vbagx/source/goomba/goombasav.cpp

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/* goombasav.c - functions to handle Goomba / Goomba Color SRAM
last updated September 8, 2014
Copyright (C) 2014 libertyernie
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
https://github.com/libertyernie/goombasav
When compiling in Visual Studio, set all goombasav files to compile
as C++ code (Properties -> C/C++ -> Advanced -> Compile As.)
*/
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "goombasav.h"
#include "minilzo-2.06/minilzo.h"
#define goomba_error(...) { sprintf(last_error, __VA_ARGS__); }
#define F16 little_endian_conv_16
#define F32 little_endian_conv_32
static const char* const sleeptxt[] = { "5min", "10min", "30min", "OFF" };
static const char* const brightxt[] = { "I", "II", "III", "IIII", "IIIII" };
static char last_error[256] = "No error has occured yet.";
static char goomba_strbuf[256];
const char* goomba_last_error() {
return (const char*)last_error;
}
size_t goomba_set_last_error(const char* msg) {
size_t len = strnlen(msg, sizeof(last_error)-1);
memcpy(last_error, msg, len);
last_error[sizeof(last_error)-1] = '\0';
return len;
}
// For making a checksum of the compressed data.
// output_bytes is limited to 8 at maximum
uint64_t checksum_slow(const void* ptr, size_t length, int output_bytes) {
const unsigned char* p = (const unsigned char*)ptr;
uint64_t sum=0;
char* sumptr = (char*)&sum;
size_t j;
for (j=0;j<length;j++) {
int index = j%output_bytes;
sumptr[index] += *p;
p++;
}
return sum;
}
uint16_t little_endian_conv_16(uint16_t value) {
if (*(uint16_t *)"\0\xff" < 0x100) {
uint16_t buffer;
((char*)&buffer)[0] = ((char*)&value)[1];
((char*)&buffer)[1] = ((char*)&value)[0];
return buffer;
} else {
return value;
}
}
uint32_t little_endian_conv_32(uint32_t value) {
if (*(uint16_t *)"\0\xff" < 0x100) {
uint32_t buffer;
((char*)&buffer)[0] = ((char*)&value)[3];
((char*)&buffer)[1] = ((char*)&value)[2];
((char*)&buffer)[2] = ((char*)&value)[1];
((char*)&buffer)[3] = ((char*)&value)[0];
return buffer;
} else {
return value;
}
}
configdata_misc_strings configdata_get_misc(char misc) {
configdata_misc_strings s;
s.sleep = sleeptxt[misc & 0x3];
s.autoload_state = ((misc & 0x10) >> 4) ? "ON" : "OFF";
s.gamma = brightxt[(misc & 0xE0) >> 5];
return s;
}
const char* stateheader_typestr(uint16_t type) {
switch (type) {
case GOOMBA_STATESAVE:
return "Savestate";
case GOOMBA_SRAMSAVE:
return "SRAM";
case GOOMBA_CONFIGSAVE:
return "Configuration";
case GOOMBA_PALETTE: // Used by Goomba Paletted
return "Palette";
default:
return "Unknown"; // Stateheaders with these types are rejected by stateheader_plausible
}
}
const char* stateheader_str(const stateheader* sh) {
int j = 0;
j += sprintf(goomba_strbuf + j, "size: %u\n", F16(sh->size));
j += sprintf(goomba_strbuf + j, "type: %s (%u)\n", stateheader_typestr(F16(sh->type)), F16(sh->type));
if (F16(sh->type) == GOOMBA_CONFIGSAVE) {
configdata* cd = (configdata*)sh;
j += sprintf(goomba_strbuf + j, "bordercolor: %u\n", cd->bordercolor);
j += sprintf(goomba_strbuf + j, "palettebank: %u\n", cd->palettebank);
configdata_misc_strings strs = configdata_get_misc(cd->misc);
j += sprintf(goomba_strbuf + j, "sleep: %s\n", strs.sleep);
j += sprintf(goomba_strbuf + j, "autoload state: %s\n", strs.autoload_state);
j += sprintf(goomba_strbuf + j, "gamma: %s\n", strs.gamma);
j += sprintf(goomba_strbuf + j, "rom checksum: %8X (0xE000-0xFFFF %s)\n", F32(cd->sram_checksum),
cd->sram_checksum != 0 ? "occupied" : "free");
} else {
j += sprintf(goomba_strbuf + j, "%scompressed_size: %u\n",
(F32(sh->uncompressed_size) < F16(sh->size) ? "" : "un"),
F32(sh->uncompressed_size));
j += sprintf(goomba_strbuf + j, "framecount: %u\n", F32(sh->framecount));
j += sprintf(goomba_strbuf + j, "rom checksum: %8X\n", F32(sh->checksum));
