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[linux-2.6/libata-dev.git] / fs / afs / kafsasyncd.c

/* kafsasyncd.c: AFS asynchronous operation daemon
 *
 * Copyright (C) 2002 Red Hat, Inc. All Rights Reserved.
 * Written by David Howells (dhowells@redhat.com)
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version
 * 2 of the License, or (at your option) any later version.
 *
 *
 * The AFS async daemon is used to the following:
 * - probe "dead" servers to see whether they've come back to life yet.
 * - probe "live" servers that we haven't talked to for a while to see if they are better
 *   candidates for serving than what we're currently using
 * - poll volume location servers to keep up to date volume location lists
 */

#include <linux/module.h>
#include <linux/init.h>
#include <linux/sched.h>
#include <linux/completion.h>
#include "cell.h"
#include "server.h"
#include "volume.h"
#include "kafsasyncd.h"
#include "kafstimod.h"
#include <rxrpc/call.h>
#include <asm/errno.h>
#include "internal.h"

static DECLARE_COMPLETION(kafsasyncd_alive);
static DECLARE_COMPLETION(kafsasyncd_dead);
static DECLARE_WAIT_QUEUE_HEAD(kafsasyncd_sleepq);
static struct task_struct *kafsasyncd_task;
static int kafsasyncd_die;

static int kafsasyncd(void *arg);

static LIST_HEAD(kafsasyncd_async_attnq);
static LIST_HEAD(kafsasyncd_async_busyq);
static DEFINE_SPINLOCK(kafsasyncd_async_lock);

static void kafsasyncd_null_call_attn_func(struct rxrpc_call *call)
{
}

static void kafsasyncd_null_call_error_func(struct rxrpc_call *call)
{
}

/*****************************************************************************/
/*
 * start the async daemon
 */
int afs_kafsasyncd_start(void)
{
        int ret;

        ret = kernel_thread(kafsasyncd, NULL, 0);
        if (ret < 0)
                return ret;

        wait_for_completion(&kafsasyncd_alive);

        return ret;
} /* end afs_kafsasyncd_start() */

/*****************************************************************************/
/*
 * stop the async daemon
 */
void afs_kafsasyncd_stop(void)
{
        /* get rid of my daemon */
        kafsasyncd_die = 1;
        wake_up(&kafsasyncd_sleepq);
        wait_for_completion(&kafsasyncd_dead);

} /* end afs_kafsasyncd_stop() */

/*****************************************************************************/
/*
 * probing daemon
 */
static int kafsasyncd(void *arg)
{
        struct afs_async_op *op;
        int die;

        DECLARE_WAITQUEUE(myself, current);

        kafsasyncd_task = current;

        printk("kAFS: Started kafsasyncd %d\n", current->pid);

        daemonize("kafsasyncd");

        complete(&kafsasyncd_alive);

        /* loop around looking for things to attend to */
        do {
                set_current_state(TASK_INTERRUPTIBLE);
                add_wait_queue(&kafsasyncd_sleepq, &myself);

                for (;;) {
                        if (!list_empty(&kafsasyncd_async_attnq) ||
                            signal_pending(current) ||
                            kafsasyncd_die)
                                break;

                        schedule();
                        set_current_state(TASK_INTERRUPTIBLE);
                }

                remove_wait_queue(&kafsasyncd_sleepq, &myself);
                set_current_state(TASK_RUNNING);

                try_to_freeze(PF_FREEZE);

                /* discard pending signals */
                afs_discard_my_signals();

                die = kafsasyncd_die;

                /* deal with the next asynchronous operation requiring
                 * attention */
                if (!list_empty(&kafsasyncd_async_attnq)) {
                        struct afs_async_op *op;

                        _debug("@@@ Begin Asynchronous Operation");

                        op = NULL;
                        spin_lock(&kafsasyncd_async_lock);

                        if (!list_empty(&kafsasyncd_async_attnq)) {
                                op = list_entry(kafsasyncd_async_attnq.next,
                                                struct afs_async_op, link);
                                list_del(&op->link);
                                list_add_tail(&op->link,
                                              &kafsasyncd_async_busyq);
                        }

                        spin_unlock(&kafsasyncd_async_lock);

                        _debug("@@@ Operation %p {%p}\n",
                               op, op ? op->ops : NULL);

                        if (op)
                                op->ops->attend(op);

                        _debug("@@@ End Asynchronous Operation");
                }

        } while(!die);

        /* need to kill all outstanding asynchronous operations before
         * exiting */
        kafsasyncd_task = NULL;
        spin_lock(&kafsasyncd_async_lock);

        /* fold the busy and attention queues together */
        list_splice_init(&kafsasyncd_async_busyq,
                         &kafsasyncd_async_attnq);

        /* dequeue kafsasyncd from all their wait queues */
        list_for_each_entry(op, &kafsasyncd_async_attnq, link) {
                op->call->app_attn_func = kafsasyncd_null_call_attn_func;
                op->call->app_error_func = kafsasyncd_null_call_error_func;
                remove_wait_queue(&op->call->waitq, &op->waiter);
        }

        spin_unlock(&kafsasyncd_async_lock);

        /* abort all the operations */
        while (!list_empty(&kafsasyncd_async_attnq)) {
                op = list_entry(kafsasyncd_async_attnq.next, struct afs_async_op, link);
                list_del_init(&op->link);

                rxrpc_call_abort(op->call, -EIO);
                rxrpc_put_call(op->call);
                op->call = NULL;

                op->ops->discard(op);
        }

        /* and that's all */
        _leave("");
        complete_and_exit(&kafsasyncd_dead, 0);

} /* end kafsasyncd() */

/*****************************************************************************/
/*
 * begin an operation
 * - place operation on busy queue
 */
void afs_kafsasyncd_begin_op(struct afs_async_op *op)
{
        _enter("");

        spin_lock(&kafsasyncd_async_lock);

        init_waitqueue_entry(&op->waiter, kafsasyncd_task);
        add_wait_queue(&op->call->waitq, &op->waiter);

        list_del(&op->link);
        list_add_tail(&op->link, &kafsasyncd_async_busyq);

        spin_unlock(&kafsasyncd_async_lock);

        _leave("");
} /* end afs_kafsasyncd_begin_op() */

/*****************************************************************************/
/*
 * request attention for an operation
 * - move to attention queue
 */
void afs_kafsasyncd_attend_op(struct afs_async_op *op)
{
        _enter("");

        spin_lock(&kafsasyncd_async_lock);

        list_del(&op->link);
        list_add_tail(&op->link, &kafsasyncd_async_attnq);

        spin_unlock(&kafsasyncd_async_lock);

        wake_up(&kafsasyncd_sleepq);

        _leave("");
} /* end afs_kafsasyncd_attend_op() */

/*****************************************************************************/
/*
 * terminate an operation
 * - remove from either queue
 */
void afs_kafsasyncd_terminate_op(struct afs_async_op *op)
{
        _enter("");

        spin_lock(&kafsasyncd_async_lock);

        if (!list_empty(&op->link)) {
                list_del_init(&op->link);
                remove_wait_queue(&op->call->waitq, &op->waiter);
        }

        spin_unlock(&kafsasyncd_async_lock);

        wake_up(&kafsasyncd_sleepq);

        _leave("");
} /* end afs_kafsasyncd_terminate_op() */