def __init__(self, context, procId):
threading.Thread.__init__(self)
# Store context reference
self.__context = context
# Initialize executor status
self.__procId = procId
self.__execStatus = server.executor.status.UNINIT
self.__execError = " "
self.__execReason = " "
self.__execKey = None
self.__execPort = None
self.__execAsRun = None
self.__execPID = None
self.__parentProc = None
self.__execLog = None
self.__controllingKey = NO_CLIENT
self.__monitoringKeys = []
self.__execLock = Queue.Queue(1)
self.__closeLock = Queue.Queue(1)
self.__contextLock = Queue.Queue(1)
self.__csp = None
self.__ready = False
self.__arguments = {}
self.__openMode = {}
self.__condition = None
# IPC interface for executors
self.__execIFC = IPCinterfaceServer("EXM-EXC")
# Obtain the executor start command
execScript = Config.instance().getProperty(CONTEXT, "ExecutorScript")
pythonBin = os.getenv("PYTHON", "python")
arguments = "-c \"" + Config.instance().filename + "\" -n \"" +\
self.__context.ctxName + "\"" + " -p \"" + self.__procId + "\""
self.__execScript = pythonBin + " \"" + execScript + "\" " + arguments
def __init__(self, warmStart=False):
self.openContexts = {}
self.buffer = Queue(1)
self.GUI_Operations = GUIOperations(self)
# Obtain the list of available contexts from cfg file
self.contexts = Config.instance().getAvailableContexts()
# Update the context status map (all available)
for ctx in self.contexts:
self.contextPorts[ctx] = 0
self.contextStatus[ctx] = LstMessages.DATA_CTX_AVAILABLE
self.__ctxIFC = IPCinterfaceServer("LST-CTX")
self.__guiIFC = IPCinterfaceServer("LST-GUI")
self.__clientLock = thread.allocate_lock()
self.__ctxLock = thread.allocate_lock()
self.__contextRegistry = ProcessRegistry("LST", warmStart)
def __init__(self, warmStart=False):
self.openContexts = {}
self.buffer = Queue(1)
self.GUI_Operations = GUIOperations(self)
# Obtain the list of available contexts from cfg file
self.contexts = Config.instance().getAvailableContexts()
# Update the context status map (all available)
for ctx in self.contexts:
self.contextPorts[ctx] = 0
self.contextStatus[ctx] = LstMessages.DATA_CTX_AVAILABLE
self.__ctxIFC = IPCinterfaceServer("LST-CTX")
self.__guiIFC = IPCinterfaceServer("LST-GUI")
self.__clientLock = thread.allocate_lock()
self.__ctxLock = thread.allocate_lock()
self.__contextRegistry = ProcessRegistry("LST", warmStart)
def __init__(self, context, procId):
threading.Thread.__init__(self)
# Store context reference
self.__context = context
# Initialize executor status
self.__procId = procId
self.__execStatus = server.executor.status.UNINIT
self.__execError = " "
self.__execReason = " "
self.__execKey = None
self.__execPort = None
self.__execAsRun = None
self.__execPID = None
self.__parentProc = None
self.__execLog = None
self.__controllingKey = NO_CLIENT
self.__monitoringKeys = []
self.__execLock = Queue.Queue(1)
self.__closeLock = Queue.Queue(1)
self.__contextLock = Queue.Queue(1)
self.__csp = None
self.__ready = False
self.__arguments = {}
self.__openMode = {}
self.__condition = None
# IPC interface for executors
self.__execIFC = IPCinterfaceServer("EXM-EXC")
# Obtain the executor start command
execScript = Config.instance().getProperty(CONTEXT, "ExecutorScript")
pythonBin = os.getenv("PYTHON", "python")
arguments = "-c \"" + Config.instance().filename + "\" -n \"" +\
self.__context.ctxName + "\"" + " -p \"" + self.__procId + "\""
self.__execScript = pythonBin + " \"" + execScript + "\" " + arguments
def __init__(self, ctxName, listenerPort, warmStart=False):
LOG("Created context", level=LOG_INIT)
self.ctxName = ctxName
self.port = None
self.__executorInstanceNumbers = {}
self.__executorManagers = {}
self.__clientInfo = {}
self.GUI_Operations = GUIOperations(self)
self.LST_Operations = LSTOperations(self)
self.EXC_Operations = EXCOperations(self)
self.__guiIFC = IPCinterfaceServer("CTX-GUI")
self.__lstIFC = IPCinterfaceClient("CTX-LST")
self.listenerPort = listenerPort
self.__clientLock = thread.allocate_lock()
self.__execLock = thread.allocate_lock()
self.__closeLock = Queue.Queue(1)
self.__executorsRegistry = ProcessRegistry("CTX_" + ctxName, warmStart)
def __init__(self, ctxName, listenerPort, warmStart = False):
LOG("Created context", level = LOG_INIT)
self.ctxName = ctxName
self.port = None
self.__executorInstanceNumbers = {}
self.__executorManagers = {}
self.__clientInfo = {}
self.GUI_Operations = GUIOperations(self)
self.LST_Operations = LSTOperations(self)
self.EXC_Operations = EXCOperations(self)
self.__guiIFC = IPCinterfaceServer("CTX-GUI")
self.__lstIFC = IPCinterfaceClient("CTX-LST")
self.listenerPort = listenerPort
self.__clientLock = thread.allocate_lock()
self.__execLock = thread.allocate_lock()
self.__closeLock = Queue.Queue(1)
self.__executorsRegistry = ProcessRegistry("CTX_" + ctxName, warmStart)
def __init__(self, context, procId):
threading.Thread.__init__(self)
# Store context reference
self.__context = context
# Initialize executor status
self.__procId = procId
self.__execStatus = server.executor.status.UNINIT
self.__execError = " "
self.__execReason = " "
self.__execKey = None
self.__execPort = None
self.__execAsRun = None
self.__execPID = None
self.__parentProc = None
self.__execLog = None
self.__controllingKey = NO_CLIENT
self.__monitoringKeys = []
self.__execLock = Queue.Queue(1)
self.__closeLock = Queue.Queue(1)
self.__contextLock = Queue.Queue(1)
self.__csp = None
self.__ready = False
self.__arguments = {}
self.__openMode = {}
self.__condition = None
self.__userAction = None
self.__userActionEnabled = False
self.__userActionSeverity = "INFO"
# IPC interface for executors
self.__execIFC = IPCinterfaceServer("EXM-EXC")
# Obtain the executor start command
execScript = Config.instance().getProperty(CONTEXT, "ExecutorScript")
arguments = (
'-c "'
+ Config.instance().filename
+ '" -n "'
+ self.__context.ctxName
+ '"'
+ " -p "
+ self.__procId
+ " -w "
)
self.__execScript = execScript + " " + arguments
class ListenerClass(object):
"""
Main class of the SPEL Listener entity. Listens at a given port waiting for
GUI connections. Manages the SPEL Context processes on GUI requests.
