def test_policyInvocation(self):
cc = Mock()
policies_modules = {'Site':['DT_Policy', 'GGUSTickets_Policy'],
'Service': ['PilotsEfficiency_Simple_Policy', 'JobsEfficiency_Simple_Policy'],
'Resource':['SAMResults_Policy', 'DT_Policy'],
'StorageElement':['SEOccupancy_Policy', 'TransferQuality_Policy']
}
for g in ValidRes:
for status in ValidStatus:
self.mock_p.evaluate.return_value = {'Status':status,
'Reason':'testReason',
'PolicyName': 'test_P'}
pc = PolicyCaller(commandCallerIn = cc)
for pol_mod in policies_modules[g]:
res = pc.policyInvocation(self.VO, g, 'XX', status, self.mock_p,
(g, 'XX'), None, pol_mod)
self.assertEqual(res['Status'], status)
res = pc.policyInvocation(self.VO, g, 'XX', status, self.mock_p,
None, None, pol_mod)
self.assertEqual(res['Status'], status)
for extraArgs in ((g, 'XX'), [(g, 'XX'), (g, 'XX')]):
res = pc.policyInvocation(self.VO, g, 'XX', status, self.mock_p,
None, None, pol_mod, extraArgs)
self.assertEqual(res['Status'], status)
def test_policyInvocation(self):
cc = Mock()
policies_modules = {'Site':['DT_Policy', 'GGUSTickets_Policy'],
'Service': ['PilotsEfficiency_Simple_Policy', 'JobsEfficiency_Simple_Policy'],
'Resource':['SAMResults_Policy', 'DT_Policy'],
'StorageElement':['SEOccupancy_Policy', 'TransferQuality_Policy']
}
for g in ValidRes:
for status in ValidStatus:
self.mock_p.evaluate.return_value = {'Status':status,
'Reason':'testReason',
'PolicyName': 'test_P'}
pc = PolicyCaller(commandCallerIn = cc)
for pol_mod in policies_modules[g]:
res = pc.policyInvocation(self.VO, g, 'XX', status, self.mock_p,
(g, 'XX'), None, pol_mod)
self.assertEqual(res['Status'], status)
res = pc.policyInvocation(self.VO, g, 'XX', status, self.mock_p,
None, None, pol_mod)
self.assertEqual(res['Status'], status)
for extraArgs in ((g, 'XX'), [(g, 'XX'), (g, 'XX')]):
res = pc.policyInvocation(self.VO, g, 'XX', status, self.mock_p,
None, None, pol_mod, extraArgs)
self.assertEqual(res['Status'], status)
def __init__(self, clients=None):
""" Constructor.
examples:
>>> pdp = PDP( None )
>>> pdp1 = PDP( {} )
>>> pdp2 = PDP( { 'Client1' : Client1Object } )
:Parameters:
**clients** - [ None, `dict` ]
dictionary with Clients to be used in the Commands. If None, the Commands
will create their own clients.
"""
# decision parameters used to match policies and actions
self.decisionParams = None
# Helpers to discover policies and RSS metadata in CS
self.pCaller = PolicyCaller(clients)
# RSS State Machine, used to calculate most penalizing state while merging them
self.rssMachine = RSSMachine('Unknown')
self.log = gLogger.getSubLogger('PDP')
def __init__(self, clients):
'''
Constructor. Defines members that will be used later on.
'''
self.pCaller = PolicyCaller(clients=clients)
self.iGetter = InfoGetter()
self.decissionParams = {}
self.rssMachine = RSSMachine('Unknown')
def __init__( self, clients = None ):
""" Constructor.
examples:
>>> pdp = PDP( None )
>>> pdp1 = PDP( {} )
>>> pdp2 = PDP( { 'Client1' : Client1Object } )
:Parameters:
**clients** - [ None, `dict` ]
dictionary with Clients to be used in the Commands. If None, the Commands
will create their own clients.
"""
# decision parameters used to match policies and actions
self.decisionParams = None
# Helpers to discover policies and RSS metadata in CS
self.pCaller = PolicyCaller( clients )
# RSS State Machine, used to calculate most penalizing state while merging them
self.rssMachine = RSSMachine( 'Unknown' )
self.log = gLogger.getSubLogger( 'PDP' )
def __init__(self, clients):
"""
Constructor. Defines members that will be used later on.
"""
self.pCaller = PolicyCaller(clients=clients)
self.iGetter = InfoGetter()
self.decissionParams = {}
self.rssMachine = RSSMachine("Unknown")
def __init__(self, **clients):
'''
Constructor. Defines members that will be used later on.
'''
cc = CommandCaller()
self.clients = clients
self.pCaller = PolicyCaller(cc, **clients)
self.iGetter = InfoGetter()
self.__granularity = None
self.__name = None
self.__statusType = None
self.__status = None
self.__formerStatus = None
self.__reason = None
self.__siteType = None
self.__serviceType = None
self.__resourceType = None
self.__useNewRes = None
def __init__(self, VOExtension, granularity = None, name = None, status = None, formerStatus = None,
reason = None, siteType = None, serviceType = None, resourceType = None,
useNewRes = False):
"""
PDP (Policy Decision Point) initialization
:params:
:attr:`VOExtension`: string - VO extension (e.g. 'LHCb')
:attr:`granularity`: string - a ValidRes
:attr:`name`: string - name (e.g. of a site)
:attr:`status`: string - status
:attr:`formerStatus`: string - former status
:attr:`reason`: string - optional reason for last status change
:attr:`siteType`: string - optional site type
:attr:`serviceType`: string - optional service type
:attr:`resourceType`: string - optional resource type
"""
self.VOExtension = VOExtension
self.__granularity = assignOrRaise(granularity, ValidRes, InvalidRes, self, self.__init__)
self.__name = name
self.__status = assignOrRaise(status, ValidStatus, InvalidStatus, self, self.__init__)
self.__formerStatus = assignOrRaise(formerStatus, ValidStatus, InvalidStatus, self, self.__init__)
self.__reason = reason
self.__siteType = assignOrRaise(siteType, ValidSiteType, InvalidSiteType, self, self.__init__)
self.__serviceType = assignOrRaise(serviceType, ValidServiceType, InvalidServiceType, self, self.__init__)
self.__resourceType = assignOrRaise(resourceType, ValidResourceType, InvalidResourceType, self, self.__init__)
cc = CommandCaller()
self.pc = PolicyCaller(cc)
self.useNewRes = useNewRes
self.args = None
self.policy = None
self.knownInfo = None
self.ig = None
def __init__( self, **clients ):
'''
Constructor. Defines members that will be used later on.
'''
cc = CommandCaller()
self.clients = clients
self.pCaller = PolicyCaller( cc, **clients )
self.iGetter = InfoGetter()
self.__granularity = None
self.__name = None
self.__statusType = None
self.__status = None
self.__formerStatus = None
self.__reason = None
self.__siteType = None
self.__serviceType = None
self.__resourceType = None
self.__useNewRes = None
class PDP:
"""
The PDP (Policy Decision Point) module is used to:
1. Decides which policies have to be applied.
2. Invokes an evaluation of the policies, and returns the result (to a PEP)
"""
def __init__( self, clients ):
'''
Constructor. Defines members that will be used later on.
'''
self.pCaller = PolicyCaller( clients = clients )
self.iGetter = InfoGetter()
self.decissionParams = {}
self.rssMachine = RSSMachine( 'Unknown' )
def setup( self, decissionParams = None ):
standardParamsDict = {
'element' : None,
'name' : None,
'elementType' : None,
'statusType' : None,
'status' : None,
'reason' : None,
'tokenOwner' : None,
# Last parameter allows policies to be deactivated
'active' : 'Active'
}
if decissionParams is not None:
standardParamsDict.update( decissionParams )
self.decissionParams = standardParamsDict
################################################################################
def takeDecision( self ):#, policyIn = None, argsIn = None, knownInfo = None ):
""" PDP MAIN FUNCTION
decides policies that have to be applied, based on
__granularity,
__name,
__status,
__formerStatus
__reason
If more than one policy is evaluated, results are combined.
Logic for combination: a conservative approach is followed
(i.e. if a site should be banned for at least one policy, that's what is returned)
returns:
{ 'PolicyType': a policyType (in a string),
'Action': True|False,
'Status': 'Active'|'Probing'|'Banned',
'Reason': a reason
#'EndDate: datetime.datetime (in a string)}
"""
policiesThatApply = self.iGetter.getPoliciesThatApply( self.decissionParams )
if not policiesThatApply[ 'OK' ]:
return policiesThatApply
policiesThatApply = policiesThatApply[ 'Value' ]
singlePolicyResults = self._runPolicies( policiesThatApply )
if not singlePolicyResults[ 'OK' ]:
return singlePolicyResults
singlePolicyResults = singlePolicyResults[ 'Value' ]
policyCombinedResults = self._combineSinglePolicyResults( singlePolicyResults )
if not policyCombinedResults[ 'OK' ]:
return policyCombinedResults
policyCombinedResults = policyCombinedResults[ 'Value' ]
#FIXME: should also pass the result of the combination to the InfoGetter ?
policyActionsThatApply = self.iGetter.getPolicyActionsThatApply( self.decissionParams )
if not policyActionsThatApply[ 'OK' ]:
return policyActionsThatApply
policyActionsThatApply = policyActionsThatApply[ 'Value' ]
policyCombinedResults[ 'PolicyAction' ] = policyActionsThatApply
return S_OK(
{
'singlePolicyResults' : singlePolicyResults,
'policyCombinedResult' : policyCombinedResults,
'decissionParams' : self.decissionParams
}
)
################################################################################
def _runPolicies( self, policies, decissionParams = None ):
if decissionParams is None:
decissionParams = self.decissionParams
validStatus = RssConfiguration.getValidStatus()
if not validStatus[ 'OK' ]:
return validStatus
validStatus = validStatus[ 'Value' ]
policyInvocationResults = []
for policyDict in policies:
policyInvocationResult = self.pCaller.policyInvocation( decissionParams,
policyDict )
if not policyInvocationResult[ 'OK' ]:
# We should never enter this line ! Just in case there are policies
# missconfigured !
_msg = 'runPolicies no OK: %s' % policyInvocationResult
gLogger.error( _msg )
return S_ERROR( _msg )
policyInvocationResult = policyInvocationResult[ 'Value' ]
if not 'Status' in policyInvocationResult:
_msg = 'runPolicies (no Status): %s' % policyInvocationResult
gLogger.error( _msg )
return S_ERROR( _msg )
if not policyInvocationResult[ 'Status' ] in validStatus:
_msg = 'runPolicies ( not valid status ) %s' % policyInvocationResult[ 'Status' ]
gLogger.error( _msg )
return S_ERROR( _msg )
if not 'Reason' in policyInvocationResult:
_msg = 'runPolicies (no Reason): %s' % policyInvocationResult
gLogger.error( _msg )
return S_ERROR( _msg )
policyInvocationResults.append( policyInvocationResult )
return S_OK( policyInvocationResults )
################################################################################
def _combineSinglePolicyResults( self, singlePolicyRes ):
'''
singlePolicyRes = [ { 'State' : X, 'Reason' : Y, ... }, ... ]
If there are no policyResults, returns Unknown as there are no policies to
apply.
