Budget Fair Queueing I/O Scheduler ================================== This patchset introduces BFQ-v7r6 into Linux 3.10.8+. For further information: http://www.algogroup.unimo.it/people/paolo/disk_sched/. The overall diffstat is the following: block/Kconfig.iosched | 32 + block/Makefile | 1 + block/bfq-cgroup.c | 907 +++++++++++++++++++++++ block/bfq-ioc.c | 36 + block/bfq-iosched.c | 4200 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ block/bfq-sched.c | 1179 +++++++++++++++++++++++++++++ block/bfq.h | 807 ++++++++++++++++++++ include/linux/cgroup_subsys.h | 6 + 8 files changed, 7168 insertions(+) CHANGELOG v7r6: . IMPROVEMENT: Introduced a new mechanism that helps get the job done more quickly with services and applications that create or reactivate many parallel I/O-bound processes. This is the case, for example, with systemd at boot, or with commands like git grep. . CODE IMPROVEMENTS: Small code cleanups and improvements. v7r5: . IMPROVEMENT: Improve throughput boosting by idling the device only for processes that, in addition to perform sequential I/O, are I/O-bound (apart from weight-raised queues, for which idling is always performed to guarantee them a low latency). . IMPROVEMENT: Improve throughput boosting by depriving processes that cooperate often of weight-raising. . CODE IMPROVEMENT: Pass of improvement of the readability of both comments and actual code. v7r4: . BUGFIX. Modified the code so as to be robust against late detection of NCQ support for a rotational device. . BUGFIX. Removed a bug that hindered the correct throughput distribution on flash-based devices when not every process had to receive the same fraction of the throughput. This fix entailed also a little efficiency improvement, because it implied the removal of a short function executed in a hot path. . CODESTYLE IMPROVEMENT: removed quoted strings split across lines. v7r3: . IMPROVEMENT: Improved throughput boosting with NCQ-capable HDDs and random workloads. The mechanism that further boosts throghput with these devices and workloads is activated only in the cases where it does not cause any violation of throughput-distribution and latency guarantees. . IMPROVEMENT: Generalized the computation of the parameters of the low-latency heuristic for interactive applications, so as to fit also slower storage devices. The purpose of this improvement is to preserve low-latency guarantees for interactive applications also on slower devices, such as portable hard disks, multimedia and SD cards. . BUGFIX: Re-added MODULE_LICENSE macro. . CODE IMPROVEMENTS: Small code cleanups; introduced a coherent naming scheme for all identifiers related to weight raising; refactored and optimized a few hot paths. v7r2: . BUGFIX/IMPROVEMENT. One of the requirements for an application to be deemed as soft real-time is that it issues its requests in batches, and stops doing I/O for a well-defined amount of time before issuing a new batch. Imposing this minimum idle time allows BFQ to filter out I/O-bound applications that may otherwise be incorrectly deemed as soft real-time (under the circumstances described in detail in the comments to the function bfq_bfqq_softrt_next_start()). Unfortunately, BFQ could however start counting this idle time from two different events: either from the expiration of the queue, if all requests of the queue had also been already completed when the queue expired, or, if the previous condition did not hold, from the first completion of one of the still outstanding requests. In the second case, an application had more chances to be deemed as soft real-time. Actually, there was no reason for this differentiated treatment. We addressed this issue by defining more precisely the above requirement for an application to be deemed as soft real-time, and changing the code consequently: a well-defined amount of time must elapse between the completion of *all the requests* of the current pending batch and the issuing of the first request of the next batch (this is, in the end, what happens with a true soft real-time application). This change further reduced false positives, and, as such, improved responsiveness and reduced latency for actual soft real-time applications. . CODE IMPROVEMENT. We cleaned up the code a little bit and addressed some issues pointed out by the checkpatch.pl script. v7r1: . BUGFIX. Replace the old value used to approximate 'infinity', with the correct one to use in case times are compared through the macro time_is_before_jiffies(). In fact, this macro, designed to take wraparound issues into account, easily returns anomalous results if its argument is equal to the value that we used as an approximation of 'infinity', namely ((unsigned long) (-1)). The consequence was that the logical expression used to determine whether a queue belongs to a soft real-time application often yielded an incorrect result. In