aos/logging/implementations.h - RealtimeRoboticsGroup/test - Gitiles

 #ifndef AOS_LOGGING_IMPLEMENTATIONS_H_
 #define AOS_LOGGING_IMPLEMENTATIONS_H_

 #include <sys/types.h>
 #include <unistd.h>
 #include <stdint.h>
 #include <limits.h>
 #include <string.h>
 #include <stdio.h>
 #include <stdarg.h>

 #include <string>
 #include <functional>
 #include <atomic>

 #include "aos/logging/context.h"
 #include "aos/logging/interface.h"
 #include "aos/logging/logging.h"
 #include "aos/logging/sizes.h"
 #include "aos/macros.h"
 #include "aos/mutex/mutex.h"
 #include "aos/type_traits/type_traits.h"
 #include "aos/once.h"

 namespace aos {

 struct MessageType;
 class RawQueue;

 }  // namespace aos

 // This file has various concrete LogImplementations.

 namespace aos {
 namespace logging {

 // Unless explicitly stated otherwise, format must always be a string constant,
 // args are printf-style arguments for format, and ap is a va_list of args.
 // The validity of format and args together will be checked at compile time
 // using a function attribute.

 // Contains all of the information about a given logging call.
 struct LogMessage {
   enum class Type : uint8_t {
     kString, kStruct, kMatrix
   };

   int32_t seconds, nseconds;
   // message_length is just the length of the actual data (which member depends
   // on the type).
   size_t message_length, name_length;
   pid_t source;
   static_assert(sizeof(source) == 4, "that's how they get printed");
   // Per task/thread.
   uint16_t sequence;
   Type type;
   log_level level;
   char name[LOG_MESSAGE_NAME_LEN];
   union {
     char message[LOG_MESSAGE_LEN];
     struct {
       uint32_t type_id;
       size_t string_length;
       // The message string and then the serialized structure.
       char serialized[LOG_MESSAGE_LEN - sizeof(type) - sizeof(string_length)];
     } structure;
     struct {
       // The type ID of the element type.
       uint32_t type;
       int rows, cols;
       size_t string_length;
       // The message string and then the serialized matrix.
       char
           data[LOG_MESSAGE_LEN - sizeof(type) - sizeof(rows) - sizeof(cols)];
     } matrix;
   };
 };
 static_assert(shm_ok<LogMessage>::value, "it's going in a queue");

 // Returns left > right. LOG_UNKNOWN is most important.
 static inline bool log_gt_important(log_level left, log_level right) {
   if (left == ERROR) left = 3;
   if (right == ERROR) right = 3;
   return left > right;
 }

 // Returns a string representing level or "unknown".
 static inline const char *log_str(log_level level) {
 #define DECL_LEVEL(name, value) if (level == name) return #name;
   DECL_LEVELS;
 #undef DECL_LEVEL
   return "unknown";
 }
 // Returns the log level represented by str or LOG_UNKNOWN.
 static inline log_level str_log(const char *str) {
 #define DECL_LEVEL(name, value) if (!strcmp(str, #name)) return name;
   DECL_LEVELS;
 #undef DECL_LEVEL
   return LOG_UNKNOWN;
 }

 // A LogImplementation where LogStruct and LogMatrix just create a string with
 // PrintMessage and then forward on to DoLog.
 class SimpleLogImplementation : public LogImplementation {
  private:
   void LogStruct(log_level level, const ::std::string &message, size_t size,
                  const MessageType *type,
                  const ::std::function<size_t(char *)> &serialize) override;
   void LogMatrix(log_level level, const ::std::string &message,
                  uint32_t type_id, int rows, int cols,
                  const void *data) override;
 };

 // Implements all of the DoLog* methods in terms of a (pure virtual in this
 // class) HandleMessage method that takes a pointer to the message.
 class HandleMessageLogImplementation : public LogImplementation {
  private:
   __attribute__((format(GOOD_PRINTF_FORMAT_TYPE, 3, 0)))
   void DoLog(log_level level, const char *format, va_list ap) override;
   void LogStruct(log_level level, const ::std::string &message_string,
                  size_t size, const MessageType *type,
                  const ::std::function<size_t(char *)> &serialize) override;
   void LogMatrix(log_level level, const ::std::string &message_string,
                  uint32_t type_id, int rows, int cols,
                  const void *data) override;

   virtual void HandleMessage(const LogMessage &message) = 0;
 };

 // A log implementation that dumps all messages to a C stdio stream.
 class StreamLogImplementation : public HandleMessageLogImplementation {
  public:
   StreamLogImplementation(FILE *stream);

  private:
   void HandleMessage(const LogMessage &message) override;

   FILE *const stream_;
 };

 // Adds another implementation to the stack of implementations in this
 // task/thread.
 // Any tasks/threads created after this call will also use this implementation.
 // The cutoff is when the state in a given task/thread is created (either lazily
 // when needed or by calling Load()).
 // The logging system takes ownership of implementation. It will delete it if
 // necessary, so it must be created with new.
 void AddImplementation(LogImplementation *implementation);

