/*
 * Xenogears 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 "fileutils.h"
#include "cdutils.h"
#include "generic.h"

unsigned int tourne = 0;

struct t_index_tab {
    unsigned long address;
    long size;
    long type;
    long index;
};

struct t_sequence {
    unsigned int n;
    unsigned int sum;
    char *prefix;
    char *name;
    int type;
};

char *title, *iso_filename, *prefix;
unsigned long iso_size;
unsigned int nb_records, nb_seqs = 0;
struct t_sequence sequences[1000];

long check_iso(int f_iso);
void read_files(int f_iso);
void file_dump(int f_iso, unsigned long debut, unsigned long taille, long num, int seq);
int process_def_file(int f_def);

unsigned char user_data[2352];

int main(int argc, char **argv)
{
    int f_def, f_iso;
    
    verbosity = 3;
    
    fprintf(stderr,
"Xenogears 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]);
	exit(-1);
    }

    printm(M_STATUS, "Processing file %s...\n", argv[1]);

    if ((f_def = open(argv[1], O_RDONLY)) < 0) {
	printm(M_ERROR, "Unable to open the definition file \"%s\"...\n", argv[1]);
	exit(-1);
    }

    if (process_def_file(f_def)) {
	close(f_def);
	printm(M_ERROR, "Unable to process the definition file \"%s\"...\n", argv[1]);
	exit(-1);
    }

    iso_filename = argv[2];

    printm(M_STATUS, "Begin processing iso file.\n");
    if ((f_iso = open(iso_filename, O_RDONLY)) < 0) {
	printm(M_ERROR, "Unable to open the iso file \"%s\"...\n", iso_filename);
	exit(-1);
    }

    if (check_iso(f_iso)) {
	printm(M_ERROR, "Invalid iso file for %s\n", title);
	printm(M_ERROR, "===> Make sure you are using a Genuine iso file.\n");
    } else {
	printm(M_INFO, "Genuine %s iso detected.\n", title);
    }
    printm(M_STATUS, "Entering files read sequence\n");
    read_files(f_iso);
    close(f_iso);
    exit(0);
}

/*
 * Ugly but working... for now 
 */
int process_def_file(int h_f_def)
{
    char t[1024], *p;
    unsigned int n, sum = 0;
    FILE * f_def = fdopen(h_f_def, "r");

    if ((p = strchr(fgets(t, 1024, f_def), '\n')) == NULL)
	return 1;
    *p = 0;
    printm(M_INFO, "Read title: %s\n", t);
    title = strdup(t);

    if (fscanf(f_def, "%lu\n", &iso_size) != 1)
	return 1;
    printm(M_INFO, "Read iso size: %lu bytes\n", iso_size);

    if ((p = strchr(fgets(t, 1024, f_def), '\n')) == NULL)
	return 1;
    *p = 0;
    printm(M_INFO, "Read global directory prefix: %s\n", t);
    prefix = strdup(t);

    if (fscanf(f_def, "%u\n", &nb_records) != 1)
	return 1;
    printm(M_INFO, "Read total of records: %u\n", nb_records);

    while (1) {
	if (fscanf(f_def, "%u\n", &n) != 1)
	    return 1;
	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;
	if ((p = strchr(fgets(t, 1024, f_def), '\n')) == NULL)
	    return 1;
	*p = 0;
	sequences[nb_seqs].prefix = strdup(t);
	if (fscanf(f_def, "%u\n", &n) != 1)
	    return 1;
	sequences[nb_seqs].type = n;
	if ((p = strchr(fgets(t, 1024, f_def), '\n')) == NULL)
	    return 1;
	*p = 0;
	sequences[nb_seqs].name = strdup(t);
	printm(M_INFO, "Read definition of sequence %i:\n===> %5i (sum = %5i) chunks of %s (%s)\n",
	       nb_seqs, n, sum, t, sequences[nb_seqs].prefix);
	nb_seqs++;
    }
}

long check_iso(int f_iso)
{
    unsigned long length;

    length = filesize(f_iso);
    printm(M_INFO, "Filesize of iso file %s is %ld bytes\n", iso_filename, length);
    if (length != iso_size) {
	return 1;
    }
    return 0;
}

void read_files(int f_iso)
{
    t_index_tab index_tab[10000];
    unsigned char t[8];
    unsigned long i;
    unsigned long j;
    unsigned int seq = 0;
    unsigned long indexer;
    struct t_index_tab *p = (struct t_index_tab *) t;

    unsigned char fat[32768];

