- 09 Sep, 2009 30 commits
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Dan Williams authored
Export driver attributes for diagnostic purposes: 'ring_size': total number of descriptors available to the engine 'ring_active': number of descriptors in-flight 'capabilities': supported operation types for this channel 'version': Intel(R) QuickData specfication revision This also allows some chattiness to be removed from the driver startup as this information is now available via sysfs. Signed-off-by:Dan Williams <dan.j.williams@intel.com>
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Dan Williams authored
Up until this point the driver for Intel(R) QuickData Technology engines, specification versions 2 and 3, were mostly identical save for a few quirks. Version 3.2 hardware adds many new capabilities (like raid offload support) requiring some infrastructure that is not relevant for v2. For better code organization of the new funcionality move v3 and v3.2 support to its own file dma_v3.c, and export some routines from the base files (dma.c and dma_v2.c) that can be reused directly. The first new capability included in this code reorganization is support for v3.2 memset operations. Signed-off-by: -
Dan Williams authored
ioat3.2 adds raid5 and raid6 offload capabilities. Signed-off-by:
Tom Picard <tom.s.picard@intel.com> Signed-off-by:
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Dan Williams authored
In preparation for adding more operation types to the ioat3 path the driver needs to honor the DMA_PREP_FENCE flag. For example the async_tx api will hand xor->memcpy->xor chains to the driver with the 'fence' flag set on the first xor and the memcpy operation. This flag in turn sets the 'fence' flag in the descriptor control field telling the hardware that future descriptors in the chain depend on the result of the current descriptor, so wait for all writes to complete before starting the next operation. Note that ioat1 does not prefetch the descriptor chain, so does not require/support fenced operations. Signed-off-by: -
Dan Williams authored
Some engines have transfer size and address alignment restrictions. Add a per-operation alignment property to struct dma_device that the async routines and dmatest can use to check alignment capabilities. Signed-off-by: -
Dan Williams authored
No drivers currently implement these operation types, so they can be deleted. Signed-off-by: -
Dan Williams authored
Channel switching is problematic for some dmaengine drivers as the architecture precludes separating the ->prep from ->submit. In these cases the driver can select ASYNC_TX_DISABLE_CHANNEL_SWITCH to modify the async_tx allocator to only return channels that support all of the required asynchronous operations. For example MD_RAID456=y selects support for asynchronous xor, xor validate, pq, pq validate, and memcpy. When ASYNC_TX_DISABLE_CHANNEL_SWITCH=y any channel with all these capabilities is marked DMA_ASYNC_TX allowing async_tx_find_channel() to quickly locate compatible channels with the guarantee that dependency chains will remain on one channel. When ASYNC_TX_DISABLE_CHANNEL_SWITCH=n async_tx_find_channel() may select channels that lead to operation chains that need to cross channel boundaries using the async_tx channel switch capability. Signed-off-by: -
Dan Williams authored
Some engines optimize operation by reading ahead in the descriptor chain such that descriptor2 may start execution before descriptor1 completes. If descriptor2 depends on the result from descriptor1 then a fence is required (on descriptor2) to disable this optimization. The async_tx api could implicitly identify dependencies via the 'depend_tx' parameter, but that would constrain cases where the dependency chain only specifies a completion order rather than a data dependency. So, provide an ASYNC_TX_FENCE to explicitly identify data dependencies. Signed-off-by: -
Dan Williams authored
Conflicts: include/linux/dmaengine.h
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Dan Williams authored
Handle descriptor allocation failures by polling for a descriptor. The driver will force forward progress when polled. In the best case this polling interval will be the time it takes for one dma memcpy transaction to complete. In the worst case, channel hang, we will need to wait 100ms for the cleanup watchdog to fire (ioatdma driver). Signed-off-by:
Maciej Sosnowski <maciej.sosnowski@intel.com> Signed-off-by:
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Dan Williams authored
Increment the allocation order of the descriptor ring every time we run out of descriptors up to a maximum of allocation order specified by the module parameter 'ioat_max_alloc_order'. After each idle period decrement the allocation order to a minimum order of 'ioat_ring_alloc_order' (i.e. the default ring size, tunable as a module parameter). Signed-off-by:
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Dan Williams authored
In order to support dynamic resizing of the descriptor ring or polling for a descriptor in the presence of a hung channel the reset handler needs to make progress while in a non-preemptible context. The current workqueue implementation precludes polling channel reset completion under spin_lock(). This conversion also allows us to return to opportunistic cleanup in the ioat2 case as the timer implementation guarantees at least one cleanup after every descriptor is submitted. This means the worst case completion latency becomes the timer frequency (for exceptional circumstances), but with the benefit of avoiding busy waiting when the lock is contended. Signed-off-by:
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Dan Williams authored
Save 4 bytes per software descriptor by transmitting tx_cnt in an unused portion of the hardware descriptor. Signed-off-by:
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Dan Williams authored
Mark all single use initialization routines with __devinit. Signed-off-by:
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Dan Williams authored
The register write in ioat_dma_cleanup_tasklet is unfortunate in two ways: 1/ It clears the extra 'enable' bits that we set at alloc_chan_resources time 2/ It gives the impression that it disables interrupts when it is in fact re-arming interrupts [ Impact: fix, persist the value of the chanctrl register when re-arming ] Signed-off-by:
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Dan Williams authored
Don't trust that the reserved bits are always zero, also sanity check the returned value. Signed-off-by:
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Dan Williams authored
The cleanup path makes an effort to only perform an atomic read of the 64-bit completion address. However in the 32-bit case it does not matter if we read the upper-32 and lower-32 non-atomically because the upper-32 will always be zero. Signed-off-by:
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Dan Williams authored
Provide some output for debugging the driver. Signed-off-by:
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Dan Williams authored
The unified ioat1/ioat2 ioat_dma_unmap() implementation derives the source and dest addresses from the unmap descriptor. There is no longer a need to track this information in struct ioat_desc_sw. Signed-off-by:
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Dan Williams authored
Replace the current linked list munged into a ring with a native ring buffer implementation. The benefit of this approach is reduced overhead as many parameters can be derived from ring position with simple pointer comparisons and descriptor allocation/freeing becomes just a manipulation of head/tail pointers. It requires a contiguous allocation for the software descriptor information. Since this arrangement is significantly different from the ioat1 chain, move ioat2,3 support into its own file and header. Common routines are exported from driver/dma/ioat/dma.[ch]. Signed-off-by:
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Dan Williams authored
Prepare the code for the conversion of the ioat2 linked-list-ring into a native ring buffer. After this conversion ioat2 channels will share less of the ioat1 infrastructure, but there will still be places where sharing is possible. struct ioat_chan_common is created to house the channel attributes that will remain common between ioat1 and ioat2 channels. For every routine that accesses both common and hardware specific fields the old unified 'ioat_chan' pointer is split into an 'ioat' and 'chan' pointer. Where 'chan' references common fields and 'ioat' the hardware/version specific. [ Impact: pure structure member movement/variable renames, no logic changes ] Signed-off-by:
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Dan Williams authored
If a callback is to be attached to a descriptor the channel needs to know at ->prep time so it can set the interrupt enable bit. This is in preparation for moving descriptor ioat2 descriptor preparation from ->submit to ->prep. Signed-off-by:
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Dan Williams authored
The async_tx api assumes that after a successful ->prep a subsequent ->submit will not fail due to a lack of resources. This also fixes a bug in the allocation failure case. Previously the descriptors allocated prior to the allocation failure would not be returned to the free list. Signed-off-by:
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Dan Williams authored
This cleans up a mess of and'ing and or'ing bit definitions, and allows simple assignments from the specified dma_ctrl_flags parameter. Signed-off-by:
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Dan Williams authored
->dmacount tracks the sequence number of active descriptors. It is written to the DMACOUNT register to update the channel's view of pending descriptors in the chain. The register is 16-bits so ->dmacount should be unsigned and 16-bit as well. Also modify ->desccount to maintain alignment. This was never a problem in practice because we never compared dmacount values, but this is a bug waiting to happen. Signed-off-by:
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Dan Williams authored
Towards the removal of ioatdma_device.version split the initialization path into distinct versions. This conversion: 1/ moves version specific probe code to version specific routines 2/ removes the need for ioat_device 3/ turns off the ioat1 msi quirk if the device is reinitialized for intx Signed-off-by:
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Dan Williams authored
The only .c files that utilize these protected prototypes depend on CONFIG_INTEL_IOATDMA=y, so there is no value gained in providing empty prototypes. [ Impact: pure cleanup ] Signed-off-by:
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Dan Williams authored
* reduce device->common. to dma-> in ioat_dma_{probe,remove,selftest} * ioat_lookup_chan_by_index to ioat_chan_by_index * multi-line function definitions * ioat_desc_sw.async_tx to ioat_desc_sw.txd * desc->txd. to tx-> in cleanup routine Signed-off-by: -
