def issueResolved(self, issue):
if issue != self.currentIssue: #got resolved by someone else
return
log("Agent %s resolved issue \"%s\" resolution=%s" % (self.name, issue.description, issue.resolution), type='issues')
self.currentIssue = None
self.sop = None
if self.available and any(self.issues):
self.engage( self.issues.next() )
return issue
def issueResolved(self, issue):
if issue != self.currentIssue: #got resolved by someone else
return
log("Agent %s resolved issue \"%s\" resolution=%s" %
(self.name, issue.description, issue.resolution),
type='issues')
self.currentIssue = None
self.sop = None
if self.available and any(self.issues):
self.engage(self.issues.next())
return issue
def postOptions(self):
"""used to decide what we need to do now. i am called by parseOptions.
"""
if self.running: return
#if we are given external configuration use it overrides commandline
if self.CONFIGFILE and os.path.exists(self.CONFIGFILE):
from ConfigParser import ConfigParser as _cf
_config = _cf()
_config.read(self.CONFIGFILE)
for key in self.keys():
if any([ i for i in self.optFlags if key in i]):
continue #things like stop and nodaemon are not meant for config
try: #attempt to update the keys
t = type(self[key])
self[key] = t(_config.get('droned', key))
except: pass
self.sanitize_droned(kill=self['stop'])
if self['stop']: sys.exit(0)
def postOptions(self):
"""used to decide what we need to do now. i am called by parseOptions.
"""
if self.running: return
#if we are given external configuration use it overrides commandline
if self.CONFIGFILE and os.path.exists(self.CONFIGFILE):
from ConfigParser import ConfigParser as _cf
_config = _cf()
_config.read(self.CONFIGFILE)
for key in self.keys():
if any([i for i in self.optFlags if key in i]):
continue #things like stop and nodaemon are not meant for config
try: #attempt to update the keys
t = type(self[key])
self[key] = t(_config.get('droned', key))
except:
pass
self.sanitize_droned(kill=self['stop'])
if self['stop']: sys.exit(0)
def build_plugin(self, name):
"""build or lookup plugins
@param name C{str} name of the application
@return L{IDroneDApplication} provider
"""
if name in self._instanceMap:
return self._instanceMap[name]
#create a logging router
logging = logWithContext(
type="%s,plugin" % (name,),
route='application'
)
logging('dynamically building new plugin class')
pluginConfig = self._config.get(name, {})
#look up the application class by name
className = pluginConfig.get('CLASS')
if isinstance(className, bool) and not className:
return None #this is explicitly disabled in config
#get the positional constructor args from configuration
classArgs = tuple(pluginConfig.get('CLASSARGS', ()))
#get the constructor keyword args from configuration
classKwargs = pluginConfig.get('CLASSKWARGS', {})
#try to get your application plugin, defaults to builtin
bases = (self._classMap.get(className, self._default),)
MRO = set()
for x in bases:
MRO.add(x)
for i in x.__bases__: MRO.add(i)
#check if mro is ok
MRO = any([b for b in MRO if ApplicationPlugin is b or \
issubclass(b, ApplicationPlugin)])
if not MRO:
i = 'adding %s to %s for MRO safety' % \
(ApplicationPlugin, bases[0])
logging(i) #log what we are doing to take the mystory out of it.
bases += (ApplicationPlugin,)
else: logging('Method Resolution Order looks good')
logging('Adding Storage API to the Plugin.')
bases = (StorageMixin,) + bases
#######################################################################
# new class defaults!!!!
#######################################################################
#setup the plugin by dynamically building a new class based
#off of the provided reference design.
newClassName = "Plugin(app=%s, class=%s)" % (name, bases[1].__name__)
logging('creating plugin %s' % (newClassName,))
plugin = self.makeAdaptable(type(newClassName, bases, {
'name': property(lambda s: name),
'service': property(lambda s: IDroneModelAppManager(s)),
'configuration': property(lambda s: pluginConfig),
'reactor': property(lambda s: reactor),
'STARTUP_INFO': {
'START_USEPTY' : 0,
'START_CHILDFD' : {0:'w',1:'r',2:'r'},
'START_ENV' : {},
'START_PATH' : None,
'START_CMD' : '/bin/true',
'START_ARGS' : (),
},
'SHUTDOWN_INFO': {
'STOP_USEPTY' : 0,
'STOP_CHILDFD' : {0:'w',1:'r',2:'r'},
'STOP_ENV' : {},
'STOP_PATH' : None,
'STOP_CMD' : '/bin/true',
'STOP_ARGS' : (),
},
'startProtocol': ApplicationProtocol,
'startProtoArgs': tuple(),
'startProtoKwargs': dict(),
'stopProtocol': ApplicationProtocol,
'stopProtoArgs': tuple(),
'stopProtoKwargs': dict(),
})) #this guarentees we have a known API to work against
#instantiate the plugin object with it's parameters
self._instanceMap[name] = plugin(*classArgs, **classKwargs)
self._instanceMap[name].log('application plugin interface initialized')
self._pluginSetup(self._instanceMap[name])
return self._instanceMap[name]
def workNextIssue(self):
while any(self.availableAgents) and any(self.pendingIssues):
issue = self.pendingIssues.next()
agent = self.availableAgents.next()
agent.engage(issue)
issue.whenResolved(lambda result: self.workNextIssue() or result)
def build_plugin(self, name):
"""build or lookup plugins
@param name C{str} name of the application
@return L{IDroneDApplication} provider
"""
if name in self._instanceMap:
return self._instanceMap[name]
#create a logging router
logging = logWithContext(type="%s,plugin" % (name, ),
route='application')
logging('dynamically building new plugin class')
pluginConfig = self._config.get(name, {})
#look up the application class by name
className = pluginConfig.get('CLASS')
if isinstance(className, bool) and not className:
return None #this is explicitly disabled in config
#get the positional constructor args from configuration
classArgs = tuple(pluginConfig.get('CLASSARGS', ()))
#get the constructor keyword args from configuration
classKwargs = pluginConfig.get('CLASSKWARGS', {})
#try to get your application plugin, defaults to builtin
bases = (self._classMap.get(className, self._default), )
MRO = set()
for x in bases:
MRO.add(x)
for i in x.__bases__:
MRO.add(i)
#check if mro is ok
MRO = any([b for b in MRO if ApplicationPlugin is b or \
issubclass(b, ApplicationPlugin)])
if not MRO:
i = 'adding %s to %s for MRO safety' % \
(ApplicationPlugin, bases[0])
logging(i) #log what we are doing to take the mystory out of it.
