def poll_connections_until_stopped(self, submitted_connections, callback_fxn, timeout=None):
        """Continue to poll our connections until we receive a stopping condition"""
        stopwatch = gearman.util.Stopwatch(timeout)

        any_activity = False
        callback_ok = callback_fxn(any_activity)
        connection_ok = compat.any(current_connection.connected for current_connection in submitted_connections)

        while connection_ok and callback_ok:
            time_remaining = stopwatch.get_time_remaining()
            if time_remaining == 0.0:
                break

            # Do a single robust select and handle all connection activity
            read_connections, write_connections, dead_connections = self.poll_connections_once(submitted_connections, timeout=time_remaining)
            self.handle_connection_activity(read_connections, write_connections, dead_connections)

            any_activity = compat.any([read_connections, write_connections, dead_connections])

            callback_ok = callback_fxn(any_activity)
            connection_ok = compat.any(current_connection.connected for current_connection in submitted_connections)

        # We should raise here if we have no alive connections (don't go into a select polling loop with no connections)
        if not connection_ok:
            raise ServerUnavailable('Found no valid connections in list: %r' % self.connection_list)

        return bool(connection_ok and callback_ok)
def pack_binary_command(cmd_type, cmd_args, is_response=False):
    """Packs the given command using the parameter ordering specified in GEARMAN_PARAMS_FOR_COMMAND.
    *NOTE* Expects that all arguments in cmd_args are already str's.
    """
    expected_cmd_params = GEARMAN_PARAMS_FOR_COMMAND.get(cmd_type, None)
    if expected_cmd_params is None or cmd_type == GEARMAN_COMMAND_TEXT_COMMAND:
        raise ProtocolError('Received unknown binary command: %s' % get_command_name(cmd_type))

    expected_parameter_set = set(expected_cmd_params)
    received_parameter_set = set(cmd_args.keys())
    if expected_parameter_set != received_parameter_set:
        raise ProtocolError('Received arguments did not match expected arguments: %r != %r' % (expected_parameter_set, received_parameter_set))

    # Select the right expected magic
    if is_response:
        magic = MAGIC_RES_STRING
    else:
        magic = MAGIC_REQ_STRING

    # We will iterate in ORDER and check all our command arguments are bytes
    if compat.any(type(param_value) != compat.bytes_type for param_value in cmd_args.values()):
        raise ProtocolError('Received non-binary arguments: %r' % cmd_args)

    data_items = [cmd_args[param] for param in expected_cmd_params]

    # Now check that all but the last argument are free of \0 as per the protocol spec.
    if compat.any(b'\0' in argument for argument in data_items[:-1]):
        raise ProtocolError('Received arguments with NULL byte in non-final argument')

    binary_payload = NULL_BYTE.join(data_items)

    # Pack the header in the !4sII format then append the binary payload
    payload_size = len(binary_payload)
    packing_format = '!4sII%ds' % payload_size
    return struct.pack(packing_format, magic, cmd_type, payload_size, binary_payload)
    def poll_connections_until_stopped(self,
                                       submitted_connections,
                                       callback_fxn,
                                       timeout=None,
                                       prehandle=None):
        """Continue to poll our connections until we receive a stopping condition"""
        stopwatch = gearman.util.Stopwatch(timeout)
        submitted_connections = set(submitted_connections)
        connection_map = {}

        any_activity = False
        callback_ok = callback_fxn(any_activity)
        connection_ok = compat.any(
            current_connection.connected
            for current_connection in submitted_connections)
        poller = gearman.io.get_connection_poller()
        if connection_ok:
            self._register_connections_with_poller(submitted_connections,
                                                   poller)
            connection_map = dict([(c.fileno(), c)
                                   for c in submitted_connections
                                   if c.connected])

        while connection_ok and callback_ok:
            time_remaining = stopwatch.get_time_remaining()
            if time_remaining == 0.0:
                break

            # Do a single robust select and handle all connection activity
            read_connections, write_connections, dead_connections = self.poll_connections_once(
                poller, connection_map, timeout=time_remaining)

            if prehandle:
                prehandle(read_connections, write_connections,
                          dead_connections)

            # Handle reads and writes and close all of the dead connections
            read_connections, write_connections, dead_connections = self.handle_connection_activity(
                read_connections, write_connections, dead_connections)

            any_activity = compat.any(
                [read_connections, write_connections, dead_connections])

