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Diffstat (limited to 'app/openssl/crypto/aes/asm/aes-s390x.pl')
-rw-r--r--app/openssl/crypto/aes/asm/aes-s390x.pl1054
1 files changed, 976 insertions, 78 deletions
diff --git a/app/openssl/crypto/aes/asm/aes-s390x.pl b/app/openssl/crypto/aes/asm/aes-s390x.pl
index 7e018892..e75dcd03 100644
--- a/app/openssl/crypto/aes/asm/aes-s390x.pl
+++ b/app/openssl/crypto/aes/asm/aes-s390x.pl
@@ -44,12 +44,57 @@
# Unlike previous version hardware support detection takes place only
# at the moment of key schedule setup, which is denoted in key->rounds.
# This is done, because deferred key setup can't be made MT-safe, not
-# for key lengthes longer than 128 bits.
+# for keys longer than 128 bits.
#
# Add AES_cbc_encrypt, which gives incredible performance improvement,
# it was measured to be ~6.6x. It's less than previously mentioned 8x,
# because software implementation was optimized.
+# May 2010.
+#
+# Add AES_ctr32_encrypt. If hardware-assisted, it provides up to 4.3x
+# performance improvement over "generic" counter mode routine relying
+# on single-block, also hardware-assisted, AES_encrypt. "Up to" refers
+# to the fact that exact throughput value depends on current stack
+# frame alignment within 4KB page. In worst case you get ~75% of the
+# maximum, but *on average* it would be as much as ~98%. Meaning that
+# worst case is unlike, it's like hitting ravine on plateau.
+
+# November 2010.
+#
+# Adapt for -m31 build. If kernel supports what's called "highgprs"
+# feature on Linux [see /proc/cpuinfo], it's possible to use 64-bit
+# instructions and achieve "64-bit" performance even in 31-bit legacy
+# application context. The feature is not specific to any particular
+# processor, as long as it's "z-CPU". Latter implies that the code
+# remains z/Architecture specific. On z990 it was measured to perform
+# 2x better than code generated by gcc 4.3.
+
+# December 2010.
+#
+# Add support for z196 "cipher message with counter" instruction.
+# Note however that it's disengaged, because it was measured to
+# perform ~12% worse than vanilla km-based code...
+
+# February 2011.
+#
+# Add AES_xts_[en|de]crypt. This includes support for z196 km-xts-aes
+# instructions, which deliver ~70% improvement at 8KB block size over
+# vanilla km-based code, 37% - at most like 512-bytes block size.
+
+$flavour = shift;
+
+if ($flavour =~ /3[12]/) {
+ $SIZE_T=4;
+ $g="";
+} else {
+ $SIZE_T=8;
+ $g="g";
+}
+
+while (($output=shift) && ($output!~/^\w[\w\-]*\.\w+$/)) {}
+open STDOUT,">$output";
+
$softonly=0; # allow hardware support
$t0="%r0"; $mask="%r0";
@@ -69,6 +114,8 @@ $rounds="%r13";
$ra="%r14";
$sp="%r15";
+$stdframe=16*$SIZE_T+4*8;
+
sub _data_word()
{ my $i;
while(defined($i=shift)) { $code.=sprintf".long\t0x%08x,0x%08x\n",$i,$i; }
@@ -210,7 +257,7 @@ $code.=<<___ if (!$softonly);
.Lesoft:
___
$code.=<<___;
- stmg %r3,$ra,24($sp)
+ stm${g} %r3,$ra,3*$SIZE_T($sp)
llgf $s0,0($inp)
llgf $s1,4($inp)
@@ -220,20 +267,20 @@ $code.=<<___;
larl $tbl,AES_Te
bras $ra,_s390x_AES_encrypt
- lg $out,24($sp)
+ l${g} $out,3*$SIZE_T($sp)
st $s0,0($out)
st $s1,4($out)
st $s2,8($out)
st $s3,12($out)
- lmg %r6,$ra,48($sp)
+ lm${g} %r6,$ra,6*$SIZE_T($sp)
br $ra
.size AES_encrypt,.-AES_encrypt
.type _s390x_AES_encrypt,\@function
.align 16
_s390x_AES_encrypt:
- stg $ra,152($sp)
+ st${g} $ra,15*$SIZE_T($sp)
x $s0,0($key)
x $s1,4($key)
x $s2,8($key)
@@ -397,7 +444,7 @@ _s390x_AES_encrypt:
or $s2,$i3
or $s3,$t3
- lg $ra,152($sp)
+ l${g} $ra,15*$SIZE_T($sp)
xr $s0,$t0
xr $s1,$t2
x $s2,24($key)
@@ -536,7 +583,7 @@ $code.=<<___ if (!$softonly);
.Ldsoft:
___
$code.=<<___;
- stmg %r3,$ra,24($sp)
+ stm${g} %r3,$ra,3*$SIZE_T($sp)
llgf $s0,0($inp)
llgf $s1,4($inp)
@@ -546,20 +593,20 @@ $code.=<<___;
larl $tbl,AES_Td
bras $ra,_s390x_AES_decrypt
- lg $out,24($sp)
+ l${g} $out,3*$SIZE_T($sp)
st $s0,0($out)
st $s1,4($out)
st $s2,8($out)
st $s3,12($out)
- lmg %r6,$ra,48($sp)
+ lm${g} %r6,$ra,6*$SIZE_T($sp)
br $ra
.size AES_decrypt,.-AES_decrypt
.type _s390x_AES_decrypt,\@function
.align 16
_s390x_AES_decrypt:
- stg $ra,152($sp)
