Much much changes

mc-vm-manager/VMHelper.py

@@ -1,12 +1,21 @@
 import json
 import subprocess
 import os, errno
+import threading
+import time
+from qmp import QEMUMonitorProtocol
 
 class VMHelper:
-	def __init__(self):
-		self.config = json.load(open("/root/tmp/config.json"))
+	def __init__(self, filename):
+		self.config = json.load(open(filename))
 
-	def getPid(self,vmid):
+	def getVmIds(self):
+		if ('VMs' in self.config):
+			return [x for x , y in self.config['VMs'].items()]
+		else:
+			return []
+
+	def getPid(self,vmid) -> "int or None":
 		result = None
 		try:
 			with open(self.config['kvm']['pidfile'].replace("$VMID", vmid)) as pidfd:
@@ -17,23 +26,44 @@ class VMHelper:
 		return result
 				
 
-	def process_running(self,vmid):
+	def process_running(self,vmid) -> bool:
 
 		pid = self.getPid(vmid)
 		
 		if pid is None:	
 			return False
 
-		result = None
 		try:
 			os.kill(pid,0)
 		except OSError as e:
-			result = e.errno != errno.ESRCH
+			return e.errno != errno.ESRCH
 		else:
-			result = True
+			return True
 
+	def getQMPStatus(self,vmid):
+		# cmd doku http://git.qemu.org/?p=qemu.git;a=blob;f=qmp-commands.hx;h=1e0e11ee32571209e2dfce41b5c18f01d6ad3880;hb=HEAD
+		proto = QEMUMonitorProtocol(self.config['kvm']['qmpsocket'].replace("$VMID", vmid))
+		proto.connect()
+	
+		result = {}
+		
+		queryKvm = proto.command("query-kvm")
+		result["kvm-enabled"] = queryKvm["enabled"]
+		result["kvm-present"] = queryKvm["present"]
+
+		result["status"] = proto.command("query-status")["status"]
+
+		proto.close()
 		return result
 
+	def autostartVMs(self):
+		if ('VMs' in self.config):
+			for vmid, vmcfg in self.config['VMs'].items():
+				if "autostart" in vmcfg and vmcfg["autostart"] and not self.process_running(vmid):
+					self.startVM(vmid)
+		else:
+			raise Exception("Missing VMs config section!")
+
 	def startVM(self, vmid):
 		self.setupNetwork(vmid)
 		cmd = []
@@ -46,12 +76,77 @@ class VMHelper:
 		cmd.append("-qmp")
 		cmd.append("unix:" + self.config['kvm']['qmpsocket'].replace("$VMID", vmid) + ",server,nowait")
 
+		cmd += ["-name", vmid]
+
 		default_args = self.config['kvm']['default_args'].replace("$VMID", vmid)
 		cmd += default_args.split()
 		cmd += self.createArguments(vmid).split()
 		#print(" ".join(cmd))
 		subprocess.Popen(cmd, stdout=open("/dev/null"), stderr=open("/dev/null"))	
-		#subprocess.call(cmd)
+		#subprocess.call(cmd
+
+	def shutdownVMs(self,timeout,parallel=True, statusCallback=lambda vmid, st : None):
+		threads = []
+		for vmid in self.getVmIds():
+			if self.process_running(vmid):
+				# i=vmid: strange workaround for strange problem the it uses the wrong vmid...
+				def stopCallback(st, i=vmid): statusCallback(i, st)
+
+				thread = threading.Thread(target=lambda : self.stopVM(vmid, timeout, stopCallback))
+				thread.start()
+				if parallel:
+					threads.append(thread)
+				else:
+					thread.join()
+
+		for thread in threads:
+			thread.join()
+	
+	def stopVM(self, vmid, timeout=None, statusCallback=lambda st : None, wait=False):
+		proto = QEMUMonitorProtocol(self.config['kvm']['qmpsocket'].replace("$VMID", vmid))
+		proto.connect()
+		
+		statusCallback("send_powerdown")
+		proto.cmd("system_powerdown")
+		
+		if timeout is None and not wait:
+			proto.close()
+			return
+
+		timeoutEvent = threading.Event()
+
+		def waitForShutdown():
+			shutDown = False
+			while not timeoutEvent.is_set() and not shutDown :
+				event = proto.pull_event(wait=True)
+				shutDown = event is not None and event["event"] == 'SHUTDOWN'
+			
+		eventWaitThread = threading.Thread(target=waitForShutdown)
+		eventWaitThread.start()
+	
+		if(timeout is None and wait):
+			eventWaitThread.join()
+			proto.close()
+			return
+
+		eventWaitThread.join(timeout)
+		timeoutEvent.set()
+		if eventWaitThread.is_alive():
+			statusCallback("send_quit")
+			proto.cmd("quit")
+			time.sleep(1)
+			if(self.process_running(vmid)):
+				statusCallback("kill_vm")
+				self.killVm(vmid, 9) #kill it with fire!
+
+		proto.close()
+
+	def killVm(self, vmid, signal=15):
+		pid = self.getPid(vmid)
+		
+		if pid is not None:	
+			os.kill(pid,signal)
+
 	
