Ejemplo n.º 1
0
    def _do_exit(cls, state, decorator_args, exception):
        independent = decorator_args.get("independent", False)

        try:
            if state.transaction_started:
                if exception:
                    _GetConnection().rollback()
                else:
                    if not _GetConnection().commit():
                        raise TransactionFailedError()
        finally:
            if state.transaction_started:
                _PopConnection()

                # Clear the context cache at the end of a transaction
                if exception:
                    caching.get_context().stack.pop(discard=True)
                else:
                    caching.get_context().stack.pop(apply_staged=True,
                                                    clear_staged=True)

            # If we were in an independent transaction, put everything back
            # the way it was!
            if independent:
                while state.conn_stack:
                    _PushConnection(state.conn_stack.pop())

                # Restore the in-context cache as it was
                caching.get_context().stack = state.original_stack
Ejemplo n.º 2
0
 def storeEntry(self, e, key):
     if not self._checkKey(key, export=False):
         raise errors.Forbidden()
     entry = pickle.loads(e)
     for k in list(entry.keys())[:]:
         if isinstance(entry[k], str):
             entry[k] = entry[k].decode("UTF-8")
     if "key" in entry.keys():
         key = db.Key(encoded=entry["key"])
     elif "id" in entry.keys():
         key = db.Key(encoded=entry["id"])
     else:
         raise AttributeError()
     logging.error(key.kind())
     logging.error(key.id())
     logging.error(key.name())
     dbEntry = db.Entity(kind=key.kind(),
                         parent=key.parent(),
                         id=key.id(),
                         _app=key.app(),
                         name=key.name())  #maybe some more fixes here ?
     for k in entry.keys():
         if k != "key":
             val = entry[k]
             #if isinstance(val, dict) or isinstance(val, list):
             #	val = pickle.dumps( val )
             dbEntry[k] = val
     if dbEntry.key().id():
         # Ensure the Datastore knows that it's id is in use
         datastore._GetConnection()._reserve_keys([dbEntry.key()])
     db.Put(dbEntry)
Ejemplo n.º 3
0
    def __exit__(self, *args, **kwargs):
        if len(args) > 1 and isinstance(args[1], Exception):
            _GetConnection().rollback()  #If an exception happens, rollback
        else:
            _GetConnection().commit()  #Otherwise commit

        self._finalize()
Ejemplo n.º 4
0
    def _do_enter(self):
        if IsInTransaction():
            if self.independent:
                self.conn_stack.append(_PopConnection())
                try:
                    return self._do_enter()
                except:
                    _PushConnection(self.conn_stack.pop())
                    raise
            else:
                # App Engine doesn't support nested transactions, so if there is a nested
                # atomic() call we just don't do anything. This is how RunInTransaction does it
                return
        elif self.mandatory:
            raise TransactionFailedError(
                "You've specified that an outer transaction is mandatory, but one doesn't exist"
            )

        options = CreateTransactionOptions(
            xg=self.xg,
            propagation=TransactionOptions.INDEPENDENT
            if self.independent else None)

        conn = _GetConnection()

        self.transaction_started = True
        new_conn = conn.new_transaction(options)

        _PushConnection(None)
        _SetConnection(new_conn)

        assert (_GetConnection())

        # Clear the context cache at the start of a transaction
        caching._context.stack.push()
Ejemplo n.º 5
0
    def _do_exit(cls, state, decorator_args, exception):
        independent = decorator_args.get("independent", False)

        try:
            if state.transaction_started:
                if exception:
                    _GetConnection().rollback()
                else:
                    if not _GetConnection().commit():
                        raise TransactionFailedError()
        finally:
            if state.transaction_started:
                _PopConnection()

                 # Clear the context cache at the end of a transaction
                if exception:
                    caching.get_context().stack.pop(discard=True)
                else:
                    caching.get_context().stack.pop(apply_staged=True, clear_staged=True)

            # If we were in an independent transaction, put everything back
            # the way it was!
            if independent:
                while state.conn_stack:
                    _PushConnection(state.conn_stack.pop())

                # Restore the in-context cache as it was
                caching.get_context().stack = state.original_stack
Ejemplo n.º 6
0
    def _do_enter(self):
        if IsInTransaction():
            if self.independent:
                self.conn_stack.append(_PopConnection())
                try:
                    return self._do_enter()
                except:
                    _PushConnection(self.conn_stack.pop())
                    raise
            else:
                # App Engine doesn't support nested transactions, so if there is a nested
                # atomic() call we just don't do anything. This is how RunInTransaction does it
                return
        elif self.mandatory:
            raise TransactionFailedError("You've specified that an outer transaction is mandatory, but one doesn't exist")

        options = CreateTransactionOptions(
            xg=self.xg,
            propagation=TransactionOptions.INDEPENDENT if self.independent else None
        )

        conn = _GetConnection()

        self.transaction_started = True
        new_conn = conn.new_transaction(options)

