#include "stdafx.h" #include "Emu/System.h" #include "Emu/IdManager.h" #include "Emu/ARMv7/PSVFuncList.h" #include "Emu/ARMv7/PSVObjectList.h" #include "Emu/CPU/CPUThreadManager.h" #include "Emu/SysCalls/Callback.h" #include "Emu/ARMv7/ARMv7Thread.h" #include "sceLibKernel.h" #include "psv_sema.h" #include "psv_event_flag.h" #include "psv_mutex.h" #include "psv_cond.h" s32 sceKernelAllocMemBlock(vm::cptr name, s32 type, u32 vsize, vm::ptr pOpt) { throw EXCEPTION(""); } s32 sceKernelFreeMemBlock(s32 uid) { throw EXCEPTION(""); } s32 sceKernelGetMemBlockBase(s32 uid, vm::pptr ppBase) { throw EXCEPTION(""); } s32 sceKernelGetMemBlockInfoByAddr(vm::ptr vbase, vm::ptr pInfo) { throw EXCEPTION(""); } s32 sceKernelCreateThread( vm::cptr pName, vm::ptr entry, s32 initPriority, u32 stackSize, u32 attr, s32 cpuAffinityMask, vm::cptr pOptParam) { sceLibKernel.Warning("sceKernelCreateThread(pName=*0x%x, entry=*0x%x, initPriority=%d, stackSize=0x%x, attr=0x%x, cpuAffinityMask=0x%x, pOptParam=*0x%x)", pName, entry, initPriority, stackSize, attr, cpuAffinityMask, pOptParam); auto armv7 = Emu.GetIdManager().make_ptr(pName.get_ptr()); armv7->PC = entry.addr(); armv7->prio = initPriority; armv7->stack_size = stackSize; armv7->Run(); return armv7->GetId(); } s32 sceKernelStartThread(s32 threadId, u32 argSize, vm::cptr pArgBlock) { sceLibKernel.Warning("sceKernelStartThread(threadId=0x%x, argSize=0x%x, pArgBlock=*0x%x)", threadId, argSize, pArgBlock); const auto thread = Emu.GetIdManager().get(threadId); if (!thread) { return SCE_KERNEL_ERROR_INVALID_UID; } // thread should be in DORMANT state, but it's not possible to check it correctly atm //if (thread->IsAlive()) //{ // return SCE_KERNEL_ERROR_NOT_DORMANT; //} // push arg block onto the stack const u32 pos = (thread->SP -= argSize); memcpy(vm::get_ptr(pos), pArgBlock.get_ptr(), argSize); // set SceKernelThreadEntry function arguments thread->GPR[0] = argSize; thread->GPR[1] = pos; thread->Exec(); return SCE_OK; } s32 sceKernelExitThread(ARMv7Context& context, s32 exitStatus) { sceLibKernel.Warning("sceKernelExitThread(exitStatus=0x%x)", exitStatus); // exit status is stored in r0 static_cast(context).Exit(); return SCE_OK; } s32 sceKernelDeleteThread(s32 threadId) { sceLibKernel.Warning("sceKernelDeleteThread(threadId=0x%x)", threadId); const auto thread = Emu.GetIdManager().get(threadId); if (!thread) { return SCE_KERNEL_ERROR_INVALID_UID; } // thread should be in DORMANT state, but it's not possible to check it correctly atm //if (thread->IsAlive()) //{ // return SCE_KERNEL_ERROR_NOT_DORMANT; //} Emu.GetIdManager().remove(threadId); return SCE_OK; } s32 sceKernelExitDeleteThread(ARMv7Context& context, s32 exitStatus) { sceLibKernel.Warning("sceKernelExitDeleteThread(exitStatus=0x%x)", exitStatus); // exit status is stored in r0 static_cast(context).Stop(); // current thread should be deleted const u32 id = static_cast(context).GetId(); CallAfter([id]() { Emu.GetIdManager().remove(id); }); return SCE_OK; } s32 sceKernelChangeThreadCpuAffinityMask(s32 threadId, s32 cpuAffinityMask) { sceLibKernel.Todo("sceKernelChangeThreadCpuAffinityMask(threadId=0x%x, cpuAffinityMask=0x%x)", threadId, cpuAffinityMask); throw EXCEPTION(""); } s32 sceKernelGetThreadCpuAffinityMask(s32 threadId) { sceLibKernel.Todo("sceKernelGetThreadCpuAffinityMask(threadId=0x%x)", threadId); throw EXCEPTION(""); } s32 sceKernelChangeThreadPriority(s32 threadId, s32 priority) { sceLibKernel.Todo("sceKernelChangeThreadPriority(threadId=0x%x, priority=%d)", threadId, priority); throw EXCEPTION(""); } s32 sceKernelGetThreadCurrentPriority() { sceLibKernel.Todo("sceKernelGetThreadCurrentPriority()"); throw EXCEPTION(""); } u32 sceKernelGetThreadId(ARMv7Context& context) { sceLibKernel.Log("sceKernelGetThreadId()"); return static_cast(context).GetId(); } s32 sceKernelChangeCurrentThreadAttr(u32 clearAttr, u32 setAttr) { sceLibKernel.Todo("sceKernelChangeCurrentThreadAttr()"); throw EXCEPTION(""); } s32 sceKernelGetThreadExitStatus(s32 threadId, vm::ptr pExitStatus) { sceLibKernel.Todo("sceKernelGetThreadExitStatus(threadId=0x%x, pExitStatus=*0x%x)", threadId, pExitStatus); throw EXCEPTION(""); } s32 sceKernelGetProcessId() { sceLibKernel.Todo("sceKernelGetProcessId()"); throw EXCEPTION(""); } s32 sceKernelCheckWaitableStatus() { sceLibKernel.Todo("sceKernelCheckWaitableStatus()"); throw EXCEPTION(""); } s32 