the end, some application happened to be incorrectly deemed as soft real-time and hence weight-raised. This affected both throughput and latency guarantees. . BUGFIX. Fixed a scriverner's error made in an attempt to use the above macro in a logical expression. . IMPROVEMENT/BUGFIX. On the expiration of a queue, use a more general condition to allow a weight-raising period to start if the queue is soft real-time. The previous condition could prevent an empty, soft-real time queue from being correctly deemed as soft real-time. . IMPROVEMENT/MINOR BUGFIX. Use jiffies-comparison macros also in the following cases: . to establish whether an application initially deemed as interactive is now meeting the requirements for being classified as soft real-time; . to determine if a weight-raising period must be ended. . CODE IMPROVEMENT. Change the type of the time quantities used in the weight-raising heuristics to unsigned long, as the type of the time (jiffies) is unsigned long. v7: - IMPROVEMENT: In the presence of weight-raised queues and if the device is NCQ-enabled, device idling is now disabled for non-raised readers, i.e., for their associated sync queues. Hence a sync queue is expired immediately if it becomes empty, and a new queue is served. As explained in detail in the papers about BFQ, not idling the device for sync queues when the latter become empty causes BFQ to assign higher timestamps to these queues when they get backlogged again, and hence to serve these queues less frequently. This fact, plus to the fact that, because of the immediate expiration itself, these queues get less service while they are granted access to the disk, reduces the relative rate at which the processes associated to these queues ask for requests from the I/O request pool. If the pool is saturated, as it happens in the presence of write hogs, reducing the above relative rate increases the probability that a request is available (soon) in the pool when a weight-raised process needs it. This change does seem to mitigate the typical starvation problems that occur in the presence of write hogs and NCQ, and hence to guarantee a higher application and system responsiveness in these hostile scenarios. - IMPROVEMENT/BUGFIX: Introduced a new classification rule to the soft real-time heuristic, which takes into account also the isochronous nature of such applications. The computation of next_start has been fixed as well. Now it is correctly done from the time of the last transition from idle to backlogged; the next_start is therefore computed from the service received by the queue from its last transition from idle to backlogged. Finally, the code which preserved weight-raising for a soft real-time queue even with no idle->backlogged transition has been removed. - IMPROVEMENT: Add a few jiffies to the reference time interval used to establish whether an application is greedy or not. This reference interval was, by default, HZ/125 seconds, which could generate false positives in the following two cases (especially if both cases occur): 1) If HZ is so low that the duration of a jiffie is comparable to or higher than the above reference time interval. This happens, e.g., on slow devices with HZ=100. 2) If jiffies, instead of increasing at a constant rate, may stop increasing for some time, then suddenly 'jump' by several units to recover the lost increments. This seems to happen, e.g., in virtual machines. The added number of jiffies has been found experimentally. In particular, according to our experiments, adding this number of jiffies seems to make the filter quite precise also in embedded systems and KVM/QEMU virtual machines. Also contributed by Alexander Spyridakis . - IMPROVEMENT/BUGFIX: Keep disk idling also for NCQ-provided rotational devices, which boosts the throughput on NCQ-enabled rotational devices. - BUGFIX: The budget-timeout condition in the bfq_rq_enqueued() function was checked only if the request is large enough to provoke an unplug. As a consequence, for a process always issuing small I/O requests the budget timeout was never checked. The queue associated to the process therefore expired only when its budget was exhausted, even if the queue had already incurred a budget timeout from a while. This fix lets a queue be checked for budget timeout at each request enqueue, and, if needed, expires the queue accordingly even if the request is small. - BUGFIX: Make sure that weight-raising is resumed for a split queue, if it was merged when already weight-raised. - MINOR BUGFIX: Let bfq_end_raising_async() correctly end weight-raising also for the queues belonging to the root group. - IMPROVEMENT: Get rid of the some_coop_idle flag, which in its turn was used to decide whether to disable idling for an in-service shared queue whose seek mean decreased. In fact, disabling idling for such a queue turned out to be useless. - CODE