Inital support for patching the OSDynload_Acquire and OSDynload_FindExport

This commit is contained in:
Maschell 2020-05-17 13:14:19 +02:00
parent ee045acdc8
commit 373579cd6f
11 changed files with 877 additions and 3 deletions

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@ -31,7 +31,7 @@ export OBJCOPY := $(PREFIX)objcopy
TARGET := relocator
BUILD := build
BUILD_DBG := $(TARGET)_dbg
SOURCES := src src/utils
SOURCES := src src/utils src/kernel
DATA := data

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@ -5,6 +5,8 @@
#include <coreinit/dynload.h>
#include <coreinit/cache.h>
#include <nsysnet/socket.h>
#include <coreinit/memorymap.h>
#include <map>
#include "../../source/common/dynamic_linking_defines.h"
#include "../../source/common/module_defines.h"
#include "../../source/module/RelocationData.h"
@ -12,12 +14,16 @@
#include "ModuleDataPersistence.h"
#include "ElfUtils.h"
#include "../../source/common/relocation_defines.h"
#include "kernel/kernel_utils.h"
#include "hooks_patcher_static.h"
#include "utils/logger.h"
#include "utils/dynamic.h"
#define gModuleData ((module_information_t *) (0x00880000))
uint8_t gFunctionsPatched __attribute__((section(".data"))) = 0;
extern "C" void doStart(int argc, char **argv);
// We need to wrap it to make sure the main function is called AFTER our code.
// The compiler tries to optimize this otherwise and calling the main function earlier
@ -33,16 +39,21 @@ extern "C" int _start(int argc, char **argv) {
}
bool doRelocation(std::vector<RelocationData> &relocData, relocation_trampolin_entry_t * tramp_data, uint32_t tramp_length) {
std::map<std::string,OSDynLoad_Module> moduleCache;
for (auto const& curReloc : relocData) {
std::string functionName = curReloc.getName();
std::string rplName = curReloc.getImportRPLInformation().getName();
int32_t isData = curReloc.getImportRPLInformation().isData();
OSDynLoad_Module rplHandle = 0;
OSDynLoad_Acquire(rplName.c_str(), &rplHandle);
if(moduleCache.count(rplName) == 0){
OSDynLoad_Acquire(rplName.c_str(), &rplHandle);
moduleCache[rplName] = rplHandle;
}
rplHandle = moduleCache.at(rplName);
uint32_t functionAddress = 0;
OSDynLoad_FindExport(rplHandle, isData, functionName.c_str(), (void**) &functionAddress);
if(functionAddress == 0) {
DEBUG_FUNCTION_LINE("Failed to find function\n");
return false;
}
if(!ElfUtils::elfLinkOne(curReloc.getType(), curReloc.getOffset(), curReloc.getAddend(), (uint32_t) curReloc.getDestination(), functionAddress, tramp_data, tramp_length, RELOC_TYPE_IMPORT)) {
@ -84,6 +95,11 @@ bool ResolveRelocations() {
}
extern "C" void doStart(int argc, char **argv) {
if(!gFunctionsPatched){
gFunctionsPatched = 1;
kernelInitialize();
PatchInvidualMethodHooks(method_hooks_hooks_static, method_hooks_size_hooks_static, method_calls_hooks_static);
}
DEBUG_FUNCTION_LINE("Resolve relocations\n");
DEBUG_FUNCTION_LINE("Number of modules %d\n", gModuleData->number_used_modules);
ResolveRelocations();

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@ -0,0 +1,25 @@
#include "utils/logger.h"
#include "utils/function_patcher.h"
#include <malloc.h>
#include <coreinit/dynload.h>
DECL(OSDynLoad_Error, OSDynLoad_Acquire, char const *name, OSDynLoad_Module *outModule) {
DEBUG_FUNCTION_LINE("%s\n", name);
return real_OSDynLoad_Acquire(name, outModule);
}
DECL(OSDynLoad_Error, OSDynLoad_FindExport, OSDynLoad_Module module, BOOL isData, char const *name, void **outAddr) {
