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rcu/sync: Simplify the state machine
With this patch rcu_sync has a single state variable and the transition rules become really simple: GP_IDLE - owned by the first rcu_sync_enter() which moves it to GP_ENTER - owned by rcu-callback which moves it to GP_PASSED - owned by the last rcu_sync_exit() which moves it to GP_EXIT - and this is the only "nontrivial" state. rcu-callback moves it back to GP_IDLE unless another enter() comes before a GP pass. If rcu-callback is invoked before the next rcu_sync_exit() it must see gp_count incremented by that enter() and set GP_PASSED. Otherwise, if the next rcu_sync_exit() wins the race, it will move it to GP_REPLAY - owned by rcu-callback which moves it to GP_EXIT Signed-off-by: Oleg Nesterov <oleg@redhat.com> [ paulmck: While here, apply READ_ONCE() and WRITE_ONCE() to ->gp_state. ] [ paulmck: Tweaks to make htmldocs happy. (Reported by kbuild test robot.) ] Signed-off-by: Paul E. McKenney <paulmck@linux.ibm.com>
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@ -19,7 +19,6 @@ struct rcu_sync {
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int gp_count;
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wait_queue_head_t gp_wait;
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int cb_state;
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struct rcu_head cb_head;
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};
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@ -36,7 +35,7 @@ static inline bool rcu_sync_is_idle(struct rcu_sync *rsp)
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!rcu_read_lock_bh_held() &&
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!rcu_read_lock_sched_held(),
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"suspicious rcu_sync_is_idle() usage");
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return !rsp->gp_state; /* GP_IDLE */
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return !READ_ONCE(rsp->gp_state); /* GP_IDLE */
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}
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extern void rcu_sync_init(struct rcu_sync *);
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@ -49,7 +48,6 @@ extern void rcu_sync_dtor(struct rcu_sync *);
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.gp_state = 0, \
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.gp_count = 0, \
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.gp_wait = __WAIT_QUEUE_HEAD_INITIALIZER(name.gp_wait), \
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.cb_state = 0, \
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}
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#define DEFINE_RCU_SYNC(name) \
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@ -10,15 +10,13 @@
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#include <linux/rcu_sync.h>
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#include <linux/sched.h>
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enum { GP_IDLE = 0, GP_PENDING, GP_PASSED };
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enum { CB_IDLE = 0, CB_PENDING, CB_REPLAY };
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enum { GP_IDLE = 0, GP_ENTER, GP_PASSED, GP_EXIT, GP_REPLAY };
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#define rss_lock gp_wait.lock
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/**
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* rcu_sync_init() - Initialize an rcu_sync structure
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* @rsp: Pointer to rcu_sync structure to be initialized
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* @type: Flavor of RCU with which to synchronize rcu_sync structure
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*/
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void rcu_sync_init(struct rcu_sync *rsp)
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{
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@ -41,6 +39,70 @@ void rcu_sync_enter_start(struct rcu_sync *rsp)
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rsp->gp_state = GP_PASSED;
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}
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static void rcu_sync_func(struct rcu_head *rhp);
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static void rcu_sync_call(struct rcu_sync *rsp)
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{
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call_rcu(&rsp->cb_head, rcu_sync_func);
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}
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/**
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* rcu_sync_func() - Callback function managing reader access to fastpath
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* @rhp: Pointer to rcu_head in rcu_sync structure to use for synchronization
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*
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* This function is passed to call_rcu() function by rcu_sync_enter() and
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* rcu_sync_exit(), so that it is invoked after a grace period following the
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* that invocation of enter/exit.
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*
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* If it is called by rcu_sync_enter() it signals that all the readers were
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* switched onto slow path.
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*
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* If it is called by rcu_sync_exit() it takes action based on events that
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* have taken place in the meantime, so that closely spaced rcu_sync_enter()
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* and rcu_sync_exit() pairs need not wait for a grace period.
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*
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* If another rcu_sync_enter() is invoked before the grace period
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* ended, reset state to allow the next rcu_sync_exit() to let the
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* readers back onto their fastpaths (after a grace period). If both
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* another rcu_sync_enter() and its matching rcu_sync_exit() are invoked
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* before the grace period ended, re-invoke call_rcu() on behalf of that
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* rcu_sync_exit(). Otherwise, set all state back to idle so that readers
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* can again use their fastpaths.
