rcu-tasks: Fix access non-existent percpu rtpcp variable in rcu_tasks_need_gpcb()
For kernels built with CONFIG_FORCE_NR_CPUS=y, the nr_cpu_ids is defined as NR_CPUS instead of the number of possible cpus, this will cause the following system panic: smpboot: Allowing 4 CPUs, 0 hotplug CPUs ... setup_percpu: NR_CPUS:512 nr_cpumask_bits:512 nr_cpu_ids:512 nr_node_ids:1 ... BUG: unable to handle page fault for address: ffffffff9911c8c8 Oops: 0000 [#1] PREEMPT SMP PTI CPU: 0 PID: 15 Comm: rcu_tasks_trace Tainted: G W 6.6.21 #1 5dc7acf91a5e8e9ac9dcfc35bee0245691283ea6 RIP: 0010:rcu_tasks_need_gpcb+0x25d/0x2c0 RSP: 0018:ffffa371c00a3e60 EFLAGS: 00010082 CR2: ffffffff9911c8c8 CR3: 000000040fa20005 CR4: 00000000001706f0 Call Trace: <TASK> ? __die+0x23/0x80 ? page_fault_oops+0xa4/0x180 ? exc_page_fault+0x152/0x180 ? asm_exc_page_fault+0x26/0x40 ? rcu_tasks_need_gpcb+0x25d/0x2c0 ? __pfx_rcu_tasks_kthread+0x40/0x40 rcu_tasks_one_gp+0x69/0x180 rcu_tasks_kthread+0x94/0xc0 kthread+0xe8/0x140 ? __pfx_kthread+0x40/0x40 ret_from_fork+0x34/0x80 ? __pfx_kthread+0x40/0x40 ret_from_fork_asm+0x1b/0x80 </TASK> Considering that there may be holes in the CPU numbers, use the maximum possible cpu number, instead of nr_cpu_ids, for configuring enqueue and dequeue limits. [ neeraj.upadhyay: Fix htmldocs build error reported by Stephen Rothwell ] Closes: https://lore.kernel.org/linux-input/CALMA0xaTSMN+p4xUXkzrtR5r6k7hgoswcaXx7baR_z9r5jjskw@mail.gmail.com/T/#u Reported-by: Zhixu Liu <zhixu.liu@gmail.com> Signed-off-by: Zqiang <qiang.zhang1211@gmail.com> Signed-off-by: Neeraj Upadhyay <neeraj.upadhyay@kernel.org>
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@ -34,6 +34,7 @@ typedef void (*postgp_func_t)(struct rcu_tasks *rtp);
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* @rtp_blkd_tasks: List of tasks blocked as readers.
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* @rtp_exit_list: List of tasks in the latter portion of do_exit().
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* @cpu: CPU number corresponding to this entry.
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* @index: Index of this CPU in rtpcp_array of the rcu_tasks structure.
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* @rtpp: Pointer to the rcu_tasks structure.
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*/
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struct rcu_tasks_percpu {
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@ -49,6 +50,7 @@ struct rcu_tasks_percpu {
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struct list_head rtp_blkd_tasks;
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struct list_head rtp_exit_list;
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int cpu;
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int index;
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struct rcu_tasks *rtpp;
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};
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@ -76,6 +78,7 @@ struct rcu_tasks_percpu {
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* @call_func: This flavor's call_rcu()-equivalent function.
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* @wait_state: Task state for synchronous grace-period waits (default TASK_UNINTERRUPTIBLE).
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* @rtpcpu: This flavor's rcu_tasks_percpu structure.
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* @rtpcp_array: Array of pointers to rcu_tasks_percpu structure of CPUs in cpu_possible_mask.
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* @percpu_enqueue_shift: Shift down CPU ID this much when enqueuing callbacks.
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* @percpu_enqueue_lim: Number of per-CPU callback queues in use for enqueuing.
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* @percpu_dequeue_lim: Number of per-CPU callback queues in use for dequeuing.