DEBUG_FUNCTION_LINE("%s\n", name);
return real_OSDynLoad_FindExport(module,isData, name, outAddr);
}
hooks_magic_t method_hooks_hooks_static[] __attribute__((section(".data"))) = {
MAKE_MAGIC(OSDynLoad_Acquire, LIB_CORE_INIT, STATIC_FUNCTION),
MAKE_MAGIC(OSDynLoad_FindExport, LIB_CORE_INIT, STATIC_FUNCTION)
};
uint32_t method_hooks_size_hooks_static __attribute__((section(".data"))) = sizeof(method_hooks_hooks_static) / sizeof(hooks_magic_t);
//! buffer to store our instructions needed for our replacements
volatile uint32_t method_calls_hooks_static[sizeof(method_hooks_hooks_static) / sizeof(hooks_magic_t) * FUNCTION_PATCHER_METHOD_STORE_SIZE] __attribute__((section(".data")));

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@ -0,0 +1,18 @@
#ifndef _HOOKS_STATIC_FUNCTION_PATCHER_H
#define _HOOKS_STATIC_FUNCTION_PATCHER_H
#include <utils/function_patcher.h>
#ifdef __cplusplus
extern "C" {
#endif
extern hooks_magic_t method_hooks_hooks_static[];
extern uint32_t method_hooks_size_hooks_static;
extern volatile uint32_t method_calls_hooks_static[];
#ifdef __cplusplus
}
#endif
#endif /* _HOOKS_STATIC_FUNCTION_PATCHER_H */

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@ -0,0 +1,40 @@
.global SCKernelCopyData
SCKernelCopyData:
// Disable data address translation
mfmsr %r6
li %r7, 0x10
andc %r6, %r6, %r7
mtmsr %r6
// Copy data
addi %r3, %r3, -1
addi %r4, %r4, -1
mtctr %r5
SCKernelCopyData_loop:
lbzu %r5, 1(%r4)
stbu %r5, 1(%r3)
bdnz SCKernelCopyData_loop
// Enable data address translation
ori %r6, %r6, 0x10
mtmsr %r6
blr
.global KernelCopyData
KernelCopyData:
li %r0, 0x2500
sc
blr
.globl SC0x36_KernelReadSRs
SC0x36_KernelReadSRs:
li %r0, 0x3600
sc
blr
.globl SC0x0A_KernelWriteSRs
SC0x0A_KernelWriteSRs:
li %r0, 0x0A00
sc
blr

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@ -0,0 +1,20 @@
#ifndef __KERNEL_DEFS_H_
#define __KERNEL_DEFS_H_
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
#define KERN_SYSCALL_TBL1 0xFFE84C70 //Unknown
#define KERN_SYSCALL_TBL2 0xFFE85070 //Games
#define KERN_SYSCALL_TBL3 0xFFE85470 //Loader
#define KERN_SYSCALL_TBL4 0xFFEAAA60 //Home menu
#define KERN_SYSCALL_TBL5 0xFFEAAE60 //Browser
#ifdef __cplusplus
}
#endif
#endif // __KERNEL_DEFS_H_

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@ -0,0 +1,91 @@
#include "kernel_utils.h"
#include "kernel_defs.h"
#include <coreinit/cache.h>
#include <coreinit/memorymap.h>
extern void SCKernelCopyData(uint32_t dst, uint32_t src, uint32_t len);
void KernelWrite(uint32_t addr, const void *data, uint32_t length) {
uint32_t dst = (uint32_t) OSEffectiveToPhysical(addr);
uint32_t src = (uint32_t) OSEffectiveToPhysical((uint32_t) data);
KernelCopyData(dst, src, length);
DCFlushRange((void *) addr, length);
ICInvalidateRange((void *) addr, length);
}
void KernelWriteU32(uint32_t addr, uint32_t value) {
uint32_t dst = (uint32_t) OSEffectiveToPhysical(addr);
uint32_t src = (uint32_t) OSEffectiveToPhysical((uint32_t) &value);
KernelCopyData(dst, src, 4);
DCFlushRange((void *) addr, 4);
ICInvalidateRange((void *) addr, 4);
}
/* Write a 32-bit word with kernel permissions */
void __attribute__ ((noinline)) kern_write(void *addr, uint32_t value) {
asm volatile (
"li 3,1\n"
"li 4,0\n"
"mr 5,%1\n"
"li 6,0\n"
"li 7,0\n"
"lis 8,1\n"
"mr 9,%0\n"
"mr %1,1\n"
"li 0,0x3500\n"
"sc\n"
"nop\n"
"mr 1,%1\n"
:
: "r"(addr), "r"(value)