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*/
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static void rcu_sync_func(struct rcu_head *rhp)
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{
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struct rcu_sync *rsp = container_of(rhp, struct rcu_sync, cb_head);
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unsigned long flags;
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WARN_ON_ONCE(READ_ONCE(rsp->gp_state) == GP_IDLE);
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WARN_ON_ONCE(READ_ONCE(rsp->gp_state) == GP_PASSED);
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spin_lock_irqsave(&rsp->rss_lock, flags);
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if (rsp->gp_count) {
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/*
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* We're at least a GP after the GP_IDLE->GP_ENTER transition.
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*/
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WRITE_ONCE(rsp->gp_state, GP_PASSED);
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wake_up_locked(&rsp->gp_wait);
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} else if (rsp->gp_state == GP_REPLAY) {
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/*
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* A new rcu_sync_exit() has happened; requeue the callback to
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* catch a later GP.
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*/
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WRITE_ONCE(rsp->gp_state, GP_EXIT);
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rcu_sync_call(rsp);
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} else {
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/*
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* We're at least a GP after the last rcu_sync_exit(); eveybody
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* will now have observed the write side critical section.
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* Let 'em rip!.
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*/
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WRITE_ONCE(rsp->gp_state, GP_IDLE);
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}
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spin_unlock_irqrestore(&rsp->rss_lock, flags);
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}
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/**
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* rcu_sync_enter() - Force readers onto slowpath
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* @rsp: Pointer to rcu_sync structure to use for synchronization
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@ -58,84 +120,43 @@ void rcu_sync_enter_start(struct rcu_sync *rsp)
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*/
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void rcu_sync_enter(struct rcu_sync *rsp)
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{
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bool need_wait, need_sync;
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int gp_state;
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spin_lock_irq(&rsp->rss_lock);
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need_wait = rsp->gp_count++;
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need_sync = rsp->gp_state == GP_IDLE;
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if (need_sync)
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rsp->gp_state = GP_PENDING;
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gp_state = rsp->gp_state;
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if (gp_state == GP_IDLE) {
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WRITE_ONCE(rsp->gp_state, GP_ENTER);
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WARN_ON_ONCE(rsp->gp_count);
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/*
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* Note that we could simply do rcu_sync_call(rsp) here and
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* avoid the "if (gp_state == GP_IDLE)" block below.
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*
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* However, synchronize_rcu() can be faster if rcu_expedited
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* or rcu_blocking_is_gp() is true.
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*
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* Another reason is that we can't wait for rcu callback if
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* we are called at early boot time but this shouldn't happen.
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*/
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}
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rsp->gp_count++;
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spin_unlock_irq(&rsp->rss_lock);
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WARN_ON_ONCE(need_wait && need_sync);
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if (need_sync) {
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if (gp_state == GP_IDLE) {
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/*
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* See the comment above, this simply does the "synchronous"
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* call_rcu(rcu_sync_func) which does GP_ENTER -> GP_PASSED.
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*/
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synchronize_rcu();
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rsp->gp_state = GP_PASSED;
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wake_up_all(&rsp->gp_wait);
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} else if (need_wait) {
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wait_event(rsp->gp_wait, rsp->gp_state == GP_PASSED);
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} else {
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/*
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* Possible when there's a pending CB from a rcu_sync_exit().
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* Nobody has yet been allowed the 'fast' path and thus we can
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* avoid doing any sync(). The callback will get 'dropped'.
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*/
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WARN_ON_ONCE(rsp->gp_state != GP_PASSED);
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rcu_sync_func(&rsp->cb_head);
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/* Not really needed, wait_event() would see GP_PASSED. */
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return;
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}
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wait_event(rsp->gp_wait, READ_ONCE(rsp->gp_state) >= GP_PASSED);
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}
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/**
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* rcu_sync_func() - Callback function managing reader access to fastpath
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* @rhp: Pointer to rcu_head in rcu_sync structure to use for synchronization
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*
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* This function is passed to one of the call_rcu() functions by
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* rcu_sync_exit(), so that it is invoked after a grace period following the
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* that invocation of rcu_sync_exit(). It takes action based on events that
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* have taken place in the meantime, so that closely spaced rcu_sync_enter()
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* and rcu_sync_exit() pairs need not wait for a grace period.