            # Do not retry dead connections on the next iteration of the loop, as we closed them in handle_error
            submitted_connections -= dead_connections

            callback_ok = callback_fxn(any_activity)
            connection_ok = compat.any(
                current_connection.connected
                for current_connection in submitted_connections)

        poller.close()

        # We should raise here if we have no alive connections (don't go into a select polling loop with no connections)
        if not connection_ok:
            raise ServerUnavailable('Found no valid connections in list: %r' %
                                    self.connection_list)

        return bool(connection_ok and callback_ok)
    def poll_connections_until_stopped(self, connections, callback_fxn, 
                                       timeout=None):
        """Continue to poll our connections until we receive a stopping 
        condition"""
        stopwatch = gearman.util.Stopwatch(timeout)
        connections = set(connections)

        any_activity = False
        callback_ok = callback_fxn(any_activity)
        connection_ok = compat.any(conn.connected for conn in connections)

        poller = gearman.io.get_connection_poller()

        while connection_ok and callback_ok:
            time_remaining = stopwatch.get_time_remaining()
            if time_remaining == 0.0:
                break

            self._register_connections_with_poller(connections, poller)

            # Do a single robust select and handle all connection activity
            readable, writable, death = self.poll_connections_once(
                poller, dict([(conn.fileno(), conn) 
                              for conn in connections if conn.connected]), 
                timeout=time_remaining)

            # Handle reads and writes and close all of the dead connections
            readable, writable, death = self.handle_connection_activity(
                readable, writable, death)

            any_activity = compat.any([readable, writable, death])

            for conn in connections:
                poller.unregister(conn)

            # Do not retry dead connections on the next iteration of the loop, 
            # as we closed them in handle_error
            connections -= death 

            callback_ok = callback_fxn(any_activity)
            connection_ok = compat.any(conn.connected for conn in connections)

        poller.close()

        # We should raise here if we have no alive connections (don't go into a 
        # select polling loop with no connections)
        if not connection_ok:
            raise ServerUnavailable('Found no valid connections in list: %r' % self.connection_list)

        return bool(connection_ok and callback_ok)
Beispiel #5
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        def has_pending_jobs():
            for request in request_ls:
                if request.state == JOB_UNKNOWN:
                    self.send_job_request(request)

            return compat.any(request.state == JOB_PENDING for
                              request in request_ls)
Beispiel #6
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def pack_binary_command(cmd_type, cmd_args, is_response=False):
    """Packs the given command using the parameter ordering specified in GEARMAN_PARAMS_FOR_COMMAND.
    *NOTE* Expects that all arguments in cmd_args are already str's.
    """
    expected_cmd_params = GEARMAN_PARAMS_FOR_COMMAND.get(cmd_type, None)
    if expected_cmd_params is None or cmd_type == GEARMAN_COMMAND_TEXT_COMMAND:
        raise ProtocolError('Received unknown binary command: %s' % get_command_name(cmd_type))

    expected_parameter_set = set(expected_cmd_params)
    received_parameter_set = set(cmd_args.keys())
    if expected_parameter_set != received_parameter_set:
        raise ProtocolError('Received arguments did not match expected arguments: %r != %r' % (expected_parameter_set, received_parameter_set))

    # Select the right expected magic
    if is_response:
        magic = MAGIC_RES_STRING
    else:
        magic = MAGIC_REQ_STRING

    # !NOTE! str should be replaced with bytes in Python 3.x
    # We will iterate in ORDER and str all our command arguments
    if compat.any(type(param_value) != str for param_value in cmd_args.values()):
        raise ProtocolError('Received non-binary arguments: %r' % cmd_args)

    data_items = [cmd_args[param] for param in expected_cmd_params]
    binary_payload = NULL_CHAR.join(data_items)

    # Pack the header in the !4sII format then append the binary payload
    payload_size = len(binary_payload)
    packing_format = '!4sII%ds' % payload_size
    return struct.pack(packing_format, magic.encode(), cmd_type, payload_size, binary_payload.encode())
def pack_binary_command(cmd_type, cmd_args, is_response=False):
    """Packs the given command using the parameter ordering specified in GEARMAN_PARAMS_FOR_COMMAND.
    *NOTE* Expects that all arguments in cmd_args are already str's.
    """
    expected_cmd_params = GEARMAN_PARAMS_FOR_COMMAND.get(cmd_type, None)
    if expected_cmd_params is None or cmd_type == GEARMAN_COMMAND_TEXT_COMMAND:
        raise ProtocolError('Received unknown binary command: %s' % get_command_name(cmd_type))

    expected_parameter_set = set(expected_cmd_params)
    received_parameter_set = set(cmd_args.keys())
    if expected_parameter_set != received_parameter_set:
        raise ProtocolError('Received arguments did not match expected arguments: %r != %r' % (expected_parameter_set, received_parameter_set))