        _PushConnection(None)
        _SetConnection(new_conn)

        assert(_GetConnection())

        # Clear the context cache at the start of a transaction
        caching._context.stack.push()
Ejemplo n.º 7
0
    def storeEntry2(self, e, key):
        if not self._checkKey(key, export=False):
            raise errors.Forbidden()
        entry = pickle.loads(e.decode("HEX"))
        if not "key" in entry and "id" in entry:
            entry["key"] = entry["id"]
        for k in list(entry.keys())[:]:
            if isinstance(entry[k], str):
                entry[k] = entry[k].decode("UTF-8")
        key = db.Key(encoded=utils.normalizeKey(entry["key"]))

        logging.info(key.kind())
        logging.info(key.id())
        logging.info(key.name())
        dbEntry = db.Entity(kind=key.kind(),
                            parent=key.parent(),
                            id=key.id(),
                            name=key.name())  #maybe some more fixes here ?
        for k in entry.keys():
            if k != "key":
                val = entry[k]
                dbEntry[k] = val
        db.Put(dbEntry)
        if dbEntry.key().id():
            # Ensure the Datastore knows that it's id is in use
            datastore._GetConnection()._reserve_keys([dbEntry.key()])
        try:
            skel = skeletonByKind(key.kind())()
        except:
            logging.error("Unknown Skeleton - skipping")
        skel.fromDB(str(dbEntry.key()))
        skel.refresh()
        skel.toDB(clearUpdateTag=True)
Ejemplo n.º 8
0
    def _do_exit(self, exception):
        if not self.transaction_started:
            # If we didn't start a transaction, then don't roll back or anything
            return

        try:
            if exception:
                _GetConnection().rollback()
            else:
                if not _GetConnection().commit():
                    raise TransactionFailedError()
        finally:
            _PopConnection()

            if self.independent:
                while self.conn_stack:
                    _PushConnection(self.conn_stack.pop())

                 # Clear the context cache at the end of a transaction
                if exception:
                    caching._context.stack.pop(discard=True)
                else:
                    caching._context.stack.pop(apply_staged=False, clear_staged=False)
            else:
                if exception:
                    caching._context.stack.pop(discard=True)
                else:
                    caching._context.stack.pop(apply_staged=True, clear_staged=True)
Ejemplo n.º 9
0
    def _do_exit(self, exception):
        if not self.transaction_started:
            # If we didn't start a transaction, then don't roll back or anything
            return

        try:
            if exception:
                _GetConnection().rollback()
            else:
                if not _GetConnection().commit():
                    raise TransactionFailedError()
        finally:
            _PopConnection()

            if self.independent:
                while self.conn_stack:
                    _PushConnection(self.conn_stack.pop())

             # Clear the context cache at the end of a transaction
            if exception:
                caching._context.stack.pop(discard=True)
            else:
                caching._context.stack.pop(apply_staged=True, clear_staged=True)

            # Reset this; in case this method is called again
            self.transaction_started = False
Ejemplo n.º 10
0
    def __exit__(self, *args, **kwargs):
        if len(args) > 1 and isinstance(args[1], Exception):
            _GetConnection().rollback() #If an exception happens, rollback
        else:
            _GetConnection().commit() #Otherwise commit

        self._finalize()
Ejemplo n.º 11
0
    def _enter(self):
        if IsInTransaction():
            self._previous_connection = _GetConnection()
            assert(isinstance(self._previous_connection, TransactionalConnection))

            _PopConnection()

        self._connection = _GetConnection().new_transaction(self._options)
        _PushConnection(self._connection)
Ejemplo n.º 12
0
    def _enter(self):
        if IsInTransaction():
            self._previous_connection = _GetConnection()
            assert(isinstance(self._previous_connection, TransactionalConnection))

            _PopConnection()

