How the assembly file is generated from the Perl script in OpenSSL...
The assembly language file is generated with a xlat program. For the Power8 gear the file is
ppc-xlate.pl in the
perlasm directory. It is used by
aesp8-ppc.pl in the
Here is how you translate it. I'm working from GCC112 on the compile farm, which is ppc64le.
git clone https://github.com/openssl/openssl.git
cp ./openssl/crypto/perlasm/ppc-xlate.pl cryptogams/
cp ./openssl/crypto/aes/asm/aesp8-ppc.pl cryptogams/
chmod +x *.pl
./aesp8-ppc.pl ppc64le aesp8-ppc.s
aesp8-ppc.pl generates a pure assembly language source file so name the output file with the little
*.s. Sometimes the translation includes C preprocessor statements and it needs a big
*.S (but not in this case).
The second argument to
aesp8-ppc.pl is called
flavor. It is
ppc64le in the commands above. Flavor does two things. First, it selects either 32-bit or 64-bit. Second, it selects either little-endian or big-endian. Be sure to get the flavor right.
Once you have
aesp8-ppc.s you can compile and assemble the source file with GCC.
gcc -mcpu=power8 -c aesp8-ppc.s
$ objdump --disassemble aesp8-ppc.o
aesp8-ppc.o: file format elf64-powerpcle
420: c1 ff 21 f8 stdu r1,-64(r1)
424: a6 02 48 7d mflr r10
428: 50 00 41 f9 std r10,80(r1)
42c: 75 fc ff 4b bl a0 <aes_p8_set_encrypt_key>
430: a6 03 48 7d mtlr r10
434: 00 00 03 2c cmpwi r3,0
438: 68 00 c2 40 bne- 4a0 <Ldec_key_abort>
43c: 36 20 07 55 rlwinm r7,r8,4,0,27
440: 10 ff 65 38 addi r3,r5,-240
444: 7e f8 08 55 rlwinm r8,r8,31,1,31
448: 14 3a a3 7c add r5,r3,r7
44c: a6 03 09 7d mtctr r8
At this point you have an object file, but you don't know the API signatures or how to use it. To find out what to do next you have to
objdump and then grep the OpenSSL sources to see how they use it.
$ nm aesp8-ppc.o | grep ' T '
00000000000006c0 T aes_p8_cbc_encrypt
0000000000001140 T aes_p8_ctr32_encrypt_blocks
00000000000005c0 T aes_p8_decrypt
00000000000004c0 T aes_p8_encrypt
0000000000000420 T aes_p8_set_decrypt_key
00000000000000a0 T aes_p8_set_encrypt_key
0000000000001d00 T aes_p8_xts_decrypt
0000000000001a60 T aes_p8_xts_encrypt
You are interested in the four functions
I'll help you with the first one:
$ cd openssl
$ grep -nIR aes_p8_set_encrypt_key
crypto/evp/e_aes.c:153:# define HWAES_set_encrypt_key aes_p8_set_encrypt_key
$ grep -nIR HWAES_set_encrypt_key
crypto/evp/e_aes.c:2515:int HWAES_set_encrypt_key(const unsigned char *userKey, const int bits,
$ cat -n crypto/evp/e_aes.c
2515 int HWAES_set_encrypt_key(const unsigned char *userKey, const int bits,
2516 AES_KEY *key);
Lather, rinse, repeat for
Eventually you will end up with a header like shown in Cryptogams | AES on the OpenSSL wiki. Cryptogams | AES is written for ARMv4 but the same applies to Power8 as well.
Stepping back a bit, you are trying to use the Cryptogams implementation of AES on Power8. Cryptogams is Andy Polyakov's project to provide high speed cryptography to other developers.
Andy dual licenses his work. One license is the OpenSSL license because Andy works for OpenSSL. The second license is a BSD style license that does not have the encumbrances of OpenSSL.
Andy's public source is at GitHub | dot-asm. Unfortunately, most of Andy's work has not been uploaded so you have to pull it from OpenSSL. And more unfortunately, none of it is documented so you have to do a fair amount of poking and prodding in the OpenSSL sources.
As far as I know there are two places you can look for documentation on using Cryptogams and Power8 cryptography. First is the OpenSSL wiki page Cryptogams | AES. Cryptogams | AES is a tutorial on ARMv4 but it applies to Power 8, too. I wrote the wiki article so errors and omissions are my mistakes.
The second place to look is GitHub and Noloader | POWER8 crypto. I help maintain Crypto++ and the POWER8 crypto book is my knowledge dump. The POWER8 book includes Cryptogams SHA in Chapter 7.
The POWER8 crypto book was written by Bill Schmidt and I because we could not find documentation when working with AES and SHA on Power8. Bill Schmidt works for IBM and even he could not get the docs because there were none. All we could find was a blog post from an IBM engineer that was grossly missing details.