sendRequest(abortRequest(), resp -> {
LOG.debug("Transaction {} abort completed with {}", getIdentifier(), resp);
- sendPurge();
+ enqueuePurge();
});
}
// This is a terminal request, hence we do not need to record it
LOG.debug("Transaction {} abort completed", this);
- sendPurge();
+ enqueuePurge();
});
}
// This is a terminal request, hence we do not need to record it
LOG.debug("Transaction {} directCommit completed", this);
- sendPurge();
+ enqueuePurge();
});
return ret;
}
LOG.debug("Transaction {} doCommit completed", this);
- sendPurge();
+ enqueuePurge();
});
}
- private void sendPurge() {
- sendPurge(null);
+ private void enqueuePurge() {
+ enqueuePurge(null);
}
- final void sendPurge(final Consumer<Response<?, ?>> callback) {
- sendRequest(purgeRequest(), resp -> completePurge(resp, callback));
+ final void enqueuePurge(final Consumer<Response<?, ?>> callback) {
+ // Purge request are dispatched internally, hence should not wait
+ enqueuePurge(callback, parent.currentTime());
}
final void enqueuePurge(final Consumer<Response<?, ?>> callback, final long enqueuedTicks) {
- enqueueRequest(purgeRequest(), resp -> completePurge(resp, callback), enqueuedTicks);
+ enqueueRequest(purgeRequest(), resp -> {
+ LOG.debug("Transaction {} purge completed", this);
+ parent.completeTransaction(this);
+ if (callback != null) {
+ callback.accept(resp);
+ }
+ }, enqueuedTicks);
}
private TransactionPurgeRequest purgeRequest() {
return new TransactionPurgeRequest(getIdentifier(), nextSequence(), localActor());
}
- private void completePurge(final Response<?, ?> resp, final Consumer<Response<?, ?>> callback) {
- LOG.debug("Transaction {} purge completed", this);
- parent.completeTransaction(this);
- if (callback != null) {
- callback.accept(resp);
- }
- }
-
// Called with the connection unlocked
final synchronized void startReconnect() {
// At this point canCommit/directCommit are blocked, we assert a new successor state, retrieving the previous