net/filter/filter.h - chromium/src - Git at Google

 // Copyright 2014 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.
 //
 // Filter performs filtering on data streams. Sample usage:
 //
 //   IStream* pre_filter_source;
 //   ...
 //   Filter* filter = Filter::Factory(filter_type, size);
 //   int pre_filter_data_len = filter->stream_buffer_size();
 //   pre_filter_source->read(filter->stream_buffer(), pre_filter_data_len);
 //
 //   filter->FlushStreamBuffer(pre_filter_data_len);
 //
 //   char post_filter_buf[kBufferSize];
 //   int post_filter_data_len = kBufferSize;
 //   filter->ReadFilteredData(post_filter_buf, &post_filter_data_len);
 //
 // To filter a data stream, the caller first gets filter's stream_buffer_
 // through its accessor and fills in stream_buffer_ with pre-filter data, next
 // calls FlushStreamBuffer to notify Filter, then calls ReadFilteredData
 // repeatedly to get all the filtered data. After all data have been filtered
 // and read out, the caller may fill in stream_buffer_ again. This
 // WriteBuffer-Flush-Read cycle is repeated until reaching the end of data
 // stream.
 //
 // A return of FILTER_OK from ReadData() means that more data is
 // available to a future ReadData() call and data may not be written
 // into stream_buffer(). A return of FILTER_NEED_MORE_DATA from ReadData()
 // indicates that no data will be forthcoming from the filter until
 // it receives more input data, and that the buffer at
 // stream_buffer() may be written to.
 //
 // The filter being complete (no more data to provide) may be indicated
 // by either returning FILTER_DONE or by returning FILTER_OK and indicating
 // zero bytes output; consumers understand both those signals. Consumers
 // are responsible for not calling ReadData() on a filter after one of these
 // signals have been returned. Note that some filters may never signal that
 // they are done (e.g. a pass-through filter will always
 // say FILTER_NEED_MORE_DATA), so the consumer will also need to
 // recognize the state of |no_more_input_data_available &&
 // filter->stream_data_len() == 0| as FILTER_DONE.
 //
 // The lifetime of a Filter instance is completely controlled by its caller.

 #ifndef NET_FILTER_FILTER_H__
 #define NET_FILTER_FILTER_H__

 #include <stdint.h>

 #include <string>
 #include <vector>

 #include "base/gtest_prod_util.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/time/time.h"
 #include "net/base/net_export.h"
 #include "net/base/sdch_manager.h"

 class GURL;

 namespace net {

 class BoundNetLog;
 class IOBuffer;
 class URLRequestContext;

 //------------------------------------------------------------------------------
 // Define an interface class that allows access to contextual information
 // supplied by the owner of this filter. In the case where there are a chain of
 // filters, there is only one owner of all the chained filters, and that context
 // is passed to the constructor of all those filters. To be clear, the context
 // does NOT reflect the position in a chain, or the fact that there are prior
 // or later filters in a chain.
 //
 // TODO(rdsmith): FilterContext is a grab-bag of methods which may or may
 // not be relevant for any particular filter, and it's getting worse over
 // time. In addition, it only supports two filters, SDCH and gzip.
 // It would make more sense to implement FilterContext as a
 // base::SupportsUserData structure to which filter-specific information
 // could be added by whatever the ultimate consumer of the filter chain is,
 // and a particular filter (if included) could access that information.
 class NET_EXPORT_PRIVATE FilterContext {
  public:
   // Enum to control what histograms are emitted near end-of-life of this
   // instance.
   enum StatisticSelector {
     SDCH_DECODE,
     SDCH_PASSTHROUGH,
     SDCH_EXPERIMENT_DECODE,
     SDCH_EXPERIMENT_HOLDBACK,
   };

   virtual ~FilterContext();

   // What mime type was specified in the header for this data?
   // Only makes senses for some types of contexts, and returns false
   // when not applicable.
   virtual bool GetMimeType(std::string* mime_type) const = 0;

   // What URL was used to access this data?
   // Return false if gurl is not present.
   virtual bool GetURL(GURL* gurl) const = 0;

   // When was this data requested from a server?
   virtual base::Time GetRequestTime() const = 0;

   // Is data supplied from cache, or fresh across the net?
   virtual bool IsCachedContent() const = 0;