Order elements in list by state, being the lowest the most restrictive
one in the hierarchy.
'''
# Dictionary to be returned
policyCombined = {
'Status' : None,
'Reason' : ''
}
# If there are no policyResults, we return Unknown
if not singlePolicyRes:
_msgTuple = ( self.decissionParams[ 'element' ], self.decissionParams[ 'name' ],
self.decissionParams[ 'elementType' ] )
policyCombined[ 'Status' ] = 'Unknown'
policyCombined[ 'Reason' ] = 'No policy applies to %s, %s, %s' % _msgTuple
return S_OK( policyCombined )
# We set the rssMachine on the current state
machineStatus = self.rssMachine.setState( self.decissionParams[ 'status' ] )
if not machineStatus[ 'OK' ]:
return machineStatus
# Order statuses by most restrictive ( lower level first )
self.rssMachine.orderPolicyResults( singlePolicyRes )
#policyResults = self.rssMachine.orderPolicyResults( singlePolicyRes )
# Get according to the RssMachine the next state, given a candidate
candidateState = singlePolicyRes[ 0 ][ 'Status' ]
nextState = self.rssMachine.getNextState( candidateState )
if not nextState[ 'OK' ]:
return nextState
nextState = nextState[ 'Value' ]
# If the RssMachine does not accept the candidate, return forcing message
if candidateState != nextState:
policyCombined[ 'Status' ] = nextState
policyCombined[ 'Reason' ] = 'RssMachine forced status %s to %s' % ( candidateState, nextState )
return S_OK( policyCombined )
# If the RssMachine accepts the candidate, just concatenate the reasons
for policyRes in singlePolicyRes:
if policyRes[ 'Status' ] == nextState:
policyCombined[ 'Reason' ] += '%s ###' % policyRes[ 'Reason' ]
policyCombined[ 'Status' ] = nextState
return S_OK( policyCombined )
################################################################################
# def __useOldPolicyRes( self, name, policyName ):
# '''
# Use the RSS Service to get an old policy result.
# If such result is older than 2 hours, it returns {'Status':'Unknown'}
# '''
# res = self.clients[ 'ResourceManagementClient' ].getPolicyResult( name = name, policyName = policyName )
#
# if not res[ 'OK' ]:
# return { 'Status' : 'Unknown' }
#
# res = res[ 'Value' ]
#
# if res == []:
# return { 'Status' : 'Unknown' }
#
# res = res[ 0 ]
#
# oldStatus = res[ 5 ]
# oldReason = res[ 6 ]
# lastCheckTime = res[ 8 ]
#
# if ( lastCheckTime + datetime.timedelta(hours = 2) ) < datetime.datetime.utcnow():
# return { 'Status' : 'Unknown' }
#
# result = {}
#
# result[ 'Status' ] = oldStatus
# result[ 'Reason' ] = oldReason
# result[ 'OLD' ] = True
# result[ 'PolicyName' ] = policyName
#
# return result
################################################################################
#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF
class PDP(object):
""" PDP ( Policy Decision Point )
"""
def __init__(self, clients=None):
""" Constructor.
examples:
>>> pdp = PDP( None )
>>> pdp1 = PDP( {} )
>>> pdp2 = PDP( { 'Client1' : Client1Object } )
:Parameters:
**clients** - [ None, `dict` ]
dictionary with Clients to be used in the Commands. If None, the Commands
will create their own clients.
"""
# decision parameters used to match policies and actions
self.decisionParams = None
# Helpers to discover policies and RSS metadata in CS
self.pCaller = PolicyCaller(clients)
# RSS State Machine, used to calculate most penalizing state while merging them
self.rssMachine = RSSMachine('Unknown')
self.log = gLogger.getSubLogger('PDP')
def setup(self, decisionParams=None):
""" method that sanitizes the decisionParams and ensures that at least it has
the keys in `standardParamsDict`. This will be relevant while doing the matching
with the RSS Policies configuration in the CS.
There is one key-value pair, `active` which is added on this method. This allows
policies to be de-activated from the CS, changing their active matchParam to
something else than `Active`.
examples:
>>> pdp.setup( None )
>>> self.decisionParams
{ 'element' : None, 'name' : None, ... }
>>> pdp.setup( { 'element' : 'AnElement' } )
>>> self.decisionParams
{ 'element' : 'AnElement', 'name' : None, ... }
>>> pdp.setup( { 'NonStandardKey' : 'Something' } )
>>> self.decisionParams
{ 'NonStandardKey' : 'Something', 'element' : None,... }
:Parameters:
**decisionParams** - [ None, `dict` ]
dictionary with the parameters to be matched with the RSS Policies configuration
in the CS.
"""
standardParamsDict = {
'element': None,
'name': None,
'elementType': None,
'statusType': None,
'status': None,
'reason': None,
'tokenOwner': None,
# Last parameter allows policies to be de-activated
'active': 'Active'
}
if decisionParams is not None:
standardParamsDict.update(decisionParams)
if standardParamsDict['element'] is not None:
self.log = gLogger.getSubLogger('PDP/%s' %
standardParamsDict['element'])
if standardParamsDict['name'] is not None:
self.log = gLogger.getSubLogger(
'PDP/%s/%s' % (standardParamsDict['element'],
standardParamsDict['name']))
self.log.verbose("Setup - statusType: %s, status: %s" %
(standardParamsDict['statusType'],
standardParamsDict['status']))
self.decisionParams = standardParamsDict
def takeDecision(self):
""" main PDP method which does all the work. If firstly finds all the policies
defined in the CS that match <self.decisionParams> and runs them. Once it has
all the singlePolicyResults, it combines them. Next step is action discovery:
using a similar approach to the one used to discover the policies, but also
taking into account the single policy results and their combined result, finds
the actions to be triggered and returns.
examples:
>>> pdp.takeDecision()['Value'].keys()
['singlePolicyResults', 'policyCombinedResult', 'decisionParams']
>>> pdp.takeDecision()['Value']['singlePolicyResults']
[ { 'Status' : 'Active',
'Reason' : 'blah',
'Policy' : { 'name' : 'AlwaysActiveForResource',
'type' : 'AlwaysActive',
'module' : 'AlwaysActivePolicy',
'description' : 'This is the AlwaysActive policy'
'command' : None,
'args' : {}
}
}, ... ]
>>> pdp.takeDecision()['Value']['policyCombinedResult']
{ 'Status' : 'Active',
'Reason' : 'blah ###',
'PolicyAction' : [ ( 'policyActionName1', 'policyActionType1' ), ... ]
}
:return: S_OK( { 'singlePolicyResults' : `list`,
'policyCombinedResult' : `dict`,
'decisionParams' : `dict` } ) / S_ERROR
"""
if self.decisionParams is None:
return S_OK({
'singlePolicyResults': [],
'policyCombinedResult': {},
'decisionParams': self.decisionParams
})
self.log.verbose("Taking decision")
# Policies..................................................................
# Get policies that match self.decisionParams
policiesThatApply = getPoliciesThatApply(self.decisionParams)
if not policiesThatApply['OK']:
return policiesThatApply
policiesThatApply = policiesThatApply['Value']
self.log.verbose("Policies that apply: %s" %
', '.join([po['name'] for po in policiesThatApply]))
# Evaluate policies
singlePolicyResults = self._runPolicies(policiesThatApply)
if not singlePolicyResults['OK']:
return singlePolicyResults
singlePolicyResults = singlePolicyResults['Value']
self.log.verbose("Single policy results: %s" % singlePolicyResults)
# Combine policies and get most penalizing status ( see RSSMachine )
policyCombinedResults = self._combineSinglePolicyResults(
singlePolicyResults)
if not policyCombinedResults['OK']:
return policyCombinedResults
policyCombinedResults = policyCombinedResults['Value']
self.log.verbose("Combined policy result: %s" % policyCombinedResults)
# Actions...................................................................
policyActionsThatApply = getPolicyActionsThatApply(
self.decisionParams, singlePolicyResults, policyCombinedResults)
if not policyActionsThatApply['OK']:
return policyActionsThatApply
policyActionsThatApply = policyActionsThatApply['Value']
self.log.verbose("Policy actions that apply: %s" %
','.join(pata[0] for pata in policyActionsThatApply))
policyCombinedResults['PolicyAction'] = policyActionsThatApply
return S_OK({
'singlePolicyResults': singlePolicyResults,
'policyCombinedResult': policyCombinedResults,
'decisionParams': self.decisionParams
})
def _runPolicies(self, policies):
""" Given a list of policy dictionaries, loads them making use of the PolicyCaller
and evaluates them. This method requires to have run setup previously.
examples:
>>> pdp._runPolicies([])['Value']
[]
>>> policyDict = { 'name' : 'AlwaysActiveResource',
'type' : 'AlwaysActive',
'args' : None,
'description' : 'This is the AlwaysActive policy',
'module' : 'AlwaysActivePolicy',
'command' : None }
>>> pdp._runPolicies([ policyDict, ... ] )['Value']
[ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict }, ... ]
:Parameters:
**policies** - `list( dict )`
list of dictionaries containing the policies selected to be run. Check the
examples to get an idea of how the policy dictionaries look like.
:return: S_OK() / S_ERROR
"""
policyInvocationResults = []
# Gets all valid status for RSS to avoid misconfigured policies returning statuses
# that RSS does not understand.
validStatus = self.rssMachine.getStates()
for policyDict in policies:
# Load and evaluate policy described in <policyDict> for element described
# in <self.decisionParams>
policyInvocationResult = self.pCaller.policyInvocation(
self.decisionParams, policyDict)
if not policyInvocationResult['OK']:
# We should never enter this line ! Just in case there are policies
# missconfigured !
_msg = 'runPolicies no OK: %s' % policyInvocationResult
self.log.error(_msg)
return S_ERROR(_msg)
policyInvocationResult = policyInvocationResult['Value']
# Sanity Checks ( they should never happen ! )
if not 'Status' in policyInvocationResult:
_msg = 'runPolicies (no Status): %s' % policyInvocationResult
self.log.error(_msg)
return S_ERROR(_msg)
if not policyInvocationResult['Status'] in validStatus:
_msg = 'runPolicies ( not valid status ) %s' % policyInvocationResult[
'Status']
self.log.error(_msg)
return S_ERROR(_msg)
if not 'Reason' in policyInvocationResult:
_msg = 'runPolicies (no Reason): %s' % policyInvocationResult
self.log.error(_msg)
return S_ERROR(_msg)
policyInvocationResults.append(policyInvocationResult)
return S_OK(policyInvocationResults)
def _combineSinglePolicyResults(self, singlePolicyRes):
""" method that merges all the policies results into a combined one, which
will be the most penalizing status and the reasons of the single policy
results that returned the same penalizing status. All the rest, are ignored.
