:06:18 +02:00 · 2016-04-19 13:06:18 +02:00 · fb65020b37
commit fb65020b37
parent 38c5674dda
3 changed files with 439 additions and 0 deletions
--- a/crypto/aes/Makefile.in
+++ b/crypto/aes/Makefile.in
@ -70,6 +70,8 @@ aes-sparcv9.S: asm/aes-sparcv9.pl
 	$(PERL) asm/aes-sparcv9.pl $(PERLASM_SCHEME) $@
 aest4-sparcv9.S: asm/aest4-sparcv9.pl ../perlasm/sparcv9_modes.pl
 	$(PERL) asm/aest4-sparcv9.pl $(PERLASM_SCHEME) $@
 aesfx-sparcv9.S: asm/aesfx-sparcv9.pl
 	$(PERL) asm/aesfx-sparcv9.pl $(PERLASM_SCHEME) $@
 aes-ppc.s:	asm/aes-ppc.pl
 	$(PERL) asm/aes-ppc.pl $(PERLASM_SCHEME) $@
--- a/crypto/aes/asm/aesfx-sparcv9.pl
+++ b/crypto/aes/asm/aesfx-sparcv9.pl
@ -0,0 +1,435 @@
 #!/usr/bin/env perl
 #
 # ====================================================================
 # 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/.
 # ====================================================================
 # March 2016
 #
 # Initial support for Fujitsu SPARC64 X/X+ comprises minimally
 # required key setup and single-block procedures.
 $output = pop;
 open STDOUT,">$output";
 {
 my ($inp,$out,$key,$rounds,$tmp,$mask) = map("%o$_",(0..5));
 $code.=<<___;
 .text
 .globl	aes_fx_encrypt
 .align	32
 aes_fx_encrypt:
 	and		$inp, 7, $tmp		! is input aligned?
 	alignaddr	$inp, %g0, $inp
 	ld		[$key + 240], $rounds
 	ldd		[$key +  0], %f6
 	ldd		[$key +  8], %f8
 	ldd		[$inp + 0], %f0		! load input
 	brz,pt		$tmp, .Lenc_inp_aligned
 	ldd		[$inp + 8], %f2
 	ldd		[$inp + 16], %f4
 	faligndata	%f0, %f2, %f0
 	faligndata	%f2, %f4, %f2
 .Lenc_inp_aligned:
 	ldd		[$key + 16], %f10
 	ldd		[$key + 24], %f12
 	add		$key, 32, $key
 	fxor		%f0, %f6, %f0		! ^=round[0]
 	fxor		%f2, %f8, %f2
 	ldd		[$key +  0], %f6
 	ldd		[$key +  8], %f8
 	sub		$rounds, 4, $rounds
 .Loop_enc:
 	fmovd		%f0, %f4
 	faesencx	%f2, %f10, %f0
 	faesencx	%f4, %f12, %f2
 	ldd		[$key + 16], %f10
 	ldd		[$key + 24], %f12
 	add		$key, 32, $key
 	fmovd		%f0, %f4
 	faesencx	%f2, %f6, %f0
 	faesencx	%f4, %f8, %f2
 	ldd		[$key +  0], %f6
 	ldd		[$key +  8], %f8
 	brnz,a		$rounds, .Loop_enc
 	sub		$rounds, 2, $rounds
 	andcc		$out, 7, $tmp		! is output aligned?
 	mov		0xff, $mask
 	alignaddrl	$out, %g0, $out
 	srl		$mask, $tmp, $mask
 	fmovd		%f0, %f4
 	faesencx	%f2, %f10, %f0
 	faesencx	%f4, %f12, %f2
 	fmovd		%f0, %f4
 	faesenclx	%f2, %f6, %f0
 	faesenclx	%f4, %f8, %f2
 	bnz,pn		%icc, .Lenc_out_unaligned
 	nop
 	std		%f0, [$out + 0]
 	retl
 	std		%f2, [$out + 8]
 .Lenc_out_unaligned:
 	faligndata	%f0, %f0, %f4
 	faligndata	%f0, %f2, %f6
 	faligndata	%f2, %f2, %f8
 	stda		%f4, [$out + $mask]0xc0	! partial store
 	std		%f6, [$out + 8]
 	add		$out, 16, $out
 	orn		%g0, $mask, $mask
 	retl
 	stda		%f8, [$out + $mask]0xc0	! partial store
 .size	aes_fx_encrypt,.-aes_fx_encrypt
 .globl	aes_fx_decrypt
 .align	32
 aes_fx_decrypt:
 	and		$inp, 7, $tmp		! is input aligned?
