- 12 Feb, 2019 4 commits
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Bart Van Assche authored
This patch does not change any functionality. Cc: Oliver Neukum <oneukum@suse.com> Signed-off-by:
Bart Van Assche <bvanassche@acm.org> Acked-by:
Oliver Neukum <oneukum@suse.com> Reviewed-by:
Christoph Hellwig <hch@lst.de> Signed-off-by:
Martin K. Petersen <martin.petersen@oracle.com>
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Bart Van Assche authored
This patch does not change any functionality. Cc: Douglas Gilbert <dgilbert@interlog.com> Signed-off-by:
Douglas Gilbert <dgilbert@interlog.com> Reviewed-by:
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Bart Van Assche authored
This patch does not change any functionality. Cc: Lee Duncan <lduncan@suse.com> Cc: Chris Leech <cleech@redhat.com> Signed-off-by:
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Bart Van Assche authored
A recent commit removed an element from opcode_info_arr[] but did not modify opcode_ind_arr[] nor was SDEB_I_XDWRITEREAD removed. Remove SDEB_I_XDWRITEREAD and bring the two arrays again in sync. This patch avoids that the following is reported: BUG: KASAN: null-ptr-deref in scsi_debug_queuecommand+0x60f/0xc90 [scsi_debug] Read of size 1 at addr 0000000000000001 by task iscsi-test-cu/683 CPU: 3 PID: 683 Comm: iscsi-test-cu Not tainted 5.0.0-rc5-dbg+ #1 Hardware name: QEMU Standard PC (i440FX + PIIX, 1996), BIOS 1.10.2-1 04/01/2014 Call Trace: dump_stack+0x86/0xca kasan_report.cold.3+0x5/0x3e __asan_load1+0x47/0x50 scsi_debug_queuecommand+0x60f/0xc90 [scsi_debug] scsi_queue_rq+0xc17/0x12e0 blk_mq_dispatch_rq_list+0x5fc/0xb10 blk_mq_sched_dispatch_requests+0x2f7/0x300 __blk_mq_run_hw_queue+0xd6/0x180 __blk_mq_delay_run_hw_queue+0x25c/0x290 blk_mq_run_hw_queue+0x119/0x1b0 blk_mq_sched_insert_request+0x274/0x350 blk_execute_rq_nowait+0x78/0x90 blk_execute_rq+0xcc/0x140 sg_io+0x30f/0x700 scsi_cmd_ioctl+0x4d4/0x540 scsi_cmd_blk_ioctl+0x7b/0x8b sd_ioctl+0xba/0x150 blkdev_ioctl+0x6e1/0xea0 block_ioctl+0x79/0x90 do_vfs_ioctl+0x12b/0x9b0 ksys_ioctl+0x41/0x80 __x64_sys_ioctl+0x43/0x50 do_syscall_64+0x71/0x210 entry_SYSCALL_64_after_hwframe+0x49/0xbe Cc: Christoph Hellwig <hch@lst.de> Cc: Douglas Gilbert <dgilbert@interlog.com> Fixes: ae3d56d8 ("scsi: remove bidirectional command support") Signed-off-by:
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- 08 Feb, 2019 8 commits
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John Garry authored
Do some very minor tidy-up, for things like needlessly initing variable and not leaving whitespace before quote endings. Originally-from: Xiang Chen <chenxiang66@hisilicon.com> Originally-from: Luo Jiaxing <luojiaxing@huawei.com> Signed-off-by:
John Garry <john.garry@huawei.com> Signed-off-by:
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Xiang Chen authored
For auto-control irq affinity mode, choose the dq to deliver IO according to the current CPU. Then it decreases the performance regression that fio and CQ interrupts are processed on different node. For user control irq affinity mode, keep it as before. To realize it, also need to distinguish the usage of dq lock and sas_dev lock. We mark as experimental due to ongoing discussion on managed MSI IRQ during hotplug: https://marc.info/?l=linux-scsi&m=154876335707751&w=2 We're almost at the point where we can expose multiple queues to the upper layer for SCSI MQ, but we need to sort out the per-HBA tags performance issue. Signed-off-by:
Xiang Chen <chenxiang66@hisilicon.com> Signed-off-by:
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John Garry authored
To support queue mapped to a CPU, it needs to be ensured that issuing an internal abort is safe, in that it is guaranteed that an internal abort is processed for a single IO or a device after all the relevant command(s) which it is attempting to abort have been processed by the controller. Currently we only deliver commands for any device on a single queue to solve this problem, as we know that commands issued on the same queue will be processed in order, and we will not have a scenario where the internal abort is racing against a command(s) which it is trying to abort. To enqueue commands on queue mapped to a CPU, choosing a queue for an command is based on the associated queue for the current CPU, so this is not safe for internal abort since it would definitely not be guaranteed that commands for the command devices are issued on the same queue. To solve this issue, we take a bludgeoning approach, and issue a separate internal abort on any queue(s) relevant to the command or device, in that we will be guaranteed that at least one of these internal aborts will be received last in the controller. So, for aborting a single command, we can just force the internal abort to be issued on the same queue as the command which we are trying to abort. For aborting all commands associated with a device, we issue a separate internal abort on all relevant queues. Issuing multiple internal aborts in this fashion would have not side affect. Signed-off-by:
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Xiang Chen authored
If sending IOs to many disks from single queue, it is possible that the queue may be full. To avoid the situation, change queue depth from 512 to 4096 which is the max number of IOs for v3 hw. Signed-off-by:
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Luo Jiaxing authored
Add an interface to manually trigger a debugfs dump. Signed-off-by:
Luo Jiaxing <luojiaxing@huawei.com> Signed-off-by:
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Xiang Chen authored
This patch adds support for DIX to v3 hw driver. For this, we build upon support for DIF, most significantly is adding new DMA map and unmap paths. Some pre-existing macro precedence issues are also tidied. They were detected by checkpatch --strict. Signed-off-by:
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Douglas Anderson authored
If you look at the bindings for the UFS Host Controller it says: - compatible: must contain "jedec,ufs-1.1" or "jedec,ufs-2.0", may also list one or more of the following: "qcom,msm8994-ufshc" "qcom,msm8996-ufshc" "qcom,ufshc" My reading of that is that it's fine to just have either of these: 1. "qcom,msm8996-ufshc", "jedec,ufs-2.0" 2. "qcom,ufshc", "jedec,ufs-2.0" As far as I can tell neither of the above is actually a good idea. For #1 it turns out that the driver currently only keys off the compatible string "qcom,ufshc" so it won't actually probe. For #2 the driver won't probe but it's not a good idea to keep the SoC name out of the compatible string. Let's update the compatible string to make it really explicit. We'll include a nod to the existing driver and the old binding and say that we should always include the "qcom,ufshc" string in addition to the SoC compatible string. While we're at it we'll also include another example SoC known to have UFS: sdm845. Fixes: 47555a5c ("scsi: ufs: make the UFS variant a platform device") Signed-off-by:Douglas Anderson <dianders@chromium.org> Reviewed-by:
Vivek Gautam <vivek.gautam@codeaurora.org> Reviewed-by:
Rob Herring <robh@kernel.org> Signed-off-by:
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Nathan Chancellor authored
Clang warns several times in the scsi subsystem (trimmed for brevity): drivers/scsi/hpsa.c:6209:7: warning: overflow converting case value to switch condition type (2147762695 to 18446744071562347015) [-Wswitch] case CCISS_GETBUSTYPES: ^ drivers/scsi/hpsa.c:6208:7: warning: overflow converting case value to switch condition type (2147762694 to 18446744071562347014) [-Wswitch] case CCISS_GETHEARTBEAT: ^ The root cause is that the _IOC macro can generate really large numbers, which don't fit into type 'int', which is used for the cmd parameter in the ioctls in scsi_host_template. My research into how GCC and Clang are handling this at a low level didn't prove fruitful. However, looking at the rest of the kernel tree, all ioctls use an 'unsigned int' for the cmd parameter, which will fit all of the _IOC values in the scsi/ata subsystems. Make that change because none of the ioctls expect a negative value for any command, it brings the ioctls inline with the reset of the kernel, and it removes ambiguity, which is never good when dealing with compilers. Link: https://github.com/ClangBuiltLinux/linux/issues/85 Link: https://github.com/ClangBuiltLinux/linux/issues/154 Link: https://github.com/ClangBuiltLinux/linux/issues/157Signed-off-by:Nathan Chancellor <natechancellor@gmail.com> Acked-by:
Bradley Grove <bgrove@attotech.com> Acked-by:
Don Brace <don.brace@microsemi.com> Reviewed-by:
Nick Desaulniers <ndesaulniers@google.com> Reviewed-by:
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- 06 Feb, 2019 28 commits
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James Smart authored
Update lpfc version to 12.2.0.0 Signed-off-by:
Dick Kennedy <dick.kennedy@broadcom.com> Signed-off-by:
James Smart <jsmart2021@gmail.com> Reviewed-by:
Hannes Reinecke <hare@suse.com> Signed-off-by:
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James Smart authored
For files modified as part of 12.2.0.0 patches, update copyright to 2019 Signed-off-by:
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James Smart authored
