/// \author Леонид Юрьев aka Leonid Yuriev \date 2015-2024 /// \copyright SPDX-License-Identifier: Apache-2.0 #include "test.h++" static void fflushall() { fflush(nullptr); } void failure(const char *fmt, ...) { va_list ap; va_start(ap, fmt); fflushall(); logging::output_nocheckloglevel_ap(logging::failure, fmt, ap); va_end(ap); fflushall(); exit(EXIT_FAILURE); } const char *test_strerror(int errnum) { static __thread char buf[1024]; return mdbx_strerror_r(errnum, buf, sizeof(buf)); } MDBX_NORETURN void failure_perror(const char *what, int errnum) { failure("%s failed: %s (%d)\n", what, test_strerror(errnum), errnum); } //----------------------------------------------------------------------------- static void mdbx_logger(MDBX_log_level_t priority, const char *function, int line, const char *fmt, va_list args) MDBX_CXX17_NOEXCEPT { if (function) { if (priority == MDBX_LOG_FATAL) log_error("mdbx: fatal failure: %s, %d", function, line); logging::output_nocheckloglevel( logging::loglevel(priority), strncmp(function, "mdbx_", 5) == 0 ? "%s: " : "mdbx %s: ", function); logging::feed_ap(fmt, args); } else logging::feed_ap(fmt, args); } namespace logging { /* логирование может быть вызвано после деструкторов */ static char prefix_buf[64]; static size_t prefix_len; static std::string suffix_buf; static const char *suffix_ptr = "~~~"; struct suffix_cleaner { suffix_cleaner() { suffix_ptr = ""; } ~suffix_cleaner() { suffix_ptr = "~~~"; } } static anchor; static loglevel level; static FILE *flow; void setlevel(loglevel priority) { level = priority; int rc = mdbx_setup_debug(MDBX_log_level_t(priority), MDBX_DBG_ASSERT | MDBX_DBG_AUDIT | MDBX_DBG_JITTER | MDBX_DBG_DUMP, mdbx_logger); log_trace("set mdbx debug-opts: 0x%02x", rc); } void setup(const std::string &prefix) { prefix_len = std::min(prefix.size(), sizeof(prefix_buf) - 1); memcpy(prefix_buf, prefix.data(), prefix_len); } void setup(loglevel priority, const std::string &prefix) { setlevel(priority); setup(prefix); } const char *level2str(const loglevel alevel) { switch (alevel) { default: return "invalid/unknown"; case extra: return "extra"; case trace: return "trace"; case debug: return "debug"; case verbose: return "verbose"; case notice: return "notice"; case warning: return "warning"; case error: return "error"; case failure: return "failure"; } } bool output(const loglevel priority, const char *format, ...) { if (lower(priority, level)) return false; va_list ap; va_start(ap, format); output_nocheckloglevel_ap(priority, format, ap); va_end(ap); return true; } void ln() { if (flow) { putc('\n', flow); if (flow != stdout) putc('\n', stdout); flow = nullptr; } } void output_nocheckloglevel_ap(const logging::loglevel priority, const char *format, va_list ap) { ln(); chrono::time now = chrono::now_realtime(); struct tm tm; #ifdef _MSC_VER int rc = _localtime32_s(&tm, (const __time32_t *)&now.utc); #elif defined(_WIN32) || defined(_WIN64) const time_t time_proxy = now.utc; int rc = localtime_s(&tm, &time_proxy); #else time_t time = now.utc; int rc = localtime_r(&time, &tm) ? MDBX_SUCCESS : errno; #endif if (rc != MDBX_SUCCESS) failure_perror("localtime_r()", rc); fprintf(stdout, "[ %02d%02d%02d-%02d:%02d:%02d.%06d_%05lu %-10s %.4s ] %s" /* TODO */, tm.tm_year - 100, tm.tm_mon + 1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec, chrono::fractional2us(now.fractional), (long)osal_getpid(), prefix_buf, level2str(priority), suffix_ptr); va_list ones; memset(&ones, 0, sizeof(ones)) /* zap MSVC and other goofy compilers */; if (same_or_higher(priority, error)) va_copy(ones, ap); vfprintf(stdout, format, ap); size_t len = strlen(format); char end = len ? format[len - 1] : '\0'; switch (end) { default: putc('\n', stdout); break; case '\n': break; case ' ': case '_': case ':': case '|': case ',': case '\t': case '\b': case '\r': case '\0': flow = stdout; break; } if (same_or_higher(priority, error)) { if (flow) flow = stderr; fprintf(stderr, "[ %05lu %-10s %.4s ] %s", (long)osal_getpid(), prefix_buf, level2str(priority), suffix_ptr); vfprintf(stderr, format, ones); va_end(ones); } } bool feed_ap(const char *format, va_list