        self._connection = _GetConnection().new_transaction(self._options)
        _PushConnection(self._connection)
Ejemplo n.º 13
0
 def call_func(*_args, **_kwargs):
     try:
         self._begin()
         result = self.func(*_args, **_kwargs)
         _GetConnection().commit()
         return result
     except:
         conn = _GetConnection()
         if conn:
             conn.rollback()
         raise
     finally:
         self._finalize()
Ejemplo n.º 14
0
 def call_func(*_args, **_kwargs):
     try:
         self._begin()
         result = self.func(*_args, **_kwargs)
         _GetConnection().commit()
         return result
     except:
         conn = _GetConnection()
         if conn:
             conn.rollback()
         raise
     finally:
         self._finalize()
Ejemplo n.º 15
0
 def _enter_transaction_management(self, managed):
     logger.info('Entering Transaction')
     self.managed(managed)
     self.old_connection = _GetConnection()
     # TODO: optionally pass a config
     self.connection = self.old_connection.new_transaction()
     _SetConnection(self.connection)
Ejemplo n.º 16
0
  def transaction(self, callback, **ctx_options):
    # Will invoke callback() one or more times with the default
    # context set to a new, transactional Context.  Returns a Future.
    # Callback may be a tasklet.
    options = _make_ctx_options(ctx_options)
    app = ContextOptions.app(options) or key_module._DefaultAppId()
    # Note: zero retries means try it once.
    retries = ContextOptions.retries(options)
    if retries is None:
      retries = 3
    yield self.flush()
    for _ in xrange(1 + max(0, retries)):
      transaction = yield self._conn.async_begin_transaction(options, app)
      tconn = datastore_rpc.TransactionalConnection(
        adapter=self._conn.adapter,
        config=self._conn.config,
        transaction=transaction)
      old_ds_conn = datastore._GetConnection()
      tctx = self.__class__(conn=tconn,
                            auto_batcher_class=self._auto_batcher_class)
      try:
        # Copy memcache policies.  Note that get() will never use
        # memcache in a transaction, but put and delete should do their
        # memcache thing (which is to mark the key as deleted for
        # _LOCK_TIME seconds).  Also note that the in-process cache and
        # datastore policies keep their default (on) state.
        tctx.set_memcache_policy(self.get_memcache_policy())
        tctx.set_memcache_timeout_policy(self.get_memcache_timeout_policy())
        tasklets.set_context(tctx)
        datastore._SetConnection(tconn)  # For taskqueue coordination
        try:
          try:
            result = callback()
            if isinstance(result, tasklets.Future):
              result = yield result
          finally:
            yield tctx.flush()
        except GeneratorExit:
          raise
        except Exception:
          t, e, tb = sys.exc_info()
          yield tconn.async_rollback(options)  # TODO: Don't block???
          if issubclass(t, datastore_errors.Rollback):
            # TODO: Raise value using tasklets.get_return_value(t)?
            return
          else:
            raise t, e, tb
        else:
          ok = yield tconn.async_commit(options)
          if ok:
            # TODO: This is questionable when self is transactional.
            self._cache.update(tctx._cache)
            yield self._clear_memcache(tctx._cache)
            raise tasklets.Return(result)
      finally:
        datastore._SetConnection(old_ds_conn)

    # Out of retries
    raise datastore_errors.TransactionFailedError(
      'The transaction could not be committed. Please try again.')
Ejemplo n.º 17
0
    def Render(cls, handler):
        """Rendering method that can be called by main.py.

    Args:
      handler: the webapp.RequestHandler invoking the method
    """
        namespace = handler.request.get("namespace")
        kinds = handler.request.get_all("kind")
        sizes_known, size_total, remainder = utils.ParseKindsAndSizes(kinds)

        (namespace_str, kind_str) = utils.GetPrintableStrs(namespace, kinds)
        notreadonly_warning = capabilities.CapabilitySet("datastore_v3", capabilities=["write"]).is_enabled()
        blob_warning = bool(blobstore.BlobInfo.all().fetch(1))
        datastore_type = datastore._GetConnection().get_datastore_type()
        high_replication_warning = datastore_type == datastore_rpc.Connection.HIGH_REPLICATION_DATASTORE

        template_params = {
            "form_target": DoCopyHandler.SUFFIX,
            "kind_list": kinds,
            "remainder": remainder,
            "sizes_known": sizes_known,
            "size_total": size_total,
            "app_id": handler.request.get("app_id"),
            "datastore_admin_home": utils.GenerateHomeUrl(handler.request),
            "kind_str": kind_str,
            "namespace_str": namespace_str,
            "xsrf_token": utils.CreateXsrfToken(XSRF_ACTION),
            "notreadonly_warning": notreadonly_warning,
            "blob_warning": blob_warning,
            "high_replication_warning": high_replication_warning,
        }
        utils.RenderToResponse(handler, "confirm_copy.html", template_params)
Ejemplo n.º 18
0
 def _enter_transaction_management(self, managed):
     logger.info('Entering Transaction')
     self.managed(managed)
     self.old_connection = _GetConnection()
     # TODO: optionally pass a config 
     self.connection = self.old_connection.new_transaction()
     _SetConnection(self.connection)
    def Render(cls, handler):
        """Rendering method that can be called by main.py.

