/* * Copyright (C) 2015 The Android Open Source Project * * 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 * * http://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. */ #pragma once // // Google-style C++ logging. // // This header provides a C++ stream interface to logging. // // To log: // // LOG(INFO) << "Some text; " << some_value; // // Replace `INFO` with any severity from `enum LogSeverity`. // // To log the result of a failed function and include the string // representation of `errno` at the end: // // PLOG(ERROR) << "Write failed"; // // The output will be something like `Write failed: I/O error`. // Remember this as 'P' as in perror(3). // // To output your own types, simply implement operator<< as normal. // // By default, output goes to logcat on Android and stderr on the host. // A process can use `SetLogger` to decide where all logging goes. // Implementations are provided for logcat, stderr, and dmesg. // // By default, the process' name is used as the log tag. // Code can choose a specific log tag by defining LOG_TAG // before including this header. // This header also provides assertions: // // CHECK(must_be_true); // CHECK_EQ(a, b) << z_is_interesting_too; // NOTE: For Windows, you must include logging.h after windows.h to allow the // following code to suppress the evil ERROR macro: #ifdef _WIN32 // windows.h includes wingdi.h which defines an evil macro ERROR. #ifdef ERROR #undef ERROR #endif #endif #include #include #include #include "android-base/errno_restorer.h" #include "android-base/macros.h" // Note: DO NOT USE DIRECTLY. Use LOG_TAG instead. #ifdef _LOG_TAG_INTERNAL #error "_LOG_TAG_INTERNAL must not be defined" #endif #ifdef LOG_TAG #define _LOG_TAG_INTERNAL LOG_TAG #else #define _LOG_TAG_INTERNAL nullptr #endif namespace android { namespace base { enum LogSeverity { VERBOSE, DEBUG, INFO, WARNING, ERROR, FATAL_WITHOUT_ABORT, // For loggability tests, this is considered identical to FATAL. FATAL, }; enum LogId { DEFAULT, MAIN, SYSTEM, RADIO, CRASH, }; using LogFunction = std::function; using AbortFunction = std::function; // Loggers for use with InitLogging/SetLogger. // Log to the kernel log (dmesg). void KernelLogger(LogId log_buffer_id, LogSeverity severity, const char* tag, const char* file, unsigned int line, const char* message); // Log to stderr in the full logcat format (with pid/tid/time/tag details). void StderrLogger(LogId log_buffer_id, LogSeverity severity, const char* tag, const char* file, unsigned int line, const char* message); // Log just the message to stdout/stderr (without pid/tid/time/tag details). // The choice of stdout versus stderr is based on the severity. // Errors are also prefixed by the program name (as with err(3)/error(3)). // Useful for replacing printf(3)/perror(3)/err(3)/error(3) in command-line tools. void StdioLogger(LogId log_buffer_id, LogSeverity severity, const char* tag, const char* file, unsigned int line, const char* message); void DefaultAborter(const char* abort_message); void SetDefaultTag(const std::string& tag); // The LogdLogger sends chunks of up to ~4000 bytes at a time to logd. It does not prevent other // threads from writing to logd between sending each chunk, so other threads may interleave their // messages. If preventing interleaving is required, then a custom logger that takes a lock before // calling this logger should be provided. class LogdLogger { public: explicit LogdLogger(LogId default_log_id = android::base::MAIN); void operator()(LogId, LogSeverity, const char* tag, const char* file, unsigned int line, const char* message); private: LogId default_log_id_; }; // Configure logging based on ANDROID_LOG_TAGS environment variable. // We need to parse a string that looks like // // *:v jdwp:d dalvikvm:d dalvikvm-gc:i dalvikvmi:i // // The tag (or '*' for the global level) comes first, followed by a colon and a // letter indicating the minimum priority level we're expected to log. This can // be used to