+ st${g} $ra,15*$SIZE_T($sp)
x $s0,0($key)
x $s1,4($key)
x $s2,8($key)
@@ -703,7 +750,7 @@ _s390x_AES_decrypt:
nr $i1,$mask
nr $i2,$mask
- lg $ra,152($sp)
+ l${g} $ra,15*$SIZE_T($sp)
or $s1,$t1
l $t0,16($key)
l $t1,20($key)
@@ -732,14 +779,15 @@ ___
$code.=<<___;
# void AES_set_encrypt_key(const unsigned char *in, int bits,
# AES_KEY *key) {
-.globl AES_set_encrypt_key
-.type AES_set_encrypt_key,\@function
+.globl private_AES_set_encrypt_key
+.type private_AES_set_encrypt_key,\@function
.align 16
-AES_set_encrypt_key:
+private_AES_set_encrypt_key:
+_s390x_AES_set_encrypt_key:
lghi $t0,0
- clgr $inp,$t0
+ cl${g}r $inp,$t0
je .Lminus1
- clgr $key,$t0
+ cl${g}r $key,$t0
je .Lminus1
lghi $t0,128
@@ -789,7 +837,8 @@ $code.=<<___ if (!$softonly);
je 1f
lg %r1,24($inp)
stg %r1,24($key)
-1: st $bits,236($key) # save bits
+1: st $bits,236($key) # save bits [for debugging purposes]
+ lgr $t0,%r5
st %r5,240($key) # save km code
lghi %r2,0
br %r14
@@ -797,7 +846,7 @@ ___
$code.=<<___;
.align 16
.Lekey_internal:
- stmg %r6,%r13,48($sp) # all non-volatile regs
+ stm${g} %r4,%r13,4*$SIZE_T($sp) # all non-volatile regs and $key
larl $tbl,AES_Te+2048
@@ -857,8 +906,9 @@ $code.=<<___;
la $key,16($key) # key+=4
la $t3,4($t3) # i++
brct $rounds,.L128_loop
+ lghi $t0,10
lghi %r2,0
- lmg %r6,%r13,48($sp)
+ lm${g} %r4,%r13,4*$SIZE_T($sp)
br $ra
.align 16
@@ -905,8 +955,9 @@ $code.=<<___;
st $s2,32($key)
st $s3,36($key)
brct $rounds,.L192_continue
+ lghi $t0,12
lghi %r2,0
- lmg %r6,%r13,48($sp)
+ lm${g} %r4,%r13,4*$SIZE_T($sp)
br $ra
.align 16
@@ -967,8 +1018,9 @@ $code.=<<___;
st $s2,40($key)
st $s3,44($key)
brct $rounds,.L256_continue
+ lghi $t0,14
lghi %r2,0
- lmg %r6,%r13,48($sp)
+ lm${g} %r4,%r13,4*$SIZE_T($sp)
br $ra
.align 16
@@ -1011,42 +1063,34 @@ $code.=<<___;
.Lminus1:
lghi %r2,-1
br $ra
-.size AES_set_encrypt_key,.-AES_set_encrypt_key
+.size private_AES_set_encrypt_key,.-private_AES_set_encrypt_key
# void AES_set_decrypt_key(const unsigned char *in, int bits,
# AES_KEY *key) {
-.globl AES_set_decrypt_key
-.type AES_set_decrypt_key,\@function
+.globl private_AES_set_decrypt_key
+.type private_AES_set_decrypt_key,\@function
.align 16
-AES_set_decrypt_key:
- stg $key,32($sp) # I rely on AES_set_encrypt_key to
- stg $ra,112($sp) # save non-volatile registers!
- bras $ra,AES_set_encrypt_key
- lg $key,32($sp)
- lg $ra,112($sp)
+private_AES_set_decrypt_key:
+ #st${g} $key,4*$SIZE_T($sp) # I rely on AES_set_encrypt_key to
+ st${g} $ra,14*$SIZE_T($sp) # save non-volatile registers and $key!
+ bras $ra,_s390x_AES_set_encrypt_key
+ #l${g} $key,4*$SIZE_T($sp)
+ l${g} $ra,14*$SIZE_T($sp)
ltgr %r2,%r2
bnzr $ra
___
$code.=<<___ if (!$softonly);
- l $t0,240($key)
+ #l $t0,240($key)
lhi $t1,16
cr $t0,$t1
jl .Lgo
oill $t0,0x80 # set "decrypt" bit
st $t0,240($key)
br $ra
-
-.align 16
-.Ldkey_internal:
- stg $key,32($sp)
- stg $ra,40($sp)
- bras $ra,.Lekey_internal
- lg $key,32($sp)
- lg $ra,40($sp)
___
$code.=<<___;
-
-.Lgo: llgf $rounds,240($key)
+.align 16
+.Lgo: lgr $rounds,$t0 #llgf $rounds,240($key)
la $i1,0($key)
sllg $i2,$rounds,4
la $i2,0($i2,$key)
@@ -1123,13 +1167,14 @@ $code.=<<___;
la $key,4($key)
brct $rounds,.Lmix
- lmg %r6,%r13,48($sp)# as was saved by AES_set_encrypt_key!
+ lm${g} %r6,%r13,6*$SIZE_T($sp)# as was saved by AES_set_encrypt_key!
lghi %r2,0
br $ra
-.size AES_set_decrypt_key,.-AES_set_decrypt_key
+.size private_AES_set_decrypt_key,.-private_AES_set_decrypt_key
___
-#void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
+########################################################################
+# void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
# size_t length, const AES_KEY *key,
# unsigned char *ivec, const int enc)
{
@@ -1163,7 +1208,7 @@ $code.=<<___ if (!$softonly);
l %r0,240($key) # load kmc code
lghi $key,15 # res=len%16, len-=res;
ngr $key,$len
- slgr $len,$key
+ sl${g}r $len,$key
la %r1,16($sp) # parameter block - ivec || key
jz .Lkmc_truncated
.long 0xb92f0042 # kmc %r4,%r2
@@ -1181,34 +1226,34 @@ $code.=<<___ if (!$softonly);
tmll %r0,0x80
jnz .Lkmc_truncated_dec
lghi %r1,0
- stg %r1,128($sp)
- stg %r1,136($sp)
