/*
* lock_driver.h: Defines the lock driver plugin API
*
* Copyright (C) 2010-2011, 2013 Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see
* .
*
*/
#ifndef __VIR_PLUGINS_LOCK_DRIVER_H__
# define __VIR_PLUGINS_LOCK_DRIVER_H__
# include "internal.h"
# include "domain_conf.h"
typedef struct _virLockManager virLockManager;
typedef virLockManager *virLockManagerPtr;
typedef struct _virLockDriver virLockDriver;
typedef virLockDriver *virLockDriverPtr;
typedef struct _virLockManagerParam virLockManagerParam;
typedef virLockManagerParam *virLockManagerParamPtr;
typedef enum {
/* State passing is used to re-acquire existing leases */
VIR_LOCK_MANAGER_USES_STATE = (1 << 0)
} virLockManagerFlags;
typedef enum {
/* The managed object is a virtual guest domain */
VIR_LOCK_MANAGER_OBJECT_TYPE_DOMAIN = 0,
} virLockManagerObjectType;
typedef enum {
/* The resource to be locked is a virtual disk */
VIR_LOCK_MANAGER_RESOURCE_TYPE_DISK = 0,
/* A lease against an arbitrary resource */
VIR_LOCK_MANAGER_RESOURCE_TYPE_LEASE = 1,
} virLockManagerResourceType;
typedef enum {
/* The resource is assigned in readonly mode */
VIR_LOCK_MANAGER_RESOURCE_READONLY = (1 << 0),
/* The resource is assigned in shared, writable mode */
VIR_LOCK_MANAGER_RESOURCE_SHARED = (1 << 1),
} virLockManagerResourceFlags;
typedef enum {
/* Don't acquire the resources, just register the object PID */
VIR_LOCK_MANAGER_ACQUIRE_REGISTER_ONLY = (1 << 0),
/* Prevent further lock/unlock calls from this process */
VIR_LOCK_MANAGER_ACQUIRE_RESTRICT = (1 << 1),
} virLockManagerAcquireFlags;
typedef enum {
/* virLockManagerNew called for a freshly started domain */
VIR_LOCK_MANAGER_NEW_STARTED = (1 << 0),
} virLockManagerNewFlags;
enum {
VIR_LOCK_MANAGER_PARAM_TYPE_STRING,
VIR_LOCK_MANAGER_PARAM_TYPE_CSTRING,
VIR_LOCK_MANAGER_PARAM_TYPE_INT,
VIR_LOCK_MANAGER_PARAM_TYPE_LONG,
VIR_LOCK_MANAGER_PARAM_TYPE_UINT,
VIR_LOCK_MANAGER_PARAM_TYPE_ULONG,
VIR_LOCK_MANAGER_PARAM_TYPE_DOUBLE,
VIR_LOCK_MANAGER_PARAM_TYPE_UUID,
};
struct _virLockManagerParam {
int type;
const char *key;
union {
int iv;
long long l;
unsigned int ui;
unsigned long long ul;
double d;
char *str;
const char *cstr;
unsigned char uuid[16];
} value;
};
/*
* Changes in major version denote incompatible ABI changes
* Changes in minor version denote new compatible API entry points
* Changes in micro version denote new compatible flags
*/
# define VIR_LOCK_MANAGER_VERSION_MAJOR 1
# define VIR_LOCK_MANAGER_VERSION_MINOR 0
# define VIR_LOCK_MANAGER_VERSION_MICRO 0
# define VIR_LOCK_MANAGER_VERSION \
((VIR_LOCK_MANAGER_VERSION_MAJOR * 1000 * 1000) + \
(VIR_LOCK_MANAGER_VERSION_MINOR * 1000) + \
(VIR_LOCK_MANAGER_VERSION_MICRO))
/**
* virLockDriverInit:
* @version: the libvirt requested plugin ABI version
* @flags: the libvirt requested plugin optional extras
*
* Allow the plugin to validate the libvirt requested
* plugin version / flags. This allows the plugin impl
* to block its use in versions of libvirtd which are
* too old to support key features.
*
* NB: A plugin may be loaded multiple times, for different
* libvirt drivers (eg QEMU, LXC, UML)
*
* Returns -1 if the requested version/flags were inadequate
*/
typedef int (*virLockDriverInit)(unsigned int version,
const char *configFile,
unsigned int flags);
/**
* virLockDriverDeinit:
*
* Called to release any resources prior to the plugin
* being unloaded from memory. Returns -1 to prevent
* plugin from being unloaded from memory.
*/
typedef int (*virLockDriverDeinit)(void);
/**
* virLockManagerNew:
* @man: the lock manager context
* @type: the type of process to be supervised
* @nparams: number of metadata parameters
* @params: extra metadata parameters
* @flags: bitwise-OR of virLockManagerNewFlags
*
* Initialize a new context to supervise a process, usually
* a virtual machine. The lock driver implementation can use
* the privateData field of man
* to store a pointer to any driver specific state.