Various null pointer dereference and general protection fault panics occur when there is a link bounce under load. There are a large number of "error" message 6413 indicating "bad release". The issues resolve to list corruptions due to missing or inconsistent lock protection. Lockups are due to nested locks in the unsolicited abort path. The unsolicited abort path calls the wrong abort processing routine. There was also duplicate context release while aborts were still active in the hardware. Removed duplicate locks and added lock protection around list item removal. Commonized lock handling around the abort processing routines. Prevent context release while still in ABTS list. Signed-off-by:
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James Smart authored
When the transport calls into the lpfc target to release an IO job structure, which corresponds to an exchange, and if the driver was waiting for an exchange in order to post a previously received command to the transport, the driver immediately takes the IO job and reuses the context for the prior command and calls nvmet_fc_rcv_fcp_req() to tell the transport about a newly received command. Problem is, the execution of the IO job release may be in the context of the back end driver and its bio completion handlers, thus it may be in a irq context and protection code kicks in in the bio and request layers that are subsequently called. Rework lpfc so that instead of immediately upcalling, queue it to a deferred work thread and have the thread make the upcall. Took advantage of this change to remove duplicated code with the normal command receive path that preps the IO job and upcalls nvmet_fc. Created a common routine both paths use. Also corrected some errors that were found during review of the context freeing and reuse - basically unlocked operations and a somewhat disjoint set of calls to release associated job elements. Cleaned up this path and added locks for coherency. Signed-off-by:
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James Smart authored
The conversion to enable SCSI and NVME fc4 support ran into an issue with NPIV support. With NVME, NPIV is not currently supported, but with SCSI it was. The driver reverted to its lowest setting meaning NPIV with SCSI was not allowed. Convert the NPIV checks and implementation so that SCSI can continue to allow NPIV support. Signed-off-by:
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James Smart authored
A scsi host lock is taken on every io completion to check whether the abort handler is waiting on the io completion. This is an expensive lock to take on all completion when rarely in an abort condition. Replace scsi host lock with command-specific lock. Synchronize completion and abort paths by new cmd lock. Ensure all flag changing and nulling of context pointers taken under lock. When adding lock to task management abort, realized it was missing other synchronization locks. Added that synchronization to match normal paths. Signed-off-by:
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James Smart authored
Now that performance mods don't split resources by protocol and enable both protocols by default, there's no reason not to enable concurrent SCSI and NVME fc4 support. Signed-off-by:
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James Smart authored
The work done to date utilized the number of present cpus when sizing per-cpu structures. Structures should have been sized based on the max possible cpu count. Convert the driver over to possible cpu count for sizing allocation. Signed-off-by:
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James Smart authored
Current driver uses the older IRQ API for MSIX allocation Change driver to utilize pci_alloc_irq_vectors when allocating IRQ vectors. Make lpfc_cpu_affinity_check use pci_irq_get_affinity to determine how the kernel mapped all the IRQs. Remove msix_entries from SLI4 structure, replaced with pci_irq_vector() usage. Signed-off-by:
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James Smart authored
When driving high iop counts, auto_imax coalescing kicks in and drives the performance to extremely small iops levels. There are two issues: 1) auto_imax is enabled by default. The auto algorithm, when iops gets high, divides the iops by the hdwq count and uses that value to calculate EQ_Delay. The EQ_Delay is set uniformly on all EQs whether they have load or not. The EQ_delay is only manipulated every 5s (a long time). Thus there were large 5s swings of no interrupt delay followed by large/maximum delay, before repeating. 