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/*
 * Copyright 2014, gRPC Authors All rights reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package nl.topicus.jdbc.shaded.io.grpc.internal;

import nl.topicus.jdbc.shaded.com.google.common.base.Preconditions;
import nl.topicus.jdbc.shaded.io.grpc.Attributes;
import nl.topicus.jdbc.shaded.io.grpc.Decompressor;
import nl.topicus.jdbc.shaded.io.grpc.InternalStatus;
import nl.topicus.jdbc.shaded.io.grpc.Metadata;
import nl.topicus.jdbc.shaded.io.grpc.Status;
import nl.topicus.jdbc.shaded.javax.annotation.Nullable;

/**
 * Abstract base class for {@link ServerStream} implementations. Extending classes only need to
 * implement {@link #transportState()} and {@link #abstractServerStreamSink()}. Must only be called
 * from the sending application thread.
 */
public abstract class AbstractServerStream extends AbstractStream
    implements ServerStream, MessageFramer.Sink {
  /**
   * A sink for outbound operations, separated from the stream simply to avoid name
   * collisions/confusion. Only called from application thread.
   */
  protected interface Sink {
    /**
     * Sends response headers to the remote end point.
     *
     * @param headers the headers to be sent to client.
     */
    void writeHeaders(Metadata headers);

    /**
     * Sends an outbound frame to the remote end point.
     *
     * @param frame a buffer containing the chunk of data to be sent.
     * @param flush {@code true} if more data may not be arriving soon
     * @param numMessages the number of messages this frame represents
     */
    void writeFrame(@Nullable WritableBuffer frame, boolean flush, int numMessages);

    /**
     * Sends trailers to the remote end point. This call implies end of stream.
     *
     * @param trailers metadata to be sent to the end point
     * @param headersSent {@code true} if response headers have already been sent.
     * @param status the status that the call ended with
     */
    void writeTrailers(Metadata trailers, boolean headersSent, Status status);

    /**
     * Requests up to the given number of messages from the call to be delivered. This should end up
     * triggering {@link TransportState#requestMessagesFromDeframer(int)} on the transport thread.
     */
    void request(int numMessages);

    /**
     * Tears down the stream, typically in the event of a timeout. This method may be called
     * multiple times and from any thread.
     *
     * 

