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Attempting to build GDB in Ubuntu 16.04.6 LTS on x86_64, I ran into warnings
that caused the build to fail:
binutils-gdb/gdb/gdbsupport/safe-strerror.c:44:1: error: ‘char* select_strerror_r(char*, char*)’ defined but not used [-Werror=unused-function] select_strerror_r (char *res, char *)
The diagnostic macro DIAGNOSTIC_IGNORE_UNUSED_FUNCTION seems to expand
correctly to its respective pragma, but this doesn't seem to have an effect on
the warning. I tried to use the pragma explicitly and got the same result.
ATTRIBUTE_UNUSED works fine in this case if you put it in both functions,
which should fix warnings for both gdb and gdbserver builds.
The compiler version is gcc (Ubuntu 5.4.0-6ubuntu1~16.04.11) 5.4.0 20160609.
This is likely the result of PR64079 in GCC, which was fixed by commit
9e96f1e1b9731c4e1ef4fbbbf0997319973f0537.
To prevent other developers from attempting to use this macro, only to get
confused by it not working as expected, it seems better to not define this
particular macro.
gdb/ChangeLog:
2019-12-12 Luis Machado <luis.machado@linaro.org>
* gdbsupport/safe-strerror.c: Don't include diagnostics.h.
(select_strerror_r): Use ATTRIBUTE_UNUSED instead of the diagnostics
macros.
include/ChangeLog:
2019-12-12 Luis Machado <luis.machado@linaro.org>
* diagnostics.h (DIAGNOSTIC_IGNORE_UNUSED_FUNCTION). Remove
definitions.
Change-Id: Iad6123d61d76d111e3ef8d24aa8c60112304c749
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Testing on another TUI series showed that some of the regexps in the
TUI test suite have been incorrect for a while. In particular, "|"
was meant literally in these tests, but was interpreted as pattern
alternation due to lack of quoting.
This patch fixes the bad tests. I am checking this in.
gdb/testsuite/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* gdb.tui/resize.exp: Fix regexp.
* gdb.tui/regs.exp: Fix regexps.
* gdb.tui/main.exp: Fix regexp.
Change-Id: Ib6661361171ac120bb92f4a8aec7efa4bcaa36b9
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The "winheight" command resizes a specified window, resizing the other
windows in the layout to adapt. In the current code, this is done by
examining each possible layout separately. The new layout code has a
more general approach to handling this, and this patch simply removes
the old code in favor of a call into the new layout engine.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-win.c (tui_set_win_height_command): Call
tui_adjust_window_height.
(tui_adjust_win_heights, new_height_ok): Remove.
* tui/tui-layout.h (tui_adjust_window_height): Declare.
* tui/tui-layout.c (tui_adjust_window_height): New function.
Change-Id: I6bb681375a46adc8d29fd06f581deed4e078e78a
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The TUI has separate code for each possible layout to handle the case
where the terminal window is resized. With the new layout code, this
can all be replaced with a call to tui_apply_current_layout, which
simply re-applies the current layout.
This results in some small differences in behavior when resizing, so
some tests are updated.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-win.c (tui_resize_all): Remove code, call
tui_apply_current_layout.
gdb/testsuite/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* gdb.tui/resize.exp: Update.
* gdb.tui/empty.exp (layouts): Update.
Change-Id: I3dc6c02a753d495d9ab5e8213d550a147198ce6f
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This patch introduces the first use of tui_layout, by changing
show_layout to clone and use the appropriate tui_layout.
This resulted in one minor layout change, and also in the unintended
-- but good -- side effect that the title of each boxed window is now
visible.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-layout.h (tui_apply_current_layout): Declare.
* tui/tui-layout.c (standard_layouts, applied_layout): New
globals.
(tui_apply_current_layout): New function.
(show_layout): Set applied_layout. Call
tui_apply_current_layout.
(show_source_command, show_disasm_command)
(show_source_disasm_command, show_data)
(show_source_or_disasm_and_command): Remove.
(initialize_layouts): New function.
(_initialize_tui_layout): Call initialize_layouts.
gdb/testsuite/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* gdb.tui/regs.exp: Update.
* gdb.tui/empty.exp (layouts): Update.
* gdb.tui/basic.exp: Update.
* lib/tuiterm.exp (_check_box): Don't check bottom border.
Change-Id: If1ee06ee58f4803e8c213f4ab0f5bb59f4650ec2
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This introduces a new approach to window layout for the TUI. The idea
behind this code is that a layout should be specified in a declarative
way, and then be applied by generic code that does not need to know
the specifics of every possible layout.
This patch itself does not change any behavior, because the new layout
engine isn't yet connected to anything. That is, this merely
introduces the implementation.
This generic approach makes the code more maintainable. It also
enables some future changes:
* New window types are simpler to add;
* User-specified layouts are possible; and
* Horizontal layouts are more attainable
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-layout.h (class tui_layout_base)
(class tui_layout_window, class tui_layout_split): New.
* tui/tui-layout.c (tui_get_window_by_name)
(tui_layout_window::clone, tui_layout_window::apply)
(tui_layout_window::get_sizes, tui_layout_window::add_split)
(tui_layout_split::add_window, tui_layout_split::clone)
(tui_layout_split::get_sizes)
(tui_layout_split::set_weights_from_heights)
(tui_layout_split::adjust_size, tui_layout_split::apply): New
functions.
