path: root/utilities/stepdump.cpp

#include <iostream.h>
#include <string>

#include <fcntl.h>
#include <unistd.h>

#include <lzsscomprs.h>

#ifndef O_BINARY
#define O_BINARY 0
#endif


using namespace std;

typedef struct {
	short versionRecordSize;
	short publisherID;
	short bookID;
	short setID;
	char conversionProgramVerMajor;
	char conversionProgramVerMinor;
	char leastCompatSTEPVerMajor;
	char leastCompatSTEPVerMinor;
	char encryptionType;
	char editionID;
	short modifiedBy;
} Version;

typedef struct {
	short viewableHeaderRecordSize;
	long viewableBlocksCount; // this is listed as nonGlossBlocksCount in spec!
	long glossBlocksCount;
	char compressionType; // 0 - none; 1 - LZSS
	char reserved1;
	short blockEntriesSize;
	short reserved2;
} ViewableHeader;

typedef struct {
	long offset;
	long uncompressedSize;
	long size;
} ViewableBlock;
		
void readVersion(int fd, Version *versionRecord);
void readHeaderControlWordAreaText(int fd, char **buf);
void readViewableHeader(int fd, ViewableHeader *viewableHeaderRecord);
void readViewableBlock(int fd, ViewableBlock *vb);
void readViewableBlockText(int fd, ViewableBlock *vb, char **buf);

SWCompress *compress = 0;

int main(int argc, char **argv) {

	compress = new LZSSCompress();
	char *buf;
	Version versionRecord;
	ViewableHeader viewableHeaderRecord;

	if (argc < 2) {
		cerr << "usage: "<< *argv << " <database to step module>\n";
		exit (-1);
	}

	string bookpath = argv[1];
	string fileName;

	if ((argv[1][strlen(argv[1])-1] != '/') &&
		(argv[1][strlen(argv[1])-1] != '\\'))
		bookpath += "/";

	fileName = bookpath + "Book.dat";
	int fd = open(fileName.c_str(), O_RDONLY|O_BINARY);

	if (fd < 1) {
		cerr << "error, couldn't open file: " << fileName << "\n";
		exit (-2);
	}

	readVersion(fd, &versionRecord);
	readHeaderControlWordAreaText(fd, &buf);
	delete [] buf;


	fileName = bookpath + "Viewable.idx";
	int fdv = open(fileName.c_str(), O_RDONLY|O_BINARY);

	if (fdv < 1) {
		cerr << "error, couldn't open file: " << fileName << "\n";
		exit (-3);
	}

	readVersion(fdv, &versionRecord);
	readViewableHeader(fdv, &viewableHeaderRecord);

	ViewableBlock vb;

	cout << "\n\nReading special preface viewable BLOCK 0";

	readViewableBlock(fdv, &vb);
	readViewableBlockText(fd, &vb, &buf);
	delete [] buf;
	
	int nonGlossBlocksCount = viewableHeaderRecord.viewableBlocksCount
					    - viewableHeaderRecord.glossBlocksCount;

	cout << "\n\nReading " << nonGlossBlocksCount << " non-glossary viewable blocks";
	// 1 because we already read the first block above
	for (int i = 1; i < nonGlossBlocksCount; i++) {
		cout << "\nNon-Glossary viewable block: " << i;
		readViewableBlock(fdv, &vb);
		readViewableBlockText(fd, &vb, &buf);
		delete [] buf;
	}

	cout << "\n\nReading " << viewableHeaderRecord.glossBlocksCount << " glossary viewable blocks";
	for (int i = 0; i < viewableHeaderRecord.glossBlocksCount; i++) {
		cout << "\nGlossary viewable block: " << i;
		readViewableBlock(fdv, &vb);
		readViewableBlockText(fd, &vb, &buf);
		delete [] buf;
	}

	close(fdv);
	close(fd);

}



void readVersion(int fd, Version *versionRecord) {

	cout << "\n\nReading Version Record (" << 16/*sizeof(struct Version)*/ << " bytes)\n\n";
// DO NOT USE BECAUSE OF RECORD BYTE ALIGNMENT PROBLEMS
//	read(fd, &versionRecord, sizeof(struct Version));

