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README.md

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zf_log

Core logging library for C, Objective-C and C++

Following the Unix way, this library provides the logging core which can be used directly or extended. In essence, it's a thin wrapper around snprintf() function. By implementing less than 20% of functionality found in more sophisticated and feature reach libraries, it covers more than 80% of common use cases. Found to be particularly useful in cross-platform applications and on mobile/embedded platforms. Focus is made on simplicity, ease of use and performance (to be more precise - low overhead).

Features:

  • Debug logging is reduced to no-op in release builds:
  /* no runtime overhead whatsoever if verbose log is disabled */
  ZF_LOGV("entering foobar(), args: %i, %s", arg0, arg1);
  • No "unused" warning for variables used in log statements only:
  /* no warning about err being unused even if verbose log is disabled */
  int err = close(fd);
  ZF_LOGV("close status %i", err);
  • Arguments are not evaluated when the message is not logged:
  /* to_utf8() will not be called if debug log is turned off or disabled */
  ZF_LOGD("Login: %s", to_utf8(loginUtf16));
  • Log a memory region as HEX and ASCII:
  /* will print HEX and ASCII view of received network packet */
  ZF_LOGD_MEM(pkg_ptr, pkg_sz, "Received network packet (%u bytes):", pkg_sz);
  • Compiler warnings when format string and arguments don't match:
  /* warning: format specifies type 'char *' but the argument has type 'int' */
  ZF_LOGI("This is int %s", 42);
  • Conditional logging of sensitive information (also known as Personally Identifiable Information or PII):
  /* will be logged only when logging of sensitive information is enabled */
  ZF_LOG_SECRET(ZF_LOGI("Credit card number: %s", credit_card));
  • Custom output functions
  • Custom log message formats
  • Compile time configuration of logging level
  • Run time configuration of logging level
  • Optional built-in support for Android log and Apple system log (iOS, OS X)
  • Reasonably cross-platform (OS X, iOS, Linux, Android, other Unix flavors, POSIX platforms and Windows)
  • No external dependencies
  • Compact call site (smaller executables)
  • Thread safe
  • Library size is under 10Kb (when compiled for x86_64)
  • Can be used privatly in libraries

Examples

Library provides a set of ZF_LOGX macros where X is an abbreviated log level (e.g. I for INFO). This code will log an INFO message:

ZF_LOGI("Number of arguments: %i", argc);

And will produce the following log line if NDEBUG is defined (aka release build):

+- month           +- process id
|  +- day          |      +- thread id      +- message
|  |               |      |                 |
04-29 22:43:20.244 40059  1299 I hello.MAIN Number of arguments: 1
      |                        | |     |
      +- time                  | |     +- tag (optional)
                               | +- tag prefix (optional)
                               +- level

And if NDEBUG is NOT defined (aka debug build):

04-29 22:43:20.244 40059  1299 I hello.MAIN [email protected]:9 Number of arguments: 1
                                            |    |       |
                                            |    |       +- line number
                                            |    +- source file name
                                            +- function name

It's also possible to dump a memory region. For example:

const char data[] = "Lorem ipsum dolor sit amet, consectetur adipiscing elit.";
ZF_LOGI_MEM(data, sizeof(data), "Lorem ipsum at %p", data);

Will produce the following output:

05-06 00:54:33.825 35864  1299 I hello.MAIN Lorem ipsum at 0x10fbc0f20:
05-06 00:54:33.825 35864  1299 I hello.MAIN 4c6f72656d20697073756d20646f6c6f  Lorem ipsum dolo
05-06 00:54:33.825 35864  1299 I hello.MAIN 722073697420616d65742c20636f6e73  r sit amet, cons
05-06 00:54:33.825 35864  1299 I hello.MAIN 65637465747572206164697069736369  ectetur adipisci
05-06 00:54:33.825 35864  1299 I hello.MAIN 6e6720656c69742e00                ng elit.?

More examples available in examples folder. For more details see comments in zf_log/zf_log.h file.

Usage

Embedding

The simplest way of using this library is to embed its sources into existing project. For that, copy the following files to your source tree:

See comments in those files for configuration macros. One particularly useful option when embedding into a library project is ZF_LOG_LIBRARY_PREFIX. It could be used to decorate zf_log exported symbols to avoid linker conflicts (when that library project is used in other project that is also uses zf_log).

