mirror of
https://github.com/gperftools/gperftools
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50f89afaed
Clang mostly ignores those anyways, so our tests needed better way to disable optimizations (clang is quite aggressive replacing new/delete pair with stack allocation).
280 lines
11 KiB
Plaintext
280 lines
11 KiB
Plaintext
gperftools
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----------
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(originally Google Performance Tools)
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The fastest malloc we’ve seen; works particularly well with threads
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and STL. Also: thread-friendly heap-checker, heap-profiler, and
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cpu-profiler.
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OVERVIEW
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---------
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gperftools is a collection of a high-performance multi-threaded
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malloc() implementation, plus some pretty nifty performance analysis
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tools.
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gperftools is distributed under the terms of the BSD License. Join our
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mailing list at gperftools@googlegroups.com for updates:
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https://groups.google.com/forum/#!forum/gperftools
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gperftools was original home for pprof program. But do note that
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original pprof (which is still included with gperftools) is now
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deprecated in favor of golang version at https://github.com/google/pprof
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TCMALLOC
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--------
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Just link in -ltcmalloc or -ltcmalloc_minimal to get the advantages of
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tcmalloc -- a replacement for malloc and new. See below for some
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environment variables you can use with tcmalloc, as well.
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tcmalloc functionality is available on all systems we've tested; see
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INSTALL for more details. See README_windows.txt for instructions on
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using tcmalloc on Windows.
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when compiling. gcc makes some optimizations assuming it is using its
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own, built-in malloc; that assumption obviously isn't true with
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tcmalloc. In practice, we haven't seen any problems with this, but
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the expected risk is highest for users who register their own malloc
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hooks with tcmalloc (using gperftools/malloc_hook.h). The risk is
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lowest for folks who use tcmalloc_minimal (or, of course, who pass in
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the above flags :-) ).
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HEAP PROFILER
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-------------
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See docs/heapprofile.html for information about how to use tcmalloc's
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heap profiler and analyze its output.
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As a quick-start, do the following after installing this package:
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1) Link your executable with -ltcmalloc
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2) Run your executable with the HEAPPROFILE environment var set:
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$ HEAPPROFILE=/tmp/heapprof <path/to/binary> [binary args]
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3) Run pprof to analyze the heap usage
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$ pprof <path/to/binary> /tmp/heapprof.0045.heap # run 'ls' to see options
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$ pprof --gv <path/to/binary> /tmp/heapprof.0045.heap
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You can also use LD_PRELOAD to heap-profile an executable that you
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didn't compile.
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There are other environment variables, besides HEAPPROFILE, you can
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set to adjust the heap-profiler behavior; c.f. "ENVIRONMENT VARIABLES"
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below.
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The heap profiler is available on all unix-based systems we've tested;
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see INSTALL for more details. It is not currently available on Windows.
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HEAP CHECKER
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------------
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See docs/heap_checker.html for information about how to use tcmalloc's
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heap checker.
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In order to catch all heap leaks, tcmalloc must be linked *last* into
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your executable. The heap checker may mischaracterize some memory
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accesses in libraries listed after it on the link line. For instance,
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it may report these libraries as leaking memory when they're not.
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(See the source code for more details.)
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Here's a quick-start for how to use:
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As a quick-start, do the following after installing this package:
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1) Link your executable with -ltcmalloc
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2) Run your executable with the HEAPCHECK environment var set:
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$ HEAPCHECK=1 <path/to/binary> [binary args]
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Other values for HEAPCHECK: normal (equivalent to "1"), strict, draconian
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You can also use LD_PRELOAD to heap-check an executable that you
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didn't compile.
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The heap checker is only available on Linux at this time; see INSTALL
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for more details.
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CPU PROFILER
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------------
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See docs/cpuprofile.html for information about how to use the CPU
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profiler and analyze its output.
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As a quick-start, do the following after installing this package:
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1) Link your executable with -lprofiler
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2) Run your executable with the CPUPROFILE environment var set:
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$ CPUPROFILE=/tmp/prof.out <path/to/binary> [binary args]
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3) Run pprof to analyze the CPU usage
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$ pprof <path/to/binary> /tmp/prof.out # -pg-like text output
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$ pprof --gv <path/to/binary> /tmp/prof.out # really cool graphical output
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There are other environment variables, besides CPUPROFILE, you can set
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to adjust the cpu-profiler behavior; cf "ENVIRONMENT VARIABLES" below.
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The CPU profiler is available on all unix-based systems we've tested;
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see INSTALL for more details. It is not currently available on Windows.
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NOTE: CPU profiling doesn't work after fork (unless you immediately
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do an exec()-like call afterwards). Furthermore, if you do
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fork, and the child calls exit(), it may corrupt the profile
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data. You can use _exit() to work around this. We hope to have
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a fix for both problems in the next release of perftools
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(hopefully perftools 1.2).
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EVERYTHING IN ONE
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-----------------
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If you want the CPU profiler, heap profiler, and heap leak-checker to
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all be available for your application, you can do:
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gcc -o myapp ... -lprofiler -ltcmalloc
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However, if you have a reason to use the static versions of the
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library, this two-library linking won't work:
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gcc -o myapp ... /usr/lib/libprofiler.a /usr/lib/libtcmalloc.a # errors!
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Instead, use the special libtcmalloc_and_profiler library, which we
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make for just this purpose:
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gcc -o myapp ... /usr/lib/libtcmalloc_and_profiler.a
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CONFIGURATION OPTIONS
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---------------------
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For advanced users, there are several flags you can pass to
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'./configure' that tweak tcmalloc performance. (These are in addition
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to the environment variables you can set at runtime to affect
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tcmalloc, described below.) See the INSTALL file for details.