"""
# Client key list
clientKeys = []
# Context list
contexts = []
# Holds contextID / key pairs
contextKeys = {}
# Holds contextID / port pairs
contextPorts = {}
# Context status (available/running)
contextStatus = {}
# GUI operations delegate
GUI_Operations = None
# Synchronization issues
buffer = None
# IPC context interface
__ctxIFC = None
# IPC gui interface
__guiIFC = None
# Client lock
__clientLock = None
# Context lock
__ctxLock = None
#===========================================================================
def __init__(self, warmStart=False):
self.openContexts = {}
self.buffer = Queue(1)
self.GUI_Operations = GUIOperations(self)
# Obtain the list of available contexts from cfg file
self.contexts = Config.instance().getAvailableContexts()
# Update the context status map (all available)
for ctx in self.contexts:
self.contextPorts[ctx] = 0
self.contextStatus[ctx] = LstMessages.DATA_CTX_AVAILABLE
self.__ctxIFC = IPCinterfaceServer("LST-CTX")
self.__guiIFC = IPCinterfaceServer("LST-GUI")
self.__clientLock = thread.allocate_lock()
self.__ctxLock = thread.allocate_lock()
self.__contextRegistry = ProcessRegistry("LST", warmStart)
#===========================================================================
def start(self):
# Get the port number from configuration
port = Config.instance().getProperty(LISTENER, "ListenerPort")
LOG("Listening at port: " + str(port), level = LOG_INIT )
# Setup the GUI io channel
LOG("Setting up GUI channel", level = LOG_INIT)
self.__guiIFC.connect(999, int(port), self.processGuiMessage, self.processGuiRequest, self.clientConnectionLost)
self.__guiIFC.start()
# Setup the Context io channel
LOG("Setting up CTX channel", level = LOG_INIT)
self.__ctxIFC.connect(998,0,self.processCtxMessage, self.processCtxRequest, self.contextConnectionLost)
self.__ctxIFC.start()
LOG("Ready", level = LOG_INIT )
#Restoring warm context
for contextInfo in self.__contextRegistry.getProcesses():
#Only during startup we open contexts in warm mode
self.openContext(contextInfo.getName(), None, True)
#===========================================================================
def stop(self):
LOG("Stopping, closing contexts", level = LOG_PROC )
for contextName in self.contexts:
if self.isContextRunning(contextName):
self.closeContext(contextName)
LOG("Killing remaining processes", level = LOG_PROC )
ProcessManager.instance().killAll()
self.__guiIFC.disconnect()
self.__ctxIFC.disconnect()
LOG("Disconnected", level = LOG_INIT )
#===========================================================================
def clientConnectionLost(self, clientKey):
if clientKey in self.clientKeys:
LOG("Listener lost connection with client: " + repr(clientKey), LOG_ERROR )
self.clientKeys.remove(clientKey)
#===========================================================================
def contextConnectionLost(self, contextKey):
# Obtain the corresponding name from the key
for key in self.contextKeys:
if self.contextKeys[key] == contextKey:
contextName = key
originalStatus = self.contextStatus[contextName]
self.contextStatus[contextName] = LstMessages.DATA_CTX_ERROR
if not originalStatus == LstMessages.DATA_CTX_STARTING:
LOG("Listener lost connection with starting context " + repr(contextName), LOG_ERROR)
else:
LOG("Listener lost connection with context " + repr(contextName), LOG_ERROR)
self.notifyContextCrash(contextName)
self.clearContext(contextName)
self.__ctxIFC.disconnect(contextKey, eoc = False)
LOG("Context-lost done")
#===========================================================================
def contextProcessLost(self, contextName, retCode):
if (retCode == 0) and not contextName in self.contextKeys:
LOG("Context finished with code 0")
return
self.contextStatus[contextName] = LstMessages.DATA_CTX_ERROR
if contextName in self.contexts:
LOG("Listener lost track of context " + repr(contextName), LOG_ERROR)
self.notifyContextCrash(contextName)
self.clearContext(contextName)
if contextName in self.contextKeys:
contextKey = self.contextKeys[contextName]
self.__ctxIFC.disconnect(contextKey, eoc = False)
LOG("Done")
#===========================================================================
def processGuiMessage(self, msg):
self.__clientLock.acquire()
LOG("Received GUI message: " + msg.getId(), level = LOG_COMM)
guiKey = int(msg.getKey())
if msg.getId() == LstMessages.MSG_GUI_LOGIN:
LOG("Client logged in: " + str(guiKey), level = LOG_PROC)
self.clientKeys.append(guiKey)
elif msg.getId() == LstMessages.MSG_GUI_LOGOUT:
self.clientKeys.remove(guiKey)
LOG("Client logged out: " + str(guiKey), level = LOG_PROC)
else:
LOG("ERROR: unknown message from client: " + str(msg.getId()), LOG_ERROR)
self.__clientLock.release()
#===========================================================================
def processCtxMessage(self, msg):
self.__ctxLock.acquire()
LOG("Received Context message: " + msg.getId(), level = LOG_COMM)
if msg.getId() == LstMessages.MSG_CONTEXT_OPEN:
contextName = msg[LstMessages.FIELD_CTX_NAME]
LOG("Context logged in: " + contextName, level = LOG_PROC)
contextKey = int(msg.getKey())
ctxPort = msg[LstMessages.FIELD_CTX_PORT]
self.contextPorts[contextName] = ctxPort
self.contextStatus[contextName] = LstMessages.DATA_CTX_RUNNING
self.contextKeys[contextName] = contextKey
self.buffer.put(ctxPort, True)
elif msg.getId() == LstMessages.MSG_CONTEXT_CLOSED:
contextName = msg[LstMessages.FIELD_CTX_NAME]
contextKey = int(msg.getKey())
LOG("Context logged out: " + contextName + ":" + repr(contextKey), level = LOG_PROC)
self.contextStatus[contextName] = LstMessages.DATA_CTX_AVAILABLE
self.buffer.put(contextName, True)
else:
LOG("ERROR: unknown message from context:" + str(msg.getId()), LOG_ERROR)
self.__ctxLock.release()
#===========================================================================
def processGuiRequest(self, msg):
self.__clientLock.acquire()
resp = self.GUI_Operations.processRequest(msg)
self.__clientLock.release()
return resp
#===========================================================================
def processCtxRequest(self, msg):
self.__ctxLock.acquire()
resp = self.createResponse("NONE", msg)
self.__ctxLock.release()
return resp
#===========================================================================
def openContext(self, contextName, clientKey = None, warm = False ):
ctxScript = Config.instance().getProperty(LISTENER, "ContextScript")
ctxScript = Config.instance().getHome() + os.sep + ctxScript
arguments = "-c \"" + Config.instance().filename + "\" -n \"" + contextName + "\""
arguments += " -s " + str(self.__ctxIFC.port)
if warm == True:
arguments += " -w"
pythonBin = os.getenv("PYTHON", "python")
ctxScript = pythonBin + " \"" + ctxScript + "\" " + arguments
# Set the status as starting (internal)
self.contextStatus[contextName] = LstMessages.DATA_CTX_STARTING
LOG("Starting context: '" + contextName + "'", level = LOG_PROC )
pid = ProcessManager.instance().startProcess( contextName, ctxScript, self.contextProcessLost )
LOG("Context started with pid " + str(pid), level = LOG_PROC )
LOG("Waiting context port", level = LOG_PROC )
try:
ctxPort = self.buffer.get(True,CONTEXT_START_TIMEO)
LOG("Context port is " + str(ctxPort), level = LOG_PROC )
# Set the status as started
self.contextStatus[contextName] = LstMessages.DATA_CTX_RUNNING
self.notifyContextUpdate(contextName,clientKey)
self.__contextRegistry.addProcess(pid,contextName)
return ctxPort
except BaseException,ex:
txt = "Failed to open context"
reason = "Unable to get context listening port"
LOG(txt + ": " + reason, LOG_ERROR)
self.killContext(contextName)
# Set the status as error
self.contextStatus[contextName] = LstMessages.DATA_CTX_ERROR
self.notifyContextUpdate(contextName,clientKey,txt,reason)
return None
class ListenerClass(object):
"""
Main class of the SPEL Listener entity. Listens at a given port waiting for
GUI connections. Manages the SPEL Context processes on GUI requests.
"""
# Client key list
clientKeys = []
# Context list
contexts = []
# Holds contextID / key pairs
contextKeys = {}
# Holds contextID / port pairs
contextPorts = {}
# Context status (available/running)
contextStatus = {}
# GUI operations delegate
GUI_Operations = None
# Synchronization issues
buffer = None
# IPC context interface
__ctxIFC = None
# IPC gui interface
__guiIFC = None
# Client lock
__clientLock = None
# Context lock
__ctxLock = None
#===========================================================================
def __init__(self, warmStart=False):
self.openContexts = {}
self.buffer = Queue(1)
self.GUI_Operations = GUIOperations(self)
# Obtain the list of available contexts from cfg file
self.contexts = Config.instance().getAvailableContexts()
# Update the context status map (all available)
for ctx in self.contexts:
self.contextPorts[ctx] = 0
self.contextStatus[ctx] = LstMessages.DATA_CTX_AVAILABLE
self.__ctxIFC = IPCinterfaceServer("LST-CTX")
self.__guiIFC = IPCinterfaceServer("LST-GUI")
self.__clientLock = thread.allocate_lock()
self.__ctxLock = thread.allocate_lock()
self.__contextRegistry = ProcessRegistry("LST", warmStart)
#===========================================================================
def start(self):
# Get the port number from configuration
port = Config.instance().getProperty(LISTENER, "ListenerPort")
LOG("Listening at port: " + str(port), level=LOG_INIT)
# Setup the GUI io channel
LOG("Setting up GUI channel", level=LOG_INIT)
self.__guiIFC.connect(999, int(port), self.processGuiMessage,
self.processGuiRequest,
