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author | Tejun Heo <htejun@gmail.com> | 2005-10-20 16:47:40 +0200 |
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committer | Jens Axboe <axboe@nelson.home.kernel.dk> | 2005-10-28 08:45:47 +0200 |
commit | 4c9f7836406f41ef9da6ee68d7a0448fdb97b5ef (patch) | |
tree | 9ed099a117a24bee56a5e920ea95f9e2bb82add6 /Documentation/block | |
parent | 98b11471d72a374f346bec50a00d0887719b85b3 (diff) | |
download | linux-4c9f7836406f41ef9da6ee68d7a0448fdb97b5ef.tar.bz2 |
[PATCH] 05/05 update biodoc to match new generic dispatch api
Updates biodoc to reflect changes in elevator API
Signed-off-by: Tejun Heo <htejun@gmail.com>
Signed-off-by: Jens Axboe <axboe@suse.de>
Diffstat (limited to 'Documentation/block')
-rw-r--r-- | Documentation/block/biodoc.txt | 113 |
1 files changed, 52 insertions, 61 deletions
diff --git a/Documentation/block/biodoc.txt b/Documentation/block/biodoc.txt index 6dd274d7e1cf..2d65c2182161 100644 --- a/Documentation/block/biodoc.txt +++ b/Documentation/block/biodoc.txt @@ -906,9 +906,20 @@ Aside: 4. The I/O scheduler -I/O schedulers are now per queue. They should be runtime switchable and modular -but aren't yet. Jens has most bits to do this, but the sysfs implementation is -missing. +I/O scheduler, a.k.a. elevator, is implemented in two layers. Generic dispatch +queue and specific I/O schedulers. Unless stated otherwise, elevator is used +to refer to both parts and I/O scheduler to specific I/O schedulers. + +Block layer implements generic dispatch queue in ll_rw_blk.c and elevator.c. +The generic dispatch queue is responsible for properly ordering barrier +requests, requeueing, handling non-fs requests and all other subtleties. + +Specific I/O schedulers are responsible for ordering normal filesystem +requests. They can also choose to delay certain requests to improve +throughput or whatever purpose. As the plural form indicates, there are +multiple I/O schedulers. They can be built as modules but at least one should +be built inside the kernel. Each queue can choose different one and can also +change to another one dynamically. A block layer call to the i/o scheduler follows the convention elv_xxx(). This calls elevator_xxx_fn in the elevator switch (drivers/block/elevator.c). Oh, @@ -921,44 +932,36 @@ keeping work. The functions an elevator may implement are: (* are mandatory) elevator_merge_fn called to query requests for merge with a bio -elevator_merge_req_fn " " " with another request +elevator_merge_req_fn called when two requests get merged. the one + which gets merged into the other one will be + never seen by I/O scheduler again. IOW, after + being merged, the request is gone. elevator_merged_fn called when a request in the scheduler has been involved in a merge. It is used in the deadline scheduler for example, to reposition the request if its sorting order has changed. -*elevator_next_req_fn returns the next scheduled request, or NULL - if there are none (or none are ready). +elevator_dispatch_fn fills the dispatch queue with ready requests. + I/O schedulers are free to postpone requests by + not filling the dispatch queue unless @force + is non-zero. Once dispatched, I/O schedulers + are not allowed to manipulate the requests - + they belong to generic dispatch queue. -*elevator_add_req_fn called to add a new request into the scheduler +elevator_add_req_fn called to add a new request into the scheduler elevator_queue_empty_fn returns true if the merge queue is empty. Drivers shouldn't use this, but rather check if elv_next_request is NULL (without losing the request if one exists!) -elevator_remove_req_fn This is called when a driver claims ownership of - the target request - it now belongs to the - driver. It must not be modified or merged. - Drivers must not lose the request! A subsequent - call of elevator_next_req_fn must return the - _next_ request. - -elevator_requeue_req_fn called to add a request to the scheduler. This - is used when the request has alrnadebeen - returned by elv_next_request, but hasn't - completed. If this is not implemented then - elevator_add_req_fn is called instead. - elevator_former_req_fn elevator_latter_req_fn These return the request before or after the one specified in disk sort order. Used by the block layer to find merge possibilities. -elevator_completed_req_fn called when a request is completed. This might - come about due to being merged with another or - when the device completes the request. +elevator_completed_req_fn called when a request is completed. elevator_may_queue_fn returns true