offset.get()); } catch (Exception e) { log.error("updateConsumeOffsetToBroker exception, " + mq.toString(), e);
@Override public void persist(MessageQueue mq) { AtomicLong offset = this.offsetTable.get(mq); if (offset != null) { try { this.updateConsumeOffsetToBroker(mq, offset.get()); log.info("[persist] Group: {} ClientId: {} updateConsumeOffsetToBroker {} {}", this.groupName, this.mQClientFactory.getClientId(), mq, offset.get()); } catch (Exception e) { log.error("updateConsumeOffsetToBroker exception, " + mq.toString(), e); } } }
ClientNode clientNode = router.routeNode(mq.toString()); if (clientNode != null && currentCID.equals(clientNode.getKey())) { results.add(mq);
@Override public void persist(MessageQueue mq) { AtomicLong offset = this.offsetTable.get(mq); if (offset != null) { try { this.updateConsumeOffsetToBroker(mq, offset.get()); log.info("[persist] Group: {} ClientId: {} updateConsumeOffsetToBroker {} {}", this.groupName, this.mQClientFactory.getClientId(), mq, offset.get()); } catch (Exception e) { log.error("updateConsumeOffsetToBroker exception, " + mq.toString(), e); } } }
offset.get()); } catch (Exception e) { log.error("updateConsumeOffsetToBroker exception, " + mq.toString(), e);
ClientNode clientNode = router.routeNode(mq.toString()); if (clientNode != null && currentCID.equals(clientNode.getKey())) { results.add(mq);
@Override public void persist(MessageQueue mq) { AtomicLong offset = this.offsetTable.get(mq); if (offset != null) { try { this.updateConsumeOffsetToBroker(mq, offset.get()); log.info("[persist] Group: {} ClientId: {} updateConsumeOffsetToBroker {} {}", this.groupName, this.mQClientFactory.getClientId(), mq, offset.get()); } catch (Exception e) { log.error("updateConsumeOffsetToBroker exception, " + mq.toString(), e); } } }
offset.get()); } catch (Exception e) { log.error("updateConsumeOffsetToBroker exception, " + mq.toString(), e);
ClientNode clientNode = router.routeNode(mq.toString()); if (clientNode != null && currentCID.equals(clientNode.getKey())) { results.add(mq);