forked from Minki/linux
8c7b638cec
For debug use, we can see from the log whether the fence decision is made and why it is not fenced. Signed-off-by: Junxiao Bi <junxiao.bi@oracle.com> Reviewed-by: Srinivas Eeda <srinivas.eeda@oracle.com> Reviewed-by: Mark Fasheh <mfasheh@suse.de> Cc: Joel Becker <jlbec@evilplan.org> Cc: Joseph Qi <joseph.qi@huawei.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
341 lines
10 KiB
C
341 lines
10 KiB
C
/* -*- mode: c; c-basic-offset: 8; -*-
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*
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* vim: noexpandtab sw=8 ts=8 sts=0:
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*
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* Copyright (C) 2005 Oracle. All rights reserved.
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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
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* General Public License for more details.
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*
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* You should have received a copy of the GNU General Public
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* License along with this program; if not, write to the
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* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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* Boston, MA 021110-1307, USA.
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*/
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/* This quorum hack is only here until we transition to some more rational
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* approach that is driven from userspace. Honest. No foolin'.
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*
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* Imagine two nodes lose network connectivity to each other but they're still
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* up and operating in every other way. Presumably a network timeout indicates
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* that a node is broken and should be recovered. They can't both recover each
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* other and both carry on without serialising their access to the file system.
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* They need to decide who is authoritative. Now extend that problem to
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* arbitrary groups of nodes losing connectivity between each other.
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*
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* So we declare that a node which has given up on connecting to a majority
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* of nodes who are still heartbeating will fence itself.
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*
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* There are huge opportunities for races here. After we give up on a node's
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* connection we need to wait long enough to give heartbeat an opportunity
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* to declare the node as truly dead. We also need to be careful with the
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* race between when we see a node start heartbeating and when we connect
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* to it.
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*
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* So nodes that are in this transtion put a hold on the quorum decision
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* with a counter. As they fall out of this transition they drop the count
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* and if they're the last, they fire off the decision.
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*/
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#include <linux/kernel.h>
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#include <linux/workqueue.h>
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#include <linux/reboot.h>
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#include "heartbeat.h"
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#include "nodemanager.h"
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#define MLOG_MASK_PREFIX ML_QUORUM
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#include "masklog.h"
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#include "quorum.h"
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static struct o2quo_state {
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spinlock_t qs_lock;
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struct work_struct qs_work;
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int qs_pending;
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int qs_heartbeating;
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unsigned long qs_hb_bm[BITS_TO_LONGS(O2NM_MAX_NODES)];
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int qs_connected;
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unsigned long qs_conn_bm[BITS_TO_LONGS(O2NM_MAX_NODES)];
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int qs_holds;
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unsigned long qs_hold_bm[BITS_TO_LONGS(O2NM_MAX_NODES)];
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} o2quo_state;
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/* this is horribly heavy-handed. It should instead flip the file
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* system RO and call some userspace script. */
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static void o2quo_fence_self(void)
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{
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/* panic spins with interrupts enabled. with preempt
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* threads can still schedule, etc, etc */
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o2hb_stop_all_regions();
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switch (o2nm_single_cluster->cl_fence_method) {
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case O2NM_FENCE_PANIC:
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panic("*** ocfs2 is very sorry to be fencing this system by "
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"panicing ***\n");
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break;
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default:
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WARN_ON(o2nm_single_cluster->cl_fence_method >=
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O2NM_FENCE_METHODS);
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case O2NM_FENCE_RESET:
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printk(KERN_ERR "*** ocfs2 is very sorry to be fencing this "
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"system by restarting ***\n");
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emergency_restart();
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break;
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};
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}
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/* Indicate that a timeout occurred on a hearbeat region write. The
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* other nodes in the cluster may consider us dead at that time so we
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* want to "fence" ourselves so that we don't scribble on the disk
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* after they think they've recovered us. This can't solve all
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* problems related to writeout after recovery but this hack can at
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* least close some of those gaps. When we have real fencing, this can
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* go away as our node would be fenced externally before other nodes
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* begin recovery. */
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void o2quo_disk_timeout(void)