if the scheduler wants to allow the current context to queue a new request even if @@ -967,13 +970,33 @@ elevator_may_queue_fn returns true if the scheduler wants to allow the elevator_set_req_fn elevator_put_req_fn Must be used to allocate and free any elevator - specific storate for a request. + specific storage for a request. + +elevator_activate_req_fn Called when device driver first sees a request. + I/O schedulers can use this callback to + determine when actual execution of a request + starts. +elevator_deactivate_req_fn Called when device driver decides to delay + a request by requeueing it. elevator_init_fn elevator_exit_fn Allocate and free any elevator specific storage for a queue. -4.2 I/O scheduler implementation +4.2 Request flows seen by I/O schedulers +All requests seens by I/O schedulers strictly follow one of the following three +flows. + + set_req_fn -> + + i. add_req_fn -> (merged_fn ->)* -> dispatch_fn -> activate_req_fn -> + (deactivate_req_fn -> activate_req_fn ->)* -> completed_req_fn + ii. add_req_fn -> (merged_fn ->)* -> merge_req_fn + iii. [none] + + -> put_req_fn + +4.3 I/O scheduler implementation The generic i/o scheduler algorithm attempts to sort/merge/batch requests for optimal disk scan and request servicing performance (based on generic principles and device capabilities), optimized for: @@ -993,18 +1016,7 @@ request in sort order to prevent binary tree lookups. This arrangement is not a generic block layer characteristic however, so elevators may implement queues as they please. -ii. Last merge hint -The last merge hint is part of the generic queue layer. I/O schedulers must do -some management on it. For the most part, the most important thing is to make -sure q->last_merge is cleared (set to NULL) when the request on it is no longer -a candidate for merging (for example if it has been sent to the driver). - -The last merge performed is cached as a hint for the subsequent request. If -sequential data is being submitted, the hint is used to perform merges without -any scanning. This is not sufficient when there are multiple processes doing -I/O though, so a "merge hash" is used by some schedulers. - -iii. Merge hash +ii. Merge hash AS and deadline use a hash table indexed by the last sector of a request. This enables merging code to quickly look up "back merge" candidates, even when multiple I/O streams are being performed at once on one disk. @@ -1013,29 +1025,8 @@ multiple I/O streams are being performed at once on one disk. are far less common than "back merges" due to the nature of most I/O patterns. Front merges are handled by the binary trees in AS and deadline schedulers. -iv. Handling barrier cases -A request with flags REQ_HARDBARRIER or REQ_SOFTBARRIER must not be ordered -around. That is, they must be processed after all older requests, and before -any newer ones. This includes merges! - -In AS and deadline schedulers, barriers have the effect of flushing the reorder -queue. The performance cost of this will vary from nothing to a lot depending -on i/o patterns and device characteristics. Obviously they won't improve -performance, so their use should be kept to a minimum. - -v. Handling insertion position directives -A request may be inserted with a position directive. The directives are one of -ELEVATOR_INSERT_BACK, ELEVATOR_INSERT_FRONT, ELEVATOR_INSERT_SORT. - -ELEVATOR_INSERT_SORT is a general directive for non-barrier requests. -ELEVATOR_INSERT_BACK is used to insert a barrier to the back of the queue. -ELEVATOR_INSERT_FRONT is used to insert a barrier to the front of the queue, and -overrides the ordering requested by any previous barriers. In practice this is -harmless and required, because it is used for SCSI requeueing. This does not -require flushing the reorder queue, so does not impose a performance penalty. - -vi. Plugging the queue to batch requests in anticipation of opportunities for - merge/sort optimizations +iii. Plugging the queue to batch requests in anticipation of opportunities for + merge/sort optimizations This is just the same as in 2.4 so far, though per-device unplugging support is anticipated for 2.5. Also with a priority-based i/o scheduler, @@ -1069,7 +1060,7 @@ Aside: blk_kick_queue() to unplug a specific queue (right away ?) or optionally, all queues, is in the plan. -4.3 I/O contexts +4.4 I/O contexts I/O contexts provide a dynamically allocated per process data area. They may be used in I/O schedulers, and in the block layer (could be used for IO statis, priorities for example). See *io_context in drivers/block/ll_rw_blk.c, and |