 	def createArguments(self, vmid):
 		if ('VMs' in self.config) and (vmid in self.config['VMs']):

mc-vm-manager/config.json

@@ -28,7 +28,8 @@
 			"keyboard" : "de",
 			"kernel": "/home/markus/kernel-3.8.5",
 			"append": "root=/dev/vda",
-			"owner": "markus"
+			"owner": "markus",
+			"autostart" : false
 		},
 		"bar": {
 			"cpu": "kvm64",
@@ -45,7 +46,28 @@
 				"display": 2
 			},
 			"keyboard" : "de",
-			"owner": "markus"
+			"owner": "markus",
+
+			"autostart" : true 
+		},
+		"baz": {
+			"cpu": "kvm64",
+			"smp": 2,
+			"memory": 2048,
+			"cdrom": "/root/tmp/install-amd64-minimal-20130207.iso",
+			"network": {
+				"hw": "virtio",
+				"dev": "tap-baz",
+				"mac": "54:52:00:00:01:03",
+				"ip": ["192.0.2.26", "192.0.2.27"]
+			},
+			"vnc": {
+				"display": 3
+			},
+			"keyboard" : "de",
+			"owner": "markus",
+
+			"autostart" : true 
 		}
 	}
 }

mc-vm-manager/manager.py

@@ -2,33 +2,107 @@
 
 import argparse
 import sys
+import time
 from VMHelper import VMHelper
 
-helper = None
+
+#### Constants ###
+
+CONFIG_FILENAME_DEFAULT = "/root/tmp/config.json"
+SHUTDOWN_TIMEOUT = 180
+
+#### --------- ###
+
+helper = VMHelper(CONFIG_FILENAME_DEFAULT)
+stopStatusToMessage = { 
+		"send_powerdown" : "Sending ACPI poweroff Event.",
+		"send_quit" : "Shoutdown has timed out! Quitting forcefully!",
+		"kill_vm" : "Killing process!"
+		}	
+
+def vmm_list(args):
+	print("Available VMs:")
+	print()
+	for vmid in helper.getVmIds():
+		s = "ID: {0} -- {1}"
+		state = None
+		if helper.process_running(vmid):
+			state = helper.getQMPStatus(vmid)["status"]
+		else :
+			state = "stopped"
+		print(s.format(vmid,state))
+
 
 def vmm_start(args):
+	if(helper.process_running(args.vmid)):
+		print("VM {0} is already running!".format(args.vmid))
+		return
+	
 	print('Starting VM {0.vmid}.'.format(args))
 	helper.startVM(args.vmid)
+	#print("Successfully started: " + ("yes" if helper.process_running(args.vmid) else "no"))
+def vmm_shutdown(args):
+	timeout = SHUTDOWN_TIMEOUT if args.t is None or not args.t.isdigit() else int(args.t)
+	stCallback = lambda vmid, st : print("VM {0}: {1}".format(vmid, stopStatusToMessage[st]))
+
+	helper.shutdownVMs(timeout, args.s is None or args.s < 1, statusCallback=stCallback)
 