+ stg %r1,16*$SIZE_T($sp)
+ stg %r1,16*$SIZE_T+8($sp)
bras %r1,1f
- mvc 128(1,$sp),0($inp)
+ mvc 16*$SIZE_T(1,$sp),0($inp)
1: ex $key,0(%r1)
la %r1,16($sp) # restore parameter block
- la $inp,128($sp)
+ la $inp,16*$SIZE_T($sp)
lghi $len,16
.long 0xb92f0042 # kmc %r4,%r2
j .Lkmc_done
.align 16
.Lkmc_truncated_dec:
- stg $out,64($sp)
- la $out,128($sp)
+ st${g} $out,4*$SIZE_T($sp)
+ la $out,16*$SIZE_T($sp)
lghi $len,16
.long 0xb92f0042 # kmc %r4,%r2
- lg $out,64($sp)
+ l${g} $out,4*$SIZE_T($sp)
bras %r1,2f
- mvc 0(1,$out),128($sp)
+ mvc 0(1,$out),16*$SIZE_T($sp)
2: ex $key,0(%r1)
j .Lkmc_done
.align 16
.Lcbc_software:
___
$code.=<<___;
- stmg $key,$ra,40($sp)
+ stm${g} $key,$ra,5*$SIZE_T($sp)
lhi %r0,0
- cl %r0,164($sp)
+ cl %r0,`$stdframe+$SIZE_T-4`($sp)
je .Lcbc_decrypt
larl $tbl,AES_Te
@@ -1219,10 +1264,10 @@ $code.=<<___;
llgf $s3,12($ivp)
lghi $t0,16
- slgr $len,$t0
+ sl${g}r $len,$t0
brc 4,.Lcbc_enc_tail # if borrow
.Lcbc_enc_loop:
- stmg $inp,$out,16($sp)
+ stm${g} $inp,$out,2*$SIZE_T($sp)
x $s0,0($inp)
x $s1,4($inp)
x $s2,8($inp)
@@ -1231,7 +1276,7 @@ $code.=<<___;
bras $ra,_s390x_AES_encrypt
- lmg $inp,$key,16($sp)
+ lm${g} $inp,$key,2*$SIZE_T($sp)
st $s0,0($out)
st $s1,4($out)
st $s2,8($out)
@@ -1240,33 +1285,33 @@ $code.=<<___;
la $inp,16($inp)
la $out,16($out)
lghi $t0,16
- ltgr $len,$len
+ lt${g}r $len,$len
jz .Lcbc_enc_done
- slgr $len,$t0
+ sl${g}r $len,$t0
brc 4,.Lcbc_enc_tail # if borrow
j .Lcbc_enc_loop
.align 16
.Lcbc_enc_done:
- lg $ivp,48($sp)
+ l${g} $ivp,6*$SIZE_T($sp)
st $s0,0($ivp)
st $s1,4($ivp)
st $s2,8($ivp)
st $s3,12($ivp)
- lmg %r7,$ra,56($sp)
+ lm${g} %r7,$ra,7*$SIZE_T($sp)
br $ra
.align 16
.Lcbc_enc_tail:
aghi $len,15
lghi $t0,0
- stg $t0,128($sp)
- stg $t0,136($sp)
+ stg $t0,16*$SIZE_T($sp)
+ stg $t0,16*$SIZE_T+8($sp)
bras $t1,3f
- mvc 128(1,$sp),0($inp)
+ mvc 16*$SIZE_T(1,$sp),0($inp)
3: ex $len,0($t1)
lghi $len,0
- la $inp,128($sp)
+ la $inp,16*$SIZE_T($sp)
j .Lcbc_enc_loop
.align 16
@@ -1275,10 +1320,10 @@ $code.=<<___;
lg $t0,0($ivp)
lg $t1,8($ivp)
- stmg $t0,$t1,128($sp)
+ stmg $t0,$t1,16*$SIZE_T($sp)
.Lcbc_dec_loop:
- stmg $inp,$out,16($sp)
+ stm${g} $inp,$out,2*$SIZE_T($sp)
llgf $s0,0($inp)
llgf $s1,4($inp)
llgf $s2,8($inp)
@@ -1287,7 +1332,7 @@ $code.=<<___;
bras $ra,_s390x_AES_decrypt
- lmg $inp,$key,16($sp)
+ lm${g} $inp,$key,2*$SIZE_T($sp)
sllg $s0,$s0,32
sllg $s2,$s2,32
lr $s0,$s1
@@ -1295,15 +1340,15 @@ $code.=<<___;
lg $t0,0($inp)
lg $t1,8($inp)
- xg $s0,128($sp)
- xg $s2,136($sp)
+ xg $s0,16*$SIZE_T($sp)
+ xg $s2,16*$SIZE_T+8($sp)
lghi $s1,16
- slgr $len,$s1
+ sl${g}r $len,$s1
brc 4,.Lcbc_dec_tail # if borrow
brc 2,.Lcbc_dec_done # if zero
stg $s0,0($out)
stg $s2,8($out)
- stmg $t0,$t1,128($sp)
+ stmg $t0,$t1,16*$SIZE_T($sp)
la $inp,16($inp)
la $out,16($out)
@@ -1313,7 +1358,7 @@ $code.=<<___;
stg $s0,0($out)
stg $s2,8($out)
.Lcbc_dec_exit:
- lmg $ivp,$ra,48($sp)
+ lm${g} %r6,$ra,6*$SIZE_T($sp)
stmg $t0,$t1,0($ivp)
br $ra
@@ -1321,19 +1366,872 @@ $code.=<<___;
.align 16
.Lcbc_dec_tail:
aghi $len,15
- stg $s0,128($sp)
- stg $s2,136($sp)
+ stg $s0,16*$SIZE_T($sp)
+ stg $s2,16*$SIZE_T+8($sp)
bras $s1,4f
- mvc 0(1,$out),128($sp)
+ mvc 0(1,$out),16*$SIZE_T($sp)
4: ex $len,0($s1)
j .Lcbc_dec_exit
.size AES_cbc_encrypt,.-AES_cbc_encrypt
-.comm OPENSSL_s390xcap_P,8,8
+___
+}
+########################################################################
+# void AES_ctr32_encrypt(const unsigned char *in, unsigned char *out,
+# size_t blocks, const AES_KEY *key,
+# const unsigned char *ivec)
+{
+my $inp="%r2";
+my $out="%r4"; # blocks and out are swapped
+my $len="%r3";
+my $key="%r5"; my $iv0="%r5";
+my $ivp="%r6";
+my $fp ="%r7";
+
+$code.=<<___;
+.globl AES_ctr32_encrypt
+.type AES_ctr32_encrypt,\@function
+.align 16
+AES_ctr32_encrypt:
+ xgr %r3,%r4 # flip %r3 and %r4, $out and $len
+ xgr %r4,%r3
+ xgr %r3,%r4
+ llgfr $len,$len # safe in ctr32 subroutine even in 64-bit case
+___
+$code.=<<___ if (!$softonly);
+ l %r0,240($key)
+ lhi %r1,16
+ clr %r0,%r1
+ jl .Lctr32_software
+
+ stm${g} %r6,$s3,6*$SIZE_T($sp)
+
+ slgr $out,$inp
+ la %r1,0($key) # %r1 is permanent copy of $key
+ lg $iv0,0($ivp) # load ivec
