Separate MediaCodecLoop from MediaCodecAudioDecoder

media/base/android/media_codec_loop.h

Index: media/base/android/media_codec_loop.h
diff --git a/media/base/android/media_codec_loop.h b/media/base/android/media_codec_loop.h
new file mode 100644
index 0000000000000000000000000000000000000000..0c7c33c85dd211664e8506d8616b3a53e2798f61
--- /dev/null
+++ b/media/base/android/media_codec_loop.h
@@ -0,0 +1,312 @@
+// Copyright 2016 The Chromium Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style license that can be
+// found in the LICENSE file.
+
+#ifndef MEDIA_BASE_ANDROID_MEDIA_CODEC_LOOP_H_
+#define MEDIA_BASE_ANDROID_MEDIA_CODEC_LOOP_H_
+
+#include <deque>
+#include <memory>
+#include <utility>
+#include <vector>
+
+#include "base/macros.h"
+#include "base/memory/weak_ptr.h"
+#include "base/time/time.h"
+#include "base/timer/timer.h"
+#include "media/base/android/media_codec_bridge.h"
+#include "media/base/audio_decoder.h"
+#include "media/base/audio_decoder_config.h"
+#include "media/base/media_export.h"
+
+// MediaCodecLoop is based on Android's MediaCodec API.
+// The MediaCodec API is required to play encrypted (as in EME) content on
+// Android. It is also a way to employ hardware-accelerated decoding.
+// One MediaCodecLoop instance owns a single MediaCodec(Bridge) instance, and
+// drives it to perform decoding in conjunction with a MediaCodecLoop::Client.
+// The Client provides the input data and consumes the output data.  A typical
+// example is AndroidVideoDecodeAccelerator.
+
+// Implementation notes.
+//
+// The MediaCodec
+// (http://developer.android.com/reference/android/media/MediaCodec.html) works

[watk, 2016/06/15 00:29:18]

nit: you can probably delete this url. I doubt anyone will use it/needs it.

[liberato (no reviews please), 2016/06/15 20:27:30]

Done.

+// by exchanging buffers between the client and the codec itself. On the input
+// side an "empty" buffer has to be dequeued from the codec, filled with data
+// and queued back. On the output side a "full" buffer with data should be
+// dequeued, the data is to be used somehow (copied out, or rendered to a pre-
+// defined texture for video) and the buffer has to be returned back (released).
+// Neither input nor output dequeue operations are guaranteed to succeed: the
+// codec might not have available input buffers yet, or not every encoded buffer
+// has arrived to complete an output frame. In such case the client should try
+// to dequeue a buffer again at a later time.
+//
+// There is also a special situation related to an encrypted stream, where the
+// enqueuing of a filled input buffer might fail due to lack of the relevant key
+// in the CDM module.  While MediaCodecLoop does not handle the CDM directly,
+// it does understand the codec state.
+//
+// Much of that logic is common to all users of MediaCodec.  The MediaCodecLoop
+// provides the main driver loop to talk to MediaCodec.  Via the Client
+// interface, MediaCodecLoop can request input data, send output buffers, etc.
+// MediaCodecLoop does not construct a MediaCodec, but instead takes ownership
+// of one that it provided during construction.
+//
+// Although one can specify a delay in the MediaCodec's dequeue operations,
+// this implementation follows the simple logic which is similar to
+// AndroidVideoDecodeAccelerator: no delay for either input or output buffers,
+// the processing is initated by the timer with short period (10 ms). Using no
+// delay for enqueue operations has an extra benefit of not blocking the current
+// thread.
+//
+// This implementation detects the MediaCodec idle run (no input or output

[watk, 2016/06/15 00:29:18]

"detects the MediaCodec idle run" could be made clearer.

[liberato (no reviews please), 2016/06/15 20:27:30]

Done.

