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usbloadergx/source/patches/gamepatches.c

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#include <ogc/machine/processor.h>
#include <gccore.h>
#include <malloc.h>
#include <string.h>
#include "usbloader/disc.h"
#include "wip.h"
#include "gecko.h"
#include "patchcode.h"
#include "gamepatches.h"
#include "memory/memory.h"
#include "memory/mem2.h"
#include "settings/SettingsEnums.h"
#include "svnrev.h"
#include "kirbypatch.h"
/* GCC 11 false positives */
#if __GNUC__ > 10
#pragma GCC diagnostic ignored "-Warray-bounds"
#pragma GCC diagnostic ignored "-Wstringop-overflow"
#pragma GCC diagnostic ignored "-Wstringop-overread"
#endif
typedef struct _appDOL
{
u8 *dst;
int len;
} appDOL;
static appDOL *dolList = NULL;
static int dolCount = 0;
extern GXRModeObj *rmode;
void RegisterDOL(u8 *dst, int len)
{
if (!dolList)
dolList = (appDOL *)MEM2_alloc(sizeof(appDOL));
appDOL *tmp = (appDOL *)MEM2_realloc(dolList, (dolCount + 1) * sizeof(appDOL));
if (!tmp)
{
MEM2_free(dolList);
dolCount = 0;
return;
}
dolList = tmp;
dolList[dolCount].dst = dst;
dolList[dolCount].len = len;
dolCount++;
}
void ClearDOLList()
{
if (dolList)
MEM2_free(dolList);
dolList = NULL;
dolCount = 0;
}
void gamepatches(u8 videoSelected, u8 videoPatchDol, u8 aspectForce, u8 languageChoice, u8 patchcountrystring,
u8 vipatch, u8 deflicker, u8 sneekVideoPatch, u8 hooktype, u8 videoWidth, u64 returnTo, u8 privateServer, const char *serverAddr)
{
int i;
u8 vfilter_off[7] = {0, 0, 21, 22, 21, 0, 0};
u8 vfilter_low[7] = {4, 4, 16, 16, 16, 4, 4};
u8 vfilter_medium[7] = {4, 8, 12, 16, 12, 8, 4};
u8 vfilter_high[7] = {8, 8, 10, 12, 10, 8, 8};
// If a wip file is loaded for this game this does nothing - Dimok
patch_nsmb((u8 *)0x80000000);
patch_pop((u8 *)0x80000000);
patch_kirby((u8 *)0x80000000);
for (i = 0; i < dolCount; ++i)
{
u8 *dst = dolList[i].dst;
int len = dolList[i].len;
VideoModePatcher(dst, len, videoSelected, videoPatchDol);
if (hooktype)
dogamehooks(hooktype, dst, len);
if (vipatch)
vidolpatcher(dst, len);
if (sneekVideoPatch)
sneek_video_patch(dst, len);
// LANGUAGE PATCH - FISHEARS
langpatcher(dst, len, languageChoice);
// Thanks to WiiPower
if (patchcountrystring == 1)
PatchCountryStrings(dst, len);
do_wip_code(dst, len);
anti_002_fix(dst, len);
if (videoWidth == WIDTH_FRAMEBUFFER)
patch_width(dst, len);
if (deflicker == DEFLICKER_ON_LOW)
{
patch_vfilters(dst, len, vfilter_low);
patch_vfilters_rogue(dst, len, vfilter_low);
}
else if (deflicker == DEFLICKER_ON_MEDIUM)
{
patch_vfilters(dst, len, vfilter_medium);
patch_vfilters_rogue(dst, len, vfilter_medium);
}
else if (deflicker == DEFLICKER_ON_HIGH)
{
patch_vfilters(dst, len, vfilter_high);
patch_vfilters_rogue(dst, len, vfilter_high);
}
else if (deflicker != DEFLICKER_AUTO)
{
patch_vfilters(dst, len, vfilter_off);
patch_vfilters_rogue(dst, len, vfilter_off);
// This might break fade and brightness effects
if (deflicker == DEFLICKER_OFF_EXTENDED)
deflicker_patch(dst, len);
}
if (returnTo)
PatchReturnTo(dst, len, (u32)returnTo);
if (aspectForce < 2)
PatchAspectRatio(dst, len, aspectForce);
if (privateServer)
PrivateServerPatcher(dst, len, privateServer, serverAddr);
if (privateServer == PRIVSERV_WIIMMFI)
{
// If we end up here, that means it's a NON-MKWii Wiimmfi patch
// add the new patches.
do_new_wiimmfi_nonMKWii(dst, len);
}
DCFlushRange(dst, len);
ICInvalidateRange(dst, len);
}
// ERROR 002 fix (thanks to WiiPower for sharing this)
*(u32 *)0x80003140 = *(u32 *)0x80003188;
DCFlushRange((void *)0x80000000, 0x3f00);
free_wip();
ClearDOLList();
}
/** Anti 002 fix for IOS 249 rev > 12 thanks to WiiPower **/
void anti_002_fix(u8 *addr, u32 len)
{
u32 SearchPattern[3] = {0x2C000000, 0x48000214, 0x3C608000};
u8 *addr_start = addr;
u8 *addr_end = addr + len - sizeof(SearchPattern);
while (addr_start <= addr_end)
{
if (memcmp(addr_start, SearchPattern, sizeof(SearchPattern)) == 0)
{
*((u32 *)addr_start + 1) = 0x40820214;
return;
}
addr_start += 4;
}
}
void patch_width(u8 *addr, u32 len)
{
u8 SearchPattern[32] = {
0x40, 0x82, 0x00, 0x08, 0x48, 0x00, 0x00, 0x1C,
0x28, 0x09, 0x00, 0x03, 0x40, 0x82, 0x00, 0x08,
0x48, 0x00, 0x00, 0x10, 0x2C, 0x03, 0x00, 0x00,
0x40, 0x82, 0x00, 0x08, 0x54, 0xA5, 0x0C, 0x3C};
u8 *addr_start = addr;
u8 *addr_end = addr + len - sizeof(SearchPattern);
while (addr_start <= addr_end)
{
if (memcmp(addr_start, SearchPattern, sizeof(SearchPattern)) == 0)
{
if (addr_start[-0x70] == 0xA0 && addr_start[-0x6E] == 0x00 && addr_start[-0x6D] == 0x0A)
{
if (addr_start[-0x44] == 0xA0 && addr_start[-0x42] == 0x00 && addr_start[-0x41] == 0x0E)
{
u8 reg_a = (addr_start[-0x6F] >> 5);
u8 reg_b = (addr_start[-0x43] >> 5);
// Patch to the framebuffer resolution
addr_start[-0x41] = 0x04;
// Center the image
void *offset = addr_start - 0x70;
u32 old_heap_ptr = *(u32 *)0x80003110;
*(u32 *)0x80003110 = old_heap_ptr - 0x40;
u32 heap_space = old_heap_ptr - 0x40;
u32 org_address = (addr_start[-0x70] << 24) | (addr_start[-0x6F] << 16);
*(u32 *)(heap_space + 0x00) = org_address | 4;
*(u32 *)(heap_space + 0x04) = 0x200002D0 | (reg_b << 21) | (reg_a << 16);
*(u32 *)(heap_space + 0x08) = 0x38000002 | (reg_a << 21);
*(u32 *)(heap_space + 0x0C) = 0x7C000396 | (reg_a << 21) | (reg_b << 16) | (reg_a << 11);
*(u32 *)offset = 0x48000000 + ((heap_space - (u32)offset) & 0x3ffffff);
*(u32 *)(heap_space + 0x10) = 0x48000000 + ((((u32)offset + 0x04) - (heap_space + 0x10)) & 0x3ffffff);
gprintf("Patched resolution. Branched from 0x%x to 0x%x\n", offset, heap_space);
return;
}
}
}
addr_start += 4;
}
}
/** Patch GXSetCopyFilter to disable the deflicker filter **/
void deflicker_patch(u8 *addr, u32 len)
{
u32 SearchPattern[18] = {
0x3D20CC01, 0x39400061, 0x99498000,
0x2C050000, 0x38800053, 0x39600000,
0x90098000, 0x38000054, 0x39800000,
0x508BC00E, 0x99498000, 0x500CC00E,
0x90698000, 0x99498000, 0x90E98000,
0x99498000, 0x91098000, 0x41820040};
u8 *addr_start = addr;
u8 *addr_end = addr + len - sizeof(SearchPattern);
while (addr_start <= addr_end)
{
if (memcmp(addr_start, SearchPattern, sizeof(SearchPattern)) == 0)
{
*((u32 *)addr_start + 17) = 0x48000040; // Change beq to b
gprintf("Patched GXSetCopyFilter @ %p\n", addr_start);
return;
}
addr_start += 4;
}
}
/**
480p Pixel Fix Patch by leseratte
Fix for a Nintendo Revolution SDK bug found by Extrems affecting early Wii console when using 480p video mode.
https://shmups.system11.org/viewtopic.php?p=1361158#p1361158
https://github.com/ExtremsCorner/libogc-rice/commit/941d687e271fada68c359bbed98bed1fbb454448
**/
void PatchFix480p()
{
u8 prefix[2] = {0x4b, 0xff};
/// Patch offset: ----------VVVVVVVV
u32 Pattern_MKW[8] = {0x38000065, 0x9b810019, 0x38810018, 0x386000e0, 0x98010018, 0x38a00002};
u32 patches_MKW[2] = {0x38600003, 0x98610019};
/// Used by: MKWii, Wii Play, Need for Speed Nitro, Wii Sports, ...
/// Patch offset: -----------------------------------------------VVVVVVVV
u32 Pattern_NSMB[8] = {0x38000065, 0x9801001c, 0x3881001c, 0x386000e0, 0x9b81001d, 0x38a00002};
u32 patches_NSMB[2] = {0x38a00003, 0x98a1001d};
/// Used by: New Super Mario Bros, ...
/*
* Code block that is being patched (in MKW):
*
* 4bffe30d: bl WaitMicroTime
* 38000065: li r0, 0x65
* 9b810019: stb r28, 25(r1) // store the wrong value (1)
* 38810018: addi r4, r1, 0x18
* 386000e0: li r3, 0xe0
* 98010018: stb r0, 24(r1)
* 38a00002: li r5, 2
* 4bffe73d: bl __VISendI2CData
*
* r28 is a register that is set to 1 at the beginning of the function.
* However, its contents are used elsewhere as well, so we can't just modify this one function.
