management/python/lib/qmf/console.py

# # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # """ Console API for Qpid Management Framework """ from __future__ import print_function import os import platform import qpid import struct import socket import re import sys from qpid.datatypes import UUID from qpid.datatypes import timestamp from qpid.datatypes import datetime from qpid.exceptions import Closed from qpid.session import SessionDetached from qpid.connection import Connection, ConnectionFailed, Timeout from qpid.datatypes import Message, RangedSet, UUID from qpid.util import connect, ssl, URL from qpid.codec010 import StringCodec as Codec from threading import Lock, Condition, Thread, Semaphore from Queue import Queue, Empty from time import time, strftime, gmtime, sleep from cStringIO import StringIO #import qpid.log #qpid.log.enable(name="qpid.io.cmd", level=qpid.log.DEBUG) #=================================================================================================== # CONSOLE #=================================================================================================== class Console: """ To access the asynchronous operations, a class must be derived from Console with overrides of any combination of the available methods. """ def brokerConnected(self, broker): """ Invoked when a connection is established to a broker """ pass def brokerConnectionFailed(self, broker): """ Invoked when a connection to a broker fails """ pass def brokerDisconnected(self, broker): """ Invoked when the connection to a broker is lost """ pass def newPackage(self, name): """ Invoked when a QMF package is discovered. """ pass def newClass(self, kind, classKey): """ Invoked when a new class is discovered. Session.getSchema can be used to obtain details about the class.""" pass def newAgent(self, agent): """ Invoked when a QMF agent is discovered. """ pass def delAgent(self, agent): """ Invoked when a QMF agent disconects. """ pass def objectProps(self, broker, record): """ Invoked when an object is updated. """ pass def objectStats(self, broker, record): """ Invoked when an object is updated. """ pass def event(self, broker, event): """ Invoked when an event is raised. """ pass def heartbeat(self, agent, timestamp): """ Invoked when an agent heartbeat is received. """ pass def brokerInfo(self, broker): """ Invoked when the connection sequence reaches the point where broker information is available. """ pass def methodResponse(self, broker, seq, response): """ Invoked when a method response from an asynchronous method call is received. """ pass #=================================================================================================== # BrokerURL #=================================================================================================== class BrokerURL(URL): def __init__(self, *args, **kwargs): URL.__init__(self, *args, **kwargs) if self.port is None: if self.scheme == URL.AMQPS: self.port = 5671 else: self.port = 5672 self.authName = None self.authPass = None if self.user: self.authName = str(self.user) if self.password: self.authPass = str(self.password) def name(self): return str(self) def match(self, host, port): return socket.getaddrinfo(self.host, self.port)[0][4] == socket.getaddrinfo(host, port)[0][4] #=================================================================================================== # Object #=================================================================================================== class Object(object): """ This class defines a 'proxy' object representing a real managed object on an agent. Actions taken on this proxy are remotely affected on the real managed object. """ def __init__(self, agent, schema, codec=None, prop=None, stat=None, v2Map=None, agentName=None, kwargs={}): self._agent = agent self._session = None self._broker = None if agent: self._session = agent.session self._broker = agent.broker self._schema = schema self._properties = [] self._statistics = [] self._currentTime = None self._createTime = None self._deleteTime = 0 self._objectId = None if v2Map: self.v2Init(v2Map, agentName) return if self._agent: self._currentTime = codec.read_uint64() self._createTime = codec.read_uint64() self._deleteTime = codec.read_uint64() self._objectId = ObjectId(codec) if codec: if prop: notPresent = self._parsePresenceMasks(codec, schema) for property in schema.getProperties(): if property.name in notPresent: self._properties.append((property, None)) else: self._properties.append((property, self._session._decodeValue(codec, property.type, self._broker))) if stat: for statistic in schema.getStatistics(): self._statistics.append((statistic, self._session._decodeValue(codec, statistic.type, self._broker))) else: for property in schema.getProperties(): if property.optional: self._properties.append((property, None)) else: self._properties.append((property, self._session._defaultValue(property, self._broker, kwargs))) for statistic in schema.getStatistics(): self._statistics.append((statistic, self._session._defaultValue(statistic, self._broker, kwargs))) def v2Init(self, omap, agentName): if omap.__class__ != dict: raise Exception("QMFv2 object data must be a map/dict") if '_values' not in omap: raise Exception("QMFv2 object must have '_values' element") values = omap['_values'] for prop in self._schema.getProperties(): if prop.name in values: if prop.type == 10: # Reference self._properties.append((prop, ObjectId(values[prop.name], agentName=agentName))) else: self._properties.append((prop, values[prop.name])) for stat in self._schema.getStatistics(): if stat.name in values: self._statistics.append((stat, values[stat.name])) if '_subtypes' in omap: self._subtypes = omap['_subtypes'] if '_object_id' in omap: self._objectId = ObjectId(omap['_object_id'], agentName=agentName) else: self._objectId = None self._currentTime = omap.get("_update_ts", 0) self._createTime = omap.get("_create_ts", 0) self._deleteTime = omap.get("_delete_ts", 0) def getAgent(self): """ Return the agent from which this object was sent """ return self._agent def getBroker(self): """ Return the broker from which this object was sent """ return self._broker def getV2RoutingKey(self): """ Get the QMFv2 routing key to address this object """ return self._agent.getV2RoutingKey() def getObjectId(self): """ Return the object identifier for this object """ return self._objectId def getClassKey(self): """ Return the class-key that references the schema describing this object. """ return self._schema.getKey() def getSchema(self): """ Return the schema that describes this object. """ return self._schema def getMethods(self): """ Return a list of methods available for this object. """ return self._schema.getMethods() def getTimestamps(self): """ Return the current, creation, and deletion times for this object. """ return self._currentTime, self._createTime, self._deleteTime def isDeleted(self): """ Return True iff this object has been deleted. """ return self._deleteTime != 0 def isManaged(self): """ Return True iff this object is a proxy for a managed object on an agent. """ return self._objectId and self._agent def getIndex(self): """ Return a string describing this object's primary key. """ if self._objectId.isV2: return self._objectId.getObject() result = u"" for prop, value in self._properties: if prop.index: if result != u"": result += u":" try: valstr = unicode(self._session._displayValue(value, prop.type)) except Exception: valstr = u"<undecodable>" result += valstr return result def getProperties(self): """ Return a list of object properties """ return self._properties def getStatistics(self): """ Return a list of object statistics """ return self._statistics def mergeUpdate(self, newer): """ Replace properties and/or statistics with a newly received update """ if not self.isManaged(): raise Exception("Object is not managed") if self._objectId != newer._objectId: raise Exception("Objects with different object-ids") if len(newer.getProperties()) > 0: self._properties = newer.getProperties() if len(newer.getStatistics()) > 0: self._statistics = newer.getStatistics() self._currentTime = newer._currentTime self._deleteTime = newer._deleteTime def update(self): """ Contact the agent and retrieve the lastest property and statistic values for this object. """ if not self.isManaged(): raise Exception("Object is not managed") obj = self._agent.getObjects(_objectId=self._objectId) if obj: self.mergeUpdate(obj[0]) else: raise Exception("Underlying object no longer exists") def __repr__(self): if self.isManaged(): id = self.getObjectId().__repr__() else: id = "unmanaged" key = self.getClassKey() return key.getPackageName() + ":" + key.getClassName() +\ "[" + id + "] " + self.getIndex().encode("utf8") def __getattr__(self, name): for method in self._schema.getMethods(): if name == method.name: return lambda *args, **kwargs : self._invoke(name, args, kwargs) for prop, value in self._properties: if name == prop.name: return value if name == "_" + prop.name + "_" and prop.type == 10: # Dereference references deref = self._agent.getObjects(_objectId=value) if len(deref) != 1: return None else: return deref[0] for stat, value in self._statistics: if name == stat.name: return value # # Check to see if the name is in the schema. If so, return None (i.e. this is a not-present attribute) # for prop in self._schema.getProperties(): if name == prop.name: return None for stat in self._schema.getStatistics(): if name == stat.name: return None raise Exception("Type Object has no attribute '%s'" % name) def __setattr__(self, name, value): if name[0] == '_': super.__setattr__(self, name, value) return for prop, unusedValue in self._properties: if name == prop.name: newprop = (prop, value) newlist = [] for old, val in self._properties: if name == old.name: newlist.append(newprop) else: newlist.append((old, val)) self._properties = newlist return super.__setattr__(self, name, value) def _parseDefault(self, typ, val): try: if typ in (2, 3, 4): # 16, 32, 64 bit numbers val = int(val, 0) elif typ == 11: # bool val = val.lower() in ("t", "true", "1", "yes", "y") elif typ == 15: # map val = eval(val) except: pass return val def _handleDefaultArguments(self, method, args, kwargs): count = len([x for x in method.arguments if x.dir.find("I") != -1]) for kwarg in kwargs.keys(): if not [x for x in method.arguments if x.dir.find("I") != -1 and \ x.name == kwarg]: del kwargs[kwarg] # If there were not enough args supplied, add any defaulted arguments # from the schema (starting at the end) until we either get enough # arguments or run out of defaults while count > len(args) + len(kwargs): for arg in reversed(method.arguments): if arg.dir.find("I") != -1 and getattr(arg, "default") is not None and \ arg.name not in kwargs: # add missing defaulted value to the kwargs dict kwargs[arg.name] = self._parseDefault(arg.type, arg.default) break else: # no suitable defaulted args found, end the while loop break return count def _sendMethodRequest(self, name, args, kwargs, synchronous=False, timeWait=None): for method in self._schema.getMethods(): if name == method.name: aIdx = 0 sendCodec = Codec() seq = self._session.seqMgr._reserve((method, synchronous)) count = self._handleDefaultArguments(method, args, kwargs) if count != len(args) + len(kwargs): raise Exception("Incorrect number of arguments: expected %d, got %d" % (count, len(args) + len(kwargs))) if self._agent.isV2: # # Compose and send a QMFv2 method request # call = {} call['_object_id'] = self._objectId.asMap() call['_method_name'] = name argMap = {} for arg in method.arguments: if arg.dir.find("I") != -1: # If any kwargs match this schema arg, insert them in the proper place if arg.name in kwargs: argMap[arg.name] = kwargs[arg.name] elif aIdx < len(args): argMap[arg.name] = args[aIdx] aIdx += 1 call['_arguments'] = argMap dp = self._broker.amqpSession.delivery_properties() dp.routing_key = self.getV2RoutingKey() mp = self._broker.amqpSession.message_properties() mp.content_type = "amqp/map" if self._broker.saslUser: mp.user_id = self._broker.saslUser mp.correlation_id = str(seq) mp.app_id = "qmf2" mp.reply_to = self._broker.amqpSession.reply_to("qmf.default.direct", self._broker.v2_direct_queue) mp.application_headers = {'qmf.opcode':'_method_request'} sendCodec.write_map(call) smsg = Message(dp, mp, sendCodec.encoded) exchange = "qmf.default.direct" else: # # Associate this sequence with the agent hosting the object so we can correctly # route the method-response # agent = self._broker.getAgent(self._broker.getBrokerBank(), self._objectId.getAgentBank()) self._broker._setSequence(seq, agent) # # Compose and send a QMFv1 method request # self._broker._setHeader(sendCodec, 'M', seq) self._objectId.encode(sendCodec) self._schema.getKey().encode(sendCodec) sendCodec.write_str8(name) for arg in method.arguments: if arg.dir.find("I") != -1: self._session._encodeValue(sendCodec, args[aIdx], arg.type) aIdx += 1 smsg = self._broker._message(sendCodec.encoded, "agent.%d.