From: megha.dey@linux.intel.com Subject: [PATCH 0/6] crypto: SHA512 multibuffer implementation Date: Thu, 24 Mar 2016 13:27:23 -0700 Message-ID: <1458851249-3491-1-git-send-email-megha.dey@linux.intel.com> Mime-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: QUOTED-PRINTABLE Cc: linux-crypto@vger.kernel.org, linux-kernel@vger.kernel.org, tim.c.chen@linux.intel.com, fenghua.yu@intel.com, Megha Dey To: herbert@gondor.apana.org.au, davem@davemloft.net Return-path: Received: from mga09.intel.com ([134.134.136.24]:15694 "EHLO mga09.intel.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1751422AbcCXUXc (ORCPT ); Thu, 24 Mar 2016 16:23:32 -0400 Sender: linux-crypto-owner@vger.kernel.org List-ID: =46rom: Megha Dey In this patch series, we introduce the multi-buffer crypto algorithm on x86_64 and apply it to SHA512 hash computation. The multi-buffer techni= que takes advantage of the 8 data lanes in the AVX2 registers and allows computation to be performed on data from multiple jobs in parallel. This allows us to parallelize computations when data inter-dependency i= n a single crypto job prevents us to fully parallelize our computations. The algorithm can be extended to other hashing and encryption schemes in the future. On multi-buffer SHA512 computation with AVX2, we see throughput increas= e up to 2x over the existing x86_64 single buffer AVX2 algorithm. The multi-buffer crypto algorithm is described in the following paper: Processing Multiple Buffers in Parallel to Increase Performance on Intel=C2=AE Architecture Processors http://www.intel.com/content/www/us/en/communications/communications-ia= -multi-buffer-paper.html The outline of the algorithm is sketched below: Any driver requesting the crypto service will place an async crypto request on the workqueue. The multi-buffer crypto daemon will pull request from work queue and put each request in an empty data lane for multi-buffer crypto computation. When all the empty lanes are fill= ed, computation will commence on the jobs in parallel and the job with the shortest remaining buffer will get completed and be returned. To preve= nt prolonged stall when there is no new jobs arriving, we will flush a cry= pto job if it has not been completed after a maximum allowable delay. To accommodate the fragmented nature of scatter-gather, we will keep submitting the next scatter-buffer fragment for a job for multi-buffer computation until a job is completed and no more buffer fragments remai= n. At that time we will pull a new job to fill the now empty data slot. We call a get_completed_job function to check whether there are other jobs that have been completed when we job when we have no new job arriv= al to prevent extraneous delay in returning any completed jobs. The multi-buffer algorithm should be used for cases where crypto jobs submissions are at a reasonable high rate. For low crypto job submissi= on rate, this algorithm will not be beneficial. The reason is at low rate, we do not fill out the data lanes before the maximum allowable latency, we will be flushing the jobs instead of processing them with all the data lanes full. We will miss the benefit of parallel computation, and adding delay to the processing of the crypto job at the same time. Some tuning of the maximum latency parameter may be needed to get the best performance. A new mode is added to calculate the speed of the sha512_mb algorithm. Megha Dey (6): crypto: sha512-mb - SHA512 multibuffer job manager and glue code crypto: sha512-mb - Enable SHA512 multibuffer support crypto: sha512-mb - submit/flush routines for AVX2 crypto: sha512-mb - Algorithm data structures crypto: sha512-mb - Crypto computation (x4 AVX2) crypto: tcrypt - Add new mode for sha512_mb arch/x86/crypto/Makefile | 1 + arch/x86/crypto/sha512-mb/Makefile | 11 + arch/x86/crypto/sha512-mb/sha512_mb.c | 1023 ++++++++++++= ++++++++ arch/x86/crypto/sha512-mb/sha512_mb_ctx.h | 130 +++ arch/x86/crypto/sha512-mb/sha512_mb_mgr.h | 104 ++ .../crypto/sha512-mb/sha512_mb_mgr_datastruct.S | 281 ++++++ .../crypto/sha512-mb/sha512_mb_mgr_flush_avx2.S | 311 ++++++ .../x86/crypto/sha512-mb/sha512_mb_mgr_init_avx2.c | 67 ++ .../crypto/sha512-mb/sha512_mb_mgr_submit_avx2.S | 245 +++++ arch/x86/crypto/sha512-mb/sha512_x4_avx2.S | 518 ++++++++++ crypto/Kconfig | 16 + crypto/tcrypt.c | 6 + 12 files changed, 2713 insertions(+) create mode 100644 arch/x86/crypto/sha512-mb/Makefile create mode 100644 arch/x86/crypto/sha512-mb/sha512_mb.c create mode 100644 arch/x86/crypto/sha512-mb/sha512_mb_ctx.h create mode 100644 arch/x86/crypto/sha512-mb/sha512_mb_mgr.h create mode 100644 arch/x86/crypto/sha512-mb/sha512_mb_mgr_datastruct.= S create mode 100644 arch/x86/crypto/sha512-mb/sha512_mb_mgr_flush_avx2.= S create mode 100644 arch/x86/crypto/sha512-mb/sha512_mb_mgr_init_avx2.c create mode 100644 arch/x86/crypto/sha512-mb/sha512_mb_mgr_submit_avx2= =2ES create mode 100644 arch/x86/crypto/sha512-mb/sha512_x4_avx2.S --=20 1.9.1