    Args:
      handler: the webapp.RequestHandler invoking the method
    """
        namespace = handler.request.get('namespace')
        kinds = handler.request.get('kind', allow_multiple=True)
        sizes_known, size_total, remainder = utils.ParseKindsAndSizes(kinds)

        (namespace_str, kind_str) = utils.GetPrintableStrs(namespace, kinds)
        notreadonly_warning = capabilities.CapabilitySet(
            'datastore_v3', capabilities=['write']).is_enabled()
        blob_warning = bool(blobstore.BlobInfo.all().fetch(1))
        datastore_type = datastore._GetConnection().get_datastore_type()
        high_replication_warning = (datastore_type == datastore_rpc.Connection.
                                    HIGH_REPLICATION_DATASTORE)

        template_params = {
            'form_target': DoCopyHandler.SUFFIX,
            'kind_list': kinds,
            'remainder': remainder,
            'sizes_known': sizes_known,
            'size_total': size_total,
            'app_id': handler.request.get('app_id'),
            'cancel_url': handler.request.get('cancel_url'),
            'kind_str': kind_str,
            'namespace_str': namespace_str,
            'xsrf_token': utils.CreateXsrfToken(XSRF_ACTION),
            'notreadonly_warning': notreadonly_warning,
            'blob_warning': blob_warning,
            'high_replication_warning': high_replication_warning,
        }
        utils.RenderToResponse(handler, 'confirm_copy.html', template_params)
Ejemplo n.º 20
0
  def Render(cls, handler):
    """Rendering method that can be called by main.py.

    Args:
      handler: the webapp.RequestHandler invoking the method
    """
    namespace = handler.request.get('namespace')
    kinds = handler.request.get_all('kind')
    sizes_known, size_total, remainder = utils.ParseKindsAndSizes(kinds)

    (namespace_str, kind_str) = utils.GetPrintableStrs(namespace, kinds)
    notreadonly_warning = capabilities.CapabilitySet(
        'datastore_v3', capabilities=['write']).is_enabled()
    blob_warning = bool(blobstore.BlobInfo.all().fetch(1))
    datastore_type = datastore._GetConnection().get_datastore_type()
    high_replication_warning = (
        datastore_type == datastore_rpc.Connection.HIGH_REPLICATION_DATASTORE)

    template_params = {
        'form_target': DoCopyHandler.SUFFIX,
        'kind_list': kinds,
        'remainder': remainder,
        'sizes_known': sizes_known,
        'size_total': size_total,
        'app_id': handler.request.get('app_id'),
        'cancel_url': handler.request.get('cancel_url'),
        'kind_str': kind_str,
        'namespace_str': namespace_str,
        'xsrf_token': utils.CreateXsrfToken(XSRF_ACTION),
        'notreadonly_warning': notreadonly_warning,
        'blob_warning': blob_warning,
        'high_replication_warning': high_replication_warning,
    }
    utils.RenderToResponse(handler, 'confirm_copy.html', template_params)
Ejemplo n.º 21
0
    def transaction(self, callback, **ctx_options):
        # Will invoke callback() one or more times with the default
        # context set to a new, transactional Context.  Returns a Future.
        # Callback may be a tasklet.
        options = _make_ctx_options(ctx_options)
        app = ContextOptions.app(options) or key_module._DefaultAppId()
        # Note: zero retries means try it once.
        retries = ContextOptions.retries(options)
        if retries is None:
            retries = 3
        yield self.flush()
        for _ in xrange(1 + max(0, retries)):
            transaction = yield self._conn.async_begin_transaction(
                options, app)
            tconn = datastore_rpc.TransactionalConnection(
                adapter=self._conn.adapter,
                config=self._conn.config,
                transaction=transaction)
            old_ds_conn = datastore._GetConnection()
            tctx = self.__class__(conn=tconn,
                                  auto_batcher_class=self._auto_batcher_class)
            try:
                # Copy memcache policies.  Note that get() will never use
                # memcache in a transaction, but put and delete should do their
                # memcache thing (which is to mark the key as deleted for
                # _LOCK_TIME seconds).  Also note that the in-process cache and
                # datastore policies keep their default (on) state.
                tctx.set_memcache_policy(self.get_memcache_policy())
                tctx.set_memcache_timeout_policy(
                    self.get_memcache_timeout_policy())
                tasklets.set_context(tctx)
                datastore._SetConnection(tconn)  # For taskqueue coordination
                try:
                    try:
                        result = callback()
                        if isinstance(result, tasklets.Future):
                            result = yield result
                    finally:
                        yield tctx.flush()
                except Exception:
                    t, e, tb = sys.exc_info()
                    yield tconn.async_rollback(options)  # TODO: Don't block???
                    if issubclass(t, datastore_errors.Rollback):
                        return
                    else:
                        raise t, e, tb
                else:
                    ok = yield tconn.async_commit(options)
                    if ok:
                        # TODO: This is questionable when self is transactional.
                        self._cache.update(tctx._cache)
                        yield self._clear_memcache(tctx._cache)
                        raise tasklets.Return(result)
            finally:
                datastore._SetConnection(old_ds_conn)

