1
0
mirror of https://gitlab.com/libvirt/libvirt.git synced 2024-12-22 17:34:18 +03:00
libvirt/daemon/remote.c

3567 lines
113 KiB
C
Raw Normal View History

/*
* remote.c: handlers for RPC method calls
*
* Copyright (C) 2007-2011 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, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author: Richard W.M. Jones <rjones@redhat.com>
*/
#include <config.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <sys/stat.h>
#include <unistd.h>
#include <fcntl.h>
#include <limits.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/poll.h>
#include <netinet/in.h>
#include <netdb.h>
#include <stdlib.h>
#include <pwd.h>
#include <stdio.h>
#include <stdarg.h>
#include <syslog.h>
#include <string.h>
#include <errno.h>
#include <fnmatch.h>
#include <arpa/inet.h>
#include "virterror_internal.h"
#if HAVE_POLKIT0
# include <polkit/polkit.h>
# include <polkit-dbus/polkit-dbus.h>
2007-12-05 21:21:27 +03:00
#endif
#include "remote.h"
#include "dispatch.h"
#include "libvirt_internal.h"
#include "datatypes.h"
#include "memory.h"
#include "util.h"
#include "stream.h"
#include "uuid.h"
#include "network.h"
#include "libvirt/libvirt-qemu.h"
#include "command.h"
#define VIR_FROM_THIS VIR_FROM_REMOTE
#define virNetError(code, ...) \
virReportErrorHelper(VIR_FROM_THIS, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
static virDomainPtr get_nonnull_domain(virConnectPtr conn, remote_nonnull_domain domain);
static virNetworkPtr get_nonnull_network(virConnectPtr conn, remote_nonnull_network network);
static virInterfacePtr get_nonnull_interface(virConnectPtr conn, remote_nonnull_interface iface);
static virStoragePoolPtr get_nonnull_storage_pool(virConnectPtr conn, remote_nonnull_storage_pool pool);
static virStorageVolPtr get_nonnull_storage_vol(virConnectPtr conn, remote_nonnull_storage_vol vol);
static virSecretPtr get_nonnull_secret(virConnectPtr conn, remote_nonnull_secret secret);
static virNWFilterPtr get_nonnull_nwfilter(virConnectPtr conn, remote_nonnull_nwfilter nwfilter);
static virDomainSnapshotPtr get_nonnull_domain_snapshot(virDomainPtr dom, remote_nonnull_domain_snapshot snapshot);
static int make_domain(remote_domain *dom_dst, virDomainPtr dom_src);
static void make_nonnull_domain(remote_nonnull_domain *dom_dst, virDomainPtr dom_src);
static void make_nonnull_network(remote_nonnull_network *net_dst, virNetworkPtr net_src);
static void make_nonnull_interface(remote_nonnull_interface *interface_dst, virInterfacePtr interface_src);
static void make_nonnull_storage_pool(remote_nonnull_storage_pool *pool_dst, virStoragePoolPtr pool_src);
static void make_nonnull_storage_vol(remote_nonnull_storage_vol *vol_dst, virStorageVolPtr vol_src);
static void make_nonnull_node_device(remote_nonnull_node_device *dev_dst, virNodeDevicePtr dev_src);
static void make_nonnull_secret(remote_nonnull_secret *secret_dst, virSecretPtr secret_src);
static void make_nonnull_nwfilter(remote_nonnull_nwfilter *net_dst, virNWFilterPtr nwfilter_src);
static void make_nonnull_domain_snapshot(remote_nonnull_domain_snapshot *snapshot_dst, virDomainSnapshotPtr snapshot_src);
#include "remote_dispatch_prototypes.h"
#include "qemu_dispatch_prototypes.h"
static const dispatch_data const dispatch_table[] = {
#include "remote_dispatch_table.h"
};
static const dispatch_data const qemu_dispatch_table[] = {
#include "qemu_dispatch_table.h"
};
const dispatch_data const *remoteGetDispatchData(int proc)
{
if (proc >= ARRAY_CARDINALITY(dispatch_table) ||
dispatch_table[proc].fn == NULL) {
return NULL;
}
return &(dispatch_table[proc]);
}
const dispatch_data const *qemuGetDispatchData(int proc)
{
if (proc >= ARRAY_CARDINALITY(qemu_dispatch_table) ||
qemu_dispatch_table[proc].fn == NULL) {
return NULL;
}
return &(qemu_dispatch_table[proc]);
}
/* Prototypes */
static void
remoteDispatchDomainEventSend(struct qemud_client *client,
int procnr,
xdrproc_t proc,
void *data);
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
static int remoteRelayDomainEventLifecycle(virConnectPtr conn ATTRIBUTE_UNUSED,
virDomainPtr dom,
int event,
int detail,
void *opaque)
{
struct qemud_client *client = opaque;
remote_domain_event_lifecycle_msg data;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
if (!client)
return -1;
VIR_DEBUG("Relaying domain lifecycle event %d %d", event, detail);
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
virMutexLock(&client->lock);
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
/* build return data */
memset(&data, 0, sizeof data);
make_nonnull_domain(&data.dom, dom);
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
data.event = event;
data.detail = detail;
remoteDispatchDomainEventSend(client,
REMOTE_PROC_DOMAIN_EVENT_LIFECYCLE,
(xdrproc_t)xdr_remote_domain_event_lifecycle_msg, &data);
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
virMutexUnlock(&client->lock);
return 0;
}
static int remoteRelayDomainEventReboot(virConnectPtr conn ATTRIBUTE_UNUSED,
virDomainPtr dom,
void *opaque)
{
struct qemud_client *client = opaque;
remote_domain_event_reboot_msg data;
if (!client)
return -1;
VIR_DEBUG("Relaying domain reboot event %s %d", dom->name, dom->id);
virMutexLock(&client->lock);
/* build return data */
memset(&data, 0, sizeof data);
make_nonnull_domain(&data.dom, dom);
remoteDispatchDomainEventSend(client,
REMOTE_PROC_DOMAIN_EVENT_REBOOT,
(xdrproc_t)xdr_remote_domain_event_reboot_msg, &data);
virMutexUnlock(&client->lock);
return 0;
}
static int remoteRelayDomainEventRTCChange(virConnectPtr conn ATTRIBUTE_UNUSED,
virDomainPtr dom,
long long offset,
void *opaque)
{
struct qemud_client *client = opaque;
remote_domain_event_rtc_change_msg data;
if (!client)
return -1;
VIR_DEBUG("Relaying domain rtc change event %s %d %lld", dom->name, dom->id, offset);
virMutexLock(&client->lock);
/* build return data */
memset(&data, 0, sizeof data);
make_nonnull_domain(&data.dom, dom);
data.offset = offset;
remoteDispatchDomainEventSend(client,
REMOTE_PROC_DOMAIN_EVENT_RTC_CHANGE,
(xdrproc_t)xdr_remote_domain_event_rtc_change_msg, &data);
virMutexUnlock(&client->lock);
return 0;
}
static int remoteRelayDomainEventWatchdog(virConnectPtr conn ATTRIBUTE_UNUSED,
virDomainPtr dom,
int action,
void *opaque)
{
struct qemud_client *client = opaque;
remote_domain_event_watchdog_msg data;
if (!client)
return -1;
VIR_DEBUG("Relaying domain watchdog event %s %d %d", dom->name, dom->id, action);
virMutexLock(&client->lock);
/* build return data */
memset(&data, 0, sizeof data);
make_nonnull_domain(&data.dom, dom);
data.action = action;
remoteDispatchDomainEventSend(client,
REMOTE_PROC_DOMAIN_EVENT_WATCHDOG,
(xdrproc_t)xdr_remote_domain_event_watchdog_msg, &data);
virMutexUnlock(&client->lock);
return 0;
}
Add support for an explicit IO error event This introduces a new event type VIR_DOMAIN_EVENT_ID_IO_ERROR This event includes the action that is about to be taken as a result of the watchdog triggering typedef enum { VIR_DOMAIN_EVENT_IO_ERROR_NONE = 0, VIR_DOMAIN_EVENT_IO_ERROR_PAUSE, VIR_DOMAIN_EVENT_IO_ERROR_REPORT, } virDomainEventIOErrorAction; In addition it has the source path of the disk that had the error and its unique device alias. It does not include the target device name (/dev/sda), since this would preclude triggering IO errors from other file backed devices (eg serial ports connected to a file) Thus there is a new callback definition for this event type typedef void (*virConnectDomainEventIOErrorCallback)(virConnectPtr conn, virDomainPtr dom, const char *srcPath, const char *devAlias, int action, void *opaque); This is currently wired up to the QEMU block IO error events * daemon/remote.c: Dispatch IO error events to client * examples/domain-events/events-c/event-test.c: Watch for IO error events * include/libvirt/libvirt.h.in: Define new IO error event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle IO error events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for block IO errors and emit a libvirt IO error event * src/remote/remote_driver.c: Receive and dispatch IO error events to application * src/remote/remote_protocol.x: Wire protocol definition for IO error events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for BLOCK_IO_ERROR event from QEMU monitor
2010-03-18 22:37:44 +03:00
static int remoteRelayDomainEventIOError(virConnectPtr conn ATTRIBUTE_UNUSED,
virDomainPtr dom,
const char *srcPath,
const char *devAlias,
int action,
void *opaque)
{
struct qemud_client *client = opaque;
remote_domain_event_io_error_msg data;
if (!client)
return -1;
VIR_DEBUG("Relaying domain io error %s %d %s %s %d", dom->name, dom->id, srcPath, devAlias, action);
Add support for an explicit IO error event This introduces a new event type VIR_DOMAIN_EVENT_ID_IO_ERROR This event includes the action that is about to be taken as a result of the watchdog triggering typedef enum { VIR_DOMAIN_EVENT_IO_ERROR_NONE = 0, VIR_DOMAIN_EVENT_IO_ERROR_PAUSE, VIR_DOMAIN_EVENT_IO_ERROR_REPORT, } virDomainEventIOErrorAction; In addition it has the source path of the disk that had the error and its unique device alias. It does not include the target device name (/dev/sda), since this would preclude triggering IO errors from other file backed devices (eg serial ports connected to a file) Thus there is a new callback definition for this event type typedef void (*virConnectDomainEventIOErrorCallback)(virConnectPtr conn, virDomainPtr dom, const char *srcPath, const char *devAlias, int action, void *opaque); This is currently wired up to the QEMU block IO error events * daemon/remote.c: Dispatch IO error events to client * examples/domain-events/events-c/event-test.c: Watch for IO error events * include/libvirt/libvirt.h.in: Define new IO error event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle IO error events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for block IO errors and emit a libvirt IO error event * src/remote/remote_driver.c: Receive and dispatch IO error events to application * src/remote/remote_protocol.x: Wire protocol definition for IO error events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for BLOCK_IO_ERROR event from QEMU monitor
2010-03-18 22:37:44 +03:00
virMutexLock(&client->lock);
/* build return data */
memset(&data, 0, sizeof data);
make_nonnull_domain(&data.dom, dom);
Add support for an explicit IO error event This introduces a new event type VIR_DOMAIN_EVENT_ID_IO_ERROR This event includes the action that is about to be taken as a result of the watchdog triggering typedef enum { VIR_DOMAIN_EVENT_IO_ERROR_NONE = 0, VIR_DOMAIN_EVENT_IO_ERROR_PAUSE, VIR_DOMAIN_EVENT_IO_ERROR_REPORT, } virDomainEventIOErrorAction; In addition it has the source path of the disk that had the error and its unique device alias. It does not include the target device name (/dev/sda), since this would preclude triggering IO errors from other file backed devices (eg serial ports connected to a file) Thus there is a new callback definition for this event type typedef void (*virConnectDomainEventIOErrorCallback)(virConnectPtr conn, virDomainPtr dom, const char *srcPath, const char *devAlias, int action, void *opaque); This is currently wired up to the QEMU block IO error events * daemon/remote.c: Dispatch IO error events to client * examples/domain-events/events-c/event-test.c: Watch for IO error events * include/libvirt/libvirt.h.in: Define new IO error event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle IO error events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for block IO errors and emit a libvirt IO error event * src/remote/remote_driver.c: Receive and dispatch IO error events to application * src/remote/remote_protocol.x: Wire protocol definition for IO error events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for BLOCK_IO_ERROR event from QEMU monitor
