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README

      1 IMPORTANT NOTE FOR 64-BIT USERS
      2 -------------------------------
      3 There are known issues with some perftools functionality on x86_64
      4 systems.  See 64-BIT ISSUES, below.
      5 
      6 
      7 TCMALLOC
      8 --------
      9 Just link in -ltcmalloc or -ltcmalloc_minimal to get the advantages of
     10 tcmalloc -- a replacement for malloc and new.  See below for some
     11 environment variables you can use with tcmalloc, as well.
     12 
     13 tcmalloc functionality is available on all systems we've tested; see
     14 INSTALL for more details.  See README_windows.txt for instructions on
     15 using tcmalloc on Windows.
     16 
     17 NOTE: When compiling with programs with gcc, that you plan to link
     18 with libtcmalloc, it's safest to pass in the flags
     19 
     20  -fno-builtin-malloc -fno-builtin-calloc -fno-builtin-realloc -fno-builtin-free
     21 
     22 when compiling.  gcc makes some optimizations assuming it is using its
     23 own, built-in malloc; that assumption obviously isn't true with
     24 tcmalloc.  In practice, we haven't seen any problems with this, but
     25 the expected risk is highest for users who register their own malloc
     26 hooks with tcmalloc (using gperftools/malloc_hook.h).  The risk is
     27 lowest for folks who use tcmalloc_minimal (or, of course, who pass in
     28 the above flags :-) ).
     29 
     30 
     31 HEAP PROFILER
     32 -------------
     33 See doc/heap-profiler.html for information about how to use tcmalloc's
     34 heap profiler and analyze its output.
     35 
     36 As a quick-start, do the following after installing this package:
     37 
     38 1) Link your executable with -ltcmalloc
     39 2) Run your executable with the HEAPPROFILE environment var set:
     40      $ HEAPPROFILE=/tmp/heapprof <path/to/binary> [binary args]
     41 3) Run pprof to analyze the heap usage
     42      $ pprof <path/to/binary> /tmp/heapprof.0045.heap  # run 'ls' to see options
     43      $ pprof --gv <path/to/binary> /tmp/heapprof.0045.heap
     44 
     45 You can also use LD_PRELOAD to heap-profile an executable that you
     46 didn't compile.
     47 
     48 There are other environment variables, besides HEAPPROFILE, you can
     49 set to adjust the heap-profiler behavior; c.f. "ENVIRONMENT VARIABLES"
     50 below.
     51 
     52 The heap profiler is available on all unix-based systems we've tested;
     53 see INSTALL for more details.  It is not currently available on Windows.
     54 
     55 
     56 HEAP CHECKER
     57 ------------
     58 See doc/heap-checker.html for information about how to use tcmalloc's
     59 heap checker.
     60 
     61 In order to catch all heap leaks, tcmalloc must be linked *last* into
     62 your executable.  The heap checker may mischaracterize some memory
     63 accesses in libraries listed after it on the link line.  For instance,
     64 it may report these libraries as leaking memory when they're not.
     65 (See the source code for more details.)
     66 
     67 Here's a quick-start for how to use:
     68 
     69 As a quick-start, do the following after installing this package:
     70 
     71 1) Link your executable with -ltcmalloc
     72 2) Run your executable with the HEAPCHECK environment var set:
     73      $ HEAPCHECK=1 <path/to/binary> [binary args]
     74 
     75 Other values for HEAPCHECK: normal (equivalent to "1"), strict, draconian
     76 
     77 You can also use LD_PRELOAD to heap-check an executable that you
     78 didn't compile.
     79 
     80 The heap checker is only available on Linux at this time; see INSTALL
     81 for more details.
     82 
     83 
     84 CPU PROFILER
     85 ------------
     86 See doc/cpu-profiler.html for information about how to use the CPU
     87 profiler and analyze its output.
     88 
     89 As a quick-start, do the following after installing this package:
     90 
     91 1) Link your executable with -lprofiler
     92 2) Run your executable with the CPUPROFILE environment var set:
     93      $ CPUPROFILE=/tmp/prof.out <path/to/binary> [binary args]
     94 3) Run pprof to analyze the CPU usage
     95      $ pprof <path/to/binary> /tmp/prof.out      # -pg-like text output
     96      $ pprof --gv <path/to/binary> /tmp/prof.out # really cool graphical output
     97 
     98 There are other environment variables, besides CPUPROFILE, you can set
     99 to adjust the cpu-profiler behavior; cf "ENVIRONMENT VARIABLES" below.
