d73065e60d
Use writepages-based flushing invalidation instead of invalidate_inode_pages2() and ->launder_folio(). This will allow ->launder_folio() to be removed eventually. Signed-off-by: David Howells <dhowells@redhat.com> cc: Marc Dionne <marc.dionne@auristor.com> cc: Jeff Layton <jlayton@kernel.org> cc: linux-afs@lists.infradead.org cc: netfs@lists.linux.dev cc: linux-fsdevel@vger.kernel.org
476 lines
15 KiB
C
476 lines
15 KiB
C
// SPDX-License-Identifier: GPL-2.0-or-later
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/* vnode and volume validity verification.
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*
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* Copyright (C) 2023 Red Hat, Inc. All Rights Reserved.
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* Written by David Howells (dhowells@redhat.com)
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*/
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#include <linux/kernel.h>
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#include <linux/module.h>
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#include <linux/sched.h>
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#include "internal.h"
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/*
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* Data validation is managed through a number of mechanisms from the server:
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*
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* (1) On first contact with a server (such as if it has just been rebooted),
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* the server sends us a CB.InitCallBackState* request.
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*
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* (2) On a RW volume, in response to certain vnode (inode)-accessing RPC
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* calls, the server maintains a time-limited per-vnode promise that it
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* will send us a CB.CallBack request if a third party alters the vnodes
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* accessed.
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*
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* Note that a vnode-level callbacks may also be sent for other reasons,
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* such as filelock release.
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*
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* (3) On a RO (or Backup) volume, in response to certain vnode-accessing RPC
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* calls, each server maintains a time-limited per-volume promise that it
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* will send us a CB.CallBack request if the RO volume is updated to a
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* snapshot of the RW volume ("vos release"). This is an atomic event
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* that cuts over all instances of the RO volume across multiple servers
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* simultaneously.
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*
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* Note that a volume-level callbacks may also be sent for other reasons,
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* such as the volumeserver taking over control of the volume from the
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* fileserver.
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*
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* Note also that each server maintains an independent time limit on an
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* independent callback.
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*
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* (4) Certain RPC calls include a volume information record "VolSync" in
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* their reply. This contains a creation date for the volume that should
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* remain unchanged for a RW volume (but will be changed if the volume is
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* restored from backup) or will be bumped to the time of snapshotting
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* when a RO volume is released.
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*
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* In order to track this events, the following are provided:
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*
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* ->cb_v_break. A counter of events that might mean that the contents of
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* a volume have been altered since we last checked a vnode.
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*
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* ->cb_v_check. A counter of the number of events that we've sent a
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* query to the server for. Everything's up to date if this equals
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* cb_v_break.
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*
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* ->cb_scrub. A counter of the number of regression events for which we
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* have to completely wipe the cache.
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*
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* ->cb_ro_snapshot. A counter of the number of times that we've
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* recognised that a RO volume has been updated.
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*
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* ->cb_break. A counter of events that might mean that the contents of a
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* vnode have been altered.
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*
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* ->cb_expires_at. The time at which the callback promise expires or
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* AFS_NO_CB_PROMISE if we have no promise.
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*
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* The way we manage things is:
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*
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* (1) When a volume-level CB.CallBack occurs, we increment ->cb_v_break on
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* the volume and reset ->cb_expires_at (ie. set AFS_NO_CB_PROMISE) on the
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* volume and volume's server record.
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*
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* (2) When a CB.InitCallBackState occurs, we treat this as a volume-level
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* callback break on all the volumes that have been using that volume
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* (ie. increment ->cb_v_break and reset ->cb_expires_at).
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*
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* (3) When a vnode-level CB.CallBack occurs, we increment ->cb_break on the
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* vnode and reset its ->cb_expires_at. If the vnode is mmapped, we also
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* dispatch a work item to unmap all PTEs to the vnode's pagecache to
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* force reentry to the filesystem for revalidation.
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*
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* (4) When entering the filesystem, we call afs_validate() to check the
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* validity of a vnode. This first checks to see if ->cb_v_check and
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* ->cb_v_break match, and if they don't, we lock volume->cb_check_lock
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* exclusively and perform an FS.FetchStatus on the vnode.
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*
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* After checking the volume, we check the vnode. If there's a mismatch
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* between the volume counters and the vnode's mirrors of those counters,
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* we lock vnode->validate_lock and issue an FS.FetchStatus on the vnode.