bases += (ApplicationPlugin, )
else:
logging('Method Resolution Order looks good')
logging('Adding Storage API to the Plugin.')
bases = (StorageMixin, ) + bases
#######################################################################
# new class defaults!!!!
#######################################################################
#setup the plugin by dynamically building a new class based
#off of the provided reference design.
newClassName = "Plugin(app=%s, class=%s)" % (name, bases[1].__name__)
logging('creating plugin %s' % (newClassName, ))
plugin = self.makeAdaptable(
type(
newClassName, bases, {
'name': property(lambda s: name),
'service': property(lambda s: IDroneModelAppManager(s)),
'configuration': property(lambda s: pluginConfig),
'reactor': property(lambda s: config.reactor),
'STARTUP_INFO': {
'START_USEPTY': 0,
'START_CHILDFD': {
0: 'w',
1: 'r',
2: 'r'
},
'START_ENV': {},
'START_PATH': None,
'START_CMD': '/bin/true',
'START_ARGS': (),
},
'SHUTDOWN_INFO': {
'STOP_USEPTY': 0,
'STOP_CHILDFD': {
0: 'w',
1: 'r',
2: 'r'
},
'STOP_ENV': {},
'STOP_PATH': None,
'STOP_CMD': '/bin/true',
'STOP_ARGS': (),
},
'startProtocol': ApplicationProtocol,
'startProtoArgs': tuple(),
'startProtoKwargs': dict(),
'stopProtocol': ApplicationProtocol,
'stopProtoArgs': tuple(),
'stopProtoKwargs': dict(),
})) #this guarentees we have a known API to work against
#instantiate the plugin object with it's parameters
self._instanceMap[name] = plugin(*classArgs, **classKwargs)
self._instanceMap[name].log('application plugin interface initialized')
self._pluginSetup(self._instanceMap[name])
return self._instanceMap[name]
def workNextIssue(self):
while any(self.availableAgents) and any(self.pendingIssues):
issue = self.pendingIssues.next()
agent = self.availableAgents.next()
agent.engage(issue)
issue.whenResolved(lambda result: self.workNextIssue() or result)
class Team(Entity):
jabber_service = property(lambda s: services.getService('jabber'))
jabber_config = property(lambda s: s.jabber_service.SERVICECONFIG)
availableAgents = property(
lambda s: (agent for agent in s.agents if agent.available))
available = property(lambda self: any(self.availableAgents))
busy = property(lambda s: not s.available)
rosterPath = property(lambda s: '%s/%s' %
(s.jabber_config.JABBER_TEAM_ROSTER, s.name))
pendingIssues = property(lambda s: \
(i for i in Issue.objects if not i.resolved and i.assignedTo == s))
def __init__(self, name):
self.name = name
self.agents = set()
self.worker = LoopingCall(self.workNextIssue)
self.worker.start(5)
self.loadRoster()
def __getstate__(self):
return {
'name': self.name,
'members': set(agent.jid for agent in self.agents),
}
@staticmethod
def construct(state):
team = Team(state['name'])
team.agents = set(SupportAgent(jid) for jid in state['members'])
return team
def loadRoster(self):
if not os.path.exists(self.rosterPath):
log('no roster exists for the %s team, so it has no members!' %
self.name,
warning=True)
return
for line in open(self.rosterPath):
line = line.strip()
if not line or line.startswith('#'): continue
jid = line
agent = SupportAgent(jid)
self.agents.add(agent)
def saveRoster(self):
jids = [agent.jid for agent in self.agents]
content = '\n'.join(jids) + '\n'
def blockingWrite():
roster = open(self.rosterPath, 'w')
roster.write(content)
roster.close()
config.reactor.callInThread(blockingWrite)
def addMember(self, jid):
self.agents.add(SupportAgent(jid))
self.saveRoster()
def removeMember(self, jid):
self.agents.discard(SupportAgent(jid))
self.saveRoster()
def workNextIssue(self):
while any(self.availableAgents) and any(self.pendingIssues):
issue = self.pendingIssues.next()
agent = self.availableAgents.next()
agent.engage(issue)
issue.whenResolved(lambda result: self.workNextIssue() or result)
def notify(self, message):
for agent in self.agents:
agent.tell("<b>%s team notification:</b> %s" %
(self.name, message))
