- 29 Jul, 2020 30 commits
-
-
Chaitanya Kulkarni authored
We can call the nvme_change_ctrl_state() directly and have WARN_ON_ONCE(1) call instead of having to use an extra variable which matches the name of the function. Signed-off-by:
Chaitanya Kulkarni <chaitanya.kulkarni@wdc.com> Reviewed-by:
Sagi Grimberg <sagi@grimberg.me> Signed-off-by:
Christoph Hellwig <hch@lst.de>
-
Chaitanya Kulkarni authored
When creating a loop controller (ctrl) in nvme_loop_create_ctrl() -> nvme_init_ctrl() we set the ctrl state to NVME_CTRL_NEW. Prior to [1] NVME_CTRL_NEW state was allowed in nvmf_check_ready() for fabrics command type connect. Now, this fails in the following code path for fabrics connect command when creating admin queue :- nvme_loop_create_ctrl() nvme_loo_configure_admin_queue() nvmf_connect_admin_queue() __nvme_submit_sync_cmd() blk_execute_rq() nvme_loop_queue_rq() nvmf_check_ready() # echo "transport=loop,nqn=fs" > /dev/nvme-fabrics [ 6047.741327] nvmet: adding nsid 1 to subsystem fs [ 6048.756430] nvme nvme1: Connect command failed, error wo/DNR bit: 880 We need to set the ctrl state to NVME_CTRL_CONNECTING after :- nvme_loop_create_ctrl() nvme_init_ctrl() so that the above mentioned check for nvmf_check_ready() will return true. This patch sets the ctrl state to connecting after we init the ctrl in nvme_loop_create_ctrl() nvme_init_ctrl() . [1] commit aa63fa6776a7 ("nvme-fabrics: allow to queue requests for live queues") Fixes: aa63fa6776a7 ("nvme-fabrics: allow to queue requests for live queues") Signed-off-by: -
Hannes Reinecke authored
When nvme_round_robin_path() finds a valid namespace we should be using it; falling back to __nvme_find_path() for non-optimized paths will cause the result from nvme_round_robin_path() to be ignored for non-optimized paths. Fixes: 75c10e73 ("nvme-multipath: round-robin I/O policy") Signed-off-by:
Martin Wilck <mwilck@suse.com> Signed-off-by:
Hannes Reinecke <hare@suse.de> Reviewed-by:
-
Martin Wilck authored
Handle the special case where we have exactly one optimized path, which we should keep using in this case. Fixes: 75c10e73 ("nvme-multipath: round-robin I/O policy") Signed off-by: Martin Wilck <mwilck@suse.com> Signed-off-by:
-
Sagi Grimberg authored
commit fe35ec58 ("block: update hctx map when use multiple maps") exposed an issue where we may hang trying to wait for queue freeze during I/O. We call blk_mq_update_nr_hw_queues which in case of multiple queue maps (which we have now for default/read/poll) is attempting to freeze the queue. However we never started queue freeze when starting the reset, which means that we have inflight pending requests that entered the queue that we will not complete once the queue is quiesced. So start a freeze before we quiesce the queue, and unfreeze the queue after we successfully connected the I/O queues (and make sure to call blk_mq_update_nr_hw_queues only after we are sure that the queue was already frozen). This follows to how the pci driver handles resets. Fixes: fe35ec58 ("block: update hctx map when use multiple maps") Signed-off-by:
-
Sagi Grimberg authored
commit fe35ec58 ("block: update hctx map when use multiple maps") exposed an issue where we may hang trying to wait for queue freeze during I/O. We call blk_mq_update_nr_hw_queues which in case of multiple queue maps (which we have now for default/read/poll) is attempting to freeze the queue. However we never started queue freeze when starting the reset, which means that we have inflight pending requests that entered the queue that we will not complete once the queue is quiesced. So start a freeze before we quiesce the queue, and unfreeze the queue after we successfully connected the I/O queues (and make sure to call blk_mq_update_nr_hw_queues only after we are sure that the queue was already frozen). This follows to how the pci driver handles resets. Fixes: fe35ec58 ("block: update hctx map when use multiple maps") Signed-off-by:
-
Chaitanya Kulkarni authored
This patch updates KConfig file for the NVMeOF target where we add new option so that user can selectively enable/disable passthru code. Signed-off-by:
Logan Gunthorpe <logang@deltatee.com> Reviewed-by:
Keith Busch <kbusch@kernel.org> Reviewed-by:
-
Logan Gunthorpe authored
When CONFIG_NVME_TARGET_PASSTHRU as 'passthru' directory will be added to each subsystem. The directory is similar to a namespace and has two attributes: device_path and enable. The user must set the path to the nvme controller's char device and write '1' to enable the subsystem to use passthru. Any given subsystem is prevented from enabling both a regular namespace and the passthru device. If one is enabled, enabling the other will produce an error. Signed-off-by:
-
Logan Gunthorpe authored
This patch adds helper functions which are used in the NVMeOF configfs when the user is configuring the passthru subsystem. Here we ensure that only one subsys is assigned to each nvme_ctrl by using an xarray on the cntlid. The subsystem's version number is overridden by the passed through controller's version. However, if that version is less than 1.2.1, then we bump the advertised version to that and print a warning in dmesg. Based-on-a-patch-by:
-
Logan Gunthorpe authored
Add passthru command handling capability for the NVMeOF target and export passthru APIs which are used to integrate passthru code with nvmet-core. The new file passthru.c handles passthru cmd parsing and execution. In the passthru mode, we create a block layer request from the nvmet request and map the data on to the block layer request. Admin commands and features are on an allow list as there are a number of each that don't make too much sense with passthrough. We use an allow list such that new commands can be considered before being blindly passed through. In both cases, vendor specific commands are always allowed. We also reject reservation IO commands as the underlying device cannot differentiate between multiple hosts behind a fabric. Based-on-a-patch-by:
-
Logan Gunthorpe authored
nvme_find_get_ns() and nvme_put_ns() are required by the target passthru code and are exported under the NVME_TARGET_PASSTHRU namespace. Based-on-a-patch-by:
-
Logan Gunthorpe authored
nvme_ctrl_get_by_path() is analogous to blkdev_get_by_path() except it gets a struct nvme_ctrl from the path to its char dev (/dev/nvme0). It makes use of filp_open() to open the file and uses the private data to obtain a pointer to the struct nvme_ctrl. If the fops of the file do not match, -EINVAL is returned. The purpose of this function is to support NVMe-OF target passthru and is exported under the NVME_TARGET_PASSTHRU namespace. Signed-off-by:
Max Gurtovoy <maxg@mellanox.com> Signed-off-by:
-
Logan Gunthorpe authored
Introduce a new nvme_execute_passthru_rq() helper which calls nvme_passthru_[start|end]() around blk_execute_rq(). This ensures all passthru calls (including nvme_submit_io()) will be wrapped appropriately. nvme_execute_passthru_rq() will also be useful for the nvmet passthru code and is exported in the NVME_TARGET_PASSTHRU namespace. Signed-off-by:
-
Logan Gunthorpe authored
Separate the code to obtain command effects from the code to start a passthru request and move the nvme_passthru_start() and nvme_passthru_end() functions up above nvme_submit_user_cmd() in order that they may be used in a new helper a subsequent patch. The new helper function will be necessary for nvmet passthru code to determine if we need to change out of interrupt context to handle the effects. It is exported in the NVME_TARGET_PASSTHRU namespace. Signed-off-by:
-
Logan Gunthorpe authored
The host driver should decide whether to use SGLs or PRPs and they currently assume the flags are cleared after the call to nvme_setup_cmd(). However, passed-through commands may erroneously set these bits; so clear them for all cases. Signed-off-by:
-
James Smart authored
The transport has a del_work_active flag to avoid duplicate scheduling of the del_work item. This is redundant with the checks that schedule_work() makes. Remove the del_work_active flag. Signed-off-by:
James Smart <jsmart2021@gmail.com> Reviewed-by:
-
James Smart authored
When searching for an association based on an association id, when there is a match, the code takes a reference. However, it is not validating that the reference taking was successful. Check the status of the reference. If unsuccessful, the device is being deleted and should be ignored. Signed-off-by:
-
James Smart authored
Currently the FC transport is set max_hw_sectors based on the lldds max sgl segment count. However, the block queue max segments is set based on the controller's max_segments count, which the transport does not set. As such, the lldd is receiving sgl lists that are exceeding its max segment count. Set the controller max segment count and derive max_hw_sectors from the max segment count. Signed-off-by:
Himanshu Madhani <himanshu.madhani@oracle.com> Reviewed-by:
Ewan D. Milne <emilne@redhat.com> Signed-off-by:
-
Randy Dunlap authored
Drop the repeated word "a" in a comment. Signed-off-by:
Randy Dunlap <rdunlap@infradead.org> Signed-off-by:
-
Sagi Grimberg authored
Stay consistent with the rest of the driver Signed-off-by:
-
Sagi Grimberg authored
A deadlock happens in the following scenario with multipath: 1) scan_work(nvme0) detects a new nsid while nvme0 is an optimized path to it, path nvme1 happens to be inaccessible. 2) Before scan_work is complete nvme0 disconnect is initiated nvme_delete_ctrl_sync() sets nvme0 state to NVME_CTRL_DELETING 3) scan_work(1) attempts to submit IO, but nvme_path_is_optimized() observes nvme0 is not LIVE. Since nvme1 is a possible path IO is requeued and scan_work hangs. -- Workqueue: nvme-wq nvme_scan_work [nvme_core] kernel: Call Trace: kernel: __schedule+0x2b9/0x6c0 kernel: schedule+0x42/0xb0 kernel: io_schedule+0x16/0x40 kernel: do_read_cache_page+0x438/0x830 kernel: read_cache_page+0x12/0x20 kernel: read_dev_sector+0x27/0xc0 kernel: read_lba+0xc1/0x220 kernel: efi_partition+0x1e6/0x708 kernel: check_partition+0x154/0x244 kernel: rescan_partitions+0xae/0x280 kernel: __blkdev_get+0x40f/0x560 kernel: blkdev_get+0x3d/0x140 kernel: __device_add_disk+0x388/0x480 kernel: device_add_disk+0x13/0x20 kernel: nvme_mpath_set_live+0x119/0x140 [nvme_core] kernel: nvme_update_ns_ana_state+0x5c/0x60 [nvme_core] kernel: nvme_set_ns_ana_state+0x1e/0x30 [nvme_core] kernel: nvme_parse_ana_log+0xa1/0x180 [nvme_core] kernel: nvme_mpath_add_disk+0x47/0x90 [nvme_core] kernel: nvme_validate_ns+0x396/0x940 [nvme_core] kernel: nvme_scan_work+0x24f/0x380 [nvme_core] kernel: process_one_work+0x1db/0x380 kernel: worker_thread+0x249/0x400 kernel: kthread+0x104/0x140 -- 4) Delete also hangs in flush_work(ctrl->scan_work) from nvme_remove_namespaces(). Similiarly a deadlock with ana_work may happen: if ana_work has started and calls nvme_mpath_set_live and device_add_disk, it will trigger I/O. When we trigger disconnect I/O will block because our accessible (optimized) path is disconnecting, but the alternate path is inaccessible, so I/O blocks. Then disconnect tries to flush the ana_work and hangs. [ 605.550896] Workqueue: nvme-wq nvme_ana_work [nvme_core] [ 605.552087] Call Trace: [ 605.552683] __schedule+0x2b9/0x6c0 [ 605.553507] schedule+0x42/0xb0 [ 605.554201] io_schedule+0x16/0x40 [ 605.555012] do_read_cache_page+0x438/0x830 [ 605.556925] read_cache_page+0x12/0x20 [ 605.557757] read_dev_sector+0x27/0xc0 [ 605.558587] amiga_partition+0x4d/0x4c5 [ 605.561278] check_partition+0x154/0x244 [ 605.562138] rescan_partitions+0xae/0x280 [ 605.563076] __blkdev_get+0x40f/0x560 [ 605.563830] blkdev_get+0x3d/0x140 [ 605.564500] __device_add_disk+0x388/0x480 [ 605.565316] device_add_disk+0x13/0x20 [ 605.566070] nvme_mpath_set_live+0x5e/0x130 [nvme_core] [ 605.567114] nvme_update_ns_ana_state+0x2c/0x30 [nvme_core] [ 605.568197] nvme_update_ana_state+0xca/0xe0 [nvme_core] [ 605.569360] nvme_parse_ana_log+0xa1/0x180 [nvme_core] [ 605.571385] nvme_read_ana_log+0x76/0x100 [nvme_core] [ 605.572376] nvme_ana_work+0x15/0x20 [nvme_core] [ 605.573330] process_one_work+0x1db/0x380 [ 605.574144] worker_thread+0x4d/0x400 [ 605.574896] kthread+0x104/0x140 [ 605.577205] ret_from_fork+0x35/0x40 [ 605.577955] INFO: task nvme:14044 blocked for more than 120 seconds. [ 605.579239] Tainted: G OE 5.3.5-050305-generic #201910071830 [ 605.580712] "echo 0 > /proc/sys/kernel/hung_task_timeout_secs" disables this message. [ 605.582320] nvme D 0 14044 14043 0x00000000 [ 605.583424] Call Trace: [ 605.583935] __schedule+0x2b9/0x6c0 [ 605.584625] schedule+0x42/0xb0 [ 605.585290] schedule_timeout+0x203/0x2f0 [ 605.588493] wait_for_completion+0xb1/0x120 [ 605.590066] __flush_work+0x123/0x1d0 [ 605.591758] __cancel_work_timer+0x10e/0x190 [ 605.593542] cancel_work_sync+0x10/0x20 [ 605.594347] nvme_mpath_stop+0x2f/0x40 [nvme_core] [ 605.595328] nvme_stop_ctrl+0x12/0x50 [nvme_core] [ 605.596262] nvme_do_delete_ctrl+0x3f/0x90 [nvme_core] [ 605.597333] nvme_sysfs_delete+0x5c/0x70 [nvme_core] [ 605.598320] dev_attr_store+0x17/0x30 Fix this by introducing a new state: NVME_CTRL_DELETE_NOIO, which will indicate the phase of controller deletion where I/O cannot be allowed to access the namespace. NVME_CTRL_DELETING still allows mpath I/O to be issued to the bottom device, and only after we flush the ana_work and scan_work (after nvme_stop_ctrl and nvme_prep_remove_namespaces) we change the state to NVME_CTRL_DELETING_NOIO. Also we prevent ana_work from re-firing by aborting early if we are not LIVE, so we should be safe here. In addition, change the transport drivers to follow the updated state machine. Fixes: 0d0b660f ("nvme: add ANA support") Reported-by:Anton Eidelman <anton@lightbitslabs.com> Signed-off-by:
-
Sagi Grimberg authored
We are starting to see some non-trivial states so lets start documenting them. Signed-off-by:
-
Chaitanya Kulkarni authored
This patch replaces the ctrl->namespaces tracking from linked list to xarray and improves the performance when accessing one namespce :- XArray vs Default:- IOPS and BW (more the better) increase BW (~1.8%):- --------------------------------------------------- XArray :- read: IOPS=160k, BW=626MiB/s (656MB/s)(18.3GiB/30001msec) read: IOPS=160k, BW=626MiB/s (656MB/s)(18.3GiB/30001msec) read: IOPS=162k, BW=631MiB/s (662MB/s)(18.5GiB/30001msec) Default:- read: IOPS=156k, BW=609MiB/s (639MB/s)(17.8GiB/30001msec) read: IOPS=157k, BW=613MiB/s (643MB/s)(17.0GiB/30001msec) read: IOPS=160k, BW=626MiB/s (656MB/s)(18.3GiB/30001msec) Submission latency (less the better) decrease (~8.3%):- ------------------------------------------------------- XArray:- slat (usec): min=7, max=8386, avg=11.19, stdev=5.96 slat (usec): min=7, max=441, avg=11.09, stdev=4.48 slat (usec): min=7, max=1088, avg=11.21, stdev=4.54 Default :- slat (usec): min=8, max=2826.5k, avg=23.96, stdev=3911.50 slat (usec): min=8, max=503, avg=12.52, stdev=5.07 slat (usec): min=8, max=2384, avg=12.50, stdev=5.28 CPU Usage (less the better) decrease (~5.2%):- ---------------------------------------------- XArray:- cpu : usr=1.84%, sys=18.61%, ctx=949471, majf=0, minf=250 cpu : usr=1.83%, sys=18.41%, ctx=950262, majf=0, minf=237 cpu : usr=1.82%, sys=18.82%, ctx=957224, majf=0, minf=234 Default:- cpu : usr=1.70%, sys=19.21%, ctx=858196, majf=0, minf=251 cpu : usr=1.82%, sys=19.98%, ctx=929720, majf=0, minf=227 cpu : usr=1.83%, sys=20.33%, ctx=947208, majf=0, minf=235. Signed-off-by:
-
Yamin Friedman authored
