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/*
* Valkyrie Profile extractor by Nicolas "Pixel" Noble (nicolas@nobis-crew.org)
* Highly based upon Yazoo's Chrono Cross CD extractor
*
* ******** Original disclaimer by Yazoo ********
*
* Chrono Cross CD extractor Copyright 2000-2001 by Yazoo (hamm@efrei.fr) Revision 0.1b ANSI C
*
*
* Features:
*
* Dump the complete content of Chrono Chross CD1/CD2 US and Japanese version It requires a iso
* named Chrono1.iso in the same directory
*
* Todo list:
*
* Find a way to locate end of the last file Better support for CD2 Dump in subdirectory according
* to CD1/CD2 repartition Recompilation in Visual C++ 6 for disk speed optimisation Source comment
* and reorganisation Log feature (Optional since you can redirect output with > ) Progression
* indicator Better detection of the ISO with error control Major code optimisation Integration in
* main Chrono Cross Hacking tool
*
* ******** End of original disclaimer by Yazoo ********
*
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include "cdutils.h"
#include "generic.h"
#include "Input.h"
#include "Output.h"
#include "BString.h"
#include "Main.h"
#include "cdabstract.h"
CODE_BEGINS
public:
Appli() : tourne(0), nb_seqs(0), f_def(0), f_iso(0), f_out(0), cdutil(0) {}
virtual ~Appli() {
delete cdutil;
delete f_def;
delete f_iso;
delete f_out;
}
private:
unsigned int tourne;
struct t_index_tab {
unsigned long address;
unsigned char flags;
long type;
long index;
};
struct t_sequence {
unsigned int n;
unsigned int sum;
String prefix;
String name;
int type;
};
String title, iso_filename, prefix;
unsigned long iso_size;
unsigned int nb_records, nb_seqs;
struct t_sequence sequences[1000];
Handle * f_def, * f_iso, * f_out;
cdutils * cdutil;
unsigned char user_data[2352];
virtual int startup() throw (GeneralException)
{
verbosity = M_STATUS;
fprintf(stderr,
"Valkyrie Profile File Extractor by Nicolas \"Pixel\" Noble\n"
"Highly based upon the Chrono Cross File Extractor By Yazoo\n\n");
if (argc != 3) {
fprintf(stderr, "Usage: %s <definition_file.sqr> <iso_file_name>\nSee readme.txt for details\n",
argv[0]);
throw Exit(-1);
}
printm(M_STATUS, "Processing file %s...\n", argv[1]);
f_def = new Input(argv[1]);
if (process_def_file()) {
printm(M_ERROR, "Unable to process the definition file \"%s\"...\n", argv[1]);
throw Exit(-1);
}
iso_filename = argv[2];
printm(M_STATUS, "Begin processing iso file.\n");
f_iso = open_iso(iso_filename);
if (check_iso()) {
printm(M_ERROR, "Invalid iso file for " + title + "\n");
printm(M_ERROR, "===> Make sure you are using a Genuine iso file.\n");
} else {
printm(M_INFO, "Genuine " + title + " iso detected.\n");
}
cdutil = new cdutils(f_iso);
printm(M_STATUS, "Entering files read sequence\n");
read_files();
throw Exit(0);
}
/*
* Ugly but working... for now
*/
int process_def_file()
{
String t;
unsigned int n, sum = 0;
*f_def >> title;
printm(M_INFO, "Read title: " + title + "\n");
*f_def >> t;
iso_size = t.to_int();
printm(M_INFO, "Read iso size: %lu bytes\n", iso_size);
*f_def >> prefix;
printm(M_INFO, "Read global directory prefix: " + prefix + "\n");
*f_def >> t;
nb_records = t.to_int();
printm(M_INFO, "Read total of records: %u\n", nb_records);
while (1) {
*f_def >> t;
n = t.to_int();
if (!n) {
if (sum == nb_records) {
printm(M_INFO, "Definition file seems coherent\n");
return 0;
} else {
printm(M_ERROR, "Definition file incoherent\n");