    # Select the right expected magic
    if is_response:
        magic = MAGIC_RES_STRING
    else:
        magic = MAGIC_REQ_STRING

    # !NOTE! str should be replaced with bytes in Python 3.x
    # We will iterate in ORDER and str all our command arguments
    if compat.any(type(param_value) != str for param_value in cmd_args.itervalues()):
        raise ProtocolError('Received non-binary arguments: %r' % cmd_args)

    data_items = [cmd_args[param] for param in expected_cmd_params]
    binary_payload = NULL_CHAR.join(data_items)

    # Pack the header in the !4sII format then append the binary payload
    payload_size = len(binary_payload)
    packing_format = '!4sII%ds' % payload_size
    return struct.pack(packing_format, magic, cmd_type, payload_size, binary_payload)
Beispiel #8
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def pack_binary_command(cmd_type, cmd_args, is_response=False):
    """Packs the given command using the parameter ordering specified in GEARMAN_PARAMS_FOR_COMMAND.
    *NOTE* Expects that all arguments in cmd_args are already str's.
    """
    expected_cmd_params = GEARMAN_PARAMS_FOR_COMMAND.get(cmd_type, None)
    if expected_cmd_params is None or cmd_type == GEARMAN_COMMAND_TEXT_COMMAND:
        raise ProtocolError('Received unknown binary command: %s' % get_command_name(cmd_type))

    expected_parameter_set = set(expected_cmd_params)
    received_parameter_set = set(cmd_args.keys())
    if expected_parameter_set != received_parameter_set:
        raise ProtocolError('Received arguments did not match expected arguments: %r != %r' % (expected_parameter_set, received_parameter_set))

    # Select the right expected magic
    if is_response:
        magic = MAGIC_RES_STRING
    else:
        magic = MAGIC_REQ_STRING

    # !NOTE! str should be replaced with bytes in Python 3.x
    # The binary protocol is null byte delimited, so let's make sure we don't
    # have null bytes in our values and we're dealing with strings we can probably encode.
    if compat.any(not isinstance(param_value, basestring) or '\0' in param_value for param_value in cmd_args.itervalues()):
        raise ProtocolError('Received un-encodable arguments: %r' % cmd_args)

    data_items = [cmd_args[param].encode('ascii') for param in expected_cmd_params]
    binary_payload = NULL_CHAR.join(data_items)

    # Pack the header in the !4sII format then append the binary payload
    payload_size = len(binary_payload)
    packing_format = '!4sII%ds' % payload_size
    return struct.pack(packing_format, magic, cmd_type, payload_size, binary_payload)
    def poll_connections_until_stopped(self, submitted_connections, callback_fxn, timeout=None, prehandle=None):
        """Continue to poll our connections until we receive a stopping condition"""
        stopwatch = gearman.util.Stopwatch(timeout)
        submitted_connections = set(submitted_connections)
        connection_map = {}

        any_activity = False
        callback_ok = callback_fxn(any_activity)
        connection_ok = compat.any(current_connection.connected for current_connection in submitted_connections)
        poller = gearman.io.get_connection_poller()
        if connection_ok:
            self._register_connections_with_poller(submitted_connections, poller)
            connection_map = dict([(c.fileno(), c) for c in submitted_connections if c.connected])

        while connection_ok and callback_ok:
            time_remaining = stopwatch.get_time_remaining()
            if time_remaining == 0.0:
                break

            # Do a single robust select and handle all connection activity
            read_connections, write_connections, dead_connections = self.poll_connections_once(
                poller, connection_map, timeout=time_remaining
            )

            if prehandle:
                prehandle(read_connections, write_connections, dead_connections)

            # Handle reads and writes and close all of the dead connections
            read_connections, write_connections, dead_connections = self.handle_connection_activity(
                read_connections, write_connections, dead_connections
            )

            any_activity = compat.any([read_connections, write_connections, dead_connections])