        # Out of retries
        raise datastore_errors.TransactionFailedError(
            'The transaction could not be committed. Please try again.')
Ejemplo n.º 22
0
def _transaction_object():
    """Return the transaction this entity is currently under, or None."""
    try:
        return getattr(datastore._GetConnection(), 'transaction', None)
    except Exception as e:
        # Probably means the internal _GetConnection() function went away.
        logging.error("datastore._GetConnection() isn't working!: %s" % e)
        return None
Ejemplo n.º 23
0
def _transaction_object():
    """Return the transaction this entity is currently under, or None."""
    try:
        return getattr(datastore._GetConnection(), 'transaction', None)
    except Exception as e:
        # Probably means the internal _GetConnection() function went away.
        logging.error("datastore._GetConnection() isn't working!: %s" % e)
        return None
Ejemplo n.º 24
0
    def _do_enter(cls, state, decorator_args):
        mandatory = decorator_args.get("mandatory", False)
        independent = decorator_args.get("independent", False)
        xg = decorator_args.get("xg", False)

        # Reset the state
        state.conn_stack = []
        state.transaction_started = False
        state.original_stack = None

        if independent:
            # Unwind the connection stack and store it on the state so that
            # we can replace it on exit
            while in_atomic_block():
                state.conn_stack.append(_PopConnection())
            state.original_stack = copy.deepcopy(caching.get_context().stack)

        elif in_atomic_block():
            # App Engine doesn't support nested transactions, so if there is a nested
            # atomic() call we just don't do anything. This is how RunInTransaction does it
            return
        elif mandatory:
            raise TransactionFailedError(
                "You've specified that an outer transaction is mandatory, but one doesn't exist"
            )

        options = CreateTransactionOptions(
            xg=xg,
            propagation=TransactionOptions.INDEPENDENT
            if independent else None)

        conn = _GetConnection()
        new_conn = conn.new_transaction(options)
        _PushConnection(new_conn)

        assert (_GetConnection())

        # Clear the context cache at the start of a transaction
        caching.ensure_context()
        caching.get_context().stack.push()
        state.transaction_started = True
Ejemplo n.º 25
0
    def _do_enter(cls, state, decorator_args):
        mandatory = decorator_args.get("mandatory", False)
        independent = decorator_args.get("independent", False)
        xg = decorator_args.get("xg", False)

        # Reset the state
        state.conn_stack = []
        state.transaction_started = False
        state.original_stack = None

        if independent:
            # Unwind the connection stack and store it on the state so that
            # we can replace it on exit
            while in_atomic_block():
                state.conn_stack.append(_PopConnection())
            state.original_stack = copy.deepcopy(caching.get_context().stack)

        elif in_atomic_block():
            # App Engine doesn't support nested transactions, so if there is a nested
            # atomic() call we just don't do anything. This is how RunInTransaction does it
            return
        elif mandatory:
            raise TransactionFailedError("You've specified that an outer transaction is mandatory, but one doesn't exist")

        options = CreateTransactionOptions(
            xg=xg,
            propagation=TransactionOptions.INDEPENDENT if independent else None
        )

        conn = _GetConnection()
        new_conn = conn.new_transaction(options)
        _PushConnection(new_conn)

        assert(_GetConnection())

        # Clear the context cache at the start of a transaction
        caching.ensure_context()
        caching.get_context().stack.push()
        state.transaction_started = True
Ejemplo n.º 26
0
 def transaction(self, callback, retry=3, entity_group=None, **ctx_options):
     # Will invoke callback() one or more times with the default
     # context set to a new, transactional Context.  Returns a Future.
     # Callback may be a tasklet.
     options = _make_ctx_options(ctx_options)
     if entity_group is not None:
         app = entity_group.app()
     else:
         app = key_module._DefaultAppId()
     yield self.flush()
     for i in range(1 + max(0, retry)):
         transaction = yield self._conn.async_begin_transaction(
             options, app)
         tconn = datastore_rpc.TransactionalConnection(
             adapter=self._conn.adapter,
             config=self._conn.config,
             transaction=transaction,
             entity_group=entity_group)
         tctx = self.__class__(conn=tconn,
                               auto_batcher_class=self._auto_batcher_class)
         tctx.set_memcache_policy(False)
         tasklets.set_context(tctx)
         old_ds_conn = datastore._GetConnection()
         try:
             datastore._SetConnection(tconn)  # For taskqueue coordination
             try:
                 try:
                     result = callback()
                     if isinstance(result, tasklets.Future):
                         result = yield result
                 finally:
                     yield tctx.flush()
             except Exception, err:
                 t, e, tb = sys.exc_info()
                 yield tconn.async_rollback(options)  # TODO: Don't block???
                 if issubclass(t, datastore_errors.Rollback):
                     return
                 else:
                     raise t, e, tb
             else:
                 ok = yield tconn.async_commit(options)
                 if ok:
                     # TODO: This is questionable when self is transactional.
                     self._cache.update(tctx._cache)
                     self._clear_memcache(tctx._cache)
                     raise tasklets.Return(result)
Ejemplo n.º 27
0
 def transaction(self, callback, retry=3, entity_group=None, **ctx_options):
   # Will invoke callback() one or more times with the default
   # context set to a new, transactional Context.  Returns a Future.
   # Callback may be a tasklet.
   options = _make_ctx_options(ctx_options)
   if entity_group is not None:
     app = entity_group.app()
   else:
     app = key_module._DefaultAppId()
   yield self.flush()
   for i in range(1 + max(0, retry)):
     transaction = yield self._conn.async_begin_transaction(options, app)
     tconn = datastore_rpc.TransactionalConnection(
       adapter=self._conn.adapter,
       config=self._conn.config,
       transaction=transaction,
       entity_group=entity_group)
     tctx = self.__class__(conn=tconn,
                           auto_batcher_class=self._auto_batcher_class)
     tctx.set_memcache_policy(False)
     tasklets.set_context(tctx)
     old_ds_conn = datastore._GetConnection()
     try:
       datastore._SetConnection(tconn)  # For taskqueue coordination
       try:
         try:
           result = callback()
           if isinstance(result, tasklets.Future):
             result = yield result
         finally:
           yield tctx.flush()
       except Exception, err:
         t, e, tb = sys.exc_info()
         yield tconn.async_rollback(options)  # TODO: Don't block???
         if issubclass(t, datastore_errors.Rollback):
           return
         else:
           raise t, e, tb
       else:
         ok = yield tconn.async_commit(options)
         if ok:
           # TODO: This is questionable when self is transactional.
           self._cache.update(tctx._cache)
           self._clear_memcache(tctx._cache)
           raise tasklets.Return(result)
Ejemplo n.º 28
0
    def _begin(self):
        options = CreateTransactionOptions(
            xg=True if self.xg else False,
            propagation=TransactionOptions.INDEPENDENT
            if self.independent else None)