IMPROVEMENT: The bfq_bfqq_must_idle() function and the bfq_select_queue() function may not change the current in-service queue in various cases. We have cleaned up the involved conditions, by factoring out the common parts and getting rid of the useless ones. - MINOR CODE IMPROVEMENT: The idle_for_long_time condition in the bfq_add_rq_rb() function should be evaluated only on an idle->backlogged transition. Now the condition is set to false by default, evaluating it only if the queue was not busy on a request insertion. - MINOR CODE IMPROVEMENT: Added a comment describing the rationale behind the condition evaluated in the function bfq_bfqq_must_not_expire(). v6r2: - Fairness fix: the case of queue expiration for budget timeout is now correctly handled also for sync queues, thus allowing also the processes corresponding to these queues to be guaranteed their reserved share of the disk throughput. - Fixed a bug that prevented group weights from being correctly set via the sysfs interface. - Fixed a bug that cleared a previously-set group weight if the same value was re-inserted via the sysfs interface. - Fixed an EQM bug that allowed a newly-started process to skip its initial weight-raising period if its queue was merged before its first request was inserted. - Fixed a bug that preserved already-started weight-raising periods even if the low_latency tunable was disabled. - The raising_max_time tunable now shows, more user-friendly, the maximum raising time in milliseconds. v6r1: - Fix use-after-free of queues in __bfq_bfqq_expire(). It may happen that a call to bfq_del_bfqq_busy() puts the last reference taken on a queue and frees it. Subsequent accesses to that same queue would result in a use-after-free. Make sure that a queue that has just been deleted from busy is no more touched. - Use the uninitialized_var() macro when needed. It may happen that a variable is initialized in a function that is called by the function that defined it. Use the uninitialized_var() macro in these cases. v6: - Replacement of the cooperating-queue merging mechanism borrowed from CFQ with Early Queue Merge (EQM), a unified mechanism to get a sequential read pattern, and hence a high throughput, with any set of processes performing interleaved I/O. EQM also preserves low latency. (see http://algogroup.unimore.it/people/paolo/disk_sched/description.php for more details). Contributed by Mauro Andreolini and Arianna Avanzini. The code for detecting whether two queues have to be merged is a slightly modified version of the CFQ code for detecting whether two queues belong to cooperating processes and whether the service of a queue should be preempted to boost the throughput. - Fix a bug that caused the peak rate of a disk to be computed as zero in case of multiple I/O errors. Subsequent estimations of the weight raising duration caused a division-by-zero error. v5r1: - BUG FIX: Fixed stall occurring when the active queue is moved to a different group while idling (this caused the idling timer to be cancelled and hence no new queue to be selected, and no new request to be dispatched). - BUG FIX: Fixed wrong assignment of too high budgets to queues during the first few seconds after initialization. - BUG FIX: Added proper locking to the function handling the "weights" tunable. v5: - Added an heuristic that, if the tunable raising_max_time is set to 0, automatically computes the duration of the weight raising according to the estimated peak rate of the device. This enables flash-based devices to reach maximum throughput as soon as possible, without sacrificing latency. v4: - Throughput-boosting for flash-based devices: improved version of commits a68bbdd and f7d7b7a, which boosts the throughput while still preserving latency guarantees for interactive and soft real-time applications. - Better identification of NCQ-capable disks: port of commit e459dd0. v3-r4: - Bugfixes * Removed an important memory leak: under some circumstances the process references to a queue were not decremented correctly, which prevented unused shared bfq_queue to be correctly deallocated. * Fixed various errors related to hierarchical scheduling: * Removed an error causing tasks to be attached to the bfqio cgroup controller even when BFQ was not the active scheduler * Corrected wrong update of the budgets from the leaf to the root upon forced selection of a service tree or a bfq_queue * Fixed the way how active leaf entities are moved to the root group before the group entity is deactivated when a cgroup is destroyed - Throughput-boosting improvement for cooperating queues: close detection is now based on a fixed threshold instead of the queue's average seek. This is a port of one of the changes in the CFQ commit 3dde36d by Corrado Zoccolo. v3-r3: - Bugfix: removed an important error causing occasional kernel panics when moving a process to a new cgroup. The panic