 // Must be called at least once per process/load before anything else is
 // called. This function is safe to call multiple times from multiple
 // tasks/threads.
 void Init();

 // Forces all of the state that is usually lazily created when first needed to
 // be created when called. Cleanup() will delete it.
 void Load();

 // Resets all information in this task/thread to its initial state.
 // NOTE: This is not the opposite of Init(). The state that this deletes is
 // lazily created when needed. It is actually the opposite of Load().
 void Cleanup();

 // Returns a queue which deals with LogMessage-sized messages.
 // The caller takes ownership.
 RawQueue *GetLoggingQueue();

 // Calls AddImplementation to register the standard linux logging implementation
 // which sends the messages through a queue. This implementation relies on
 // another process(es) to read the log messages that it puts into the queue.
 // This function is usually called by aos::Init*.
 void RegisterQueueImplementation();

 // This is where all of the code that is only used by actual LogImplementations
 // goes.
 namespace internal {

 // Fills in all the parts of message according to the given inputs (with type
 // kStruct).
 void FillInMessageStructure(log_level level,
                             const ::std::string &message_string, size_t size,
                             const MessageType *type,
                             const ::std::function<size_t(char *)> &serialize,
                             LogMessage *message);

 // Fills in all the parts of the message according to the given inputs (with
 // type kMatrix).
 void FillInMessageMatrix(log_level level,
                          const ::std::string &message_string, uint32_t type_id,
                          int rows, int cols, const void *data,
                          LogMessage *message);

 // Fills in *message according to the given inputs (with type kString).
 // Used for implementing LogImplementation::DoLog.
 void FillInMessage(log_level level, const char *format, va_list ap,
                    LogMessage *message)
     __attribute__((format(GOOD_PRINTF_FORMAT_TYPE, 2, 0)));

 __attribute__((format(GOOD_PRINTF_FORMAT_TYPE, 3, 4)))
 static inline void FillInMessageVarargs(log_level level, LogMessage *message,
                                         const char *format, ...) {
   va_list ap;
   va_start(ap, format);
   FillInMessage(level, format, ap, message);
   va_end(ap);
 }

 // Prints message to output.
 void PrintMessage(FILE *output, const LogMessage &message);

 }  // namespace internal
 }  // namespace logging
 }  // namespace aos

 #endif  // AOS_LOGGING_IMPLEMENTATIONS_H_
	#ifndef AOS_LOGGING_IMPLEMENTATIONS_H_
	#define AOS_LOGGING_IMPLEMENTATIONS_H_

	#include <sys/types.h>
	#include <unistd.h>
	#include <stdint.h>
	#include <limits.h>
	#include <string.h>
	#include <stdio.h>
	#include <stdarg.h>

	#include <string>
	#include <functional>
	#include <atomic>

	#include "aos/logging/context.h"
	#include "aos/logging/interface.h"
	#include "aos/logging/logging.h"
	#include "aos/logging/sizes.h"
	#include "aos/macros.h"
	#include "aos/mutex/mutex.h"
	#include "aos/type_traits/type_traits.h"
	#include "aos/once.h"

	namespace aos {

	struct MessageType;
	class RawQueue;

	} // namespace aos

	// This file has various concrete LogImplementations.

	namespace aos {
	namespace logging {

	// Unless explicitly stated otherwise, format must always be a string constant,
	// args are printf-style arguments for format, and ap is a va_list of args.
	// The validity of format and args together will be checked at compile time
	// using a function attribute.

	// Contains all of the information about a given logging call.
	struct LogMessage {
	enum class Type : uint8_t {
	kString, kStruct, kMatrix
	};

	int32_t seconds, nseconds;
	// message_length is just the length of the actual data (which member depends
	// on the type).
	size_t message_length, name_length;
	pid_t source;
	static_assert(sizeof(source) == 4, "that's how they get printed");
	// Per task/thread.
	uint16_t sequence;
	Type type;
	log_level level;
	char name[LOG_MESSAGE_NAME_LEN];
	union {
	char message[LOG_MESSAGE_LEN];
	struct {
	uint32_t type_id;
	size_t string_length;
	// The message string and then the serialized structure.
	char serialized[LOG_MESSAGE_LEN - sizeof(type) - sizeof(string_length)];
	} structure;
	struct {
	// The type ID of the element type.
	uint32_t type;
	int rows, cols;
	size_t string_length;
	// The message string and then the serialized matrix.
	char
	data[LOG_MESSAGE_LEN - sizeof(type) - sizeof(rows) - sizeof(cols)];
	} matrix;
	};
	};
	static_assert(shm_ok<LogMessage>::value, "it's going in a queue");

