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      2 <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"><html xmlns="http://www.w3.org/1999/xhtml"><head><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /><title>Debugging Support</title><meta name="generator" content="DocBook XSL Stylesheets Vsnapshot" /><meta name="keywords" content="C++, debug" /><meta name="keywords" content="ISO C++, library" /><meta name="keywords" content="ISO C++, runtime, library" /><link rel="home" href="../index.html" title="The GNU C++ Library" /><link rel="up" href="using.html" title="Chapter3.Using" /><link rel="prev" href="using_exceptions.html" title="Exceptions" /><link rel="next" href="std_contents.html" title="PartII. Standard Contents" /></head><body><div class="navheader"><table width="100%" summary="Navigation header"><tr><th colspan="3" align="center">Debugging Support</th></tr><tr><td width="20%" align="left"><a accesskey="p" href="using_exceptions.html">Prev</a></td><th width="60%" align="center">Chapter3.Using</th><td width="20%" align="right"><a accesskey="n" href="std_contents.html">Next</a></td></tr></table><hr /></div><div class="section"><div class="titlepage"><div><div><h2 class="title" style="clear: both"><a id="manual.intro.using.debug"></a>Debugging Support</h2></div></div></div><p>
      3   There are numerous things that can be done to improve the ease with
      4   which C++ binaries are debugged when using the GNU tool chain. Here
      5   are some of them.
      6 </p><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.compiler"></a>Using <span class="command"><strong>g++</strong></span></h3></div></div></div><p>
      7     Compiler flags determine how debug information is transmitted
      8     between compilation and debug or analysis tools.
      9   </p><p>
     10     The default optimizations and debug flags for a libstdc++ build
     11     are <code class="code">-g -O2</code>. However, both debug and optimization
     12     flags can be varied to change debugging characteristics. For
     13     instance, turning off all optimization via the <code class="code">-g -O0
     14     -fno-inline</code> flags will disable inlining and optimizations,
     15     and add debugging information, so that stepping through all functions,
     16     (including inlined constructors and destructors) is possible. In
     17     addition, <code class="code">-fno-eliminate-unused-debug-types</code> can be
     18     used when additional debug information, such as nested class info,
     19     is desired.
     20 </p><p>
     21   Or, the debug format that the compiler and debugger use to
     22   communicate information about source constructs can be changed via
     23   <code class="code">-gdwarf-2</code> or <code class="code">-gstabs</code> flags: some debugging
     24   formats permit more expressive type and scope information to be
     25   shown in GDB. Expressiveness can be enhanced by flags like
     26   <code class="code">-g3</code>. The default debug information for a particular
     27   platform can be identified via the value set by the
     28   PREFERRED_DEBUGGING_TYPE macro in the GCC sources.
     29 </p><p>
     30   Many other options are available: please see <a class="link" href="http://gcc.gnu.org/onlinedocs/gcc/Debugging-Options.html#Debugging%20Options" target="_top">"Options
     31   for Debugging Your Program"</a> in Using the GNU Compiler
     32   Collection (GCC) for a complete list.
     33 </p></div><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.req"></a>Debug Versions of Library Binary Files</h3></div></div></div><p>
     34   If you would like debug symbols in libstdc++, there are two ways to
     35   build libstdc++ with debug flags. The first is to create a separate
     36   debug build by running make from the top-level of a tree
     37   freshly-configured with
     38 </p><pre class="programlisting">
     39      --enable-libstdcxx-debug
     40 </pre><p>and perhaps</p><pre class="programlisting">
     41      --enable-libstdcxx-debug-flags='...'
     42 </pre><p>
     43   Both the normal build and the debug build will persist, without
     44   having to specify <code class="code">CXXFLAGS</code>, and the debug library will
     45   be installed in a separate directory tree, in <code class="code">(prefix)/lib/debug</code>.
     46   For more information, look at the
     47   <a class="link" href="configure.html" title="Configure">configuration</a> section.