    100 
    101 The CPU profiler is available on all unix-based systems we've tested;
    102 see INSTALL for more details.  It is not currently available on Windows.
    103 
    104 NOTE: CPU profiling doesn't work after fork (unless you immediately
    105       do an exec()-like call afterwards).  Furthermore, if you do
    106       fork, and the child calls exit(), it may corrupt the profile
    107       data.  You can use _exit() to work around this.  We hope to have
    108       a fix for both problems in the next release of perftools
    109       (hopefully perftools 1.2).
    110 
    111 
    112 EVERYTHING IN ONE
    113 -----------------
    114 If you want the CPU profiler, heap profiler, and heap leak-checker to
    115 all be available for your application, you can do:
    116    gcc -o myapp ... -lprofiler -ltcmalloc
    117 
    118 However, if you have a reason to use the static versions of the
    119 library, this two-library linking won't work:
    120    gcc -o myapp ... /usr/lib/libprofiler.a /usr/lib/libtcmalloc.a  # errors!
    121 
    122 Instead, use the special libtcmalloc_and_profiler library, which we
    123 make for just this purpose:
    124    gcc -o myapp ... /usr/lib/libtcmalloc_and_profiler.a
    125 
    126 
    127 CONFIGURATION OPTIONS
    128 ---------------------
    129 For advanced users, there are several flags you can pass to
    130 './configure' that tweak tcmalloc performace.  (These are in addition
    131 to the environment variables you can set at runtime to affect
    132 tcmalloc, described below.)  See the INSTALL file for details.
    133 
    134 
    135 ENVIRONMENT VARIABLES
    136 ---------------------
    137 The cpu profiler, heap checker, and heap profiler will lie dormant,
    138 using no memory or CPU, until you turn them on.  (Thus, there's no
    139 harm in linking -lprofiler into every application, and also -ltcmalloc
    140 assuming you're ok using the non-libc malloc library.)
    141 
    142 The easiest way to turn them on is by setting the appropriate
    143 environment variables.  We have several variables that let you
    144 enable/disable features as well as tweak parameters.
    145 
    146 Here are some of the most important variables:
    147 
    148 HEAPPROFILE=<pre> -- turns on heap profiling and dumps data using this prefix
    149 HEAPCHECK=<type>  -- turns on heap checking with strictness 'type'
    150 CPUPROFILE=<file> -- turns on cpu profiling and dumps data to this file.
    151 PROFILESELECTED=1 -- if set, cpu-profiler will only profile regions of code
    152                      surrounded with ProfilerEnable()/ProfilerDisable().
    153 PROFILEFREQUENCY=x-- how many interrupts/second the cpu-profiler samples.
    154 
    155 TCMALLOC_DEBUG=<level> -- the higher level, the more messages malloc emits
    156 MALLOCSTATS=<level>    -- prints memory-use stats at program-exit
    157 
    158 For a full list of variables, see the documentation pages:
    159    doc/cpuprofile.html
    160    doc/heapprofile.html
    161    doc/heap_checker.html
    162 
    163 
    164 COMPILING ON NON-LINUX SYSTEMS
    165 ------------------------------
    166 
    167 Perftools was developed and tested on x86 Linux systems, and it works
    168 in its full generality only on those systems.  However, we've
    169 successfully ported much of the tcmalloc library to FreeBSD, Solaris
    170 x86, and Darwin (Mac OS X) x86 and ppc; and we've ported the basic
    171 functionality in tcmalloc_minimal to Windows.  See INSTALL for details.
    172 See README_windows.txt for details on the Windows port.
    173 
    174 
    175 PERFORMANCE
    176 -----------
    177 
    178 If you're interested in some third-party comparisons of tcmalloc to
    179 other malloc libraries, here are a few web pages that have been
    180 brought to our attention.  The first discusses the effect of using
    181 various malloc libraries on OpenLDAP.  The second compares tcmalloc to
    182 win32's malloc.
    183   http://www.highlandsun.com/hyc/malloc/
    184   http://gaiacrtn.free.fr/articles/win32perftools.html
    185 
    186 It's possible to build tcmalloc in a way that trades off faster
    187 performance (particularly for deletes) at the cost of more memory
    188 fragmentation (that is, more unusable memory on your system).  See the
    189 INSTALL file for details.
    190 
    191 
    192 OLD SYSTEM ISSUES
    193 -----------------
    194 
    195 When compiling perftools on some old systems, like RedHat 8, you may
    196 get an error like this:
    197     ___tls_get_addr: symbol not found
    198 
    199 This means that you have a system where some parts are updated enough
    200 to support Thread Local Storage, but others are not.  The perftools
    201 configure script can't always detect this kind of case, leading to
    202 that error.  To fix it, just comment out (or delete) the line
    203    #define HAVE_TLS 1
    204 in your config.h file before building.
