This patch adds the implementation of a new scheduling algorithm - ROW. The policy of this algorithm is to prioritize READ requests over WRITE as much as possible without starving the WRITE requests. Signed-off-by: Tatyana Brokhman <tlinder@xxxxxxxxxxxxxx> --- Documentation/block/row-iosched.txt | 117 ++++++ block/Kconfig.iosched | 22 ++ block/Makefile | 1 + block/row-iosched.c | 680 +++++++++++++++++++++++++++++++++++ 4 files changed, 820 insertions(+), 0 deletions(-) create mode 100644 Documentation/block/row-iosched.txt create mode 100644 block/row-iosched.c diff --git a/Documentation/block/row-iosched.txt b/Documentation/block/row-iosched.txt new file mode 100644 index 0000000..987bd88 --- /dev/null +++ b/Documentation/block/row-iosched.txt @@ -0,0 +1,117 @@ +Introduction +============ + +The ROW scheduling algorithm will be used in mobile devices as default +block layer IO scheduling algorithm. ROW stands for "READ Over WRITE" +which is the main requests dispatch policy of this algorithm. + +The ROW IO scheduler was developed with the mobile devices needs in +mind. In mobile devices we favor user experience upon everything else, +thus we want to give READ IO requests as much priority as possible. +The main idea of the ROW scheduling policy is: +If there are READ requests in pipe - dispatch them but don't starve +the WRITE requests too much. + +Software description +==================== +The requests are kept in queues according to their priority. The +dispatching of requests is done in a Round Robin manner with a +different slice for each queue. The dispatch quantum for a specific +queue is defined according to the queues priority. READ queues are +given bigger dispatch quantum than the WRITE queues, within a dispatch +cycle. + +At the moment there are 6 types of queues the requests are +distributed to: +- High priority READ queue +- High priority Synchronous WRITE queue +- Regular priority READ queue +- Regular priority Synchronous WRITE queue +- Regular priority WRITE queue +- Low priority READ queue + +If in a certain dispatch cycle one of the queues was empty and didn't +use its quantum that queue will be marked as "un-served". If we're in a +middle of a dispatch cycle dispatching from queue Y and a request +arrives for queue X that was un-served in the previous cycle, if X's +priority is higher than Y's, queue X will be preempted in the favor of +queue Y. This won't mean that cycle is restarted. The "dispatched" +counter of queue X will remain unchanged. Once queue Y uses up it's quantum +(or there will be no more requests left on it) we'll switch back to queue X +and allow it to finish it's quantum. + +For READ requests queues we allow idling in within a dispatch quantum in +order to give the application a chance to insert more requests. Idling +means adding some extra time for serving a certain queue even if the +queue is empty. The idling is enabled if we identify the application is +inserting requests in a high frequency. + +For idling on READ queues we use timer mechanism. When the timer expires, +if there are requests in the scheduler we will signal the underlying driver +(for example the MMC driver) to fetch another request for dispatch. + +The ROW algorithm takes the scheduling policy one step further, making +it a bit more "user-needs oriented", by allowing the application to +hint on the urgency of its requests. For example: even among the READ +requests