src/encodetable.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_ENCODETABLE_H_
 #define OPEN_VCDIFF_ENCODETABLE_H_

 #include <config.h>
 #include <stddef.h>  // size_t
 #include <stdint.h>  // int32_t
 #include <string>
 #include "addrcache.h"
 #include "checksum.h"
 #include "codetable.h"
 #include "codetablewriter_interface.h"

 namespace open_vcdiff {

 class OutputStringInterface;
 class VCDiffInstructionMap;

 // The method calls after construction *must* conform
 // to the following pattern:
 //    {{Add|Copy|Run}* [AddChecksum] Output}*
 //
 // When Output has been called in this sequence, a complete target window
 // (as defined in RFC 3284 section 4.3) will have been appended to
 // out (unless no calls to Add, Run, or Copy were made, in which
 // case Output will do nothing.)  The output will not be available for use
 // until after each call to Output().
 //
 // NOT threadsafe.
 //
 class VCDiffCodeTableWriter : public CodeTableWriterInterface {
  public:
   // This constructor uses the default code table.
   // If interleaved is true, the encoder writes each delta file window
   // by interleaving instructions and sizes with their corresponding
   // addresses and data, rather than placing these elements into three
   // separate sections.  This facilitates providing partially
   // decoded results when only a portion of a delta file window
   // is received (e.g. when HTTP over TCP is used as the
   // transmission protocol.)  The interleaved format is
   // not consistent with the VCDIFF draft standard.
   //
   explicit VCDiffCodeTableWriter(bool interleaved);

   // Uses a non-standard code table and non-standard cache sizes.  The caller
   // must guarantee that code_table_data remains allocated for the lifetime of
   // the VCDiffCodeTableWriter object.  Note that this is different from how
   // VCDiffCodeTableReader::UseCodeTable works.  It is assumed that a given
   // encoder will use either the default code table or a statically-defined
   // non-standard code table, whereas the decoder must have the ability to read
   // an arbitrary non-standard code table from a delta file and discard it once
   // the file has been decoded.
   //
   VCDiffCodeTableWriter(bool interleaved,
                         int near_cache_size,
                         int same_cache_size,
                         const VCDiffCodeTableData& code_table_data,
                         unsigned char max_mode);

   virtual ~VCDiffCodeTableWriter();

   // Initializes the constructed object for use.
   // This method must be called after a VCDiffCodeTableWriter is constructed
   // and before any of its other methods can be called.  It will return
   // false if there was an error initializing the object, or true if it
   // was successful.  After the object has been initialized and used,
   // Init() can be called again to restore the initial state of the object.
   //
   virtual bool Init(size_t dictionary_size);

   // Write the header (as defined in section 4.1 of the RFC) to *out.
   // This includes information that can be gathered
   // before the first chunk of input is available.
   virtual void WriteHeader(OutputStringInterface* out,
                            VCDiffFormatExtensionFlags format_extensions);

   virtual size_t target_length() const { return target_length_; }

   // Encode an ADD opcode with the "size" bytes starting at data
   virtual void Add(const char* data, size_t size);

   // Encode a COPY opcode with args "offset" (into dictionary) and "size" bytes.
   virtual void Copy(int32_t offset, size_t size);

   // Encode a RUN opcode for "size" copies of the value "byte".
   virtual void Run(size_t size, unsigned char byte);

   virtual void AddChecksum(VCDChecksum checksum) {
     add_checksum_ = true;
     checksum_ = checksum;
   }

   // Appends the encoded delta window to the output
   // string.  The output string is not null-terminated and may contain embedded
   // '\0' characters.
   virtual void Output(OutputStringInterface* out);

   // There should not be any need to output more data
   // since EncodeChunk() encodes a complete target window
   // and there is no end-of-delta-file marker.
   virtual void FinishEncoding(OutputStringInterface* /*out*/) {}

  private:
   typedef std::string string;

   // The maximum value for the mode of a COPY instruction.
   const unsigned char max_mode_;