2010-03-18 22:37:44 +03:00
data.srcPath = (char*)srcPath;
data.devAlias = (char*)devAlias;
data.action = action;
remoteDispatchDomainEventSend(client,
REMOTE_PROC_DOMAIN_EVENT_IO_ERROR,
(xdrproc_t)xdr_remote_domain_event_io_error_msg, &data);
Add support for an explicit IO error event This introduces a new event type VIR_DOMAIN_EVENT_ID_IO_ERROR This event includes the action that is about to be taken as a result of the watchdog triggering typedef enum { VIR_DOMAIN_EVENT_IO_ERROR_NONE = 0, VIR_DOMAIN_EVENT_IO_ERROR_PAUSE, VIR_DOMAIN_EVENT_IO_ERROR_REPORT, } virDomainEventIOErrorAction; In addition it has the source path of the disk that had the error and its unique device alias. It does not include the target device name (/dev/sda), since this would preclude triggering IO errors from other file backed devices (eg serial ports connected to a file) Thus there is a new callback definition for this event type typedef void (*virConnectDomainEventIOErrorCallback)(virConnectPtr conn, virDomainPtr dom, const char *srcPath, const char *devAlias, int action, void *opaque); This is currently wired up to the QEMU block IO error events * daemon/remote.c: Dispatch IO error events to client * examples/domain-events/events-c/event-test.c: Watch for IO error events * include/libvirt/libvirt.h.in: Define new IO error event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle IO error events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for block IO errors and emit a libvirt IO error event * src/remote/remote_driver.c: Receive and dispatch IO error events to application * src/remote/remote_protocol.x: Wire protocol definition for IO error events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for BLOCK_IO_ERROR event from QEMU monitor
2010-03-18 22:37:44 +03:00
virMutexUnlock(&client->lock);
return 0;
}
static int remoteRelayDomainEventIOErrorReason(virConnectPtr conn ATTRIBUTE_UNUSED,
virDomainPtr dom,
const char *srcPath,
const char *devAlias,
int action,
const char *reason,
void *opaque)
{
struct qemud_client *client = opaque;
remote_domain_event_io_error_reason_msg data;
if (!client)
return -1;
VIR_DEBUG("Relaying domain io error %s %d %s %s %d %s",
dom->name, dom->id, srcPath, devAlias, action, reason);
virMutexLock(&client->lock);
/* build return data */
memset(&data, 0, sizeof data);
make_nonnull_domain(&data.dom, dom);
data.srcPath = (char*)srcPath;
data.devAlias = (char*)devAlias;
data.action = action;
data.reason = (char*)reason;
remoteDispatchDomainEventSend(client,
REMOTE_PROC_DOMAIN_EVENT_IO_ERROR_REASON,
(xdrproc_t)xdr_remote_domain_event_io_error_reason_msg, &data);
virMutexUnlock(&client->lock);
return 0;
}
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
static int remoteRelayDomainEventGraphics(virConnectPtr conn ATTRIBUTE_UNUSED,
virDomainPtr dom,
int phase,
virDomainEventGraphicsAddressPtr local,
virDomainEventGraphicsAddressPtr remote,
const char *authScheme,
virDomainEventGraphicsSubjectPtr subject,
void *opaque)
{
struct qemud_client *client = opaque;
remote_domain_event_graphics_msg data;
int i;
if (!client)
return -1;
VIR_DEBUG("Relaying domain graphics event %s %d %d - %d %s %s - %d %s %s - %s", dom->name, dom->id, phase,
local->family, local->service, local->node,
remote->family, remote->service, remote->node,
authScheme);
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
VIR_DEBUG("Subject %d", subject->nidentity);
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
for (i = 0 ; i < subject->nidentity ; i++) {
VIR_DEBUG(" %s=%s", subject->identities[i].type, subject->identities[i].name);
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
}
virMutexLock(&client->lock);
/* build return data */
memset(&data, 0, sizeof data);
make_nonnull_domain(&data.dom, dom);
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
data.phase = phase;
data.authScheme = (char*)authScheme;
data.local.family = local->family;
data.local.node = (char *)local->node;
data.local.service = (char *)local->service;
data.remote.family = remote->family;
data.remote.node = (char*)remote->node;
data.remote.service = (char*)remote->service;
data.subject.subject_len = subject->nidentity;
if (VIR_ALLOC_N(data.subject.subject_val, data.subject.subject_len) < 0) {
VIR_WARN("cannot allocate memory for graphics event subject");
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
return -1;
}
for (i = 0 ; i < data.subject.subject_len ; i++) {
data.subject.subject_val[i].type = (char*)subject->identities[i].type;
data.subject.subject_val[i].name = (char*)subject->identities[i].name;
}
remoteDispatchDomainEventSend(client,
REMOTE_PROC_DOMAIN_EVENT_GRAPHICS,
(xdrproc_t)xdr_remote_domain_event_graphics_msg, &data);
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
VIR_FREE(data.subject.subject_val);
virMutexUnlock(&client->lock);
return 0;
}
static virConnectDomainEventGenericCallback domainEventCallbacks[] = {
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventLifecycle),
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventReboot),
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventRTCChange),
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventWatchdog),
Add support for an explicit IO error event This introduces a new event type VIR_DOMAIN_EVENT_ID_IO_ERROR This event includes the action that is about to be taken as a result of the watchdog triggering typedef enum { VIR_DOMAIN_EVENT_IO_ERROR_NONE = 0, VIR_DOMAIN_EVENT_IO_ERROR_PAUSE, VIR_DOMAIN_EVENT_IO_ERROR_REPORT, } virDomainEventIOErrorAction; In addition it has the source path of the disk that had the error and its unique device alias. It does not include the target device name (/dev/sda), since this would preclude triggering IO errors from other file backed devices (eg serial ports connected to a file) Thus there is a new callback definition for this event type typedef void (*virConnectDomainEventIOErrorCallback)(virConnectPtr conn, virDomainPtr dom, const char *srcPath, const char *devAlias, int action, void *opaque); This is currently wired up to the QEMU block IO error events * daemon/remote.c: Dispatch IO error events to client * examples/domain-events/events-c/event-test.c: Watch for IO error events * include/libvirt/libvirt.h.in: Define new IO error event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle IO error events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for block IO errors and emit a libvirt IO error event * src/remote/remote_driver.c: Receive and dispatch IO error events to application * src/remote/remote_protocol.x: Wire protocol definition for IO error events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for BLOCK_IO_ERROR event from QEMU monitor
2010-03-18 22:37:44 +03:00
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventIOError),
Add domain events for graphics network clients This introduces a new event type VIR_DOMAIN_EVENT_ID_GRAPHICS The same event can be emitted in 3 scenarios typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_CONNECT = 0, VIR_DOMAIN_EVENT_GRAPHICS_INITIALIZE, VIR_DOMAIN_EVENT_GRAPHICS_DISCONNECT, } virDomainEventGraphicsPhase; Connect/disconnect are triggered at socket accept/close. The initialize phase is immediately after the protocol setup and authentication has completed. ie when the client is authorized and about to start interacting with the graphical desktop This event comes with *a lot* of potential information - IP address, port & address family of client - IP address, port & address family of server - Authentication scheme (arbitrary string) - Authenticated subject identity. A subject may have multiple identities with some authentication schemes. For example, vencrypt+sasl results in a x509dname and saslUsername identities. This results in a very complicated callback :-( typedef enum { VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV4, VIR_DOMAIN_EVENT_GRAPHICS_ADDRESS_IPV6, } virDomainEventGraphicsAddressType; struct _virDomainEventGraphicsAddress { int family; const char *node; const char *service; }; typedef struct _virDomainEventGraphicsAddress virDomainEventGraphicsAddress; typedef virDomainEventGraphicsAddress *virDomainEventGraphicsAddressPtr; struct _virDomainEventGraphicsSubject { int nidentity; struct { const char *type; const char *name; } *identities; }; typedef struct _virDomainEventGraphicsSubject virDomainEventGraphicsSubject; typedef virDomainEventGraphicsSubject *virDomainEventGraphicsSubjectPtr; typedef void (*virConnectDomainEventGraphicsCallback)(virConnectPtr conn, virDomainPtr dom, int phase, virDomainEventGraphicsAddressPtr local, virDomainEventGraphicsAddressPtr remote, const char *authScheme, virDomainEventGraphicsSubjectPtr subject, void *opaque); The wire protocol is similarly complex struct remote_domain_event_graphics_address { int family; remote_nonnull_string node; remote_nonnull_string service; }; const REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX = 20; struct remote_domain_event_graphics_identity { remote_nonnull_string type; remote_nonnull_string name; }; struct remote_domain_event_graphics_msg { remote_nonnull_domain dom; int phase; remote_domain_event_graphics_address local; remote_domain_event_graphics_address remote; remote_nonnull_string authScheme; remote_domain_event_graphics_identity subject<REMOTE_DOMAIN_EVENT_GRAPHICS_IDENTITY_MAX>; }; This is currently implemented in QEMU for the VNC graphics protocol, but designed to be usable with SPICE graphics in the future too. * daemon/remote.c: Dispatch graphics events to client * examples/domain-events/events-c/event-test.c: Watch for graphics events * include/libvirt/libvirt.h.in: Define new graphics event ID and callback signature * src/conf/domain_event.c, src/conf/domain_event.h, src/libvirt_private.syms: Extend API to handle graphics events * src/qemu/qemu_driver.c: Connect to the QEMU monitor event for VNC events and emit a libvirt graphics event * src/remote/remote_driver.c: Receive and dispatch graphics events to application * src/remote/remote_protocol.x: Wire protocol definition for graphics events * src/qemu/qemu_monitor.c, src/qemu/qemu_monitor.h, src/qemu/qemu_monitor_json.c: Watch for VNC_CONNECTED, VNC_INITIALIZED & VNC_DISCONNETED events from QEMU monitor
2010-03-19 16:27:45 +03:00
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventGraphics),
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventIOErrorReason),
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
};
verify(ARRAY_CARDINALITY(domainEventCallbacks) == VIR_DOMAIN_EVENT_ID_LAST);
/*----- Functions. -----*/
static int
remoteDispatchOpen(struct qemud_server *server,
struct qemud_client *client,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
struct remote_open_args *args, void *ret ATTRIBUTE_UNUSED)
{
const char *name;
int flags;
int rv = -1;
2009-01-15 22:56:05 +03:00
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
2008-12-05 01:16:40 +03:00
if (conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection already open"));
goto cleanup;
}
name = args->name ? *args->name : NULL;
/* If this connection arrived on a readonly socket, force
* the connection to be readonly.