several requests may be more urgent for completion then others. +The former will go to the High priority READ queue, that is given the +bigger dispatch quantum than any other queue. + +ROW scheduler will support special services for block devices that +supports High Priority Requests. That is, the scheduler may inform the +device upon urgent requests using new callback make_urgent_request. +In addition it will support rescheduling of requests that were +interrupted. For example, if the device issues a long write request and +a sudden high priority read interrupt pops in, the scheduler will +inform the device about the urgent request, so the device can stop the +current write request and serve the high priority read request. In such +a case the device may also send back to the scheduler the reminder of +the interrupted write request, such that the scheduler may continue +sending high priority requests without the need to interrupt the +ongoing write again and again. The write remainder will be sent later on +according to the scheduler policy. + +Design +====== +Existing algorithms (cfq, deadline) sort the io requests according LBA. +When deciding on the next request to dispatch they choose the closest +request to the current disk head position (from handling last +dispatched request). This is done in order to reduce the disk head +movement to a minimum. +We feel that this functionality isn't really needed in mobile devices. +Usually applications that write/read large chunks of data insert the +requests in already sorted LBA order. Thus dealing with sort trees adds +unnecessary complexity. + +We're planing to try this enhancement in the future to check if the +performance is influenced by it. + +SMP/multi-core +============== +At the moment the code is acceded from 2 contexts: +- Application context (from block/elevator layer): adding the requests. +- Underlying driver context (for example the mmc driver thread): dispatching + the requests and notifying on completion. + +One lock is used to synchronize between the two. This lock is provided +by the underlying driver along with the dispatch queue. + +Config options +============== +1. hp_read_quantum: dispatch quantum for the high priority READ queue +2. rp_read_quantum: dispatch quantum for the regular priority READ queue +3. hp_swrite_quantum: dispatch quantum for the high priority Synchronous + WRITE queue +4. rp_swrite_quantum: dispatch quantum for the regular priority + Synchronous WRITE queue +5. rp_write_quantum: dispatch quantum for the regular priority WRITE + queue +6. lp_read_quantum: dispatch quantum for the low priority READ queue +7. lp_swrite_quantum: dispatch quantum for the low priority Synchronous + WRITE queue +8. read_idle: how long to idle on read queue in Msec (in case idling + is enabled on that queue). +9. read_idle_freq: frequency of inserting READ requests that will + trigger idling. This is the time in Msec between inserting two READ + requests + diff --git a/block/Kconfig.iosched b/block/Kconfig.iosched index 421bef9..401f42d 100644 --- a/block/Kconfig.iosched +++ b/block/Kconfig.iosched @@ -21,6 +21,17 @@ config IOSCHED_DEADLINE a new point in the service tree and doing a batch of IO from there in case of expiry. +config IOSCHED_ROW + tristate "ROW I/O scheduler" + default y + ---help--- + The ROW I/O scheduler gives priority to READ requests over the + WRITE requests when dispatching, without