*
* The following code first searches for one of the patterns above, then replaces the
* "stb r28, 25(r1)" instruction that stores the wrong value on the stack with a branch instead
* That branch branches to the injected custom code ("li r3, 3; stb r3, 25(r1)") that stores the
* correct value (3) instead. At the end of the injected code will be another branch that branches
* back to the instruction after the one that has been replaced (so, to "addi r4, r1, 0x18").
* r3 can safely be used as a temporary register because its contents will be replaced immediately
* afterwards anyways.
*
*/
void *offset = NULL;
void *addr = (void *)0x80000000;
u32 len = 0x900000;
void *patch_ptr = 0;
void *a = addr;
while ((char *)a < ((char *)addr + len))
{
if (memcmp(a, &Pattern_MKW, 6 * 4) == 0)
{
// Found pattern?
if (memcmp(a - 4, &prefix, 2) == 0)
{
if (memcmp(a + 8 * 4, &prefix, 2) == 0)
{
offset = a + 4;
hexdump(a, 30);
patch_ptr = &patches_MKW;
break;
}
}
}
else if (memcmp(a, &Pattern_NSMB, 6 * 4) == 0)
{
// Found pattern?
if (memcmp(a - 4, &prefix, 2) == 0)
{
if (memcmp(a + 8 * 4, &prefix, 2) == 0)
{
offset = a + 16;
hexdump(a, 30);
patch_ptr = &patches_NSMB;
break;
}
}
}
a += 4;
}
if (offset == 0)
{
// offset is still 0, we didn't find the pattern, return
gprintf("Didn't find offset for 480p patch!\n");
return;
}
// If we are here, we found the offset. Lets grab some space
// from the heap for our patch
u32 old_heap_ptr = *(u32 *)0x80003110;
*((u32 *)0x80003110) = (old_heap_ptr - 0x20);
u32 heap_space = old_heap_ptr - 0x20;
gprintf("Found offset for 480p patch - create branch from 0x%x to heap (0x%x)\n", offset, heap_space);
hexdump(offset, 30);
memcpy((void *)heap_space, patch_ptr, 8);
*((u32 *)offset) = 0x48000000 + (((u32)(heap_space) - ((u32)(offset))) & 0x3ffffff);
*((u32 *)((u32)heap_space + 8)) = 0x48000000 + (((u32)((u32)offset + 4) - ((u32)(heap_space + 8))) & 0x3ffffff);
return;
}
/** Patch URLs for private Servers - Thanks to ToadKing/wiilauncher-nossl **/
void PrivateServerPatcher(void *addr, u32 len, u8 privateServer, const char *serverAddr)
{
// Patch protocol https -> http
char *cur = (char *)addr;
const char *end = cur + len - 8;
do
{
if (memcmp(cur, "https://", 8) == 0 && cur[8] != 0)
{
int len = strlen(cur);
memmove(cur + 4, cur + 5, len - 5);
cur[len - 1] = 0;
cur += len;
}
} while (++cur < end);
// Patch nintendowifi.net -> private server domain
if (privateServer == PRIVSERV_WIIMMFI)
domainpatcher(addr, len, "wiimmfi.de");
else if (privateServer == PRIVSERV_ALTWFC)
domainpatcher(addr, len, "zwei.moe");
else if (privateServer == PRIVSERV_CUSTOM && strlen(serverAddr) > 3)
domainpatcher(addr, len, serverAddr);
}
static inline int GetOpcode(unsigned int *instructionAddr)
{
return ((*instructionAddr >> 26) & 0x3f);
}
static inline int GetImmediateDataVal(unsigned int *instructionAddr)
{
return (*instructionAddr & 0xffff);
}
static inline int GetLoadTargetReg(unsigned int *instructionAddr)
{
return (int)((*instructionAddr >> 21) & 0x1f);
}
static inline int GetComparisonTargetReg(unsigned int *instructionAddr)
{
return (int)((*instructionAddr >> 16) & 0x1f);
}
s8 do_new_wiimmfi_nonMKWii(void *addr, u32 len)
{
// As of February 2021, Wiimmfi requires a special Wiimmfi patcher
// update which does a bit more than just patch the server addresses.
// This function is being called by apploader.c, right before
// jumping to the entry point (only for non-MKWii games on Wiimmfi),
// and applies all the necessary security fixes to the game.
// This function has been implemented by Leseratte. Please don't
// try to modify it without speaking to the Wiimmfi team because
// doing so could have unintended side effects.
// This function MUST not run for MKWii, that would break stuff.
int hasGT2Error = 0;
char gt2locator[] = {0x38, 0x61, 0x00, 0x08, 0x38, 0xA0, 0x00, 0x14};
// Opcode list for p2p:
unsigned char opCodeChainP2P_v1[22] = {32, 32, 21, 21, 21, 21, 20, 20, 31, 40, 21, 20, 20, 31, 31, 10, 20, 36, 21, 44, 36, 16};
unsigned char opCodeChainP2P_v2[22] = {32, 32, 21, 21, 20, 21, 20, 21, 31, 40, 21, 20, 20, 31, 31, 10, 20, 36, 21, 44, 36, 16};
// Opcode list for MASTER:
unsigned char opCodeChainMASTER_v1[22] = {21, 21, 21, 21, 40, 20, 20, 20, 20, 31, 31, 14, 31, 20, 21, 44, 21, 36, 36, 18, 11, 16};
unsigned char opCodeChainMASTER_v2[22] = {21, 21, 21, 21, 40, 20, 20, 20, 20, 31, 31, 14, 31, 20, 21, 36, 21, 44, 36, 18, 11, 16};
int MASTERopcodeChainOffset = 0;
char *cur = addr;
const char *end = addr + len;
// Check if the game needs the new patch.
do
{
if (memcmp(cur, "<GT2> RECV-0x%02x <- [--------:-----] [pid=%u]", 0x2e) == 0)
{
hasGT2Error++;
}
} while (++cur < end);
cur = addr;
if (hasGT2Error > 1)
return 1; // error, this either doesn't exist, or exists once. Can't exist multiple times.
int successful_patch_p2p = 0;
int successful_patch_master = 0;
do
{
// Patch the User-Agent so Wiimmfi knows this game has been patched.
// This also identifies patcher (G=USB-Loader GX) and patch version (=3), please
// do not change this without talking to Leseratte first.
if (memcmp(cur, "User-Agent\x00\x00RVL SDK/", 20) == 0)
{
if (hasGT2Error)
memcpy(cur + 12, "G-3-1\x00", 6);
else
memcpy(cur + 12, "G-3-0\x00", 6);
}
if (hasGT2Error)
{
if (memcmp(cur, &gt2locator, 8) == 0)
{
int found_opcode_chain_P2P_v1 = 1;
int found_opcode_chain_P2P_v2 = 1;
for (int i = 0; i < 22; i++)
{
int offset = (i * 4) + 12;
if (opCodeChainP2P_v1[i] != (unsigned char)(GetOpcode((unsigned int *)(cur + offset))))
found_opcode_chain_P2P_v1 = 0;
if (opCodeChainP2P_v2[i] != (unsigned char)(GetOpcode((unsigned int *)(cur + offset))))
found_opcode_chain_P2P_v2 = 0;
}
int found_opcode_chain_MASTER;
for (int dynamic = 0; dynamic < 40; dynamic += 4)
{
found_opcode_chain_MASTER = 1;
int offset = 0;
for (int i = 0; i < 22; i++)
{
offset = (i * 4) + 12 + dynamic;
if (
(opCodeChainMASTER_v1[i] != (unsigned char)(GetOpcode((unsigned int *)(cur + offset)))) &&
(opCodeChainMASTER_v2[i] != (unsigned char)(GetOpcode((unsigned int *)(cur + offset))))
)
{
found_opcode_chain_MASTER = 0;
}
}
if (found_opcode_chain_MASTER)
{
//gprintf("found master opcode chain\n");
// We found the opcode chain, let's take a note of the offset.
MASTERopcodeChainOffset = (int)(cur + 12 + dynamic);
break;
}
}
if (found_opcode_chain_P2P_v1 || found_opcode_chain_P2P_v2)
{
// Match found
// Now compare all the immediate values:
if (
GetImmediateDataVal((unsigned int *)(cur + 0x0c)) == 0x0c &&
GetImmediateDataVal((unsigned int *)(cur + 0x10)) == 0x18 &&
GetImmediateDataVal((unsigned int *)(cur + 0x30)) == 0x12 &&
GetImmediateDataVal((unsigned int *)(cur + 0x48)) == 0x5a &&
GetImmediateDataVal((unsigned int *)(cur + 0x50)) == 0x0c &&
GetImmediateDataVal((unsigned int *)(cur + 0x58)) == 0x12 &&
GetImmediateDataVal((unsigned int *)(cur + 0x5c)) == 0x18 &&
GetImmediateDataVal((unsigned int *)(cur + 0x60)) == 0x18
)
{
//gprintf("Patching P2P...\n");
int loadedDataReg = GetLoadTargetReg((unsigned int *)(cur + 0x14));
int comparisonDataReg = GetComparisonTargetReg((unsigned int *)(cur + 0x48));
if (found_opcode_chain_P2P_v1)
{
*(int *)(cur + 0x14) = (0x88010011 | (comparisonDataReg << 21));
*(int *)(cur + 0x18) = (0x28000080 | (comparisonDataReg << 16));
*(int *)(cur + 0x24) = 0x41810064;
*(int *)(cur + 0x28) = 0x60000000;
*(int *)(cur + 0x2c) = 0x60000000;
*(int *)(cur + 0x34) = (0x3C005A00 | (comparisonDataReg << 21));
*(int *)(cur + 0x48) = (0x7C000000 | (comparisonDataReg << 16) | (loadedDataReg << 11));
successful_patch_p2p++;
}
if (found_opcode_chain_P2P_v2)
{
loadedDataReg = 12;
*(int *)(cur + 0x14) = (0x88010011 | (comparisonDataReg << 21));
*(int *)(cur + 0x18) = (0x28000080 | (comparisonDataReg << 16));
*(int *)(cur + 0x1c) = 0x41810070;
*(int *)(cur + 0x24) = *(int *)(cur + 0x28);
*(int *)(cur + 0x28) = (0x8001000c | (loadedDataReg << 21));
*(int *)(cur + 0x2c) = (0x3C005A00 | (comparisonDataReg << 21));
*(int *)(cur + 0x34) = (0x7c000000 | (comparisonDataReg << 16) | (loadedDataReg << 11));
*(int *)(cur + 0x48) = 0x60000000;
successful_patch_p2p++;
}
}
}
else if (found_opcode_chain_MASTER)
{
if (
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x10)) == 0x12 &&
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x2c)) == 0x04 &&
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x48)) == 0x18 &&
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x50)) == 0x00 &&
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x54)) == 0x18
)
{
int master_patch_version = 0;
// Check which version we have:
if (
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x3c)) == 0x12 &&
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x44)) == 0x0c
)
master_patch_version = 1;
else if (
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x3c)) == 0x0c &&
GetImmediateDataVal((unsigned int *)(MASTERopcodeChainOffset + 0x44)) == 0x12
)
master_patch_version = 2;
if (master_patch_version == 2)
{
// Different opcode order...
