/* * PROJECT: ReactOS system libraries * LICENSE: GNU GPL - See COPYING in the top level directory * PURPOSE: Support library for PSEH3 * PROGRAMMER: Timo Kreuzer (timo.kreuzer@reactos.org) */ /* * - Naming: To avoid naming conflicts, all internal identifiers are prefixed * with _SEH3$_. * - Frame graph: PSEH3 uses the same registration frame for every trylevel. * Only the top trylevel is registered in FS:0, the inner trylevels are linked * to the first trylevel frame. Only the first trylevel frame has the Handler * member set, it's 0 for all others as an identification. The EndOfChain * member of the FS:0 registered frame points to the last internal frame, * which is the frame itself, when only 1 trylevel is present. * * The registration graph looks like this: * * newer handlers * ----------------> * * fs:0 /----------------\ * |-----------|<-\ |-----------|<-\ / |----------|<-\ \->|----------| * | | \-| | \--/--| | \---| | * | | | | / | | | | * |-----------| |-----------| / |----------| |----------| * |EndOfChain |---/ * | ... | * |-----------| */ #include #include #include /* We need the full structure with all non-volatile */ #define _SEH3$_FRAME_ALL_NONVOLATILES 1 #include "pseh3.h" #include "pseh3_asmdef.h" /* Make sure the asm definitions match the structures */ C_ASSERT(SEH3_REGISTRATION_FRAME_Next == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, Next)); C_ASSERT(SEH3_REGISTRATION_FRAME_Handler == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, Handler)); C_ASSERT(SEH3_REGISTRATION_FRAME_EndOfChain == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, EndOfChain)); C_ASSERT(SEH3_REGISTRATION_FRAME_ScopeTable == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, ScopeTable)); C_ASSERT(SEH3_REGISTRATION_FRAME_ExceptionPointers == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, ExceptionPointers)); C_ASSERT(SEH3_REGISTRATION_FRAME_ExceptionCode == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, ExceptionCode)); C_ASSERT(SEH3_REGISTRATION_FRAME_Esp == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, Esp)); C_ASSERT(SEH3_REGISTRATION_FRAME_Ebp == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, Ebp)); C_ASSERT(SEH3_REGISTRATION_FRAME_AllocaFrame == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, AllocaFrame)); #ifdef _SEH3$_FRAME_ALL_NONVOLATILES C_ASSERT(SEH3_REGISTRATION_FRAME_Ebx == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, Ebx)); C_ASSERT(SEH3_REGISTRATION_FRAME_Esi == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, Esi)); C_ASSERT(SEH3_REGISTRATION_FRAME_Edi == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, Edi)); #endif #ifdef __clang__ C_ASSERT(SEH3_REGISTRATION_FRAME_ReturnAddress == FIELD_OFFSET(SEH3$_REGISTRATION_FRAME, ReturnAddress)); #endif C_ASSERT(SEH3_SCOPE_TABLE_Filter == FIELD_OFFSET(SEH3$_SCOPE_TABLE, Filter)); C_ASSERT(SEH3_SCOPE_TABLE_Target == FIELD_OFFSET(SEH3$_SCOPE_TABLE, Target)); void __attribute__((regparm(1))) _SEH3$_Unregister( volatile SEH3$_REGISTRATION_FRAME *Frame) { if (Frame->Handler) _SEH3$_UnregisterFrame(Frame); else _SEH3$_UnregisterTryLevel(Frame); } static inline LONG _SEH3$_InvokeNestedFunctionFilter( volatile SEH3$_REGISTRATION_FRAME *RegistrationFrame, PVOID Filter) { LONG FilterResult; asm volatile ( /* First