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ratel api,used for developer on ratel system,an extension for xposed framewrok,ratel api compatable with original xposed framework

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/*
 * Copyright (C) 2016 Square, Inc.
 *
 * 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 external.okio;

import java.io.IOException;
import javax.annotation.Nullable;

/**
 * A source and a sink that are attached. The sink's output is the source's input. Typically each
 * is accessed by its own thread: a producer thread writes data to the sink and a consumer thread
 * reads data from the source.
 *
 * 

This class uses a buffer to decouple source and sink. This buffer has a user-specified maximum * size. When a producer thread outruns its consumer the buffer fills up and eventually writes to * the sink will block until the consumer has caught up. Symmetrically, if a consumer outruns its * producer reads block until there is data to be read. Limits on the amount of time spent waiting * for the other party can be configured with {@linkplain Timeout timeouts} on the source and the * sink. * *

When the sink is closed, source reads will continue to complete normally until the buffer has * been exhausted. At that point reads will return -1, indicating the end of the stream. But if the * source is closed first, writes to the sink will immediately fail with an {@link IOException}. */ public final class Pipe { final long maxBufferSize; final Buffer buffer = new Buffer(); boolean sinkClosed; boolean sourceClosed; private final Sink sink = new PipeSink(); private final Source source = new PipeSource(); private @Nullable Sink foldedSink; public Pipe(long maxBufferSize) { if (maxBufferSize < 1L) { throw new IllegalArgumentException("maxBufferSize < 1: " + maxBufferSize); } this.maxBufferSize = maxBufferSize; } public final Source source() { return source; } public final Sink sink() { return sink; } /** * Writes any buffered contents of this pipe to {@code sink}, then replace this pipe's source * with {@code sink}. This pipe's source is closed and attempts to read it will throw an * {@link IllegalStateException}. * * This method must not be called while concurrently accessing this pipe's source. It is safe, * however, to call this while concurrently writing this pipe's sink. */ public void fold(Sink sink) throws IOException { while (true) { boolean closed = false; Buffer sinkBuffer; synchronized (buffer) { if (foldedSink != null) throw new IllegalStateException("sink already folded"); if (buffer.exhausted()) { sourceClosed = true; foldedSink = sink; return; } closed = sinkClosed; sinkBuffer = new Buffer(); sinkBuffer.write(buffer, buffer.size); buffer.notifyAll(); // Notify the sink that it can resume writing. } boolean success = false; try { sink.write(sinkBuffer, sinkBuffer.size); if (closed) { sink.close(); } else { sink.flush(); } success = true; } finally { if (!success) { synchronized (buffer) { sourceClosed = true; buffer.notifyAll(); // Notify the sink that it can resume writing. } } } } } final class PipeSink implements Sink { final PushableTimeout timeout = new PushableTimeout(); @Override public void write(Buffer source, long byteCount) throws IOException { Sink delegate = null; synchronized (buffer) { if (sinkClosed) throw new IllegalStateException("closed"); while (byteCount > 0) { if (foldedSink != null) { delegate = foldedSink; break; } if (sourceClosed) throw new IOException("source is closed"); long bufferSpaceAvailable = maxBufferSize - buffer.size(); if (bufferSpaceAvailable == 0) { timeout.waitUntilNotified(buffer); // Wait until the source drains the buffer. continue; } long bytesToWrite = Math.min(bufferSpaceAvailable, byteCount); buffer.write(source, bytesToWrite); byteCount -= bytesToWrite; buffer.notifyAll(); // Notify the source that it can resume reading. } } if (delegate != null) { timeout.push(delegate.timeout()); try { delegate.write(source, byteCount); } finally { timeout.pop(); } } } @Override public void flush() throws IOException { Sink delegate = null; synchronized (buffer) { if (sinkClosed) throw new IllegalStateException("closed"); if (foldedSink != null) { delegate = foldedSink; } else if (sourceClosed && buffer.size() > 0) { throw new IOException("source is closed"); } } if (delegate != null) { timeout.push(delegate.timeout()); try { delegate.flush(); } finally { timeout.pop(); } } } @Override public void close() throws IOException { Sink delegate = null; synchronized (buffer) { if (sinkClosed) return; if (foldedSink != null) { delegate = foldedSink; } else { if (sourceClosed && buffer.size() > 0) throw new IOException("source is closed"); sinkClosed = true; buffer.notifyAll(); // Notify the source that no more bytes are coming. } } if (delegate != null) { timeout.push(delegate.timeout()); try { delegate.close(); } finally { timeout.pop(); } } } @Override public Timeout timeout() { return timeout; } } final class PipeSource implements Source { final Timeout timeout = new Timeout(); @Override public long read(Buffer sink, long byteCount) throws IOException { synchronized (buffer) { if (sourceClosed) throw new IllegalStateException("closed"); while (buffer.size() == 0) { if (sinkClosed) return -1L; timeout.waitUntilNotified(buffer); // Wait until the sink fills the buffer. } long result = buffer.read(sink, byteCount); buffer.notifyAll(); // Notify the sink that it can resume writing. return result; } } @Override public void close() throws IOException { synchronized (buffer) { sourceClosed = true; buffer.notifyAll(); // Notify the sink that no more bytes are desired. } } @Override public Timeout timeout() { return timeout; } } }





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