}
j += sprintf(goomba_strbuf + j, "title: %s", sh->title);
return goomba_strbuf;
}
const char* stateheader_summary_str(const stateheader* sh) {
sprintf(goomba_strbuf, "%s: %s (%u b / %u uncomp)", stateheader_typestr(
F16(sh->type)), sh->title, F16(sh->size), F32(sh->uncompressed_size));
return goomba_strbuf;
}
int stateheader_plausible(const stateheader* sh) {
uint16_t type = F16(sh->type);
if (type < 0 || type == 3 || type == 4 || type > 5) return 0;
return F16(sh->size) >= sizeof(stateheader) && // check size (at least 48)
(F16(sh->type) == GOOMBA_CONFIGSAVE || sh->uncompressed_size != 0); // check uncompressed_size, but not for configsave
// when checking for whether something equals 0, endian conversion is not necessary
}
stateheader* stateheader_advance(const stateheader* sh) {
if (!stateheader_plausible(sh)) return NULL;
uint16_t s = F16(sh->size);
char* c = (char*)sh;
c += s;
return (stateheader*)c;
}
stateheader** stateheader_scan(const void* gba_data) {
// Do not edit gba_data!
// We are casting to non-const pointers so the client gets non-const pointers back.
const goomba_size_t psize = sizeof(stateheader*);
stateheader** headers = (stateheader**)malloc(psize * 64);
memset(headers, 0, psize * 64);
uint32_t* check = (uint32_t*)gba_data;
if (F32(*check) == GOOMBA_STATEID) check++;
stateheader* sh = (stateheader*)check;
int i = 0;
while (stateheader_plausible(sh) && i < 63) {
headers[i] = sh;
i++;
sh = stateheader_advance(sh);
}
return headers;
}
stateheader* stateheader_for(const void* gba_data, const char* gbc_title) {
char title[0x10];
memcpy(title, gbc_title, 0x0F);
title[0x0F] = '\0';
stateheader* use_this = NULL;
stateheader** headers = stateheader_scan(gba_data);
int i;
for (i = 0; headers[i] != NULL; i++) {
if (strcmp(headers[i]->title, title) == 0 && F16(headers[i]->type) == GOOMBA_SRAMSAVE) {
use_this = headers[i];
break;
}
}
free(headers);
if (use_this == NULL) sprintf(last_error, "Could not find SRAM data for %s", title);
return use_this;
}
// Uses checksum_slow, and looks at the compressed data (not the header).
// output_bytes is limited to 8 at maximum
uint64_t goomba_compressed_data_checksum(const stateheader* sh, int output_bytes) {
return checksum_slow(sh+1, F16(sh->size) - sizeof(stateheader), output_bytes);
}
int goomba_is_sram(const void* data) {
return F32(*(uint32_t*)data) == GOOMBA_STATEID;
}
/**
* Returns the 32-bit checksum (unsigned) in the configdata header, or -1 if
* stateheader_scan returns NULL due to an error. When using this function,
* first check if the value is less than 0, then (if not) cast to uint32_t.
*/
int64_t goomba_get_configdata_checksum_field(const void* gba_data) {
// todo fix
stateheader** headers = stateheader_scan(gba_data);
if (headers == NULL) return -1;
int i;
for (i = 0; headers[i] != NULL; i++) {
if (F16(headers[i]->type) == GOOMBA_CONFIGSAVE) {
// found configdata
const configdata* cd = (configdata*)headers[i];
free(headers);
return F32(cd->sram_checksum); // 0 = clean, postitive = unclean
}
}
free(headers);
return -1; // not sure when this would happen
}
char* goomba_cleanup(const void* gba_data_param) {
char gba_data[GOOMBA_COLOR_SRAM_SIZE]; // on stack - do not need to free
memcpy(gba_data, gba_data_param, GOOMBA_COLOR_SRAM_SIZE);
stateheader** headers = stateheader_scan(gba_data);
if (headers == NULL) return NULL;
int i, j;
for (i = 0; headers[i] != NULL; i++) {
if (F16(headers[i]->type) == GOOMBA_CONFIGSAVE) {
// found configdata
configdata* cd = (configdata*)headers[i];
const uint32_t checksum = F32(cd->sram_checksum);
for (j = 0; headers[j] != NULL; j++) {
stateheader* sh = headers[j];
if (F16(sh->type) == GOOMBA_SRAMSAVE && F32(sh->checksum) == checksum) {
// found stateheader
free(headers); // so make sure we return something before the loop goes around again!!