   // Was this data flagged as a response to a request with an SDCH dictionary?
   virtual SdchManager::DictionarySet* SdchDictionariesAdvertised() const = 0;

   // How many bytes were read from the net or cache so far (and potentially
   // pushed into a filter for processing)?
   virtual int64_t GetByteReadCount() const = 0;

   // What response code was received with the associated network transaction?
   // For example: 200 is ok.  4xx are error codes. etc.
   virtual int GetResponseCode() const = 0;

   // The URLRequestContext associated with the request.
   virtual const URLRequestContext* GetURLRequestContext() const = 0;

   // The following method forces the context to emit a specific set of
   // statistics as selected by the argument.
   virtual void RecordPacketStats(StatisticSelector statistic) const = 0;

   // The BoundNetLog of the associated request.
   virtual const BoundNetLog& GetNetLog() const = 0;
 };

 //------------------------------------------------------------------------------
 class NET_EXPORT_PRIVATE Filter {
  public:
   // Return values of function ReadFilteredData.
   enum FilterStatus {
     // Read filtered data successfully
     FILTER_OK,
     // Read filtered data successfully, and the data in the buffer has been
     // consumed by the filter, but more data is needed in order to continue
     // filtering. At this point, the caller is free to reuse the filter
     // buffer to provide more data.
     FILTER_NEED_MORE_DATA,
     // Read filtered data successfully, and filter reaches the end of the data
     // stream.
     FILTER_DONE,
     // There is an error during filtering.
     FILTER_ERROR
   };

   // Specifies type of filters that can be created.  Do not change the values
   // of this enum; it is preserved in a histogram.
   enum FilterType {
     FILTER_TYPE_BROTLI,
     FILTER_TYPE_DEFLATE,
     FILTER_TYPE_GZIP,
     FILTER_TYPE_GZIP_HELPING_SDCH,  // Gzip possible, but pass through allowed.
     FILTER_TYPE_SDCH,
     FILTER_TYPE_SDCH_POSSIBLE,  // Sdch possible, but pass through allowed.
     FILTER_TYPE_UNSUPPORTED,

     FILTER_TYPE_MAX
   };

   virtual ~Filter();

   // Creates a Filter object.
   // Parameters: Filter_types specifies the type of filter created;
   // filter_context allows filters to acquire additional details needed for
   // construction and operation, such as a specification of requisite input
   // buffer size.
   // If success, the function returns the pointer to the Filter object created.
   // If failed or a filter is not needed, the function returns NULL.
   //
   // Note: filter_types is an array of filter types (content encoding types as
   // provided in an HTTP header), which will be chained together serially to do
   // successive filtering of data. The types in the vector are ordered based on
   // encoding order, and the filters are chained to operate in the reverse
   // (decoding) order. For example, types[0] = FILTER_TYPE_SDCH,
   // types[1] = FILTER_TYPE_GZIP will cause data to first be gunzip filtered,
   // and the resulting output from that filter will be sdch decoded.
   static Filter* Factory(const std::vector<FilterType>& filter_types,
                          const FilterContext& filter_context);

   // A simpler version of Factory() which creates a single, unchained
   // Filter of type FILTER_TYPE_GZIP, or NULL if the filter could not be
   // initialized.
   static Filter* GZipFactory();

   // External call to obtain data from this filter chain. If ther is no
   // next_filter_, then it obtains data from this specific filter.
   FilterStatus ReadData(char* dest_buffer, int* dest_len);

   // Returns a pointer to the stream_buffer_.
   IOBuffer* stream_buffer() const { return stream_buffer_.get(); }

   // Returns the maximum size of stream_buffer_ in number of chars.
   int stream_buffer_size() const { return stream_buffer_size_; }

   // Returns the total number of chars remaining in stream_buffer_ to be
   // filtered.
   //
   // If the function returns 0 then all data has been filtered, and the caller
   // is safe to copy new data into stream_buffer_.
   int stream_data_len() const { return stream_data_len_; }

   // Flushes stream_buffer_ for next round of filtering. After copying data to
   // stream_buffer_, the caller should call this function to notify Filter to
   // start filtering. Then after this function is called, the caller can get
   // post-filtered data using ReadFilteredData. The caller must not write to
   // stream_buffer_ and call this function again before stream_buffer_ is
   // emptied out by ReadFilteredData.
   //
   // The input stream_data_len is the length (in number of chars) of valid
   // data in stream_buffer_. It can not be greater than stream_buffer_size_.
   // The function returns true if success, and false otherwise.
   bool FlushStreamBuffer(int stream_data_len);