sceKernelGetThreadInfo(s32 threadId, vm::ptr pInfo) { sceLibKernel.Todo("sceKernelGetThreadInfo(threadId=0x%x, pInfo=*0x%x)", threadId, pInfo); throw EXCEPTION(""); } s32 sceKernelGetThreadRunStatus(vm::ptr pStatus) { sceLibKernel.Todo("sceKernelGetThreadRunStatus(pStatus=*0x%x)", pStatus); throw EXCEPTION(""); } s32 sceKernelGetSystemInfo(vm::ptr pInfo) { sceLibKernel.Todo("sceKernelGetSystemInfo(pInfo=*0x%x)", pInfo); throw EXCEPTION(""); } s32 sceKernelGetThreadmgrUIDClass(s32 uid) { sceLibKernel.Todo("sceKernelGetThreadmgrUIDClass(uid=0x%x)", uid); throw EXCEPTION(""); } s32 sceKernelChangeThreadVfpException(s32 clearMask, s32 setMask) { sceLibKernel.Todo("sceKernelChangeThreadVfpException(clearMask=0x%x, setMask=0x%x)", clearMask, setMask); throw EXCEPTION(""); } s32 sceKernelGetCurrentThreadVfpException() { sceLibKernel.Todo("sceKernelGetCurrentThreadVfpException()"); throw EXCEPTION(""); } s32 sceKernelDelayThread(u32 usec) { sceLibKernel.Todo("sceKernelDelayThread()"); throw EXCEPTION(""); } s32 sceKernelDelayThreadCB(u32 usec) { sceLibKernel.Todo("sceKernelDelayThreadCB()"); throw EXCEPTION(""); } s32 sceKernelWaitThreadEnd(s32 threadId, vm::ptr pExitStatus, vm::ptr pTimeout) { sceLibKernel.Warning("sceKernelWaitThreadEnd(threadId=0x%x, pExitStatus=*0x%x, pTimeout=*0x%x)", threadId, pExitStatus, pTimeout); const auto thread = Emu.GetIdManager().get(threadId); if (!thread) { return SCE_KERNEL_ERROR_INVALID_UID; } if (pTimeout) { } while (thread->IsActive()) { CHECK_EMU_STATUS; std::this_thread::sleep_for(std::chrono::milliseconds(1)); // hack } if (pExitStatus) { *pExitStatus = thread->GPR[0]; } return SCE_OK; } s32 sceKernelWaitThreadEndCB(s32 threadId, vm::ptr pExitStatus, vm::ptr pTimeout) { sceLibKernel.Todo("sceKernelWaitThreadEndCB(threadId=0x%x, pExitStatus=*0x%x, pTimeout=*0x%x)", threadId, pExitStatus, pTimeout); throw EXCEPTION(""); } // Callback functions s32 sceKernelCreateCallback(vm::cptr pName, u32 attr, vm::ptr callbackFunc, vm::ptr pCommon) { throw EXCEPTION(""); } s32 sceKernelDeleteCallback(s32 callbackId) { throw EXCEPTION(""); } s32 sceKernelNotifyCallback(s32 callbackId, s32 notifyArg) { throw EXCEPTION(""); } s32 sceKernelCancelCallback(s32 callbackId) { throw EXCEPTION(""); } s32 sceKernelGetCallbackCount(s32 callbackId) { throw EXCEPTION(""); } s32 sceKernelCheckCallback() { throw EXCEPTION(""); } s32 sceKernelGetCallbackInfo(s32 callbackId, vm::ptr pInfo) { throw EXCEPTION(""); } s32 sceKernelRegisterCallbackToEvent(s32 eventId, s32 callbackId) { throw EXCEPTION(""); } s32 sceKernelUnregisterCallbackFromEvent(s32 eventId, s32 callbackId) { throw EXCEPTION(""); } s32 sceKernelUnregisterCallbackFromEventAll(s32 eventId) { throw EXCEPTION(""); } // Event functions s32 sceKernelWaitEvent(s32 eventId, u32 waitPattern, vm::ptr pResultPattern, vm::ptr pUserData, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelWaitEventCB(s32 eventId, u32 waitPattern, vm::ptr pResultPattern, vm::ptr pUserData, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelPollEvent(s32 eventId, u32 bitPattern, vm::ptr pResultPattern, vm::ptr pUserData) { throw EXCEPTION(""); } s32 sceKernelCancelEvent(s32 eventId, vm::ptr pNumWaitThreads) { throw EXCEPTION(""); } s32 sceKernelGetEventInfo(s32 eventId, vm::ptr pInfo) { throw EXCEPTION(""); } s32 sceKernelWaitMultipleEvents(vm::ptr pWaitEventList, s32 numEvents, u32 waitMode, vm::ptr pResultEventList, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelWaitMultipleEventsCB(vm::ptr pWaitEventList, s32 numEvents, u32 waitMode, vm::ptr pResultEventList, vm::ptr pTimeout) { throw EXCEPTION(""); } // Event flag functions s32 sceKernelCreateEventFlag(vm::cptr pName, u32 attr, u32 initPattern, vm::cptr pOptParam) { sceLibKernel.Error("sceKernelCreateEventFlag(pName=*0x%x, attr=0x%x, initPattern=0x%x, pOptParam=*0x%x)", pName, attr, initPattern, pOptParam); if (s32 id = g_psv_ef_list.create(pName.get_ptr(), attr, initPattern)) { return id; } return SCE_KERNEL_ERROR_ERROR; } s32 sceKernelDeleteEventFlag(s32 evfId) { throw EXCEPTION(""); } s32 sceKernelOpenEventFlag(vm::cptr pName) { throw EXCEPTION(""); } s32 sceKernelCloseEventFlag(s32 evfId) { throw EXCEPTION(""); } s32 sceKernelWaitEventFlag(s32 evfId, u32 bitPattern, u32 waitMode, vm::ptr pResultPat, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelWaitEventFlagCB(s32 evfId, u32 bitPattern, u32 waitMode, vm::ptr