From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from us-smtp-1.mimecast.com (us-smtp-delivery-1.mimecast.com [205.139.110.120]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-SHA384 (256/256 bits)) (No client certificate requested) by mail.server123.net (Postfix) with ESMTPS for ; Wed, 24 Jun 2020 07:22:19 +0200 (CEST) Date: Wed, 24 Jun 2020 01:22:09 -0400 From: Mike Snitzer Message-ID: <20200624052209.GB23205@redhat.com> References: <20200619164132.1648-1-ignat@cloudflare.com> <20200619165548.GA24779@redhat.com> <20200623150118.GA19657@redhat.com> <20200623152235.GB19657@redhat.com> MIME-Version: 1.0 Content-Type: text/plain; charset=us-ascii Content-Disposition: inline In-Reply-To: Subject: Re: [dm-crypt] [RFC PATCH 0/1] dm-crypt excessive overhead List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , To: Damien Le Moal Cc: Ignat Korchagin , "kernel-team@cloudflare.com" , "dm-crypt@saout.de" , "linux-kernel@vger.kernel.org" , "dm-devel@redhat.com" , Mikulas Patocka , "agk@redhat.com" On Wed, Jun 24 2020 at 12:54am -0400, Damien Le Moal wrote: > On 2020/06/24 0:23, Mike Snitzer wrote: > > On Tue, Jun 23 2020 at 11:07am -0400, > > Ignat Korchagin wrote: > > > >> Do you think it may be better to break it in two flags: one for read > >> path and one for write? So, depending on the needs and workflow these > >> could be enabled independently? > > > > If there is a need to split, then sure. But I think Damien had a hard > > requirement that writes had to be inlined but that reads didn't _need_ > > to be for his dm-zoned usecase. Damien may not yet have assessed the > > performance implications, of not have reads inlined, as much as you > > have. > > We did do performance testing :) > The results are mixed and performance differences between inline vs workqueues > depend on the workload (IO size, IO queue depth and number of drives being used > mostly). In many cases, inlining everything does really improve performance as > Ignat reported. > > In our testing, we used hard drives and so focused mostly on throughput rather > than command latency. The added workqueue context switch overhead and crypto > work latency compared to typical HDD IO times is small, and significant only if > the backend storage as short IO times. > > In the case of HDDs, especially for large IO sizes, inlining crypto work does > not shine as it prevents an efficient use of CPU resources. This is especially > true with reads on a large system with many drives connected to a single HBA: > the softirq context decryption work does not lend itself well to using other > CPUs that did not receive the HBA IRQ signaling command completions. The test > results clearly show much higher throughputs using dm-crypt as is. > > On the other hand, inlining crypto work significantly improves workloads of > small random IOs, even for a large number of disks: removing the overhead of > context switches allows faster completions, allowing sending more requests to > the drives more quickly, keeping them busy. > > For SMR, the inlining of write requests is *mandatory* to preserve the issuer > write sequence, but encryption work being done in the issuer context (writes to > SMR drives can only be O_DIRECT writes), efficient CPU resource usage can be > achieved by simply using multiple writer thread/processes, working on different > zones of different disks. This is a very reasonable model for SMR as writes into > a single zone have to be done under mutual exclusion to ensure sequentiality. > > For reads, SMR drives are essentially exactly the same as regular disks, so > as-is or inline are both OK. Based on our performance results, allowing the user > to have the choice of inlining or not reads based on the target workload would > be great. > > Of note is that zone append writes (emulated in SCSI, native with NVMe) are not > subject to the sequential write constraint, so they can also be executed either > inline or asynchronously. > > > So let's see how Damien's work goes and if he trully doesn't need/want > > reads to be inlined then 2 flags can be created. > > For SMR, I do not need inline reads, but I do want the user to have the > possibility of using this setup as that can provide better performance for some > workloads. I think that splitting the inline flag in 2 is exactly what we want: > > 1) For SMR, the write-inline flag can be automatically turned on when the target > device is created if the backend device used is a host-managed zoned drive (scsi > or NVMe ZNS). For reads, it would be the user choice, based on the target workload. > 2) For regular block devices, write-inline only, read-inline only or both would > be the user choice, to optimize for their target workload. > > With the split into 2 flags, my SMR support patch becomes very simple. OK, thanks for all the context. Was a fun read ;) SO let's run with splitting into 2 flags. Ignat would you be up to tweaking your patch to provide that and post a v2? An added bonus would be to consolidate your 0/1 and 1/1 patch headers, and add in the additional answers you provided in this thread to help others understand the patch (mainly some more detail about why tasklet is used). Thanks, Mike