cd->sram_checksum = 0; // because we do this here, goomba_new_sav should not complain about an unclean file
char gbc_data[GOOMBA_COLOR_SRAM_SIZE - GOOMBA_COLOR_AVAILABLE_SIZE];
memcpy(gbc_data,
gba_data + GOOMBA_COLOR_AVAILABLE_SIZE,
sizeof(gbc_data)); // Extract GBC data at 0xe000 to an array
char* new_gba_data = goomba_new_sav(gba_data, sh, gbc_data, sizeof(gbc_data));
if (new_gba_data != NULL) memset(new_gba_data + GOOMBA_COLOR_AVAILABLE_SIZE, 0, sizeof(gbc_data));
return new_gba_data;
}
}
}
}
free(headers);
return (char*)gba_data_param;
}
void* goomba_extract(const void* gba_data, const stateheader* header_ptr, goomba_size_t* size_output) {
const stateheader* sh = (const stateheader*)header_ptr;
if (F16(sh->type) != GOOMBA_SRAMSAVE) {
goomba_error("Error: this program can only extract SRAM data.\n");
return NULL;
}
const int64_t ck = goomba_get_configdata_checksum_field(gba_data);
if (ck < 0) {
return NULL;
} else if (ck == F32(sh->checksum)) {
goomba_error("File is unclean - run goomba_cleanup before trying to extract SRAM, or you might get old data\n");
return NULL;
} else if (ck != 0) {
fprintf(stderr, "File is unclean, but it shouldn't affect retrieval of the data you asked for\n");
}
lzo_uint compressed_size = F16(sh->size) - sizeof(stateheader);
lzo_uint output_size = 32768;
const unsigned char* compressed_data = (unsigned char*)header_ptr + sizeof(stateheader);
unsigned char* uncompressed_data = (unsigned char*)malloc(output_size);
int r = lzo1x_decompress_safe(compressed_data, compressed_size,
uncompressed_data, &output_size,
(void*)NULL);
//fprintf(stderr, "Actual uncompressed size: %lu\n", output_size);
if (r == LZO_E_INPUT_NOT_CONSUMED) {
//goomba_error("Warning: input not fully used. Double-check the result to make sure it works.\n");
} else if (r < 0) {
goomba_error("Cannot decompress data (lzoconf.h error code %d).\n", r);
free(uncompressed_data);
return NULL;
}
*size_output = output_size;
return uncompressed_data;
}
goomba_size_t copy_until_invalid_header(void* dest, const stateheader* src_param) {
const void* src = src_param;
goomba_size_t bytes_copied = 0;
while (1) {
const stateheader* sh = (const stateheader*)src;
if (!stateheader_plausible(sh)) break;
memcpy(dest, src, F16(sh->size));
src = (char*)src + F16(sh->size);
dest = (char*)dest + F16(sh->size);
bytes_copied += F16(sh->size);
}
memcpy(dest, src, sizeof(stateheader)); // copy "footer"
return bytes_copied + sizeof(stateheader);
}
char* goomba_new_sav(const void* gba_data, const void* gba_header, const void* gbc_sram, goomba_size_t gbc_length) {
unsigned char* gba_header_ptr = (unsigned char*)gba_header;
stateheader* sh = (stateheader*)gba_header_ptr;
int64_t ck = goomba_get_configdata_checksum_field(gba_data);
if (ck < 0) {
return NULL;
} else if (ck == F32(sh->checksum)) {
// have to clean file
goomba_error("File is unclean - run goomba_cleanup before trying to replace SRAM, or your new data might get overwritten");
return NULL;
} else if (ck != 0) {
fprintf(stderr, "File is unclean, but it shouldn't affect replacement of the data you asked for\n");
}
if (F16(sh->type) != GOOMBA_SRAMSAVE) {
goomba_error("Error - This program cannot replace non-SRAM data.\n");
return NULL;
}
// sh->uncompressed_size is valid for Goomba Color.