*(int *)(MASTERopcodeChainOffset + 0x3c) = *(int *)(MASTERopcodeChainOffset + 0x44);
}
if (master_patch_version != 0)
{
int rY = GetComparisonTargetReg((unsigned int *)MASTERopcodeChainOffset);
int rX = GetLoadTargetReg((unsigned int *)MASTERopcodeChainOffset);
*(int *)(MASTERopcodeChainOffset + 0x00) = 0x38000004 | (rX << 21);
*(int *)(MASTERopcodeChainOffset + 0x04) = 0x7c00042c | (rY << 21) | (3 << 16) | (rX << 11);
*(int *)(MASTERopcodeChainOffset + 0x14) = 0x9000000c | (rY << 21) | (1 << 16);
*(int *)(MASTERopcodeChainOffset + 0x18) = 0x88000011 | (rY << 21) | (1 << 16);
*(int *)(MASTERopcodeChainOffset + 0x28) = 0x28000080 | (rY << 16);
*(int *)(MASTERopcodeChainOffset + 0x38) = 0x60000000;
*(int *)(MASTERopcodeChainOffset + 0x44) = 0x41810014;
successful_patch_master++;
}
}
}
}
}
} while (++cur < end);
if (hasGT2Error)
{
if (successful_patch_master == 0 || successful_patch_p2p == 0)
return 2;
}
return 0;
}
s8 do_new_wiimmfi()
{
// As of November 2018, Wiimmfi requires a special Wiimmfi patcher
// update which does a bit more than just patch the server addresses.
// This function is being called by GameBooter.cpp, right before
// jumping to the entry point (only for Mario Kart Wii & Wiimmfi),
// and applies all the necessary new patches to the game.
// This includes support for the new patcher update plus
// support for StaticR.rel patching.
// This function has been implemented by Leseratte. Please don't
// try to modify it without speaking to the Wiimmfi team because
// doing so could have unintended side effects.
// Updated in 2021 to add the 51420 error fix.
// check region:
char region = *((char *)(0x80000003));
char *patched;
void *patch1_offset, *patch2_offset, *patch3_offset;
void *errorfix_offset;
// define some offsets and variables depending on the region:
switch (region)
{
case 'P':
patched = (char *)0x80276054;
patch1_offset = (void *)0x800ee3a0;
patch2_offset = (void *)0x801d4efc;
patch3_offset = (void *)0x801A72E0;
errorfix_offset = (void *)0x80658ce4;
break;
case 'E':
patched = (char *)0x80271d14;
patch1_offset = (void *)0x800ee300;
patch2_offset = (void *)0x801d4e5c;
patch3_offset = (void *)0x801A7240;
errorfix_offset = (void *)0x8065485c;
break;
case 'J':
patched = (char *)0x802759f4;
patch1_offset = (void *)0x800ee2c0;
patch2_offset = (void *)0x801d4e1c;
patch3_offset = (void *)0x801A7200;
errorfix_offset = (void *)0x80658360;
break;
case 'K':
patched = (char *)0x80263E34;
patch1_offset = (void *)0x800ee418;
patch2_offset = (void *)0x801d5258;
patch3_offset = (void *)0x801A763c;
errorfix_offset = (void *)0x80646ffc;
break;
default:
return -1;
}
if (*patched != '*')
return -2; // ISO already patched
// This RAM address is set (no asterisk) by all officially
// updated patchers, so if it is modified, the image is already
// patched with a new patcher and we don't need to patch anything.
// For statistics and easier debugging in case of problems, Wiimmfi
// wants to know what patcher a game has been patched with, thus,
// let the game know the exact USB-Loader version.
char *fmt = "USB-Loader GX v3.0 R%-21s";
char patcher[42] = {0};
snprintf((char *)&patcher, 42, fmt, GetRev());
strncpy(patched, (char *)&patcher, 42);
// Do the plain old patching with the string search
PrivateServerPatcher((void *)0x80004000, 0x385200, PRIVSERV_WIIMMFI, NULL);
// Replace some URLs for Wiimmfi's new update system
char newURL1[] = "http://ca.nas.wiimmfi.de/ca";
char newURL2[] = "http://naswii.wiimmfi.de/ac";
char newURL3P[] = "https://main.nas.wiimmfi.de/pp";
char newURL3E[] = "https://main.nas.wiimmfi.de/pe";
char newURL3J[] = "https://main.nas.wiimmfi.de/pj";
char newURL3K[] = "https://main.nas.wiimmfi.de/pk";
// Write the URLs to the proper place and do some other patching.
switch (region)
{
case 'P':
memcpy((void *)0x8027A400, newURL1, sizeof(newURL1));
memcpy((void *)0x8027A400 + 0x28, newURL2, sizeof(newURL2));
memcpy((void *)0x8027A400 + 0x4C, newURL3P, sizeof(newURL3P));
*(u32 *)0x802a146c = 0x733a2f2f;
*(u32 *)0x800ecaac = 0x3bc00000;
break;
case 'E':
memcpy((void *)0x802760C0, newURL1, sizeof(newURL1));
memcpy((void *)0x802760C0 + 0x28, newURL2, sizeof(newURL2));
memcpy((void *)0x802760C0 + 0x4C, newURL3E, sizeof(newURL3E));
*(u32 *)0x8029D12C = 0x733a2f2f;
*(u32 *)0x800ECA0C = 0x3bc00000;
break;
case 'J':
memcpy((void *)0x80279DA0, newURL1, sizeof(newURL1));
memcpy((void *)0x80279DA0 + 0x28, newURL2, sizeof(newURL2));
memcpy((void *)0x80279DA0 + 0x4C, newURL3J, sizeof(newURL3J));
*(u32 *)0x802A0E0C = 0x733a2f2f;
*(u32 *)0x800EC9CC = 0x3bc00000;
break;
case 'K':
memcpy((void *)0x802682B0, newURL1, sizeof(newURL1));
memcpy((void *)0x802682B0 + 0x28, newURL2, sizeof(newURL2));
memcpy((void *)0x802682B0 + 0x4C, newURL3K, sizeof(newURL3K));
*(u32 *)0x8028F474 = 0x733a2f2f;
*(u32 *)0x800ECB24 = 0x3bc00000;
break;
}
// Make some space on heap (0x500) for our custom code.
u32 old_heap_ptr = *(u32 *)0x80003110;
*((u32 *)0x80003110) = (old_heap_ptr - 0x500);
u32 heap_space = old_heap_ptr - 0x500;
memset((void *)old_heap_ptr - 0x500, 0xed, 0x500);
// Binary blobs with Wiimmfi patches. Do not modify.
// Provided by Leseratte on 2018-12-14.
u32 binary[] = {
0x37C849A2, 0x8BC32FA4, 0xC9A34B71, 0x1BCB49A2,
0x2F119304, 0x5F402684, 0x3E4FDA29, 0x50849A21,
0xB88B3452, 0x627FC9C1, 0xDC24D119, 0x5844350F,
0xD893444F, 0x19A588DC, 0x16C91184, 0x0C3E237C,
0x75906CED, 0x6E68A55E, 0x58791842, 0x072237E9,
0xAB24906F, 0x0A8BDF21, 0x4D11BE42, 0x1AAEDDC8,
0x1C42F908, 0x280CF2B2, 0x453A1BA4, 0x9A56C869,
0x786F108E, 0xE8DF05D2, 0x6DB641EB, 0x6DFC84BB,
0x7E980914, 0x0D7FB324, 0x23442185, 0xA7744966,
0x53901359, 0xBF2103CC, 0xC24A4EB7, 0x32049A02,
0xC1683466, 0xCA93689D, 0xD8245106, 0xA84987CF,
0xEC9B47C9, 0x6FA688FE, 0x0A4D11A6, 0x8B653C7B,
0x09D27E30, 0x5B936208, 0x5DD336DE, 0xCD092487,
0xEF2C6D36, 0x1E09DF2D, 0x75B1BE47, 0xE68A7F22,
0xB0E5F90D, 0xEC49F216, 0xAD1DCC24, 0xE2B5C841,
0x066F6F63, 0xF4D90926, 0x299F42CD, 0xA3F125D6,
0x077B093C, 0xB5721268, 0x1BE424D1, 0xEBC30BF0,
0x77867BED, 0x4F0C9BCA, 0x3E195930, 0xDC32DE2C,
0x1865D189, 0x70C67E7A, 0x71FA7329, 0x532233D3,
0x06D2E87B, 0x6CBEBA7F, 0x99F08532, 0x52FA601C,
0x05F4B82C, 0x4B64839C, 0xB5C65009, 0x1B8396E3,
0x0A8B2DAF, 0x0DB85BE6, 0x12F1B71D, 0x186F6E4D,
0x2870DC2E, 0x5960B8E6, 0x8F4D71BD, 0x0614E3C3,
0x05E8C725, 0x365D8E3D, 0x74351CDE, 0xE1AB3930,
0xFEDA721B, 0xE53AE4E9, 0xC3B4C9A6, 0xBAE59346,
0x6D45269D, 0x634E4D1A, 0x2FD99A30, 0x26393449,
0xE49768D1, 0x81E1D1A1, 0xFCE1A34A, 0x7EB44697,
0xEB2F8D2D, 0xCECFE5AF, 0x81BD34B6, 0xB1F1696E,
0x5E6ED2B2, 0xA473A4A0, 0x41664B70, 0xBF40968A,
0x662F2CCB, 0xC5DF5B8C, 0xB632B772, 0x74EB6F39,
0xE017DC71, 0xFDA3B890, 0xE3C9713D, 0xCE53E397,
0xA12BC743, 0x5AD98EA5, 0xBC721C9F, 0x4568395A,
0x925E72B4, 0x2D7DE4D7, 0x6777C9C7, 0xD6619396,
0xA502268A, 0x77884D75, 0xF79E9AF0, 0xE6FC3461,
0xF07468A5, 0xF866D11D, 0xF90CA342, 0xCF9546FF,
0x87A48D81, 0x06881A51, 0x309C34D1, 0x79B669CE,
0xFAADD2D7, 0xC8D7A5D1, 0x89214BE5, 0x1B8396EF,
0x0A8B2DE9, 0x0D985B06, 0x12F1B711, 0x186F6E57,
0x2850DC0E, 0x5960B8EA, 0x8F4D71AC, 0x0614E3E3,
0x05E8C729, 0x365D8E39, 0x74351CFE, 0x518E3943,
0x4A397268, 0x9D58E4B8, 0xD394C9A2, 0x0E069344,
0xB522268B, 0x636E4D77, 0x2FF99A37, 0xF6DC346D,
0xE49268B4, 0x2001D1A0, 0x4929A365, 0x7B764691,
0xFFC68D49, 0x16A81A53, 0x247A34D2, 0xA1D16967,
0x4B6DD2D5, 0xDDF4A5B7, 0x454A4B70, 0x0FAE96E2,
0x0A8A2DC7, 0x0D98A47A, 0x06DCB71D, 0x0CCC6E38,
0x55F25CFB, 0xB08C1E88, 0xDF4259C9, 0x0714E387,
0xB00D47AF, 0x7B722975, 0x48BE349A, 0x29CC393C,
0xEA797228, 0x98986471, 0x3778E1A3, 0xD7626D06,
0x1567268D, 0x668ECD00, 0xD614F5C8, 0x133037CF,
0x92F26CF2, 0x00000000, 0x00000000, 0x00000000,
0x00000000, 0x00000000, 0x00000000, 0x00000000};
// Fix for error 51420:
int patchCodeFix51420[] = {
0x4800000d, 0x00000000,
0x00000000, 0x7cc803a6,
0x80860000, 0x7c041800,
0x4182004c, 0x80a60004,
0x38a50001, 0x2c050003,
0x4182003c, 0x90a60004,
0x90660000, 0x38610010,
0x3ca08066, 0x38a58418,
0x3c808066, 0x38848498,
0x90a10010, 0x90810014,
0x3ce08066, 0x38e78ce4,
0x38e7fef0, 0x7ce903a6,
0x4e800420, 0x3c80801d,
0x388415f4, 0x7c8803a6,
0x4e800021, 0x00000000};
// Prepare patching process...