starving WRITE requests. + Requests are kept in priority queues. Dispatching is done in a RR + manner when the dispatch quantum for each queue is calculated + according to queue priority. + Most suitable for mobile devices. + config IOSCHED_CFQ tristate "CFQ I/O scheduler" default y @@ -49,6 +60,16 @@ choice config DEFAULT_DEADLINE bool "Deadline" if IOSCHED_DEADLINE=y + config DEFAULT_ROW + bool "ROW" if IOSCHED_ROW=y + help + The ROW I/O scheduler gives priority to READ requests + over the WRITE requests when dispatching, without starving + WRITE requests. Requests are kept in priority queues. + Dispatching is done in a RR manner when the dispatch quantum + for each queue is defined according to queue priority. + Most suitable for mobile devices. + config DEFAULT_CFQ bool "CFQ" if IOSCHED_CFQ=y @@ -60,6 +81,7 @@ endchoice config DEFAULT_IOSCHED string default "deadline" if DEFAULT_DEADLINE + default "row" if DEFAULT_ROW default "cfq" if DEFAULT_CFQ default "noop" if DEFAULT_NOOP diff --git a/block/Makefile b/block/Makefile index 39b76ba..dd80dc2 100644 --- a/block/Makefile +++ b/block/Makefile @@ -14,6 +14,7 @@ obj-$(CONFIG_BLK_CGROUP) += blk-cgroup.o obj-$(CONFIG_BLK_DEV_THROTTLING) += blk-throttle.o obj-$(CONFIG_IOSCHED_NOOP) += noop-iosched.o obj-$(CONFIG_IOSCHED_DEADLINE) += deadline-iosched.o +obj-$(CONFIG_IOSCHED_ROW) += row-iosched.o obj-$(CONFIG_IOSCHED_CFQ) += cfq-iosched.o obj-$(CONFIG_BLOCK_COMPAT) += compat_ioctl.o diff --git a/block/row-iosched.c b/block/row-iosched.c new file mode 100644 index 0000000..c99863a --- /dev/null +++ b/block/row-iosched.c @@ -0,0 +1,680 @@ +/* + * ROW (Read Over Write) I/O scheduler. + * + * Copyright (c) 2012, The Linux Foundation. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 and + * only version 2 as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + */ + +/* See Documentation/block/row-iosched.txt */ + +#include <linux/kernel.h> +#include <linux/fs.h> +#include <linux/blkdev.h> +#include <linux/elevator.h> +#include <linux/bio.h> +#include <linux/module.h> +#include <linux/slab.h> +#include <linux/init.h> +#include <linux/compiler.h> +#include <linux/blktrace_api.h> +#include <linux/jiffies.h> + +/* + * enum row_queue_prio - Priorities of the ROW queues + * + * This enum defines the priorities (and the number of queues) + * the requests will be disptributed to. The higher priority - + * the bigger is the dispatch quantum given to that queue. + * ROWQ_PRIO_HIGH_READ - is the higher priority queue. + * + */ +enum row_queue_prio { + ROWQ_PRIO_HIGH_READ = 0, + ROWQ_PRIO_REG_READ, + ROWQ_PRIO_HIGH_SWRITE, + ROWQ_PRIO_REG_SWRITE, + ROWQ_PRIO_REG_WRITE, + ROWQ_PRIO_LOW_READ, + ROWQ_PRIO_LOW_SWRITE, + ROWQ_MAX_PRIO, +}; + +/* Flags indicating whether idling is enabled on the queue */ +static const bool queue_idling_enabled[] = { + true, /* ROWQ_PRIO_HIGH_READ */ + true, /* ROWQ_PRIO_REG_READ */ + false, /* ROWQ_PRIO_HIGH_SWRITE */ + false, /* ROWQ_PRIO_REG_SWRITE */ + false, /* ROWQ_PRIO_REG_WRITE */ + false, /* ROWQ_PRIO_LOW_READ */ + false, /* ROWQ_PRIO_LOW_SWRITE */ +}; + +/* Default values for row queues quantums in each dispatch cycle */ +static const int queue_quantum[] = { + 100, /* ROWQ_PRIO_HIGH_READ */ + 100, /* ROWQ_PRIO_REG_READ */ + 2, /* ROWQ_PRIO_HIGH_SWRITE */ + 1, /* ROWQ_PRIO_REG_SWRITE */ + 1, /* ROWQ_PRIO_REG_WRITE */ + 1, /* ROWQ_PRIO_LOW_READ */ + 1 /* ROWQ_PRIO_LOW_SWRITE */ +}; + +/* Default