   // Translate the text of a filter name (from Content-Encoding header) into a
   // FilterType.
   static FilterType ConvertEncodingToType(const std::string& filter_type);

   // Given a array of encoding_types, try to do some error recovery adjustment
   // to the list. This includes handling known bugs in the Apache server (where
   // redundant gzip encoding is specified), as well as issues regarding SDCH
   // encoding, where various proxies and anti-virus products modify or strip the
   // encodings. These fixups require context, which includes whether this
   // response was made to an SDCH request (i.e., an available dictionary was
   // advertised in the GET), as well as the mime type of the content.
   static void FixupEncodingTypes(const FilterContext& filter_context,
                                  std::vector<FilterType>* encoding_types);

   // Returns a string describing the FilterTypes implemented by this filter.
   std::string OrderedFilterList() const;

   FilterType type() const { return type_id_; }

  protected:
   friend class BrotliUnitTest;
   friend class GZipUnitTest;
   friend class SdchFilterChainingTest;
   FRIEND_TEST_ALL_PREFIXES(FilterTest, ThreeFilterChain);

   explicit Filter(FilterType type_id);

   // Filters the data stored in stream_buffer_ and writes the output into the
   // dest_buffer passed in.
   //
   // Upon entry, *dest_len is the total size (in number of chars) of the
   // destination buffer. Upon exit, *dest_len is the actual number of chars
   // written into the destination buffer.
   //
   // This function will fail if there is no pre-filter data in the
   // stream_buffer_. On the other hand, *dest_len can be 0 upon successful
   // return. For example, a decoding filter may process some pre-filter data
   // but not produce output yet.
   virtual FilterStatus ReadFilteredData(char* dest_buffer, int* dest_len) = 0;

   // Copy pre-filter data directly to destination buffer without decoding.
   FilterStatus CopyOut(char* dest_buffer, int* dest_len);

   FilterStatus last_status() const { return last_status_; }

   // Buffer to hold the data to be filtered (the input queue).
   scoped_refptr<IOBuffer> stream_buffer_;

   // Maximum size of stream_buffer_ in number of chars.
   int stream_buffer_size_;

   // Pointer to the next data in stream_buffer_ to be filtered.
   char* next_stream_data_;

   // Total number of remaining chars in stream_buffer_ to be filtered.
   int stream_data_len_;

  private:
   // Allocates and initializes stream_buffer_ and stream_buffer_size_.
   void InitBuffer(int size);

   // A factory helper for creating filters for within a chain of potentially
   // multiple encodings. If a chain of filters is created, then this may be
   // called multiple times during the filter creation process. In most simple
   // cases, this is only called once. Returns NULL and cleans up (deleting
   // filter_list) if a new filter can't be constructed.
   static Filter* PrependNewFilter(FilterType type_id,
                                   const FilterContext& filter_context,
                                   int buffer_size,
                                   Filter* filter_list);

   // Helper methods for PrependNewFilter. If initialization is successful,
   // they return a fully initialized Filter. Otherwise, return NULL.
   static Filter* InitBrotliFilter(FilterType type_id, int buffer_size);
   static Filter* InitGZipFilter(FilterType type_id, int buffer_size);
   static Filter* InitSdchFilter(FilterType type_id,
                                 const FilterContext& filter_context,
                                 int buffer_size);

   // Helper function to empty our output into the next filter's input.
   void PushDataIntoNextFilter();

   // Constructs a filter with an internal buffer of the given size.
   // Only meant to be called by unit tests that need to control the buffer size.
   static Filter* FactoryForTests(const std::vector<FilterType>& filter_types,
                                  const FilterContext& filter_context,
                                  int buffer_size);

   // An optional filter to process output from this filter.
   scoped_ptr<Filter> next_filter_;

   // Remember what status or local filter last returned so we can better handle
   // chained filters.
   FilterStatus last_status_;

   // The filter type this filter was constructed from.
   FilterType type_id_;

   DISALLOW_COPY_AND_ASSIGN(Filter);
 };