+ lg $ivp,8($ivp)
+
+ # prepare and allocate stack frame at the top of 4K page
+ # with 1K reserved for eventual signal handling
+ lghi $s0,-1024-256-16# guarantee at least 256-bytes buffer
+ lghi $s1,-4096
+ algr $s0,$sp
+ lgr $fp,$sp
+ ngr $s0,$s1 # align at page boundary
+ slgr $fp,$s0 # total buffer size
+ lgr $s2,$sp
+ lghi $s1,1024+16 # sl[g]fi is extended-immediate facility
+ slgr $fp,$s1 # deduct reservation to get usable buffer size
+ # buffer size is at lest 256 and at most 3072+256-16
+
+ la $sp,1024($s0) # alloca
+ srlg $fp,$fp,4 # convert bytes to blocks, minimum 16
+ st${g} $s2,0($sp) # back-chain
+ st${g} $fp,$SIZE_T($sp)
+
+ slgr $len,$fp
+ brc 1,.Lctr32_hw_switch # not zero, no borrow
+ algr $fp,$len # input is shorter than allocated buffer
+ lghi $len,0
+ st${g} $fp,$SIZE_T($sp)
+
+.Lctr32_hw_switch:
+___
+$code.=<<___ if (0); ######### kmctr code was measured to be ~12% slower
+ larl $s0,OPENSSL_s390xcap_P
+ lg $s0,8($s0)
+ tmhh $s0,0x0004 # check for message_security-assist-4
+ jz .Lctr32_km_loop
+
+ llgfr $s0,%r0
+ lgr $s1,%r1
+ lghi %r0,0
+ la %r1,16($sp)
+ .long 0xb92d2042 # kmctr %r4,%r2,%r2
+
+ llihh %r0,0x8000 # check if kmctr supports the function code
+ srlg %r0,%r0,0($s0)
+ ng %r0,16($sp)
+ lgr %r0,$s0
+ lgr %r1,$s1
+ jz .Lctr32_km_loop
+
+####### kmctr code
+ algr $out,$inp # restore $out
+ lgr $s1,$len # $s1 undertakes $len
+ j .Lctr32_kmctr_loop
+.align 16
+.Lctr32_kmctr_loop:
+ la $s2,16($sp)
+ lgr $s3,$fp
+.Lctr32_kmctr_prepare:
+ stg $iv0,0($s2)
+ stg $ivp,8($s2)
+ la $s2,16($s2)
+ ahi $ivp,1 # 32-bit increment, preserves upper half
+ brct $s3,.Lctr32_kmctr_prepare
+
+ #la $inp,0($inp) # inp
+ sllg $len,$fp,4 # len
+ #la $out,0($out) # out
+ la $s2,16($sp) # iv
+ .long 0xb92da042 # kmctr $out,$s2,$inp
+ brc 1,.-4 # pay attention to "partial completion"
+
+ slgr $s1,$fp
+ brc 1,.Lctr32_kmctr_loop # not zero, no borrow
+ algr $fp,$s1
+ lghi $s1,0
+ brc 4+1,.Lctr32_kmctr_loop # not zero
+
+ l${g} $sp,0($sp)
+ lm${g} %r6,$s3,6*$SIZE_T($sp)
+ br $ra
+.align 16
+___
+$code.=<<___;
+.Lctr32_km_loop:
+ la $s2,16($sp)
+ lgr $s3,$fp
+.Lctr32_km_prepare:
+ stg $iv0,0($s2)
+ stg $ivp,8($s2)
+ la $s2,16($s2)
+ ahi $ivp,1 # 32-bit increment, preserves upper half
+ brct $s3,.Lctr32_km_prepare
+
+ la $s0,16($sp) # inp
+ sllg $s1,$fp,4 # len
+ la $s2,16($sp) # out
+ .long 0xb92e00a8 # km %r10,%r8
+ brc 1,.-4 # pay attention to "partial completion"
+
+ la $s2,16($sp)
+ lgr $s3,$fp
+ slgr $s2,$inp
+.Lctr32_km_xor:
+ lg $s0,0($inp)
+ lg $s1,8($inp)
+ xg $s0,0($s2,$inp)
+ xg $s1,8($s2,$inp)
+ stg $s0,0($out,$inp)
+ stg $s1,8($out,$inp)
+ la $inp,16($inp)
+ brct $s3,.Lctr32_km_xor
+
+ slgr $len,$fp
+ brc 1,.Lctr32_km_loop # not zero, no borrow
+ algr $fp,$len
+ lghi $len,0
+ brc 4+1,.Lctr32_km_loop # not zero
+
+ l${g} $s0,0($sp)
+ l${g} $s1,$SIZE_T($sp)
+ la $s2,16($sp)
+.Lctr32_km_zap:
+ stg $s0,0($s2)
+ stg $s0,8($s2)
+ la $s2,16($s2)
+ brct $s1,.Lctr32_km_zap
+
+ la $sp,0($s0)
+ lm${g} %r6,$s3,6*$SIZE_T($sp)
+ br $ra
+.align 16
+.Lctr32_software:
+___
+$code.=<<___;
+ stm${g} $key,$ra,5*$SIZE_T($sp)
+ sl${g}r $inp,$out
+ larl $tbl,AES_Te
+ llgf $t1,12($ivp)
+
+.Lctr32_loop:
+ stm${g} $inp,$out,2*$SIZE_T($sp)
+ llgf $s0,0($ivp)
+ llgf $s1,4($ivp)
+ llgf $s2,8($ivp)
+ lgr $s3,$t1
+ st $t1,16*$SIZE_T($sp)
+ lgr %r4,$key
+
+ bras $ra,_s390x_AES_encrypt
+
+ lm${g} $inp,$ivp,2*$SIZE_T($sp)
+ llgf $t1,16*$SIZE_T($sp)
+ x $s0,0($inp,$out)
+ x $s1,4($inp,$out)
+ x $s2,8($inp,$out)
+ x $s3,12($inp,$out)
+ stm $s0,$s3,0($out)
+
+ la $out,16($out)
+ ahi $t1,1 # 32-bit increment
+ brct $len,.Lctr32_loop
+
+ lm${g} %r6,$ra,6*$SIZE_T($sp)
+ br $ra
+.size AES_ctr32_encrypt,.-AES_ctr32_encrypt
+___
+}
+
+########################################################################
+# void AES_xts_encrypt(const char *inp,char *out,size_t len,
+# const AES_KEY *key1, const AES_KEY *key2,
+# const unsigned char iv[16]);
+#
+{
+my $inp="%r2";
+my $out="%r4"; # len and out are swapped
+my $len="%r3";
+my $key1="%r5"; # $i1
+my $key2="%r6"; # $i2
+my $fp="%r7"; # $i3
+my $tweak=16*$SIZE_T+16; # or $stdframe-16, bottom of the frame...
