SQLQueue.py 14.1 KB
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##############################################################################
#
# 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.
#
##############################################################################

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import random
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from Products.CMFActivity.ActivityTool import registerActivity
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from RAMQueue import RAMQueue
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from DateTime import DateTime
from Queue import VALID, INVALID_ORDER, INVALID_PATH, EXCEPTION, MAX_PROCESSING_TIME, VALIDATION_ERROR_DELAY, SECONDS_IN_DAY
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from Products.CMFActivity.ActiveObject import DISTRIBUTABLE_STATE, INVOKE_ERROR_STATE, VALIDATE_ERROR_STATE
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try:
  from transaction import get as get_transaction
except ImportError:
  pass

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from zLOG import LOG

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MAX_PRIORITY = 5

priority_weight = \
  [1] * 64 + \
  [2] * 20 + \
  [3] * 10 + \
  [4] * 5 + \
  [5] * 1

class ActivityFlushError(Exception):
    """Error during active message flush"""

class SQLQueue(RAMQueue):
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  """
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    A simple OOBTree based queue. It should be compatible with transactions
    and provide sequentiality. Should not create conflict
    because use of OOBTree.
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  """

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  def prepareQueueMessage(self, activity_tool, m):
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    if m.is_registered:
      activity_tool.SQLQueue_writeMessage(path = '/'.join(m.object_path) ,
                                          method_id = m.method_id,
                                          priority = m.activity_kw.get('priority', 1),
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                                          broadcast = m.activity_kw.get('broadcast', 0),
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                                          message = self.dumpMessage(m),
                                          date = m.activity_kw.get('at_date', DateTime()))
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  def prepareDeleteMessage(self, activity_tool, m):
    # Erase all messages in a single transaction
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    #LOG("prepareDeleteMessage", 0, str(m.__dict__))
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    activity_tool.SQLQueue_delMessage(uid = m.uid)
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  def dequeueMessage(self, activity_tool, processing_node):
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    if hasattr(activity_tool,'SQLQueue_readMessageList'):
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      now_date = DateTime()
      # Next processing date in case of error
      next_processing_date = now_date + VALIDATION_ERROR_DELAY
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      priority = random.choice(priority_weight)
      # Try to find a message at given priority level
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      result = activity_tool.SQLQueue_readMessage(processing_node=processing_node, priority=priority,
                                                  to_date=now_date)
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      if len(result) == 0:
        # If empty, take any message
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        result = activity_tool.SQLQueue_readMessage(processing_node=processing_node, priority=None,to_date=now_date)
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      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.SQLQueue_processMessage(uid=line.uid)
        get_transaction().commit() # Release locks before starting a potentially long calculation
        m = self.loadMessage(line.message)
        # Make sure object exists
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        validation_state = m.validate(self, activity_tool)
        if validation_state is not VALID:
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          if validation_state in (EXCEPTION, INVALID_PATH):
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            if line.priority > MAX_PRIORITY:
              # This is an error
              activity_tool.SQLQueue_assignMessage(uid=line.uid, processing_node = VALIDATE_ERROR_STATE)
                                                                                # Assign message back to 'error' state
              #m.notifyUser(activity_tool)                                       # Notify Error
              get_transaction().commit()                                        # and commit
            else:
              # Lower priority
              activity_tool.SQLQueue_setPriority(uid=line.uid, priority = line.priority + 1)
              get_transaction().commit() # Release locks before starting a potentially long calculation
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          else:
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            # We do not lower priority for INVALID_ORDER errors but we do postpone execution
            activity_tool.SQLQueue_setPriority(uid = line.uid, date = next_processing_date,
                                                priority = line.priority)
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            get_transaction().commit() # Release locks before starting a potentially long calculation
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        else:
          # Try to invoke
          activity_tool.invoke(m) # Try to invoke the message - what happens if read conflict error restarts transaction ?
          if m.is_executed:                                          # Make sure message could be invoked
            activity_tool.SQLQueue_delMessage(uid=line.uid)  # 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.SQLQueue_assignMessage(uid=line.uid, processing_node = INVOKE_ERROR_STATE)
                                                                                # Assign message back to 'error' state
              m.notifyUser(activity_tool)                                       # Notify Error
              get_transaction().commit()                                        # and commit
            else:
              # Lower priority
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              activity_tool.SQLQueue_setPriority(uid=line.uid, date = next_processing_date,
                                                 priority = line.priority + 1)
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              get_transaction().commit() # Release locks before starting a potentially long calculation
        return 0
      get_transaction().commit() # Release locks before starting a potentially long calculation
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    return 1
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  def hasActivity(self, activity_tool, object, **kw):
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    if hasattr(activity_tool,'SQLQueue_readMessageList'):
      if object is not None:
        my_object_path = '/'.join(object.getPhysicalPath())
        result = activity_tool.SQLQueue_hasMessage(path=my_object_path, **kw)
        if len(result) > 0:
          return result[0].message_count > 0
      else:
        return 1 # Default behaviour if no object specified is to return 1 until active_process implemented
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    return 0
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  def flush(self, activity_tool, object_path, invoke=0, method_id=None, commit=0, **kw):
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    """
      object_path is a tuple
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      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
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    """
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    if hasattr(activity_tool,'SQLQueue_readMessageList'):
      #return # Do nothing here to precent overlocking
      path = '/'.join(object_path)
      # Parse each message in registered
      for m in activity_tool.getRegisteredMessageList(self):
        if object_path == m.object_path and (method_id is None or method_id == m.method_id):
          if invoke: activity_tool.invoke(m)
          activity_tool.unregisterMessage(self, m)
      # Parse each message in SQL queue
      #LOG('Flush', 0, str((path, invoke, method_id)))
      result = activity_tool.SQLQueue_readMessageList(path=path, method_id=method_id,processing_node=None)
      #LOG('Flush', 0, str(len(result)))
      method_dict = {}
      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, uid = line.uid)
          self.deleteMessage(activity_tool, m)
          if invoke:
            # First Validate
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            if m.validate(self, activity_tool) is VALID:
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              activity_tool.invoke(m) # Try to invoke the message - what happens if invoke calls flushActivity ??
              if not m.is_executed:                                                 # Make sure message could be invoked
                # The message no longer exists
                raise ActivityFlushError, (
                    'Could not evaluate %s on %s' % (method_id , path))
            else:
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              # The message no longer exists
              raise ActivityFlushError, (
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                  'The document %s does not exist' % path)
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  # def start(self, activity_tool, active_process=None):
  #   uid_list = activity_tool.SQLQueue_readUidList(path=path, active_process=active_process)
  #   activity_tool.SQLQueue_assignMessage(uid = uid_list, processing_node = DISTRIBUTABLE_STATE)
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  # def stop(self, activity_tool, active_process=None):
  #   uid_list = activity_tool.SQLQueue_readUidList(path=path, active_process=active_process)
  #   activity_tool.SQLQueue_assignMessage(uid = uid_list, processing_node = STOP_STATE)
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  def getMessageList(self, activity_tool, processing_node=None):
    message_list = []
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    if hasattr(activity_tool,'SQLQueue_readMessageList'):
      result = activity_tool.SQLQueue_readMessageList(path=None, method_id=None, processing_node=None)
      for line in result:
        m = self.loadMessage(line.message)
        m.processing_node = line.processing_node
        m.priority = line.priority
        message_list.append(m)
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    return message_list

