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We use stack traces in proprietary assert like macro to catch developer mistakes - when error is caught, stack trace is printed.

I find gcc's pair backtrace()/backtrace_symbols() methods insufficient:

  1. Names are mangled
  2. No line information

1st problem can be resolved by abi::__cxa_demangle.

However 2nd problem s more tough. I found replacement for backtrace_symbols(). This is better than gcc's backtrace_symbols(), since it can retrieve line numbers (if compiled with -g) and you don't need to compile with -rdynamic.

Hoverer the code is GNU licenced, so IMHO I can't use it in commercial code.

Any proposal?

P.S.

gdb is capable to print out arguments passed to functions. Probably it's already too much to ask for :)

PS 2

Similar question (thanks nobar)

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2  
Either find the author and pay him or reimplement it yourself. –  the_drow Jan 8 '11 at 22:23
    
I'm not sure if using compiled GNU code on your commercial application is the same as modifying/customize the GNU code itself to distribute inside your app. Anyone? –  karlphillip Jan 12 '11 at 22:15
    
Is it for Linux/x86 only or you should this code run on different platforms? –  osgx Jan 13 '11 at 13:48
1  
@osgx currently x86_64 –  dimba Jan 14 '11 at 6:30
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11 Answers

up vote 17 down vote accepted
+500

Not too long ago I answered a similar question. You should take a look at the source code available on method #4, which also prints line numbers and filenames.

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Remember to compile your application with -rdynamic. –  karlphillip Jan 12 '11 at 22:16
    
@karlphillip, about GPL. if the GPL (not GNU, but GPL-licensed) code is linked (with ld.so or ld) into another code, the GPL require that another code is available under GPL. This all is only true in case when the application is transfered to another people. Personally you can do anything with GPL code and link it with anything. –  osgx Jan 12 '11 at 22:26
    
@osgx And what happens if your app uses dynamically linked GPL libraries available on the system target. Same rule? –  karlphillip Jan 12 '11 at 22:29
    
For the many dynamic libraries there is a LGPL license, which allows linking. –  osgx Jan 12 '11 at 22:32
    
Yes the rule is same, gnu.org/licenses/gpl-faq.html#LinkingWithGPL . –  osgx Jan 12 '11 at 22:58
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So you want a stand-alone function that prints a stack trace with all of the features that gdb stack traces have and that doesn't terminate your application. The answer is to automate the launch of gdb in a non-interactive mode to perform just the tasks that you want.

This is done by executing gdb in a child process, using fork(), and scripting it to display a stack-trace while your application waits for it to complete. This can be performed without the use of a core-dump and without aborting the application. I learned how to do this from looking at this question: How it's better to invoke gdb from program to print it's stacktrace?

The example posted with that question didn't work for me exactly as written, so here's my "fixed" version (I ran this on Ubuntu 9.04).

#include <stdio.h>
#include <stdlib.h>
#include <sys/wait.h>
#include <unistd.h>

void print_trace() {
    char pid_buf[30];
    sprintf(pid_buf, "%d", getpid());
    char name_buf[512];
    name_buf[readlink("/proc/self/exe", name_buf, 511)]=0;
    int child_pid = fork();
    if (!child_pid) {           
        dup2(2,1); // redirect output to stderr
        fprintf(stdout,"stack trace for %s pid=%s\n",name_buf,pid_buf);
        execlp("gdb", "gdb", "--batch", "-n", "-ex", "thread", "-ex", "bt", name_buf, pid_buf, NULL);
        abort(); /* If gdb failed to start */
    } else {
        waitpid(child_pid,NULL,0);
    }
}

As shown in the referenced question, gdb provides additional options that you could use. For example, using "bt full" instead of "bt" produces an even more detailed report (local variables are included in the output). The manpages for gdb are kind of light, but complete documentation is available here.

Since this is based on gdb, the output includes demangled names, line-numbers, function arguments, and optionally even local variables. Also, gdb is thread-aware, so you should be able to extract some thread-specific metadata.

Here's an example of the kind of stack traces that I see with this method.

