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f7de7621f0
list.h provides a dedicated primitive for "list_del followed by list_add_tail"... list_move_tail. Signed-off-by: Arjan van de Ven <arjan@linux.intel.com> Signed-off-by: Stefan Richter <stefanr@s5r6.in-berlin.de>
407 lines
11 KiB
C
407 lines
11 KiB
C
/*
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* async.c: Asynchronous function calls for boot performance
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*
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* (C) Copyright 2009 Intel Corporation
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* Author: Arjan van de Ven <arjan@linux.intel.com>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; version 2
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* of the License.
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*/
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/*
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Goals and Theory of Operation
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The primary goal of this feature is to reduce the kernel boot time,
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by doing various independent hardware delays and discovery operations
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decoupled and not strictly serialized.
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More specifically, the asynchronous function call concept allows
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certain operations (primarily during system boot) to happen
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asynchronously, out of order, while these operations still
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have their externally visible parts happen sequentially and in-order.
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(not unlike how out-of-order CPUs retire their instructions in order)
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Key to the asynchronous function call implementation is the concept of
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a "sequence cookie" (which, although it has an abstracted type, can be
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thought of as a monotonically incrementing number).
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The async core will assign each scheduled event such a sequence cookie and
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pass this to the called functions.
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The asynchronously called function should before doing a globally visible
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operation, such as registering device numbers, call the
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async_synchronize_cookie() function and pass in its own cookie. The
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async_synchronize_cookie() function will make sure that all asynchronous
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operations that were scheduled prior to the operation corresponding with the
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cookie have completed.
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Subsystem/driver initialization code that scheduled asynchronous probe
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functions, but which shares global resources with other drivers/subsystems
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that do not use the asynchronous call feature, need to do a full
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synchronization with the async_synchronize_full() function, before returning
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from their init function. This is to maintain strict ordering between the
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asynchronous and synchronous parts of the kernel.
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*/
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#include <linux/async.h>
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#include <linux/module.h>
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#include <linux/wait.h>
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#include <linux/sched.h>
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#include <linux/init.h>
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#include <linux/kthread.h>
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#include <linux/delay.h>
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#include <asm/atomic.h>
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static async_cookie_t next_cookie = 1;
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#define MAX_THREADS 256
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#define MAX_WORK 32768
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static LIST_HEAD(async_pending);
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static LIST_HEAD(async_running);
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static DEFINE_SPINLOCK(async_lock);
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static int async_enabled = 0;
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struct async_entry {
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struct list_head list;
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async_cookie_t cookie;
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async_func_ptr *func;
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void *data;
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struct list_head *running;
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};
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static DECLARE_WAIT_QUEUE_HEAD(async_done);
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static DECLARE_WAIT_QUEUE_HEAD(async_new);
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static atomic_t entry_count;
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static atomic_t thread_count;
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extern int initcall_debug;
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/*
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* MUST be called with the lock held!
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*/
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static async_cookie_t __lowest_in_progress(struct list_head *running)
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{
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struct async_entry *entry;
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if (!list_empty(running)) {
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entry = list_first_entry(running,
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struct async_entry, list);
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return entry->cookie;
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} else if (!list_empty(&async_pending)) {
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entry = list_first_entry(&async_pending,
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struct async_entry, list);
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return entry->cookie;
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} else {
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/* nothing in progress... next_cookie is "infinity" */
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return next_cookie;
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}
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}
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static async_cookie_t lowest_in_progress(struct list_head *running)
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{
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unsigned long flags;
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async_cookie_t ret;
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spin_lock_irqsave(&async_lock, flags);
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ret = __lowest_in_progress(running);
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spin_unlock_irqrestore(&async_lock, flags);
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return ret;
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}
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/*
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* pick the first pending entry and run it
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*/
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static void run_one_entry(void)
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{
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unsigned long flags;
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struct async_entry *entry;
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ktime_t calltime, delta, rettime;
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/* 1) pick one task from the pending queue */
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spin_lock_irqsave(&async_lock, flags);
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if (list_empty(&async_pending))
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goto out;
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entry = list_first_entry(&async_pending, struct async_entry, list);
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/* 2) move it to the running queue */
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list_move_tail(&entry->list, entry->running);