If there are no single policy results, it is returned `Unknown` state. While
combining policies, the ones containing the option `doNotCombine` are ignored.
examples:
>>> pdp._combineSingePolicyResults( [] )['Value']
{ 'Status' : 'Unknown', 'Reason' : 'No policy ..' }
>>> pdp._combineSingePolicyResults( [ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict } ] )
{ 'Status' : 'Active', 'Reason' : 'blah' }
>>> pdp._combineSingePolicyResults( [ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict },
{ 'Status' : 'Banned', 'Reason' : 'blah 2', 'Policy' : policyDict2 } ] )
{ 'Status' : 'Banned', 'Reason' : 'blah 2' }
>>> pdp._combineSingePolicyResults( [ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict },
{ 'Status' : 'Active', 'Reason' : 'blah 2', 'Policy' : policyDict2 } ] )
{ 'Status' : 'Banned', 'Reason' : 'blah ### blah 2' }
:Parameters:
**singlePolicyRes** - `list( dict )`
list with every single policy result to be combined ( see _runPolicy for more details )
:return: S_OK( dict( Status, Reason ) | S_ERROR
"""
# Dictionary to be returned
policyCombined = {
'Status':
'Unknown', # default, it should be overridden by the policies, if they exist
'Reason': ''
}
# If there are no policyResults, we return Unknown
if not singlePolicyRes:
policyCombined[
'Reason'] = 'No policy applies to %(element)s, %(name)s, %(elementType)s' % self.decisionParams
self.log.warn(policyCombined['Reason'])
return S_OK(policyCombined)
# We set the rssMachine on the current state ( ensures it is a valid one )
# FIXME: probably this check can be done at takeDecision
machineStatus = self.rssMachine.setState(self.decisionParams['status'])
if not machineStatus['OK']:
return machineStatus
# Discard all single policy results which belongs to policies that have set
# the option `doNotCombine` in the CS
policiesToCombine = self._findPoliciesToCombine(singlePolicyRes)
# Sort policy results using ther statuses by most restrictive ( lower level first )
self.rssMachine.orderPolicyResults(policiesToCombine)
# As they have been sorted by most restrictive status, the first one is going
# to be our candidate new state. Let's ask the RSSMachine if it allows us to
# make such transition.
candidateState = policiesToCombine[0]['Status']
nextState = self.rssMachine.getNextState(candidateState)
if not nextState['OK']:
return nextState
nextState = nextState['Value']
# If the RssMachine does not accept the candidate, return forcing message
if candidateState != nextState:
policyCombined['Status'] = nextState
policyCombined['Reason'] = 'RssMachine forced status %s to %s' % (
candidateState, nextState)
return S_OK(policyCombined)
# If the RssMachine accepts the candidate, just concatenate the reasons
for policyRes in policiesToCombine:
if policyRes['Status'] == nextState:
policyCombined['Reason'] += '%s ###' % policyRes['Reason']
policyCombined['Status'] = nextState
return S_OK(policyCombined)
def _findPoliciesToCombine(self, singlePolicyRes):
""" method that iterates over the single policy results and checks the CS
configuration of the policies looking for the option 'doNotCombine'. If it is
present, that single policy result is discarded.
:Parameters:
**singlePolicyRes** - `list( dict )`
list with every single policy result to be combined ( see _runPolicy for more details )
:return: `list( dict )`
"""
# Get policies configuration from the CS. We want to exclude the policies that
# have set the option `doNotCombine` from this process.
policiesConfiguration = RssConfiguration.getPolicies()
if not policiesConfiguration['OK']:
return policiesConfiguration
policiesConfiguration = policiesConfiguration['Value']
# Function that let's us know if we should combine the result of a single policy
# or not.
def combinePolicy(policyResult):
# Extract policy name from the dictionary returned by PolicyCaller
policyName = policyResult['Policy']['name']
try:
# If doNotCombineResult is defined, the policy is not taken into account
# to create the combined result. However, the single policy result remains
_ = policiesConfiguration[policyName]['doNotCombineResult']
return False
except KeyError:
return True
# Make a list of policies of which we want to merge their results
return [
policyResult for policyResult in singlePolicyRes
if combinePolicy(policyResult)
]
class PDP:
"""
PDP = Policy Decision Point.
Used to invoke policies and to take decision based on the polict results combination.
"""
#############################################################################
def __init__(self, VOExtension, granularity = None, name = None, status = None, formerStatus = None,
reason = None, siteType = None, serviceType = None, resourceType = None,
useNewRes = False):
"""
PDP (Policy Decision Point) initialization
:params:
:attr:`VOExtension`: string - VO extension (e.g. 'LHCb')
:attr:`granularity`: string - a ValidRes
:attr:`name`: string - name (e.g. of a site)
:attr:`status`: string - status
:attr:`formerStatus`: string - former status
:attr:`reason`: string - optional reason for last status change
:attr:`siteType`: string - optional site type
:attr:`serviceType`: string - optional service type
:attr:`resourceType`: string - optional resource type
"""
self.VOExtension = VOExtension
self.__granularity = assignOrRaise(granularity, ValidRes, InvalidRes, self, self.__init__)
self.__name = name
self.__status = assignOrRaise(status, ValidStatus, InvalidStatus, self, self.__init__)
self.__formerStatus = assignOrRaise(formerStatus, ValidStatus, InvalidStatus, self, self.__init__)
self.__reason = reason
self.__siteType = assignOrRaise(siteType, ValidSiteType, InvalidSiteType, self, self.__init__)
self.__serviceType = assignOrRaise(serviceType, ValidServiceType, InvalidServiceType, self, self.__init__)
self.__resourceType = assignOrRaise(resourceType, ValidResourceType, InvalidResourceType, self, self.__init__)
cc = CommandCaller()
self.pc = PolicyCaller(cc)
self.useNewRes = useNewRes
self.args = None
self.policy = None
self.knownInfo = None
self.ig = None
#############################################################################
def takeDecision(self, policyIn=None, argsIn=None, knownInfo=None):
""" PDP MAIN FUNCTION
decides policies that have to be applied, based on
__granularity,
__name,
__status,
__formerStatus
__reason
If more than one policy is evaluated, results are combined.
Logic for combination: a conservative approach is followed
(i.e. if a site should be banned for at least one policy, that's what is returned)
returns:
{ 'PolicyType': a policyType (in a string),
'Action': True|False,
'Status': 'Active'|'Probing'|'Banned',
'Reason': a reason
'EndDate: datetime.datetime (in a string)}
"""
self.args = argsIn
self.policy = policyIn
self.knownInfo = knownInfo
self.ig = InfoGetter(self.VOExtension)
EVAL = self.ig.getInfoToApply(('policy', 'policyType'),
granularity = self.__granularity,
status = self.__status,
formerStatus = self.__formerStatus,
siteType = self.__siteType,
serviceType = self.__serviceType,
resourceType = self.__resourceType,
useNewRes = self.useNewRes)
policyCombinedResultsList = []
for policyGroup in EVAL:
policyType = policyGroup['PolicyType']
if self.policy is not None:
# Only the policy provided will be evaluated
# FIXME: Check that the policies are valid.
singlePolicyResults = self.policy.evaluate()
else:
if policyGroup['Policies'] is None:
return {'SinglePolicyResults' : [],
'PolicyCombinedResult' : [{'PolicyType': policyType,
'Action': False,
'Reason':'No policy results'}]}
else:
singlePolicyResults = self._invocation(self.VOExtension, self.__granularity,
self.__name, self.__status, self.policy,
self.args, policyGroup['Policies'])
policyCombinedResults = self._policyCombination(singlePolicyResults)
if not policyCombinedResults:
return { 'SinglePolicyResults': singlePolicyResults,
'PolicyCombinedResult': [] }
#
# policy results communication
#
newstatus = policyCombinedResults['Status']
if newstatus != self.__status: # Policies satisfy
reason = policyCombinedResults['Reason']
newPolicyType = self.ig.getNewPolicyType(self.__granularity, newstatus)
for npt in newPolicyType:
if npt not in policyType:
policyType.append(npt)
decision = { 'PolicyType': policyType, 'Action': True, 'Status': newstatus, 'Reason': reason }
if policyCombinedResults.has_key('EndDate'):
decision['EndDate'] = policyCombinedResults['EndDate']
policyCombinedResultsList.append(decision)
else: # Policies does not satisfy
reason = policyCombinedResults['Reason']
decision = { 'PolicyType': policyType, 'Action': False, 'Reason': reason }
if policyCombinedResults.has_key('EndDate'):
decision['EndDate'] = policyCombinedResults['EndDate']
policyCombinedResultsList.append(decision)
res = { 'SinglePolicyResults' : singlePolicyResults,
'PolicyCombinedResult' : policyCombinedResultsList }
return res
#############################################################################
def _invocation(self, VOExtension, granularity, name, status, policy, args, policies):
""" One by one, use the PolicyCaller to invoke the policies, and putting
their results in `policyResults`. When the status is `Unknown`, invokes
`self.__useOldPolicyRes`.
"""
policyResults = []
for p in policies:
pName = p['Name']
pModule = p['Module']
extraArgs = p['args']
commandIn = p['commandIn']
res = self.pc.policyInvocation(VOExtension, granularity = granularity, name = name,
status = status, policy = policy, args = args, pName = pName,
pModule = pModule, extraArgs = extraArgs, commandIn = commandIn)
# If res is empty, return immediately
if not res: return policyResults
if not res.has_key('Status'):
print("\n\n Policy result " + str(res) + " does not return 'Status'\n\n")
raise TypeError
# Else
if res['Status'] == 'Unknown':
res = self.__useOldPolicyRes(name = name, policyName = pName)
if res['Status'] == 'NeedConfirmation':
pName = p['ConfirmationPolicy']
triggeredPolicy = self.ig.C_Policies[pName]
pModule = triggeredPolicy['module']
extraArgs = triggeredPolicy['args']
commandIn = triggeredPolicy['commandIn']
res = self.pc.policyInvocation(VOExtension, granularity = granularity, name = name,
status = status, policy = policy, args = args, pName = pName,
pModule = pModule, extraArgs = extraArgs, commandIn = commandIn)
if res['Status'] not in ('Error', 'Unknown', 'NeedConfirmation'):
policyResults.append(res)
return policyResults
#############################################################################
def _policyCombination(self, policies):
"""
* Compute a new status, and store it in variable newStatus, of type integer.
* Make a list of policies that have the worst result.