     48 </p><p>
     49   A second approach is to use the configuration flags
     50 </p><pre class="programlisting">
     51      make CXXFLAGS='-g3 -fno-inline -O0' all
     52 </pre><p>
     53   This quick and dirty approach is often sufficient for quick
     54   debugging tasks, when you cannot or don't want to recompile your
     55   application to use the <a class="link" href="debug_mode.html" title="Chapter17.Debug Mode">debug mode</a>.</p></div><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.memory"></a>Memory Leak Hunting</h3></div></div></div><p>
     56   On many targets GCC supports AddressSanitizer, a fast memory error detector,
     57   which is enabled by the <code class="option">-fsanitize=address</code> option.
     58 </p><p>
     59   There are also various third party memory tracing and debug utilities
     60   that can be used to provide detailed memory allocation information
     61   about C++ code. An exhaustive list of tools is not going to be
     62   attempted, but includes <code class="code">mtrace</code>, <code class="code">valgrind</code>,
     63   <code class="code">mudflap</code> (no longer supported since GCC 4.9.0), ElectricFence,
     64   and the non-free commercial product <code class="code">purify</code>.
     65   In addition, <code class="code">libcwd</code>, jemalloc and TCMalloc have replacements
     66   for the global <code class="code">new</code> and <code class="code">delete</code> operators
     67   that can track memory allocation and deallocation and provide useful
     68   memory statistics.
     69 </p><p>
     70   For valgrind, there are some specific items to keep in mind. First
     71   of all, use a version of valgrind that will work with current GNU
     72   C++ tools: the first that can do this is valgrind 1.0.4, but later
     73   versions should work better. Second, using an unoptimized build
     74   might avoid confusing valgrind.
     75 </p><p>
     76   Third, it may be necessary to force deallocation in other libraries
     77   as well, namely the "C" library. On GNU/Linux, this can be accomplished
     78   with the appropriate use of the <code class="code">__cxa_atexit</code> or
     79   <code class="code">atexit</code> functions.
     80 </p><pre class="programlisting">
     81    #include &lt;cstdlib&gt;
     82 
     83    extern "C" void __libc_freeres(void);
     84 
     85    void do_something() { }
     86 
     87    int main()
     88    {
     89      atexit(__libc_freeres);
     90      do_something();
     91      return 0;
     92    }
     93 </pre><p>or, using <code class="code">__cxa_atexit</code>:</p><pre class="programlisting">
     94    extern "C" void __libc_freeres(void);
     95    extern "C" int __cxa_atexit(void (*func) (void *), void *arg, void *d);
     96 
     97    void do_something() { }
     98 
     99    int main()
    100    {
    101       extern void* __dso_handle __attribute__ ((__weak__));
    102       __cxa_atexit((void (*) (void *)) __libc_freeres, NULL,
    103 		   &amp;__dso_handle ? __dso_handle : NULL);
    104       do_test();
    105       return 0;
    106    }
    107 </pre><p>
    108   Suggested valgrind flags, given the suggestions above about setting
    109   up the runtime environment, library, and test file, might be:
    110 </p><pre class="programlisting">
    111    valgrind -v --num-callers=20 --leak-check=yes --leak-resolution=high --show-reachable=yes a.out
    112 </pre><div class="section"><div class="titlepage"><div><div><h4 class="title"><a id="debug.memory.mtalloc"></a>Non-memory leaks in Pool and MT allocators</h4></div></div></div><p>
    113   There are different kinds of allocation schemes that can be used by
    114   <code class="code">std::allocator</code>. Prior to GCC 3.4.0 the default was to use
    115   a pooling allocator, <code class="classname">pool_allocator</code>,
    116   which is still available as the optional
    117   <code class="classname">__pool_alloc</code> extension.
    118   Another optional extension, <code class="classname">__mt_alloc</code>,
    119   is a high-performance pool allocator.