+// buffer processing) and after being idle for a predefined time the timer
+// stops.  The client is responsible for signalling us to wake up via a call
+// to DoIOTask.  It is okay for the client to call this even when the timer is
+// already running.
+//
+// The current implementation is single threaded. Every method is supposed to
+// run on the same thread.
+//
+// State diagram.
+//
+//  [Ready]
+//     |
+// (MediaCodec error)
+//     |
+//   [Error]
+//
+//  [Ready]
+//     |
+// (EOS enqueued)
+//     |
+//  [Draining]
+//     |
+// (EOS dequeued on output)
+//     |
+//   [Drained]
+//
+//      [Ready]
+//         |
+// (MEDIA_CODEC_NO_KEY)
+//         |
+//   [WaitingForKey]
+//         |
+//    (OnKeyAdded)
+//         |
+//      [Ready]
+//
+//     -[Any state]-
+//    |             |
+// (Flush ok) (Flush fails)
+//    |             |
+// [Ready]       [Error]
+
+namespace base {
+class SingleThreadTaskRunner;
+}
+
+namespace media {
+
+class MEDIA_EXPORT MediaCodecLoop {
+ public:
+  // TODO(liberato): this exists in video_decoder.h and audio_decoder.h too.
+  using InitCB = base::Callback<void(bool success)>;
+  using DecodeCB = base::Callback<void(DecodeStatus status)>;
+
+  // Data that the client wants to put into an input buffer.
+  struct InputData {
+    InputData();
+    InputData(const InputData&);
+    ~InputData();
+
+    const uint8_t* memory = nullptr;
+    size_t length = 0;
+
+    std::string key_id;
+    std::string iv;
+    std::vector<SubsampleEntry> subsamples;
+
+    base::TimeDelta presentation_time;
+
+    // Called when this is queued.
+    DecodeCB completion_cb;
+
+    bool is_eos = false;
+    bool is_encrypted = false;
+  };
+
+  // Handy enum for "no buffer".
+  enum { kInvalidBufferIndex = -1 };
+
+  // Information about a MediaCodec output buffer.
+  struct OutputBuffer {
+    // The codec output buffers are referred to by this index.
+    int index = kInvalidBufferIndex;
+
+    // Position in the buffer where data starts.
+    size_t offset = 0;
+
+    // The size of the buffer (includes offset).
+    size_t size = 0;
+
+    // Presentation timestamp.
+    base::TimeDelta pts;
+
+    // True if this buffer is the end of stream.
+    bool is_eos = false;
+
+    // True if this buffer is a key frame.
+    bool is_key_frame = false;
+  };
+
+  class Client {
+   public:
+    // Return true if and only if there is input that is pending to be
+    // queued with MediaCodec.  ProvideInputData() will not be called more than
+    // once in response to this returning true once.  It is not guaranteed that
+    // ProvideInputData will be called at all.
+    virtual bool IsAnyInputPending() const = 0;
+
+    // Fills and returns an input buffer for MediaCodecLoop to queue.  It is
+    // an error for MediaCodecLoop to call this while !IsAnyInputPending().
+    virtual InputData ProvideInputData() = 0;
+
+    // Called when an EOS buffer is dequeued from the output.
+    virtual void OnDecodedEos(const OutputBuffer& out) = 0;
+
+    // Processes the output buffer after it comes from MediaCodec.  The client
+    // has the responsibility to release the codec buffer, though it doesn't
+    // need to do so before this call returns.  If it does not do so before
+    // returning, then the client must call DoIOTask when it does release it.
+    // If this returns false, then we transition to STATE_ERROR.
+    virtual bool OnDecodedFrame(const OutputBuffer& out) = 0;
+
+    // Processes the output format change on |media_codec|.  Returns true on
+    // success, or false to transition to the error state.
+    virtual bool OnOutputFormatChanged() = 0;
+
+    // Notify the client when our state transitions to STATE_ERROR.
+    virtual void OnCodecLoopError() = 0;
+
+   protected:
+    virtual ~Client() {}
+  };
+
+  // We will take ownership of |media_codec|.  We will not destroy it until
+  // we are destructed.  |media_codec| may not be null.
+  MediaCodecLoop(Client* client,
+                 std::unique_ptr<MediaCodecBridge>&& media_codec);
+  ~MediaCodecLoop();
+
+  // Does the MediaCodec processing cycle: enqueues an input buffer, then