 }  // namespace net

 #endif  // NET_FILTER_FILTER_H__
	// Copyright 2014 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.
	//
	// Filter performs filtering on data streams. Sample usage:
	//
	// IStream* pre_filter_source;
	// ...
	// Filter* filter = Filter::Factory(filter_type, size);
	// int pre_filter_data_len = filter->stream_buffer_size();
	// pre_filter_source->read(filter->stream_buffer(), pre_filter_data_len);
	//
	// filter->FlushStreamBuffer(pre_filter_data_len);
	//
	// char post_filter_buf[kBufferSize];
	// int post_filter_data_len = kBufferSize;
	// filter->ReadFilteredData(post_filter_buf, &post_filter_data_len);
	//
	// To filter a data stream, the caller first gets filter's stream_buffer_
	// through its accessor and fills in stream_buffer_ with pre-filter data, next
	// calls FlushStreamBuffer to notify Filter, then calls ReadFilteredData
	// repeatedly to get all the filtered data. After all data have been filtered
	// and read out, the caller may fill in stream_buffer_ again. This
	// WriteBuffer-Flush-Read cycle is repeated until reaching the end of data
	// stream.
	//
	// A return of FILTER_OK from ReadData() means that more data is
	// available to a future ReadData() call and data may not be written
	// into stream_buffer(). A return of FILTER_NEED_MORE_DATA from ReadData()
	// indicates that no data will be forthcoming from the filter until
	// it receives more input data, and that the buffer at
	// stream_buffer() may be written to.
	//
	// The filter being complete (no more data to provide) may be indicated
	// by either returning FILTER_DONE or by returning FILTER_OK and indicating
	// zero bytes output; consumers understand both those signals. Consumers
	// are responsible for not calling ReadData() on a filter after one of these
	// signals have been returned. Note that some filters may never signal that
	// they are done (e.g. a pass-through filter will always
	// say FILTER_NEED_MORE_DATA), so the consumer will also need to
	// recognize the state of \|no_more_input_data_available &&
	// filter->stream_data_len() == 0\| as FILTER_DONE.
	//
	// The lifetime of a Filter instance is completely controlled by its caller.

	#ifndef NET_FILTER_FILTER_H__
	#define NET_FILTER_FILTER_H__

	#include <stdint.h>

	#include <string>
	#include <vector>

	#include "base/gtest_prod_util.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/time/time.h"
	#include "net/base/net_export.h"
	#include "net/base/sdch_manager.h"

	class GURL;

	namespace net {

	class BoundNetLog;
	class IOBuffer;
	class URLRequestContext;

	//------------------------------------------------------------------------------
	// Define an interface class that allows access to contextual information
	// supplied by the owner of this filter. In the case where there are a chain of
	// filters, there is only one owner of all the chained filters, and that context
	// is passed to the constructor of all those filters. To be clear, the context
	// does NOT reflect the position in a chain, or the fact that there are prior
	// or later filters in a chain.
	//
	// TODO(rdsmith): FilterContext is a grab-bag of methods which may or may
	// not be relevant for any particular filter, and it's getting worse over
	// time. In addition, it only supports two filters, SDCH and gzip.
	// It would make more sense to implement FilterContext as a
	// base::SupportsUserData structure to which filter-specific information
	// could be added by whatever the ultimate consumer of the filter chain is,
	// and a particular filter (if included) could access that information.
	class NET_EXPORT_PRIVATE FilterContext {
	public:
	// Enum to control what histograms are emitted near end-of-life of this
	// instance.
	enum StatisticSelector {
	SDCH_DECODE,
	SDCH_PASSTHROUGH,
	SDCH_EXPERIMENT_DECODE,
	SDCH_EXPERIMENT_HOLDBACK,
	};

	virtual ~FilterContext();

	// What mime type was specified in the header for this data?
	// Only makes senses for some types of contexts, and returns false
	// when not applicable.
	virtual bool GetMimeType(std::string* mime_type) const = 0;

	// What URL was used to access this data?
	// Return false if gurl is not present.
	virtual bool GetURL(GURL* gurl) const = 0;

	// When was this data requested from a server?
	virtual base::Time GetRequestTime() const = 0;

	// Is data supplied from cache, or fresh across the net?
	virtual bool IsCachedContent() const = 0;

