config:java-name-prefix DistributedOperationalDataStoreProvider;
}
- typedef non-zero-uint16-type {
- type uint16 {
+ typedef non-zero-uint32-type {
+ type uint32 {
range "1..max";
}
}
}
}
+ typedef heartbeat-interval-type {
+ type uint16 {
+ range "100..max";
+ }
+ }
+
+ typedef percentage {
+ type uint8 {
+ range "0..100";
+ }
+ }
+
grouping data-store-properties {
leaf max-shard-data-change-executor-queue-size {
default 1000;
- type non-zero-uint16-type;
+ type non-zero-uint32-type;
description "The maximum queue size for each shard's data store data change notification executor.";
}
leaf max-shard-data-change-executor-pool-size {
default 20;
- type non-zero-uint16-type;
+ type non-zero-uint32-type;
description "The maximum thread pool size for each shard's data store data change notification executor.";
}
leaf max-shard-data-change-listener-queue-size {
default 1000;
- type non-zero-uint16-type;
- description "The maximum queue size for each shard's data store data change listeners.";
+ type non-zero-uint32-type;
+ description "The maximum queue size for each shard's data store data change listener.";
}
leaf max-shard-data-store-executor-queue-size {
default 5000;
- type non-zero-uint16-type;
+ type non-zero-uint32-type;
description "The maximum queue size for each shard's data store executor.";
}
leaf shard-transaction-idle-timeout-in-minutes {
default 10;
- type non-zero-uint16-type;
+ type non-zero-uint32-type;
description "The maximum amount of time a shard transaction can be idle without receiving any messages before it self-destructs.";
}
+ leaf shard-snapshot-batch-count {
+ default 20000;
+ type non-zero-uint32-type;
+ description "The minimum number of entries to be present in the in-memory journal log before a snapshot is to be taken.";
+ }
+
+ leaf shard-snapshot-data-threshold-percentage {
+ default 12;
+ type percentage;
+ description "The percentage of Runtime.totalMemory() used by the in-memory journal log before a snapshot is to be taken";
+ }
+
+
+ leaf shard-heartbeat-interval-in-millis {
+ default 500;
+ type heartbeat-interval-type;
+ description "The interval at which a shard will send a heart beat message to its remote shard.";
+ }
+
+ leaf shard-election-timeout-factor {
+ default 2;
+ type non-zero-uint32-type;
+ description "The multiplication factor to be used to determine shard election timeout. The shard election timeout
+ is determined by multiplying shard-heartbeat-interval-in-millis with the shard-election-timeout-factor";
+ }
+
leaf operation-timeout-in-seconds {
default 5;
type operation-timeout-type;
description "The maximum amount of time for akka operations (remote or local) to complete before failing.";
}
+ leaf shard-journal-recovery-log-batch-size {
+ default 1000;
+ type non-zero-uint32-type;
+ description "The maximum number of journal log entries to batch on recovery for a shard before committing to the data store.";
+ }
+
+ leaf shard-transaction-commit-timeout-in-seconds {
+ default 30;
+ type non-zero-uint32-type;
+ description "The maximum amount of time a shard transaction three-phase commit can be idle without receiving the next messages before it aborts the transaction";
+ }
+
+ leaf shard-transaction-commit-queue-capacity {
+ default 20000;
+ type non-zero-uint32-type;
+ description "The maximum allowed capacity for each shard's transaction commit queue.";
+ }
+
+ leaf shard-initialization-timeout-in-seconds {
+ default 300; // 5 minutes
+ type non-zero-uint32-type;
+ description "The maximum amount of time to wait for a shard to initialize from persistence
+ on startup before failing an operation (eg transaction create and change
+ listener registration).";
+ }
+
+ leaf shard-leader-election-timeout-in-seconds {
+ default 30;
+ type non-zero-uint32-type;
+ description "The maximum amount of time to wait for a shard to elect a leader before failing
+ an operation (eg transaction create).";
+ }
+
+ leaf shard-batched-modification-count {
+ default 100;
+ type non-zero-uint32-type;
+ description "The number of transaction modification operations (put, merge, delete) to
+ batch before sending to the shard transaction actor. Batching improves
+ performance as less modifications messages are sent to the actor and thus
+ lessens the chance that the transaction actor's mailbox queue could get full.";
+ }
+
leaf enable-metric-capture {
default false;
type boolean;
leaf bounded-mailbox-capacity {
default 1000;
- type non-zero-uint16-type;
+ type non-zero-uint32-type;
description "Max queue size that an actor's mailbox can reach";
}
+
+ leaf persistent {
+ default true;
+ type boolean;
+ description "Enable or disable data persistence";
+ }
+
+ leaf shard-isolated-leader-check-interval-in-millis {
+ default 5000;
+ type heartbeat-interval-type;
+ description "The interval at which the leader of the shard will check if its majority
+ followers are active and term itself as isolated";
+ }
+
+ leaf transaction-creation-initial-rate-limit {
+ default 100;
+ type non-zero-uint32-type;
+ description "The initial number of transactions per second that are allowed before the data store
+ should begin applying back pressure. This number is only used as an initial guidance,
+ subsequently the datastore measures the latency for a commit and auto-adjusts the rate limit";
+ }
}
// Augments the 'configuration' choice node under modules/module.