        if IsInTransaction() and not self.independent:
            raise RuntimeError("Nested transactions are not supported")
        elif self.independent:
            #If we're running an independent transaction, pop the current one
            self.parent_conn = _PopConnection()

        #Push a new connection, start a new transaction
        conn = _GetConnection()
        _PushConnection(None)
        _SetConnection(conn.new_transaction(options))

        #Clear the context cache at the start of a transaction
        caching.clear_context_cache()
Ejemplo n.º 29
0
    def tasklet_wrapper(*args, **kwds):

        __ndb_debug__ = utils.func_info(func)
        fut = Future('tasklet %s' % utils.func_info(func))
        fut._context = get_context()
        try:
            result = func(*args, **kwds)
        except (StopIteration, Return) as err:

            result = get_return_value(err)
        if _is_generator(result):
            ns = namespace_manager.get_namespace()
            ds_conn = datastore._GetConnection()
            _state.add_generator(result)
            eventloop.queue_call(None, fut._help_tasklet_along, ns, ds_conn,
                                 result)
        else:
            fut.set_result(result)
        return fut
Ejemplo n.º 30
0
    def _begin(self):
        options = CreateTransactionOptions(
            xg = True if self.xg else False,
            propagation = TransactionOptions.INDEPENDENT if self.independent else None
        )

        if IsInTransaction() and not self.independent:
            raise RuntimeError("Nested transactions are not supported")
        elif self.independent:
            #If we're running an independent transaction, pop the current one
            self.parent_conn = _PopConnection()

        #Push a new connection, start a new transaction
        conn = _GetConnection()
        _PushConnection(None)
        _SetConnection(conn.new_transaction(options))

        #Clear the context cache at the start of a transaction
        caching.clear_context_cache()
def get(keys):
    """Get LazyEntities for each datastore object corresponding to the keys in keys. keys must be
    a list of db.Key objects. Deserializing datastore objects with many properties is very slow
    (~10 ms for an entity with 170 properties). google.appengine.api.datastore.GetAsync avoids
    some of the deserialization, but not all of it. This monkey-patches a private undocumented API
    to avoid nearly all of it.

    How Datastore deserialization normally works:
    * The datastore returns a blob of bytes.
    * The datastore result is parsed into a protocol buffer object: entity_pb.EntityProto. This
      probably happens in native C/C++ code in the App Engine standard environment; see comments:
      https://github.com/GoogleCloudPlatform/gcloud-python/issues/298
    * the entity_pb.EntityProto is converted into a datastore.Entity.
    * The datastore.Entity is converted into the appropriate db.Model subclass.

    This bypasses a lot of parsing by returning the EntityProto wrapped in a LazyEntity. Its likely
    to be quite a bit faster in many cases.

    If this breaks, it probably means the internal API has changed."""