*/
flags = args->flags;
if (client->readonly) flags |= VIR_CONNECT_RO;
client->conn =
flags & VIR_CONNECT_RO
? virConnectOpenReadOnly(name)
: virConnectOpen(name);
if (client->conn == NULL)
goto cleanup;
rv = 0;
2008-12-05 01:12:53 +03:00
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
return rv;
}
static int
remoteDispatchClose(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr ATTRIBUTE_UNUSED,
void *args ATTRIBUTE_UNUSED, void *ret ATTRIBUTE_UNUSED)
{
2009-01-15 22:56:05 +03:00
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
2008-12-05 01:16:40 +03:00
client->closing = 1;
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
2008-12-05 01:12:53 +03:00
return 0;
}
static int
remoteDispatchDomainGetSchedulerType(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_get_scheduler_type_args *args,
remote_domain_get_scheduler_type_ret *ret)
{
virDomainPtr dom = NULL;
char *type;
int nparams;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (!(type = virDomainGetSchedulerType(dom, &nparams)))
goto cleanup;
ret->type = type;
ret->nparams = nparams;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainGetSchedulerParameters(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_get_scheduler_parameters_args *args,
remote_domain_get_scheduler_parameters_ret *ret)
{
virDomainPtr dom = NULL;
virSchedParameterPtr params = NULL;
int i;
int nparams = args->nparams;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (nparams > REMOTE_DOMAIN_SCHEDULER_PARAMETERS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("nparams too large"));
goto cleanup;
}
if (VIR_ALLOC_N(params, nparams) < 0)
goto no_memory;
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainGetSchedulerParameters(dom, params, &nparams) < 0)
goto cleanup;
/* Serialise the scheduler parameters. */
ret->params.params_len = nparams;
if (VIR_ALLOC_N(ret->params.params_val, nparams) < 0)
goto no_memory;
for (i = 0; i < nparams; ++i) {
/* remoteDispatchClientRequest will free this: */
ret->params.params_val[i].field = strdup(params[i].field);
if (ret->params.params_val[i].field == NULL)
goto no_memory;
ret->params.params_val[i].value.type = params[i].type;
switch (params[i].type) {
case VIR_DOMAIN_SCHED_FIELD_INT:
ret->params.params_val[i].value.remote_sched_param_value_u.i = params[i].value.i; break;
case VIR_DOMAIN_SCHED_FIELD_UINT:
ret->params.params_val[i].value.remote_sched_param_value_u.ui = params[i].value.ui; break;
case VIR_DOMAIN_SCHED_FIELD_LLONG:
ret->params.params_val[i].value.remote_sched_param_value_u.l = params[i].value.l; break;
case VIR_DOMAIN_SCHED_FIELD_ULLONG:
ret->params.params_val[i].value.remote_sched_param_value_u.ul = params[i].value.ul; break;
case VIR_DOMAIN_SCHED_FIELD_DOUBLE:
ret->params.params_val[i].value.remote_sched_param_value_u.d = params[i].value.d; break;
case VIR_DOMAIN_SCHED_FIELD_BOOLEAN:
ret->params.params_val[i].value.remote_sched_param_value_u.b = params[i].value.b; break;
default:
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("unknown type"));
goto cleanup;
}
}
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
if (ret->params.params_val) {
for (i = 0 ; i < nparams ; i++)
VIR_FREE(ret->params.params_val[i].field);
VIR_FREE(ret->params.params_val);
}
}
if (dom)
virDomainFree(dom);
VIR_FREE(params);
return rv;
no_memory:
virReportOOMError();
goto cleanup;
}
static int
remoteDispatchDomainSetSchedulerParameters(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_set_scheduler_parameters_args *args,
void *ret ATTRIBUTE_UNUSED)
{
virDomainPtr dom = NULL;
virSchedParameterPtr params = NULL;
int i, nparams;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
nparams = args->params.params_len;
if (nparams > REMOTE_DOMAIN_SCHEDULER_PARAMETERS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("nparams too large"));
goto cleanup;
}
if (VIR_ALLOC_N(params, nparams) < 0) {
virReportOOMError();
goto cleanup;
}
/* Deserialise parameters. */
for (i = 0; i < nparams; ++i) {
if (virStrcpyStatic(params[i].field, args->params.params_val[i].field) == NULL) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("Field %s too big for destination"),
args->params.params_val[i].field);
goto cleanup;
}
params[i].type = args->params.params_val[i].value.type;
switch (params[i].type) {
case VIR_DOMAIN_SCHED_FIELD_INT:
params[i].value.i = args->params.params_val[i].value.remote_sched_param_value_u.i; break;
case VIR_DOMAIN_SCHED_FIELD_UINT:
params[i].value.ui = args->params.params_val[i].value.remote_sched_param_value_u.ui; break;
case VIR_DOMAIN_SCHED_FIELD_LLONG:
params[i].value.l = args->params.params_val[i].value.remote_sched_param_value_u.l; break;
case VIR_DOMAIN_SCHED_FIELD_ULLONG:
params[i].value.ul = args->params.params_val[i].value.remote_sched_param_value_u.ul; break;
case VIR_DOMAIN_SCHED_FIELD_DOUBLE:
params[i].value.d = args->params.params_val[i].value.remote_sched_param_value_u.d; break;
case VIR_DOMAIN_SCHED_FIELD_BOOLEAN:
params[i].value.b = args->params.params_val[i].value.remote_sched_param_value_u.b; break;
}
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainSetSchedulerParameters(dom, params, nparams) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
VIR_FREE(params);
return rv;
}
static int
remoteDispatchDomainSetSchedulerParametersFlags(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_set_scheduler_parameters_flags_args *args,
void *ret ATTRIBUTE_UNUSED)
{
virDomainPtr dom = NULL;
virSchedParameterPtr params = NULL;
int i, nparams;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
nparams = args->params.params_len;
if (nparams > REMOTE_DOMAIN_SCHEDULER_PARAMETERS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("nparams too large"));
goto cleanup;
}
if (VIR_ALLOC_N(params, nparams) < 0) {
virReportOOMError();
goto cleanup;
}
/* Deserialise parameters. */
for (i = 0; i < nparams; ++i) {
if (virStrcpyStatic(params[i].field, args->params.params_val[i].field) == NULL) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("Field %s too big for destination"),
args->params.params_val[i].field);
goto cleanup;
}
params[i].type = args->params.params_val[i].value.type;
switch (params[i].type) {
case VIR_DOMAIN_SCHED_FIELD_INT:
params[i].value.i = args->params.params_val[i].value.remote_sched_param_value_u.i; break;
case VIR_DOMAIN_SCHED_FIELD_UINT:
params[i].value.ui = args->params.params_val[i].value.remote_sched_param_value_u.ui; break;
case VIR_DOMAIN_SCHED_FIELD_LLONG:
params[i].value.l = args->params.params_val[i].value.remote_sched_param_value_u.l; break;
case VIR_DOMAIN_SCHED_FIELD_ULLONG:
params[i].value.ul = args->params.params_val[i].value.remote_sched_param_value_u.ul; break;
case VIR_DOMAIN_SCHED_FIELD_DOUBLE:
params[i].value.d = args->params.params_val[i].value.remote_sched_param_value_u.d; break;
case VIR_DOMAIN_SCHED_FIELD_BOOLEAN:
params[i].value.b = args->params.params_val[i].value.remote_sched_param_value_u.b; break;
}
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainSetSchedulerParametersFlags(dom, params, nparams, args->flags) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
VIR_FREE(params);
return rv;
}
static int
remoteDispatchDomainMemoryStats(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_memory_stats_args *args,
remote_domain_memory_stats_ret *ret)
{
virDomainPtr dom = NULL;
struct _virDomainMemoryStat *stats;
int nr_stats, i;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (args->maxStats > REMOTE_DOMAIN_MEMORY_STATS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s",
_("maxStats > REMOTE_DOMAIN_MEMORY_STATS_MAX"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
/* Allocate stats array for making dispatch call */
if (VIR_ALLOC_N(stats, args->maxStats) < 0) {
virReportOOMError();
goto cleanup;
Add several missing vir*Free calls in libvirtd's remote code Justin Clift reported a problem with adding virStoragePoolIsPersistent to virsh's pool-info command, resulting in a strange problem. Here's an example: virsh # pool-create-as images_dir3 dir - - - - "/home/images2" Pool images_dir3 created virsh # pool-info images_dir3 Name: images_dir3 UUID: 90301885-94eb-4ca7-14c2-f30b25a29a36 State: running Capacity: 395.20 GB Allocation: 30.88 GB Available: 364.33 GB virsh # pool-destroy images_dir3 Pool images_dir3 destroyed At this point the images_dir3 pool should be gone (because it was transient) and we should be able to create a new pool with the same name: virsh # pool-create-as images_dir3 dir - - - - "/home/images2" Pool images_dir3 created virsh # pool-info images_dir3 Name: images_dir3 UUID: 90301885-94eb-4ca7-14c2-f30b25a29a36 error: Storage pool not found The new pool got the same UUID as the first one, but we didn't specify one. libvirt should have picked a random UUID, but it didn't. It turned out that virStoragePoolIsPersistent leaks a reference to the storage pool object (actually remoteDispatchStoragePoolIsPersistent does). As a result, pool-destroy doesn't remove the virStoragePool for the "images_dir3" pool from the virConnectPtr's storagePools hash on libvirtd's side. Then the second pool-create-as get's the stale virStoragePool object associated with the "images_dir3" name. But this object has the old UUID. This commit ensures that all get_nonnull_* and make_nonnull_* calls for libvirt objects are matched properly with vir*Free calls. This fixes the reference leaks and the reported problem. All remoteDispatch*IsActive and remoteDispatch*IsPersistent functions were affected. But also remoteDispatchDomainMigrateFinish2 was affected in the success path. I wonder why that didn't surface earlier. Probably because domainMigrateFinish2 is executed on the destination host and in the common case this connection is opened especially for the migration and gets closed after the migration is done. So there was no chance to run into a problem because of the leaked reference.
2010-06-12 19:13:33 +04:00
}
nr_stats = virDomainMemoryStats(dom, stats, args->maxStats, 0);
if (nr_stats < 0)
goto cleanup;
/* Allocate return buffer */
if (VIR_ALLOC_N(ret->stats.stats_val, args->maxStats) < 0) {
virReportOOMError();
goto cleanup;
}
/* Copy the stats into the xdr return structure */
for (i = 0; i < nr_stats; i++) {
ret->stats.stats_val[i].tag = stats[i].tag;
ret->stats.stats_val[i].val = stats[i].val;
}
ret->stats.stats_len = nr_stats;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
VIR_FREE(stats);
return rv;
}
static int
remoteDispatchDomainBlockPeek(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_block_peek_args *args,
remote_domain_block_peek_ret *ret)
{
virDomainPtr dom = NULL;
char *path;
unsigned long long offset;
size_t size;
unsigned int flags;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
path = args->path;
offset = args->offset;
size = args->size;
flags = args->flags;
if (size > REMOTE_DOMAIN_BLOCK_PEEK_BUFFER_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR,
"%s", _("size > maximum buffer size"));
goto cleanup;
}
ret->buffer.buffer_len = size;
if (VIR_ALLOC_N(ret->buffer.buffer_val, size) < 0) {
virReportOOMError();
goto cleanup;
}
if (virDomainBlockPeek(dom, path, offset, size,
ret->buffer.buffer_val, flags) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
VIR_FREE(ret->buffer.buffer_val);
}
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainMemoryPeek(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_memory_peek_args *args,
remote_domain_memory_peek_ret *ret)
{
virDomainPtr dom = NULL;
unsigned long long offset;
size_t size;
unsigned int flags;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
offset = args->offset;
size = args->size;
flags = args->flags;
if (size > REMOTE_DOMAIN_MEMORY_PEEK_BUFFER_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR,
"%s", _("size > maximum buffer size"));
goto cleanup;
}
ret->buffer.buffer_len = size;
if (VIR_ALLOC_N(ret->buffer.buffer_val, size) < 0) {
virReportOOMError();
goto cleanup;
}
if (virDomainMemoryPeek(dom, offset, size,
ret->buffer.buffer_val, flags) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
VIR_FREE(ret->buffer.buffer_val);
}
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainCreateWithFlags(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_create_with_flags_args *args,
remote_domain_create_with_flags_ret *ret)
{
int rv = -1;
virDomainPtr dom = NULL;
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainCreateWithFlags(dom, args->flags) < 0)
goto cleanup;
make_nonnull_domain(&ret->dom, dom);
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainGetSecurityLabel(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_get_security_label_args *args,
remote_domain_get_security_label_ret *ret)
{
virDomainPtr dom = NULL;
virSecurityLabelPtr seclabel = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (VIR_ALLOC(seclabel) < 0) {
virReportOOMError();
goto cleanup;
}
if (virDomainGetSecurityLabel(dom, seclabel) < 0)
goto cleanup;
ret->label.label_len = strlen(seclabel->label) + 1;
if (VIR_ALLOC_N(ret->label.label_val, ret->label.label_len) < 0) {
virReportOOMError();
goto cleanup;
}
strcpy(ret->label.label_val, seclabel->label);
ret->enforcing = seclabel->enforcing;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
VIR_FREE(seclabel);
return rv;
}
static int
remoteDispatchNodeGetSecurityModel(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
void *args ATTRIBUTE_UNUSED,
remote_node_get_security_model_ret *ret)
{
virSecurityModel secmodel;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
memset(&secmodel, 0, sizeof secmodel);
if (virNodeGetSecurityModel(conn, &secmodel) < 0)
goto cleanup;
ret->model.model_len = strlen(secmodel.model) + 1;
if (VIR_ALLOC_N(ret->model.model_val, ret->model.model_len) < 0) {
virReportOOMError();
goto cleanup;
}
strcpy(ret->model.model_val, secmodel.model);
ret->doi.doi_len = strlen(secmodel.doi) + 1;
if (VIR_ALLOC_N(ret->doi.doi_val, ret->doi.doi_len) < 0) {
virReportOOMError();
goto cleanup;
}
strcpy(ret->doi.doi_val, secmodel.doi);
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
return rv;
}
static int
remoteDispatchDomainGetVcpus(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_get_vcpus_args *args,
remote_domain_get_vcpus_ret *ret)
{
virDomainPtr dom = NULL;
virVcpuInfoPtr info = NULL;
unsigned char *cpumaps = NULL;
int info_len, i;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (args->maxinfo > REMOTE_VCPUINFO_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("maxinfo > REMOTE_VCPUINFO_MAX"));
goto cleanup;
}
if (args->maxinfo * args->maplen > REMOTE_CPUMAPS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("maxinfo * maplen > REMOTE_CPUMAPS_MAX"));
goto cleanup;
}
/* Allocate buffers to take the results. */
if (VIR_ALLOC_N(info, args->maxinfo) < 0)
goto no_memory;
if (args->maplen > 0 &&
VIR_ALLOC_N(cpumaps, args->maxinfo * args->maplen) < 0)
goto no_memory;
if ((info_len = virDomainGetVcpus(dom,
info, args->maxinfo,
cpumaps, args->maplen)) < 0)
goto cleanup;
/* Allocate the return buffer for info. */
ret->info.info_len = info_len;
if (VIR_ALLOC_N(ret->info.info_val, info_len) < 0)
goto no_memory;
for (i = 0; i < info_len; ++i) {
ret->info.info_val[i].number = info[i].number;
ret->info.info_val[i].state = info[i].state;
ret->info.info_val[i].cpu_time = info[i].cpuTime;
ret->info.info_val[i].cpu = info[i].cpu;
}
/* Don't need to allocate/copy the cpumaps if we make the reasonable
* assumption that unsigned char and char are the same size.
