// // Generated By: dol2asm // Translation Unit: JKRHeap // #include "JSystem/JKernel/JKRHeap.h" #include "JSystem/JUtility/JUTAssert.h" #include "JSystem/JUtility/JUTException.h" #include "dol2asm.h" #include "global.h" // // Forward References: // extern "C" void __ct__7JKRHeapFPvUlP7JKRHeapb(); extern "C" void __dt__7JKRHeapFv(); extern "C" void initArena__7JKRHeapFPPcPUli(); extern "C" void becomeSystemHeap__7JKRHeapFv(); extern "C" void becomeCurrentHeap__7JKRHeapFv(); extern "C" void destroy__7JKRHeapFv(); extern "C" void alloc__7JKRHeapFUliP7JKRHeap(); extern "C" void alloc__7JKRHeapFUli(); extern "C" void free__7JKRHeapFPvP7JKRHeap(); extern "C" void free__7JKRHeapFPv(); extern "C" void callAllDisposer__7JKRHeapFv(); extern "C" void freeAll__7JKRHeapFv(); extern "C" void freeTail__7JKRHeapFv(); extern "C" void resize__7JKRHeapFPvUlP7JKRHeap(); extern "C" void resize__7JKRHeapFPvUl(); extern "C" void getSize__7JKRHeapFPvP7JKRHeap(); extern "C" void getSize__7JKRHeapFPv(); extern "C" void getFreeSize__7JKRHeapFv(); extern "C" void getMaxFreeBlock__7JKRHeapFv(); extern "C" void getTotalFreeSize__7JKRHeapFv(); extern "C" void changeGroupID__7JKRHeapFUc(); extern "C" void getMaxAllocatableSize__7JKRHeapFi(); extern "C" void findFromRoot__7JKRHeapFPv(); extern "C" void find__7JKRHeapCFPv(); extern "C" void findAllHeap__7JKRHeapCFPv(); extern "C" void dispose_subroutine__7JKRHeapFUlUl(); extern "C" void dispose__7JKRHeapFPvUl(); extern "C" void dispose__7JKRHeapFPvPv(); extern "C" void dispose__7JKRHeapFv(); extern "C" void copyMemory__7JKRHeapFPvPvUl(); extern "C" void JKRDefaultMemoryErrorRoutine__FPvUli(); extern "C" void setErrorFlag__7JKRHeapFb(); extern "C" void setErrorHandler__7JKRHeapFPFPvUli_v(); extern "C" void isSubHeap__7JKRHeapCFP7JKRHeap(); extern "C" void* __nw__FUl(); extern "C" void* __nw__FUli(); extern "C" void* __nw__FUlP7JKRHeapi(); extern "C" void* __nwa__FUl(); extern "C" void* __nwa__FUli(); extern "C" void* __nwa__FUlP7JKRHeapi(); extern "C" void __dl__FPv(); extern "C" void __dla__FPv(); extern "C" void state_register__7JKRHeapCFPQ27JKRHeap6TStateUl(); extern "C" void state_compare__7JKRHeapCFRCQ27JKRHeap6TStateRCQ27JKRHeap6TState(); extern "C" void state_dump__7JKRHeapCFRCQ27JKRHeap6TState(); extern "C" bool do_changeGroupID__7JKRHeapFUc(); extern "C" bool do_getCurrentGroupId__7JKRHeapFv(); extern "C" extern char const* const JKRHeap__stringBase0; extern "C" u8 sSystemHeap__7JKRHeap[4]; extern "C" u8 sCurrentHeap__7JKRHeap[4]; extern "C" u8 sRootHeap__7JKRHeap[4]; extern "C" u8 mErrorHandler__7JKRHeap[4]; extern "C" u8 mCodeStart__7JKRHeap[4]; extern "C" u8 mCodeEnd__7JKRHeap[4]; extern "C" u8 mUserRamStart__7JKRHeap[4]; extern "C" u8 mUserRamEnd__7JKRHeap[4]; extern "C" u8 mMemorySize__7JKRHeap[4]; // // External References: // extern "C" bool dump_sort__7JKRHeapFv(); extern "C" void __ct__11JKRDisposerFv(); extern "C" void __dt__11JKRDisposerFv(); extern "C" void __ct__10JSUPtrLinkFPv(); extern "C" void __dt__10JSUPtrLinkFv(); extern "C" void __dt__10JSUPtrListFv(); extern "C" void initiate__10JSUPtrListFv(); extern "C" void append__10JSUPtrListFP10JSUPtrLink(); extern "C" void remove__10JSUPtrListFP10JSUPtrLink(); extern "C" void panic_f__12JUTExceptionFPCciPCce(); extern "C" void _savegpr_26(); extern "C" void _savegpr_27(); extern "C" void _savegpr_28(); extern "C" void _savegpr_29(); extern "C" void _restgpr_26(); extern "C" void _restgpr_27(); extern "C" void _restgpr_28(); extern "C" void _restgpr_29(); extern "C" extern bool data_804508B0; extern "C" void* __vt__7JKRHeap; // // Declarations: // /* 80451370-80451374 000870 0004+00 3/3 44/44 0/0 .sbss sSystemHeap__7JKRHeap */ JKRHeap* JKRHeap::sSystemHeap; /* 80451374-80451378 000874 0004+00 4/4 23/22 0/0 .sbss sCurrentHeap__7JKRHeap */ JKRHeap* JKRHeap::sCurrentHeap; /* 80451378-8045137C 000878 0004+00 3/3 10/10 0/0 .sbss sRootHeap__7JKRHeap */ JKRHeap* JKRHeap::sRootHeap; /* 8045137C-80451380 00087C 0004+00 2/2 3/3 0/0 .sbss mErrorHandler__7JKRHeap */ JKRErrorHandler JKRHeap::mErrorHandler; /* 80451380-80451384 000880 0004+00 1/1 0/0 0/0 .sbss None */ static bool data_80451380; /* 802CE138-802CE264 2C8A78 012C+00 0/0 3/3 0/0 .text __ct__7JKRHeapFPvUlP7JKRHeapb */ JKRHeap::JKRHeap(void* data, u32 size, JKRHeap* parent, bool errorFlag) : JKRDisposer(), mChildTree(this), mDisposerList() { OSInitMutex(&mMutex); mSize = size; mStart = (u8*)data; mEnd = (u8*)data + size; if (parent == NULL) { becomeSystemHeap(); becomeCurrentHeap(); } else { parent->mChildTree.appendChild(&mChildTree); if (getSystemHeap() == getRootHeap()) { becomeSystemHeap(); } if (getCurrentHeap() == getRootHeap()) { becomeCurrentHeap(); } } mErrorFlag = errorFlag; if ((mErrorFlag == true) && (mErrorHandler == NULL)) { mErrorHandler = JKRDefaultMemoryErrorRoutine; } mDebugFill = data_804508B0; mCheckMemoryFilled = data_80451380; mInitFlag = false; } /* 802CE264-802CE378 2C8BA4 0114+00 1/0 3/3 0/0 .text __dt__7JKRHeapFv */ // using the wrong register for storing the results #ifdef NONMATCHING JKRHeap::~JKRHeap() { JSUTree* parent = mChildTree.getParent(); parent->removeChild(&mChildTree); JSUTree* nextRootHeap = getRootHeap()->mChildTree.getFirstChild(); JKRHeap* rootHeap = getRootHeap(); JKRHeap* currentHeap = getCurrentHeap(); if (currentHeap == this) { if (!nextRootHeap) { currentHeap = rootHeap; } else { currentHeap = nextRootHeap->getObject(); } } setCurrentHeap(currentHeap); JKRHeap* systemHeap = getSystemHeap(); if (systemHeap == this) { if (!nextRootHeap) { systemHeap = rootHeap; } else { systemHeap = nextRootHeap->getObject(); } } setSystemHeap(systemHeap); } #else #pragma push #pragma optimization_level 0 #pragma optimizewithasm off asm JKRHeap::~JKRHeap() { nofralloc #include "asm/JSystem/JKernel/JKRHeap/__dt__7JKRHeapFv.s" } #pragma pop #endif /* ############################################################################################## */ /* 80451384-80451388 000884 0004+00 1/1 1/1 0/0 .sbss mCodeStart__7JKRHeap */ void* JKRHeap::mCodeStart; /* 80451388-8045138C 000888 0004+00 1/1 