//============================================================================= /** * @file Stack_Trace.cpp * * @brief Encapsulate string representation of stack trace. * * Some platform-specific areas of this code have been adapted from * examples found elsewhere. Specifically, * - the GLIBC stack generation uses the documented "backtrace" API * and is adapted from examples shown in relevant documentation * and repeated elsewhere, e.g., * http://www.linuxselfhelp.com/gnu/glibc/html_chapter/libc_33.html * - the Solaris stack generation is adapted from a 1995 post on * comp.unix.solaris by Bart Smaalders, * http://groups.google.com/group/comp.unix.solaris/browse_thread/thread/8b9f3de8be288f1c/31550f93a48231d5?lnk=gst&q=how+to+get+stack+trace+on+solaris+group:comp.unix.solaris#31550f93a48231d5 * - VxWorks kernel-mode stack tracing is adapted from a code example * in the VxWorks FAQ at http://www.xs4all.nl/~borkhuis/vxworks/vxw_pt5.html * although the undocumented functions it uses are also mentioned in * various documents available on the WindRiver support website. * * If you add support for a new platform, please add a bullet to the * above list with durable references to the origins of your code. */ //============================================================================= #include "ace/Stack_Trace.h" #include "ace/Min_Max.h" #include "ace/OS_NS_string.h" #include "ace/OS_NS_stdio.h" ACE_BEGIN_VERSIONED_NAMESPACE_DECL /* This is ugly, simply because it's very platform-specific. */ const char ACE_Stack_Trace::UNSUPPORTED[] = ""; const char ACE_Stack_Trace::UNABLE_TO_GET_TRACE[] = ""; ACE_Stack_Trace::ACE_Stack_Trace (ssize_t starting_frame_offset, size_t num_frames) : buflen_(0) { // cannot initialize arrays, so we must assign. this->buf_[0] = '\0'; this->generate_trace (starting_frame_offset, num_frames); } const char* ACE_Stack_Trace::c_str () const { return &this->buf_[0]; } static inline size_t determine_starting_frame (ssize_t initial_frame, ssize_t offset) { return ACE_MAX( initial_frame + offset, static_cast(0)); } #if defined(ACE_FACE_SAFETY_BASE) && !defined(ACE_FACE_DEV) void ACE_Stack_Trace::generate_trace (ssize_t starting_frame_offset, size_t num_frames) { ACE_UNUSED_ARG (starting_frame_offset); ACE_UNUSED_ARG (num_frames); ACE_OS::strcpy (&this->buf_[0], UNABLE_TO_GET_TRACE); } #elif (defined(__GLIBC__) || defined(ACE_HAS_EXECINFO_H)) // This is the code for glibc # include void ACE_Stack_Trace::generate_trace (ssize_t starting_frame_offset, size_t num_frames) { const size_t MAX_FRAMES = 128; const ssize_t INITIAL_FRAME = 3; void* stack[MAX_FRAMES]; size_t stack_size = 0; char** stack_syms; if (num_frames == 0) num_frames = MAX_FRAMES; size_t starting_frame = determine_starting_frame (INITIAL_FRAME, starting_frame_offset); stack_size = ::backtrace (&stack[0], sizeof(stack)/sizeof(stack[0])); if (stack_size != 0) { stack_syms = ::backtrace_symbols (stack, stack_size); for (size_t i = starting_frame; i < stack_size && num_frames > 0; i++, num_frames--) { // this could be more efficient by remembering where we left off in buf_ char *symp = &stack_syms[i][0]; while (this->buflen_ < SYMBUFSIZ - 2 && *symp != '\0') { this->buf_[this->buflen_++] = *symp++; } this->buf_[this->buflen_++] = '\n'; // put a newline at the end } this->buf_[this->buflen_] = '\0'; // zero terminate the string ::free (stack_syms); } else { ACE_OS::strcpy (&this->buf_[0], UNABLE_TO_GET_TRACE); } } #elif defined(VXWORKS) && !defined(__RTP__) # include # include // hopefully this is enough to get all the necessary #defines. struct ACE_Stack_Trace_stackstate { ACE_Stack_Trace_stackstate (char* b, size_t& bl, size_t nf, size_t sf) : buf(b), buflen(bl), num_frames(nf), starting_frame(sf) { } char* buf; size_t& buflen; size_t num_frames; size_t starting_frame; }; //@TODO: Replace with a TSS-based pointer to avoid problems in multithreaded environs, // or use a mutex to serialize access to this. static ACE_Stack_Trace_stackstate* ACE_Stack_Trace_stateptr = 0; static void ACE_Stack_Trace_Add_Frame_To_Buf (INSTR *caller, INSTR *func, int nargs, ACE_VX_USR_ARG_T *args) { if (ACE_Stack_Trace_stateptr == 0) return; ACE_Stack_Trace_stackstate *stackstate = ACE_Stack_Trace_stateptr; // Decrement the num_frames and starting_frame elements, // then see if we're ready to start or ready to finish. --stackstate->num_frames; --stackstate->starting_frame; if (stackstate->num_frames == 0 || stackstate->starting_frame > 0) return; // These are references so that the structure gets updated // in the code below. char*& buf = stackstate->buf; size_t& len = stackstate->buflen; // At some point try using symFindByValue() to lookup func (and caller?) // to print out symbols rather than simply addresses. // VxWorks can pass -1 for "nargs" if there was an error if (nargs == -1) nargs = 0; len += ACE_OS::sprintf (&buf[len], "%p: %p (", caller, func); for (int i = 0; i < nargs; ++i) { if (i != 0) len += ACE_OS::sprintf (&buf[len], ", "); len += ACE_OS::sprintf(&buf[len], "0x" ACE_VX_ARG_FORMAT, args[i]); } len += ACE_OS::sprintf(&buf[len], ")\n"); } void ACE_Stack_Trace::generate_trace (ssize_t starting_frame_offset, size_t num_frames) { const size_t MAX_FRAMES = 128; const ssize_t INITIAL_FRAME = 3; if (num_frames == 0) num_frames = MAX_FRAMES; size_t starting_frame = determine_starting_frame (INITIAL_FRAME, starting_frame_offset); ACE_Stack_Trace_stackstate state (&this->buf_[0], this->buflen_, num_frames, starting_frame); REG_SET regs; taskRegsGet (taskIdSelf(), ®s); // Maybe we should take a lock here to guard stateptr? ACE_Stack_Trace_stateptr = &state; trcStack (®s, (FUNCPTR)ACE_Stack_Trace_Add_Frame_To_Buf, taskIdSelf ()); } #elif defined(VXWORKS) && defined(__RTP__) # include # include # include // See memEdrLib.c in VxWorks RTP sources for an example of stack tracing. static STATUS ace_vx_rtp_pc_validate (INSTR *pc, TRC_OS_CTX *) { return ALIGNED (pc, sizeof (INSTR)) ? OK : ERROR; } void ACE_Stack_Trace::generate_trace (ssize_t starting_frame_offset, size_t num_frames) { const size_t MAX_FRAMES = 128; const ssize_t INITIAL_FRAME = 2; if (num_frames == 0) num_frames = MAX_FRAMES; size_t starting_frame = determine_starting_frame (INITIAL_FRAME, starting_frame_offset); jmp_buf regs; setjmp (regs); TASK_DESC desc; if (taskInfoGet (taskIdSelf (), &desc) == ERROR) return; TRC_OS_CTX osCtx; osCtx.stackBase = desc.td_pStackBase; osCtx.stackEnd = desc.td_pStackEnd; #if (ACE_VXWORKS < 0x690) osCtx.pcValidateRtn = reinterpret_cast (ace_vx_rtp_pc_validate); #else // reinterpret_cast causes an error osCtx.pcValidateRtn = ace_vx_rtp_pc_validate; #endif char *fp = _WRS_FRAMEP_FROM_JMP_BUF (regs); INSTR *pc = _WRS_RET_PC_FROM_JMP_BUF (regs); for (size_t depth = 0; depth < num_frames + starting_frame; ++depth) { char *prevFp; INSTR *prevPc; INSTR *prevFn; if (trcLibFuncs.lvlInfoGet (fp, pc, &osCtx, &prevFp, &prevPc, &prevFn) == ERROR) { ACE_OS::strcpy (this->buf_, UNABLE_TO_GET_TRACE); return; } if(prevPc == 0 || prevFp == 0) break; if (depth >= starting_frame) { //Hopefully a future version of VxWorks will have a system call //for an RTP to query its own symbols, but this is not possible now. //An enhancement request has been filed under WIND00123307. const char *fnName = "(no symbols)"; static const int N_ARGS = 12; ACE_VX_USR_ARG_T buf[N_ARGS]; ACE_VX_USR_ARG_T *pArgs = 0; int numArgs = trcLibFuncs.lvlArgsGet (prevPc, prevFn, prevFp, buf, N_ARGS, &pArgs); // VxWorks can return -1 for "numArgs" if there was an error if (numArgs == -1) numArgs = 0; size_t len = ACE_OS::strlen (this->buf_); size_t space = SYMBUFSIZ - len - 1; char *cursor = this->buf_ + len; size_t written = ACE_OS::snprintf (cursor, space, "%p %s", prevFn, fnName); cursor += written; space -= written; if (space < 1) return; //no point in logging when we're out of buffer for (int arg = 0; numArgs != -1 && pArgs && arg < numArgs; ++arg) { if (arg == 0) *cursor++ = '(', --space; written = ACE_OS::snprintf (cursor, space, (arg < numArgs - 1) ? ACE_VX_ARG_FORMAT ", " : ACE_VX_ARG_FORMAT, pArgs[arg]); cursor += written; space -= written; if (space && arg == numArgs - 1) *cursor++ = ')', --space; } if (space) *cursor++ = '\n', --space; *cursor++ = 0; //we saved space for the null terminator } fp = prevFp; pc = prevPc; } } #elif defined(sun) /* * walks up call stack, printing library:routine+offset for each routine */ # include # include # include # include # include # define ACE_STACK_TRACE_BIAS 0 # if defined(sparc) || defined(__sparc) # define ACE_STACK_TRACE_FLUSHWIN() asm("ta 3"); # define ACE_STACK_TRACE_FRAME_PTR_INDEX 1 # define ACE_STACK_TRACE_SKIP_FRAMES 0 # if defined(__sparcv9) # undef ACE_STACK_TRACE_BIAS # define ACE_STACK_TRACE_BIAS 2047 # endif # endif # if defined(i386) || defined(__i386) # define ACE_STACK_TRACE_FLUSHWIN() # define ACE_STACK_TRACE_FRAME_PTR_INDEX 3 # define ACE_STACK_TRACE_SKIP_FRAMES 0 # endif # if defined(__amd64) || defined(__x86_64) # define ACE_STACK_TRACE_FLUSHWIN() # define ACE_STACK_TRACE_FRAME_PTR_INDEX 5 # define ACE_STACK_TRACE_SKIP_FRAMES 0 # endif # if defined(ppc) || defined(__ppc) # define ACE_STACK_TRACE_FLUSHWIN() # define ACE_STACK_TRACE_FRAME_PTR_INDEX 0 # define ACE_STACK_TRACE_SKIP_FRAMES 2 # endif static frame* cs_frame_adjust(frame* sp) { unsigned char* sp_byte = (unsigned char*)sp; sp_byte += ACE_STACK_TRACE_BIAS; return (frame*) sp_byte; } /* this function walks up call stack, calling user-supplied function once for each stack frame, passing the pc and the user-supplied usrarg as the argument. */ static int cs_operate(int (*func)(void *, void *), void * usrarg, size_t starting_frame, size_t num_frames_arg) { ACE_STACK_TRACE_FLUSHWIN(); jmp_buf env; setjmp(env); frame* sp = cs_frame_adjust((frame*) env[ACE_STACK_TRACE_FRAME_PTR_INDEX]); // make a copy of num_frames_arg to eliminate the following warning on some // solaris platforms: // Stack_Trace.cpp:318: warning: argument `size_t num_frames' might be clobbered by `longjmp' or `vfork' size_t num_frames = num_frames_arg; // I would like to use ACE_MAX below rather than ?:, but // I get linker relocation errors such as the following when // I use it: // ld: fatal: relocation error: file: .shobj/Stack_Trace.o section: // .rela.debug_line symbol: : relocation against a discarded symbol, // symbol is part of discarded section: // .text%const __type_0&ace_max(const __type_0&,const __type_0&) // const size_t starting_skip = starting_frame - 1; #if ACE_STACK_TRACE_SKIP_FRAMES == 0 size_t skip_frames = starting_skip; #else size_t skip_frames = ACE_STACK_TRACE_SKIP_FRAMES > starting_skip ? ACE_STACK_TRACE_SKIP_FRAMES : starting_skip; #endif /* ACE_STACK_TRACE_SKIP_FRAMES == 0 */ size_t i; for (i = 0; i < skip_frames && sp; ++i) { sp = cs_frame_adjust((frame*) sp->fr_savfp); } i = 0; while ( sp && sp->fr_savpc && ++i && --num_frames && (*func)((void*)sp->fr_savpc, usrarg)) { sp = cs_frame_adjust((frame*) sp->fr_savfp); } return(i); } static int add_frame_to_buf (void* pc, void* usrarg) { char* buf = (char*)usrarg; Dl_info info; const char* func = "??"; const char* lib = "??"; if(dladdr(pc, & info) != 0) { lib = (const char *) info.dli_fname; func = (const char *) info.dli_sname; } (void) ACE_OS::snprintf(buf, ACE_Stack_Trace::SYMBUFSIZ, "%s%s:%s+0x%x\n", buf, lib, func, //@@ Should the arithmetic on the following //line be done with two void* ptrs? The result //would be ptrdiff_t, and what is the correct //sprintf() conversion character for that? (size_t)pc - (size_t)info.dli_saddr); return(1); } void ACE_Stack_Trace::generate_trace (ssize_t starting_frame_offset, size_t num_frames) { const size_t MAX_FRAMES = 128; const ssize_t INITIAL_FRAME = 3; if (num_frames == 0) num_frames = MAX_FRAMES; size_t starting_frame = determine_starting_frame (INITIAL_FRAME, starting_frame_offset); cs_operate (&add_frame_to_buf, &this->buf_[0], starting_frame, num_frames); } #elif defined(ACE_WIN64) && (_WIN32_WINNT <= _WIN32_WINNT_WIN2K) # if defined(_MSC_VER) # define STRING2(X) #X # define STRING(X) STRING2(X) # pragma message (__FILE__ "(" STRING(__LINE__) ") : warning: stack traces"\ " can't be generated on 64-bit Windows when _WIN32_WINNT is less than "\ "0x501.") # undef STRING # undef STRING2 # endif /*_MSC_VER*/ void ACE_Stack_Trace::generate_trace (ssize_t, size_t) { ACE_OS::strcpy (&this->buf_[0], ""); } #elif defined(ACE_WIN32) && !defined(ACE_HAS_WINCE) && !defined (__MINGW32__) \ && !defined(__BORLANDC__) # include # include # define MAXTEXT 5000 # define SYMSIZE 100 //@TODO: Test with WCHAR //@TODO: Need a common CriticalSection since dbghelp is not thread-safe typedef struct _dbghelp_functions { HMODULE hMod; //our handle to dbghelp.dll //these already have typedefs in DbgHelp.h DWORD64 (WINAPI *SymGetModuleBase64) (HANDLE hProc, DWORD64 dwAddr); PVOID (WINAPI *SymFunctionTableAccess64) (HANDLE hProc, DWORD64 AddrBase); typedef BOOL (WINAPI *SymFromAddr_t) (HANDLE hProc, DWORD64 Addr, PDWORD64 Disp, PSYMBOL_INFO Symbol); SymFromAddr_t SymFromAddr; typedef BOOL (WINAPI *SymGetLineFromAddr64_t) (HANDLE hProc, DWORD64 dwAddr, PDWORD pdwDisplacement, PIMAGEHLP_LINE64 Line); SymGetLineFromAddr64_t SymGetLineFromAddr64; typedef DWORD (WINAPI *SymSetOptions_t) (DWORD