// Copyright 2022 The Abseil Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // // ----------------------------------------------------------------------------- // File: log/internal/conditions.h // ----------------------------------------------------------------------------- // // This file contains implementation of conditional log statements, like LOG_IF // including all the ABSL_LOG_INTERNAL_..._CONDITION_... macros and // various condition classes like LogEveryNState. #ifndef ABSL_LOG_INTERNAL_CONDITIONS_H_ #define ABSL_LOG_INTERNAL_CONDITIONS_H_ #ifdef _WIN32 #include #else #include #endif #include #include #include #include "absl/base/attributes.h" #include "absl/base/config.h" #include "absl/log/internal/voidify.h" // `ABSL_LOG_INTERNAL_CONDITION` prefixes another macro that expands to a // temporary `LogMessage` instantiation followed by zero or more streamed // expressions. This definition is tricky to read correctly. It evaluates to // either // // (void)0; // // or // // ::absl::log_internal::Voidify() && // ::absl::log_internal::LogMessage(...) << "the user's message"; // // If the condition is evaluable at compile time, as is often the case, it // compiles away to just one side or the other. // // Although this is not used anywhere a statement (e.g. `if`) could not go, // the ternary expression does a better job avoiding spurious diagnostics // (dangling else, missing switch case) and preserving noreturn semantics (e.g. // on `LOG(FATAL)`) without requiring braces. // // The `switch` ensures that this expansion is the begnning of a statement (as // opposed to an expression) and prevents shenanigans like // `AFunction(LOG(INFO))` and `decltype(LOG(INFO))`. The apparently-redundant // `default` case makes the condition more amenable to Clang dataflow analysis. #define ABSL_LOG_INTERNAL_STATELESS_CONDITION(condition) \ switch (0) \ case 0: \ default: \ !(condition) ? (void)0 : ::absl::log_internal::Voidify()&& // `ABSL_LOG_INTERNAL_STATEFUL_CONDITION` applies a condition like // `ABSL_LOG_INTERNAL_CONDITION` but adds to that a series of variable // declarations, including a local static object which stores the state needed // to implement the stateful macros like `LOG_EVERY_N`. // // `for`-loops are used to declare scoped variables without braces (to permit // streaming into the macro's expansion) and without the dangling-`else` // problems/diagnostics that come with `if`. // // Two more variables are declared in separate `for`-loops: // // * `COUNTER` implements a streamable token whose value when streamed is the // number of times execution has passed through the macro. // * A boolean flag is used to prevent any of the `for`-loops from ever actually // looping. #define ABSL_LOG_INTERNAL_STATEFUL_CONDITION(condition) \ for (bool absl_log_internal_stateful_condition_do_log(condition); \ absl_log_internal_stateful_condition_do_log; \ absl_log_internal_stateful_condition_do_log = false) \ ABSL_LOG_INTERNAL_STATEFUL_CONDITION_IMPL #define ABSL_LOG_INTERNAL_STATEFUL_CONDITION_IMPL(kind, ...) \ for (static ::absl::log_internal::Log##kind##State \ absl_log_internal_stateful_condition_state; \ absl_log_internal_stateful_condition_do_log && \ absl_log_internal_stateful_condition_state.ShouldLog(__VA_ARGS__); \ absl_log_internal_stateful_condition_do_log = false) \ for (const uint32_t COUNTER ABSL_ATTRIBUTE_UNUSED = \ absl_log_internal_stateful_condition_state.counter(); \ absl_log_internal_stateful_condition_do_log; \ absl_log_internal_stateful_condition_do_log = false) // `ABSL_LOG_INTERNAL_CONDITION_*` serve to combine any conditions from the // macro (e.g. `LOG_IF` or `VLOG`) with inherent conditions (e.g. // `ABSL_MIN_LOG_LEVEL`) into a single boolean expression. We could chain // ternary operators instead, however some versions of Clang sometimes issue // spurious diagnostics after such expressions due to a control flow analysis // bug. #ifdef ABSL_MIN_LOG_LEVEL #define ABSL_LOG_INTERNAL_CONDITION_INFO(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION( \ (condition) && ::absl::LogSeverity::kInfo >= \ static_cast<::absl::LogSeverity>(ABSL_MIN_LOG_LEVEL)) #define