121 lines
5.5 KiB
Plaintext
121 lines
5.5 KiB
Plaintext
--- COMPILING
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This project has begun being ported to Windows, only tcmalloc_minimal
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is supported at this time. A working solution file exists in this
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directory:
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gperftools.sln
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You can load this solution file into VC++ 7.1 (Visual Studio 2003) or
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later -- in the latter case, it will automatically convert the files
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to the latest format for you.
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When you build the solution, it will create a number of unittests,
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which you can run by hand (or, more easily, under the Visual Studio
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debugger) to make sure everything is working properly on your system.
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The binaries will end up in a directory called "debug" or "release" in
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the top-level directory (next to the .sln file). It will also create
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two binaries, nm-pdb and addr2line-pdb, which you should install in
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the same directory you install the 'pprof' perl script.
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I don't know very much about how to install DLLs on Windows, so you'll
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have to figure out that part for yourself. If you choose to just
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re-use the existing .sln, make sure you set the IncludeDir's
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appropriately! Look at the properties for libtcmalloc_minimal.dll.
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Note that these systems are set to build in Debug mode by default.
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You may want to change them to Release mode.
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To use tcmalloc_minimal in your own projects, you should only need to
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build the dll and install it someplace, so you can link it into
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further binaries. To use the dll, you need to add the following to
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the linker line of your executable:
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"libtcmalloc_minimal.lib" /INCLUDE:"__tcmalloc"
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Here is how to accomplish this in Visual Studio 2005 (VC8):
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1) Have your executable depend on the tcmalloc library by selecting
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"Project Dependencies..." from the "Project" menu. Your executable
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should depend on "libtcmalloc_minimal".
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2) Have your executable depend on a tcmalloc symbol -- this is
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necessary so the linker doesn't "optimize out" the libtcmalloc
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dependency -- by right-clicking on your executable's project (in
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the solution explorer), selecting Properties from the pull-down
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menu, then selecting "Configuration Properties" -> "Linker" ->
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"Input". Then, in the "Force Symbol References" field, enter the
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text "__tcmalloc" (without the quotes). Be sure to do this for both
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debug and release modes!
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You can also link tcmalloc code in statically -- see the example
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project tcmalloc_minimal_unittest-static, which does this. For this
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to work, you'll need to add "/D PERFTOOLS_DLL_DECL=" to the compile
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line of every perftools .cc file. You do not need to depend on the
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tcmalloc symbol in this case (that is, you don't need to do either
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step 1 or step 2 from above).
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An alternative to all the above is to statically link your application
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with libc, and then replace its malloc with tcmalloc. This allows you
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to just build and link your program normally; the tcmalloc support
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comes in a post-processing step. This is more reliable than the above
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technique (which depends on run-time patching, which is inherently
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fragile), though more work to set up. For details, see
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https://groups.google.com/group/google-perftools/browse_thread/thread/41cd3710af85e57b
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--- THE HEAP-PROFILER
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The heap-profiler has had a preliminary port to Windows but does not
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build on Windows by default. It has not been well tested, and
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probably does not work at all when Frame Pointer Optimization (FPO) is
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enabled -- that is, in release mode. The other features of perftools,
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such as the cpu-profiler and leak-checker, have not yet been ported to
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Windows at all.
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--- WIN64
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The function-patcher has to disassemble code, and is very
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x86-specific. However, the rest of perftools should work fine for
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both x86 and x64. In particular, if you use the 'statically link with
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libc, and replace its malloc with tcmalloc' approach, mentioned above,
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it should be possible to use tcmalloc with 64-bit windows.
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As of perftools 1.10, there is some support for disassembling x86_64
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instructions, for work with win64. This work is preliminary, but the
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test file preamble_patcher_test.cc is provided to play around with
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that a bit. preamble_patcher_test will not compile on win32.
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--- ISSUES
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NOTE FOR WIN2K USERS: According to reports
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(http://code.google.com/p/gperftools/issues/detail?id=127)
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the stack-tracing necessary for the heap-profiler does not work on
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Win2K. The best workaround is, if you are building on a Win2k system
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is to add "/D NO_TCMALLOC_SAMPLES=" to your build, to turn off the
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stack-tracing. You will not be able to use the heap-profiler if you
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do this.
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NOTE ON _MSIZE and _RECALLOC: The tcmalloc version of _msize returns
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the size of the region tcmalloc allocated for you -- which is at least
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as many bytes you asked for, but may be more. (btw, these *are* bytes
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you own, even if you didn't ask for all of them, so it's correct code
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to access all of them if you want.) Unfortunately, the Windows CRT
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_recalloc() routine assumes that _msize returns exactly as many bytes
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as were requested. As a result, _recalloc() may not zero out new
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bytes correctly. IT'S SAFEST NOT TO USE _RECALLOC WITH TCMALLOC.
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_recalloc() is a tricky routine to use in any case (it's not safe to
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use with realloc, for instance).
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I have little experience with Windows programming, so there may be
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better ways to set this up than I've done! If you run across any
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problems, please post to the google-perftools Google Group, or report
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them on the gperftools Google Code site:
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http://groups.google.com/group/google-perftools
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http://code.google.com/p/gperftools/issues/list
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-- craig
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Last modified: 2 February 2012
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