values for idling on read queues */ +#define ROW_IDLE_TIME 50 /* 5 msec */ +#define ROW_READ_FREQ 70 /* 7 msec */ + +/** + * struct rowq_idling_data - parameters for idling on the queue + * @idle_trigger_time: time (in jiffies). If a new request was + * inserted before this time value, idling + * will be enabled. + * @begin_idling: flag indicating wether we should idle + * + */ +struct rowq_idling_data { + unsigned long idle_trigger_time; + bool begin_idling; +}; + +/** + * struct row_queue - requests grouping structure + * @rdata: parent row_data structure + * @fifo: fifo of requests + * @prio: queue priority (enum row_queue_prio) + * @nr_dispatched: number of requests already dispatched in + * the current dispatch cycle + * @slice: number of requests to dispatch in a cycle + * @idle_data: data for idling on queues + * + */ +struct row_queue { + struct row_data *rdata; + struct list_head fifo; + enum row_queue_prio prio; + + unsigned int nr_dispatched; + unsigned int slice; + + /* used only for READ queues */ + struct rowq_idling_data idle_data; +}; + +/** + * struct idling_data - data for idling on empty rqueue + * @idle_time: idling duration (msec) + * @freq: min time between two requests that + * triger idling (msec) + * @idle_work: pointer to struct delayed_work + * + */ +struct idling_data { + unsigned long idle_time; + unsigned long freq; + + struct workqueue_struct *idle_workqueue; + struct delayed_work idle_work; +}; + +/** + * struct row_queue - Per block device rqueue structure + * @dispatch_queue: dispatch rqueue + * @row_queues: array of priority request queues with + * dispatch quantum per rqueue + * @curr_queue: index in the row_queues array of the + * currently serviced rqueue + * @read_idle: data for idling after READ request + * @nr_reqs: nr_reqs[0] holds the number of all READ requests in + * scheduler, nr_reqs[1] holds the number of all WRITE + * requests in scheduler + * @cycle_flags: used for marking unserved queueus + * + */ +struct row_data { + struct request_queue *dispatch_queue; + + struct { + struct row_queue rqueue; + int disp_quantum; + } row_queues[ROWQ_MAX_PRIO]; + + enum row_queue_prio curr_queue; + + struct idling_data read_idle; + unsigned int nr_reqs[2]; + + unsigned int cycle_flags; +}; + +#define RQ_ROWQ(rq) ((struct row_queue *) ((rq)->elv.priv[0])) + +#define row_log(q, fmt, args...) \ + blk_add_trace_msg(q, "%s():" fmt , __func__, ##args) +#define row_log_rowq(rdata, rowq_id, fmt, args...) \ + blk_add_trace_msg(rdata->dispatch_queue, "rowq%d " fmt, \ + rowq_id, ##args) + +static inline void row_mark_rowq_unserved(struct row_data *rd, + enum row_queue_prio qnum) +{ + rd->cycle_flags |= (1 << qnum); +} + +static inline void row_clear_rowq_unserved(struct row_data *rd, + enum row_queue_prio qnum) +{ + rd->cycle_flags &= ~(1 << qnum); +} + +static inline int row_rowq_unserved(struct row_data *rd, + enum row_queue_prio qnum) +{ + return rd->cycle_flags & (1 << qnum); +} + +/******************** Static helper functions ***********************/ +/* + * kick_queue() - Wake up device driver queue thread + * @work: pointer to struct work_struct + * + * This is a idling delayed work function. It's purpose is to wake up the + * device driver in order for it to start fetching requests. + * + */ +static void kick_queue(struct work_struct *work) +{ + struct delayed_work *idle_work = to_delayed_work(work); + struct idling_data *read_data = + container_of(idle_work, struct idling_data, idle_work); + struct row_data *rd = + container_of(read_data, struct row_data, read_idle); + + row_log_rowq(rd, rd->curr_queue, "Performing delayed work"); + /* Mark idling process as done */ + rd->row_queues[rd->curr_queue].rqueue.idle_data.begin_idling = false; + + if (!