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c748000cd1
Fix docs illustrating call with an obsolete macro. Reviewed-by: Pavel Hrdina <phrdina@redhat.com> Signed-off-by: Daniel P. Berrangé <berrange@redhat.com>
191 lines
6.0 KiB
ReStructuredText
191 lines
6.0 KiB
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=====================
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Resource Lock Manager
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=====================
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.. contents::
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This page describes the design of the resource lock manager that is used for
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locking disk images, to ensure exclusive access to content.
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Goals
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-----
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The high level goal is to prevent the same disk image being used by more than
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one QEMU instance at a time (unless the disk is marked as shareable, or
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readonly). The scenarios to be prevented are thus:
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#. Two different guests running configured to point at the same disk image.
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#. One guest being started more than once on two different machines due to admin
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mistake
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#. One guest being started more than once on a single machine due to libvirt
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driver bug on a single machine.
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Requirements
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------------
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The high level goal leads to a set of requirements for the lock manager design
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#. A lock must be held on a disk whenever a QEMU process has the disk open
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#. The lock scheme must allow QEMU to be configured with readonly, shared write,
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or exclusive writable disks
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#. A lock handover must be performed during the migration process where 2 QEMU
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processes will have the same disk open concurrently.
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#. The lock manager must be able to identify and kill the process accessing the
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resource if the lock is revoked.
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#. Locks can be acquired for arbitrary VM related resources, as determined by
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the management application.
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Design
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------
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Within a lock manager the following series of operations will need to be
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supported.
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- **Register object** Register the identity of an object against which locks
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will be acquired
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- **Add resource** Associate a resource with an object for future lock
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acquisition / release
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- **Acquire locks** Acquire the locks for all resources associated with the
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object
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- **Release locks** Release the locks for all resources associated with the
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object
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- **Inquire locks** Get a representation of the state of the locks for all
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resources associated with the object
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Plugin Implementations
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----------------------
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Lock manager implementations are provided as LGPLv2+ licensed, dlopen()able
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library modules. The plugins will be loadable from the following location:
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::
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/usr/{lib,lib64}/libvirt/lock_manager/$NAME.so
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The lock manager plugin must export a single ELF symbol named
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``virLockDriverImpl``, which is a static instance of the ``virLockDriver``
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struct. The struct is defined in the header file
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::
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#include <libvirt/plugins/lock_manager.h>
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All callbacks in the struct must be initialized to non-NULL pointers. The
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semantics of each callback are defined in the API docs embedded in the
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previously mentioned header file
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QEMU Driver integration
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-----------------------
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With the QEMU driver, the lock plugin will be set in the
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``/etc/libvirt/qemu.conf`` configuration file by specifying the lock manager
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name.
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::
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lockManager="sanlock"
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By default the lock manager will be a 'no op' implementation for backwards
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compatibility
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Lock usage patterns
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-------------------
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The following pseudo code illustrates the common patterns of operations invoked
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on the lock manager plugin callbacks.
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Lock acquisition
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~~~~~~~~~~~~~~~~
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Initial lock acquisition will be performed from the process that is to own the
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lock. This is typically the QEMU child process, in between the fork+exec
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pairing. When adding further resources on the fly, to an existing object holding
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locks, this will be done from the libvirtd process.
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::
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virLockManagerParam params[] = {
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_UUID,
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.key = "uuid",
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_STRING,
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.key = "name",
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.value = { .str = dom->def->name },
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_UINT,
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.key = "id",
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.value = { .i = dom->def->id },
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_UINT,
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.key = "pid",
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.value = { .i = dom->pid },
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_CSTRING,
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.key = "uri",
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.value = { .cstr = driver->uri },
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},
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};
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mgr = virLockManagerNew(lockPlugin,
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VIR_LOCK_MANAGER_TYPE_DOMAIN,
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G_N_ELEMENTS(params),
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params,
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0)));
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foreach (initial disks)
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virLockManagerAddResource(mgr,
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VIR_LOCK_MANAGER_RESOURCE_TYPE_DISK,
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$path, 0, NULL, $flags);
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if (virLockManagerAcquire(lock, NULL, 0) < 0);
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...abort...
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Lock release
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~~~~~~~~~~~~
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The locks are all implicitly released when the process that acquired them exits,
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however, a process may voluntarily give up the lock by running
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::
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char *state = NULL;
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virLockManagerParam params[] = {
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_UUID,
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.key = "uuid",
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_STRING,
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.key = "name",
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.value = { .str = dom->def->name },
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_UINT,
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.key = "id",
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.value = { .i = dom->def->id },
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_UINT,
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.key = "pid",
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.value = { .i = dom->pid },
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},
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{ .type = VIR_LOCK_MANAGER_PARAM_TYPE_CSTRING,
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.key = "uri",
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.value = { .cstr = driver->uri },
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},
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};
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mgr = virLockManagerNew(lockPlugin,
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VIR_LOCK_MANAGER_TYPE_DOMAIN,
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G_N_ELEMENTS(params),
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params,
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0)));
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foreach (initial disks)
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virLockManagerAddResource(mgr,
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VIR_LOCK_MANAGER_RESOURCE_TYPE_DISK,
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$path, 0, NULL, $flags);
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virLockManagerRelease(mgr, & state, 0);
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The returned state string can be passed to the ``virLockManagerAcquire`` method
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to later re-acquire the exact same locks. This state transfer is commonly used
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when performing live migration of virtual machines. By validating the state the
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lock manager can ensure no other VM has re-acquire the same locks on a different
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host. The state can also be obtained without releasing the locks, by calling the
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``virLockManagerInquire`` method.
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