#include "function_replacements.h" #include "memory_mapping.h" #include "version.h" #include #include #include #ifdef DEBUG #include "logger.h" #endif #define VERSION "v0.2.3" WUMS_MODULE_EXPORT_NAME("homebrew_memorymapping"); WUMS_MODULE_SKIP_INIT_FINI(); WUMS_MODULE_INIT_BEFORE_RELOCATION_DONE_HOOK(); WUMS_DEPENDS_ON(homebrew_kernel); WUMS_DEPENDS_ON(homebrew_functionpatcher); // We can't use the functions from libfunctionpatcher. Defined in functionpatcher.def extern "C" FunctionPatcherStatus FPAddFunctionPatch(function_replacement_data_t *function_data, PatchedFunctionHandle *outHandle, bool *outHasBeenPatched); WUMS_INITIALIZE(args) { static uint8_t ucSetupRequired = 1; if (!ucSetupRequired) { return; } ucSetupRequired = 0; MemoryMapping_setupMemoryMapping(); MemoryMapping_CreateHeaps(); /* We can not use FunctionPatcher_InitLibrary here because OSDynLoadAcquire is not patched yet. if (FunctionPatcher_InitLibrary() != FUNCTION_PATCHER_RESULT_SUCCESS) { OSFatal("homebrew_memorymapping: FunctionPatcher_InitLibrary failed"); }*/ for (uint32_t i = 0; i < function_replacements_size; i++) { bool wasPatched = false; // We don't need to save the handles because we never restore them anyway. if (FPAddFunctionPatch(&function_replacements[i], nullptr, &wasPatched) != FUNCTION_PATCHER_RESULT_SUCCESS || !wasPatched) { OSFatal("homebrew_memorymapping: Failed to patch function"); } } } WUMS_APPLICATION_STARTS() { OSReport("Running MemoryMappingModule " VERSION VERSION_EXTRA "\n"); #ifdef DEBUG initLogging(); #endif } #ifdef DEBUG WUMS_APPLICATION_REQUESTS_EXIT() { deinitLogging(); } #endif void MemoryMappingFree(void *ptr) { //DEBUG_FUNCTION_LINE("[%08X] free", ptr); MemoryMapping_free(ptr); } uint32_t MemoryMappingEffectiveToPhysical(uint32_t address) { return MemoryMapping_EffectiveToPhysical(address); } uint32_t MemoryMappingPhysicalToEffective(uint32_t address) { return MemoryMapping_PhysicalToEffective(address); } void *MemoryMappingAlloc(uint32_t size) { void *res = MemoryMapping_alloc(size, 0x04); //DEBUG_FUNCTION_LINE("[res: %08X] alloc %d ", res, size); return res; } void *MemoryMappingAllocEx(uint32_t size, int32_t align) { void *res = MemoryMapping_alloc(size, align); //DEBUG_FUNCTION_LINE("[res %08X] allocEX %d %d ", res, size, align); return res; } void *MemoryMappingAllocForGX2Ex(uint32_t size, int32_t align) { void *res = MemoryMapping_allocVideoMemory(size, align); //DEBUG_FUNCTION_LINE("[res %08X] allocEX %d %d ", res, size, align); return res; } uint32_t MEMAllocFromMappedMemory __attribute__((__section__(".data"))) = (uint32_t) MemoryMappingAlloc; uint32_t MEMAllocFromMappedMemoryEx __attribute__((__section__(".data"))) = (uint32_t) MemoryMappingAllocEx; uint32_t MEMAllocFromMappedMemoryForGX2Ex __attribute__((__section__(".data"))) = (uint32_t) MemoryMappingAllocForGX2Ex; uint32_t MEMFreeToMappedMemory __attribute__((__section__(".data"))) = (uint32_t) MemoryMappingFree; WUMS_EXPORT_FUNCTION(MemoryMappingEffectiveToPhysical); WUMS_EXPORT_FUNCTION(MemoryMappingPhysicalToEffective); WUMS_EXPORT_DATA(MEMAllocFromMappedMemory); WUMS_EXPORT_DATA(MEMAllocFromMappedMemoryEx); WUMS_EXPORT_DATA(MEMAllocFromMappedMemoryForGX2Ex); WUMS_EXPORT_DATA(MEMFreeToMappedMemory);