(rd->nr_reqs[0] + rd->nr_reqs[1])) + row_log(rd->dispatch_queue, "No requests in scheduler"); + else { + spin_lock_irq(rd->dispatch_queue->queue_lock); + __blk_run_queue(rd->dispatch_queue); + spin_unlock_irq(rd->dispatch_queue->queue_lock); + } +} + +/* + * row_restart_disp_cycle() - Restart the dispatch cycle + * @rd: pointer to struct row_data + * + * This function restarts the dispatch cycle by: + * - Setting current queue to ROWQ_PRIO_HIGH_READ + * - For each queue: reset the number of requests dispatched in + * the cycle + */ +static inline void row_restart_disp_cycle(struct row_data *rd) +{ + int i; + + for (i = 0; i < ROWQ_MAX_PRIO; i++) + rd->row_queues[i].rqueue.nr_dispatched = 0; + + rd->curr_queue = ROWQ_PRIO_HIGH_READ; + row_log(rd->dispatch_queue, "Restarting cycle"); +} + +static inline void row_get_next_queue(struct row_data *rd) +{ + rd->curr_queue++; + if (rd->curr_queue == ROWQ_MAX_PRIO) + row_restart_disp_cycle(rd); +} + +/******************* Elevator callback functions *********************/ + +/* + * row_add_request() - Add request to the scheduler + * @q: requests queue + * @rq: request to add + * + */ +static void row_add_request(struct request_queue *q, + struct request *rq) +{ + struct row_data *rd = (struct row_data *)q->elevator->elevator_data; + struct row_queue *rqueue = RQ_ROWQ(rq); + + list_add_tail(&rq->queuelist, &rqueue->fifo); + rd->nr_reqs[rq_data_dir(rq)]++; + rq_set_fifo_time(rq, jiffies); /* for statistics*/ + + if (queue_idling_enabled[rqueue->prio]) { + if (delayed_work_pending(&rd->read_idle.idle_work)) + (void)cancel_delayed_work( + &rd->read_idle.idle_work); + if (time_before(jiffies, rqueue->idle_data.idle_trigger_time)) { + rqueue->idle_data.begin_idling = true; + row_log_rowq(rd, rqueue->prio, "Enable idling"); + } else + rqueue->idle_data.begin_idling = false; + + rqueue->idle_data.idle_trigger_time = + jiffies + msecs_to_jiffies(rd->read_idle.freq); + } + row_log_rowq(rd, rqueue->prio, "added request"); +} + +/* + * row_remove_request() - Remove given request from scheduler + * @q: requests queue + * @rq: request to remove + * + */ +static void row_remove_request(struct request_queue *q, + struct request *rq) +{ + struct row_data *rd = (struct row_data *)q->elevator->elevator_data; + + rq_fifo_clear(rq); + rd->nr_reqs[rq_data_dir(rq)]--; +} + +/* + * row_dispatch_insert() - move request to dispatch queue + * @rd: pointer to struct row_data + * + * This function moves the next request to dispatch from + * rd->curr_queue to the dispatch queue + * + */ +static void row_dispatch_insert(struct row_data *rd) +{ + struct request *rq; + + rq = rq_entry_fifo(rd->row_queues[rd->curr_queue].rqueue.fifo.next); + row_remove_request(rd->dispatch_queue, rq); + elv_dispatch_add_tail(rd->dispatch_queue, rq); + rd->row_queues[rd->curr_queue].rqueue.nr_dispatched++; + row_clear_rowq_unserved(rd, rd->curr_queue); + row_log_rowq(rd, rd->curr_queue, " Dispatched request nr_disp = %d", + rd->row_queues[rd->curr_queue].rqueue.nr_dispatched); +} + +/* + * row_choose_queue() - choose the next queue to dispatch from + * @rd: pointer to struct row_data + * + * Updates rd->curr_queue. Returns 1 if there are requests to + * dispatch, 0 if there are no requests in scheduler + * + */ +static int row_choose_queue(struct row_data *rd) +{ + int prev_curr_queue = rd->curr_queue; + + if (!