            # Do not retry dead connections on the next iteration of the loop, as we closed them in handle_error
            submitted_connections -= dead_connections

            callback_ok = callback_fxn(any_activity)
            connection_ok = compat.any(current_connection.connected for current_connection in submitted_connections)

        poller.close()

        # We should raise here if we have no alive connections (don't go into a select polling loop with no connections)
        if not connection_ok:
            raise ServerUnavailable("Found no valid connections in list: %r" % self.connection_list)

        return bool(connection_ok and callback_ok)
Beispiel #10
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        def continue_while_jobs_pending(any_activity):
            for current_request in job_requests:
                if current_request.state == JOB_UNKNOWN:
                    self.send_job_request(current_request)

            return compat.any(
                is_request_pending(current_request)
                for current_request in job_requests)
    def poll(self, connections, before_poll, after_poll, timeout=None):
        """Continue to poll our connections until we receive a stopping 
        condition"""
        stopwatch = gearman.util.Stopwatch(timeout)
        connections = set(connections)

        workable = before_poll()
        pollable = compat.any(not c.internal and c.connected for c in connections)
        internal = compat.any(c.internal and c.connected for c in connections) \
                if self.has_internal_connection else True

        while workable and pollable and internal:
            time_remaining = stopwatch.get_time_remaining()
            if time_remaining == 0.0:
                break

            self._register(connections)

            readable, writable, exceptional = self._poll_once(
                connections, timeout=time_remaining)

            readable, writable, exceptional = self._process(
                readable, writable, exceptional)

            any_activity = compat.any([readable, writable, exceptional])

            for connection in connections:
                self._poller.unregister(connection)

            # Do not retry dead connections on the next iteration of the loop, 
            # as we closed them in handle_error
            connections -= exceptional

            workable = after_poll()
            pollable = compat.any(not c.internal for c in connections)
            internal = compat.any(c.internal for c in connections) \
                    if self.has_internal_connection else True

        return workable
Beispiel #12
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def pack_binary_command(cmd_type, cmd_args, is_response=False):
    """Packs the given command using the parameter ordering specified in GEARMAN_PARAMS_FOR_COMMAND.
    *NOTE* Expects that all arguments in cmd_args are already str's.
    """
    expected_cmd_params = GEARMAN_PARAMS_FOR_COMMAND.get(cmd_type, None)
    if expected_cmd_params is None or cmd_type == GEARMAN_COMMAND_TEXT_COMMAND:
        raise ProtocolError('Received unknown binary command: %s' %
                            get_command_name(cmd_type))

    expected_parameter_set = set(expected_cmd_params)
    received_parameter_set = set(cmd_args.keys())
    if expected_parameter_set != received_parameter_set:
        raise ProtocolError(
            'Received arguments did not match expected arguments: %r != %r' %
            (expected_parameter_set, received_parameter_set))

    # Select the right expected magic
    if is_response:
        magic = MAGIC_RES_STRING
    else:
        magic = MAGIC_REQ_STRING

    # !NOTE! str should be replaced with bytes in Python 3.x
    # The binary protocol is null byte delimited, so let's make sure we don't
    # have null bytes in our values and we're dealing with strings we can probably encode.
    if compat.any(
            not isinstance(param_value, basestring) or '\0' in param_value
            for param_value in cmd_args.itervalues()):
        raise ProtocolError('Received un-encodable arguments: %r' % cmd_args)

    data_items = [
        cmd_args[param].encode('ascii') for param in expected_cmd_params
    ]
    binary_payload = NULL_CHAR.join(data_items)

    # Pack the header in the !4sII format then append the binary payload
    payload_size = len(binary_payload)
    packing_format = '!4sII%ds' % payload_size
    return struct.pack(packing_format, magic, cmd_type, payload_size,
                       binary_payload)
Beispiel #13
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 def continue_while_updates_pending(any_activity):
     return compat.any(current_connection.writable()
                       for current_connection in connection_set)
Beispiel #14
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 def continue_while_updates_pending(any_activity):
     return compat.any(current_connection.writable() for current_connection in connection_set)
Beispiel #15
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        def continue_while_jobs_pending(any_activity):
            for current_request in job_requests:
                if current_request.state == JOB_UNKNOWN:
                    self.send_job_request(current_request)

            return compat.any(is_request_pending(current_request) for current_request in job_requests)