src/headerparser.h - platform/external/open-vcdiff - Git at Google

 // Copyright 2008 Google Inc.
 // Author: Lincoln Smith
 //
 // 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.

 #ifndef OPEN_VCDIFF_HEADERPARSER_H_
 #define OPEN_VCDIFF_HEADERPARSER_H_

 #include <config.h>
 #include <stddef.h>  // NULL
 #include <stdint.h>  // int32_t, uint32_t
 #include "checksum.h"  // VCDChecksum
 #include "vcdiff_defs.h"  // VCDiffResult

 namespace open_vcdiff {

 // This class contains a contiguous memory buffer with start and end pointers,
 // as well as a position pointer which shows how much of the buffer has been
 // parsed and how much remains.
 //
 // Because no virtual destructor is defined for ParseableChunk, a pointer to
 // a child class of ParseableChunk must be destroyed using its specific type,
 // rather than as a ParseableChunk*.
 class ParseableChunk {
  public:
   ParseableChunk(const char* data_start, size_t data_size) {
     SetDataBuffer(data_start, data_size);
   }

   const char* End() const { return end_; }

   // The number of bytes remaining to be parsed.  This is not necessarily the
   // same as the initial size of the buffer; it changes with each call to
   // Advance().
   size_t UnparsedSize() const {
     return end_ - position_;
   }

   // The number of bytes that have already been parsed.
   size_t ParsedSize() const {
     return position_ - start_;
   }

   bool Empty() const { return 0 == UnparsedSize(); }

   // The start of the data remaining to be parsed.
   const char* UnparsedData() const { return position_; }

   // Returns a pointer to the start of the data remaining to be parsed.
   const char** UnparsedDataAddr() { return &position_; }

   // Moves the parsing position forward by number_of_bytes.
   void Advance(size_t number_of_bytes);

   // Jumps the parsing position to a new location.
   void SetPosition(const char* position);

   // Jumps the parsing position to the end of the data chunk.
   void Finish() {
     position_ = end_;
   }

   // Jumps the parsing position so that there are now number_of_bytes
   // bytes left to parse.  This number should be smaller than the size of data
   // to be parsed before the function was called.
   void FinishExcept(size_t number_of_bytes);

   void SetDataBuffer(const char* data_start, size_t data_size) {
     start_ = data_start;
     end_ = data_start + data_size;
     position_ = start_;
   }

  private:
   const char* start_;
   const char* end_;

   // The current parsing position within the data chunk.
   // Must always respect start_ <= position_ <= end_.
   const char* position_;

   // Making these private avoids implicit copy constructor & assignment operator
   ParseableChunk(const ParseableChunk&);
   void operator=(const ParseableChunk&);
 };

 // Represents one of the three sections in the delta window, as described in
 // RFC section 4.3:
 //     * Data section for ADDs and RUNs
 //     * Instructions and sizes section
 //     * Addresses section for COPYs
 // When using the interleaved format, data and addresses are pulled from the
 // instructions and sizes section rather than being stored in separate sections.
 // For that reason, this class allows one DeltaWindowSection to be based on
 // another, such that the same position pointer is shared by both sections;
 // i.e., UnparsedDataAddr() returns the same value for both objects.
 // To achieve this end, one extra level of indirection (a pointer to a
 // ParseableChunk object) is added.
 class DeltaWindowSection {
  public:
   DeltaWindowSection() : parseable_chunk_(NULL), owned_(true) { }

   ~DeltaWindowSection() {
     FreeChunk();
   }

   void Init(const char* data_start, size_t data_size) {
     if (owned_ && parseable_chunk_) {
       // Reuse the already-allocated ParseableChunk object.
       parseable_chunk_->SetDataBuffer(data_start, data_size);
     } else {
       parseable_chunk_ = new ParseableChunk(data_start, data_size);
       owned_ = true;
     }
   }

   void Init(DeltaWindowSection* original) {
     FreeChunk();
     parseable_chunk_ = original->parseable_chunk_;
     owned_ = false;
   }

   void Invalidate() { FreeChunk(); }

   bool IsOwned() const { return owned_; }

   // The following functions just pass their arguments to the underlying
   // ParseableChunk object.