	// Was this data flagged as a response to a request with an SDCH dictionary?
	virtual SdchManager::DictionarySet* SdchDictionariesAdvertised() const = 0;

	// How many bytes were read from the net or cache so far (and potentially
	// pushed into a filter for processing)?
	virtual int64_t GetByteReadCount() const = 0;

	// What response code was received with the associated network transaction?
	// For example: 200 is ok. 4xx are error codes. etc.
	virtual int GetResponseCode() const = 0;

	// The URLRequestContext associated with the request.
	virtual const URLRequestContext* GetURLRequestContext() const = 0;

	// The following method forces the context to emit a specific set of
	// statistics as selected by the argument.
	virtual void RecordPacketStats(StatisticSelector statistic) const = 0;

	// The BoundNetLog of the associated request.
	virtual const BoundNetLog& GetNetLog() const = 0;
	};

	//------------------------------------------------------------------------------
	class NET_EXPORT_PRIVATE Filter {
	public:
	// Return values of function ReadFilteredData.
	enum FilterStatus {
	// Read filtered data successfully
	FILTER_OK,
	// Read filtered data successfully, and the data in the buffer has been
	// consumed by the filter, but more data is needed in order to continue
	// filtering. At this point, the caller is free to reuse the filter
	// buffer to provide more data.
	FILTER_NEED_MORE_DATA,
	// Read filtered data successfully, and filter reaches the end of the data
	// stream.
	FILTER_DONE,
	// There is an error during filtering.
	FILTER_ERROR
	};

	// Specifies type of filters that can be created. Do not change the values
	// of this enum; it is preserved in a histogram.
	enum FilterType {
	FILTER_TYPE_BROTLI,
	FILTER_TYPE_DEFLATE,
	FILTER_TYPE_GZIP,
	FILTER_TYPE_GZIP_HELPING_SDCH, // Gzip possible, but pass through allowed.
	FILTER_TYPE_SDCH,
	FILTER_TYPE_SDCH_POSSIBLE, // Sdch possible, but pass through allowed.
	FILTER_TYPE_UNSUPPORTED,

	FILTER_TYPE_MAX
	};

	virtual ~Filter();

	// Creates a Filter object.
	// Parameters: Filter_types specifies the type of filter created;
	// filter_context allows filters to acquire additional details needed for
	// construction and operation, such as a specification of requisite input
	// buffer size.
	// If success, the function returns the pointer to the Filter object created.
	// If failed or a filter is not needed, the function returns NULL.
	//
	// Note: filter_types is an array of filter types (content encoding types as
	// provided in an HTTP header), which will be chained together serially to do
	// successive filtering of data. The types in the vector are ordered based on
	// encoding order, and the filters are chained to operate in the reverse
	// (decoding) order. For example, types[0] = FILTER_TYPE_SDCH,
	// types[1] = FILTER_TYPE_GZIP will cause data to first be gunzip filtered,
	// and the resulting output from that filter will be sdch decoded.
	static Filter* Factory(const std::vector<FilterType>& filter_types,
	const FilterContext& filter_context);

	// A simpler version of Factory() which creates a single, unchained
	// Filter of type FILTER_TYPE_GZIP, or NULL if the filter could not be
	// initialized.
	static Filter* GZipFactory();

	// External call to obtain data from this filter chain. If ther is no
	// next_filter_, then it obtains data from this specific filter.
	FilterStatus ReadData(char* dest_buffer, int* dest_len);

	// Returns a pointer to the stream_buffer_.
	IOBuffer* stream_buffer() const { return stream_buffer_.get(); }

	// Returns the maximum size of stream_buffer_ in number of chars.
	int stream_buffer_size() const { return stream_buffer_size_; }

	// Returns the total number of chars remaining in stream_buffer_ to be
	// filtered.
	//
	// If the function returns 0 then all data has been filtered, and the caller
	// is safe to copy new data into stream_buffer_.
	int stream_data_len() const { return stream_data_len_; }

	// Flushes stream_buffer_ for next round of filtering. After copying data to
	// stream_buffer_, the caller should call this function to notify Filter to
	// start filtering. Then after this function is called, the caller can get
	// post-filtered data using ReadFilteredData. The caller must not write to
	// stream_buffer_ and call this function again before stream_buffer_ is
	// emptied out by ReadFilteredData.
	//
	// The input stream_data_len is the length (in number of chars) of valid
	// data in stream_buffer_. It can not be greater than stream_buffer_size_.
	// The function returns true if success, and false otherwise.
	bool FlushStreamBuffer(int stream_data_len);