self.clientConnectionLost)
self.__guiIFC.start()
# Setup the Context io channel
LOG("Setting up CTX channel", level=LOG_INIT)
self.__ctxIFC.connect(998, 0, self.processCtxMessage,
self.processCtxRequest,
self.contextConnectionLost)
self.__ctxIFC.start()
LOG("Ready", level=LOG_INIT)
#Restoring warm context
for contextInfo in self.__contextRegistry.getProcesses():
#Only during startup we open contexts in warm mode
self.openContext(contextInfo.getName(), None, True)
#===========================================================================
def stop(self):
LOG("Stopping, closing contexts", level=LOG_PROC)
for contextName in self.contexts:
if self.isContextRunning(contextName):
self.closeContext(contextName)
LOG("Killing remaining processes", level=LOG_PROC)
ProcessManager.instance().killAll()
self.__guiIFC.disconnect()
self.__ctxIFC.disconnect()
LOG("Disconnected", level=LOG_INIT)
#===========================================================================
def clientConnectionLost(self, clientKey):
if clientKey in self.clientKeys:
LOG("Listener lost connection with client: " + repr(clientKey),
LOG_ERROR)
self.clientKeys.remove(clientKey)
#===========================================================================
def contextConnectionLost(self, contextKey):
# Obtain the corresponding name from the key
for key in self.contextKeys:
if self.contextKeys[key] == contextKey:
contextName = key
originalStatus = self.contextStatus[contextName]
self.contextStatus[contextName] = LstMessages.DATA_CTX_ERROR
if not originalStatus == LstMessages.DATA_CTX_STARTING:
LOG(
"Listener lost connection with starting context " +
repr(contextName), LOG_ERROR)
else:
LOG("Listener lost connection with context " + repr(contextName),
LOG_ERROR)
self.notifyContextCrash(contextName)
self.clearContext(contextName)
self.__ctxIFC.disconnect(contextKey, eoc=False)
LOG("Context-lost done")
#===========================================================================
def contextProcessLost(self, contextName, retCode):
if (retCode == 0) and not contextName in self.contextKeys:
LOG("Context finished with code 0")
return
self.contextStatus[contextName] = LstMessages.DATA_CTX_ERROR
if contextName in self.contexts:
LOG("Listener lost track of context " + repr(contextName),
LOG_ERROR)
self.notifyContextCrash(contextName)
self.clearContext(contextName)
if contextName in self.contextKeys:
contextKey = self.contextKeys[contextName]
self.__ctxIFC.disconnect(contextKey, eoc=False)
LOG("Done")
#===========================================================================
def processGuiMessage(self, msg):
self.__clientLock.acquire()
LOG("Received GUI message: " + msg.getId(), level=LOG_COMM)
guiKey = int(msg.getKey())
if msg.getId() == LstMessages.MSG_GUI_LOGIN:
LOG("Client logged in: " + str(guiKey), level=LOG_PROC)
self.clientKeys.append(guiKey)
elif msg.getId() == LstMessages.MSG_GUI_LOGOUT:
self.clientKeys.remove(guiKey)
LOG("Client logged out: " + str(guiKey), level=LOG_PROC)
else:
LOG("ERROR: unknown message from client: " + str(msg.getId()),
LOG_ERROR)
self.__clientLock.release()
#===========================================================================
def processCtxMessage(self, msg):
self.__ctxLock.acquire()
LOG("Received Context message: " + msg.getId(), level=LOG_COMM)
if msg.getId() == LstMessages.MSG_CONTEXT_OPEN:
contextName = msg[LstMessages.FIELD_CTX_NAME]
LOG("Context logged in: " + contextName, level=LOG_PROC)
contextKey = int(msg.getKey())
ctxPort = msg[LstMessages.FIELD_CTX_PORT]
self.contextPorts[contextName] = ctxPort
self.contextStatus[contextName] = LstMessages.DATA_CTX_RUNNING
self.contextKeys[contextName] = contextKey
self.buffer.put(ctxPort, True)
elif msg.getId() == LstMessages.MSG_CONTEXT_CLOSED:
contextName = msg[LstMessages.FIELD_CTX_NAME]
contextKey = int(msg.getKey())
LOG("Context logged out: " + contextName + ":" + repr(contextKey),
level=LOG_PROC)
self.contextStatus[contextName] = LstMessages.DATA_CTX_AVAILABLE
self.buffer.put(contextName, True)
else:
LOG("ERROR: unknown message from context:" + str(msg.getId()),
LOG_ERROR)
self.__ctxLock.release()
#===========================================================================
def processGuiRequest(self, msg):
self.__clientLock.acquire()
resp = self.GUI_Operations.processRequest(msg)
self.__clientLock.release()
return resp
#===========================================================================
def processCtxRequest(self, msg):
self.__ctxLock.acquire()
resp = self.createResponse("NONE", msg)
self.__ctxLock.release()
return resp
#===========================================================================
def openContext(self, contextName, clientKey=None, warm=False):
ctxScript = Config.instance().getProperty(LISTENER, "ContextScript")
ctxScript = Config.instance().getHome() + os.sep + ctxScript
arguments = "-c \"" + Config.instance(
).filename + "\" -n \"" + contextName + "\""
arguments += " -s " + str(self.__ctxIFC.port)
if warm == True:
arguments += " -w"
pythonBin = os.getenv("PYTHON", "python")
ctxScript = pythonBin + " \"" + ctxScript + "\" " + arguments
# Set the status as starting (internal)
self.contextStatus[contextName] = LstMessages.DATA_CTX_STARTING
LOG("Starting context: '" + contextName + "'", level=LOG_PROC)
pid = ProcessManager.instance().startProcess(contextName, ctxScript,
self.contextProcessLost)
LOG("Context started with pid " + str(pid), level=LOG_PROC)
LOG("Waiting context port", level=LOG_PROC)
try:
ctxPort = self.buffer.get(True, CONTEXT_START_TIMEO)
LOG("Context port is " + str(ctxPort), level=LOG_PROC)
# Set the status as started
self.contextStatus[contextName] = LstMessages.DATA_CTX_RUNNING
self.notifyContextUpdate(contextName, clientKey)
self.__contextRegistry.addProcess(pid, contextName)
return ctxPort
except BaseException, ex:
txt = "Failed to open context"
reason = "Unable to get context listening port"
LOG(txt + ": " + reason, LOG_ERROR)
self.killContext(contextName)
# Set the status as error
self.contextStatus[contextName] = LstMessages.DATA_CTX_ERROR
self.notifyContextUpdate(contextName, clientKey, txt, reason)
return None
class ContextClass(object):
# Holds the context name
ctxName = None
# Holds the listening port for GUIs
port = None
# Holds the listener port
listenerPort = None
# Holds the set of instance numbers for each executor id
__executorInstanceNumbers = {}
# Holds the set of executor managers
__executorManagers = {}
# Holds the set of clients
__clientInfo = {}
# GUI operations delegate
GUI_Operations = None
# Listener operations delegate
LST_Operations = None
# Executor operations delegate
EXC_Operations = None
# IPC interface for clients
__guiIFC = None
# IPC interface for listener
__lstIFC = None
# Lock for clients
__clientLock = None
# Lock for executors
__execLock = None
# Lock for context process closure
__closeLock = None
#Process registry for registering opened executors in a file
__executorsRegistry = None
#===========================================================================
def __init__(self, ctxName, listenerPort, warmStart=False):
LOG("Created context", level=LOG_INIT)
self.ctxName = ctxName
self.port = None
self.__executorInstanceNumbers = {}
self.__executorManagers = {}
self.__clientInfo = {}
self.GUI_Operations = GUIOperations(self)
self.LST_Operations = LSTOperations(self)
self.EXC_Operations = EXCOperations(self)
self.__guiIFC = IPCinterfaceServer("CTX-GUI")
self.__lstIFC = IPCinterfaceClient("CTX-LST")
self.listenerPort = listenerPort
self.__clientLock = thread.allocate_lock()
self.__execLock = thread.allocate_lock()
self.__closeLock = Queue.Queue(1)
self.__executorsRegistry = ProcessRegistry("CTX_" + ctxName, warmStart)
#===========================================================================
def start(self):
LOG("Loading procedures for this context", level=LOG_INIT)
ProcedureManager.instance().setup(self.ctxName)
LOG("Setting up GUI channel", level=LOG_INIT)
# Setup the Gui io channel
self.__guiIFC.connect(888, 0, self.processGuiMessage,
self.processGuiRequest, self.guiConnectionLost)
self.__guiIFC.start()
LOG("Connecting to listener", level=LOG_INIT)
# Setup the Listener io channel
self.__lstIFC.connect("localhost", self.listenerPort,
self.processListenerMessage,
self.processListenerRequest,
self.lstConnectionLost)
LOG("Using listening port: " + str(self.__guiIFC.port), level=LOG_INIT)
portMsg = MsgHelper.createMessage(LstMessages.MSG_CONTEXT_OPEN)
portMsg[LstMessages.FIELD_CTX_NAME] = self.ctxName
portMsg[LstMessages.FIELD_CTX_PORT] = str(self.__guiIFC.port)
portMsg.setSender("CTX")
portMsg.setReceiver("LST")
self.__lstIFC.sendMessage(portMsg)
LOG("Ready", level=LOG_INIT)
sys.stderr.write("*********************************************\n")
sys.stderr.write(" SPEL Context (" + ctxName + ") Ready \n")
sys.stderr.write("*********************************************\n")
#for executorInfo in self.__executorRegistry.getProcesses():
# #Launch executors stored in warm file
# self.openExecutor(executorInfo.getName(), clientKey, clientMode)
#===========================================================================
def stop(self):
# Force closing all executors
LOG("Closing executors", level=LOG_PROC)
self.closeAll()
# Disconnect comm interfaces
LOG("Disconnecting from GUI", level=LOG_PROC)
self.__guiIFC.disconnect()
LOG("Logout from listener", level=LOG_PROC)
logoutMsg = MsgHelper.createMessage(LstMessages.MSG_CONTEXT_CLOSED)
logoutMsg[LstMessages.FIELD_CTX_NAME] = self.ctxName
logoutMsg.setSender("CTX")