Dan Williams authored
The driver currently duplicates much of what these routines offer, so just use the common code. For example ->irq_mode tracks what interrupt mode was initialized, which duplicates the ->msix_enabled and ->msi_enabled handling in pcim_release. This also adds a check to the return value of dma_async_device_register, which can fail. Signed-off-by:
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Dan Williams authored
Some of these defines may be useful outside of dma.c and the header is private so there are no namespace pollution concerns. Signed-off-by:
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- 30 Aug, 2009 10 commits
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Dan Williams authored
Now that the resources to handle stripe_head operations are allocated percpu it is possible for raid5d to distribute stripe handling over multiple cores. This conversion also adds a call to cond_resched() in the non-multicore case to prevent one core from getting monopolized for raid operations. Cc: Arjan van de Ven <arjan@linux.intel.com> Signed-off-by: -
Yuri Tikhonov authored
These routines have been replaced by there asynchronous counterparts. Signed-off-by:
Yuri Tikhonov <yur@emcraft.com> Signed-off-by:
Ilya Yanok <yanok@emcraft.com> Signed-off-by:
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Yuri Tikhonov authored
1/ Use STRIPE_OP_BIOFILL to offload completion of read requests to raid_run_ops 2/ Implement a handler for sh->reconstruct_state similar to the raid5 case (adds handling of Q parity) 3/ Prevent handle_parity_checks6 from running concurrently with 'compute' operations 4/ Hook up raid_run_ops Signed-off-by:
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Dan Williams authored
[ Based on an original patch by Yuri Tikhonov ] Implement the state machine for handling the RAID-6 parities check and repair functionality. Note that the raid6 case does not need to check for new failures, like raid5, as it will always writeback the correct disks. The raid5 case can be updated to check zero_sum_result to avoid getting confused by new failures rather than retrying the entire check operation. Signed-off-by:
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Yuri Tikhonov authored
In the synchronous implementation of stripe dirtying we processed a degraded stripe with one call to handle_stripe_dirtying6(). I.e. compute the missing blocks from the other drives, then copy in the new data and reconstruct the parities. In the asynchronous case we do not perform stripe operations directly. Instead, operations are scheduled with flags to be later serviced by raid_run_ops. So, for the degraded case the final reconstruction step can only be carried out after all blocks have been brought up to date by being read, or computed. Like the raid5 case schedule_reconstruction() sets STRIPE_OP_RECONSTRUCT to request a parity generation pass and through operation chaining can handle compute and reconstruct in a single raid_run_ops pass. [dan.j.williams@intel.com: fixup handle_stripe_dirtying6 gating] Signed-off-by:
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Yuri Tikhonov authored
Modify handle_stripe_fill6 to work asynchronously by introducing fetch_block6 as the raid6 analog of fetch_block5 (schedule compute operations for missing/out-of-sync disks). [dan.j.williams@intel.com: compute D+Q in one pass] Signed-off-by:
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Yuri Tikhonov authored
Extend schedule_reconstruction5 for reuse by the raid6 path. Add support for generating Q and BUG() if a request is made to perform 'prexor'. Signed-off-by:
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Dan Williams authored
[ Based on an original patch by Yuri Tikhonov ] The raid_run_ops routine uses the asynchronous offload api and the stripe_operations member of a stripe_head to carry out xor+pq+copy operations asynchronously, outside the lock. The operations performed by RAID-6 are the same as in the RAID-5 case except for no support of STRIPE_OP_PREXOR operations. All the others are supported: STRIPE_OP_BIOFILL - copy data into request buffers to satisfy a read request STRIPE_OP_COMPUTE_BLK - generate missing blocks (1 or 2) in the cache from the other blocks STRIPE_OP_BIODRAIN - copy data out of request buffers to satisfy a write request STRIPE_OP_RECONSTRUCT - recalculate parity for new data that has entered the cache STRIPE_OP_CHECK - verify that the parity is correct The flow is the same as in the RAID-5 case, and reuses some routines, namely: 1/ ops_complete_postxor (renamed to ops_complete_reconstruct) 2/ ops_complete_compute (updated to set up to 2 targets uptodate) 3/ ops_run_check (renamed to ops_run_check_p for xor parity checks) [neilb@suse.de: fixes to get it to pass mdadm regression suite] Reviewed-by:
Andre Noll <maan@systemlinux.org> Signed-off-by:
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Dan Williams authored
ops_complete_compute5 can be reused in the raid6 path if it is updated to generically handle a second target. Signed-off-by: -
Dan Williams authored
Port drivers/md/raid6test/test.c to use the async raid6 recovery routines. This is meant as a unit test for raid6 acceleration drivers. In addition to the 16-drive test case this implements tests for the 4-disk and 5-disk special cases (dma devices can not generically handle less than 2 sources), and adds a test for the D+Q case. Reviewed-by:
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