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This patch updates the manual and adds a new chapter to the manual, explaining types macros, constants and functions defined by ISO C11 threads.h standard. [BZ# 14092] * manual/debug.texi: Update adjacent chapter name. * manual/probes.texi: Likewise. * manual/threads.texi (ISO C Threads): New section. (POSIX Threads): Convert to a section.
134 lines
6.5 KiB
Plaintext
134 lines
6.5 KiB
Plaintext
@node Debugging Support
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@c @node Debugging Support, Threads, Cryptographic Functions, Top
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@c %MENU% Functions to help debugging applications
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@chapter Debugging support
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Applications are usually debugged using dedicated debugger programs.
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But sometimes this is not possible and, in any case, it is useful to
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provide the developer with as much information as possible at the time
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the problems are experienced. For this reason a few functions are
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provided which a program can use to help the developer more easily
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locate the problem.
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@menu
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* Backtraces:: Obtaining and printing a back trace of the
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current stack.
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@end menu
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@node Backtraces, , , Debugging Support
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@section Backtraces
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@cindex backtrace
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@cindex backtrace_symbols
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@cindex backtrace_fd
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A @dfn{backtrace} is a list of the function calls that are currently
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active in a thread. The usual way to inspect a backtrace of a program
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is to use an external debugger such as gdb. However, sometimes it is
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useful to obtain a backtrace programmatically from within a program,
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e.g., for the purposes of logging or diagnostics.
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The header file @file{execinfo.h} declares three functions that obtain
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and manipulate backtraces of the current thread.
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@pindex execinfo.h
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@deftypefun int backtrace (void **@var{buffer}, int @var{size})
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@standards{GNU, execinfo.h}
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@safety{@prelim{}@mtsafe{}@asunsafe{@asuinit{} @ascuheap{} @ascudlopen{} @ascuplugin{} @asulock{}}@acunsafe{@acuinit{} @acsmem{} @aculock{} @acsfd{}}}
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@c The generic implementation just does pointer chasing within the local
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@c stack, without any guarantees that this will handle signal frames
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@c correctly, so it's AS-Unsafe to begin with. However, most (all?)
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@c arches defer to libgcc_s's _Unwind_* implementation, dlopening
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@c libgcc_s.so to that end except in a static version of libc.
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@c libgcc_s's implementation may in turn defer to libunwind. We can't
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@c assume those implementations are AS- or AC-safe, but even if we
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@c could, our own initialization path isn't, and libgcc's implementation
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@c calls malloc and performs internal locking, so...
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The @code{backtrace} function obtains a backtrace for the current
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thread, as a list of pointers, and places the information into
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@var{buffer}. The argument @var{size} should be the number of
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@w{@code{void *}} elements that will fit into @var{buffer}. The return
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value is the actual number of entries of @var{buffer} that are obtained,
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and is at most @var{size}.
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The pointers placed in @var{buffer} are actually return addresses
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obtained by inspecting the stack, one return address per stack frame.
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Note that certain compiler optimizations may interfere with obtaining a
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valid backtrace. Function inlining causes the inlined function to not
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have a stack frame; tail call optimization replaces one stack frame with
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another; frame pointer elimination will stop @code{backtrace} from
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interpreting the stack contents correctly.
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@end deftypefun
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@deftypefun {char **} backtrace_symbols (void *const *@var{buffer}, int @var{size})
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@standards{GNU, execinfo.h}
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@safety{@prelim{}@mtsafe{}@asunsafe{@ascuheap{}}@acunsafe{@acsmem{} @aculock{}}}
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@c Collects info returned by _dl_addr in an auto array, allocates memory
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@c for the whole return buffer with malloc then sprintfs into it storing
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@c pointers to the strings into the array entries in the buffer.
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@c _dl_addr takes the recursive dl_load_lock then calls
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@c _dl_find_dso_for_object and determine_info.
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@c _dl_find_dso_for_object calls _dl-addr_inside_object.
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@c All of them are safe as long as the lock is held.
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@c @asucorrupt? It doesn't look like the dynamic loader's data
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@c structures could be in an inconsistent state that would cause
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@c malfunction here.
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The @code{backtrace_symbols} function translates the information
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obtained from the @code{backtrace} function into an array of strings.
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The argument @var{buffer} should be a pointer to an array of addresses
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obtained via the @code{backtrace} function, and @var{size} is the number
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of entries in that array (the return value of @code{backtrace}).
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The return value is a pointer to an array of strings, which has
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@var{size} entries just like the array @var{buffer}. Each string
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contains a printable representation of the corresponding element of
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@var{buffer}. It includes the function name (if this can be
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determined), an offset into the function, and the actual return address
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(in hexadecimal).
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Currently, the function name and offset can only be obtained on systems that
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use the ELF binary format for programs and libraries. On other systems,
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only the hexadecimal return address will be present. Also, you may need
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to pass additional flags to the linker to make the function names
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available to the program. (For example, on systems using GNU ld, you
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must pass @code{-rdynamic}.)
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The return value of @code{backtrace_symbols} is a pointer obtained via
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the @code{malloc} function, and it is the responsibility of the caller
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to @code{free} that pointer. Note that only the return value need be
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freed, not the individual strings.
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The return value is @code{NULL} if sufficient memory for the strings
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cannot be obtained.
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@end deftypefun
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@deftypefun void backtrace_symbols_fd (void *const *@var{buffer}, int @var{size}, int @var{fd})
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@standards{GNU, execinfo.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acunsafe{@aculock{}}}
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@c Single loop of _dl_addr over addresses, collecting info into an iovec
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@c written out with a writev call per iteration. Addresses and offsets
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@c are converted to hex in auto buffers, so the only potential issue
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@c here is leaking the dl lock in case of cancellation.
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The @code{backtrace_symbols_fd} function performs the same translation
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as the function @code{backtrace_symbols} function. Instead of returning
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the strings to the caller, it writes the strings to the file descriptor
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@var{fd}, one per line. It does not use the @code{malloc} function, and
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can therefore be used in situations where that function might fail.
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@end deftypefun
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The following program illustrates the use of these functions. Note that
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the array to contain the return addresses returned by @code{backtrace}
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is allocated on the stack. Therefore code like this can be used in
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situations where the memory handling via @code{malloc} does not work
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anymore (in which case the @code{backtrace_symbols} has to be replaced
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by a @code{backtrace_symbols_fd} call as well). The number of return
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addresses is normally not very large. Even complicated programs rather
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seldom have a nesting level of more than, say, 50 and with 200 possible
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entries probably all programs should be covered.
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@smallexample
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@include execinfo.c.texi
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@end smallexample
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