: "memory", "ctr", "lr", "0", "3", "4", "5", "6", "7", "8", "9", "10",
"11", "12"
);
}
/* Read a 32-bit word with kernel permissions */
uint32_t __attribute__ ((noinline)) kern_read(const void *addr) {
uint32_t result;
asm volatile (
"li 3,1\n"
"li 4,0\n"
"li 5,0\n"
"li 6,0\n"
"li 7,0\n"
"lis 8,1\n"
"mr 9,%1\n"
"li 0,0x3400\n"
"mr %0,1\n"
"sc\n"
"nop\n"
"mr 1,%0\n"
"mr %0,3\n"
: "=r"(result)
: "b"(addr)
: "memory", "ctr", "lr", "0", "3", "4", "5", "6", "7", "8", "9", "10",
"11", "12"
);
return result;
}
void PatchSyscall(int index, uint32_t addr) {
//DEBUG_FUNCTION_LINE("Patching Syscall 0x%02X\n",index);
kern_write((void *) (KERN_SYSCALL_TBL1 + index * 4), addr);
kern_write((void *) (KERN_SYSCALL_TBL2 + index * 4), addr);
kern_write((void *) (KERN_SYSCALL_TBL3 + index * 4), addr);
kern_write((void *) (KERN_SYSCALL_TBL4 + index * 4), addr);
kern_write((void *) (KERN_SYSCALL_TBL5 + index * 4), addr);
}
void kernelInitialize() {
static uint8_t ucSyscallsSetupRequired = 1;
if (!ucSyscallsSetupRequired){
return;
}
ucSyscallsSetupRequired = 0;
PatchSyscall(0x25, (uint32_t) SCKernelCopyData);
}

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@ -0,0 +1,26 @@
#ifndef __KERNEL_UTILS_H_
#define __KERNEL_UTILS_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "kernel_defs.h"
extern void KernelCopyData(uint32_t dst, uint32_t src, uint32_t len);
void kern_write(void *addr, uint32_t value);
uint32_t kern_read(const void *addr);
void KernelWrite(uint32_t addr, const void *data, uint32_t length);
void KernelWriteU32(uint32_t addr, uint32_t value);
void kernelInitialize();
#ifdef __cplusplus
}
#endif
#endif // __KERNEL_UTILS_H_

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@ -0,0 +1,550 @@
/****************************************************************************
* Copyright (C) 2016 Maschell
* With code from chadderz and dimok
*
* 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 3 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/>.
****************************************************************************/
#include <vector>
#include <algorithm>
#include <stdio.h>
#include <malloc.h>
#include <string.h>
#include <coreinit/memorymap.h>
#include <coreinit/cache.h>
#include <coreinit/dynload.h>
#include "kernel/kernel_utils.h"
#include "function_patcher.h"
#include "logger.h"
#define LIB_CODE_RW_BASE_OFFSET 0xC1000000
#define CODE_RW_BASE_OFFSET 0x00000000
#define DEBUG_LOG_DYN 0
OSDynLoad_Module acp_handle_internal = 0;
OSDynLoad_Module aoc_handle_internal = 0;
OSDynLoad_Module sound_handle_internal = 0;
OSDynLoad_Module sound_handle_internal_old = 0;
OSDynLoad_Module libcurl_handle_internal = 0;
OSDynLoad_Module gx2_handle_internal = 0;
OSDynLoad_Module nfp_handle_internal = 0;
OSDynLoad_Module nn_act_handle_internal = 0;
OSDynLoad_Module nn_nim_handle_internal = 0;
OSDynLoad_Module nn_save_handle_internal = 0;
OSDynLoad_Module ntag_handle_internal = 0;
OSDynLoad_Module coreinit_handle_internal = 0;
OSDynLoad_Module padscore_handle_internal = 0;
OSDynLoad_Module proc_ui_handle_internal = 0;
OSDynLoad_Module nsysnet_handle_internal = 0;
OSDynLoad_Module sysapp_handle_internal = 0;
OSDynLoad_Module syshid_handle_internal = 0;
OSDynLoad_Module vpad_handle_internal = 0;
OSDynLoad_Module vpadbase_handle_internal = 0;
/*
* Patches a function that is loaded at the start of each application. Its not required to restore, at least when they are really dynamic.