+  // dequeues output buffers.  This should be called by the client when more
+  // work becomes available, such as when new input data arrives.  If codec
+  // output buffers are freed after OnDecodedFrame returns, then this should
+  // also be called.
+  void DoIOTask();
+
+  // Try to flush this media codec.  Returns true on success, false on failure.
+  // Failures can result in a state change to the Error state.  If this returns
+  // false but the state is still READY, then the codec may continue to be used.
+  bool TryFlush();
+
+  // Callback called by the client when a new key is available.  This allows
+  // decoding to resume if it was stopped in the WAITING_FOR_KEY state.
+  void OnKeyAdded();
+
+  // Return our codec.  It is guaranteed that this will be non-null.
+  MediaCodecBridge* GetCodec() const;
+
+ protected:
+  enum State {
+    STATE_READY,
+    STATE_WAITING_FOR_KEY,
+    STATE_DRAINING,
+    STATE_DRAINED,
+    STATE_ERROR,
+  };
+
+  // Information about dequeued input buffer.
+  struct InputBuffer {
+    InputBuffer() {}
+    InputBuffer(int i, bool p) : index(i), is_pending(p) {}
+
+    // The codec input buffers are referred to by this index.
+    int index = kInvalidBufferIndex;
+
+    // True if we tried to enqueue this buffer before.
+    bool is_pending = false;
+  };
+
+  // Enqueues one pending input buffer into MediaCodec if MediaCodec has room,
+  // and if the client has any input to give us.
+  // Returns true if any input was processed.
+  bool ProcessOneInputBuffer();
+
+  // Get data for |input_buffer| from the client and queue it.
+  void EnqueueInputBuffer(const InputBuffer& input_buffer);
+
+  // Dequeues an empty input buffer from the codec and returns the information
+  // about it. InputBuffer.index is the index of the dequeued buffer or -1 if
+  // the codec is busy or an error occured.  InputBuffer.is_pending is set to
+  // true if we tried to enqueue this buffer before. In this case the buffer is
+  // already filled with data.
+  // In the case of an error sets STATE_ERROR.
+  InputBuffer DequeueInputBuffer();
+
+  // Dequeues one output buffer from MediaCodec if it is immediately available,
+  // and sends it to the client.
+  // Returns true if an output buffer was received from MediaCodec.
+  bool ProcessOneOutputBuffer();
+
+  // Start the timer immediately if |start| is true or stop it based on elapsed
+  // idle time if |start| is false.
+  void ManageTimer(bool start);
+
+  // Helper method to change the state.
+  void SetState(State new_state);
+
+  // A helper function for logging.
+  static const char* AsString(State state);
+
+  // Used to post tasks. This class is single threaded and every method should
+  // run on this task runner.
+  scoped_refptr<base::SingleThreadTaskRunner> task_runner_;
+
+  State state_;
+
+  // The client that we notify about MediaCodec events.
+  Client* client_;
+
+  // The MediaCodec instance that we're using.
+  std::unique_ptr<MediaCodecBridge> media_codec_;
+
+  // Repeating timer that kicks MediaCodec operation.
+  base::RepeatingTimer io_timer_;
+
+  // Time at which we last did useful work on |io_timer_|.
+  base::TimeTicks idle_time_begin_;
+
+  // Index of the dequeued and filled buffer that we keep trying to enqueue.
+  // Such buffer appears in MEDIA_CODEC_NO_KEY processing. The -1 value means
+  // there is no such buffer.
+  int pending_input_buf_index_;
+
+  // When processing a pending input bfufer, this is the data that was returned
+  // to us by the client.  |memory| has been cleared, since the codec has it.
+  InputData pending_input_buf_data_;
+
+  // When an EOS is queued, we defer its completion callback until the EOS
+  // arrives at the output queue.  This is valid when we're in STATE_DRAINING.
+  DecodeCB pending_eos_completion_cb_;
+
+  // NOTE: Weak pointers must be invalidated before all other member variables.
+  base::WeakPtrFactory<MediaCodecLoop> weak_factory_;
+
+  DISALLOW_COPY_AND_ASSIGN(MediaCodecLoop);
+};
+
+}  // namespace media
+
+#endif  // MEDIA_BASE_ANDROID_MEDIA_CODEC_LOOP_H_