import random
import weakref
from redis.client import Redis
from redis.commands import SentinelCommands
from redis.connection import Connection, ConnectionPool, SSLConnection
from redis.exceptions import ConnectionError, ReadOnlyError, ResponseError, TimeoutError
from redis.utils import str_if_bytes
class MasterNotFoundError(ConnectionError):
pass
class SlaveNotFoundError(ConnectionError):
pass
class SentinelManagedConnection(Connection):
def __init__(self, **kwargs):
self.connection_pool = kwargs.pop("connection_pool")
super().__init__(**kwargs)
def __repr__(self):
pool = self.connection_pool
s = f"{type(self).__name__}<service={pool.service_name}%s>"
if self.host:
host_info = f",host={self.host},port={self.port}"
s = s % host_info
return s
def connect_to(self, address):
self.host, self.port = address
super().connect()
if self.connection_pool.check_connection:
self.send_command("PING")
if str_if_bytes(self.read_response()) != "PONG":
raise ConnectionError("PING failed")
def _connect_retry(self):
if self._sock:
return # already connected
if self.connection_pool.is_master:
self.connect_to(self.connection_pool.get_master_address())
else:
for slave in self.connection_pool.rotate_slaves():
try:
return self.connect_to(slave)
except ConnectionError:
continue
raise SlaveNotFoundError # Never be here
def connect(self):
return self.retry.call_with_retry(self._connect_retry, lambda error: None)
def read_response(self, disable_decoding=False):
try:
return super().read_response(disable_decoding=disable_decoding)
except ReadOnlyError:
if self.connection_pool.is_master:
# When talking to a master, a ReadOnlyError when likely
# indicates that the previous master that we're still connected
# to has been demoted to a slave and there's a new master.
# calling disconnect will force the connection to re-query
# sentinel during the next connect() attempt.
self.disconnect()
raise ConnectionError("The previous master is now a slave")
raise
class SentinelManagedSSLConnection(SentinelManagedConnection, SSLConnection):
pass
[docs]class SentinelConnectionPool(ConnectionPool):
"""
Sentinel backed connection pool.
If ``check_connection`` flag is set to True, SentinelManagedConnection
sends a PING command right after establishing the connection.
"""
def __init__(self, service_name, sentinel_manager, **kwargs):
kwargs["connection_class"] = kwargs.get(
"connection_class",
SentinelManagedSSLConnection
if kwargs.pop("ssl", False)
else SentinelManagedConnection,
)
self.is_master = kwargs.pop("is_master", True)
self.check_connection = kwargs.pop("check_connection", False)
super().__init__(**kwargs)
self.connection_kwargs["connection_pool"] = weakref.proxy(self)
self.service_name = service_name
self.sentinel_manager = sentinel_manager
def __repr__(self):
role = "master" if self.is_master else "slave"
return f"{type(self).__name__}<service={self.service_name}({role})"
def reset(self):
super().reset()
self.master_address = None
self.slave_rr_counter = None
def owns_connection(self, connection):
check = not self.is_master or (
self.is_master and self.master_address == (connection.host, connection.port)
)
parent = super()
return check and parent.owns_connection(connection)
def get_master_address(self):
master_address = self.sentinel_manager.discover_master(self.service_name)
if self.is_master:
if self.master_address != master_address:
self.master_address = master_address
# disconnect any idle connections so that they reconnect
# to the new master the next time that they are used.
self.disconnect(inuse_connections=False)
return master_address
[docs] def rotate_slaves(self):
"Round-robin slave balancer"
slaves = self.sentinel_manager.discover_slaves(self.service_name)
if slaves:
if self.slave_rr_counter is None:
self.slave_rr_counter = random.randint(0, len(slaves) - 1)
for _ in range(len(slaves)):
self.slave_rr_counter = (self.slave_rr_counter + 1) % len(slaves)
slave = slaves[self.slave_rr_counter]
yield slave
# Fallback to the master connection
try:
yield self.get_master_address()
except MasterNotFoundError:
pass
raise SlaveNotFoundError(f"No slave found for {self.service_name!r}")
[docs]class Sentinel(SentinelCommands):
"""
Redis Sentinel cluster client
>>> from redis.sentinel import Sentinel
>>> sentinel = Sentinel([('localhost', 26379)], socket_timeout=0.1)
>>> master = sentinel.master_for('mymaster', socket_timeout=0.1)
>>> master.set('foo', 'bar')
>>> slave = sentinel.slave_for('mymaster', socket_timeout=0.1)
>>> slave.get('foo')
b'bar'
``sentinels`` is a list of sentinel nodes. Each node is represented by
a pair (hostname, port).
``min_other_sentinels`` defined a minimum number of peers for a sentinel.
When querying a sentinel, if it doesn't meet this threshold, responses
from that sentinel won't be considered valid.
``sentinel_kwargs`` is a dictionary of connection arguments used when
connecting to sentinel instances. Any argument that can be passed to
a normal Redis connection can be specified here. If ``sentinel_kwargs`` is
not specified, any socket_timeout and socket_keepalive options specified
in ``connection_kwargs`` will be used.
