- 04 Mar, 2024 11 commits
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Christoph Hellwig authored
Split the logic to query the Identify Namespace Data Structure, NVM Command Set into a separate helper. Signed-off-by:
Christoph Hellwig <hch@lst.de> Reviewed-by:
Max Gurtovoy <mgurtovoy@nvidia.com> Signed-off-by:
Keith Busch <kbusch@kernel.org>
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Christoph Hellwig authored
nvme_update_ns_info_generic and nvme_update_ns_info_block share a fair amount of logic related to not fully supported namespace formats and updating the multipath information. Move this logic into the common caller. Signed-off-by:
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Christoph Hellwig authored
nvme_set_queue_limits is used on the admin queue and all gendisks including hidden ones that don't support block I/O. The write cache setting on the other hand only makes sense for block I/O. Move the blk_queue_write_cache call to nvme_update_ns_info_block instead. Signed-off-by:
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Christoph Hellwig authored
Move setting up the integrity profile and setting the disk capacity out of nvme_update_disk_info to get nvme_update_disk_info into a shape where it just sets queue_limits eventually. Signed-off-by:
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Christoph Hellwig authored
Currently nvme_update_ns_info_block calls nvme_update_disk_info both for the namespace attached disk, and the multipath one (if it exists). This is very different from how other stacking drivers work, and leads to a lot of complexity. Switch to setting the disk capacity and initializing the integrity profile, and let blk_stack_limits which already is called just below deal with updating the other limits. Signed-off-by:
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Christoph Hellwig authored
Move uneregistering the existing integrity profile into the helper dealing with all the other integrity / metadata setup. Signed-off-by:
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Christoph Hellwig authored
Handle the no metadata support case in nvme_init_integrity as well to simplify the calling convention and prepare for future changes in the area. Signed-off-by:
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Christoph Hellwig authored
max_integrity_segments is just a hardware limit and doesn't need to be in nvme_init_integrity with the PI setup. Signed-off-by:
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Christoph Hellwig authored
Handle setting the zone size / chunk_sectors and max_append_sectors limits together with the other ZNS limits, and just open code the call to blk_revalidate_zones in the current place. Signed-off-by:
Damien Le Moal <dlemoal@kernel.org> Signed-off-by:
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Christoph Hellwig authored
Move the handling of the NVME_QUIRK_DEALLOCATE_ZEROES quirk out of nvme_config_discard so that it is combined with the normal write_zeroes limit handling. Signed-off-by:
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Christoph Hellwig authored
All transports set a max_hw_sectors value in the nvme_ctrl, so make the code using it unconditional and clean it up using a little helper. Signed-off-by:
John Garry <john.g.garry@oracle.com> Signed-off-by:
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- 02 Mar, 2024 9 commits
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Guixin Liu authored
Maxcmd is mandatory for fabrics, check it early to identify the root cause instead of waiting for it to propagate to "sqsize" and "allocing queue". By the way, change nvme_check_ctrl_fabric_info() to nvmf_validate_identify_ctrl(). Reviewed-by:
Chaitanya Kulkarni <kch@nvidia.com> Signed-off-by:
Guixin Liu <kanie@linux.alibaba.com> Signed-off-by:
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Max Gurtovoy authored
A new port configuration was added to set max_queue_size. Clamp user configuration to RDMA transport limits. Increase the maximal queue size of RDMA controllers from 128 to 256 (the default size stays 128 same as before). Reviewed-by:
Sagi Grimberg <sagi@grimberg.me> Reviewed-by:
Israel Rukshin <israelr@nvidia.com> Signed-off-by:
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Max Gurtovoy authored
Using this port configuration, one will be able to set the maximal queue size to be used for any controller that will be associated to the configured port. The default value stayed 1024 but each transport will be able to set the its own values before enabling the port. Introduce lower limit of 16 for minimal queue depth (same as we use in the host fabrics drivers). Reviewed-by:
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Max Gurtovoy authored
If a controller is configured with metadata support, clamp the maximal queue size to be 128 since there are more resources that are needed for metadata operations. Otherwise, clamp it to 256. Reviewed-by:
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Max Gurtovoy authored
This definition will be used by controllers that are configured with metadata support. For now, both regular and metadata controllers have the same maximal queue size but later commit will increase the maximal queue size for regular RDMA controllers to 256. We'll keep the maximal queue size for metadata controllers to be 128 since there are more resources that are needed for metadata operations and 128 is the optimal size found for metadata controllers base on testing. Reviewed-by:
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Max Gurtovoy authored
This is a preparation for setting the maximal queue size of a controller that supports PI. Reviewed-by:
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Max Gurtovoy authored
This is a preparation for having a dynamic configuration of max queue size for a controller. Make sure that the maxcmd field stays the same as the MQES (+1) value as we do today. Reviewed-by:
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Max Gurtovoy authored
According to the NVMe Spec: " MQES: This field indicates the maximum individual queue size that the controller supports. For NVMe over PCIe implementations, this value applies to the I/O Submission Queues and I/O Completion Queues that the host creates. For NVMe over Fabrics implementations, this value applies to only the I/O Submission Queues that the host creates. " Align the target code to compare mqes and sqsize as mentioned in the NVMe Spec. Reviewed-by:
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Max Gurtovoy authored
The correct place for this definition is the nvme rdma header file and not the common nvme header file. Reviewed-by:
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- 01 Mar, 2024 20 commits
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Christoph Hellwig authored
Use queue_limits_start_update / queue_limits_commit_update to update all the limits in one go and with proper sanity checking. Signed-off-by:
Jens Axboe <axboe@kernel.dk>
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Christoph Hellwig authored
nbd currently updates the logical and physical block sizes as well as the discard_sectors on a live queue. Freeze the queue first to make sure there are not commands in flight that can see torn or inconsistent limits. Signed-off-by:
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Christoph Hellwig authored
nbd_config_put currently clears discard_sectors when unusing a device. This is pretty odd behavior and different from the sector size configuration which is simply left in places and then reconfigured when nbd_set_size is as part of configuring the device. Change nbd_set_size to clear discard_sectors if discard is not supported so that all the queue limits changes are handled in one place. Signed-off-by:
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Christoph Hellwig authored
pktcdvd sets max_hw_sectors on the queue of the underlying device that it doesn't own (and doesn't reset it ever) since the driver was merged. This can create all kinds of problems as the underlying driver doesn't even know about it changing the limit. As the state purpose is to not create I/Os larger than a single frame, and pktcdvd never builds bios larger than that, just set REQ_NOMERGE on the bios it submits so that largers I/Os never get built. Note: I don't have packet writing hardware, so this is compile tested only. Signed-off-by:
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Christoph Hellwig authored
Use queue_limits_set which validates the limits and takes care of updating the readahead settings instead of directly assigning them to the queue. For that make sure all limits are actually updated before the assignment. Signed-off-by:
Mike Snitzer <snitzer@kernel.org> Link: https://lore.kernel.org/r/20240228225653.947152-4-hch@lst.deSigned-off-by:
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Christoph Hellwig authored
Add a small wrapper around blk_stack_limits that allows passing a bdev for the bottom device and prints an error in case of misaligned device. The name fits into the new queue limits API and the intent is to eventually replace disk_stack_limits. Signed-off-by:
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Christoph Hellwig authored