(rd->nr_reqs[0] + rd->nr_reqs[1])) { + row_log(rd->dispatch_queue, "No more requests in scheduler"); + return 0; + } + + row_get_next_queue(rd); + + /* + * Loop over all queues to find the next queue that is not empty. + * Stop when you get back to curr_queue + */ + while (list_empty(&rd->row_queues[rd->curr_queue].rqueue.fifo) + && rd->curr_queue != prev_curr_queue) { + /* Mark rqueue as unserved */ + row_mark_rowq_unserved(rd, rd->curr_queue); + row_get_next_queue(rd); + } + + return 1; +} + +/* + * row_dispatch_requests() - selects the next request to dispatch + * @q: requests queue + * @force: ignored + * + * Return 0 if no requests were moved to the dispatch queue. + * 1 otherwise + * + */ +static int row_dispatch_requests(struct request_queue *q, int force) +{ + struct row_data *rd = (struct row_data *)q->elevator->elevator_data; + int ret = 0, currq, i; + + currq = rd->curr_queue; + + /* + * Find the first unserved queue (with higher priority then currq) + * that is not empty + */ + for (i = 0; i < currq; i++) { + if (row_rowq_unserved(rd, i) && + !list_empty(&rd->row_queues[i].rqueue.fifo)) { + row_log_rowq(rd, currq, + " Preemting for unserved rowq%d", i); + rd->curr_queue = i; + row_dispatch_insert(rd); + ret = 1; + goto done; + } + } + + if (rd->row_queues[currq].rqueue.nr_dispatched >= + rd->row_queues[currq].disp_quantum) { + rd->row_queues[currq].rqueue.nr_dispatched = 0; + row_log_rowq(rd, currq, "Expiring rqueue"); + ret = row_choose_queue(rd); + if (ret) + row_dispatch_insert(rd); + goto done; + } + + /* Dispatch from curr_queue */ + if (list_empty(&rd->row_queues[currq].rqueue.fifo)) { + /* check idling */ + if (delayed_work_pending(&rd->read_idle.idle_work)) { + row_log_rowq(rd, currq, + "Delayed work pending. Exiting"); + goto done; + } + + if (queue_idling_enabled[currq] && + rd->row_queues[currq].rqueue.idle_data.begin_idling) { + if (!queue_delayed_work(rd->read_idle.idle_workqueue, + &rd->read_idle.idle_work, + jiffies + msecs_to_jiffies(rd->read_idle.idle_time))) { + row_log_rowq(rd, currq, + "Work already on queue!"); + pr_err("ROW_BUG: Work already on queue!"); + } else + row_log_rowq(rd, currq, + "Scheduled delayed work. exiting"); + goto done; + } else { + row_log_rowq(rd, currq, + "Currq empty. Choose next queue"); + ret = row_choose_queue(rd); + if (!ret) + goto done; + } + } + + ret = 1; + row_dispatch_insert(rd); + +done: + return ret; +} + +/* + * row_init_queue() - Init scheduler data structures + * @q: requests queue + * + * Return pointer to struct row_data to be saved in elevator for + * this dispatch queue + * + */ +static void *row_init_queue(struct request_queue *q) +{ + + struct row_data *rdata; + int i; + + rdata = kmalloc_node(sizeof(*rdata), + GFP_KERNEL | __GFP_ZERO, q->node); + if (!rdata) + return NULL; + + for (i = 0; i < ROWQ_MAX_PRIO; i++) { + INIT_LIST_HEAD(&rdata->row_queues[i].rqueue.fifo); + rdata->row_queues[i].disp_quantum = queue_quantum[i]; + rdata->row_queues[i].rqueue.rdata = rdata; + rdata->row_queues[i].rqueue.prio = i; + rdata->row_queues[i].rqueue.idle_data.begin_idling = false; + } + + /* + * Currently idling is enabled only for READ queues. If we want to + * enable it