Has the driver use shared CQs providing ~10%-20% improvement when multiple disks are used. Instead of opening a CQ for each QP per controller, a CQ for each core will be provided by the RDMA core driver that will be shared between the QPs on that core reducing interrupt overhead. Signed-off-by:
Yamin Friedman <yaminf@mellanox.com> Signed-off-by:
Or Gerlitz <ogerlitz@mellanox.com> Reviewed-by:
-
Yamin Friedman authored
Has the driver use shared CQs providing ~10%-20% improvement as seen in the patch introducing shared CQs. Instead of opening a CQ for each QP per controller connected, a CQ for each QP will be provided by the RDMA core driver that will be shared between the QPs on that core reducing interrupt overhead. Signed-off-by:
-
David E. Box authored
This patch implements a solution for a BIOS hack used on some currently shipping Intel systems to change driver power management policy for PCIe NVMe drives. Some newer Intel platforms, like some Comet Lake systems, require that PCIe devices use D3 when doing suspend-to-idle in order to allow the platform to realize maximum power savings. This is particularly needed to support ATX power supply shutdown on desktop systems. In order to ensure this happens for root ports with storage devices, Microsoft apparently created this ACPI _DSD property as a way to influence their driver policy. To my knowledge this property has not been discussed with the NVME specification body. Though the solution is not ideal, it addresses a problem that also affects Linux since the NVMe driver's default policy of using NVMe APST during suspend-to-idle prevents the PCI root port from going to D3 and leads to higher power consumption for these platforms. The power consumption difference may be negligible on laptop systems, but many watts on desktop systems when the ATX power supply is blocked from powering down. The patch creates a new nvme_acpi_storage_d3 function to check for the StorageD3Enable property during probe and enables D3 as a quirk if set. It also provides a 'noacpi' module parameter to allow skipping the quirk if needed. Tested with: - PM961 NVMe SED Samsung 512GB - INTEL SSDPEKKF512G8 Link: https://docs.microsoft.com/en-us/windows-hardware/design/component-guidelines/power-management-for-storage-hardware-devices-introSigned-off-by:
David E. Box <david.e.box@linux.intel.com> Reviewed-by:
Rafael J. Wysocki <rafael.j.wysocki@intel.com> Signed-off-by:
-
Chaitanya Kulkarni authored
>From the initial implementation of NVMe SGL kernel support commit a7a7cbe3 ("nvme-pci: add SGL support") with addition of the commit 943e942e ("nvme-pci: limit max IO size and segments to avoid high order allocations") now there is only caller left for nvme_pci_iod_alloc_size() which statically passes true for last parameter that calculates allocation size based on SGL since we need size of biggest command supported for mempool allocation. This patch modifies the helper functions nvme_pci_iod_alloc_size() such that it is now uses maximum of PRP and SGL size for iod allocation size calculation. Signed-off-by:
-
Chaitanya Kulkarni authored
Saving the nvme controller's page size was from a time when the driver tried to use different sized pages, but this value is always set to a constant, and has been this way for some time. Remove the 'page_size' field and replace its usage with the constant value. This also lets the compiler make some micro-optimizations in the io path, and that's always a good thing. Signed-off-by:
-
Baolin Wang authored
We've already validated the 'kato' in nvme_start_keep_alive(), thus no need to validate it again in nvme_start_ctrl(). Remove it. Signed-off-by:
Baolin Wang <baolin.wang@linux.alibaba.com> Signed-off-by:
-
Dan Carpenter authored
"v" is an unsigned int so it can't be more than UINT_MAX. Removing this check makes it easier to preserve the error code as well. Signed-off-by:
Dan Carpenter <dan.carpenter@oracle.com> Signed-off-by:
-
- 28 Jul, 2020 1 commit
-
-
Coly Li authored
This patch is a fix to patch "bcache: fix bio_{start,end}_io_acct with proper device". The previous patch uses a hack to temporarily set bi_disk to bcache device, which is mistaken too. As Christoph suggests, this patch uses disk_{start,end}_io_acct() to count I/O for bcache device in the correct way. Fixes: 85750aeb ("bcache: use bio_{start,end}_io_acct") Signed-off-by:Coly Li <colyli@suse.de> Cc: Christoph Hellwig <hch@lst.de> Cc: stable@vger.kernel.org Signed-off-by:
Jens Axboe <axboe@kernel.dk>
-
- 25 Jul, 2020 9 commits
-
-
Coly Li authored
Commit 85750aeb ("bcache: use bio_{start,end}_io_acct") moves the io account code to the location after bio_set_dev(bio, dc->bdev) in cached_dev_make_request(). Then the account is performed incorrectly on backing device, indeed the I/O should be counted to bcache device like /dev/bcache0. With the mistaken I/O account, iostat does not display I/O counts for bcache device and all the numbers go to backing device. In writeback mode, the hard drive may have 340K+ IOPS which is impossible and wrong for spinning disk. This patch introduces bch_bio_start_io_acct() and bch_bio_end_io_acct(), which switches bio->bi_disk to bcache device before calling bio_start_io_acct() or bio_end_io_acct(). Now the I/Os are counted to bcache device, and bcache device, cache device and backing device have their correct I/O count information back. Fixes: 85750aeb ("bcache: use bio_{start,end}_io_acct") Signed-off-by:
-
Coly Li authored
Bcache uses struct bbio to do I/Os for meta data pages like uuids, disk_buckets, prio_buckets, and btree nodes. Example writing a btree node onto cache device, the process is, - Allocate a struct bbio from mempool c->bio_meta. - Inside struct bbio embedded a struct bio, initialize bi_inline_vecs for this embedded bio. - Call bch_bio_map() to map each meta data page to each bv from the inlined bi_io_vec table. - Call bch_submit_bbio() to submit the bio into underlying block layer. - When the I/O completed, only release the struct bbio, don't touch the reference counter of the meta data pages. The struct bbio is defined as, 738 struct bbio { 739 unsigned int submit_time_us; [snipped] 748 struct bio bio; 749 }; Because struct bio is embedded at the end of struct bbio, therefore the actual size of struct bbio is sizeof(struct bio) + size of the embedded bio->bi_inline_vecs. Now all the meta data bucket size are limited to meta_bucket_pages(), if the bucket size is large than meta_bucket_pages()*PAGE_SECTORS, rested space in the bucket is unused. Therefore the most used space in meta bucket is (1<<MAX_ORDER) pages, or (1<<CONFIG_FORCE_MAX_ZONEORDER) if it is configured. Therefore for large bucket size, it is unnecessary to calculate the allocation size of mempool c->bio_meta as, mempool_init_kmalloc_pool(&c->bio_meta, 2, sizeof(struct bbio) + sizeof(struct bio_vec) * bucket_pages(c)) It is too large, neither the Linux buddy allocator cannot allocate so much continuous pages, nor the extra allocated pages are wasted. This patch replace bucket_pages() to meta_bucket_pages() in two places, - In bch_cache_set_alloc(), when initialize mempool c->bio_meta, uses sizeof(struct bbio) + sizeof(struct bio_vec) * bucket_pages(c) to set the allocating object size. - In bch_bbio_alloc(), when calling bio_init() to set inline bvec talbe bi_inline_bvecs, uses meta_bucket_pages() to indicate number of the inline bio vencs number. Now the maximum size of embedded bio inside struct bbio exactly matches the limit of meta_bucket_pages(), no extra page wasted. Signed-off-by: -
Coly Li authored