* "normal" functions should be patch with the normal patcher. Current Code by Maschell with the help of dimok. Orignal code by Chadderz.
*/
void PatchInvidualMethodHooks(hooks_magic_t method_hooks[], int32_t hook_information_size, volatile uint32_t dynamic_method_calls[]) {
resetLibs();
DEBUG_FUNCTION_LINE("Patching %d given functions", hook_information_size);
/* Patch branches to it. */
volatile uint32_t *space = &dynamic_method_calls[0];
int32_t method_hooks_count = hook_information_size;
uint32_t skip_instr = 1;
uint32_t my_instr_len = 6;
uint32_t instr_len = my_instr_len + skip_instr;
uint32_t flush_len = 4 * instr_len;
for (int32_t i = 0; i < method_hooks_count; i++) {
DEBUG_FUNCTION_LINE("Patching %s ...", method_hooks[i].functionName);
if (method_hooks[i].functionType == STATIC_FUNCTION && method_hooks[i].alreadyPatched == 1) {
if (isDynamicFunction((uint32_t) OSEffectiveToPhysical(method_hooks[i].realAddr))) {
DEBUG_FUNCTION_LINE("The function %s is a dynamic function. Please fix that <3", method_hooks[i].functionName);
method_hooks[i].functionType = DYNAMIC_FUNCTION;
} else {
DEBUG_FUNCTION_LINE("Skipping %s, its already patched", method_hooks[i].functionName);
space += instr_len;
continue;
}
}
uint32_t physical = 0;
uint32_t repl_addr = (uint32_t) method_hooks[i].replaceAddr;
uint32_t call_addr = (uint32_t) method_hooks[i].replaceCall;
uint32_t real_addr = GetAddressOfFunction(method_hooks[i].functionName, method_hooks[i].library);
if (!real_addr) {
DEBUG_FUNCTION_LINE("\n");
DEBUG_FUNCTION_LINE("OSDynLoad_FindExport failed for %s", method_hooks[i].functionName);
space += instr_len;
continue;
}
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("%s is located at %08X!", method_hooks[i].functionName, real_addr);
}
physical = (uint32_t) OSEffectiveToPhysical(real_addr);
if (!physical) {
DEBUG_FUNCTION_LINE("Error. Something is wrong with the physical address\n");
space += instr_len;
continue;
}
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("%s physical is located at %08X!", method_hooks[i].functionName, physical);
}
*(volatile uint32_t *) (call_addr) = (uint32_t) (space) - CODE_RW_BASE_OFFSET;
uint32_t targetAddr = (uint32_t) space;
if (targetAddr < 0x00800000 || targetAddr >= 0x01000000) {
targetAddr = (uint32_t) OSEffectiveToPhysical(targetAddr);
} else {
targetAddr = targetAddr + 0x30800000 - 0x00800000;
}
KernelCopyData(targetAddr, physical, 4);
ICInvalidateRange((void *) (space), 4);
DCFlushRange((void *) (space), 4);
space++;
//Only works if skip_instr == 1
if (skip_instr == 1) {
// fill the restore instruction section
method_hooks[i].realAddr = real_addr;
method_hooks[i].restoreInstruction = *(space - 1);
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("method_hooks[i].realAddr = %08X!", method_hooks[i].realAddr);
}
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("method_hooks[i].restoreInstruction = %08X!", method_hooks[i].restoreInstruction);
}
} else {
DEBUG_FUNCTION_LINE("Error. Can't save %s for restoring!\n", method_hooks[i].functionName);
}
//adding jump to real function thx @ dimok for the assembler code
/*
90 61 ff e0 stw r3,-32(r1)
3c 60 12 34 lis r3,4660
60 63 56 78 ori r3,r3,22136
7c 69 03 a6 mtctr r3
80 61 ff e0 lwz r3,-32(r1)
4e 80 04 20 bctr*/
*space = 0x9061FFE0;
space++;
*space = 0x3C600000 | (((real_addr + (skip_instr * 4)) >> 16) & 0x0000FFFF); // lis r3, real_addr@h
space++;
*space = 0x60630000 | ((real_addr + (skip_instr * 4)) & 0x0000ffff); // ori r3, r3, real_addr@l
space++;