   // If interleaved is true, sets data_for_add_and_run_ and
   // addresses_for_copy_ to point at instructions_and_sizes_,
   // so that instructions, sizes, addresses and data will be
   // combined into a single interleaved stream.
   // If interleaved is false, sets data_for_add_and_run_ and
   // addresses_for_copy_ to point at their corresponding
   // separate_... strings, so that the three sections will
   // be generated separately from one another.
   //
   void InitSectionPointers(bool interleaved);

   // Determines the best opcode to encode an instruction, and appends
   // or substitutes that opcode and its size into the
   // instructions_and_sizes_ string.
   //
   void EncodeInstruction(VCDiffInstructionType inst,
                          size_t size,
                          unsigned char mode);

   void EncodeInstruction(VCDiffInstructionType inst, size_t size) {
     return EncodeInstruction(inst, size, 0);
   }

   // Calculates the number of bytes needed to store the given size value as a
   // variable-length integer (VarintBE).
   static size_t CalculateLengthOfSizeAsVarint(size_t size);

   // Appends the size value to the string as a variable-length integer.
   static void AppendSizeToString(size_t size, string* out);

   // Appends the size value to the output string as a variable-length integer.
   static void AppendSizeToOutputString(size_t size, OutputStringInterface* out);

   // Calculates the "Length of the delta encoding" field for the delta window
   // header, based on the sizes of the sections and of the other header
   // elements.
   size_t CalculateLengthOfTheDeltaEncoding() const;

   // None of the following 'string' objects are null-terminated.

   // A series of instruction opcodes, each of which may be followed
   // by one or two Varint values representing the size parameters
   // of the first and second instruction in the opcode.
   string instructions_and_sizes_;

   // A series of data arguments (byte values) used for ADD and RUN
   // instructions.  Depending on whether interleaved output is used
   // for streaming or not, the pointer may point to
   // separate_data_for_add_and_run_ or to instructions_and_sizes_.
   string *data_for_add_and_run_;
   string separate_data_for_add_and_run_;

   // A series of Varint addresses used for COPY instructions.
   // For the SAME mode, a byte value is stored instead of a Varint.
   // Depending on whether interleaved output is used
   // for streaming or not, the pointer may point to
   // separate_addresses_for_copy_ or to instructions_and_sizes_.
   string *addresses_for_copy_;
   string separate_addresses_for_copy_;

   VCDiffAddressCache address_cache_;

   size_t dictionary_size_;

   // The number of bytes of target data that has been encoded so far.
   // Each time Add(), Copy(), or Run() is called, this will be incremented.
   // The target length is used to compute HERE mode addresses
   // for COPY instructions, and is also written into the header
   // of the delta window when Output() is called.
   //
   size_t target_length_;

   const VCDiffCodeTableData* code_table_data_;

   // The instruction map facilitates finding an opcode quickly given an
   // instruction inst, size, and mode.  This is an alternate representation
   // of the same information that is found in code_table_data_.
   //
   const VCDiffInstructionMap* instruction_map_;

   // The zero-based index within instructions_and_sizes_ of the byte
   // that contains the last single-instruction opcode generated by
   // EncodeInstruction().  (See that function for exhaustive details.)
   // It is necessary to use an index rather than a pointer for this value
   // because instructions_and_sizes_ may be resized, which would invalidate
   // any pointers into its data buffer.  The value -1 is reserved to mean that
   // either no opcodes have been generated yet, or else the last opcode
   // generated was a double-instruction opcode.
   //
   int last_opcode_index_;

   // If true, an Adler32 checksum of the target window data will be written as
   // a variable-length integer, just after the size of the addresses section.
   //
   bool add_checksum_;

   // The checksum to be written to the current target window,
   // if add_checksum_ is true.
   // This will not be calculated based on the individual calls to Add(), Run(),
   // and Copy(), which would be unnecessarily expensive.  Instead, the code
   // that uses the VCDiffCodeTableWriter object is expected to calculate
   // the checksum all at once and to call AddChecksum() with that value.
   // Must be called sometime before calling Output(), though it can be called
   // either before or after the calls to Add(), Run(), and Copy().
   //
   VCDChecksum checksum_;