logoutMsg.setReceiver("LST")
self.__lstIFC.sendMessage(logoutMsg)
self.__lstIFC.disconnect()
LOG("Disconnected", level=LOG_PROC)
self.__closeLock.put(1)
#===========================================================================
def closeAll(self):
if len(self.getExecutors()) == 0:
LOG("No executors to be closed")
return
for procId in self.getExecutors():
LOG("Close all: " + procId)
executor = self.getExecutor(procId)
if executor:
executor.stop()
executor.waitForClose()
#===========================================================================
def waitForClose(self):
self.__closeLock.get(True)
#===========================================================================
def guiConnectionLost(self, clientKey):
if clientKey in self.getClients():
LOG("Context lost connection with client: " + repr(clientKey),
LOG_ERROR)
self.removeClient(clientKey)
#===========================================================================
def lstConnectionLost(self, lstKey):
LOG("Lost connection with listener", LOG_ERROR)
self.__lstIFC.disconnect(eoc=False)
LOG("Notifying listener connection lost")
# Build the notification message
msg = MsgHelper.createMessage(CtxMessages.MSG_LISTENER_LOST)
msg.setType(MSG_TYPE_ERROR)
msg[FIELD_ERROR] = "Lost connection with listener"
msg[FIELD_REASON] = " "
clientKeys = []
for client in self.getClients():
clientKeys.append(int(client))
if len(clientKeys) > 0:
self.messageToClients("CTX", clientKeys, msg)
LOG("Done")
return
#===========================================================================
def processGuiMessage(self, msg):
if not self.GUI_Operations.processMessage(msg):
# If the message is not processed locally, forward it to executors
procId = msg[ExcMessages.FIELD_PROC_ID]
# Forward message to the corresponding executor
clientKey = int(msg.getKey())
self.messageToExecutor(clientKey, procId, msg)
return
#===========================================================================
def processGuiRequest(self, msg):
LOG("Process GUI request: " + msg.getId(), level=LOG_COMM)
resp = None
resp = self.GUI_Operations.processRequest(msg)
if resp is None:
# if the request is not processed locally, forward it to executors
procId = msg[ExcMessages.FIELD_PROC_ID]
if not procId in self.getExecutors():
resp = MsgHelper.createError(
msg.getId(), msg,
"Unable to forward request " + msg.getId(),
"No such executor: " + repr(procId))
else:
clientKey = int(msg.getKey())
LOG("Send GUI request to executor: " + msg.getId(),
level=LOG_COMM)
resp = self.requestToExecutor(clientKey, procId, msg)
LOG("Process GUI request: " + msg.getId() + " finished",
level=LOG_COMM)
return resp
#===========================================================================
def processListenerMessage(self, msg):
self.LST_Operations.processMessage(msg)
#===========================================================================
def processListenerRequest(self, msg):
resp = self.LST_Operations.processRequest(msg)
return resp
#===========================================================================
def processExecutorMessage(self, msg):
self.EXC_Operations.processMessage(msg)
#===========================================================================
def processExecutorRequest(self, msg):
resp = self.EXC_Operations.processRequest(msg)
return resp
#===========================================================================
def messageToClients(self, procId, clientKeys, msg):
for clientKey in clientKeys:
LOG("Forwarding message " + msg.getId() + " from executor " +
procId + " to client " + repr(clientKey),
level=LOG_COMM)
# If the client key is a procedure id, it means the request is to
# be sent to another procedure
msg.setSender(procId)
if type(clientKey) == int:
msg.setReceiver("GUI-" + str(clientKey))
resp = self.__guiIFC.sendMessage(msg, clientKey)
else:
parentProc = clientKey
msg.setReceiver(parentProc)
resp = self.messageToExecutor(procId, parentProc, msg)
#===========================================================================
def requestToClients(self, procId, clientKeys, msg):
LOG("Forward executor " + procId + " request " + msg.getId() +
" to clients",
level=LOG_COMM)
firstResp = None
if len(clientKeys) == 0:
LOG("No clients to attend request. Discarding it",
LOG_WARN,
level=LOG_COMM)
firstResp = MsgHelper.createError(msg.getId(), msg,
"Cannot dispatch request",
"No clients connected")
for clientKey in clientKeys:
msg.setSender(procId)
# If the client key is a procedure id, it means the request is to
# be sent to another procedure
if type(clientKey) == int:
msg.setReceiver("GUI-" + str(clientKey))
resp = self.__guiIFC.forwardRequest(msg, clientKey)
else:
parentProc = clientKey
msg.setReceiver(parentProc)
resp = self.requestToExecutor(procId, parentProc, msg)
if firstResp is None: firstResp = resp
LOG("Request to clients '" + msg.getId() + "' finished",
level=LOG_COMM)
return firstResp
#===========================================================================
def messageToExecutor(self, clientKey, procId, msg):
if procId in self.getExecutors():
exc = self.getExecutor(procId)
if exc: exc.messageToExecutor(clientKey, msg)
#===========================================================================
def requestToExecutor(self, clientKey, procId, msg):
LOG("Forward client " + repr(clientKey) + " request " + msg.getId() +
" to executor " + procId,
level=LOG_COMM)
resp = None
if procId in self.getExecutors():
exc = self.getExecutor(procId)
if exc: resp = exc.requestToExecutor(clientKey, msg)
if resp is None:
resp = MsgHelper.createError(msg.getId(), msg,
"Unable to forward request",
"No such executor")
LOG("Request to executor " + msg.getId() + " finished", level=LOG_COMM)
return resp
#===========================================================================
def createExecutor(self, procId):
self.__execLock.acquire()
try:
LOG("Creating executor manager for " + repr(procId))
manager = ExecutorManagerClass(self, procId)
self.__executorManagers[procId] = manager
LOG("Manager created")
finally:
self.__execLock.release()
return manager
#===========================================================================
def getInstanceId(self, procId):
self.__execLock.acquire()
try:
instance = 0
LOG("Obtain available instance for " + repr(procId))
if procId in self.__executorInstanceNumbers:
for i in range(0, 50):
if not i in self.__executorInstanceNumbers[procId]:
instance = i
break
self.__executorInstanceNumbers[procId].append(instance)
else:
self.__executorInstanceNumbers[procId] = [instance]
procId = procId + "#" + str(instance)
LOG("Instance is " + repr(procId))
finally:
self.__execLock.release()
return procId
#===========================================================================
def openExecutor(self,
procId,
clientKey,
clientMode,
openMode={},
arguments=None,
condition=None,
parentId=None):
ctxInfo = Config.instance().getContextConfig(self.ctxName)
driverName = ctxInfo.getDriver()
maxProcs = int(
Config.instance().getDriverConfig(driverName).getMaxProcs())
if maxProcs > 0:
activeProcs = self.getNumActiveProcs()
if (activeProcs >= maxProcs):
raise ContextError(
"Could not launch executor. Maximum number of processes reached ("
+ str(maxProcs) + ")")
success = False
LOG("Requested opening executor " + repr(procId), level=LOG_PROC)
executor = self.createExecutor(procId)
# Update the proc id with the instance number
procId = executor.getProcId()
# Get configuration defaults for open mode and update it
#TODO: get open mode defaults from config
useOpenMode = {Automatic: False, Visible: True, Blocking: True}
useOpenMode.update(openMode)
# Set the controlling client key if the procedure is visible
if useOpenMode[Visible] == True:
clientInfo = self.getClient(clientKey)
executor.addClient(clientInfo, True)
clientInfo.addExecutor(procId)
clientInfo.setMode(clientMode)
LOG("Launching executor " + repr(procId) + " in mode " +
repr(useOpenMode),
level=LOG_PROC)
if arguments:
executor.setArguments(arguments)
if condition:
executor.setCondition(condition)
if parentId:
executor.setParent(parentId)
# Set the open mode and open the executor
executor.setOpenMode(useOpenMode)
executor.start()
success = executor.waitForOpen()
LOG("Executor launched (" + repr(success) + ")", level=LOG_PROC)
if not success:
error, reason = executor.getError()
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_CLOSE)
self.killExecutor(procId)
self.clearExecutor(procId)
raise ContextError("Could not launch executor",
error + ":" + reason)
else:
initialStatus = executor.getStatus()
if initialStatus == server.executor.status.ERROR:
error, reason = executor.getError()
self.notifyExecutorOperation(procId,
CtxMessages.DATA_EXOP_CLOSE)
self.killExecutor(procId)
self.clearExecutor(procId)
raise ContextError("Executor failed startup",
error + ":" + reason)
else:
pid = executor.getExecutorPid()
self.__executorsRegistry.addProcess(pid, procId)
LOG("Notifying executor open", level=LOG_PROC)
self.notifyExecutorOperation(procId,
CtxMessages.DATA_EXOP_OPEN,
clientKey, clientMode)
LOG("Open finished")
return
#===========================================================================
def closeExecutor(self, procId):
LOG("Requested closing executor " + repr(procId))
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
LOG("Closing executor")
executor.stop()
success = executor.waitForClose()
LOG("Executor closed (" + repr(success) + ")")
if not success:
error, reason = executor.getError()
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_CLOSE)