   const char* End() const {
     return parseable_chunk_->End();
   }

   size_t UnparsedSize() const {
     return parseable_chunk_->UnparsedSize();
   }

   size_t ParsedSize() const {
     return parseable_chunk_->ParsedSize();
   }

   bool Empty() const {
     return parseable_chunk_->Empty();
   }

   const char* UnparsedData() const {
     return parseable_chunk_->UnparsedData();
   }

   const char** UnparsedDataAddr() {
     return parseable_chunk_->UnparsedDataAddr();
   }

   void Advance(size_t number_of_bytes) {
     return parseable_chunk_->Advance(number_of_bytes);
   }
  private:
   void FreeChunk() {
     if (owned_) {
       delete parseable_chunk_;
     }
     parseable_chunk_ = NULL;
   }

   // Will be NULL until Init() has been called.  If owned_ is true, this will
   // point to a ParseableChunk object that has been allocated with "new" and
   // must be deleted by this DeltaWindowSection object.  If owned_ is false,
   // this points at the parseable_chunk_ owned by a different DeltaWindowSection
   // object.  In this case, it is important to free the DeltaWindowSection which
   // does not own the ParseableChunk before (or simultaneously to) freeing the
   // DeltaWindowSection that owns it, or else deleted memory may be accessed.
   ParseableChunk* parseable_chunk_;
   bool owned_;

   // Making these private avoids implicit copy constructor & assignment operator
   DeltaWindowSection(const DeltaWindowSection&);
   void operator=(const DeltaWindowSection&);
 };

 // Used to parse the bytes and Varints that make up the delta file header
 // or delta window header.
 class VCDiffHeaderParser {
  public:
   // header_start should be the start of the header to be parsed;
   // data_end is the position just after the last byte of available data
   // (which may extend far past the end of the header.)
   VCDiffHeaderParser(const char* header_start, const char* data_end);

   // One of these functions should be called for each element of the header.
   // variable_description is a description of the value that we are attempting
   // to parse, and will only be used to create descriptive error messages.
   // If the function returns true, then the element was parsed successfully
   // and its value has been placed in *value.  If the function returns false,
   // then *value is unchanged, and GetResult() can be called to return the
   // reason that the element could not be parsed, which will be either
   // RESULT_ERROR (an error occurred), or RESULT_END_OF_DATA (the limit data_end
   // was reached before the end of the element to be parsed.)  Once one of these
   // functions has returned false, further calls to any of the Parse...
   // functions will also return false without performing any additional actions.
   // Typical usage is as follows:
   //     int32_t segment_length = 0;
   //     if (!header_parser.ParseInt32("segment length", &segment_length)) {
   //       return header_parser.GetResult();
   //     }
   //
   // The following example takes advantage of the fact that calling a Parse...
   // function after an error or end-of-data condition is legal and does nothing.
   // It can thus parse more than one element in a row and check the status
   // afterwards.  If the first call to ParseInt32() fails, the second will have
   // no effect:
   //
   //     int32_t segment_length = 0, segment_position = 0;
   //     header_parser.ParseInt32("segment length", &segment_length));
   //     header_parser.ParseInt32("segment position", &segment_position));
   //     if (RESULT_SUCCESS != header_parser.GetResult()) {
   //       return header_parser.GetResult();
   //     }
   //
   bool ParseByte(unsigned char* value);
   bool ParseInt32(const char* variable_description, int32_t* value);
   bool ParseUInt32(const char* variable_description, uint32_t* value);
   bool ParseChecksum(const char* variable_description, VCDChecksum* value);
   bool ParseSize(const char* variable_description, size_t* value);