SymOptions); SymSetOptions_t SymSetOptions; typedef DWORD (WINAPI *SymGetOptions_t) (); SymGetOptions_t SymGetOptions; typedef BOOL (WINAPI *SymInitialize_t) (HANDLE hProc, PCTSTR UserSearchPath, BOOL invasive); SymInitialize_t SymInitialize; typedef BOOL (WINAPI *StackWalk64_t) (DWORD MachineType, HANDLE hPRoc, HANDLE hThr, LPSTACKFRAME64 StackFrame, PVOID ContextRecord, PREAD_PROCESS_MEMORY_ROUTINE64 RMRoutine, PFUNCTION_TABLE_ACCESS_ROUTINE64 FTARoutine, PGET_MODULE_BASE_ROUTINE64 GMBRoutine, PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress); StackWalk64_t StackWalk64; typedef BOOL (WINAPI *SymCleanup_t) (HANDLE hProc); SymCleanup_t SymCleanup; } dbghelp_functions; # pragma warning (push) # pragma warning (disable:4706) static bool load_dbghelp_library_if_needed (dbghelp_functions *pDbg) { //@TODO: See codeproject's StackWalker.cpp for the list of locations to //search so we get the "enhanced" dbghelp if the user has it but it is not //first on the path. if (!(pDbg->hMod = ACE_TEXT_LoadLibrary (ACE_TEXT ("Dbghelp")))) return false; //@TODO: Cache this so we don't have to re-link every time. When to unload? # define LINK(TYPE, NAME) (pDbg->NAME = \ (TYPE) GetProcAddress (pDbg->hMod, #NAME)) # define LINK_T(NAME) LINK (dbghelp_functions::NAME##_t, NAME) return LINK (PGET_MODULE_BASE_ROUTINE64, SymGetModuleBase64) && LINK (PFUNCTION_TABLE_ACCESS_ROUTINE64, SymFunctionTableAccess64) && LINK_T (SymFromAddr) && LINK_T (SymGetLineFromAddr64) && LINK_T (SymSetOptions)&& LINK_T (SymGetOptions) && LINK_T (SymInitialize) && LINK_T (StackWalk64) && LINK_T (SymCleanup); # undef LINK # undef LINK_T } # pragma warning (pop) struct frame_state { STACKFRAME64 sf; PSYMBOL_INFO pSym; dbghelp_functions *pDbg; }; static int add_frame_to_buf (struct frame_state const *fs, void *usrarg) { if (fs == 0 || usrarg == 0) return -1; char *buf = static_cast (usrarg); DWORD64 disp; DWORD64 dwModBase = fs->pDbg->SymGetModuleBase64 (GetCurrentProcess (), fs->sf.AddrPC.Offset); if (fs->pDbg->SymFromAddr (GetCurrentProcess (), fs->sf.AddrPC.Offset, &disp, fs->pSym)) { IMAGEHLP_LINE64 line = {sizeof (IMAGEHLP_LINE64)}; DWORD lineDisp; if (fs->pDbg->SymGetLineFromAddr64 (GetCurrentProcess (), fs->sf.AddrPC.Offset, &lineDisp, &line)) { (void) ACE_OS::snprintf (buf, ACE_Stack_Trace::SYMBUFSIZ, "%s%s() %s: %d + 0x%x\n", buf, fs->pSym->Name, line.FileName, line.LineNumber, lineDisp); } else { (void) ACE_OS::snprintf (buf, ACE_Stack_Trace::SYMBUFSIZ, "%s%s()+0x%x [0x%x]\n", buf, fs->pSym->Name, disp, fs->sf.AddrPC.Offset - dwModBase); } } else { (void) ACE_OS::snprintf (buf, ACE_Stack_Trace::SYMBUFSIZ, "%s[0x%x]\n", buf, fs->sf.AddrPC.Offset - dwModBase); } return 0; } static void emptyStack () { } #if defined (_MSC_VER) # pragma warning(push) // Suppress warning 4748 "/GS can not protect parameters and local // variables from local buffer overrun because optimizations are // disabled in function" # pragma warning(disable: 4748) #endif /* _MSC_VER */ static int cs_operate(int (*func)(struct frame_state const *, void *), void *usrarg, size_t starting_frame, size_t num_frames) { dbghelp_functions dbg; if (!load_dbghelp_library_if_needed (&dbg)) { ACE_OS::strcpy (static_cast (usrarg), ""); if (dbg.hMod) FreeLibrary (dbg.hMod); return 1; } frame_state fs; ZeroMemory (&fs.sf, sizeof (fs.sf)); fs.pDbg = &dbg; emptyStack (); //Not sure what this should do, Chad? CONTEXT c; ZeroMemory (&c, sizeof (CONTEXT)); c.ContextFlags = CONTEXT_FULL; # if defined (_M_IX86) DWORD machine = IMAGE_FILE_MACHINE_I386; __asm { call x x: pop eax mov c.Eip, eax mov c.Ebp, ebp mov c.Esp, esp } fs.sf.AddrPC.Offset = c.Eip; fs.sf.AddrStack.Offset = c.Esp; fs.sf.AddrFrame.Offset = c.Ebp; fs.sf.AddrPC.Mode = AddrModeFlat; fs.sf.AddrStack.Mode = AddrModeFlat; fs.sf.AddrFrame.Mode = AddrModeFlat; # elif defined (_M_X64) DWORD machine = IMAGE_FILE_MACHINE_AMD64; RtlCaptureContext (&c); fs.sf.AddrPC.Offset = c.Rip; fs.sf.AddrFrame.Offset = c.Rsp; //should be Rbp or Rdi instead? fs.sf.AddrStack.Offset = c.Rsp; fs.sf.AddrPC.Mode = AddrModeFlat; fs.sf.AddrFrame.Mode = AddrModeFlat; fs.sf.AddrStack.Mode = AddrModeFlat; # elif defined (_M_IA64) DWORD machine = IMAGE_FILE_MACHINE_IA64; RtlCaptureContext (&c); fs.sf.AddrPC.Offset = c.StIIP; fs.sf.AddrFrame.Offset = c.RsBSP; fs.sf.AddrBStore.Offset = c.RsBSP; fs.sf.AddrStack.Offset = c.IntSp; fs.sf.AddrPC.Mode = AddrModeFlat; fs.sf.AddrFrame.Mode = AddrModeFlat; fs.sf.AddrBStore.Mode = AddrModeFlat; fs.sf.AddrStack.Mode = AddrModeFlat; # elif defined (_M_ARM) DWORD machine = IMAGE_FILE_MACHINE_ARM; fs.sf.AddrPC.Offset = c.Pc; fs.sf.AddrFrame.Offset = c.R11; fs.sf.AddrStack.Offset = c.Sp; fs.sf.AddrPC.Mode = AddrModeFlat; fs.sf.AddrFrame.Mode = AddrModeFlat; fs.sf.AddrStack.Mode = AddrModeFlat; # elif defined (_M_ARM64) DWORD machine = IMAGE_FILE_MACHINE_ARM64; fs.sf.AddrPC.Offset = c.Pc; fs.sf.AddrFrame.Offset = c.Fp; fs.sf.AddrStack.Offset = c.Sp; fs.sf.AddrPC.Mode = AddrModeFlat; fs.sf.AddrFrame.Mode = AddrModeFlat; fs.sf.AddrStack.Mode = AddrModeFlat; # endif fs.pSym = (PSYMBOL_INFO) GlobalAlloc (GMEM_FIXED, sizeof (SYMBOL_INFO) + sizeof (ACE_TCHAR) * (SYMSIZE - 1)); fs.pSym->SizeOfStruct = sizeof (SYMBOL_INFO); fs.pSym->MaxNameLen = SYMSIZE * sizeof (ACE_TCHAR); dbg.SymSetOptions (SYMOPT_DEFERRED_LOADS | SYMOPT_LOAD_LINES | SYMOPT_FAIL_CRITICAL_ERRORS | dbg.SymGetOptions ()); dbg.SymInitialize (GetCurrentProcess (), 0, true); //What does the "true" parameter mean when tracing the current process? for (size_t current_frame = 0; current_frame < num_frames + starting_frame; ++current_frame) { BOOL ok = dbg.StackWalk64 (machine, GetCurrentProcess (), GetCurrentThread (), &fs.sf, &c, 0, dbg.SymFunctionTableAccess64, dbg.SymGetModuleBase64, 0); if (!ok || fs.sf.AddrFrame.Offset == 0) break; if (current_frame < starting_frame) continue; func (&fs, usrarg); } dbg.SymCleanup (GetCurrentProcess ()); GlobalFree (fs.pSym); FreeLibrary (dbg.hMod); return 0; } #if defined (_MSC_VER) // Restore the warning state to what it was before entry. # pragma warning(pop) #endif /* _MSC_VER */ void ACE_Stack_Trace::generate_trace (ssize_t starting_frame_offset, size_t num_frames) { const size_t MAX_FRAMES = 128; const ssize_t INITIAL_FRAME = 3; if (num_frames == 0) num_frames = MAX_FRAMES; size_t starting_frame = determine_starting_frame (INITIAL_FRAME, starting_frame_offset); cs_operate (&add_frame_to_buf, &this->buf_[0], starting_frame, num_frames); } #else // Unsupported platform void ACE_Stack_Trace::generate_trace (ssize_t, size_t) { ACE_OS::strcpy (&this->buf_[0], UNSUPPORTED); } #endif ACE_END_VERSIONED_NAMESPACE_DECL