def __init__(self, topology_settings):
self._topology_id = topology_settings._topology_id
self._listeners = topology_settings._pool_options.event_listeners
pub = self._listeners is not None
self._publish_server = pub and self._listeners.enabled_for_server
self._publish_tp = pub and self._listeners.enabled_for_topology
# Create events queue if there are publishers.
self._events = None
self.__events_executor = None
if self._publish_server or self._publish_tp:
self._events = queue.Queue(maxsize=100)
if self._publish_tp:
self._events.put((self._listeners.publish_topology_opened,
(self._topology_id, )))
self._settings = topology_settings
topology_description = TopologyDescription(
topology_settings.get_topology_type(),
topology_settings.get_server_descriptions(),
topology_settings.replica_set_name, None, None, topology_settings)
self._description = topology_description
if self._publish_tp:
initial_td = TopologyDescription(TOPOLOGY_TYPE.Unknown, {}, None,
None, None, self._settings)
self._events.put(
(self._listeners.publish_topology_description_changed,
(initial_td, self._description, self._topology_id)))
for seed in topology_settings.seeds:
if self._publish_server:
self._events.put((self._listeners.publish_server_opened,
(seed, self._topology_id)))
# Store the seed list to help diagnose errors in _error_message().
self._seed_addresses = list(topology_description.server_descriptions())
self._opened = False
self._lock = threading.Lock()
self._condition = self._settings.condition_class(self._lock)
self._servers = {}
self._pid = None
self._max_cluster_time = None
self._session_pool = _ServerSessionPool()
if self._publish_server or self._publish_tp:
def target():
return process_events_queue(weak)
executor = periodic_executor.PeriodicExecutor(
interval=common.EVENTS_QUEUE_FREQUENCY,
min_interval=0.5,
target=target,
name="pymongo_events_thread")
# We strongly reference the executor and it weakly references
# the queue via this closure. When the topology is freed, stop
# the executor soon.
weak = weakref.ref(self._events, executor.close)
self.__events_executor = executor
executor.open()
self._srv_monitor = None
if self._settings.fqdn is not None:
self._srv_monitor = SrvMonitor(self, self._settings)
class Topology(object):
"""Monitor a topology of one or more servers."""
def __init__(self, topology_settings):
self._topology_id = topology_settings._topology_id
self._listeners = topology_settings._pool_options.event_listeners
pub = self._listeners is not None
self._publish_server = pub and self._listeners.enabled_for_server
self._publish_tp = pub and self._listeners.enabled_for_topology
# Create events queue if there are publishers.
self._events = None
self.__events_executor = None
if self._publish_server or self._publish_tp:
self._events = queue.Queue(maxsize=100)
if self._publish_tp:
self._events.put((self._listeners.publish_topology_opened,
(self._topology_id, )))
self._settings = topology_settings
topology_description = TopologyDescription(
topology_settings.get_topology_type(),
topology_settings.get_server_descriptions(),
topology_settings.replica_set_name, None, None, topology_settings)
self._description = topology_description
if self._publish_tp:
initial_td = TopologyDescription(TOPOLOGY_TYPE.Unknown, {}, None,
None, None, self._settings)
self._events.put(
(self._listeners.publish_topology_description_changed,
(initial_td, self._description, self._topology_id)))
for seed in topology_settings.seeds:
if self._publish_server:
self._events.put((self._listeners.publish_server_opened,
(seed, self._topology_id)))
# Store the seed list to help diagnose errors in _error_message().
self._seed_addresses = list(topology_description.server_descriptions())
self._opened = False
self._lock = threading.Lock()
self._condition = self._settings.condition_class(self._lock)
self._servers = {}
self._pid = None
self._max_cluster_time = None
self._session_pool = _ServerSessionPool()
if self._publish_server or self._publish_tp:
def target():
return process_events_queue(weak)
executor = periodic_executor.PeriodicExecutor(
interval=common.EVENTS_QUEUE_FREQUENCY,
min_interval=0.5,
target=target,
name="pymongo_events_thread")
# We strongly reference the executor and it weakly references
# the queue via this closure. When the topology is freed, stop
# the executor soon.
weak = weakref.ref(self._events, executor.close)
self.__events_executor = executor
executor.open()
self._srv_monitor = None
if self._settings.fqdn is not None:
self._srv_monitor = SrvMonitor(self, self._settings)
def open(self):
"""Start monitoring, or restart after a fork.
No effect if called multiple times.
.. warning:: Topology is shared among multiple threads and is protected
by mutual exclusion. Using Topology from a process other than the one
that initialized it will emit a warning and may result in deadlock. To
prevent this from happening, MongoClient must be created after any
forking.