occurred if: 1) the queue associated to the process was idle when the process was moved and 2) a new disk request was inserted into the queue just after the move. - Further latency improvement through a better treatment of low-bandwidth async queues. v3-r2: - Bugfix: added a forgotten condition that prevents weights of low-bw async queues from being raised when low_latency is off. - Latency improvement: low-bw async queues are now better identified. v3-r1: - Fixed an important request-dispatch bug causing occasional IO hangs. - Added a new mechanism to reduce the latency of low-bw async queues. This reduces the latency of also the sync queues synchronized with the above async queues. - Fixed a minor bug in iocontext locking (port of commits 9b50902 and 3181faa from CFQ). v3: - Improved low-latency mechanisms, including a more accurate criterion to distinguish between greedy-but-seeky and soft real-time applications. Interactive applications now enjoy noticeably lower latencies. - Switch to the simpler one-request-dispatch-at-a-time scheme as in CFQ. - Ported cooperating-queues merging from CFQ (6d048f5, 1afba04, d9e7620, a36e71f, 04dc6e7, 26a2ac0, 3ac6c9f, f2d1f0a, 83096eb, 2e46e8b, df5fe3e, b3b6d04, e6c5bc7, c0324a0, f04a642, 8682e1f, b9d8f4c, 2f7a2d8, ae54abe, e9ce335, 39c01b2, d02a2c0, c10b61f). Contributed by Arianna Avanzini. Queues of processes performing IO on interleaved, yet contiguous disk zones are merged to boost the throughput. Some little optimizations to get a more stable throughput have been added to the original CFQ version. - Added static fallback queue for extreme OOM conditions (porting of CFQ commits d5036d7, 6118b70, b706f64, 32f2e80). Port contributed by Francesco Allertsen. - Ported CFQ commits b0b78f8, 40bb54d, 30996f4, dddb745, ad5ebd2, cf7c25c; mainly code cleanup and fix of minor bugs. Port contributed by Francesco Allertsen. v2: - An issue that may cause little throughput loss on fast disks has been solved. BFQ-v1 and CFQ may suffer from this problem. - The disk-idling timeout has been better tuned to further file latency (especially for the idle- or light-loaded-disk scenarios). - One of the parameters of the low-latency heuristics has been tuned a little bit more, so as to reduce the probability that a disk-bound process may hamper the reduction of the latency of interactive and soft real-time applications. - Same low-latency guarantees with and without NCQ. - Latency for interactive applications about halved with respect to BFQ-v1. - When the low_latency tunable is set, also soft real-time applications now enjoy reduced latency. - A very little minimum bandwidth is now guaranteed to the Idle IO-scheduling class also when the other classes are backlogged, just to prevent them from starving. v1: This is a new version of BFQ with respect to the versions you can find on Fabio's site: http://feanor.sssup.it/~fabio/linux/bfq. Here is what we changed with respect to the previous versions: 1) re-tuned the budget feedback mechanism: it is now slighlty more biased toward assigning high budgets, to boost the aggregated throughput more, and more quickly as new processes are started 2) introduced more tolerance toward seeky queues (I verified that the phenomena described below used to occur systematically): 2a: if a queue is expired after having received very little service, then it is not punished as a seeky queue, even if it occurred to consume that little service too slowly; the rationale is that, if the new active queue has been served for a too short time interval, then its possible sequential accesses may not yet prevail on the initial latencies for moving the disk head on the first sector requested 2b: the waiting time (disk idling) of a queue detected as seeky as a function of the position of the requests it issued is reduced to a very low value only after the queue has consumed a minimum fraction of the assigned budget; this prevents processes generating (partly) seeky workloads from being too ill-treated 2c: if a queue has consumed 'enough' budget upon a budget timeout, then, even if it did not consume all of its budget, that queue is not punished as any seeky queue; the rationale is that, depending on the disk zones, a queue may be served at a lower rate than the estimated peak rate. Changes 2a and 2b have been critical in lowering latencies, whereas change 2c, in addition to change 1, helped a lot increase the disk throughput. 3) slightly changed the peak rate estimator: a low-pass filter is now used instead of just keeping the highest rate sampled; the rationale is that the peak rate of a disk should be quite stable, so the filter should converge more or less smoothly to the right value; it seemed to correctly catch the peak rate with all disks we used 4) added the low latency mechanism described in detail in http://algogroup.unimore.it/people/paolo/disk_sched/description.php.