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

 };  // namespace open_vcdiff

 #endif  // OPEN_VCDIFF_ENCODETABLE_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_ENCODETABLE_H_
	#define OPEN_VCDIFF_ENCODETABLE_H_

	#include <config.h>
	#include <stddef.h> // size_t
	#include <stdint.h> // int32_t
	#include <string>
	#include "addrcache.h"
	#include "checksum.h"
	#include "codetable.h"
	#include "codetablewriter_interface.h"

	namespace open_vcdiff {

	class OutputStringInterface;
	class VCDiffInstructionMap;

	// The method calls after construction must conform
	// to the following pattern:
	// {{Add\|Copy\|Run}* [AddChecksum] Output}*
	//
	// When Output has been called in this sequence, a complete target window
	// (as defined in RFC 3284 section 4.3) will have been appended to
	// out (unless no calls to Add, Run, or Copy were made, in which
	// case Output will do nothing.) The output will not be available for use
	// until after each call to Output().
	//
	// NOT threadsafe.
	//
	class VCDiffCodeTableWriter : public CodeTableWriterInterface {
	public:
	// This constructor uses the default code table.
	// If interleaved is true, the encoder writes each delta file window
	// by interleaving instructions and sizes with their corresponding
	// addresses and data, rather than placing these elements into three
	// separate sections. This facilitates providing partially
	// decoded results when only a portion of a delta file window
	// is received (e.g. when HTTP over TCP is used as the
	// transmission protocol.) The interleaved format is
	// not consistent with the VCDIFF draft standard.
	//
	explicit VCDiffCodeTableWriter(bool interleaved);

	// Uses a non-standard code table and non-standard cache sizes. The caller
	// must guarantee that code_table_data remains allocated for the lifetime of
	// the VCDiffCodeTableWriter object. Note that this is different from how
	// VCDiffCodeTableReader::UseCodeTable works. It is assumed that a given
	// encoder will use either the default code table or a statically-defined
	// non-standard code table, whereas the decoder must have the ability to read
	// an arbitrary non-standard code table from a delta file and discard it once
	// the file has been decoded.
	//
	VCDiffCodeTableWriter(bool interleaved,
	int near_cache_size,
	int same_cache_size,
	const VCDiffCodeTableData& code_table_data,
	unsigned char max_mode);

	virtual ~VCDiffCodeTableWriter();

	// Initializes the constructed object for use.
	// This method must be called after a VCDiffCodeTableWriter is constructed
	// and before any of its other methods can be called. It will return
	// false if there was an error initializing the object, or true if it
	// was successful. After the object has been initialized and used,
	// Init() can be called again to restore the initial state of the object.
	//
	virtual bool Init(size_t dictionary_size);

	// Write the header (as defined in section 4.1 of the RFC) to *out.
	// This includes information that can be gathered
	// before the first chunk of input is available.
	virtual void WriteHeader(OutputStringInterface* out,
	VCDiffFormatExtensionFlags format_extensions);

	virtual size_t target_length() const { return target_length_; }

	// Encode an ADD opcode with the "size" bytes starting at data
	virtual void Add(const char* data, size_t size);

	// Encode a COPY opcode with args "offset" (into dictionary) and "size" bytes.
	virtual void Copy(int32_t offset, size_t size);

	// Encode a RUN opcode for "size" copies of the value "byte".
	virtual void Run(size_t size, unsigned char byte);

	virtual void AddChecksum(VCDChecksum checksum) {
	add_checksum_ = true;
	checksum_ = checksum;
	}

	// Appends the encoded delta window to the output
	// string. The output string is not null-terminated and may contain embedded
	// '\0' characters.
	virtual void Output(OutputStringInterface* out);

	// There should not be any need to output more data
	// since EncodeChunk() encodes a complete target window
	// and there is no end-of-delta-file marker.
	virtual void FinishEncoding(OutputStringInterface* /out/) {}

	private:
	typedef std::string string;

	// The maximum value for the mode of a COPY instruction.
	const unsigned char max_mode_;