This is a clone of {@link ServerStream#cancel(Status)}. */ void cancel(Status status); } private final MessageFramer framer; private final StatsTraceContext statsTraceCtx; private boolean outboundClosed; private boolean headersSent; protected AbstractServerStream( WritableBufferAllocator bufferAllocator, StatsTraceContext statsTraceCtx) { this.statsTraceCtx = Preconditions.checkNotNull(statsTraceCtx, "statsTraceCtx"); framer = new MessageFramer(this, bufferAllocator, statsTraceCtx); } @Override protected abstract TransportState transportState(); /** * Sink for transport to be called to perform outbound operations. Each stream must have its own * unique sink. */ protected abstract Sink abstractServerStreamSink(); @Override protected final MessageFramer framer() { return framer; } @Override public final void request(int numMessages) { abstractServerStreamSink().request(numMessages); } @Override public final void writeHeaders(Metadata headers) { Preconditions.checkNotNull(headers, "headers"); headersSent = true; abstractServerStreamSink().writeHeaders(headers); } @Override public final void deliverFrame( WritableBuffer frame, boolean endOfStream, boolean flush, int numMessages) { // Since endOfStream is triggered by the sending of trailers, avoid flush here and just flush // after the trailers. abstractServerStreamSink().writeFrame(frame, endOfStream ? false : flush, numMessages); } @Override public final void close(Status status, Metadata trailers) { Preconditions.checkNotNull(status, "status"); Preconditions.checkNotNull(trailers, "trailers"); if (!outboundClosed) { outboundClosed = true; statsTraceCtx.streamClosed(status); endOfMessages(); addStatusToTrailers(trailers, status); // Safe to set without synchronization because access is tightly controlled. // closedStatus is only set from here, and is read from a place that has happen-after // guarantees with respect to here. transportState().setClosedStatus(status); abstractServerStreamSink().writeTrailers(trailers, headersSent, status); } } private void addStatusToTrailers(Metadata trailers, Status status) { trailers.discardAll(InternalStatus.CODE_KEY); trailers.discardAll(InternalStatus.MESSAGE_KEY); trailers.put(InternalStatus.CODE_KEY, status); if (status.getDescription() != null) { trailers.put(InternalStatus.MESSAGE_KEY, status.getDescription()); } } @Override public final void cancel(Status status) { abstractServerStreamSink().cancel(status); } @Override public final boolean isReady() { return super.isReady(); } @Override public final void setDecompressor(Decompressor decompressor) { transportState().setDecompressor(Preconditions.checkNotNull(decompressor, "decompressor")); } @Override public Attributes getAttributes() { return Attributes.EMPTY; } @Override public String getAuthority() { return null; } @Override public final void setListener(ServerStreamListener serverStreamListener) { transportState().setListener(serverStreamListener); } @Override public StatsTraceContext statsTraceContext() { return statsTraceCtx; } /** * This should only called from the transport thread (except for private interactions with * {@code AbstractServerStream}). */ protected abstract static class TransportState extends AbstractStream.TransportState { /** Whether listener.closed() has been called. */ private boolean listenerClosed; private ServerStreamListener listener; private final StatsTraceContext statsTraceCtx; private boolean endOfStream = false; private boolean deframerClosed = false; private boolean immediateCloseRequested = false; private Runnable deframerClosedTask; /** The status that the application used to close this stream. */ @Nullable private Status closedStatus; protected TransportState( int maxMessageSize, StatsTraceContext statsTraceCtx, TransportTracer transportTracer) { super( maxMessageSize, statsTraceCtx, Preconditions.checkNotNull(transportTracer, "transportTracer")); this.statsTraceCtx = Preconditions.checkNotNull(statsTraceCtx, "statsTraceCtx"); } /** * Sets the listener to receive notifications. Must be called in the context of the transport * thread. */ public final void setListener(ServerStreamListener listener) { Preconditions.checkState(this.listener == null, "setListener should be called only once"); this.listener = Preconditions.checkNotNull(listener, "listener"); } @Override public final void onStreamAllocated() { super.onStreamAllocated(); } @Override public void deframerClosed(boolean hasPartialMessage) { deframerClosed = true; if (endOfStream) { if (!immediateCloseRequested && hasPartialMessage) { // We've received the entire stream and have data available but we don't have // enough to read the next frame ... this is bad. deframeFailed( Status.INTERNAL .withDescription("Encountered end-of-stream mid-frame") .asRuntimeException()); deframerClosedTask = null; return; } listener.halfClosed(); } if (deframerClosedTask != null) { deframerClosedTask.run(); deframerClosedTask = null; } } @Override protected ServerStreamListener listener() { return listener; } /** * Called in the transport thread to process the content of an inbound DATA frame from the * client. * * @param frame the inbound HTTP/2 DATA frame. If this buffer is not used immediately, it must * be retained. * @param endOfStream {@code true} if no more data will be received on the stream. */ public void inboundDataReceived(ReadableBuffer frame, boolean endOfStream) { Preconditions.checkState(!this.endOfStream, "Past end of stream"); // Deframe the message. If a failure occurs, deframeFailed will be called. deframe(frame); if (endOfStream) { this.endOfStream = true; closeDeframer(false); } } /** * Notifies failure to the listener of the stream. The transport is responsible for notifying * the client of the failure independent of this method. * *

Unlike {@link #close(Status, Metadata)}, this method is only called from the * transport. The transport should use this method instead of {@code close(Status)} for internal * errors to prevent exposing unexpected states and exceptions to the application. * * @param status the error status. Must not be {@link Status#OK}. */ public final void transportReportStatus(final Status status) { Preconditions.checkArgument(!status.isOk(), "status must not be OK"); if (deframerClosed) { deframerClosedTask = null; closeListener(status); } else { deframerClosedTask = new Runnable() { @Override public void run() { closeListener(status); } }; immediateCloseRequested = true; closeDeframer(true); } } /** * Indicates the stream is considered completely closed and there is no further opportunity for * error. It calls the listener's {@code closed()} if it was not already done by {@link * #transportReportStatus}. */ public void complete() { if (deframerClosed) { deframerClosedTask = null; closeListener(Status.OK); } else { deframerClosedTask = new Runnable() { @Override public void run() { closeListener(Status.OK); } }; immediateCloseRequested = true; closeDeframer(true); } } /** * Closes the listener if not previously closed and frees resources. {@code newStatus} is a * status generated by gRPC. It is not the status the stream closed with. */ private void closeListener(Status newStatus) { // If newStatus is OK, the application must have already called AbstractServerStream.close() // and the status passed in there was the actual status of the RPC. // If newStatus non-OK, then the RPC ended some other way and the server application did // not initiate the termination. Preconditions.checkState(!newStatus.isOk() || closedStatus != null); if (!listenerClosed) { if (!newStatus.isOk()) { statsTraceCtx.streamClosed(newStatus); getTransportTracer().reportStreamClosed(false); } else { getTransportTracer().reportStreamClosed(closedStatus.isOk()); } listenerClosed = true; onStreamDeallocated(); listener().closed(newStatus); } } /** * Stores the {@code Status} that the application used to close this stream. */ private void setClosedStatus(Status closeStatus) { Preconditions.checkState(closedStatus == null, "closedStatus can only be set once"); closedStatus = closeStatus; } } }





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