reveal or conceal logs with specific tags. #ifdef __ANDROID__ #define INIT_LOGGING_DEFAULT_LOGGER LogdLogger() #else #define INIT_LOGGING_DEFAULT_LOGGER StderrLogger #endif void InitLogging(char* argv[], LogFunction&& logger = INIT_LOGGING_DEFAULT_LOGGER, AbortFunction&& aborter = DefaultAborter); #undef INIT_LOGGING_DEFAULT_LOGGER // Replace the current logger and return the old one. LogFunction SetLogger(LogFunction&& logger); // Replace the current aborter and return the old one. AbortFunction SetAborter(AbortFunction&& aborter); // A helper macro that produces an expression that accepts both a qualified name and an // unqualified name for a LogSeverity, and returns a LogSeverity value. // Note: DO NOT USE DIRECTLY. This is an implementation detail. #define SEVERITY_LAMBDA(severity) ([&]() { \ using ::android::base::VERBOSE; \ using ::android::base::DEBUG; \ using ::android::base::INFO; \ using ::android::base::WARNING; \ using ::android::base::ERROR; \ using ::android::base::FATAL_WITHOUT_ABORT; \ using ::android::base::FATAL; \ return (severity); }()) #ifdef __clang_analyzer__ // Clang's static analyzer does not see the conditional statement inside // LogMessage's destructor that will abort on FATAL severity. #define ABORT_AFTER_LOG_FATAL for (;; abort()) struct LogAbortAfterFullExpr { ~LogAbortAfterFullExpr() __attribute__((noreturn)) { abort(); } explicit operator bool() const { return false; } }; // Provides an expression that evaluates to the truthiness of `x`, automatically // aborting if `c` is true. #define ABORT_AFTER_LOG_EXPR_IF(c, x) (((c) && ::android::base::LogAbortAfterFullExpr()) || (x)) // Note to the static analyzer that we always execute FATAL logs in practice. #define MUST_LOG_MESSAGE(severity) (SEVERITY_LAMBDA(severity) == ::android::base::FATAL) #else #define ABORT_AFTER_LOG_FATAL #define ABORT_AFTER_LOG_EXPR_IF(c, x) (x) #define MUST_LOG_MESSAGE(severity) false #endif #define ABORT_AFTER_LOG_FATAL_EXPR(x) ABORT_AFTER_LOG_EXPR_IF(true, x) // Defines whether the given severity will be logged or silently swallowed. #define WOULD_LOG(severity) \ (UNLIKELY(::android::base::ShouldLog(SEVERITY_LAMBDA(severity), _LOG_TAG_INTERNAL)) || \ MUST_LOG_MESSAGE(severity)) // Get an ostream that can be used for logging at the given severity and to the default // destination. // // Notes: // 1) This will not check whether the severity is high enough. One should use WOULD_LOG to filter // usage manually. // 2) This does not save and restore errno. #define LOG_STREAM(severity) \ ::android::base::LogMessage(__FILE__, __LINE__, SEVERITY_LAMBDA(severity), _LOG_TAG_INTERNAL, \ -1) \ .stream() // Logs a message to logcat on Android otherwise to stderr. If the severity is // FATAL it also causes an abort. For example: // // LOG(FATAL) << "We didn't expect to reach here"; #define LOG(severity) LOGGING_PREAMBLE(severity) && LOG_STREAM(severity) // Checks if we want to log something, and sets up appropriate RAII objects if // so. // Note: DO NOT USE DIRECTLY. This is an implementation detail. #define LOGGING_PREAMBLE(severity) \ (WOULD_LOG(severity) && \ ABORT_AFTER_LOG_EXPR_IF((SEVERITY_LAMBDA(severity)) == ::android::base::FATAL, true) && \ ::android::base::ErrnoRestorer()) // A variant of LOG that also logs the current errno value. To be used when // library calls fail. #define PLOG(severity) \ LOGGING_PREAMBLE(severity) && \ ::android::base::LogMessage(__FILE__, __LINE__, SEVERITY_LAMBDA(severity), \ _LOG_TAG_INTERNAL, errno) \ .stream() // Marker that code is yet to be implemented. #define UNIMPLEMENTED(level) \ LOG(level) << __PRETTY_FUNCTION__ << " unimplemented " // Check whether condition x holds and LOG(FATAL) if not. The value of the // expression x is only evaluated once. Extra logging can be appended using << // after. For example: // // CHECK(false == true) results in a log message of // "Check failed: false == true". #define CHECK(x) \ LIKELY((x)) || ABORT_AFTER_LOG_FATAL_EXPR(false) || \ ::android::base::LogMessage(__FILE__, __LINE__, ::android::base::FATAL, _LOG_TAG_INTERNAL, \ -1) \ .stream() \ << "Check failed: " #x << " " // clang-format off // Helper for CHECK_xx(x,y) macros. #define CHECK_OP(LHS, RHS, OP) \ for (auto _values = ::android::base::MakeEagerEvaluator(LHS, RHS); \ UNLIKELY(!