*space = 0x7C6903A6; // mtctr r3
space++;
*space = 0x8061FFE0; // lwz r3,-32(r1)
space++;
*space = 0x4E800420; // bctr
space++;
DCFlushRange((void *) (space - instr_len), flush_len);
ICInvalidateRange((unsigned char *) (space - instr_len), flush_len);
//setting jump back
uint32_t replace_instr = 0x48000002 | (repl_addr & 0x03fffffc);
DCFlushRange(&replace_instr, 4);
KernelCopyData(physical, (uint32_t) OSEffectiveToPhysical((uint32_t) &replace_instr), 4);
ICInvalidateRange((void *) (real_addr), 4);
method_hooks[i].alreadyPatched = 1;
DEBUG_FUNCTION_LINE("done!\n");
}
DEBUG_FUNCTION_LINE("Done with patching given functions!");
}
/* ****************************************************************** */
/* RESTORE ORIGINAL INSTRUCTIONS */
/* ****************************************************************** */
void RestoreInvidualInstructions(hooks_magic_t method_hooks[], int32_t hook_information_size) {
resetLibs();
DEBUG_FUNCTION_LINE("Restoring given functions!");
int32_t method_hooks_count = hook_information_size;
for (int32_t i = 0; i < method_hooks_count; i++) {
DEBUG_FUNCTION_LINE("Restoring %s... ", method_hooks[i].functionName);
if (method_hooks[i].restoreInstruction == 0 || method_hooks[i].realAddr == 0) {
DEBUG_FUNCTION_LINE("I dont have the information for the restore =( skip\n");
continue;
}
uint32_t real_addr = GetAddressOfFunction(method_hooks[i].functionName, method_hooks[i].library);
if (!real_addr) {
DEBUG_FUNCTION_LINE("OSDynLoad_FindExport failed for %s", method_hooks[i].functionName);
continue;
}
uint32_t physical = (uint32_t) OSEffectiveToPhysical(real_addr);
if (!physical) {
DEBUG_FUNCTION_LINE("Something is wrong with the physical address\n");
continue;
}
if (isDynamicFunction(physical)) {
DEBUG_FUNCTION_LINE("Its a dynamic function. We don't need to restore it!\n", method_hooks[i].functionName);
} else {
physical = (uint32_t) OSEffectiveToPhysical(method_hooks[i].realAddr); //When its an static function, we need to use the old location
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("Restoring %08X to %08X", (uint32_t) method_hooks[i].restoreInstruction, physical);
}
uint32_t targetAddr = (uint32_t) &method_hooks[i].restoreInstruction;
if (targetAddr < 0x00800000 || targetAddr >= 0x01000000) {
targetAddr = (uint32_t) OSEffectiveToPhysical(targetAddr);
} else {
targetAddr = targetAddr + 0x30800000 - 0x00800000;
}
KernelCopyData(physical, targetAddr, 4);
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("ICInvalidateRange %08X", (void *) method_hooks[i].realAddr);
}
ICInvalidateRange((void *) method_hooks[i].realAddr, 4);
DEBUG_FUNCTION_LINE("done\n");
}
method_hooks[i].alreadyPatched = 0; // In case a
}
DEBUG_FUNCTION_LINE("Done with restoring given functions!");
}
int32_t isDynamicFunction(uint32_t physicalAddress) {
if ((physicalAddress & 0x80000000) == 0x80000000) {
return 1;
}
return 0;
}
uint32_t GetAddressOfFunction(const char *functionName, uint32_t library) {
uint32_t real_addr = 0;
OSDynLoad_Module rpl_handle = 0;
if (library == LIB_CORE_INIT) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_CORE_INIT", functionName);
}
if (coreinit_handle_internal == 0) {
OSDynLoad_Acquire("coreinit.rpl", &coreinit_handle_internal);
}
if (coreinit_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_CORE_INIT failed to acquire");
return 0;
}
rpl_handle = coreinit_handle_internal;
} else if (library == LIB_NSYSNET) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_NSYSNET", functionName);
}