+
+$code.=<<___;
+.type _s390x_xts_km,\@function
+.align 16
+_s390x_xts_km:
+___
+$code.=<<___ if(1);
+ llgfr $s0,%r0 # put aside the function code
+ lghi $s1,0x7f
+ nr $s1,%r0
+ lghi %r0,0 # query capability vector
+ la %r1,$tweak-16($sp)
+ .long 0xb92e0042 # km %r4,%r2
+ llihh %r1,0x8000
+ srlg %r1,%r1,32($s1) # check for 32+function code
+ ng %r1,$tweak-16($sp)
+ lgr %r0,$s0 # restore the function code
+ la %r1,0($key1) # restore $key1
+ jz .Lxts_km_vanilla
+
+ lmg $i2,$i3,$tweak($sp) # put aside the tweak value
+ algr $out,$inp
+
+ oill %r0,32 # switch to xts function code
+ aghi $s1,-18 #
+ sllg $s1,$s1,3 # (function code - 18)*8, 0 or 16
+ la %r1,$tweak-16($sp)
+ slgr %r1,$s1 # parameter block position
+ lmg $s0,$s3,0($key1) # load 256 bits of key material,
+ stmg $s0,$s3,0(%r1) # and copy it to parameter block.
+ # yes, it contains junk and overlaps
+ # with the tweak in 128-bit case.
+ # it's done to avoid conditional
+ # branch.
+ stmg $i2,$i3,$tweak($sp) # "re-seat" the tweak value
+
+ .long 0xb92e0042 # km %r4,%r2
+ brc 1,.-4 # pay attention to "partial completion"
+
+ lrvg $s0,$tweak+0($sp) # load the last tweak
+ lrvg $s1,$tweak+8($sp)
+ stmg %r0,%r3,$tweak-32($sp) # wipe copy of the key
+
+ nill %r0,0xffdf # switch back to original function code
+ la %r1,0($key1) # restore pointer to $key1
+ slgr $out,$inp
+
+ llgc $len,2*$SIZE_T-1($sp)
+ nill $len,0x0f # $len%=16
+ br $ra
+
+.align 16
+.Lxts_km_vanilla:
+___
+$code.=<<___;
+ # prepare and allocate stack frame at the top of 4K page
+ # with 1K reserved for eventual signal handling
+ lghi $s0,-1024-256-16# guarantee at least 256-bytes buffer
+ lghi $s1,-4096
+ algr $s0,$sp
+ lgr $fp,$sp
+ ngr $s0,$s1 # align at page boundary
+ slgr $fp,$s0 # total buffer size
+ lgr $s2,$sp
+ lghi $s1,1024+16 # sl[g]fi is extended-immediate facility
+ slgr $fp,$s1 # deduct reservation to get usable buffer size
+ # buffer size is at lest 256 and at most 3072+256-16
+
+ la $sp,1024($s0) # alloca
+ nill $fp,0xfff0 # round to 16*n
+ st${g} $s2,0($sp) # back-chain
+ nill $len,0xfff0 # redundant
+ st${g} $fp,$SIZE_T($sp)
+
+ slgr $len,$fp
+ brc 1,.Lxts_km_go # not zero, no borrow
+ algr $fp,$len # input is shorter than allocated buffer
+ lghi $len,0
+ st${g} $fp,$SIZE_T($sp)
+
+.Lxts_km_go:
+ lrvg $s0,$tweak+0($s2) # load the tweak value in little-endian
+ lrvg $s1,$tweak+8($s2)
+
+ la $s2,16($sp) # vector of ascending tweak values
+ slgr $s2,$inp
+ srlg $s3,$fp,4
+ j .Lxts_km_start
+
+.Lxts_km_loop:
+ la $s2,16($sp)
+ slgr $s2,$inp
+ srlg $s3,$fp,4
+.Lxts_km_prepare:
+ lghi $i1,0x87
+ srag $i2,$s1,63 # broadcast upper bit
+ ngr $i1,$i2 # rem
+ algr $s0,$s0
+ alcgr $s1,$s1
+ xgr $s0,$i1
+.Lxts_km_start:
+ lrvgr $i1,$s0 # flip byte order
+ lrvgr $i2,$s1
+ stg $i1,0($s2,$inp)
+ stg $i2,8($s2,$inp)
+ xg $i1,0($inp)
+ xg $i2,8($inp)
+ stg $i1,0($out,$inp)
+ stg $i2,8($out,$inp)
+ la $inp,16($inp)
+ brct $s3,.Lxts_km_prepare
+
+ slgr $inp,$fp # rewind $inp
+ la $s2,0($out,$inp)
+ lgr $s3,$fp
+ .long 0xb92e00aa # km $s2,$s2
+ brc 1,.-4 # pay attention to "partial completion"
+
+ la $s2,16($sp)
+ slgr $s2,$inp
+ srlg $s3,$fp,4
+.Lxts_km_xor:
+ lg $i1,0($out,$inp)
+ lg $i2,8($out,$inp)
+ xg $i1,0($s2,$inp)
+ xg $i2,8($s2,$inp)
+ stg $i1,0($out,$inp)
+ stg $i2,8($out,$inp)
+ la $inp,16($inp)
+ brct $s3,.Lxts_km_xor
+
+ slgr $len,$fp
+ brc 1,.Lxts_km_loop # not zero, no borrow
+ algr $fp,$len
+ lghi $len,0
+ brc 4+1,.Lxts_km_loop # not zero
+
+ l${g} $i1,0($sp) # back-chain
+ llgf $fp,`2*$SIZE_T-4`($sp) # bytes used
+ la $i2,16($sp)
+ srlg $fp,$fp,4
+.Lxts_km_zap:
+ stg $i1,0($i2)
+ stg $i1,8($i2)
+ la $i2,16($i2)
+ brct $fp,.Lxts_km_zap
+
+ la $sp,0($i1)
+ llgc $len,2*$SIZE_T-1($i1)
+ nill $len,0x0f # $len%=16
+ bzr $ra
+
+ # generate one more tweak...
+ lghi $i1,0x87
+ srag $i2,$s1,63 # broadcast upper bit
+ ngr $i1,$i2 # rem
+ algr $s0,$s0
+ alcgr $s1,$s1
+ xgr $s0,$i1
+
+ ltr $len,$len # clear zero flag
+ br $ra
+.size _s390x_xts_km,.-_s390x_xts_km
+
+.globl AES_xts_encrypt
+.type AES_xts_encrypt,\@function
+.align 16
+AES_xts_encrypt:
+ xgr %r3,%r4 # flip %r3 and %r4, $out and $len
+ xgr %r4,%r3
+ xgr %r3,%r4
+___
+$code.=<<___ if ($SIZE_T==4);
+ llgfr $len,$len
+___
+$code.=<<___;
+ st${g} $len,1*$SIZE_T($sp) # save copy of $len
+ srag $len,$len,4 # formally wrong, because it expands
+ # sign byte, but who can afford asking
+ # to process more than 2^63-1 bytes?