   // Parses the first three elements of the delta window header:
   //
   //     Win_Indicator                            - byte
   //     [Source segment size]                    - integer (VarintBE format)
   //     [Source segment position]                - integer (VarintBE format)
   //
   // Returns true if the values were parsed successfully and the values were
   // found to be acceptable.  Returns false otherwise, in which case
   // GetResult() can be called to return the reason that the two values
   // could not be validated.  This will be either RESULT_ERROR (an error
   // occurred and was logged), or RESULT_END_OF_DATA (the limit data_end was
   // reached before the end of the values to be parsed.)  If return value is
   // true, then *win_indicator, *source_segment_length, and
   // *source_segment_position are populated with the parsed values.  Otherwise,
   // the values of these output arguments are undefined.
   //
   // dictionary_size: The size of the dictionary (source) file.  Used to
   //     validate the limits of source_segment_length and
   //     source_segment_position if the source segment is taken from the
   //     dictionary (i.e., if the parsed *win_indicator equals VCD_SOURCE.)
   // decoded_target_size: The size of the target data that has been decoded
   //     so far, including all target windows.  Used to validate the limits of
   //     source_segment_length and source_segment_position if the source segment
   //     is taken from the target (i.e., if the parsed *win_indicator equals
   //     VCD_TARGET.)
   // allow_vcd_target: If this argument is false, and the parsed *win_indicator
   //     is VCD_TARGET, then an error is produced; if true, VCD_TARGET is
   //     allowed.
   // win_indicator (output): Points to a single unsigned char (not an array)
   //     that will receive the parsed value of Win_Indicator.
   // source_segment_length (output): The parsed length of the source segment.
   // source_segment_position (output): The parsed zero-based index in the
   //     source/target file from which the source segment is to be taken.
   bool ParseWinIndicatorAndSourceSegment(size_t dictionary_size,
                                          size_t decoded_target_size,
                                          bool allow_vcd_target,
                                          unsigned char* win_indicator,
                                          size_t* source_segment_length,
                                          size_t* source_segment_position);

   // Parses the following two elements of the delta window header:
   //
   //     Length of the delta encoding             - integer (VarintBE format)
   //     Size of the target window                - integer (VarintBE format)
   //
   // Return conditions and values are the same as for
   // ParseWinIndicatorAndSourceSegment(), above.
   //
   bool ParseWindowLengths(size_t* target_window_length);

   // May only be called after ParseWindowLengths() has returned RESULT_SUCCESS.
   // Returns a pointer to the end of the delta window (which might not point to
   // a valid memory location if there is insufficient input data.)
   //
   const char* EndOfDeltaWindow() const;

   // Parses the following element of the delta window header:
   //
   //     Delta_Indicator                          - byte
   //
   // Because none of the bits in Delta_Indicator are used by this implementation
   // of VCDIFF, this function does not have an output argument to return the
   // value of that field.  It may return RESULT_SUCCESS, RESULT_ERROR, or
   // RESULT_END_OF_DATA as with the other Parse...() functions.
   //
   bool ParseDeltaIndicator();

   // Parses the following 3 elements of the delta window header:
   //
   //     Length of data for ADDs and RUNs - integer (VarintBE format)
   //     Length of instructions and sizes - integer (VarintBE format)
   //     Length of addresses for COPYs    - integer (VarintBE format)
   //
   // If has_checksum is true, it also looks for the following element:
   //
   //     Adler32 checksum            - unsigned 32-bit integer (VarintBE format)
   //
   // Return conditions and values are the same as for
   // ParseWinIndicatorAndSourceSegment(), above.
   //
   bool ParseSectionLengths(bool has_checksum,
                            size_t* add_and_run_data_length,
                            size_t* instructions_and_sizes_length,
                            size_t* addresses_length,
                            VCDChecksum* checksum);

   // If one of the Parse... functions returned false, this function
   // can be used to find the result code (RESULT_ERROR or RESULT_END_OF_DATA)
   // describing the reason for the most recent parse failure.  If none of the
   // Parse... functions has returned false, returns RESULT_SUCCESS.
   VCDiffResult GetResult() const {
     return return_code_;
   }

   // The following functions just pass their arguments to the underlying
   // ParseableChunk object.

