Exemple #1
0
 def cache_results(self, results):
     """
     Create invalidation signals for these results in the form of CacheBotSignals.
     A CacheBotSignal stores a model and it's accessor path to self.queryset.model.
     """
     # cache the results   
     
     invalidation_dict = {}
     
     if results:
         added_to_cache = cache.add(self.result_key, results, CACHE_SECONDS)
     else:
         added_to_cache = cache.add(self.result_key, None, CACHE_SECONDS)
     
     if added_to_cache:
         
         invalidation_dict.update(dict([(key,None) for key in self.get_invalidation_keys(results)]))
         invalidation_dict.update(cache.get_many(invalidation_dict.keys()))
 
         for child, negate in self.queryset._get_where_clause(self.queryset.query.where):     
             (table_alias, field_name, db_type), lookup_type, value_annotation, params = child
             for model_class, accessor_path in self._get_join_paths(table_alias, field_name):
                 if model_class is None:
                     continue
                 if self._is_valid_flush_path(accessor_path):  
                     cache_signals.register(model_class, accessor_path, lookup_type, negate=negate)
                     invalidation_key = get_invalidation_key(
                         model_class._meta.db_table, 
                         accessor_path = accessor_path, 
                         lookup_type = lookup_type, 
                         negate = negate, 
                         value = params, save=True)
                     invalidation_dict[invalidation_key] = None
         
                 join_to_tables = ifilter(lambda x: x[0] == model_class._meta.db_table, self.queryset.query.join_map.keys())
                 for join_tuple in join_to_tables:
                     if self._is_valid_flush_path(accessor_path): 
                         model_class = self.queryset._get_model_class_from_table(join_tuple[1])
                         cache_signals.register(model_class, join_tuple[3], lookup_type, negate=negate)
                         invalidation_key = get_invalidation_key(
                             model_class._meta.db_table, 
                             accessor_path = join_tuple[3], 
                             lookup_type = lookup_type, 
                             negate = negate, 
                             value = params, save=True)
                         invalidation_dict[invalidation_key] = None
 
         for flush_key, flush_list in invalidation_dict.iteritems():
             # need to add and append to prevent race conditions
             cache.add(flush_key, self.result_key, CACHE_SECONDS)
             if flush_list is None or flush_key not in flush_list.split(','):
                 cache.append(flush_key, ',%s' % self.result_key)
Exemple #2
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def invalidate_cache(model_class, objects, **extra_keys):
    """
    Flushes the cache of any cached objects associated with this instance.

    Explicitly set a None value instead of just deleting so we don't have any race
    conditions where:
        Thread 1 -> Cache miss, get object from DB
        Thread 2 -> Object saved, deleted from cache
        Thread 1 -> Store (stale) object fetched from DB in cache
    Five second should be more than enough time to prevent this from happening for
    a web app.
    """
    invalidation_dict = {}
    accessor_set = cache_signals.get_global_signals(model_class)
    for obj in objects:
        for (accessor_path, lookup_type, negate) in accessor_set:
            for value in get_values(obj, accessor_path):
                invalidation_key = get_invalidation_key(
                    model_class._meta.db_table, accessor_path=accessor_path, negate=negate, value=value, save=False
                )
                invalidation_dict[invalidation_key] = None

    invalidation_dict.update(cache.get_many(invalidation_dict.keys()))

    cache_keys = set()
    for obj_key, cache_key_list in invalidation_dict.iteritems():
        if cache_key_list:
            cache_keys.update(cache_key_list.split(","))

    keys_to_invalidate = dict([(key, None) for key in chain(cache_keys, invalidation_dict.keys())])
    keys_to_invalidate.update(extra_keys)
    cache.set_many(keys_to_invalidate, 5)
    cache.delete_many(keys_to_invalidate.keys())
 def _register_signal(self, model_class, accessor_path, lookup_type, negate, params):
     cache_signals.register(model_class, accessor_path, lookup_type, negate=negate)
     return get_invalidation_key(
         model_class._meta.db_table, 
         accessor_path = accessor_path, 
         lookup_type = lookup_type, 
         negate = negate, 
         value = params)
Exemple #4
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 def _register_signal(self, model_class, accessor_path, lookup_type, negate, params):
     cache_signals.register(model_class, accessor_path, lookup_type, negate=negate)
     return get_invalidation_key(
         model_class._meta.db_table, 
         accessor_path = accessor_path, 
         lookup_type = lookup_type, 
         negate = negate, 
         value = params)
    def cache_results(self, results):
        """
        Create invalidation signals for these results in the form of CacheBotSignals.
        A CacheBotSignal stores a model and it's accessor path to self.queryset.model.
        """
        # cache the results     
        if not self.invalidation_only:
            cache.set(self.result_key, results, CACHE_SECONDS)
        