self.killExecutor(procId)
self.clearExecutor(procId)
raise ContextError("Could not close executor",
error + ":" + reason)
else:
LOG("Notifying executor close", level=LOG_PROC)
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_CLOSE)
self.clearExecutor(procId)
LOG("Close finished")
return
#===========================================================================
def clearExecutor(self, procId):
LOG("Clearing executor for " + repr(procId))
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
# Remove executor from client infos
clients = executor.getClients()
for client in clients:
self.getClient(client).delExecutor(procId)
self.__execLock.acquire()
try:
# Remove executor manager
del self.__executorManagers[procId]
# Remove the corresponding instance from the list
idx = procId.find("#")
id = procId[0:idx]
instance = int(procId[idx + 1:])
# Remove from the registry
self.__executorsRegistry.removeProcess(procId)
if id in self.__executorInstanceNumbers:
self.__executorInstanceNumbers[id].remove(instance)
if len(self.__executorInstanceNumbers[id]) == 0:
self.__executorInstanceNumbers.pop(id)
finally:
self.__execLock.release()
return
#===========================================================================
def killExecutor(self, procId):
LOG("Killing executor for " + repr(procId))
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
executor.stop(True)
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_KILL)
return True
#===========================================================================
def clientAttachExecutor(self, procId, clientKey, clientMode, firstClient):
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
LOG("Client " + str(clientKey) + " requested attaching executor " +
procId)
clientKey = int(clientKey)
clientInfo = self.getClient(clientKey)
if not procId in clientInfo.getExecutors():
clientInfo.addExecutor(procId)
clientInfo.setMode(clientMode)
if not executor.addClient(clientInfo, firstClient):
raise ContextError("Cannot add client in mode " +
repr(clientMode))
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_ATTACH,
clientKey, clientMode)
#===========================================================================
def clientDetachExecutor(self, procId, clientKey):
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
LOG("Client " + str(clientKey) + " requested detaching executor " +
procId)
clientKey = int(clientKey)
clientInfo = self.getClient(clientKey)
if procId in clientInfo.getExecutors():
self.getClient(clientKey).delExecutor(procId)
executor.removeClient(clientKey)
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_DETACH,
clientKey)
#===========================================================================
def createClient(self, clientKey, host, clientMode):
self.__clientLock.acquire()
try:
self.__clientInfo[clientKey] = ClientInfo(clientKey, host,
clientMode)
finally:
self.__clientLock.release()
return
#===========================================================================
def removeClient(self, clientKey):
# Process orphan executors
clientInfo = self.getClient(clientKey)
self.__clientLock.acquire()
try:
if clientInfo:
execs = clientInfo.getExecutors()
# Disconnect the interface
self.__guiIFC.disconnect(clientKey, eoc=False)
if len(execs) == 0:
LOG("No executors linked to client " + repr(clientKey),
level=LOG_PROC)
else:
for procId in execs:
executor = self.getExecutor(procId)
if executor is not None:
executor.clientLost(clientKey)
else:
LOG("Unknown executor:" + procId)
LOG("Unregistering client: " + repr(clientKey))
host = self.__clientInfo[clientKey].getHost()
del self.__clientInfo[clientKey]
finally:
self.__clientLock.release()
return
#===========================================================================
def getExecutors(self):
self.__execLock.acquire()
keys = []
try:
keys = self.__executorManagers.keys()
finally:
self.__execLock.release()
return keys
#===========================================================================
def getExecutor(self, procId):
self.__execLock.acquire()
exc = None
try:
exc = self.__executorManagers.get(procId)
finally:
self.__execLock.release()
return exc
#===========================================================================
def getClients(self):
self.__clientLock.acquire()
keys = []
try:
keys = self.__clientInfo.keys()
finally:
self.__clientLock.release()
return keys
#===========================================================================
def getClient(self, clientKey):
self.__clientLock.acquire()
clt = None
try:
if clientKey == NO_CLIENT:
clt = None
else:
clt = self.__clientInfo[clientKey]
finally:
self.__clientLock.release()
return clt
#===========================================================================
def notifyClientOperation(self, clientKey, clientMode, host, operation):
LOG("Notifying client operation " + repr(operation) + ", " +
repr(clientKey))
# Build the notification message
msg = MsgHelper.createMessage(CtxMessages.MSG_CLIENT_OP)
msg[CtxMessages.FIELD_GUI_KEY] = clientKey
msg[CtxMessages.FIELD_GUI_MODE] = clientMode
msg[FIELD_HOST] = host
msg[CtxMessages.FIELD_CLOP] = operation
# Get all connected clients but the logged in one
clientKey = int(clientKey)
clientKeys = []
for client in self.getClients():
client = int(client)
if client != clientKey:
clientKeys.append(client)
if len(clientKeys) > 0:
self.messageToClients("CTX", clientKeys, msg)
LOG("Notify done")
#===========================================================================
def notifyExecutorOperation(self,
procId,
operation,
clientKey="",
clientMode=""):
LOG("Notifying executor operation " + repr(operation) + ", " +
repr(procId))
# Build the notification message
msg = MsgHelper.createMessage(CtxMessages.MSG_EXEC_OP)
msg[CtxMessages.FIELD_PROC_ID] = procId
msg[CtxMessages.FIELD_EXOP] = operation
msg[CtxMessages.FIELD_GUI_KEY] = clientKey
msg[CtxMessages.FIELD_GUI_MODE] = clientMode
msg[ExcMessages.FIELD_EXEC_STATUS] = self.getExecutor(
procId).getStatus()
msg[ExcMessages.FIELD_CONDITION] = self.getExecutor(
procId).getCondition()
msg[CtxMessages.FIELD_OPEN_MODE] = self.getExecutor(
procId).getOpenMode()
clientKeys = self.getClients()
LOG("All clients: " + repr(clientKeys))
# Notify parent procedure also, if it is present
executor = self.getExecutor(procId)
if executor:
parent = executor.getParent()
if parent is not None:
clientKeys += [parent]
LOG("Notifying clients: " + repr(clientKeys))
if len(clientKeys) > 0:
self.messageToClients(procId, clientKeys, msg)
LOG("Notifying executor operation done")
#===========================================================================
def executorError(self, procId, msg):
errorText = "Executor fatal error"
errorMsg = MsgHelper.createError2(CtxMessages.MSG_EXEC_ERROR, procId,
"CLT", errorText, msg)
errorMsg[CtxMessages.FIELD_PROC_ID] = procId
executor = self.getExecutor(procId)
if executor:
procClients = executor.getClients()
self.messageToClients(procId, procClients, errorMsg)
else:
LOG("No executor found to notify error", LOG_ERROR)
#===========================================================================
def buildExecutorInfo(self, procId, resp):
executor = self.getExecutor(procId)
pname = ProcedureManager.instance().getProcedure(procId).name()
if executor is None:
txt = "No such executor: " + repr(procId)
reason = " "
resp[ExcMessages.FIELD_PROC_ID] = procId
resp[ExcMessages.FIELD_PARENT_PROC] = " "
resp[ExcMessages.FIELD_PROC_NAME] = pname
resp[ExcMessages.FIELD_ASRUN_NAME] = " "
resp[ExcMessages.FIELD_LOG_NAME] = " "
resp[ExcMessages.FIELD_EXEC_PORT] = "0"
resp[ExcMessages.FIELD_EXEC_STATUS] = server.executor.status.UNINIT
resp[ExcMessages.FIELD_CONDITION] = ""
resp[ExcMessages.FIELD_GUI_LIST] = " "
resp[ExcMessages.FIELD_GUI_CONTROL] = " "
resp[CtxMessages.FIELD_OPEN_MODE] = " "
resp[ExcMessages.FIELD_LINE] = "0"
resp[ExcMessages.FIELD_CSP] = procId
else:
control = executor.getControllingClient()
if control is None:
control = " "
guiList = ""
for gui in executor.getMonitoringClients():
if len(guiList) > 0: guiList = guiList + ","
guiList = guiList + str(gui)
resp[ExcMessages.FIELD_PROC_ID] = procId
resp[ExcMessages.FIELD_PARENT_PROC] = executor.getParent()
resp[ExcMessages.FIELD_PROC_NAME] = pname
resp[ExcMessages.FIELD_ASRUN_NAME] = executor.getAsRunFile()
resp[ExcMessages.FIELD_LOG_NAME] = executor.getLogFile()
resp[ExcMessages.FIELD_EXEC_PORT] = executor.getPort()
resp[ExcMessages.FIELD_EXEC_STATUS] = executor.getStatus()
resp[ExcMessages.FIELD_CONDITION] = executor.getCondition()
resp[ExcMessages.FIELD_GUI_LIST] = guiList
resp[ExcMessages.FIELD_GUI_CONTROL] = control
resp[CtxMessages.FIELD_OPEN_MODE] = executor.getOpenMode()
resp[ExcMessages.FIELD_CSP] = executor.getStackPosition()
return resp
#===========================================================================
def getFileData(self, procId, logId):
executor = self.getExecutor(procId)
if executor is None:
return resp
code = " "
if (logId == ExcMessages.DATA_FILE_ASRUN):
filename = executor.getAsRunFile()
else:
filename = executor.getLogFile()
lines = []
if filename and os.path.exists(filename):
f = file(filename)
lines = f.readlines()
return lines
#===========================================================================
def getNumActiveProcs(self):
activeProcs = 0
for key in self.getExecutors():
executor = self.getExecutor(key)
if executor and executor.isActive(): activeProcs += 1
return activeProcs
class ContextClass(object):
# Holds the context name
ctxName = None