+ # I use it, because it sets condition
+ # code...
+ bcr 8,$ra # abort if zero (i.e. less than 16)
+___
+$code.=<<___ if (!$softonly);
+ llgf %r0,240($key2)
+ lhi %r1,16
+ clr %r0,%r1
+ jl .Lxts_enc_software
+
+ st${g} $ra,5*$SIZE_T($sp)
+ stm${g} %r6,$s3,6*$SIZE_T($sp)
+
+ sllg $len,$len,4 # $len&=~15
+ slgr $out,$inp
+
+ # generate the tweak value
+ l${g} $s3,$stdframe($sp) # pointer to iv
+ la $s2,$tweak($sp)
+ lmg $s0,$s1,0($s3)
+ lghi $s3,16
+ stmg $s0,$s1,0($s2)
+ la %r1,0($key2) # $key2 is not needed anymore
+ .long 0xb92e00aa # km $s2,$s2, generate the tweak
+ brc 1,.-4 # can this happen?
+
+ l %r0,240($key1)
+ la %r1,0($key1) # $key1 is not needed anymore
+ bras $ra,_s390x_xts_km
+ jz .Lxts_enc_km_done
+
+ aghi $inp,-16 # take one step back
+ la $i3,0($out,$inp) # put aside real $out
+.Lxts_enc_km_steal:
+ llgc $i1,16($inp)
+ llgc $i2,0($out,$inp)
+ stc $i1,0($out,$inp)
+ stc $i2,16($out,$inp)
+ la $inp,1($inp)
+ brct $len,.Lxts_enc_km_steal
+
+ la $s2,0($i3)
+ lghi $s3,16
+ lrvgr $i1,$s0 # flip byte order
+ lrvgr $i2,$s1
+ xg $i1,0($s2)
+ xg $i2,8($s2)
+ stg $i1,0($s2)
+ stg $i2,8($s2)
+ .long 0xb92e00aa # km $s2,$s2
+ brc 1,.-4 # can this happen?
+ lrvgr $i1,$s0 # flip byte order
+ lrvgr $i2,$s1
+ xg $i1,0($i3)
+ xg $i2,8($i3)
+ stg $i1,0($i3)
+ stg $i2,8($i3)
+
+.Lxts_enc_km_done:
+ stg $sp,$tweak+0($sp) # wipe tweak
+ stg $sp,$tweak+8($sp)
+ l${g} $ra,5*$SIZE_T($sp)
+ lm${g} %r6,$s3,6*$SIZE_T($sp)
+ br $ra
+.align 16
+.Lxts_enc_software:
+___
+$code.=<<___;
+ stm${g} %r6,$ra,6*$SIZE_T($sp)
+
+ slgr $out,$inp
+
+ l${g} $s3,$stdframe($sp) # ivp
+ llgf $s0,0($s3) # load iv
+ llgf $s1,4($s3)
+ llgf $s2,8($s3)
+ llgf $s3,12($s3)
+ stm${g} %r2,%r5,2*$SIZE_T($sp)
+ la $key,0($key2)
+ larl $tbl,AES_Te
+ bras $ra,_s390x_AES_encrypt # generate the tweak
+ lm${g} %r2,%r5,2*$SIZE_T($sp)
+ stm $s0,$s3,$tweak($sp) # save the tweak
+ j .Lxts_enc_enter
+
+.align 16
+.Lxts_enc_loop:
+ lrvg $s1,$tweak+0($sp) # load the tweak in little-endian
+ lrvg $s3,$tweak+8($sp)
+ lghi %r1,0x87
+ srag %r0,$s3,63 # broadcast upper bit
+ ngr %r1,%r0 # rem
+ algr $s1,$s1
+ alcgr $s3,$s3
+ xgr $s1,%r1
+ lrvgr $s1,$s1 # flip byte order
+ lrvgr $s3,$s3
+ srlg $s0,$s1,32 # smash the tweak to 4x32-bits
+ stg $s1,$tweak+0($sp) # save the tweak
+ llgfr $s1,$s1
+ srlg $s2,$s3,32
+ stg $s3,$tweak+8($sp)
+ llgfr $s3,$s3
+ la $inp,16($inp) # $inp+=16
+.Lxts_enc_enter:
+ x $s0,0($inp) # ^=*($inp)
+ x $s1,4($inp)
+ x $s2,8($inp)
+ x $s3,12($inp)
+ stm${g} %r2,%r3,2*$SIZE_T($sp) # only two registers are changing
+ la $key,0($key1)
+ bras $ra,_s390x_AES_encrypt
+ lm${g} %r2,%r5,2*$SIZE_T($sp)
+ x $s0,$tweak+0($sp) # ^=tweak
+ x $s1,$tweak+4($sp)
+ x $s2,$tweak+8($sp)
+ x $s3,$tweak+12($sp)
+ st $s0,0($out,$inp)
+ st $s1,4($out,$inp)
+ st $s2,8($out,$inp)
+ st $s3,12($out,$inp)
+ brct${g} $len,.Lxts_enc_loop
+
+ llgc $len,`2*$SIZE_T-1`($sp)
+ nill $len,0x0f # $len%16
+ jz .Lxts_enc_done
+
+ la $i3,0($inp,$out) # put aside real $out
+.Lxts_enc_steal:
+ llgc %r0,16($inp)
+ llgc %r1,0($out,$inp)
+ stc %r0,0($out,$inp)
+ stc %r1,16($out,$inp)
+ la $inp,1($inp)
+ brct $len,.Lxts_enc_steal
+ la $out,0($i3) # restore real $out
+
+ # generate last tweak...