 def vmm_stop(args):
-	print('Stopping VM {0.vmid}.'.format(args))
-	helper.stopVM(args['vmid'])
+	if(not helper.process_running(args.vmid)):
+		print("VM {0} is not running!".format(args.vmid))
+		return
+
+	if args.k is not None and args.k >= 1:
+		helper.killVm(args.vmid)
+		time.sleep(0.3)
+		if helper.process_running(args.vmid):
+			time.sleep(2)
+		if helper.process_running(args.vmid):
+			helper.killVm(args.vmid , 9)
+		print("VM killed successfully: " + ("yes" if  not helper.process_running(args.vmid) else "no"))
+		return
+
+	if args.t is not None and not args.t.isdigit():
+		print ("timeout must be positve integer but is " + args.t + "!")
+		return
+	
+	timeout = int(args.t) if args.t is not None else None
+
+	print('Stopping VM {0.vmid} with timeout {1}.'.format(args,timeout))
+	
+			
+	helper.stopVM(args.vmid, timeout, lambda x: print(stopStatusToMessage[x]), wait=args.w is not None)
 
 def vmm_status(args):	
 	if args.v >= 1:
 		print('Gathering status information for VM {0.vmid}.'.format(args))
 
+	proc_running = helper.process_running(args.vmid)
+
 	print("VM ID: {0}".format(args.vmid))
-	print("Qemu process is running: " + ("yes (pid: {0})".format(helper.getPid(args.vmid)) if helper.process_running(args.vmid) else "no"))
+	print("Qemu process is running: " + ("yes (pid: {0})".format(helper.getPid(args.vmid)) if proc_running else "no"))
+	#TODO write some decoder with status descriptions  plaintext
+	
+	for key,val in helper.getQMPStatus(args.vmid).items():
+		print("{0}: {1}".format(key,val))
 
 def vmm_cleanup(args):
+	if(helper.process_running(args.vmid)):
+		print("VM {0} is running, nothing to clean up!".format(args.vmid))
+		return
+
 	print('Cleaning up for VM {0.vmid}.'.format(args))
 	helper.teardownNetwork(args.vmid)
+	#TODO remove pidfile and qmpfile
+
+def vmm_version(args):
+	print("MC VM Manager v0.1\nCopyright (c) M. Hauschild and P. Dahlberg 2013.\n")
+
+def vmm_autostart(args):
+	helper.autostartVMs()
 
 def main():
-	global helper
-
-	print("MC VM Manager v0.1\nCopyright (c) M. Hauschild and P. Dahlberg 2013.\n")
+	#maybe we need to create a lockfile
 
 	parser = argparse.ArgumentParser(prog='mcvmm', description='Manages VMs')
 	subparsers = parser.add_subparsers(title='subcommands')
@@ -38,10 +112,18 @@ def main():
 	parser_start.add_argument('vmid', action='store', help='the ID of the VM')
 	parser_start.set_defaults(func=vmm_start)
 
-	parser_stop = subparsers.add_parser('stop', help='stop a VM')
+	parser_stop = subparsers.add_parser('stop', help='Shutdown VM with ACPI poweroff')
 	parser_stop.add_argument('vmid', action='store', help='the ID of the VM')
+	parser_stop.add_argument('-t', action='store', help='forcefully quit after given timeout value (signed integer), implies -w')
+	parser_stop.add_argument('-k', action='count', help='Kill the qemu process')
+	parser_stop.add_argument('-w', action='count', help='wait until the VM has stopped')
 	parser_stop.set_defaults(func=vmm_stop)
 