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{
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o2quo_fence_self();
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}
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static void o2quo_make_decision(struct work_struct *work)
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{
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int quorum;
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int lowest_hb, lowest_reachable = 0, fence = 0;
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struct o2quo_state *qs = &o2quo_state;
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spin_lock(&qs->qs_lock);
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lowest_hb = find_first_bit(qs->qs_hb_bm, O2NM_MAX_NODES);
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if (lowest_hb != O2NM_MAX_NODES)
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lowest_reachable = test_bit(lowest_hb, qs->qs_conn_bm);
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mlog(0, "heartbeating: %d, connected: %d, "
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"lowest: %d (%sreachable)\n", qs->qs_heartbeating,
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qs->qs_connected, lowest_hb, lowest_reachable ? "" : "un");
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if (!test_bit(o2nm_this_node(), qs->qs_hb_bm) ||
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qs->qs_heartbeating == 1)
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goto out;
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if (qs->qs_heartbeating & 1) {
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/* the odd numbered cluster case is straight forward --
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* if we can't talk to the majority we're hosed */
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quorum = (qs->qs_heartbeating + 1)/2;
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if (qs->qs_connected < quorum) {
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mlog(ML_ERROR, "fencing this node because it is "
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"only connected to %u nodes and %u is needed "
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"to make a quorum out of %u heartbeating nodes\n",
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qs->qs_connected, quorum,
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qs->qs_heartbeating);
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fence = 1;
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}
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} else {
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/* the even numbered cluster adds the possibility of each half
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* of the cluster being able to talk amongst themselves.. in
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* that case we're hosed if we can't talk to the group that has
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* the lowest numbered node */
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quorum = qs->qs_heartbeating / 2;
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if (qs->qs_connected < quorum) {
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mlog(ML_ERROR, "fencing this node because it is "
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"only connected to %u nodes and %u is needed "
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"to make a quorum out of %u heartbeating nodes\n",
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qs->qs_connected, quorum,
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qs->qs_heartbeating);
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fence = 1;
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}
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else if ((qs->qs_connected == quorum) &&
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!lowest_reachable) {
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mlog(ML_ERROR, "fencing this node because it is "
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"connected to a half-quorum of %u out of %u "
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"nodes which doesn't include the lowest active "
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"node %u\n", quorum, qs->qs_heartbeating,
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lowest_hb);
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fence = 1;
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}
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}
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out:
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if (fence) {
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spin_unlock(&qs->qs_lock);
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o2quo_fence_self();
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} else {
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mlog(ML_NOTICE, "not fencing this node, heartbeating: %d, "
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"connected: %d, lowest: %d (%sreachable)\n",
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qs->qs_heartbeating, qs->qs_connected, lowest_hb,
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lowest_reachable ? "" : "un");
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spin_unlock(&qs->qs_lock);
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}
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}
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static void o2quo_set_hold(struct o2quo_state *qs, u8 node)
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{
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assert_spin_locked(&qs->qs_lock);
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if (!test_and_set_bit(node, qs->qs_hold_bm)) {
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qs->qs_holds++;
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mlog_bug_on_msg(qs->qs_holds == O2NM_MAX_NODES,
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"node %u\n", node);
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mlog(0, "node %u, %d total\n", node, qs->qs_holds);
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}
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}
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static void o2quo_clear_hold(struct o2quo_state *qs, u8 node)
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{
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assert_spin_locked(&qs->qs_lock);
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if (test_and_clear_bit(node, qs->qs_hold_bm)) {
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mlog(0, "node %u, %d total\n", node, qs->qs_holds - 1);
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if (--qs->qs_holds == 0) {
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if (qs->qs_pending) {
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qs->qs_pending = 0;
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schedule_work(&qs->qs_work);
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}
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}
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mlog_bug_on_msg(qs->qs_holds < 0, "node %u, holds %d\n",
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node, qs->qs_holds);
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}
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}
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/* as a node comes up we delay the quorum decision until we know the fate of
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* the connection. the hold will be droped in conn_up or hb_down. it might be
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* perpetuated by con_err until hb_down. if we already have a conn, we might
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* be dropping a hold that conn_up got. */
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void o2quo_hb_up(u8 node)
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{
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struct o2quo_state *qs = &o2quo_state;