1/1 0/0 .sbss mCodeEnd__7JKRHeap */ void* JKRHeap::mCodeEnd; /* 8045138C-80451390 00088C 0004+00 1/1 1/1 0/0 .sbss mUserRamStart__7JKRHeap */ void* JKRHeap::mUserRamStart; /* 80451390-80451394 000890 0004+00 1/1 1/1 0/0 .sbss mUserRamEnd__7JKRHeap */ void* JKRHeap::mUserRamEnd; /* 80451394-80451398 000894 0004+00 1/1 2/2 0/0 .sbss mMemorySize__7JKRHeap */ u32 JKRHeap::mMemorySize; /* 802CE378-802CE428 2C8CB8 00B0+00 0/0 1/1 0/0 .text initArena__7JKRHeapFPPcPUli */ bool JKRHeap::initArena(char** memory, u32* size, int param_3) { u32 ram_start; u32 ram_end; u32 ram; u32 low = OSGetArenaLo(); u32 high = OSGetArenaHi(); if (low == high) return false; ram = OSInitAlloc(low, high, param_3); ram_start = ALIGN_NEXT(ram, 0x20); ram_end = ALIGN_PREV(high, 0x20); GLOBAL_MEMORY* globalMemory = (GLOBAL_MEMORY*)OSPhysicalToCached(0); mCodeStart = globalMemory; mCodeEnd = (void*)ram_start; mUserRamStart = (void*)ram_start; mUserRamEnd = (void*)ram_end; mMemorySize = globalMemory->memory_size; OSSetArenaLo(ram_end); OSSetArenaHi(ram_end); *memory = (char*)ram_start; *size = ram_end - ram_start; return true; } /* 802CE428-802CE438 2C8D68 0010+00 1/1 0/0 0/0 .text becomeSystemHeap__7JKRHeapFv */ JKRHeap* JKRHeap::becomeSystemHeap() { JKRHeap* prev = JKRHeap::getSystemHeap(); setSystemHeap(this); return prev; } /* 802CE438-802CE448 2C8D78 0010+00 1/1 22/22 1/1 .text becomeCurrentHeap__7JKRHeapFv */ JKRHeap* JKRHeap::becomeCurrentHeap() { JKRHeap* prev = getCurrentHeap(); setCurrentHeap(this); return prev; } /* 802CE448-802CE474 2C8D88 002C+00 0/0 5/5 1/1 .text destroy__7JKRHeapFv */ void JKRHeap::destroy() { do_destroy(); } /* 802CE474-802CE4D4 2C8DB4 0060+00 6/6 23/23 0/0 .text alloc__7JKRHeapFUliP7JKRHeap */ void* JKRHeap::alloc(u32 size, int alignment, JKRHeap* heap) { if (heap != NULL) { return heap->alloc(size, alignment); } if (getCurrentHeap() != NULL) { return getCurrentHeap()->alloc(size, alignment); } return NULL; } /* 802CE4D4-802CE500 2C8E14 002C+00 1/1 30/30 1/1 .text alloc__7JKRHeapFUli */ void* JKRHeap::alloc(u32 size, int alignment) { return do_alloc(size, alignment); } /* 802CE500-802CE548 2C8E40 0048+00 2/2 38/38 1/1 .text free__7JKRHeapFPvP7JKRHeap */ void JKRHeap::free(void* ptr, JKRHeap* heap) { if (!heap) { heap = findFromRoot(ptr); if (!heap) return; } heap->free(ptr); } /* 802CE548-802CE574 2C8E88 002C+00 1/1 29/29 0/0 .text free__7JKRHeapFPv */ void JKRHeap::free(void* ptr) { do_free(ptr); } /* 802CE574-802CE5CC 2C8EB4 0058+00 1/0 5/2 0/0 .text callAllDisposer__7JKRHeapFv */ #pragma push #pragma optimization_level 0 #pragma optimizewithasm off asm void JKRHeap::callAllDisposer() { nofralloc #include "asm/JSystem/JKernel/JKRHeap/callAllDisposer__7JKRHeapFv.s" } #pragma pop /* 802CE5CC-802CE5F8 2C8F0C 002C+00 0/0 12/12 0/0 .text freeAll__7JKRHeapFv */ void JKRHeap::freeAll() { do_freeAll(); } /* 802CE5F8-802CE624 2C8F38 002C+00 0/0 1/1 0/0 .text freeTail__7JKRHeapFv */ void JKRHeap::freeTail() { do_freeTail(); } /* 802CE624-802CE684 2C8F64 0060+00 0/0 1/1 0/0 .text