   const char* End() const {
     return parseable_chunk_.End();
   }

   size_t UnparsedSize() const {
     return parseable_chunk_.UnparsedSize();
   }

   size_t ParsedSize() const {
     return parseable_chunk_.ParsedSize();
   }

   const char* UnparsedData() const {
     return parseable_chunk_.UnparsedData();
   }

  private:
   // Parses two variable-length integers representing the source segment length
   // and source segment position (== offset.)  Checks whether the source segment
   // length and position would cause it to exceed the size of the source file or
   // target file.  Returns true if the values were parsed successfully and the
   // values were found to be acceptable.  Returns false otherwise, in which case
   // GetResult() can be called to return the reason that the two values could
   // not be validated, which will be either RESULT_ERROR (an error occurred and
   // was logged), or RESULT_END_OF_DATA (the limit data_end was reached before
   // the end of the integers to be parsed.)
   // from_size: The requested size of the source segment.
   // from_boundary_name: A NULL-terminated string naming the end of the
   //     source or target file, used in error messages.
   // from_name: A NULL-terminated string naming the source or target file,
   //     also used in error messages.
   // source_segment_length (output): The parsed length of the source segment.
   // source_segment_position (output): The parsed zero-based index in the
   //     source/target file from which the source segment is to be taken.
   //
   bool ParseSourceSegmentLengthAndPosition(size_t from_size,
                                            const char* from_boundary_name,
                                            const char* from_name,
                                            size_t* source_segment_length,
                                            size_t* source_segment_position);

   ParseableChunk parseable_chunk_;

   // Contains the result code of the last Parse...() operation that failed
   // (RESULT_ERROR or RESULT_END_OF_DATA).  If no Parse...() method has been
   // called, or if all calls to Parse...() were successful, then this contains
   // RESULT_SUCCESS.
   VCDiffResult return_code_;

   // Will be zero until ParseWindowLengths() has been called.  After
   // ParseWindowLengths() has been called successfully, this contains the
   // parsed length of the delta encoding.
   size_t delta_encoding_length_;

   // Will be NULL until ParseWindowLengths() has been called.  After
   // ParseWindowLengths() has been called successfully, this points to the
   // beginning of the section of the current window titled "The delta encoding"
   // in the RFC, i.e., to the position just after the length of the delta
   // encoding.
   const char* delta_encoding_start_;

   // Making these private avoids implicit copy constructor & assignment operator
   VCDiffHeaderParser(const VCDiffHeaderParser&);
   void operator=(const VCDiffHeaderParser&);
 };

 }  // namespace open_vcdiff

 #endif  // OPEN_VCDIFF_HEADERPARSER_H_
	// Copyright 2008 Google Inc.
	// Author: Lincoln Smith
	//
	// 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.

	#ifndef OPEN_VCDIFF_HEADERPARSER_H_
	#define OPEN_VCDIFF_HEADERPARSER_H_

	#include <config.h>
	#include <stddef.h> // NULL
	#include <stdint.h> // int32_t, uint32_t
	#include "checksum.h" // VCDChecksum
	#include "vcdiff_defs.h" // VCDiffResult

	namespace open_vcdiff {

	// This class contains a contiguous memory buffer with start and end pointers,
	// as well as a position pointer which shows how much of the buffer has been
	// parsed and how much remains.
	//
	// Because no virtual destructor is defined for ParseableChunk, a pointer to
	// a child class of ParseableChunk must be destroyed using its specific type,
	// rather than as a ParseableChunk*.
	class ParseableChunk {
	public:
	ParseableChunk(const char* data_start, size_t data_size) {
	SetDataBuffer(data_start, data_size);
	}

	const char* End() const { return end_; }

	// The number of bytes remaining to be parsed. This is not necessarily the
	// same as the initial size of the buffer; it changes with each call to
	// Advance().
	size_t UnparsedSize() const {
	return end_ - position_;
	}

	// The number of bytes that have already been parsed.
	size_t ParsedSize() const {
	return position_ - start_;
	}

	bool Empty() const { return 0 == UnparsedSize(); }

	// The start of the data remaining to be parsed.
	const char* UnparsedData() const { return position_; }

	// Returns a pointer to the start of the data remaining to be parsed.
	const char** UnparsedDataAddr() { return &position_; }

	// Moves the parsing position forward by number_of_bytes.
	void Advance(size_t number_of_bytes);

	// Jumps the parsing position to a new location.
	void SetPosition(const char* position);

	// Jumps the parsing position to the end of the data chunk.
	void Finish() {
	position_ = end_;
	}