+ lrvg $s1,$tweak+0($sp) # load the tweak in little-endian
+ lrvg $s3,$tweak+8($sp)
+ lghi %r1,0x87
+ srag %r0,$s3,63 # broadcast upper bit
+ ngr %r1,%r0 # rem
+ algr $s1,$s1
+ alcgr $s3,$s3
+ xgr $s1,%r1
+ lrvgr $s1,$s1 # flip byte order
+ lrvgr $s3,$s3
+ srlg $s0,$s1,32 # smash the tweak to 4x32-bits
+ stg $s1,$tweak+0($sp) # save the tweak
+ llgfr $s1,$s1
+ srlg $s2,$s3,32
+ stg $s3,$tweak+8($sp)
+ llgfr $s3,$s3
+
+ x $s0,0($out) # ^=*(inp)|stolen cipther-text
+ x $s1,4($out)
+ x $s2,8($out)
+ x $s3,12($out)
+ st${g} $out,4*$SIZE_T($sp)
+ la $key,0($key1)
+ bras $ra,_s390x_AES_encrypt
+ l${g} $out,4*$SIZE_T($sp)
+ x $s0,`$tweak+0`($sp) # ^=tweak
+ x $s1,`$tweak+4`($sp)
+ x $s2,`$tweak+8`($sp)
+ x $s3,`$tweak+12`($sp)
+ st $s0,0($out)
+ st $s1,4($out)
+ st $s2,8($out)
+ st $s3,12($out)
+
+.Lxts_enc_done:
+ stg $sp,$tweak+0($sp) # wipe tweak
+ stg $sp,$twesk+8($sp)
+ lm${g} %r6,$ra,6*$SIZE_T($sp)
+ br $ra
+.size AES_xts_encrypt,.-AES_xts_encrypt
+___
+# void AES_xts_decrypt(const char *inp,char *out,size_t len,
+# const AES_KEY *key1, const AES_KEY *key2,
+# const unsigned char iv[16]);
+#
+$code.=<<___;
+.globl AES_xts_decrypt
+.type AES_xts_decrypt,\@function
+.align 16
+AES_xts_decrypt:
+ xgr %r3,%r4 # flip %r3 and %r4, $out and $len
+ xgr %r4,%r3
+ xgr %r3,%r4
+___
+$code.=<<___ if ($SIZE_T==4);
+ llgfr $len,$len
+___
+$code.=<<___;
+ st${g} $len,1*$SIZE_T($sp) # save copy of $len
+ aghi $len,-16
+ bcr 4,$ra # abort if less than zero. formally
+ # wrong, because $len is unsigned,
+ # but who can afford asking to
+ # process more than 2^63-1 bytes?
+ tmll $len,0x0f
+ jnz .Lxts_dec_proceed
+ aghi $len,16
+.Lxts_dec_proceed:
+___
+$code.=<<___ if (!$softonly);
+ llgf %r0,240($key2)
+ lhi %r1,16
+ clr %r0,%r1
+ jl .Lxts_dec_software
+
+ st${g} $ra,5*$SIZE_T($sp)
+ stm${g} %r6,$s3,6*$SIZE_T($sp)
+
+ nill $len,0xfff0 # $len&=~15
+ slgr $out,$inp
+
+ # generate the tweak value
+ l${g} $s3,$stdframe($sp) # pointer to iv
+ la $s2,$tweak($sp)
+ lmg $s0,$s1,0($s3)
+ lghi $s3,16
+ stmg $s0,$s1,0($s2)
+ la %r1,0($key2) # $key2 is not needed past this point
+ .long 0xb92e00aa # km $s2,$s2, generate the tweak
+ brc 1,.-4 # can this happen?
+
+ l %r0,240($key1)
+ la %r1,0($key1) # $key1 is not needed anymore
+
+ ltgr $len,$len
+ jz .Lxts_dec_km_short
+ bras $ra,_s390x_xts_km
+ jz .Lxts_dec_km_done
+
+ lrvgr $s2,$s0 # make copy in reverse byte order
+ lrvgr $s3,$s1
+ j .Lxts_dec_km_2ndtweak
+
+.Lxts_dec_km_short:
+ llgc $len,`2*$SIZE_T-1`($sp)
+ nill $len,0x0f # $len%=16
+ lrvg $s0,$tweak+0($sp) # load the tweak
+ lrvg $s1,$tweak+8($sp)
+ lrvgr $s2,$s0 # make copy in reverse byte order
+ lrvgr $s3,$s1
+
+.Lxts_dec_km_2ndtweak:
+ lghi $i1,0x87
+ srag $i2,$s1,63 # broadcast upper bit
+ ngr $i1,$i2 # rem
+ algr $s0,$s0
+ alcgr $s1,$s1
+ xgr $s0,$i1
+ lrvgr $i1,$s0 # flip byte order
+ lrvgr $i2,$s1
+
+ xg $i1,0($inp)
+ xg $i2,8($inp)
+ stg $i1,0($out,$inp)
+ stg $i2,8($out,$inp)
+ la $i2,0($out,$inp)
+ lghi $i3,16
+ .long 0xb92e0066 # km $i2,$i2
+ brc 1,.-4 # can this happen?
+ lrvgr $i1,$s0
+ lrvgr $i2,$s1
+ xg $i1,0($out,$inp)
+ xg $i2,8($out,$inp)
+ stg $i1,0($out,$inp)
+ stg $i2,8($out,$inp)
+
+ la $i3,0($out,$inp) # put aside real $out
+.Lxts_dec_km_steal:
+ llgc $i1,16($inp)
+ llgc $i2,0($out,$inp)
+ stc $i1,0($out,$inp)
+ stc $i2,16($out,$inp)
+ la $inp,1($inp)
+ brct $len,.Lxts_dec_km_steal
+
+ lgr $s0,$s2
+ lgr $s1,$s3
+ xg $s0,0($i3)
+ xg $s1,8($i3)
+ stg $s0,0($i3)
+ stg $s1,8($i3)
+ la $s0,0($i3)
+ lghi $s1,16
+ .long 0xb92e0088 # km $s0,$s0
+ brc 1,.-4 # can this happen?
