[Bug analyzer/107472] Support for the Linux kernel's memory-management APIs

cvs-commit at gcc dot gnu.org gcc-bugzilla@gcc.gnu.org
Tue Nov 15 18:59:16 GMT 2022


https://gcc.gnu.org/bugzilla/show_bug.cgi?id=107472

--- Comment #2 from CVS Commits <cvs-commit at gcc dot gnu.org> ---
The master branch has been updated by David Malcolm <dmalcolm@gcc.gnu.org>:

https://gcc.gnu.org/g:d8aba860b34203621586df8c5a6756b18c2a0c32

commit r13-4073-gd8aba860b34203621586df8c5a6756b18c2a0c32
Author: David Malcolm <dmalcolm@redhat.com>
Date:   Tue Nov 15 13:53:42 2022 -0500

    c, analyzer: support named constants in analyzer [PR106302]

    The analyzer's file-descriptor state machine tracks the access mode of
    opened files, so that it can emit -Wanalyzer-fd-access-mode-mismatch.

    To do this, its symbolic execution needs to "know" the values of the
    constants "O_RDONLY", "O_WRONLY", and "O_ACCMODE".  Currently
    analyzer/sm-fd.cc simply uses these values directly from the build-time
    header files, but these are the values on the host, not those from the
    target, which could be different (PR analyzer/106302).

    In an earlier discussion of this issue:
      https://gcc.gnu.org/pipermail/gcc/2022-June/238954.html
    we talked about adding a target hook for this.

    However, I've also been experimenting with extending the fd state
    machine to track sockets (PR analyzer/106140).  For this, it's useful to
    "know" the values of the constants "SOCK_STREAM" and "SOCK_DGRAM".
    Unfortunately, these seem to have many arbitrary differences from target
    to target.

    For example: Linux/glibc general has SOCK_STREAM == 1, SOCK_DGRAM == 2,
    as does AIX, but annoyingly, e.g. Linux on MIPS has them the other way
    around.

    It seems to me that as the analyzer grows more ambitious modeling of the
    behavior of APIs (perhaps via plugins) it's more likely that the
    analyzer will need to know the values of named constants, which might
    not even exist on the host.

    For example, at LPC it was suggested to me that -fanalyzer could check
    rules about memory management inside the Linux kernel (probably via a
    plugin), but doing so involves a bunch of GFP_* flags (see PR 107472).

    So rather than trying to capture all this knowledge in a target hook,
    this patch attempts to get at named constant values from the user's
    source code.

    The patch adds an interface for frontends to call into the analyzer as
    the translation unit finishes.  The analyzer can then call back into the
    frontend to ask about the values of the named constants it cares about
    whilst the frontend's data structures are still around.

    The patch implements this for the C frontend, which looks up the names
    by looking for named CONST_DECLs (which handles enum values).  Failing
    that, it attempts to look up the values of macros but only the simplest
    cases are supported (a non-traditional macro with a single CPP_NUMBER
    token).  It does this by building a buffer containing the macro
    definition and rerunning a lexer on it.

    The analyzer gracefully handles the cases where named values aren't
    found (such as anything more complicated than described above).

    The patch ports the analyzer to use this mechanism for "O_RDONLY",
    "O_WRONLY", and "O_ACCMODE".  I have successfully tested my socket patch
    to also use this for "SOCK_STREAM" and "SOCK_DGRAM", so the technique
    seems to work.

    gcc/ChangeLog:
            PR analyzer/106302
            * Makefile.in (ANALYZER_OBJS): Add analyzer/analyzer-language.o.
            (GTFILES): Add analyzer/analyzer-language.cc.
            * doc/analyzer.texi: Document __analyzer_dump_named_constant.

    gcc/analyzer/ChangeLog:
            PR analyzer/106302
            * analyzer-language.cc: New file.
            * analyzer-language.h: New file.
            * analyzer.h (get_stashed_constant_by_name): New decl.
            (log_stashed_constants): New decl.
            * engine.cc (impl_run_checkers): Call log_stashed_constants.
            * region-model-impl-calls.cc
            (region_model::impl_call_analyzer_dump_named_constant): New.
            * region-model.cc (region_model::on_stmt_pre): Handle
            __analyzer_dump_named_constant.
            * region-model.h
            (region_model::impl_call_analyzer_dump_named_constant): New decl.
            * sm-fd.cc (fd_state_machine::m_O_ACCMODE): New.
            (fd_state_machine::m_O_RDONLY): New.
            (fd_state_machine::m_O_WRONLY): New.
            (fd_state_machine::fd_state_machine): Initialize the new fields.
            (fd_state_machine::get_access_mode_from_flag): Use the new fields,
            rather than using the host values.

    gcc/c/ChangeLog:
            PR analyzer/106302
            * c-parser.cc: Include "analyzer/analyzer-language.h" and
"toplev.h".
            (class ana::c_translation_unit): New.
            (c_parser_translation_unit): Call ana::on_finish_translation_unit.

    gcc/testsuite/ChangeLog:
            * gcc.dg/analyzer/analyzer-decls.h
            (__analyzer_dump_named_constant): New decl.
            * gcc.dg/analyzer/fd-4.c (void): Likewise.
            (O_ACCMODE): Define.
            * gcc.dg/analyzer/fd-access-mode-enum.c: New test, based on .
            * gcc.dg/analyzer/fd-5.c: ...this.  Rename to...
            * gcc.dg/analyzer/fd-access-mode-macros.c: ...this.
            (O_ACCMODE): Define.
            * gcc.dg/analyzer/fd-access-mode-target-headers.c: New test, also
            based on fd-5.c.
            (test_sm_fd_constants): New.
            * gcc.dg/analyzer/fd-dup-1.c (O_ACCMODE): Define.
            * gcc.dg/analyzer/named-constants-via-enum.c: New test.
            * gcc.dg/analyzer/named-constants-via-enum-and-macro.c: New test.
            * gcc.dg/analyzer/named-constants-via-macros-2.c: New test.
            * gcc.dg/analyzer/named-constants-via-macros.c: New test.

    Signed-off-by: David Malcolm <dmalcolm@redhat.com>


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