(tui_layout_split::add_split, tui_layout_split::add_split)
(tui_layout_split::set_weights_from_heights)
(tui_layout_split::set_weights_from_heights): New functions.
Change-Id: I3a4cae666327b617d862aaa356f8179f945c6a4e
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struct tui_point does not help very much. It is only used for
storage, and never passed between functions. I think it makes the
code more verbose without any corresponding benefit, so this patch
removes it.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-wingeneral.c (tui_gen_win_info::make_window): Update.
* tui/tui-win.c (tui_adjust_win_heights, tui_resize_all): Update.
* tui/tui-layout.c (tui_gen_win_info::resize): Update.
* tui/tui-data.h (struct tui_point): Remove.
(struct tui_gen_win_info) <origin>: Remove.
<x, y>: New fields.
* tui/tui-command.c (tui_cmd_window::resize): Update.
Change-Id: I3f77920585b9ea9e2b4b189f3f3ae32d4da0c252
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This introduces a new method, tui_gen_win_info::min_height, to fetch
the minimum height of a window. This is used in the subsequent
unified layout patch.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-stack.h (struct tui_locator_window) <min_height>:
Implement.
* tui/tui-regs.h (struct tui_data_item_window) <min_height>:
Implement.
* tui/tui-data.h (struct tui_gen_win_info) <min_height>: New
method.
(struct tui_win_info) <min_height>: Implement.
Change-Id: Id33baffdf041fde072e15c1ff89b75f8b8118adb
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This moves the can_box method to tui_gen_win_info, so that it will be
available on the tui_locator_window class. This will be used in a
subsequent patch.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-data.h (struct tui_gen_win_info) <can_box>: New method.
(struct tui_win_info) <can_box>: Update.
Change-Id: Idfa58af41341607932d3c39415f6a35ee9b5d3dc
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This moves the max_height method to tui_gen_win_info and implements it
in the subclasses. This is used by a subsequent patch, which will
normalize window layout across all window types.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-stack.h (struct tui_locator_window) <max_height>: New
method.
* tui/tui-regs.h (struct tui_data_item_window) <max_height>: New
method.
* tui/tui-data.h (struct tui_gen_win_info) <max_height>: New
method.
(struct tui_win_info) <max_height>: Now override.
Change-Id: I4ba3e8899bc4668328d3d78e3c1674c61882450d
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gdb/ChangeLog:
* NEWS: Create a new section for the next release branch.
Rename the section of the current branch, now that it has
been cut.
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Now that the GDB 9 branch has been created, we can
bump the version number.
gdb/ChangeLog:
GDB 9 branch created (27f7b2f64062ac9e52afc60509263c2702a9ebd0):
* version.in: Bump version to 10.0.50.DATE-git.
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gdb/doc/ChangeLog:
* gdb.texinfo (Writing JIT Debug Info Readers): Fix typo.
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PR build/25268 points out that the build fails on macOS, because on
macOS the "pthread_setname_np" function takes a single argument.
This patch fixes the problem, by introducing a new adapter function
that handles both styles of pthread_setname_np.
This change also meant moving the pthread_setname_np call to the
thread function, because macOS only permits setting the name of the
current thread. This means that there can be a brief window when gdb
will see the wrong name; but I think this is a minor concern.
Tested by rebuilding on x86-64 Fedora 30, and on macOS High Sierra.
On Linux I also debugged gdb to ensure that the thread names are still
set correctly.
gdb/ChangeLog
2019-12-11 Tom Tromey <tromey@adacore.com>
PR build/25268:
* gdbsupport/thread-pool.c (set_thread_name): New function.
(thread_pool::set_thread_count): Don't call pthread_setname_np.
(thread_pool::thread_function): Call set_thread_name.
Change-Id: Id7bf28d99ca27a893a9fc87ebb90b15a9c2a9cb4
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A recent commit changed bfd_get_signed_8 to extend the result to a
bfd_signed_vma. This caused a compiler error in one spot in my
--enable-targets=all gdb build, where the result of bfd_get_signed_8
was passed to printf.
This patch fixes the build. Tested by rebuilding.
gdb/ChangeLog
2019-12-11 Tom Tromey <tromey@adacore.com>
* fbsd-tdep.c (fbsd_core_info_proc_status): Cast result of
bfd_get_signed_8.
Change-Id: Ic015f5fd3d88da6b5da8f7b4e1d11d5c981333db
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The option framework documentation was speaking about a 'print -raw'
option, but this option does not exist.
This patch implements -raw-values option that tells to ignore the
active pretty printers when printing a value.
As we already have -raw-frame-arguments, I thought -raw-values
was more clear, in particular to differentiate
set print raw-values and set print raw-frame-arguments.
gdb/doc/ChangeLog
2019-12-11 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* gdb.texinfo (Command Options): Use -p and -pretty in the example,
as -r is ambiguous. Update the print - TAB TAB completion result.
(Data): Document new option -raw-values. Use -p and -pretty in the
example, as -r is ambiguous.