Mempool c->fill_iter is used to allocate memory for struct btree_iter in bch_btree_node_read_done() to iterate all keys of a read-in btree node. The allocation size is defined in bch_cache_set_alloc() by, mempool_init_kmalloc_pool(&c->fill_iter, 1, iter_size)) where iter_size is defined by a calculation, (sb->bucket_size / sb->block_size + 1) * sizeof(struct btree_iter_set) For 16bit width bucket_size the calculation is OK, but now the bucket size is extended to 32bit, the bucket size can be 2GB. By the above calculation, iter_size can be 2048 pages (order 11 is still accepted by buddy allocator). But the actual size holds the bkeys in meta data bucket is limited to meta_bucket_pages() already, which is 16MB. By the above calculation, if replace sb->bucket_size by meta_bucket_pages() * PAGE_SECTORS, the result is 16 pages. This is the size large enough for the mempool allocation to struct btree_iter. Therefore in worst case every time mempool c->fill_iter allocates, at most 4080 pages are wasted and won't be used. Therefore this patch uses meta_bucket_pages() * PAGE_SECTORS to calculate the iter size in bch_cache_set_alloc(), to avoid extra memory allocation from mempool c->fill_iter. Signed-off-by:
-
Coly Li authored
The following three sysfs files are created to display according feature set information of bcache: /sys/fs/bcache/<cache set UUID>/internal/feature_compat /sys/fs/bcache/<cache set UUID>/internal/feature_ro_compat /sys/fs/bcache/<cache set UUID>/internal/feature_incompat is added by this patch, to display feature sets information of the cache set. Now only an incompat feature 'large_bucket' added in bcache, the sysfs file content is: [large_bucket] string large_bucket means the running bcache drive supports incompat feature 'large_bucket', the wrapping [] means the 'large_bucket' feature is currently enabled on this cache set. This patch is ready to display compat and ro_compat features, in future once bcache code implements such feature sets, the according feature strings will be displayed in their sysfs files too. Signed-off-by: -
Coly Li authored
The large bucket feature is to extend bucket_size from 16bit to 32bit. When create cache device on zoned device (e.g. zoned NVMe SSD), making a single bucket cover one or more zones of the zoned device is the simplest way to support zoned device as cache by bcache. But current maximum bucket size is 16MB and a typical zone size of zoned device is 256MB, this is the major motiviation to extend bucket size to a larger bit width. This patch is the basic and first change to support large bucket size, the major changes it makes are, - Add BCH_FEATURE_INCOMPAT_LARGE_BUCKET for the large bucket feature, INCOMPAT means it introduces incompatible on-disk format change. - Add BCH_FEATURE_INCOMPAT_FUNCS(large_bucket, LARGE_BUCKET) routines. - Adds __le16 bucket_size_hi into struct cache_sb_disk at offset 0x8d0 for the on-disk super block format. - For the in-memory super block struct cache_sb, member bucket_size is extended from __u16 to __32. - Add get_bucket_size() to combine the bucket_size and bucket_size_hi from struct cache_sb_disk into an unsigned int value. Since we already have large bucket size helpers meta_bucket_pages(), meta_bucket_bytes() and alloc_meta_bucket_pages(), they make sure when bucket size > 8MB, the memory allocation for bcache meta data bucket won't fail no matter how large the bucket size extended. So these meta data buckets are handled properly when the bucket size width increase from 16bit to 32bit, we don't need to worry about them. Signed-off-by:
-
Coly Li authored