for write queues also, note that idling frequency will + * be the same in both cases + */ + rdata->read_idle.idle_time = ROW_IDLE_TIME; + rdata->read_idle.freq = ROW_READ_FREQ; + rdata->read_idle.idle_workqueue = alloc_workqueue("row_idle_work", + WQ_MEM_RECLAIM | WQ_HIGHPRI, 0); + if (!rdata->read_idle.idle_workqueue) + panic("Failed to create idle workqueue\n"); + INIT_DELAYED_WORK(&rdata->read_idle.idle_work, kick_queue); + + rdata->curr_queue = ROWQ_PRIO_HIGH_READ; + rdata->dispatch_queue = q; + + rdata->nr_reqs[READ] = rdata->nr_reqs[WRITE] = 0; + + return rdata; +} + +/* + * row_exit_queue() - called on unloading the RAW scheduler + * @e: poiner to struct elevator_queue + * + */ +static void row_exit_queue(struct elevator_queue *e) +{ + struct row_data *rd = (struct row_data *)e->elevator_data; + int i; + + for (i = 0; i < ROWQ_MAX_PRIO; i++) + BUG_ON(!list_empty(&rd->row_queues[i].rqueue.fifo)); + (void)cancel_delayed_work_sync(&rd->read_idle.idle_work); + kfree(rd); +} + +/* + * row_merged_requests() - Called when 2 requests are merged + * @q: requests queue + * @rq: request the two requests were merged into + * @next: request that was merged + */ +static void row_merged_requests(struct request_queue *q, struct request *rq, + struct request *next) +{ + struct row_queue *rqueue = RQ_ROWQ(next); + + list_del_init(&next->queuelist); + + rqueue->rdata->nr_reqs[rq_data_dir(rq)]--; +} + +/* + * get_queue_type() - Get queue type for a given request + * + * This is a helping function which purpose is to determine what + * ROW queue the given request should be added to (and + * dispatched from leter on) + * + * TODO: Right now only 3 queues are used REG_READ, REG_WRITE + * and REG_SWRITE + */ +static enum row_queue_prio get_queue_type(struct request *rq) +{ + const int data_dir = rq_data_dir(rq); + const bool is_sync = rq_is_sync(rq); + + if (data_dir == READ) + return ROWQ_PRIO_REG_READ; + else if (is_sync) + return ROWQ_PRIO_REG_SWRITE; + else + return ROWQ_PRIO_REG_WRITE; +} + +/* + * row_set_request() - Set ROW data structures associated with this request. + * @q: requests queue + * @rq: pointer to the request + * @gfp_mask: ignored + * + */ +static int +row_set_request(struct request_queue *q, struct request *rq, gfp_t gfp_mask) +{ + struct row_data *rd = (struct row_data *)q->elevator->elevator_data; + unsigned long flags; + + spin_lock_irqsave(q->queue_lock, flags); + rq->elv.priv[0] = + (void *)(&rd->row_queues[get_queue_type(rq)]); + spin_unlock_irqrestore(q->queue_lock, flags); + + return 0; +} + +/********** Helping sysfs functions/defenitions for ROW attributes ******/ +static ssize_t row_var_show(int var, char *page) +{ + return snprintf(page, 100, "%d\n", var); +} + +static ssize_t row_var_store(int *var, const char *page, size_t count) +{ + int err; + err = kstrtoul(page, 10, (unsigned long *)var); + + return count; +} + +#define SHOW_FUNCTION(__FUNC, __VAR, __CONV) \ +static ssize_t __FUNC(struct elevator_queue *e, char *page) \ +{ \ + struct row_data *rowd = e->elevator_data; \ + int __data = __VAR; \ + if (__CONV) \ + __data = jiffies_to_msecs(__data); \ + return row_var_show(__data, (page)); \ +} +SHOW_FUNCTION(row_hp_read_quantum_show, + rowd->row_queues[ROWQ_PRIO_HIGH_READ].disp_quantum, 0); +SHOW_FUNCTION(row_rp_read_quantum_show, + rowd->row_queues[ROWQ_PRIO_REG_READ].disp_quantum, 0); +SHOW_FUNCTION(row_hp_swrite_quantum_show, + rowd->row_queues[ROWQ_PRIO_HIGH_SWRITE].disp_quantum, 