"""
if self._pid is None:
self._pid = os.getpid()
else:
if os.getpid() != self._pid:
warnings.warn(
"MongoClient opened before fork. Create MongoClient only "
"after forking. See PyMongo's documentation for details: "
"https://pymongo.readthedocs.io/en/stable/faq.html#"
"is-pymongo-fork-safe")
with self._lock:
# Reset the session pool to avoid duplicate sessions in
# the child process.
self._session_pool.reset()
with self._lock:
self._ensure_opened()
def select_servers(self,
selector,
server_selection_timeout=None,
address=None):
"""Return a list of Servers matching selector, or time out.
:Parameters:
- `selector`: function that takes a list of Servers and returns
a subset of them.
- `server_selection_timeout` (optional): maximum seconds to wait.
If not provided, the default value common.SERVER_SELECTION_TIMEOUT
is used.
- `address`: optional server address to select.
Calls self.open() if needed.
Raises exc:`ServerSelectionTimeoutError` after
`server_selection_timeout` if no matching servers are found.
"""
if server_selection_timeout is None:
server_timeout = self._settings.server_selection_timeout
else:
server_timeout = server_selection_timeout
with self._lock:
server_descriptions = self._select_servers_loop(
selector, server_timeout, address)
return [
self.get_server_by_address(sd.address)
for sd in server_descriptions
]
def _select_servers_loop(self, selector, timeout, address):
"""select_servers() guts. Hold the lock when calling this."""
now = time.monotonic()
end_time = now + timeout
server_descriptions = self._description.apply_selector(
selector, address, custom_selector=self._settings.server_selector)
while not server_descriptions:
# No suitable servers.
if timeout == 0 or now > end_time:
raise ServerSelectionTimeoutError(
"%s, Timeout: %ss, Topology Description: %r" %
(self._error_message(selector), timeout, self.description))
self._ensure_opened()
self._request_check_all()
# Release the lock and wait for the topology description to
# change, or for a timeout. We won't miss any changes that
# came after our most recent apply_selector call, since we've
# held the lock until now.
self._condition.wait(common.MIN_HEARTBEAT_INTERVAL)
self._description.check_compatible()
now = time.monotonic()
server_descriptions = self._description.apply_selector(
selector,
address,
custom_selector=self._settings.server_selector)
self._description.check_compatible()
return server_descriptions
def select_server(self,
selector,
server_selection_timeout=None,
address=None):
"""Like select_servers, but choose a random server if several match."""
servers = self.select_servers(selector, server_selection_timeout,
address)
if len(servers) == 1:
return servers[0]
server1, server2 = random.sample(servers, 2)
if server1.pool.operation_count <= server2.pool.operation_count:
return server1
else:
return server2
def select_server_by_address(self, address, server_selection_timeout=None):
"""Return a Server for "address", reconnecting if necessary.
If the server's type is not known, request an immediate check of all
servers. Time out after "server_selection_timeout" if the server
cannot be reached.
:Parameters:
- `address`: A (host, port) pair.
- `server_selection_timeout` (optional): maximum seconds to wait.
If not provided, the default value
common.SERVER_SELECTION_TIMEOUT is used.
Calls self.open() if needed.
Raises exc:`ServerSelectionTimeoutError` after
`server_selection_timeout` if no matching servers are found.
"""
return self.select_server(any_server_selector,
server_selection_timeout, address)
def _process_change(self, server_description, reset_pool=False):
"""Process a new ServerDescription on an opened topology.
Hold the lock when calling this.
"""
td_old = self._description
sd_old = td_old._server_descriptions[server_description.address]
if _is_stale_server_description(sd_old, server_description):
# This is a stale isMaster response. Ignore it.
return
# CMAP: Ensure the pool is "ready" when the server is selectable.
if server_description.is_server_type_known:
server = self._servers.get(server_description.address)
if server:
server.pool.ready()
suppress_event = ((self._publish_server or self._publish_tp)
and sd_old == server_description)
if self._publish_server and not suppress_event:
self._events.put(
(self._listeners.publish_server_description_changed,
(sd_old, server_description, server_description.address,
self._topology_id)))
self._description = updated_topology_description(
self._description, server_description)
self._update_servers()
self._receive_cluster_time_no_lock(server_description.cluster_time)
if self._publish_tp and not suppress_event:
self._events.put(
(self._listeners.publish_topology_description_changed,
(td_old, self._description, self._topology_id)))
# Shutdown SRV polling for unsupported cluster types.
# This is only applicable if the old topology was Unknown, and the
# new one is something other than Unknown or Sharded.
if self._srv_monitor and (td_old.topology_type == TOPOLOGY_TYPE.Unknown
and self._description.topology_type
not in SRV_POLLING_TOPOLOGIES):
self._srv_monitor.close()
# Clear the pool from a failed heartbeat.
if reset_pool:
server = self._servers.get(server_description.address)
if server:
server.pool.reset()
# Wake waiters in select_servers().
self._condition.notify_all()
def on_change(self, server_description, reset_pool=False):
"""Process a new ServerDescription after an ismaster call completes."""
