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There question is slightly related to these two questions, but with these two differences: 1) I want to know how to hook specific Intel instructions from the JVM (hopefully via existing libary) 2) I don't care about one large file, but millions of short (< 50 characters) String and Number objects.

I noticed that Intel provides native extensions (https://software.intel.com/en-us/articles/intel-sha-extensions) for creating SHA256 hashes. Is there any existing library in Java that can hook these native extensions? Is there a JVM implementation that natively hooks these extensions?

Is there a different implementation I should choose for millions of small String and Number values over a single giant file?

As a test, I tried 5 different hashing algorithms: Java built-in, Groovy built-in, Apache Commons, Guava, and Bouncy Castle. Only Apache and Guava seemed to push beyond 1 million hashes/sec on my Intel i5 hardware.

>groovy hash_comp.groovy
Hashing 1000000 iterations of SHA-256
time java: 2968         336927.2237196765 hashes/sec
time groovy: 2451       407996.7360261118 hashes/sec
time apache: 1025       975609.7560975610 hashes/sec
time guava: 901         1109877.9134295228 hashes/sec
time guava: 1969        507872.0162519045 hashes/sec

>groovy hash_comp.groovy
Hashing 1000000 iterations of SHA-256
time java: 2688         372023.8095238095 hashes/sec
time groovy: 1948       513347.0225872690 hashes/sec
time apache: 867        1153402.5374855825 hashes/sec
time guava: 953         1049317.9433368311 hashes/sec
time bouncy: 1890       529100.5291005291 hashes/sec

When I ran 10 times in a row, Apache Commons hashing was the consistent winner when hashing 1 million strings (it won 9/10 times). My test code is available here.

The question remains, is there a way to tap into the Intel SHA hashing extensions from the JVM?

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    If you want to "hook specific Intel instructions", then you need to write it in a lower-level language, e.g. assembler or maybe C, then call that from Java. – Andreas Oct 16 '19 at 1:11
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    @Andreas: Or maybe the JVM exposes it itself as a built-in. But if not, then yeah you want JNI (Java Native Interface) to call a C/C++ intrinsics version. That has pretty high per-call overhead so you probably want your native function to take a list / array of strings and produce an output array of hashes, or something like that. But yes, Sun/Oracle JVM and OpenJDK support JNI. – Peter Cordes Oct 16 '19 at 1:51
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    Note that x86 SHA extensions are only available on a very set of CPUs. (Are there in x86 any instructions to accelerate SHA (SHA1/2/256/512) encoding?) e.g. AMD Ryzen, Intel CannonLake / IceLake, and Intel low-power Goldmont and later. There are no Xeon chips with SHA extensions yet, but maybe you're targeting AMD server chips or embedded Intel? Or upcoming IceLake chips? Currently IceLake is only out as a laptop chip, but desktop and eventually server chips will be coming. What CPUs does this need to run on? – Peter Cordes Oct 16 '19 at 1:59
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    Kind of curious why you want SHA256 values for millions of short (how short?) String and Number objects. – Jim Mischel Oct 16 '19 at 3:28
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    Well, Guava’s point is to abstract the hash operation so that you don’t need to worry about whether it has a custom implementation or delegates to Java’s builtin provider. This version will delegate to MessageDigestHashFunction in case of SHA, which is a wrapper around Java’s builtin abstraction, the MessageDigest class, hence the name. Feel free to check the version you’ve used… – Holger Oct 28 '19 at 11:35
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The fastest solution I found that made it simple to use native cryptographic functionality is Amazon Corretto Crypto Provider (ACCP).

https://aws.amazon.com/blogs/opensource/introducing-amazon-corretto-crypto-provider-accp/

https://github.com/corretto/amazon-corretto-crypto-provider

From Amazon:

What exactly is ACCP?

ACCP implements the standard Java Cryptography Architecture (JCA) interfaces and replaces the default Java cryptographic implementations with those provided by libcrypto from the OpenSSL project. ACCP allows you to take full advantage of assembly-level and CPU-level performance tuning, to gain significant cost reduction, latency reduction, and higher throughput across multiple services and products, as shown in the examples below.

  • Since your question mentioned Intel SHA extensions: they're supported on AMD Ryzen, Intel CannonLake / IceLake, and Intel low-power Goldmont and later. There are no Xeon chips with SHA extensions until IceLake Xeon becomes available, but support exists in AMD server/desktop/laptop CPUs, and IceLake laptop CPUs are available now. Are there in x86 any instructions to accelerate SHA (SHA1/2/256/512) encoding? – Peter Cordes Dec 4 '19 at 0:05
  • Good point on the question calling out specific CPU functions. I guess the question was two parts 1) make hashing faster in Java and 2) can that Java code tap into any acceleration available within the CPU. To your point #2 is a much more nuanced and trickier question to answer. – Scott Dec 4 '19 at 6:15
  • I'd assume that ACCP will take advantage of dedicated SHA instructions on CPUs that support them. And if not, will use whatever SIMD is available, like x86 AVX2, or AArch64 AdvSIMD. It does explicitly say it can take advantage of "assembly-level" stuff. The only question would be if it can use a crypto accelerator device where access to it is more like a GPU. – Peter Cordes Dec 4 '19 at 6:42

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