2) When processing a CQ, the driver got mixed up on the rate of when to ring the doorbell to keep the chip appraised of the eqe or cqe consumption as well as how how long to sit in the thread and process queue entries. Currently, the driver capped its work at 64 entries (very small) and exited/rearmed the CQ. Thus, on heavy loads, additional overheads were taken to exit and re-enter the interrupt handler. Worse, if in the large/maximum coalescing windows,k it could be a while before getting back to servicing. The issues are corrected by the following: - A change in defaults. Auto_imax is turned OFF and fcp_imax is set to 0. Thus all interrupts are immediate. - Cleanup of field names and their meanings. Existing names were non-intuitive or used for duplicate things. - Added max_proc_limit field, to control the length of time the handlers would service completions. - Reworked EQ handling: Added common routine that walks eq, applying notify interval and max processing limits. Use queue_claimed to claim ownership of the queue while processing. Always rearm the queue whenever the common routine is called. Rework queue element processing, namely to eliminate hba_index vs host_index. Only one index is necessary. The queue entry can be marked invalid and the host_index updated immediately after eqe processing. After rework, xx_release routines are now DB write functions. Renamed the routines as such. Moved lpfc_sli4_eq_flush(), which does similar action, to same area. Replaced the 2 individual loops that walk an eq with a call to the common routine. Slightly revised lpfc_sli4_hba_handle_eqe() calling syntax. Added per-cpu counters to detect interrupt rates and scale interrupt coalescing values. - Reworked CQ handling: Added common routine that walks cq, applying notify interval and max processing limits. Use queue_claimed to claim ownership of the queue while processing. Always rearm the queue whenever the common routine is called. Rework queue element processing, namely to eliminate hba_index vs host_index. Only one index is necessary. The queue entry can be marked invalid and the host_index updated immediately after cqe processing. After rework, xx_release routines are now DB write functions. Renamed the routines as such. Replaced the 3 individual loops that walk a cq with a call to the common routine. Redefined lpfc_sli4_sp_handle_mcqe() to commong handler definition with queue reference. Add increment for mbox completion to handler. - Added a new module/sysfs attribute: lpfc_cq_max_proc_limit To allow dynamic changing of the CQ max_proc_limit value being used. Although this leaves an EQ as an immediate interrupt, that interrupt will only occur if a CQ bound to it is in an armed state and has cqe's to process. By staying in the cq processing routine longer, high loads will avoid generating more interrupts as they will only rearm as the processing thread exits. The immediately interrupt is also beneficial to idle or lower-processing CQ's as they get serviced immediately without being penalized by sharing an EQ with a more loaded CQ. Signed-off-by: -
James Smart authored
Review of the eq coalescing logic showed the code was a bit fragmented. Sometimes it would save/set via an interrupt max value, while in others it would do so via a usdelay. There were also two places changing eq delay, one place that issued mailbox commands, and another that changed via register writes if supported. Clean this up by: - Standardizing the operation of lpfc_modify_hba_eq_delay() routine so that it is always told of a us delay to impose. The routine then chooses the best way to set that - via register or via mbx. - Rather than two value types stored in eq->q_mode (usdelay if change via register, imax if change via mbox) - q_mode always contains usdelay. Before any value change, old vs new value is compared and only if different is a change done. - Revised the dmult calculation. dmult is not set based on overall imax divided by hardware queues - instead imax applies to a single cpu and the value will be replicated to all cpus. Signed-off-by:
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James Smart authored
So far MSIX vector allocation assumed it would be 1:1 with hardware queues. However, there are several reasons why fewer MSIX vectors may be allocated than hardware queues such as the platform being out of vectors or adapter limits being less than cpu count. This patch reworks the MSIX/EQ relationships with the per-cpu hardware queues so they can function independently. MSIX vectors will be equitably split been cpu sockets/cores and then the per-cpu hardware queues will be mapped to the vectors most efficient for them. Signed-off-by:
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James Smart authored
The desired affinity for the hardware queue behavior is for hdwq 0 to be affinitized with cpu 0, hdwq 1 to cpu 1, and so on. The implementation so far does not do this if the number of cpus is greater than the number of hardware queues (e.g. hardware queue allocation was administratively reduced or hardware queue resources could not scale to the cpu count). Correct the queue affinitization logic when queue count is less than cpu count. Signed-off-by:
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James Smart authored