* Note that remoteDispatchClientRequest will free.
*/
ret->cpumaps.cpumaps_len = args->maxinfo * args->maplen;
ret->cpumaps.cpumaps_val = (char *) cpumaps;
cpumaps = NULL;
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
VIR_FREE(ret->info.info_val);
}
VIR_FREE(cpumaps);
VIR_FREE(info);
if (dom)
virDomainFree(dom);
return rv;
no_memory:
virReportOOMError();
goto cleanup;
}
static int
remoteDispatchDomainMigratePrepare(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_migrate_prepare_args *args,
remote_domain_migrate_prepare_ret *ret)
{
char *cookie = NULL;
int cookielen = 0;
char *uri_in;
char **uri_out;
char *dname;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
uri_in = args->uri_in == NULL ? NULL : *args->uri_in;
dname = args->dname == NULL ? NULL : *args->dname;
/* Wacky world of XDR ... */
if (VIR_ALLOC(uri_out) < 0) {
virReportOOMError();
goto cleanup;
}
if (virDomainMigratePrepare(conn, &cookie, &cookielen,
uri_in, uri_out,
args->flags, dname, args->resource) < 0)
goto cleanup;
/* remoteDispatchClientRequest will free cookie, uri_out and
* the string if there is one.
*/
ret->cookie.cookie_len = cookielen;
ret->cookie.cookie_val = cookie;
if (*uri_out == NULL) {
ret->uri_out = NULL;
} else {
ret->uri_out = uri_out;
uri_out = NULL;
}
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
VIR_FREE(uri_out);
return rv;
}
static int
remoteDispatchDomainMigratePrepare2(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_migrate_prepare2_args *args,
remote_domain_migrate_prepare2_ret *ret)
{
char *cookie = NULL;
int cookielen = 0;
char *uri_in;
char **uri_out;
char *dname;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
uri_in = args->uri_in == NULL ? NULL : *args->uri_in;
dname = args->dname == NULL ? NULL : *args->dname;
/* Wacky world of XDR ... */
if (VIR_ALLOC(uri_out) < 0) {
virReportOOMError();
goto cleanup;
}
if (virDomainMigratePrepare2(conn, &cookie, &cookielen,
uri_in, uri_out,
args->flags, dname, args->resource,
args->dom_xml) < 0)
goto cleanup;
/* remoteDispatchClientRequest will free cookie, uri_out and
* the string if there is one.
*/
ret->cookie.cookie_len = cookielen;
ret->cookie.cookie_val = cookie;
ret->uri_out = *uri_out == NULL ? NULL : uri_out;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
return rv;
}
static int
remoteDispatchDomainMigratePrepareTunnel(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client,
virConnectPtr conn,
remote_message_header *hdr,
remote_error *rerr,
remote_domain_migrate_prepare_tunnel_args *args,
void *ret ATTRIBUTE_UNUSED)
{
char *dname;
struct qemud_client_stream *stream = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
dname = args->dname == NULL ? NULL : *args->dname;
if (!(stream = remoteCreateClientStream(conn, hdr)))
goto cleanup;
if (virDomainMigratePrepareTunnel(conn, stream->st,
args->flags, dname, args->resource,
args->dom_xml) < 0)
goto cleanup;
if (remoteAddClientStream(client, stream, 0) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
if (stream) {
virStreamAbort(stream->st);
remoteFreeClientStream(client, stream);
}
}
return rv;
}
static int
remoteDispatchDomainPinVcpu(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_pin_vcpu_args *args,
void *ret ATTRIBUTE_UNUSED)
{
virDomainPtr dom = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (args->cpumap.cpumap_len > REMOTE_CPUMAP_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("cpumap_len > REMOTE_CPUMAP_MAX"));
goto cleanup;
}
if (virDomainPinVcpu(dom, args->vcpu,
(unsigned char *) args->cpumap.cpumap_val,
args->cpumap.cpumap_len) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainSetMemoryParameters(struct qemud_server *server
ATTRIBUTE_UNUSED,
struct qemud_client *client
ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *
hdr ATTRIBUTE_UNUSED,
remote_error * rerr,
remote_domain_set_memory_parameters_args
* args, void *ret ATTRIBUTE_UNUSED)
{
virDomainPtr dom = NULL;
virMemoryParameterPtr params = NULL;
int i, nparams;
unsigned int flags;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
nparams = args->params.params_len;
flags = args->flags;
if (nparams > REMOTE_DOMAIN_MEMORY_PARAMETERS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("nparams too large"));
goto cleanup;
}
if (VIR_ALLOC_N(params, nparams) < 0) {
virReportOOMError();
goto cleanup;
}
/* Deserialise parameters. */
for (i = 0; i < nparams; ++i) {
if (virStrcpyStatic
(params[i].field, args->params.params_val[i].field) == NULL) {
virNetError(VIR_ERR_INTERNAL_ERROR,
_("Field %s too big for destination"),
args->params.params_val[i].field);
goto cleanup;
}
params[i].type = args->params.params_val[i].value.type;
switch (params[i].type) {
case VIR_DOMAIN_MEMORY_PARAM_INT:
params[i].value.i =
args->params.params_val[i].value.
remote_memory_param_value_u.i;
break;
case VIR_DOMAIN_MEMORY_PARAM_UINT:
params[i].value.ui =
args->params.params_val[i].value.
remote_memory_param_value_u.ui;
break;
case VIR_DOMAIN_MEMORY_PARAM_LLONG:
params[i].value.l =
args->params.params_val[i].value.
remote_memory_param_value_u.l;
break;
case VIR_DOMAIN_MEMORY_PARAM_ULLONG:
params[i].value.ul =
args->params.params_val[i].value.
remote_memory_param_value_u.ul;
break;
case VIR_DOMAIN_MEMORY_PARAM_DOUBLE:
params[i].value.d =
args->params.params_val[i].value.
remote_memory_param_value_u.d;
break;
case VIR_DOMAIN_MEMORY_PARAM_BOOLEAN:
params[i].value.b =
args->params.params_val[i].value.
remote_memory_param_value_u.b;
break;
}
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainSetMemoryParameters(dom, params, nparams, flags) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
VIR_FREE(params);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainGetMemoryParameters(struct qemud_server *server
ATTRIBUTE_UNUSED,
struct qemud_client *client
ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *
hdr ATTRIBUTE_UNUSED,
remote_error * rerr,
remote_domain_get_memory_parameters_args
* args,
remote_domain_get_memory_parameters_ret
* ret)
{
virDomainPtr dom = NULL;
virMemoryParameterPtr params = NULL;
int i;
int nparams = args->nparams;
unsigned int flags;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
flags = args->flags;
if (nparams > REMOTE_DOMAIN_MEMORY_PARAMETERS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("nparams too large"));
goto cleanup;
}
if (VIR_ALLOC_N(params, nparams) < 0) {
virReportOOMError();
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainGetMemoryParameters(dom, params, &nparams, flags) < 0)
goto cleanup;
/* In this case, we need to send back the number of parameters
* supported
*/
if (args->nparams == 0) {
ret->nparams = nparams;
goto success;
}
/* Serialise the memory parameters. */
ret->params.params_len = nparams;
if (VIR_ALLOC_N(ret->params.params_val, nparams) < 0)
goto no_memory;
for (i = 0; i < nparams; ++i) {
/* remoteDispatchClientRequest will free this: */
ret->params.params_val[i].field = strdup(params[i].field);
if (ret->params.params_val[i].field == NULL)
goto no_memory;
ret->params.params_val[i].value.type = params[i].type;
switch (params[i].type) {
case VIR_DOMAIN_MEMORY_PARAM_INT:
ret->params.params_val[i].
value.remote_memory_param_value_u.i =
params[i].value.i;
break;
case VIR_DOMAIN_MEMORY_PARAM_UINT:
ret->params.params_val[i].
value.remote_memory_param_value_u.ui =
params[i].value.ui;
break;
case VIR_DOMAIN_MEMORY_PARAM_LLONG:
ret->params.params_val[i].
value.remote_memory_param_value_u.l =
params[i].value.l;
break;
case VIR_DOMAIN_MEMORY_PARAM_ULLONG:
ret->params.params_val[i].
value.remote_memory_param_value_u.ul =
params[i].value.ul;
break;
case VIR_DOMAIN_MEMORY_PARAM_DOUBLE:
ret->params.params_val[i].
value.remote_memory_param_value_u.d =
params[i].value.d;
break;
case VIR_DOMAIN_MEMORY_PARAM_BOOLEAN:
ret->params.params_val[i].
value.remote_memory_param_value_u.b =
params[i].value.b;
break;
default:
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("unknown type"));
goto cleanup;
}
}
success:
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
if (ret->params.params_val) {
for (i = 0; i < nparams; i++)
VIR_FREE(ret->params.params_val[i].field);
VIR_FREE(ret->params.params_val);
}
}
if (dom)
virDomainFree(dom);
VIR_FREE(params);
return rv;
no_memory:
virReportOOMError();
goto cleanup;
}
static int
remoteDispatchDomainSetBlkioParameters(struct qemud_server *server
ATTRIBUTE_UNUSED,
struct qemud_client *client
ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *
hdr ATTRIBUTE_UNUSED,
remote_error * rerr,
remote_domain_set_blkio_parameters_args
* args, void *ret ATTRIBUTE_UNUSED)
{
virDomainPtr dom = NULL;
virBlkioParameterPtr params = NULL;
int i, nparams;
unsigned int flags;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
nparams = args->params.params_len;
flags = args->flags;
if (nparams > REMOTE_DOMAIN_BLKIO_PARAMETERS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("nparams too large"));
goto cleanup;
}
if (VIR_ALLOC_N(params, nparams) < 0) {
virReportOOMError();
goto cleanup;
}
/* Deserialise parameters. */
for (i = 0; i < nparams; ++i) {
if (virStrcpyStatic
(params[i].field, args->params.params_val[i].field) == NULL) {
virNetError(VIR_ERR_INTERNAL_ERROR,
_("Field %s too big for destination"),
args->params.params_val[i].field);
goto cleanup;
}
params[i].type = args->params.params_val[i].value.type;
switch (params[i].type) {
case VIR_DOMAIN_BLKIO_PARAM_INT:
params[i].value.i =
args->params.params_val[i].value.
remote_blkio_param_value_u.i;
break;
case VIR_DOMAIN_BLKIO_PARAM_UINT:
params[i].value.ui =
args->params.params_val[i].value.
remote_blkio_param_value_u.ui;
break;
case VIR_DOMAIN_BLKIO_PARAM_LLONG:
params[i].value.l =
args->params.params_val[i].value.
remote_blkio_param_value_u.l;
break;
case VIR_DOMAIN_BLKIO_PARAM_ULLONG:
params[i].value.ul =
args->params.params_val[i].value.
remote_blkio_param_value_u.ul;
break;
case VIR_DOMAIN_BLKIO_PARAM_DOUBLE:
params[i].value.d =
args->params.params_val[i].value.
remote_blkio_param_value_u.d;
break;
case VIR_DOMAIN_BLKIO_PARAM_BOOLEAN:
params[i].value.b =
args->params.params_val[i].value.
remote_blkio_param_value_u.b;
break;
}
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainSetBlkioParameters(dom, params, nparams, flags) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
VIR_FREE(params);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainGetBlkioParameters(struct qemud_server *server
ATTRIBUTE_UNUSED,
struct qemud_client *client
ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *
hdr ATTRIBUTE_UNUSED,
remote_error * rerr,
remote_domain_get_blkio_parameters_args
* args,
remote_domain_get_blkio_parameters_ret
* ret)
{
virDomainPtr dom = NULL;
virBlkioParameterPtr params = NULL;
int i;
int nparams = args->nparams;
unsigned int flags;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
flags = args->flags;
if (nparams > REMOTE_DOMAIN_BLKIO_PARAMETERS_MAX) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("nparams too large"));
goto cleanup;
}
if (VIR_ALLOC_N(params, nparams) < 0) {
virReportOOMError();
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainGetBlkioParameters(dom, params, &nparams, flags) < 0)
goto cleanup;
/* In this case, we need to send back the number of parameters
* supported
*/
if (args->nparams == 0) {
ret->nparams = nparams;
goto success;
}
/* Serialise the blkio parameters. */
ret->params.params_len = nparams;
if (VIR_ALLOC_N(ret->params.params_val, nparams) < 0)
goto no_memory;
for (i = 0; i < nparams; ++i) {
// remoteDispatchClientRequest will free this:
ret->params.params_val[i].field = strdup(params[i].field);
if (ret->params.params_val[i].field == NULL)
goto no_memory;
ret->params.params_val[i].value.type = params[i].type;
switch (params[i].type) {
case VIR_DOMAIN_BLKIO_PARAM_INT:
ret->params.params_val[i].
