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// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright 2023 Red Hat
*/
#include "flush.h"
#include <linux/mempool.h>
#include <linux/spinlock.h>
#include "logger.h"
#include "memory-alloc.h"
#include "permassert.h"
#include "admin-state.h"
#include "completion.h"
#include "io-submitter.h"
#include "logical-zone.h"
#include "slab-depot.h"
#include "types.h"
#include "vdo.h"
struct flusher {
struct vdo_completion completion;
/* The vdo to which this flusher belongs */
struct vdo *vdo;
/* The administrative state of the flusher */
struct admin_state state;
/* The current flush generation of the vdo */
sequence_number_t flush_generation;
/* The first unacknowledged flush generation */
sequence_number_t first_unacknowledged_generation;
/* The queue of flush requests waiting to notify other threads */
struct vdo_wait_queue notifiers;
/* The queue of flush requests waiting for VIOs to complete */
struct vdo_wait_queue pending_flushes;
/* The flush generation for which notifications are being sent */
sequence_number_t notify_generation;
/* The logical zone to notify next */
struct logical_zone *logical_zone_to_notify;
/* The ID of the thread on which flush requests should be made */
thread_id_t thread_id;
/* The pool of flush requests */
mempool_t *flush_pool;
/* Bios waiting for a flush request to become available */
struct bio_list waiting_flush_bios;
/* The lock to protect the previous fields */
spinlock_t lock;
/* The rotor for selecting the bio queue for submitting flush bios */
zone_count_t bio_queue_rotor;
/* The number of flushes submitted to the current bio queue */
int flush_count;
};
/**
* assert_on_flusher_thread() - Check that we are on the flusher thread.
* @flusher: The flusher.
* @caller: The function which is asserting.
*/
static inline void assert_on_flusher_thread(struct flusher *flusher, const char *caller)
{
VDO_ASSERT_LOG_ONLY((vdo_get_callback_thread_id() == flusher->thread_id),
"%s() called from flusher thread", caller);
}
/**
* as_flusher() - Convert a generic vdo_completion to a flusher.
* @completion: The completion to convert.
*
* Return: The completion as a flusher.
*/
static struct flusher *as_flusher(struct vdo_completion *completion)
{
vdo_assert_completion_type(completion, VDO_FLUSH_NOTIFICATION_COMPLETION);
return container_of(completion, struct flusher, completion);
}
/**
* completion_as_vdo_flush() - Convert a generic vdo_completion to a vdo_flush.
* @completion: The completion to convert.
*
* Return: The completion as a vdo_flush.
*/
static inline struct vdo_flush *completion_as_vdo_flush(struct vdo_completion *completion)
{
vdo_assert_completion_type(completion, VDO_FLUSH_COMPLETION);
return container_of(completion, struct vdo_flush, completion);
}
/**
* vdo_waiter_as_flush() - Convert a vdo_flush's generic wait queue entry back to the vdo_flush.
* @waiter: The wait queue entry to convert.
*
* Return: The wait queue entry as a vdo_flush.
*/
static struct vdo_flush *vdo_waiter_as_flush(struct vdo_waiter *waiter)
{
return container_of(waiter, struct vdo_flush, waiter);
}
static void *allocate_flush(gfp_t gfp_mask, void *pool_data)
{
struct vdo_flush *flush = NULL;
if ((gfp_mask & GFP_NOWAIT) == GFP_NOWAIT) {
flush = vdo_allocate_memory_nowait(sizeof(struct vdo_flush), __func__);
} else {
int result = vdo_allocate(1, struct vdo_flush, __func__, &flush);
if (result != VDO_SUCCESS)
vdo_log_error_strerror(result, "failed to allocate spare flush");
}
if (flush != NULL) {
struct flusher *flusher = pool_data;
vdo_initialize_completion(&flush->completion, flusher->vdo,
VDO_FLUSH_COMPLETION);
}
return flush;
}
static void free_flush(void *element, void *pool_data __always_unused)
{
vdo_free(element);
}
/**
* vdo_make_flusher() - Make a flusher for a vdo.
* @vdo: The vdo which owns the flusher.
*
* Return: VDO_SUCCESS or an error.
*/
int vdo_make_flusher(struct vdo *vdo)
{
int result = vdo_allocate(1, struct flusher, __func__, &vdo->flusher);
if (result != VDO_SUCCESS)
return result;
vdo->flusher->vdo = vdo;
vdo->flusher->thread_id = vdo->thread_config.packer_thread;
vdo_set_admin_state_code(&vdo->flusher->state, VDO_ADMIN_STATE_NORMAL_OPERATION);
vdo_initialize_completion(&vdo->flusher->completion, vdo,
VDO_FLUSH_NOTIFICATION_COMPLETION);
spin_lock_init(&vdo->flusher->lock);
bio_list_init(&vdo->flusher->waiting_flush_bios);
vdo->flusher->flush_pool = mempool_create(1, allocate_flush, free_flush,
vdo->flusher);
return ((vdo->flusher->flush_pool == NULL) ? -ENOMEM : VDO_SUCCESS);
}
/**
* vdo_free_flusher() - Free a flusher.