    # db.get calls db.get_async calls datastore.GetAsync
    # datastore.GetAsync then calls _GetConnection(), then Connection.async_get
    # _GetConnection returns a thread-local so it should be safe to hack it in this way
    # datastore_rpc.BaseConnection uses self.__adapter.pb_to_entity to convert the entity
    # protocol buffer into an Entity: skip that step and return a LazyEntity instead
    connection = datastore._GetConnection()
    if connection._api_version != datastore_rpc._DATASTORE_V3:
        raise Exception("Unsupported API version: " + connection._api_version)
    # patch the connection because it is thread-local. Previously we patched adapter.pb_to_entity
    # which is shared. This caused exceptions in other threads under load. Oops.
    real_adapter = connection._BaseConnection__adapter
    wrapped_adapter = DatastoreLazyEntityAdapter(real_adapter)
    connection._BaseConnection__adapter = wrapped_adapter
    try:
        rpc = datastore.GetAsync(keys)
        return rpc.get_result()
    finally:
        connection._BaseConnection__adapter = real_adapter
Ejemplo n.º 32
0
    def transaction(self, callback, **ctx_options):

        options = _make_ctx_options(ctx_options, TransactionOptions)
        propagation = TransactionOptions.propagation(options)
        if propagation is None:
            propagation = TransactionOptions.NESTED

        mode = datastore_rpc.TransactionMode.READ_WRITE
        if ctx_options.get('read_only', False):
            mode = datastore_rpc.TransactionMode.READ_ONLY

        parent = self
        if propagation == TransactionOptions.NESTED:
            if self.in_transaction():
                raise datastore_errors.BadRequestError(
                    'Nested transactions are not supported.')
        elif propagation == TransactionOptions.MANDATORY:
            if not self.in_transaction():
                raise datastore_errors.BadRequestError(
                    'Requires an existing transaction.')
            result = callback()
            if isinstance(result, tasklets.Future):
                result = yield result
            raise tasklets.Return(result)
        elif propagation == TransactionOptions.ALLOWED:
            if self.in_transaction():
                result = callback()
                if isinstance(result, tasklets.Future):
                    result = yield result
                raise tasklets.Return(result)
        elif propagation == TransactionOptions.INDEPENDENT:
            while parent.in_transaction():
                parent = parent._parent_context
                if parent is None:
                    raise datastore_errors.BadRequestError(
                        'Context without non-transactional ancestor')
        else:
            raise datastore_errors.BadArgumentError(
                'Invalid propagation value (%s).' % (propagation, ))

        app = TransactionOptions.app(options) or key_module._DefaultAppId()

        retries = TransactionOptions.retries(options)
        if retries is None:
            retries = 3
        yield parent.flush()

        transaction = None
        tconn = None
        for _ in range(1 + max(0, retries)):
            previous_transaction = (transaction if mode
                                    == datastore_rpc.TransactionMode.READ_WRITE
                                    else None)
            transaction = yield (parent._conn.async_begin_transaction(
                options, app, previous_transaction, mode))
            tconn = datastore_rpc.TransactionalConnection(
                adapter=parent._conn.adapter,
                config=parent._conn.config,
                transaction=transaction,
                _api_version=parent._conn._api_version)
            tctx = parent.__class__(
                conn=tconn,
                auto_batcher_class=parent._auto_batcher_class,
                parent_context=parent)
            tctx._old_ds_conn = datastore._GetConnection()
            ok = False
            try:

                tctx.set_memcache_policy(parent.get_memcache_policy())
                tctx.set_memcache_timeout_policy(
                    parent.get_memcache_timeout_policy())
                tasklets.set_context(tctx)
                datastore._SetConnection(tconn)
                try:
                    try:
                        result = callback()
                        if isinstance(result, tasklets.Future):
                            result = yield result
                    finally:
                        yield tctx.flush()
                except GeneratorExit:
                    raise
                except Exception:
                    t, e, tb = sys.exc_info()
                    tconn.async_rollback(options)
                    if issubclass(t, datastore_errors.Rollback):

                        return
                    else:
                        six.reraise(t, e, tb)
                else:
                    ok = yield tconn.async_commit(options)
                    if ok:
                        parent._cache.update(tctx._cache)
                        yield parent._clear_memcache(tctx._cache)
                        raise tasklets.Return(result)

            finally:
                datastore._SetConnection(tctx._old_ds_conn)
                del tctx._old_ds_conn
                if ok:

                    for on_commit_callback in tctx._on_commit_queue:
                        on_commit_callback()

        tconn.async_rollback(options)
        raise datastore_errors.TransactionFailedError(
            'The transaction could not be committed. Please try again.')
Ejemplo n.º 33
0
 def _allocate():
     from google.appengine.api import datastore
     datastore._GetConnection()._reserve_keys([m.key() for m in models if m.key().id() is not None])
Ejemplo n.º 34
0
  def flush(self):

    datastore._GetConnection()._reserve_keys(self.keys)
    self.keys = []
Ejemplo n.º 35
0
 def _enter(self):
     if IsInTransaction():
         self._previous_connection = _GetConnection()
         _PopConnection()
Ejemplo n.º 36
0
    def _help_tasklet_along(self,
                            ns,
                            ds_conn,
                            gen,
                            val=None,
                            exc=None,
                            tb=None):

        info = utils.gen_info(gen)