0x00007f97e1fc2925 in waitpid () from /lib/libc.so.6
[Current thread is 0 (process 15573)]
#0  0x00007f97e1fc2925 in waitpid () from /lib/libc.so.6
#1  0x0000000000400bd5 in print_trace () at ./demo3b.cpp:496
2  0x0000000000400c09 in recursive (i=2) at ./demo3b.cpp:636
3  0x0000000000400c1a in recursive (i=1) at ./demo3b.cpp:646
4  0x0000000000400c1a in recursive (i=0) at ./demo3b.cpp:646
5  0x0000000000400c46 in main (argc=1, argv=0x7fffe3b2b5b8) at ./demo3b.cpp:70

Note: I found this to be incompatible with the use of valgrind (probably due to Valgrind's use of a virtual machine). It also doesn't work when you are running the program inside of a gdb session (can't apply a second instance of "ptrace" to a process).

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@nobar +1 Good! When it prints the line numbers it would be even better. –  karlphillip Jan 19 '11 at 12:03
    
It does print the line numbers for me. What makes you say that it doesn't? –  nobar Jan 19 '11 at 15:02
    
@nobar The fact that on my system, it doesn't! And I'm compiling with -rdynamic and -g. How are you compiling the test application? I'm using GDB 7.1, how about you? –  karlphillip Jan 19 '11 at 17:18
3  
And it is getting worse: ptracing the parent is now no longer permitted. But perhaps there is a flag you can set with prctl? –  BeniBela Jun 14 '13 at 12:41
1  
@BeniBela: Thanks for the pointer. One possible workaround is to run with sudo. –  nobar Jun 18 '13 at 19:12
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There is a robust discussion of essentially the same question at: How to generate a stacktrace when my gcc C++ app crashes. Many suggestions are provided, including lots of discussion about how to generate stack traces at run-time.

My personal favorite answer from that thread was to enable core dumps which allows you to view the complete application state at the time of the crash (including function arguments, line numbers, and unmangled names). An additional benefit of this approach is that it not only works for asserts, but also for segmentation faults and unhandled exceptions.

Different Linux shells use different commands to enable core dumps, but you can do it from within your application code with something like this...

#include <sys/resource.h>
...
rlimit core_limit = { RLIM_INFINITY, RLIM_INFINITY };
assert( setrlimit( RLIMIT_CORE, &core_limit ) == 0 ); // enable core dumps for debug builds

After a crash, run your favorite debugger to examine the program state.

$ kdbg executable core

Here's some sample output...

alt text

It is also possible to extract the stack trace from a core dump at the command line.

$ ( CMDFILE=$(mktemp); echo "bt" >${CMDFILE}; gdb 2>/dev/null --batch -x ${CMDFILE} temp.exe core )
Core was generated by `./temp.exe'.
Program terminated with signal 6, Aborted.
[New process 22857]
#0  0x00007f4189be5fb5 in raise () from /lib/libc.so.6
#0  0x00007f4189be5fb5 in raise () from /lib/libc.so.6
#1  0x00007f4189be7bc3 in abort () from /lib/libc.so.6
#2  0x00007f4189bdef09 in __assert_fail () from /lib/libc.so.6
#3  0x00000000004007e8 in recursive (i=5) at ./demo1.cpp:18
#4  0x00000000004007f3 in recursive (i=4) at ./demo1.cpp:19
#5  0x00000000004007f3 in recursive (i=3) at ./demo1.cpp:19
#6  0x00000000004007f3 in recursive (i=2) at ./demo1.cpp:19
#7  0x00000000004007f3 in recursive (i=1) at ./demo1.cpp:19
#8  0x00000000004007f3 in recursive (i=0) at ./demo1.cpp:19
#9  0x0000000000400849 in main (argc=1, argv=0x7fff2483bd98) at ./demo1.cpp:26
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+1 for suggesting a full core dump rather than just a stack trace. –  Raedwald Jan 18 '11 at 14:41
    
gdb is for post mortal analysis. I'm looking more how to receive the information from inside code. Maybe I want to print backtrace not in case of SIGSEV - for example to see where from unhandled C++ exception is thrown from. –  dimba Jan 18 '11 at 18:59
    
An unhandled exception WILL generate a core-dump that you can use to analyze the stack at the time of the throw -- so this answer works for that. –  nobar Jan 18 '11 at 19:41
    
On the other hand, if you want to generate a stack trace without terminating the program, I posted another answer that addresses that requirement. –  nobar Jan 18 '11 at 19:45
    
Not good if you have the binary built on an alien system (from open source code), you can't understand the core dump on your side. And you can't ask some user to run such commands. –  xryl669 Nov 13 '13 at 13:17
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Since the GPL licensed code is intended to help you during development, you could simply not include it in the final product. The GPL restricts you from distributing GPL licenses code linked with non-GPL compatible code. As long as you only use the GPL code inhouse, you should be fine.