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*
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* (5) When the reply from FS.FetchStatus arrives, the VolSync record is
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* parsed:
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*
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* (A) If the Creation timestamp has changed on a RW volume or regressed
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* on a RO volume, we try to increment ->cb_scrub; if it advances on a
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* RO volume, we assume "vos release" happened and try to increment
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* ->cb_ro_snapshot.
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*
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* (B) If the Update timestamp has regressed, we try to increment
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* ->cb_scrub.
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*
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* Note that in both of these cases, we only do the increment if we can
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* cmpxchg the value of the timestamp from the value we noted before the
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* op. This tries to prevent parallel ops from fighting one another.
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*
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* volume->cb_v_check is then set to ->cb_v_break.
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*
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* (6) The AFSCallBack record included in the FS.FetchStatus reply is also
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* parsed and used to set the promise in ->cb_expires_at for the vnode,
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* the volume and the volume's server record.
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*
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* (7) If ->cb_scrub is seen to have advanced, we invalidate the pagecache for
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* the vnode.
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*/
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/*
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* Check the validity of a vnode/inode and its parent volume.
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*/
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bool afs_check_validity(const struct afs_vnode *vnode)
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{
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const struct afs_volume *volume = vnode->volume;
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time64_t deadline = ktime_get_real_seconds() + 10;
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if (test_bit(AFS_VNODE_DELETED, &vnode->flags))
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return true;
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if (atomic_read(&volume->cb_v_check) != atomic_read(&volume->cb_v_break) ||
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atomic64_read(&vnode->cb_expires_at) <= deadline ||
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volume->cb_expires_at <= deadline ||
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vnode->cb_ro_snapshot != atomic_read(&volume->cb_ro_snapshot) ||
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vnode->cb_scrub != atomic_read(&volume->cb_scrub) ||
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test_bit(AFS_VNODE_ZAP_DATA, &vnode->flags)) {
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_debug("inval");
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return false;
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}
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return true;
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}
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/*
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* See if the server we've just talked to is currently excluded.
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*/
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static bool __afs_is_server_excluded(struct afs_operation *op, struct afs_volume *volume)
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{
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const struct afs_server_entry *se;
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const struct afs_server_list *slist;
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bool is_excluded = true;
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int i;
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rcu_read_lock();
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slist = rcu_dereference(volume->servers);
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for (i = 0; i < slist->nr_servers; i++) {
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se = &slist->servers[i];
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if (op->server == se->server) {
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is_excluded = test_bit(AFS_SE_EXCLUDED, &se->flags);
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break;
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}
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}
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rcu_read_unlock();
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return is_excluded;
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}
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/*
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* Update the volume's server list when the creation time changes and see if
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* the server we've just talked to is currently excluded.
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*/
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static int afs_is_server_excluded(struct afs_operation *op, struct afs_volume *volume)
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{
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int ret;
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if (__afs_is_server_excluded(op, volume))
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return 1;
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set_bit(AFS_VOLUME_NEEDS_UPDATE, &volume->flags);
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ret = afs_check_volume_status(op->volume, op);
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if (ret < 0)
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return ret;
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return __afs_is_server_excluded(op, volume);
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}
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/*
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* Handle a change to the volume creation time in the VolSync record.
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*/
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static int afs_update_volume_creation_time(struct afs_operation *op, struct afs_volume *volume)
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{
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unsigned int snap;
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time64_t cur = volume->creation_time;
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time64_t old = op->pre_volsync.creation;
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time64_t new = op->volsync.creation;
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int ret;
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_enter("%llx,%llx,%llx->%llx", volume->vid, cur, old, new);
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if (cur == TIME64_MIN) {
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volume->creation_time = new;
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return 0;
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}
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if (new == cur)
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return 0;
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/* Try to advance the creation timestamp from what we had before the
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* operation to what we got back from the server. This should
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* hopefully ensure that in a race between multiple operations only one
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* of them will do this.
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*/
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if (cur != old)
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return 0;
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/* If the creation time changes in an unexpected way, we need to scrub
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* our caches. For a RW vol, this will only change if the volume is
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* restored from a backup; for a RO/Backup vol, this will advance when
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* the volume is updated to a new snapshot (eg. "vos release").
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*/
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if (volume->type == AFSVL_RWVOL)
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goto regressed;
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if (volume->type == AFSVL_BACKVOL) {
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if (new < old)
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goto regressed;
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goto advance;
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}
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/* We have an RO volume, we need to query the VL server and look at the
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* server flags to see if RW->RO replication is in progress.