Add a small wrapper around queue_limits_commit_update for stacking drivers that don't want to update existing limits, but set an entirely new set. Signed-off-by:
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Jens Axboe authored
Merge tag 'md-6.9-20240301' of https://git.kernel.org/pub/scm/linux/kernel/git/song/md into for-6.9/block Pull MD updates from Song: "The major changes are: 1. Refactor raid1 read_balance, by Yu Kuai and Paul Luse. 2. Clean up and fix for md_ioctl, by Li Nan. 3. Other small fixes, by Gui-Dong Han and Heming Zhao." * tag 'md-6.9-20240301' of https://git.kernel.org/pub/scm/linux/kernel/git/song/md: (22 commits) md/raid1: factor out helpers to choose the best rdev from read_balance() md/raid1: factor out the code to manage sequential IO md/raid1: factor out choose_bb_rdev() from read_balance() md/raid1: factor out choose_slow_rdev() from read_balance() md/raid1: factor out read_first_rdev() from read_balance() md/raid1-10: factor out a new helper raid1_should_read_first() md/raid1-10: add a helper raid1_check_read_range() md/raid1: fix choose next idle in read_balance() md/raid1: record nonrot rdevs while adding/removing rdevs to conf md/raid1: factor out helpers to add rdev to conf md: add a new helper rdev_has_badblock() md/raid5: fix atomicity violation in raid5_cache_count md/md-bitmap: fix incorrect usage for sb_index md: check mddev->pers before calling md_set_readonly() md: clean up openers check in do_md_stop() and md_set_readonly() md: sync blockdev before stopping raid or setting readonly md: factor out a helper to sync mddev md: Don't clear MD_CLOSING when the raid is about to stop md: return directly before setting did_set_md_closing md: clean up invalid BUG_ON in md_ioctl ...
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Song Liu authored
From: Yu Kuai <yukuai3@huawei.com> Co-developed-by:
Paul Luse <paul.e.luse@linux.intel.com> The original idea is that Paul want to optimize raid1 read performance([1]), however, we think that the original code for read_balance() is quite complex, and we don't want to add more complexity. Hence we decide to refactor read_balance() first, to make code cleaner and easier for follow up. Before this patchset, read_balance() has many local variables and many branches, it want to consider all the scenarios in one iteration. The idea of this patch is to divide them into 4 different steps: 1) If resync is in progress, find the first usable disk, patch 5; Otherwise: 2) Loop through all disks and skipping slow disks and disks with bad blocks, choose the best disk, patch 10. If no disk is found: 3) Look for disks with bad blocks and choose the one with most number of sectors, patch 8. If no disk is found: 4) Choose first found slow disk with no bad blocks, or slow disk with most number of sectors, patch 7. Note that step 3) and step 4) are super code path, and performance should not be considered. And after this patchset, we'll continue to optimize read_balance for step 2), specifically how to choose the best rdev to read. [1] https://lore.kernel.org/all/20240102125115.129261-1-paul.e.luse@linux.intel.com/ Yu Kuai (11): md: add a new helper rdev_has_badblock() md/raid1: factor out helpers to add rdev to conf md/raid1: record nonrot rdevs while adding/removing rdevs to conf md/raid1: fix choose next idle in read_balance() md/raid1-10: add a helper raid1_check_read_range() md/raid1-10: factor out a new helper raid1_should_read_first() md/raid1: factor out read_first_rdev() from read_balance() md/raid1: factor out choose_slow_rdev() from read_balance() md/raid1: factor out choose_bb_rdev() from read_balance() md/raid1: factor out the code to manage sequential IO md/raid1: factor out helpers to choose the best rdev from read_balance()
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Yu Kuai authored
The way that best rdev is chosen: 1) If the read is sequential from one rdev: - if rdev is rotational, use this rdev; - if rdev is non-rotational, use this rdev until total read length exceed disk opt io size; 2) If the read is not sequential: - if there is idle disk, use it, otherwise: - if the array has non-rotational disk, choose the rdev with minimal inflight IO; - if all the underlaying disks are rotational disk, choose the rdev with closest IO; There are no functional changes, just to make code cleaner and prepare for following refactor. Co-developed-by:
Yu Kuai <yukuai3@huawei.com> Reviewed-by:
Xiao Ni <xni@redhat.com> Signed-off-by:
Song Liu <song@kernel.org> Link: https://lore.kernel.org/r/20240229095714.926789-12-yukuai1@huaweicloud.com
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Yu Kuai authored
