/** * Call {@link MessageProcessor#processMessage(Object)} for each flushed message * in this {@link ChannelOutboundBuffer} until {@link MessageProcessor#processMessage(Object)} * returns {@code false} or there are no more flushed messages to process. */ public void forEachFlushedMessage(MessageProcessor processor) throws Exception { if (processor == null) { throw new NullPointerException("processor"); } Entry entry = flushedEntry; if (entry == null) { return; } do { if (!entry.cancelled) { if (!processor.processMessage(entry.msg)) { return; } } entry = entry.next; } while (isFlushedEntry(entry)); }
/** * Call {@link MessageProcessor#processMessage(Object)} for each flushed message * in this {@link ChannelOutboundBuffer} until {@link MessageProcessor#processMessage(Object)} * returns {@code false} or there are no more flushed messages to process. */ public void forEachFlushedMessage(MessageProcessor processor) throws Exception { if (processor == null) { throw new NullPointerException("processor"); } Entry entry = flushedEntry; if (entry == null) { return; } do { if (!entry.cancelled) { if (!processor.processMessage(entry.msg)) { return; } } entry = entry.next; } while (isFlushedEntry(entry)); }
/** * Call {@link MessageProcessor#processMessage(Object)} for each flushed message * in this {@link ChannelOutboundBuffer} until {@link MessageProcessor#processMessage(Object)} * returns {@code false} or there are no more flushed messages to process. */ public void forEachFlushedMessage(MessageProcessor processor) throws Exception { if (processor == null) { throw new NullPointerException("processor"); } Entry entry = flushedEntry; if (entry == null) { return; } do { if (!entry.cancelled) { if (!processor.processMessage(entry.msg)) { return; } } entry = entry.next; } while (isFlushedEntry(entry)); }
/** * Call {@link MessageProcessor#processMessage(Object)} for each flushed message * in this {@link ChannelOutboundBuffer} until {@link MessageProcessor#processMessage(Object)} * returns {@code false} or there are no more flushed messages to process. */ public void forEachFlushedMessage(MessageProcessor processor) throws Exception { if (processor == null) { throw new NullPointerException("processor"); } Entry entry = flushedEntry; if (entry == null) { return; } do { if (!entry.cancelled) { if (!processor.processMessage(entry.msg)) { return; } } entry = entry.next; } while (isFlushedEntry(entry)); }
/** * Call {@link MessageProcessor#processMessage(Object)} for each flushed message * in this {@link ChannelOutboundBuffer} until {@link MessageProcessor#processMessage(Object)} * returns {@code false} or there are no more flushed messages to process. */ public void forEachFlushedMessage(MessageProcessor processor) throws Exception { if (processor == null) { throw new NullPointerException("processor"); } Entry entry = flushedEntry; if (entry == null) { return; } do { if (!entry.cancelled) { if (!processor.processMessage(entry.msg)) { return; } } entry = entry.next; } while (isFlushedEntry(entry)); }
/** * Call {@link MessageProcessor#processMessage(Object)} for each flushed message * in this {@link ChannelOutboundBuffer} until {@link MessageProcessor#processMessage(Object)} * returns {@code false} or there are no more flushed messages to process. */ public void forEachFlushedMessage(MessageProcessor processor) throws Exception { if (processor == null) { throw new NullPointerException("processor"); } Entry entry = flushedEntry; if (entry == null) { return; } do { if (!entry.cancelled) { if (!processor.processMessage(entry.msg)) { return; } } entry = entry.next; } while (isFlushedEntry(entry)); }