// // Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2021 // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // #pragma once /* * Simple logging. * * Predefined log levels: FATAL, ERROR, WARNING, INFO, DEBUG * * LOG(WARNING) << "Hello world!"; * LOG(INFO) << "Hello " << 1234 << " world!"; * LOG_IF(INFO, condition) << "Hello world if condition!"; * * Custom log levels may be defined and used using VLOG: * int VERBOSITY_NAME(custom) = VERBOSITY_NAME(WARNING); * VLOG(custom) << "Hello custom world!" * * LOG(FATAL) << "Power is off"; * CHECK(condition) <===> LOG_IF(FATAL, !(condition)) */ #include "td/utils/common.h" #include "td/utils/port/thread_local.h" #include "td/utils/Slice.h" #include "td/utils/StackAllocator.h" #include "td/utils/StringBuilder.h" #include #include #define PSTR_IMPL() ::td::Logger(::td::NullLog().ref(), ::td::LogOptions::plain(), 0) #define PSLICE() ::td::detail::Slicify() & PSTR_IMPL() #define PSTRING() ::td::detail::Stringify() & PSTR_IMPL() #define PSLICE_SAFE() ::td::detail::SlicifySafe() & PSTR_IMPL() #define PSTRING_SAFE() ::td::detail::StringifySafe() & PSTR_IMPL() #define VERBOSITY_NAME(x) verbosity_##x #define GET_VERBOSITY_LEVEL() (::td::get_verbosity_level()) #define SET_VERBOSITY_LEVEL(new_level) (::td::set_verbosity_level(new_level)) #ifndef STRIP_LOG #define STRIP_LOG VERBOSITY_NAME(DEBUG) #endif #define LOG_IS_STRIPPED(strip_level) \ (::std::integral_constant() > ::std::integral_constant()) #define LOGGER(interface, options, level, comment) ::td::Logger(interface, options, level, __FILE__, __LINE__, comment) #define LOG_IMPL_FULL(interface, options, strip_level, runtime_level, condition, comment) \ LOG_IS_STRIPPED(strip_level) || runtime_level > options.get_level() || !(condition) \ ? (void)0 \ : ::td::detail::Voidify() & LOGGER(interface, options, runtime_level, comment) #define LOG_IMPL(strip_level, level, condition, comment) \ LOG_IMPL_FULL(*::td::log_interface, ::td::log_options, strip_level, VERBOSITY_NAME(level), condition, comment) #define LOG(level) LOG_IMPL(level, level, true, ::td::Slice()) #define LOG_IF(level, condition) LOG_IMPL(level, level, condition, #condition) #define VLOG(level) LOG_IMPL(DEBUG, level, true, TD_DEFINE_STR(level)) #define VLOG_IF(level, condition) LOG_IMPL(DEBUG, level, condition, TD_DEFINE_STR(level) " " #condition) #define LOG_ROTATE() ::td::log_interface->rotate() #define LOG_TAG ::td::Logger::tag_ #define LOG_TAG2 ::td::Logger::tag2_ #if TD_CLANG bool no_return_func() __attribute__((analyzer_noreturn)); #endif inline bool no_return_func() { return true; } // clang-format off #define DUMMY_LOG_CHECK(condition) LOG_IF(NEVER, !(condition)) #ifdef TD_DEBUG #if TD_MSVC #define LOG_CHECK(condition) \ __analysis_assume(!!(condition)); \ LOG_IMPL(FATAL, FATAL, !(condition), #condition) #else #define LOG_CHECK(condition) LOG_IMPL(FATAL, FATAL, !(condition) && no_return_func(), #condition) #endif #else #define LOG_CHECK DUMMY_LOG_CHECK #endif #if NDEBUG #define LOG_DCHECK DUMMY_LOG_CHECK #else #define LOG_DCHECK LOG_CHECK #endif // clang-format on constexpr int VERBOSITY_NAME(PLAIN) = -1; constexpr int VERBOSITY_NAME(FATAL) = 0; constexpr int VERBOSITY_NAME(ERROR) = 1; constexpr int VERBOSITY_NAME(WARNING) = 2; constexpr int VERBOSITY_NAME(INFO) = 3; constexpr int VERBOSITY_NAME(DEBUG) = 4; constexpr int VERBOSITY_NAME(NEVER) = 1024; namespace td { struct LogOptions { std::atomic level{VERBOSITY_NAME(DEBUG) + 1}; bool fix_newlines{true}; bool add_info{true}; int get_level() const { return level.load(std::memory_order_relaxed); } int set_level(int new_level) { return level.exchange(new_level); } static const LogOptions &plain() { static LogOptions plain_options{0, false, false}; return plain_options; } constexpr LogOptions() = default; constexpr LogOptions(int level, bool fix_newlines, bool add_info) : level(level), fix_newlines(fix_newlines), add_info(add_info) { } LogOptions(const LogOptions &other) : LogOptions(other.level.load(), other.fix_newlines, other.add_info) { } LogOptions &operator=(const LogOptions &other) { level = other.level.load(); fix_newlines = other.fix_newlines; add_info = other.add_info; return *this; } LogOptions(LogOptions &&) = delete; LogOptions &operator=(LogOptions &&) = delete; ~LogOptions() = default; }; extern LogOptions log_options; inline int set_verbosity_level(int level) { return log_options.set_level(level); } inline int get_verbosity_level() { return log_options.get_level(); } class ScopedDisableLog { public: ScopedDisableLog(); ScopedDisableLog(const ScopedDisableLog &) = delete; ScopedDisableLog &operator=(const ScopedDisableLog &) = delete; ScopedDisableLog(ScopedDisableLog &&) = delete; ScopedDisableLog &operator=(ScopedDisableLog &&) = delete; ~ScopedDisableLog(); }; class LogInterface { public: LogInterface() = default; LogInterface(const LogInterface &) = delete; LogInterface &operator=(const LogInterface &) = delete; LogInterface(LogInterface &&) = delete; LogInterface &operator=(LogInterface &&) = delete; virtual ~LogInterface() = default; virtual void append(CSlice slice, int log_level) = 0; virtual void rotate() { } virtual vector get_file_paths() { return {}; } }; class NullLog : public LogInterface { public: void append(CSlice /*slice*/, int /*log_level*/) override { } void rotate() override { } NullLog &ref() { return *this; } }; extern LogInterface *const default_log_interface; extern LogInterface *log_interface; using OnFatalErrorCallback = void (*)(CSlice message); void set_log_fatal_error_callback(OnFatalErrorCallback callback); void set_log_disable_death_handler(bool disabled); [[noreturn]] void process_fatal_error(CSlice message); #define TC_RED "\x1b[1;31m" #define TC_BLUE "\x1b[1;34m" #define TC_CYAN "\x1b[1;36m" #define TC_GREEN "\x1b[1;32m" #define TC_YELLOW "\x1b[1;33m" #define TC_EMPTY "\x1b[0m" class TsCerr { public: TsCerr(); TsCerr(const TsCerr &) = delete; TsCerr &operator=(const TsCerr &) = delete; TsCerr(TsCerr &&) = delete; TsCerr &operator=(TsCerr &&) = delete; ~TsCerr(); TsCerr &operator<<(Slice slice); private: using Lock = std::atomic_flag; static Lock lock_; void enterCritical(); void exitCritical(); }; class Logger { public: static const int BUFFER_SIZE = 128 * 1024; Logger(LogInterface &log, const LogOptions &options, int log_level) : buffer_(StackAllocator::alloc(BUFFER_SIZE)) , log_(log) , sb_(buffer_.as_slice()) , options_(options) , log_level_(log_level) { } Logger(LogInterface &log, const LogOptions &options, int log_level, Slice file_name, int line_num, Slice comment); template Logger &operator<<(T &&other) { sb_ << other; return *this; } MutableCSlice as_cslice() { return sb_.as_cslice(); } bool is_error() const { return sb_.is_error(); } Logger(const Logger &) = delete; Logger &operator=(const Logger &) = delete; Logger(Logger &&) = delete; Logger &operator=(Logger &&) = delete; ~Logger(); static TD_THREAD_LOCAL const char *tag_; static TD_THREAD_LOCAL const char *tag2_; private: decltype(StackAllocator::alloc(0)) buffer_; LogInterface &log_; StringBuilder sb_; const LogOptions &options_; int log_level_; }; namespace detail { class Voidify { public: template void operator&(const T &) { } }; class Slicify { public: CSlice operator&(Logger &logger) { return logger.as_cslice(); } }; class Stringify { public: string operator&(Logger &logger) { return logger.as_cslice().str(); } }; } // namespace detail class TsLog : public LogInterface { public: explicit TsLog(LogInterface *log) : log_(log) { } void init(LogInterface *log) { enter_critical(); log_ = log; exit_critical(); } void append(CSlice slice, int level) override { enter_critical(); log_->append(slice, level); exit_critical(); } void rotate() override { enter_critical(); log_->rotate(); exit_critical(); } vector get_file_paths() override { enter_critical(); auto result = log_->get_file_paths(); exit_critical(); return result; } private: LogInterface *log_ = nullptr; std::atomic_flag lock_ = ATOMIC_FLAG_INIT; void enter_critical(); void exit_critical(); }; } // namespace td