value.remote_blkio_param_value_u.i =
params[i].value.i;
break;
case VIR_DOMAIN_BLKIO_PARAM_UINT:
ret->params.params_val[i].
value.remote_blkio_param_value_u.ui =
params[i].value.ui;
break;
case VIR_DOMAIN_BLKIO_PARAM_LLONG:
ret->params.params_val[i].
value.remote_blkio_param_value_u.l =
params[i].value.l;
break;
case VIR_DOMAIN_BLKIO_PARAM_ULLONG:
ret->params.params_val[i].
value.remote_blkio_param_value_u.ul =
params[i].value.ul;
break;
case VIR_DOMAIN_BLKIO_PARAM_DOUBLE:
ret->params.params_val[i].
value.remote_blkio_param_value_u.d =
params[i].value.d;
break;
case VIR_DOMAIN_BLKIO_PARAM_BOOLEAN:
ret->params.params_val[i].
value.remote_blkio_param_value_u.b =
params[i].value.b;
break;
default:
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("unknown type"));
goto cleanup;
}
}
success:
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
if (ret->params.params_val) {
for (i = 0; i < nparams; i++)
VIR_FREE(ret->params.params_val[i].field);
VIR_FREE(ret->params.params_val);
}
}
VIR_FREE(params);
if (dom)
virDomainFree(dom);
return rv;
no_memory:
virReportOOMError();
goto cleanup;
}
static int
remoteDispatchDomainScreenshot(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client,
virConnectPtr conn,
remote_message_header *hdr,
remote_error *rerr,
remote_domain_screenshot_args *args,
remote_domain_screenshot_ret *ret)
{
int rv = -1;
struct qemud_client_stream *stream = NULL;
virDomainPtr dom = NULL;
char *mime, **mime_p;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
ret->mime = NULL;
if (!(dom = get_nonnull_domain (conn, args->dom)))
goto cleanup;
if (!(stream = remoteCreateClientStream(conn, hdr)))
goto cleanup;
if (!(mime = virDomainScreenshot(dom, stream->st, args->screen, args->flags)))
goto cleanup;
if (remoteAddClientStream(client, stream, 1) < 0) {
virStreamAbort(stream->st);
goto cleanup;
}
if (VIR_ALLOC(mime_p) < 0) {
virReportOOMError();
goto cleanup;
}
*mime_p = strdup(mime);
if (*mime_p == NULL) {
virReportOOMError();
goto cleanup;
}
ret->mime = mime_p;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
VIR_FREE(mime);
if (dom)
virDomainFree(dom);
if (stream && rv != 0) {
virStreamAbort(stream->st);
remoteFreeClientStream(client, stream);
}
return rv;
}
/*-------------------------------------------------------------*/
static int
remoteDispatchAuthList(struct qemud_server *server,
struct qemud_client *client,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
void *args ATTRIBUTE_UNUSED,
remote_auth_list_ret *ret)
{
int rv = -1;
ret->types.types_len = 1;
if (VIR_ALLOC_N(ret->types.types_val, ret->types.types_len) < 0) {
virReportOOMError();
goto cleanup;
}
2009-01-15 22:56:05 +03:00
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
ret->types.types_val[0] = client->auth;
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
2008-12-05 01:16:40 +03:00
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
return rv;
}
#if HAVE_SASL
/*
* Initializes the SASL session in prepare for authentication
* and gives the client a list of allowed mechanisms to choose
*
* XXX callbacks for stuff like password verification ?
*/
static int
remoteDispatchAuthSaslInit(struct qemud_server *server,
struct qemud_client *client,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
void *args ATTRIBUTE_UNUSED,
remote_auth_sasl_init_ret *ret)
{
const char *mechlist = NULL;
sasl_security_properties_t secprops;
int err;
virSocketAddr sa;
char *localAddr, *remoteAddr;
2009-01-15 22:56:05 +03:00
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
2008-12-05 01:16:40 +03:00
VIR_DEBUG("Initialize SASL auth %d", client->fd);
if (client->auth != REMOTE_AUTH_SASL ||
client->saslconn != NULL) {
VIR_ERROR(_("client tried invalid SASL init request"));
2008-12-05 01:16:40 +03:00
goto authfail;
}
/* Get local address in form IPADDR:PORT */
sa.len = sizeof(sa.data.stor);
if (getsockname(client->fd, &sa.data.sa, &sa.len) < 0) {
char ebuf[1024];
virNetError(VIR_ERR_INTERNAL_ERROR,
_("failed to get sock address: %s"),
virStrerror(errno, ebuf, sizeof ebuf));
2008-12-05 01:16:40 +03:00
goto error;
}
if ((localAddr = virSocketFormatAddrFull(&sa, true, ";")) == NULL)
2008-12-05 01:16:40 +03:00
goto error;
/* Get remote address in form IPADDR:PORT */
sa.len = sizeof(sa.data.stor);
if (getpeername(client->fd, &sa.data.sa, &sa.len) < 0) {
char ebuf[1024];
virNetError(VIR_ERR_INTERNAL_ERROR, _("failed to get peer address: %s"),
virStrerror(errno, ebuf, sizeof ebuf));
VIR_FREE(localAddr);
2008-12-05 01:16:40 +03:00
goto error;
}
if ((remoteAddr = virSocketFormatAddrFull(&sa, true, ";")) == NULL) {
VIR_FREE(localAddr);
2008-12-05 01:16:40 +03:00
goto error;
}
err = sasl_server_new("libvirt",
NULL, /* FQDN - just delegates to gethostname */
NULL, /* User realm */
localAddr,
remoteAddr,
NULL, /* XXX Callbacks */
SASL_SUCCESS_DATA,
&client->saslconn);
VIR_FREE(localAddr);
VIR_FREE(remoteAddr);
if (err != SASL_OK) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("sasl context setup failed %d (%s)"),
err, sasl_errstring(err, NULL, NULL));
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
/* Inform SASL that we've got an external SSF layer from TLS */
if (client->type == QEMUD_SOCK_TYPE_TLS) {
gnutls_cipher_algorithm_t cipher;
sasl_ssf_t ssf;
cipher = gnutls_cipher_get(client->tlssession);
if (!(ssf = (sasl_ssf_t)gnutls_cipher_get_key_size(cipher))) {
VIR_ERROR(_("cannot get TLS cipher size"));
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
ssf *= 8; /* tls key size is bytes, sasl wants bits */
err = sasl_setprop(client->saslconn, SASL_SSF_EXTERNAL, &ssf);
if (err != SASL_OK) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("cannot set SASL external SSF %d (%s)"),
err, sasl_errstring(err, NULL, NULL));
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
}
memset(&secprops, 0, sizeof secprops);
if (client->type == QEMUD_SOCK_TYPE_TLS ||
client->type == QEMUD_SOCK_TYPE_UNIX) {
/* If we've got TLS or UNIX domain sock, we don't care about SSF */
secprops.min_ssf = 0;
secprops.max_ssf = 0;
secprops.maxbufsize = 8192;
secprops.security_flags = 0;
} else {
/* Plain TCP, better get an SSF layer */
secprops.min_ssf = 56; /* Good enough to require kerberos */
secprops.max_ssf = 100000; /* Arbitrary big number */
secprops.maxbufsize = 8192;
/* Forbid any anonymous or trivially crackable auth */
secprops.security_flags =
SASL_SEC_NOANONYMOUS | SASL_SEC_NOPLAINTEXT;
}
err = sasl_setprop(client->saslconn, SASL_SEC_PROPS, &secprops);
if (err != SASL_OK) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("cannot set SASL security props %d (%s)"),
err, sasl_errstring(err, NULL, NULL));
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
err = sasl_listmech(client->saslconn,
NULL, /* Don't need to set user */
"", /* Prefix */
",", /* Separator */
"", /* Suffix */
&mechlist,
NULL,
NULL);
if (err != SASL_OK) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("cannot list SASL mechanisms %d (%s)"),
err, sasl_errdetail(client->saslconn));
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
VIR_DEBUG("Available mechanisms for client: '%s'", mechlist);
ret->mechlist = strdup(mechlist);
if (!ret->mechlist) {
VIR_ERROR(_("cannot allocate mechlist"));
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
return 0;
2008-12-05 01:16:40 +03:00
authfail:
remoteDispatchAuthError(rerr);
error:
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_SASL);
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
2008-12-05 01:16:40 +03:00
return -1;
}
2008-02-29 15:53:10 +03:00
/* We asked for an SSF layer, so sanity check that we actually
* got what we asked for
* Returns 0 if ok, -1 on error, -2 if rejected
*/
static int
remoteSASLCheckSSF(struct qemud_client *client,
remote_error *rerr) {
const void *val;
int err, ssf;
if (client->type == QEMUD_SOCK_TYPE_TLS ||
client->type == QEMUD_SOCK_TYPE_UNIX)
return 0; /* TLS or UNIX domain sockets trivially OK */
err = sasl_getprop(client->saslconn, SASL_SSF, &val);
if (err != SASL_OK) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("cannot query SASL ssf on connection %d (%s)"),
err, sasl_errstring(err, NULL, NULL));
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
return -1;
}
ssf = *(const int *)val;
VIR_DEBUG("negotiated an SSF of %d", ssf);
if (ssf < 56) { /* 56 is good for Kerberos */
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("negotiated SSF %d was not strong enough"), ssf);
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
return -2;
}
/* Only setup for read initially, because we're about to send an RPC
* reply which must be in plain text. When the next incoming RPC
* arrives, we'll switch on writes too
*
* cf qemudClientReadSASL in qemud.c
*/
client->saslSSF = QEMUD_SASL_SSF_READ;
/* We have a SSF !*/
return 0;
}
/*
* Returns 0 if ok, -1 on error, -2 if rejected
*/
static int
remoteSASLCheckAccess(struct qemud_server *server,
struct qemud_client *client,
remote_error *rerr) {
const void *val;
int err;
char **wildcards;
err = sasl_getprop(client->saslconn, SASL_USERNAME, &val);
if (err != SASL_OK) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("cannot query SASL username on connection %d (%s)"),
err, sasl_errstring(err, NULL, NULL));
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
return -1;
}
if (val == NULL) {
VIR_ERROR(_("no client username was found"));
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
return -1;
}
VIR_DEBUG("SASL client username %s", (const char *)val);
client->saslUsername = strdup((const char*)val);
if (client->saslUsername == NULL) {
VIR_ERROR(_("out of memory copying username"));
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
return -1;
}
/* If the list is not set, allow any DN. */
wildcards = server->saslUsernameWhitelist;
if (!wildcards)
return 0; /* No ACL, allow all */
while (*wildcards) {
if (fnmatch(*wildcards, client->saslUsername, 0) == 0)
return 0; /* Allowed */
wildcards++;
}
/* Denied */
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("SASL client %s not allowed in whitelist"), client->saslUsername);
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
return -2;
}
/*
* This starts the SASL authentication negotiation.