        invalidation_dict = {}
        
        for child, negate in self.queryset._get_where_clause(self.queryset.query.where):     
            (table_alias, field_name, db_type), lookup_type, value_annotation, params = child
            for model_class, accessor_path in self._get_join_paths(table_alias, field_name):
                if self._is_valid_flush_path(accessor_path):  
                    cache_signals.register(model_class, accessor_path, lookup_type, negate=negate)
                    invalidation_key = get_invalidation_key(
                        model_class._meta.db_table, 
                        accessor_path = accessor_path, 
                        lookup_type = lookup_type, 
                        negate = negate, 
                        value = params, save=True)
                    invalidation_dict[invalidation_key] = None
                
                join_to_tables = ifilter(lambda x: x[0] == model_class._meta.db_table, self.queryset.query.join_map.keys())
                for join_tuple in join_to_tables:
                    if self._is_valid_flush_path(accessor_path): 
                        model_class = self.queryset._get_model_class_from_table(join_tuple[1])
                        cache_signals.register(model_class, join_tuple[3], lookup_type, negate=negate)
                        invalidation_key = get_invalidation_key(
                            model_class._meta.db_table, 
                            accessor_path = join_tuple[3], 
                            lookup_type = lookup_type, 
                            negate = negate, 
                            value = params, save=True)
                        invalidation_dict[invalidation_key] = None
        invalidation_dict.update(dict([(key,None) for key in self.get_invalidation_keys(results)]))
        invalidation_dict.update(cache.get_many(invalidation_dict.keys()))

        for flush_key, flush_list in invalidation_dict.iteritems():
            if flush_list is None:
                invalidation_dict[flush_key] = set([self.result_key])
            else:
                invalidation_dict[flush_key].add(self.result_key)
        cache.set_many(invalidation_dict, CACHE_SECONDS)
Exemple #6
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def invalidate_cache(model_class, objects, **extra_keys):
    """
    Flushes the cache of any cached objects associated with this instance.

    Explicitly set a None value instead of just deleting so we don't have any race
    conditions where:
        Thread 1 -> Cache miss, get object from DB
        Thread 2 -> Object saved, deleted from cache
        Thread 1 -> Store (stale) object fetched from DB in cache
    Five second should be more than enough time to prevent this from happening for
    a web app.
    """
    invalidation_dict = {}
    accessor_set = cache_signals.get_global_signals(model_class)
    for obj in objects:
        for (accessor_path, lookup_type, negate) in accessor_set:
            if lookup_type != 'exact' or negate:
                invalidation_key = get_invalidation_key(
                    model_class._meta.db_table,
                    accessor_path=accessor_path,
                    negate=negate,
                    value='')
                invalidation_dict[invalidation_key] = None
            else:
                for value in get_values(obj, accessor_path):
                    invalidation_key = get_invalidation_key(
                        model_class._meta.db_table,
                        accessor_path=accessor_path,
                        negate=negate,
                        value=value)
                    invalidation_dict[invalidation_key] = None

    if invalidation_dict:
        invalidation_dict.update(cache.get_many(invalidation_dict.keys()))

        cache_keys = set()
        for obj_key, cache_key_list in invalidation_dict.iteritems():
            if cache_key_list:
                cache_keys.update(cache_key_list.split(','))

        if cache_keys:
            cache.set_many(dict([(key, None) for key in cache_keys]),
                           conf.CACHE_INVALIDATION_TIMEOUT)
        invalidation_dict.update(extra_keys)
        cache.delete_many(invalidation_dict.keys())
 def get_invalidation_keys(self, results):
     """
     Iterates through a list of results, and returns an invalidation key for each result. If the
     query spans multiple tables, also return invalidation keys of any related rows.
     """
     related_fields = self.queryset._related_fields
     for obj in results:
         for field, model_class in related_fields.iteritems():
             pk_name = model_class._meta.pk.attname
             cache_signals.register(model_class, pk_name, 'exact')
             for value in get_values(obj, field):
                 invalidation_key = get_invalidation_key(
                     model_class._meta.db_table, 
                     accessor_path = pk_name, 
                     value = value)
                 yield invalidation_key
Exemple #8
0
 def get_invalidation_keys(self, results):
     """
     Iterates through a list of results, and returns an invalidation key for each result. If the
     query spans multiple tables, also return invalidation keys of any related rows.
     """
     related_fields = self.queryset._related_fields
     for obj in results:
         for field, model_class in related_fields.iteritems():
             pk_name = model_class._meta.pk.attname
             cache_signals.register(model_class, pk_name, 'exact')
             for value in get_values(obj, field):
                 invalidation_key = get_invalidation_key(
                     model_class._meta.db_table, 
                     accessor_path = pk_name, 
                     value = value)
                 yield invalidation_key