ABSL_LOG_INTERNAL_CONDITION_WARNING(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION( \ (condition) && ::absl::LogSeverity::kWarning >= \ static_cast<::absl::LogSeverity>(ABSL_MIN_LOG_LEVEL)) #define ABSL_LOG_INTERNAL_CONDITION_ERROR(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION( \ (condition) && ::absl::LogSeverity::kError >= \ static_cast<::absl::LogSeverity>(ABSL_MIN_LOG_LEVEL)) // NOTE: Use ternary operators instead of short-circuiting to mitigate // https://bugs.llvm.org/show_bug.cgi?id=51928. #define ABSL_LOG_INTERNAL_CONDITION_FATAL(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION( \ ((condition) \ ? (::absl::LogSeverity::kFatal >= \ static_cast<::absl::LogSeverity>(ABSL_MIN_LOG_LEVEL) \ ? true \ : (::absl::log_internal::AbortQuietly(), false)) \ : false)) // NOTE: Use ternary operators instead of short-circuiting to mitigate // https://bugs.llvm.org/show_bug.cgi?id=51928. #define ABSL_LOG_INTERNAL_CONDITION_QFATAL(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION( \ ((condition) \ ? (::absl::LogSeverity::kFatal >= \ static_cast<::absl::LogSeverity>(ABSL_MIN_LOG_LEVEL) \ ? true \ : (::absl::log_internal::ExitQuietly(), false)) \ : false)) #define ABSL_LOG_INTERNAL_CONDITION_LEVEL(severity) \ for (int log_internal_severity_loop = 1; log_internal_severity_loop; \ log_internal_severity_loop = 0) \ for (const absl::LogSeverity log_internal_severity = \ ::absl::NormalizeLogSeverity(severity); \ log_internal_severity_loop; log_internal_severity_loop = 0) \ ABSL_LOG_INTERNAL_CONDITION_LEVEL_IMPL #define ABSL_LOG_INTERNAL_CONDITION_LEVEL_IMPL(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION( \ (condition) && \ (log_internal_severity >= \ static_cast<::absl::LogSeverity>(ABSL_MIN_LOG_LEVEL) || \ (log_internal_severity == ::absl::LogSeverity::kFatal && \ (::absl::log_internal::AbortQuietly(), false)))) #else // ndef ABSL_MIN_LOG_LEVEL #define ABSL_LOG_INTERNAL_CONDITION_INFO(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION(condition) #define ABSL_LOG_INTERNAL_CONDITION_WARNING(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION(condition) #define ABSL_LOG_INTERNAL_CONDITION_ERROR(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION(condition) #define ABSL_LOG_INTERNAL_CONDITION_FATAL(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION(condition) #define ABSL_LOG_INTERNAL_CONDITION_QFATAL(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION(condition) #define ABSL_LOG_INTERNAL_CONDITION_LEVEL(severity) \ for (int log_internal_severity_loop = 1; log_internal_severity_loop; \ log_internal_severity_loop = 0) \ for (const absl::LogSeverity log_internal_severity = \ ::absl::NormalizeLogSeverity(severity); \ log_internal_severity_loop; log_internal_severity_loop = 0) \ ABSL_LOG_INTERNAL_CONDITION_LEVEL_IMPL #define ABSL_LOG_INTERNAL_CONDITION_LEVEL_IMPL(type, condition) \ ABSL_LOG_INTERNAL_##type##_CONDITION(condition) #endif // ndef ABSL_MIN_LOG_LEVEL namespace absl { ABSL_NAMESPACE_BEGIN namespace log_internal { // Stateful condition class name should be "Log" + name + "State". class LogEveryNState final { public: bool ShouldLog(int n); uint32_t counter() { return counter_.load(std::memory_order_relaxed); } private: std::atomic counter_{0}; }; class LogFirstNState final { public: bool ShouldLog(int n); uint32_t counter() { return counter_.load(std::memory_order_relaxed); } private: std::atomic counter_{0}; }; class LogEveryPow2State final { public: bool ShouldLog(); uint32_t counter() { return counter_.load(std::memory_order_relaxed); } private: std::atomic counter_{0}; }; class LogEveryNSecState final { public: bool ShouldLog(double seconds); uint32_t counter() { return counter_.load(std::memory_order_relaxed); } private: std::atomic counter_{0}; // Cycle count according to CycleClock that we should next log at. std::atomic next_log_time_cycles_{0}; }; // Helper routines to abort the application quietly ABSL_ATTRIBUTE_NORETURN inline void AbortQuietly() { abort(); } ABSL_ATTRIBUTE_NORETURN inline void ExitQuietly() { _exit(1); } } // namespace log_internal ABSL_NAMESPACE_END } // namespace absl #endif // ABSL_LOG_INTERNAL_CONDITIONS_H_