pResultPat, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelPollEventFlag(s32 evfId, u32 bitPattern, u32 waitMode, vm::ptr pResultPat) { throw EXCEPTION(""); } s32 sceKernelSetEventFlag(s32 evfId, u32 bitPattern) { throw EXCEPTION(""); } s32 sceKernelClearEventFlag(s32 evfId, u32 bitPattern) { throw EXCEPTION(""); } s32 sceKernelCancelEventFlag(s32 evfId, u32 setPattern, vm::ptr pNumWaitThreads) { throw EXCEPTION(""); } s32 sceKernelGetEventFlagInfo(s32 evfId, vm::ptr pInfo) { throw EXCEPTION(""); } // Semaphore functions s32 sceKernelCreateSema(vm::cptr pName, u32 attr, s32 initCount, s32 maxCount, vm::cptr pOptParam) { sceLibKernel.Error("sceKernelCreateSema(pName=*0x%x, attr=0x%x, initCount=%d, maxCount=%d, pOptParam=*0x%x)", pName, attr, initCount, maxCount, pOptParam); if (s32 id = g_psv_sema_list.create(pName.get_ptr(), attr, initCount, maxCount)) { return id; } return SCE_KERNEL_ERROR_ERROR; } s32 sceKernelDeleteSema(s32 semaId) { sceLibKernel.Error("sceKernelDeleteSema(semaId=0x%x)", semaId); const auto sema = g_psv_sema_list.get(semaId); if (!sema) { return SCE_KERNEL_ERROR_INVALID_UID; } if (!g_psv_sema_list.remove(semaId)) { return SCE_KERNEL_ERROR_INVALID_UID; } return SCE_OK; } s32 sceKernelOpenSema(vm::cptr pName) { throw EXCEPTION(""); } s32 sceKernelCloseSema(s32 semaId) { throw EXCEPTION(""); } s32 sceKernelWaitSema(s32 semaId, s32 needCount, vm::ptr pTimeout) { sceLibKernel.Error("sceKernelWaitSema(semaId=0x%x, needCount=%d, pTimeout=*0x%x)", semaId, needCount, pTimeout); const auto sema = g_psv_sema_list.get(semaId); if (!sema) { return SCE_KERNEL_ERROR_INVALID_UID; } sceLibKernel.Error("*** name = %s", sema->name); Emu.Pause(); return SCE_OK; } s32 sceKernelWaitSemaCB(s32 semaId, s32 needCount, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelPollSema(s32 semaId, s32 needCount) { throw EXCEPTION(""); } s32 sceKernelSignalSema(s32 semaId, s32 signalCount) { throw EXCEPTION(""); } s32 sceKernelCancelSema(s32 semaId, s32 setCount, vm::ptr pNumWaitThreads) { throw EXCEPTION(""); } s32 sceKernelGetSemaInfo(s32 semaId, vm::ptr pInfo) { throw EXCEPTION(""); } // Mutex functions s32 sceKernelCreateMutex(vm::cptr pName, u32 attr, s32 initCount, vm::cptr pOptParam) { sceLibKernel.Error("sceKernelCreateMutex(pName=*0x%x, attr=0x%x, initCount=%d, pOptParam=*0x%x)", pName, attr, initCount, pOptParam); if (s32 id = g_psv_mutex_list.create(pName.get_ptr(), attr, initCount)) { return id; } return SCE_KERNEL_ERROR_ERROR; } s32 sceKernelDeleteMutex(s32 mutexId) { throw EXCEPTION(""); } s32 sceKernelOpenMutex(vm::cptr pName) { throw EXCEPTION(""); } s32 sceKernelCloseMutex(s32 mutexId) { throw EXCEPTION(""); } s32 sceKernelLockMutex(s32 mutexId, s32 lockCount, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelLockMutexCB(s32 mutexId, s32 lockCount, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelTryLockMutex(s32 mutexId, s32 lockCount) { throw EXCEPTION(""); } s32 sceKernelUnlockMutex(s32 mutexId, s32 unlockCount) { throw EXCEPTION(""); } s32 sceKernelCancelMutex(s32 mutexId, s32 newCount, vm::ptr pNumWaitThreads) { throw EXCEPTION(""); } s32 sceKernelGetMutexInfo(s32 mutexId, vm::ptr pInfo) { throw EXCEPTION(""); } // Lightweight mutex functions s32 sceKernelCreateLwMutex(vm::ptr pWork, vm::cptr pName, u32 attr, s32 initCount, vm::cptr pOptParam) { throw EXCEPTION(""); } s32 sceKernelDeleteLwMutex(vm::ptr pWork) { throw EXCEPTION(""); } s32 sceKernelLockLwMutex(vm::ptr pWork, s32 lockCount, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelLockLwMutexCB(vm::ptr pWork, s32 lockCount, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelTryLockLwMutex(vm::ptr pWork, s32 lockCount) { throw EXCEPTION(""); } s32 sceKernelUnlockLwMutex(vm::ptr pWork, s32 unlockCount) { throw EXCEPTION(""); } s32 sceKernelGetLwMutexInfo(vm::ptr pWork, vm::ptr pInfo) { throw EXCEPTION(""); } s32 sceKernelGetLwMutexInfoById(s32 lwMutexId, vm::ptr pInfo) { throw EXCEPTION(""); } // Condition variable functions s32 sceKernelCreateCond(vm::cptr pName, u32 attr, s32 mutexId, vm::cptr pOptParam) { sceLibKernel.Error("sceKernelCreateCond(pName=*0x%x, attr=0x%x, mutexId=0x%x, pOptParam=*0x%x)", pName, attr, mutexId, pOptParam); if (s32 id = g_psv_cond_list.create(pName.get_ptr(), attr, mutexId)) { return id; } return SCE_KERNEL_ERROR_ERROR; } s32 sceKernelDeleteCond(s32 condId) { throw EXCEPTION(""); } s32 