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Dynamically linked is probably (almost certainly) fine, because the source is still open. Asserts and profiling code that goes into your executable... @Keith is right, use it in house. –  Chris Huang-Leaver Jan 13 '11 at 12:25
    
Dynamic linking, as far as I know, hasn't been tested in court. While the FSF argues that it is not allowed, others have different opinions. Wikipedia has a good discussion of the different views on this. en.wikipedia.org/wiki/… –  KeithB Jan 13 '11 at 16:02
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Use the google glog library for it. It has new BSD licence.

It contains a GetStackTrace function in the stacktrace.h file.

EDIT

I found here http://blog.bigpixel.ro/2010/09/09/stack-unwinding-stack-trace-with-gcc/ that there is an utility called addr2line that translates program addresses into file names and line numbers.

http://linuxcommand.org/man_pages/addr2line1.html

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OP is asking for stack tracing, not logging. –  chrisaycock Jan 8 '11 at 22:23
5  
Glog has stacktrace printing capability –  Industrial-antidepressant Jan 8 '11 at 22:45
2  
Indeed glog has stack trace (google-glog.googlecode.com/svn/trunk/doc/glog.html Failure Signal Handler section), but it has no code line information. –  dimba Jan 8 '11 at 22:49
    
I have no time to try addr2line but it can be a solution –  Industrial-antidepressant Jan 18 '11 at 22:01
1  
google-glog is a thin wrapper over backtrace and backtrace_symbols. It won't give you filenames and line numbers –  Sarang Apr 21 '13 at 1:33
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Here's an alternative approach. A debug_assert() macro programmatically sets a conditional breakpoint. If you are running in a debugger, you will hit a breakpoint when the assert expression is false -- and you can analyze the live stack (the program doesn't terminate). If you are not running in a debugger, a failed debug_assert() causes the program to abort and you get a core dump from which you can analyze the stack (see my earlier answer).

The advantage of this approach, compared to normal asserts, is that you can continue running the program after the debug_assert is triggered (when running in a debugger). In other words, debug_assert() is slightly more flexible than assert().

   #include <iostream>
   #include <cassert>
   #include <sys/resource.h> 

// note: The assert expression should show up in
// stack trace as parameter to this function
void debug_breakpoint( char const * expression )
   {
   asm("int3"); // x86 specific
   }

#ifdef NDEBUG
   #define debug_assert( expression )
#else
// creates a conditional breakpoint
   #define debug_assert( expression ) \
      do { if ( !(expression) ) debug_breakpoint( #expression ); } while (0)
#endif

void recursive( int i=0 )
   {
   debug_assert( i < 5 );
   if ( i < 10 ) recursive(i+1);
   }

int main( int argc, char * argv[] )
   {
   rlimit core_limit = { RLIM_INFINITY, RLIM_INFINITY };
   setrlimit( RLIMIT_CORE, &core_limit ); // enable core dumps
   recursive();
   }

Note: Sometimes "conditional breakpoints" setup within debuggers can be slow. By establishing the breakpoint programmatically, the performance of this method should be equivalent to that of a normal assert().

Note: As written, this is specific to the Intel x86 architecture -- other processors may have different instructions for generating a breakpoint.

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1  
I once used something similar, but with an empty function debug_breakpoint. When debugging, I simply entered "bre debug_breakpoint" at the gdb prompt - no asembler needed (compile debug_breakpoint in a separate compilation unit to avoid having the call optimized away). –  Axel Jan 18 '11 at 21:16
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A bit late, but you can use libbfb to fetch the filename and linenumber like refdbg does in symsnarf.c. libbfb is internally used by addr2line and gdb

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The one of solutions is to start a gdb with "bt"-script in failed assert handler. It is not very easy to integrate such gdb-starting, but It will give you both backtrace and args and demangle names (or you can pass gdb output via c++filt programm).

Both programms (gdb and c++filt) will be not linked into your application, so GPL will not require you to opensource complete application.

The same approach (exec a GPL programme) you can use with backtrace-symbols. Just generate ascii list of %eip's and map of exec file (/proc/self/maps) and pass it to separate binary.

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You can use DeathHandler - small C++ class which does everything for you, reliable.