	// Translate the text of a filter name (from Content-Encoding header) into a
	// FilterType.
	static FilterType ConvertEncodingToType(const std::string& filter_type);

	// Given a array of encoding_types, try to do some error recovery adjustment
	// to the list. This includes handling known bugs in the Apache server (where
	// redundant gzip encoding is specified), as well as issues regarding SDCH
	// encoding, where various proxies and anti-virus products modify or strip the
	// encodings. These fixups require context, which includes whether this
	// response was made to an SDCH request (i.e., an available dictionary was
	// advertised in the GET), as well as the mime type of the content.
	static void FixupEncodingTypes(const FilterContext& filter_context,
	std::vector<FilterType>* encoding_types);

	// Returns a string describing the FilterTypes implemented by this filter.
	std::string OrderedFilterList() const;

	FilterType type() const { return type_id_; }

	protected:
	friend class BrotliUnitTest;
	friend class GZipUnitTest;
	friend class SdchFilterChainingTest;
	FRIEND_TEST_ALL_PREFIXES(FilterTest, ThreeFilterChain);

	explicit Filter(FilterType type_id);

	// Filters the data stored in stream_buffer_ and writes the output into the
	// dest_buffer passed in.
	//
	// Upon entry, *dest_len is the total size (in number of chars) of the
	// destination buffer. Upon exit, *dest_len is the actual number of chars
	// written into the destination buffer.
	//
	// This function will fail if there is no pre-filter data in the
	// stream_buffer_. On the other hand, *dest_len can be 0 upon successful
	// return. For example, a decoding filter may process some pre-filter data
	// but not produce output yet.
	virtual FilterStatus ReadFilteredData(char* dest_buffer, int* dest_len) = 0;

	// Copy pre-filter data directly to destination buffer without decoding.
	FilterStatus CopyOut(char* dest_buffer, int* dest_len);

	FilterStatus last_status() const { return last_status_; }

	// Buffer to hold the data to be filtered (the input queue).
	scoped_refptr<IOBuffer> stream_buffer_;

	// Maximum size of stream_buffer_ in number of chars.
	int stream_buffer_size_;

	// Pointer to the next data in stream_buffer_ to be filtered.
	char* next_stream_data_;

	// Total number of remaining chars in stream_buffer_ to be filtered.
	int stream_data_len_;

	private:
	// Allocates and initializes stream_buffer_ and stream_buffer_size_.
	void InitBuffer(int size);

	// A factory helper for creating filters for within a chain of potentially
	// multiple encodings. If a chain of filters is created, then this may be
	// called multiple times during the filter creation process. In most simple
	// cases, this is only called once. Returns NULL and cleans up (deleting
	// filter_list) if a new filter can't be constructed.
	static Filter* PrependNewFilter(FilterType type_id,
	const FilterContext& filter_context,
	int buffer_size,
	Filter* filter_list);

	// Helper methods for PrependNewFilter. If initialization is successful,
	// they return a fully initialized Filter. Otherwise, return NULL.
	static Filter* InitBrotliFilter(FilterType type_id, int buffer_size);
	static Filter* InitGZipFilter(FilterType type_id, int buffer_size);
	static Filter* InitSdchFilter(FilterType type_id,
	const FilterContext& filter_context,
	int buffer_size);

	// Helper function to empty our output into the next filter's input.
	void PushDataIntoNextFilter();

	// Constructs a filter with an internal buffer of the given size.
	// Only meant to be called by unit tests that need to control the buffer size.
	static Filter* FactoryForTests(const std::vector<FilterType>& filter_types,
	const FilterContext& filter_context,
	int buffer_size);

	// An optional filter to process output from this filter.
	scoped_ptr<Filter> next_filter_;

	// Remember what status or local filter last returned so we can better handle
	// chained filters.
	FilterStatus last_status_;

	// The filter type this filter was constructed from.
	FilterType type_id_;

	DISALLOW_COPY_AND_ASSIGN(Filter);
	};

	} // namespace net

	#endif // NET_FILTER_FILTER_H__