sceKernelOpenCond(vm::cptr pName) { throw EXCEPTION(""); } s32 sceKernelCloseCond(s32 condId) { throw EXCEPTION(""); } s32 sceKernelWaitCond(s32 condId, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelWaitCondCB(s32 condId, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelSignalCond(s32 condId) { throw EXCEPTION(""); } s32 sceKernelSignalCondAll(s32 condId) { throw EXCEPTION(""); } s32 sceKernelSignalCondTo(s32 condId, s32 threadId) { throw EXCEPTION(""); } s32 sceKernelGetCondInfo(s32 condId, vm::ptr pInfo) { throw EXCEPTION(""); } // Lightweight condition variable functions s32 sceKernelCreateLwCond(vm::ptr pWork, vm::cptr pName, u32 attr, vm::ptr pLwMutex, vm::cptr pOptParam) { throw EXCEPTION(""); } s32 sceKernelDeleteLwCond(vm::ptr pWork) { throw EXCEPTION(""); } s32 sceKernelWaitLwCond(vm::ptr pWork, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelWaitLwCondCB(vm::ptr pWork, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelSignalLwCond(vm::ptr pWork) { throw EXCEPTION(""); } s32 sceKernelSignalLwCondAll(vm::ptr pWork) { throw EXCEPTION(""); } s32 sceKernelSignalLwCondTo(vm::ptr pWork, s32 threadId) { throw EXCEPTION(""); } s32 sceKernelGetLwCondInfo(vm::ptr pWork, vm::ptr pInfo) { throw EXCEPTION(""); } s32 sceKernelGetLwCondInfoById(s32 lwCondId, vm::ptr pInfo) { throw EXCEPTION(""); } // Time functions s32 sceKernelGetSystemTime(vm::ptr pClock) { throw EXCEPTION(""); } u64 sceKernelGetSystemTimeWide() { throw EXCEPTION(""); } u32 sceKernelGetSystemTimeLow() { throw EXCEPTION(""); } // Timer functions s32 sceKernelCreateTimer(vm::cptr pName, u32 attr, vm::cptr pOptParam) { throw EXCEPTION(""); } s32 sceKernelDeleteTimer(s32 timerId) { throw EXCEPTION(""); } s32 sceKernelOpenTimer(vm::cptr pName) { throw EXCEPTION(""); } s32 sceKernelCloseTimer(s32 timerId) { throw EXCEPTION(""); } s32 sceKernelStartTimer(s32 timerId) { throw EXCEPTION(""); } s32 sceKernelStopTimer(s32 timerId) { throw EXCEPTION(""); } s32 sceKernelGetTimerBase(s32 timerId, vm::ptr pBase) { throw EXCEPTION(""); } u64 sceKernelGetTimerBaseWide(s32 timerId) { throw EXCEPTION(""); } s32 sceKernelGetTimerTime(s32 timerId, vm::ptr pClock) { throw EXCEPTION(""); } u64 sceKernelGetTimerTimeWide(s32 timerId) { throw EXCEPTION(""); } s32 sceKernelSetTimerTime(s32 timerId, vm::ptr pClock) { throw EXCEPTION(""); } u64 sceKernelSetTimerTimeWide(s32 timerId, u64 clock) { throw EXCEPTION(""); } s32 sceKernelSetTimerEvent(s32 timerId, s32 type, vm::ptr pInterval, s32 fRepeat) { throw EXCEPTION(""); } s32 sceKernelCancelTimer(s32 timerId, vm::ptr pNumWaitThreads) { throw EXCEPTION(""); } s32 sceKernelGetTimerInfo(s32 timerId, vm::ptr pInfo) { throw EXCEPTION(""); } // Reader/writer lock functions s32 sceKernelCreateRWLock(vm::cptr pName, u32 attr, vm::cptr pOptParam) { throw EXCEPTION(""); } s32 sceKernelDeleteRWLock(s32 rwLockId) { throw EXCEPTION(""); } s32 sceKernelOpenRWLock(vm::cptr pName) { throw EXCEPTION(""); } s32 sceKernelCloseRWLock(s32 rwLockId) { throw EXCEPTION(""); } s32 sceKernelLockReadRWLock(s32 rwLockId, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelLockReadRWLockCB(s32 rwLockId, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelTryLockReadRWLock(s32 rwLockId) { throw EXCEPTION(""); } s32 sceKernelUnlockReadRWLock(s32 rwLockId) { throw EXCEPTION(""); } s32 sceKernelLockWriteRWLock(s32 rwLockId, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelLockWriteRWLockCB(s32 rwLockId, vm::ptr pTimeout) { throw EXCEPTION(""); } s32 sceKernelTryLockWriteRWLock(s32 rwLockId) { throw EXCEPTION(""); } s32 sceKernelUnlockWriteRWLock(s32 rwLockId) { throw EXCEPTION(""); } s32 sceKernelCancelRWLock(s32 rwLockId, vm::ptr pNumReadWaitThreads, vm::ptr pNumWriteWaitThreads, s32 flag) { throw EXCEPTION(""); } s32 sceKernelGetRWLockInfo(s32 rwLockId, vm::ptr pInfo) { throw EXCEPTION(""); } // IO/File functions s32 sceIoRemove(vm::cptr filename) { throw EXCEPTION(""); } s32 sceIoMkdir(vm::cptr dirname, s32 mode) { throw EXCEPTION(""); } s32 sceIoRmdir(vm::cptr dirname) { throw EXCEPTION(""); } s32 sceIoRename(vm::cptr oldname, vm::cptr newname) { throw EXCEPTION(""); } s32 sceIoDevctl(vm::cptr devname, s32 cmd, vm::cptr arg, u32 arglen, vm::ptr bufp, u32 buflen) { throw EXCEPTION(""); } s32 sceIoSync(vm::cptr devname, s32 flag) { throw EXCEPTION(""); } s32 sceIoOpen(vm::cptr filename, s32 flag, s32 mode) { throw