# We do no I/O holding the lock.
with self._lock:
# Monitors may continue working on ismaster calls for some time
# after a call to Topology.close, so this method may be called at
# any time. Ensure the topology is open before processing the
# change.
# Any monitored server was definitely in the topology description
# once. Check if it's still in the description or if some state-
# change removed it. E.g., we got a host list from the primary
# that didn't include this server.
if (self._opened and self._description.has_server(
server_description.address)):
self._process_change(server_description, reset_pool)
def _process_srv_update(self, seedlist):
"""Process a new seedlist on an opened topology.
Hold the lock when calling this.
"""
td_old = self._description
self._description = _updated_topology_description_srv_polling(
self._description, seedlist)
self._update_servers()
if self._publish_tp:
self._events.put(
(self._listeners.publish_topology_description_changed,
(td_old, self._description, self._topology_id)))
def on_srv_update(self, seedlist):
"""Process a new list of nodes obtained from scanning SRV records."""
# We do no I/O holding the lock.
with self._lock:
if self._opened:
self._process_srv_update(seedlist)
def get_server_by_address(self, address):
"""Get a Server or None.
Returns the current version of the server immediately, even if it's
Unknown or absent from the topology. Only use this in unittests.
In driver code, use select_server_by_address, since then you're
assured a recent view of the server's type and wire protocol version.
"""
return self._servers.get(address)
def has_server(self, address):
return address in self._servers
def get_primary(self):
"""Return primary's address or None."""
# Implemented here in Topology instead of MongoClient, so it can lock.
with self._lock:
topology_type = self._description.topology_type
if topology_type != TOPOLOGY_TYPE.ReplicaSetWithPrimary:
return None
return writable_server_selector(self._new_selection())[0].address
def _get_replica_set_members(self, selector):
"""Return set of replica set member addresses."""
# Implemented here in Topology instead of MongoClient, so it can lock.
with self._lock:
topology_type = self._description.topology_type
if topology_type not in (TOPOLOGY_TYPE.ReplicaSetWithPrimary,
TOPOLOGY_TYPE.ReplicaSetNoPrimary):
return set()
return set([sd.address for sd in selector(self._new_selection())])
def get_secondaries(self):
"""Return set of secondary addresses."""
return self._get_replica_set_members(secondary_server_selector)
def get_arbiters(self):
"""Return set of arbiter addresses."""
return self._get_replica_set_members(arbiter_server_selector)
def max_cluster_time(self):
"""Return a document, the highest seen $clusterTime."""
return self._max_cluster_time
def _receive_cluster_time_no_lock(self, cluster_time):
# Driver Sessions Spec: "Whenever a driver receives a cluster time from
# a server it MUST compare it to the current highest seen cluster time
# for the deployment. If the new cluster time is higher than the
# highest seen cluster time it MUST become the new highest seen cluster
# time. Two cluster times are compared using only the BsonTimestamp
# value of the clusterTime embedded field."
if cluster_time:
# ">" uses bson.timestamp.Timestamp's comparison operator.
if (not self._max_cluster_time or cluster_time['clusterTime'] >
self._max_cluster_time['clusterTime']):
self._max_cluster_time = cluster_time
def receive_cluster_time(self, cluster_time):
with self._lock:
self._receive_cluster_time_no_lock(cluster_time)
def request_check_all(self, wait_time=5):
"""Wake all monitors, wait for at least one to check its server."""
with self._lock:
self._request_check_all()
self._condition.wait(wait_time)
def update_pool(self, all_credentials):
# Remove any stale sockets and add new sockets if pool is too small.
servers = []
with self._lock:
for server in self._servers.values():
servers.append((server, server._pool.generation))
for server, generation in servers:
pool = server._pool
try:
pool.remove_stale_sockets(generation, all_credentials)
except PyMongoError as exc:
ctx = _ErrorContext(exc, 0, generation, False)
self.handle_error(pool.address, ctx)
raise
def close(self):
"""Clear pools and terminate monitors. Topology reopens on demand."""