%s" % (self._objectId.getBrokerBank(), self._objectId.getAgentBank())) exchange = "qpid.management" if synchronous: try: self._broker.cv.acquire() self._broker.syncInFlight = True finally: self._broker.cv.release() self._broker._send(smsg, exchange) return seq return None def _invoke(self, name, args, kwargs): if not self.isManaged(): raise Exception("Object is not managed") if "_timeout" in kwargs: timeout = kwargs["_timeout"] else: timeout = self._broker.SYNC_TIME if "_async" in kwargs and kwargs["_async"]: sync = False if "_timeout" not in kwargs: timeout = None else: sync = True # Remove special "meta" kwargs before handing to _sendMethodRequest() to process if "_timeout" in kwargs: del kwargs["_timeout"] if "_async" in kwargs: del kwargs["_async"] seq = self._sendMethodRequest(name, args, kwargs, sync, timeout) if seq: if not sync: return seq self._broker.cv.acquire() try: starttime = time() while self._broker.syncInFlight and self._broker.error == None: self._broker.cv.wait(timeout) if time() - starttime > timeout: raise RuntimeError("Timed out waiting for method to respond") finally: self._session.seqMgr._release(seq) self._broker.cv.release() if self._broker.error != None: errorText = self._broker.error self._broker.error = None raise Exception(errorText) return self._broker.syncResult raise Exception("Invalid Method (software defect) [%s]" % name) def _encodeUnmanaged(self, codec): codec.write_uint8(20) codec.write_str8(self._schema.getKey().getPackageName()) codec.write_str8(self._schema.getKey().getClassName()) codec.write_bin128(self._schema.getKey().getHash()) # emit presence masks for optional properties mask = 0 bit = 0 for prop, value in self._properties: if prop.optional: if bit == 0: bit = 1 if value: mask |= bit bit = bit << 1 if bit == 256: bit = 0 codec.write_uint8(mask) mask = 0 if bit != 0: codec.write_uint8(mask) # encode properties for prop, value in self._properties: if value != None: self._session._encodeValue(codec, value, prop.type) # encode statistics for stat, value in self._statistics: self._session._encodeValue(codec, value, stat.type) def _parsePresenceMasks(self, codec, schema): excludeList = [] bit = 0 for property in schema.getProperties(): if property.optional: if bit == 0: mask = codec.read_uint8() bit = 1 if (mask & bit) == 0: excludeList.append(property.name) bit *= 2 if bit == 256: bit = 0 return excludeList #=================================================================================================== # Session #=================================================================================================== class Session: """ An instance of the Session class represents a console session running against one or more QMF brokers. A single instance of Session is needed to interact with the management framework as a console. """ _CONTEXT_SYNC = 1 _CONTEXT_STARTUP = 2 _CONTEXT_MULTIGET = 3 DEFAULT_GET_WAIT_TIME = 60 ENCODINGS = { str: 7, timestamp: 8, datetime: 8, int: 9, long: 9, float: 13, UUID: 14, Object: 20, list: 21 } def __init__(self, console=None, rcvObjects=True, rcvEvents=True, rcvHeartbeats=True, manageConnections=False, userBindings=False): """ Initialize a session. If the console argument is provided, the more advanced asynchronous features are available. If console is defaulted, the session will operate in a simpler, synchronous manner. The rcvObjects, rcvEvents, and rcvHeartbeats arguments are meaningful only if 'console' is provided. They control whether object updates, events, and agent-heartbeats are subscribed to. If the console is not interested in receiving one or more of the above, setting the argument to False will reduce tha bandwidth used by the API. If manageConnections is set to True, the Session object will manage connections to the brokers. This means that if a broker is unreachable, it will retry until a connection can be established. If a connection is lost, the Session will attempt to reconnect. If manageConnections is set to False, the user is responsible for handing failures. In this case, an unreachable broker will cause addBroker to raise an exception. If userBindings is set to False (the default) and rcvObjects is True, the console will receive data for all object classes. If userBindings is set to True, the user must select which classes the console shall receive by invoking the bindPackage or bindClass methods. This allows the console to be configured to receive only information that is relavant to a particular application. If rcvObjects id False, userBindings has no meaning. """ self.console = console self.brokers = [] self.schemaCache = SchemaCache() self.seqMgr = SequenceManager() self.cv = Condition() self.syncSequenceList = [] self.getResult = [] self.getSelect = [] self.error = None self.rcvObjects = rcvObjects self.rcvEvents = rcvEvents self.rcvHeartbeats = rcvHeartbeats self.userBindings = userBindings if self.console == None: self.rcvObjects = False self.rcvEvents = False self.rcvHeartbeats = False self.v1BindingKeyList, self.v2BindingKeyList = self._bindingKeys() self.manageConnections = manageConnections # callback filters: self.agent_filter = [] # (vendor, product, instance) || v1-agent-label-str self.class_filter = [] # (pkg, class) self.event_filter = [] # (pkg, event) self.agent_heartbeat_min = 10 # minimum agent heartbeat timeout interval self.agent_heartbeat_miss = 3 # # of heartbeats to miss before deleting agent if self.userBindings and not self.console: raise Exception("userBindings can't be set unless a console is provided.") def close(self): """ Releases all resources held by the session. Must be called by the application when it is done with the Session object. """ self.cv.acquire() try: while len(self.brokers): b = self.brokers.pop() try: b._shutdown() except: pass finally: self.cv.release() def _getBrokerForAgentAddr(self, agent_addr): try: self.cv.acquire() key = (1, agent_addr) for b in self.brokers: if key in b.agents: return b finally: self.cv.release() return None def _getAgentForAgentAddr(self, agent_addr): try: self.cv.acquire() key = agent_addr for b in self.brokers: if key in b.agents: return b.agents[key] finally: self.cv.release() return None def __repr__(self): return "QMF Console Session Manager (brokers: %d)" % len(self.brokers) def addBroker(self, target="localhost", timeout=None, mechanisms=None, sessTimeout=None, **connectArgs): """ Connect to a Qpid broker. Returns an object of type Broker. Will raise an exception if the session is not managing the connection and the connection setup to the broker fails. """ if isinstance(target, BrokerURL): url = target else: url = BrokerURL(target) broker = Broker(self, url.host, url.port, mechanisms, url.authName, url.authPass, ssl = url.scheme == URL.AMQPS, connTimeout=timeout, sessTimeout=sessTimeout, **connectArgs) self.brokers.append(broker) return broker def delBroker(self, broker): """ Disconnect from a broker, and deallocate the broker proxy object. The 'broker' argument is the object returned from the addBroker call. Errors are ignored. """ broker._shutdown() self.brokers.remove(broker) del broker def getPackages(self): """ Get the list of known QMF packages """ for broker in self.brokers: broker._waitForStable() return self.schemaCache.getPackages() def getClasses(self, packageName): """ Get the list of known classes within a QMF package """ for broker in self.brokers: broker._waitForStable() return self.schemaCache.getClasses(packageName) def getSchema(self, classKey): """ Get the schema for a QMF class """ for broker in self.brokers: broker._waitForStable() return self.schemaCache.getSchema(classKey) def bindPackage(self, packageName): """ Filter object and event callbacks to only those elements of the specified package. Also filters newPackage and newClass callbacks to the given package. Only valid if userBindings is True. """ if not self.userBindings: raise Exception("userBindings option must be set for this Session.") if not self.rcvObjects and not self.rcvEvents: raise Exception("Session needs to be configured to receive events or objects.") v1keys = ["console.obj.*.*.%s.#" % packageName, "console.event.*.*.%s.#" % packageName] v2keys = ["agent.ind.data.%s.#" % packageName.replace(".", "_"), "agent.ind.event.%s.#" % packageName.replace(".", "_"),] if (packageName, None) not in self.class_filter: self.class_filter.append((packageName, None)) if (packageName, None) not in self.event_filter: self.event_filter.append((packageName, None)) self.v1BindingKeyList.extend(v1keys) self.v2BindingKeyList.extend(v2keys) for broker in self.brokers: if broker.isConnected(): for v1key in v1keys: broker.amqpSession.exchange_bind(exchange="qpid.management", queue=broker.topicName, binding_key=v1key) if broker.brokerSupportsV2: for v2key in v2keys: # data indications should arrive on the unsolicited indication queue broker.amqpSession.exchange_bind(exchange="qmf.default.topic", queue=broker.v2_topic_queue_ui, binding_key=v2key) def bindClass(self, pname, cname=None): """ Filter object callbacks to only those objects of the specified package and optional class. Will also filter newPackage/newClass callbacks to the specified package and class. Only valid if userBindings is True and rcvObjects is True. """ if not self.userBindings: raise Exception("userBindings option must be set for this Session.") if not self.rcvObjects: raise Exception("Session needs to be configured with rcvObjects=True.") if cname is not None: v1key = "console.obj.*.*.%s.%s.#" % (pname, cname) v2key = "agent.ind.data.%s.%s.#" % (pname.replace(".", "_"), cname.replace(".", "_")) else: v1key = "console.obj.*.*.%s.#" % pname v2key = "agent.ind.data.%s.#" % pname.replace(".", "_") self.v1BindingKeyList.append(v1key) self.v2BindingKeyList.append(v2key) if (pname, cname) not in self.class_filter: self.class_filter.append((pname, cname)) for broker in self.brokers: if broker.isConnected(): broker.amqpSession.exchange_bind(exchange="qpid.management", queue=broker.topicName, binding_key=v1key) if broker.brokerSupportsV2: # data indications should arrive on the unsolicited indication queue broker.amqpSession.exchange_bind(exchange="qmf.default.topic", queue=broker.v2_topic_queue_ui, binding_key=v2key) def bindClassKey(self, classKey): """ Filter object callbacks to only those objects of the specified class. Will also filter newPackage/newClass callbacks to the specified package and class. Only valid if userBindings is True and rcvObjects is True. """ pname = classKey.getPackageName() cname = classKey.getClassName() self.bindClass(pname, cname) def bindEvent(self, pname, ename=None): """ Filter event callbacks only from a particular class by package and event name, or all events in a package if ename=None. Will also filter newPackage/newClass callbacks to the specified package and class. Only valid if userBindings is True and rcvEvents is True. """ if not self.userBindings: raise Exception("userBindings option must be set for this Session.") if not self.rcvEvents: raise Exception("Session needs to be configured with rcvEvents=True.") if ename is not None: v1key = "console.event.*.*.%s.%s.#" % (pname, ename) v2key = "agent.ind.event.%s.%s.#" % (pname.replace(".", "_"), ename.replace(".", "_")) else: v1key = "console.event.*.*.%s.#" % pname v2key = "agent.ind.event.%s.#" % pname.replace(".", "_") self.v1BindingKeyList.append(v1key) self.v2BindingKeyList.append(v2key) if (pname, ename) not in self.event_filter: self.event_filter.append((pname, ename)) for broker in self.brokers: if broker.isConnected(): broker.amqpSession.exchange_bind(exchange="qpid.management", queue=broker.topicName, binding_key=v1key) if broker.brokerSupportsV2: # event indications should arrive on the unsolicited indication queue broker.amqpSession.exchange_bind(exchange="qmf.default.topic", queue=broker.v2_topic_queue_ui, binding_key=v2key) def bindEventKey(self, eventKey): """ Filter event callbacks only from a particular class key. Will also filter newPackage/newClass callbacks to the specified package and class. Only valid if userBindings is True and rcvEvents is True. """ pname = eventKey.getPackageName() ename = eventKey.getClassName() self.bindEvent(pname, ename) def bindAgent(self, vendor=None, product=None, instance=None, label=None): """ Receive heartbeats, newAgent and delAgent callbacks only for those agent(s) that match the passed identification criteria: V2 agents: vendor, optionally product and instance strings V1 agents: the label string. Only valid if userBindings is True. """ if not self.userBindings: raise Exception("Session not configured for binding specific agents.") if vendor is None and label is None: raise Exception("Must specify at least a vendor (V2 agents)" " or label (V1 agents).") if vendor: # V2 agent identification if product is not None: v2key = "agent.ind.heartbeat.%s.%s.#" % (vendor.replace(".", "_"), product.replace(".", "_")) else: v2key = "agent.ind.heartbeat.%s.#" % vendor.replace(".", "_") self.v2BindingKeyList.append(v2key) # allow wildcards - only add filter if a non-wildcarded component is given if vendor == "*": vendor = None if product == "*": product = None if instance == "*": instance = None if vendor or product or instance: if (vendor, product, instance) not in self.agent_filter: self.agent_filter.append((vendor, product, instance)) for broker in self.brokers: if broker.isConnected(): if broker.brokerSupportsV2: # heartbeats should arrive on the heartbeat queue broker.amqpSession.exchange_bind(exchange="qmf.default.topic", queue=broker.v2_topic_queue_hb, binding_key=v2key) elif label != "*": # non-wildcard V1 agent label # V1 format heartbeats do not have any agent identifier in the routing # key, so we cannot filter them by bindings. if label not in self.agent_filter: self.agent_filter.append(label) def getAgents(self, broker=None): """ Get a list of currently known agents """ brokerList = [] if broker == None: for b in self.brokers: brokerList.append(b) else: brokerList.append(broker) for b in brokerList: b._waitForStable() agentList = [] for b in brokerList: for a in b.getAgents(): agentList.append(a) return agentList def makeObject(self, classKey, **kwargs): """ Create a new, unmanaged object of the schema indicated by classKey """ schema = self.getSchema(classKey) if schema == None: raise Exception("Schema not found for classKey") return Object(None, schema, None, True, True, kwargs) def getObjects(self, **kwargs): """ Get a list of objects from QMF agents. All arguments are passed by name(keyword). The class for queried objects may be specified in one of the following ways: _schema = <schema> - supply a schema object returned from getSchema. _key = <key> - supply a classKey from the list returned by getClasses. _class = <name> - supply a class name as a string. If the class name exists in multiple packages, a _package argument may also be supplied. _objectId = <id> - get the object referenced by the object-id If objects should be obtained from only one agent, use the following argument. Otherwise, the query will go to all agents. _agent = <agent> - supply an agent from the list returned by getAgents. If the get query is to be restricted to one broker (as opposed to all connected brokers), add the following argument: _broker = <broker> - supply a broker as returned by addBroker. The default timeout for this synchronous operation is 60 seconds. To change the timeout, use the following argument: _timeout = <time in seconds> If additional arguments are supplied, they are used as property selectors. For example, if the argument name="test" is supplied, only objects whose "name" property is "test" will be returned in the result. """ if "_broker" in kwargs: brokerList = [] brokerList.append(kwargs["_broker"]) else: brokerList = self.brokers for broker in brokerList: broker._waitForStable() if broker.isConnected(): if "_package" not in kwargs or "_class" not in kwargs or \ kwargs["_package"] != "org.apache.qpid.broker" or \ kwargs["_class"] != "agent": self.getObjects(_package = "org.apache.qpid.broker", _class = "agent", _agent = broker.getAgent(1,0)) agentList = [] if "_agent" in kwargs: agent = kwargs["_agent"] if agent.broker not in brokerList: raise Exception("Supplied agent is not accessible through the supplied broker") if agent.broker.isConnected(): agentList.append(agent) else: if "_objectId" in kwargs: oid = kwargs["_objectId"] for broker in brokerList: for agent in broker.getAgents(): if agent.getBrokerBank() == oid.getBrokerBank() and agent.getAgentBank() == oid.getAgentBank(): agentList.append(agent) else: for broker in brokerList: for agent in broker.getAgents(): if agent.broker.isConnected(): agentList.append(agent) if len(agentList) == 0: return [] # # We now have a list of agents to query, start the queries and gather the results. # request = SessionGetRequest(len(agentList)) for agent in agentList: agent.getObjects(request, **kwargs) timeout = 60 if '_timeout' in kwargs: timeout = kwargs['_timeout'] request.wait(timeout) return request.result def addEventFilter(self, **kwargs): """Filter unsolicited events based on package and event name. QMF v2 also can filter on vendor, product, and severity values. By default, a console receives unsolicted events by binding to: qpid.management/console.event.