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@ -110,6 +113,7 @@ struct rcu_tasks {
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call_rcu_func_t call_func;
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unsigned int wait_state;
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struct rcu_tasks_percpu __percpu *rtpcpu;
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struct rcu_tasks_percpu **rtpcp_array;
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int percpu_enqueue_shift;
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int percpu_enqueue_lim;
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int percpu_dequeue_lim;
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@ -182,6 +186,8 @@ module_param(rcu_task_collapse_lim, int, 0444);
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static int rcu_task_lazy_lim __read_mostly = 32;
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module_param(rcu_task_lazy_lim, int, 0444);
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static int rcu_task_cpu_ids;
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/* RCU tasks grace-period state for debugging. */
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#define RTGS_INIT 0
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#define RTGS_WAIT_WAIT_CBS 1
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@ -245,6 +251,8 @@ static void cblist_init_generic(struct rcu_tasks *rtp)
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int cpu;
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int lim;
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int shift;
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int maxcpu;
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int index = 0;
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if (rcu_task_enqueue_lim < 0) {
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rcu_task_enqueue_lim = 1;
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@ -254,14 +262,9 @@ static void cblist_init_generic(struct rcu_tasks *rtp)
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}
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lim = rcu_task_enqueue_lim;
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if (lim > nr_cpu_ids)
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lim = nr_cpu_ids;
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shift = ilog2(nr_cpu_ids / lim);
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if (((nr_cpu_ids - 1) >> shift) >= lim)
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shift++;
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WRITE_ONCE(rtp->percpu_enqueue_shift, shift);
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WRITE_ONCE(rtp->percpu_dequeue_lim, lim);
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smp_store_release(&rtp->percpu_enqueue_lim, lim);
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rtp->rtpcp_array = kcalloc(num_possible_cpus(), sizeof(struct rcu_tasks_percpu *), GFP_KERNEL);
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BUG_ON(!rtp->rtpcp_array);
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for_each_possible_cpu(cpu) {
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struct rcu_tasks_percpu *rtpcp = per_cpu_ptr(rtp->rtpcpu, cpu);
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@ -273,14 +276,29 @@ static void cblist_init_generic(struct rcu_tasks *rtp)
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INIT_WORK(&rtpcp->rtp_work, rcu_tasks_invoke_cbs_wq);
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rtpcp->cpu = cpu;
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rtpcp->rtpp = rtp;
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rtpcp->index = index;
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rtp->rtpcp_array[index] = rtpcp;
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index++;
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if (!rtpcp->rtp_blkd_tasks.next)
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INIT_LIST_HEAD(&rtpcp->rtp_blkd_tasks);
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if (!rtpcp->rtp_exit_list.next)
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INIT_LIST_HEAD(&rtpcp->rtp_exit_list);
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maxcpu = cpu;
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}
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pr_info("%s: Setting shift to %d and lim to %d rcu_task_cb_adjust=%d.\n", rtp->name,
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data_race(rtp->percpu_enqueue_shift), data_race(rtp->percpu_enqueue_lim), rcu_task_cb_adjust);
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rcu_task_cpu_ids = maxcpu + 1;
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if (lim > rcu_task_cpu_ids)
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lim = rcu_task_cpu_ids;
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shift = ilog2(rcu_task_cpu_ids / lim);
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if (((rcu_task_cpu_ids - 1) >> shift) >= lim)
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shift++;
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WRITE_ONCE(rtp->percpu_enqueue_shift, shift);
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WRITE_ONCE(rtp->percpu_dequeue_lim, lim);
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smp_store_release(&rtp->percpu_enqueue_lim, lim);
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pr_info("%s: Setting shift to %d and lim to %d rcu_task_cb_adjust=%d rcu_task_cpu_ids=%d.\n",
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rtp->name, data_race(rtp->percpu_enqueue_shift), data_race(rtp->percpu_enqueue_lim),
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rcu_task_cb_adjust, rcu_task_cpu_ids);
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}
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// Compute wakeup time for lazy callback timer.
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@ -348,7 +366,7 @@ static void call_rcu_tasks_generic(struct rcu_head *rhp, rcu_callback_t func,
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rtpcp->rtp_n_lock_retries = 0;
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}
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if (rcu_task_cb_adjust && ++rtpcp->rtp_n_lock_retries > rcu_task_contend_lim &&
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READ_ONCE(rtp->percpu_enqueue_lim) != nr_cpu_ids)
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READ_ONCE(rtp->percpu_enqueue_lim) != rcu_task_cpu_ids)
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needadjust = true; // Defer adjustment to avoid deadlock.
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}
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// Queuing callbacks before initialization not yet supported.