``connection_kwargs`` are keyword arguments that will be used when
establishing a connection to a Redis server.
"""
def __init__(
self,
sentinels,
min_other_sentinels=0,
sentinel_kwargs=None,
**connection_kwargs,
):
# if sentinel_kwargs isn't defined, use the socket_* options from
# connection_kwargs
if sentinel_kwargs is None:
sentinel_kwargs = {
k: v for k, v in connection_kwargs.items() if k.startswith("socket_")
}
self.sentinel_kwargs = sentinel_kwargs
self.sentinels = [
Redis(hostname, port, **self.sentinel_kwargs)
for hostname, port in sentinels
]
self.min_other_sentinels = min_other_sentinels
self.connection_kwargs = connection_kwargs
[docs] def execute_command(self, *args, **kwargs):
"""
Execute Sentinel command in sentinel nodes.
once - If set to True, then execute the resulting command on a single
node at random, rather than across the entire sentinel cluster.
"""
once = bool(kwargs.get("once", False))
if "once" in kwargs.keys():
kwargs.pop("once")
if once:
random.choice(self.sentinels).execute_command(*args, **kwargs)
else:
for sentinel in self.sentinels:
sentinel.execute_command(*args, **kwargs)
return True
def __repr__(self):
sentinel_addresses = []
for sentinel in self.sentinels:
sentinel_addresses.append(
"{host}:{port}".format_map(sentinel.connection_pool.connection_kwargs)
)
return f'{type(self).__name__}<sentinels=[{",".join(sentinel_addresses)}]>'
def check_master_state(self, state, service_name):
if not state["is_master"] or state["is_sdown"] or state["is_odown"]:
return False
# Check if our sentinel doesn't see other nodes
if state["num-other-sentinels"] < self.min_other_sentinels:
return False
return True
[docs] def discover_master(self, service_name):
"""
Asks sentinel servers for the Redis master's address corresponding
to the service labeled ``service_name``.
Returns a pair (address, port) or raises MasterNotFoundError if no
master is found.
"""
for sentinel_no, sentinel in enumerate(self.sentinels):
try:
masters = sentinel.sentinel_masters()
except (ConnectionError, TimeoutError):
continue
state = masters.get(service_name)
if state and self.check_master_state(state, service_name):
# Put this sentinel at the top of the list
self.sentinels[0], self.sentinels[sentinel_no] = (
sentinel,
self.sentinels[0],
)
return state["ip"], state["port"]
raise MasterNotFoundError(f"No master found for {service_name!r}")
[docs] def filter_slaves(self, slaves):
"Remove slaves that are in an ODOWN or SDOWN state"
slaves_alive = []
for slave in slaves:
if slave["is_odown"] or slave["is_sdown"]:
continue
slaves_alive.append((slave["ip"], slave["port"]))
return slaves_alive
[docs] def discover_slaves(self, service_name):
"Returns a list of alive slaves for service ``service_name``"
for sentinel in self.sentinels:
try:
slaves = sentinel.sentinel_slaves(service_name)
except (ConnectionError, ResponseError, TimeoutError):
continue
slaves = self.filter_slaves(slaves)
if slaves:
return slaves
return []
[docs] def master_for(
self,
service_name,
redis_class=Redis,
connection_pool_class=SentinelConnectionPool,
**kwargs,
):
"""
Returns a redis client instance for the ``service_name`` master.
A :py:class:`~redis.sentinel.SentinelConnectionPool` class is
used to retrieve the master's address before establishing a new
connection.
NOTE: If the master's address has changed, any cached connections to
the old master are closed.
By default clients will be a :py:class:`~redis.Redis` instance.
Specify a different class to the ``redis_class`` argument if you
desire something different.
The ``connection_pool_class`` specifies the connection pool to
use. The :py:class:`~redis.sentinel.SentinelConnectionPool`
will be used by default.
All other keyword arguments are merged with any connection_kwargs
passed to this class and passed to the connection pool as keyword
arguments to be used to initialize Redis connections.
"""
kwargs["is_master"] = True
connection_kwargs = dict(self.connection_kwargs)
connection_kwargs.update(kwargs)
return redis_class(
connection_pool=connection_pool_class(
service_name, self, **connection_kwargs
)
)
[docs] def slave_for(
self,
service_name,
redis_class=Redis,
connection_pool_class=SentinelConnectionPool,
**kwargs,
):
"""
Returns redis client instance for the ``service_name`` slave(s).
A SentinelConnectionPool class is used to retrieve the slave's
address before establishing a new connection.
By default clients will be a :py:class:`~redis.Redis` instance.
Specify a different class to the ``redis_class`` argument if you
desire something different.
The ``connection_pool_class`` specifies the connection pool to use.
The SentinelConnectionPool will be used by default.
All other keyword arguments are merged with any connection_kwargs
passed to this class and passed to the connection pool as keyword
arguments to be used to initialize Redis connections.
"""
kwargs["is_master"] = False
connection_kwargs = dict(self.connection_kwargs)
connection_kwargs.update(kwargs)
return redis_class(
connection_pool=connection_pool_class(
service_name, self, **connection_kwargs
)
)