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* BUGS, CONFORMANCE, NAMESPACE, WUR-REPORT: Deleted. * README.pretty-printers, README.tunables: Move to manual/.
176 lines
6.6 KiB
Plaintext
176 lines
6.6 KiB
Plaintext
README for the glibc Python pretty printers
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===========================================
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Pretty printers are gdb extensions that allow it to print useful, human-readable
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information about a program's variables. For example, for a pthread_mutex_t
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gdb would usually output something like this:
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(gdb) print mutex
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$1 = {
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__data = {
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__lock = 22020096,
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__count = 0,
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__owner = 0,
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__nusers = 0,
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__kind = 576,
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__spins = 0,
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__elision = 0,
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__list = {
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__prev = 0x0,
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__next = 0x0
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}
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},
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__size = "\000\000P\001", '\000' <repeats 12 times>, "@\002", '\000' <repeats 21 times>,
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__align = 22020096
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}
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However, with a pretty printer gdb will output something like this:
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(gdb) print mutex
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$1 = pthread_mutex_t = {
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Type = Normal,
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Status = Not acquired,
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Robust = No,
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Shared = No,
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Protocol = Priority protect,
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Priority ceiling = 42
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}
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Before printing a value, gdb will first check if there's a pretty printer
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registered for it. If there is, it'll use it, otherwise it'll print the value
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as usual. Pretty printers can be registered in various ways; for our purposes
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we register them for the current objfile by calling
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gdb.printing.register_pretty_printer().
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Currently our printers are based on gdb.RegexpCollectionPrettyPrinter, which
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means they'll be triggered if the type of the variable we're printing matches
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a given regular expression. For example, MutexPrinter will be triggered if
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our variable's type matches the regexp '^pthread_mutex_t$'.
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Besides the printers themselves, each module may have a constants file which the
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printers will import. These constants are generated from C headers during the
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build process, and need to be in the Python search path when loading the
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printers.
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Installing and loading
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----------------------
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The pretty printers and their constant files may be installed in different paths
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for each distro, though gdb should be able to automatically load them by itself.
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When in doubt, you can use the 'info pretty-printer' gdb command to list the
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loaded pretty printers.
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If the printers aren't automatically loaded for some reason, you should add the
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following to your .gdbinit:
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python
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import sys
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sys.path.insert(0, '/path/to/constants/file/directory')
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end
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source /path/to/printers.py
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If you're building glibc manually, '/path/to/constants/file/directory' should be
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'/path/to/glibc-build/submodule', where 'submodule' is e.g. nptl.
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Testing
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-------
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The pretty printers come with a small test suite based on PExpect, which is a
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Python module with Expect-like features for spawning and controlling interactive
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programs. Each printer has a corresponding C program and a Python script
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that uses PExpect to drive gdb through the program and compare its output to
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the expected printer's.
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The tests run on the glibc host, which is assumed to have both gdb and PExpect;
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if any of those is absent the tests will fail with code 77 (UNSUPPORTED).
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Native builds can be tested simply by doing 'make check'; cross builds must use
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cross-test-ssh.sh as test-wrapper, like this:
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make test-wrapper='/path/to/scripts/cross-test-ssh.sh user@host' check
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(Remember to share the build system's filesystem with the glibc host's through
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NFS or something similar).
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Running 'make check' on a cross build will only compile the test programs,
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without running the scripts.
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Adding new pretty printers
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--------------------------
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Adding new pretty printers to glibc requires following these steps:
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1. Identify which constants must be generated from C headers, and write the
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corresponding .pysym file. See scripts/gen-py-const.awk for more information
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on how this works. The name of the .pysym file must be added to the
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'gen-py-const-headers' variable in your submodule's Makefile (without the .pysym
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extension).
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2. Write the pretty printer code itself. For this you can follow the gdb
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Python API documentation, and use the existing printers as examples. The printer
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code must import the generated constants file (which will have the same name
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as your .pysym file). The names of the pretty printer files must be added
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to the 'pretty-printers' variable in your submodule's Makefile (without the .py
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extension).
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3. Write the unit tests for your pretty printers. The build system calls each
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test script passing it the paths to the test program source, the test program
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binary, and the printer files you added to 'pretty-printers' in the previous
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step. The test scripts, in turn, must import scripts/test_printers_common
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and call the init_test function passing it, among other things, the name of the
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set of pretty printers to enable (as seen by running 'info pretty-printer').
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You can use the existing unit tests as examples.
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4. Add the names of the pretty printer tests to the 'tests-printers' variable
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in your submodule's Makefile (without extensions). In addition, for each test
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program you must define a corresponding CFLAGS-* and CPPFLAGS-* variable and
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set it to $(CFLAGS-printers-tests) to ensure they're compiled correctly. For
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example, test-foo-printer.c requires the following:
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CFLAGS-test-foo-printer.c := $(CFLAGS-printers-tests)
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CPPFLAGS-test-foo-printer.c := $(CFLAGS-printers-tests)
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Finally, if your programs need to be linked with a specific library, you can add
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its name to the 'tests-printers-libs' variable in your submodule's Makefile.
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Known issues
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------------
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* Pretty printers are inherently coupled to the code they're targetting, thus
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any changes to the target code must also update the corresponding printers.
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On the plus side, the printer code itself may serve as a kind of documentation
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for the target code.
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* There's no guarantee that the information the pretty printers provide is
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complete, i.e. some details might be left off. For example, the pthread_mutex_t
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printers won't report whether a thread is spin-waiting in an attempt to acquire
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the mutex.
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* Older versions of the gdb Python API have a bug where
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gdb.RegexpCollectionPrettyPrinter would not be able to get a value's real type
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if it was typedef'd. This would cause gdb to ignore the pretty printers for
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types like pthread_mutex_t, which is defined as:
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typedef union
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{
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...
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} pthread_mutex_t;
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This was fixed in commit 1b588015839caafc608a6944a78aea170f5fb2f6, and released
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as part of gdb 7.8. However, typedef'ing an already typedef'd type may cause
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a similar issue, e.g.:
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typedef pthread_mutex_t mutex;
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mutex a_mutex;
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Here, trying to print a_mutex won't trigger the pthread_mutex_t printer.
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* The test programs must be compiled without optimizations. This is necessary
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because the test scripts rely on the C code structure being preserved when
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stepping through the programs. Things like aggressive instruction reordering
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or optimizing variables out may make this kind of testing impossible.
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