call with param = 0 to get the frame layout */ "xorl %%ecx, %%ecx\n\t" "xorl %%eax, %%eax\n\t" "call *%[Filter]\n\t" /* The result is the frame base address that we passed in (0) plus the offset to the registration record. */ "negl %%eax\n\t" "addl %[RegistrationFrame], %%eax\n\t" /* Second call to get the filter result */ "mov $1, %%ecx\n\t" "call *%[Filter]" : "=a" (FilterResult) : [RegistrationFrame] "m" (RegistrationFrame), [Filter] "m" (Filter) : "ecx", "edx"); return FilterResult; } long __attribute__((regparm(1))) _SEH3$_InvokeEmbeddedFilter( volatile SEH3$_REGISTRATION_FRAME *RegistrationFrame); long __attribute__((regparm(1))) _SEH3$_InvokeEmbeddedFilterFromRegistration( volatile SEH3$_REGISTRATION_FRAME *RegistrationFrame); static inline LONG _SEH3$_InvokeFilter( volatile SEH3$_REGISTRATION_FRAME *RegistrationFrame, PVOID Filter) { LONG FilterResult; if (RegistrationFrame->ScopeTable->HandlerType == _SEH3$_NESTED_HANDLER) { return _SEH3$_InvokeNestedFunctionFilter(RegistrationFrame, Filter); } else if (RegistrationFrame->ScopeTable->HandlerType == _SEH3$_CPP_HANDLER) { /* Call the embedded filter function */ return _SEH3$_InvokeEmbeddedFilter(RegistrationFrame); } else if (RegistrationFrame->ScopeTable->HandlerType == _SEH3$_CLANG_HANDLER) { return _SEH3$_InvokeEmbeddedFilterFromRegistration(RegistrationFrame); } else { /* Should not happen! Skip this handler */ FilterResult = EXCEPTION_CONTINUE_SEARCH; } return FilterResult; } void __attribute__((regparm(1))) _SEH3$_AutoCleanup( volatile SEH3$_REGISTRATION_FRAME *Frame) { if (Frame->Handler) _SEH3$_UnregisterFrame(Frame); else _SEH3$_UnregisterTryLevel(Frame); /* Check for __finally frames */ if (Frame->ScopeTable->Target == NULL) { _SEH3$_InvokeFilter(Frame, Frame->ScopeTable->Filter); } } static inline LONG _SEH3$_GetFilterResult( PSEH3$_REGISTRATION_FRAME Record) { PVOID Filter = Record->ScopeTable->Filter; LONG Result; /* Check for __finally frames */ if (Record->ScopeTable->Target == NULL) { return EXCEPTION_CONTINUE_SEARCH; } /* Check if we have a constant filter */ if (((ULONG)Filter & 0xFFFFFF00) == 0) { /* Lowest 8 bit are sign extended to give the result */ Result = (LONG)(CHAR)(ULONG)Filter; } else { /* Call the filter function */ Result = _SEH3$_InvokeFilter(Record, Filter); } /* Normalize the result */ if (Result < 0) return EXCEPTION_CONTINUE_EXECUTION; else if (Result > 0) return EXCEPTION_EXECUTE_HANDLER; else return EXCEPTION_CONTINUE_SEARCH; } static inline VOID _SEH3$_CallFinally( PSEH3$_REGISTRATION_FRAME Record) { _SEH3$_InvokeFilter(Record, Record->ScopeTable->Filter); } __attribute__((noreturn)) static inline void _SEH3$_JumpToTarget( PSEH3$_REGISTRATION_FRAME RegistrationFrame) { if (RegistrationFrame->ScopeTable->HandlerType == _SEH3$_CLANG_HANDLER) { asm volatile ( /* Load the registers */ "movl 24(%%ecx), %%esp\n\t" "movl 28(%%ecx), %%ebp\n\t" "movl 36(%%ecx), %%ebx\n\t" "movl 40(%%ecx), %%esi\n\t" "movl 44(%%ecx), %%edi\n\t" /* Stack pointer is 4 off from the call to __SEH3$_RegisterFrame */ "addl $4, %%esp\n\t" /* Jump into the exception handler */ "jmp *%[Target]" : : "c" (RegistrationFrame), "a" (RegistrationFrame->ScopeTable), [Target] "m" (RegistrationFrame->ScopeTable->Target) ); } else { asm volatile ( /* Load the registers */ "movl 24(%%ecx), %%esp\n\t" "movl 28(%%ecx), %%ebp\n\t" /* Stack pointer is 4 off from the call to __SEH3$_RegisterFrame */ "addl $4, %%esp\n\t" /* Jump into the exception handler */ "jmp *%[Target]" : : "c" (RegistrationFrame), "a" (RegistrationFrame->ScopeTable), [Target] "m" (RegistrationFrame->ScopeTable->Target) ); } __builtin_unreachable(); } void __fastcall _SEH3$_CallRtlUnwind( PSEH3$_REGISTRATION_FRAME RegistrationFrame); EXCEPTION_DISPOSITION __cdecl #ifndef __clang__ __attribute__ ((__target__ ("cld"))) #endif _SEH3$_except_handler( struct _EXCEPTION_RECORD * ExceptionRecord, PSEH3$_REGISTRATION_FRAME EstablisherFrame, struct _CONTEXT * ContextRecord, void * DispatcherContext) { PSEH3$_REGISTRATION_FRAME CurrentFrame, TargetFrame; SEH3$_EXCEPTION_POINTERS ExceptionPointers; LONG FilterResult; /* Clear the direction flag. */ asm volatile ("cld" : : : "memory"); /* Save the exception pointers on the stack */ ExceptionPointers.ExceptionRecord = ExceptionRecord; ExceptionPointers.ContextRecord = ContextRecord; /* Check if this is an unwind */ if (ExceptionRecord->ExceptionFlags & EXCEPTION_UNWINDING) { /* Unwind all local frames */ TargetFrame = EstablisherFrame->Next; } else { /* Loop all frames for this registration */ CurrentFrame = EstablisherFrame->EndOfChain; for (;;) { /* Check if we have an exception handler */ if (CurrentFrame->ScopeTable->Target != NULL) { /* Set exception pointers and code for this frame */ CurrentFrame->ExceptionPointers = &ExceptionPointers; CurrentFrame->ExceptionCode = ExceptionRecord->ExceptionCode; /* Get the filter result */ FilterResult = _SEH3$_GetFilterResult(CurrentFrame); /* Check, if continuuing is requested */ if (FilterResult == EXCEPTION_CONTINUE_EXECUTION) { return ExceptionContinueExecution; } /* Check if the except handler shall be executed */ if (FilterResult == EXCEPTION_EXECUTE_HANDLER) break; } /* Bail out if this is the last handler */ if (CurrentFrame == EstablisherFrame) return ExceptionContinueSearch; /* Go to the next frame */ CurrentFrame = CurrentFrame->Next; } /* Call RtlUnwind to unwind the frames below this one */ _SEH3$_CallRtlUnwind(EstablisherFrame); /* Do a local unwind up to this frame */ TargetFrame = CurrentFrame; } /* Loop frames up to the target frame */ for (CurrentFrame = EstablisherFrame->EndOfChain; CurrentFrame != TargetFrame; CurrentFrame = CurrentFrame->Next) { /* Manually unregister the frame */ _SEH3$_Unregister(CurrentFrame); /* Check if this is an unwind frame */ if (CurrentFrame->ScopeTable->Target == NULL) { /* Set exception pointers and code for this frame */ CurrentFrame->ExceptionPointers = &ExceptionPointers; CurrentFrame->ExceptionCode = ExceptionRecord->ExceptionCode; /* Call the finally function */ _SEH3$_CallFinally(CurrentFrame); } } /* Check if this was an unwind */ if (ExceptionRecord->ExceptionFlags & EXCEPTION_UNWINDING) { return ExceptionContinueSearch; } /* Unregister the frame. It will be unregistered again at the end of the __except block, due to auto cleanup, but that doesn't hurt. All we do is set either fs:[0] or EstablisherFrame->EndOfChain to CurrentFrame->Next, which will not change it's value. */ _SEH3$_Unregister(CurrentFrame); /* Jump to the __except block (does not return) */ _SEH3$_JumpToTarget(CurrentFrame); }