/** * ========================================================================= * File : debug.cpp * Project : 0 A.D. * Description : platform-independent debug support code. * ========================================================================= */ // license: GPL; see lib/license.txt #include "precompiled.h" #include "debug.h" #include #include #include "app_hooks.h" #include "os_path.h" #include "path_util.h" #include "lib/allocators/allocators.h" // page_aligned_alloc #include "fnv_hash.h" #include "lib/sysdep/cpu.h" // cpu_CAS #include "lib/sysdep/sysdep.h" #if OS_WIN #include "lib/sysdep/os/win/wdbg_heap.h" #endif ERROR_ASSOCIATE(ERR::SYM_NO_STACK_FRAMES_FOUND, "No stack frames found", -1); ERROR_ASSOCIATE(ERR::SYM_UNRETRIEVABLE_STATIC, "Value unretrievable (stored in external module)", -1); ERROR_ASSOCIATE(ERR::SYM_UNRETRIEVABLE_REG, "Value unretrievable (stored in register)", -1); ERROR_ASSOCIATE(ERR::SYM_TYPE_INFO_UNAVAILABLE, "Error getting type_info", -1); ERROR_ASSOCIATE(ERR::SYM_INTERNAL_ERROR, "Exception raised while processing a symbol", -1); ERROR_ASSOCIATE(ERR::SYM_UNSUPPORTED, "Symbol type not (fully) supported", -1); ERROR_ASSOCIATE(ERR::SYM_CHILD_NOT_FOUND, "Symbol does not have the given child", -1); ERROR_ASSOCIATE(ERR::SYM_NESTING_LIMIT, "Symbol nesting too deep or infinite recursion", -1); ERROR_ASSOCIATE(ERR::SYM_SINGLE_SYMBOL_LIMIT, "Symbol has produced too much output", -1); ERROR_ASSOCIATE(INFO::SYM_SUPPRESS_OUTPUT, "Symbol was suppressed", -1); // needed when writing crashlog static const size_t LOG_CHARS = 16384; wchar_t debug_log[LOG_CHARS]; wchar_t* debug_log_pos = debug_log; // write to memory buffer (fast) void debug_wprintf_mem(const wchar_t* fmt, ...) { const ssize_t chars_left = (ssize_t)LOG_CHARS - (debug_log_pos-debug_log); debug_assert(chars_left >= 0); // potentially not enough room for the new string; throw away the // older half of the log. we still protect against overflow below. if(chars_left < 512) { const size_t copy_size = sizeof(wchar_t) * LOG_CHARS/2; wchar_t* const middle = &debug_log[LOG_CHARS/2]; cpu_memcpy(debug_log, middle, copy_size); memset(middle, 0, copy_size); debug_log_pos -= LOG_CHARS/2; // don't assign middle (may leave gap) } // write into buffer (in-place) va_list args; va_start(args, fmt); int len = vswprintf(debug_log_pos, chars_left-2, fmt, args); va_end(args); debug_log_pos += len+2; wcscpy_s(debug_log_pos-2, 3, L"\r\n"); } // need to shoehorn printf-style variable params into // the OutputDebugString call. // - don't want to split into multiple calls - would add newlines to output. // - fixing Win32 _vsnprintf to return # characters that would be written, // as required by C99, looks difficult and unnecessary. if any other code // needs that, implement GNU vasprintf. // - fixed size buffers aren't nice, but much simpler than vasprintf-style // allocate+expand_until_it_fits. these calls are for quick debug output, // not loads of data, anyway. // rationale: static data instead of std::set to allow setting at any time. // we store FNV hash of tag strings for fast comparison; collisions are // extremely unlikely and can only result in displaying more/less text. static const size_t MAX_TAGS = 20; static u32 tags[MAX_TAGS]; static size_t num_tags; void debug_filter_add(const char* tag) { const u32 hash = fnv_hash(tag); // make sure it isn't already in the list for(size_t i = 0; i < MAX_TAGS; i++) if(tags[i] == hash) return; // too many already? if(num_tags == MAX_TAGS) { debug_assert(0); // increase MAX_TAGS return; } tags[num_tags++] = hash; } void debug_filter_remove(const char* tag) { const u32 hash = fnv_hash(tag); for(size_t i = 0; i < MAX_TAGS; i++) // found it if(tags[i] == hash) { // replace with last element (avoid holes) tags[i] = tags[MAX_TAGS-1]; num_tags--; // can only happen once, so we're done. return; } } void debug_filter_clear() { std::fill(tags, tags+MAX_TAGS, 0); } bool debug_filter_allows(const char* text) { size_t i; for(i = 0; ; i++) { // no | found => no tag => should always be displayed if(text[i] == ' ' || text[i] == '\0') return true; if(text[i] == '|' && i != 0) break; } const u32 hash = fnv_hash(text, i); // check if entry allowing this tag is found for(i = 0; i < MAX_TAGS; i++) if(tags[i] == hash) return true; return false; } // max # characters (including \0) output by debug_printf in one call. const size_t DEBUG_PRINTF_MAX_CHARS = 1024; // refer to wdbg.cpp!debug_vsprintf before changing this #undef debug_printf // allowing #defining it out void debug_printf(const char* fmt, ...) { char buf[DEBUG_PRINTF_MAX_CHARS]; buf[ARRAY_SIZE(buf)-1] = '\0'; va_list ap; va_start(ap, fmt); const int len = vsnprintf(buf, DEBUG_PRINTF_MAX_CHARS, fmt, ap); debug_assert(len >= 0); va_end(ap); if(debug_filter_allows(buf)) debug_puts(buf); } void debug_printf(const wchar_t* fmt, ...) { wchar_t buf[DEBUG_PRINTF_MAX_CHARS]; buf[ARRAY_SIZE(buf)-1] = '\0'; va_list ap; va_start(ap, fmt); const int len = vswprintf(buf, DEBUG_PRINTF_MAX_CHARS, fmt, ap); debug_assert(len >= 0); va_end(ap); char buf2[DEBUG_PRINTF_MAX_CHARS]; size_t charsConverted; errno_t ret = wcstombs_s(&charsConverted, buf2, DEBUG_PRINTF_MAX_CHARS, buf, DEBUG_PRINTF_MAX_CHARS); debug_assert(ret == 0); debug_assert(charsConverted == wcslen(buf)); if(debug_filter_allows(buf2)) debug_puts(buf2); } //----------------------------------------------------------------------------- LibError debug_write_crashlog(const wchar_t* text) { // avoid potential infinite loop if an error occurs here. static uintptr_t in_progress; if(!cpu_CAS(&in_progress, 0, 1)) return ERR::REENTERED; // NOWARN OsPath path = OsPath(ah_get_log_dir())/"crashlog.txt"; FILE* f = fopen(path.string().c_str(), "w"); if(!f) { in_progress = 0; WARN_RETURN(ERR::FAIL); } fputwc(0xfeff, f); // BOM fwprintf(f, L"%ls\n", text); fwprintf(f, L"\n\n====================================\n\n"); // allow user to bundle whatever information they want ah_bundle_logs(f); fwprintf(f, L"Last known activity:\n\n %ls\n", debug_log); fclose(f); in_progress = 0; return INFO::OK; } //----------------------------------------------------------------------------- // output //----------------------------------------------------------------------------- // translates and displays the given strings in a dialog. // this is typically only used when debug_display_error has failed or // is unavailable because that function is much more capable. // implemented via sys_display_msgw; see documentation there. void debug_display_msgw(const wchar_t* caption, const wchar_t* msg) { sys_display_msgw(ah_translate(caption), ah_translate(msg)); } // when an error has come up and user clicks Exit, we don't want any further // errors (e.g. caused by atexit handlers) to come up, possibly causing an // infinite loop. it sucks to hide errors, but we assume that whoever clicked // exit really doesn't want to see any more errors. static bool exit_requested; // this logic is applicable to any type of error. special cases such as // suppressing certain expected WARN_ERRs are done there. static bool should_suppress_error(u8* suppress) { if(!suppress) return false; if(*suppress == DEBUG_SUPPRESS) return true; if(exit_requested) return true; return false; } static const size_t message_size_bytes = 256*KiB; // enough void debug_error_message_free(ErrorMessageMem* emm) { page_aligned_free(emm->pa_mem, message_size_bytes); } // split out of debug_display_error because it's used by the self-test. const wchar_t* debug_error_message_build( const wchar_t* description, const char* fn_only, int line, const char* func, size_t skip, void* context, ErrorMessageMem* emm) { // rationale: see ErrorMessageMem emm->pa_mem = page_aligned_alloc(message_size_bytes); if(!emm->pa_mem) return L"(insufficient memory to generate error message)"; wchar_t* const buf = (wchar_t*)emm->pa_mem; const size_t max_chars = message_size_bytes / sizeof(wchar_t); wchar_t* pos = buf; size_t chars_left = max_chars; int len; // header len = swprintf(pos, chars_left, L"%ls\r\n" L"Location: %hs:%d (%hs)\r\n" L"\r\n" L"Call stack:\r\n" L"\r\n", description, fn_only, line, func); if(len < 0) { fail: return L"(error while formatting error message)"; } pos += len; chars_left -= len; // append stack trace if(!context) skip += 2; // skip debug_error_message_build and debug_display_error LibError ret = debug_dump_stack(pos, chars_left, skip, context); if(ret == ERR::REENTERED) { len = swprintf(pos, chars_left, L"(cannot start a nested stack trace; what probably happened is that " L"an debug_assert/debug_warn/CHECK_ERR fired during the current trace.)" ); if(len < 0) goto fail; pos += len; chars_left -= len; } else if(ret != INFO::OK) { char description_buf[100] = {'?'