From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org Received: from mail.kernel.org (mail.kernel.org [198.145.29.99]) by smtp.lore.kernel.org (Postfix) with ESMTP id 001EFC433F5 for ; Thu, 18 Nov 2021 18:31:56 +0000 (UTC) Received: from vger.kernel.org (vger.kernel.org [23.128.96.18]) by mail.kernel.org (Postfix) with ESMTP id DAB036137F for ; Thu, 18 Nov 2021 18:31:56 +0000 (UTC) Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S233352AbhKRSe4 (ORCPT ); Thu, 18 Nov 2021 13:34:56 -0500 Received: from lindbergh.monkeyblade.net ([23.128.96.19]:43928 "EHLO lindbergh.monkeyblade.net" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S233034AbhKRSez (ORCPT ); Thu, 18 Nov 2021 13:34:55 -0500 Received: from mail-io1-xd29.google.com (mail-io1-xd29.google.com [IPv6:2607:f8b0:4864:20::d29]) by lindbergh.monkeyblade.net (Postfix) with ESMTPS id 52BF8C061574; Thu, 18 Nov 2021 10:31:55 -0800 (PST) Received: by mail-io1-xd29.google.com with SMTP id v23so9260414iom.12; Thu, 18 Nov 2021 10:31:55 -0800 (PST) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=20210112; h=mime-version:references:in-reply-to:from:date:message-id:subject:to :cc:content-transfer-encoding; bh=X5kdlgxyKQjZxWgr8j3kEcDooSHoUxzoEfAhGMLjm4s=; b=TZpIsx5RuDkTi7Z9aZKkTIlbrBib39VCtCLo8mua+mZdQZiWDMSKwJfEgL5yyJLP3F yb4Hk9tnfVfedpmeXuN1FHDiZyGpNFCsmRK0R2zzKSI73L6KQIhp8Iv7vfmrekECxhiG smudR61M67ZzjQKTG/cGG6dQxuUKMCZwWepmzkpcGJxa4awnyyLdCQliUah4/MFCJMq2 CWk1BEr9dXuA19eZtDOf3zQvrr6tgYyXF3P+vAL1Oh52SNq1ThISlYjxiFyEAwobX3Dp 013UorujSFVIjq+TD9NGQl1+Oq7zf26KCt1/YpALMsUO+yZ97NPuDWkD4/N8InnMjEWK Ul/w== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20210112; h=x-gm-message-state:mime-version:references:in-reply-to:from:date :message-id:subject:to:cc:content-transfer-encoding; bh=X5kdlgxyKQjZxWgr8j3kEcDooSHoUxzoEfAhGMLjm4s=; b=jbCsjcEYu7yaNN6/4SX6n17LUMegh40QdZkbCJcy0fclYVimJtc0f8Se7MkGmPiYbT r72UgdDrEDnwjxdVxVpcx6w0Ag/73yvX0YJPrGEM5FDmEipLH5ZzdEhn62M+S1ZjW+Y5 EERjxzXhVB/TeWYo0m4ktRZYp983VdvJ0o91jJECidZn3GCgHB6Cc7c/3Jg9ZcTOls1N snVKzp6Fr14q+7Jby9elxeo8JlVtu81UNAl8l2xr3/TZNCfRq6vi89jarOJ9I0KqrH1D xm2bytAwXCPxAGEry/kDRqwCfqR+4McanlB8fda/a4Ut3UvQ6sSLTANS9658JPee24f0 /ILw== X-Gm-Message-State: AOAM532bGAzZCJ8PyqeQtACqNpQygN8rXEiuLxsLWUuf29oQF84Q5Ib2 LHuicVYkXhvDUi7zE+5qpYsiip2zNqqUaQddp9o= X-Google-Smtp-Source: ABdhPJw6nr1Wyo5eWsHZYG1r1ufgD4HhjXQaK50nazGzp9PXq45/+TVF/TCBxfj5NTjSa5oNjxalh8rxF+/APEgZrn0= X-Received: by 2002:a05:6638:2105:: with SMTP id n5mr22623322jaj.32.1637260314578; Thu, 18 Nov 2021 10:31:54 -0800 (PST) MIME-Version: 1.0 References: <20210125153057.3623715-1-balsini@android.com> In-Reply-To: <20210125153057.3623715-1-balsini@android.com> From: Amir Goldstein Date: Thu, 18 Nov 2021 20:31:43 +0200 Message-ID: Subject: Re: [PATCH RESEND V12 0/8] fuse: Add support for passthrough read/write To: Alessio Balsini Cc: Miklos Szeredi , Akilesh Kailash , Antonio SJ Musumeci , David Anderson , Giuseppe Scrivano , Jann Horn , Jens Axboe , Martijn Coenen , Palmer Dabbelt , Paul Lawrence , Peng Tao , Stefano Duo , Zimuzo Ezeozue , wuyan , fuse-devel , kernel-team , linux-fsdevel , linux-kernel Content-Type: text/plain; charset="UTF-8" Content-Transfer-Encoding: quoted-printable Precedence: bulk List-ID: X-Mailing-List: linux-fsdevel@vger.kernel.org On Mon, Jan 25, 2021 at 5:31 PM Alessio Balsini wrote= : > > This is the 12th version of the series, rebased on top of v5.11-rc5. > Please find the changelog at the bottom of this cover letter. > > Add support for file system passthrough read/write of files when enabled > in userspace through the option FUSE_PASSTHROUGH. > > There are file systems based on FUSE that are intended to enforce > special policies or trigger complicated decision makings at the file > operations level. Android, for example, uses FUSE to enforce > fine-grained access policies that also depend on the file contents. > Sometimes it happens that at open or create time a file is identified as > not requiring additional checks for consequent reads/writes, thus FUSE > would simply act as a passive bridge between the process accessing the > FUSE file system and the lower file system. Splicing and caching help > reduce the FUSE overhead, but there are still read/write operations > forwarded to the userspace FUSE daemon that could be avoided. > > This series has been inspired by the original patches from Nikhilesh > Reddy, the idea and code of which has been elaborated and improved > thanks to the community support. > > When the FUSE_PASSTHROUGH capability