* Concatenate the Reason fields
* Take the first EndDate field that exists (FIXME: Do something more clever)
* Finally, return the result
"""
if policies == []: return {}
policies.sort(key=value_of_policy)
newStatus = -1 # First, set an always invalid status
try:
# We are in a special status, maybe forbidden transitions
prio, access_list, gofun = statesInfo[self.__status]
if access_list != set():
# Restrictions on transitions, checking if one is suitable:
for p in policies:
if value_of_policy(p) in access_list:
newStatus = value_of_policy(p)
break
# No status from policies suitable, applying stategy and
# returning result.
if newStatus == -1:
newStatus = gofun(access_list)
return { 'Status': status_of_value(newStatus), 'Reason': 'Status forced by PDP' }
else:
# Special Status, but no restriction on transitions
newStatus = value_of_policy(policies[0])
except KeyError:
# We are in a "normal" status: All transitions are possible.
newStatus = value_of_policy(policies[0])
# At this point, a new status has been chosen. newStatus is an
# integer.
worstPolicies = [p for p in policies if value_of_policy(p) == newStatus]
# Concatenate reasons
def getReason(p):
try:
res = p['Reason']
except KeyError:
res = ''
return res
worstPoliciesReasons = [getReason(p) for p in worstPolicies]
def catRes(x, y):
if x and y : return x + ' |###| ' + y
elif x or y:
if x: return x
else: return y
else : return ''
concatenatedRes = reduce(catRes, worstPoliciesReasons, '')
# Handle EndDate
endDatePolicies = [p for p in worstPolicies if p.has_key('EndDate')]
# Building and returning result
res = {}
res['Status'] = status_of_value(newStatus)
if concatenatedRes != '': res['Reason'] = concatenatedRes
if endDatePolicies != []: res['EndDate'] = endDatePolicies[0]['EndDate']
return res
#############################################################################
def __useOldPolicyRes(self, name, policyName):
""" Use the RSS Service to get an old policy result.
If such result is older than 2 hours, it returns {'Status':'Unknown'}
"""
from DIRAC.Core.DISET.RPCClient import RPCClient
rsS = RPCClient("ResourceStatus/ResourceManagement")
res = rsS.getPolicyRes(name, policyName, True)
if not res['OK']:
raise RSSException, where(self, self.__useOldPolicyRes) + ' Could not get a policy result'
res = res['Value']
if res == []:
return {'Status':'Unknown'}
oldStatus = res[0]
oldReason = res[1]
lastCheckTime = res[2]
if ( lastCheckTime + datetime.timedelta(hours = 2) ) < datetime.datetime.utcnow():
return {'Status':'Unknown'}
result = {}
result['Status'] = oldStatus
result['Reason'] = oldReason
result['OLD'] = True
result['PolicyName'] = policyName
return result
def __init__(self,
VOExtension,
granularity=None,
name=None,
status=None,
formerStatus=None,
reason=None,
siteType=None,
serviceType=None,
resourceType=None,
useNewRes=False):
"""
PDP (Policy Decision Point) initialization
:params:
:attr:`VOExtension`: string - VO extension (e.g. 'LHCb')
:attr:`granularity`: string - a ValidRes
:attr:`name`: string - name (e.g. of a site)
:attr:`status`: string - status
:attr:`formerStatus`: string - former status
:attr:`reason`: string - optional reason for last status change
:attr:`siteType`: string - optional site type
:attr:`serviceType`: string - optional service type
:attr:`resourceType`: string - optional resource type
"""
self.VOExtension = VOExtension
self.__granularity = assignOrRaise(granularity, ValidRes, InvalidRes,
self, self.__init__)
self.__name = name
self.__status = assignOrRaise(status, ValidStatus, InvalidStatus, self,
self.__init__)
self.__formerStatus = assignOrRaise(formerStatus, ValidStatus,
InvalidStatus, self, self.__init__)
self.__reason = reason
self.__siteType = assignOrRaise(siteType, ValidSiteType,
InvalidSiteType, self, self.__init__)
self.__serviceType = assignOrRaise(serviceType, ValidServiceType,
InvalidServiceType, self,
self.__init__)
self.__resourceType = assignOrRaise(resourceType, ValidResourceType,
InvalidResourceType, self,
self.__init__)
cc = CommandCaller()
self.pc = PolicyCaller(cc)
self.useNewRes = useNewRes
self.args = None
self.policy = None
self.knownInfo = None
self.ig = None
class PDP:
"""
PDP = Policy Decision Point.
Used to invoke policies and to take decision based on the polict results combination.
"""
#############################################################################
def __init__(self,
VOExtension,
granularity=None,
name=None,
status=None,
formerStatus=None,
reason=None,
siteType=None,
serviceType=None,
resourceType=None,
useNewRes=False):
"""
PDP (Policy Decision Point) initialization
:params:
:attr:`VOExtension`: string - VO extension (e.g. 'LHCb')
:attr:`granularity`: string - a ValidRes
:attr:`name`: string - name (e.g. of a site)
:attr:`status`: string - status
:attr:`formerStatus`: string - former status
:attr:`reason`: string - optional reason for last status change
:attr:`siteType`: string - optional site type
:attr:`serviceType`: string - optional service type
:attr:`resourceType`: string - optional resource type
"""
self.VOExtension = VOExtension
self.__granularity = assignOrRaise(granularity, ValidRes, InvalidRes,
self, self.__init__)
self.__name = name
self.__status = assignOrRaise(status, ValidStatus, InvalidStatus, self,
self.__init__)
self.__formerStatus = assignOrRaise(formerStatus, ValidStatus,
InvalidStatus, self, self.__init__)
self.__reason = reason
self.__siteType = assignOrRaise(siteType, ValidSiteType,
InvalidSiteType, self, self.__init__)
self.__serviceType = assignOrRaise(serviceType, ValidServiceType,
InvalidServiceType, self,
self.__init__)
self.__resourceType = assignOrRaise(resourceType, ValidResourceType,
InvalidResourceType, self,
self.__init__)
cc = CommandCaller()
self.pc = PolicyCaller(cc)
self.useNewRes = useNewRes
self.args = None
self.policy = None
self.knownInfo = None
self.ig = None
#############################################################################
def takeDecision(self, policyIn=None, argsIn=None, knownInfo=None):
""" PDP MAIN FUNCTION
decides policies that have to be applied, based on
__granularity,
__name,
__status,
__formerStatus
__reason
If more than one policy is evaluated, results are combined.
Logic for combination: a conservative approach is followed
(i.e. if a site should be banned for at least one policy, that's what is returned)
returns:
{ 'PolicyType': a policyType (in a string),
'Action': True|False,
'Status': 'Active'|'Probing'|'Banned',
'Reason': a reason
'EndDate: datetime.datetime (in a string)}
"""
self.args = argsIn
self.policy = policyIn
self.knownInfo = knownInfo
self.ig = InfoGetter(self.VOExtension)
EVAL = self.ig.getInfoToApply(('policy', 'policyType'),
granularity=self.__granularity,
status=self.__status,
formerStatus=self.__formerStatus,
siteType=self.__siteType,
serviceType=self.__serviceType,
resourceType=self.__resourceType,
useNewRes=self.useNewRes)
for policyGroup in EVAL:
policyType = policyGroup['PolicyType']
if self.policy is not None:
# Only the policy provided will be evaluated
# FIXME: Check that the policies are valid.
singlePolicyResults = self.policy.evaluate()
else:
if policyGroup['Policies'] is None:
return {
'SinglePolicyResults': [],
'PolicyCombinedResult': {
'PolicyType': policyType,
'Action': False,
'Reason': 'No policy results'
}
}
else:
singlePolicyResults = self._invocation(
self.VOExtension, self.__granularity, self.__name,
self.__status, self.policy, self.args,
policyGroup['Policies'])
policyCombinedResults = self._policyCombination(
singlePolicyResults)
assert (type(policyCombinedResults) == dict)
if not policyCombinedResults:
return {
'SinglePolicyResults': singlePolicyResults,
'PolicyCombinedResult': {}
}
#
# policy results communication
#
newstatus = policyCombinedResults['Status']
if newstatus != self.__status: # Policies satisfy
reason = policyCombinedResults['Reason']
newPolicyType = self.ig.getNewPolicyType(
self.__granularity, newstatus)
for npt in newPolicyType:
if npt not in policyType:
policyType.append(npt)
decision = {
'PolicyType': policyType,
'Action': True,
'Status': newstatus,
'Reason': reason
}
if policyCombinedResults.has_key('EndDate'):
decision['EndDate'] = policyCombinedResults['EndDate']
else: # Policies does not satisfy
reason = policyCombinedResults['Reason']
decision = {
'PolicyType': policyType,
'Action': False,
'Reason': reason
}
if policyCombinedResults.has_key('EndDate'):
decision['EndDate'] = policyCombinedResults['EndDate']
res = {
'SinglePolicyResults': singlePolicyResults,
'PolicyCombinedResult': decision
}
assert (type(res) == dict)
return res
#############################################################################
def _invocation(self, VOExtension, granularity, name, status, policy, args,
policies):
""" One by one, use the PolicyCaller to invoke the policies, and putting
their results in `policyResults`. When the status is `Unknown`, invokes
`self.__useOldPolicyRes`.
"""
policyResults = []
for p in policies:
pName = p['Name']
pModule = p['Module']
extraArgs = p['args']
commandIn = p['commandIn']
res = self.pc.policyInvocation(VOExtension,
granularity=granularity,
name=name,
status=status,
policy=policy,
args=args,
pName=pName,
pModule=pModule,
extraArgs=extraArgs,
commandIn=commandIn)
# If res is empty, return immediately
if not res: return policyResults
if not res.has_key('Status'):
print("\n\n Policy result " + str(res) +
" does not return 'Status'\n\n")
raise TypeError
# Else
if res['Status'] == 'Unknown':
res = self.__useOldPolicyRes(name=name, policyName=pName)
if res['Status'] == 'NeedConfirmation':
pName = p['ConfirmationPolicy']
triggeredPolicy = self.ig.C_Policies[pName]
pModule = triggeredPolicy['module']
extraArgs = triggeredPolicy['args']
commandIn = triggeredPolicy['commandIn']
res = self.pc.policyInvocation(VOExtension,
granularity=granularity,
name=name,
status=status,
policy=policy,
args=args,
pName=pName,
pModule=pModule,
extraArgs=extraArgs,
commandIn=commandIn)
if res['Status'] not in ('Error', 'Unknown', 'NeedConfirmation'):
policyResults.append(res)
return policyResults
#############################################################################
def _policyCombination(self, pol_results):
"""
INPUT: list type
OUTPUT: dict type
* Compute a new status, and store it in variable newStatus, of type integer.
* Make a list of policies that have the worst result.