int i = 3;
int idx = 0;
for (; i < 202; i++)
{
if (i == 67 || i == 82)
idx++;
binary[i] = binary[i] ^ binary[idx];
binary[idx] = ((binary[idx] << 1) | ((binary[idx] >> (32 - 1)) & ~(0xfffffffe)));
}
// Binary blob needs some changes for regions other than PAL...
switch (region)
{
case 'E':
binary[29] = binary[67];
binary[37] = binary[68];
binary[43] = binary[69];
binary[185] = 0x61295C74;
binary[189] = 0x61295D40;
binary[198] = 0x61086F5C;
patchCodeFix51420[14] = 0x3ca08065;
patchCodeFix51420[15] = 0x38a53f90;
patchCodeFix51420[16] = 0x3c808065;
patchCodeFix51420[17] = 0x38844010;
patchCodeFix51420[20] = 0x3ce08065;
patchCodeFix51420[21] = 0x38e7485c;
patchCodeFix51420[26] = 0x38841554;
break;
case 'J':
binary[29] = binary[70];
binary[37] = binary[71];
binary[43] = binary[72];
binary[185] = 0x612997CC;
binary[189] = 0x61299898;
binary[198] = 0x61086F1C;
patchCodeFix51420[14] = 0x3ca08065;
patchCodeFix51420[15] = 0x38a57a84;
patchCodeFix51420[16] = 0x3c808065;
patchCodeFix51420[17] = 0x38847b04;
patchCodeFix51420[20] = 0x3ce08065;
patchCodeFix51420[21] = 0x38e78350;
patchCodeFix51420[26] = 0x38841514;
break;
case 'K':
binary[6] = binary[73];
binary[9] = binary[74];
binary[11] = binary[75];
binary[23] = binary[76];
binary[29] = binary[77];
binary[33] = binary[78];
binary[37] = binary[79];
binary[43] = binary[80];
binary[63] = binary[81];
binary[184] = 0x3D208088;
binary[185] = 0x61298AA4;
binary[188] = 0x3D208088;
binary[189] = 0x61298B58;
binary[198] = 0x61087358;
patchCodeFix51420[14] = 0x3ca08064;
patchCodeFix51420[15] = 0x38a56730;
patchCodeFix51420[16] = 0x3c808064;
patchCodeFix51420[17] = 0x388467b0;
patchCodeFix51420[20] = 0x3ce08064;
patchCodeFix51420[21] = 0x38e76ffc;
patchCodeFix51420[26] = 0x38841950;
break;
}
// Installing all the patches.
memcpy((void *)heap_space, (void *)binary, 820);
u32 code_offset_1 = heap_space + 12;
u32 code_offset_2 = heap_space + 88;
u32 code_offset_3 = heap_space + 92;
u32 code_offset_4 = heap_space + 264;
u32 code_offset_5 = heap_space + 328;
*((u32 *)patch1_offset) = 0x48000000 + (((u32)(code_offset_1) - ((u32)(patch1_offset))) & 0x3ffffff);
*((u32 *)code_offset_2) = 0x48000000 + (((u32)(patch1_offset + 4) - ((u32)(code_offset_2))) & 0x3ffffff);
*((u32 *)patch2_offset) = 0x48000000 + (((u32)(code_offset_3) - ((u32)(patch2_offset))) & 0x3ffffff);
*((u32 *)code_offset_4) = 0x48000000 + (((u32)(patch2_offset + 4) - ((u32)(code_offset_4))) & 0x3ffffff);
*((u32 *)patch3_offset) = 0x48000000 + (((u32)(code_offset_5) - ((u32)(patch3_offset))) & 0x3ffffff);
// Add the 51420 fix:
memcpy((void *)heap_space + 0x400, (void *)patchCodeFix51420, 0x78);
*((u32 *)errorfix_offset) = 0x48000000 + (((u32)(heap_space + 0x400) - ((u32)(errorfix_offset))) & 0x3ffffff);
*((u32 *)heap_space + 0x400 + 0x74) = 0x48000000 + (((u32)(errorfix_offset + 4) - ((u32)(heap_space + 0x400 + 0x74))) & 0x3ffffff);
// Patches successfully installed
// returns 0 when all patching is done and game is ready to be booted.
return 0;
}
void domainpatcher(void *addr, u32 len, const char *domain)
{
if (strlen("nintendowifi.net") < strlen(domain))
return;
char *cur = (char *)addr;
const char *end = cur + len - 16;
do
{
if (memcmp(cur, "nintendowifi.net", 16) == 0)
{
int len = strlen(cur);
u8 i;
memcpy(cur, domain, strlen(domain));
memmove(cur + strlen(domain), cur + 16, len - 16);
for (i = 16 - strlen(domain); i > 0; i--)
cur[len - i] = 0;
cur += len;
}
} while (++cur < end);
}
bool patch_nsmb(u8 *gameid)
{
WIP_Code *CodeList = NULL;
if (memcmp(gameid, "SMNE01", 6) == 0)
{
CodeList = MEM2_alloc(3 * sizeof(WIP_Code));
if (!CodeList)
return false;
CodeList[0].offset = 0x001AB610;
CodeList[0].srcaddress = 0x9421FFD0;
CodeList[0].dstaddress = 0x4E800020;
CodeList[1].offset = 0x001CED53;
CodeList[1].srcaddress = 0xDA000000;
CodeList[1].dstaddress = 0x71000000;
CodeList[2].offset = 0x001CED6B;
CodeList[2].srcaddress = 0xDA000000;
CodeList[2].dstaddress = 0x71000000;
}
else if (memcmp(gameid, "SMNP01", 6) == 0)
{
CodeList = MEM2_alloc(3 * sizeof(WIP_Code));
if (!CodeList)
return false;
CodeList[0].offset = 0x001AB750;
CodeList[0].srcaddress = 0x9421FFD0;
CodeList[0].dstaddress = 0x4E800020;
CodeList[1].offset = 0x001CEE90;
CodeList[1].srcaddress = 0x38A000DA;
CodeList[1].dstaddress = 0x38A00071;
CodeList[2].offset = 0x001CEEA8;
CodeList[2].srcaddress = 0x388000DA;
CodeList[2].dstaddress = 0x38800071;
}
else if (memcmp(gameid, "SMNJ01", 6) == 0)
{
CodeList = MEM2_alloc(3 * sizeof(WIP_Code));
if (!CodeList)
return false;
CodeList[0].offset = 0x001AB420;
CodeList[0].srcaddress = 0x9421FFD0;
CodeList[0].dstaddress = 0x4E800020;
CodeList[1].offset = 0x001CEB63;
CodeList[1].srcaddress = 0xDA000000;
CodeList[1].dstaddress = 0x71000000;
CodeList[2].offset = 0x001CEB7B;
CodeList[2].srcaddress = 0xDA000000;
CodeList[2].dstaddress = 0x71000000;
}
if (CodeList && set_wip_list(CodeList, 3) == false)
{
MEM2_free(CodeList);
CodeList = NULL;
return false;
}
if (CodeList)
gprintf("Patched New Super Mario Bros\n");
return CodeList != NULL;
}
bool patch_pop(u8 *gameid)
{
if (memcmp(gameid, "SPX", 3) != 0 && memcmp(gameid, "RPW", 3) != 0)
return false;
WIP_Code *CodeList = MEM2_alloc(5 * sizeof(WIP_Code));
CodeList[0].offset = 0x007AAC6A;
CodeList[0].srcaddress = 0x7A6B6F6A;
CodeList[0].dstaddress = 0x6F6A7A6B;
CodeList[1].offset = 0x007AAC75;
CodeList[1].srcaddress = 0x7C7A6939;
CodeList[1].dstaddress = 0x69397C7A;
CodeList[2].offset = 0x007AAC82;
CodeList[2].srcaddress = 0x7376686B;
CodeList[2].dstaddress = 0x686B7376;
CodeList[3].offset = 0x007AAC92;
CodeList[3].srcaddress = 0x80717570;
CodeList[3].dstaddress = 0x75708071;
CodeList[4].offset = 0x007AAC9D;
CodeList[4].srcaddress = 0x82806F3F;
CodeList[4].dstaddress = 0x6F3F8280;
if (set_wip_list(CodeList, 5) == false)
{
MEM2_free(CodeList);
CodeList = NULL;
return false;
}
if (CodeList)
gprintf("Patched Prince of Persia\n");
return CodeList != NULL;
}
void patch_error_codes(u8 *gameid)
{
// Thanks to Seeky for the MKWii gecko codes
// Thanks to InvoxiPlayGames for the gecko codes for the 23400 fix.