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spin_unlock_irqrestore(&async_lock, flags);
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/* 3) run it (and print duration)*/
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if (initcall_debug && system_state == SYSTEM_BOOTING) {
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printk("calling %lli_%pF @ %i\n", (long long)entry->cookie,
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entry->func, task_pid_nr(current));
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calltime = ktime_get();
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}
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entry->func(entry->data, entry->cookie);
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if (initcall_debug && system_state == SYSTEM_BOOTING) {
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rettime = ktime_get();
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delta = ktime_sub(rettime, calltime);
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printk("initcall %lli_%pF returned 0 after %lld usecs\n",
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(long long)entry->cookie,
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entry->func,
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(long long)ktime_to_ns(delta) >> 10);
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}
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/* 4) remove it from the running queue */
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spin_lock_irqsave(&async_lock, flags);
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list_del(&entry->list);
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/* 5) free the entry */
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kfree(entry);
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atomic_dec(&entry_count);
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spin_unlock_irqrestore(&async_lock, flags);
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/* 6) wake up any waiters. */
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wake_up(&async_done);
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return;
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out:
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spin_unlock_irqrestore(&async_lock, flags);
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}
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static async_cookie_t __async_schedule(async_func_ptr *ptr, void *data, struct list_head *running)
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{
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struct async_entry *entry;
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unsigned long flags;
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async_cookie_t newcookie;
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/* allow irq-off callers */
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entry = kzalloc(sizeof(struct async_entry), GFP_ATOMIC);
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/*
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* If we're out of memory or if there's too much work
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* pending already, we execute synchronously.
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*/
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if (!async_enabled || !entry || atomic_read(&entry_count) > MAX_WORK) {
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kfree(entry);
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spin_lock_irqsave(&async_lock, flags);
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newcookie = next_cookie++;
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spin_unlock_irqrestore(&async_lock, flags);
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/* low on memory.. run synchronously */
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ptr(data, newcookie);
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return newcookie;
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}
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entry->func = ptr;
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entry->data = data;
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entry->running = running;
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spin_lock_irqsave(&async_lock, flags);
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newcookie = entry->cookie = next_cookie++;
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list_add_tail(&entry->list, &async_pending);
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atomic_inc(&entry_count);
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spin_unlock_irqrestore(&async_lock, flags);
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wake_up(&async_new);
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return newcookie;
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}
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/**
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* async_schedule - schedule a function for asynchronous execution
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* @ptr: function to execute asynchronously
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* @data: data pointer to pass to the function
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*
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* Returns an async_cookie_t that may be used for checkpointing later.
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* Note: This function may be called from atomic or non-atomic contexts.
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*/
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async_cookie_t async_schedule(async_func_ptr *ptr, void *data)
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{
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return __async_schedule(ptr, data, &async_running);
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}
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EXPORT_SYMBOL_GPL(async_schedule);
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/**
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* async_schedule_domain - schedule a function for asynchronous execution within a certain domain
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* @ptr: function to execute asynchronously
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* @data: data pointer to pass to the function
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* @running: running list for the domain
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*
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* Returns an async_cookie_t that may be used for checkpointing later.
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* @running may be used in the async_synchronize_*_domain() functions
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* to wait within a certain synchronization domain rather than globally.
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* A synchronization domain is specified via the running queue @running to use.
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* Note: This function may be called from atomic or non-atomic contexts.
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*/
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async_cookie_t async_schedule_domain(async_func_ptr *ptr, void *data,
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struct list_head *running)
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{
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return __async_schedule(ptr, data, running);
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}
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EXPORT_SYMBOL_GPL(async_schedule_domain);
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/**
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* async_synchronize_full - synchronize all asynchronous function calls
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*
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* This function waits until all asynchronous function calls have been done.
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*/
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void async_synchronize_full(void)
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{
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do {
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async_synchronize_cookie(next_cookie);
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} while (!list_empty(&async_running) || !list_empty(&async_pending));
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}
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EXPORT_SYMBOL_GPL(async_synchronize_full);
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/**
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* async_synchronize_full_domain - synchronize all asynchronous function within a certain domain
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* @list: running list to synchronize on
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*
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* This function waits until all asynchronous function calls for the
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* synchronization domain specified by the running list @list have been done.