}; len = swprintf(pos, chars_left, L"(error while dumping stack: %hs)", error_description_r(ret, description_buf, ARRAY_SIZE(description_buf)) ); if(len < 0) goto fail; pos += len; chars_left -= len; } else // success { len = (int)wcslen(buf); pos = buf+len; chars_left = max_chars-len; } // append OS error (just in case it happens to be relevant - // it's usually still set from unrelated operations) char description_buf[100] = "?"; LibError errno_equiv = LibError_from_errno(false); if(errno_equiv != ERR::FAIL) // meaningful translation error_description_r(errno_equiv, description_buf, ARRAY_SIZE(description_buf)); char os_error[100] = "?"; sys_error_description_r(0, os_error, ARRAY_SIZE(os_error)); len = swprintf(pos, chars_left, L"\r\n" L"errno = %d (%hs)\r\n" L"OS error = %hs\r\n", errno, description_buf, os_error ); if(len < 0) goto fail; pos += len; chars_left -= len; return buf; } static ErrorReaction call_display_error(const wchar_t* text, int flags) { // first try app hook implementation ErrorReaction er = ah_display_error(text, flags); // .. it's only a stub: default to normal implementation if(er == ER_NOT_IMPLEMENTED) er = sys_display_error(text, flags); return er; } static ErrorReaction carry_out_ErrorReaction(ErrorReaction er, int flags, u8* suppress) { const bool manual_break = (flags & DE_MANUAL_BREAK) != 0; switch(er) { case ER_BREAK: // handle "break" request unless the caller wants to (doing so here // instead of within the dlgproc yields a correct call stack) if(!manual_break) { debug_break(); er = ER_CONTINUE; } break; case ER_SUPPRESS: *suppress = DEBUG_SUPPRESS; er = ER_CONTINUE; break; case ER_EXIT: exit_requested = true; // see declaration #if OS_WIN // prevent (slow) heap reporting since we're exiting abnormally and // thus probably leaking like a sieve. wdbg_heap_Enable(false); #endif exit(EXIT_FAILURE); } return er; } ErrorReaction debug_display_error(const wchar_t* description, int flags, size_t skip, void* context, const char* file, int line, const char* func, u8* suppress) { // "suppressing" this error means doing nothing and returning ER_CONTINUE. if(should_suppress_error(suppress)) return ER_CONTINUE; // fix up params // .. translate description = ah_translate(description); // .. caller supports a suppress flag; set the corresponding flag so that // the error display implementation enables the Suppress option. if(suppress) flags |= DE_ALLOW_SUPPRESS; // .. deal with incomplete file/line info if(!file || file[0] == '\0') file = "unknown"; if(line <= 0) line = 0; if(!func || func[0] == '\0') func = "?"; // .. _FILE__ evaluates to the full path (albeit without drive letter) // which is rather long. we only display the base name for clarity. const char* fn_only = path_name_only(file); // display in output window; double-click will navigate to error location. debug_printf("%s(%d): %ls\n", fn_only, line, description); ErrorMessageMem emm; const wchar_t* text = debug_error_message_build(description, fn_only, line, func, skip, context, &emm); debug_write_crashlog(text); ErrorReaction er = call_display_error(text, flags); // note: debug_break-ing here to make sure the app doesn't continue // running is no longer necessary. debug_display_error now determines our // window handle and is modal. // must happen before carry_out_ErrorReaction because that may exit. debug_error_message_free(&emm); return carry_out_ErrorReaction(er, flags, suppress); } // strobe indicating expected_err is valid and the next error should be // compared against that / skipped if equal to it. // set/reset via cpu_CAS for thread-safety (hence uintptr_t). static uintptr_t expected_err_valid; static LibError expected_err; void debug_skip_next_err(LibError err) { if(cpu_CAS(&expected_err_valid, 0, 1)) expected_err = err; else debug_assert(0); // internal error: concurrent attempt to skip assert/error } static bool should_skip_this_error(LibError err) { // (compare before resetting strobe - expected_err may change afterwards) bool was_expected_err = (expected_err == err); // (use cpu_CAS to ensure only one error is skipped) if(cpu_CAS(&expected_err_valid, 1, 0)) { debug_assert(was_expected_err); return was_expected_err; } return false; } // to share code between assert and error skip mechanism, we treat the former as // an error. choose the code such that no one would want to warn of it. static const LibError assert_err = INFO::OK; void debug_skip_next_assert() { debug_skip_next_err(assert_err); } static bool should_skip_this_assert() { return should_skip_this_error(assert_err); } ErrorReaction debug_assert_failed(const char* expr, u8* suppress, const char* file, int line, const char* func) { if(should_skip_this_assert()) return ER_CONTINUE; size_t skip = 1; void* context = 0; wchar_t buf[400]; swprintf(buf, ARRAY_SIZE(buf), L"Assertion failed: \"%hs\"", expr); return debug_display_error(buf, DE_MANUAL_BREAK, skip,context, file,line,func, suppress); } ErrorReaction debug_warn_err(LibError err, u8* suppress, const char* file, int line, const char* func) { if(should_skip_this_error(err)) return ER_CONTINUE; size_t skip = 1; void* context = 0; wchar_t buf[400]; char err_buf[200]; error_description_r(err, err_buf, ARRAY_SIZE(err_buf)); swprintf(buf, ARRAY_SIZE(buf), L"Function call failed: return value was %d (%hs)", err, err_buf); return debug_display_error(buf, DE_MANUAL_BREAK, skip,context, file,line,func, suppress); }