* Concatenate the Reason fields
* Take the first EndDate field that exists (FIXME: Do something more clever)
* Finally, return the result
"""
if pol_results == []: return {}
pol_results.sort(key=Status.value_of_policy)
newStatus = -1 # First, set an always invalid status
try:
# We are in a special status, maybe forbidden transitions
_prio, access_list, gofun = Status.statesInfo[self.__status]
if access_list != set():
# Restrictions on transitions, checking if one is suitable:
for p in pol_results:
if Status.value_of_policy(p) in access_list:
newStatus = Status.value_of_policy(p)
break
# No status from policies suitable, applying stategy and
# returning result.
if newStatus == -1:
newStatus = gofun(access_list)
return {
'Status': Status.status_of_value(newStatus),
'Reason': 'Status forced by PDP'
}
else:
# Special Status, but no restriction on transitions
newStatus = Status.value_of_policy(pol_results[0])
except KeyError:
# We are in a "normal" status: All transitions are possible.
newStatus = Status.value_of_policy(pol_results[0])
# At this point, a new status has been chosen. newStatus is an
# integer.
worstResults = [
p for p in pol_results if Status.value_of_policy(p) == newStatus
]
# Concatenate reasons
def getReason(p):
try:
res = p['Reason']
except KeyError:
res = ''
return res
worstResultsReasons = [getReason(p) for p in worstResults]
def catRes(x, y):
if x and y: return x + ' |###| ' + y
elif x or y:
if x: return x
else: return y
else: return ''
concatenatedRes = reduce(catRes, worstResultsReasons, '')
# Handle EndDate
endDatePolicies = [p for p in worstResults if p.has_key('EndDate')]
# Building and returning result
res = {}
res['Status'] = Status.status_of_value(newStatus)
if concatenatedRes != '': res['Reason'] = concatenatedRes
if endDatePolicies != []:
res['EndDate'] = endDatePolicies[0]['EndDate']
return res
#############################################################################
def __useOldPolicyRes(self, name, policyName):
""" Use the RSS Service to get an old policy result.
If such result is older than 2 hours, it returns {'Status':'Unknown'}
"""
from DIRAC.Core.DISET.RPCClient import RPCClient
rsS = RPCClient("ResourceStatus/ResourceManagement")
res = rsS.getPolicyRes(name, policyName, True)
if not res['OK']:
raise RSSException, where(
self,
self.__useOldPolicyRes) + ' Could not get a policy result'
res = res['Value']
if res == []:
return {'Status': 'Unknown'}
oldStatus = res[0]
oldReason = res[1]
lastCheckTime = res[2]
if (lastCheckTime +
datetime.timedelta(hours=2)) < datetime.datetime.utcnow():
return {'Status': 'Unknown'}
result = {}
result['Status'] = oldStatus
result['Reason'] = oldReason
result['OLD'] = True
result['PolicyName'] = policyName
return result
class PDP( object ):
""" PDP ( Policy Decision Point )
"""
def __init__( self, clients = None ):
""" Constructor.
examples:
>>> pdp = PDP( None )
>>> pdp1 = PDP( {} )
>>> pdp2 = PDP( { 'Client1' : Client1Object } )
:Parameters:
**clients** - [ None, `dict` ]
dictionary with Clients to be used in the Commands. If None, the Commands
will create their own clients.
"""
# decision parameters used to match policies and actions
self.decisionParams = None
# Helpers to discover policies and RSS metadata in CS
self.pCaller = PolicyCaller( clients )
# RSS State Machine, used to calculate most penalizing state while merging them
self.rssMachine = RSSMachine( 'Unknown' )
self.log = gLogger.getSubLogger( 'PDP' )
def setup( self, decisionParams = None ):
""" method that sanitizes the decisionParams and ensures that at least it has
the keys in `standardParamsDict`. This will be relevant while doing the matching
with the RSS Policies configuration in the CS.
There is one key-value pair, `active` which is added on this method. This allows
policies to be de-activated from the CS, changing their active matchParam to
something else than `Active`.
examples:
>>> pdp.setup( None )
>>> self.decisionParams
{ 'element' : None, 'name' : None, ... }
>>> pdp.setup( { 'element' : 'AnElement' } )
>>> self.decisionParams
{ 'element' : 'AnElement', 'name' : None, ... }
>>> pdp.setup( { 'NonStandardKey' : 'Something' } )
>>> self.decisionParams
{ 'NonStandardKey' : 'Something', 'element' : None,... }
:Parameters:
**decisionParams** - [ None, `dict` ]
dictionary with the parameters to be matched with the RSS Policies configuration
in the CS.
"""
standardParamsDict = {'element' : None,
'name' : None,
'elementType' : None,
'statusType' : None,
'status' : None,
'reason' : None,
'tokenOwner' : None,
# Last parameter allows policies to be de-activated
'active' : 'Active'}
if decisionParams is not None:
standardParamsDict.update( decisionParams )
if standardParamsDict['element'] is not None:
self.log = gLogger.getSubLogger( 'PDP/%s' % standardParamsDict['element'] )
if standardParamsDict['name'] is not None:
self.log = gLogger.getSubLogger( 'PDP/%s/%s' % ( standardParamsDict['element'], standardParamsDict['name'] ) )
self.log.verbose( "Setup - statusType: %s, status: %s" % ( standardParamsDict['statusType'],
standardParamsDict['status'] ) )
self.decisionParams = standardParamsDict
def takeDecision( self ):
""" main PDP method which does all the work. If firstly finds all the policies
defined in the CS that match <self.decisionParams> and runs them. Once it has
all the singlePolicyResults, it combines them. Next step is action discovery:
using a similar approach to the one used to discover the policies, but also
taking into account the single policy results and their combined result, finds
the actions to be triggered and returns.
examples:
>>> pdp.takeDecision()['Value'].keys()
['singlePolicyResults', 'policyCombinedResult', 'decisionParams']
>>> pdp.takeDecision()['Value']['singlePolicyResults']
[ { 'Status' : 'Active',
'Reason' : 'blah',
'Policy' : { 'name' : 'AlwaysActiveForResource',
'type' : 'AlwaysActive',
'module' : 'AlwaysActivePolicy',
'description' : 'This is the AlwaysActive policy'
'command' : None,
'args' : {}
}
}, ... ]
>>> pdp.takeDecision()['Value']['policyCombinedResult']
{ 'Status' : 'Active',
'Reason' : 'blah ###',
'PolicyAction' : [ ( 'policyActionName1', 'policyActionType1' ), ... ]
}
:return: S_OK( { 'singlePolicyResults' : `list`,
'policyCombinedResult' : `dict`,
'decisionParams' : `dict` } ) / S_ERROR
"""
if self.decisionParams is None:
return S_OK( {'singlePolicyResults' : [],
'policyCombinedResult' : {},
'decisionParams' : self.decisionParams} )
self.log.verbose( "Taking decision" )
# Policies..................................................................
# Get policies that match self.decisionParams
policiesThatApply = getPoliciesThatApply( self.decisionParams )
if not policiesThatApply['OK']:
return policiesThatApply
policiesThatApply = policiesThatApply['Value']
self.log.verbose( "Policies that apply: %s" % ', '.join( [po['name'] for po in policiesThatApply] ) )
# Evaluate policies
singlePolicyResults = self._runPolicies( policiesThatApply )
if not singlePolicyResults['OK']:
return singlePolicyResults
singlePolicyResults = singlePolicyResults['Value']
self.log.verbose( "Single policy results: %s" % singlePolicyResults )
# Combine policies and get most penalizing status ( see RSSMachine )
policyCombinedResults = self._combineSinglePolicyResults( singlePolicyResults )
if not policyCombinedResults['OK']:
return policyCombinedResults
policyCombinedResults = policyCombinedResults['Value']
self.log.verbose( "Combined policy result: %s" % policyCombinedResults )
# Actions...................................................................
policyActionsThatApply = getPolicyActionsThatApply( self.decisionParams,
singlePolicyResults,
policyCombinedResults )
if not policyActionsThatApply['OK']:
return policyActionsThatApply
policyActionsThatApply = policyActionsThatApply['Value']
self.log.verbose( "Policy actions that apply: %s" % ','.join( pata[0] for pata in policyActionsThatApply ) )
policyCombinedResults['PolicyAction'] = policyActionsThatApply
return S_OK( {'singlePolicyResults' : singlePolicyResults,
'policyCombinedResult' : policyCombinedResults,
'decisionParams' : self.decisionParams} )
def _runPolicies( self, policies ):
""" Given a list of policy dictionaries, loads them making use of the PolicyCaller
and evaluates them. This method requires to have run setup previously.
examples:
>>> pdp._runPolicies([])['Value']
[]
>>> policyDict = { 'name' : 'AlwaysActiveResource',
'type' : 'AlwaysActive',
'args' : None,
'description' : 'This is the AlwaysActive policy',
'module' : 'AlwaysActivePolicy',
'command' : None }
>>> pdp._runPolicies([ policyDict, ... ] )['Value']
[ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict }, ... ]
:Parameters:
**policies** - `list( dict )`
list of dictionaries containing the policies selected to be run. Check the
examples to get an idea of how the policy dictionaries look like.
:return: S_OK() / S_ERROR
"""
policyInvocationResults = []
# Gets all valid status for RSS to avoid misconfigured policies returning statuses
# that RSS does not understand.
validStatus = self.rssMachine.getStates()
for policyDict in policies:
# Load and evaluate policy described in <policyDict> for element described
# in <self.decisionParams>
policyInvocationResult = self.pCaller.policyInvocation( self.decisionParams,
policyDict )
if not policyInvocationResult['OK']:
# We should never enter this line ! Just in case there are policies
# missconfigured !
_msg = 'runPolicies no OK: %s' % policyInvocationResult
self.log.error( _msg )
return S_ERROR( _msg )
policyInvocationResult = policyInvocationResult['Value']
# Sanity Checks ( they should never happen ! )
if not 'Status' in policyInvocationResult:
_msg = 'runPolicies (no Status): %s' % policyInvocationResult
self.log.error( _msg )
return S_ERROR( _msg )
if not policyInvocationResult['Status'] in validStatus:
_msg = 'runPolicies ( not valid status ) %s' % policyInvocationResult['Status']
self.log.error( _msg )
return S_ERROR( _msg )
if not 'Reason' in policyInvocationResult:
_msg = 'runPolicies (no Reason): %s' % policyInvocationResult
self.log.error( _msg )
return S_ERROR( _msg )
policyInvocationResults.append( policyInvocationResult )
return S_OK( policyInvocationResults )
def _combineSinglePolicyResults( self, singlePolicyRes ):
""" method that merges all the policies results into a combined one, which
will be the most penalizing status and the reasons of the single policy
results that returned the same penalizing status. All the rest, are ignored.