 	alignaddr	$inp, %g0, $inp
 	ld		[$key + 240], $rounds
 	ldd		[$key +  0], %f6
 	ldd		[$key +  8], %f8
 	ldd		[$inp + 0], %f0		! load input
 	brz,pt		$tmp, .Ldec_inp_aligned
 	ldd		[$inp + 8], %f2
 	ldd		[$inp + 16], %f4
 	faligndata	%f0, %f2, %f0
 	faligndata	%f2, %f4, %f2
 .Ldec_inp_aligned:
 	ldd		[$key + 16], %f10
 	ldd		[$key + 24], %f12
 	add		$key, 32, $key
 	fxor		%f0, %f6, %f0		! ^=round[0]
 	fxor		%f2, %f8, %f2
 	ldd		[$key +  0], %f6
 	ldd		[$key +  8], %f8
 	sub		$rounds, 4, $rounds
 .Loop_dec:
 	fmovd		%f0, %f4
 	faesdecx	%f2, %f10, %f0
 	faesdecx	%f4, %f12, %f2
 	ldd		[$key + 16], %f10
 	ldd		[$key + 24], %f12
 	add		$key, 32, $key
 	fmovd		%f0, %f4
 	faesdecx	%f2, %f6, %f0
 	faesdecx	%f4, %f8, %f2
 	ldd		[$key +  0], %f6
 	ldd		[$key +  8], %f8
 	brnz,a		$rounds, .Loop_dec
 	sub		$rounds, 2, $rounds
 	andcc		$out, 7, $tmp		! is output aligned?
 	mov		0xff, $mask
 	alignaddrl	$out, %g0, $out
 	srl		$mask, $tmp, $mask
 	fmovd		%f0, %f4
 	faesdecx	%f2, %f10, %f0
 	faesdecx	%f4, %f12, %f2
 	fmovd		%f0, %f4
 	faesdeclx	%f2, %f6, %f0
 	faesdeclx	%f4, %f8, %f2
 	bnz,pn		%icc, .Ldec_out_unaligned
 	nop
 	std		%f0, [$out + 0]
 	retl
 	std		%f2, [$out + 8]
 .Ldec_out_unaligned:
 	faligndata	%f0, %f0, %f4
 	faligndata	%f0, %f2, %f6
 	faligndata	%f2, %f2, %f8
 	stda		%f4, [$out + $mask]0xc0	! partial store
 	std		%f6, [$out + 8]
 	add		$out, 16, $out
 	orn		%g0, $mask, $mask
 	retl
 	stda		%f8, [$out + $mask]0xc0	! partial store
 .size	aes_fx_decrypt,.-aes_fx_decrypt
 ___
 }
 {
 my ($inp,$bits,$out,$tmp,$inc) = map("%o$_",(0..5));
 $code.=<<___;
 .globl	aes_fx_set_decrypt_key
 .align	32
 aes_fx_set_decrypt_key:
 	b		.Lset_encrypt_key
 	mov		-1, $inc
 	retl
 	nop
 .size	aes_fx_set_decrypt_key,.-aes_fx_set_decrypt_key
 .globl	aes_fx_set_encrypt_key
 .align	32
 aes_fx_set_encrypt_key:
 	mov		1, $inc
 .Lset_encrypt_key:
 	and		$inp, 7, $tmp
 	alignaddr	$inp, %g0, $inp
 	nop
 	cmp		$bits, 192
 	ldd		[$inp + 0], %f0
 	bl,pt		%icc, .L128
 	ldd		[$inp + 8], %f2
 	be,pt		%icc, .L192
 	ldd		[$inp + 16], %f4
 	brz,pt		$tmp, .L256aligned
 	ldd		[$inp + 24], %f6
 	ldd		[$inp + 32], %f8
 	faligndata	%f0, %f2, %f0
 	faligndata	%f2, %f4, %f2
 	faligndata	%f4, %f6, %f4
 	faligndata	%f6, %f8, %f6
 .L256aligned:
 	mov		14, $bits
 	and		$inc, `14*16`, $tmp
 	st		$bits, [$out + 240]	! store rounds
 	add		$out, $tmp, $out	! start or end of key schedule
 	sllx		$inc, 4, $inc		! 16 or -16
 ___
 for ($i=0; $i<6; $i++) {
    $code.=<<___;
 	std		%f0, [$out + 0]
 	faeskeyx	%f6, `0x10+$i`, %f0
 	std		%f2, [$out + 8]
 	add		$out, $inc, $out
 	faeskeyx	%f0, 0x00, %f2
 	std		%f4, [$out + 0]
 	faeskeyx	%f2, 0x01, %f4
 	std		%f6, [$out + 8]
 	add		$out, $inc, $out
 	faeskeyx	%f4, 0x00, %f6
 ___
 }
 $code.=<<___;
 	std		%f0, [$out + 0]
 	faeskeyx	%f6, `0x10+$i`, %f0
 	std		%f2, [$out + 8]
 	add		$out, $inc, $out
 	faeskeyx	%f0, 0x00, %f2
 	std		%f4,[$out+0]
 	std		%f6,[$out+8]
 	add		$out, $inc, $out
 	std		%f0,[$out+0]
 	std		%f2,[$out+8]
 	retl
 	xor		%o0, %o0, %o0		! return 0
 .align	16
 .L192:
 	brz,pt		$tmp, .L192aligned
 	nop
 	ldd		[$inp + 24], %f6
 	faligndata	%f0, %f2, %f0
 	faligndata	%f2, %f4, %f2
 	faligndata	%f4, %f6, %f4
 .L192aligned:
 	mov		12, $bits
 	and		$inc, `12*16`, $tmp
 	st		$bits, [$out + 240]	! store rounds
 	add		$out, $tmp, $out	! start or end of key schedule
 	sllx		$inc, 4, $inc		! 16 or -16
 ___
 for ($i=0; $i<8; $i+=2) {
    $code.=<<___;
 	std		%f0, [$out + 0]
 	faeskeyx	%f4, `0x10+$i`, %f0
 	std		%f2, [$out + 8]
 	add		$out, $inc, $out
 	faeskeyx	%f0, 0x00, %f2
 	std		%f4, [$out + 0]
 	faeskeyx	%f2, 0x00, %f4
 	std		%f0, [$out + 8]
 	add		$out, $inc, $out
 	faeskeyx	%f4, `0x10+$i+1`, %f0
 	std		%f2, [$out + 0]
 	faeskeyx	%f0, 0x00, %f2
 	std		%f4, [$out + 8]
 	add		$out, $inc, $out
 ___
 $code.=<<___		if ($i<6);
 	faeskeyx	%f2, 0x00, %f4
 ___
 }
 $code.=<<___;
 	std		%f0, [$out + 0]
 	std		%f2, [$out + 8]
 	retl
 	xor		%o0, %o0, %o0		! return 0
 .align	16
 .L128:
 	brz,pt		$tmp, .L128aligned
 	nop
 	ldd		[$inp + 16], %f4
 	faligndata	%f0, %f2, %f0
 	faligndata	%f2, %f4, %f2
 .L128aligned:
 	mov		10, $bits
 	and		$inc, `10*16`, $tmp
 	st		$bits, [$out + 240]	! store rounds
 	add		$out, $tmp, $out	! start or end of key schedule
 	sllx		$inc, 4, $inc		! 16 or -16
 ___
 for ($i=0; $i<10; $i++) {
    $code.=<<___;
 	std		%f0, [$out + 0]
 	faeskeyx	%f2, `0x10+$i`, %f0
 	std		%f2, [$out + 8]
 	add		$out, $inc, $out
 	faeskeyx	%f0, 0x00, %f2
 ___
 }
 $code.=<<___;
 	std		%f0, [$out + 0]
 	std		%f2, [$out + 8]
