############################################################################## # # Copyright (c) 2002 Nexedi SARL and Contributors. All Rights Reserved. # Jean-Paul Smets-Solanes <jp@nexedi.com> # # WARNING: This program as such is intended to be used by professional # programmers who take the whole responsability of assessing all potential # consequences resulting from its eventual inadequacies and bugs # End users who are looking for a ready-to-use solution with commercial # garantees and support are strongly adviced to contract a Free Software # Service Company # # This program is Free Software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. # ############################################################################## import random from Products.CMFActivity.ActivityTool import registerActivity from RAMDict import RAMDict from zLOG import LOG MAX_PRIORITY = 5 DISTRIBUTABLE_STATE = -1 INVOKE_ERROR_STATE = -2 VALIDATE_ERROR_STATE = -3 priority_weight = \ [1] * 64 + \ [2] * 20 + \ [3] * 10 + \ [4] * 5 + \ [5] * 1 class ActivityFlushError(Exception): """Error during active message flush""" class SQLDict(RAMDict): """ A simple OOBTree based queue. It should be compatible with transactions and provide sequentiality. Should not create conflict because use of OOBTree. """ def queueMessage(self, activity_tool, m): activity_tool.SQLDict_writeMessage(path = '/'.join(m.object_path) , method_id = m.method_id, priority = m.activity_kw.get('priority', 1), message = self.dumpMessage(m)) def dequeueMessage(self, activity_tool, processing_node): priority = random.choice(priority_weight) # Try to find a message at given priority level result = activity_tool.SQLDict_readMessage(processing_node=processing_node, priority=priority) if len(result) == 0: # If empty, take any message result = activity_tool.SQLDict_readMessage(processing_node=processing_node, priority=None) if len(result) > 0: line = result[0] path = line.path method_id = line.method_id # Make sure message can not be processed anylonger activity_tool.SQLDict_processMessage(path=path, method_id=method_id, processing_node = processing_node) get_transaction().commit() # Release locks before starting a potentially long calculation m = self.loadMessage(line.message) # Make sure object exists if not m.validate(self, activity_tool): if line.priority > MAX_PRIORITY: # This is an error activity_tool.SQLDict_assignMessage(path=path, method_id=method_id, processing_node = VALIDATE_ERROR_STATE) # Assign message back to 'error' state get_transaction().commit() # and commit else: # Lower priority activity_tool.SQLDict_setPriority(path=path, method_id=method_id, processing_node = processing_node, priority = line.priority + 1) get_transaction().commit() # Release locks before starting a potentially long calculation else: # Try to invoke activity_tool.invoke(m) # Try to invoke the message if m.is_executed: # Make sure message could be invoked activity_tool.SQLDict_delMessage(path=path, method_id=method_id, processing_node=processing_node, processing=1) # Delete it get_transaction().commit() # If successful, commit else: get_transaction().abort() # If not, abort transaction and start a new one if line.priority > MAX_PRIORITY: # This is an error activity_tool.SQLDict_assignMessage(path=path, method_id=method_id, processing_node = INVOKE_ERROR_STATE) # Assign message back to 'error' state get_transaction().commit() # and commit else: # Lower priority activity_tool.SQLDict_setPriority(path=path, method_id=method_id, processing_node = processing_node, priority = line.priority + 1) get_transaction().commit() # Release locks before starting a potentially long calculation return 0 get_transaction().commit() # Release locks before starting a potentially long calculation return 1 def hasActivity(self, activity_tool, object, method_id=None, **kw): my_object_path = '/'.join(object.getPhysicalPath()) result = activity_tool.SQLDict_hasMessage(path=my_object_path, method_id=method_id) if len(result) > 0: return result[0].message_count > 0 return 0 def flush(self, activity_tool, object_path, invoke=0, method_id=None, commit=0, **kw): """ object_path is a tuple commit allows to choose mode - if we commit, then we make sure no locks are taken for too long - if we do not commit, then we can use flush in a larger transaction commit should in general not be used NOTE: commiting is very likely nonsenses here. We should just avoid to flush as much as possible """ path = '/'.join(object_path) # LOG('Flush', 0, str((path, invoke, method_id))) if invoke: result = activity_tool.SQLDict_readMessageList(path=path, method_id=method_id,processing_node=None) if commit: get_transaction().commit() # Release locks before starting a potentially long calculation method_dict = {} # Parse each message for line in result: path = line.path method_id = line.method_id if not method_dict.has_key(method_id): # Only invoke once (it would be different for a queue) method_dict[method_id] = 1 m = self.loadMessage(line.message) # First Validate if m.validate(self, activity_tool): activity_tool.invoke(m) # Try to invoke the message if not m.is_executed: # Make sure message could be invoked if commit: get_transaction().abort() # If not, abort transaction and start a new one # The message no longer exists raise ActivityFlushError, ( 'Could not evaluate %s on %s' % (method_id , path)) else: if commit: get_transaction().abort() # If not, abort transaction and start a new one # The message no longer exists raise ActivityFlushError, ( 'The document %s does not exist' % path) # Erase all messages in a single transaction activity_tool.SQLDict_delMessage(path=path, method_id=method_id) # Delete all if commit: get_transaction().commit() # Commit flush def getMessageList(self, activity_tool, processing_node=None): message_list = [] result = activity_tool.SQLDict_readMessageList(path=None, method_id=None, processing_node=None) for line in result: m = self.loadMessage(line.message) m.processing_node = line.processing_node message_list.append(m) return message_list def distribute(self, activity_tool, node_count): processing_node = 1 result = activity_tool.SQLDict_readMessageList(path=None, method_id=None, processing_node = -1) # Only assign non assigned messages get_transaction().commit() # Release locks before starting a potentially long calculation path_dict = {} for line in result: path = line.path if not path_dict.has_key(path): # Only assign once (it would be different for a queue) path_dict[path] = 1 activity_tool.SQLDict_assignMessage(path=path, processing_node=processing_node) get_transaction().commit() # Release locks immediately to allow processing of messages processing_node = processing_node + 1 if processing_node > node_count: processing_node = 1 # Round robin registerActivity(SQLDict)