# (v1) qmf.default.topic/agent.ind.event.# (v2) A V1 event filter binding uses the pattern: qpid.management/console.event.*.*[.<package>[.<event>]].# A V2 event filter binding uses the pattern: qmf.default.topic/agent.ind.event.<Vendor|*>.<Product|*>.<severity|*>.<package|*>.<event|*>.# """ package = kwargs.get("package", "*") event = kwargs.get("event", "*") vendor = kwargs.get("vendor", "*") product = kwargs.get("product", "*") severity = kwargs.get("severity", "*") if package == "*" and event != "*": raise Exception("'package' parameter required if 'event' parameter" " supplied") # V1 key - can only filter on package (and event) if package == "*": key = "console.event.*.*." + str(package) if event != "*": key += "." + str(event) key += ".#" if key not in self.v1BindingKeyList: self.v1BindingKeyList.append(key) try: # remove default wildcard binding self.v1BindingKeyList.remove("console.event.#") except: pass # V2 key - escape any "." in the filter strings key = "agent.ind.event." + str(package).replace(".", "_") \ + "." + str(event).replace(".", "_") \ + "." + str(severity).replace(".", "_") \ + "." + str(vendor).replace(".", "_") \ + "." + str(product).replace(".", "_") \ + ".#" if key not in self.v2BindingKeyList: self.v2BindingKeyList.append(key) try: # remove default wildcard binding self.v2BindingKeyList.remove("agent.ind.event.#") except: pass if package != "*": if event != "*": f = (package, event) else: f = (package, None) if f not in self.event_filter: self.event_filter.append(f) def addAgentFilter(self, vendor, product=None): """ Deprecate - use bindAgent() instead """ self.addHeartbeatFilter(vendor=vendor, product=product) def addHeartbeatFilter(self, **kwargs): """ Deprecate - use bindAgent() instead. """ vendor = kwargs.get("vendor") product = kwargs.get("product") if vendor is None: raise Exception("vendor parameter required!") # V1 heartbeats do not have any agent identifier - we cannot # filter them by agent. # build the binding key - escape "."s... key = "agent.ind.heartbeat." + str(vendor).replace(".", "_") if product is not None: key += "." + str(product).replace(".", "_") key += ".#" if key not in self.v2BindingKeyList: self.v2BindingKeyList.append(key) self.agent_filter.append((vendor, product, None)) # be sure we don't ever filter the local broker local_broker_key = "agent.ind.heartbeat." + "org.apache".replace(".", "_") \ + "." + "qpidd".replace(".", "_") + ".#" if local_broker_key not in self.v2BindingKeyList: self.v2BindingKeyList.append(local_broker_key) # remove the wildcard key if present try: self.v2BindingKeyList.remove("agent.ind.heartbeat.#") except: pass def _bindingKeys(self): v1KeyList = [] v2KeyList = [] v1KeyList.append("schema.#") # note well: any binding that starts with 'agent.ind.heartbeat' will be # bound to the heartbeat queue, otherwise it will be bound to the # unsolicited indication queue. See _decOutstanding() for the binding. if not self.userBindings: if self.rcvObjects and self.rcvEvents and self.rcvHeartbeats: v1KeyList.append("console.#") v2KeyList.append("agent.ind.data.#") v2KeyList.append("agent.ind.event.#") v2KeyList.append("agent.ind.heartbeat.#") else: # need heartbeats for V2 newAgent()/delAgent() v2KeyList.append("agent.ind.heartbeat.#") if self.rcvObjects: v1KeyList.append("console.obj.#") v2KeyList.append("agent.ind.data.#") else: v1KeyList.append("console.obj.*.*.org.apache.qpid.broker.agent") if self.rcvEvents: v1KeyList.append("console.event.#") v2KeyList.append("agent.ind.event.#") else: v1KeyList.append("console.event.*.*.org.apache.qpid.broker.agent") if self.rcvHeartbeats: v1KeyList.append("console.heartbeat.#") else: # mandatory bindings v1KeyList.append("console.obj.*.*.org.apache.qpid.broker.agent") v1KeyList.append("console.event.*.*.org.apache.qpid.broker.agent") v1KeyList.append("console.heartbeat.#") # no way to turn this on later v2KeyList.append("agent.ind.heartbeat.org_apache.qpidd.#") return (v1KeyList, v2KeyList) def _handleBrokerConnect(self, broker): if self.console: for agent in broker.getAgents(): self._newAgentCallback(agent) self.console.brokerConnected(broker) def _handleBrokerDisconnect(self, broker): if self.console: for agent in broker.getAgents(): self._delAgentCallback(agent) self.console.brokerDisconnected(broker) def _handleBrokerResp(self, broker, codec, seq): broker.brokerId = codec.read_uuid() if self.console != None: self.console.brokerInfo(broker) # Send a package request # (effectively inc and dec outstanding by not doing anything) sendCodec = Codec() seq = self.seqMgr._reserve(self._CONTEXT_STARTUP) broker._setHeader(sendCodec, 'P', seq) smsg = broker._message(sendCodec.encoded) broker._send(smsg) def _handlePackageInd(self, broker, codec, seq): pname = str(codec.read_str8()) notify = self.schemaCache.declarePackage(pname) if notify and self.console != None: self._newPackageCallback(pname) # Send a class request broker._incOutstanding() sendCodec = Codec() seq = self.seqMgr._reserve(self._CONTEXT_STARTUP) broker._setHeader(sendCodec, 'Q', seq) sendCodec.write_str8(pname) smsg = broker._message(sendCodec.encoded) broker._send(smsg) def _handleCommandComplete(self, broker, codec, seq, agent): code = codec.read_uint32() text = codec.read_str8() context = self.seqMgr._release(seq) if context == self._CONTEXT_STARTUP: broker._decOutstanding() elif context == self._CONTEXT_SYNC and seq == broker.syncSequence: try: broker.cv.acquire() broker.syncInFlight = False broker.cv.notify() finally: broker.cv.release() elif context == self._CONTEXT_MULTIGET and seq in self.syncSequenceList: try: self.cv.acquire() self.syncSequenceList.remove(seq) if len(self.syncSequenceList) == 0: self.cv.notify() finally: self.cv.release() if agent: agent._handleV1Completion(seq, code, text) def _handleClassInd(self, broker, codec, seq): kind = codec.read_uint8() classKey = ClassKey(codec) classKey._setType(kind) schema = self.schemaCache.getSchema(classKey) if not schema: # Send a schema request for the unknown class broker._incOutstanding() sendCodec = Codec() seq = self.seqMgr._reserve(self._CONTEXT_STARTUP) broker._setHeader(sendCodec, 'S', seq) classKey.encode(sendCodec) smsg = broker._message(sendCodec.encoded) broker._send(smsg) def _handleHeartbeatInd(self, broker, codec, seq, msg): brokerBank = 1 agentBank = 0 dp = msg.get("delivery_properties") if dp: key = dp["routing_key"] if key: keyElements = key.split(".") if len(keyElements) == 4: brokerBank = int(keyElements[2]) agentBank = int(keyElements[3]) else: # If there's no routing key in the delivery properties, # assume the message is from the broker. brokerBank = 1 agentBank = 0 agent = broker.getAgent(brokerBank, agentBank) if self.rcvHeartbeats and self.console != None and agent != None: timestamp = codec.read_uint64() self._heartbeatCallback(agent, timestamp) def _handleSchemaResp(self, broker, codec, seq, agent_addr): kind = codec.read_uint8() classKey = ClassKey(codec) classKey._setType(kind) _class = SchemaClass(kind, classKey, codec, self) new_pkg, new_cls = self.schemaCache.declareClass(classKey, _class) ctx = self.seqMgr._release(seq) if ctx: broker._decOutstanding() if self.console != None: if new_pkg: self._newPackageCallback(classKey.getPackageName()) if new_cls: self._newClassCallback(kind, classKey) if agent_addr and (agent_addr.__class__ == str or agent_addr.__class__ == unicode): agent = self._getAgentForAgentAddr(agent_addr) if agent: agent._schemaInfoFromV2Agent() def _v2HandleHeartbeatInd(self, broker, mp, ah, content): try: agentName = ah["qmf.agent"] values = content["_values"] if '_timestamp' in values: timestamp = values["_timestamp"] else: timestamp = values['timestamp'] if '_heartbeat_interval' in values: interval = values['_heartbeat_interval'] else: interval = values['heartbeat_interval'] epoch = 0 if '_epoch' in values: epoch = values['_epoch'] elif 'epoch' in values: epoch = values['epoch'] except Exception: return if self.agent_filter: # only allow V2 agents that satisfy the filter v = agentName.split(":", 2) if len(v) != 3 or ((v[0], None, None) not in self.agent_filter and (v[0], v[1], None) not in self.agent_filter and (v[0], v[1], v[2]) not in self.agent_filter): return ## ## We already have the "local-broker" agent in our list as ['0']. ## if '_vendor' in values and values['_vendor'] == 'apache.org' and \ '_product' in values and values['_product'] == 'qpidd': agent = broker.getBrokerAgent() else: agent = broker.getAgent(1, agentName) if agent == None: agent = Agent(broker, agentName, "QMFv2 Agent", True, interval) agent.setEpoch(epoch) broker._addAgent(agentName, agent) else: agent.touch() if self.rcvHeartbeats and self.console and agent: self._heartbeatCallback(agent, timestamp) agent.update_schema_timestamp(values.get("_schema_updated", 0)) def _v2HandleAgentLocateRsp(self, broker, mp, ah, content): self._v2HandleHeartbeatInd(broker, mp, ah, content) def _handleError(self, error): try: self.cv.acquire() if len(self.syncSequenceList) > 0: self.error = error self.syncSequenceList = [] self.cv.notify() finally: self.cv.release() def _selectMatch(self, object): """ Check the object against self.getSelect to check for a match """ for key, value in self.getSelect: for prop, propval in object.getProperties(): if key == prop.name and value != propval: return False return True def _decodeValue(self, codec, typecode, broker=None): """ Decode, from the codec, a value based on its typecode. """ if typecode == 1: data = codec.read_uint8() # U8 elif typecode == 2: data = codec.read_uint16() # U16 elif typecode == 3: data = codec.read_uint32() # U32 elif typecode == 4: data = codec.read_uint64() # U64 elif typecode == 6: data = codec.read_str8() # SSTR elif typecode == 7: data = codec.read_str16() # LSTR elif typecode == 8: data = codec.read_int64() # ABSTIME elif typecode == 9: data = codec.read_uint64() # DELTATIME elif typecode == 10: data = ObjectId(codec) # REF elif typecode == 11: data = codec.read_uint8() != 0 # BOOL elif typecode == 12: data = codec.read_float() # FLOAT elif typecode == 13: data = codec.read_double() # DOUBLE elif typecode == 14: data = codec.read_uuid() # UUID elif typecode == 16: data = codec.read_int8() # S8 elif typecode == 17: data = codec.read_int16() # S16 elif typecode == 18: data = codec.read_int32() # S32 elif typecode == 19: data = codec.read_int64() # S63 elif typecode == 15: data = codec.read_map() # FTABLE elif typecode == 20: # OBJECT # Peek at the type, and if it is still 20 pull it decode. If # Not, call back into self. inner_type_code = codec.read_uint8() if inner_type_code == 20: classKey = ClassKey(codec) schema = self.schemaCache.getSchema(classKey) if not schema: return None data = Object(self, broker, schema, codec, True, True, False) else: data = self._decodeValue(codec, inner_type_code, broker) elif typecode == 21: data = codec.read_list() # List elif typecode == 22: #Array #taken from codec10.read_array sc = Codec(codec.read_vbin32()) count = sc.read_uint32() type = sc.read_uint8() data = [] while count > 0: data.append(self._decodeValue(sc,type,broker)) count -= 1 else: raise ValueError("Invalid type code: %d" % typecode) return data def _encodeValue(self, codec, value, typecode): """ Encode, into the codec, a value based on its typecode. """ if typecode == 1: codec.write_uint8 (int(value)) # U8 elif typecode == 2: codec.write_uint16 (int(value)) # U16 elif typecode == 3: codec.write_uint32 (long(value)) # U32 elif typecode == 4: codec.write_uint64 (long(value)) # U64 elif typecode == 6: codec.write_str8 (value) # SSTR elif typecode == 7: codec.write_str16 (value) # LSTR elif typecode == 8: codec.write_int64 (long(value)) # ABSTIME elif typecode == 9: codec.write_uint64 (long(value)) # DELTATIME elif typecode == 10: value.encode (codec) # REF elif typecode == 11: codec.write_uint8 (int(value)) # BOOL elif typecode == 12: codec.write_float (float(value)) # FLOAT elif typecode == 13: codec.write_double (float(value)) # DOUBLE elif typecode == 14: codec.write_uuid (value.bytes) # UUID elif typecode == 16: codec.write_int8 (int(value)) # S8 elif typecode == 17: codec.write_int16 (int(value)) # S16 elif typecode == 18: codec.write_int32 (int(value)) # S32 elif typecode == 19: codec.write_int64 (int(value)) # S64 elif typecode == 20: value._encodeUnmanaged(codec) # OBJECT elif typecode == 15: codec.write_map (value) # FTABLE elif typecode == 21: codec.write_list (value) # List elif typecode == 22: # Array sc = Codec() self._encodeValue(sc, len(value), 3) if len(value) > 0: ltype = self.encoding(value[0]) self._encodeValue(sc,ltype,1) for o in value: self._encodeValue(sc, o, ltype) codec.write_vbin32(sc.encoded) else: raise ValueError ("Invalid type code: %d" % typecode) def encoding(self, value): return self._encoding(value.