    120 </p><p>
    121   In a suspect executable these pooling allocators can give
    122   the mistaken impression that memory is being leaked,
    123   when in reality the memory "leak" is a pool being used
    124   by the library's allocator and is reclaimed after program
    125   termination.
    126 </p><p>
    127   If you're using memory debugging tools on a program that uses
    128   one of these pooling allocators, you can set the environment variable
    129   <code class="literal">GLIBCXX_FORCE_NEW</code> to keep extraneous pool allocation
    130   noise from cluttering debug information.
    131   For more details, see the
    132   <a class="link" href="mt_allocator.html" title="Chapter19.The mt_allocator">mt allocator</a>
    133   documentation and look specifically for <code class="code">GLIBCXX_FORCE_NEW</code>.
    134 </p></div></div><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.races"></a>Data Race Hunting</h3></div></div></div><p>
    135   All synchronization primitives used in the library internals need to be
    136   understood by race detectors so that they do not produce false reports.
    137 </p><p>
    138   Two annotation macros are used to explain low-level synchronization
    139   to race detectors:
    140   <code class="code">_GLIBCXX_SYNCHRONIZATION_HAPPENS_BEFORE()</code> and
    141   <code class="code"> _GLIBCXX_SYNCHRONIZATION_HAPPENS_AFTER()</code>.
    142   By default, these macros are defined empty -- anyone who wants
    143   to use a race detector needs to redefine them to call an
    144   appropriate API.
    145   Since these macros are empty by default when the library is built,
    146   redefining them will only affect inline functions and template
    147   instantiations which are compiled in user code. This allows annotation
    148   of templates such as <code class="code">shared_ptr</code>, but not code which is
    149   only instantiated in the library.  Code which is only instantiated in
    150   the library needs to be recompiled with the annotation macros defined.
    151   That can be done by rebuilding the entire
    152   <code class="filename">libstdc++.so</code> file but a simpler
    153   alternative exists for ELF platforms such as GNU/Linux, because ELF
    154   symbol interposition allows symbols defined in the shared library to be
    155   overridden by symbols with the same name that appear earlier in the
    156   runtime search path. This means you only need to recompile the functions
    157   that are affected by the annotation macros, which can be done by
    158   recompiling individual files.
    159   Annotating <code class="code">std::string</code> and <code class="code">std::wstring</code>
    160   reference counting can be done by disabling extern templates (by defining
    161   <code class="code">_GLIBCXX_EXTERN_TEMPLATE=-1</code>) or by rebuilding the
    162   <code class="filename">src/string-inst.cc</code> file.
    163   Annotating the remaining atomic operations (at the time of writing these
    164   are in <code class="code">ios_base::Init::~Init</code>, <code class="code">locale::_Impl</code>,
    165   <code class="code">locale::facet</code> and <code class="code">thread::_M_start_thread</code>)
    166   requires rebuilding the relevant source files.
    167 </p><p>
    168   The approach described above is known to work with the following race
    169   detection tools:
    170   <a class="link" href="https://valgrind.org/docs/manual/drd-manual.html" target="_top">
    171   DRD</a>,
    172   <a class="link" href="https://valgrind.org/docs/manual/hg-manual.html" target="_top">
    173   Helgrind</a>, and
    174   <a class="link" href="https://github.com/google/sanitizers" target="_top">
    175   ThreadSanitizer</a> (this refers to ThreadSanitizer v1, not the
    176   new "tsan" feature built-in to GCC itself).
    177 </p><p>
    178   With DRD, Helgrind and ThreadSanitizer you will need to define
    179   the macros like this:
    180 </p><pre class="programlisting">
    181   #define _GLIBCXX_SYNCHRONIZATION_HAPPENS_BEFORE(A) ANNOTATE_HAPPENS_BEFORE(A)
    182   #define _GLIBCXX_SYNCHRONIZATION_HAPPENS_AFTER(A)  ANNOTATE_HAPPENS_AFTER(A)
    183 </pre><p>
    184   Refer to the documentation of each particular tool for details.
    185 </p></div><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.gdb"></a>Using <span class="command"><strong>gdb</strong></span></h3></div></div></div><p>
    186   </p><p>
    187   Many options are available for GDB itself: please see <a class="link" href="http://sourceware.org/gdb/current/onlinedocs/gdb/" target="_top">
    188   "GDB features for C++" </a> in the GDB documentation. Also
    189   recommended: the other parts of this manual.