Default behavior is to use the information from the upper IO stacks to select the hardware queue to use for IO submission. Which typically has good cpu affinity. However, the driver, when used on some variants of the upstream kernel, has found queuing information to be suboptimal for FCP or IO completion locked on particular cpus. For command submission situations, the lpfc_fcp_io_sched module parameter can be set to specify a hardware queue selection policy that overrides the os stack information. For IO completion situations, rather than queing cq processing based on the cpu servicing the interrupting event, schedule the cq processing on the cpu associated with the hardware queue's cq. Signed-off-by:
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James Smart authored
The XRI get/put lists were partitioned per hardware queue. However, the adapter rarely had sufficient resources to give a large number of resources per queue. As such, it became common for a cpu to encounter a lack of XRI resource and request the upper io stack to retry after returning a BUSY condition. This occurred even though other cpus were idle and not using their resources. Create as efficient a scheme as possible to move resources to the cpus that need them. Each cpu maintains a small private pool which it allocates from for io. There is a watermark that the cpu attempts to keep in the private pool. The private pool, when empty, pulls from a global pool from the cpu. When the cpu's global pool is empty it will pull from other cpu's global pool. As there many cpu global pools (1 per cpu or hardware queue count) and as each cpu selects what cpu to pull from at different rates and at different times, it creates a radomizing effect that minimizes the number of cpu's that will contend with each other when the steal XRI's from another cpu's global pool. On io completion, a cpu will push the XRI back on to its private pool. A watermark level is maintained for the private pool such that when it is exceeded it will move XRI's to the CPU global pool so that other cpu's may allocate them. On NVME, as heartbeat commands are critical to get placed on the wire, a single expedite pool is maintained. When a heartbeat is to be sent, it will allocate an XRI from the expedite pool rather than the normal cpu private/global pools. On any io completion, if a reduction in the expedite pools is seen, it will be replenished before the XRI is placed on the cpu private pool. Statistics are added to aid understanding the XRI levels on each cpu and their behaviors. Signed-off-by:
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James Smart authored
Now that the lower half has much better per-cpu parallelization using the hardware queues, the SCSI MQ support needs to be tied into it. The involves the following mods: - Use the hardware queue info from the midlayer to help select the hardware queue to utilize. This required change to the get_scsi-buf_xxx routines. - Remove lpfc_sli4_scmd_to_wqidx_distr() routine. No longer needed. - Includes fix for SLI-3 that does not have multi queue parallelization. Signed-off-by:
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James Smart authored
SLI4 nvme functions are passing the SLI3 ring number when posting wqe to hardware. This should be indicating the hardware queue to use, not the ring number. Replace ring number with the hardware queue that should be used. Note: SCSI avoided this issue as it utilized an older lfpc_issue_iocb routine that properly adapts. Signed-off-by:
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James Smart authored
Many io statistics were being sampled and saved using adapter-based data structures. This was creating a lot of contention and cache thrashing in the I/O path. Move the statistics to the hardware queue data structures. Given the per-queue data structures, use of atomic types is lessened. Add new sysfs and debugfs stat routines to collate the per hardware queue values and report at an adapter level. Signed-off-by:
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James Smart authored
Similar to the io execution path that reports cpu context information, the debugfs routines for cpu information needs to be aligned with new hardware queue implementation. Convert debugfs cnd nvme cpucheck statistics to report information per Hardware Queue. Signed-off-by:
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James Smart authored
Both NVME and SCSI aborts are now processed off the CQ workqueue and do not generate events for the slowpath any more. Remove the unused event code. Signed-off-by:
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James Smart authored