// Reimplemented by Leseratte without the need for a code handler.
u32 *patch_addr = 0;
u32 *patched = 0;
// Patch error 23400 for CoD (Black Ops, Reflex, MW3) and Rock Band 3 / The Beatles
if (memcmp(gameid, "SC7", 3) == 0)
{
gprintf("Patching error 23400 for %s\n", gameid);
*(u32 *)0x8023c954 = 0x41414141;
}
else if (memcmp(gameid, "RJA", 3) == 0)
{
gprintf("Patching error 23400 for %s\n", gameid);
*(u32 *)0x801b838c = 0x41414141;
}
else if (memcmp(gameid, "SM8", 3) == 0)
{
gprintf("Patching error 23400 for %s\n", gameid);
*(u32 *)0x80238c74 = 0x41414141;
}
else if (memcmp(gameid, "SZB", 3) == 0)
{
gprintf("Patching error 23400 for %s\n", gameid);
*(u32 *)0x808e3b20 = 0x41414141;
}
else if (memcmp(gameid, "R9J", 3) == 0)
{
gprintf("Patching error 23400 for %s\n", gameid);
*(u32 *)0x808d6934 = 0x41414141;
}
// Patch RCE vulnerability in MKWii.
else if (memcmp(gameid, "RMC", 3) == 0)
{
switch (gameid[3])
{
case 'P':
patched = (u32 *)0x80276054;
patch_addr = (u32 *)0x8089a194;
break;
case 'E':
patched = (u32 *)0x80271d14;
patch_addr = (u32 *)0x80895ac4;
break;
case 'J':
patched = (u32 *)0x802759f4;
patch_addr = (u32 *)0x808992f4;
break;
case 'K':
patched = (u32 *)0x80263E34;
patch_addr = (u32 *)0x808885cc;
break;
default:
gprintf("NOT patching RCE vulnerability due to invalid game ID: %s\n", gameid);
return;
}
if (*patched != '*')
gprintf("Game is already Wiimmfi-patched, don't apply the RCE fix\n");
else
{
gprintf("Patching RCE vulnerability for %s\n", gameid);
for (int i = 0; i < 7; i++)
*patch_addr++ = 0xff;
}
}
}
/** Insert the individual gamepatches above with the patterns and patch data **/
/** Following is only the VideoPatcher **/
// viYOrigin is calculated as (576 - 528)/2 in libogc 2.0.0 for the following render modes.
// But we need to use (574 - 528)/2 so that the render modes match the Revolution SDK.
static GXRModeObj TVPal528Prog_RVL = {
6, // viDisplayMode
640, // fbWidth
528, // efbHeight
528, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVPal528ProgSoft_RVL = {
6, // viDisplayMode
640, // fbWidth
528, // efbHeight
528, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
8, // line n-1
8, // line n-1
10, // line n
12, // line n
10, // line n
8, // line n+1
8 // line n+1
}
};
static GXRModeObj TVPal524ProgAa_RVL = {
6, // viDisplayMode
640, // fbWidth
264, // efbHeight
524, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2
640, // viWidth
524, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_TRUE, // aa
// sample points arranged in increasing Y order
{
{3, 2}, {9, 6}, {3, 10}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{3, 2}, {9, 6}, {3, 10}, // pix 1
{9, 2}, {3, 6}, {9, 10}, // pix 2
{9, 2}, {3, 6}, {9, 10} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
4, // line n-1
8, // line n-1
12, // line n
16, // line n
12, // line n
8, // line n+1
4 // line n+1
}
};
static GXRModeObj TVPal528Int_RVL = {
4, // viDisplayMode
640, // fbWidth
528, // efbHeight
528, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_DF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVPal528IntDf_RVL = {
4, // viDisplayMode
640, // fbWidth
528, // efbHeight
528, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_DF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
8, // line n-1
8, // line n-1
10, // line n
12, // line n
10, // line n
8, // line n+1
8 // line n+1
}
};
static GXRModeObj TVEurgb60Hz480Prog_RVL = {
22, // viDisplayMode
640, // fbWidth
480, // efbHeight
480, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVEurgb60Hz480ProgSoft_RVL = {
22, // viDisplayMode
640, // fbWidth
480, // efbHeight
480, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
8, // line n-1
8, // line n-1
10, // line n
12, // line n
10, // line n
8, // line n+1
8 // line n+1
}
};
static GXRModeObj TVEurgb60Hz480ProgAa_RVL = {
22, // viDisplayMode
640, // fbWidth
242, // efbHeight
480, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_TRUE, // aa
// sample points arranged in increasing Y order
{
{3, 2}, {9, 6}, {3, 10}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{3, 2}, {9, 6}, {3, 10}, // pix 1
{9, 2}, {3, 6}, {9, 10}, // pix 2
{9, 2}, {3, 6}, {9, 10} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
4, // line n-1
8, // line n-1
12, // line n
16, // line n
12, // line n
8, // line n+1
4 // line n+1
}
};
static GXRModeObj TVPal524IntAa_RVL = {
4, // viDisplayMode
640, // fbWidth
264, // efbHeight
524, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2 //574 instead of 576
640, // viWidth
524, // viHeight
VI_XFBMODE_DF, // xFBmode
GX_FALSE, // field_rendering
GX_TRUE, // aa
// sample points arranged in increasing Y order
{
{3, 2}, {9, 6}, {3, 10}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{3, 2}, {9, 6}, {3, 10}, // pix 1
{9, 2}, {3, 6}, {9, 10}, // pix 2
{9, 2}, {3, 6}, {9, 10} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
4, // line n-1
8, // line n-1
12, // line n
16, // line n
12, // line n
8, // line n+1
4 // line n+1
}
};
static GXRModeObj TVPal264Int_RVL = {
4, // viDisplayMode
640, // fbWidth
264, // efbHeight
264, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_TRUE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVPal264IntAa_RVL = {
4, // viDisplayMode
640, // fbWidth
264, // efbHeight
264, // xfbHeight
40, // viXOrigin (720 - 640)/2
23, // viYOrigin (574 - 528)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_TRUE, // field_rendering
GX_TRUE, // aa
// sample points arranged in increasing Y order
{
{3, 2}, {9, 6}, {3, 10}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{3, 2}, {9, 6}, {3, 10}, // pix 1
{9, 2}, {3, 6}, {9, 10}, // pix 2
{9, 2}, {3, 6}, {9, 10} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVPal264Ds_RVL = {
5, // viDisplayMode
640, // fbWidth
264, // efbHeight
264, // xfbHeight
40, // viXOrigin (720 - 640)/2
11, // viYOrigin (572/2 - 528/2)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVPal264DsAa_RVL = {
5, // viDisplayMode
640, // fbWidth
264, // efbHeight
264, // xfbHeight
40, // viXOrigin (720 - 640)/2
11, // viYOrigin (572/2 - 528/2)/2
640, // viWidth
528, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_TRUE, // aa
// sample points arranged in increasing Y order
{
{3, 2}, {9, 6}, {3, 10}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{3, 2}, {9, 6}, {3, 10}, // pix 1
{9, 2}, {3, 6}, {9, 10}, // pix 2
{9, 2}, {3, 6}, {9, 10} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVMpal240Int_RVL = {
8, // viDisplayMode
640, // fbWidth
240, // efbHeight
240, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_TRUE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVMpal240IntAa_RVL = {
8, // viDisplayMode
640, // fbWidth
240, // efbHeight
240, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_TRUE, // field_rendering
GX_TRUE, // aa
// sample points arranged in increasing Y order
{
{3, 2}, {9, 6}, {3, 10}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{3, 2}, {9, 6}, {3, 10}, // pix 1
{9, 2}, {3, 6}, {9, 10}, // pix 2
{9, 2}, {3, 6}, {9, 10} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVMpal480Int_RVL = {
8, // viDisplayMode
640, // fbWidth
480, // efbHeight
480, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_DF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
0, // line n-1
0, // line n-1
21, // line n
22, // line n
21, // line n
0, // line n+1
0 // line n+1
}
};
static GXRModeObj TVMpal480ProgSoft_RVL = {
10, // viDisplayMode
640, // fbWidth
480, // efbHeight
480, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_FALSE, // aa
// sample points arranged in increasing Y order
{
{6, 6}, {6, 6}, {6, 6}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{6, 6}, {6, 6}, {6, 6}, // pix 1
{6, 6}, {6, 6}, {6, 6}, // pix 2
{6, 6}, {6, 6}, {6, 6} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
8, // line n-1
8, // line n-1
10, // line n
12, // line n
10, // line n
8, // line n+1
8 // line n+1
}
};
static GXRModeObj TVMpal480ProgAa_RVL = {
10, // viDisplayMode
640, // fbWidth
242, // efbHeight
480, // xfbHeight
40, // viXOrigin (720 - 640)/2
0, // viYOrigin (480 - 480)/2
640, // viWidth
480, // viHeight
VI_XFBMODE_SF, // xFBmode
GX_FALSE, // field_rendering
GX_TRUE, // aa
// sample points arranged in increasing Y order
{
{3, 2}, {9, 6}, {3, 10}, // pix 0, 3 sample points, 1/12 units, 4 bits each
{3, 2}, {9, 6}, {3, 10}, // pix 1
{9, 2}, {3, 6}, {9, 10}, // pix 2
{9, 2}, {3, 6}, {9, 10} // pix 3
},
// vertical filter[7], 1/64 units, 6 bits each
{
4, // line n-1
8, // line n-1
12, // line n
16, // line n
12, // line n
8, // line n+1
4 // line n+1
}
};
static GXRModeObj *vmodes[] = {
&TVNtsc240Ds,
&TVNtsc240DsAa,
&TVNtsc240Int,
&TVNtsc240IntAa,
&TVNtsc480Int,
&TVNtsc480IntAa,
&TVNtsc480IntDf,
&TVNtsc480Prog,
&TVNtsc480ProgSoft,
&TVNtsc480ProgAa,
&TVMpal240Int_RVL,
&TVMpal240IntAa_RVL,
&TVMpal240Ds,
&TVMpal240DsAa,
&TVMpal480Int_RVL,
&TVMpal480IntAa,
&TVMpal480IntDf,
&TVMpal480Prog,
&TVMpal480ProgSoft_RVL,
&TVMpal480ProgAa_RVL,
&TVPal264Ds_RVL,
&TVPal264DsAa_RVL,
&TVPal264Int_RVL,
&TVPal264IntAa_RVL,
&TVPal524IntAa_RVL,
&TVPal524ProgAa_RVL,
&TVPal528Int_RVL,
&TVPal528IntDf_RVL,
&TVPal528Prog_RVL,
&TVPal528ProgSoft_RVL,
&TVPal576IntDfScale,
&TVEurgb60Hz240Ds,
&TVEurgb60Hz240DsAa,
&TVEurgb60Hz240Int,
&TVEurgb60Hz240IntAa,
&TVEurgb60Hz480Int,
&TVEurgb60Hz480IntDf,
&TVEurgb60Hz480IntAa,
&TVEurgb60Hz480Prog_RVL,
&TVEurgb60Hz480ProgSoft_RVL,
&TVEurgb60Hz480ProgAa_RVL};
static const char *vmodes_name[] = {
"TVNtsc240Ds",
"TVNtsc240DsAa",
"TVNtsc240Int",
"TVNtsc240IntAa",
"TVNtsc480Int",
"TVNtsc480IntAa",
"TVNtsc480IntDf",
"TVNtsc480Prog",
"TVNtsc480ProgSoft",
"TVNtsc480ProgAa",
"TVMpal240Int",
"TVMpal240IntAa",
"TVMpal240Ds",
"TVMpal240DsAa",
"TVMpal480Int",
"TVMpal480IntAa",
"TVMpal480IntDf",
"TVMpal480Prog",
"TVMpal480ProgSoft",
"TVMpal480ProgAa",
"TVPal264Ds",
"TVPal264DsAa",
"TVPal264Int",
"TVPal264IntAa",
"TVPal524IntAa",
"TVPal524ProgAa",
"TVPal528Int",
"TVPal528IntDf",
"TVPal528Prog",
"TVPal528ProgSoft",
"TVPal576IntDfScale",
"TVEurgb60Hz240Ds",
"TVEurgb60Hz240DsAa",
"TVEurgb60Hz240Int",
"TVEurgb60Hz240IntAa",
"TVEurgb60Hz480Int",
"TVEurgb60Hz480IntDf",
"TVEurgb60Hz480IntAa",
"TVEurgb60Hz480Prog",
"TVEurgb60Hz480ProgSoft",
"TVEurgb60Hz480ProgAa"};
static GXRModeObj *PAL2NTSC[] = {
&TVMpal240Int_RVL, &TVNtsc240Int,
&TVMpal240IntAa_RVL, &TVNtsc240IntAa,
&TVMpal240Ds, &TVNtsc240Ds,
&TVMpal240DsAa, &TVNtsc240DsAa,
&TVMpal480Int_RVL, &TVNtsc480Int,
&TVMpal480IntAa, &TVNtsc480IntAa,
&TVMpal480IntDf, &TVNtsc480IntDf,
&TVMpal480Prog, &TVNtsc480Prog,
&TVMpal480ProgSoft_RVL, &TVNtsc480ProgSoft,
&TVMpal480ProgAa_RVL, &TVNtsc480ProgAa,
&TVPal264Ds_RVL, &TVNtsc240Ds,
&TVPal264DsAa_RVL, &TVNtsc240DsAa,
&TVPal264Int_RVL, &TVNtsc240Int,
&TVPal264IntAa_RVL, &TVNtsc240IntAa,
&TVPal524IntAa_RVL, &TVNtsc480IntAa,
&TVPal524ProgAa_RVL, &TVNtsc480ProgAa,
&TVPal528Int_RVL, &TVNtsc480Int,
&TVPal528IntDf_RVL, &TVNtsc480IntDf,
&TVPal528Prog_RVL, &TVNtsc480Prog,
&TVPal528ProgSoft_RVL, &TVNtsc480ProgSoft,
&TVPal576IntDfScale, &TVNtsc480IntDf,
&TVEurgb60Hz240Ds, &TVNtsc240Ds,
&TVEurgb60Hz240DsAa, &TVNtsc240DsAa,
&TVEurgb60Hz240Int, &TVNtsc240Int,
&TVEurgb60Hz240IntAa, &TVNtsc240IntAa,
&TVEurgb60Hz480Int, &TVNtsc480Int,
&TVEurgb60Hz480IntDf, &TVNtsc480IntDf,
&TVEurgb60Hz480IntAa, &TVNtsc480IntAa,
&TVEurgb60Hz480Prog_RVL, &TVNtsc480Prog,
&TVEurgb60Hz480ProgSoft_RVL, &TVNtsc480ProgSoft,
&TVEurgb60Hz480ProgAa_RVL, &TVNtsc480ProgAa,
0, 0};
static GXRModeObj *NTSC2PAL[] = {
&TVNtsc240Ds, &TVPal264Ds_RVL,
&TVNtsc240DsAa, &TVPal264DsAa_RVL,
&TVNtsc240Int, &TVPal264Int_RVL,
&TVNtsc240IntAa, &TVPal264IntAa_RVL,
&TVNtsc480Int, &TVPal528Int_RVL,
&TVNtsc480IntAa, &TVPal524IntAa_RVL,
&TVNtsc480IntDf, &TVPal528IntDf_RVL,
&TVNtsc480Prog, &TVPal528Prog_RVL,
&TVNtsc480ProgSoft, &TVPal528ProgSoft_RVL,
&TVNtsc480ProgAa, &TVPal524ProgAa_RVL,
0, 0};
static GXRModeObj *NTSC2PAL60[] = {
&TVNtsc240Ds, &TVEurgb60Hz240Ds,
&TVNtsc240DsAa, &TVEurgb60Hz240DsAa,
&TVNtsc240Int, &TVEurgb60Hz240Int,
&TVNtsc240IntAa, &TVEurgb60Hz240IntAa,
&TVNtsc480Int, &TVEurgb60Hz480Int,
&TVNtsc480IntAa, &TVEurgb60Hz480IntAa,
&TVNtsc480IntDf, &TVEurgb60Hz480IntDf,
&TVNtsc480Prog, &TVEurgb60Hz480Prog_RVL,
&TVNtsc480ProgSoft, &TVEurgb60Hz480ProgSoft_RVL,
&TVNtsc480ProgAa, &TVEurgb60Hz480ProgAa_RVL,
0, 0};
static u8 PATTERN[12][2] = {
{6, 6}, {6, 6}, {6, 6},
{6, 6}, {6, 6}, {6, 6},
{6, 6}, {6, 6}, {6, 6},
{6, 6}, {6, 6}, {6, 6}
};
static u8 PATTERN_AA[12][2] = {
{3, 2}, {9, 6}, {3, 10},
{3, 2}, {9, 6}, {3, 10},
{9, 2}, {3, 6}, {9, 10},
{9, 2}, {3, 6}, {9, 10}
};
static bool compare_videomodes(GXRModeObj *mode1, GXRModeObj *mode2)
{
if (mode1->viTVMode != mode2->viTVMode || mode1->fbWidth != mode2->fbWidth || mode1->efbHeight != mode2->efbHeight
|| mode1->xfbHeight != mode2->xfbHeight || mode1->viXOrigin != mode2->viXOrigin || mode1->viYOrigin
!= mode2->viYOrigin || mode1->viWidth != mode2->viWidth || mode1->viHeight != mode2->viHeight
|| mode1->xfbMode != mode2->xfbMode || mode1->field_rendering != mode2->field_rendering || mode1->aa
!= mode2->aa || mode1->sample_pattern[0][0] != mode2->sample_pattern[0][0] || mode1->sample_pattern[1][0]
!= mode2->sample_pattern[1][0] || mode1->sample_pattern[2][0] != mode2->sample_pattern[2][0]
|| mode1->sample_pattern[3][0] != mode2->sample_pattern[3][0] || mode1->sample_pattern[4][0]
!= mode2->sample_pattern[4][0] || mode1->sample_pattern[5][0] != mode2->sample_pattern[5][0]
|| mode1->sample_pattern[6][0] != mode2->sample_pattern[6][0] || mode1->sample_pattern[7][0]
!= mode2->sample_pattern[7][0] || mode1->sample_pattern[8][0] != mode2->sample_pattern[8][0]
|| mode1->sample_pattern[9][0] != mode2->sample_pattern[9][0] || mode1->sample_pattern[10][0]
!= mode2->sample_pattern[10][0] || mode1->sample_pattern[11][0] != mode2->sample_pattern[11][0]
|| mode1->sample_pattern[0][1] != mode2->sample_pattern[0][1] || mode1->sample_pattern[1][1]
!= mode2->sample_pattern[1][1] || mode1->sample_pattern[2][1] != mode2->sample_pattern[2][1]
|| mode1->sample_pattern[3][1] != mode2->sample_pattern[3][1] || mode1->sample_pattern[4][1]
!= mode2->sample_pattern[4][1] || mode1->sample_pattern[5][1] != mode2->sample_pattern[5][1]
|| mode1->sample_pattern[6][1] != mode2->sample_pattern[6][1] || mode1->sample_pattern[7][1]
!= mode2->sample_pattern[7][1] || mode1->sample_pattern[8][1] != mode2->sample_pattern[8][1]
|| mode1->sample_pattern[9][1] != mode2->sample_pattern[9][1] || mode1->sample_pattern[10][1]
!= mode2->sample_pattern[10][1] || mode1->sample_pattern[11][1] != mode2->sample_pattern[11][1]
|| mode1->vfilter[0] != mode2->vfilter[0] || mode1->vfilter[1] != mode2->vfilter[1] || mode1->vfilter[2]
!= mode2->vfilter[2] || mode1->vfilter[3] != mode2->vfilter[3] || mode1->vfilter[4] != mode2->vfilter[4]
|| mode1->vfilter[5] != mode2->vfilter[5] || mode1->vfilter[6] != mode2->vfilter[6])
{
return false;
}
else
{
return true;
}
}
static void patch_videomode(GXRModeObj *mode1, GXRModeObj *mode2)
{
mode1->viTVMode = mode2->viTVMode;
if (mode1->viWidth == 640 || mode1->viWidth == 708)