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*/
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ret = afs_is_server_excluded(op, volume);
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if (ret < 0)
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return ret;
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if (ret > 0) {
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snap = atomic_read(&volume->cb_ro_snapshot);
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trace_afs_cb_v_break(volume->vid, snap, afs_cb_break_volume_excluded);
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return ret;
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}
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advance:
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snap = atomic_inc_return(&volume->cb_ro_snapshot);
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trace_afs_cb_v_break(volume->vid, snap, afs_cb_break_for_vos_release);
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volume->creation_time = new;
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return 0;
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regressed:
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atomic_inc(&volume->cb_scrub);
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trace_afs_cb_v_break(volume->vid, 0, afs_cb_break_for_creation_regress);
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volume->creation_time = new;
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return 0;
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}
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/*
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* Handle a change to the volume update time in the VolSync record.
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*/
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static void afs_update_volume_update_time(struct afs_operation *op, struct afs_volume *volume)
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{
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enum afs_cb_break_reason reason = afs_cb_break_no_break;
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time64_t cur = volume->update_time;
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time64_t old = op->pre_volsync.update;
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time64_t new = op->volsync.update;
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_enter("%llx,%llx,%llx->%llx", volume->vid, cur, old, new);
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if (cur == TIME64_MIN) {
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volume->update_time = new;
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return;
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}
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if (new == cur)
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return;
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/* If the volume update time changes in an unexpected way, we need to
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* scrub our caches. For a RW vol, this will advance on every
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* modification op; for a RO/Backup vol, this will advance when the
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* volume is updated to a new snapshot (eg. "vos release").
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*/
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if (new < old)
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reason = afs_cb_break_for_update_regress;
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/* Try to advance the update timestamp from what we had before the
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* operation to what we got back from the server. This should
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* hopefully ensure that in a race between multiple operations only one
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* of them will do this.
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*/
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if (cur == old) {
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if (reason == afs_cb_break_for_update_regress) {
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atomic_inc(&volume->cb_scrub);
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trace_afs_cb_v_break(volume->vid, 0, reason);
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}
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volume->update_time = new;
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}
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}
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static int afs_update_volume_times(struct afs_operation *op, struct afs_volume *volume)
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{
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int ret = 0;
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if (likely(op->volsync.creation == volume->creation_time &&
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op->volsync.update == volume->update_time))
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return 0;
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mutex_lock(&volume->volsync_lock);
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if (op->volsync.creation != volume->creation_time) {
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ret = afs_update_volume_creation_time(op, volume);
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if (ret < 0)
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goto out;
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}
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if (op->volsync.update != volume->update_time)
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afs_update_volume_update_time(op, volume);
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out:
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mutex_unlock(&volume->volsync_lock);
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return ret;
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}
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/*
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* Update the state of a volume, including recording the expiration time of the
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* callback promise. Returns 1 to redo the operation from the start.
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*/
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int afs_update_volume_state(struct afs_operation *op)
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{
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struct afs_server_list *slist = op->server_list;
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struct afs_server_entry *se = &slist->servers[op->server_index];
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struct afs_callback *cb = &op->file[0].scb.callback;
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struct afs_volume *volume = op->volume;
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unsigned int cb_v_break = atomic_read(&volume->cb_v_break);
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unsigned int cb_v_check = atomic_read(&volume->cb_v_check);
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int ret;
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_enter("%llx", op->volume->vid);
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if (op->volsync.creation != TIME64_MIN || op->volsync.update != TIME64_MIN) {
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ret = afs_update_volume_times(op, volume);
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if (ret != 0) {
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_leave(" = %d", ret);
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return ret;
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}
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}
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if (op->cb_v_break == cb_v_break &&
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(op->file[0].scb.have_cb || op->file[1].scb.have_cb)) {
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time64_t expires_at = cb->expires_at;
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if (!op->file[0].scb.have_cb)
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expires_at = op->file[1].scb.callback.expires_at;
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se->cb_expires_at = expires_at;
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volume->cb_expires_at = expires_at;
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}