with self._lock:
for server in self._servers.values():
server.close()
# Mark all servers Unknown.
self._description = self._description.reset()
for address, sd in self._description.server_descriptions().items():
if address in self._servers:
self._servers[address].description = sd
# Stop SRV polling thread.
if self._srv_monitor:
self._srv_monitor.close()
self._opened = False
# Publish only after releasing the lock.
if self._publish_tp:
self._events.put((self._listeners.publish_topology_closed,
(self._topology_id, )))
if self._publish_server or self._publish_tp:
self.__events_executor.close()
@property
def description(self):
return self._description
def pop_all_sessions(self):
"""Pop all session ids from the pool."""
with self._lock:
return self._session_pool.pop_all()
def get_server_session(self):
"""Start or resume a server session, or raise ConfigurationError."""
with self._lock:
session_timeout = self._description.logical_session_timeout_minutes
if session_timeout is None:
# Maybe we need an initial scan? Can raise ServerSelectionError.
if self._description.topology_type == TOPOLOGY_TYPE.Single:
if not self._description.has_known_servers:
self._select_servers_loop(
any_server_selector,
self._settings.server_selection_timeout, None)
elif not self._description.readable_servers:
self._select_servers_loop(
readable_server_selector,
self._settings.server_selection_timeout, None)
session_timeout = self._description.logical_session_timeout_minutes
if session_timeout is None:
raise ConfigurationError(
"Sessions are not supported by this MongoDB deployment")
return self._session_pool.get_server_session(session_timeout)
def return_server_session(self, server_session, lock):
if lock:
with self._lock:
session_timeout = \
self._description.logical_session_timeout_minutes
if session_timeout is not None:
self._session_pool.return_server_session(
server_session, session_timeout)
else:
# Called from a __del__ method, can't use a lock.
self._session_pool.return_server_session_no_lock(server_session)
def _new_selection(self):
"""A Selection object, initially including all known servers.
Hold the lock when calling this.
"""
return Selection.from_topology_description(self._description)
def _ensure_opened(self):
"""Start monitors, or restart after a fork.
Hold the lock when calling this.
"""
if not self._opened:
self._opened = True
self._update_servers()
# Start or restart the events publishing thread.
if self._publish_tp or self._publish_server:
self.__events_executor.open()
# Start the SRV polling thread.
if self._srv_monitor and (self.description.topology_type
in SRV_POLLING_TOPOLOGIES):
self._srv_monitor.open()
# Ensure that the monitors are open.
for server in self._servers.values():
server.open()
def _is_stale_error(self, address, err_ctx):
server = self._servers.get(address)
if server is None:
# Another thread removed this server from the topology.
return True
if err_ctx.sock_generation != server._pool.generation:
# This is an outdated error from a previous pool version.
return True
# topologyVersion check, ignore error when cur_tv >= error_tv:
cur_tv = server.description.topology_version
error = err_ctx.error
error_tv = None
if error and hasattr(error, 'details'):
if isinstance(error.details, dict):
error_tv = error.details.get('topologyVersion')
return _is_stale_error_topology_version(cur_tv, error_tv)
def _handle_error(self, address, err_ctx):
if self._is_stale_error(address, err_ctx):
return
server = self._servers[address]
error = err_ctx.error
exc_type = type(error)
if (issubclass(exc_type, NetworkTimeout)
and err_ctx.completed_handshake):
# The socket has been closed. Don't reset the server.
# Server Discovery And Monitoring Spec: "When an application
# operation fails because of any network error besides a socket
# timeout...."
return
elif issubclass(exc_type, WriteError):
# Ignore writeErrors.
return
elif issubclass(exc_type, NotMasterError):
# As per the SDAM spec if:
# - the server sees a "not master" error, and
# - the server is not shutting down, and
# - the server version is >= 4.2, then
# we keep the existing connection pool, but mark the server type
# as Unknown and request an immediate check of the server.
# Otherwise, we clear the connection pool, mark the server as
# Unknown and request an immediate check of the server.
err_code = error.details.get('code', -1)
is_shutting_down = err_code in helpers._SHUTDOWN_CODES
# Mark server Unknown, clear the pool, and request check.
self._process_change(ServerDescription(address, error=error))
if is_shutting_down or (err_ctx.max_wire_version <= 7):
# Clear the pool.
server.reset()
server.request_check()
elif issubclass(exc_type, ConnectionFailure):
# "Client MUST replace the server's description with type Unknown
# ... MUST NOT request an immediate check of the server."
self._process_change(ServerDescription(address, error=error))
# Clear the pool.
server.reset()
# "When a client marks a server Unknown from `Network error when
# reading or writing`_, clients MUST cancel the isMaster check on
# that server and close the current monitoring connection."
server._monitor.cancel_check()
elif issubclass(exc_type, OperationFailure):
# Do not request an immediate check since the server is likely
# shutting down.
if error.code in helpers._NOT_MASTER_CODES:
self._process_change(ServerDescription(address, error=error))
# Clear the pool.
server.reset()
def handle_error(self, address, err_ctx):
"""Handle an application error.
