media/blink/multibuffer_reader.h - chromium/src - Git at Google

 // Copyright 2015 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_BLINK_MULTIBUFFER_READER_H_
 #define MEDIA_BLINK_MULTIBUFFER_READER_H_

 #include <stdint.h>

 #include <limits>
 #include <map>
 #include <set>

 #include "base/callback.h"
 #include "base/memory/weak_ptr.h"
 #include "media/blink/media_blink_export.h"
 #include "media/blink/multibuffer.h"

 namespace media {

 // Wrapper for MultiBuffer that offers a simple byte-reading
 // interface with prefetch.
 class MEDIA_BLINK_EXPORT MultiBufferReader : public MultiBuffer::Reader {
  public:
   // Note that |progress_callback| is guaranteed to be called if
   // a redirect happens and the url_data is updated. Otherwise
   // origin checks will become insecure.
   // Users probably want to call SetMaxBuffer & SetPreload after
   // creating the a MultiBufferReader.
   // The progress callback will be called when the "available range"
   // changes. (The number of bytes available for reading before and
   // after the current position.) The arguments for the progress
   // callback is the first byte available (from beginning of file)
   // and the last byte available + 1. Note that there may be other
   // regions of available data in the cache as well.
   // If |end| is not known, use -1.
   MultiBufferReader(
       MultiBuffer* multibuffer,
       int64_t start,
       int64_t end,
       const base::Callback<void(int64_t, int64_t)>& progress_callback);

   ~MultiBufferReader() override;

   // Returns number of bytes available for reading. At position |pos|
   // When the rest of the file is available, the number returned will
   // be greater than the number or readable bytes. If an error occurs,
   // -1 is returned.
   int64_t AvailableAt(int64_t pos) const;

   // Returns number of bytes available for reading at the current position.
   int64_t Available() const { return AvailableAt(pos_); }

   // Seek to a different position.
   // If there is a pending Wait(), it will be cancelled.
   void Seek(int64_t pos);

   // Returns the current position.
   int64_t Tell() const { return pos_; }

   // Tries to read |len| bytes from position |pos|.
   // Returns number of bytes read.
   // Safe to call from any thread.
   int64_t TryReadAt(int64_t pos, uint8_t* data, int64_t len);

   // Tries to read |len| bytes and update current position.
   // Returns number of bytes read.
   int64_t TryRead(uint8_t* data, int64_t len);

   // Wait until |len| bytes are available for reading.
   // Returns net::OK if |len| bytes are already available, otherwise it will
   // return net::ERR_IO_PENDING and call |cb| at some point later.
   // |len| must be smaller or equal to max_buffer_forward.
   int Wait(int64_t len, const base::Closure& cb);

   // Set how much data we try to preload into the cache ahead of our current
   // location. Normally, we preload until we have preload_high bytes, then
   // stop until we fall below preload_low bytes. Note that preload can be
   // set higher than max_buffer_forward, but the result is usually that
   // some blocks will be freed between the current position and the preload
   // position.
   void SetPreload(int64_t preload_high, int64_t preload_low);

   // Change how much data we pin to the cache.
   // The range [current_position - backward ... current_position + forward)
   // will be locked in the cache. Calling Wait() or TryRead() with values
   // larger than |forward| is not supported.
   void SetPinRange(int64_t backward, int64_t forward);

   // Set how much memory usage we target. This memory is added to the global
   // LRU and shared between all multibuffers. We may end up using more memory
   // if no memory can be freed due to pinning.
   void SetMaxBuffer(int64_t bytes);

   // Returns true if we are currently loading data.
   bool IsLoading() const;

   // Reader implementation.
   void NotifyAvailableRange(const Interval<MultiBufferBlockId>& range) override;

   // Getters
   int64_t preload_high() const { return preload_high_; }
   int64_t preload_low() const { return preload_low_; }

   // Setters
   void SetIsClientAudioElement(bool is_client_audio_element) {
     is_client_audio_element_ = is_client_audio_element;
   }

  private:
   friend class MultibufferDataSourceTest;

   // Returns the block for a particular byte position.
   MultiBufferBlockId block(int64_t byte_pos) const {
     return byte_pos >> multibuffer_->block_size_shift();
   }

   // Returns the block for a particular byte position, rounding up.
   MultiBufferBlockId block_ceil(int64_t byte_pos) const {
     return block(byte_pos + (1LL << multibuffer_->block_size_shift()) - 1);
   }

