String fillMessageMutation(MutationBatch mb, Message message) throws MessageQueueException { // Get the execution time from the message or set to current time so it runs immediately long curTimeMicros; if (!message.hasTrigger()) { curTimeMicros = TimeUnit.MICROSECONDS.convert(System.currentTimeMillis(), TimeUnit.MILLISECONDS); } else { curTimeMicros = TimeUnit.MICROSECONDS.convert( message.getTrigger().getTriggerTime(), TimeUnit.MILLISECONDS); } curTimeMicros += (counter.incrementAndGet() % 1000); // Update the message for the new token message.setToken(TimeUUIDUtils.getMicrosTimeUUID(curTimeMicros)); // Set up the queue entry MessageQueueEntry entry = MessageQueueEntry.newMessageEntry( message.getPriority(), message.getToken(), MessageQueueEntryState.Waiting); // Convert the message object to JSON ByteArrayOutputStream baos = new ByteArrayOutputStream(); try { mapper.writeValue(baos, message); baos.flush(); } catch (Exception e) { throw new MessageQueueException("Failed to serialize message data: " + message, e); } // Write the queue entry String shardKey = getShardKey(message); mb.withRow(queueColumnFamily, shardKey) .putColumn(entry, new String(baos.toByteArray()), metadata.getRetentionTimeout()); // Write the lookup from queue key to queue entry if (message.hasKey()) { mb.withRow(keyIndexColumnFamily, getCompositeKey(getName(), message.getKey())) .putEmptyColumn( MessageMetadataEntry.newMessageId(getCompositeKey(shardKey, entry.getMessageId())), metadata.getRetentionTimeout()); } // Allow hook processing for (MessageQueueHooks hook : hooks) { hook.beforeSendMessage(message, mb); } // Update state and retun the token stats.incSendMessageCount(); return getCompositeKey(shardKey, entry.getMessageId()); }
private void fillAckMutation(MessageContext context, MutationBatch mb) { queue.stats.incAckMessageCount(); Message message = context.getMessage(); // Token refers to the timeout event. If 0 (i.e. no) timeout was specified // then the token will not exist if (message.getToken() != null) { MessageQueueEntry entry = MessageQueueEntry.newBusyEntry(message); // Remove timeout entry from the queue mb.withRow(queue.queueColumnFamily, queue.getShardKey(message)).deleteColumn(entry); // Remove entry lookup from the key, if one exists if (message.hasKey()) { mb.withRow( queue.keyIndexColumnFamily, queue.getCompositeKey(queue.getName(), message.getKey())) .putEmptyColumn( MessageMetadataEntry.newMessageId( queue.getCompositeKey(queue.getShardKey(message), entry.getMessageId())), queue.metadataDeleteTTL); if (message.isKeepHistory()) { MessageHistory history = context.getHistory(); if (history.getStatus() == MessageStatus.RUNNING) { history.setStatus(MessageStatus.DONE); } history.setEndTime( TimeUnit.MICROSECONDS.convert(System.currentTimeMillis(), TimeUnit.MILLISECONDS)); try { mb.withRow(queue.historyColumnFamily, message.getKey()) .putColumn( history.getToken(), queue.serializeToString(context.getHistory()), queue.metadata.getHistoryTtl()); // TTL } catch (Exception e) { LOG.warn("Error serializing message history for " + message.getKey(), e); } } } // Run hooks for (MessageQueueHooks hook : queue.hooks) { hook.beforeAckMessage(message, mb); } } if (context.getNextMessage() != null) { try { queue.fillMessageMutation(mb, context.getNextMessage()); } catch (MessageQueueException e) { LOG.warn("Error filling nextMessage for " + message.getKey(), e); } } }