+	parser_shutdown = subparsers.add_parser('shutdown', help='Shutdown all VMs ACPI poweroff and quit forcefully after timeout')
+	parser_shutdown.add_argument('-t', action='store', help='forcefully quit after given timeout value (signed integer, default: {0}'.format(SHUTDOWN_TIMEOUT))
+	parser_shutdown.add_argument('-s', action='count', help='sequencial mode, timeout for each vm')
+	parser_shutdown.set_defaults(func=vmm_shutdown)
+	
 	parser_status = subparsers.add_parser('status', help='status a VM')
 	parser_status.add_argument('-v', action='count', help='increase verbosity')
 	parser_status.add_argument('vmid', action='store', default=0, help='the ID of the VM')
@@ -51,11 +133,21 @@ def main():
 	parser_cleanup.add_argument('vmid', action='store', default=0, help='the ID of the VM')
 	parser_cleanup.set_defaults(func=vmm_cleanup)
 
-	helper = VMHelper()
+	parser_list = subparsers.add_parser('list', help='list available vms')
+	parser_list.set_defaults(func=vmm_list)
+	
+	parser_version = subparsers.add_parser('version', help='Prints version and authors')
+	parser_version.set_defaults(func=vmm_version)
+	
+	parser_autostart = subparsers.add_parser('autostart', help='Start VMs configured with autostart')
+	parser_autostart.set_defaults(func=vmm_autostart)
 	
 	args = parser.parse_args()
 
-	#TODO abfrage ob vmid existiert
+	if "vmid" in args and args.vmid not in helper.getVmIds():
+		print("VM {0} does not exist!".format(args.vmid))
+		return
+
 	args.func(args)
 
 if __name__ == '__main__':

mc-vm-manager/qmp.py

@@ -5,7 +5,7 @@
 # Authors:
 #  Luiz Capitulino <lcapitulino@redhat.com>
 #
-# This work is licensed under the terms of the GNU GPL, version 2.  See
+# This work is licensed under the terms of the GNU GPL, version 2.	See
 # the COPYING file in the top-level directory.
 
 import json
@@ -13,178 +13,182 @@ import errno
 import socket
 
 class QMPError(Exception):
-    pass
+	pass
 
 class QMPConnectError(QMPError):
-    pass
+	pass
 
 class QMPCapabilitiesError(QMPError):
-    pass
+	pass
 
 class QEMUMonitorProtocol:
-    def __init__(self, address, server=False):
-        """
-        Create a QEMUMonitorProtocol class.
+	def __init__(self, address, server=False):
+		"""
+		Create a QEMUMonitorProtocol class.
 
-        @param address: QEMU address, can be either a unix socket path (string)
-                        or a tuple in the form ( address, port ) for a TCP
-                        connection
-        @param server: server mode listens on the socket (bool)
-        @raise socket.error on socket connection errors
-        @note No connection is established, this is done by the connect() or
-              accept() methods
-        """
-        self.__events = []
-        self.__address = address
-        self.__sock = self.__get_sock()
-        if server:
-            self.__sock.bind(self.__address)
-            self.__sock.listen(1)
+		@param address: QEMU address, can be either a unix socket path (string)
+						or a tuple in the form ( address, port ) for a TCP
+						connection
+		@param server: server mode listens on the socket (bool)
+		@raise socket.error on socket connection errors
+		@note No connection is established, this is done by the connect() or
+			  accept() methods
+		"""
+		self.__events = []
+		self.__address = address
+		self.__sock = self.__get_sock()
+		if server:
+			self.__sock.bind(self.__address)
+			self.__sock.listen(1)
 
-    def __get_sock(self):
-        if isinstance(self.__address, tuple):
-            family = socket.AF_INET
-        else:
-            family = socket.AF_UNIX
-        return socket.socket(family, socket.SOCK_STREAM)
+	def __get_sock(self):
+		if isinstance(self.__address, tuple):
+			family = socket.AF_INET
+		else:
+			family = socket.AF_UNIX
+		return socket.socket(family, socket.SOCK_STREAM)
 