   // Unpin previous range, then pin the new range.
   void PinRange(MultiBuffer::BlockId begin, MultiBuffer::BlockId end);

   // Check if wait operation can complete now.
   void CheckWait();

   // Recalculate preload_pos_ and update our entry in the multibuffer
   // reader index. Also call CheckWait(). This function is basically
   // called anything changes, like when we get more data or seek to
   // a new position.
   void UpdateInternalState();

   // Update end_ if p-1 contains an end-of-stream block.
   void UpdateEnd(MultiBufferBlockId p);

   // Indirection function used to call callbacks. When we post a callback
   // we indirect it through a weak_ptr and this function to make sure we
   // don't call any callbacks after this object has been destroyed.
   void Call(const base::Closure& cb) const;

   // The multibuffer we're wrapping, not owned.
   MultiBuffer* multibuffer_;

   // We're not interested in reading past this position.
   int64_t end_;

   // Defer reading once we have this much data.
   int64_t preload_high_;
   // Stop deferring once we have this much data.
   int64_t preload_low_;

   // Pin this much data in the cache from the current position.
   int64_t max_buffer_forward_;
   int64_t max_buffer_backward_;

   // The amount of buffer we've added to the global LRU.
   int64_t current_buffer_size_;

   // Currently pinned range.
   Interval<MultiBuffer::BlockId> pinned_range_;

   // Current position in bytes.
   int64_t pos_;

   // Is the client an audio element?
   bool is_client_audio_element_ = false;

   // [block(pos_)..preload_pos_) are known to be in the cache.
   // preload_pos_ is only allowed to point to a filled
   // cache position if it is equal to end_ or pos_+preload_.
   // This is a pointer to a slot in the cache, so the unit is
   // blocks.
   MultiBufferBlockId preload_pos_;

   // True if we've requested data from the cache by calling WaitFor().
   bool loading_;

   // When Available() > current_wait_size_ we call cb_.
   int64_t current_wait_size_;
   base::Closure cb_;

   // Progress callback.
   base::Callback<void(int64_t, int64_t)> progress_callback_;

   base::WeakPtrFactory<MultiBufferReader> weak_factory_;
 };

 }  // namespace media

 #endif  // MEDIA_BLINK_MULTIBUFFER_READER_H_
	// Copyright 2015 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_BLINK_MULTIBUFFER_READER_H_
	#define MEDIA_BLINK_MULTIBUFFER_READER_H_

	#include <stdint.h>

	#include <limits>
	#include <map>
	#include <set>

	#include "base/callback.h"
	#include "base/memory/weak_ptr.h"
	#include "media/blink/media_blink_export.h"
	#include "media/blink/multibuffer.h"

	namespace media {

	// Wrapper for MultiBuffer that offers a simple byte-reading
	// interface with prefetch.
	class MEDIA_BLINK_EXPORT MultiBufferReader : public MultiBuffer::Reader {
	public:
	// Note that \|progress_callback\| is guaranteed to be called if
	// a redirect happens and the url_data is updated. Otherwise
	// origin checks will become insecure.
	// Users probably want to call SetMaxBuffer & SetPreload after
	// creating the a MultiBufferReader.
	// The progress callback will be called when the "available range"
	// changes. (The number of bytes available for reading before and
	// after the current position.) The arguments for the progress
	// callback is the first byte available (from beginning of file)
	// and the last byte available + 1. Note that there may be other
	// regions of available data in the cache as well.
	// If \|end\| is not known, use -1.
	MultiBufferReader(
	MultiBuffer* multibuffer,
	int64_t start,
	int64_t end,
	const base::Callback<void(int64_t, int64_t)>& progress_callback);

	~MultiBufferReader() override;

	// Returns number of bytes available for reading. At position \|pos\|
	// When the rest of the file is available, the number returned will
	// be greater than the number or readable bytes. If an error occurs,
	// -1 is returned.
	int64_t AvailableAt(int64_t pos) const;

	// Returns number of bytes available for reading at the current position.
	int64_t Available() const { return AvailableAt(pos_); }

	// Seek to a different position.
	// If there is a pending Wait(), it will be cancelled.
	void Seek(int64_t pos);

	// Returns the current position.
	int64_t Tell() const { return pos_; }

	// Tries to read \|len\| bytes from position \|pos\|.
	// Returns number of bytes read.
	// Safe to call from any thread.
	int64_t TryReadAt(int64_t pos, uint8_t* data, int64_t len);