Embedding with CMake

Another options is avaibale for projects that are using CMake. Copy zf_log folder to you source tree and add it with add_subdirectory() call in one of your CMakeLists.txt files. Also see zf_log/CMakeLists.txt for available ZF_LOG_ configuration options. For example:

set(ZF_LOG_USE_ANDROID_LOG ON)
add_subdirectory(zf_log)

This will add zf_log library target. For each target that uses zf_log in corresponding CMakeLists.txt file add:

target_link_libraries(my_target zf_log)

Installation

Another option is to build and install the library:

git clone https://github.com/wonder-mice/zf_log.git zf_log.git
mkdir zf_log.build && cd zf_log.build
cmake ../zf_log.git -DCMAKE_INSTALL_PREFIX=/usr/local
make
sudo make install

This will also install ${CMAKE_INSTALL_PREFIX}/lib/cmake/zf_log/zf_log.cmake and ${CMAKE_INSTALL_PREFIX}/lib/cmake/zf_log/zf_log-config.cmake. The first one is for direct include from CMakeLists.txt files. The second can be located by CMake with:

find_package(zf_log)

Both will add zf_log imported library target. For each target that uses zf_log in corresponding CMakeLists.txt file add:

target_link_libraries(my_target zf_log)

To build as a shared library set CMake variable BUILD_SHARED_LIBS:

cmake ../zf_log.git -DBUILD_SHARED_LIBS:BOOL=ON

Performance

Log statements that are below current log level (compile time check) have no overhead - they are compiled out and their log arguments will not be evaluated. Consider:

#include <signal.h>
#include <unistd.h>
#define ZF_LOG_LEVEL ZF_LOG_INFO
#include <zf_log.h>

int main(int argc, char *argv[])
{
	ZF_LOGV("Argument of this VERBOSE message will not be evaluated: %i",
			kill(getpid(), SIGKILL));
	ZF_LOGI("So you will see that INFO message");
	return 0;
}

Log statements that are below output log level (run time check) have a small overhead of compare operation and conditional jump. Arguments will not be evaluated and no function call will be performed. Consider:

#include <stdlib.h>
#define ZF_LOG_LEVEL ZF_LOG_INFO
#include <zf_log.h>

int main(int argc, char *argv[])
{
	zf_log_set_output_level(ZF_LOG_WARN);
	int count = 0;
	for (int i = 2; 0 < i--;)
	{
		ZF_LOGI("Argument of this INFO message will be evaluated only once: %i",
				++count);
		zf_log_set_output_level(ZF_LOG_INFO);
	}
	if (1 != count)
	{
		abort();
	}
	ZF_LOGI("And you will see that INFO message");
	return 0;
}

Log statements that are on or above current log level and output log level will go into log output (and arguments will be evaluated). In that case it's hard to talk about performance because string formatting routines will be called and IO will be performed.

To conclude, it is OK to have log statements for debug and development purposes, even in performance critical parts. But make sure to set correct current log level (to compile them out) or output log level (to suppress them) in release builds.

That said, in some rare cases it could be useful to provide a custom output function that will use memory buffer for the log output.

Output

By default log messages are written to the stderr, but it is also possible to set custom output function. Library has an optional built-in support for the following output facilities (see zf_log/zf_log.c for details):

  • Android Log (via android/log.h)
  • Apple System Log (iOS, OS X via asl.h)

See examples/custom_output.c for an example of custom output function.

Comparison

This table is work in progress. See tests/perf folder for how this table was generated (fully automated).

Easylogging++ g3log glog spdlog zf_log
Call site size: string 304 B 360 B 160 B 352 B 48 B
Call site size: 3 integers 856 B 384 B 320 B 312 B 72 B
Executable size: 1 module 208.84 KB 183.73 KB 137.37 KB 133.69 KB 18.33 KB
Module compile time 3.182 sec 0.511 sec 0.374 sec 2.163 sec 0.024 sec
Executable link time 0.025 sec 0.022 sec 0.026 sec 0.020 sec 0.017 sec
Speed: 1 thread, string 378,722 1,257,168 385,098 1,909,253 5,296,201
Speed: 1 thread, 3 integers 311,690 1,023,108 321,507 1,470,271 3,173,097
Speed: 1 thread, string, off 4,199,431 55,297,247 411,960 78,675,820 482,713,041
Speed: 1 thread, slow function, off 743 54,877,221 732 750 423,658,146
Speed: 4 threads, string 132,836 2,353,169 196,950 196,930 9,690,216
Speed: 4 threads, 3 integers 116,696 1,896,178 235,141 172,880 5,545,075
Speed: 4 threads, string, off 244,448 106,600,866 186,233 164,582,184 1,229,398,467
Speed: 4 threads, slow function, off 733 111,685,033 2,887 2,976 1,106,166,551
Speed: 8 threads, string 131,691 2,447,058 172,824 183,277 9,731,434
Speed: 8 threads, 3 integers 115,991 1,936,270 176,594 177,950 5,596,045
Speed: 8 threads, string, off 240,538 104,424,749 182,465 164,632,729 1,228,058,986
Speed: 8 threads, slow function, off 774 116,354,224 5,815 5,976 1,127,173,552

Details:

  • Call site size - amount of code generated for each LOG() statement when logging a string, format string with 4 integers or format string with 4 integers where the function is used to get an integer.
  • Compile time - time to compile a source file that includes public API header from the logging library.
  • Speed - log lines per second. Thread(s) call LOG() N times in a tight loop for T seconds. N/T is log lines per second.
  • When it says "off", it means that log level was turned off. Expecting very low overhead in this mode.

Why zf?

It stands for Ze Foundation. "Ze" is like "The" but with french or german accent. Mostly because zf_anything looks better than tf_anything.