{
mode1->fbWidth = mode2->fbWidth;
mode1->efbHeight = mode2->efbHeight;
mode1->xfbHeight = mode2->xfbHeight;
mode1->viXOrigin = mode2->viXOrigin;
mode1->viYOrigin = mode2->viYOrigin;
mode1->viWidth = mode2->viWidth;
mode1->viHeight = mode2->viHeight;
}
else
gprintf("Skipped patching dimensions %d x %d\n", mode1->viWidth, mode1->viHeight);
mode1->xfbMode = mode2->xfbMode;
mode1->field_rendering = mode2->field_rendering;
mode1->aa = mode2->aa;
mode1->sample_pattern[0][0] = mode2->sample_pattern[0][0];
mode1->sample_pattern[1][0] = mode2->sample_pattern[1][0];
mode1->sample_pattern[2][0] = mode2->sample_pattern[2][0];
mode1->sample_pattern[3][0] = mode2->sample_pattern[3][0];
mode1->sample_pattern[4][0] = mode2->sample_pattern[4][0];
mode1->sample_pattern[5][0] = mode2->sample_pattern[5][0];
mode1->sample_pattern[6][0] = mode2->sample_pattern[6][0];
mode1->sample_pattern[7][0] = mode2->sample_pattern[7][0];
mode1->sample_pattern[8][0] = mode2->sample_pattern[8][0];
mode1->sample_pattern[9][0] = mode2->sample_pattern[9][0];
mode1->sample_pattern[10][0] = mode2->sample_pattern[10][0];
mode1->sample_pattern[11][0] = mode2->sample_pattern[11][0];
mode1->sample_pattern[0][1] = mode2->sample_pattern[0][1];
mode1->sample_pattern[1][1] = mode2->sample_pattern[1][1];
mode1->sample_pattern[2][1] = mode2->sample_pattern[2][1];
mode1->sample_pattern[3][1] = mode2->sample_pattern[3][1];
mode1->sample_pattern[4][1] = mode2->sample_pattern[4][1];
mode1->sample_pattern[5][1] = mode2->sample_pattern[5][1];
mode1->sample_pattern[6][1] = mode2->sample_pattern[6][1];
mode1->sample_pattern[7][1] = mode2->sample_pattern[7][1];
mode1->sample_pattern[8][1] = mode2->sample_pattern[8][1];
mode1->sample_pattern[9][1] = mode2->sample_pattern[9][1];
mode1->sample_pattern[10][1] = mode2->sample_pattern[10][1];
mode1->sample_pattern[11][1] = mode2->sample_pattern[11][1];
mode1->vfilter[0] = mode2->vfilter[0];
mode1->vfilter[1] = mode2->vfilter[1];
mode1->vfilter[2] = mode2->vfilter[2];
mode1->vfilter[3] = mode2->vfilter[3];
mode1->vfilter[4] = mode2->vfilter[4];
mode1->vfilter[5] = mode2->vfilter[5];
mode1->vfilter[6] = mode2->vfilter[6];
}
static bool Search_and_patch_Video_Modes(u8 *Address, u32 Size, GXRModeObj *Table[])
{
u8 *Addr = (u8 *)Address;
bool found = 0;
u32 i, j;
while (Size >= sizeof(GXRModeObj))
{
for (i = 0; Table[i]; i += 2)
{
if (compare_videomodes(Table[i], (GXRModeObj *)Addr))
{
u8 current_vmode = 0;
u8 target_vmode = 0;
for (j = 0; j < sizeof(vmodes) / sizeof(vmodes[0]); j++)
{
if (compare_videomodes(Table[i], vmodes[j]))
{
current_vmode = j;
break;
}
}
for (j = 0; j < sizeof(vmodes) / sizeof(vmodes[0]); j++)
{
if (compare_videomodes(Table[i + 1], vmodes[j]))
{
target_vmode = j;
break;
}
}
gprintf("Video mode found in dol: %s, replaced by: %s \n", vmodes_name[current_vmode], vmodes_name[target_vmode]);
found = 1;
patch_videomode((GXRModeObj *)Addr, Table[i + 1]);
Addr += (sizeof(GXRModeObj) - 4);
Size -= (sizeof(GXRModeObj) - 4);
break;
}
}
Addr += 4;
Size -= 4;
}
return found;
}
// Patch known and unknown vfilters within GXRModeObj structures
void patch_vfilters(u8 *addr, u32 len, u8 *vfilter)
{
u8 *addr_start = addr;
while (len >= sizeof(GXRModeObj))
{
GXRModeObj *vidmode = (GXRModeObj *)addr_start;
if ((memcmp(vidmode->sample_pattern, PATTERN, 24) == 0 || memcmp(vidmode->sample_pattern, PATTERN_AA, 24) == 0) &&
(vidmode->fbWidth == 640 || vidmode->fbWidth == 608 || vidmode->fbWidth == 512) &&
(vidmode->field_rendering == 0 || vidmode->field_rendering == 1) &&
(vidmode->aa == 0 || vidmode->aa == 1))
{
gprintf("Replaced vfilter %02x%02x%02x%02x%02x%02x%02x @ %p (GXRModeObj)\n",
vidmode->vfilter[0], vidmode->vfilter[1], vidmode->vfilter[2], vidmode->vfilter[3],
vidmode->vfilter[4], vidmode->vfilter[5], vidmode->vfilter[6], addr_start);
memcpy(vidmode->vfilter, vfilter, 7);
addr_start += (sizeof(GXRModeObj) - 4);
len -= (sizeof(GXRModeObj) - 4);
}
addr_start += 4;
len -= 4;
}
}
// Patch rogue vfilters found in some games
void patch_vfilters_rogue(u8 *addr, u32 len, u8 *vfilter)
{
u8 known_vfilters[7][7] = {
{8, 8, 10, 12, 10, 8, 8},
{4, 8, 12, 16, 12, 8, 4},
{7, 7, 12, 12, 12, 7, 7},
{5, 5, 15, 14, 15, 5, 5},
{4, 4, 15, 18, 15, 4, 4},
{4, 4, 16, 16, 16, 4, 4},
{2, 2, 17, 22, 17, 2, 2}
};
u8 *addr_start = addr;
u8 *addr_end = addr + len - 8;
while (addr_start <= addr_end)
{
u8 known_vfilter[7];
for (int i = 0; i < 7; i++)
{
for (int x = 0; x < 7; x++)
known_vfilter[x] = known_vfilters[i][x];
if (!addr_start[7] && memcmp(addr_start, known_vfilter, 7) == 0)
{
gprintf("Replaced vfilter %02x%02x%02x%02x%02x%02x%02x @ %p\n", addr_start[0], addr_start[1],
addr_start[2], addr_start[3], addr_start[4], addr_start[5], addr_start[6], addr_start);
memcpy(addr_start, vfilter, 7);
addr_start += 7;
break;
}
}
addr_start += 1;
}
}
static bool Search_and_patch_Video_To(void *Address, u32 Size, GXRModeObj *Table[], GXRModeObj *rmode, bool patchAll)
{
u8 *Addr = (u8 *)Address;
bool found = 0;
u32 i;
u8 target_vmode = 0;
for (i = 0; i < sizeof(vmodes) / sizeof(vmodes[0]); i++)
{
if (compare_videomodes(Table[i], rmode))
{
target_vmode = i;
break;
}
}
while (Size >= sizeof(GXRModeObj))
{
if ((memcmp(((GXRModeObj *)Addr)->sample_pattern, PATTERN, 24) == 0 || memcmp(((GXRModeObj *)Addr)->sample_pattern, PATTERN_AA, 24) == 0) &&
(((GXRModeObj *)Addr)->fbWidth == 640 || ((GXRModeObj *)Addr)->fbWidth == 608 || ((GXRModeObj *)Addr)->fbWidth == 512) &&
(((GXRModeObj *)Addr)->field_rendering == 0 || ((GXRModeObj *)Addr)->field_rendering == 1) &&
(((GXRModeObj *)Addr)->aa == 0 || ((GXRModeObj *)Addr)->aa == 1)
)
{
// display found video mode patterns
GXRModeObj *vidmode = (GXRModeObj *)Addr;
gprintf("GXRModeObj \t%08x %04x %04x %04x %04x %04x %04x %04x %08x %04x %04x "
"%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x "
"%02x%02x%02x%02x%02x%02x%02x \n",
vidmode->viTVMode, vidmode->fbWidth, vidmode->efbHeight, vidmode->xfbHeight, vidmode->viXOrigin, vidmode->viYOrigin,
vidmode->viWidth, vidmode->viHeight, vidmode->xfbMode, vidmode->field_rendering, vidmode->aa,
vidmode->sample_pattern[0][0], vidmode->sample_pattern[1][0], vidmode->sample_pattern[2][0], vidmode->sample_pattern[3][0], vidmode->sample_pattern[4][0],
vidmode->sample_pattern[5][0], vidmode->sample_pattern[6][0], vidmode->sample_pattern[7][0], vidmode->sample_pattern[8][0], vidmode->sample_pattern[9][0],
vidmode->sample_pattern[10][0], vidmode->sample_pattern[11][0], vidmode->sample_pattern[0][1], vidmode->sample_pattern[1][1], vidmode->sample_pattern[2][1],
vidmode->sample_pattern[3][1], vidmode->sample_pattern[4][1], vidmode->sample_pattern[5][1], vidmode->sample_pattern[6][1], vidmode->sample_pattern[7][1],
vidmode->sample_pattern[8][1], vidmode->sample_pattern[9][1], vidmode->sample_pattern[10][1], vidmode->sample_pattern[11][1],
vidmode->vfilter[0], vidmode->vfilter[1], vidmode->vfilter[2], vidmode->vfilter[3], vidmode->vfilter[4], vidmode->vfilter[5], vidmode->vfilter[6]);
found = 0;
for (i = 0; i < sizeof(vmodes) / sizeof(vmodes[0]); i++)
{
if (compare_videomodes(Table[i], (GXRModeObj *)Addr))
{
found = 1;
gprintf("Video mode found in dol: %s, replaced by: %s \n", vmodes_name[i], vmodes_name[target_vmode]);
patch_videomode((GXRModeObj *)Addr, rmode);
Addr += (sizeof(GXRModeObj) - 4);
Size -= (sizeof(GXRModeObj) - 4);
break;
}
}
if (patchAll && !found)
{
gprintf("Video mode found in dol: Unknown, replaced by: %s \n", vmodes_name[target_vmode]);
patch_videomode((GXRModeObj *)Addr, rmode);