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ENVIRONMENT VARIABLES
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---------------------
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The cpu profiler, heap checker, and heap profiler will lie dormant,
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using no memory or CPU, until you turn them on. (Thus, there's no
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harm in linking -lprofiler into every application, and also -ltcmalloc
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assuming you're ok using the non-libc malloc library.)
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The easiest way to turn them on is by setting the appropriate
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environment variables. We have several variables that let you
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enable/disable features as well as tweak parameters.
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Here are some of the most important variables:
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HEAPPROFILE=<pre> -- turns on heap profiling and dumps data using this prefix
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HEAPCHECK=<type> -- turns on heap checking with strictness 'type'
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CPUPROFILE=<file> -- turns on cpu profiling and dumps data to this file.
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PROFILESELECTED=1 -- if set, cpu-profiler will only profile regions of code
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surrounded with ProfilerEnable()/ProfilerDisable().
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CPUPROFILE_FREQUENCY=x-- how many interrupts/second the cpu-profiler samples.
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PERFTOOLS_VERBOSE=<level> -- the higher level, the more messages malloc emits
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MALLOCSTATS=<level> -- prints memory-use stats at program-exit
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For a full list of variables, see the documentation pages:
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docs/cpuprofile.html
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docs/heapprofile.html
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docs/heap_checker.html
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COMPILING ON NON-LINUX SYSTEMS
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------------------------------
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Perftools was developed and tested on x86 Linux systems, and it works
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in its full generality only on those systems. However, we've
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successfully ported much of the tcmalloc library to FreeBSD, Solaris
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x86, and Darwin (Mac OS X) x86 and ppc; and we've ported the basic
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functionality in tcmalloc_minimal to Windows. See INSTALL for details.
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See README_windows.txt for details on the Windows port.
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PERFORMANCE
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-----------
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If you're interested in some third-party comparisons of tcmalloc to
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other malloc libraries, here are a few web pages that have been
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brought to our attention. The first discusses the effect of using
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various malloc libraries on OpenLDAP. The second compares tcmalloc to
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win32's malloc.
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http://www.highlandsun.com/hyc/malloc/
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http://gaiacrtn.free.fr/articles/win32perftools.html
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It's possible to build tcmalloc in a way that trades off faster
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performance (particularly for deletes) at the cost of more memory
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fragmentation (that is, more unusable memory on your system). See the
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INSTALL file for details.
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OLD SYSTEM ISSUES
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-----------------
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When compiling perftools on some old systems, like RedHat 8, you may
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get an error like this:
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___tls_get_addr: symbol not found
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This means that you have a system where some parts are updated enough
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to support Thread Local Storage, but others are not. The perftools
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configure script can't always detect this kind of case, leading to
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that error. To fix it, just comment out (or delete) the line
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#define HAVE_TLS 1
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in your config.h file before building.
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64-BIT ISSUES
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-------------
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There are two issues that can cause program hangs or crashes on x86_64
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64-bit systems, which use the libunwind library to get stack-traces.
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Neither issue should affect the core tcmalloc library; they both
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affect the perftools tools such as cpu-profiler, heap-checker, and
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heap-profiler.
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1) Some libc's -- at least glibc 2.4 on x86_64 -- have a bug where the
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libc function dl_iterate_phdr() acquires its locks in the wrong
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order. This bug should not affect tcmalloc, but may cause occasional
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deadlock with the cpu-profiler, heap-profiler, and heap-checker.
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Its likeliness increases the more dlopen() commands an executable has.
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Most executables don't have any, though several library routines like
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getgrgid() call dlopen() behind the scenes.
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2) On x86-64 64-bit systems, while tcmalloc itself works fine, the
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cpu-profiler tool is unreliable: it will sometimes work, but sometimes
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cause a segfault. I'll explain the problem first, and then some
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workarounds.
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Note that this only affects the cpu-profiler, which is a
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gperftools feature you must turn on manually by setting the
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CPUPROFILE environment variable. If you do not turn on cpu-profiling,
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you shouldn't see any crashes due to perftools.
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The gory details: The underlying problem is in the backtrace()
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function, which is a built-in function in libc.
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Backtracing is fairly straightforward in the normal case, but can run
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into problems when having to backtrace across a signal frame.
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Unfortunately, the cpu-profiler uses signals in order to register a
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profiling event, so every backtrace that the profiler does crosses a
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signal frame.
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In our experience, the only time there is trouble is when the signal
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fires in the middle of pthread_mutex_lock. pthread_mutex_lock is
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called quite a bit from system libraries, particularly at program
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startup and when creating a new thread.
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The solution: The dwarf debugging format has support for 'cfi
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annotations', which make it easy to recognize a signal frame. Some OS
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distributions, such as Fedora and gentoo 2007.0, already have added
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cfi annotations to their libc. A future version of libunwind should
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recognize these annotations; these systems should not see any
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crashes.
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Workarounds: If you see problems with crashes when running the
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cpu-profiler, consider inserting ProfilerStart()/ProfilerStop() into
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your code, rather than setting CPUPROFILE. This will profile only
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those sections of the codebase. Though we haven't done much testing,
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in theory this should reduce the chance of crashes by limiting the
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signal generation to only a small part of the codebase. Ideally, you
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would not use ProfilerStart()/ProfilerStop() around code that spawns
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new threads, or is otherwise likely to cause a call to
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pthread_mutex_lock!
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---
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17 May 2011
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