*/
static int
remoteDispatchAuthSaslStart(struct qemud_server *server,
struct qemud_client *client,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_auth_sasl_start_args *args,
remote_auth_sasl_start_ret *ret)
{
const char *serverout;
unsigned int serveroutlen;
int err;
2009-01-15 22:56:05 +03:00
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
2008-12-05 01:16:40 +03:00
VIR_DEBUG("Start SASL auth %d", client->fd);
if (client->auth != REMOTE_AUTH_SASL ||
client->saslconn == NULL) {
VIR_ERROR(_("client tried invalid SASL start request"));
2008-12-05 01:16:40 +03:00
goto authfail;
}
VIR_DEBUG("Using SASL mechanism %s. Data %d bytes, nil: %d",
args->mech, args->data.data_len, args->nil);
err = sasl_server_start(client->saslconn,
args->mech,
/* NB, distinction of NULL vs "" is *critical* in SASL */
args->nil ? NULL : args->data.data_val,
args->data.data_len,
&serverout,
&serveroutlen);
if (err != SASL_OK &&
err != SASL_CONTINUE) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("sasl start failed %d (%s)"),
err, sasl_errdetail(client->saslconn));
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
if (serveroutlen > REMOTE_AUTH_SASL_DATA_MAX) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("sasl start reply data too long %d"), serveroutlen);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
/* NB, distinction of NULL vs "" is *critical* in SASL */
if (serverout) {
if (VIR_ALLOC_N(ret->data.data_val, serveroutlen) < 0) {
virReportOOMError();
remoteDispatchError(rerr);
2008-12-05 01:16:40 +03:00
goto error;
}
memcpy(ret->data.data_val, serverout, serveroutlen);
} else {
ret->data.data_val = NULL;
}
ret->nil = serverout ? 0 : 1;
ret->data.data_len = serveroutlen;
VIR_DEBUG("SASL return data %d bytes, nil; %d", ret->data.data_len, ret->nil);
if (err == SASL_CONTINUE) {
ret->complete = 0;
} else {
/* Check username whitelist ACL */
if ((err = remoteSASLCheckAccess(server, client, rerr)) < 0 ||
(err = remoteSASLCheckSSF(client, rerr)) < 0) {
if (err == -2)
goto authdeny;
else
goto authfail;
}
VIR_DEBUG("Authentication successful %d", client->fd);
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_ALLOW, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_SASL, client->saslUsername);
ret->complete = 1;
client->auth = REMOTE_AUTH_NONE;
}
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
return 0;
2008-12-05 01:16:40 +03:00
authfail:
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_SASL);
2008-12-05 01:16:40 +03:00
remoteDispatchAuthError(rerr);
goto error;
authdeny:
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_DENY, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_SASL, client->saslUsername);
goto error;
2008-12-05 01:16:40 +03:00
error:
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
2008-12-05 01:16:40 +03:00
return -1;
}
static int
remoteDispatchAuthSaslStep(struct qemud_server *server,
struct qemud_client *client,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_auth_sasl_step_args *args,
remote_auth_sasl_step_ret *ret)
{
const char *serverout;
unsigned int serveroutlen;
int err;
2009-01-15 22:56:05 +03:00
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
2008-12-05 01:16:40 +03:00
VIR_DEBUG("Step SASL auth %d", client->fd);
if (client->auth != REMOTE_AUTH_SASL ||
client->saslconn == NULL) {
VIR_ERROR(_("client tried invalid SASL start request"));
2008-12-05 01:16:40 +03:00
goto authfail;
}
VIR_DEBUG("Using SASL Data %d bytes, nil: %d",
args->data.data_len, args->nil);
err = sasl_server_step(client->saslconn,
/* NB, distinction of NULL vs "" is *critical* in SASL */
args->nil ? NULL : args->data.data_val,
args->data.data_len,
&serverout,
&serveroutlen);
if (err != SASL_OK &&
err != SASL_CONTINUE) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("sasl step failed %d (%s)"),
err, sasl_errdetail(client->saslconn));
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
if (serveroutlen > REMOTE_AUTH_SASL_DATA_MAX) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("sasl step reply data too long %d"),
serveroutlen);
sasl_dispose(&client->saslconn);
client->saslconn = NULL;
2008-12-05 01:16:40 +03:00
goto authfail;
}
/* NB, distinction of NULL vs "" is *critical* in SASL */
if (serverout) {
if (VIR_ALLOC_N(ret->data.data_val, serveroutlen) < 0) {
virReportOOMError();
remoteDispatchError(rerr);
2008-12-05 01:16:40 +03:00
goto error;
}
memcpy(ret->data.data_val, serverout, serveroutlen);
} else {
ret->data.data_val = NULL;
}
ret->nil = serverout ? 0 : 1;
ret->data.data_len = serveroutlen;
VIR_DEBUG("SASL return data %d bytes, nil; %d", ret->data.data_len, ret->nil);
if (err == SASL_CONTINUE) {
ret->complete = 0;
} else {
/* Check username whitelist ACL */
if ((err = remoteSASLCheckAccess(server, client, rerr)) < 0 ||
(err = remoteSASLCheckSSF(client, rerr)) < 0) {
if (err == -2)
goto authdeny;
else
goto authfail;
}
VIR_DEBUG("Authentication successful %d", client->fd);
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_ALLOW, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_SASL, client->saslUsername);
ret->complete = 1;
client->auth = REMOTE_AUTH_NONE;
}
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
return 0;
2008-12-05 01:16:40 +03:00
authfail:
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_SASL);
2008-12-05 01:16:40 +03:00
remoteDispatchAuthError(rerr);
goto error;
authdeny:
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_DENY, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_SASL, client->saslUsername);
goto error;
2008-12-05 01:16:40 +03:00
error:
2009-01-15 22:56:05 +03:00
virMutexUnlock(&client->lock);
2008-12-05 01:16:40 +03:00
return -1;
}
#else /* HAVE_SASL */
static int
remoteDispatchAuthSaslInit(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
void *args ATTRIBUTE_UNUSED,
remote_auth_sasl_init_ret *ret ATTRIBUTE_UNUSED)
{
VIR_ERROR(_("client tried unsupported SASL init request"));
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_SASL);
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
return -1;
}
static int
remoteDispatchAuthSaslStart(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_auth_sasl_start_args *args ATTRIBUTE_UNUSED,
remote_auth_sasl_start_ret *ret ATTRIBUTE_UNUSED)
{
VIR_ERROR(_("client tried unsupported SASL start request"));
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_SASL);
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
return -1;
}
static int
remoteDispatchAuthSaslStep(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_auth_sasl_step_args *args ATTRIBUTE_UNUSED,
remote_auth_sasl_step_ret *ret ATTRIBUTE_UNUSED)
{
VIR_ERROR(_("client tried unsupported SASL step request"));
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_SASL);
2008-12-05 01:12:53 +03:00
remoteDispatchAuthError(rerr);
return -1;
}
#endif /* HAVE_SASL */
#if HAVE_POLKIT1
static int
remoteDispatchAuthPolkit(struct qemud_server *server,
struct qemud_client *client,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
void *args ATTRIBUTE_UNUSED,
remote_auth_polkit_ret *ret)
{
pid_t callerPid = -1;
uid_t callerUid = -1;
const char *action;
int status = -1;
char pidbuf[50];
char ident[100];
int rv;
memset(ident, 0, sizeof ident);
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
action = client->readonly ?
"org.libvirt.unix.monitor" :
"org.libvirt.unix.manage";
const char * const pkcheck [] = {
PKCHECK_PATH,
"--action-id", action,
"--process", pidbuf,
"--allow-user-interaction",
NULL
};
VIR_DEBUG("Start PolicyKit auth %d", client->fd);
if (client->auth != REMOTE_AUTH_POLKIT) {
VIR_ERROR(_("client tried invalid PolicyKit init request"));
goto authfail;
}
if (qemudGetSocketIdentity(client->fd, &callerUid, &callerPid) < 0) {
VIR_ERROR(_("cannot get peer socket identity"));
goto authfail;
}
VIR_INFO("Checking PID %d running as %d", callerPid, callerUid);
rv = snprintf(pidbuf, sizeof pidbuf, "%d", callerPid);
if (rv < 0 || rv >= sizeof pidbuf) {
VIR_ERROR(_("Caller PID was too large %d"), callerPid);
goto authfail;
}
rv = snprintf(ident, sizeof ident, "pid:%d,uid:%d", callerPid, callerUid);
if (rv < 0 || rv >= sizeof ident) {
VIR_ERROR(_("Caller identity was too large %d:%d"), callerPid, callerUid);
goto authfail;
}
if (virRun(pkcheck, &status) < 0) {
VIR_ERROR(_("Cannot invoke %s"), PKCHECK_PATH);
goto authfail;
}
if (status != 0) {
char *tmp = virCommandTranslateStatus(status);
VIR_ERROR(_("Policy kit denied action %s from pid %d, uid %d: %s"),
action, callerPid, callerUid, NULLSTR(tmp));
VIR_FREE(tmp);
goto authdeny;
}
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_ALLOW, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_POLKIT, (char *)ident);
VIR_INFO("Policy allowed action %s from pid %d, uid %d",
action, callerPid, callerUid);
ret->complete = 1;
client->auth = REMOTE_AUTH_NONE;
virMutexUnlock(&client->lock);
return 0;
authfail:
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_POLKIT);
goto error;
authdeny:
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_DENY, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_POLKIT, (char *)ident);
goto error;
error:
remoteDispatchAuthError(rerr);
virMutexUnlock(&client->lock);
return -1;
}
#elif HAVE_POLKIT0
2007-12-05 21:21:27 +03:00
static int
remoteDispatchAuthPolkit(struct qemud_server *server,
struct qemud_client *client,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
void *args ATTRIBUTE_UNUSED,
remote_auth_polkit_ret *ret)
2007-12-05 21:21:27 +03:00
{
pid_t callerPid;
uid_t callerUid;
2008-04-04 19:09:19 +04:00
PolKitCaller *pkcaller = NULL;
PolKitAction *pkaction = NULL;
PolKitContext *pkcontext = NULL;
PolKitError *pkerr = NULL;
PolKitResult pkresult;
DBusError err;
2008-12-05 01:16:40 +03:00
const char *action;
char ident[100];
int rv;
memset(ident, 0, sizeof ident);
2008-12-05 01:16:40 +03:00
2009-01-15 22:56:05 +03:00
virMutexLock(&server->lock);
virMutexLock(&client->lock);
virMutexUnlock(&server->lock);
2008-12-05 01:16:40 +03:00
action = client->readonly ?
2008-04-04 19:09:19 +04:00
"org.libvirt.unix.monitor" :
"org.libvirt.unix.manage";
2007-12-05 21:21:27 +03:00
VIR_DEBUG("Start PolicyKit auth %d", client->fd);
2007-12-05 21:21:27 +03:00
if (client->auth != REMOTE_AUTH_POLKIT) {
VIR_ERROR(_("client tried invalid PolicyKit init request"));
2008-12-05 01:16:40 +03:00
goto authfail;
2007-12-05 21:21:27 +03:00
}
if (qemudGetSocketIdentity(client->fd, &callerUid, &callerPid) < 0) {
VIR_ERROR(_("cannot get peer socket identity"));
2008-12-05 01:16:40 +03:00
goto authfail;
2007-12-05 21:21:27 +03:00
}
rv = snprintf(ident, sizeof ident, "pid:%d,uid:%d", callerPid, callerUid);
if (rv < 0 || rv >= sizeof ident) {
VIR_ERROR(_("Caller identity was too large %d:%d"), callerPid, callerUid);
goto authfail;
}
VIR_INFO("Checking PID %d running as %d", callerPid, callerUid);
2008-04-04 19:09:19 +04:00
dbus_error_init(&err);
if (!(pkcaller = polkit_caller_new_from_pid(server->sysbus,
callerPid, &err))) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("Failed to lookup policy kit caller: %s"), err.message);
2008-04-04 19:09:19 +04:00
dbus_error_free(&err);
2008-12-05 01:16:40 +03:00
goto authfail;
2008-04-04 19:09:19 +04:00
}
2007-12-05 21:21:27 +03:00
2008-04-04 19:09:19 +04:00
if (!(pkaction = polkit_action_new())) {
char ebuf[1024];
VIR_ERROR(_("Failed to create polkit action %s"),
virStrerror(errno, ebuf, sizeof ebuf));
2008-04-04 19:09:19 +04:00
polkit_caller_unref(pkcaller);
2008-12-05 01:16:40 +03:00
goto authfail;
2008-04-04 19:09:19 +04:00
}
polkit_action_set_action_id(pkaction, action);
if (!(pkcontext = polkit_context_new()) ||
!polkit_context_init(pkcontext, &pkerr)) {
char ebuf[1024];
VIR_ERROR(_("Failed to create polkit context %s"),
2009-01-06 21:32:03 +03:00
(pkerr ? polkit_error_get_error_message(pkerr)
: virStrerror(errno, ebuf, sizeof ebuf)));
2008-04-04 19:09:19 +04:00
if (pkerr)
polkit_error_free(pkerr);
polkit_caller_unref(pkcaller);
polkit_action_unref(pkaction);
dbus_error_free(&err);
2008-12-05 01:16:40 +03:00
goto authfail;
2008-04-04 19:09:19 +04:00
}
2007-12-05 21:21:27 +03:00
# if HAVE_POLKIT_CONTEXT_IS_CALLER_AUTHORIZED
2008-04-04 19:09:19 +04:00
pkresult = polkit_context_is_caller_authorized(pkcontext,
pkaction,
pkcaller,
0,
&pkerr);
if (pkerr && polkit_error_is_set(pkerr)) {
2009-01-06 21:32:03 +03:00
VIR_ERROR(_("Policy kit failed to check authorization %d %s"),
polkit_error_get_error_code(pkerr),
polkit_error_get_error_message(pkerr));
2008-12-05 01:16:40 +03:00
goto authfail;
2008-04-04 19:09:19 +04:00
}
# else
2008-04-04 19:09:19 +04:00
pkresult = polkit_context_can_caller_do_action(pkcontext,
pkaction,
pkcaller);
# endif
2008-04-04 19:09:19 +04:00
polkit_context_unref(pkcontext);
polkit_caller_unref(pkcaller);
polkit_action_unref(pkaction);
if (pkresult != POLKIT_RESULT_YES) {
VIR_ERROR(_("Policy kit denied action %s from pid %d, uid %d, result: %s"),
2009-01-06 21:32:03 +03:00
action, callerPid, callerUid,
polkit_result_to_string_representation(pkresult));
goto authdeny;
2007-12-05 21:21:27 +03:00
}
Add dtrace static probes in libvirtd Adds initial support for dtrace static probes in libvirtd daemon, assuming use of systemtap dtrace compat shim on Linux. The probes are inserted for network client connect, disconnect, TLS handshake states and authentication protocol states. This can be tested by running the xample program and then attempting to connect with any libvirt client (virsh, virt-manager, etc). # stap examples/systemtap/client.stp Client fd=44 connected readonly=0 Client fd=44 auth polkit deny pid:24997,uid:500 Client fd=44 disconnected Client fd=46 connected readonly=1 Client fd=46 auth sasl allow test Client fd=46 disconnected The libvirtd.stp file should also really not be required, since it is duplicated info that is already available in the main probes.d definition file. A script to autogenerate the .stp file is needed, either in libvirtd tree, or better as part of systemtap itself. * Makefile.am: Add examples/systemtap subdir * autobuild.sh: Disable dtrace for mingw32 * configure.ac: Add check for dtrace * daemon/.gitignore: Ignore generated dtrace probe file * daemon/Makefile.am: Build dtrace probe header & object files * daemon/libvirtd.stp: SystemTAP convenience probeset * daemon/libvirtd.c: Add connect/disconnect & TLS probes * daemon/remote.c: Add SASL and PolicyKit auth probes * daemon/probes.d: Master probe definition * daemon/libvirtd.h: Add convenience macro for probes so that compilation is a no-op when dtrace is not available * examples/systemtap/Makefile.am, examples/systemtap/client.stp Example systemtap script using dtrace probe markers * libvirt.spec.in: Enable dtrace on F13/RHEL6 * mingw32-libvirt.spec.in: Force disable dtrace