Once the IO buff allocations were made shared, there was a single XRI buffer list shared by all hardware queues. A single list isn't great for performance when shared across the per-cpu hardware queues. Create a separate XRI IO buffer get/put list for each Hardware Queue. As SGLs and associated IO buffers get allocated/posted to the firmware; round robin their assignment across all available hardware Queues so that there is an equitable assignment. Modify SCSI and NVME IO submit code paths to use the Hardware Queue logic for XRI allocation. Add a debugfs interface to display hardware queue statistics Added new empty_io_bufs counter to track if a cpu runs out of XRIs. Replace common_ variables/names with io_ to make meanings clearer. Signed-off-by:
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James Smart authored
Currently, both nvme and fcp each have their own concept of an io_channel, which is a combination wq/cq and associated msix. Different cpus would share an io_channel. The driver is now moving to per-cpu wq/cq pairs and msix vectors. The driver will still use separate wq/cq pairs per protocol on each cpu, but the protocols will share the msix vector. Given the elimination of the nvme and fcp io channels, the module parameters will be removed. A new parameter, lpfc_hdw_queue is added which allows the wq/cq pair allocation per cpu to be overridden and allocated to lesser value. If lpfc_hdw_queue is zero, the number of pairs allocated will be based on the number of cpus. If non-zero, the parameter specifies the number of queues to allocate. At this time, the maximum non-zero value is 64. To manage this new paradigm, a new hardware queue structure is created to track queue activity and relationships. As MSIX vector allocation must be known before setting up the relationships, msix allocation now occurs before queue datastructures are allocated. If the number of vectors allocated is less than the desired hardware queues, the hardware queue counts will be reduced to the number of vectors Signed-off-by:
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James Smart authored
There is a extra queue and msix vector for expresslane. Now that the driver will be doing queues per cpu, this oddball queue is no longer needed. Expresslane will utilize the normal per-cpu queues. Updated debugfs sli4 queue output to go along with the change Signed-off-by:
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James Smart authored
Currently, both NVME and SCSI get their IO buffers from separate pools. XRI's are associated 1:1 with IO buffers, so XRI's are also split between protocols. Eliminate the independent pools and use a single pool. Each buffer structure now has a common section and a protocol section. Per protocol routines for SGL initialization are removed and replaced by common routines. Initialization of the buffers is only done on the common area. All other fields, which are protocol specific, are initialized when the buffer is allocated for use in the per-protocol allocation routine. In the past, the SCSI side allocated IO buffers as part of slave_alloc calls until the maximum XRIs for SCSI was reached. As all XRIs are now common and may be used for either protocol, allocation for everything is done as part of adapter initialization and the scsi side has no action in slave alloc. As XRI's are no longer split, the lpfc_xri_split module parameter is removed. Adapters based on SLI3 will continue to use the older scsi_buf_list_get/put routines. All SLI4 adapters utilize the new IO buffer scheme Signed-off-by:
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James Smart authored
lpfc_nvme_prep_io_cmd() checks for null pnode, but caller lpfc_nvme_fcp_io_submit() has already ensured it's non-null. Remove the pnode null check. Signed-off-by:
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James Smart authored
An hba-wide lock is taken in the nvme io completion routine. The lock covers null'ing of the nrport pointer in the cmd structure. The nrport member isn't necessary. After extracting the pointer from the command, the pointer was dereferenced to get the fc discovery node pointer. But the fc discovery node pointer is alrady in the command structure so the dereferrence was unnecessary. Eliminated the nrport structure member and its use, which also eliminates the port-wide lock. Signed-off-by:
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Himanshu Madhani authored
Signed-off-by:
Himanshu Madhani <hmadhani@marvell.com> Signed-off-by:
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Quinn Tran authored
This patch removes unnecessary code to handle RSCN, instead performs full scan everytime driver receives RSCN Fixes: d4f7a16a ("scsi: qla2xxx: Remove ASYNC GIDPN switch command") Cc: stable@vger.kernel.org #4.19 Signed-off-by:
Quinn Tran <qtran@marvell.com> Signed-off-by:
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