private List<MessageContext> readMessagesInternal( String shardName, int itemsToPop, int lockColumnCount, MessageQueueEntry lockColumn, ColumnListMutation<MessageQueueEntry> rowMutation, MutationBatch m, long curTimeMicros) throws BusyLockException, MessageQueueException { try { List<MessageContext> entries = Lists.newArrayList(); RangeEndpoint re = ShardedDistributedMessageQueue.entrySerializer .makeEndpoint((byte) MessageQueueEntryType.Message.ordinal(), Equality.EQUAL) .append((byte) 0, Equality.EQUAL); if (lockColumn != null) { re.append(lockColumn.getTimestamp(), Equality.LESS_THAN_EQUALS); } else { re.append(TimeUUIDUtils.getMicrosTimeUUID(curTimeMicros), Equality.LESS_THAN_EQUALS); } ColumnList<MessageQueueEntry> result = queue .keyspace .prepareQuery(queue.queueColumnFamily) .setConsistencyLevel(queue.consistencyLevel) .getKey(shardName) .withColumnRange( new RangeBuilder() .setLimit(itemsToPop + (lockColumn == null ? 0 : (lockColumnCount + 1))) .setEnd(re.toBytes()) .build()) .execute() .getResult(); for (Column<MessageQueueEntry> column : result) { if (itemsToPop == 0) { break; } MessageQueueEntry entry = column.getName(); switch (entry.getType()) { case Lock: // TODO: Track number of locks read and make sure we don't exceed itemsToPop // We have the lock if (lockColumn != null && entry.getState() == MessageQueueEntryState.Acquired) { if (!entry.getTimestamp().equals(lockColumn.getTimestamp())) { throw new BusyLockException("Someone else snuck in"); } } break; case Message: { try { itemsToPop--; // First, we always want to remove the old item String messageId = queue.getCompositeKey(shardName, entry.getMessageId()); rowMutation.deleteColumn(entry); // Next, parse the message metadata and add a timeout entry final Message message = queue.extractMessageFromColumn(column); // Update the message state if (message != null) { MessageContext context = new MessageContext(); context.setMessage(message); // Message has a trigger so we need to figure out if it is an // unfinished repeating trigger and re-add it. if (message.hasTrigger()) { // Read back all messageIds associated with this key and check to see if we have // duplicates. String groupRowKey = queue.getCompositeKey(queue.getName(), message.getKey()); try { // Use consistency level ColumnList<MessageMetadataEntry> columns = queue .keyspace .prepareQuery(queue.keyIndexColumnFamily) .getRow(groupRowKey) .withColumnRange( ShardedDistributedMessageQueue.metadataSerializer .buildRange() .greaterThanEquals( (byte) MessageMetadataEntryType.MessageId.ordinal()) .lessThanEquals( (byte) MessageMetadataEntryType.MessageId.ordinal()) .build()) .execute() .getResult(); MessageMetadataEntry mostRecentMessageMetadata = null; long mostRecentTriggerTime = 0; for (Column<MessageMetadataEntry> currMessageEntry : columns) { MessageQueueEntry pendingMessageEntry = MessageQueueEntry.fromMetadata(currMessageEntry.getName()); if (currMessageEntry.getTtl() == 0) { long currMessageTriggerTime = pendingMessageEntry.getTimestamp(TimeUnit.MICROSECONDS); // First message we found, so treat as the most recent if (mostRecentMessageMetadata == null) { mostRecentMessageMetadata = currMessageEntry.getName(); mostRecentTriggerTime = currMessageTriggerTime; } else { // This message's trigger time is after what we thought was the most // recent. // Discard the previous 'most' recent and accept this one instead if (currMessageTriggerTime > mostRecentTriggerTime) { LOG.warn( "Need to discard : " + entry.getMessageId() + " => " + mostRecentMessageMetadata.getName()); m.withRow( queue.keyIndexColumnFamily, queue.getCompositeKey(queue.getName(), message.getKey())) .putEmptyColumn( mostRecentMessageMetadata, queue.metadataDeleteTTL); mostRecentTriggerTime = currMessageTriggerTime; mostRecentMessageMetadata = currMessageEntry.getName(); } else { LOG.warn( "Need to discard : " + entry.getMessageId() + " => " + currMessageEntry.getName()); m.withRow( queue.keyIndexColumnFamily, queue.getCompositeKey(queue.getName(), message.getKey())) .putEmptyColumn( currMessageEntry.getName(), queue.metadataDeleteTTL); } } } } if (mostRecentMessageMetadata != null) { if (!mostRecentMessageMetadata.getName().endsWith(entry.getMessageId())) { throw new DuplicateMessageException("Duplicate trigger for " + messageId); } } } catch (NotFoundException e) { } catch (ConnectionException e) { throw new MessageQueueException("Error fetching row " + groupRowKey, e); } // Update the trigger final Message nextMessage; Trigger trigger = message.getTrigger().nextTrigger(); if (trigger != null) { nextMessage = message.clone(); nextMessage.setTrigger(trigger); context.setNextMessage(nextMessage); if (message.isAutoCommitTrigger()) { queue.fillMessageMutation(m, nextMessage); } } } // Message has a key so we remove this item from the messages by key index. // A timeout item will be added later if (message.hasKey()) { m.withRow( queue.keyIndexColumnFamily, queue.getCompositeKey(queue.getName(), message.getKey())) .putEmptyColumn( MessageMetadataEntry.newMessageId(messageId), queue.metadataDeleteTTL); LOG.debug( "Removing from key : " + queue.getCompositeKey(queue.getName(), message.getKey()) + " : " + messageId); if (message.isKeepHistory()) { MessageHistory history = context.getHistory(); history.setToken(entry.getTimestamp()); history.setStartTime(curTimeMicros); history.setTriggerTime(message.getTrigger().getTriggerTime()); history.setStatus(MessageStatus.RUNNING); try { m.withRow(queue.historyColumnFamily, message.getKey()) .putColumn( entry.getTimestamp(), queue.serializeToString(history), queue.metadata.getHistoryTtl()); } catch (Exception e) { LOG.warn("Error serializing history for key '" + message.getKey() + "'", e); } } } // Message has a timeout so we add a timeout event. if (message.getTimeout() > 0) { MessageQueueEntry timeoutEntry = MessageQueueEntry.newMessageEntry( (byte) 0, TimeUUIDUtils.getMicrosTimeUUID( curTimeMicros + TimeUnit.MICROSECONDS.convert( message.getTimeout(), TimeUnit.SECONDS) + (queue.counter.incrementAndGet() % 1000)), MessageQueueEntryState.Busy); message.setToken(timeoutEntry.getTimestamp()); message.setRandom(timeoutEntry.getRandom()); m.withRow(queue.queueColumnFamily, queue.getShardKey(message)) .putColumn( timeoutEntry, column.getStringValue(), queue.metadata.getRetentionTimeout()); MessageMetadataEntry messageIdEntry = MessageMetadataEntry.newMessageId( queue.getCompositeKey( queue.getShardKey(message), timeoutEntry.getMessageId())); // Add the timeout column to the key if (message.hasKey()) { m.withRow( queue.keyIndexColumnFamily, queue.getCompositeKey(queue.getName(), message.getKey())) .putEmptyColumn(messageIdEntry, queue.metadata.getRetentionTimeout()); } context.setAckMessageId(messageIdEntry.getName()); } else { message.setToken(null); } // Update some stats switch (entry.getState()) { case Waiting: queue.stats.incProcessCount(); break; case Busy: queue.stats.incReprocessCount(); break; default: LOG.warn("Unknown message state: " + entry.getState()); // TODO: break; } entries.add(context); } else { queue.stats.incInvalidMessageCount(); // TODO: Add to poison queue } } catch (DuplicateMessageException e) { // OK to ignore this error. All the proper columns will have been deleted in the // batch. } break; } default: { // TODO: Error: Unknown type break; } } } return entries; } catch (BusyLockException e) { queue.stats.incLockContentionCount(); throw e; } catch (Exception e) { throw new MessageQueueException("Error processing queue shard : " + shardName, e); } finally { try { m.execute(); } catch (Exception e) { throw new MessageQueueException("Error processing queue shard : " + shardName, e); } } }