 	retl
 	xor		%o0, %o0, %o0		! return 0
 .size	aes_fx_set_encrypt_key,.-aes_fx_set_encrypt_key
 ___
 }
 # Purpose of these subroutines is to explicitly encode VIS instructions,
 # so that one can compile the module without having to specify VIS
 # extensions on compiler command line, e.g. -xarch=v9 vs. -xarch=v9a.
 # Idea is to reserve for option to produce "universal" binary and let
 # programmer detect if current CPU is VIS capable at run-time.
 sub unvis {
 my ($mnemonic,$rs1,$rs2,$rd)=@_;
 my ($ref,$opf);
 my %visopf = (	"faligndata"	=> 0x048,
 		"bshuffle"	=> 0x04c,
 		"fxor"		=> 0x06c,
 		"fsrc2"		=> 0x078	);
    $ref = "$mnemonic\t$rs1,$rs2,$rd";
    if ($opf=$visopf{$mnemonic}) {
 	foreach ($rs1,$rs2,$rd) {
 	    return $ref if (!/%f([0-9]{1,2})/);
 	    $_=$1;
 	    if ($1>=32) {
 		return $ref if ($1&1);
 		# re-encode for upper double register addressing
 		$_=($1|$1>>5)&31;
 	    }
 	}
 	return	sprintf ".word\t0x%08x !%s",
 			0x81b00000|$rd<<25|$rs1<<14|$opf<<5|$rs2,
 			$ref;
    } else {
 	return $ref;
    }
 }
 sub unvis3 {
 my ($mnemonic,$rs1,$rs2,$rd)=@_;
 my %bias = ( "g" => 0, "o" => 8, "l" => 16, "i" => 24 );
 my ($ref,$opf);
 my %visopf = (	"alignaddr"	=> 0x018,
 		"bmask"		=> 0x019,
 		"alignaddrl"	=> 0x01a	);
    $ref = "$mnemonic\t$rs1,$rs2,$rd";
    if ($opf=$visopf{$mnemonic}) {
 	foreach ($rs1,$rs2,$rd) {
 	    return $ref if (!/%([goli])([0-9])/);
 	    $_=$bias{$1}+$2;
 	}
 	return	sprintf ".word\t0x%08x !%s",
 			0x81b00000|$rd<<25|$rs1<<14|$opf<<5|$rs2,
 			$ref;
    } else {
 	return $ref;
    }
 }
 sub unfx {
 my ($mnemonic,$rs1,$rs2,$rd)=@_;
 my ($ref,$opf);
 my %aesopf = (	"faesencx"	=> 0x90,
 		"faesdecx"	=> 0x91,
 		"faesenclx"	=> 0x92,
 		"faesdeclx"	=> 0x93,
 		"faeskeyx"	=> 0x94	);
    $ref = "$mnemonic\t$rs1,$rs2,$rd";
    if (defined($opf=$aesopf{$mnemonic})) {
 	$rs2 = ($rs2 =~ /%f([0-6]*[02468])/) ? (($1|$1>>5)&31) : $rs2;
 	$rs2 = oct($rs2) if ($rs2 =~ /^0/);
 	foreach ($rs1,$rd) {
 	    return $ref if (!/%f([0-9]{1,2})/);
 	    $_=$1;
 	    if ($1>=32) {
 		return $ref if ($1&1);
 		# re-encode for upper double register addressing
 		$_=($1|$1>>5)&31;
 	    }
 	}
 	return	sprintf ".word\t0x%08x !%s",
 			2<<30|$rd<<25|0x36<<19|$rs1<<14|$opf<<5|$rs2,
 			$ref;
    } else {
 	return $ref;
    }
 }
 foreach (split("\n",$code)) {
    s/\`([^\`]*)\`/eval $1/ge;
    s/\b(faes[^x]{3,4}x)\s+(%f[0-9]{1,2}),\s*([%fx0-9]+),\s*(%f[0-9]{1,2})/
 		&unfx($1,$2,$3,$4,$5)
     /ge or
    s/\b([fb][^\s]*)\s+(%f[0-9]{1,2}),\s*(%f[0-9]{1,2}),\s*(%f[0-9]{1,2})/
 		&unvis($1,$2,$3,$4)
     /ge or
    s/\b(alignaddr[l]*)\s+(%[goli][0-7]),\s*(%[goli][0-7]),\s*(%[goli][0-7])/
 		&unvis3($1,$2,$3,$4)
     /ge;
    print $_,"\n";
 }
 close STDOUT;
--- a/crypto/aes/build.info
+++ b/crypto/aes/build.info
@ -25,6 +25,8 @@ INCLUDE[aes-sparcv9.o]=..
 GENERATE[aest4-sparcv9.S]=asm/aest4-sparcv9.pl $(PERLASM_SCHEME)
 INCLUDE[aest4-sparcv9.o]=..
 DEPEND[aest4-sparcv9.S]=../perlasm/sparcv9_modes.pl
 GENERATE[aesfx-sparcv9.S]=asm/aesfx-sparcv9.pl $(PERLASM_SCHEME)
 INCLUDE[aesfx-sparcv9.o]=..
 GENERATE[aes-ppc.s]=asm/aes-ppc.pl $(PERLASM_SCHEME)
 GENERATE[vpaes-ppc.s]=asm/vpaes-ppc.pl $(PERLASM_SCHEME)