#define INDEXPOS 24

    sector_seek(f_iso, INDEXPOS);
    for (i = INDEXPOS; i < (INDEXPOS + 16); i++) {
	printm(M_INFO, "Reading fat sector %lu\n", i);
	read_sector(f_iso, &fat[2048 * (i - INDEXPOS)], MODE_2_FORM_1);
    }

    indexer = 0;
    for (j = 0; j < 32768; j = j + 7) {
	t[0] = 0;
	bcopy((char *) &fat[j], (char *) t + 1, 7);
	p->address >>= 8;
	index_tab[indexer] = *p;
	if (p->size > 0 && p->address != 0) {
	    index_tab[indexer].index = j / 7;
	    printm(M_INFO, "Found a quite valid index: number %4lu, address %6lu, size %3li\n",
		   indexer, index_tab[indexer].address, index_tab[indexer].size);
	    indexer++;
	    if (indexer == nb_records)
		break;
	} else {
	    printm(M_WARNING, "Ignored invalid index chunk number %4lu (size = %lu) (%02x %02x %02x %02x %02x %02x %02x)\n",
		 j / 7, -index_tab[indexer].size, t[0], t[1], t[2], t[4], t[5], t[6], t[7]);
	}
    }
    printm(M_STATUS, "Index file generation complete.\n\n");

    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 (%10lu): ignored\n", index_tab[i].address, index_tab[i].size);
	} else {
	    printm(M_INFO, "%6lu (%10lu): ", index_tab[i].address, index_tab[i].size);
	    file_dump(f_iso, index_tab[i].address, index_tab[i].size, i, seq);
	    if (verbosity >= M_INFO) {
		fprintf(stderr, "\n");
	    }
	}
    }
    fprintf(stderr, "\n");
}

void file_dump(int f_iso, unsigned long debut, unsigned long taille, long num, int seq)
{
    long i;
    long nbsects;
    char nom[1000] = "";
    char *extention = ".out";
    char nom_t[1000] = "";
    int f_out;
    char type = sequences[seq].type;
    char ptitbidule[] = "-\\|/";
    
    sprintf(nom_t, "%ld", num);

    strcat(nom, "./");

    strcat(nom, prefix);
    strcat(nom, "/");
    MKDIR(nom);

    strcat(nom, sequences[seq].prefix);
    strcat(nom, "/");
    MKDIR(nom);

    if (num < 10)
	strcat(nom, "0");
    if (num < 100)
	strcat(nom, "0");
    if (num < 1000)
	strcat(nom, "0");
    strcat(nom, nom_t);

    strcat(nom, extention);
    f_out = open(nom, O_WRONLY | O_CREAT | O_TRUNC, 00644);
    nbsects = taille / sec_sizes[type];
    if (taille % sec_sizes[type])
	nbsects++;
    sector_seek(f_iso, debut);
    for (i = 0; i < nbsects; i++) {
	if (verbosity < M_INFO) 
	    fprintf(stderr, "  (%c)\010\010\010\010\010", ptitbidule[((tourne++) >> 8) % 4]);
	read_sector(f_iso, user_data, type);
	if (i != (nbsects - 1)) {
	    write(f_out, user_data, sec_sizes[type]);
	} else {
	    write(f_out, user_data, taille % sec_sizes[type] ? taille % sec_sizes[type] : sec_sizes[type]);
	}
    }
    close(f_out);
    fprintf(stderr, "  (*) Dumped file number %4ld - type \"%s\"           \r", num, sequences[seq].name);
}