is enabled, the FUSE daemon may > decide while handling the open/create operations, if the given file can > be accessed in passthrough mode. This means that all the further read > and write operations would be forwarded by the kernel directly to the > lower file system using the VFS layer rather than to the FUSE daemon. > All the requests other than reads or writes are still handled by the > userspace FUSE daemon. > This allows for improved performance on reads and writes, especially in > the case of reads at random offsets, for which no (readahead) caching > mechanism would help. > Benchmarks show improved performance that is close to native file system > access when doing massive manipulations on a single opened file, > especially in the case of random reads, random writes and sequential > writes. Detailed benchmarking results are presented below. > > The creation of this direct connection (passthrough) between FUSE file > objects and file objects in the lower file system happens in a way that > reminds of passing file descriptors via sockets: > - a process requests the opening of a file handled by FUSE, so the > kernel forwards the request to the FUSE daemon; > - the FUSE daemon opens the target file in the lower file system, > getting its file descriptor; > - the FUSE daemon also decides according to its internal policies if > passthrough can be enabled for that file, and, if so, can perform a > FUSE_DEV_IOC_PASSTHROUGH_OPEN ioctl on /dev/fuse, passing the file > descriptor obtained at the previous step and the fuse_req unique > identifier; > - the kernel translates the file descriptor to the file pointer > navigating through the opened files of the "current" process and > temporarily stores it in the associated open/create fuse_req's > passthrough_filp; > - when the FUSE daemon has done with the request and it's time for the > kernel to close it, it checks if the passthrough_filp is available and > in case updates the additional field in the fuse_file owned by the > process accessing the FUSE file system. > From now on, all the read/write operations performed by that process > will be redirected to the corresponding lower file system file by > creating new VFS requests. > Since the read/write operation to the lower file system is executed with > the current process's credentials, it might happen that it does not have > enough privileges to succeed. For this reason, the process temporarily > receives the same credentials as the FUSE daemon, that are reverted as > soon as the read/write operation completes, emulating the behavior of > the request to be performed by the FUSE daemon itself. This solution has > been inspired by the way overlayfs handles read/write operations. > Asynchronous IO is supported as well, handled by creating separate AIO > requests for the lower file system that will be internally tracked by > FUSE, that intercepts and propagates their completion through an > internal ki_completed callback similar to the current implementation of > overlayfs. > Finally, also memory-mapped FUSE files are supported in this FUSE > passthrough series as it has been noticed that when a same file with > FUSE passthrough enabled is accessed both with standard > read/write(-iter) operations and memory-mapped read/write operations, > the file content might result corrupted due to an inconsistency between > the FUSE and lower file system caches. > > The ioctl has been designed taking as a reference and trying to converge > to the fuse2 implementation. For example, the fuse_passthrough_out data > structure has extra fields that will allow for further extensions of the > feature. > > > Performance on RAM block device > > What follows has been performed using a custom passthrough_hp FUSE > daemon that enables pass-through for each file that is opened during > both "open" and "create". Benchmarks were run on an Intel Xeon W-2135, > 64 GiB of RAM workstation, with a RAM block device used as storage > target. More specifically, out of the system's 64 GiB of RAM, 40 GiB > were reserved for /dev/ram0, formatted as ext4. For the FUSE and FUSE > passthrough benchmarks, the FUSE file system was mounted on top of the > mounted /dev/ram0 device. > That file system has been completely filled and then cleaned up before > running the benchmarks: this to ensure that all the /dev/ram0 space was > reserved and not usable as page cache. > > The rationale for using a RAM block device is that SSDs may experience > performance fluctuations, especially