* @flusher: The flusher to free.
*/
void vdo_free_flusher(struct flusher *flusher)
{
if (flusher == NULL)
return;
if (flusher->flush_pool != NULL)
mempool_destroy(vdo_forget(flusher->flush_pool));
vdo_free(flusher);
}
/**
* vdo_get_flusher_thread_id() - Get the ID of the thread on which flusher functions should be
* called.
* @flusher: The flusher to query.
*
* Return: The ID of the thread which handles the flusher.
*/
thread_id_t vdo_get_flusher_thread_id(struct flusher *flusher)
{
return flusher->thread_id;
}
static void notify_flush(struct flusher *flusher);
static void vdo_complete_flush(struct vdo_flush *flush);
/**
* finish_notification() - Finish the notification process.
* @completion: The flusher completion.
*
* Finishes the notification process by checking if any flushes have completed and then starting
* the notification of the next flush request if one came in while the current notification was in
* progress. This callback is registered in flush_packer_callback().
*/
static void finish_notification(struct vdo_completion *completion)
{
struct flusher *flusher = as_flusher(completion);
assert_on_flusher_thread(flusher, __func__);
vdo_waitq_enqueue_waiter(&flusher->pending_flushes,
vdo_waitq_dequeue_waiter(&flusher->notifiers));
vdo_complete_flushes(flusher);
if (vdo_waitq_has_waiters(&flusher->notifiers))
notify_flush(flusher);
}
/**
* flush_packer_callback() - Flush the packer.
* @completion: The flusher completion.
*
* Flushes the packer now that all of the logical and physical zones have been notified of the new
* flush request. This callback is registered in increment_generation().
*/
static void flush_packer_callback(struct vdo_completion *completion)
{
struct flusher *flusher = as_flusher(completion);
vdo_increment_packer_flush_generation(flusher->vdo->packer);
vdo_launch_completion_callback(completion, finish_notification,
flusher->thread_id);
}
/**
* increment_generation() - Increment the flush generation in a logical zone.
* @completion: The flusher as a completion.
*
* If there are more logical zones, go on to the next one, otherwise, prepare the physical zones.
* This callback is registered both in notify_flush() and in itself.
*/
static void increment_generation(struct vdo_completion *completion)
{
struct flusher *flusher = as_flusher(completion);
struct logical_zone *zone = flusher->logical_zone_to_notify;
vdo_increment_logical_zone_flush_generation(zone, flusher->notify_generation);
if (zone->next == NULL) {
vdo_launch_completion_callback(completion, flush_packer_callback,
flusher->thread_id);
return;
}
flusher->logical_zone_to_notify = zone->next;
vdo_launch_completion_callback(completion, increment_generation,
flusher->logical_zone_to_notify->thread_id);
}
/**
* notify_flush() - Launch a flush notification.
* @flusher: The flusher doing the notification.
*/
static void notify_flush(struct flusher *flusher)
{
struct vdo_flush *flush =
vdo_waiter_as_flush(vdo_waitq_get_first_waiter(&flusher->notifiers));
flusher->notify_generation = flush->flush_generation;
flusher->logical_zone_to_notify = &flusher->vdo->logical_zones->zones[0];
flusher->completion.requeue = true;
vdo_launch_completion_callback(&flusher->completion, increment_generation,
flusher->logical_zone_to_notify->thread_id);
}
/**
* flush_vdo() - Start processing a flush request.
* @completion: A flush request (as a vdo_completion)
*
* This callback is registered in launch_flush().
*/
static void flush_vdo(struct vdo_completion *completion)
{
struct vdo_flush *flush = completion_as_vdo_flush(completion);
struct flusher *flusher = completion->vdo->flusher;
bool may_notify;
int result;
assert_on_flusher_thread(flusher, __func__);
result = VDO_ASSERT(vdo_is_state_normal(&flusher->state),
"flusher is in normal operation");
if (result != VDO_SUCCESS) {
vdo_enter_read_only_mode(flusher->vdo, result);
vdo_complete_flush(flush);
return;
}
flush->flush_generation = flusher->flush_generation++;
may_notify = !vdo_waitq_has_waiters(&flusher->notifiers);
vdo_waitq_enqueue_waiter(&flusher->notifiers, &flush->waiter);
if (may_notify)
notify_flush(flusher);
}
/**
* check_for_drain_complete() - Check whether the flusher has drained.
