// ZASSERT AND STACKTRACE are an improved assertion system which augments // the WIN32 assert.h standard _assert. // (c) 1999 Zachary B. Simpson // Code may be used and distributed freely as long as all // changes are noted appropriately. #pragma warning(disable: 311 312 313) #ifdef WIN32 #include "windows.h" #endif #include "stdio.h" #include "string.h" #include "stacktrace.h" char *stackTrace( int skipAssert ) { // Becuase this code may be running during a fatal, // I am weary of allocating large buffers. Thus, // the output will be written into this static // buffer. Teh OUTS macro simplifies writing into it. static char output[2048]; output[0] = 0; #define OUTS sprintf( output+strlen(output), #ifdef WIN32 // Get the exe name from the command line // It is surrounded by quotes in some cases char *exeName = GetCommandLine(); if( *exeName == '"' ) { exeName++; } char *space = strchr( exeName, ' ' ); if( space ) { *space = 0; } char *quote = strchr( exeName, '"' ); if( quote ) { *quote = 0; } // Figure the base load address with GetModuleHandle unsigned int baseAddress = (int)GetModuleHandle( NULL ); // Walk up the stack placing pointers to functions // in the stackTrace array and pointers to argument // lists into the argBase array. #define STACK_TRACE_SIZE 30 unsigned int stackTrace[STACK_TRACE_SIZE]; unsigned int argBase[STACK_TRACE_SIZE]; int stackTraceCount = 0; volatile unsigned int *currBP; __asm mov [currBP], ebp; try { for( stackTraceCount=0; stackTraceCounte_lfanew ); // Go through each section looking for the .rdata section for( int i=0; iFileHeader.NumberOfSections; i++ ) { IMAGE_SECTION_HEADER *secHead = &(IMAGE_FIRST_SECTION( ntHeader ))[i]; if( ! stricmp( (char *)&secHead->Name[0], ".rdata" ) ) { numDebugFormats = ntHeader->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG].Size / sizeof(IMAGE_DEBUG_DIRECTORY) ; if( numDebugFormats != 0 ) { SETPTR( IMAGE_DEBUG_DIRECTORY, debugDir, secHead->PointerToRawData + ( ntHeader->OptionalHeader.DataDirectory [IMAGE_DIRECTORY_ENTRY_DEBUG].VirtualAddress - secHead->VirtualAddress ) ); break; } } } // Now have pointer to primary debug headers (debugDir) and // a count of number of debug formats (numDebugFormats) // Parse these to find the COFF headers IMAGE_COFF_SYMBOLS_HEADER *coffHeader = 0; for( i=0; iType == IMAGE_DEBUG_TYPE_COFF && ntHeader->FileHeader.PointerToSymbolTable ) { SETPTR( IMAGE_COFF_SYMBOLS_HEADER, coffHeader, debugDir->PointerToRawData ); break; } } if( !coffHeader ) { // There was not COFF debug information available. OUTS "Stack symbol information only available " "when linked with COFF debug symbols.\n" "Dumping hex trace instead:\n" ); for( i=0; iLvaToFirstLinenumber // ); // int count = coffHeader->NumberOfLinenumbers; // for( i=0; iType.VirtualAddress, lineNums->Linenumber ); // } // Now extract the COFF symbol table MAKEPTR( IMAGE_SYMBOL, coffSym, ntHeader->FileHeader.PointerToSymbolTable ); int coffSymbolCount = ntHeader->FileHeader.NumberOfSymbols; // The string table apparently starts right after the symbol table char *stringTable = (PSTR)&coffSym[coffSymbolCount]; // Becuase this code may be running during a fatal, // I am weary of allocating large buffers. Thus, I perform // this search without the help of any index or hash. IMAGE_SYMBOL *matchingStackSymbols[STACK_TRACE_SIZE]; memset( matchingStackSymbols, 0, sizeof(IMAGE_SYMBOL *) * STACK_TRACE_SIZE ); IMAGE_SYMBOL *lastSymbol = coffSym++; for( i=0; iN.Name.Short != 0 ? (char *)coffSym->N.ShortName : (char *)(stringTable + coffSym->N.Name.Long) ; for( int j=0; jValue && stackTrace[j] >= lastSymbol->Value && lastSymbol->Type == 0x20 ) { matchingStackSymbols[j] = lastSymbol; } } lastSymbol = coffSym; // Take into account any aux symbols i += coffSym->NumberOfAuxSymbols; coffSym += coffSym->NumberOfAuxSymbols; coffSym++; } for( i=0; iN.Name.Short != 0 ? (char *)matchingStackSymbols[i]->N.ShortName : (char *)(stringTable + matchingStackSymbols[i]->N.Name.Long) ; char args[30]={0,}; char funcName[128]={0,}; char *open = NULL; int numArgs = 0; if( skipAssert && strstr(symName,"assert") ) { continue; } // The function names are mangled, which tells us // what the arguments are. Unfortunatly, the name // demangler is not perfect (since I had to reverse // engineer it). So in cases when it fails, we // just print five arguments hoping that this is // sufficient. char *success = demangleMSDEVFuncName( symName, funcName, 128, args, 30, numArgs ); if( strstr( symName, "mainCRTStartup" ) ) { break; } OUTS "%s(", funcName ); if( success ) { // Name demangler succeeded. Print // out a trace of the arguments. For // pointer args, print out a small // memory dump of that pointer unsigned int *a = (unsigned int *)argBase[i+1]; for( int j=0; j= 0x10000 ) { OUTS "0x%X", *a ); } else { OUTS "%d", *a ); } break; case 'M': OUTS "%f", *a ); break; case 'N': // TODO break; case 'P': OUTS "PTR(0x%X)", *a ); break; default: OUTS "?" ); } } catch( ... ) { } } } else { // The name demanagler failed, so just // print 5 arguments under the theory that // it is better than nothing. OUTS "?? " ); int *a = (int *)argBase[i+1]; for( int j=0; j<5; j++, a++ ) { OUTS "%s 0x%X", j==0?"":",", *a ); } } OUTS " )\n" ); if( success ) { // Name mangler succeeded, go back and // print out a hex dump for each pointer. try { int *a = (int *)argBase[i+1]; for( int j=0; j= (unsigned char *)baseAddress ) { for( int k=0; k<3; k++, ptr+=16 ) { OUTS " %X: ", ptr ); for( int l=0; l<16; l++ ) OUTS "%02X ", ptr[l] ); OUTS " " ); for( l=0; l<16; l++ ) OUTS "%c", ptr[l]>=31&&ptr[l]<127?ptr[l]:'.' ); OUTS "\n" ); } } } } } catch( ... ) { } } } } CloseHandle( hFileMapping ); CloseHandle( hFile ); #else // WIN32 // UNIX code OUTS "UNIX Stack Trace Currently unavailable\n" ); #endif // WIN32 return output; } #ifdef WIN32 char *demangleMSDEVFuncName( char *mangledName, char funcName[], int funcNameMax, char args[], int maxArgs, int &numArgs ) { // Print out arguments. This is a big pain in the ass // because the argument list needs to be parsed. // This fills in the funcName and args buffers. // Both of which need to pass in buffer sizes. // numArgs is filled out. // Returns a full string ready for printing or NULL on error // The args array is encoded as follows: // D=char, E=uchar, F=short, G=ushort, H=int, I=uint, // J=, K=, L=, M=float, N=double, O=, P=ptr, Q=, R=, // S=, T=, U=STRUCT, V=, W=, X=void, Y=, Z=... static char demangled[128] = {0,}; memset( demangled, 0, 128 ); numArgs = 0; char *atomicTypes[] = { "REF", "", "", "char", "uchar", "short", "ushort", "int", "uint", "", "", "", "float", "double", "", "PTR", "", "", "", "", "STRUCT", "", "", "void", "", "..." }; int retType = 0, funcType; enum {sSTART,sNAME,sCLASSNAME,sFUNCYPE,sERROR,sRETTYPE,sSTRUCT,sARGS,sTYPE,sRETTYPEDONE,sARGSDONE,sEND}; enum {ftFREEFUNC, ftMETHOD, ftVIRTUAL, ftSTATIC,}; char name[128]={0,}; char classname[128]={0,}; int state = sSTART; int stateStack[30]; int stateStackTop = 0; int lastType = 0; #define PUSHSTATE stateStack[stateStackTop++] = state; #define POPSTATE state = stateStack[--stateStackTop]; char *p = mangledName; while( *p || state == sEND ) { switch( state ) { case sSTART: if( *p == '_' ) { strncpy( funcName, p, funcNameMax-1 ); funcName[funcNameMax-1] = 0; return NULL; } if( *p == '?' ) state = sNAME; else state = sERROR; break; case sNAME: if( *p=='@' && *(p+1)=='@' ) { p++; state = sFUNCYPE; } else if( *p=='@' ) state = sCLASSNAME; else name[strlen(name)]=*p; break; case sCLASSNAME: if( *p == '@' && *(p+1)=='@' ) { p++; state = sFUNCYPE; } else classname[strlen(classname)]=*p; break; case sFUNCYPE: if( *p=='Y' ) funcType = ftFREEFUNC; if( *p=='Q' ) funcType = ftMETHOD; if( *p=='U' ) funcType = ftVIRTUAL; if( *p=='S' ) funcType = ftSTATIC; // Skip const, volatile, etc. p++; if( funcType == ftMETHOD || funcType == ftVIRTUAL ) { p++;// Some unknown parameter, mostly 'E' // Maybe it stands for "this" //args[numArgs++] = 'P'; //if( numArgs >= maxArgs ) state = sERROR; } state = sRETTYPE; break; case sTYPE: if( *p == '?' ) { p++; if( *p != 'B' && *p != 'A' ) state = sERROR; // 'B' means const, 'A' means copy? break; } else if( *p == 'P' || *p == 'Q' || *p == 'A' ) { if(lastType==0) lastType='P'; p++; // Read the modifier if( !(*p>='A' && *p<='C') ) state=sERROR; else { PUSHSTATE; } } else if( *p>='D' && *p<='O' || *p == 'X' ) { // Simple atomic type if(lastType==0) lastType=*p; } else if( *p == 'U' ) { if(lastType==0) lastType=*p; // A structure, gobble it up while( *p++ != '@' ); } else if( *p == 'Y' ) { // An array length, gobble it up do { p++; } while( *p >= '0' && *p <= '9' ); p--; break; } if( stateStackTop > 0 ) POPSTATE; break; case sRETTYPE: lastType = 0; state = sRETTYPEDONE; PUSHSTATE; state = sTYPE; p--; break; case sRETTYPEDONE: retType = lastType; state = sARGS; p--; break; case sARGS: if( *p=='@' ) state = sEND; else if( *p=='Z' && *(p+1)!='Z' ) { //argCount = 0; state = sEND; } else if( *p=='Z' && *(p+1)=='Z' ) { args[numArgs++] = 'Z'; if( numArgs >= maxArgs ) state = sERROR; else state = sEND; } else { lastType = 0; state = sARGSDONE; PUSHSTATE; state = sTYPE; p--; } break; case sARGSDONE: args[numArgs++] = lastType; if( numArgs >= maxArgs ) state = sERROR; else state = sARGS; p--; break; case sEND: { strcat( demangled, classname ); if( *classname ) strcat( demangled, "::" ); strcat( demangled, name ); strncpy( funcName, demangled, funcNameMax-1 ); funcName[funcNameMax-1] = 0; *demangled = 0; if((char)retType >= 'A') { strcat( demangled, atomicTypes[retType-'A'] ); strcat( demangled, " " ); strcat( demangled, classname ); if( *classname ) strcat( demangled, "::" ); strcat( demangled, name ); strcat( demangled, "(" ); for( int i=0; i= 'A' && args[i] <= 'Z' ) { strcat( demangled, i==0?" ":", " ); strcat( demangled, atomicTypes[args[i]-'A'] ); } } strcat( demangled, " )" ); } else { strcpy(demangled, funcName); } goto stop; } case sERROR: return NULL; goto stop; } p++; } stop:; return demangled; } #endif #ifdef REGRESSION // This is test code for the name mangler parser void main( int argc, char **argv ) { void regressionTestDemangler(); } void regressionTestDemangler() { char *cases[] = { "void oink( Oink * )", "?oink@@YAXPAUOink@@@Z", "void oink( PTR )", "void oink( const int * )", "?oink@@YAXPBH@Z", "void oink( PTR )", "void oink( int * const )", "?oink@@YAXQAH@Z", "void oink( PTR )", "void oink( const int & )", "?oink@@YAXABH@Z", "void oink( PTR )", "void oink( volatile int * )", "?oink@@YAXPCH@Z", "void oink( PTR )", "void oink( int c[4][1] )", "?oink@@YAXQAY00H@Z", "void oink( PTR )", "void oink( int c[4] )", "?oink@@YAXQAH@Z", "void oink( PTR )", "void oink( )", "?oink@@YAXXZ", "void oink( void )", "void Boink::oink()", "?oink@Boink@@QAEXXZ", "void Boink::oink( void )", "void Boink::oink() const", "?oink@Boink@@QBEXXZ", "void Boink::oink( void )", "void Boink::oink() volatile", "?oink@Boink@@QCEXXZ", "void Boink::oink( void )", "virtual void Boink::oink()", "?oink@Boink@@UAEXXZ", "void Boink::oink( void )", "static void Boink::oink()", "?oink@Boink@@SAXXZ", "void Boink::oink( void )", "void oink( int c[4][2] )", "?oink@@YAXQAY01H@Z", "void oink( PTR )", "void oink( int c[5][2] )", "?oink@@YAXQAY01H@Z", "void oink( PTR )", "void oink( int c[5][2][1] )", "?oink@@YAXQAY110H@Z", "void oink( PTR )", "void oink( char, char )", "?oink@@YAXDD@Z", "void oink( char, char )", "void oink( Oink )", "?oink@@YAXUOink@@@Z", "void oink( STRUCT )", "Boink oink( )", "?oink@@YA?AUBoink@@XZ", "STRUCT oink( void )", "Boink *oink( )", "?oink@@YAPAUBoink@@XZ", "PTR oink( void )", "void oink( int [] )", "?oink@@YAXQAH@Z", "void oink( PTR )", "void oink( int, ... )", "?oink@@YAXHZZ", "void oink( int, ... )", "const int oink( )", "?oink@@YA?BHXZ", "int oink( void )", "void *oink( )", "?oink@@YAPAXXZ", "PTR oink( void )", "int &oink( )", "?oink@@YAAAHXZ", "PTR oink( void )", "void oink( int * )", "?oink@@YAXPAH@Z", "void oink( PTR )", "void oink( int ** )", "?oink@@YAXPAPAH@Z", "void oink( PTR )", "void oink( int & )", "?oink@@YAXAAH@Z", "void oink( PTR )", "int oink( char *, char ** )", "?oink@@YAHPADPAPAD@Z", "int oink( PTR, PTR )", "char oink( )", "?oink@@YADXZ", "char oink( void )", "unsigned char oink( )", "?oink@@YAEXZ", "uchar oink( void )", "short oink( )", "?oink@@YAFXZ", "short oink( void )", "unsigned short oink( )", "?oink@@YAGXZ", "ushort oink( void )", "int oink( )", "?oink@@YAHXZ", "int oink( void )", "unsigned int oink( )", "?oink@@YAIXZ", "uint oink( void )", "float oink( )", "?oink@@YAMXZ", "float oink( void )", "double oink( )", "?oink@@YANXZ", "double oink( void )", "void oink( char )", "?oink@@YAXD@Z", "void oink( char )", "void oink( int )", "?oink@@YAXH@Z", "void oink( int )", // TODO: function ptrs, operators //"void oink( __int64 )", "?oink@@YAX_J@Z", //"typedef void (*FPTR)();" //"void oink( FPTR )", "?oink@@YAXP6AXXZ@Z", //"typedef void (*FPTR)(int);" //"void oink( FPTR )", "?oink@@YAXP6AXH@Z@Z", //"int Boink::operator +(int a)", "??HBoink@@QAEHH@Z", //"int Boink::operator -(int a)", "??GBoink@@QAEHH@Z", //"Boink::operator char *()", "??BBoink@@QAEPADXZ", }; int count = sizeof(cases)/sizeof(cases[0]); for( int i=0; i