*
* If @flags contains VIR_LOCK_MANAGER_NEW_STARTED, this API is called for
* a domain that has just been started and may therefore skip some actions.
* Specifically, checking whether the domain is registered with a lock
* daemon is useless in this case.
*
* A process of VIR_LOCK_MANAGER_START_DOMAIN will be
* given the following parameters
*
* - id: the domain unique id (unsigned int)
* - uuid: the domain uuid (uuid)
* - name: the domain name (string)
* - pid: process ID to own/owning the lock (unsigned int)
* - uri: URI for connecting to the driver the domain belongs to (string)
*
* Returns 0 if successful initialized a new context, -1 on error
*/
typedef int (*virLockDriverNew)(virLockManagerPtr man,
unsigned int type,
size_t nparams,
virLockManagerParamPtr params,
unsigned int flags);
/**
* virLockDriverFree:
* @manager: the lock manager context
*
* Release any resources associated with the lock manager
* context private data
*/
typedef void (*virLockDriverFree)(virLockManagerPtr man);
/**
* virLockDriverAddResource:
* @manager: the lock manager context
* @type: the resource type virLockManagerResourceType
* @name: the resource name
* @nparams: number of metadata parameters
* @params: extra metadata parameters
* @flags: the resource access flags
*
* Assign a resource to a managed object. This will
* only be called prior to the object is being locked
* when it is inactive (e.g. to set the initial boot
* time disk assignments on a VM).
* The format of @name varies according to
* the resource @type. A VIR_LOCK_MANAGER_RESOURCE_TYPE_DISK
* will have the fully qualified file path, while a resource
* of type VIR_LOCK_MANAGER_RESOURCE_TYPE_LEASE will have the
* unique name of the lease
*
* A resource of type VIR_LOCK_MANAGER_RESOURCE_TYPE_LEASE
* will receive at least the following extra parameters
*
* - 'path': a fully qualified path to the lockspace
* - 'lockspace': globally string identifying the lockspace name
* - 'offset': byte offset within the lease (unsigned long long)
*
* If no flags are given, the resource is assumed to be
* used in exclusive, read-write mode. Access can be
* relaxed to readonly, or shared read-write.
*
* Returns 0 on success, or -1 on failure
*/
typedef int (*virLockDriverAddResource)(virLockManagerPtr man,
unsigned int type,
const char *name,
size_t nparams,
virLockManagerParamPtr params,
unsigned int flags);
/**
* virLockDriverAcquire:
* @manager: the lock manager context
* @state: the current lock state
* @flags: optional flags, currently unused
* @action: action to take when lock is lost
* @fd: optional return the leaked FD
*
* Start managing resources for the object. This
* must be called from the PID that represents the
* object to be managed. If the lock is lost at any
* time, the specified action will be taken.
* The optional state contains information about the
* locks previously held for the object.
*
* The file descriptor returned in @fd is one that
* is intentionally leaked and should not be closed.
* It is returned so that it can be labelled by the
* security managers (if required).
*
* Returns 0 on success, or -1 on failure
*/
typedef int (*virLockDriverAcquire)(virLockManagerPtr man,
const char *state,
unsigned int flags,
virDomainLockFailureAction action,
int *fd);
/**
* virLockDriverRelease:
* @manager: the lock manager context
* @state: pointer to be filled with lock state
* @flags: optional flags
*
* Inform the lock manager that the supervised process has
* been, or can be stopped.
*
* Returns 0 on success, or -1 on failure
*/
typedef int (*virLockDriverRelease)(virLockManagerPtr man,
char **state,
unsigned int flags);
/**
* virLockDriverInquire:
* @manager: the lock manager context
* @state: pointer to be filled with lock state
* @flags: optional flags, currently unused
*
* Retrieve the current lock state. The returned
* lock state may be NULL if none is required. The
* caller is responsible for freeing the lock
* state string when it is no longer required
*
* Returns 0 on success, or -1 on failure.
*/
typedef int (*virLockDriverInquire)(virLockManagerPtr man,
char **state,
unsigned int flags);
struct _virLockManager {
virLockDriverPtr driver;
void *privateData;
};
/**
* The plugin must export a static instance of this
* driver table, with the name 'virLockDriverImpl'
*/
struct _virLockDriver {
/**
* @version: the newest implemented plugin ABI version
* @flags: optional flags, currently unused
*/
unsigned int version;
unsigned int flags;
virLockDriverInit drvInit;
virLockDriverDeinit drvDeinit;
virLockDriverNew drvNew;
virLockDriverFree drvFree;
virLockDriverAddResource drvAddResource;
virLockDriverAcquire drvAcquire;
virLockDriverRelease drvRelease;
virLockDriverInquire drvInquire;
};
#endif /* __VIR_PLUGINS_LOCK_DRIVER_H__ */