* @flusher: The flusher.
*/
static void check_for_drain_complete(struct flusher *flusher)
{
bool drained;
if (!vdo_is_state_draining(&flusher->state) ||
vdo_waitq_has_waiters(&flusher->pending_flushes))
return;
spin_lock(&flusher->lock);
drained = bio_list_empty(&flusher->waiting_flush_bios);
spin_unlock(&flusher->lock);
if (drained)
vdo_finish_draining(&flusher->state);
}
/**
* vdo_complete_flushes() - Attempt to complete any flushes which might have finished.
* @flusher: The flusher.
*/
void vdo_complete_flushes(struct flusher *flusher)
{
sequence_number_t oldest_active_generation = U64_MAX;
struct logical_zone *zone;
assert_on_flusher_thread(flusher, __func__);
for (zone = &flusher->vdo->logical_zones->zones[0]; zone != NULL; zone = zone->next)
oldest_active_generation =
min(oldest_active_generation,
READ_ONCE(zone->oldest_active_generation));
while (vdo_waitq_has_waiters(&flusher->pending_flushes)) {
struct vdo_flush *flush =
vdo_waiter_as_flush(vdo_waitq_get_first_waiter(&flusher->pending_flushes));
if (flush->flush_generation >= oldest_active_generation)
return;
VDO_ASSERT_LOG_ONLY((flush->flush_generation ==
flusher->first_unacknowledged_generation),
"acknowledged next expected flush, %llu, was: %llu",
(unsigned long long) flusher->first_unacknowledged_generation,
(unsigned long long) flush->flush_generation);
vdo_waitq_dequeue_waiter(&flusher->pending_flushes);
vdo_complete_flush(flush);
flusher->first_unacknowledged_generation++;
}
check_for_drain_complete(flusher);
}
/**
* vdo_dump_flusher() - Dump the flusher, in a thread-unsafe fashion.
* @flusher: The flusher.
*/
void vdo_dump_flusher(const struct flusher *flusher)
{
vdo_log_info("struct flusher");
vdo_log_info(" flush_generation=%llu first_unacknowledged_generation=%llu",
(unsigned long long) flusher->flush_generation,
(unsigned long long) flusher->first_unacknowledged_generation);
vdo_log_info(" notifiers queue is %s; pending_flushes queue is %s",
(vdo_waitq_has_waiters(&flusher->notifiers) ? "not empty" : "empty"),
(vdo_waitq_has_waiters(&flusher->pending_flushes) ? "not empty" : "empty"));
}
/**
* initialize_flush() - Initialize a vdo_flush structure.
* @flush: The flush to initialize.
* @vdo: The vdo being flushed.
*
* Initializes a vdo_flush structure, transferring all the bios in the flusher's waiting_flush_bios
* list to it. The caller MUST already hold the lock.
*/
static void initialize_flush(struct vdo_flush *flush, struct vdo *vdo)
{
bio_list_init(&flush->bios);
bio_list_merge_init(&flush->bios, &vdo->flusher->waiting_flush_bios);
}
static void launch_flush(struct vdo_flush *flush)
{
struct vdo_completion *completion = &flush->completion;
vdo_prepare_completion(completion, flush_vdo, flush_vdo,
completion->vdo->thread_config.packer_thread, NULL);
vdo_enqueue_completion(completion, VDO_DEFAULT_Q_FLUSH_PRIORITY);
}
/**
* vdo_launch_flush() - Function called to start processing a flush request.
* @vdo: The vdo.
* @bio: The bio containing an empty flush request.
*
* This is called when we receive an empty flush bio from the block layer, and before acknowledging
* a non-empty bio with the FUA flag set.
*/
void vdo_launch_flush(struct vdo *vdo, struct bio *bio)
{
/*
* Try to allocate a vdo_flush to represent the flush request. If the allocation fails,
* we'll deal with it later.
*/
struct vdo_flush *flush = mempool_alloc(vdo->flusher->flush_pool, GFP_NOWAIT);
struct flusher *flusher = vdo->flusher;
const struct admin_state_code *code = vdo_get_admin_state_code(&flusher->state);
VDO_ASSERT_LOG_ONLY(!code->quiescent, "Flushing not allowed in state %s",
code->name);
spin_lock(&flusher->lock);
/* We have a new bio to start. Add it to the list. */
bio_list_add(&flusher->waiting_flush_bios, bio);
if (flush == NULL) {
spin_unlock(&flusher->lock);
return;
}
/* We have flushes to start. Capture them in the vdo_flush structure. */
initialize_flush(flush, vdo);
spin_unlock(&flusher->lock);
/* Finish launching the flushes. */
launch_flush(flush);
}
/**
* release_flush() - Release a vdo_flush structure that has completed its work.