2010-09-14 20:30:32 +04:00
PROBE(CLIENT_AUTH_ALLOW, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_POLKIT, ident);
VIR_INFO("Policy allowed action %s from pid %d, uid %d, result %s",
action, callerPid, callerUid,
polkit_result_to_string_representation(pkresult));
ret->complete = 1;
client->auth = REMOTE_AUTH_NONE;
virMutexUnlock(&client->lock);
return 0;
authfail:
PROBE(CLIENT_AUTH_FAIL, "fd=%d, auth=%d", client->fd, REMOTE_AUTH_POLKIT);
goto error;
authdeny:
PROBE(CLIENT_AUTH_DENY, "fd=%d, auth=%d, username=%s",
client->fd, REMOTE_AUTH_POLKIT, ident);
goto error;
error:
remoteDispatchAuthError(rerr);
virMutexUnlock(&client->lock);
return -1;
}
#else /* !HAVE_POLKIT0 & !HAVE_POLKIT1*/
static int
remoteDispatchAuthPolkit(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn ATTRIBUTE_UNUSED,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
void *args ATTRIBUTE_UNUSED,
remote_auth_polkit_ret *ret ATTRIBUTE_UNUSED)
{
VIR_ERROR(_("client tried unsupported PolicyKit init request"));
remoteDispatchAuthError(rerr);
return -1;
}
#endif /* HAVE_POLKIT1 */
/***************************************************************
* NODE INFO APIS
**************************************************************/
static int
remoteDispatchNodeDeviceGetParent(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_node_device_get_parent_args *args,
remote_node_device_get_parent_ret *ret)
{
virNodeDevicePtr dev = NULL;
const char *parent = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dev = virNodeDeviceLookupByName(conn, args->name)))
goto cleanup;
parent = virNodeDeviceGetParent(dev);
if (parent == NULL) {
ret->parent = NULL;
} else {
/* remoteDispatchClientRequest will free this. */
char **parent_p;
if (VIR_ALLOC(parent_p) < 0) {
virReportOOMError();
goto cleanup;
}
if (!(*parent_p = strdup(parent))) {
VIR_FREE(parent_p);
virReportOOMError();
goto cleanup;
}
ret->parent = parent_p;
}
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dev)
virNodeDeviceFree(dev);
return rv;
}
static int remoteDispatchStorageVolUpload(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client,
virConnectPtr conn,
remote_message_header *hdr,
remote_error *rerr,
remote_storage_vol_upload_args *args,
void *ret ATTRIBUTE_UNUSED)
{
struct qemud_client_stream *stream = NULL;
virStorageVolPtr vol = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(vol = get_nonnull_storage_vol(conn, args->vol)))
goto cleanup;
if (!(stream = remoteCreateClientStream(conn, hdr)))
goto cleanup;
if (virStorageVolUpload(vol, stream->st,
args->offset, args->length,
args->flags) < 0)
goto cleanup;
if (remoteAddClientStream(client, stream, 0) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (vol)
virStorageVolFree(vol);
if (stream && rv != 0) {
virStreamAbort(stream->st);
remoteFreeClientStream(client, stream);
}
return rv;
}
static int remoteDispatchStorageVolDownload(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client,
virConnectPtr conn,
remote_message_header *hdr,
remote_error *rerr,
remote_storage_vol_download_args *args,
void *ret ATTRIBUTE_UNUSED)
{
struct qemud_client_stream *stream = NULL;
virStorageVolPtr vol = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(vol = get_nonnull_storage_vol(conn, args->vol)))
goto cleanup;
if (!(stream = remoteCreateClientStream(conn, hdr)))
goto cleanup;
if (virStorageVolDownload(vol, stream->st,
args->offset, args->length,
args->flags) < 0)
goto cleanup;
if (remoteAddClientStream(client, stream, 1) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (vol)
virStorageVolFree(vol);
if (stream && rv != 0) {
virStreamAbort(stream->st);
remoteFreeClientStream(client, stream);
}
return rv;
}
/***************************
* Register / deregister events
***************************/
static int
remoteDispatchDomainEventsRegister(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr ATTRIBUTE_UNUSED,
void *args ATTRIBUTE_UNUSED,
remote_domain_events_register_ret *ret ATTRIBUTE_UNUSED)
{
int callbackID;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (client->domainEventCallbackID[VIR_DOMAIN_EVENT_ID_LIFECYCLE] != -1) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("domain event %d already registered"), VIR_DOMAIN_EVENT_ID_LIFECYCLE);
goto cleanup;
}
if ((callbackID = virConnectDomainEventRegisterAny(conn,
NULL,
VIR_DOMAIN_EVENT_ID_LIFECYCLE,
VIR_DOMAIN_EVENT_CALLBACK(remoteRelayDomainEventLifecycle),
client, NULL)) < 0)
goto cleanup;
client->domainEventCallbackID[VIR_DOMAIN_EVENT_ID_LIFECYCLE] = callbackID;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
return rv;
}
static int
remoteDispatchDomainEventsDeregister(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr ATTRIBUTE_UNUSED,
void *args ATTRIBUTE_UNUSED,
remote_domain_events_deregister_ret *ret ATTRIBUTE_UNUSED)
{
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (client->domainEventCallbackID[VIR_DOMAIN_EVENT_ID_LIFECYCLE] < 0) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("domain event %d not registered"), VIR_DOMAIN_EVENT_ID_LIFECYCLE);
goto cleanup;
}
if (virConnectDomainEventDeregisterAny(conn,
client->domainEventCallbackID[VIR_DOMAIN_EVENT_ID_LIFECYCLE]) < 0)
goto cleanup;
client->domainEventCallbackID[VIR_DOMAIN_EVENT_ID_LIFECYCLE] = -1;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
return rv;
}
static void
remoteDispatchDomainEventSend(struct qemud_client *client,
int procnr,
xdrproc_t proc,
void *data)
{
struct qemud_client_message *msg = NULL;
XDR xdr;
unsigned int len;
if (VIR_ALLOC(msg) < 0)
return;
msg->hdr.prog = REMOTE_PROGRAM;
msg->hdr.vers = REMOTE_PROTOCOL_VERSION;
msg->hdr.proc = procnr;
msg->hdr.type = REMOTE_MESSAGE;
msg->hdr.serial = 1;
msg->hdr.status = REMOTE_OK;
if (remoteEncodeClientMessageHeader(msg) < 0)
goto cleanup;
/* Serialise the return header and event. */
xdrmem_create(&xdr,
msg->buffer,
msg->bufferLength,
XDR_ENCODE);
/* Skip over the header we just wrote */
if (xdr_setpos(&xdr, msg->bufferOffset) == 0)
goto xdr_cleanup;
if (!(proc)(&xdr, data)) {
VIR_WARN("Failed to serialize domain event %d", procnr);
goto xdr_cleanup;
}
/* Update length word to include payload*/
len = msg->bufferOffset = xdr_getpos(&xdr);
if (xdr_setpos(&xdr, 0) == 0)
goto xdr_cleanup;
if (!xdr_u_int(&xdr, &len))
goto xdr_cleanup;
/* Send it. */
msg->async = 1;
msg->bufferLength = len;
msg->bufferOffset = 0;
VIR_DEBUG("Queue event %d %d", procnr, msg->bufferLength);
qemudClientMessageQueuePush(&client->tx, msg);
qemudUpdateClientEvent(client);
xdr_destroy(&xdr);
return;
xdr_cleanup:
xdr_destroy(&xdr);
cleanup:
VIR_FREE(msg);
}
static int
remoteDispatchSecretGetValue(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_secret_get_value_args *args,
remote_secret_get_value_ret *ret)
{
virSecretPtr secret = NULL;
size_t value_size;
unsigned char *value;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(secret = get_nonnull_secret(conn, args->secret)))
goto cleanup;
if (!(value = virSecretGetValue(secret, &value_size, args->flags)))
goto cleanup;
ret->value.value_len = value_size;
ret->value.value_val = (char *)value;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (secret)
virSecretFree(secret);
return rv;
}
static int
remoteDispatchDomainGetState(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_get_state_args *args,
remote_domain_get_state_ret *ret)
{
virDomainPtr dom = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainGetState(dom, &ret->state, &ret->reason, args->flags) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
static int
remoteDispatchDomainEventsRegisterAny(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr ATTRIBUTE_UNUSED,
remote_domain_events_register_any_args *args,
void *ret ATTRIBUTE_UNUSED)
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
{
int callbackID;
int rv = -1;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
if (args->eventID >= VIR_DOMAIN_EVENT_ID_LAST ||
args->eventID < 0) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("unsupported event ID %d"), args->eventID);
goto cleanup;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
}
if (client->domainEventCallbackID[args->eventID] != -1) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("domain event %d already registered"), args->eventID);
goto cleanup;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
}
if ((callbackID = virConnectDomainEventRegisterAny(conn,
NULL,
args->eventID,
domainEventCallbacks[args->eventID],
client, NULL)) < 0)
goto cleanup;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
client->domainEventCallbackID[args->eventID] = callbackID;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
return rv;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
}
static int
remoteDispatchDomainEventsDeregisterAny(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr ATTRIBUTE_UNUSED,
remote_domain_events_deregister_any_args *args,
void *ret ATTRIBUTE_UNUSED)
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
{
int callbackID = -1;
int rv = -1;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
if (args->eventID >= VIR_DOMAIN_EVENT_ID_LAST ||
args->eventID < 0) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("unsupported event ID %d"), args->eventID);
goto cleanup;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
}
if ((callbackID = client->domainEventCallbackID[args->eventID]) < 0) {
virNetError(VIR_ERR_INTERNAL_ERROR, _("domain event %d not registered"), args->eventID);
goto cleanup;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
}
if (virConnectDomainEventDeregisterAny(conn, callbackID) < 0)
goto cleanup;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
client->domainEventCallbackID[args->eventID] = -1;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
return rv;
Remote driver & daemon impl of new event API This wires up the remote driver to handle the new events APIs. The public API allows an application to request a callback filters events to a specific domain object, and register multiple callbacks for the same event type. On the wire there are two strategies for this - Register multiple callbacks with the remote daemon, each with filtering as needed - Register only one callback per event type, with no filtering Both approaches have potential inefficiency. In the first scheme, the same event gets sent over the wire many times if multiple callbacks are registered. With the second scheme, unneccessary events get sent over the wire if a per-domain filter is set on the client. The second scheme is far easier to implement though, so this patch takes that approach. * daemon/dispatch.h: Don't export remoteRelayDomainEvent since it is no longer needed for unregistering callbacks, instead the unique callback ID is used * daemon/libvirtd.c, daemon/libvirtd.h: Track and unregister callbacks based on callback ID, instead of function pointer * daemon/remote.c: Switch over to using virConnectDomainEventRegisterAny instead of legacy virConnectDomainEventRegister function. Refactor remoteDispatchDomainEventSend() to cope with arbitrary event types * src/driver.h, src/driver.c: Move verify() call into source file instead of header, to avoid polluting the global namespace with the verify function name * src/remote/remote_driver.c: Implement new APIs for event registration. Refactor processCallDispatchMessage() to cope with arbitrary incoming event types. Merge remoteDomainQueueEvent() into processCallDispatchMessage() to avoid duplication of code. Rename remoteDomainReadEvent() to remoteDomainReadEventLifecycle() * src/remote/remote_protocol.x: Define wire format for the new virConnectDomainEventRegisterAny and virConnectDomainEventDeregisterAny functions
2010-03-18 17:56:56 +03:00
}
static int
qemuDispatchMonitorCommand(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
qemu_monitor_command_args *args,
qemu_monitor_command_ret *ret)
{
virDomainPtr dom = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainQemuMonitorCommand(dom, args->cmd, &ret->result,
args->flags) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainOpenConsole(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client,
virConnectPtr conn,
remote_message_header *hdr,
remote_error *rerr,
remote_domain_open_console_args *args,
void *ret ATTRIBUTE_UNUSED)
{
struct qemud_client_stream *stream = NULL;
virDomainPtr dom = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (!(stream = remoteCreateClientStream(conn, hdr)))
goto cleanup;
if (virDomainOpenConsole(dom,
args->devname ? *args->devname : NULL,
stream->st,
args->flags) < 0)
goto cleanup;
if (remoteAddClientStream(client, stream, 1) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (stream && rv < 0) {
virStreamAbort(stream->st);
remoteFreeClientStream(client, stream);
}
if (dom)
virDomainFree(dom);
return rv;
}
#include "remote_dispatch_bodies.h"
#include "qemu_dispatch_bodies.h"
static int
remoteDispatchDomainMigrateBegin3(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_migrate_begin3_args *args,
remote_domain_migrate_begin3_ret *ret)
{
char *xml = NULL;
virDomainPtr dom = NULL;
char *dname;
char *xmlin;
char *cookieout = NULL;
int cookieoutlen = 0;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
xmlin = args->xmlin == NULL ? NULL : *args->xmlin;
dname = args->dname == NULL ? NULL : *args->dname;
if (!(xml = virDomainMigrateBegin3(dom, xmlin,
&cookieout, &cookieoutlen,
args->flags, dname, args->resource)))
goto cleanup;
/* remoteDispatchClientRequest will free cookie and
* the xml string if there is one.
