Commit Graph

10 Commits

Author SHA1 Message Date
Jeffrey Walton
81da61fe7b
Breakout sha_block_data_order and sha_block_data_order_neon (GH #847) 2019-05-26 22:10:26 -04:00
Jeffrey Walton
7cd8d0278a
Remove VFP_ABI_PUSH and VFP_ABI_POP macros 2019-05-26 02:14:03 -04:00
Jeffrey Walton
fc10a7f1ea
Fix SHA512 on ARM benchmarks
This was a mistake when porting from Cryptogams to Crypto++. The macros VFP_ABI_PUSH and VFP_ABI_POP needed to be defined because they save and restore SIMD register state. They were originally missing during the port. The benchmarks would hang because the doubles we used for benchmarking were blown away in sha512_block_data_order_neon.
2019-05-25 06:23:19 -04:00
Jeffrey Walton
ea96b9d375
Use CRYPTOGAMS_armcap_P for ARM (GH #846)
Andy advised against removing the global caps variable. This commit reintroduces CRYPTOGAMS_armcap_P. However, due to the shared object symbol loading problem, we needed to use CRYPTOGAMS_armcap_P as a global, and not CRYPTOGAMS_armcap as a local. Using CRYPTOGAMS_armcap_P directly caused the symbol to be marked as R_ARM_ABS32 which avoids the problem with R_ARM_REL32.
2019-05-24 16:33:47 -04:00
Jeffrey Walton
57b85fafce
Update Cryptogams SHA headers (GH #846) 2019-05-22 19:11:16 -04:00
Jeffrey Walton
7eaa5837e0
Fix "unexpected reloc type 0x03" for ARM shared object (GH #846) 2019-05-22 19:00:08 -04:00
Jeffrey Walton
ce5d5d5c0f
Use CRYPTOGAMS_armcap_loc for word label 2019-05-22 06:37:16 -04:00
Jeffrey Walton
0a4b370d3f
Use CRYPTOGAMS_armcaps
It looks like CRYPTOGAMS_armcap was used in some places, and it broke Autotools
2019-05-22 05:46:06 -04:00
Jeffrey Walton
073c246595
Rename CRYPTOGAMS_armcap_P to CRYPTOGAMS_armcap 2019-05-22 05:01:27 -04:00
Jeffrey Walton
d38e5a954d
Add ARM SHA512 asm implementation from Cryptogams (GH #841, PR #843)
Cryptogams is Andy Polyakov's project used to create high speed crypto algorithms and share them with other developers. Cryptogams  has a dual license. First is the OpenSSL license because Andy contributes to OpenSSL. Second is a BSD license for those who want a more permissive license.

Andy's implementation runs about 45% faster than C/C++ code. Testing on a 1.8 GHz Cortex-A17 shows Cryptograms at 45 cpb, and C++ at 79 cpb.

The integration instructions are documented at [Cryptogams SHA](https://wiki.openssl.org/index.php/Cryptogams_SHA) on the OpenSSL wiki.
2019-05-19 16:29:45 -04:00