-    def __negotiate_capabilities(self):
-        greeting = self.__json_read()
-        if greeting is None or 'QMP' not in greeting:
-            raise QMPConnectError
-        # Greeting seems ok, negotiate capabilities
-        resp = self.cmd('qmp_capabilities')
-        if "return" in resp:
-            return greeting
-        raise QMPCapabilitiesError
+	def __negotiate_capabilities(self):
+		greeting = self.__json_read()
+		if greeting is None or 'QMP' not in greeting:
+			raise QMPConnectError
+		# Greeting seems ok, negotiate capabilities
+		resp = self.cmd('qmp_capabilities')
+		if "return" in resp:
+			return greeting
+		raise QMPCapabilitiesError
 
-    def __json_read(self, only_event=False):
-        while True:
-            data = self.__sockfile.readline()
-            if not data:
-                return
-            resp = json.loads(data)
-            if 'event' in resp:
-                self.__events.append(resp)
-                if not only_event:
-                    continue
-            return resp
+	def __json_read(self, only_event=False):
+		while True:
+			data = self.__sockfile.readline()
+			if not data:
+				return
+			resp = json.loads(data)
+			if 'event' in resp:
+				self.__events.append(resp)
+				if not only_event:
+					continue
+			return resp
 
-    error = socket.error
+	error = socket.error
 
-    def connect(self, negotiate=True):
-        """
-        Connect to the QMP Monitor and perform capabilities negotiation.
+	def connect(self, negotiate=True):
+		"""
+		Connect to the QMP Monitor and perform capabilities negotiation.
 
-        @return QMP greeting dict
-        @raise socket.error on socket connection errors
-        @raise QMPConnectError if the greeting is not received
-        @raise QMPCapabilitiesError if fails to negotiate capabilities
-        """
-        self.__sock.connect(self.__address)
-        self.__sockfile = self.__sock.makefile()
-        if negotiate:
-            return self.__negotiate_capabilities()
+		@return QMP greeting dict
+		@raise socket.error on socket connection errors
+		@raise QMPConnectError if the greeting is not received
+		@raise QMPCapabilitiesError if fails to negotiate capabilities
+		"""
+		self.__sock.connect(self.__address)
+		self.__sockfile = self.__sock.makefile()
+		if negotiate:
+			return self.__negotiate_capabilities()
 
-    def accept(self):
-        """
-        Await connection from QMP Monitor and perform capabilities negotiation.
+	def accept(self):
+		"""
+		Await connection from QMP Monitor and perform capabilities negotiation.
 
-        @return QMP greeting dict
-        @raise socket.error on socket connection errors
-        @raise QMPConnectError if the greeting is not received
-        @raise QMPCapabilitiesError if fails to negotiate capabilities
-        """
-        self.__sock, _ = self.__sock.accept()
-        self.__sockfile = self.__sock.makefile()
-        return self.__negotiate_capabilities()
+		@return QMP greeting dict
+		@raise socket.error on socket connection errors
+		@raise QMPConnectError if the greeting is not received
+		@raise QMPCapabilitiesError if fails to negotiate capabilities
+		"""
+		self.__sock, _ = self.__sock.accept()
+		self.__sockfile = self.__sock.makefile()
+		return self.__negotiate_capabilities()
 
-    def cmd_obj(self, qmp_cmd):
-        """
-        Send a QMP command to the QMP Monitor.
+	def cmd_obj(self, qmp_cmd):
+		"""
+		Send a QMP command to the QMP Monitor.
 
-        @param qmp_cmd: QMP command to be sent as a Python dict
-        @return QMP response as a Python dict or None if the connection has
-                been closed
-        """
-        try:
-            self.__sock.sendall(bytes(json.dumps(qmp_cmd), 'UTF-8'))
-        except socket.error as err:
-            if err[0] == errno.EPIPE:
-                return
-            raise socket.error(err)
-        return self.__json_read()
+		@param qmp_cmd: QMP command to be sent as a Python dict
+		@return QMP response as a Python dict or None if the connection has
+				been closed
+		"""
+		try:
+			self.__sock.sendall(bytes(json.dumps(qmp_cmd), 'UTF-8'))
+		except socket.error as err:
+			if err[0] == errno.EPIPE:
+				return
+			raise socket.error(err)
+		return self.__json_read()
 
-    def cmd(self, name, args=None, id=None):
-        """
-        Build a QMP command and send it to the QMP Monitor.
+	def cmd(self, name, args=None, id=None):
+		"""
+		Build a QMP command and send it to the QMP Monitor.
 