    205 
    206 
    207 64-BIT ISSUES
    208 -------------
    209 
    210 There are two issues that can cause program hangs or crashes on x86_64
    211 64-bit systems, which use the libunwind library to get stack-traces.
    212 Neither issue should affect the core tcmalloc library; they both
    213 affect the perftools tools such as cpu-profiler, heap-checker, and
    214 heap-profiler.
    215 
    216 1) Some libc's -- at least glibc 2.4 on x86_64 -- have a bug where the
    217 libc function dl_iterate_phdr() acquires its locks in the wrong
    218 order.  This bug should not affect tcmalloc, but may cause occasional
    219 deadlock with the cpu-profiler, heap-profiler, and heap-checker.
    220 Its likeliness increases the more dlopen() commands an executable has.
    221 Most executables don't have any, though several library routines like
    222 getgrgid() call dlopen() behind the scenes.
    223 
    224 2) On x86-64 64-bit systems, while tcmalloc itself works fine, the
    225 cpu-profiler tool is unreliable: it will sometimes work, but sometimes
    226 cause a segfault.  I'll explain the problem first, and then some
    227 workarounds.
    228 
    229 Note that this only affects the cpu-profiler, which is a
    230 gperftools feature you must turn on manually by setting the
    231 CPUPROFILE environment variable.  If you do not turn on cpu-profiling,
    232 you shouldn't see any crashes due to perftools.
    233 
    234 The gory details: The underlying problem is in the backtrace()
    235 function, which is a built-in function in libc.
    236 Backtracing is fairly straightforward in the normal case, but can run
    237 into problems when having to backtrace across a signal frame.
    238 Unfortunately, the cpu-profiler uses signals in order to register a
    239 profiling event, so every backtrace that the profiler does crosses a
    240 signal frame.
    241 
    242 In our experience, the only time there is trouble is when the signal
    243 fires in the middle of pthread_mutex_lock.  pthread_mutex_lock is
    244 called quite a bit from system libraries, particularly at program
    245 startup and when creating a new thread.
    246 
    247 The solution: The dwarf debugging format has support for 'cfi
    248 annotations', which make it easy to recognize a signal frame.  Some OS
    249 distributions, such as Fedora and gentoo 2007.0, already have added
    250 cfi annotations to their libc.  A future version of libunwind should
    251 recognize these annotations; these systems should not see any
    252 crashses.
    253 
    254 Workarounds: If you see problems with crashes when running the
    255 cpu-profiler, consider inserting ProfilerStart()/ProfilerStop() into
    256 your code, rather than setting CPUPROFILE.  This will profile only
    257 those sections of the codebase.  Though we haven't done much testing,
    258 in theory this should reduce the chance of crashes by limiting the
    259 signal generation to only a small part of the codebase.  Ideally, you
    260 would not use ProfilerStart()/ProfilerStop() around code that spawns
    261 new threads, or is otherwise likely to cause a call to
    262 pthread_mutex_lock!
    263 
    264 ---
    265 17 May 2011
    266 

README_windows.txt

      1 --- COMPILING
      2 
      3 This project has begun being ported to Windows.  A working solution
      4 file exists in this directory:
      5     gperftools.sln
      6 
      7 You can load this solution file into VC++ 7.1 (Visual Studio 2003) or
      8 later -- in the latter case, it will automatically convert the files
      9 to the latest format for you.
     10 
     11 When you build the solution, it will create a number of unittests,
     12 which you can run by hand (or, more easily, under the Visual Studio
     13 debugger) to make sure everything is working properly on your system.
     14 The binaries will end up in a directory called "debug" or "release" in
     15 the top-level directory (next to the .sln file).  It will also create
     16 two binaries, nm-pdb and addr2line-pdb, which you should install in
     17 the same directory you install the 'pprof' perl script.
     18 
     19 I don't know very much about how to install DLLs on Windows, so you'll
     20 have to figure out that part for yourself.  If you choose to just
     21 re-use the existing .sln, make sure you set the IncludeDir's
     22 appropriately!  Look at the properties for libtcmalloc_minimal.dll.