EXCEPTION(""); } s32 sceIoClose(s32 fd) { throw EXCEPTION(""); } s32 sceIoIoctl(s32 fd, s32 cmd, vm::cptr argp, u32 arglen, vm::ptr bufp, u32 buflen) { throw EXCEPTION(""); } s64 sceIoLseek(s32 fd, s64 offset, s32 whence) { throw EXCEPTION(""); } s32 sceIoLseek32(s32 fd, s32 offset, s32 whence) { throw EXCEPTION(""); } s32 sceIoRead(s32 fd, vm::ptr buf, u32 nbyte) { throw EXCEPTION(""); } s32 sceIoWrite(s32 fd, vm::cptr buf, u32 nbyte) { throw EXCEPTION(""); } s32 sceIoPread(s32 fd, vm::ptr buf, u32 nbyte, s64 offset) { throw EXCEPTION(""); } s32 sceIoPwrite(s32 fd, vm::cptr buf, u32 nbyte, s64 offset) { throw EXCEPTION(""); } s32 sceIoDopen(vm::cptr dirname) { throw EXCEPTION(""); } s32 sceIoDclose(s32 fd) { throw EXCEPTION(""); } s32 sceIoDread(s32 fd, vm::ptr buf) { throw EXCEPTION(""); } s32 sceIoChstat(vm::cptr name, vm::cptr buf, u32 cbit) { throw EXCEPTION(""); } s32 sceIoGetstat(vm::cptr name, vm::ptr buf) { throw EXCEPTION(""); } #define REG_FUNC(nid, name) reg_psv_func(nid, &sceLibKernel, #name, name) psv_log_base sceLibKernel("sceLibKernel", []() { sceLibKernel.on_load = nullptr; sceLibKernel.on_unload = nullptr; sceLibKernel.on_stop = nullptr; //sceLibKernel.on_error = nullptr; // keep default error handler // REG_FUNC(???, sceKernelGetEventInfo); //REG_FUNC(0x023EAA62, sceKernelPuts); //REG_FUNC(0xB0335388, sceClibToupper); //REG_FUNC(0x4C5471BC, sceClibTolower); //REG_FUNC(0xD8EBBB7E, sceClibLookCtypeTable); //REG_FUNC(0x20EC3210, sceClibGetCtypeTable); //REG_FUNC(0x407D6153, sceClibMemchr); //REG_FUNC(0x9CC2BFDF, sceClibMemcmp); //REG_FUNC(0x14E9DBD7, sceClibMemcpy); //REG_FUNC(0x736753C8, sceClibMemmove); //REG_FUNC(0x632980D7, sceClibMemset); //REG_FUNC(0xFA26BC62, sceClibPrintf); //REG_FUNC(0x5EA3B6CE, sceClibVprintf); //REG_FUNC(0x8CBA03D5, sceClibSnprintf); //REG_FUNC(0xFA6BE467, sceClibVsnprintf); //REG_FUNC(0xA2FB4D9D, sceClibStrcmp); //REG_FUNC(0x70CBC2D5, sceClibStrlcat); //REG_FUNC(0x2CDFCD1C, sceClibStrlcpy); //REG_FUNC(0xA37E6383, sceClibStrncat); //REG_FUNC(0x660D1F6D, sceClibStrncmp); //REG_FUNC(0xC458D60A, sceClibStrncpy); //REG_FUNC(0xAC595E68, sceClibStrnlen); //REG_FUNC(0x614076B7, sceClibStrchr); //REG_FUNC(0x6E728AAE, sceClibStrrchr); //REG_FUNC(0xE265498B, sceClibStrstr); //REG_FUNC(0xB54C0BE4, sceClibStrncasecmp); //REG_FUNC(0x2F2C6046, sceClibAbort); //REG_FUNC(0x2E581B88, sceClibStrtoll); //REG_FUNC(0x3B9E301A, sceClibMspaceCreate); //REG_FUNC(0xAE1A21EC, sceClibMspaceDestroy); //REG_FUNC(0x86EF7680, sceClibMspaceMalloc); //REG_FUNC(0x9C56B4D1, sceClibMspaceFree); //REG_FUNC(0x678374AD, sceClibMspaceCalloc); //REG_FUNC(0x3C847D57, sceClibMspaceMemalign); //REG_FUNC(0x774891D6, sceClibMspaceRealloc); //REG_FUNC(0x586AC68D, sceClibMspaceReallocalign); //REG_FUNC(0x46A02279, sceClibMspaceMallocUsableSize); //REG_FUNC(0x8CC1D38E, sceClibMspaceMallocStats); //REG_FUNC(0x738E0322, sceClibMspaceMallocStatsFast); //REG_FUNC(0xD1D59701, sceClibMspaceIsHeapEmpty); //REG_FUNC(0xE960FDA2, sceKernelAtomicSet8); //REG_FUNC(0x450BFECF, sceKernelAtomicSet16); //REG_FUNC(0xB69DA09B, sceKernelAtomicSet32); //REG_FUNC(0xC8A4339C, sceKernelAtomicSet64); //REG_FUNC(0x27A2AAFA, sceKernelAtomicGetAndAdd8); //REG_FUNC(0x5674DB0C, sceKernelAtomicGetAndAdd16); //REG_FUNC(0x2611CB0B, sceKernelAtomicGetAndAdd32); //REG_FUNC(0x63DAF37D, sceKernelAtomicGetAndAdd64); //REG_FUNC(0x8F7BD940, sceKernelAtomicAddAndGet8); //REG_FUNC(0x495C52EC, sceKernelAtomicAddAndGet16); //REG_FUNC(0x2E84A93B, sceKernelAtomicAddAndGet32); //REG_FUNC(0xB6CE9B9A, sceKernelAtomicAddAndGet64); //REG_FUNC(0xCDF5DF67, sceKernelAtomicGetAndSub8); //REG_FUNC(0xAC51979C, sceKernelAtomicGetAndSub16); //REG_FUNC(0x115C516F, sceKernelAtomicGetAndSub32); //REG_FUNC(0x4AE9C8E6, sceKernelAtomicGetAndSub64); //REG_FUNC(0x99E1796E, sceKernelAtomicSubAndGet8); //REG_FUNC(0xC26BBBB1, sceKernelAtomicSubAndGet16); //REG_FUNC(0x01C9CD92, sceKernelAtomicSubAndGet32); //REG_FUNC(0x9BB4A94B, sceKernelAtomicSubAndGet64); //REG_FUNC(0x53DCA02B, sceKernelAtomicGetAndAnd8); //REG_FUNC(0x7A0CB056, sceKernelAtomicGetAndAnd16); //REG_FUNC(0x08266595, sceKernelAtomicGetAndAnd32); //REG_FUNC(0x4828BC43, sceKernelAtomicGetAndAnd64); //REG_FUNC(0x86B9170F, sceKernelAtomicAndAndGet8); //REG_FUNC(0xF9890F7E, sceKernelAtomicAndAndGet16); //REG_FUNC(0x6709D30C, sceKernelAtomicAndAndGet32); //REG_FUNC(0xAED2B370, sceKernelAtomicAndAndGet64); //REG_FUNC(0x107A68DF