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When a connection is lost, try to reestablish it at configured intervals.
advanced.reconnection-policy in the configuration; defaults to exponential backoff, also
available: constant delay, write your own.
applies to connection pools and the control connection.
advanced.reconnect-on-init (false by default) controls whether the session tries to reconnect
when it is first created
If a running session loses a connection to a node, it tries to re-establish it according to a configurable policy. This is used in two places:
connection pools: for each node, a session has a fixed-size pool of connections to execute user requests. If one or more connections drop, a reconnection gets started for the pool; each attempt tries to reopen the missing number of connections. This goes on until the pool is back to its expected size;
control connection: a session uses a single connection to an arbitrary node for administrative requests. If that connection goes down, a reconnection gets started; each attempt iterates through all active nodes until one of them accepts a connection. This goes on until we have a control node again.
The reconnection policy controls the interval between each attempt. It is defined in the configuration:
class = ExponentialReconnectionPolicy
base-delay = 1 second
max-delay = 60 seconds
ExponentialReconnectionPolicy is the default; it starts with a base delay, and then doubles it after each attempt. ConstantReconnectionPolicy uses the same delay every time, regardless of the previous number of attempts.
For best results, use reasonable values: very low values (for example a constant delay of 10 milliseconds) will quickly saturate your system.
The policy works by creating a schedule each time a reconnection starts. These schedules are independent across reconnection attempts, meaning that each pool will start with a fresh delay even if other pools are already reconnecting. For example, assuming that the pool size is 3, the policy is the exponential one with the default values, and the control connection is initially on node1:
[t = 0] 2 connections to node2 go down. A reconnection starts for node2’s pool, with the next attempt in 1 second;
[t = 1] node2’s pool tries to open the 2 missing connections. One succeeds but the other fails. Another attempt is scheduled in 2 seconds;
[t = 1.2] 1 connection to node3 goes down. A reconnection starts for node3’s pool, with the next attempt in 1 second;
[t = 1.5] the control connection to node1 goes down. A reconnection starts for the control connection, with the next attempt in 1 second;
[t = 2.2], node3’s pool tries to open its missing connection, which succeeds. The pool is back to its expected size, node3’s reconnection stops;
[t = 2.5] the control connection tries to find a new node. It invokes the load balancing policy to get a query plan, which happens to start with node4. The connection succeeds, node4 is now the control node and the reconnection stops;
[t = 3] node2’s pool tries to open the last missing connection, which succeeds. The pool is back to its expected size, node2’s reconnection stops.
If a session fails to connect when it is first created, the default behavior is to abort and throw an error immediately.
If you prefer to retry, you can set the configuration option
advanced.reconnect-on-init to true.
Instead of failing, the driver will keep attempting to initialize the session at regular intervals,
according to the reconnection policy, until at least one contact point replies. This can be useful
when dealing with containers and microservices.
Note that the session is not accessible until it is fully ready: the
call — or the future returned by
buildAsync() — will not complete until the connection