-        @param name: command name (string)
-        @param args: command arguments (dict)
-        @param id: command id (dict, list, string or int)
-        """
-        qmp_cmd = { 'execute': name }
-        if args:
-            qmp_cmd['arguments'] = args
-        if id:
-            qmp_cmd['id'] = id
-        return self.cmd_obj(qmp_cmd)
+		@param name: command name (string)
+		@param args: command arguments (dict)
+		@param id: command id (dict, list, string or int)
+		"""
+		qmp_cmd = { 'execute': name }
+		if args:
+			qmp_cmd['arguments'] = args
+		if id:
+			qmp_cmd['id'] = id
+		return self.cmd_obj(qmp_cmd)
 
-    def command(self, cmd, **kwds):
-        ret = self.cmd(cmd, kwds)
-        if 'error' in ret:
-            raise Exception(ret['error']['desc'])
-        return ret['return']
+	def command(self, cmd, **kwds):
+		ret = self.cmd(cmd, kwds)
+		if 'error' in ret:
+			raise Exception(ret['error']['desc'])
+		return ret['return']
 
-    def pull_event(self, wait=False):
-        """
-        Get and delete the first available QMP event.
+	def pull_event(self, wait=False):
+		"""
+		Get and delete the first available QMP event.
 
-        @param wait: block until an event is available (bool)
-        """
-        self.__sock.setblocking(0)
-        try:
-            self.__json_read()
-        except socket.error as err:
-            if err[0] == errno.EAGAIN:
-                # No data available
-                pass
-        self.__sock.setblocking(1)
-        if not self.__events and wait:
-            self.__json_read(only_event=True)
-        event = self.__events[0]
-        del self.__events[0]
-        return event
+		@param wait: block until an event is available (bool)
+		"""
+		self.__sock.setblocking(0)
+		try:
+			self.__json_read()
+		except socket.error as err:
+			if err[0] == errno.EAGAIN:
+				# No data available
+				pass
+		self.__sock.setblocking(1)
+		if not self.__events and wait:
+			self.__json_read(only_event=True)
 
-    def get_events(self, wait=False):
-        """
-        Get a list of available QMP events.
+		if len(self.__events) == 0:
+			return None
+		else:
+			event = self.__events[0]
+			del self.__events[0]
+			return event
 
-        @param wait: block until an event is available (bool)
-        """
-        self.__sock.setblocking(0)
-        try:
-            self.__json_read()
-        except socket.error as err:
-            if err[0] == errno.EAGAIN:
-                # No data available
-                pass
-        self.__sock.setblocking(1)
-        if not self.__events and wait:
-            self.__json_read(only_event=True)
-        return self.__events
+	def get_events(self, wait=False):
+		"""
+		Get a list of available QMP events.
 
-    def clear_events(self):
-        """
-        Clear current list of pending events.
-        """
-        self.__events = []
+		@param wait: block until an event is available (bool)
+		"""
+		self.__sock.setblocking(0)
+		try:
+			self.__json_read()
+		except socket.error as err:
+			if err[0] == errno.EAGAIN:
+				# No data available
+				pass
+		self.__sock.setblocking(1)
+		if not self.__events and wait:
+			self.__json_read(only_event=True)
+		return self.__events
 
-    def close(self):
-        self.__sock.close()
-        self.__sockfile.close()
+	def clear_events(self):
+		"""
+		Clear current list of pending events.
+		"""
+		self.__events = []
 
-    timeout = socket.timeout
+	def close(self):
+		self.__sock.close()
+		self.__sockfile.close()
 
-    def settimeout(self, timeout):
-        self.__sock.settimeout(timeout)
+	timeout = socket.timeout
+
+	def settimeout(self, timeout):
+		self.__sock.settimeout(timeout)