, sceKernelAtomicGetAndOr8); //REG_FUNC(0x31E49E73, sceKernelAtomicGetAndOr16); //REG_FUNC(0x984AD276, sceKernelAtomicGetAndOr32); //REG_FUNC(0xC39186CD, sceKernelAtomicGetAndOr64); //REG_FUNC(0x51693931, sceKernelAtomicOrAndGet8); //REG_FUNC(0x8E248EBD, sceKernelAtomicOrAndGet16); //REG_FUNC(0xC3B2F7F8, sceKernelAtomicOrAndGet32); //REG_FUNC(0x809BBC7D, sceKernelAtomicOrAndGet64); //REG_FUNC(0x7350B2DF, sceKernelAtomicGetAndXor8); //REG_FUNC(0x6E2D0B9E, sceKernelAtomicGetAndXor16); //REG_FUNC(0x38739E2F, sceKernelAtomicGetAndXor32); //REG_FUNC(0x6A19BBE9, sceKernelAtomicGetAndXor64); //REG_FUNC(0x634AF062, sceKernelAtomicXorAndGet8); //REG_FUNC(0x6F524195, sceKernelAtomicXorAndGet16); //REG_FUNC(0x46940704, sceKernelAtomicXorAndGet32); //REG_FUNC(0xDDC6866E, sceKernelAtomicXorAndGet64); //REG_FUNC(0x327DB4C0, sceKernelAtomicCompareAndSet8); //REG_FUNC(0xE8C01236, sceKernelAtomicCompareAndSet16); //REG_FUNC(0x1124A1D4, sceKernelAtomicCompareAndSet32); //REG_FUNC(0x1EBDFCCD, sceKernelAtomicCompareAndSet64); //REG_FUNC(0xD7D49E36, sceKernelAtomicClearMask8); //REG_FUNC(0x5FE7DFF8, sceKernelAtomicClearMask16); //REG_FUNC(0xE3DF0CB3, sceKernelAtomicClearMask32); //REG_FUNC(0x953D118A, sceKernelAtomicClearMask64); //REG_FUNC(0x7FD94393, sceKernelAtomicAddUnless8); //REG_FUNC(0x1CF4AA4B, sceKernelAtomicAddUnless16); //REG_FUNC(0x4B33FD3C, sceKernelAtomicAddUnless32); //REG_FUNC(0xFFCE7438, sceKernelAtomicAddUnless64); //REG_FUNC(0x9DABE6C3, sceKernelAtomicDecIfPositive8); //REG_FUNC(0x323718FB, sceKernelAtomicDecIfPositive16); //REG_FUNC(0xCA3294F1, sceKernelAtomicDecIfPositive32); //REG_FUNC(0x8BE2A007, sceKernelAtomicDecIfPositive64); //REG_FUNC(0xBBE82155, sceKernelLoadModule); //REG_FUNC(0x2DCC4AFA, sceKernelLoadStartModule); //REG_FUNC(0x702425D5, sceKernelStartModule); //REG_FUNC(0x3B2CBA09, sceKernelStopModule); //REG_FUNC(0x1987920E, sceKernelUnloadModule); //REG_FUNC(0x2415F8A4, sceKernelStopUnloadModule); //REG_FUNC(0x15E2A45D, sceKernelCallModuleExit); //REG_FUNC(0xD11A5103, sceKernelGetModuleInfoByAddr); //REG_FUNC(0x4F2D8B15, sceKernelOpenModule); //REG_FUNC(0x657FA50E, sceKernelCloseModule); //REG_FUNC(0x7595D9AA, sceKernelExitProcess); //REG_FUNC(0x4C7AD128, sceKernelPowerLock); //REG_FUNC(0xAF8E9C11, sceKernelPowerUnlock); //REG_FUNC(0xB295EB61, sceKernelGetTLSAddr); REG_FUNC(0x0FB972F9, sceKernelGetThreadId); REG_FUNC(0xA37A6057, sceKernelGetCurrentThreadVfpException); //REG_FUNC(0x0CA71EA2, sceKernelSendMsgPipe); //REG_FUNC(0xA5CA74AC, sceKernelSendMsgPipeCB); //REG_FUNC(0xDFC670E0, sceKernelTrySendMsgPipe); //REG_FUNC(0x4E81DD5C, sceKernelReceiveMsgPipe); //REG_FUNC(0x33AF829B, sceKernelReceiveMsgPipeCB); //REG_FUNC(0x5615B006, sceKernelTryReceiveMsgPipe); REG_FUNC(0xA7819967, sceKernelLockLwMutex); REG_FUNC(0x6F9C4CC1, sceKernelLockLwMutexCB); REG_FUNC(0x9EF798C1, sceKernelTryLockLwMutex); REG_FUNC(0x499EA781, sceKernelUnlockLwMutex); REG_FUNC(0xF7D8F1FC, sceKernelGetLwMutexInfo); REG_FUNC(0xDDB395A9, sceKernelWaitThreadEnd); REG_FUNC(0xC54941ED, sceKernelWaitThreadEndCB); REG_FUNC(0xD5DC26C4, sceKernelGetThreadExitStatus); //REG_FUNC(0x4373B548, __sce_aeabi_idiv0); //REG_FUNC(0xFB235848, __sce_aeabi_ldiv0); REG_FUNC(0xF08DE149, sceKernelStartThread); REG_FUNC(0x58DDAC4F, sceKernelDeleteThread); REG_FUNC(0x5150577B, sceKernelChangeThreadCpuAffinityMask); REG_FUNC(0x8C57AC2A, sceKernelGetThreadCpuAffinityMask); REG_FUNC(0xDF7E6EDA, sceKernelChangeThreadPriority); //REG_FUNC(0xBCB63B66, sceKernelGetThreadStackFreeSize); REG_FUNC(0x8D9C5461, sceKernelGetThreadInfo); REG_FUNC(0xD6B01013, sceKernelGetThreadRunStatus); REG_FUNC(0xE0241FAA, sceKernelGetSystemInfo); REG_FUNC(0xF994FE65, sceKernelGetThreadmgrUIDClass); //REG_FUNC(0xB4DE10C7, sceKernelGetActiveCpuMask); REG_FUNC(0x2C1321A3, sceKernelChangeThreadVfpException); REG_FUNC(0x3849359A, sceKernelCreateCallback); REG_FUNC(0x88DD1BC8, sceKernelGetCallbackInfo); REG_FUNC(0x464559D3, sceKernelDeleteCallback); REG_FUNC(0xBD9C8F2B, sceKernelNotifyCallback); REG_FUNC(0x3137A687, sceKernelCancelCallback); REG_FUNC(0x76A2EF81, sceKernelGetCallbackCount); REG_FUNC(0xD4F75281, sceKernelRegisterCallbackToEvent); REG_FUNC(0x8D3940DF, sceKernelUnregisterCallbackFromEvent); REG_FUNC(0x2BD1E682, sceKernelUnregisterCallbackFromEventAll); REG_FUNC(0x120F03AF, sceKernelWaitEvent); REG_FUNC(0xA0490795, sceKernelWaitEventCB); REG_FUNC(0x241F3634, sceKernelPollEvent