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*
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* If another rcu_sync_enter() is invoked before the grace period
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* ended, reset state to allow the next rcu_sync_exit() to let the
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* readers back onto their fastpaths (after a grace period). If both
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* another rcu_sync_enter() and its matching rcu_sync_exit() are invoked
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* before the grace period ended, re-invoke call_rcu() on behalf of that
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* rcu_sync_exit(). Otherwise, set all state back to idle so that readers
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* can again use their fastpaths.
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*/
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static void rcu_sync_func(struct rcu_head *rhp)
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{
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struct rcu_sync *rsp = container_of(rhp, struct rcu_sync, cb_head);
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unsigned long flags;
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WARN_ON_ONCE(rsp->gp_state != GP_PASSED);
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WARN_ON_ONCE(rsp->cb_state == CB_IDLE);
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spin_lock_irqsave(&rsp->rss_lock, flags);
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if (rsp->gp_count) {
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/*
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* A new rcu_sync_begin() has happened; drop the callback.
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*/
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rsp->cb_state = CB_IDLE;
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} else if (rsp->cb_state == CB_REPLAY) {
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/*
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* A new rcu_sync_exit() has happened; requeue the callback
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* to catch a later GP.
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*/
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rsp->cb_state = CB_PENDING;
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call_rcu(&rsp->cb_head, rcu_sync_func);
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} else {
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/*
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* We're at least a GP after rcu_sync_exit(); eveybody will now
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* have observed the write side critical section. Let 'em rip!.
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*/
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rsp->cb_state = CB_IDLE;
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rsp->gp_state = GP_IDLE;
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}
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spin_unlock_irqrestore(&rsp->rss_lock, flags);
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}
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/**
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* rcu_sync_exit() - Allow readers back onto fast patch after grace period
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* rcu_sync_exit() - Allow readers back onto fast path after grace period
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* @rsp: Pointer to rcu_sync structure to use for synchronization
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*
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* This function is used by updaters who have completed, and can therefore
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@ -146,13 +167,16 @@ static void rcu_sync_func(struct rcu_head *rhp)
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*/
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void rcu_sync_exit(struct rcu_sync *rsp)
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{
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WARN_ON_ONCE(READ_ONCE(rsp->gp_state) == GP_IDLE);
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WARN_ON_ONCE(READ_ONCE(rsp->gp_count) == 0);
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spin_lock_irq(&rsp->rss_lock);
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if (!--rsp->gp_count) {
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if (rsp->cb_state == CB_IDLE) {
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rsp->cb_state = CB_PENDING;
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call_rcu(&rsp->cb_head, rcu_sync_func);
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} else if (rsp->cb_state == CB_PENDING) {
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rsp->cb_state = CB_REPLAY;
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if (rsp->gp_state == GP_PASSED) {
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WRITE_ONCE(rsp->gp_state, GP_EXIT);
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rcu_sync_call(rsp);
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} else if (rsp->gp_state == GP_EXIT) {
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WRITE_ONCE(rsp->gp_state, GP_REPLAY);
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}
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}
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spin_unlock_irq(&rsp->rss_lock);
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@ -164,18 +188,19 @@ void rcu_sync_exit(struct rcu_sync *rsp)
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*/
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void rcu_sync_dtor(struct rcu_sync *rsp)
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{
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int cb_state;
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int gp_state;
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WARN_ON_ONCE(rsp->gp_count);
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WARN_ON_ONCE(READ_ONCE(rsp->gp_count));
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WARN_ON_ONCE(READ_ONCE(rsp->gp_state) == GP_PASSED);
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spin_lock_irq(&rsp->rss_lock);
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if (rsp->cb_state == CB_REPLAY)
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rsp->cb_state = CB_PENDING;
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cb_state = rsp->cb_state;
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if (rsp->gp_state == GP_REPLAY)
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WRITE_ONCE(rsp->gp_state, GP_EXIT);
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gp_state = rsp->gp_state;
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spin_unlock_irq(&rsp->rss_lock);
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if (cb_state != CB_IDLE) {
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if (gp_state != GP_IDLE) {
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rcu_barrier();
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WARN_ON_ONCE(rsp->cb_state != CB_IDLE);
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WARN_ON_ONCE(rsp->gp_state != GP_IDLE);
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}
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}
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