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*/
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void async_synchronize_full_domain(struct list_head *list)
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{
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async_synchronize_cookie_domain(next_cookie, list);
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}
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EXPORT_SYMBOL_GPL(async_synchronize_full_domain);
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/**
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* async_synchronize_cookie_domain - synchronize asynchronous function calls within a certain domain with cookie checkpointing
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* @cookie: async_cookie_t to use as checkpoint
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* @running: running list to synchronize on
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*
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* This function waits until all asynchronous function calls for the
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* synchronization domain specified by the running list @list submitted
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* prior to @cookie have been done.
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*/
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void async_synchronize_cookie_domain(async_cookie_t cookie,
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struct list_head *running)
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{
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ktime_t starttime, delta, endtime;
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if (initcall_debug && system_state == SYSTEM_BOOTING) {
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printk("async_waiting @ %i\n", task_pid_nr(current));
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starttime = ktime_get();
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}
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wait_event(async_done, lowest_in_progress(running) >= cookie);
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if (initcall_debug && system_state == SYSTEM_BOOTING) {
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endtime = ktime_get();
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delta = ktime_sub(endtime, starttime);
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printk("async_continuing @ %i after %lli usec\n",
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task_pid_nr(current),
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(long long)ktime_to_ns(delta) >> 10);
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}
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}
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EXPORT_SYMBOL_GPL(async_synchronize_cookie_domain);
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/**
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* async_synchronize_cookie - synchronize asynchronous function calls with cookie checkpointing
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* @cookie: async_cookie_t to use as checkpoint
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*
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* This function waits until all asynchronous function calls prior to @cookie
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* have been done.
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*/
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void async_synchronize_cookie(async_cookie_t cookie)
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{
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async_synchronize_cookie_domain(cookie, &async_running);
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}
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EXPORT_SYMBOL_GPL(async_synchronize_cookie);
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static int async_thread(void *unused)
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{
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DECLARE_WAITQUEUE(wq, current);
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add_wait_queue(&async_new, &wq);
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while (!kthread_should_stop()) {
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int ret = HZ;
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set_current_state(TASK_INTERRUPTIBLE);
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/*
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* check the list head without lock.. false positives
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* are dealt with inside run_one_entry() while holding
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* the lock.
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*/
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rmb();
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if (!list_empty(&async_pending))
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run_one_entry();
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else
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ret = schedule_timeout(HZ);
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if (ret == 0) {
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/*
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* we timed out, this means we as thread are redundant.
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* we sign off and die, but we to avoid any races there
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* is a last-straw check to see if work snuck in.
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*/
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atomic_dec(&thread_count);
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wmb(); /* manager must see our departure first */
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if (list_empty(&async_pending))
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break;
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/*
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* woops work came in between us timing out and us
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* signing off; we need to stay alive and keep working.
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*/
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atomic_inc(&thread_count);
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}
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}
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remove_wait_queue(&async_new, &wq);
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return 0;
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}
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static int async_manager_thread(void *unused)
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{
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DECLARE_WAITQUEUE(wq, current);
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add_wait_queue(&async_new, &wq);
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while (!kthread_should_stop()) {
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int tc, ec;
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set_current_state(TASK_INTERRUPTIBLE);
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tc = atomic_read(&thread_count);
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rmb();
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ec = atomic_read(&entry_count);
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while (tc < ec && tc < MAX_THREADS) {
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if (IS_ERR(kthread_run(async_thread, NULL, "async/%i",
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tc))) {
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msleep(100);
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continue;
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}
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atomic_inc(&thread_count);
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tc++;
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}
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schedule();
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}
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remove_wait_queue(&async_new, &wq);
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return 0;
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}
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static int __init async_init(void)
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{
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if (async_enabled)
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if (IS_ERR(kthread_run(async_manager_thread, NULL,
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"async/mgr")))
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async_enabled = 0;
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return 0;
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}
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static int __init setup_async(char *str)
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{
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async_enabled = 1;
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return 1;
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}
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__setup("fastboot", setup_async);
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core_initcall(async_init);
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