(Print Settings): Document set print raw values.
(Pretty-Printer Commands): Document interaction between enabled
pretty printers and -raw-values/-raw-frame-arguments.
gdb/ChangeLog
2019-12-11 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* NEWS: Document -raw-values option and the related setting commands.
* printcmd.c (print_command_parse_format): Do not set opts->raw off,
only set it on when /r is given.
* valprint.c (value_print_option_defs): New element raw-values.
* Makefile.in: Add the new file.
gdb/testsuite/ChangeLog
2019-12-11 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* gdb.base/options.exp: Add -raw-values in the print completion list.
* gdb.python/py-prettyprint.exp: Add tests for -raw-values.
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I noticed that an example in the gdb.prompt documentation used the
wrong kind of quotes -- because it is code, it should use a plain
ASCII quotation mark. I also slightly shortened the sample text here,
so it would more clearly fit on a single line.
gdb/doc/ChangeLog
2019-12-10 Tom Tromey <tom@tromey.com>
* python.texi (gdb.prompt): Use correct quotes in example.
Shorten sample text.
Change-Id: I4153928c0d88001244ad410f3943c952a6ebfeb1
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Add tests which check for accessibility of variables from within
various OpenMP parallel regions.
Tested on Fedora 27, 28, 29, 30, and 31. I also tested with my OpenMP
work on Fedora 30. The test has been annotated with setup_xfail and
setup_kfail statements so that there are no unexpected failures on any
of these platforms when using gcc. Better still, for my own testing
anyway, is that there are also no XPASSes or KPASSes either. So,
regardless of platform, when using gcc, and regardless of whether my
(not yet public) OpenMP work is used, seeing a FAIL indicates a real
problem.
Fedora 27 results:
# of expected passes 85
# of expected failures 65
(Note: I have not retested F27 since v1 of the patch; it's possible
that the numbers will be slightly different for v2.)
Fedora 28, 29, 30 results:
# of expected passes 131
# of expected failures 4
# of known failures 16
Fedora 30, 31 results w/ my OpenMP work:
# of expected passes 151
The above results all use gcc, either the system gcc or a development
gcc (when testing against my OpenMP work in GDB). I've also tested
with clang 9.0.0 and icc 19.0.5.281 20190815 on Fedora 31.
Fedora 31, clang:
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print s3
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print i1
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print i3
FAIL: gdb.threads/omp-par-scope.exp: single_scope: second thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: single_scope: second thread: print s3
FAIL: gdb.threads/omp-par-scope.exp: single_scope: second thread: print i1
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i02
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i11
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i12
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i22
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: second thread: print i11
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: second thread: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: after parallel: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 2nd stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 2nd stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 4th stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 4th stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: outer_threads: outer stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: outer_threads: outer stop: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: outer_threads: outer stop: print j
Fedora 31, icc:
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i12
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i22
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 1st thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 1st thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 1st thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print z
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 1st thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 1st thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 1st thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print z
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print k
For both clang and icc, it turns out that there are some problems with
the DWARF that these compilers generate. Of the two, icc does at
least nest the subprogram of the outlined function representing the
parallel region within the function that it's defined, but does not
handle inner scopes if they exist. clang places the subprogram for
the outlined function at the same level as the containing function, so
variables declared within the function aren't visible at all.
I could call setup_xfail to avoid FAILs for clang and icc also, but I don't
want to further complicate the test.
gdb/testsuite/ChangeLog:
* gdb.threads/omp-par-scope.c: New file.
* gdb/threads/omp-par-scope.exp: New file.
Change-Id: Icb9c991730d84ca7509380af817dfcc778e764ea
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This commit adds the gdb_caching_proc, support_nested_function_tests,
to lib/gdb.exp. It tests to see whether or not the C compiler has
support for nested function calls.
gdb/testsuite/ChangeLog:
* lib/gdb.exp (support_nested_function_tests): New proc.
Change-Id: Ic2c93bc4cc200e07e104a2398f89a9c0514bdc75
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gdb/testsuite/ChangeLog:
* lib/gdb.exp (gdb_compile_openmp): New proc.
(build_executable_from_specs): Add an "openmp" option.
(gdb_compile_pthreads): Add non-executable case.
Change-Id: I94048b8b0940c707ce0529a6bcfa6e4eace49101
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We only ever use one of the two overloads, so to avoid breaking -Werror
builds, supress the warning.
gdb/ChangeLog:
2019-12-10 Christian Biesinger <cbiesinger@google.com>
* gdbsupport/safe-strerror.c: Supress the unused function warning
for select_strerror_r.
Change-Id: I344869a382bb36fe181b5b2a31838d1d20f58169
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To do that, this patch makes IPA compile safe-strerror as well. Because
it doesn't use Gnulib, it calls the Glibc version of strerror_r directly.
Consequently this patch also removes the configure checks for strerror.
gdb/ChangeLog:
2019-12-10 Christian Biesinger <cbiesinger@google.com>
* config.in: Regenerate.
* configure: Regenerate.
* gdbsupport/agent.c (gdb_connect_sync_socket): Call
safe_strerror instead of strerror.
* gdbsupport/common.m4: Don't check for strerror.