If there are no single policy results, it is returned `Unknown` state. While
combining policies, the ones containing the option `doNotCombine` are ignored.
examples:
>>> pdp._combineSingePolicyResults( [] )['Value']
{ 'Status' : 'Unknown', 'Reason' : 'No policy ..' }
>>> pdp._combineSingePolicyResults( [ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict } ] )
{ 'Status' : 'Active', 'Reason' : 'blah' }
>>> pdp._combineSingePolicyResults( [ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict },
{ 'Status' : 'Banned', 'Reason' : 'blah 2', 'Policy' : policyDict2 } ] )
{ 'Status' : 'Banned', 'Reason' : 'blah 2' }
>>> pdp._combineSingePolicyResults( [ { 'Status' : 'Active', 'Reason' : 'blah', 'Policy' : policyDict },
{ 'Status' : 'Active', 'Reason' : 'blah 2', 'Policy' : policyDict2 } ] )
{ 'Status' : 'Banned', 'Reason' : 'blah ### blah 2' }
:Parameters:
**singlePolicyRes** - `list( dict )`
list with every single policy result to be combined ( see _runPolicy for more details )
:return: S_OK( dict( Status, Reason ) | S_ERROR
"""
# Dictionary to be returned
policyCombined = { 'Status' : 'Unknown', # default, it should be overridden by the policies, if they exist
'Reason' : '' }
# If there are no policyResults, we return Unknown
if not singlePolicyRes:
policyCombined['Reason'] = 'No policy applies to %(element)s, %(name)s, %(elementType)s' % self.decisionParams
self.log.warn(policyCombined['Reason'])
return S_OK( policyCombined )
# We set the rssMachine on the current state ( ensures it is a valid one )
# FIXME: probably this check can be done at takeDecision
machineStatus = self.rssMachine.setState( self.decisionParams['status'] )
if not machineStatus['OK']:
return machineStatus
# Discard all single policy results which belongs to policies that have set
# the option `doNotCombine` in the CS
policiesToCombine = self._findPoliciesToCombine( singlePolicyRes )
# Sort policy results using ther statuses by most restrictive ( lower level first )
self.rssMachine.orderPolicyResults( policiesToCombine )
# As they have been sorted by most restrictive status, the first one is going
# to be our candidate new state. Let's ask the RSSMachine if it allows us to
# make such transition.
candidateState = policiesToCombine[ 0 ]['Status']
nextState = self.rssMachine.getNextState( candidateState )
if not nextState['OK']:
return nextState
nextState = nextState['Value']
# If the RssMachine does not accept the candidate, return forcing message
if candidateState != nextState:
policyCombined['Status'] = nextState
policyCombined['Reason'] = 'RssMachine forced status %s to %s' % ( candidateState, nextState )
return S_OK( policyCombined )
# If the RssMachine accepts the candidate, just concatenate the reasons
for policyRes in policiesToCombine:
if policyRes['Status'] == nextState:
policyCombined['Reason'] += '%s ###' % policyRes['Reason']
policyCombined['Status'] = nextState
return S_OK( policyCombined )
def _findPoliciesToCombine( self, singlePolicyRes ):
""" method that iterates over the single policy results and checks the CS
configuration of the policies looking for the option 'doNotCombine'. If it is
present, that single policy result is discarded.
:Parameters:
**singlePolicyRes** - `list( dict )`
list with every single policy result to be combined ( see _runPolicy for more details )
:return: `list( dict )`
"""
# Get policies configuration from the CS. We want to exclude the policies that
# have set the option `doNotCombine` from this process.
policiesConfiguration = RssConfiguration.getPolicies()
if not policiesConfiguration['OK']:
return policiesConfiguration
policiesConfiguration = policiesConfiguration['Value']
# Function that let's us know if we should combine the result of a single policy
# or not.
def combinePolicy( policyResult ):
# Extract policy name from the dictionary returned by PolicyCaller
policyName = policyResult['Policy']['name']
try:
# If doNotCombineResult is defined, the policy is not taken into account
# to create the combined result. However, the single policy result remains
_ = policiesConfiguration[ policyName ]['doNotCombineResult']
return False
except KeyError:
return True
# Make a list of policies of which we want to merge their results
return [ policyResult for policyResult in singlePolicyRes if combinePolicy( policyResult ) ]
class PDP:
"""
The PDP (Policy Decision Point) module is used to:
1. Decides which policies have to be applied.
2. Invokes an evaluation of the policies, and returns the result (to a PEP)
"""
def __init__( self, **clients ):
'''
Constructor. Defines members that will be used later on.
'''
cc = CommandCaller()
self.clients = clients
self.pCaller = PolicyCaller( cc, **clients )
self.iGetter = InfoGetter()
self.__granularity = None
self.__name = None
self.__statusType = None
self.__status = None
self.__formerStatus = None
self.__reason = None
self.__siteType = None
self.__serviceType = None
self.__resourceType = None
self.__useNewRes = None
def setup( self, granularity = None, name = None, statusType = None,
status = None, formerStatus = None, reason = None, siteType = None,
serviceType = None, resourceType = None, useNewRes = False ):
"""
PDP (Policy Decision Point) initialization
:params:
:attr:`granularity`: string - a ValidElement
:attr:`name`: string - name (e.g. of a site)
:attr:`status`: string - status
:attr:`formerStatus`: string - former status
:attr:`reason`: string - optional reason for last status change
:attr:`siteType`: string - optional site type
:attr:`serviceType`: string - optional service type
:attr:`resourceType`: string - optional resource type
"""
self.__granularity = granularity
self.__name = name
self.__statusType = statusType
self.__status = status
self.__formerStatus = formerStatus
self.__reason = reason
self.__siteType = siteType
self.__serviceType = serviceType
self.__resourceType = resourceType
self.__useNewRes = useNewRes
################################################################################
def takeDecision( self, policyIn = None, argsIn = None, knownInfo = None ):
""" PDP MAIN FUNCTION
decides policies that have to be applied, based on
__granularity,
__name,
__status,
__formerStatus
__reason
If more than one policy is evaluated, results are combined.
Logic for combination: a conservative approach is followed
(i.e. if a site should be banned for at least one policy, that's what is returned)
returns:
{ 'PolicyType': a policyType (in a string),
'Action': True|False,
'Status': 'Active'|'Probing'|'Banned',
'Reason': a reason
'EndDate: datetime.datetime (in a string)}
"""
polToEval = self.iGetter.getInfoToApply( ( 'policy', 'policyType' ),
granularity = self.__granularity,
statusType = self.__statusType,
status = self.__status,
formerStatus = self.__formerStatus,
siteType = self.__siteType,
serviceType = self.__serviceType,
resourceType = self.__resourceType,
useNewRes = self.__useNewRes )
policyType = polToEval[ 'PolicyType' ] # type: generator
if policyIn:
# Only the policy provided will be evaluated
# FIXME: Check that the policies are valid.
singlePolicyResults = policyIn.evaluate()
else:
singlePolicyResults = self._invocation( self.__granularity,
self.__name, self.__status, policyIn,
argsIn, polToEval['Policies'] )
policyCombinedResults = self._policyCombination( singlePolicyResults )
if policyCombinedResults == {}:
policyCombinedResults[ 'Action' ] = False
policyCombinedResults[ 'Reason' ] = 'No policy results'
policyCombinedResults[ 'PolicyType' ] = policyType
if policyCombinedResults.has_key( 'Status' ):
newstatus = policyCombinedResults[ 'Status' ]
if newstatus != self.__status: # Policies satisfy
newPolicyType = self.iGetter.getNewPolicyType( self.__granularity, newstatus )
policyType = set( policyType ) & set( newPolicyType )
policyCombinedResults[ 'Action' ] = True
else: # Policies does not satisfy
policyCombinedResults[ 'Action' ] = False
policyCombinedResults[ 'PolicyType' ] = policyType
return { 'SinglePolicyResults' : singlePolicyResults,
'PolicyCombinedResult' : policyCombinedResults }
################################################################################
def _invocation( self, granularity, name, status, policy, args, policies ):
'''
One by one, use the PolicyCaller to invoke the policies, and putting
their results in `policyResults`. When the status is `Unknown`, invokes
`self.__useOldPolicyRes`. Always returns a list, possibly empty.
'''
policyResults = []
for pol in policies:
pName = pol[ 'Name' ]
pModule = pol[ 'Module' ]
extraArgs = pol[ 'args' ]
commandIn = pol[ 'commandIn' ]
res = self.pCaller.policyInvocation( granularity = granularity, name = name,
status = status, policy = policy,
args = args, pName = pName,
pModule = pModule, extraArgs = extraArgs,
commandIn = commandIn )
# If res is empty, return immediately
if not res:
return policyResults
if not res.has_key( 'Status' ):
print('\n\n Policy result ' + str(res) + ' does not return "Status"\n\n')
raise TypeError
# Else
if res[ 'Status' ] == 'Unknown':
res = self.__useOldPolicyRes( name = name, policyName = pName )
if res[ 'Status' ] not in ( 'Error', 'Unknown' ):
policyResults.append( res )
else:
gLogger.warn( res )
return policyResults
################################################################################
def _policyCombination( self, pol_results ):
'''
INPUT: list type
OUTPUT: dict type
* Compute a new status, and store it in variable newStatus, of type integer.
* Make a list of policies that have the worst result.
* Concatenate the Reason fields
* Take the first EndDate field that exists (FIXME: Do something more clever)
* Finally, return the result
'''
if pol_results == []:
return {}
pol_results.sort( key=Status.value_of_policy )
newStatus = -1 # First, set an always invalid status
try:
# We are in a special status, maybe forbidden transitions
_prio, access_list, gofun = Status.statesInfo[ self.__status ]
if access_list != set():
# Restrictions on transitions, checking if one is suitable:
for polRes in pol_results:
if Status.value_of_policy( polRes ) in access_list:
newStatus = Status.value_of_policy( polRes )
break
# No status from policies suitable, applying stategy and
# returning result.
if newStatus == -1:
newStatus = gofun( access_list )
return { 'Status': Status.status_of_value( newStatus ),
'Reason': 'Status forced by PDP' }
else:
# Special Status, but no restriction on transitions
newStatus = Status.value_of_policy( pol_results[ 0 ] )
except KeyError:
# We are in a "normal" status: All transitions are possible.
newStatus = Status.value_of_policy( pol_results[ 0 ] )
# At this point, a new status has been chosen. newStatus is an
# integer.
worstResults = [ p for p in pol_results
if Status.value_of_policy( p ) == newStatus ]
# Concatenate reasons
def getReason( pol ):
try:
res = pol[ 'Reason' ]
except KeyError:
res = ''
return res
worstResultsReasons = [ getReason( p ) for p in worstResults ]
def catRes( xVal, yVal ):
'''
Concatenate xVal and yVal.