ap) { if (!flow) return false; if (flow == stderr) { va_list ones; va_copy(ones, ap); vfprintf(stdout, format, ones); va_end(ones); } vfprintf(flow, format, ap); size_t len = strlen(format); if (len && format[len - 1] == '\n') flow = nullptr; return true; } bool feed(const char *format, ...) { if (!flow) return false; va_list ap; va_start(ap, format); feed_ap(format, ap); va_end(ap); return true; } local_suffix::local_suffix(const char *c_str) : trim_pos(suffix_buf.size()), indent(0) { suffix_buf.append(c_str); suffix_ptr = suffix_buf.c_str(); } local_suffix::local_suffix(const std::string &str) : trim_pos(suffix_buf.size()), indent(0) { suffix_buf.append(str); suffix_ptr = suffix_buf.c_str(); } void local_suffix::push() { indent += 1; suffix_buf.push_back('\t'); suffix_ptr = suffix_buf.c_str(); } void local_suffix::pop() { assert(indent > 0); if (indent > 0) { indent -= 1; suffix_buf.pop_back(); suffix_ptr = suffix_buf.c_str(); } } local_suffix::~local_suffix() { suffix_buf.erase(trim_pos); suffix_ptr = suffix_buf.c_str(); } void progress_canary(bool active) { static chrono::time progress_timestamp; chrono::time now = chrono::now_monotonic(); if (now.fixedpoint - progress_timestamp.fixedpoint < chrono::from_ms(42).fixedpoint) return; if (osal_progress_push(active)) { progress_timestamp = now; return; } if (progress_timestamp.fixedpoint == 0) { putc('>', stderr); progress_timestamp = now; } else if (global::config::console_mode) { if (active) { static int last_point = -1; int point = (now.fixedpoint >> 29) & 3; if (point != last_point) { progress_timestamp = now; fprintf(stderr, "%c\b", "-\\|/"[last_point = point]); } } else if (now.fixedpoint - progress_timestamp.fixedpoint > chrono::from_seconds(2).fixedpoint) { progress_timestamp = now; fprintf(stderr, "%c\b", "@*"[now.utc & 1]); } } else { static int count; if (active && now.fixedpoint - progress_timestamp.fixedpoint > chrono::from_seconds(1).fixedpoint) { putc('.', stderr); progress_timestamp = now; ++count; } else if (now.fixedpoint - progress_timestamp.fixedpoint > chrono::from_seconds(5).fixedpoint) { putc("@*"[now.utc & 1], stderr); progress_timestamp = now; ++count; } if (count == 60) { count = 0; putc('\n', stderr); } } fflush(stderr); } } // namespace logging void log_extra(const char *msg, ...) { logging::ln(); if (logging::same_or_higher(logging::extra, logging::level)) { va_list ap; va_start(ap, msg); logging::output_nocheckloglevel_ap(logging::extra, msg, ap); va_end(ap); } } void log_trace(const char *msg, ...) { logging::ln(); if (logging::same_or_higher(logging::trace, logging::level)) { va_list ap; va_start(ap, msg); logging::output_nocheckloglevel_ap(logging::trace, msg, ap); va_end(ap); } } void log_debug(const char *msg, ...) { logging::ln(); if (logging::same_or_higher(logging::debug, logging::level)) { va_list ap; va_start(ap, msg); logging::output_nocheckloglevel_ap(logging::debug, msg, ap); va_end(ap); } } void log_verbose(const char *msg, ...) { logging::ln(); if (logging::same_or_higher(logging::verbose, logging::level)) { va_list ap; va_start(ap, msg); logging::output_nocheckloglevel_ap(logging::verbose, msg, ap); va_end(ap); } } void log_notice(const char *msg, ...) { logging::ln(); if (logging::same_or_higher(logging::notice, logging::level)) { va_list ap; va_start(ap, msg); logging::output_nocheckloglevel_ap(logging::notice, msg, ap); va_end(ap); } } void log_warning(const char *msg, ...) { logging::ln(); if (logging::same_or_higher(logging::warning, logging::level)) { va_list ap; va_start(ap, msg); logging::output_nocheckloglevel_ap(logging::warning, msg, ap); va_end(ap); } } void log_error(const char *msg, ...) { logging::ln(); if (logging::same_or_higher(logging::error, logging::level)) { va_list ap; va_start(ap, msg); logging::output_nocheckloglevel_ap(logging::error, msg, ap); va_end(ap); } } void log_trouble(const char *where, const char *what, int errnum) { log_error("%s: %s %s", where, what, test_strerror(errnum)); } bool log_enabled(const logging::loglevel priority) { return logging::same_or_higher(priority, logging::level); } void log_flush(void) { logging::ln(); fflushall(); }