* gdbsupport/safe-strerror.c: Support both the glibc version
of strerror_r and the XSI version.
gdb/gdbserver/ChangeLog:
2019-12-10 Christian Biesinger <cbiesinger@google.com>
* Makefile.in: Add safe-strerror.c to gdbreplay and IPA, and change
UNDO_GNULIB_CFLAGS to undo strerror_r instead of strerror.
* config.in: Regenerate.
* configure: Regenerate.
* configure.ac: Don't check for strerror.
* linux-i386-ipa.c (initialize_fast_tracepoint_trampoline_buffer):
Call safe_strerror instead of strerror.
* server.h (strerror): Remove this now-unnecessary declaration.
* tracepoint.c (init_named_socket): Call safe_strerror instead of
strerror.
(gdb_agent_helper_thread): Likewise.
* utils.c (perror_with_name): Likewise.
Change-Id: I74848f072dcde75cb55c435ef9398dc8f958cd73
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Sometimes -- notably with unchecked unions -- the Ada "ptype" code
will print a "?" or "??" to indicate something unknown. The choice of
what was printed was somewhat arbitrary, and in one case, Ada would
print an empty string rather than "?".
This patch normalizes the Ada code to use "?" rather than an empty
string or "??". My reasoning here is that a single question mark is
enough to convey unknown-ness.
gdb/ChangeLog
2019-12-10 Tom Tromey <tromey@adacore.com>
* ada-typeprint.c (print_choices): Use a single "?".
(print_variant_part): Print "?" if the discriminant name
is not known.
gdb/testsuite/ChangeLog
2019-12-10 Tom Tromey <tromey@adacore.com>
* gdb.ada/unchecked_union.exp: New file.
* gdb.ada/unchecked_union/pck.adb: New file.
* gdb.ada/unchecked_union/pck.ads: New file.
* gdb.ada/unchecked_union/unchecked_union.adb: New file.
* gdb-utils.exp (string_to_regexp): Also quote "?".
Change-Id: I3403040780a155ffa2c44c8e6a04ba86bc810e29
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The documentation for make-breakpoint from the Guile API and the `spec'
variant of the gdb.Breakpoint constructor from the Python API state that
the format acceptable for location strings is the same as that accepted
by the break command. However, using the -probe qualifier at the
beginning of the location string causes a GDB internal error as it
attempts to decode a probe location in the wrong code path. Without this
functionality, there doesn't appear to be another way to set breakpoints
on probe points from Python or Guile scripts.
This patch introduces a new helper function that returns a
breakpoint_ops instance appropriate for a parsed location and updates
the Guile and Python bindings to use said function, rather than the
current hard-coded use of bkpt_breakpoint_ops. Since this logic is
duplicated in the handling of the `break' and `trace' commands, those
are also updated to call into the new helper function.
gdb/ChangeLog:
2019-12-10 George Barrett <bob@bob131.so>
Fix scripted probe breakpoints.
* breakpoint.c (tracepoint_probe_breakpoint_ops): Move
declaration forward.
(breakpoint_ops_for_event_location_type)
(breakpoint_ops_for_event_location): Add function definitions.
(break_command_1, trace_command): Use
breakpoint_ops_for_event_location.
* breakpoint.h (breakpoint_ops_for_event_location): Add function
declarations.
* guile/scm-breakpoint.c (gdbscm_register_breakpoint_x): Use
breakpoint_ops_for_event_location.
* python/py-breakpoint.c (bppy_init): Use
breakpoint_ops_for_event_location.
gdb/testsuite/ChangeLog:
2019-12-10 George Barrett <bob@bob131.so>
Test scripted probe breakpoints.
* gdb.guile/scm-breakpoint.c (main): Add probe point.
* gdb.python/py-breakpoint.c (main): Likewise.
* gdb.guile/scm-breakpoint.exp (test_bkpt_probe): Add probe
specifier test.
* gdb.python/py-breakpoint.exp (test_bkpt_probe): Likewise.
|
|
Passing an lvalue argument to a function that takes an rvalue parameter
is not allowed per C++ rules. Consider this function:
int g (int &&x) { return x; }
Calling g as in
int i = 5;
int j = g (i);
is illegal. For instance, GCC 9.2.1 yields
~~~
test.cpp: In function ‘int main()’:
test.cpp:6:14: error: cannot bind rvalue reference of type ‘int&&’ to
lvalue of type ‘int’
6 | int j = g (i);
| ^
~~~
GDB currently allows this function call:
~~~
(gdb) print g(i)
$1 = 5
~~~
Fix this by ranking an lvalue argument incompatible with an rvalue
parameter. The behavior after this patch is:
~~~
(gdb) print g(i)
Cannot resolve function g to any overloaded instance
~~~
Tested with GCC 9.2.1.
gdb/ChangeLog:
2019-12-09 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdbtypes.c (rank_one_type): Return INCOMPATIBLE_TYPE_BADNESS
when ranking an lvalue argument for an rvalue parameter.
gdb/testsuite/ChangeLog:
2019-12-09 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdb.cp/rvalue-ref-overload.cc (g): New function that takes
an rvalue parameter.
* gdb.cp/rvalue-ref-overload.exp: Test calling it with an lvalue
parameter.