resize__7JKRHeapFPvUlP7JKRHeap */ s32 JKRHeap::resize(void* ptr, u32 size, JKRHeap* heap) { if (!heap) { heap = findFromRoot(ptr); if (!heap) return -1; } return heap->resize(ptr, size); } /* 802CE684-802CE6B0 2C8FC4 002C+00 1/1 1/1 0/0 .text resize__7JKRHeapFPvUl */ s32 JKRHeap::resize(void* ptr, u32 size) { return do_resize(ptr, size); } /* 802CE6B0-802CE700 2C8FF0 0050+00 0/0 4/4 0/0 .text getSize__7JKRHeapFPvP7JKRHeap */ s32 JKRHeap::getSize(void* ptr, JKRHeap* heap) { if (!heap) { heap = findFromRoot(ptr); if (!heap) return -1; } return heap->getSize(ptr); } /* 802CE700-802CE72C 2C9040 002C+00 1/1 1/1 0/0 .text getSize__7JKRHeapFPv */ s32 JKRHeap::getSize(void* ptr) { return do_getSize(ptr); } /* 802CE72C-802CE758 2C906C 002C+00 1/1 18/18 0/0 .text getFreeSize__7JKRHeapFv */ s32 JKRHeap::getFreeSize() { return do_getFreeSize(); } /* 802CE758-802CE784 2C9098 002C+00 1/1 0/0 0/0 .text getMaxFreeBlock__7JKRHeapFv */ void* JKRHeap::getMaxFreeBlock() { return do_getMaxFreeBlock(); } /* 802CE784-802CE7B0 2C90C4 002C+00 0/0 32/32 0/0 .text getTotalFreeSize__7JKRHeapFv */ s32 JKRHeap::getTotalFreeSize() { return do_getTotalFreeSize(); } /* 802CE7B0-802CE7DC 2C90F0 002C+00 0/0 1/1 0/0 .text changeGroupID__7JKRHeapFUc */ u8 JKRHeap::changeGroupID(u8 param_1) { return do_changeGroupID(param_1); } /* 802CE7DC-802CE83C 2C911C 0060+00 0/0 2/2 0/0 .text getMaxAllocatableSize__7JKRHeapFi */ // "not/nor" instruction in the wrong place #ifdef NONMATCHING s32 JKRHeap::getMaxAllocatableSize(int alignment) { u32 maxFreeBlock = (u32)getMaxFreeBlock(); s32 freeSize = getFreeSize(); u32 mask = alignment - 1U; s32 ptrOffset = mask & (alignment - (maxFreeBlock & 0xf)); s32 alignedSize = (freeSize - ptrOffset) & ~(alignment - 1U); return alignedSize; } #else #pragma push #pragma optimization_level 0 #pragma optimizewithasm off asm u32 JKRHeap::getMaxAllocatableSize(int param_0) { nofralloc #include "asm/JSystem/JKernel/JKRHeap/getMaxAllocatableSize__7JKRHeapFi.s" } #pragma pop #endif /* 802CE83C-802CE894 2C917C 0058+00 3/3 8/8 0/0 .text findFromRoot__7JKRHeapFPv */ JKRHeap* JKRHeap::findFromRoot(void* ptr) { JKRHeap* rootHeap = getRootHeap(); if (rootHeap == NULL) { return NULL; } if (rootHeap->getStartAddr() <= ptr && ptr < rootHeap->getEndAddr()) { return rootHeap->find(ptr); } return rootHeap->findAllHeap(ptr); } /* 802CE894-802CE93C 2C91D4 00A8+00 1/1 1/1 0/0 .text find__7JKRHeapCFPv */ JKRHeap* JKRHeap::find(void* ptr) const { if (getStartAddr() <= ptr && ptr < getEndAddr()) { const JSUTree& tree = mChildTree; if (tree.getNumChildren() != 0) { JSUTreeIterator iterator; for (iterator = tree.getFirstChild(); iterator != tree.getEndChild(); iterator++) { JKRHeap* child = iterator.getObject(); JKRHeap* result = child->find(ptr); if (result) { return result; } } } // todo: not sure about this... casting away const for now. return (JKRHeap*)this; } return NULL; } /* 802CE93C-802CE9E4 2C927C 00A8+00 1/1 0/0 0/0 .text findAllHeap__7JKRHeapCFPv */ JKRHeap* JKRHeap::findAllHeap(void* ptr) const { const JSUTree& tree = mChildTree; if (tree.getNumChildren() != 0) { JSUTreeIterator iterator; for (iterator = tree.getFirstChild(); iterator != tree.getEndChild(); iterator++) { JKRHeap* child = iterator.getObject(); JKRHeap* result = child->findAllHeap(ptr); if (result) { return result; } } } if (getStartAddr() <= ptr && ptr < getEndAddr()) { // todo: not sure about this... casting away const for now. return (JKRHeap*)this; } return NULL; } /* 802CE9E4-802CEA78 2C9324 0094+00 2/2 0/0 0/0 .text dispose_subroutine__7JKRHeapFUlUl */ void JKRHeap::dispose_subroutine(u32 begin, u32 end) { JSUListIterator last_iterator; JSUListIterator next_iterator; JSUListIterator iterator; for (iterator = mDisposerList.getFirst(); iterator != mDisposerList.getEnd(); iterator = next_iterator) { JKRDisposer* disposer = iterator.getObject(); if ((void*)begin <= disposer && disposer < (void*)end) { disposer->~JKRDisposer(); if (last_iterator == NULL) { next_iterator = mDisposerList.getFirst(); } else { next_iterator = last_iterator; next_iterator++; } } else { last_iterator = iterator; next_iterator = iterator; next_iterator++; } } } /* 802CEA78-802CEAA0 2C93B8 0028+00 0/0 1/1 0/0 .text dispose__7JKRHeapFPvUl */ bool JKRHeap::dispose(void* ptr, u32 size) { u32 begin = (u32)ptr; u32 end = (u32)ptr + size; dispose_subroutine(begin, end); return false; } /* 802CEAA0-802CEAC0 2C93E0 0020+00 0/0 1/1 0/0 .text dispose__7JKRHeapFPvPv */ void JKRHeap::dispose(void* begin, void* end) { dispose_subroutine((u32)begin, (u32)end); } /* 802CEAC0-802CEB18 2C9400 0058+00 0/0 3/3 0/0 .text dispose__7JKRHeapFv */ // missing stack variable? #ifdef NONMATCHING void JKRHeap::dispose() { const JSUList& list = mDisposerList; JSUListIterator iterator; while (list.getFirst() != list.getEnd()) { iterator = list.getFirst(); iterator->~JKRDisposer(); } } #else #pragma push #pragma optimization_level 0 #pragma optimizewithasm off asm void JKRHeap::dispose() { nofralloc #include "asm/JSystem/JKernel/JKRHeap/dispose__7JKRHeapFv.s" } #pragma pop #endif /* 802CEB18-802CEB40 2C9458 0028+00 0/0 4/4 0/0 .text copyMemory__7JKRHeapFPvPvUl */ void JKRHeap::copyMemory(void* dst, void* src, u32 size) { u32 count = (size + 3) / 4; u32* dst_32 = (u32*)dst; u32* src_32 = (u32*)src; while (count > 0) { *dst_32 = *src_32; dst_32++; src_32++; count--; } } /* 802CEB40-802CEB78 2C9480 0038+00 2/2 0/0 0/0 .text JKRDefaultMemoryErrorRoutine__FPvUli */ void JKRDefaultMemoryErrorRoutine(void* heap, u32 size, int alignment) { JUTException::panic_f("JKRHeap.cpp", 0x33f, "%s", "abort\n"); } /* 802CEB78-802CEB88 2C94B8 0010+00 0/0 2/2 0/0 .text setErrorFlag__7JKRHeapFb */ bool JKRHeap::setErrorFlag(bool errorFlag) { bool prev = mErrorFlag; mErrorFlag = errorFlag; return prev; } /* 802CEB88-802CEBA8 2C94C8 0020+00 0/0 1/1 0/0 .text setErrorHandler__7JKRHeapFPFPvUli_v */ JKRErrorHandler JKRHeap::setErrorHandler(JKRErrorHandler errorHandler) { JKRErrorHandler prev = mErrorHandler; if (!errorHandler) { errorHandler = JKRDefaultMemoryErrorRoutine; } mErrorHandler = errorHandler; return