	// Jumps the parsing position so that there are now number_of_bytes
	// bytes left to parse. This number should be smaller than the size of data
	// to be parsed before the function was called.
	void FinishExcept(size_t number_of_bytes);

	void SetDataBuffer(const char* data_start, size_t data_size) {
	start_ = data_start;
	end_ = data_start + data_size;
	position_ = start_;
	}

	private:
	const char* start_;
	const char* end_;

	// The current parsing position within the data chunk.
	// Must always respect start_ <= position_ <= end_.
	const char* position_;

	// Making these private avoids implicit copy constructor & assignment operator
	ParseableChunk(const ParseableChunk&);
	void operator=(const ParseableChunk&);
	};

	// Represents one of the three sections in the delta window, as described in
	// RFC section 4.3:
	// * Data section for ADDs and RUNs
	// * Instructions and sizes section
	// * Addresses section for COPYs
	// When using the interleaved format, data and addresses are pulled from the
	// instructions and sizes section rather than being stored in separate sections.
	// For that reason, this class allows one DeltaWindowSection to be based on
	// another, such that the same position pointer is shared by both sections;
	// i.e., UnparsedDataAddr() returns the same value for both objects.
	// To achieve this end, one extra level of indirection (a pointer to a
	// ParseableChunk object) is added.
	class DeltaWindowSection {
	public:
	DeltaWindowSection() : parseable_chunk_(NULL), owned_(true) { }

	~DeltaWindowSection() {
	FreeChunk();
	}

	void Init(const char* data_start, size_t data_size) {
	if (owned_ && parseable_chunk_) {
	// Reuse the already-allocated ParseableChunk object.
	parseable_chunk_->SetDataBuffer(data_start, data_size);
	} else {
	parseable_chunk_ = new ParseableChunk(data_start, data_size);
	owned_ = true;
	}
	}

	void Init(DeltaWindowSection* original) {
	FreeChunk();
	parseable_chunk_ = original->parseable_chunk_;
	owned_ = false;
	}

	void Invalidate() { FreeChunk(); }

	bool IsOwned() const { return owned_; }

	// The following functions just pass their arguments to the underlying
	// ParseableChunk object.

	const char* End() const {
	return parseable_chunk_->End();
	}

	size_t UnparsedSize() const {
	return parseable_chunk_->UnparsedSize();
	}

	size_t ParsedSize() const {
	return parseable_chunk_->ParsedSize();
	}

	bool Empty() const {
	return parseable_chunk_->Empty();
	}

	const char* UnparsedData() const {
	return parseable_chunk_->UnparsedData();
	}

	const char** UnparsedDataAddr() {
	return parseable_chunk_->UnparsedDataAddr();
	}

	void Advance(size_t number_of_bytes) {
	return parseable_chunk_->Advance(number_of_bytes);
	}
	private:
	void FreeChunk() {
	if (owned_) {
	delete parseable_chunk_;
	}
	parseable_chunk_ = NULL;
	}

	// Will be NULL until Init() has been called. If owned_ is true, this will
	// point to a ParseableChunk object that has been allocated with "new" and
	// must be deleted by this DeltaWindowSection object. If owned_ is false,
	// this points at the parseable_chunk_ owned by a different DeltaWindowSection
	// object. In this case, it is important to free the DeltaWindowSection which
	// does not own the ParseableChunk before (or simultaneously to) freeing the
	// DeltaWindowSection that owns it, or else deleted memory may be accessed.
	ParseableChunk* parseable_chunk_;
	bool owned_;

	// Making these private avoids implicit copy constructor & assignment operator
	DeltaWindowSection(const DeltaWindowSection&);
	void operator=(const DeltaWindowSection&);
	};

	// Used to parse the bytes and Varints that make up the delta file header
	// or delta window header.
	class VCDiffHeaderParser {
	public:
	// header_start should be the start of the header to be parsed;
	// data_end is the position just after the last byte of available data
	// (which may extend far past the end of the header.)
	VCDiffHeaderParser(const char* header_start, const char* data_end);