    190 </p><p>
    191   These settings can either be switched on in at the GDB command line,
    192   or put into a <code class="filename">.gdbinit</code> file to establish default
    193   debugging characteristics, like so:
    194 </p><pre class="programlisting">
    195    set print pretty on
    196    set print object on
    197    set print static-members on
    198    set print vtbl on
    199    set print demangle on
    200    set demangle-style gnu-v3
    201 </pre><p>
    202   Starting with version 7.0, GDB includes support for writing
    203   pretty-printers in Python.  Pretty printers for containers and other
    204   classes are distributed with GCC from version 4.5.0 and should be installed
    205   alongside the libstdc++ shared library files and found automatically by
    206   GDB.
    207 </p><p>
    208   Depending where libstdc++ is installed, GDB might refuse to auto-load
    209   the python printers and print a warning instead.
    210   If this happens the python printers can be enabled by following the
    211   instructions GDB gives for setting your <code class="code">auto-load safe-path</code>
    212   in your <code class="filename">.gdbinit</code> configuration file.
    213 </p><p>
    214   Once loaded, standard library classes that the printers support
    215   should print in a more human-readable format.  To print the classes
    216   in the old style, use the <strong class="userinput"><code>/r</code></strong> (raw) switch in the
    217   print command (i.e., <strong class="userinput"><code>print /r foo</code></strong>).  This will
    218   print the classes as if the Python pretty-printers were not loaded.
    219 </p><p>
    220   For additional information on STL support and GDB please visit:
    221   <a class="link" href="http://sourceware.org/gdb/wiki/STLSupport" target="_top"> "GDB Support
    222   for STL" </a> in the GDB wiki.  Additionally, in-depth
    223   documentation and discussion of the pretty printing feature can be
    224   found in "Pretty Printing" node in the GDB manual.  You can find
    225   on-line versions of the GDB user manual in GDB's homepage, at
    226   <a class="link" href="http://sourceware.org/gdb/" target="_top"> "GDB: The GNU Project
    227   Debugger" </a>.
    228 </p></div><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.exceptions"></a>Tracking uncaught exceptions</h3></div></div></div><p>
    229   The <a class="link" href="termination.html#support.termination.verbose" title="Verbose Terminate Handler">verbose
    230   termination handler</a> gives information about uncaught
    231   exceptions which kill the program.
    232 </p></div><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.debug_mode"></a>Debug Mode</h3></div></div></div><p> The <a class="link" href="debug_mode.html" title="Chapter17.Debug Mode">Debug Mode</a>
    233   has compile and run-time checks for many containers.
    234   </p></div><div class="section"><div class="titlepage"><div><div><h3 class="title"><a id="debug.compile_time_checks"></a>Compile Time Checking</h3></div></div></div><p> The <a class="link" href="ext_compile_checks.html" title="Chapter16.Compile Time Checks">Compile-Time
    235   Checks</a> extension has compile-time checks for many algorithms.
    236   </p></div></div><div class="navfooter"><hr /><table width="100%" summary="Navigation footer"><tr><td width="40%" align="left"><a accesskey="p" href="using_exceptions.html">Prev</a></td><td width="20%" align="center"><a accesskey="u" href="using.html">Up</a></td><td width="40%" align="right"><a accesskey="n" href="std_contents.html">Next</a></td></tr><tr><td width="40%" align="left" valign="top">Exceptions</td><td width="20%" align="center"><a accesskey="h" href="../index.html">Home</a></td><td width="40%" align="right" valign="top">PartII.
    237     Standard Contents
    238   </td></tr></table></div></body></html>