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I suppose line numbers are related to current eip value, right?

SOLUTION 1:
Then you can use something like GetThreadContext(), except that you're working on linux. I googled around a bit and found something similar, ptrace():

The ptrace() system call provides a means by which a parent process may observe and control the execution of another process, and examine and change its core image and registers. [...] The parent can initiate a trace by calling fork(2) and having the resulting child do a PTRACE_TRACEME, followed (typically) by an exec(3). Alternatively, the parent may commence trace of an existing process using PTRACE_ATTACH.

Now I was thinking, you can do a 'main' program which checks for signals that are sent to its child, the real program you're working on. after fork() it call waitid():

All of these system calls are used to wait for state changes in a child of the calling process, and obtain information about the child whose state has changed.

and if a SIGSEGV (or something similar) is caught call ptrace() to obtain eip's value.

PS: I've never used these system calls (well, actually, I've never seen them before ;) so I don't know if it's possible neither can help you. At least I hope these links are useful. ;)

SOLUTION 2: The first solution is quite complicated, right? I came up with a much simpler one: using signal() catch the signals you are interested in and call a simple function that reads the eip value stored in the stack:

...
signal(SIGSEGV, sig_handler);
...

void sig_handler(int signum)
{
    int eip_value;

    asm {
        push eax;
        mov eax, [ebp - 4]
        mov eip_value, eax
        pop eax
    }

    // now you have the address of the
    // **next** instruction after the
    // SIGSEGV was received
}

That asm syntax is Borland's one, just adapt it to GAS. ;)

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there are zero solution in you "post". this is not looks like an answer –  osgx Jan 12 '11 at 22:55
    
@osgx: can you please explain why? These solutions can give you the position where a error happened. –  BlackBear Jan 13 '11 at 13:27
    
It is not complete solution. Its obviously that for externally getting an info from binary is ptrace. And it is obviously to take a eip from a stack. But you give no any answer how to get entire backtrace and convert it to function names and source file line info. –  osgx Jan 13 '11 at 13:47
1  
@osgx: I'm curious to hear how you get from "this is not a complete solution" to the statement that "there is zero solution in your post". Partial solutions are both acceptable and valuable on SO. –  jalf Jan 13 '11 at 18:00
1  
@BlackBear - there is such log already. Every function must know address to return to after it run. This log is called function call stack. yosefk.com/blog/… - there is one of examples, how it can be get from stack. –  osgx Jan 13 '11 at 22:37
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Here's my third answer -- still trying to take advantage of core dumps.

It wasn't completely clear in the question whether the "assert-like" macros were supposed to terminate the application (the way assert does) or they were supposed to continue executing after generating their stack-trace.

In this answer, I'm addressing the case where you want to show a stack-trace and continue executing. I wrote the coredump() function below to generate a core dump, automatically extract the stack-trace from it, then continue executing the program.

Usage is the same as that of assert(). The difference, of course, is that assert() terminates the program but coredump_assert() does not.

   #include <iostream>
   #include <sys/resource.h> 
   #include <cstdio>
   #include <cstdlib>
   #include <boost/lexical_cast.hpp>
   #include <string>
   #include <sys/wait.h>
   #include <unistd.h>

   std::string exename;

// expression argument is for diagnostic purposes (shows up in call-stack)
void coredump( char const * expression )
   {

   pid_t childpid = fork();

   if ( childpid == 0 ) // child process generates core dump
      {
      rlimit core_limit = { RLIM_INFINITY, RLIM_INFINITY };
      setrlimit( RLIMIT_CORE, &core_limit ); // enable core dumps
      abort(); // terminate child process and generate core dump
      }

// give each core-file a unique name
   if ( childpid > 0 ) waitpid( childpid, 0, 0 );
   static int count=0;
   using std::string;
   string pid = boost::lexical_cast<string>(getpid());
   string newcorename = "core-"+boost::lexical_cast<string>(count++)+"."+pid;
   string rawcorename = "core."+boost::lexical_cast<string>(childpid);
   int rename_rval = rename(rawcorename.c_str(),newcorename.c_str()); // try with core.PID
   if ( rename_rval == -1 ) rename_rval = rename("core",newcorename.c_str()); // try with just core
   if ( rename_rval == -1 ) std::cerr<<"failed to capture core file\n";