+ xg $s2,0($i3)
+ xg $s3,8($i3)
+ stg $s2,0($i3)
+ stg $s3,8($i3)
+.Lxts_dec_km_done:
+ stg $sp,$tweak+0($sp) # wipe tweak
+ stg $sp,$tweak+8($sp)
+ l${g} $ra,5*$SIZE_T($sp)
+ lm${g} %r6,$s3,6*$SIZE_T($sp)
+ br $ra
+.align 16
+.Lxts_dec_software:
+___
+$code.=<<___;
+ stm${g} %r6,$ra,6*$SIZE_T($sp)
+
+ srlg $len,$len,4
+ slgr $out,$inp
+
+ l${g} $s3,$stdframe($sp) # ivp
+ llgf $s0,0($s3) # load iv
+ llgf $s1,4($s3)
+ llgf $s2,8($s3)
+ llgf $s3,12($s3)
+ stm${g} %r2,%r5,2*$SIZE_T($sp)
+ la $key,0($key2)
+ larl $tbl,AES_Te
+ bras $ra,_s390x_AES_encrypt # generate the tweak
+ lm${g} %r2,%r5,2*$SIZE_T($sp)
+ larl $tbl,AES_Td
+ lt${g}r $len,$len
+ stm $s0,$s3,$tweak($sp) # save the tweak
+ jz .Lxts_dec_short
+ j .Lxts_dec_enter
+
+.align 16
+.Lxts_dec_loop:
+ lrvg $s1,$tweak+0($sp) # load the tweak in little-endian
+ lrvg $s3,$tweak+8($sp)
+ lghi %r1,0x87
+ srag %r0,$s3,63 # broadcast upper bit
+ ngr %r1,%r0 # rem
+ algr $s1,$s1
+ alcgr $s3,$s3
+ xgr $s1,%r1
+ lrvgr $s1,$s1 # flip byte order
+ lrvgr $s3,$s3
+ srlg $s0,$s1,32 # smash the tweak to 4x32-bits
+ stg $s1,$tweak+0($sp) # save the tweak
+ llgfr $s1,$s1
+ srlg $s2,$s3,32
+ stg $s3,$tweak+8($sp)
+ llgfr $s3,$s3
+.Lxts_dec_enter:
+ x $s0,0($inp) # tweak^=*(inp)
+ x $s1,4($inp)
+ x $s2,8($inp)
+ x $s3,12($inp)
+ stm${g} %r2,%r3,2*$SIZE_T($sp) # only two registers are changing
+ la $key,0($key1)
+ bras $ra,_s390x_AES_decrypt
+ lm${g} %r2,%r5,2*$SIZE_T($sp)
+ x $s0,$tweak+0($sp) # ^=tweak
+ x $s1,$tweak+4($sp)
+ x $s2,$tweak+8($sp)
+ x $s3,$tweak+12($sp)
+ st $s0,0($out,$inp)
+ st $s1,4($out,$inp)
+ st $s2,8($out,$inp)
+ st $s3,12($out,$inp)
+ la $inp,16($inp)
+ brct${g} $len,.Lxts_dec_loop
+
+ llgc $len,`2*$SIZE_T-1`($sp)
+ nill $len,0x0f # $len%16
+ jz .Lxts_dec_done
+
+ # generate pair of tweaks...
+ lrvg $s1,$tweak+0($sp) # load the tweak in little-endian
+ lrvg $s3,$tweak+8($sp)
+ lghi %r1,0x87
+ srag %r0,$s3,63 # broadcast upper bit
+ ngr %r1,%r0 # rem
+ algr $s1,$s1
+ alcgr $s3,$s3
+ xgr $s1,%r1
+ lrvgr $i2,$s1 # flip byte order
+ lrvgr $i3,$s3
+ stmg $i2,$i3,$tweak($sp) # save the 1st tweak
+ j .Lxts_dec_2ndtweak
+
+.align 16
+.Lxts_dec_short:
+ llgc $len,`2*$SIZE_T-1`($sp)
+ nill $len,0x0f # $len%16
+ lrvg $s1,$tweak+0($sp) # load the tweak in little-endian
+ lrvg $s3,$tweak+8($sp)
+.Lxts_dec_2ndtweak:
+ lghi %r1,0x87
+ srag %r0,$s3,63 # broadcast upper bit
+ ngr %r1,%r0 # rem
+ algr $s1,$s1
+ alcgr $s3,$s3
+ xgr $s1,%r1
+ lrvgr $s1,$s1 # flip byte order
+ lrvgr $s3,$s3
+ srlg $s0,$s1,32 # smash the tweak to 4x32-bits
+ stg $s1,$tweak-16+0($sp) # save the 2nd tweak
+ llgfr $s1,$s1
+ srlg $s2,$s3,32
+ stg $s3,$tweak-16+8($sp)
+ llgfr $s3,$s3
+
+ x $s0,0($inp) # tweak_the_2nd^=*(inp)
+ x $s1,4($inp)
+ x $s2,8($inp)
+ x $s3,12($inp)
+ stm${g} %r2,%r3,2*$SIZE_T($sp)
+ la $key,0($key1)
+ bras $ra,_s390x_AES_decrypt
+ lm${g} %r2,%r5,2*$SIZE_T($sp)
+ x $s0,$tweak-16+0($sp) # ^=tweak_the_2nd
+ x $s1,$tweak-16+4($sp)
+ x $s2,$tweak-16+8($sp)
+ x $s3,$tweak-16+12($sp)
+ st $s0,0($out,$inp)
+ st $s1,4($out,$inp)
+ st $s2,8($out,$inp)
+ st $s3,12($out,$inp)
+
+ la $i3,0($out,$inp) # put aside real $out
+.Lxts_dec_steal:
+ llgc %r0,16($inp)
+ llgc %r1,0($out,$inp)
+ stc %r0,0($out,$inp)
+ stc %r1,16($out,$inp)
+ la $inp,1($inp)
+ brct $len,.Lxts_dec_steal
+ la $out,0($i3) # restore real $out
+
+ lm $s0,$s3,$tweak($sp) # load the 1st tweak
+ x $s0,0($out) # tweak^=*(inp)|stolen cipher-text
+ x $s1,4($out)
+ x $s2,8($out)
+ x $s3,12($out)
+ st${g} $out,4*$SIZE_T($sp)
+ la $key,0($key1)
+ bras $ra,_s390x_AES_decrypt
+ l${g} $out,4*$SIZE_T($sp)
+ x $s0,$tweak+0($sp) # ^=tweak
+ x $s1,$tweak+4($sp)
+ x $s2,$tweak+8($sp)
+ x $s3,$tweak+12($sp)
+ st $s0,0($out)
+ st $s1,4($out)
+ st $s2,8($out)
+ st $s3,12($out)
+ stg $sp,$tweak-16+0($sp) # wipe 2nd tweak
+ stg $sp,$tweak-16+8($sp)
+.Lxts_dec_done:
+ stg $sp,$tweak+0($sp) # wipe tweak
+ stg $sp,$twesk+8($sp)
+ lm${g} %r6,$ra,6*$SIZE_T($sp)
+ br $ra
+.size AES_xts_decrypt,.-AES_xts_decrypt
___
}
$code.=<<___;
.string "AES for s390x, CRYPTOGAMS by <appro\@openssl.org>"
+.comm OPENSSL_s390xcap_P,16,8
___
$code =~ s/\`([^\`]*)\`/eval $1/gem;
print $code;
+close STDOUT; # force flush