Currently the bcache internal btree node occupies a whole bucket. When loading the btree node from cache device into memory, mca_data_alloc() will call bch_btree_keys_alloc() to allocate memory for the whole bucket size, ilog2(b->c->btree_pages) is send to bch_btree_keys_alloc() as the parameter 'page_order'. c->btree_pages is set as bucket_pages() in bch_cache_set_alloc(), for bucket size > 8MB, ilog2(b->c->btree_pages) is 12 for 4KB page size. By default the maximum page order __get_free_pages() accepts is MAX_ORDER (11), in this condition bch_btree_keys_alloc() will always fail. Because of other over-page-order allocation failure fails the cache device registration, such btree node allocation failure wasn't observed during runtime. After other blocking page allocation failures for bucket size > 8MB, this btree node allocation issue may trigger potentical risk e.g. infinite dead-loop to retry btree node allocation after failure. This patch fixes the potential problem by setting c->btree_pages to meta_bucket_pages() in bch_cache_set_alloc(). In the condition that bucket size > 8MB, meta_bucket_pages() will always return a number which won't exceed the maximum page order of the buddy allocator. Signed-off-by:
-
Coly Li authored
In bch_btree_cache_alloc() when CONFIG_BCACHE_DEBUG is configured, allocate memory for c->verify_ondisk may fail if the bucket size > 8MB, which will require __get_free_pages() to allocate continuous pages with order > 11 (the default MAX_ORDER of Linux buddy allocator). Such over size allocation will fail, and cause 2 problems, - When CONFIG_BCACHE_DEBUG is configured, bch_btree_verify() does not work, because c->verify_ondisk is NULL and bch_btree_verify() returns immediately. - bch_btree_cache_alloc() will fail due to c->verify_ondisk allocation failed, then the whole cache device registration fails. And because of this failure, the first problem of bch_btree_verify() has no chance to be triggered. This patch fixes the above problem by two means, 1) If pages allocation of c->verify_ondisk fails, set it to NULL and returns bch_btree_cache_alloc() with -ENOMEM. 2) When calling __get_free_pages() to allocate c->verify_ondisk pages, use ilog2(meta_bucket_pages(&c->sb)) to make sure ilog2() will always generate a pages order <= MAX_ORDER (or CONFIG_FORCE_MAX_ZONEORDER). Then the buddy system won't directly reject the allocation request. Signed-off-by:
-
Coly Li authored
Similar to c->uuids, struct cache's prio_buckets and disk_buckets also have the potential memory allocation failure during cache registration if the bucket size > 8MB. ca->prio_buckets can be stored on cache device in multiple buckets, its in-memory space is allocated by kzalloc() interface but normally allocated by alloc_pages() because the size > KMALLOC_MAX_CACHE_SIZE. So allocation of ca->prio_buckets has the MAX_ORDER restriction too. If the bucket size > 8MB, by default the page allocator will fail because the page order > 11 (default MAX_ORDER value). ca->prio_buckets should also use meta_bucket_bytes(), meta_bucket_pages() to decide its memory size and use alloc_meta_bucket_pages() to allocate pages, to avoid the allocation failure during cache set registration when bucket size > 8MB. ca->disk_buckets is a single bucket size memory buffer, it is used to iterate each bucket of ca->prio_buckets, and compose the bio based on memory of ca->disk_buckets, then write ca->disk_buckets memory to cache disk one-by-one for each bucket of ca->prio_buckets. ca->disk_buckets should have in-memory size exact to the meta_bucket_pages(), this is the size that ca->prio_buckets will be stored into each on-disk bucket. This patch fixes the above issues and handle cache's prio_buckets and disk_buckets properly for bucket size larger than 8MB. Signed-off-by:
-
Coly Li authored
Bcache allocates a whole bucket to store c->uuids on cache device, and allocates continuous pages to store it in-memory. When the bucket size exceeds maximum allocable continuous pages, bch_cache_set_alloc() will fail and cache device registration will fail. This patch allocates c->uuids by alloc_meta_bucket_pages(), and uses ilog2(meta_bucket_pages(c)) to indicate order of c->uuids pages when free it. When writing c->uuids to cache device, its size is decided by meta_bucket_pages(c) * PAGE_SECTORS. Now c->uuids is properly handled for bucket size > 8MB. Signed-off-by:
-