__class__) def _encoding(self, klass): if Session.ENCODINGS.has_key(klass): return self.ENCODINGS[klass] for base in klass.__bases__: result = self._encoding(base) if result != None: return result def _displayValue(self, value, typecode): """ """ if typecode == 1: return unicode(value) elif typecode == 2: return unicode(value) elif typecode == 3: return unicode(value) elif typecode == 4: return unicode(value) elif typecode == 6: return value elif typecode == 7: return value elif typecode == 8: return unicode(strftime("%c", gmtime(value / 1000000000))) elif typecode == 9: return unicode(value) elif typecode == 10: return unicode(value.__repr__()) elif typecode == 11: if value: return u"T" else: return u"F" elif typecode == 12: return unicode(value) elif typecode == 13: return unicode(value) elif typecode == 14: return unicode(value.__repr__()) elif typecode == 15: return unicode(value.__repr__()) elif typecode == 16: return unicode(value) elif typecode == 17: return unicode(value) elif typecode == 18: return unicode(value) elif typecode == 19: return unicode(value) elif typecode == 20: return unicode(value.__repr__()) elif typecode == 21: return unicode(value.__repr__()) elif typecode == 22: return unicode(value.__repr__()) else: raise ValueError ("Invalid type code: %d" % typecode) def _defaultValue(self, stype, broker=None, kwargs={}): """ """ typecode = stype.type if typecode == 1: return 0 elif typecode == 2: return 0 elif typecode == 3: return 0 elif typecode == 4: return 0 elif typecode == 6: return "" elif typecode == 7: return "" elif typecode == 8: return 0 elif typecode == 9: return 0 elif typecode == 10: return ObjectId(None) elif typecode == 11: return False elif typecode == 12: return 0.0 elif typecode == 13: return 0.0 elif typecode == 14: return UUID(bytes=[0 for i in range(16)]) elif typecode == 15: return {} elif typecode == 16: return 0 elif typecode == 17: return 0 elif typecode == 18: return 0 elif typecode == 19: return 0 elif typecode == 21: return [] elif typecode == 22: return [] elif typecode == 20: try: if "classKeys" in kwargs: keyList = kwargs["classKeys"] else: keyList = None classKey = self._bestClassKey(stype.refPackage, stype.refClass, keyList) if classKey: return self.makeObject(classKey, broker, kwargs) except: pass return None else: raise ValueError ("Invalid type code: %d" % typecode) def _bestClassKey(self, pname, cname, preferredList): """ """ if pname == None or cname == None: if len(preferredList) == 0: return None return preferredList[0] for p in preferredList: if p.getPackageName() == pname and p.getClassName() == cname: return p clist = self.getClasses(pname) for c in clist: if c.getClassName() == cname: return c return None def _sendMethodRequest(self, broker, schemaKey, objectId, name, argList): """ This is a legacy function that is used by qpid-tool to invoke methods using the broker, objectId and schema. Methods are now invoked on the object itself. """ objs = self.getObjects(_objectId=objectId) if objs: return objs[0]._sendMethodRequest(name, argList, {}) return None def _newPackageCallback(self, pname): """ Invokes the console.newPackage() callback if the callback is present and the package is not filtered. """ if self.console: if len(self.class_filter) == 0 and len(self.event_filter) == 0: self.console.newPackage(pname) else: for x in self.class_filter: if x[0] == pname: self.console.newPackage(pname) return for x in self.event_filter: if x[0] == pname: self.console.newPackage(pname) return def _newClassCallback(self, ctype, ckey): """ Invokes the console.newClass() callback if the callback is present and the class is not filtered. """ if self.console: if ctype == ClassKey.TYPE_DATA: if (len(self.class_filter) == 0 or (ckey.getPackageName(), ckey.getClassName()) in self.class_filter): self.console.newClass(ctype, ckey) elif ctype == ClassKey.TYPE_EVENT: if (len(self.event_filter) == 0 or (ckey.getPackageName(), ckey.getClassName()) in self.event_filter): self.console.newClass(ctype, ckey) else: # old class keys did not contain type info, check both filters if ((len(self.class_filter) == 0 and len(self.event_filter) == 0) or (ckey.getPackageName(), ckey.getClassName()) in self.class_filter or (ckey.getPackageName(), ckey.getClassName()) in self.event_filter): self.console.newClass(ctype, ckey) def _agentAllowed(self, agentName, isV2): """ True if the agent is NOT filtered. """ if self.agent_filter: if isV2: v = agentName.split(":", 2) return ((len(v) > 2 and (v[0], v[1], v[2]) in self.agent_filter) or (len(v) > 1 and (v[0], v[1], None) in self.agent_filter) or (v and (v[0], None, None) in self.agent_filter)); else: return agentName in self.agent_filter return True def _heartbeatCallback(self, agent, timestamp): """ Invokes the console.heartbeat() callback if the callback is present and the agent is not filtered. """ if self.console and self.rcvHeartbeats: if ((agent.isV2 and self._agentAllowed(agent.agentBank, True)) or ((not agent.isV2) and self._agentAllowed(agent.label, False))): self.console.heartbeat(agent, timestamp) def _newAgentCallback(self, agent): """ Invokes the console.newAgent() callback if the callback is present and the agent is not filtered. """ if self.console: if ((agent.isV2 and self._agentAllowed(agent.agentBank, True)) or ((not agent.isV2) and self._agentAllowed(agent.label, False))): self.console.newAgent(agent) def _delAgentCallback(self, agent): """ Invokes the console.delAgent() callback if the callback is present and the agent is not filtered. """ if self.console: if ((agent.isV2 and self._agentAllowed(agent.agentBank, True)) or ((not agent.isV2) and self._agentAllowed(agent.label, False))): self.console.delAgent(agent) #=================================================================================================== # SessionGetRequest #=================================================================================================== class SessionGetRequest(object): """ This class is used to track get-object queries at the Session level. """ def __init__(self, agentCount): self.agentCount = agentCount self.result = [] self.cv = Condition() self.waiting = True def __call__(self, **kwargs): """ Callable entry point for gathering collected objects. """ try: self.cv.acquire() if 'qmf_object' in kwargs: self.result.append(kwargs['qmf_object']) elif 'qmf_complete' in kwargs or 'qmf_exception' in kwargs: self.agentCount -= 1 if self.agentCount == 0: self.waiting = None self.cv.notify() finally: self.cv.release() def wait(self, timeout): starttime = time() try: self.cv.acquire() while self.waiting: if (time() - starttime) > timeout: raise Exception("Timed out after %d seconds" % timeout) self.cv.wait(1) finally: self.cv.release() #=================================================================================================== # SchemaCache #=================================================================================================== class SchemaCache(object): """ The SchemaCache is a data structure that stores learned schema information. """ def __init__(self): """ Create a map of schema packages and a lock to protect this data structure. Note that this lock is at the bottom of any lock hierarchy. If it is held, no other lock in the system should attempt to be acquired. """ self.packages = {} self.lock = Lock() def getPackages(self): """ Get the list of known QMF packages """ list = [] try: self.lock.acquire() for package in self.packages: list.append(package) finally: self.lock.release() return list def getClasses(self, packageName): """ Get the list of known classes within a QMF package """ list = [] try: self.lock.acquire() if packageName in self.packages: for pkey in self.packages[packageName]: if isinstance(self.packages[packageName][pkey], SchemaClass): list.append(self.packages[packageName][pkey].getKey()) elif self.packages[packageName][pkey] is not None: # schema not present yet, but we have schema type list.append(ClassKey({"_package_name": packageName, "_class_name": pkey[0], "_hash": pkey[1], "_type": self.packages[packageName][pkey]})) finally: self.lock.release() return list def getSchema(self, classKey): """ Get the schema for a QMF class, return None if schema not available """ pname = classKey.getPackageName() pkey = classKey.getPackageKey() try: self.lock.acquire() if pname in self.packages: if (pkey in self.packages[pname] and isinstance(self.packages[pname][pkey], SchemaClass)): # hack: value may be schema type info if schema not available return self.packages[pname][pkey] finally: self.lock.release() return None def declarePackage(self, pname): """ Maybe add a package to the cache. Return True if package was added, None if it pre-existed. """ try: self.lock.acquire() if pname in self.packages: return None self.packages[pname] = {} finally: self.lock.release() return True def declareClass(self, classKey, classDef=None): """ Add a class definition to the cache, if supplied. Return a pair indicating if the package or class is new. """ new_package = False new_class = False pname = classKey.getPackageName() pkey = classKey.getPackageKey() try: self.lock.acquire() if pname not in self.packages: self.packages[pname] = {} new_package = True packageMap = self.packages[pname] if pkey not in packageMap or not isinstance(packageMap[pkey], SchemaClass): if classDef is not None: new_class = True packageMap[pkey] = classDef elif classKey.getType() is not None: # hack: don't indicate "new_class" to caller unless the classKey type # information is present. "new_class" causes the console.newClass() # callback to be invoked, which -requires- a valid classKey type! new_class = True # store the type for the getClasses() method: packageMap[pkey] = classKey.getType() finally: self.lock.release() return (new_package, new_class) #=================================================================================================== # ClassKey #=================================================================================================== class ClassKey: """ A ClassKey uniquely identifies a class from the schema. """ TYPE_DATA = "_data" TYPE_EVENT = "_event" def __init__(self, constructor): if constructor.__class__ == str: # construct from __repr__ string try: # supports two formats: # type present = P:C:T(H) # no type present = P:C(H) tmp = constructor.split(":") if len(tmp) == 3: self.pname, self.cname, rem = tmp self.type, hsh = rem.split("(") else: self.pname, rem = tmp self.cname, hsh = rem.split("(") self.type = None hsh = hsh.strip(")") hexValues = hsh.split("-") h0 = int(hexValues[0], 16) h1 = int(hexValues[1], 16) h2 = int(hexValues[2], 16) h3 = int(hexValues[3], 16) h4 = int(hexValues[4][0:4], 16) h5 = int(hexValues[4][4:12], 16) self.hash = UUID(bytes=struct.pack("!LHHHHL", h0, h1, h2, h3, h4, h5)) except: raise Exception("Invalid ClassKey format") elif constructor.__class__ == dict: # construct from QMFv2 map try: self.pname = constructor['_package_name'] self.cname = constructor['_class_name'] self.hash = constructor['_hash'] self.type = constructor.get('_type') except: raise Exception("Invalid ClassKey map format %s" % str(constructor)) else: # construct from codec codec = constructor self.pname = str(codec.read_str8()) self.cname = str(codec.read_str8()) self.hash = UUID(bytes=codec.read_bin128()) # old V1 codec did not include "type" self.type = None def encode(self, codec): # old V1 codec did not include "type" codec.write_str8(self.pname) codec.write_str8(self.cname) codec.write_bin128(self.hash.bytes) def asMap(self): m = {'_package_name': self.pname, '_class_name': self.cname, '_hash': self.hash} if self.type is not None: m['_type'] = self.type return m def getPackageName(self): return self.pname def getClassName(self): return self.cname def getHash(self): return self.hash def getType(self): return self.type def getHashString(self): return str(self.hash) def getPackageKey(self): return (self.cname, self.hash) def __repr__(self): if self.type is None: return self.pname + ":" + self.cname + "(" + self.getHashString() + ")" return self.pname + ":" + self.cname + ":" + self.type + "(" + self.getHashString() + ")" def _setType(self, _type): if _type == 2 or _type == ClassKey.TYPE_EVENT: self.type = ClassKey.TYPE_EVENT else: self.type = ClassKey.TYPE_DATA def __hash__(self): ss = self.pname + self.cname + self.getHashString() return ss.__hash__() def __eq__(self, other): return self.__repr__() == other.__repr__() #=================================================================================================== # SchemaClass #=================================================================================================== class SchemaClass: """ """ CLASS_KIND_TABLE = 1 CLASS_KIND_EVENT = 2 def __init__(self, kind, key, codec, session): self.kind = kind self.classKey = key self.properties = [] self.statistics = [] self.methods = [] self.arguments = [] self.session = session hasSupertype = 0 #codec.read_uint8() if self.kind == self.CLASS_KIND_TABLE: propCount = codec.read_uint16() statCount = codec.read_uint16() methodCount = codec.read_uint16() if hasSupertype == 1: self.superTypeKey = ClassKey(codec) else: self.superTypeKey = None ; for idx in range(propCount): self.properties.append(SchemaProperty(codec)) for idx in range(statCount): self.statistics.append(SchemaStatistic(codec)) for idx in range(methodCount): self.methods.append(SchemaMethod(codec)) elif self.kind == self.CLASS_KIND_EVENT: argCount = codec.read_uint16() if (hasSupertype): self.superTypeKey = ClassKey(codec) else: self.superTypeKey = None ; for idx in range(argCount): self.arguments.append(SchemaArgument(codec, methodArg=False)) def __repr__(self): if self.kind == self.CLASS_KIND_TABLE: kindStr = "Table" elif self.kind == self.CLASS_KIND_EVENT: kindStr = "Event" else: kindStr = "Unsupported" result = "%s Class: %s " % (kindStr, self.classKey.