(_values.lhs.v OP _values.rhs.v)); \ /* empty */) \ ABORT_AFTER_LOG_FATAL \ ::android::base::LogMessage(__FILE__, __LINE__, ::android::base::FATAL, _LOG_TAG_INTERNAL, -1) \ .stream() \ << "Check failed: " << #LHS << " " << #OP << " " << #RHS << " (" #LHS "=" \ << ::android::base::LogNullGuard::Guard(_values.lhs.v) \ << ", " #RHS "=" \ << ::android::base::LogNullGuard::Guard(_values.rhs.v) \ << ") " // clang-format on // Check whether a condition holds between x and y, LOG(FATAL) if not. The value // of the expressions x and y is evaluated once. Extra logging can be appended // using << after. For example: // // CHECK_NE(0 == 1, false) results in // "Check failed: false != false (0==1=false, false=false) ". #define CHECK_EQ(x, y) CHECK_OP(x, y, == ) #define CHECK_NE(x, y) CHECK_OP(x, y, != ) #define CHECK_LE(x, y) CHECK_OP(x, y, <= ) #define CHECK_LT(x, y) CHECK_OP(x, y, < ) #define CHECK_GE(x, y) CHECK_OP(x, y, >= ) #define CHECK_GT(x, y) CHECK_OP(x, y, > ) // clang-format off // Helper for CHECK_STRxx(s1,s2) macros. #define CHECK_STROP(s1, s2, sense) \ while (UNLIKELY((strcmp(s1, s2) == 0) != (sense))) \ ABORT_AFTER_LOG_FATAL \ ::android::base::LogMessage(__FILE__, __LINE__, ::android::base::FATAL, \ _LOG_TAG_INTERNAL, -1) \ .stream() \ << "Check failed: " << "\"" << (s1) << "\"" \ << ((sense) ? " == " : " != ") << "\"" << (s2) << "\"" // clang-format on // Check for string (const char*) equality between s1 and s2, LOG(FATAL) if not. #define CHECK_STREQ(s1, s2) CHECK_STROP(s1, s2, true) #define CHECK_STRNE(s1, s2) CHECK_STROP(s1, s2, false) // Perform the pthread function call(args), LOG(FATAL) on error. #define CHECK_PTHREAD_CALL(call, args, what) \ do { \ int rc = call args; \ if (rc != 0) { \ errno = rc; \ ABORT_AFTER_LOG_FATAL \ PLOG(FATAL) << #call << " failed for " << (what); \ } \ } while (false) // DCHECKs are debug variants of CHECKs only enabled in debug builds. Generally // CHECK should be used unless profiling identifies a CHECK as being in // performance critical code. #if defined(NDEBUG) && !defined(__clang_analyzer__) static constexpr bool kEnableDChecks = false; #else static constexpr bool kEnableDChecks = true; #endif #define DCHECK(x) \ if (::android::base::kEnableDChecks) CHECK(x) #define DCHECK_EQ(x, y) \ if (::android::base::kEnableDChecks) CHECK_EQ(x, y) #define DCHECK_NE(x, y) \ if (::android::base::kEnableDChecks) CHECK_NE(x, y) #define DCHECK_LE(x, y) \ if (::android::base::kEnableDChecks) CHECK_LE(x, y) #define DCHECK_LT(x, y) \ if (::android::base::kEnableDChecks) CHECK_LT(x, y) #define DCHECK_GE(x, y) \ if (::android::base::kEnableDChecks) CHECK_GE(x, y) #define DCHECK_GT(x, y) \ if (::android::base::kEnableDChecks) CHECK_GT(x, y) #define DCHECK_STREQ(s1, s2) \ if (::android::base::kEnableDChecks) CHECK_STREQ(s1, s2) #define DCHECK_STRNE(s1, s2) \ if (::android::base::kEnableDChecks) CHECK_STRNE(s1, s2) namespace log_detail { // Temporary storage for a single eagerly evaluated check expression operand. template struct Storage { template explicit constexpr Storage(U&& u) : v(std::forward(u)) {} explicit Storage(const Storage& t) = delete; explicit Storage(Storage&& t) = delete; T v; }; // Partial specialization for smart pointers to avoid copying. template struct Storage> { explicit constexpr Storage(const std::unique_ptr& ptr) : v(ptr.get()) {} const T* v; }; template struct Storage> { explicit constexpr Storage(const std::shared_ptr& ptr) : v(ptr.get()) {} const T* v; }; // Type trait that checks if a type is a (potentially const) char pointer. template struct IsCharPointer { using Pointee = std::remove_cv_t>; static constexpr bool value = std::is_pointer_v && (std::is_same_v || std::is_same_v || std::is_same_v); }; // Counterpart to Storage that depends on both operands. This is used to prevent // char pointers being treated as strings in the log output - they might point // to buffers of unprintable binary data. template struct StorageTypes { static constexpr bool voidptr = IsCharPointer::value && IsCharPointer::value; using LHSType = std::conditional_t; using RHSType = std::conditional_t; }; // Temporary class created to evaluate the LHS and RHS, used with // MakeEagerEvaluator to infer the types of LHS and RHS. template struct EagerEvaluator { template constexpr EagerEvaluator(A&& l, B&& r) : lhs(std::forward(l)), rhs(std::forward(r)) {} const Storage::LHSType> lhs; const Storage::RHSType> rhs; }; } // namespace log_detail // Converts std::nullptr_t and null char pointers to the string "null" // when writing the failure message. template struct LogNullGuard { static const T& Guard(const T& v) { return v; } }; template <> struct LogNullGuard { static const char* Guard(const std::nullptr_t&) { return "(null)"; } }; template <> struct LogNullGuard { static const char* Guard(const char* v) { return v ? v : "(null)"; } }; template <> struct LogNullGuard { static const char* Guard(const char* v) { return v ? v : "(null)"; } }; // Helper function for CHECK_xx. template constexpr auto MakeEagerEvaluator(LHS&& lhs, RHS&& rhs) { return log_detail::EagerEvaluator, std::decay_t>( std::forward(lhs), std::forward(rhs)); } // Data for the log message, not stored in LogMessage to avoid increasing the // stack size. class LogMessageData; // A LogMessage is a temporarily scoped object used by LOG and the unlikely part // of a CHECK. The destructor will abort if the severity is FATAL. class LogMessage { public: // LogId has been deprecated, but this constructor must exist for prebuilts. LogMessage(const char* file, unsigned int line, LogId, LogSeverity severity, const char* tag, int error); LogMessage(const char* file, unsigned int line, LogSeverity severity, const char* tag, int error); ~LogMessage(); // Returns the stream associated with the message, the LogMessage performs // output when it goes out of scope. std::ostream& stream(); // The routine that performs the actual logging. static void LogLine(const char* file, unsigned int line, LogSeverity severity, const char* tag, const char* msg); private: const std::unique_ptr data_; DISALLOW_COPY_AND_ASSIGN(LogMessage); }; // Get the minimum severity level for logging. LogSeverity GetMinimumLogSeverity(); // Set the minimum severity level for logging, returning the old severity. LogSeverity SetMinimumLogSeverity(LogSeverity new_severity); // Return whether or not a log message with the associated tag should be logged. bool ShouldLog(LogSeverity severity, const char* tag); // Allows to temporarily change the minimum severity level for logging. class ScopedLogSeverity { public: explicit ScopedLogSeverity(LogSeverity level); ~ScopedLogSeverity(); private: LogSeverity old_; }; } // namespace base } // namespace android namespace std { // NOLINT(cert-dcl58-cpp) // Emit a warning of ostream<< with std::string*. The intention was most likely to print *string. // // Note: for this to work, we need to have this in a namespace. // Note: using a pragma because "-Wgcc-compat" (included in "-Weverything") complains about // diagnose_if. // Note: to print the pointer, use "<< static_cast(string_pointer)" instead. // Note: a not-recommended alternative is to let Clang ignore the warning by adding // -Wno-user-defined-warnings to CPPFLAGS. #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wgcc-compat" #define OSTREAM_STRING_POINTER_USAGE_WARNING \ __attribute__((diagnose_if(true, "Unexpected logging of string pointer", "warning"))) inline OSTREAM_STRING_POINTER_USAGE_WARNING std::ostream& operator<<(std::ostream& stream, const std::string* string_pointer) { return stream << static_cast(string_pointer); } #pragma clang diagnostic pop } // namespace std