# Holds the listening port for GUIs
port = None
# Holds the listener port
listenerPort = None
# Holds the set of instance numbers for each executor id
__executorInstanceNumbers = {}
# Holds the set of executor managers
__executorManagers = {}
# Holds the set of clients
__clientInfo = {}
# GUI operations delegate
GUI_Operations = None
# Listener operations delegate
LST_Operations = None
# Executor operations delegate
EXC_Operations = None
# IPC interface for clients
__guiIFC = None
# IPC interface for listener
__lstIFC = None
# Lock for clients
__clientLock = None
# Lock for executors
__execLock = None
# Lock for context process closure
__closeLock = None
#Process registry for registering opened executors in a file
__executorsRegistry = None
#===========================================================================
def __init__(self, ctxName, listenerPort, warmStart = False):
LOG("Created context", level = LOG_INIT)
self.ctxName = ctxName
self.port = None
self.__executorInstanceNumbers = {}
self.__executorManagers = {}
self.__clientInfo = {}
self.GUI_Operations = GUIOperations(self)
self.LST_Operations = LSTOperations(self)
self.EXC_Operations = EXCOperations(self)
self.__guiIFC = IPCinterfaceServer("CTX-GUI")
self.__lstIFC = IPCinterfaceClient("CTX-LST")
self.listenerPort = listenerPort
self.__clientLock = thread.allocate_lock()
self.__execLock = thread.allocate_lock()
self.__closeLock = Queue.Queue(1)
self.__executorsRegistry = ProcessRegistry("CTX_" + ctxName, warmStart)
#===========================================================================
def start(self):
LOG("Loading procedures for this context", level = LOG_INIT)
ProcedureManager.instance().setup(self.ctxName)
LOG("Setting up GUI channel", level = LOG_INIT)
# Setup the Gui io channel
self.__guiIFC.connect( 888, 0, self.processGuiMessage, self.processGuiRequest, self.guiConnectionLost)
self.__guiIFC.start()
LOG("Connecting to listener", level = LOG_INIT)
# Setup the Listener io channel
self.__lstIFC.connect("localhost",self.listenerPort, self.processListenerMessage, self.processListenerRequest, self.lstConnectionLost)
LOG("Using listening port: " + str(self.__guiIFC.port), level = LOG_INIT)
portMsg = MsgHelper.createMessage(LstMessages.MSG_CONTEXT_OPEN)
portMsg[LstMessages.FIELD_CTX_NAME] = self.ctxName
portMsg[LstMessages.FIELD_CTX_PORT] = str(self.__guiIFC.port)
portMsg.setSender("CTX")
portMsg.setReceiver("LST")
self.__lstIFC.sendMessage(portMsg)
LOG("Ready", level = LOG_INIT)
sys.stderr.write("*********************************************\n")
sys.stderr.write(" SPEL Context (" + ctxName + ") Ready \n")
sys.stderr.write("*********************************************\n")
#for executorInfo in self.__executorRegistry.getProcesses():
# #Launch executors stored in warm file
# self.openExecutor(executorInfo.getName(), clientKey, clientMode)
#===========================================================================
def stop(self):
# Force closing all executors
LOG("Closing executors", level = LOG_PROC)
self.closeAll()
# Disconnect comm interfaces
LOG("Disconnecting from GUI", level = LOG_PROC)
self.__guiIFC.disconnect()
LOG("Logout from listener", level = LOG_PROC)
logoutMsg = MsgHelper.createMessage(LstMessages.MSG_CONTEXT_CLOSED)
logoutMsg[LstMessages.FIELD_CTX_NAME] = self.ctxName
logoutMsg.setSender("CTX")
logoutMsg.setReceiver("LST")
self.__lstIFC.sendMessage(logoutMsg)
self.__lstIFC.disconnect()
LOG("Disconnected", level = LOG_PROC)
self.__closeLock.put(1)
#===========================================================================
def closeAll(self):
if len(self.getExecutors())==0:
LOG("No executors to be closed")
return
for procId in self.getExecutors():
LOG("Close all: " + procId)
executor = self.getExecutor(procId)
if executor:
executor.stop()
executor.waitForClose()
#===========================================================================
def waitForClose(self):
self.__closeLock.get(True)
#===========================================================================
def guiConnectionLost(self, clientKey):
if clientKey in self.getClients():
LOG("Context lost connection with client: " + repr(clientKey), LOG_ERROR)
self.removeClient(clientKey)
#===========================================================================
def lstConnectionLost(self, lstKey):
LOG("Lost connection with listener", LOG_ERROR)
self.__lstIFC.disconnect( eoc = False )
LOG("Notifying listener connection lost")
# Build the notification message
msg = MsgHelper.createMessage(CtxMessages.MSG_LISTENER_LOST)
msg.setType(MSG_TYPE_ERROR)
msg[FIELD_ERROR] = "Lost connection with listener"
msg[FIELD_REASON] = " "
clientKeys = []
for client in self.getClients():
clientKeys.append(int(client))
if len(clientKeys)>0:
self.messageToClients("CTX", clientKeys, msg)
LOG("Done")
return
#===========================================================================
def processGuiMessage(self, msg):
if not self.GUI_Operations.processMessage(msg):
# If the message is not processed locally, forward it to executors
procId = msg[ExcMessages.FIELD_PROC_ID]
# Forward message to the corresponding executor
clientKey = int(msg.getKey())
self.messageToExecutor(clientKey, procId, msg)
return
#===========================================================================
def processGuiRequest(self, msg):
LOG("Process GUI request: " + msg.getId(), level = LOG_COMM)
resp = None
resp = self.GUI_Operations.processRequest(msg)
if resp is None:
# if the request is not processed locally, forward it to executors
procId = msg[ExcMessages.FIELD_PROC_ID]
if not procId in self.getExecutors():
resp = MsgHelper.createError(msg.getId(), msg, "Unable to forward request " + msg.getId(), "No such executor: " + repr(procId))
else:
clientKey = int(msg.getKey())
LOG("Send GUI request to executor: " + msg.getId(), level = LOG_COMM)
resp = self.requestToExecutor(clientKey, procId, msg)
LOG("Process GUI request: " + msg.getId() + " finished", level = LOG_COMM)
return resp
#===========================================================================
def processListenerMessage(self, msg):
self.LST_Operations.processMessage(msg)
#===========================================================================
def processListenerRequest(self, msg):
resp = self.LST_Operations.processRequest(msg)
return resp
#===========================================================================
def processExecutorMessage(self, msg):
self.EXC_Operations.processMessage(msg)
#===========================================================================
def processExecutorRequest(self, msg):
resp = self.EXC_Operations.processRequest(msg)
return resp
#===========================================================================
def messageToClients(self, procId, clientKeys, msg):
for clientKey in clientKeys:
LOG("Forwarding message " + msg.getId() + " from executor " + procId + " to client "+ repr(clientKey), level = LOG_COMM)
# If the client key is a procedure id, it means the request is to
# be sent to another procedure
msg.setSender(procId)
if type(clientKey)==int:
msg.setReceiver("GUI-" + str(clientKey))
resp = self.__guiIFC.sendMessage(msg,clientKey)
else:
parentProc = clientKey
msg.setReceiver(parentProc)
resp = self.messageToExecutor( procId, parentProc, msg)
#===========================================================================
def requestToClients(self, procId, clientKeys, msg):
LOG("Forward executor " + procId + " request " + msg.getId() + " to clients", level = LOG_COMM)
firstResp = None
if len(clientKeys)==0:
LOG("No clients to attend request. Discarding it", LOG_WARN, level = LOG_COMM)
firstResp = MsgHelper.createError(msg.getId(), msg, "Cannot dispatch request", "No clients connected")
for clientKey in clientKeys:
msg.setSender(procId)
# If the client key is a procedure id, it means the request is to
# be sent to another procedure
if type(clientKey)==int:
msg.setReceiver("GUI-" + str(clientKey))
resp = self.__guiIFC.forwardRequest(msg,clientKey)
else:
parentProc = clientKey
msg.setReceiver(parentProc)
resp = self.requestToExecutor( procId, parentProc, msg)
if firstResp is None: firstResp = resp
LOG("Request to clients '" + msg.getId() + "' finished", level = LOG_COMM)
return firstResp
#===========================================================================
def messageToExecutor(self, clientKey, procId, msg):
if procId in self.getExecutors():
exc = self.getExecutor(procId)
if exc: exc.messageToExecutor(clientKey,msg)
#===========================================================================
def requestToExecutor(self, clientKey, procId, msg):
LOG("Forward client " + repr(clientKey) + " request " + msg.getId() + " to executor " + procId, level = LOG_COMM)
resp = None
if procId in self.getExecutors():
exc = self.getExecutor(procId)
if exc: resp = exc.requestToExecutor(clientKey,msg)
if resp is None:
resp = MsgHelper.createError(msg.getId(), msg, "Unable to forward request", "No such executor")
LOG("Request to executor " + msg.getId() + " finished", level = LOG_COMM)
return resp
#===========================================================================
def createExecutor(self, procId):
self.__execLock.acquire()
try:
LOG("Creating executor manager for " + repr(procId))
manager = ExecutorManagerClass(self,procId)
self.__executorManagers[procId] = manager
LOG("Manager created")
finally:
self.__execLock.release()
return manager
#===========================================================================
def getInstanceId(self, procId):