     23 
     24 Note that these systems are set to build in Debug mode by default.
     25 You may want to change them to Release mode.
     26 
     27 To use tcmalloc_minimal in your own projects, you should only need to
     28 build the dll and install it someplace, so you can link it into
     29 further binaries.  To use the dll, you need to add the following to
     30 the linker line of your executable:
     31    "libtcmalloc_minimal.lib" /INCLUDE:"__tcmalloc" 
     32 
     33 Here is how to accomplish this in Visual Studio 2005 (VC8):
     34 
     35 1) Have your executable depend on the tcmalloc library by selecting
     36    "Project Dependencies..." from the "Project" menu.  Your executable
     37    should depend on "libtcmalloc_minimal".
     38 
     39 2) Have your executable depend on a tcmalloc symbol -- this is
     40    necessary so the linker doesn't "optimize out" the libtcmalloc
     41    dependency -- by right-clicking on your executable's project (in
     42    the solution explorer), selecting Properties from the pull-down
     43    menu, then selecting "Configuration Properties" -> "Linker" ->
     44    "Input".  Then, in the "Force Symbol References" field, enter the
     45    text "__tcmalloc" (without the quotes).  Be sure to do this for both
     46    debug and release modes!
     47 
     48 You can also link tcmalloc code in statically -- see the example
     49 project tcmalloc_minimal_unittest-static, which does this.  For this
     50 to work, you'll need to add "/D PERFTOOLS_DLL_DECL=" to the compile
     51 line of every perftools .cc file.  You do not need to depend on the
     52 tcmalloc symbol in this case (that is, you don't need to do either
     53 step 1 or step 2 from above).
     54 
     55 An alternative to all the above is to statically link your application
     56 with libc, and then replace its malloc with tcmalloc.  This allows you
     57 to just build and link your program normally; the tcmalloc support
     58 comes in a post-processing step.  This is more reliable than the above
     59 technique (which depends on run-time patching, which is inherently
     60 fragile), though more work to set up.  For details, see
     61    https://groups.google.com/group/google-perftools/browse_thread/thread/41cd3710af85e57b
     62 
     63 
     64 --- THE HEAP-PROFILER
     65 
     66 The heap-profiler has had a preliminary port to Windows.  It has not
     67 been well tested, and probably does not work at all when Frame Pointer
     68 Optimization (FPO) is enabled -- that is, in release mode.  The other
     69 features of perftools, such as the cpu-profiler and leak-checker, have
     70 not yet been ported to Windows at all.
     71 
     72 
     73 --- WIN64
     74 
     75 The function-patcher has to disassemble code, and is very
     76 x86-specific.  However, the rest of perftools should work fine for
     77 both x86 and x64.  In particular, if you use the 'statically link with
     78 libc, and replace its malloc with tcmalloc' approach, mentioned above,
     79 it should be possible to use tcmalloc with 64-bit windows.
     80 
     81 As of perftools 1.10, there is some support for disassembling x86_64
     82 instructions, for work with win64.  This work is preliminary, but the
     83 test file preamble_patcher_test.cc is provided to play around with
     84 that a bit.  preamble_patcher_test will not compile on win32.
     85 
     86 
     87 --- ISSUES
     88 
     89 NOTE FOR WIN2K USERS: According to reports
     90 (http://code.google.com/p/gperftools/issues/detail?id=127)
     91 the stack-tracing necessary for the heap-profiler does not work on
     92 Win2K.  The best workaround is, if you are building on a Win2k system
     93 is to add "/D NO_TCMALLOC_SAMPLES=" to your build, to turn off the
     94 stack-tracing.  You will not be able to use the heap-profiler if you
     95 do this.
     96 
     97 NOTE ON _MSIZE and _RECALLOC: The tcmalloc version of _msize returns
     98 the size of the region tcmalloc allocated for you -- which is at least
     99 as many bytes you asked for, but may be more.  (btw, these *are* bytes
    100 you own, even if you didn't ask for all of them, so it's correct code
    101 to access all of them if you want.)  Unfortunately, the Windows CRT
    102 _recalloc() routine assumes that _msize returns exactly as many bytes
    103 as were requested.  As a result, _recalloc() may not zero out new
    104 bytes correctly.  IT'S SAFEST NOT TO USE _RECALLOC WITH TCMALLOC.
    105 _recalloc() is a tricky routine to use in any case (it's not safe to
    106 use with realloc, for instance).
    107 
    108 
    109 I have little experience with Windows programming, so there may be
    110 better ways to set this up than I've done!  If you run across any
    111 problems, please post to the google-perftools Google Group, or report
    112 them on the gperftools Google Code site:
    113    http://groups.google.com/group/google-perftools
    114    http://code.google.com/p/gperftools/issues/list
    115 
    116 -- craig
    117 
    118 Last modified: 2 February 2012
    119