); REG_FUNC(0x603AB770, sceKernelCancelEvent); REG_FUNC(0x10586418, sceKernelWaitMultipleEvents); REG_FUNC(0x4263DBC9, sceKernelWaitMultipleEventsCB); REG_FUNC(0x8516D040, sceKernelCreateEventFlag); REG_FUNC(0x11FE9B8B, sceKernelDeleteEventFlag); REG_FUNC(0xE04EC73A, sceKernelOpenEventFlag); REG_FUNC(0x9C0B8285, sceKernelCloseEventFlag); REG_FUNC(0x83C0E2AF, sceKernelWaitEventFlag); REG_FUNC(0xE737B1DF, sceKernelWaitEventFlagCB); REG_FUNC(0x1FBB0FE1, sceKernelPollEventFlag); REG_FUNC(0x2A12D9B7, sceKernelCancelEventFlag); REG_FUNC(0x8BA4C0C1, sceKernelGetEventFlagInfo); REG_FUNC(0x9EF9C0C5, sceKernelSetEventFlag); REG_FUNC(0xD018793F, sceKernelClearEventFlag); REG_FUNC(0x297AA2AE, sceKernelCreateSema); REG_FUNC(0xC08F5BC5, sceKernelDeleteSema); REG_FUNC(0xB028AB78, sceKernelOpenSema); REG_FUNC(0x817707AB, sceKernelCloseSema); REG_FUNC(0x0C7B834B, sceKernelWaitSema); REG_FUNC(0x174692B4, sceKernelWaitSemaCB); REG_FUNC(0x66D6BF05, sceKernelCancelSema); REG_FUNC(0x595D3FA6, sceKernelGetSemaInfo); REG_FUNC(0x3012A9C6, sceKernelPollSema); REG_FUNC(0x2053A496, sceKernelSignalSema); REG_FUNC(0xED53334A, sceKernelCreateMutex); REG_FUNC(0x12D11F65, sceKernelDeleteMutex); REG_FUNC(0x16B85235, sceKernelOpenMutex); REG_FUNC(0x43DDC9CC, sceKernelCloseMutex); REG_FUNC(0x1D8D7945, sceKernelLockMutex); REG_FUNC(0x2BDAA524, sceKernelLockMutexCB); REG_FUNC(0x2144890D, sceKernelCancelMutex); REG_FUNC(0x9A6C43CA, sceKernelGetMutexInfo); REG_FUNC(0xE5901FF9, sceKernelTryLockMutex); REG_FUNC(0x34746309, sceKernelUnlockMutex); REG_FUNC(0x50572FDA, sceKernelCreateCond); REG_FUNC(0xFD295414, sceKernelDeleteCond); REG_FUNC(0xCB2A73A9, sceKernelOpenCond); REG_FUNC(0x4FB91A89, sceKernelCloseCond); REG_FUNC(0xC88D44AD, sceKernelWaitCond); REG_FUNC(0x4CE42CE2, sceKernelWaitCondCB); REG_FUNC(0x6864DCE2, sceKernelGetCondInfo); REG_FUNC(0x10A4976F, sceKernelSignalCond); REG_FUNC(0x2EB86929, sceKernelSignalCondAll); REG_FUNC(0x087629E6, sceKernelSignalCondTo); //REG_FUNC(0x0A10C1C8, sceKernelCreateMsgPipe); //REG_FUNC(0x69F6575D, sceKernelDeleteMsgPipe); //REG_FUNC(0x230691DA, sceKernelOpenMsgPipe); //REG_FUNC(0x7E5C0C16, sceKernelCloseMsgPipe); //REG_FUNC(0x94D506F7, sceKernelSendMsgPipeVector); //REG_FUNC(0x9C6F7F79, sceKernelSendMsgPipeVectorCB); //REG_FUNC(0x60DB346F, sceKernelTrySendMsgPipeVector); //REG_FUNC(0x9F899087, sceKernelReceiveMsgPipeVector); //REG_FUNC(0xBE5B3E27, sceKernelReceiveMsgPipeVectorCB); //REG_FUNC(0x86ECC0FF, sceKernelTryReceiveMsgPipeVector); //REG_FUNC(0xEF14BA37, sceKernelCancelMsgPipe); //REG_FUNC(0x4046D16B, sceKernelGetMsgPipeInfo); REG_FUNC(0xDA6EC8EF, sceKernelCreateLwMutex); REG_FUNC(0x244E76D2, sceKernelDeleteLwMutex); REG_FUNC(0x4846613D, sceKernelGetLwMutexInfoById); REG_FUNC(0x48C7EAE6, sceKernelCreateLwCond); REG_FUNC(0x721F6CB3, sceKernelDeleteLwCond); REG_FUNC(0xE1878282, sceKernelWaitLwCond); REG_FUNC(0x8FA54B07, sceKernelWaitLwCondCB); REG_FUNC(0x3AC63B9A, sceKernelSignalLwCond); REG_FUNC(0xE5241A0C, sceKernelSignalLwCondAll); REG_FUNC(0xFC1A48EB, sceKernelSignalLwCondTo); REG_FUNC(0xE4DF36A0, sceKernelGetLwCondInfo); REG_FUNC(0x971F1DE8, sceKernelGetLwCondInfoById); REG_FUNC(0x2255B2A5, sceKernelCreateTimer); REG_FUNC(0x746F3290, sceKernelDeleteTimer); REG_FUNC(0x2F3D35A3, sceKernelOpenTimer); REG_FUNC(0x17283DE6, sceKernelCloseTimer); REG_FUNC(0x1478249B, sceKernelStartTimer); REG_FUNC(0x075B1329, sceKernelStopTimer); REG_FUNC(0x1F59E04D, sceKernelGetTimerBase); REG_FUNC(0x3223CCD1, sceKernelGetTimerBaseWide); REG_FUNC(0x381DC300, sceKernelGetTimerTime); REG_FUNC(0x53C5D833, sceKernelGetTimerTimeWide); REG_FUNC(0xFFAD717F, sceKernelSetTimerTime); REG_FUNC(0xAF67678B, sceKernelSetTimerTimeWide); REG_FUNC(0x621D293B, sceKernelSetTimerEvent); REG_FUNC(0x9CCF768C, sceKernelCancelTimer); REG_FUNC(0x7E35E10A, sceKernelGetTimerInfo); REG_FUNC(0x8667951D, sceKernelCreateRWLock); REG_FUNC(0x3D750204, sceKernelDeleteRWLock); REG_FUNC(0xBA4DAC9A, sceKernelOpenRWLock); REG_FUNC(0xA7F94E64, sceKernelCloseRWLock); REG_FUNC(0xFA670F0F, sceKernelLockReadRWLock); REG_FUNC(0x2D4A62B7, sceKernelLockReadRWLockCB); REG_FUNC(0x1B8586C0, sceKernelTryLockReadRWLock); REG_FUNC(0x675D10A8, sceKernelUnlockReadRWLock); REG_FUNC(0x67A187BB, sceKernelLockWriteRWLock); REG_FUNC(0xA4777082, sceKernelLockWriteRWLockCB); REG_FUNC(0x597D4607, sceKernelTryLockWriteRWLock); REG_FUNC(0xD9369DF2, sceKernelUnlockWriteRWLock); REG_FUNC(0x190CA94B, sceKernelCancelRWLock); REG_FUNC(0x079A573B, sceKernelGetRWLockInfo); REG_FUNC(0x8AF15B5F, sceKernelGetSystemTime); //REG_FUNC(0x99B2BF15, sceKernelPMonThreadGetCounter); //REG_FUNC(0x7C21C961, sceKernelPMonCpuGetCounter); //REG_FUNC(0xADCA94E5, sceKernelWaitSignal); //REG_FUNC(0x24460BB3, sceKernelWaitSignalCB); //REG_FUNC(0x7BE9C4C8, sceKernelSendSignal); REG_FUNC(0xC5C11EE7, sceKernelCreateThread); REG_FUNC(0x6C60AC61, sceIoOpen); REG_FUNC(0xF5C6F098, sceIoClose); REG_FUNC(0x713523E1, sceIoRead); REG_FUNC(0x11FED231, sceIoWrite); REG_FUNC(0x99BA173E, sceIoLseek); REG_FUNC(0x5CC983AC, sceIoLseek32); REG_FUNC(0xE20ED0F3, sceIoRemove); REG_FUNC(0xF737E369, sceIoRename); REG_FUNC(0x9670D39F, sceIoMkdir); REG_FUNC(0xE9F91EC8, sceIoRmdir); REG_FUNC(0xA9283DD0, sceIoDopen); REG_FUNC(0x9DFF9C59, sceIoDclose); REG_FUNC(0x9C8B6624, sceIoDread); REG_FUNC(0xBCA5B623, sceIoGetstat); REG_FUNC(0x29482F7F, sceIoChstat); REG_FUNC(0x98ACED6D, sceIoSync); REG_FUNC(0x04B30CB2, sceIoDevctl); REG_FUNC(0x54ABACFA, sceIoIoctl); //REG_FUNC(0x6A7EA9FD, sceIoOpenAsync); //REG_FUNC(0x84201C9B, sceIoCloseAsync); //REG_FUNC(0x7B3BE857, sceIoReadAsync); //REG_FUNC(0x21329B20, sceIoWriteAsync); //REG_FUNC(0xCAC5D672, sceIoLseekAsync); //REG_FUNC(0x099C54B9, sceIoIoctlAsync); //REG_FUNC(0x446A60AC, sceIoRemoveAsync); //REG_FUNC(0x73FC184B, sceIoDopenAsync); //REG_FUNC(0x4D0597D7, sceIoDcloseAsync); //REG_FUNC(0xCE32490D, sceIoDreadAsync); //REG_FUNC(0x8E5FCBB1, sceIoMkdirAsync); //REG_FUNC(0x9694D00F, sceIoRmdirAsync); //REG_FUNC(0xEE9857CD, sceIoRenameAsync); //REG_FUNC(0x9739A5E2, sceIoChstatAsync); //REG_FUNC(0x82B20B41, sceIoGetstatAsync); //REG_FUNC(0x950F78EB, sceIoDevctlAsync); //REG_FUNC(0xF7C7FBFE, sceIoSyncAsync); //REG_FUNC(0xEC96EA71, sceIoCancel); //REG_FUNC(0x857E0C71, sceIoComplete); REG_FUNC(0x52315AD7, sceIoPread); REG_FUNC(0x8FFFF5A8, sceIoPwrite); //REG_FUNC(0xA010141E, sceIoPreadAsync); //REG_FUNC(0xED25BEEF, sceIoPwriteAsync); //REG_FUNC(0xA792C404, sceIoCompleteMultiple); //REG_FUNC(0x894037E8, sceKernelBacktrace); //REG_FUNC(0x20E2D4B7, sceKernelPrintBacktrace); //REG_FUNC(0x963F4A99, sceSblACMgrIsGameProgram); //REG_FUNC(0x261E2C34, sceKernelGetOpenPsId); /* SceModulemgr */ //REG_FUNC(0x36585DAF, sceKernelGetModuleInfo); //REG_FUNC(0x2EF2581F, sceKernelGetModuleList); //REG_FUNC(0xF5798C7C, sceKernelGetModuleIdByAddr); /* SceProcessmgr */ //REG_FUNC(0xCD248267, sceKernelGetCurrentProcess); //REG_FUNC(0x2252890C, sceKernelPowerTick); //REG_FUNC(0x9E45DA09, sceKernelLibcClock); //REG_FUNC(0x0039BE45, sceKernelLibcTime); //REG_FUNC(0x4B879059, sceKernelLibcGettimeofday); //REG_FUNC(0xC1727F59, sceKernelGetStdin); //REG_FUNC(0xE5AA625C, sceKernelGetStdout); //REG_FUNC(0xFA5E3ADA, sceKernelGetStderr); //REG_FUNC(0xE6E9FCA3, sceKernelGetRemoteProcessTime); //REG_FUNC(0xD37A8437, sceKernelGetProcessTime); //REG_FUNC(0xF5D0D4C6, sceKernelGetProcessTimeLow); //REG_FUNC(0x89DA0967, sceKernelGetProcessTimeWide); //REG_FUNC(0x2BE3E066, sceKernelGetProcessParam); /* SceStdio */ //REG_FUNC(0x54237407, sceKernelStdin); //REG_FUNC(0x9033E9BD, sceKernelStdout); //REG_FUNC(0x35EE7CF5, sceKernelStderr); /* SceSysmem */ REG_FUNC(0xB9D5EBDE, sceKernelAllocMemBlock); REG_FUNC(0xA91E15EE, sceKernelFreeMemBlock); REG_FUNC(0xB8EF5818, sceKernelGetMemBlockBase); //REG_FUNC(0x3B29E0F5, sceKernelRemapMemBlock); //REG_FUNC(0xA33B99D1, sceKernelFindMemBlockByAddr); REG_FUNC(0x4010AD65, sceKernelGetMemBlockInfoByAddr); /* SceCpu */ //REG_FUNC(0x2704CFEE, sceKernelCpuId); /* SceDipsw */ //REG_FUNC(0x1C783FB2, sceKernelCheckDipsw); //REG_FUNC(0x817053D4, sceKernelSetDipsw); //REG_FUNC(0x800EDCC1, sceKernelClearDipsw); /* SceThreadmgr */ REG_FUNC(0x0C8A38E1, sceKernelExitThread); REG_FUNC(0x1D17DECF, sceKernelExitDeleteThread); REG_FUNC(0x4B675D05, sceKernelDelayThread); REG_FUNC(0x9C0180E1, sceKernelDelayThreadCB); //REG_FUNC(0x001173F8, sceKernelChangeActiveCpuMask); REG_FUNC(0x01414F0B, sceKernelGetThreadCurrentPriority); REG_FUNC(0x751C9B7A, sceKernelChangeCurrentThreadAttr); REG_FUNC(0xD9BD74EB, sceKernelCheckWaitableStatus); REG_FUNC(0x9DCB4B7A, sceKernelGetProcessId); REG_FUNC(0xE53E41F6, sceKernelCheckCallback); REG_FUNC(0xF4EE4FA9, sceKernelGetSystemTimeWide); REG_FUNC(0x47F6DE49, sceKernelGetSystemTimeLow); //REG_FUNC(0xC0FAF6A3, sceKernelCreateThreadForUser); /* SceDebugLed */ //REG_FUNC(0x78E702D3, sceKernelSetGPO); });