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if (cb_v_check < op->cb_v_break)
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atomic_cmpxchg(&volume->cb_v_check, cb_v_check, op->cb_v_break);
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return 0;
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}
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/*
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* mark the data attached to an inode as obsolete due to a write on the server
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* - might also want to ditch all the outstanding writes and dirty pages
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*/
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static void afs_zap_data(struct afs_vnode *vnode)
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{
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_enter("{%llx:%llu}", vnode->fid.vid, vnode->fid.vnode);
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afs_invalidate_cache(vnode, 0);
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/* nuke all the non-dirty pages that aren't locked, mapped or being
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* written back in a regular file and completely discard the pages in a
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* directory or symlink */
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if (S_ISREG(vnode->netfs.inode.i_mode))
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filemap_invalidate_inode(&vnode->netfs.inode, true, 0, LLONG_MAX);
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else
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filemap_invalidate_inode(&vnode->netfs.inode, false, 0, LLONG_MAX);
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}
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/*
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* validate a vnode/inode
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* - there are several things we need to check
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* - parent dir data changes (rm, rmdir, rename, mkdir, create, link,
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* symlink)
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* - parent dir metadata changed (security changes)
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* - dentry data changed (write, truncate)
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* - dentry metadata changed (security changes)
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*/
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int afs_validate(struct afs_vnode *vnode, struct key *key)
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{
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struct afs_volume *volume = vnode->volume;
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unsigned int cb_ro_snapshot, cb_scrub;
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time64_t deadline = ktime_get_real_seconds() + 10;
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bool zap = false, locked_vol = false;
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int ret;
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_enter("{v={%llx:%llu} fl=%lx},%x",
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vnode->fid.vid, vnode->fid.vnode, vnode->flags,
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key_serial(key));
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if (afs_check_validity(vnode))
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return test_bit(AFS_VNODE_DELETED, &vnode->flags) ? -ESTALE : 0;
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ret = down_write_killable(&vnode->validate_lock);
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if (ret < 0)
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goto error;
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if (test_bit(AFS_VNODE_DELETED, &vnode->flags)) {
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ret = -ESTALE;
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goto error_unlock;
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}
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/* Validate a volume after the v_break has changed or the volume
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* callback expired. We only want to do this once per volume per
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* v_break change. The actual work will be done when parsing the
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* status fetch reply.
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*/
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if (volume->cb_expires_at <= deadline ||
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atomic_read(&volume->cb_v_check) != atomic_read(&volume->cb_v_break)) {
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ret = mutex_lock_interruptible(&volume->cb_check_lock);
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if (ret < 0)
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goto error_unlock;
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locked_vol = true;
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}
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cb_ro_snapshot = atomic_read(&volume->cb_ro_snapshot);
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cb_scrub = atomic_read(&volume->cb_scrub);
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if (vnode->cb_ro_snapshot != cb_ro_snapshot ||
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vnode->cb_scrub != cb_scrub)
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unmap_mapping_pages(vnode->netfs.inode.i_mapping, 0, 0, false);
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if (vnode->cb_ro_snapshot != cb_ro_snapshot ||
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vnode->cb_scrub != cb_scrub ||
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volume->cb_expires_at <= deadline ||
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atomic_read(&volume->cb_v_check) != atomic_read(&volume->cb_v_break) ||
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atomic64_read(&vnode->cb_expires_at) <= deadline
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) {
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ret = afs_fetch_status(vnode, key, false, NULL);
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if (ret < 0) {
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if (ret == -ENOENT) {
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set_bit(AFS_VNODE_DELETED, &vnode->flags);
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ret = -ESTALE;
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}
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goto error_unlock;
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}
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_debug("new promise [fl=%lx]", vnode->flags);
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}
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/* We can drop the volume lock now as. */
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if (locked_vol) {
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mutex_unlock(&volume->cb_check_lock);
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locked_vol = false;
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}
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cb_ro_snapshot = atomic_read(&volume->cb_ro_snapshot);
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cb_scrub = atomic_read(&volume->cb_scrub);
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_debug("vnode inval %x==%x %x==%x",
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vnode->cb_ro_snapshot, cb_ro_snapshot,
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vnode->cb_scrub, cb_scrub);
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if (vnode->cb_scrub != cb_scrub)
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zap = true;
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vnode->cb_ro_snapshot = cb_ro_snapshot;
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vnode->cb_scrub = cb_scrub;
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/* if the vnode's data version number changed then its contents are
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* different */
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zap |= test_and_clear_bit(AFS_VNODE_ZAP_DATA, &vnode->flags);
|
|
if (zap)
|
|
afs_zap_data(vnode);
|
|
up_write(&vnode->validate_lock);
|
|
_leave(" = 0");
|
|
return 0;
|
|
|
|
error_unlock:
|
|
if (locked_vol)
|
|
mutex_unlock(&volume->cb_check_lock);
|
|
up_write(&vnode->validate_lock);
|
|
error:
|
|
_leave(" = %d", ret);
|
|
return ret;
|
|
}
|