if (nsysnet_handle_internal == 0) {
OSDynLoad_Acquire("nsysnet.rpl", &nsysnet_handle_internal);
}
if (nsysnet_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_NSYSNET failed to acquire");
return 0;
}
rpl_handle = nsysnet_handle_internal;
} else if (library == LIB_GX2) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_GX2", functionName);
}
if (gx2_handle_internal == 0) {
OSDynLoad_Acquire("gx2.rpl", &gx2_handle_internal);
}
if (gx2_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_GX2 failed to acquire");
return 0;
}
rpl_handle = gx2_handle_internal;
} else if (library == LIB_AOC) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_AOC", functionName);
}
if (aoc_handle_internal == 0) {
OSDynLoad_Acquire("nn_aoc.rpl", &aoc_handle_internal);
}
if (aoc_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_AOC failed to acquire");
return 0;
}
rpl_handle = aoc_handle_internal;
} else if (library == LIB_AX) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_AX", functionName);
}
if (sound_handle_internal == 0) {
OSDynLoad_Acquire("sndcore2.rpl", &sound_handle_internal);
}
if (sound_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_AX failed to acquire");
return 0;
}
rpl_handle = sound_handle_internal;
} else if (library == LIB_AX_OLD) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_AX_OLD", functionName);
}
if (sound_handle_internal_old == 0) {
OSDynLoad_Acquire("snd_core.rpl", &sound_handle_internal_old);
}
if (sound_handle_internal_old == 0) {
DEBUG_FUNCTION_LINE("LIB_AX_OLD failed to acquire");
return 0;
}
rpl_handle = sound_handle_internal_old;
} else if (library == LIB_FS) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_FS", functionName);
}
if (coreinit_handle_internal == 0) {
OSDynLoad_Acquire("coreinit.rpl", &coreinit_handle_internal);
}
if (coreinit_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_FS failed to acquire");
return 0;
}
rpl_handle = coreinit_handle_internal;
} else if (library == LIB_OS) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_OS", functionName);
}
if (coreinit_handle_internal == 0) {
OSDynLoad_Acquire("coreinit.rpl", &coreinit_handle_internal);
}
if (coreinit_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_OS failed to acquire");
return 0;
}
rpl_handle = coreinit_handle_internal;
} else if (library == LIB_PADSCORE) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_PADSCORE", functionName);
}
if (padscore_handle_internal == 0) {
OSDynLoad_Acquire("padscore.rpl", &padscore_handle_internal);
}
if (padscore_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_PADSCORE failed to acquire");
return 0;
}
rpl_handle = padscore_handle_internal;
} else if (library == LIB_SOCKET) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_SOCKET", functionName);
}
if (nsysnet_handle_internal == 0) {
OSDynLoad_Acquire("nsysnet.rpl", &nsysnet_handle_internal);
}
if (nsysnet_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_SOCKET failed to acquire");
return 0;
}
rpl_handle = nsysnet_handle_internal;
} else if (library == LIB_SYS) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_SYS", functionName);
}
if (sysapp_handle_internal == 0) {
OSDynLoad_Acquire("sysapp.rpl", &sysapp_handle_internal);
}
if (sysapp_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_SYS failed to acquire");
return 0;
}
rpl_handle = sysapp_handle_internal;
} else if (library == LIB_VPAD) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_VPAD", functionName);
}
if (vpad_handle_internal == 0) {