'''
if xVal and yVal :
return xVal + ' |###| ' + yVal
elif xVal or yVal:
if xVal:
return xVal
else:
return yVal
else:
return ''
concatenatedRes = reduce( catRes, worstResultsReasons, '' )
# Handle EndDate
endDatePolicies = [ p for p in worstResults if p.has_key( 'EndDate' ) ]
# Building and returning result
res = {}
res[ 'Status' ] = Status.status_of_value( newStatus )
if concatenatedRes != '':
res[ 'Reason' ] = concatenatedRes
if endDatePolicies != []:
res[ 'EndDate' ] = endDatePolicies[ 0 ][ 'EndDate' ]
return res
################################################################################
def __useOldPolicyRes( self, name, policyName ):
'''
Use the RSS Service to get an old policy result.
If such result is older than 2 hours, it returns {'Status':'Unknown'}
'''
res = self.clients[ 'ResourceManagementClient' ].getPolicyResult( name = name, policyName = policyName )
if not res[ 'OK' ]:
return { 'Status' : 'Unknown' }
res = res[ 'Value' ]
if res == []:
return { 'Status' : 'Unknown' }
res = res[ 0 ]
oldStatus = res[ 5 ]
oldReason = res[ 6 ]
lastCheckTime = res[ 8 ]
if ( lastCheckTime + datetime.timedelta(hours = 2) ) < datetime.datetime.utcnow():
return { 'Status' : 'Unknown' }
result = {}
result[ 'Status' ] = oldStatus
result[ 'Reason' ] = oldReason
result[ 'OLD' ] = True
result[ 'PolicyName' ] = policyName
return result
################################################################################
#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF
class PDP:
"""
The PDP (Policy Decision Point) module is used to:
1. Decides which policies have to be applied.
2. Invokes an evaluation of the policies, and returns the result (to a PEP)
"""
def __init__(self, clients):
"""
Constructor. Defines members that will be used later on.
"""
self.pCaller = PolicyCaller(clients=clients)
self.iGetter = InfoGetter()
self.decissionParams = {}
self.rssMachine = RSSMachine("Unknown")
def setup(self, decissionParams=None):
standardParamsDict = {
"element": None,
"name": None,
"elementType": None,
"statusType": None,
"status": None,
"reason": None,
"tokenOwner": None,
# Last parameter allows policies to be deactivated
"active": "Active",
}
if decissionParams is not None:
standardParamsDict.update(decissionParams)
self.decissionParams = standardParamsDict
################################################################################
def takeDecision(self): # , policyIn = None, argsIn = None, knownInfo = None ):
""" PDP MAIN FUNCTION
decides policies that have to be applied, based on
__granularity,
__name,
__status,
__formerStatus
__reason
If more than one policy is evaluated, results are combined.
Logic for combination: a conservative approach is followed
(i.e. if a site should be banned for at least one policy, that's what is returned)
returns:
{ 'PolicyType': a policyType (in a string),
'Action': True|False,
'Status': 'Active'|'Probing'|'Banned',
'Reason': a reason
#'EndDate: datetime.datetime (in a string)}
"""
policiesThatApply = self.iGetter.getPoliciesThatApply(self.decissionParams)
if not policiesThatApply["OK"]:
return policiesThatApply
policiesThatApply = policiesThatApply["Value"]
singlePolicyResults = self._runPolicies(policiesThatApply)
if not singlePolicyResults["OK"]:
return singlePolicyResults
singlePolicyResults = singlePolicyResults["Value"]
policyCombinedResults = self._combineSinglePolicyResults(singlePolicyResults)
if not policyCombinedResults["OK"]:
return policyCombinedResults
policyCombinedResults = policyCombinedResults["Value"]
policyActionsThatApply = self.iGetter.getPolicyActionsThatApply(
self.decissionParams, singlePolicyResults, policyCombinedResults
)
if not policyActionsThatApply["OK"]:
return policyActionsThatApply
policyActionsThatApply = policyActionsThatApply["Value"]
policyCombinedResults["PolicyAction"] = policyActionsThatApply
return S_OK(
{
"singlePolicyResults": singlePolicyResults,
"policyCombinedResult": policyCombinedResults,
"decissionParams": self.decissionParams,
}
)
################################################################################
def _runPolicies(self, policies, decissionParams=None):
if decissionParams is None:
decissionParams = self.decissionParams
validStatus = RssConfiguration.getValidStatus()
if not validStatus["OK"]:
return validStatus
validStatus = validStatus["Value"]
policyInvocationResults = []
for policyDict in policies:
policyInvocationResult = self.pCaller.policyInvocation(decissionParams, policyDict)
if not policyInvocationResult["OK"]:
# We should never enter this line ! Just in case there are policies
# missconfigured !
_msg = "runPolicies no OK: %s" % policyInvocationResult
gLogger.error(_msg)
return S_ERROR(_msg)
policyInvocationResult = policyInvocationResult["Value"]
if not "Status" in policyInvocationResult:
_msg = "runPolicies (no Status): %s" % policyInvocationResult
gLogger.error(_msg)
return S_ERROR(_msg)
if not policyInvocationResult["Status"] in validStatus:
_msg = "runPolicies ( not valid status ) %s" % policyInvocationResult["Status"]
gLogger.error(_msg)
return S_ERROR(_msg)
if not "Reason" in policyInvocationResult:
_msg = "runPolicies (no Reason): %s" % policyInvocationResult
gLogger.error(_msg)
return S_ERROR(_msg)
policyInvocationResults.append(policyInvocationResult)
return S_OK(policyInvocationResults)
################################################################################
def _combineSinglePolicyResults(self, singlePolicyRes):
"""
singlePolicyRes = [ { 'State' : X, 'Reason' : Y, ... }, ... ]
If there are no policyResults, returns Unknown as there are no policies to
apply.
Order elements in list by state, being the lowest the most restrictive
one in the hierarchy.
"""
# Dictionary to be returned
policyCombined = {"Status": None, "Reason": ""}
# If there are no policyResults, we return Unknown
if not singlePolicyRes:
_msgTuple = (
self.decissionParams["element"],
self.decissionParams["name"],
self.decissionParams["elementType"],
)
policyCombined["Status"] = "Unknown"
policyCombined["Reason"] = "No policy applies to %s, %s, %s" % _msgTuple
return S_OK(policyCombined)
# We set the rssMachine on the current state
machineStatus = self.rssMachine.setState(self.decissionParams["status"])
if not machineStatus["OK"]:
return machineStatus
# Order statuses by most restrictive ( lower level first )
self.rssMachine.orderPolicyResults(singlePolicyRes)
# policyResults = self.rssMachine.orderPolicyResults( singlePolicyRes )
# Get according to the RssMachine the next state, given a candidate
candidateState = singlePolicyRes[0]["Status"]
nextState = self.rssMachine.getNextState(candidateState)
if not nextState["OK"]:
return nextState
nextState = nextState["Value"]
# If the RssMachine does not accept the candidate, return forcing message
if candidateState != nextState:
policyCombined["Status"] = nextState
policyCombined["Reason"] = "RssMachine forced status %s to %s" % (candidateState, nextState)
return S_OK(policyCombined)
# If the RssMachine accepts the candidate, just concatenate the reasons
for policyRes in singlePolicyRes:
if policyRes["Status"] == nextState:
policyCombined["Reason"] += "%s ###" % policyRes["Reason"]
policyCombined["Status"] = nextState
return S_OK(policyCombined)
class PDP:
"""
The PDP (Policy Decision Point) module is used to:
1. Decides which policies have to be applied.
2. Invokes an evaluation of the policies, and returns the result (to a PEP)
"""
def __init__(self, **clients):
'''
Constructor. Defines members that will be used later on.
'''
cc = CommandCaller()
self.clients = clients
self.pCaller = PolicyCaller(cc, **clients)
self.iGetter = InfoGetter()
self.__granularity = None
self.__name = None
self.__statusType = None
self.__status = None
self.__formerStatus = None
self.__reason = None
self.__siteType = None
self.__serviceType = None
self.__resourceType = None
self.__useNewRes = None
def setup(self,
granularity=None,
name=None,
statusType=None,
status=None,
formerStatus=None,
reason=None,
siteType=None,
serviceType=None,
resourceType=None,
useNewRes=False):
"""
PDP (Policy Decision Point) initialization
:params:
:attr:`granularity`: string - a ValidElement
:attr:`name`: string - name (e.g. of a site)
:attr:`status`: string - status
:attr:`formerStatus`: string - former status
:attr:`reason`: string - optional reason for last status change
:attr:`siteType`: string - optional site type
:attr:`serviceType`: string - optional service type
:attr:`resourceType`: string - optional resource type
"""
self.__granularity = granularity
self.__name = name
self.__statusType = statusType
self.__status = status
self.__formerStatus = formerStatus
self.__reason = reason
self.__siteType = siteType
self.__serviceType = serviceType
self.__resourceType = resourceType
self.__useNewRes = useNewRes
################################################################################
def takeDecision(self, policyIn=None, argsIn=None, knownInfo=None):
""" PDP MAIN FUNCTION
decides policies that have to be applied, based on
__granularity,
__name,
__status,
__formerStatus
__reason
If more than one policy is evaluated, results are combined.
Logic for combination: a conservative approach is followed
(i.e. if a site should be banned for at least one policy, that's what is returned)
returns:
{ 'PolicyType': a policyType (in a string),
'Action': True|False,
'Status': 'Active'|'Probing'|'Banned',
'Reason': a reason
'EndDate: datetime.datetime (in a string)}
"""
polToEval = self.iGetter.getInfoToApply(
('policy', 'policyType'),
granularity=self.__granularity,
statusType=self.__statusType,
status=self.__status,
formerStatus=self.__formerStatus,
siteType=self.__siteType,
serviceType=self.__serviceType,
resourceType=self.__resourceType,
useNewRes=self.__useNewRes)
policyType = polToEval['PolicyType'] # type: generator
if policyIn:
# Only the policy provided will be evaluated
# FIXME: Check that the policies are valid.
singlePolicyResults = policyIn.evaluate()
else:
singlePolicyResults = self._invocation(self.__granularity,
self.__name, self.__status,
policyIn, argsIn,
polToEval['Policies'])
policyCombinedResults = self._policyCombination(singlePolicyResults)
if policyCombinedResults == {}:
policyCombinedResults['Action'] = False
policyCombinedResults['Reason'] = 'No policy results'
policyCombinedResults['PolicyType'] = policyType
if policyCombinedResults.has_key('Status'):
newstatus = policyCombinedResults['Status']
if newstatus != self.__status: # Policies satisfy
newPolicyType = self.iGetter.getNewPolicyType(
self.__granularity, newstatus)
policyType = set(policyType) & set(newPolicyType)
policyCombinedResults['Action'] = True
else: # Policies does not satisfy
policyCombinedResults['Action'] = False
policyCombinedResults['PolicyType'] = policyType
return {
'SinglePolicyResults': singlePolicyResults,
'PolicyCombinedResult': policyCombinedResults
}
################################################################################
def _invocation(self, granularity, name, status, policy, args, policies):
'''
One by one, use the PolicyCaller to invoke the policies, and putting
their results in `policyResults`. When the status is `Unknown`, invokes
`self.__useOldPolicyRes`. Always returns a list, possibly empty.
