An example, in x86 are Instruction Set to hardware acceleration AES. But are there in x86 any instructions to accelerate SHA (SHA1/2/256/512) encoding, and what library is the fastet to encoding SHA on x86?

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    Read that software.intel.com/en-us/articles/… – alexbuisson Dec 19 '13 at 22:10
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    Whoever voted to close this must surely have done it by mistake? – TonyK Dec 19 '13 at 22:30
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    There will be such instructions, called Intel SHA Extensions in the upcoming Skylake architecture. – CodesInChaos Dec 20 '13 at 10:37
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    Making SHA slow is a feature, much harder to crack it that way. Inevitably we'll just end up with more bits. – Hans Passant Dec 20 '13 at 17:26
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    @HansPassant That's a very uninformed remark, slowness is certainly not a good feature for a secure hash algorithm. The SHA-3 candidates were certainly chosen for both security and speed (and difference in architecture from SHA-2, in the end) but will have exactly the same number of output bits as SHA-2. Slowness can be of use for certain algorithms that use secure hashes, like PBKDF's where it is used for key strengthening.. – Maarten Bodewes Dec 20 '13 at 23:27

Are there in x86 any instructions to accelerate SHA (SHA1/2/256/512) encoding?

It's November 2016 and the answer is finally Yes. But its only SHA-1 and SHA-256 (and by extension, SHA-224).

Intel CPUs with SHA extensions hit the market recently. It looks like processors which support it are Goldmont microarchitecture:

  • Pentium J4205 (desktop)
  • Pentium N4200 (mobile)
  • Celeron J3455 (desktop)
  • Celeron J3355 (desktop)
  • Celeron N3450 (mobile)
  • Celeron N3350 (mobile)

I looked through offerings at Amazon for machines with the architecture or the processor numbers, but I did not find any available (yet). I believe HP Acer had one laptop with Pentium N4200 expected to be available in November 2016 December 2016 that would meet testing needs.

For some of the technical details why it's only SHA-1, SHA-224 and SHA-256, then see crypto: arm64/sha256 - add support for SHA256 using NEON instructions on the kernel crypto mailing list. The short answer is, above SHA-256, things are not easily parallelizable.

You can find source code for both Intel SHA intrinsics and ARMv8 SHA intrinsics at Noloader GitHub | SHA-Intrinsics. They are C source files, and provide the compress function for SHA-1, SHA-224 and SHA-256. The intrinsic-based implementations increase throughput approximately 3× to 4× for SHA-1, and approximately 6× to 12× for SHA-224 and SHA-256.

  • I looked for discussion of SHA-512 in that link, but a text search for "512" didn't find anything. Which part of the post were you talking about? And is what you can do with software and normal scalar or SIMD integer instructions (i.e. most or all of this patch) relevant to what Intel could implement in hardware? Or is the fact that vector registers aren't yet 512b wide relevant? (I don't really know how SHA works.) – Peter Cordes Nov 3 '16 at 13:06
  • @Peter - Check Andy Polyakov's comments. He does a much better job at explaining it than I would para-phrasing it. – jww Nov 3 '16 at 15:40
  • Support is implemented in OpenSSL: see crypto/sha/asm/sha1-x86_64.pl – Janus Troelsen Jan 14 '17 at 10:14

Intel has upcoming instructions for accelerating the calculation of SHA1 /256 hashes.

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You can read more about them, how to detect if your CPU support them and how to use them here.

(But not SHA-512, you'll still need to manually vectorize that with regular SIMD instructions. AVX512 should help for SHA-512 (and for SHA-1 / SHA-256 on CPUs with AVX512 but not SHA extensions), providing SIMD rotates as well as shifts, for example https://github.com/minio/sha256-simd)

It was hoped that Intel's Skylake microarchitecture would have them, but it doesn't. Intel CPU's with it are low-power Goldmont in 2016, then Goldmont Plus in 2017. Intel's first mainstream CPU with SHA extensions will be Cannon Lake. Skylake / Kaby Lake / Coffee Lake do not.

AMD Ryzen (2017) has SHA extension.

A C/C++ programmer is probably best off using OpenSSL, which will use whatever CPU features it can to hash quickly. (Including SHA extensions on CPUs that have them, if your version of OpenSSL is new enough.)

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    But note that these instructions are being added to the Skylake microarchitecture, which is not expected to be released until perhaps 2015 or 2016. – duskwuff Feb 3 '14 at 18:00
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    Now that SHA-1 is being phased out (googleonlinesecurity.blogspot.com/2014/09/…) Intel's new instructions are kinda pointless... – Dima Tisnek Dec 9 '14 at 20:39
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    SHA-1 will remain useful for non-cryptographic uses... – voidlogic Dec 9 '14 at 21:27
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    SHA-256 is still used and is still good. – Alexander Shishenko Feb 21 '16 at 4:14
  • SHA-1 is still baked permanently into systems like Git version control – Nayuki Feb 2 '17 at 0:00

2019 Update:

OpenSSL does use H/W acceleration when present.

On Intel's side Goldmont µarch is still the only one with SHA extension support, currently no other Intel CPUs support it (4).

In 2017 AMD released their new Zen µarch with SHA extension support, so all current server and desktop CPUs based on Zen fully support it.

Intel's next µarch Cannonlake is expected to introduce SHA-support, but it has been delayed for years and to date no launch announcements have been made.

My benchmarking OpenSSL speed SHA256 (1.0.1 no support vs 1.1.1 with support) showed a 550% speed increase with a block size of 8KiB on Ryzen 1700 @ 3.6 GHz.

On a real 1GB and 5GB files loaded to RAM the hashing was roughly 3x times faster.


Try something open source such as OpenSSL I have personally used their MD5 hashing functions and those worked pretty well. You might also want to take a look at hashlib2++.

As far as I know Intel hasn't made dedicated instruction set for SHA-1 or two. They may in upcoming architectures as CodesInChaos indicated in a comment. The major component in most hashing algorithms is the XOR operation which is already in the instruction set.

  • Are these libraries faster than implementation which introduced by Intel? Link which alexbuisson gave: software.intel.com/en-us/articles/… – Alex Dec 20 '13 at 22:43
  • Please take a look at my edits, krish. Try and format your answers and try and use slightly more formal language. – Maarten Bodewes Dec 21 '13 at 15:50
  • I haven't personally used the intel's one .Let me see what i can find. – krish Dec 21 '13 at 15:57

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