	cout << "Version Record Information\n";
	read(fd, &(versionRecord->versionRecordSize), 2);
	cout << "\tversionRecordSize: " << versionRecord->versionRecordSize << "\n";
	read(fd, &(versionRecord->publisherID), 2);
	cout << "\tpublisherID: " << versionRecord->publisherID << "\n";
	read(fd, &(versionRecord->bookID), 2);
	cout << "\tbookID: " << versionRecord->bookID << "\n";
	read(fd, &(versionRecord->setID), 2);
	cout << "\tsetID: " << versionRecord->setID << "\n";
	read(fd, &(versionRecord->conversionProgramVerMajor), 1);
	cout << "\tconversionProgramVerMajor: " << (int)versionRecord->conversionProgramVerMajor << "\n";
	read(fd, &(versionRecord->conversionProgramVerMinor), 1);
	cout << "\tconversionProgramVerMinor: " << (int)versionRecord->conversionProgramVerMinor << "\n";
	read(fd, &(versionRecord->leastCompatSTEPVerMajor), 1);
	cout << "\tleastCompatSTEPVerMajor: " << (int)versionRecord->leastCompatSTEPVerMajor << "\n";
	read(fd, &(versionRecord->leastCompatSTEPVerMinor), 1);
	cout << "\tleastCompatSTEPVerMinor: " << (int)versionRecord->leastCompatSTEPVerMinor << "\n";
	read(fd, &(versionRecord->encryptionType), 1);
	cout << "\tencryptionType: " << (int)versionRecord->encryptionType << "\n";
	read(fd, &(versionRecord->editionID), 1);
	cout << "\teditionID: " << (int)versionRecord->editionID << "\n";
	read(fd, &(versionRecord->modifiedBy), 2);
	cout << "\tmodifiedBy: " << versionRecord->modifiedBy << "\n";

	int skip = versionRecord->versionRecordSize - 16/*sizeof(struct Version*/;

	if (skip) {
		cout << "\nSkipping " << skip << " unknown bytes.\n";
		char skipbuf[skip];
		read(fd, skipbuf, skip);
	}
}


void readViewableHeader(int fd, ViewableHeader *viewableHeaderRecord) {

	cout << "\n\nReading Viewable Header Record (" << 16/*sizeof(struct ViewableHeader)*/ << " bytes)\n\n";

// DO NOT USE BECAUSE OF RECORD BYTE ALIGNMENT PROBLEMS
//	read(fd, &viewableHeaderRecord, sizeof(struct ViewableHeader));

	cout << "Viewable Header Record Information\n";
	read(fd, &(viewableHeaderRecord->viewableHeaderRecordSize), 2);
	cout << "\tviewableHeaderRecordSize: " << viewableHeaderRecord->viewableHeaderRecordSize << "\n";
	read(fd, &(viewableHeaderRecord->viewableBlocksCount), 4);
	cout << "\tviewableBlocksCount: " << viewableHeaderRecord->viewableBlocksCount << "\n";
	read(fd, &(viewableHeaderRecord->glossBlocksCount), 4);
	cout << "\tglossBlocksCount: " << viewableHeaderRecord->glossBlocksCount << "\n";
	read(fd, &(viewableHeaderRecord->compressionType), 1);
	cout << "\tcompressionType: " << (int)viewableHeaderRecord->compressionType << "(0 - none; 1 - LZSS)\n";
	read(fd, &(viewableHeaderRecord->reserved1), 1);
	cout << "\treserved1: " << (int)viewableHeaderRecord->reserved1 << "\n";
	read(fd, &(viewableHeaderRecord->blockEntriesSize), 2);
	cout << "\tblockEntriesSize: " << viewableHeaderRecord->blockEntriesSize << "\n";
	read(fd, &(viewableHeaderRecord->reserved2), 2);
	cout << "\treserved2: " << viewableHeaderRecord->reserved2 << "\n";

	int skip = viewableHeaderRecord->viewableHeaderRecordSize - 16/*sizeof(struct ViewableHeader)*/;

	if (skip) {
		cout << "\nSkipping " << skip << " unknown bytes.\n";
		char skipbuf[skip];
		read(fd, skipbuf, skip);
	}
}


void readViewableBlockText(int fd, ViewableBlock *vb, char **buf) {
	unsigned long size = vb->size;

	*buf = new char [ ((vb->size > vb->uncompressedSize) ? vb->size : vb->uncompressedSize) + 1 ];
	lseek(fd, vb->offset, SEEK_SET);
	read(fd, *buf, vb->size);

	compress->zBuf(&size, *buf);
	strcpy(*buf, compress->Buf());
	cout << "Viewable Block Text:\n";
	cout << *buf << "\n\n";
}


void readViewableBlock(int fd, ViewableBlock *vb) {

	cout << "\n\nReading Viewable Block (" << 12/*sizeof(struct ViewableHeader)*/ << " bytes)\n\n";

// DO NOT USE BECAUSE OF RECORD BYTE ALIGNMENT PROBLEMS
//	read(fd, &vb, sizeof(struct ViewableBlock));

	cout << "Viewable Block Information\n";
	read(fd, &(vb->offset), 4);
	cout << "\toffset: " << vb->offset << "\n";
	read(fd, &(vb->uncompressedSize), 4);
	cout << "\tuncompressedSize: " << vb->uncompressedSize << "\n";
	read(fd, &(vb->size), 4);
	cout << "\tsize: " << vb->size << "\n";
}


void readHeaderControlWordAreaText(int fd, char **buf) {
	long headerControlWordAreaSize;
	read(fd, &headerControlWordAreaSize, 4);
	cout << "Reading Header Control Word Area (" << headerControlWordAreaSize << " bytes)\n\n";

	*buf = new char [headerControlWordAreaSize + 1];

	read(fd, *buf, headerControlWordAreaSize);
	(*buf)[headerControlWordAreaSize] = 0;

	cout << "headerControlWordArea:\n" << *buf << "\n";
}