Addr += (sizeof(GXRModeObj) - 4);
Size -= (sizeof(GXRModeObj) - 4);
}
}
Addr += 4;
Size -= 4;
}
return found;
}
void VideoModePatcher(u8 *dst, int len, u8 videoSelected, u8 VideoPatchDol)
{
GXRModeObj **table = NULL;
if (videoSelected == VIDEO_MODE_PATCH) // patch enum'd in cfg.h
{
switch (CONF_GetVideo())
{
case CONF_VIDEO_PAL:
table = CONF_GetEuRGB60() > 0 ? NTSC2PAL60 : NTSC2PAL;
break;
case CONF_VIDEO_MPAL:
table = NTSC2PAL;
break;
default:
table = PAL2NTSC;
break;
}
Search_and_patch_Video_Modes(dst, len, table);
}
else if (VideoPatchDol == VIDEO_PATCH_DOL_REGION) //&& rmode != NULL)
{
switch (rmode->viTVMode >> 2)
{
case VI_PAL:
case VI_MPAL:
table = NTSC2PAL;
break;
case VI_EURGB60:
table = NTSC2PAL60;
break;
default:
table = PAL2NTSC;
}
Search_and_patch_Video_Modes(dst, len, table);
}
else if (VideoPatchDol == VIDEO_PATCH_DOL_ON && rmode != NULL)
{
Search_and_patch_Video_To(dst, len, vmodes, rmode, false);
}
else if (VideoPatchDol == VIDEO_PATCH_DOL_ALL && rmode != NULL)
{
Search_and_patch_Video_To(dst, len, vmodes, rmode, true);
}
}
void sneek_video_patch(void *addr, u32 len)
{
u8 *addr_start = addr;
u8 *addr_end = addr + len;
while (addr_start < addr_end)
{
if (*(vu32 *)(addr_start) == 0x3C608000)
{
if (((*(vu32 *)(addr_start + 4) & 0xFC1FFFFF) == 0x800300CC) && ((*(vu32 *)(addr_start + 8) >> 24) == 0x54))
{
*(vu32 *)(addr_start + 4) = 0x5400F0BE | ((*(vu32 *)(addr_start + 4) & 0x3E00000) >> 5);
}
}
addr_start += 4;
}
}
// giantpune's magic super patch to return to channels
static u32 ad[4] = {0, 0, 0, 0}; // these variables are global on the off chance the different parts needed
static u8 found = 0; // to find in the dol are found in different sections of the dol
static u8 returnToPatched = 0;
bool PatchReturnTo(void *Address, int Size, u32 id)
{
if (!id || returnToPatched)
return 0;
//gprintf("PatchReturnTo( %p, %08x, %08x )\n", Address, Size, id );
// new __OSLoadMenu() (SM2.0 and higher)
u8 SearchPattern[12] = {0x38, 0x80, 0x00, 0x02, 0x38, 0x60, 0x00, 0x01, 0x38, 0xa0, 0x00, 0x00}; // li r4,2
// li r3,1
// li r5,0
// old _OSLoadMenu() (used in launch games)
u8 SearchPatternB[12] = {0x38, 0xC0, 0x00, 0x02, 0x38, 0xA0, 0x00, 0x01, 0x38, 0xE0, 0x00, 0x00}; // li r6,2
// li r5,1
// li r7,0
// identifier for the safe place
u8 SearchPattern2[12] = {0x4D, 0x65, 0x74, 0x72, 0x6F, 0x77, 0x65, 0x72, 0x6B, 0x73, 0x20, 0x54}; // "Metrowerks T"
u8 oldSDK = 0;
found = 0;
void *Addr = Address;
void *Addr_end = Address + Size;
while (Addr <= Addr_end - 12)
{
// find a safe place for the patch to hang out
if (!ad[3] && memcmp(Addr, SearchPattern2, 12) == 0)
{
ad[3] = (u32)Addr + 0x30;
}
// find __OSLaunchMenu() and remember some addresses in it
else if (memcmp(Addr, SearchPattern, 12) == 0)
{
ad[found++] = (u32)Addr;
}
else if (ad[0] && memcmp(Addr, SearchPattern, 8) == 0) // after the first match is found, only search the first 8 bytes for the other 2
{
if (!ad[1])
ad[found++] = (u32)Addr;
else if (!ad[2])
ad[found++] = (u32)Addr;
if (found >= 3)
break;
}
Addr += 4;
}
// check for the older-ass version of the SDK
if (found < 3 && ad[3])
{
Addr = Address;
ad[0] = 0;
ad[1] = 0;
ad[2] = 0;
found = 0;
oldSDK = 1;
while (Addr <= Addr_end - 12)
{
// find __OSLaunchMenu() and remember some addresses in it
if (memcmp(Addr, SearchPatternB, 12) == 0)
{
ad[found++] = (u32)Addr;
}
else if (ad[0] && memcmp(Addr, SearchPatternB, 8) == 0) // after the first match is found, only search the first 8 bytes for the other 2
{
if (!ad[1])
ad[found++] = (u32)Addr;
else if (!ad[2])
ad[found++] = (u32)Addr;
if (found >= 3)
break;
}
Addr += 4;
}
}
// if the function is found
if (found == 3 && ad[3])
{
//gprintf("patch __OSLaunchMenu( 0x00010001, 0x%08x )\n", id);
u32 nop = 0x60000000;
// the magic that writes the TID to the registers
u8 jump[20] = {
0x3C, 0x60, 0x00, 0x01, // lis r3,1
0x60, 0x63, 0x00, 0x01, // ori r3,r3,1
0x3C, 0x80, (u8)(id >> 24), (u8)(id >> 16), // lis r4,(u16)(tid >> 16)
0x60, 0x84, (u8)(id >> 8), (u8)id, // ori r4,r4,(u16)(tid)
0x4E, 0x80, 0x00, 0x20}; // blr
if (oldSDK)
{
jump[1] = 0xA0; // 3CA00001 // lis r5,1
jump[5] = 0xA5; // 60A50001 // ori r5,r5,1
jump[9] = 0xC0; // 3CC0AF1B // lis r6,(u16)(tid >> 16)
jump[13] = 0xC6; // 60C6F516 // ori r6,r6,(u16)(tid)
}
void *addr = (u32 *)ad[3];
// write new stuff to in a unused part of the main.dol
memcpy(addr, jump, sizeof(jump));
// ES_GetTicketViews()
u32 newval = (ad[3] - ad[0]);
newval &= 0x03FFFFFC;
newval |= 0x48000001;
addr = (u32 *)ad[0];
memcpy(addr, &newval, sizeof(u32)); // bl ad[ 3 ]
memcpy(addr + 4, &nop, sizeof(u32)); // nop
// gprintf("\t%08x -> %08x\n", addr, newval );
// ES_GetTicketViews() again
newval = (ad[3] - ad[1]);
newval &= 0x03FFFFFC;
newval |= 0x48000001;
addr = (u32 *)ad[1];
memcpy(addr, &newval, sizeof(u32)); // bl ad[ 3 ]
memcpy(addr + 4, &nop, sizeof(u32)); // nop
// gprintf("\t%08x -> %08x\n", addr, newval );
// ES_LaunchTitle()
newval = (ad[3] - ad[2]);
newval &= 0x03FFFFFC;
newval |= 0x48000001;
addr = (u32 *)ad[2];
memcpy(addr, &newval, sizeof(u32)); // bl ad[ 3 ]
memcpy(addr + 4, &nop, sizeof(u32)); // nop
// gprintf("\t%08x -> %08x\n", addr, newval );
returnToPatched = 1;
}
if (returnToPatched)
gprintf("Return to %08X patched with old method.\n", (u32)id);
return returnToPatched;
}
int PatchNewReturnTo(int es_fd, u64 title)
{
if (es_fd < 0 || title == 0)
return -1;
//! this is here for test purpose only and needs be moved later
static u64 sm_title_id ATTRIBUTE_ALIGN(32);
ioctlv *vector = (ioctlv *)memalign(32, sizeof(ioctlv));
if (!vector)
return -1;
sm_title_id = title;
vector[0].data = &sm_title_id;
vector[0].len = sizeof(sm_title_id);
int result = -1;
if (es_fd >= 0)
result = IOS_Ioctlv(es_fd, 0xA1, 1, 0, vector);
if (result >= 0)
gprintf("Return to %08X patched with d2x method.\n", (u32)title);
free(vector);
return result;
}
int BlockIOSReload(int es_fd, u32 gameIOS)
{
if (es_fd < 0)
return -1;
static int mode ATTRIBUTE_ALIGN(32);
static int ios ATTRIBUTE_ALIGN(32);
ioctlv *vector = (ioctlv *)memalign(32, sizeof(ioctlv) * 2);
if (!vector)
return -1;
int inlen = 2;
mode = 2;
ios = gameIOS; // ios to be reloaded in place of the requested one
vector[0].data = &mode;
vector[0].len = 4;
vector[1].data = &ios;
vector[1].len = 4;
int result = -1;
if (es_fd >= 0)
result = IOS_Ioctlv(es_fd, 0xA0, inlen, 0, vector);
if (result >= 0)
gprintf("Block IOS Reload patched with d2x method to IOS%i; result: %i\n", gameIOS, result);
free(vector);
return result;
}
void PatchAspectRatio(void *addr, u32 len, u8 aspect)
{
if (aspect > 1)
return;
static const u32 aspect_searchpattern1[5] = {
0x9421FFF0, 0x7C0802A6, 0x38800001, 0x90010014, 0x38610008};
static const u32 aspect_searchpattern2[15] = {
0x2C030000, 0x40820010, 0x38000000, 0x98010008, 0x48000018,
0x88010008, 0x28000001, 0x4182000C, 0x38000000, 0x98010008,
0x80010014, 0x88610008, 0x7C0803A6, 0x38210010, 0x4E800020};
u8 *addr_start = (u8 *)addr;
u8 *addr_end = addr_start + len - sizeof(aspect_searchpattern1) - 4 - sizeof(aspect_searchpattern2);
while (addr_start < addr_end)
{
if ((memcmp(addr_start, aspect_searchpattern1, sizeof(aspect_searchpattern1)) == 0) &&
(memcmp(addr_start + 4 + sizeof(aspect_searchpattern1), aspect_searchpattern2, sizeof(aspect_searchpattern2)) == 0))
{
*((u32 *)(addr_start + 0x44)) = (0x38600000 | aspect);
gprintf("Aspect ratio patched to: %s\n", aspect ? "16:9" : "4:3");
break;
}
addr_start += 4;
}
}
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