        __ndb_debug__ = info
        try:
            save_context = get_context()
            save_namespace = namespace_manager.get_namespace()
            save_ds_connection = datastore._GetConnection()
            try:
                set_context(self._context)
                if ns != save_namespace:
                    namespace_manager.set_namespace(ns)
                if ds_conn is not save_ds_connection:
                    datastore._SetConnection(ds_conn)
                if exc is not None:
                    _logging_debug('Throwing %s(%s) into %s',
                                   exc.__class__.__name__, exc, info)
                    value = gen.throw(exc.__class__, exc, tb)
                else:
                    _logging_debug('Sending %r to %s', val, info)
                    value = gen.send(val)
                    self._context = get_context()
            finally:
                ns = namespace_manager.get_namespace()
                ds_conn = datastore._GetConnection()
                set_context(save_context)
                if save_namespace != ns:
                    namespace_manager.set_namespace(save_namespace)
                if save_ds_connection is not ds_conn:
                    datastore._SetConnection(save_ds_connection)

        except (StopIteration, Return) as err:
            result = get_return_value(err)
            _logging_debug('%s returned %r', info, result)
            self.set_result(result)
            return

        except GeneratorExit:

            raise

        except Exception as err:
            _, _, tb = sys.exc_info()
            if isinstance(err, _flow_exceptions):

                _logging_debug('%s raised %s(%s)', info,
                               err.__class__.__name__, err)
            elif utils.DEBUG and logging.getLogger().level < logging.DEBUG:

                logging.warning('%s raised %s(%s)',
                                info,
                                err.__class__.__name__,
                                err,
                                exc_info=True)
            else:

                logging.warning('%s raised %s(%s)', info,
                                err.__class__.__name__, err)
            self.set_exception(err, tb)
            return

        else:
            _logging_debug('%s yielded %r', info, value)
            if isinstance(value,
                          (apiproxy_stub_map.UserRPC, datastore_rpc.MultiRpc)):

                eventloop.queue_rpc(value, self._on_rpc_completion, value, ns,
                                    ds_conn, gen)
                return
            if isinstance(value, Future):

                if self._next:
                    raise RuntimeError(
                        'Future has already completed yet next is %r' %
                        self._next)
                self._next = value
                self._geninfo = utils.gen_info(gen)
                _logging_debug('%s is now blocked waiting for %s', self, value)
                value.add_callback(self._on_future_completion, value, ns,
                                   ds_conn, gen)
                return
            if isinstance(value, (tuple, list)):

                info = 'multi-yield from %s' % utils.gen_info(gen)
                mfut = MultiFuture(info)
                try:
                    for subfuture in value:
                        mfut.add_dependent(subfuture)
                    mfut.complete()
                except GeneratorExit:
                    raise
                except Exception as err:
                    _, _, tb = sys.exc_info()
                    mfut.set_exception(err, tb)
                mfut.add_callback(self._on_future_completion, mfut, ns,
                                  ds_conn, gen)
                return
            if _is_generator(value):

                raise NotImplementedError('Cannot defer to another generator.')
            raise RuntimeError('A tasklet should not yield a plain value: '
                               '%.200s yielded %.200r' % (info, value))
Ejemplo n.º 37
0
def reserve_id(kind, id_or_name, namespace):
    from google.appengine.api.datastore import _GetConnection
    key = datastore.Key.from_path(kind, id_or_name, namespace=namespace)
    _GetConnection()._reserve_keys([key])
Ejemplo n.º 38
0
 def __init__(self, options):
     self._options = options
     connection = _GetConnection().new_transaction(options)
     super(NormalTransaction, self).__init__(connection)
Ejemplo n.º 39
0
 def _enter(self):
     if IsInTransaction():
         self._previous_connection = _GetConnection()
         _PopConnection()
Ejemplo n.º 40
0
    def flush(self):

        datastore._GetConnection()._reserve_keys(self.keys)
        self.keys = []
Ejemplo n.º 41
0
 def __init__(self, options):
     self._options = options
     connection = _GetConnection().new_transaction(options)
     super(NormalTransaction, self).__init__(connection)
Ejemplo n.º 42
0
def reserve_id(kind, id_or_name):
    from google.appengine.api.datastore import _GetConnection
    key = datastore.Key.from_path(kind, id_or_name)
    _GetConnection()._async_reserve_keys(None, [key])
Ejemplo n.º 43
0
def reserve_id(kind, id_or_name, namespace):
    from google.appengine.api.datastore import _GetConnection
    key = rpc.Key.from_path(kind, id_or_name, namespace=namespace)
    _GetConnection()._reserve_keys([key])