__repr__()) return result def getKey(self): """ Return the class-key for this class. """ return self.classKey def getProperties(self): """ Return the list of properties for the class. """ if (self.superTypeKey == None): return self.properties else: return self.properties + self.session.getSchema(self.superTypeKey).getProperties() def getStatistics(self): """ Return the list of statistics for the class. """ if (self.superTypeKey == None): return self.statistics else: return self.statistics + self.session.getSchema(self.superTypeKey).getStatistics() def getMethods(self): """ Return the list of methods for the class. """ if (self.superTypeKey == None): return self.methods else: return self.methods + self.session.getSchema(self.superTypeKey).getMethods() def getArguments(self): """ Return the list of events for the class. """ """ Return the list of methods for the class. """ if (self.superTypeKey == None): return self.arguments else: return self.arguments + self.session.getSchema(self.superTypeKey).getArguments() #=================================================================================================== # SchemaProperty #=================================================================================================== class SchemaProperty: """ """ def __init__(self, codec): map = codec.read_map() self.name = str(map["name"]) self.type = map["type"] self.access = str(map["access"]) self.index = map["index"] != 0 self.optional = map["optional"] != 0 self.refPackage = None self.refClass = None self.unit = None self.min = None self.max = None self.maxlen = None self.desc = None for key, value in map.items(): if key == "unit" : self.unit = value elif key == "min" : self.min = value elif key == "max" : self.max = value elif key == "maxlen" : self.maxlen = value elif key == "desc" : self.desc = value elif key == "refPackage" : self.refPackage = value elif key == "refClass" : self.refClass = value def __repr__(self): return self.name #=================================================================================================== # SchemaStatistic #=================================================================================================== class SchemaStatistic: """ """ def __init__(self, codec): map = codec.read_map() self.name = str(map["name"]) self.type = map["type"] self.unit = None self.desc = None for key, value in map.items(): if key == "unit" : self.unit = value elif key == "desc" : self.desc = value def __repr__(self): return self.name #=================================================================================================== # SchemaMethod #=================================================================================================== class SchemaMethod: """ """ def __init__(self, codec): map = codec.read_map() self.name = str(map["name"]) argCount = map["argCount"] if "desc" in map: self.desc = map["desc"] else: self.desc = None self.arguments = [] for idx in range(argCount): self.arguments.append(SchemaArgument(codec, methodArg=True)) def __repr__(self): result = self.name + "(" first = True for arg in self.arguments: if arg.dir.find("I") != -1: if first: first = False else: result += ", " result += arg.name result += ")" return result #=================================================================================================== # SchemaArgument #=================================================================================================== class SchemaArgument: """ """ def __init__(self, codec, methodArg): map = codec.read_map() self.name = str(map["name"]) self.type = map["type"] if methodArg: self.dir = str(map["dir"]).upper() self.unit = None self.min = None self.max = None self.maxlen = None self.desc = None self.default = None self.refPackage = None self.refClass = None for key, value in map.items(): if key == "unit" : self.unit = value elif key == "min" : self.min = value elif key == "max" : self.max = value elif key == "maxlen" : self.maxlen = value elif key == "desc" : self.desc = value elif key == "default" : self.default = value elif key == "refPackage" : self.refPackage = value elif key == "refClass" : self.refClass = value #=================================================================================================== # ObjectId #=================================================================================================== class ObjectId: """ Object that represents QMF object identifiers """ def __init__(self, constructor, first=0, second=0, agentName=None): if constructor.__class__ == dict: self.isV2 = True self.agentName = agentName self.agentEpoch = 0 if '_agent_name' in constructor: self.agentName = constructor['_agent_name'] if '_agent_epoch' in constructor: self.agentEpoch = constructor['_agent_epoch'] if '_object_name' not in constructor: raise Exception("QMFv2 OBJECT_ID must have the '_object_name' field.") self.objectName = constructor['_object_name'] else: self.isV2 = None if not constructor: first = first second = second else: first = constructor.read_uint64() second = constructor.read_uint64() self.agentName = str(first & 0x000000000FFFFFFF) self.agentEpoch = (first & 0x0FFF000000000000) >> 48 self.objectName = str(second) def _create(cls, agent_name, object_name, epoch=0): oid = {"_agent_name": agent_name, "_object_name": object_name, "_agent_epoch": epoch} return cls(oid) create = classmethod(_create) def __cmp__(self, other): if other == None or not isinstance(other, ObjectId) : return 1 if self.objectName < other.objectName: return -1 if self.objectName > other.objectName: return 1 if self.agentName < other.agentName: return -1 if self.agentName > other.agentName: return 1 if self.agentEpoch < other.agentEpoch: return -1 if self.agentEpoch > other.agentEpoch: return 1 return 0 def __repr__(self): return "%d-%d-%d-%s-%s" % (self.getFlags(), self.getSequence(), self.getBrokerBank(), self.getAgentBank(), self.getObject()) def index(self): return self.__repr__() def getFlags(self): return 0 def getSequence(self): return self.agentEpoch def getBrokerBank(self): return 1 def getAgentBank(self): return self.agentName def getV2RoutingKey(self): if self.agentName == '0': return "broker" return self.agentName def getObject(self): return self.objectName def isDurable(self): return self.getSequence() == 0 def encode(self, codec): first = (self.agentEpoch << 48) + (1 << 28) second = 0 try: first += int(self.agentName) except: pass try: second = int(self.objectName) except: pass codec.write_uint64(first) codec.write_uint64(second) def asMap(self): omap = {'_agent_name': self.agentName, '_object_name': self.objectName} if self.agentEpoch != 0: omap['_agent_epoch'] = self.agentEpoch return omap def __hash__(self): return self.__repr__().__hash__() def __eq__(self, other): return self.__repr__().__eq__(other) #=================================================================================================== # MethodResult #=================================================================================================== class MethodResult(object): """ """ def __init__(self, status, text, outArgs): """ """ self.status = status self.text = text self.outArgs = outArgs def __getattr__(self, name): if name in self.outArgs: return self.outArgs[name] def __repr__(self): return "%s (%d) - %s" % (self.text, self.status, self.outArgs) #=================================================================================================== # Broker #=================================================================================================== class Broker(Thread): """ This object represents a connection (or potential connection) to a QMF broker. """ SYNC_TIME = 60 nextSeq = 1 # for connection recovery DELAY_MIN = 1 DELAY_MAX = 128 DELAY_FACTOR = 2 class _q_item: """ Broker-private class to encapsulate data sent to the broker thread queue. """ type_wakeup = 0 type_v1msg = 1 type_v2msg = 2 def __init__(self, typecode, data): self.typecode = typecode self.data = data def __init__(self, session, host, port, authMechs, authUser, authPass, ssl=False, connTimeout=None, sessTimeout=None, **connectArgs): """ Create a broker proxy and setup a connection to the broker. Will raise an exception if the connection fails and the session is not configured to retry connection setup (manageConnections = False). Spawns a thread to manage the broker connection. Call _shutdown() to shutdown the thread when releasing the broker. """ Thread.__init__(self) self.session = session self.host = host self.port = port self.mechanisms = authMechs self.ssl = ssl if connTimeout is not None: connTimeout = float(connTimeout) self.connTimeout = connTimeout if sessTimeout is not None: sessTimeout = float(sessTimeout) else: sessTimeout = self.SYNC_TIME self.sessTimeout = sessTimeout self.authUser = authUser self.authPass = authPass self.saslUser = None self.cv = Condition() self.seqToAgentMap = {} self.error = None self.conn_exc = None # exception hit by _tryToConnect() self.brokerId = None self.connected = False self.brokerAgent = None self.brokerSupportsV2 = None self.rcv_queue = Queue() # for msg received on session self.conn = None self.amqpSession = None self.amqpSessionId = "%s.%d.%d" % (platform.uname()[1], os.getpid(), Broker.nextSeq) Broker.nextSeq += 1 self.last_age_check = time() self.connectArgs = connectArgs # thread control self.setDaemon(True) self.setName("Thread for broker: %s:%d" % (host, port)) self.canceled = False self.ready = Semaphore(0) self.start() if not self.session.manageConnections: # wait for connection setup to complete in subthread. # On failure, propagate exception to caller self.ready.acquire() if self.conn_exc: self._shutdown() # wait for the subthread to clean up... raise self.conn_exc # connection up - wait for stable... try: self._waitForStable() agent = self.getBrokerAgent() if agent: agent.getObjects(_class="agent") except: self._shutdown() # wait for the subthread to clean up... raise def isConnected(self): """ Return True if there is an active connection to the broker. """ return self.connected def getError(self): """ Return the last error message seen while trying to connect to the broker. """ return self.error def getBrokerId(self): """ Get broker's unique identifier (UUID) """ return self.brokerId def getBrokerBank(self): """ Return the broker-bank value. This is the value that the broker assigns to objects within its control. This value appears as a field in the ObjectId of objects created by agents controlled by this broker. """ return 1 def getAgent(self, brokerBank, agentBank): """ Return the agent object associated with a particular broker and agent bank value.""" bankKey = str(agentBank) try: self.cv.acquire() if bankKey in self.agents: return self.agents[bankKey] finally: self.cv.release() return None def getBrokerAgent(self): return self.brokerAgent def getSessionId(self): """ Get the identifier of the AMQP session to the broker """ return self.amqpSessionId def getAgents(self): """ Get the list of agents reachable via this broker """ try: self.cv.acquire() return self.agents.values() finally: self.cv.release() def getAmqpSession(self): """ Get the AMQP session object for this connected broker. """ return self.amqpSession def getUrl(self): """ """ return BrokerURL(host=self.host, port=self.port) def getFullUrl(self, noAuthIfGuestDefault=True): """ """ if self.ssl: scheme = "amqps" else: scheme = "amqp" if self.authUser == "" or \ (noAuthIfGuestDefault and self.authUser == "guest" and self.authPass == "guest"): return BrokerURL(scheme=scheme, host=self.host, port=(self.port or 5672)) else: return BrokerURL(scheme=scheme, user=self.authUser, password=self.authPass, host=self.host, port=(self.port or 5672)) def __repr__(self): if self.connected: return "Broker connected at: %s" % self.getUrl() else: return "Disconnected Broker" def _setSequence(self, sequence, agent): try: self.cv.acquire() self.seqToAgentMap[sequence] = agent finally: self.cv.release() def _clearSequence(self, sequence): try: self.cv.acquire() self.seqToAgentMap.pop(sequence) finally: self.cv.release() def _tryToConnect(self): """ Connect to the broker. Returns True if connection setup completes successfully, otherwise returns False and sets self.error/self.conn_exc with error info. Does not raise exceptions. """ self.error = None self.conn_exc = None try: try: self.cv.acquire() self.agents = {} finally: self.cv.release() self.topicBound = False self.syncInFlight = False self.syncRequest = 0 self.syncResult = None self.reqsOutstanding = 1 try: if self.amqpSession: self.amqpSession.close() except: pass self.amqpSession = None try: if self.conn: self.conn.close(5) except: pass self.conn = None sock = connect(self.host, self.port) sock.settimeout(5) oldTimeout = sock.gettimeout() sock.settimeout(self.connTimeout) connSock = None force_blocking = False if self.ssl: # Bug (QPID-4337): the "old" implementation of python SSL # fails if the socket is set to non-blocking (which settimeout() # may change). if sys.version_info[:2] < (2, 6): # 2.6+ uses openssl - it's ok force_blocking = True sock.setblocking(1) certfile = None if 'ssl_certfile' in self.connectArgs: certfile = self.connectArgs['ssl_certfile'] keyfile = None if 'ssl_keyfile' in self.connectArgs: keyfile = self.connectArgs['ssl_keyfile'] connSock = ssl(sock, certfile=certfile, keyfile=keyfile) else: connSock = sock if not 'service' in self.connectArgs: self.connectArgs['service'] = 'qpidd' self.conn = Connection(connSock, username=self.authUser, password=self.authPass, mechanism = self.mechanisms, host=self.host, **self.connectArgs) def aborted(): raise Timeout("Waiting for connection to be established with broker") oldAborted = self.conn.aborted self.conn.aborted = aborted self.conn.start() # Bug (QPID-4337): don't enable non-blocking (timeouts) for old SSL if not force_blocking: sock.settimeout(oldTimeout) self.conn.aborted = oldAborted uid = self.conn.user_id if uid.