'''
policyResults = []
for pol in policies:
pName = pol['Name']
pModule = pol['Module']
extraArgs = pol['args']
commandIn = pol['commandIn']
res = self.pCaller.policyInvocation(granularity=granularity,
name=name,
status=status,
policy=policy,
args=args,
pName=pName,
pModule=pModule,
extraArgs=extraArgs,
commandIn=commandIn)
# If res is empty, return immediately
if not res:
return policyResults
if not res.has_key('Status'):
print('\n\n Policy result ' + str(res) +
' does not return "Status"\n\n')
raise TypeError
# Else
if res['Status'] == 'Unknown':
res = self.__useOldPolicyRes(name=name, policyName=pName)
if res['Status'] not in ('Error', 'Unknown'):
policyResults.append(res)
else:
gLogger.warn(res)
return policyResults
################################################################################
def _policyCombination(self, pol_results):
'''
INPUT: list type
OUTPUT: dict type
* Compute a new status, and store it in variable newStatus, of type integer.
* Make a list of policies that have the worst result.
* Concatenate the Reason fields
* Take the first EndDate field that exists (FIXME: Do something more clever)
* Finally, return the result
'''
if pol_results == []:
return {}
pol_results.sort(key=Status.value_of_policy)
newStatus = -1 # First, set an always invalid status
try:
# We are in a special status, maybe forbidden transitions
_prio, access_list, gofun = Status.statesInfo[self.__status]
if access_list != set():
# Restrictions on transitions, checking if one is suitable:
for polRes in pol_results:
if Status.value_of_policy(polRes) in access_list:
newStatus = Status.value_of_policy(polRes)
break
# No status from policies suitable, applying stategy and
# returning result.
if newStatus == -1:
newStatus = gofun(access_list)
return {
'Status': Status.status_of_value(newStatus),
'Reason': 'Status forced by PDP'
}
else:
# Special Status, but no restriction on transitions
newStatus = Status.value_of_policy(pol_results[0])
except KeyError:
# We are in a "normal" status: All transitions are possible.
newStatus = Status.value_of_policy(pol_results[0])
# At this point, a new status has been chosen. newStatus is an
# integer.
worstResults = [
p for p in pol_results if Status.value_of_policy(p) == newStatus
]
# Concatenate reasons
def getReason(pol):
try:
res = pol['Reason']
except KeyError:
res = ''
return res
worstResultsReasons = [getReason(p) for p in worstResults]
def catRes(xVal, yVal):
'''
Concatenate xVal and yVal.
'''
if xVal and yVal:
return xVal + ' |###| ' + yVal
elif xVal or yVal:
if xVal:
return xVal
else:
return yVal
else:
return ''
concatenatedRes = reduce(catRes, worstResultsReasons, '')
# Handle EndDate
endDatePolicies = [p for p in worstResults if p.has_key('EndDate')]
# Building and returning result
res = {}
res['Status'] = Status.status_of_value(newStatus)
if concatenatedRes != '':
res['Reason'] = concatenatedRes
if endDatePolicies != []:
res['EndDate'] = endDatePolicies[0]['EndDate']
return res
################################################################################
def __useOldPolicyRes(self, name, policyName):
'''
Use the RSS Service to get an old policy result.
If such result is older than 2 hours, it returns {'Status':'Unknown'}
'''
res = self.clients['ResourceManagementClient'].getPolicyResult(
name=name, policyName=policyName)
if not res['OK']:
return {'Status': 'Unknown'}
res = res['Value']
if res == []:
return {'Status': 'Unknown'}
res = res[0]
oldStatus = res[5]
oldReason = res[6]
lastCheckTime = res[8]
if (lastCheckTime +
datetime.timedelta(hours=2)) < datetime.datetime.utcnow():
return {'Status': 'Unknown'}
result = {}
result['Status'] = oldStatus
result['Reason'] = oldReason
result['OLD'] = True
result['PolicyName'] = policyName
return result
################################################################################
#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF
class PDP:
"""
The PDP (Policy Decision Point) module is used to:
1. Decides which policies have to be applied.
2. Invokes an evaluation of the policies, and returns the result (to a PEP)
"""
def __init__(self, clients):
'''
Constructor. Defines members that will be used later on.
'''
self.pCaller = PolicyCaller(clients=clients)
self.iGetter = InfoGetter()
self.decissionParams = {}
self.rssMachine = RSSMachine('Unknown')
def setup(self, decissionParams=None):
standardParamsDict = {
'element': None,
'name': None,
'elementType': None,
'statusType': None,
'status': None,
'reason': None,
'tokenOwner': None,
# Last parameter allows policies to be deactivated
'active': 'Active'
}
if decissionParams is not None:
standardParamsDict.update(decissionParams)
self.decissionParams = standardParamsDict
################################################################################
def takeDecision(
self): #, policyIn = None, argsIn = None, knownInfo = None ):
""" PDP MAIN FUNCTION
decides policies that have to be applied, based on
__granularity,
__name,
__status,
__formerStatus
__reason
If more than one policy is evaluated, results are combined.
Logic for combination: a conservative approach is followed
(i.e. if a site should be banned for at least one policy, that's what is returned)
returns:
{ 'PolicyType': a policyType (in a string),
'Action': True|False,
'Status': 'Active'|'Probing'|'Banned',
'Reason': a reason
#'EndDate: datetime.datetime (in a string)}
"""
policiesThatApply = self.iGetter.getPoliciesThatApply(
self.decissionParams)
if not policiesThatApply['OK']:
return policiesThatApply
policiesThatApply = policiesThatApply['Value']
singlePolicyResults = self._runPolicies(policiesThatApply)
if not singlePolicyResults['OK']:
return singlePolicyResults
singlePolicyResults = singlePolicyResults['Value']
policyCombinedResults = self._combineSinglePolicyResults(
singlePolicyResults)
if not policyCombinedResults['OK']:
return policyCombinedResults
policyCombinedResults = policyCombinedResults['Value']
policyActionsThatApply = self.iGetter.getPolicyActionsThatApply(
self.decissionParams, singlePolicyResults, policyCombinedResults)
if not policyActionsThatApply['OK']:
return policyActionsThatApply
policyActionsThatApply = policyActionsThatApply['Value']
policyCombinedResults['PolicyAction'] = policyActionsThatApply
return S_OK({
'singlePolicyResults': singlePolicyResults,
'policyCombinedResult': policyCombinedResults,
'decissionParams': self.decissionParams
})
################################################################################
def _runPolicies(self, policies, decissionParams=None):
if decissionParams is None:
decissionParams = self.decissionParams
validStatus = RssConfiguration.getValidStatus()
if not validStatus['OK']:
return validStatus
validStatus = validStatus['Value']
policyInvocationResults = []
for policyDict in policies:
policyInvocationResult = self.pCaller.policyInvocation(
decissionParams, policyDict)
if not policyInvocationResult['OK']:
# We should never enter this line ! Just in case there are policies
# missconfigured !
_msg = 'runPolicies no OK: %s' % policyInvocationResult
gLogger.error(_msg)
return S_ERROR(_msg)
policyInvocationResult = policyInvocationResult['Value']
if not 'Status' in policyInvocationResult:
_msg = 'runPolicies (no Status): %s' % policyInvocationResult
gLogger.error(_msg)
return S_ERROR(_msg)
if not policyInvocationResult['Status'] in validStatus:
_msg = 'runPolicies ( not valid status ) %s' % policyInvocationResult[
'Status']
gLogger.error(_msg)
return S_ERROR(_msg)
if not 'Reason' in policyInvocationResult:
_msg = 'runPolicies (no Reason): %s' % policyInvocationResult
gLogger.error(_msg)
return S_ERROR(_msg)
policyInvocationResults.append(policyInvocationResult)
return S_OK(policyInvocationResults)
################################################################################
def _combineSinglePolicyResults(self, singlePolicyRes):
'''
singlePolicyRes = [ { 'State' : X, 'Reason' : Y, ... }, ... ]
If there are no policyResults, returns Unknown as there are no policies to
apply.
Order elements in list by state, being the lowest the most restrictive
one in the hierarchy.
'''
# Dictionary to be returned
policyCombined = {'Status': None, 'Reason': ''}
# If there are no policyResults, we return Unknown
if not singlePolicyRes:
_msgTuple = (self.decissionParams['element'],
self.decissionParams['name'],
self.decissionParams['elementType'])
policyCombined['Status'] = 'Unknown'
policyCombined[
'Reason'] = 'No policy applies to %s, %s, %s' % _msgTuple
return S_OK(policyCombined)
# We set the rssMachine on the current state
machineStatus = self.rssMachine.setState(
self.decissionParams['status'])
if not machineStatus['OK']:
return machineStatus
# Order statuses by most restrictive ( lower level first )
self.rssMachine.orderPolicyResults(singlePolicyRes)
#policyResults = self.rssMachine.orderPolicyResults( singlePolicyRes )
# Get according to the RssMachine the next state, given a candidate
candidateState = singlePolicyRes[0]['Status']
nextState = self.rssMachine.getNextState(candidateState)
if not nextState['OK']:
return nextState
nextState = nextState['Value']
# If the RssMachine does not accept the candidate, return forcing message
if candidateState != nextState:
policyCombined['Status'] = nextState
policyCombined['Reason'] = 'RssMachine forced status %s to %s' % (
candidateState, nextState)
return S_OK(policyCombined)
# If the RssMachine accepts the candidate, just concatenate the reasons
for policyRes in singlePolicyRes:
if policyRes['Status'] == nextState:
policyCombined['Reason'] += '%s ###' % policyRes['Reason']
policyCombined['Status'] = nextState
return S_OK(policyCombined)
################################################################################
# def __useOldPolicyRes( self, name, policyName ):
# '''
# Use the RSS Service to get an old policy result.
# If such result is older than 2 hours, it returns {'Status':'Unknown'}
# '''
# res = self.clients[ 'ResourceManagementClient' ].getPolicyResult( name = name, policyName = policyName )
#
# if not res[ 'OK' ]:
# return { 'Status' : 'Unknown' }
#
# res = res[ 'Value' ]
#
# if res == []:
# return { 'Status' : 'Unknown' }
#
# res = res[ 0 ]
#
# oldStatus = res[ 5 ]
# oldReason = res[ 6 ]
# lastCheckTime = res[ 8 ]
#
# if ( lastCheckTime + datetime.timedelta(hours = 2) ) < datetime.datetime.utcnow():
# return { 'Status' : 'Unknown' }
#
# result = {}
#
# result[ 'Status' ] = oldStatus
# result[ 'Reason' ] = oldReason
# result[ 'OLD' ] = True
# result[ 'PolicyName' ] = policyName
#
# return result
################################################################################
#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF#EOF