prev; } /* 802CEBA8-802CEC4C 2C94E8 00A4+00 0/0 1/1 0/0 .text isSubHeap__7JKRHeapCFP7JKRHeap */ bool JKRHeap::isSubHeap(JKRHeap* heap) const { if (!heap) return false; const JSUTree& tree = mChildTree; if (tree.getNumChildren() != 0) { JSUTreeIterator iterator; for (iterator = tree.getFirstChild(); iterator != tree.getEndChild(); ++iterator) { JKRHeap* child = iterator.getObject(); if (child == heap) { return true; } bool is_sub_heap = child->isSubHeap(heap); if (is_sub_heap) { return true; } } } return false; } /* 802CEC4C-802CEC74 2C958C 0028+00 0/0 278/278 377/377 .text __nw__FUl */ void* operator new(u32 size) { return JKRHeap::alloc(size, 4, NULL); } /* 802CEC74-802CEC98 2C95B4 0024+00 0/0 15/15 0/0 .text __nw__FUli */ void* operator new(u32 size, int alignment) { return JKRHeap::alloc(size, alignment, NULL); } /* 802CEC98-802CECC4 2C95D8 002C+00 0/0 47/47 0/0 .text __nw__FUlP7JKRHeapi */ void* operator new(u32 size, JKRHeap* heap, int alignment) { return JKRHeap::alloc(size, alignment, heap); } /* 802CECC4-802CECEC 2C9604 0028+00 0/0 52/52 15/15 .text __nwa__FUl */ void* operator new[](u32 size) { return JKRHeap::alloc(size, 4, NULL); } /* 802CECEC-802CED10 2C962C 0024+00 0/0 29/29 0/0 .text __nwa__FUli */ void* operator new[](u32 size, int alignment) { return JKRHeap::alloc(size, alignment, NULL); } /* 802CED10-802CED3C 2C9650 002C+00 0/0 25/25 0/0 .text __nwa__FUlP7JKRHeapi */ void* operator new[](u32 size, JKRHeap* heap, int alignment) { return JKRHeap::alloc(size, alignment, heap); } /* 802CED3C-802CED60 2C967C 0024+00 1/1 847/847 4665/4665 .text __dl__FPv */ void operator delete(void* ptr) { JKRHeap::free(ptr, NULL); } /* 802CED60-802CED84 2C96A0 0024+00 0/0 20/20 3/3 .text __dla__FPv */ void operator delete[](void* ptr) { JKRHeap::free(ptr, NULL); } /* 802CED84-802CED88 2C96C4 0004+00 1/0 1/0 0/0 .text * state_register__7JKRHeapCFPQ27JKRHeap6TStateUl */ void JKRHeap::state_register(JKRHeap::TState* p, u32 id) const { JUT_ASSERT("JKRHeap.cpp", 0x4bd, p != 0); JUT_ASSERT("JKRHeap.cpp", 0x4be, p->getHeap() == this); } /* 802CED88-802CEDA0 2C96C8 0018+00 1/0 1/0 0/0 .text * state_compare__7JKRHeapCFRCQ27JKRHeap6TStateRCQ27JKRHeap6TState */ bool JKRHeap::state_compare(JKRHeap::TState const& r1, JKRHeap::TState const& r2) const { JUT_ASSERT("JKRHeap.cpp", 0x4c6, r1.getHeap() == r2.getHeap()); return r1.getCheckCode() == r2.getCheckCode(); } /* 802CEDA0-802CEDA4 2C96E0 0004+00 1/0 3/0 0/0 .text state_dump__7JKRHeapCFRCQ27JKRHeap6TState */ void JKRHeap::state_dump(JKRHeap::TState const& p) const { LOGF("check-code : 0x%08x", p.getCheckCode()); LOGF("id : 0x%08x", p.getId()); LOGF("used size : %u", p.getUsedSize()); } /* 802CEDA4-802CEDAC 2C96E4 0008+00 1/0 1/0 0/0 .text do_changeGroupID__7JKRHeapFUc */ u8 JKRHeap::do_changeGroupID(u8 param_0) { return 0; } /* 802CEDAC-802CEDB4 2C96EC 0008+00 1/0 1/0 0/0 .text do_getCurrentGroupId__7JKRHeapFv */ u8 JKRHeap::do_getCurrentGroupId() { return 0; } /* 8039CAD8-8039CAD8 029138 0000+00 0/0 0/0 0/0 .rodata @stringBase0 */