return 1;
}
}
sum += n;
sequences[nb_seqs].n = n;
sequences[nb_seqs].sum = sum;
*f_def >> sequences[nb_seqs].prefix;
*f_def >> t;
sequences[nb_seqs].type = t.to_int();
*f_def >> sequences[nb_seqs].name;
printm(M_INFO, "Read definition of sequence %i:\n===> %5i (sum = %5i) chunks of " + sequences[nb_seqs].name + " (" + sequences[nb_seqs].prefix + ")\n",
nb_seqs, n, sum);
nb_seqs++;
}
}
long check_iso()
{
unsigned long length;
length = f_iso->GetSize();
if (length < 0) {
printm(M_INFO, "Can not get file size, assuming reading from cd.\n");
} else {
printm(M_INFO, "Filesize of iso file " + iso_filename + " is %ld bytes\n", length);
if (length != iso_size) {
return 1;
}
}
return 0;
}
void read_files()
{
t_index_tab index_tab[10000];
unsigned long i;
unsigned long j;
unsigned int seq = 0;
unsigned long indexer;
unsigned char fat[20480];
unsigned char key[256];
#define INDEXPOS 150
cdutil->sector_seek(INDEXPOS);
for (i = INDEXPOS; i < (INDEXPOS + 10); i++) {
printm(M_INFO, "Reading fat sector %lu\n", i);
cdutil->read_sector(&fat[2048 * (i - INDEXPOS)], MODE_2_FORM_1);
}
memcpy(key, fat + 0x4f00, 256);
printm(M_INFO, "Decrypting.\n");
for (i = 0; i < 20480; i++) {
fat[i] ^= key[i % 256];
}
indexer = 0;
for (j = 4; j < 20480; j += 4) {
unsigned char m, s, f;
m = fat[j];
s = fat[j + 1];
f = fat[j + 2];
index_tab[indexer].address = cdutil->from_MSF(m, s, f);
if (m || s || f) {
index_tab[indexer].index = j / 4;
index_tab[indexer].flags = fat[j + 3];
printm(M_INFO, "Found a quite valid index: number %4lu, address %6lu - flags = %02x\n",
indexer, index_tab[indexer].address, fat[j + 3]);
indexer++;
if (indexer == nb_records)
break;
} else {
printm(M_WARNING, "Ignored invalid index chunk number %4lu\n", j / 4);
}
}
printm(M_STATUS, "Index file generation complete.\n\n");
index_tab[indexer].address = f_iso->GetSize() / 2352;
for (i = 0; i < nb_records; i++) {
if (sequences[seq].sum == i)
seq++;
index_tab[i].type = sequences[seq].type;
if (sequences[seq].type == 0) {
printm(M_INFO, "%6lu - %02x: ignored\n", index_tab[i].address, index_tab[i].flags);
} else {
int size;
printm(M_INFO, "%6lu - %02x: ", index_tab[i].address, index_tab[i].flags);
size = index_tab[i + 1].address - index_tab[i].address;
size *= sec_sizes[index_tab[i].type];
file_dump(index_tab[i].address, size, i, seq);
if (verbosity >= M_INFO) {
fprintf(stderr, "\n");
}
}
}
fprintf(stderr, "\n");
}
void file_dump(unsigned long debut, unsigned long taille, long num, int seq)
{
long i;
long nbsects;
String nom;
char type = sequences[seq].type;
char ptitbidule[] = "-\\|/";
nom = "./" + prefix + "/";
MKDIR(nom.to_charp());
nom += sequences[seq].prefix + "/";
MKDIR(nom.to_charp());
nom += String().set("%04ld.out", num);
f_out = new Output(nom);
nbsects = taille / sec_sizes[type];
if (taille % sec_sizes[type])
nbsects++;
cdutil->sector_seek(debut);
for (i = 0; i < nbsects; i++) {
if (verbosity < M_INFO)
fprintf(stderr, " (%c)\010\010\010\010\010", ptitbidule[((tourne++) >> 8) % 4]);
cdutil->read_sector(user_data, type);
if (i != (nbsects - 1)) {
f_out->write(user_data, sec_sizes[type]);
} else {
f_out->write(user_data, taille % sec_sizes[type] ? taille % sec_sizes[type] : sec_sizes[type]);
}
}
delete f_out;
f_out = 0;
printm(M_BARE, " (*) Dumped file number %4ld - type \"" + sequences[seq].name + "\" \r", num);
}
CODE_ENDS
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