// For Goomba, it's actually compressed size (and will be less than sh->size).
goomba_size_t uncompressed_size;
if (F16(sh->size) > F32(sh->uncompressed_size)) {
// Uncompress to a temporary location, just so we can see how big it is
goomba_size_t output;
void* dump = goomba_extract(gba_data, sh, &output);
if (dump == NULL) {
return NULL;
}
free(dump);
uncompressed_size = output;
} else {
// Goomba Color header - use size from there
uncompressed_size = F32(sh->uncompressed_size);
}
if (gbc_length < uncompressed_size) {
goomba_error("Error: the length of the GBC data (%u) is too short - expected %u bytes.\n",
gbc_length, uncompressed_size);
return NULL;
} else if (gbc_length - 4 == uncompressed_size) {
goomba_error("Note: RTC data (TGB_Dual format) will not be copied\n");
} else if (gbc_length - 44 == uncompressed_size) {
goomba_error("Note: RTC data (old VBA format) will not be copied\n");
} else if (gbc_length - 48 == uncompressed_size) {
goomba_error("Note: RTC data (new VBA format) will not be copied\n");
} else if (gbc_length > uncompressed_size) {
goomba_error("Warning: unknown data at end of GBC save file - only first %u bytes will be used\n", uncompressed_size);
}
if (F16(sh->type) != GOOMBA_SRAMSAVE) {
goomba_error("The data at gba_header is not SRAM data.\n");
return NULL;
}
char* const goomba_new_sav = (char*)malloc(GOOMBA_COLOR_SRAM_SIZE);
memset(goomba_new_sav, 0, GOOMBA_COLOR_SRAM_SIZE);
char* working = goomba_new_sav; // will be incremented throughout
goomba_size_t before_header = (char*)gba_header - (char*)gba_data;
// copy anything before stateheader
memcpy(goomba_new_sav, gba_data, before_header);
working += before_header;
// copy stateheader
memcpy(working, sh, sizeof(stateheader));
stateheader* new_sh = (stateheader*)working;
working += sizeof(stateheader);
// backup data that comes after this header
unsigned char* backup = (unsigned char*)malloc(GOOMBA_COLOR_SRAM_SIZE);
goomba_size_t backup_len = copy_until_invalid_header(backup, (stateheader*)(gba_header_ptr + F16(sh->size)));
// compress gbc sram
lzo_uint compressed_size;
unsigned char* dest = (unsigned char*)working;
void* wrkmem = malloc(LZO1X_1_MEM_COMPRESS);
lzo1x_1_compress((const unsigned char*)gbc_sram, uncompressed_size,
dest, &compressed_size,
wrkmem);
free(wrkmem);
working += compressed_size;
//fprintf(stderr, "Compressed %u bytes (compressed size: %lu)\n", uncompressed_size, compressed_size);
if (F16(sh->size) > F32(sh->uncompressed_size)) {
// Goomba header (not Goomba Color)
new_sh->uncompressed_size = F32(compressed_size);
}
new_sh->size = F16((uint16_t)(compressed_size + sizeof(stateheader)));
// pad to 4 bytes!
// if I don't do this, goomba color might not load the palette settings, or seemingly 'forget' them later
// btw, the settings are stored in the configdata struct defined in goombasav.h
uint16_t s = F16(new_sh->size);
while (s % 4 != 0) {
*working = 0;
working++;
s++;
}
new_sh->size = F16(s);
goomba_size_t used = working - goomba_new_sav;
if (used + backup_len > GOOMBA_COLOR_AVAILABLE_SIZE) {
goomba_error("Not enough room in file for the new save data (0xe000-0xffff must be kept free, I think)\n");
free(backup);
free(goomba_new_sav);
return NULL;
}
// restore the backup - just assume we have enough space
memcpy(working, backup, backup_len);
free(backup);
// restore data from 0xe000 to 0xffff
memcpy(goomba_new_sav + GOOMBA_COLOR_AVAILABLE_SIZE,
(char*)gba_data + GOOMBA_COLOR_AVAILABLE_SIZE,
GOOMBA_COLOR_SRAM_SIZE - GOOMBA_COLOR_AVAILABLE_SIZE);
return goomba_new_sav;
}