OSDynLoad_Acquire("vpad.rpl", &vpad_handle_internal);
}
if (vpad_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_VPAD failed to acquire");
return 0;
}
rpl_handle = vpad_handle_internal;
} else if (library == LIB_NN_ACP) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_NN_ACP", functionName);
}
if (acp_handle_internal == 0) {
OSDynLoad_Acquire("nn_acp.rpl", &acp_handle_internal);
}
if (acp_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_NN_ACP failed to acquire");
return 0;
}
rpl_handle = acp_handle_internal;
} else if (library == LIB_SYSHID) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_SYSHID", functionName);
}
if (syshid_handle_internal == 0) {
OSDynLoad_Acquire("nsyshid.rpl", &syshid_handle_internal);
}
if (syshid_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_SYSHID failed to acquire");
return 0;
}
rpl_handle = syshid_handle_internal;
} else if (library == LIB_VPADBASE) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_VPADBASE", functionName);
}
if (vpadbase_handle_internal == 0) {
OSDynLoad_Acquire("vpadbase.rpl", &vpadbase_handle_internal);
}
if (vpadbase_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_VPADBASE failed to acquire");
return 0;
}
rpl_handle = vpadbase_handle_internal;
} else if (library == LIB_PROC_UI) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_PROC_UI", functionName);
}
if (proc_ui_handle_internal == 0) {
OSDynLoad_Acquire("proc_ui.rpl", &proc_ui_handle_internal);
}
if (proc_ui_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_PROC_UI failed to acquire");
return 0;
}
rpl_handle = proc_ui_handle_internal;
} else if (library == LIB_NTAG) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_NTAG", functionName);
}
if (ntag_handle_internal == 0) {
OSDynLoad_Acquire("ntag.rpl", &ntag_handle_internal);
}
if (ntag_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_NTAG failed to acquire");
return 0;
}
rpl_handle = ntag_handle_internal;
} else if (library == LIB_NFP) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_NFP", functionName);
}
if (nfp_handle_internal == 0) {
OSDynLoad_Acquire("nn_nfp.rpl", &nfp_handle_internal);
}
if (nfp_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_NFP failed to acquire");
return 0;
}
rpl_handle = nfp_handle_internal;
} else if (library == LIB_SAVE) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_SAVE", functionName);
}
if (nn_save_handle_internal == 0) {
OSDynLoad_Acquire("nn_save.rpl", &nn_save_handle_internal);
}
if (nn_save_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_SAVE failed to acquire");
return 0;
}
rpl_handle = nn_save_handle_internal;
} else if (library == LIB_ACT) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_ACT", functionName);
}
if (nn_act_handle_internal == 0) {
OSDynLoad_Acquire("nn_act.rpl", &nn_act_handle_internal);
}
if (nn_act_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_ACT failed to acquire");
return 0;
}
rpl_handle = nn_act_handle_internal;
} else if (library == LIB_NIM) {
if (DEBUG_LOG_DYN) {
DEBUG_FUNCTION_LINE("FindExport of %s! From LIB_NIM", functionName);
}
if (nn_nim_handle_internal == 0) {
OSDynLoad_Acquire("nn_nim.rpl", &nn_nim_handle_internal);
}
if (nn_nim_handle_internal == 0) {
DEBUG_FUNCTION_LINE("LIB_NIM failed to acquire");
return 0;
}
rpl_handle = nn_nim_handle_internal;
}
if (!rpl_handle) {
DEBUG_FUNCTION_LINE("Failed to find the RPL handle for %s", functionName);
return 0;
}
OSDynLoad_FindExport(rpl_handle, 0, functionName, (void **) &real_addr);
if (!real_addr) {