  #if 1 // optional: dump stack trace and delete core file
   string cmd = "( CMDFILE=$(mktemp); echo 'bt' >${CMDFILE}; gdb 2>/dev/null --batch -x ${CMDFILE} "+exename+" "+newcorename+" ; unlink ${CMDFILE} )";
   int system_rval = system( ("bash -c '"+cmd+"'").c_str() );
   if ( system_rval == -1 ) std::cerr.flush(), perror("system() failed during stack trace"), fflush(stderr);
   unlink( newcorename.c_str() );
  #endif

   }

#ifdef NDEBUG
   #define coredump_assert( expression ) ((void)(expression))
#else
   #define coredump_assert( expression ) do { if ( !(expression) ) { coredump( #expression ); } } while (0)
#endif

void recursive( int i=0 )
   {
   coredump_assert( i < 2 );
   if ( i < 4 ) recursive(i+1);
   }

int main( int argc, char * argv[] )
   {
   exename = argv[0]; // this is used to generate the stack trace
   recursive();
   }

When I run the program, it displays three stack traces...

Core was generated by `./temp.exe'.                                         
Program terminated with signal 6, Aborted.
[New process 24251]
#0  0x00007f2818ac9fb5 in raise () from /lib/libc.so.6
#0  0x00007f2818ac9fb5 in raise () from /lib/libc.so.6
#1  0x00007f2818acbbc3 in abort () from /lib/libc.so.6
#2  0x0000000000401a0e in coredump (expression=0x403303 "i < 2") at ./demo3.cpp:29
#3  0x0000000000401f5f in recursive (i=2) at ./demo3.cpp:60
#4  0x0000000000401f70 in recursive (i=1) at ./demo3.cpp:61
#5  0x0000000000401f70 in recursive (i=0) at ./demo3.cpp:61
#6  0x0000000000401f8b in main (argc=1, argv=0x7fffc229eb98) at ./demo3.cpp:66
Core was generated by `./temp.exe'.
Program terminated with signal 6, Aborted.
[New process 24259]
#0  0x00007f2818ac9fb5 in raise () from /lib/libc.so.6
#0  0x00007f2818ac9fb5 in raise () from /lib/libc.so.6
#1  0x00007f2818acbbc3 in abort () from /lib/libc.so.6
#2  0x0000000000401a0e in coredump (expression=0x403303 "i < 2") at ./demo3.cpp:29
#3  0x0000000000401f5f in recursive (i=3) at ./demo3.cpp:60
#4  0x0000000000401f70 in recursive (i=2) at ./demo3.cpp:61
#5  0x0000000000401f70 in recursive (i=1) at ./demo3.cpp:61
#6  0x0000000000401f70 in recursive (i=0) at ./demo3.cpp:61
#7  0x0000000000401f8b in main (argc=1, argv=0x7fffc229eb98) at ./demo3.cpp:66
Core was generated by `./temp.exe'.
Program terminated with signal 6, Aborted.
[New process 24267]
#0  0x00007f2818ac9fb5 in raise () from /lib/libc.so.6
#0  0x00007f2818ac9fb5 in raise () from /lib/libc.so.6
#1  0x00007f2818acbbc3 in abort () from /lib/libc.so.6
#2  0x0000000000401a0e in coredump (expression=0x403303 "i < 2") at ./demo3.cpp:29
#3  0x0000000000401f5f in recursive (i=4) at ./demo3.cpp:60
#4  0x0000000000401f70 in recursive (i=3) at ./demo3.cpp:61
#5  0x0000000000401f70 in recursive (i=2) at ./demo3.cpp:61
#6  0x0000000000401f70 in recursive (i=1) at ./demo3.cpp:61
#7  0x0000000000401f70 in recursive (i=0) at ./demo3.cpp:61
#8  0x0000000000401f8b in main (argc=1, argv=0x7fffc229eb98) at ./demo3.cpp:66
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While calling system() from application, don't you afraid of some side effects? In my case I'm talking about multi threaded application which consumes reasonable amount of resident memory. –  dimba Jan 18 '11 at 22:25
1  
There is a problem here for multi-threaded programs: There is a race condition when it is writing and renaming the core file -- two different threads might use the same core file name at the same time. You could add a mutex to address this. –  nobar Jan 19 '11 at 0:34
    
@dimba: Could you be more specific about the kinds of side effects that might occur when calling system()? I'm not aware of any such problems. –  nobar Jan 19 '11 at 0:36
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