when dealing with accessing data > random offsets. > Getting rid of the discrete storage device also removes a huge component > of slowness, highlighting the performance difference of the software > parts (and probably the goodness of CPU caching and its coherence > mechanisms). > > No special tuning has been performed, e.g., all the involved processes > are SCHED_OTHER, ondemand is the frequency governor with no frequency > restrictions, and turbo-boost, as well as p-state, are active. This is > because I noticed that, for such high-level benchmarks, results > consistency was minimally affected by these features. > > The source code of the updated libfuse library and passthrough_hp is > shared at the following repository: > > https://github.com/balsini/libfuse/tree/fuse-passthrough-v12-v5.11-rc5 > > Two different kinds of benchmarks were done for this change, the first > set of tests evaluates the bandwidth improvements when manipulating huge > single files, the second set of tests verify that no performance > regressions were introduced when handling many small files. > > All the caches were dropped before running every benchmark with: > > echo 3 > /proc/sys/vm/drop_caches > > All the benchmarks were run 10 times, with 1 minute cool down between > each run. > > The first benchmarks were done by running FIO (fio-3.24) with: > - bs=3D4Ki; > - file size: 35Gi; > - ioengine: sync; > - fsync_on_close=3D1; > - randseed=3D0. > The target file has been chosen large enough to avoid it to be entirely > loaded into the page cache. > > Results are presented in the following table: > > +-----------+------------+-------------+-------------+ > | MiB/s | fuse | passthrough | native | > +-----------+------------+-------------+-------------+ > | read | 471(=C2=B11.3%) | 1791(=C2=B11.0%) | 1839(=C2=B11.8%) | > | write | 95(=C2=B1.6%) | 1068(=C2=B1.9%) | 1322(=C2=B1.8%) | > | randread | 25(=C2=B11.7%) | 860(=C2=B1.8%) | 1135(=C2=B1.5%) | > | randwrite | 76(=C2=B13.0%) | 813(=C2=B11.0%) | 1005(=C2=B1.7%) | > +-----------+------------+-------------+-------------+ > > This table shows that FUSE, except for the sequential reads, is far > behind FUSE passthrough and native in terms of performance. The > extremely good FUSE performance for sequential reads is the result of a > great read-ahead mechanism. I was able to verify that setting > read_ahead_kb to 0 causes a terrible performance drop. > All the results are stable, as shown by the standard deviations. > Moreover, these numbers show the reasonable gap between passthrough and > native, introduced by the extra traversal through the VFS layer. > > As long as this patch has the primary objective of improving bandwidth, > another set of tests has been performed to see how this behaves on a > totally different scenario that involves accessing many small files. For > this purpose, measuring the build time of the Linux kernel has been > chosen as an appropriate, well-known, workload. The kernel has been > built with as many processes as the number of logical CPUs (-j > $(nproc)), that besides being a reasonable parallelization value, is > also enough to saturate the processor's utilization thanks to the > additional FUSE daemon's threads, making it even harder to get closer to > the native file system performance. > The following table shows the total build times in the different > configurations: > > +------------------+--------------+-----------+ > | | AVG duration | Standard | > | | (sec) | deviation | > +------------------+--------------+-----------+ > | FUSE | 144.566 | 0.697 | > +------------------+--------------+-----------+ > | FUSE passthrough | 133.820 | 0.341 | > +------------------+--------------+-----------+ > | Native | 109.423 | 0.724 | > +------------------+--------------+-----------+ > > Further testing and performance evaluations are welcome. > > > Description of the series > > Patch 1 generalizes the function which converts iocb flags to rw flags > from overlayfs, so that can be used in this patch set. > > Patch 2 enables the 32-bit compatibility for the /dev/fuse ioctl. > > Patch 3 introduces the data structures, function signatures and ioctl > required both for the communication with userspace and for the internal > kernel use. > > Patch 4 introduces initialization and release functions for FUSE > passthrough. > > Patch 5 enables the synchronous read and write operations for those FUSE > files for which the passthrough functionality is enabled. > > Patch 6 extends the