self.__execLock.acquire()
try:
instance = 0
LOG("Obtain available instance for " + repr(procId))
if procId in self.__executorInstanceNumbers:
for i in range(0,50):
if not i in self.__executorInstanceNumbers[procId]:
instance = i
break
self.__executorInstanceNumbers[procId].append(instance)
else:
self.__executorInstanceNumbers[procId] = [instance]
procId = procId + "#" + str(instance)
LOG("Instance is " + repr(procId))
finally:
self.__execLock.release()
return procId
#===========================================================================
def openExecutor(self, procId, clientKey, clientMode, openMode = {},
arguments = None, condition = None, parentId = None):
ctxInfo = Config.instance().getContextConfig(self.ctxName)
driverName = ctxInfo.getDriver()
maxProcs = int(Config.instance().getDriverConfig(driverName).getMaxProcs())
if maxProcs>0:
activeProcs = self.getNumActiveProcs()
if (activeProcs >= maxProcs):
raise ContextError("Could not launch executor. Maximum number of processes reached (" + str(maxProcs) + ")")
success = False
LOG("Requested opening executor " + repr(procId), level = LOG_PROC)
executor = self.createExecutor(procId)
# Update the proc id with the instance number
procId = executor.getProcId()
# Get configuration defaults for open mode and update it
#TODO: get open mode defaults from config
useOpenMode = {Automatic:False,Visible:True,Blocking:True}
useOpenMode.update(openMode)
# Set the controlling client key if the procedure is visible
if useOpenMode[Visible] == True:
clientInfo = self.getClient(clientKey)
executor.addClient(clientInfo, True)
clientInfo.addExecutor(procId)
clientInfo.setMode(clientMode)
LOG("Launching executor " + repr(procId) + " in mode " + repr(useOpenMode), level = LOG_PROC)
if arguments:
executor.setArguments(arguments)
if condition:
executor.setCondition(condition)
if parentId:
executor.setParent(parentId)
# Set the open mode and open the executor
executor.setOpenMode(useOpenMode)
executor.start()
success = executor.waitForOpen()
LOG("Executor launched (" + repr(success) + ")", level = LOG_PROC)
if not success:
error,reason = executor.getError()
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_CLOSE)
self.killExecutor(procId)
self.clearExecutor(procId)
raise ContextError("Could not launch executor",error + ":" + reason)
else:
initialStatus = executor.getStatus()
if initialStatus == server.executor.status.ERROR:
error,reason = executor.getError()
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_CLOSE)
self.killExecutor(procId)
self.clearExecutor(procId)
raise ContextError("Executor failed startup",error + ":" + reason)
else:
pid = executor.getExecutorPid()
self.__executorsRegistry.addProcess(pid,procId)
LOG("Notifying executor open", level = LOG_PROC)
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_OPEN, clientKey, clientMode)
LOG("Open finished")
return
#===========================================================================
def closeExecutor(self, procId):
LOG("Requested closing executor " + repr(procId))
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
LOG("Closing executor")
executor.stop()
success = executor.waitForClose()
LOG("Executor closed (" + repr(success) + ")")
if not success:
error,reason = executor.getError()
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_CLOSE)
self.killExecutor(procId)
self.clearExecutor(procId)
raise ContextError("Could not close executor",error + ":" + reason)
else:
LOG("Notifying executor close", level = LOG_PROC)
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_CLOSE)
self.clearExecutor(procId)
LOG("Close finished")
return
#===========================================================================
def clearExecutor(self, procId):
LOG("Clearing executor for " + repr(procId))
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
# Remove executor from client infos
clients = executor.getClients()
for client in clients:
self.getClient(client).delExecutor(procId)
self.__execLock.acquire()
try:
# Remove executor manager
del self.__executorManagers[procId]
# Remove the corresponding instance from the list
idx = procId.find("#")
id = procId[0:idx]
instance = int(procId[idx+1:])
# Remove from the registry
self.__executorsRegistry.removeProcess(procId)
if id in self.__executorInstanceNumbers:
self.__executorInstanceNumbers[id].remove(instance)
if len(self.__executorInstanceNumbers[id])==0:
self.__executorInstanceNumbers.pop(id)
finally:
self.__execLock.release()
return
#===========================================================================
def killExecutor(self, procId):
LOG("Killing executor for " + repr(procId))
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
executor.stop(True)
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_KILL)
return True
#===========================================================================
def clientAttachExecutor(self, procId, clientKey, clientMode, firstClient):
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
LOG("Client " + str(clientKey) + " requested attaching executor " + procId)
clientKey = int(clientKey)
clientInfo = self.getClient(clientKey)
if not procId in clientInfo.getExecutors():
clientInfo.addExecutor(procId)
clientInfo.setMode(clientMode)
if not executor.addClient(clientInfo, firstClient):
raise ContextError("Cannot add client in mode " + repr(clientMode))
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_ATTACH, clientKey, clientMode)
#===========================================================================
def clientDetachExecutor(self, procId, clientKey):
executor = self.getExecutor(procId)
if executor is None:
raise ContextError("No such executor: " + repr(procId))
LOG("Client " + str(clientKey) + " requested detaching executor " + procId)
clientKey = int(clientKey)
clientInfo = self.getClient(clientKey)
if procId in clientInfo.getExecutors():
self.getClient(clientKey).delExecutor(procId)
executor.removeClient(clientKey)
self.notifyExecutorOperation(procId, CtxMessages.DATA_EXOP_DETACH, clientKey)
#===========================================================================
def createClient(self, clientKey, host, clientMode):
self.__clientLock.acquire()
try:
self.__clientInfo[clientKey] = ClientInfo(clientKey,host,clientMode)
finally:
self.__clientLock.release()
return
#===========================================================================
def removeClient(self, clientKey):
# Process orphan executors
clientInfo = self.getClient(clientKey)
self.__clientLock.acquire()
try:
if clientInfo:
execs = clientInfo.getExecutors()
# Disconnect the interface
self.__guiIFC.disconnect(clientKey, eoc = False)
if len(execs)==0:
LOG("No executors linked to client " + repr(clientKey), level = LOG_PROC )
else:
for procId in execs:
executor = self.getExecutor(procId)
if executor is not None:
executor.clientLost(clientKey)
else:
LOG("Unknown executor:" + procId)
LOG("Unregistering client: " + repr(clientKey))
host = self.__clientInfo[clientKey].getHost()
del self.__clientInfo[clientKey]
finally:
self.__clientLock.release()
return
#===========================================================================
def getExecutors(self):
self.__execLock.acquire()
keys = []
try:
keys = self.__executorManagers.keys()
finally:
self.__execLock.release()
return keys
#===========================================================================
def getExecutor(self, procId):
self.__execLock.acquire()
exc = None
try:
exc = self.__executorManagers.get(procId)
finally:
self.__execLock.release()
return exc
#===========================================================================
def getClients(self):
self.__clientLock.acquire()
keys = []
try:
keys = self.__clientInfo.keys()
finally:
self.__clientLock.release()
return keys
#===========================================================================
def getClient(self, clientKey):
self.__clientLock.acquire()
clt = None
try:
if clientKey == NO_CLIENT:
clt = None
else:
clt = self.__clientInfo[clientKey]
finally:
self.__clientLock.release()
return clt
#===========================================================================
def notifyClientOperation(self, clientKey, clientMode, host, operation):
LOG("Notifying client operation " + repr(operation) + ", " + repr(clientKey))
# Build the notification message
msg = MsgHelper.createMessage(CtxMessages.MSG_CLIENT_OP)
msg[CtxMessages.FIELD_GUI_KEY] = clientKey
msg[CtxMessages.FIELD_GUI_MODE] = clientMode
msg[FIELD_HOST] = host
msg[CtxMessages.FIELD_CLOP] = operation
# Get all connected clients but the logged in one
clientKey = int(clientKey)
clientKeys = []
for client in self.getClients():
client = int(client)
if client != clientKey:
clientKeys.append(client)
if len(clientKeys)>0:
self.messageToClients("CTX", clientKeys, msg)
LOG("Notify done")
#===========================================================================
def notifyExecutorOperation(self, procId, operation, clientKey = "", clientMode = "" ):
LOG("Notifying executor operation " + repr(operation) + ", " + repr(procId))
# Build the notification message
msg = MsgHelper.createMessage(CtxMessages.MSG_EXEC_OP)
msg[CtxMessages.FIELD_PROC_ID] = procId
msg[CtxMessages.FIELD_EXOP] = operation
msg[CtxMessages.FIELD_GUI_KEY] = clientKey
msg[CtxMessages.FIELD_GUI_MODE] = clientMode
msg[ExcMessages.FIELD_EXEC_STATUS] = self.getExecutor(procId).getStatus()
msg[ExcMessages.FIELD_CONDITION] = self.getExecutor(procId).getCondition()
msg[CtxMessages.FIELD_OPEN_MODE] = self.getExecutor(procId).getOpenMode()