__class__ == tuple and len(uid) == 2: self.saslUser = uid[1] elif type(uid) is str: self.saslUser = uid; else: self.saslUser = None # prevent topic queues from filling up (and causing the agents to # disconnect) by discarding the oldest queued messages when full. topic_queue_options = {"qpid.policy_type":"ring"} self.replyName = "reply-%s" % self.amqpSessionId self.amqpSession = self.conn.session(self.amqpSessionId) self.amqpSession.timeout = self.sessTimeout self.amqpSession.auto_sync = True self.amqpSession.queue_declare(queue=self.replyName, exclusive=True, auto_delete=True) self.amqpSession.exchange_bind(exchange="amq.direct", queue=self.replyName, binding_key=self.replyName) self.amqpSession.message_subscribe(queue=self.replyName, destination="rdest", accept_mode=self.amqpSession.accept_mode.none, acquire_mode=self.amqpSession.acquire_mode.pre_acquired) self.amqpSession.incoming("rdest").listen(self._v1Cb, self._exceptionCb) self.amqpSession.message_set_flow_mode(destination="rdest", flow_mode=self.amqpSession.flow_mode.window) self.amqpSession.message_flow(destination="rdest", unit=self.amqpSession.credit_unit.byte, value=0xFFFFFFFF) self.amqpSession.message_flow(destination="rdest", unit=self.amqpSession.credit_unit.message, value=200) self.topicName = "topic-%s" % self.amqpSessionId self.amqpSession.queue_declare(queue=self.topicName, exclusive=True, auto_delete=True, arguments=topic_queue_options) self.amqpSession.message_subscribe(queue=self.topicName, destination="tdest", accept_mode=self.amqpSession.accept_mode.none, acquire_mode=self.amqpSession.acquire_mode.pre_acquired) self.amqpSession.incoming("tdest").listen(self._v1Cb, self._exceptionCb) self.amqpSession.message_set_flow_mode(destination="tdest", flow_mode=self.amqpSession.flow_mode.window) self.amqpSession.message_flow(destination="tdest", unit=self.amqpSession.credit_unit.byte, value=0xFFFFFFFF) self.amqpSession.message_flow(destination="tdest", unit=self.amqpSession.credit_unit.message, value=200) ## ## Check to see if the broker has QMFv2 exchanges configured ## direct_result = self.amqpSession.exchange_query("qmf.default.direct") topic_result = self.amqpSession.exchange_query("qmf.default.topic") self.brokerSupportsV2 = not (direct_result.not_found or topic_result.not_found) try: self.cv.acquire() self.agents = {} self.brokerAgent = Agent(self, 0, "BrokerAgent", isV2=self.brokerSupportsV2) self.agents['0'] = self.brokerAgent finally: self.cv.release() ## ## Set up connectivity for QMFv2 ## if self.brokerSupportsV2: # set up 3 queues: # 1 direct queue - for responses destined to this console. # 2 topic queues - one for heartbeats (hb), one for unsolicited data # and event indications (ui). self.v2_direct_queue = "qmfc-v2-%s" % self.amqpSessionId self.amqpSession.queue_declare(queue=self.v2_direct_queue, exclusive=True, auto_delete=True) self.v2_topic_queue_ui = "qmfc-v2-ui-%s" % self.amqpSessionId self.amqpSession.queue_declare(queue=self.v2_topic_queue_ui, exclusive=True, auto_delete=True, arguments=topic_queue_options) self.v2_topic_queue_hb = "qmfc-v2-hb-%s" % self.amqpSessionId self.amqpSession.queue_declare(queue=self.v2_topic_queue_hb, exclusive=True, auto_delete=True, arguments=topic_queue_options) self.amqpSession.exchange_bind(exchange="qmf.default.direct", queue=self.v2_direct_queue, binding_key=self.v2_direct_queue) ## Other bindings here... self.amqpSession.message_subscribe(queue=self.v2_direct_queue, destination="v2dest", accept_mode=self.amqpSession.accept_mode.none, acquire_mode=self.amqpSession.acquire_mode.pre_acquired) self.amqpSession.incoming("v2dest").listen(self._v2Cb, self._exceptionCb) self.amqpSession.message_set_flow_mode(destination="v2dest", flow_mode=self.amqpSession.flow_mode.window) self.amqpSession.message_flow(destination="v2dest", unit=self.amqpSession.credit_unit.byte, value=0xFFFFFFFF) self.amqpSession.message_flow(destination="v2dest", unit=self.amqpSession.credit_unit.message, value=50) self.amqpSession.message_subscribe(queue=self.v2_topic_queue_ui, destination="v2TopicUI", accept_mode=self.amqpSession.accept_mode.none, acquire_mode=self.amqpSession.acquire_mode.pre_acquired) self.amqpSession.incoming("v2TopicUI").listen(self._v2Cb, self._exceptionCb) self.amqpSession.message_set_flow_mode(destination="v2TopicUI", flow_mode=self.amqpSession.flow_mode.window) self.amqpSession.message_flow(destination="v2TopicUI", unit=self.amqpSession.credit_unit.byte, value=0xFFFFFFFF) self.amqpSession.message_flow(destination="v2TopicUI", unit=self.amqpSession.credit_unit.message, value=25) self.amqpSession.message_subscribe(queue=self.v2_topic_queue_hb, destination="v2TopicHB", accept_mode=self.amqpSession.accept_mode.none, acquire_mode=self.amqpSession.acquire_mode.pre_acquired) self.amqpSession.incoming("v2TopicHB").listen(self._v2Cb, self._exceptionCb) self.amqpSession.message_set_flow_mode(destination="v2TopicHB", flow_mode=self.amqpSession.flow_mode.window) self.amqpSession.message_flow(destination="v2TopicHB", unit=self.amqpSession.credit_unit.byte, value=0xFFFFFFFF) self.amqpSession.message_flow(destination="v2TopicHB", unit=self.amqpSession.credit_unit.message, value=100) codec = Codec() self._setHeader(codec, 'B') msg = self._message(codec.encoded) self._send(msg) return True # connection complete except Exception as e: self.error = "Exception during connection setup: %s - %s" % (e.__class__.__name__, e) self.conn_exc = e if self.session.console: self.session.console.brokerConnectionFailed(self) return False # connection failed def _updateAgent(self, obj): """ Just received an object of class "org.apache.qpid.broker:agent", which represents a V1 agent. Add or update the list of agent proxies. """ bankKey = str(obj.agentBank) agent = None if obj._deleteTime == 0: try: self.cv.acquire() if bankKey not in self.agents: # add new agent only if label is not filtered if len(self.session.agent_filter) == 0 or obj.label in self.session.agent_filter: agent = Agent(self, obj.agentBank, obj.label) self.agents[bankKey] = agent finally: self.cv.release() if agent and self.session.console: self.session._newAgentCallback(agent) else: try: self.cv.acquire() agent = self.agents.pop(bankKey, None) if agent: agent.close() finally: self.cv.release() if agent and self.session.console: self.session._delAgentCallback(agent) def _addAgent(self, name, agent): try: self.cv.acquire() self.agents[name] = agent finally: self.cv.release() if self.session.console: self.session._newAgentCallback(agent) def _ageAgents(self): if (time() - self.last_age_check) < self.session.agent_heartbeat_min: # don't age if it's too soon return self.cv.acquire() try: to_delete = [] to_notify = [] for key in self.agents: if self.agents[key].isOld(): to_delete.append(key) for key in to_delete: agent = self.agents.pop(key) agent.close() to_notify.append(agent) self.last_age_check = time() finally: self.cv.release() if self.session.console: for agent in to_notify: self.session._delAgentCallback(agent) def _v2SendAgentLocate(self, predicate=[]): """ Broadcast an agent-locate request to cause all agents in the domain to tell us who they are. """ # @todo: send locate only to those agents in agent_filter? dp = self.amqpSession.delivery_properties() dp.routing_key = "console.request.agent_locate" mp = self.amqpSession.message_properties() mp.content_type = "amqp/list" if self.saslUser: mp.user_id = self.saslUser mp.app_id = "qmf2" mp.reply_to = self.amqpSession.reply_to("qmf.default.direct", self.v2_direct_queue) mp.application_headers = {'qmf.opcode':'_agent_locate_request'} sendCodec = Codec() sendCodec.write_list(predicate) msg = Message(dp, mp, sendCodec.encoded) self._send(msg, "qmf.default.topic") def _setHeader(self, codec, opcode, seq=0): """ Compose the header of a management message. """ codec.write_uint8(ord('A')) codec.write_uint8(ord('M')) codec.write_uint8(ord('2')) codec.write_uint8(ord(opcode)) codec.write_uint32(seq) def _checkHeader(self, codec): """ Check the header of a management message and extract the opcode and class. """ try: octet = chr(codec.read_uint8()) if octet != 'A': return None, None octet = chr(codec.read_uint8()) if octet != 'M': return None, None octet = chr(codec.read_uint8()) if octet != '2': return None, None opcode = chr(codec.read_uint8()) seq = codec.read_uint32() return opcode, seq except: return None, None def _message (self, body, routing_key="broker", ttl=None): dp = self.amqpSession.delivery_properties() dp.routing_key = routing_key if ttl: dp.ttl = ttl mp = self.amqpSession.message_properties() mp.content_type = "x-application/qmf" if self.saslUser: mp.user_id = self.saslUser mp.reply_to = self.amqpSession.reply_to("amq.direct", self.replyName) return Message(dp, mp, body) def _send(self, msg, dest="qpid.management"): self.amqpSession.message_transfer(destination=dest, message=msg) def _disconnect(self, err_info=None): """ Called when the remote broker has disconnected. Re-initializes all state associated with the broker. """ # notify any waiters, and callback self.cv.acquire() try: if err_info is not None: self.error = err_info _agents = self.agents self.agents = {} for agent in _agents.itervalues(): agent.close() self.syncInFlight = False self.reqsOutstanding = 0 self.cv.notifyAll() finally: self.cv.release() if self.session.console: for agent in _agents.itervalues(): self.session._delAgentCallback(agent) def _shutdown(self, _timeout=10): """ Disconnect from a broker, and release its resources. Errors are ignored. """ if self.isAlive(): # kick the thread self.canceled = True self.rcv_queue.put(Broker._q_item(Broker._q_item.type_wakeup, None)) self.join(_timeout) # abort any pending transactions and delete agents self._disconnect("broker shutdown") try: if self.amqpSession: self.amqpSession.close(); except: pass self.amqpSession = None try: if self.conn: self.conn.close(_timeout) except: pass self.conn = None self.connected = False def _waitForStable(self): try: self.cv.acquire() if not self.connected: return if self.reqsOutstanding == 0: return self.syncInFlight = True starttime = time() while self.reqsOutstanding != 0: self.cv.wait(self.SYNC_TIME) if time() - starttime > self.SYNC_TIME: raise RuntimeError("Timed out waiting for broker to synchronize") finally: self.cv.release() def _incOutstanding(self): try: self.cv.acquire() self.reqsOutstanding += 1 finally: self.cv.release() def _decOutstanding(self): try: self.cv.acquire() self.reqsOutstanding -= 1 if self.reqsOutstanding == 0 and not self.topicBound: self.topicBound = True for key in self.session.v1BindingKeyList: self.amqpSession.exchange_bind(exchange="qpid.management", queue=self.topicName, binding_key=key) if self.brokerSupportsV2: # do not drop heartbeat indications when under load from data # or event indications. Put heartbeats on their own dedicated # queue. # for key in self.session.v2BindingKeyList: if key.startswith("agent.ind.heartbeat"): self.amqpSession.exchange_bind(exchange="qmf.default.topic", queue=self.v2_topic_queue_hb, binding_key=key) else: self.amqpSession.exchange_bind(exchange="qmf.default.topic", queue=self.v2_topic_queue_ui, binding_key=key) # solicit an agent locate now, after we bind to agent.ind.data, # because the agent locate will cause the agent to publish a # data indication - and now we're able to receive it! self._v2SendAgentLocate() if self.reqsOutstanding == 0 and self.syncInFlight: self.syncInFlight = False self.cv.notify() finally: self.cv.release() def _v1Cb(self, msg): """ Callback from session receive thread for V1 messages """ self.rcv_queue.put(Broker._q_item(Broker._q_item.type_v1msg, msg)) def _v1Dispatch(self, msg): try: self._v1DispatchProtected(msg) except Exception as e: print("EXCEPTION in Broker._v1Cb:", e) import traceback traceback.print_exc() def _v1DispatchProtected(self, msg): """ This is the general message handler for messages received via the QMFv1 exchanges. """ try: agent = None agent_addr = None mp = msg.get("message_properties") ah = mp.application_headers if ah and 'qmf.agent' in ah: agent_addr = ah['qmf.agent'] if not agent_addr: # # See if we can determine the agent identity from the routing key # dp = msg.get("delivery_properties") rkey = None if dp and dp.routing_key: rkey = dp.routing_key items = rkey.split('.') if len(items) >= 4: if items[0] == 'console' and items[3].isdigit(): agent_addr = str(items[3]) # The QMFv1 Agent Bank if agent_addr != None and agent_addr in self.agents: agent = self.agents[agent_addr] codec = Codec(msg.body) alreadyTried = None while True: opcode, seq = self._checkHeader(codec) if not agent and not alreadyTried: alreadyTried = True try: self.cv.acquire() if seq in self.seqToAgentMap: agent = self.seqToAgentMap[seq] finally: self.cv.release() if opcode == None: break if opcode == 'b': self.session._handleBrokerResp (self, codec, seq) elif opcode == 'p': self.session._handlePackageInd (self, codec, seq) elif opcode == 'q': self.session._handleClassInd (self, codec, seq) elif opcode == 's': self.session._handleSchemaResp (self, codec, seq, agent_addr) elif opcode == 'h': self.session._handleHeartbeatInd (self, codec, seq, msg) elif opcode == 'z': self.session._handleCommandComplete (self, codec, seq, agent) elif agent: agent._handleQmfV1Message(opcode, seq, mp, ah, codec) agent.touch() # mark agent as being alive finally: # always ack the message! try: # ignore failures as the session may be shutting down... self.amqpSession.receiver._completed.add(msg.id) self.amqpSession.channel.session_completed(self.amqpSession.receiver._completed) except: pass def _v2Cb(self, msg): """ Callback from session receive thread for V2 messages """ self.rcv_queue.put(Broker._q_item(Broker._q_item.type_v2msg, msg)) def _v2Dispatch(self, msg): try: self._v2DispatchProtected(msg) except Exception as e: print("EXCEPTION in Broker._v2Cb:", e) import traceback traceback.print_exc() def _v2DispatchProtected(self, msg): """ This is the general message handler for messages received via QMFv2 exchanges. """ try: mp = msg.get("message_properties") ah = mp["application_headers"] codec = Codec(msg.body) if 'qmf.opcode' in ah: opcode = ah['qmf.opcode'] if mp.content_type == "amqp/list": try: content = codec.read_list() if not content: content = [] except: # malformed list - ignore content = None elif mp.content_type == "amqp/map": try: content = codec.read_map() if not content: content = {} except: # malformed map - ignore content = None else: content = None if content != None: ## ## Directly handle agent heartbeats and agent locate responses as these are broker-scope (they are ## used to maintain the broker's list of agent proxies. ## if opcode == '_agent_heartbeat_indication': self.session._v2HandleHeartbeatInd(self, mp, ah, content) elif opcode == '_agent_locate_response': self.session._v2HandleAgentLocateRsp(self, mp, ah, content) else: ## ## All other opcodes are agent-scope and are forwarded to the agent proxy representing the sender ## of the message. ## # the broker's agent is mapped to index ['0'] agentName = ah['qmf.agent'] v = agentName.split(":") if agentName == 'broker' or (len(v) >= 2 and v[0] == 'apache.org' and v[1] == 'qpidd'): agentName = '0' if agentName in self.agents: agent = self.agents[agentName] agent._handleQmfV2Message(opcode, mp, ah, content) agent.touch() finally: # always ack the message! try: # ignore failures as the session may be shutting down... self.amqpSession.receiver._completed.add(msg.id) self.amqpSession.channel.session_completed(self.amqpSession.receiver._completed) except: pass def _exceptionCb(self, data): """ Exception notification callback from session receive thread. """ self.cv.acquire() try: self.connected = False self.error = "exception received from messaging layer: %s" % str(data) finally: self.cv.release() self.rcv_queue.put(Broker._q_item(Broker._q_item.type_wakeup, None)) def run(self): """ Main body of the running thread. """ # First, attempt a connection. In the unmanaged case, # failure to connect needs to cause the Broker() # constructor to raise an exception. delay = self.DELAY_MIN while not self.canceled: if self._tryToConnect(): # connection up break # unmanaged connection - fail & wake up constructor if not self.session.manageConnections: self.ready.release() return # managed connection - try again count = 0 while not self.canceled and count < delay: sleep(1) count += 1 if delay < self.DELAY_MAX: delay *= self.DELAY_FACTOR if self.canceled: self.ready.release() return # connection successful! self.cv.acquire() try: self.connected = True finally: self.cv.release() self.session._handleBrokerConnect(self) self.ready.release() while not self.canceled: try: item = self.rcv_queue.get(timeout=self.session.agent_heartbeat_min) except Empty: item = None while not self.canceled and item is not None: if not self.connected: # connection failure while item: # drain the queue try: item = self.rcv_queue.get(block=False) except Empty: item = None break self._disconnect() # clean up any pending agents self.session._handleError(self.error) self.session._handleBrokerDisconnect(self) if not self.session.manageConnections: return # do not attempt recovery # retry connection setup delay = self.DELAY_MIN while not self.canceled: if self._tryToConnect(): break # managed connection - try again count = 0 while not self.canceled and count < delay: sleep(1) count += 1 if delay < self.DELAY_MAX: delay *= self.DELAY_FACTOR if self.canceled: return # connection successful! self.cv.acquire() try: self.connected = True finally: self.cv.release() self.session._handleBrokerConnect(self) elif item.typecode == Broker._q_item.type_v1msg: self._v1Dispatch(item.data) elif item.typecode == Broker._q_item.type_v2msg: self._v2Dispatch(item.data) try: item = self.rcv_queue.get(block=False) except Empty: item = None # queue drained, age the agents... if not self.canceled: self._ageAgents() #=================================================================================================== # Agent #=================================================================================================== class Agent: """ This class represents a proxy for a remote agent being managed """ def __init__(self, broker, agentBank, label, isV2=False, interval=0): self.broker = broker self.session = broker.session self.schemaCache = self.session.schemaCache self.brokerBank = broker.getBrokerBank() self.agentBank = str(agentBank) self.label = label self.isV2 = isV2 self.heartbeatInterval = 0 if interval: if interval < self.session.agent_heartbeat_min: self.heartbeatInterval = self.session.agent_heartbeat_min else: self.heartbeatInterval = interval self.lock = Lock() self.seqMgr = self.session.seqMgr self.contextMap = {} self.unsolicitedContext = RequestContext(self, self) self.lastSeenTime = time() self.closed = None self.epoch = 0 self.schema_timestamp = None def _checkClosed(self): if self.closed: raise Exception("Agent is disconnected") def __call__(self, **kwargs): """ This is the handler for unsolicited stuff received from the agent """ if 'qmf_object' in kwargs: if self.session.console: obj = kwargs['qmf_object'] if self.session.class_filter and obj.getClassKey(): # slow path: check classKey against event_filter pname = obj.getClassKey().getPackageName() cname = obj.getClassKey().getClassName() if ((pname, cname) not in self.session.class_filter and (pname, None) not in self.session.class_filter): return if obj.getProperties(): self.session.console.objectProps(self.broker, obj) if obj.getStatistics(): # QMFv2 objects may also contain statistic updates self.session.console.objectStats(self.broker, obj) elif 'qmf_object_stats' in kwargs: if self.session.console: obj = kwargs['qmf_object_stats'] if len(self.session.class_filter) == 0: self.session.console.objectStats(self.broker, obj) elif obj.getClassKey(): # slow path: check classKey against event_filter pname = obj.getClassKey().getPackageName() cname = obj.getClassKey().getClassName() if ((pname, cname) in self.session.class_filter or (pname, None) in self.session.class_filter): self.session.console.objectStats(self.broker, obj) elif 'qmf_event' in kwargs: if self.session.console: event = kwargs['qmf_event'] if len(self.session.event_filter) == 0: self.session.console.event(self.broker, event) elif event.classKey: # slow path: check classKey against event_filter pname = event.classKey.getPackageName() ename = event.classKey.getClassName() if ((pname, ename) in self.session.event_filter or (pname, None) in self.session.event_filter): self.session.console.event(self.broker, event) elif 'qmf_schema_id' in kwargs: ckey = kwargs['qmf_schema_id'] new_pkg, new_cls = self.session.schemaCache.declareClass(ckey) if self.session.console: if new_pkg: self.session._newPackageCallback(ckey.getPackageName()) if new_cls: # translate V2's string based type value to legacy # integer value for backward compatibility cls_type = ckey.getType() if str(cls_type) == ckey.TYPE_DATA: cls_type = 1 elif str(cls_type) == ckey.TYPE_EVENT: cls_type = 2 self.session._newClassCallback(cls_type, ckey) def touch(self): if self.heartbeatInterval: self.lastSeenTime = time() def setEpoch(self, epoch): self.epoch = epoch def update_schema_timestamp(self, timestamp): """ Check the latest schema timestamp from the agent V2 heartbeat. Issue a query for all packages & classes should the timestamp change. """ self.lock.acquire() try: if self.schema_timestamp == timestamp: return self.schema_timestamp = timestamp context = RequestContext(self, self) sequence = self.seqMgr._reserve(context) self.contextMap[sequence] = context context.setSequence(sequence) finally: self.lock.release() self._v2SendSchemaIdQuery(sequence, {}) def epochMismatch(self, epoch): if epoch == 0 or self.epoch == 0: return None if epoch == self.epoch: return None return True def isOld(self): if self.heartbeatInterval == 0: return None if time() - self.lastSeenTime > (self.session.agent_heartbeat_miss * self.heartbeatInterval): return True return None def close(self): self.closed = True copy = {} try: self.lock.acquire() for seq in self.contextMap: copy[seq] = self.contextMap[seq] finally: self.lock.release() for seq in copy: context = copy[seq] context.cancel("Agent disconnected") self.seqMgr._release(seq) def __repr__(self): if self.isV2: ver = "v2" else: ver = "v1" return "Agent(%s) at bank %d.%s (%s)" % (ver, self.brokerBank, self.agentBank, self.label) def getBroker(self): return self.broker def getBrokerBank(self): return self.brokerBank def getAgentBank(self): return self.agentBank def getV2RoutingKey(self): if self.agentBank == '0': return 'broker' return self.agentBank def getObjects(self, notifiable=None, **kwargs): """ Get a list of objects from QMF agents. All arguments are passed by name(keyword). If 'notifiable' is None (default), this call will block until completion or timeout. If supplied, notifiable is assumed to be a callable object that will be called when the list of queried objects arrives. The single argument to the call shall be a list of the returned objects. The class for queried objects may be specified in one of the following ways: _schema = <schema> - supply a schema object returned from getSchema. _key = <key> - supply a classKey from the list returned by getClasses. _class = <name> - supply a class name as a string. If the class name exists in multiple packages, a _package argument may also be supplied. _objectId = <id> - get the object referenced by the object-id The default timeout for this synchronous operation is 60 seconds. To change the timeout, use the following argument: _timeout = <time in seconds> If additional arguments are supplied, they are used as property selectors. For example, if the argument name="test" is supplied, only objects whose "name" property is "test" will be returned in the result. """ self._checkClosed() if notifiable: if not callable(notifiable): raise Exception("notifiable object must be callable") # # Isolate the selectors from the kwargs # selectors = {} for key in kwargs: value = kwargs[key] if key[0] != '_': selectors[key] = value # # Allocate a context to track this asynchronous request. # context = RequestContext(self, notifiable, selectors) sequence = self.seqMgr._reserve(context) try: self.lock.acquire() self.contextMap[sequence] = context context.setSequence(sequence) finally: self.lock.release() # # Compose and send the query message to the agent using the appropriate protocol for the # agent's QMF version. # if self.isV2: self._v2SendGetQuery(sequence, kwargs) else: self.broker._setSequence(sequence, self) self._v1SendGetQuery(sequence, kwargs) # # If this is a synchronous call, block and wait for completion. # if not notifiable: timeout = 60 if '_timeout' in kwargs: timeout = kwargs['_timeout'] context.waitForSignal(timeout) if context.exception: raise Exception(context.exception) result = context.queryResults return result def _clearContext(self, sequence): try: self.lock.acquire() try: self.contextMap.pop(sequence) self.seqMgr._release(sequence) except KeyError: pass # @todo - shouldn't happen, log a warning. finally: self.lock.release() def _schemaInfoFromV2Agent(self): """ We have just received new schema information from this agent. Check to see if there's more work that can now be done. """ try: self.lock.acquire() copy_of_map = {} for item in self.contextMap: copy_of_map[item] = self.contextMap[item] finally: self.lock.release() self.unsolicitedContext.reprocess() for context in copy_of_map: copy_of_map[context].reprocess() def _handleV1Completion(self, sequence, code, text): """ Called if one of this agent's V1 commands completed """ context = None try: self.lock.acquire() if sequence in self.contextMap: context = self.contextMap[sequence] finally: self.lock.release() if context: if code != 0: ex = "Error %d: %s" % (code, text) context.setException(ex) context.signal() self.broker._clearSequence(sequence) def _v1HandleMethodResp(self, codec, seq): """ Handle a QMFv1 method response """ code = codec.read_uint32() text = codec.read_str16() outArgs = {} self.broker._clearSequence(seq) pair = self.seqMgr._release(seq) if pair == None: return method, synchronous = pair if code == 0: for arg in method.arguments: if arg.dir.find("O") != -1: outArgs[arg.name] = self.session._decodeValue(codec, arg.type, self.broker) result = MethodResult(code, text, outArgs) if synchronous: try: self.broker.cv.acquire() self.broker.syncResult = result self.broker.syncInFlight = False self.broker.cv.notify() finally: self.broker.cv.release() else: if self.session.console: self.session.console.methodResponse(self.broker, seq, result) def _v1HandleEventInd(self, codec, seq): """ Handle a QMFv1 event indication """ event = Event(self, codec) self.unsolicitedContext.doEvent(event) def _v1HandleContentInd(self, codec, sequence, prop=False, stat=False): """ Handle a QMFv1 content indication """ classKey = ClassKey(codec) schema = self.schemaCache.getSchema(classKey) if not schema: return obj = Object(self, schema, codec, prop, stat) if classKey.getPackageName() == "org.apache.qpid.broker" and classKey.getClassName() == "agent" and prop: self.broker._updateAgent(obj) context = self.unsolicitedContext try: self.lock.acquire() if sequence in self.contextMap: context = self.contextMap[sequence] finally: self.lock.release() context.addV1QueryResult(obj, prop, stat) def _v2HandleDataInd(self, mp, ah, content): """ Handle a QMFv2 data indication from the agent. Note: called from context of the Broker thread. """ if content.__class__ != list: return if mp.correlation_id: try: self.lock.acquire() sequence = int(mp.correlation_id) if sequence not in self.contextMap: return context = self.contextMap[sequence] finally: self.lock.release() else: context = self.unsolicitedContext kind = "_data" if "qmf.content" in ah: kind = ah["qmf.content"] if kind == "_data": for omap in content: context.addV2QueryResult(omap) context.processV2Data() if 'partial' not in ah: context.signal() elif kind == "_event": for omap in content: event = Event(self, v2Map=omap) if event.classKey is None or event.schema: # schema optional or present context.doEvent(event) else: # schema not optional and not present if context.addPendingEvent(event): self._v2SendSchemaRequest(event.classKey) elif kind == "_schema_id": for sid in content: try: ckey = ClassKey(sid) except: # @todo: log error ckey = None if ckey is not None: # @todo: for now, the application cannot directly send a query for # _schema_id. This request _must_ have been initiated by the framework # in order to update the schema cache. context.notifiable(qmf_schema_id=ckey) def _v2HandleMethodResp(self, mp, ah, content): """ Handle a QMFv2 method response from the agent """ context = None sequence = None if mp.correlation_id: try: self.lock.acquire() seq = int(mp.correlation_id) finally: self.lock.release() else: return pair = self.seqMgr._release(seq) if pair == None: return method, synchronous = pair result = MethodResult(0, 'OK', content['_arguments']) if synchronous: try: self.broker.cv.acquire() self.broker.syncResult = result self.broker.syncInFlight = False self.broker.cv.notify() finally: self.broker.cv.release() else: if self.session.console: self.session.console.methodResponse(self.broker, seq, result) def _v2HandleException(self, mp, ah, content): """ Handle a QMFv2 exception """ context = None if mp.correlation_id: try: self.lock.acquire() seq = int(mp.correlation_id) finally: self.lock.release() else: return values = {} if '_values' in content: values = content['_values'] code = 7 text = "error" if 'error_code' in values: code = values['error_code'] if 'error_text' in values: text = values['error_text'] pair = self.seqMgr._release(seq) if pair == None: return if pair.