	// One of these functions should be called for each element of the header.
	// variable_description is a description of the value that we are attempting
	// to parse, and will only be used to create descriptive error messages.
	// If the function returns true, then the element was parsed successfully
	// and its value has been placed in *value. If the function returns false,
	// then *value is unchanged, and GetResult() can be called to return the
	// reason that the element could not be parsed, which will be either
	// RESULT_ERROR (an error occurred), or RESULT_END_OF_DATA (the limit data_end
	// was reached before the end of the element to be parsed.) Once one of these
	// functions has returned false, further calls to any of the Parse...
	// functions will also return false without performing any additional actions.
	// Typical usage is as follows:
	// int32_t segment_length = 0;
	// if (!header_parser.ParseInt32("segment length", &segment_length)) {
	// return header_parser.GetResult();
	// }
	//
	// The following example takes advantage of the fact that calling a Parse...
	// function after an error or end-of-data condition is legal and does nothing.
	// It can thus parse more than one element in a row and check the status
	// afterwards. If the first call to ParseInt32() fails, the second will have
	// no effect:
	//
	// int32_t segment_length = 0, segment_position = 0;
	// header_parser.ParseInt32("segment length", &segment_length));
	// header_parser.ParseInt32("segment position", &segment_position));
	// if (RESULT_SUCCESS != header_parser.GetResult()) {
	// return header_parser.GetResult();
	// }
	//
	bool ParseByte(unsigned char* value);
	bool ParseInt32(const char* variable_description, int32_t* value);
	bool ParseUInt32(const char* variable_description, uint32_t* value);
	bool ParseChecksum(const char* variable_description, VCDChecksum* value);
	bool ParseSize(const char* variable_description, size_t* value);

	// Parses the first three elements of the delta window header:
	//
	// Win_Indicator - byte
	// [Source segment size] - integer (VarintBE format)
	// [Source segment position] - integer (VarintBE format)
	//
	// Returns true if the values were parsed successfully and the values were
	// found to be acceptable. Returns false otherwise, in which case
	// GetResult() can be called to return the reason that the two values
	// could not be validated. This will be either RESULT_ERROR (an error
	// occurred and was logged), or RESULT_END_OF_DATA (the limit data_end was
	// reached before the end of the values to be parsed.) If return value is
	// true, then win_indicator, source_segment_length, and
	// *source_segment_position are populated with the parsed values. Otherwise,
	// the values of these output arguments are undefined.
	//
	// dictionary_size: The size of the dictionary (source) file. Used to
	// validate the limits of source_segment_length and
	// source_segment_position if the source segment is taken from the
	// dictionary (i.e., if the parsed *win_indicator equals VCD_SOURCE.)
	// decoded_target_size: The size of the target data that has been decoded
	// so far, including all target windows. Used to validate the limits of
	// source_segment_length and source_segment_position if the source segment
	// is taken from the target (i.e., if the parsed *win_indicator equals
	// VCD_TARGET.)
	// allow_vcd_target: If this argument is false, and the parsed *win_indicator
	// is VCD_TARGET, then an error is produced; if true, VCD_TARGET is
	// allowed.
	// win_indicator (output): Points to a single unsigned char (not an array)
	// that will receive the parsed value of Win_Indicator.
	// source_segment_length (output): The parsed length of the source segment.
	// source_segment_position (output): The parsed zero-based index in the
	// source/target file from which the source segment is to be taken.
	bool ParseWinIndicatorAndSourceSegment(size_t dictionary_size,
	size_t decoded_target_size,
	bool allow_vcd_target,
	unsigned char* win_indicator,
	size_t* source_segment_length,
	size_t* source_segment_position);

	// Parses the following two elements of the delta window header:
	//
	// Length of the delta encoding - integer (VarintBE format)
	// Size of the target window - integer (VarintBE format)
	//
	// Return conditions and values are the same as for
	// ParseWinIndicatorAndSourceSegment(), above.
	//
	bool ParseWindowLengths(size_t* target_window_length);

	// May only be called after ParseWindowLengths() has returned RESULT_SUCCESS.
	// Returns a pointer to the end of the delta window (which might not point to
	// a valid memory location if there is insufficient input data.)
	//
	const char* EndOfDeltaWindow() const;