clientKeys = self.getClients()
LOG("All clients: " + repr(clientKeys))
# Notify parent procedure also, if it is present
executor = self.getExecutor(procId)
if executor:
parent = executor.getParent()
if parent is not None:
clientKeys += [parent]
LOG("Notifying clients: " + repr(clientKeys))
if len(clientKeys)>0:
self.messageToClients(procId, clientKeys, msg)
LOG("Notifying executor operation done")
#===========================================================================
def executorError(self, procId, msg):
errorText = "Executor fatal error"
errorMsg = MsgHelper.createError2(CtxMessages.MSG_EXEC_ERROR, procId, "CLT", errorText, msg)
errorMsg[CtxMessages.FIELD_PROC_ID] = procId
executor = self.getExecutor(procId)
if executor:
procClients = executor.getClients()
self.messageToClients(procId, procClients, errorMsg)
else:
LOG("No executor found to notify error", LOG_ERROR)
#===========================================================================
def buildExecutorInfo(self, procId, resp ):
executor = self.getExecutor(procId)
pname = ProcedureManager.instance().getProcedure(procId).name()
if executor is None:
txt = "No such executor: " + repr(procId)
reason = " "
resp[ExcMessages.FIELD_PROC_ID] = procId
resp[ExcMessages.FIELD_PARENT_PROC] = " "
resp[ExcMessages.FIELD_PROC_NAME] = pname
resp[ExcMessages.FIELD_ASRUN_NAME] = " "
resp[ExcMessages.FIELD_LOG_NAME] = " "
resp[ExcMessages.FIELD_EXEC_PORT] = "0"
resp[ExcMessages.FIELD_EXEC_STATUS] = server.executor.status.UNINIT
resp[ExcMessages.FIELD_CONDITION] = ""
resp[ExcMessages.FIELD_GUI_LIST] = " "
resp[ExcMessages.FIELD_GUI_CONTROL] = " "
resp[CtxMessages.FIELD_OPEN_MODE] = " "
resp[ExcMessages.FIELD_LINE] = "0"
resp[ExcMessages.FIELD_CSP] = procId
else:
control = executor.getControllingClient()
if control is None:
control = " "
guiList = ""
for gui in executor.getMonitoringClients():
if len(guiList)>0: guiList = guiList + ","
guiList = guiList + str(gui)
resp[ExcMessages.FIELD_PROC_ID] = procId
resp[ExcMessages.FIELD_PARENT_PROC] = executor.getParent()
resp[ExcMessages.FIELD_PROC_NAME] = pname
resp[ExcMessages.FIELD_ASRUN_NAME] = executor.getAsRunFile()
resp[ExcMessages.FIELD_LOG_NAME] = executor.getLogFile()
resp[ExcMessages.FIELD_EXEC_PORT] = executor.getPort()
resp[ExcMessages.FIELD_EXEC_STATUS] = executor.getStatus()
resp[ExcMessages.FIELD_CONDITION] = executor.getCondition()
resp[ExcMessages.FIELD_GUI_LIST] = guiList
resp[ExcMessages.FIELD_GUI_CONTROL] = control
resp[CtxMessages.FIELD_OPEN_MODE] = executor.getOpenMode()
resp[ExcMessages.FIELD_CSP] = executor.getStackPosition()
resp[ExcMessages.FIELD_ACTION_LABEL] = executor.getUserActionLabel()
resp[ExcMessages.FIELD_ACTION_SEV] = executor.getUserActionSeverity()
aen = executor.getUserActionEnabled()
if aen:
resp[ExcMessages.FIELD_ACTION_ENABLED] = "True"
else:
resp[ExcMessages.FIELD_ACTION_ENABLED] = "False"
return resp
#===========================================================================
def getFileData(self, procId, logId):
executor = self.getExecutor(procId)
if executor is None:
return resp
code = " "
if (logId == ExcMessages.DATA_FILE_ASRUN):
filename = executor.getAsRunFile()
else:
filename = executor.getLogFile()
lines = []
if filename and os.path.exists(filename):
f = file(filename)
lines = f.readlines()
return lines
#===========================================================================
def getNumActiveProcs(self):
activeProcs = 0
for key in self.getExecutors():
executor = self.getExecutor(key)
if executor and executor.isActive(): activeProcs += 1
return activeProcs
class ExecutorManagerClass(threading.Thread):
# Context data -------------------------------------------------------------
# Holds the context reference
__context = None
# Executor data ------------------------------------------------------------
# Holds the procedure id
__procId = None
__execStatus = server.executor.status.UNINIT
__execError = " "
__execReason = " "
__execKey = None
__execPort = None
__execScript = None
__execAsRun = None
__execPID = None
# Holds the parent procedure identifier, if any
__parentProc = None
__execLog = None
__csp = None
# Context channel key for controlling client
__controllingKey = NO_CLIENT
# Context channel keys for monitoring clients
__monitoringKeys = []
# Ready flag
__ready = False
# Executor arguments
__arguments = {}
# Executor condition
__condition = None
# Open mode
__openMode = {}
# Internal processing ------------------------------------------------------
# For locking execution during executor process operations
__execLock = None
__closeLock = None
__contextLock = None
# IPC interface with executor
__execIFC = None
# User action support
__userAction = None
__userActionEnabled = False
__userActionSeverity = "INFO"
#===========================================================================
def __init__(self, context, procId):
threading.Thread.__init__(self)
# Store context reference
self.__context = context
# Initialize executor status
self.__procId = procId
self.__execStatus = server.executor.status.UNINIT
self.__execError = " "
self.__execReason = " "
self.__execKey = None
self.__execPort = None
self.__execAsRun = None
self.__execPID = None
self.__parentProc = None
self.__execLog = None
self.__controllingKey = NO_CLIENT
self.__monitoringKeys = []
self.__execLock = Queue.Queue(1)
self.__closeLock = Queue.Queue(1)
self.__contextLock = Queue.Queue(1)
self.__csp = None
self.__ready = False
self.__arguments = {}
self.__openMode = {}
self.__condition = None
self.__userAction = None
self.__userActionEnabled = False
self.__userActionSeverity = "INFO"
# IPC interface for executors
self.__execIFC = IPCinterfaceServer("EXM-EXC")
# Obtain the executor start command
execScript = Config.instance().getProperty(CONTEXT, "ExecutorScript")
arguments = "-c \"" + Config.instance().filename + "\" -n \"" +\
self.__context.ctxName + "\"" + " -p " + self.__procId + " -w "
self.__execScript = execScript + " " + arguments
#===========================================================================
def run(self):
try:
LOG("Setting up Executors channel", level=LOG_INIT)
# Setup the Executor io channel
self.__execIFC.connect(777, 0, self.processExecutorMessage,
self.processExecutorRequest,
self.execConnectionLost)
self.__execIFC.start()
# Start executor process
self.__startExecutor()
# Wait until a close command arrives
force = self.__waitStop()
# Close the executor and finish thread
self.__closeExecutor(force)
except Exception, ex:
print ex
self.__context.executorError(self.__procId, repr(ex))
LOG("Executor manager " + self.__procId + " finished")
class ExecutorManagerClass(threading.Thread):
# Context data -------------------------------------------------------------
# Holds the context reference
__context = None
# Executor data ------------------------------------------------------------
# Holds the procedure id
__procId = None
__execStatus = server.executor.status.UNINIT
__execError = " "
__execReason = " "
__execKey = None
__execPort = None
__execScript = None
__execAsRun = None
__execPID = None
# Holds the parent procedure identifier, if any
__parentProc = None
__execLog = None
__csp = None
# Context channel key for controlling client
__controllingKey = NO_CLIENT
# Context channel keys for monitoring clients
__monitoringKeys = []
# Ready flag
__ready = False
# Executor arguments
__arguments = {}
# Executor condition
__condition = None
# Open mode
__openMode = {}
# Internal processing ------------------------------------------------------
# For locking execution during executor process operations
__execLock = None
__closeLock = None
__contextLock = None
# IPC interface with executor
__execIFC = None
#===========================================================================
def __init__(self, context, procId):
threading.Thread.__init__(self)
# Store context reference
self.__context = context
# Initialize executor status
self.__procId = procId
self.__execStatus = server.executor.status.UNINIT
self.__execError = " "
self.__execReason = " "
self.__execKey = None
self.__execPort = None
self.__execAsRun = None
self.__execPID = None
self.__parentProc = None
self.__execLog = None
self.__controllingKey = NO_CLIENT
self.__monitoringKeys = []
self.__execLock = Queue.Queue(1)
self.__closeLock = Queue.Queue(1)
self.__contextLock = Queue.Queue(1)
self.__csp = None
self.__ready = False
self.__arguments = {}
self.__openMode = {}
self.__condition = None
# IPC interface for executors
self.__execIFC = IPCinterfaceServer("EXM-EXC")
# Obtain the executor start command
execScript = Config.instance().getProperty(CONTEXT, "ExecutorScript")
pythonBin = os.getenv("PYTHON", "python")
arguments = "-c \"" + Config.instance().filename + "\" -n \"" +\
self.__context.ctxName + "\"" + " -p \"" + self.__procId + "\""
self.__execScript = pythonBin + " \"" + execScript + "\" " + arguments
#===========================================================================
def run(self):
try:
LOG("Setting up Executors channel", level = LOG_INIT)
# Setup the Executor io channel
self.__execIFC.connect(777,0,self.processExecutorMessage, self.processExecutorRequest, self.execConnectionLost)
self.__execIFC.start()
# Start executor process
self.__startExecutor()
# Wait until a close command arrives
force = self.__waitStop()
# Close the executor and finish thread
self.__closeExecutor(force)
except Exception,ex:
print ex
self.__context.executorError(self.__procId,repr(ex))
LOG("Executor manager " + self.__procId + " finished")