	// If interleaved is true, sets data_for_add_and_run_ and
	// addresses_for_copy_ to point at instructions_and_sizes_,
	// so that instructions, sizes, addresses and data will be
	// combined into a single interleaved stream.
	// If interleaved is false, sets data_for_add_and_run_ and
	// addresses_for_copy_ to point at their corresponding
	// separate_... strings, so that the three sections will
	// be generated separately from one another.
	//
	void InitSectionPointers(bool interleaved);

	// Determines the best opcode to encode an instruction, and appends
	// or substitutes that opcode and its size into the
	// instructions_and_sizes_ string.
	//
	void EncodeInstruction(VCDiffInstructionType inst,
	size_t size,
	unsigned char mode);

	void EncodeInstruction(VCDiffInstructionType inst, size_t size) {
	return EncodeInstruction(inst, size, 0);
	}

	// Calculates the number of bytes needed to store the given size value as a
	// variable-length integer (VarintBE).
	static size_t CalculateLengthOfSizeAsVarint(size_t size);

	// Appends the size value to the string as a variable-length integer.
	static void AppendSizeToString(size_t size, string* out);

	// Appends the size value to the output string as a variable-length integer.
	static void AppendSizeToOutputString(size_t size, OutputStringInterface* out);

	// Calculates the "Length of the delta encoding" field for the delta window
	// header, based on the sizes of the sections and of the other header
	// elements.
	size_t CalculateLengthOfTheDeltaEncoding() const;

	// None of the following 'string' objects are null-terminated.

	// A series of instruction opcodes, each of which may be followed
	// by one or two Varint values representing the size parameters
	// of the first and second instruction in the opcode.
	string instructions_and_sizes_;

	// A series of data arguments (byte values) used for ADD and RUN
	// instructions. Depending on whether interleaved output is used
	// for streaming or not, the pointer may point to
	// separate_data_for_add_and_run_ or to instructions_and_sizes_.
	string *data_for_add_and_run_;
	string separate_data_for_add_and_run_;

	// A series of Varint addresses used for COPY instructions.
	// For the SAME mode, a byte value is stored instead of a Varint.
	// Depending on whether interleaved output is used
	// for streaming or not, the pointer may point to
	// separate_addresses_for_copy_ or to instructions_and_sizes_.
	string *addresses_for_copy_;
	string separate_addresses_for_copy_;

	VCDiffAddressCache address_cache_;

	size_t dictionary_size_;

	// The number of bytes of target data that has been encoded so far.
	// Each time Add(), Copy(), or Run() is called, this will be incremented.
	// The target length is used to compute HERE mode addresses
	// for COPY instructions, and is also written into the header
	// of the delta window when Output() is called.
	//
	size_t target_length_;

	const VCDiffCodeTableData* code_table_data_;

	// The instruction map facilitates finding an opcode quickly given an
	// instruction inst, size, and mode. This is an alternate representation
	// of the same information that is found in code_table_data_.
	//
	const VCDiffInstructionMap* instruction_map_;

	// The zero-based index within instructions_and_sizes_ of the byte
	// that contains the last single-instruction opcode generated by
	// EncodeInstruction(). (See that function for exhaustive details.)
	// It is necessary to use an index rather than a pointer for this value
	// because instructions_and_sizes_ may be resized, which would invalidate
	// any pointers into its data buffer. The value -1 is reserved to mean that
	// either no opcodes have been generated yet, or else the last opcode
	// generated was a double-instruction opcode.
	//
	int last_opcode_index_;

	// If true, an Adler32 checksum of the target window data will be written as
	// a variable-length integer, just after the size of the addresses section.
	//
	bool add_checksum_;

	// The checksum to be written to the current target window,
	// if add_checksum_ is true.
	// This will not be calculated based on the individual calls to Add(), Run(),
	// and Copy(), which would be unnecessarily expensive. Instead, the code
	// that uses the VCDiffCodeTableWriter object is expected to calculate
	// the checksum all at once and to call AddChecksum() with that value.
	// Must be called sometime before calling Output(), though it can be called
	// either before or after the calls to Add(), Run(), and Copy().
	//
	VCDChecksum checksum_;

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

	}; // namespace open_vcdiff

	#endif // OPEN_VCDIFF_ENCODETABLE_H_