read and write operations to also support > asynchronous IO. > > Patch 7 allows FUSE passthrough to target files for which the requesting > process would not have direct access to, by temporarily performing a > credentials switch to the credentials of the FUSE daemon that issued the > FUSE passthrough ioctl. > > Patch 8 extends FUSE passthrough operations to memory-mapped FUSE files. > > > Changelog > > Changes in v12: > * Revert FILESYSTEM_MAX_STACK_DEPTH checks as they were in v10 > [Requested by Amir Goldstein] > * Introduce passthrough support for memory-mapped FUSE files > [Requested by yanwu] > > Changes in v11: > * Fix the FILESYSTEM_MAX_STACK_DEPTH check to allow other file systems > to be stacked > * Moved file system stacking depth check at ioctl time > * Update cover letter with correct libfuse repository to test the change > [Requested by Peng Tao] > * Fix the file reference counter leak introduced in v10 > [Requested by yanwu] > > Changes in v10: > * UAPI updated: ioctl now returns an ID that will be used at open/create > response time to reference the passthrough file > * Synchronous read/write_iter functions does not return silly errors > (fixed in aio patch) > * FUSE daemon credentials updated at ioctl time instead of mount time > * Updated benchmark results > [Requested by Miklos Szeredi] > > Changes in v9: > * Switched to using VFS instead of direct lower FS file ops > [Attempt to address a request from Jens Axboe, Jann Horn, > Amir Goldstein] > * Removal of useless included aio.h header > [Proposed by Jens Axboe] > > Changes in v8: > * aio requests now use kmalloc/kfree, instead of kmem_cache > * Switched to call_{read,write}_iter in AIO > * Revisited attributes copy > * Passthrough can only be enabled via ioctl, fixing the security issue > spotted by Jann > * Use an extensible fuse_passthrough_out data structure > [Attempt to address a request from Nikolaus Rath, Amir Goldstein and > Miklos Szeredi] > > Changes in v7: > * Full handling of aio requests as done in overlayfs (update commit > * message). > * s/fget_raw/fget. > * Open fails in case of passthrough errors, emitting warning messages. > [Proposed by Jann Horn] > * Create new local kiocb, getting rid of the previously proposed ki_filp > swapping. > [Proposed by Jann Horn and Jens Axboe] > * Code polishing. > > Changes in v6: > * Port to kernel v5.8: > * fuse_file_{read,write}_iter changed since the v5 of this patch was > proposed. > * Simplify fuse_simple_request. > * Merge fuse_passthrough.h into fuse_i.h > * Refactor of passthrough.c: > * Remove BUG_ONs. > * Simplified error checking and request arguments indexing. > * Use call_{read,write}_iter utility functions. > * Remove get_file and fputs during read/write: handle the extra FUSE > references to the lower file object when the fuse_file is > created/deleted. > [Proposed by Jann Horn] > > Changes in v5: > * Fix the check when setting the passthrough file. > [Found when testing by Mike Shal] > > Changes in v3 and v4: > * Use the fs_stack_depth to prevent further stacking and a minor fix. > [Proposed by Jann Horn] > > Changes in v2: > * Changed the feature name to passthrough from stacked_io. > [Proposed by Linus Torvalds] > > > Alessio Balsini (8): > fs: Generic function to convert iocb to rw flags > fuse: 32-bit user space ioctl compat for fuse device > fuse: Definitions and ioctl for passthrough > fuse: Passthrough initialization and release > fuse: Introduce synchronous read and write for passthrough > fuse: Handle asynchronous read and write in passthrough > fuse: Use daemon creds in passthrough mode > fuse: Introduce passthrough for mmap > > fs/fuse/Makefile | 1 + > fs/fuse/dev.c | 41 ++++-- > fs/fuse/dir.c | 2 + > fs/fuse/file.c | 15 +- > fs/fuse/fuse_i.h | 33 +++++ > fs/fuse/inode.c | 22 ++- > fs/fuse/passthrough.c | 280 ++++++++++++++++++++++++++++++++++++++ > fs/overlayfs/file.c | 23 +--- > include/linux/fs.h | 5 + > include/uapi/linux/fuse.h | 14 +- > 10 files changed, 401 insertions(+), 35 deletions(-) > create mode 100644 fs/fuse/passthrough.c > > -- > 2.30.0.280.ga3ce27912f-goog > Hi Alessio, I have been testing this patch set for a while and recently nfstest_posix found one issue: mtime/ctime are not invalidated on passthrough write. I have tested a fix on this 5.10.y backport branch: https://github.com/amir73il/linux/commits/linux-5.10.y-fuse-passthrough Please feel free to review and/or take the fix for your next posting if you have plans of posting another version... Thanks, Amir.