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spin_lock(&qs->qs_lock);
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qs->qs_heartbeating++;
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mlog_bug_on_msg(qs->qs_heartbeating == O2NM_MAX_NODES,
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"node %u\n", node);
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mlog_bug_on_msg(test_bit(node, qs->qs_hb_bm), "node %u\n", node);
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set_bit(node, qs->qs_hb_bm);
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mlog(0, "node %u, %d total\n", node, qs->qs_heartbeating);
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if (!test_bit(node, qs->qs_conn_bm))
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o2quo_set_hold(qs, node);
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else
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o2quo_clear_hold(qs, node);
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spin_unlock(&qs->qs_lock);
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}
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/* hb going down releases any holds we might have had due to this node from
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* conn_up, conn_err, or hb_up */
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void o2quo_hb_down(u8 node)
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{
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struct o2quo_state *qs = &o2quo_state;
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spin_lock(&qs->qs_lock);
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qs->qs_heartbeating--;
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mlog_bug_on_msg(qs->qs_heartbeating < 0,
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"node %u, %d heartbeating\n",
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node, qs->qs_heartbeating);
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mlog_bug_on_msg(!test_bit(node, qs->qs_hb_bm), "node %u\n", node);
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clear_bit(node, qs->qs_hb_bm);
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mlog(0, "node %u, %d total\n", node, qs->qs_heartbeating);
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o2quo_clear_hold(qs, node);
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spin_unlock(&qs->qs_lock);
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}
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/* this tells us that we've decided that the node is still heartbeating
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* even though we've lost it's conn. it must only be called after conn_err
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* and indicates that we must now make a quorum decision in the future,
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* though we might be doing so after waiting for holds to drain. Here
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* we'll be dropping the hold from conn_err. */
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void o2quo_hb_still_up(u8 node)
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{
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struct o2quo_state *qs = &o2quo_state;
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spin_lock(&qs->qs_lock);
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mlog(0, "node %u\n", node);
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qs->qs_pending = 1;
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o2quo_clear_hold(qs, node);
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spin_unlock(&qs->qs_lock);
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}
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/* This is analogous to hb_up. as a node's connection comes up we delay the
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* quorum decision until we see it heartbeating. the hold will be droped in
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* hb_up or hb_down. it might be perpetuated by con_err until hb_down. if
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* it's already heartbeating we might be dropping a hold that conn_up got.
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* */
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void o2quo_conn_up(u8 node)
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{
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struct o2quo_state *qs = &o2quo_state;
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spin_lock(&qs->qs_lock);
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qs->qs_connected++;
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mlog_bug_on_msg(qs->qs_connected == O2NM_MAX_NODES,
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"node %u\n", node);
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mlog_bug_on_msg(test_bit(node, qs->qs_conn_bm), "node %u\n", node);
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set_bit(node, qs->qs_conn_bm);
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mlog(0, "node %u, %d total\n", node, qs->qs_connected);
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if (!test_bit(node, qs->qs_hb_bm))
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o2quo_set_hold(qs, node);
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else
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o2quo_clear_hold(qs, node);
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spin_unlock(&qs->qs_lock);
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}
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/* we've decided that we won't ever be connecting to the node again. if it's
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* still heartbeating we grab a hold that will delay decisions until either the
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* node stops heartbeating from hb_down or the caller decides that the node is
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* still up and calls still_up */
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void o2quo_conn_err(u8 node)
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{
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struct o2quo_state *qs = &o2quo_state;
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spin_lock(&qs->qs_lock);
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if (test_bit(node, qs->qs_conn_bm)) {
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qs->qs_connected--;
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mlog_bug_on_msg(qs->qs_connected < 0,
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"node %u, connected %d\n",
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node, qs->qs_connected);
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clear_bit(node, qs->qs_conn_bm);
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}
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mlog(0, "node %u, %d total\n", node, qs->qs_connected);
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if (test_bit(node, qs->qs_hb_bm))
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o2quo_set_hold(qs, node);
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spin_unlock(&qs->qs_lock);
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}
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void o2quo_init(void)
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{
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struct o2quo_state *qs = &o2quo_state;
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spin_lock_init(&qs->qs_lock);
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INIT_WORK(&qs->qs_work, o2quo_make_decision);
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}
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void o2quo_exit(void)
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{
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struct o2quo_state *qs = &o2quo_state;
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flush_work(&qs->qs_work);
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}
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