* @flush: The completed flush structure to re-use or free.
*
* If there are any pending flush requests whose vdo_flush allocation failed, they will be launched
* by immediately re-using the released vdo_flush. If there is no spare vdo_flush, the released
* structure will become the spare. Otherwise, the vdo_flush will be freed.
*/
static void release_flush(struct vdo_flush *flush)
{
bool relaunch_flush;
struct flusher *flusher = flush->completion.vdo->flusher;
spin_lock(&flusher->lock);
if (bio_list_empty(&flusher->waiting_flush_bios)) {
relaunch_flush = false;
} else {
/* We have flushes to start. Capture them in a flush request. */
initialize_flush(flush, flusher->vdo);
relaunch_flush = true;
}
spin_unlock(&flusher->lock);
if (relaunch_flush) {
/* Finish launching the flushes. */
launch_flush(flush);
return;
}
mempool_free(flush, flusher->flush_pool);
}
/**
* vdo_complete_flush_callback() - Function called to complete and free a flush request, registered
* in vdo_complete_flush().
* @completion: The flush request.
*/
static void vdo_complete_flush_callback(struct vdo_completion *completion)
{
struct vdo_flush *flush = completion_as_vdo_flush(completion);
struct vdo *vdo = completion->vdo;
struct bio *bio;
while ((bio = bio_list_pop(&flush->bios)) != NULL) {
/*
* We're not acknowledging this bio now, but we'll never touch it again, so this is
* the last chance to account for it.
*/
vdo_count_bios(&vdo->stats.bios_acknowledged, bio);
/* Update the device, and send it on down... */
bio_set_dev(bio, vdo_get_backing_device(vdo));
atomic64_inc(&vdo->stats.flush_out);
submit_bio_noacct(bio);
}
/*
* Release the flush structure, freeing it, re-using it as the spare, or using it to launch
* any flushes that had to wait when allocations failed.
*/
release_flush(flush);
}
/**
* select_bio_queue() - Select the bio queue on which to finish a flush request.
* @flusher: The flusher finishing the request.
*/
static thread_id_t select_bio_queue(struct flusher *flusher)
{
struct vdo *vdo = flusher->vdo;
zone_count_t bio_threads = flusher->vdo->thread_config.bio_thread_count;
int interval;
if (bio_threads == 1)
return vdo->thread_config.bio_threads[0];
interval = vdo->device_config->thread_counts.bio_rotation_interval;
if (flusher->flush_count == interval) {
flusher->flush_count = 1;
flusher->bio_queue_rotor = ((flusher->bio_queue_rotor + 1) % bio_threads);
} else {
flusher->flush_count++;
}
return vdo->thread_config.bio_threads[flusher->bio_queue_rotor];
}
/**
* vdo_complete_flush() - Complete and free a vdo flush request.
* @flush: The flush request.
*/
static void vdo_complete_flush(struct vdo_flush *flush)
{
struct vdo_completion *completion = &flush->completion;
vdo_prepare_completion(completion, vdo_complete_flush_callback,
vdo_complete_flush_callback,
select_bio_queue(completion->vdo->flusher), NULL);
vdo_enqueue_completion(completion, BIO_Q_FLUSH_PRIORITY);
}
/**
* initiate_drain() - Initiate a drain.
*
* Implements vdo_admin_initiator_fn.
*/
static void initiate_drain(struct admin_state *state)
{
check_for_drain_complete(container_of(state, struct flusher, state));
}
/**
* vdo_drain_flusher() - Drain the flusher.
* @flusher: The flusher to drain.
* @completion: The completion to finish when the flusher has drained.
*
* Drains the flusher by preventing any more VIOs from entering the flusher and then flushing. The
* flusher will be left in the suspended state.
*/
void vdo_drain_flusher(struct flusher *flusher, struct vdo_completion *completion)
{
assert_on_flusher_thread(flusher, __func__);
vdo_start_draining(&flusher->state, VDO_ADMIN_STATE_SUSPENDING, completion,
initiate_drain);
}
/**
* vdo_resume_flusher() - Resume a flusher which has been suspended.
* @flusher: The flusher to resume.
* @parent: The completion to finish when the flusher has resumed.
*/
void vdo_resume_flusher(struct flusher *flusher, struct vdo_completion *parent)
{
assert_on_flusher_thread(flusher, __func__);
vdo_continue_completion(parent, vdo_resume_if_quiescent(&flusher->state));
}