There is no functional change for now, make read_balance() cleaner and prepare to fix problems and refactor the handler of sequential IO. Co-developed-by:
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Yu Kuai authored
read_balance() is hard to understand because there are too many status and branches, and it's overlong. This patch factor out the case to read the rdev with bad blocks from read_balance(), there are no functional changes. Co-developed-by:
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Yu Kuai authored
read_balance() is hard to understand because there are too many status and branches, and it's overlong. This patch factor out the case to read the slow rdev from read_balance(), there are no functional changes. Co-developed-by:
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Yu Kuai authored
read_balance() is hard to understand because there are too many status and branches, and it's overlong. This patch factor out the case to read the first rdev from read_balance(), there are no functional changes. Co-developed-by:
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Yu Kuai authored
If resync is in progress, read_balance() should find the first usable disk, otherwise, data could be inconsistent after resync is done. raid1 and raid10 implement the same checking, hence factor out the checking to make code cleaner. Noted that raid1 is using 'mddev->recovery_cp', which is updated after all resync IO is done, while raid10 is using 'conf->next_resync', which is inaccurate because raid10 update it before submitting resync IO. Fortunately, raid10 read IO can't concurrent with resync IO, hence there is no problem. And this patch also switch raid10 to use 'mddev->recovery_cp'. Co-developed-by:
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Yu Kuai authored
The checking and handler of bad blocks appear many timers during read_balance() in raid1 and raid10. This helper will be used in later patches to simplify read_balance() a lot. Co-developed-by:
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Yu Kuai authored
Commit 12cee5a8 ("md/raid1: prevent merging too large request") add the case choose next idle in read_balance(): read_balance: for_each_rdev if(next_seq_sect == this_sector || dist == 0) -> sequential reads best_disk = disk; if (...) choose_next_idle = 1 continue; for_each_rdev -> iterate next rdev if (pending == 0) best_disk = disk; -> choose the next idle disk break; if (choose_next_idle) -> keep using this rdev if there are no other idle disk contine However, commit 2e52d449 ("md/raid1: add failfast handling for reads.") remove the code: - /* If device is idle, use it */ - if (pending == 0) { - best_disk = disk; - break; - } Hence choose next idle will never work now, fix this problem by following: 1) don't set best_disk in this case, read_balance() will choose the best disk after iterating all the disks; 2) add 'pending' so that other idle disk will be chosen; 3) add a new local variable 'sequential_disk' to record the disk, and if there is no other idle disk, 'sequential_disk' will be chosen; Fixes: 2e52d449 ("md/raid1: add failfast handling for reads.") Co-developed-by:
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Yu Kuai authored
For raid1, each read will iterate all the rdevs from conf and check if any rdev is non-rotational, then choose rdev with minimal IO inflight if so, or rdev with closest distance otherwise. Disk nonrot info can be changed through sysfs entry: /sys/block/[disk_name]/queue/rotational However, consider that this should only be used for testing, and user really shouldn't do this in real life. Record the number of non-rotational disks in conf, to avoid checking each rdev in IO fast path and simplify read_balance() a little bit. Co-developed-by:
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Yu Kuai authored
There are no functional changes, just make code cleaner and prepare to record disk non-rotational information while adding and removing rdev to conf Signed-off-by:
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Yu Kuai authored
The current api is_badblock() must pass in 'first_bad' and 'bad_sectors', however, many caller just want to know if there are badblocks or not, and these caller must define two local variable that will never be used. Add a new helper rdev_has_badblock() that will only return if there are badblocks or not, remove unnecessary local variables and replace is_badblock() with the new helper in many places. There are no functional changes, and the new helper will also be used later to refactor read_balance(). Co-developed-by:
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