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@ -368,10 +386,10 @@ static void call_rcu_tasks_generic(struct rcu_head *rhp, rcu_callback_t func,
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raw_spin_unlock_irqrestore_rcu_node(rtpcp, flags);
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if (unlikely(needadjust)) {
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raw_spin_lock_irqsave(&rtp->cbs_gbl_lock, flags);
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if (rtp->percpu_enqueue_lim != nr_cpu_ids) {
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if (rtp->percpu_enqueue_lim != rcu_task_cpu_ids) {
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WRITE_ONCE(rtp->percpu_enqueue_shift, 0);
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WRITE_ONCE(rtp->percpu_dequeue_lim, nr_cpu_ids);
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smp_store_release(&rtp->percpu_enqueue_lim, nr_cpu_ids);
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WRITE_ONCE(rtp->percpu_dequeue_lim, rcu_task_cpu_ids);
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smp_store_release(&rtp->percpu_enqueue_lim, rcu_task_cpu_ids);
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pr_info("Switching %s to per-CPU callback queuing.\n", rtp->name);
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}
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raw_spin_unlock_irqrestore(&rtp->cbs_gbl_lock, flags);
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@ -444,6 +462,8 @@ static int rcu_tasks_need_gpcb(struct rcu_tasks *rtp)
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dequeue_limit = smp_load_acquire(&rtp->percpu_dequeue_lim);
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for (cpu = 0; cpu < dequeue_limit; cpu++) {
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if (!cpu_possible(cpu))
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continue;
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struct rcu_tasks_percpu *rtpcp = per_cpu_ptr(rtp->rtpcpu, cpu);
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/* Advance and accelerate any new callbacks. */
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@ -481,7 +501,7 @@ static int rcu_tasks_need_gpcb(struct rcu_tasks *rtp)
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if (rcu_task_cb_adjust && ncbs <= rcu_task_collapse_lim) {
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raw_spin_lock_irqsave(&rtp->cbs_gbl_lock, flags);
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if (rtp->percpu_enqueue_lim > 1) {
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WRITE_ONCE(rtp->percpu_enqueue_shift, order_base_2(nr_cpu_ids));
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WRITE_ONCE(rtp->percpu_enqueue_shift, order_base_2(rcu_task_cpu_ids));
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smp_store_release(&rtp->percpu_enqueue_lim, 1);
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rtp->percpu_dequeue_gpseq = get_state_synchronize_rcu();
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gpdone = false;
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@ -496,7 +516,9 @@ static int rcu_tasks_need_gpcb(struct rcu_tasks *rtp)
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pr_info("Completing switch %s to CPU-0 callback queuing.\n", rtp->name);
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}
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if (rtp->percpu_dequeue_lim == 1) {
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for (cpu = rtp->percpu_dequeue_lim; cpu < nr_cpu_ids; cpu++) {
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for (cpu = rtp->percpu_dequeue_lim; cpu < rcu_task_cpu_ids; cpu++) {
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if (!cpu_possible(cpu))
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continue;
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struct rcu_tasks_percpu *rtpcp = per_cpu_ptr(rtp->rtpcpu, cpu);
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WARN_ON_ONCE(rcu_segcblist_n_cbs(&rtpcp->cblist));
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@ -511,30 +533,32 @@ static int rcu_tasks_need_gpcb(struct rcu_tasks *rtp)
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// Advance callbacks and invoke any that are ready.
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static void rcu_tasks_invoke_cbs(struct rcu_tasks *rtp, struct rcu_tasks_percpu *rtpcp)
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{
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int cpu;
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int cpunext;
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int cpuwq;
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unsigned long flags;
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int len;
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int index;
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struct rcu_head *rhp;
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struct rcu_cblist rcl = RCU_CBLIST_INITIALIZER(rcl);
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struct rcu_tasks_percpu *rtpcp_next;
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cpu = rtpcp->cpu;
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cpunext = cpu * 2 + 1;
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if (cpunext < smp_load_acquire(&rtp->percpu_dequeue_lim)) {
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rtpcp_next = per_cpu_ptr(rtp->rtpcpu, cpunext);
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cpuwq = rcu_cpu_beenfullyonline(cpunext) ? cpunext : WORK_CPU_UNBOUND;
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queue_work_on(cpuwq, system_wq, &rtpcp_next->rtp_work);
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cpunext++;
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if (cpunext < smp_load_acquire(&rtp->percpu_dequeue_lim)) {
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rtpcp_next = per_cpu_ptr(rtp->rtpcpu, cpunext);
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cpuwq = rcu_cpu_beenfullyonline(cpunext) ? cpunext : WORK_CPU_UNBOUND;
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index = rtpcp->index * 2 + 1;
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if (index < num_possible_cpus()) {
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rtpcp_next = rtp->rtpcp_array[index];
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if (rtpcp_next->cpu < smp_load_acquire(&rtp->percpu_dequeue_lim)) {
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cpuwq = rcu_cpu_beenfullyonline(rtpcp_next->cpu) ? rtpcp_next->cpu : WORK_CPU_UNBOUND;
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queue_work_on(cpuwq, system_wq, &rtpcp_next->rtp_work);
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index++;
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if (index < num_possible_cpus()) {
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rtpcp_next = rtp->rtpcp_array[index];
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if (rtpcp_next->cpu < smp_load_acquire(&rtp->percpu_dequeue_lim)) {
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cpuwq = rcu_cpu_beenfullyonline(rtpcp_next->cpu) ? rtpcp_next->cpu : WORK_CPU_UNBOUND;
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queue_work_on(cpuwq, system_wq, &rtpcp_next->rtp_work);
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}
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}
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}
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}
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if (rcu_segcblist_empty(&rtpcp->cblist) || !cpu_possible(cpu))
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if (rcu_segcblist_empty(&rtpcp->cblist))
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return;
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raw_spin_lock_irqsave_rcu_node(rtpcp, flags);
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rcu_segcblist_advance(&rtpcp->cblist, rcu_seq_current(&rtp->tasks_gp_seq));
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