Change-Id: I4a6dfc7dac63efa1e3b9f8f391e4b736fbdccdc1
|
|
Extend the output pattern in mi-fortran-modules.exp to skip some
system modules that appear with versions of GFortran after 7.x.x.
gdb/testsuite/ChangeLog:
* gdb.mi/mi-fortran-modules.exp: Add patterns to skip system
modules.
Change-Id: I64aaa395e554a32e8267ffa096faee53c19c0b9e
|
|
In some cases the Fortran stride information generated by GCC is wrong
with versions of GCC after 7.x.x. This commit adds kfails for the
tests in question with known bad versions of gcc.
The bug has been reported to GCC here:
https://gcc.gnu.org/bugzilla/show_bug.cgi?id=92775
gdb/testsuite/ChangeLog:
* gdb.fortran/derived-type-striding.exp: KFAIL if we are using a
broken version of GCC.
Change-Id: Iaef08e5e2c87ab3d6983b88f749d40e01aea2bc6
|
|
The gdb.fortran/info-modules.exp and gdb.fortran/info-types.exp tests
are failing on versions of gfortran after 7.3 due to the inclusion of
extra "system" modules and type that were not being matched by the
current test patterns.
Rather than building increasingly complex patterns that would always
be at risk of breaking with future versions of GCC I have instead
added a new library that parses the output of the following commands:
info types
info variables
info functions
info modules
info module functions
info module variables
into a data structure, the test can than run checks against the
contents of this data structure.
The benefit is that we can simply ignore extra results that we don't
care about.
There is a small risk that a bug in GDB might allow us to start
reporting incorrect results in such a way that the new library will
not spot the error. However, I have tried to mitigate this risk by
adding extra procedures into the test library (see check_no_entry) and
we can add more in future if we wanted to be even more defensive.
I tested this test file with gFortran 7.3.1, 8.3.0, and 9.2.0, I now
see 100% pass in all cases.
gdb/testsuite/ChangeLog:
* gdb.fortran/info-modules.exp: Rewrite to make use of new
sym-info-cmds library.
* gdb.fortran/info-types.exp: Likewise.
* lib/sym-info-cmds.exp: New file.
Change-Id: Iff81624f51b5afb6c95393932f3d94472d7c2970
|
|
This should be the type of startup_with_shell, whose type was changed
from int to bool at commit 80fd28264.
This fixes the build on macOS:
CXX darwin-nat.o
In file included from ../../gdb/darwin-nat.c:22:
In file included from ../../gdb/top.h:25:
In file included from ../../gdb/value.h:23:
In file included from ../../gdb/frame.h:72:
In file included from ../../gdb/language.h:26:
In file included from ../../gdb/symtab.h:33:
../../gdb/gdbsupport/gdb_optional.h:155:19: error: no matching constructor for initialization of 'scoped_restore_tmpl<int>'
new (&m_item) T (std::forward<Args>(args)...);
^ ~~~~~~~~~~~~~~~~~~~~~~~~
../../gdb/darwin-nat.c:1995:31: note: in instantiation of function template specialization 'gdb::optional<scoped_restore_tmpl<int> >::emplace<bool *, int>' requested here
restore_startup_with_shell.emplace (&startup_with_shell, 0);
^
../../gdb/gdbsupport/scoped_restore.h:69:3: note: candidate constructor template not viable: no known conversion from 'bool *' to 'int *' for 1st argument
scoped_restore_tmpl (T *var, T2 value)
^
../../gdb/gdbsupport/scoped_restore.h:57:3: note: candidate constructor not viable: requires single argument 'var', but 2 arguments were provided
scoped_restore_tmpl (T *var)
^
../../gdb/gdbsupport/scoped_restore.h:76:3: note: candidate constructor not viable: requires single argument 'other', but 2 arguments were provided
scoped_restore_tmpl (const scoped_restore_tmpl<T> &other)
^
1 error generated.
gdb/ChangeLog
2019-12-08 Wataru Ashihara <wataash@wataash.com>
* darwin-nat.c (darwin_nat_target::create_inferior): Fix
template argument for scoped_restore_tmpl from bool to int.
Change-Id: Ia0202efd34dbce69b6af5d035fa55ed89215138a
|
|
When running the gdb testsuite with the cc-with-dwz board, I run into:
...
Running gdb/testsuite/gdb.dwarf2/imported-unit.exp ...
gdb compile failed, dwz: gdb.dwarf2/imported-unit/imported-unit: \
Couldn't find DIE referenced by DW_AT_abstract_origin
cc-with-tweaks.sh: dwz did not modify gdb.dwarf2/imported-unit/imported-unit.
...
The problem is that the DW_AT_abstract_origin reference here:
...
<0><d2>: Abbrev Number: 2 (DW_TAG_compile_unit)
<1><e6>: Abbrev Number: 4 (DW_TAG_subprogram)
<e7> DW_AT_abstract_origin: <0x142>
<eb> DW_AT_low_pc : 0x4004b2
<f3> DW_AT_high_pc : 0x4004c8
...
referring to a DIE in another compilation unit here:
...