__class__ == RequestContext: pair.cancel(text) return method, synchronous = pair result = MethodResult(code, text, {}) if synchronous: try: self.broker.cv.acquire() self.broker.syncResult = result self.broker.syncInFlight = False self.broker.cv.notify() finally: self.broker.cv.release() else: if self.session.console: self.session.console.methodResponse(self.broker, seq, result) def _v1SendGetQuery(self, sequence, kwargs): """ Send a get query to a QMFv1 agent. """ # # Build the query map # query = {} if '_class' in kwargs: query['_class'] = kwargs['_class'] if '_package' in kwargs: query['_package'] = kwargs['_package'] elif '_key' in kwargs: key = kwargs['_key'] query['_class'] = key.getClassName() query['_package'] = key.getPackageName() elif '_objectId' in kwargs: query['_objectid'] = kwargs['_objectId'].__repr__() # # Construct and transmit the message # sendCodec = Codec() self.broker._setHeader(sendCodec, 'G', sequence) sendCodec.write_map(query) smsg = self.broker._message(sendCodec.encoded, "agent.%d.%s" % (self.brokerBank, self.agentBank)) self.broker._send(smsg) def _v2SendQuery(self, query, sequence): """ Given a query map, construct and send a V2 Query message. """ dp = self.broker.amqpSession.delivery_properties() dp.routing_key = self.getV2RoutingKey() mp = self.broker.amqpSession.message_properties() mp.content_type = "amqp/map" if self.broker.saslUser: mp.user_id = self.broker.saslUser mp.correlation_id = str(sequence) mp.app_id = "qmf2" mp.reply_to = self.broker.amqpSession.reply_to("qmf.default.direct", self.broker.v2_direct_queue) mp.application_headers = {'qmf.opcode':'_query_request'} sendCodec = Codec() sendCodec.write_map(query) msg = Message(dp, mp, sendCodec.encoded) self.broker._send(msg, "qmf.default.direct") def _v2SendGetQuery(self, sequence, kwargs): """ Send a get query to a QMFv2 agent. """ # # Build the query map # query = {'_what': 'OBJECT'} if '_class' in kwargs: schemaMap = {'_class_name': kwargs['_class']} if '_package' in kwargs: schemaMap['_package_name'] = kwargs['_package'] query['_schema_id'] = schemaMap elif '_key' in kwargs: query['_schema_id'] = kwargs['_key'].asMap() elif '_objectId' in kwargs: query['_object_id'] = kwargs['_objectId'].asMap() self._v2SendQuery(query, sequence) def _v2SendSchemaIdQuery(self, sequence, kwargs): """ Send a query for all schema ids to a QMFv2 agent. """ # # Build the query map # query = {'_what': 'SCHEMA_ID'} # @todo - predicate support. For now, return all known schema ids. self._v2SendQuery(query, sequence) def _v2SendSchemaRequest(self, schemaId): """ Send a query to an agent to request details on a particular schema class. IMPORTANT: This function currently sends a QMFv1 schema-request to the address of the agent. The agent will send its response to amq.direct/<our-key>. Eventually, this will be converted to a proper QMFv2 schema query. """ sendCodec = Codec() seq = self.seqMgr._reserve(None) self.broker._setHeader(sendCodec, 'S', seq) schemaId.encode(sendCodec) smsg = self.broker._message(sendCodec.encoded, self.agentBank) self.broker._send(smsg, "qmf.default.direct") def _handleQmfV1Message(self, opcode, seq, mp, ah, codec): """ Process QMFv1 messages arriving from an agent. Note well: this method is called from the context of the Broker thread. """ if opcode == 'm': self._v1HandleMethodResp(codec, seq) elif opcode == 'e': self._v1HandleEventInd(codec, seq) elif opcode == 'c': self._v1HandleContentInd(codec, seq, prop=True) elif opcode == 'i': self._v1HandleContentInd(codec, seq, stat=True) elif opcode == 'g': self._v1HandleContentInd(codec, seq, prop=True, stat=True) def _handleQmfV2Message(self, opcode, mp, ah, content): """ Process QMFv2 messages arriving from an agent. Note well: this method is called from the context of the Broker thread. """ if opcode == '_data_indication': self._v2HandleDataInd(mp, ah, content) elif opcode == '_query_response': self._v2HandleDataInd(mp, ah, content) elif opcode == '_method_response': self._v2HandleMethodResp(mp, ah, content) elif opcode == '_exception': self._v2HandleException(mp, ah, content) #=================================================================================================== # RequestContext #=================================================================================================== class RequestContext(object): """ This class tracks an asynchronous request sent to an agent. TODO: Add logic for client-side selection and filtering deleted objects from get-queries """ def __init__(self, agent, notifiable, selectors={}): self.sequence = None self.agent = agent self.schemaCache = self.agent.schemaCache self.notifiable = notifiable self.selectors = selectors self.startTime = time() self.rawQueryResults = [] self.queryResults = [] self.pendingEvents = {} self.exception = None self.waitingForSchema = None self.pendingSignal = None self.cv = Condition() self.blocked = notifiable == None def setSequence(self, sequence): self.sequence = sequence def addV1QueryResult(self, data, has_props, has_stats): values = {} if has_props: for prop, val in data.getProperties(): values[prop.name] = val if has_stats: for stat, val in data.getStatistics(): values[stat.name] = val for key in values: val = values[key] if key in self.selectors and val != self.selectors[key]: return if self.notifiable: if has_props: self.notifiable(qmf_object=data) if has_stats: self.notifiable(qmf_object_stats=data) else: self.queryResults.append(data) def addV2QueryResult(self, data): values = data['_values'] for key in values: val = values[key] if key in self.selectors: sel_val = self.selectors[key] if sel_val.__class__ == ObjectId: val = ObjectId(val, agentName=self.agent.getAgentBank()) if val != sel_val: return self.rawQueryResults.append(data) def addPendingEvent(self, event): """ Stores a received event that is pending a schema. Returns True if this event is the first instance of a given schema identifier. """ self.cv.acquire() try: if event.classKey in self.pendingEvents: self.pendingEvents[event.classKey].append((event, time())) return False self.pendingEvents[event.classKey] = [(event, time())] return True finally: self.cv.release() def processPendingEvents(self): """ Walk the pending events looking for schemas that are now available. Remove any events that now have schema, and process them. """ keysToDelete = [] events = [] self.cv.acquire() try: for key in self.pendingEvents.iterkeys(): schema = self.schemaCache.getSchema(key) if schema: keysToDelete.append(key) for item in self.pendingEvents[key]: # item is (timestamp, event-obj) tuple. # hack: I have no idea what a valid lifetime for an event # should be. 60 seconds??? if (time() - item[1]) < 60: item[0].schema = schema events.append(item[0]) for key in keysToDelete: self.pendingEvents.pop(key) finally: self.cv.release() for event in events: self.doEvent(event) def doEvent(self, data): if self.notifiable: self.notifiable(qmf_event=data) def setException(self, ex): self.exception = ex def getAge(self): return time() - self.startTime def cancel(self, exception): self.setException(exception) try: self.cv.acquire() self.blocked = None self.waitingForSchema = None self.cv.notify() finally: self.cv.release() self._complete() def waitForSignal(self, timeout): try: self.cv.acquire() while self.blocked: if (time() - self.startTime) > timeout: self.exception = "Request timed out after %d seconds" % timeout return self.cv.wait(1) finally: self.cv.release() def signal(self): try: self.cv.acquire() if self.waitingForSchema: self.pendingSignal = True return else: self.blocked = None self.cv.notify() finally: self.cv.release() self._complete() def _complete(self): if self.notifiable: if self.exception: self.notifiable(qmf_exception=self.exception) else: self.notifiable(qmf_complete=True) if self.sequence: self.agent._clearContext(self.sequence) def processV2Data(self): """ Attempt to make progress on the entries in the raw_query_results queue. If an entry has a schema that is in our schema cache, process it. Otherwise, send a request for the schema information to the agent that manages the object. """ schemaId = None queryResults = [] try: self.cv.acquire() if self.waitingForSchema: return while (not self.waitingForSchema) and len(self.rawQueryResults) > 0: head = self.rawQueryResults[0] schemaId = self._getSchemaIdforV2ObjectLH(head) schema = self.schemaCache.getSchema(schemaId) if schema: obj = Object(self.agent, schema, v2Map=head, agentName=self.agent.agentBank) queryResults.append(obj) self.rawQueryResults.pop(0) else: self.waitingForSchema = True finally: self.cv.release() if self.waitingForSchema: self.agent._v2SendSchemaRequest(schemaId) for result in queryResults: key = result.getClassKey() if key.getPackageName() == "org.apache.qpid.broker" and key.getClassName() == "agent": self.agent.broker._updateAgent(result) if self.notifiable: self.notifiable(qmf_object=result) else: self.queryResults.append(result) complete = None try: self.cv.acquire() if not self.waitingForSchema and self.pendingSignal: self.blocked = None self.cv.notify() complete = True finally: self.cv.release() if complete: self._complete() def reprocess(self): """ New schema information has been added to the schema-cache. Clear our 'waiting' status and see if we can make more progress on any pending inbound events/objects. """ try: self.cv.acquire() self.waitingForSchema = None finally: self.cv.release() self.processV2Data() self.processPendingEvents() def _getSchemaIdforV2ObjectLH(self, data): """ Given a data map, extract the schema-identifier. """ if data.__class__ != dict: return None if '_schema_id' in data: return ClassKey(data['_schema_id']) return None #=================================================================================================== # Event #=================================================================================================== class Event: """ """ def __init__(self, agent, codec=None, v2Map=None): self.agent = agent self.session = agent.session self.broker = agent.broker if isinstance(v2Map,dict): self.isV2 = True self.classKey = None self.schema = None try: self.arguments = v2Map["_values"] self.timestamp = long(v2Map["_timestamp"]) self.severity = v2Map["_severity"] if "_schema_id" in v2Map: self.classKey = ClassKey(v2Map["_schema_id"]) self.classKey._setType(ClassKey.TYPE_EVENT) except: raise Exception("Invalid event object: %s " % str(v2Map)) if self.classKey is not None: self.schema = self.session.schemaCache.getSchema(self.classKey) elif codec is not None: self.isV2 = None self.classKey = ClassKey(codec) self.classKey._setType(ClassKey.TYPE_EVENT) self.timestamp = codec.read_int64() self.severity = codec.read_uint8() self.arguments = {} self.schema = self.session.schemaCache.getSchema(self.classKey) if not self.schema: return for arg in self.schema.arguments: self.arguments[arg.name] = self.session._decodeValue(codec, arg.type, self.broker) else: raise Exception("No constructor for event object.") def __repr__(self): if self.schema == None: return "<uninterpretable>" out = strftime("%c", gmtime(self.timestamp / 1000000000)) out += " " + self._sevName() + " " + self.classKey.getPackageName() + ":" + self.classKey.getClassName() out += " broker=" + str(self.broker.getUrl()) for arg in self.schema.arguments: disp = self.session._displayValue(self.arguments[arg.name], arg.type).encode("utf8") if " " in disp: disp = "\"" + disp + "\"" out += " " + arg.name + "=" + disp return out def _sevName(self): if self.severity == 0 : return "EMER " if self.severity == 1 : return "ALERT" if self.severity == 2 : return "CRIT " if self.severity == 3 : return "ERROR" if self.severity == 4 : return "WARN " if self.severity == 5 : return "NOTIC" if self.severity == 6 : return "INFO " if self.severity == 7 : return "DEBUG" return "INV-%d" % self.severity def getClassKey(self): return self.classKey def getArguments(self): return self.arguments def getTimestamp(self): return self.timestamp def getSchema(self): return self.schema #=================================================================================================== # SequenceManager #=================================================================================================== class SequenceManager: """ Manage sequence numbers for asynchronous method calls """ def __init__(self): self.lock = Lock() self.sequence = long(time()) # pseudo-randomize the start self.pending = {} def _reserve(self, data): """ Reserve a unique sequence number """ try: self.lock.acquire() result = self.sequence self.sequence = self.sequence + 1 self.pending[result] = data finally: self.lock.release() return result def _release(self, seq): """ Release a reserved sequence number """ data = None try: self.lock.acquire() if seq in self.pending: data = self.pending[seq] del self.pending[seq] finally: self.lock.release() return data #=================================================================================================== # DebugConsole #=================================================================================================== class DebugConsole(Console): """ """ def brokerConnected(self, broker): print("brokerConnected:", broker) def brokerConnectionFailed(self, broker): print("brokerConnectionFailed:", broker) def brokerDisconnected(self, broker): print("brokerDisconnected:", broker) def newPackage(self, name): print("newPackage:", name) def newClass(self, kind, classKey): print("newClass:", kind, classKey) def newAgent(self, agent): print("newAgent:", agent) def delAgent(self, agent): print("delAgent:", agent) def objectProps(self, broker, record): print("objectProps:", record) def objectStats(self, broker, record): print("objectStats:", record) def event(self, broker, event): print("event:", event) def heartbeat(self, agent, timestamp): print("heartbeat:", agent) def brokerInfo(self, broker): print("brokerInfo:", broker)

management/python/lib/qmf/console.py (2,887 lines of code) (raw):