0); +SHOW_FUNCTION(row_rp_swrite_quantum_show, + rowd->row_queues[ROWQ_PRIO_REG_SWRITE].disp_quantum, 0); +SHOW_FUNCTION(row_rp_write_quantum_show, + rowd->row_queues[ROWQ_PRIO_REG_WRITE].disp_quantum, 0); +SHOW_FUNCTION(row_lp_read_quantum_show, + rowd->row_queues[ROWQ_PRIO_LOW_READ].disp_quantum, 0); +SHOW_FUNCTION(row_lp_swrite_quantum_show, + rowd->row_queues[ROWQ_PRIO_LOW_SWRITE].disp_quantum, 0); +SHOW_FUNCTION(row_read_idle_show, rowd->read_idle.idle_time, 1); +SHOW_FUNCTION(row_read_idle_freq_show, rowd->read_idle.freq, 1); +#undef SHOW_FUNCTION + +#define STORE_FUNCTION(__FUNC, __PTR, MIN, MAX, __CONV) \ +static ssize_t __FUNC(struct elevator_queue *e, \ + const char *page, size_t count) \ +{ \ + struct row_data *rowd = e->elevator_data; \ + int __data; \ + int ret = row_var_store(&__data, (page), count); \ + if (__CONV) \ + __data = (int)msecs_to_jiffies(__data); \ + if (__data < (MIN)) \ + __data = (MIN); \ + else if (__data > (MAX)) \ + __data = (MAX); \ + *(__PTR) = __data; \ + return ret; \ +} +STORE_FUNCTION(row_hp_read_quantum_store, + &rowd->row_queues[ROWQ_PRIO_HIGH_READ].disp_quantum, 0, + INT_MAX, 0); +STORE_FUNCTION(row_rp_read_quantum_store, + &rowd->row_queues[ROWQ_PRIO_REG_READ].disp_quantum, 0, + INT_MAX, 0); +STORE_FUNCTION(row_hp_swrite_quantum_store, + &rowd->row_queues[ROWQ_PRIO_HIGH_SWRITE].disp_quantum, 0, + INT_MAX, 0); +STORE_FUNCTION(row_rp_swrite_quantum_store, + &rowd->row_queues[ROWQ_PRIO_REG_SWRITE].disp_quantum, 0, + INT_MAX, 0); +STORE_FUNCTION(row_rp_write_quantum_store, + &rowd->row_queues[ROWQ_PRIO_REG_WRITE].disp_quantum, 0, + INT_MAX, 0); +STORE_FUNCTION(row_lp_read_quantum_store, + &rowd->row_queues[ROWQ_PRIO_LOW_READ].disp_quantum, 0, + INT_MAX, 0); +STORE_FUNCTION(row_lp_swrite_quantum_store, + &rowd->row_queues[ROWQ_PRIO_LOW_SWRITE].disp_quantum, 0, + INT_MAX, 1); +STORE_FUNCTION(row_read_idle_store, &rowd->read_idle.idle_time, 1, INT_MAX, 1); +STORE_FUNCTION(row_read_idle_freq_store, &rowd->read_idle.freq, + 1, INT_MAX, 1); + +#undef STORE_FUNCTION + +#define ROW_ATTR(name) \ + __ATTR(name, S_IRUGO|S_IWUSR, row_##name##_show, \ + row_##name##_store) + +static struct elv_fs_entry row_attrs[] = { + ROW_ATTR(hp_read_quantum), + ROW_ATTR(rp_read_quantum), + ROW_ATTR(hp_swrite_quantum), + ROW_ATTR(rp_swrite_quantum), + ROW_ATTR(rp_write_quantum), + ROW_ATTR(lp_read_quantum), + ROW_ATTR(lp_swrite_quantum), + ROW_ATTR(read_idle), + ROW_ATTR(read_idle_freq), + __ATTR_NULL +}; + +static struct elevator_type iosched_row = { + .ops = { + .elevator_merge_req_fn = row_merged_requests, + .elevator_dispatch_fn = row_dispatch_requests, + .elevator_add_req_fn = row_add_request, + .elevator_former_req_fn = elv_rb_former_request, + .elevator_latter_req_fn = elv_rb_latter_request, + .elevator_set_req_fn = row_set_request, + .elevator_init_fn = row_init_queue, + .elevator_exit_fn = row_exit_queue, + }, + + .elevator_attrs = row_attrs, + .elevator_name = "row", + .elevator_owner = THIS_MODULE, +}; + +static int __init row_init(void) +{ + elv_register(&iosched_row); + return 0; +} + +static void __exit row_exit(void) +{ + elv_unregister(&iosched_row); +} + +module_init(row_init); +module_exit(row_exit); + +MODULE_LICENSE("GPLv2"); +MODULE_DESCRIPTION("Read Over Write IO scheduler"); -- 1.7.6 -- QUALCOMM ISRAEL, on behalf of Qualcomm Innovation Center, Inc. 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