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This patch eliminates the gen-py-const.awk variant of gen-as-const, switching to use of gnu-as-const.py (with a new --python option) to process .pysym files (i.e., to generate nptl_lock_constants.py), as the syntax of those files is identical to that of .sym files. Note that the generated nptl_lock_constants.py is *not* identical to the version generated by the awk script. Apart from the trivial changes (comment referencing the new script, and output being sorted), the constant FUTEX_WAITERS, PTHREAD_MUTEXATTR_FLAG_BITS, PTHREAD_MUTEXATTR_FLAG_PSHARED and PTHREAD_MUTEX_PRIO_CEILING_MASK are now output as positive rather than negative constants (on x86_64 anyway; maybe not necessarily on 32-bit systems): < FUTEX_WAITERS = -2147483648 --- > FUTEX_WAITERS = 2147483648 < PTHREAD_MUTEXATTR_FLAG_BITS = -251662336 < PTHREAD_MUTEXATTR_FLAG_PSHARED = -2147483648 --- > PTHREAD_MUTEXATTR_FLAG_BITS = 4043304960 > PTHREAD_MUTEXATTR_FLAG_PSHARED = 2147483648 < PTHREAD_MUTEX_PRIO_CEILING_MASK = -524288 --- > PTHREAD_MUTEX_PRIO_CEILING_MASK = 4294443008 This is because gen-as-const has a cast of the constant value to long int, which gen-py-const lacks. I think the positive values are more logically correct, since the constants in question are in fact unsigned in C. But to reliably produce gen-as-const.py output for constants that always (in C and Python) reflects the signedness of values with the high bit of "long int" set would mean more complicated logic needs to be used in computing values. The more correct positive values by themselves produce a failure of nptl/test-mutexattr-printers, because masking with ~PTHREAD_MUTEXATTR_FLAG_BITS & ~PTHREAD_MUTEX_NO_ELISION_NP now leaves a bit -1 << 32 in the Python value, resulting in a KeyError exception. To avoid that, places masking with ~ of one of the constants in question are changed to mask with 0xffffffff as well (this reflects how ~ in Python applies to an infinite-precision integer whereas ~ in C does not do any promotions beyond the width of int). Tested for x86_64. * scripts/gen-as-const.py (main): Handle --python option. * scripts/gen-py-const.awk: Remove. * Makerules (py-const-script): Use gen-as-const.py. ($(py-const)): Likewise. * nptl/nptl-printers.py (MutexPrinter.read_status_no_robust): Mask with 0xffffffff together with ~(PTHREAD_MUTEX_PRIO_CEILING_MASK). (MutexAttributesPrinter.read_values): Mask with 0xffffffff together with ~PTHREAD_MUTEXATTR_FLAG_BITS and ~PTHREAD_MUTEX_NO_ELISION_NP. * manual/README.pretty-printers: Update reference to gen-py-const.awk.
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-as-const.py 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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