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  def distribute(self, activity_tool, node_count):
    processing_node = 1
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    if hasattr(activity_tool,'SQLQueue_readMessageList'):
      result = activity_tool.SQLQueue_readMessageList(path=None, method_id=None, processing_node = -1) # Only assign non assigned messages
      #LOG('distribute count',0,str(len(result)) )
      #LOG('distribute count',0,str(map(lambda x:x.uid, result)))
      #get_transaction().commit() # Release locks before starting a potentially long calculation
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      result = list(result)[0:100]
      for line in result:
        broadcast = line.broadcast
        uid = line.uid
        if broadcast:
          # Broadcast messages must be distributed into all nodes.
          activity_tool.SQLQueue_assignMessage(processing_node=1, uid=uid)
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          if node_count > 1:
            for node in range(2, node_count+1):
              activity_tool.SQLQueue_writeMessage( path = line.path,
                                                  method_id = line.method_id,
                                                  priority = line.priority,
                                                  broadcast = 1,
                                                  processing_node = node,
                                                  message = line.message,
                                                  date = line.date)
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        else:
          #LOG("distribute", 0, "assign %s" % uid)
          activity_tool.SQLQueue_assignMessage(uid=uid, 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
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  # Validation private methods
  def _validate_after_method_id(self, activity_tool, message, value):
    # Count number of occurances of method_id
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    #get_transaction().commit()
    if type(value) == type(''):
      value = [value]
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    result = activity_tool.SQLQueue_validateMessageList(method_id=value, message_uid=None, path=None)
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    #LOG('SQLQueue._validate_after_method_id, method_id',0,value)
    #LOG('SQLQueue._validate_after_method_id, result[0].uid_count',0,result[0].uid_count)
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    if result[0].uid_count > 0:
      return INVALID_ORDER
    return VALID
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  def _validate_after_path(self, activity_tool, message, value):
    # Count number of occurances of path
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    if type(value) == type(''):
      value = [value]
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    result = activity_tool.SQLQueue_validateMessageList(method_id=None, message_uid=None, path=value)
    if result[0].uid_count > 0:
      return INVALID_ORDER
    return VALID
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  def _validate_after_message_uid(self, activity_tool, message, value):
    # Count number of occurances of message_uid
    result = activity_tool.SQLQueue_validateMessageList(method_id=None, message_uid=value, path=None)
    if result[0].uid_count > 0:
      return INVALID_ORDER
    return VALID

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  def _validate_after_path_and_method_id(self, activity_tool, message, value):
    # Count number of occurances of method_id and path
    if (type(value) != type( (0,) ) and type(value) != type ([])) or len(value)<2:
      LOG('CMFActivity WARNING :', 0, 'unable to recognize value for after_path_and_method : %s' % repr(value))
      return VALID
    path = value[0]
    method = value[1]
    if type(path) == type(''):
      path = [path]
    if type(method) == type(''):
      method = [method]
    result = activity_tool.SQLQueue_validateMessageList(method_id=method, message_uid=None, path=path)
    if result[0].uid_count > 0:
      return INVALID_ORDER
    return VALID
  
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  # Required for tests (time shift)
  def timeShift(self, activity_tool, delay):
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    """
      To simulate timeShift, we simply substract delay from
      all dates in SQLDict message table
    """
    activity_tool.SQLQueue_timeShift(delay = delay * SECONDS_IN_DAY)

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registerActivity(SQLQueue)