#include #include #include #include #include #include #include #include #include "plugin/PluginDataFactory.h" #include "plugin/PluginContainerPersistence.h" #include "plugin/PluginInformationFactory.h" #include "plugin/PluginMetaInformationFactory.h" #include "plugin/FunctionData.h" #include "plugin/PluginContainer.h" #include "utils/logger.h" #include "utils/utils.h" #include "kernel/kernel_utils.h" #include "utils/ElfUtils.h" #include "common/relocation_defines.h" #include "common/plugin_defines.h" #include "common/plugin_defines.h" #include "common/module_defines.h" #include "hooks.h" #include "PluginManagement.h" #include "globals.h" #include int test(); std::vector loadPlugins(const std::vector &pluginList, MEMHeapHandle heapHandle); #define gModuleData ((module_information_t *) (0x00880000)) int main(int argc, char **argv) { test(); } int test() { WHBLogUdpInit(); bool initNeeded = false; if (pluginDataHeap == NULL) { kernelInitialize(); DEBUG_FUNCTION_LINE("Kernel init done"); DCFlushRange((void *) 0x00880000, sizeof(module_information_t)); uint32_t endAddress = 0; DEBUG_FUNCTION_LINE("Using %d modules", gModuleData->number_used_modules); for (int i = 0; i < gModuleData->number_used_modules; i++) { DEBUG_FUNCTION_LINE("%08x", gModuleData->module_data[i].endAddress); uint32_t curEndAddr = gModuleData->module_data[i].endAddress; if (curEndAddr > endAddress) { endAddress = curEndAddr; } } // If this address is 0, make sure the header common match the one // in the SetupPayload repo. (I know that's a bad idea) endAddress = (endAddress + 0x100) & 0xFFFFFF00; DEBUG_FUNCTION_LINE("endAddress: %08X", endAddress); DEBUG_FUNCTION_LINE("Create heap"); pluginDataHeap = MEMCreateExpHeapEx((void *) (endAddress), 0x00FFF000 - endAddress, 0); if (pluginDataHeap != NULL) { if (gPluginInformation == NULL) { gPluginInformation = (plugin_information_t *) MEMAllocFromExpHeapEx(pluginDataHeap, sizeof(plugin_information_t), 4); if (gPluginInformation == NULL) { DEBUG_FUNCTION_LINE("Failed to allocate global plugin information"); return 0; } memset((void *) gPluginInformation, 0, sizeof(plugin_information_t)); } DEBUG_FUNCTION_LINE("MEMGetAllocatableSizeForExpHeapEx %d kb", MEMGetAllocatableSizeForExpHeapEx(pluginDataHeap, 4) / 1024); std::vector pluginList = PluginDataFactory::loadDir("fs:/vol/external01/wiiu/plugins/", pluginDataHeap); DEBUG_FUNCTION_LINE("Loaded %d plugin data", pluginList.size()); std::vector plugins = PluginManagement::loadPlugins(pluginList, pluginDataHeap, gPluginInformation->trampolines, DYN_LINK_TRAMPOLIN_LIST_LENGTH); for (auto &pluginContainer : plugins) { for (const auto &kv : pluginContainer.getPluginInformation().getSectionInfoList()) { DEBUG_FUNCTION_LINE("%s = %s %08X %d", kv.first.c_str(), kv.second.getName().c_str(), kv.second.getAddress(), kv.second.getSize()); } if (!PluginContainerPersistence::savePlugin(gPluginInformation, pluginContainer)) { DEBUG_FUNCTION_LINE("Failed to save plugin"); } } initNeeded = true; } } if (pluginDataHeap != NULL) { std::vector plugins = PluginContainerPersistence::loadPlugins(gPluginInformation); PluginManagement::doRelocations(plugins, gPluginInformation->trampolines, DYN_LINK_TRAMPOLIN_LIST_LENGTH); PluginManagement::memsetBSS(plugins); DCFlushRange((void *) 0x00800000, 0x00800000); ICInvalidateRange((void *) 0x00800000, 0x00800000); if (initNeeded) { PluginManagement::callInitHooks(gPluginInformation); initNeeded = false; } PluginManagement::PatchFunctionsAndCallHooks(gPluginInformation); } return 0; }