May reset the server to Unknown, clear the pool, and request an
immediate check depending on the error and the context.
"""
with self._lock:
self._handle_error(address, err_ctx)
def _request_check_all(self):
"""Wake all monitors. Hold the lock when calling this."""
for server in self._servers.values():
server.request_check()
def _update_servers(self):
"""Sync our Servers from TopologyDescription.server_descriptions.
Hold the lock while calling this.
"""
for address, sd in self._description.server_descriptions().items():
if address not in self._servers:
monitor = self._settings.monitor_class(
server_description=sd,
topology=self,
pool=self._create_pool_for_monitor(address),
topology_settings=self._settings)
weak = None
if self._publish_server:
weak = weakref.ref(self._events)
server = Server(server_description=sd,
pool=self._create_pool_for_server(address),
monitor=monitor,
topology_id=self._topology_id,
listeners=self._listeners,
events=weak)
self._servers[address] = server
server.open()
else:
# Cache old is_writable value.
was_writable = self._servers[address].description.is_writable
# Update server description.
self._servers[address].description = sd
# Update is_writable value of the pool, if it changed.
if was_writable != sd.is_writable:
self._servers[address].pool.update_is_writable(
sd.is_writable)
for address, server in list(self._servers.items()):
if not self._description.has_server(address):
server.close()
self._servers.pop(address)
def _create_pool_for_server(self, address):
return self._settings.pool_class(address, self._settings.pool_options)
def _create_pool_for_monitor(self, address):
options = self._settings.pool_options
# According to the Server Discovery And Monitoring Spec, monitors use
# connect_timeout for both connect_timeout and socket_timeout. The
# pool only has one socket so maxPoolSize and so on aren't needed.
monitor_pool_options = PoolOptions(
connect_timeout=options.connect_timeout,
socket_timeout=options.connect_timeout,
ssl_context=options.ssl_context,
ssl_match_hostname=options.ssl_match_hostname,
event_listeners=options.event_listeners,
appname=options.appname,
driver=options.driver,
pause_enabled=False,
server_api=options.server_api,
)
return self._settings.pool_class(address,
monitor_pool_options,
handshake=False)
def _error_message(self, selector):
"""Format an error message if server selection fails.
Hold the lock when calling this.
"""
is_replica_set = self._description.topology_type in (
TOPOLOGY_TYPE.ReplicaSetWithPrimary,
TOPOLOGY_TYPE.ReplicaSetNoPrimary)
if is_replica_set:
server_plural = 'replica set members'
elif self._description.topology_type == TOPOLOGY_TYPE.Sharded:
server_plural = 'mongoses'
else:
server_plural = 'servers'
if self._description.known_servers:
# We've connected, but no servers match the selector.
if selector is writable_server_selector:
if is_replica_set:
return 'No primary available for writes'
else:
return 'No %s available for writes' % server_plural
else:
return 'No %s match selector "%s"' % (server_plural, selector)
else:
addresses = list(self._description.server_descriptions())
servers = list(self._description.server_descriptions().values())
if not servers:
if is_replica_set:
# We removed all servers because of the wrong setName?
return 'No %s available for replica set name "%s"' % (
server_plural, self._settings.replica_set_name)
else:
return 'No %s available' % server_plural
# 1 or more servers, all Unknown. Are they unknown for one reason?
error = servers[0].error
same = all(server.error == error for server in servers[1:])
if same:
if error is None:
# We're still discovering.
return 'No %s found yet' % server_plural
if (is_replica_set and
not set(addresses).intersection(self._seed_addresses)):
# We replaced our seeds with new hosts but can't reach any.
return ('Could not reach any servers in %s. Replica set is'
' configured with internal hostnames or IPs?' %
addresses)
return str(error)
else:
return ','.join(
str(server.error) for server in servers if server.error)
def __repr__(self):
msg = ''
if not self._opened:
msg = 'CLOSED '
return '<%s %s%r>' % (self.__class__.__name__, msg, self._description)
