@Override public ChannelFuture shutdownInput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { shutdownInput0(promise); } else { loop.execute(new Runnable() { @Override public void run() { shutdownInput0(promise); } }); } return promise; }
@Override public ChannelFuture shutdownInput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { shutdownInput0(promise); } else { loop.execute(new Runnable() { @Override public void run() { shutdownInput0(promise); } }); } return promise; }
@Override public ChannelFuture shutdownOutput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } else { loop.execute(new Runnable() { @Override public void run() { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } }); } return promise; }
@Override public ChannelFuture shutdownOutput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } else { loop.execute(new Runnable() { @Override public void run() { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } }); } return promise; }
/** * Attempt to write multiple {@link ByteBuf} objects. * @param in the collection which contains objects to write. * @return The value that should be decremented from the write quantum which starts at * {@link ChannelConfig#getWriteSpinCount()}. The typical use cases are as follows: * <ul> * <li>0 - if no write was attempted. This is appropriate if an empty {@link ByteBuf} (or other empty content) * is encountered</li> * <li>1 - if a single call to write data was made to the OS</li> * <li>{@link ChannelUtils#WRITE_STATUS_SNDBUF_FULL} - if an attempt to write data was made to the OS, but no * data was accepted</li> * </ul> * @throws Exception If an I/O error occurs. */ private int doWriteMultiple(ChannelOutboundBuffer in) throws Exception { final long maxBytesPerGatheringWrite = config().getMaxBytesPerGatheringWrite(); IovArray array = ((KQueueEventLoop) eventLoop()).cleanArray(); array.maxBytes(maxBytesPerGatheringWrite); in.forEachFlushedMessage(array); if (array.count() >= 1) { // TODO: Handle the case where cnt == 1 specially. return writeBytesMultiple(in, array); } // cnt == 0, which means the outbound buffer contained empty buffers only. in.removeBytes(0); return 0; }
eventLoop().execute(flushTask); } else {
eventLoop().execute(flushTask); } else {
final long maxBytesPerGatheringWrite = config().getMaxBytesPerGatheringWrite(); if (PlatformDependent.hasUnsafe()) { IovArray array = ((KQueueEventLoop) eventLoop()).cleanArray(); array.maxBytes(maxBytesPerGatheringWrite); in.forEachFlushedMessage(array);
@Override public ChannelFuture shutdownInput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { shutdownInput0(promise); } else { loop.execute(new Runnable() { @Override public void run() { shutdownInput0(promise); } }); } return promise; }
@Override public ChannelFuture shutdownInput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { shutdownInput0(promise); } else { loop.execute(new Runnable() { @Override public void run() { shutdownInput0(promise); } }); } return promise; }
@Override public ChannelFuture shutdownInput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { shutdownInput0(promise); } else { loop.execute(new Runnable() { @Override public void run() { shutdownInput0(promise); } }); } return promise; }
@Override public ChannelFuture shutdownInput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { shutdownInput0(promise); } else { loop.execute(new Runnable() { @Override public void run() { shutdownInput0(promise); } }); } return promise; }
@Override public ChannelFuture shutdownOutput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } else { loop.execute(new Runnable() { @Override public void run() { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } }); } return promise; }
@Override public ChannelFuture shutdownOutput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } else { loop.execute(new Runnable() { @Override public void run() { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } }); } return promise; }
@Override public ChannelFuture shutdownOutput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } else { loop.execute(new Runnable() { @Override public void run() { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } }); } return promise; }
@Override public ChannelFuture shutdownOutput(final ChannelPromise promise) { EventLoop loop = eventLoop(); if (loop.inEventLoop()) { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } else { loop.execute(new Runnable() { @Override public void run() { ((AbstractUnsafe) unsafe()).shutdownOutput(promise); } }); } return promise; }
/** * Attempt to write multiple {@link ByteBuf} objects. * @param in the collection which contains objects to write. * @return The value that should be decremented from the write quantum which starts at * {@link ChannelConfig#getWriteSpinCount()}. The typical use cases are as follows: * <ul> * <li>0 - if no write was attempted. This is appropriate if an empty {@link ByteBuf} (or other empty content) * is encountered</li> * <li>1 - if a single call to write data was made to the OS</li> * <li>{@link ChannelUtils#WRITE_STATUS_SNDBUF_FULL} - if an attempt to write data was made to the OS, but no * data was accepted</li> * </ul> * @throws Exception If an I/O error occurs. */ private int doWriteMultiple(ChannelOutboundBuffer in) throws Exception { final long maxBytesPerGatheringWrite = config().getMaxBytesPerGatheringWrite(); IovArray array = ((KQueueEventLoop) eventLoop()).cleanArray(); array.maxBytes(maxBytesPerGatheringWrite); in.forEachFlushedMessage(array); if (array.count() >= 1) { // TODO: Handle the case where cnt == 1 specially. return writeBytesMultiple(in, array); } // cnt == 0, which means the outbound buffer contained empty buffers only. in.removeBytes(0); return 0; }
eventLoop().execute(flushTask); } else {
eventLoop().execute(flushTask); } else {
eventLoop().execute(flushTask); } else {