OSDynLoad_FindExport(rpl_handle, 1, functionName, (void **) &real_addr);
if (!real_addr) {
DEBUG_FUNCTION_LINE("OSDynLoad_FindExport failed for %s", functionName);
return 0;
}
}
if ((library == LIB_NN_ACP) && (uint32_t) (*(volatile uint32_t *) (real_addr) & 0x48000002) == 0x48000000) {
uint32_t address_diff = (uint32_t) (*(volatile uint32_t *) (real_addr) & 0x03FFFFFC);
if ((address_diff & 0x03000000) == 0x03000000) {
address_diff |= 0xFC000000;
}
real_addr += (int32_t) address_diff;
if ((uint32_t) (*(volatile uint32_t *) (real_addr) & 0x48000002) == 0x48000000) {
return 0;
}
}
return real_addr;
}
void resetLibs() {
acp_handle_internal = 0;
aoc_handle_internal = 0;
sound_handle_internal = 0;
sound_handle_internal_old = 0;
libcurl_handle_internal = 0;
gx2_handle_internal = 0;
nfp_handle_internal = 0;
nn_act_handle_internal = 0;
nn_nim_handle_internal = 0;
nn_save_handle_internal = 0;
ntag_handle_internal = 0;
coreinit_handle_internal = 0;
padscore_handle_internal = 0;
proc_ui_handle_internal = 0;
nsysnet_handle_internal = 0;
sysapp_handle_internal = 0;
syshid_handle_internal = 0;
vpad_handle_internal = 0;
vpadbase_handle_internal = 0;
}

View File

@ -0,0 +1,87 @@
/****************************************************************************
* Copyright (C) 2016-2020 Maschell
* With code from chadderz and dimok
*
* 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 3 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/>.
****************************************************************************/
#ifndef _FUNCTION_HOOKS_H_
#define _FUNCTION_HOOKS_H_
#ifdef __cplusplus
extern "C" {
#endif
#include <coreinit/dynload.h>
/* Macros for libs */
#define LIB_CORE_INIT 0
#define LIB_NSYSNET 1
#define LIB_GX2 2
#define LIB_AOC 3
#define LIB_AX 4
#define LIB_FS 5
#define LIB_OS 6
#define LIB_PADSCORE 7
#define LIB_SOCKET 8
#define LIB_SYS 9
#define LIB_VPAD 10
#define LIB_NN_ACP 11
#define LIB_SYSHID 12
#define LIB_VPADBASE 13
#define LIB_AX_OLD 14
#define LIB_PROC_UI 15
#define LIB_NTAG 16
#define LIB_NFP 17
#define LIB_SAVE 18
#define LIB_ACT 19
#define LIB_NIM 20
// functions types
#define STATIC_FUNCTION 0
#define DYNAMIC_FUNCTION 1
//Orignal code by Chadderz.
#define DECL(res, name, ...) \
res (* real_ ## name)(__VA_ARGS__) __attribute__((section(".data"))); \
res my_ ## name(__VA_ARGS__)
#define FUNCTION_PATCHER_METHOD_STORE_SIZE 7
typedef struct {
const uint32_t replaceAddr;
const uint32_t replaceCall;
const uint32_t library;
const char functionName[50];
uint32_t realAddr;
uint32_t restoreInstruction;
uint8_t functionType;
uint8_t alreadyPatched;
} hooks_magic_t;
void PatchInvidualMethodHooks(hooks_magic_t hook_information[], int32_t hook_information_size, volatile uint32_t dynamic_method_calls[]);
void RestoreInvidualInstructions(hooks_magic_t hook_information[], int32_t hook_information_size);
uint32_t GetAddressOfFunction(const char *functionName, uint32_t library);
int32_t isDynamicFunction(uint32_t physicalAddress);
void resetLibs();
//Orignal code by Chadderz.
#define MAKE_MAGIC(x, lib, functionType) { (uint32_t) my_ ## x, (uint32_t) &real_ ## x, lib, # x,0,0,functionType,0}
#define MAKE_MAGIC_NAME(x, y, lib, functionType) { (uint32_t) my_ ## x, (uint32_t) &real_ ## x, lib, # y,0,0,functionType,0}
#ifdef __cplusplus
}
#endif
#endif /* _FS_H */

View File

@ -8,6 +8,7 @@ IMPORT(ICInvalidateRange);
IMPORT(OSGetSystemInfo);
IMPORT(MEMGetSizeForMBlockExpHeap);
IMPORT(OSSleepTicks);
IMPORT(OSEffectiveToPhysical);
IMPORT(OSFatal);
IMPORT_END();