<0><129>: Abbrev Number: 2 (DW_TAG_compile_unit)
<1><142>: Abbrev Number: 4 (DW_TAG_subprogram)
<143> DW_AT_name : main
<148> DW_AT_type : <0x13b>
<14c> DW_AT_external : 1
...
is encoded using intra-CU reference form DW_FORM_ref4 instead of intra-CU
reference DW_FORM_ref_addr:
...
4 DW_TAG_subprogram [has children]
DW_AT_abstract_origin DW_FORM_ref4
DW_AT_low_pc DW_FORM_addr
DW_AT_high_pc DW_FORM_addr
DW_AT value: 0 DW_FORM value: 0
...
Fix this in the DWARF assembler by making all inter-CU references use the '%'
label prefix.
Tested on x86_64-linux.
gdb/testsuite/ChangeLog:
2019-12-08 Tom de Vries <tdevries@suse.de>
* gdb.dwarf2/imported-unit.exp: Fix inter-CU references.
Change-Id: I690ff18c3943705ed478453531b176ff74700f3c
|
|
This patch uses new BFD support for detecting build-ids in core
files.
After this patch, it is possible to run gdb with only the
core file, and gdb will automatically load the executable and
debug info [example from tests]:
$ gdb -nx -q
(gdb) core-file corefile-buildid.core
[New LWP 29471]
Reading symbols from gdb.base/corefile-buildid/debugdir-exec/.build-id/36/fe5722c5a7ca3ac746a84e223c6a2a69193a24...
Core was generated by `outputs/gdb.base/coref'.
Program terminated with signal SIGABRT, Aborted.
(gdb)
This work is based on functionality available in Fedora originally
written by Jan Kratochvil.
Regression tested on buildbot.
gdb/ChangeLog:
2019-12-07 Keith Seitz <keiths@redhat.com>
* build-id.c (build_id_bfd_get): Permit bfd_core, too.
(build_id_to_debug_bfd): Make static, rewriting to use
build_id_to_bfd_suffix.
(build_id_to_bfd_suffix): Copy of build_id_to_debug_bfd,
adding `suffix' parameter. Append SUFFIX to file names
when searching for matching files.
(build_id_to_debug_bfd): Use build_id_to_bfd_suffix.
(build_id_to_exec_bfd): Likewise.
* build-id.h (build_id_to_debug_bfd): Clarify that function
searches for BFD of debug info file.
(build_id_to_exec_bfd): Declare.
* corelow.c: Include build-id.h.
(locate_exec_from_corefile_build_id): New function.
(core_target_open): If no executable BFD is found,
search for a core file BFD using build-id.
gdb/testsuite/ChangeLog:
2019-12-07 Keith Seitz <keiths@redhat.com>
* gdb.base/corefile-buildid-shlib-shr.c: New file.
* gdb.base/corefile-buildid-shlib.c: New file.
* gdb.base/corefile-buildid.c: New file.
* gdb.base/corefile-buildid.exp: New file.
Change-Id: I15e9e8e58f10c68b5cae55e2eba58df1e8aef529
|
|
This avoids a conflict with a system "struct bcache" on
Solaris (see e.g.
https://www.isi.edu/nsnam/archive/ns-users/webarch/2001/msg05393.html)
Note that the Solaris conflict for now only surfaces with
--enable-targets=all (which the build bot doesn't use).
gdb/ChangeLog:
2019-12-06 Christian Biesinger <cbiesinger@google.com>
* bcache.c: Put in namespace gdb.
* bcache.h: Likewise.
* gdbtypes.c (check_types_worklist): Update.
(types_deeply_equal): Update.
* macrotab.c (struct macro_table) <bcache>: Update.
(new_macro_table): Update.
* macrotab.h (struct bcache): Put this forward declaration
inside namespace gdb.
(new_macro_table): Update.
* objfiles.h (struct objfile_per_bfd_storage) <filename_cache>:
Update.
<macro_cache>: Update.
* psymtab.h: (psymtab_storage) <psymbol_cache>: Update.
Change-Id: I843d5e91f7ccb3db6d1099a8214c15a74510256f
|
|
Consider the DWARF as generated by gcc with the tentative patch to fix gcc
PR91507 - "wrong debug for completed array with previous incomplete
declaration":
...
<1><f4>: Abbrev Number: 2 (DW_TAG_array_type)
<f5> DW_AT_type : <0xff>
<f9> DW_AT_sibling : <0xff>
<2><fd>: Abbrev Number: 3 (DW_TAG_subrange_type)
<2><fe>: Abbrev Number: 0
<1><ff>: Abbrev Number: 4 (DW_TAG_pointer_type)
<100> DW_AT_byte_size : 8
<101> DW_AT_type : <0x105>
<1><105>: Abbrev Number: 5 (DW_TAG_base_type)
<106> DW_AT_byte_size : 1
<107> DW_AT_encoding : 6 (signed char)
<108> DW_AT_name : (indirect string, offset: 0x19f): char
<1><10c>: Abbrev Number: 6 (DW_TAG_variable)
<10d> DW_AT_name : zzz
<111> DW_AT_decl_file : 1
<112> DW_AT_decl_line : 1
<113> DW_AT_decl_column : 14
<114> DW_AT_type : <0xf4>
<118> DW_AT_external : 1
<118> DW_AT_declaration : 1
<1><118>: Abbrev Number: 2 (DW_TAG_array_type)
<119> DW_AT_type : <0xff>
<11d> DW_AT_sibling : <0x128>
<1><12f>: Abbrev Number: 8 (DW_TAG_variable)
<130> DW_AT_specification: <0x10c>
<134> DW_AT_decl_line : 2
<135> DW_AT_decl_column : 7
<136> DW_AT_type : <0x118>
<13a> DW_AT_location : 9 byte block: 3 30 10 60 0 0 0 0 0 (DW_OP_addr: 601030)
...