*/
ret->cookie_out.cookie_out_len = cookieoutlen;
ret->cookie_out.cookie_out_val = cookieout;
ret->xml = xml;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainMigratePrepare3(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_migrate_prepare3_args *args,
remote_domain_migrate_prepare3_ret *ret)
{
char *cookieout = NULL;
int cookieoutlen = 0;
char *uri_in;
char **uri_out;
char *dname;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
uri_in = args->uri_in == NULL ? NULL : *args->uri_in;
dname = args->dname == NULL ? NULL : *args->dname;
/* Wacky world of XDR ... */
if (VIR_ALLOC(uri_out) < 0) {
virReportOOMError();
goto cleanup;
}
if (virDomainMigratePrepare3(conn,
args->cookie_in.cookie_in_val,
args->cookie_in.cookie_in_len,
&cookieout, &cookieoutlen,
uri_in, uri_out,
args->flags, dname, args->resource,
args->dom_xml) < 0)
goto cleanup;
/* remoteDispatchClientRequest will free cookie, uri_out and
* the string if there is one.
*/
ret->cookie_out.cookie_out_len = cookieoutlen;
ret->cookie_out.cookie_out_val = cookieout;
ret->uri_out = *uri_out == NULL ? NULL : uri_out;
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
VIR_FREE(uri_out);
}
return rv;
}
static int
remoteDispatchDomainMigratePrepareTunnel3(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client,
virConnectPtr conn,
remote_message_header *hdr,
remote_error *rerr,
remote_domain_migrate_prepare_tunnel3_args *args,
remote_domain_migrate_prepare_tunnel3_ret *ret)
{
char *dname;
char *cookieout = NULL;
int cookieoutlen = 0;
struct qemud_client_stream *stream = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
dname = args->dname == NULL ? NULL : *args->dname;
if (!(stream = remoteCreateClientStream(conn, hdr))) {
virReportOOMError();
goto cleanup;
}
if (virDomainMigratePrepareTunnel3(conn, stream->st,
args->cookie_in.cookie_in_val,
args->cookie_in.cookie_in_len,
&cookieout, &cookieoutlen,
args->flags, dname, args->resource,
args->dom_xml) < 0)
goto cleanup;
if (remoteAddClientStream(client, stream, 0) < 0)
goto cleanup;
/* remoteDispatchClientRequest will free cookie
*/
ret->cookie_out.cookie_out_len = cookieoutlen;
ret->cookie_out.cookie_out_val = cookieout;
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
VIR_FREE(cookieout);
}
if (stream && rv < 0) {
virStreamAbort(stream->st);
remoteFreeClientStream(client, stream);
}
return rv;
}
static int
remoteDispatchDomainMigratePerform3(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_migrate_perform3_args *args,
remote_domain_migrate_perform3_ret *ret)
{
virDomainPtr dom = NULL;
char *xmlin;
char *dname;
char *cookieout = NULL;
int cookieoutlen = 0;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
xmlin = args->xmlin == NULL ? NULL : *args->xmlin;
dname = args->dname == NULL ? NULL : *args->dname;
if (virDomainMigratePerform3(dom, xmlin,
args->cookie_in.cookie_in_val,
args->cookie_in.cookie_in_len,
&cookieout, &cookieoutlen,
args->uri,
args->flags, dname, args->resource) < 0)
goto cleanup;
/* remoteDispatchClientRequest will free cookie
*/
ret->cookie_out.cookie_out_len = cookieoutlen;
ret->cookie_out.cookie_out_val = cookieout;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainMigrateFinish3(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_migrate_finish3_args *args,
remote_domain_migrate_finish3_ret *ret)
{
virDomainPtr dom = NULL;
char *cookieout = NULL;
int cookieoutlen = 0;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (virDomainMigrateFinish3(conn, args->dname,
args->cookie_in.cookie_in_val,
args->cookie_in.cookie_in_len,
&cookieout, &cookieoutlen,
args->uri,
args->flags,
args->cancelled,
&dom) < 0)
goto cleanup;
if (dom &&
make_domain(&ret->ddom, dom) < 0)
goto cleanup;
/* remoteDispatchClientRequest will free cookie
*/
ret->cookie_out.cookie_out_len = cookieoutlen;
ret->cookie_out.cookie_out_val = cookieout;
rv = 0;
cleanup:
if (rv < 0) {
remoteDispatchError(rerr);
VIR_FREE(cookieout);
}
if (dom)
virDomainFree(dom);
return rv;
}
static int
remoteDispatchDomainMigrateConfirm3(struct qemud_server *server ATTRIBUTE_UNUSED,
struct qemud_client *client ATTRIBUTE_UNUSED,
virConnectPtr conn,
remote_message_header *hdr ATTRIBUTE_UNUSED,
remote_error *rerr,
remote_domain_migrate_confirm3_args *args,
void *ret ATTRIBUTE_UNUSED)
{
virDomainPtr dom = NULL;
int rv = -1;
if (!conn) {
virNetError(VIR_ERR_INTERNAL_ERROR, "%s", _("connection not open"));
goto cleanup;
}
if (!(dom = get_nonnull_domain(conn, args->dom)))
goto cleanup;
if (virDomainMigrateConfirm3(dom,
args->cookie_in.cookie_in_val,
args->cookie_in.cookie_in_len,
args->flags, args->cancelled) < 0)
goto cleanup;
rv = 0;
cleanup:
if (rv < 0)
remoteDispatchError(rerr);
if (dom)
virDomainFree(dom);
return rv;
}
/*----- Helpers. -----*/
/* get_nonnull_domain and get_nonnull_network turn an on-wire
* (name, uuid) pair into virDomainPtr or virNetworkPtr object.
* virDomainPtr or virNetworkPtr cannot be NULL.
*
* NB. If these return NULL then the caller must return an error.
*/
static virDomainPtr
get_nonnull_domain(virConnectPtr conn, remote_nonnull_domain domain)
{
virDomainPtr dom;
dom = virGetDomain(conn, domain.name, BAD_CAST domain.uuid);
/* Should we believe the domain.id sent by the client? Maybe
* this should be a check rather than an assignment? XXX
*/
if (dom) dom->id = domain.id;
return dom;
}
static virNetworkPtr
get_nonnull_network(virConnectPtr conn, remote_nonnull_network network)
{
return virGetNetwork(conn, network.name, BAD_CAST network.uuid);
}
static virInterfacePtr
get_nonnull_interface(virConnectPtr conn, remote_nonnull_interface iface)
{
return virGetInterface(conn, iface.name, iface.mac);
}
static virStoragePoolPtr
get_nonnull_storage_pool(virConnectPtr conn, remote_nonnull_storage_pool pool)
{
return virGetStoragePool(conn, pool.name, BAD_CAST pool.uuid);
}
static virStorageVolPtr
get_nonnull_storage_vol(virConnectPtr conn, remote_nonnull_storage_vol vol)
{
virStorageVolPtr ret;
ret = virGetStorageVol(conn, vol.pool, vol.name, vol.key);
return ret;
}
static virSecretPtr
get_nonnull_secret(virConnectPtr conn, remote_nonnull_secret secret)
{
return virGetSecret(conn, BAD_CAST secret.uuid, secret.usageType, secret.usageID);
}
static virNWFilterPtr
get_nonnull_nwfilter(virConnectPtr conn, remote_nonnull_nwfilter nwfilter)
{
return virGetNWFilter(conn, nwfilter.name, BAD_CAST nwfilter.uuid);
}
static virDomainSnapshotPtr
get_nonnull_domain_snapshot(virDomainPtr dom, remote_nonnull_domain_snapshot snapshot)
{
return virGetDomainSnapshot(dom, snapshot.name);
}
/* Make remote_nonnull_domain and remote_nonnull_network. */
static int
make_domain(remote_domain *dom_dst, virDomainPtr dom_src)
{
remote_domain rdom;
if (VIR_ALLOC(rdom) < 0)
return -1;
rdom->id = dom_src->id;
rdom->name = strdup(dom_src->name);
memcpy(rdom->uuid, dom_src->uuid, VIR_UUID_BUFLEN);
*dom_dst = rdom;
return 0;
}
static void
make_nonnull_domain(remote_nonnull_domain *dom_dst, virDomainPtr dom_src)
{
dom_dst->id = dom_src->id;
dom_dst->name = strdup(dom_src->name);
memcpy(dom_dst->uuid, dom_src->uuid, VIR_UUID_BUFLEN);
}
static void
make_nonnull_network(remote_nonnull_network *net_dst, virNetworkPtr net_src)
{
net_dst->name = strdup(net_src->name);
memcpy(net_dst->uuid, net_src->uuid, VIR_UUID_BUFLEN);
}
static void
make_nonnull_interface(remote_nonnull_interface *interface_dst,
virInterfacePtr interface_src)
{
interface_dst->name = strdup(interface_src->name);
interface_dst->mac = strdup(interface_src->mac);
}
static void
make_nonnull_storage_pool(remote_nonnull_storage_pool *pool_dst, virStoragePoolPtr pool_src)
{
pool_dst->name = strdup(pool_src->name);
memcpy(pool_dst->uuid, pool_src->uuid, VIR_UUID_BUFLEN);
}
static void
make_nonnull_storage_vol(remote_nonnull_storage_vol *vol_dst, virStorageVolPtr vol_src)
{
vol_dst->pool = strdup(vol_src->pool);
vol_dst->name = strdup(vol_src->name);
vol_dst->key = strdup(vol_src->key);
}
static void
make_nonnull_node_device(remote_nonnull_node_device *dev_dst, virNodeDevicePtr dev_src)
{
dev_dst->name = strdup(dev_src->name);
}
static void
make_nonnull_secret(remote_nonnull_secret *secret_dst, virSecretPtr secret_src)
{
memcpy(secret_dst->uuid, secret_src->uuid, VIR_UUID_BUFLEN);
secret_dst->usageType = secret_src->usageType;
secret_dst->usageID = strdup(secret_src->usageID);
}
static void
make_nonnull_nwfilter(remote_nonnull_nwfilter *nwfilter_dst, virNWFilterPtr nwfilter_src)
{
nwfilter_dst->name = strdup(nwfilter_src->name);
memcpy(nwfilter_dst->uuid, nwfilter_src->uuid, VIR_UUID_BUFLEN);
}
static void
make_nonnull_domain_snapshot(remote_nonnull_domain_snapshot *snapshot_dst, virDomainSnapshotPtr snapshot_src)
{
snapshot_dst->name = strdup(snapshot_src->name);
make_nonnull_domain(&snapshot_dst->dom, snapshot_src->domain);
}