	// Returns left > right. LOG_UNKNOWN is most important.
	static inline bool log_gt_important(log_level left, log_level right) {
	if (left == ERROR) left = 3;
	if (right == ERROR) right = 3;
	return left > right;
	}

	// Returns a string representing level or "unknown".
	static inline const char *log_str(log_level level) {
	#define DECL_LEVEL(name, value) if (level == name) return #name;
	DECL_LEVELS;
	#undef DECL_LEVEL
	return "unknown";
	}
	// Returns the log level represented by str or LOG_UNKNOWN.
	static inline log_level str_log(const char *str) {
	#define DECL_LEVEL(name, value) if (!strcmp(str, #name)) return name;
	DECL_LEVELS;
	#undef DECL_LEVEL
	return LOG_UNKNOWN;
	}

	// A LogImplementation where LogStruct and LogMatrix just create a string with
	// PrintMessage and then forward on to DoLog.
	class SimpleLogImplementation : public LogImplementation {
	private:
	void LogStruct(log_level level, const ::std::string &message, size_t size,
	const MessageType *type,
	const ::std::function<size_t(char *)> &serialize) override;
	void LogMatrix(log_level level, const ::std::string &message,
	uint32_t type_id, int rows, int cols,
	const void *data) override;
	};

	// Implements all of the DoLog* methods in terms of a (pure virtual in this
	// class) HandleMessage method that takes a pointer to the message.
	class HandleMessageLogImplementation : public LogImplementation {
	private:
	__attribute__((format(GOOD_PRINTF_FORMAT_TYPE, 3, 0)))
	void DoLog(log_level level, const char *format, va_list ap) override;
	void LogStruct(log_level level, const ::std::string &message_string,
	size_t size, const MessageType *type,
	const ::std::function<size_t(char *)> &serialize) override;
	void LogMatrix(log_level level, const ::std::string &message_string,
	uint32_t type_id, int rows, int cols,
	const void *data) override;

	virtual void HandleMessage(const LogMessage &message) = 0;
	};

	// A log implementation that dumps all messages to a C stdio stream.
	class StreamLogImplementation : public HandleMessageLogImplementation {
	public:
	StreamLogImplementation(FILE *stream);

	private:
	void HandleMessage(const LogMessage &message) override;

	FILE *const stream_;
	};

	// Adds another implementation to the stack of implementations in this
	// task/thread.
	// Any tasks/threads created after this call will also use this implementation.
	// The cutoff is when the state in a given task/thread is created (either lazily
	// when needed or by calling Load()).
	// The logging system takes ownership of implementation. It will delete it if
	// necessary, so it must be created with new.
	void AddImplementation(LogImplementation *implementation);

	// Must be called at least once per process/load before anything else is
	// called. This function is safe to call multiple times from multiple
	// tasks/threads.
	void Init();

	// Forces all of the state that is usually lazily created when first needed to
	// be created when called. Cleanup() will delete it.
	void Load();

	// Resets all information in this task/thread to its initial state.
	// NOTE: This is not the opposite of Init(). The state that this deletes is
	// lazily created when needed. It is actually the opposite of Load().
	void Cleanup();

	// Returns a queue which deals with LogMessage-sized messages.
	// The caller takes ownership.
	RawQueue *GetLoggingQueue();

	// Calls AddImplementation to register the standard linux logging implementation
	// which sends the messages through a queue. This implementation relies on
	// another process(es) to read the log messages that it puts into the queue.
	// This function is usually called by aos::Init*.
	void RegisterQueueImplementation();

	// This is where all of the code that is only used by actual LogImplementations
	// goes.
	namespace internal {

	// Fills in all the parts of message according to the given inputs (with type
	// kStruct).
	void FillInMessageStructure(log_level level,
	const ::std::string &message_string, size_t size,
	const MessageType *type,
	const ::std::function<size_t(char *)> &serialize,
	LogMessage *message);

	// Fills in all the parts of the message according to the given inputs (with
	// type kMatrix).
	void FillInMessageMatrix(log_level level,
	const ::std::string &message_string, uint32_t type_id,
	int rows, int cols, const void *data,
	LogMessage *message);

	// Fills in *message according to the given inputs (with type kString).
	// Used for implementing LogImplementation::DoLog.
	void FillInMessage(log_level level, const char *format, va_list ap,
	LogMessage *message)
	__attribute__((format(GOOD_PRINTF_FORMAT_TYPE, 2, 0)));

	__attribute__((format(GOOD_PRINTF_FORMAT_TYPE, 3, 4)))
	static inline void FillInMessageVarargs(log_level level, LogMessage *message,
	const char *format, ...) {
	va_list ap;
	va_start(ap, format);
	FillInMessage(level, format, ap, message);
	va_end(ap);
	}

	// Prints message to output.
	void PrintMessage(FILE *output, const LogMessage &message);

	} // namespace internal
	} // namespace logging
	} // namespace aos

	#endif // AOS_LOGGING_IMPLEMENTATIONS_H_