The DWARF will result in two entries in the symbol table, a decl with type
char *[] and a def with type char*[2].
When trying to print the value of zzz:
...
$ gdb a.spec.out -batch -ex "p zzz"
...
the decl (rather than the def) will be found in the symbol table, which is
missing the location information, and consequently we get:
...
$1 = 0x601030 <zzz>
...
[ There is a fallback mechanism that finds the address of the variable in the
minimal symbol table, but that's not used here, because the type of the decl
does not specify a size. We could use the symbol size here to get the size
of the type, but that's currently not done: PR exp/24989. Still, fixing that
PR would not fix the generic case, where minimal symbol info is not
available. ]
Fix this by preferring defs over decls when searching in the symbol table.
Build and reg-tested on x86_64-linux.
gdb/ChangeLog:
2019-12-06 Tom de Vries <tdevries@suse.de>
PR symtab/24971
* block.c (best_symbol, better_symbol): New function.
(block_lookup_symbol_primary, block_lookup_symbol): Prefer def over
decl.
gdb/testsuite/ChangeLog:
2019-12-06 Tom de Vries <tdevries@suse.de>
* gdb.dwarf2/varval.exp: Add decl before def test.
Change-Id: Id92326cb8ef9903b121ef9e320658eb565d0f5a9
|
|
Simplify the expected test outputs. This is a minor cleanup; no
functional change is intended.
gdb/testsuite/ChangeLog:
2019-12-06 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdb.cp/rvalue-ref-overload.exp: Minor cleanup.
Change-Id: Ie760a2856cae3be0eeed5496765a5f1cd102d6b7
|
|
The overload resolution mechanism assigns badness values to the
necessary conversions to be made on types to pick a champion. A
badness value consists of a "rank" that scores the conversion and a
"subrank" to differentiate conversions of the same kind.
An auxiliary function, 'sum_ranks', is used for adding two badness
values. In all of its uses, except two, 'sum_ranks' is used for
populating the subrank of a badness value. The two exceptions are in
'rank_one_type':
~~~
/* See through references, since we can almost make non-references
references. */
if (TYPE_IS_REFERENCE (arg))
return (sum_ranks (rank_one_type (parm, TYPE_TARGET_TYPE (arg), NULL),
REFERENCE_CONVERSION_BADNESS));
if (TYPE_IS_REFERENCE (parm))
return (sum_ranks (rank_one_type (TYPE_TARGET_TYPE (parm), arg, NULL),
REFERENCE_CONVERSION_BADNESS));
~~~
Here, the result of a recursive call is combined with
REFERENCE_CONVERSION_BADNESS. This leads to the problem of
over-punishment by combining two ranks. Consider this:
void an_overloaded_function (const foo &);
void an_overloaded_function (const foo &&);
...
foo arg;
an_overloaded_function(arg);
When ranking 'an_overloaded_function (const foo &)', the badness
values REFERENCE_CONVERSION_BADNESS and CV_CONVERSION_BADNESS are
combined, whereas 'rank_one_type' assigns only the
REFERENCE_CONVERSION_BADNESS value to 'an_overloaded_function (const
foo &&)' (there is a different execution flow for that). This yields
in GDB picking the latter function as the overload champion instead of
the former.
In fact, the 'rank_one_type' function should have given
'an_overloaded_function (const foo &)' the CV_CONVERSION_BADNESS
value, with the see-through referencing increasing the subrank a
little bit. This can be achieved by introducing a new badness value,
REFERENCE_SEE_THROUGH_BADNESS, which bumps up the subrank only, and
using it in the two "exceptional" cases of 'sum_ranks'.
gdb/ChangeLog:
2019-12-06 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdbtypes.h: Define the REFERENCE_SEE_THROUGH_BADNESS value.
* gdbtypes.c (rank_one_type): Use REFERENCE_SEE_THROUGH_BADNESS
for ranking see-through reference cases.
gdb/testsuite/ChangeLog:
2019-12-06 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdb.cp/rvalue-ref-overload.cc: Add a case that involves both
CV and reference conversion for overload resolution.
* gdb.cp/rvalue-ref-overload.exp: Test it.
Change-Id: I39ae6505ab85ad0bd21915368c82540ceeb3aae9
|
|
GDB crashes when doing:
(gdb) faas
Aborted
Do the needed check to avoid crashing.
gdb/ChangeLog
2019-12-06 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* stack.c (faas_command): Check a command is provided.
* thread.c (taas_command, tfaas_command): Likewise.
gdb/testsuite/ChangeLog
2019-12-06 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* gdb.threads/pthreads.exp: Test taas and tfaas without command.