	// Tries to read \|len\| bytes and update current position.
	// Returns number of bytes read.
	int64_t TryRead(uint8_t* data, int64_t len);

	// Wait until \|len\| bytes are available for reading.
	// Returns net::OK if \|len\| bytes are already available, otherwise it will
	// return net::ERR_IO_PENDING and call \|cb\| at some point later.
	// \|len\| must be smaller or equal to max_buffer_forward.
	int Wait(int64_t len, const base::Closure& cb);

	// Set how much data we try to preload into the cache ahead of our current
	// location. Normally, we preload until we have preload_high bytes, then
	// stop until we fall below preload_low bytes. Note that preload can be
	// set higher than max_buffer_forward, but the result is usually that
	// some blocks will be freed between the current position and the preload
	// position.
	void SetPreload(int64_t preload_high, int64_t preload_low);

	// Change how much data we pin to the cache.
	// The range [current_position - backward ... current_position + forward)
	// will be locked in the cache. Calling Wait() or TryRead() with values
	// larger than \|forward\| is not supported.
	void SetPinRange(int64_t backward, int64_t forward);

	// Set how much memory usage we target. This memory is added to the global
	// LRU and shared between all multibuffers. We may end up using more memory
	// if no memory can be freed due to pinning.
	void SetMaxBuffer(int64_t bytes);

	// Returns true if we are currently loading data.
	bool IsLoading() const;

	// Reader implementation.
	void NotifyAvailableRange(const Interval<MultiBufferBlockId>& range) override;

	// Getters
	int64_t preload_high() const { return preload_high_; }
	int64_t preload_low() const { return preload_low_; }

	// Setters
	void SetIsClientAudioElement(bool is_client_audio_element) {
	is_client_audio_element_ = is_client_audio_element;
	}

	private:
	friend class MultibufferDataSourceTest;

	// Returns the block for a particular byte position.
	MultiBufferBlockId block(int64_t byte_pos) const {
	return byte_pos >> multibuffer_->block_size_shift();
	}

	// Returns the block for a particular byte position, rounding up.
	MultiBufferBlockId block_ceil(int64_t byte_pos) const {
	return block(byte_pos + (1LL << multibuffer_->block_size_shift()) - 1);
	}

	// Unpin previous range, then pin the new range.
	void PinRange(MultiBuffer::BlockId begin, MultiBuffer::BlockId end);

	// Check if wait operation can complete now.
	void CheckWait();

	// Recalculate preload_pos_ and update our entry in the multibuffer
	// reader index. Also call CheckWait(). This function is basically
	// called anything changes, like when we get more data or seek to
	// a new position.
	void UpdateInternalState();

	// Update end_ if p-1 contains an end-of-stream block.
	void UpdateEnd(MultiBufferBlockId p);

	// Indirection function used to call callbacks. When we post a callback
	// we indirect it through a weak_ptr and this function to make sure we
	// don't call any callbacks after this object has been destroyed.
	void Call(const base::Closure& cb) const;

	// The multibuffer we're wrapping, not owned.
	MultiBuffer* multibuffer_;

	// We're not interested in reading past this position.
	int64_t end_;

	// Defer reading once we have this much data.
	int64_t preload_high_;
	// Stop deferring once we have this much data.
	int64_t preload_low_;

	// Pin this much data in the cache from the current position.
	int64_t max_buffer_forward_;
	int64_t max_buffer_backward_;

	// The amount of buffer we've added to the global LRU.
	int64_t current_buffer_size_;

	// Currently pinned range.
	Interval<MultiBuffer::BlockId> pinned_range_;

	// Current position in bytes.
	int64_t pos_;

	// Is the client an audio element?
	bool is_client_audio_element_ = false;

	// [block(pos_)..preload_pos_) are known to be in the cache.
	// preload_pos_ is only allowed to point to a filled
	// cache position if it is equal to end_ or pos_+preload_.
	// This is a pointer to a slot in the cache, so the unit is
	// blocks.
	MultiBufferBlockId preload_pos_;

	// True if we've requested data from the cache by calling WaitFor().
	bool loading_;

	// When Available() > current_wait_size_ we call cb_.
	int64_t current_wait_size_;
	base::Closure cb_;

	// Progress callback.
	base::Callback<void(int64_t, int64_t)> progress_callback_;

	base::WeakPtrFactory<MultiBufferReader> weak_factory_;
	};

	} // namespace media

	#endif // MEDIA_BLINK_MULTIBUFFER_READER_H_