	// Parses the following element of the delta window header:
	//
	// Delta_Indicator - byte
	//
	// Because none of the bits in Delta_Indicator are used by this implementation
	// of VCDIFF, this function does not have an output argument to return the
	// value of that field. It may return RESULT_SUCCESS, RESULT_ERROR, or
	// RESULT_END_OF_DATA as with the other Parse...() functions.
	//
	bool ParseDeltaIndicator();

	// Parses the following 3 elements of the delta window header:
	//
	// Length of data for ADDs and RUNs - integer (VarintBE format)
	// Length of instructions and sizes - integer (VarintBE format)
	// Length of addresses for COPYs - integer (VarintBE format)
	//
	// If has_checksum is true, it also looks for the following element:
	//
	// Adler32 checksum - unsigned 32-bit integer (VarintBE format)
	//
	// Return conditions and values are the same as for
	// ParseWinIndicatorAndSourceSegment(), above.
	//
	bool ParseSectionLengths(bool has_checksum,
	size_t* add_and_run_data_length,
	size_t* instructions_and_sizes_length,
	size_t* addresses_length,
	VCDChecksum* checksum);

	// If one of the Parse... functions returned false, this function
	// can be used to find the result code (RESULT_ERROR or RESULT_END_OF_DATA)
	// describing the reason for the most recent parse failure. If none of the
	// Parse... functions has returned false, returns RESULT_SUCCESS.
	VCDiffResult GetResult() const {
	return return_code_;
	}

	// The following functions just pass their arguments to the underlying
	// ParseableChunk object.

	const char* End() const {
	return parseable_chunk_.End();
	}

	size_t UnparsedSize() const {
	return parseable_chunk_.UnparsedSize();
	}

	size_t ParsedSize() const {
	return parseable_chunk_.ParsedSize();
	}

	const char* UnparsedData() const {
	return parseable_chunk_.UnparsedData();
	}

	private:
	// Parses two variable-length integers representing the source segment length
	// and source segment position (== offset.) Checks whether the source segment
	// length and position would cause it to exceed the size of the source file or
	// target file. Returns true if the values were parsed successfully and the
	// values were found to be acceptable. Returns false otherwise, in which case
	// GetResult() can be called to return the reason that the two values could
	// not be validated, which will be either RESULT_ERROR (an error occurred and
	// was logged), or RESULT_END_OF_DATA (the limit data_end was reached before
	// the end of the integers to be parsed.)
	// from_size: The requested size of the source segment.
	// from_boundary_name: A NULL-terminated string naming the end of the
	// source or target file, used in error messages.
	// from_name: A NULL-terminated string naming the source or target file,
	// also used in error messages.
	// source_segment_length (output): The parsed length of the source segment.
	// source_segment_position (output): The parsed zero-based index in the
	// source/target file from which the source segment is to be taken.
	//
	bool ParseSourceSegmentLengthAndPosition(size_t from_size,
	const char* from_boundary_name,
	const char* from_name,
	size_t* source_segment_length,
	size_t* source_segment_position);

	ParseableChunk parseable_chunk_;

	// Contains the result code of the last Parse...() operation that failed
	// (RESULT_ERROR or RESULT_END_OF_DATA). If no Parse...() method has been
	// called, or if all calls to Parse...() were successful, then this contains
	// RESULT_SUCCESS.
	VCDiffResult return_code_;

	// Will be zero until ParseWindowLengths() has been called. After
	// ParseWindowLengths() has been called successfully, this contains the
	// parsed length of the delta encoding.
	size_t delta_encoding_length_;

	// Will be NULL until ParseWindowLengths() has been called. After
	// ParseWindowLengths() has been called successfully, this points to the
	// beginning of the section of the current window titled "The delta encoding"
	// in the RFC, i.e., to the position just after the length of the delta
	// encoding.
	const char* delta_encoding_start_;

	// Making these private avoids implicit copy constructor & assignment operator
	VCDiffHeaderParser(const VCDiffHeaderParser&);
	void operator=(const VCDiffHeaderParser&);
	};

	} // namespace open_vcdiff

	#endif // OPEN_VCDIFF_HEADERPARSER_H_