* gdb.base/frameapply.exp: Test faas without command.
|
|
Valgrind detects various inferior related leaks, such as:
==31877== 5,530 (56 direct, 5,474 indirect) bytes in 1 blocks are definitely lost in loss record 7,131 of 7,355
==31877== at 0x4C2E18C: calloc (vg_replace_malloc.c:760)
==31877== by 0x23E580: xcalloc (alloc.c:100)
==31877== by 0x4794A9: xcnewvec<void*> (poison.h:158)
==31877== by 0x4794A9: registry_alloc_data(registry_data_registry*, registry_fields*) (registry.c:51)
==31877== by 0x3A537C: inferior_alloc_data (inferior.c:43)
==31877== by 0x3A537C: inferior::inferior(int) (inferior.c:92)
==31877== by 0x3A5426: add_inferior_silent(int) (inferior.c:98)
==31877== by 0x3A5530: add_inferior(int) (inferior.c:122)
...
Origin of the leaks is in prune_inferiors: prune_inferiors is first removing
the inferior to prune from the inferior list, then calls delete_inferior.
But delete_inferior will only really destroy the inferior when it finds
it into the inferior list.
As delete_inferior is removing the inferior to delete from the inferior list,
ensure prune_inferiors only calls delete_inferior, without touching the
inferior list.
gdb/ChangeLog
2019-12-05 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* inferior.c (prune_inferiors): Only call delete_inferior.
Do not modify the inferior list.
|
|
I noticed that the gdbarch parameter of lookup_typename was unused, so I
removed it (as well as from lookup_signed_typename and
lookup_unsigned_typename) and updated all callers.
Tested by rebuilding.
gdb/ChangeLog:
* c-exp.y: Update calls to lookup_typename,
lookup_signed_typename and lookup_unsigned_typename.
* c-lang.c (evaluate_subexp_c): Likewise.
* cp-namespace.c (cp_lookup_symbol_imports_or_template):
Likewise.
* eval.c (binop_promote): Likewise.
* gdbtypes.c (lookup_typename): Remove gdbarch parameter.
(lookup_unsigned_typename): Likewise.
(lookup_signed_typename): Likewise.
* gdbtypes.h (lookup_unsigned_typename): Likewise.
(lookup_signed_typename): Likewise.
(lookup_typename): Likewise.
* guile/scm-type.c (tyscm_lookup_typename): Update calls to
lookup_typename, lookup_signed_typename,
lookup_unsigned_typename.
* m2-exp.y: Likewise.
* printcmd.c (printf_wide_c_string): Likewise.
(ui_printf): Likewise.
* python/py-type.c (typy_lookup_typename): Likewise.
* python/py-xmethods.c (python_xmethod_worker::invoke):
Likewise.
* rust-exp.y: Likewise.
|
|
This fixes these errors:
ld: error: undefined symbol: x86_stopped_by_hw_breakpoint()
>>> referenced by x86-nat.h:109 (../../gdb/x86-nat.h:109)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::stopped_by_hw_breakpoint())
ld: error: undefined symbol: x86_can_use_hw_breakpoint(bptype, int, int)
>>> referenced by x86-nat.h:76 (../../gdb/x86-nat.h:76)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::can_use_hw_breakpoint(bptype, int, int))
ld: error: undefined symbol: x86_insert_hw_breakpoint(gdbarch*, bp_target_info*)
>>> referenced by x86-nat.h:93 (../../gdb/x86-nat.h:93)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::insert_hw_breakpoint(gdbarch*, bp_target_info*))
ld: error: undefined symbol: x86_remove_hw_breakpoint(gdbarch*, bp_target_info*)
>>> referenced by x86-nat.h:97 (../../gdb/x86-nat.h:97)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::remove_hw_breakpoint(gdbarch*, bp_target_info*))
ld: error: undefined symbol: x86_remove_watchpoint(unsigned long, int, target_hw_bp_type, expression*)
>>> referenced by x86-nat.h:89 (../../gdb/x86-nat.h:89)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::remove_watchpoint(unsigned long, int, target_hw_bp_type, expression*))
ld: error: undefined symbol: x86_insert_watchpoint(unsigned long, int, target_hw_bp_type, expression*)
>>> referenced by x86-nat.h:84 (../../gdb/x86-nat.h:84)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::insert_watchpoint(unsigned long, int, target_hw_bp_type, expression*))
ld: error: undefined symbol: x86_stopped_by_watchpoint()
>>> referenced by x86-nat.h:100 (../../gdb/x86-nat.h:100)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::stopped_by_watchpoint())
ld: error: undefined symbol: x86_stopped_data_address(unsigned long*)
>>> referenced by x86-nat.h:103 (../../gdb/x86-nat.h:103)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::stopped_data_address(unsigned long*))
ld: error: undefined symbol: x86_region_ok_for_hw_watchpoint(unsigned long, int)
>>> referenced by x86-nat.h:79 (../../gdb/x86-nat.h:79)
>>> amd64-obsd-nat.o:(x86_nat_target<obsd_nat_target>::region_ok_for_hw_watchpoint(unsigned long, int))
and
ld: error: undefined symbol: x86_dr_insert_watchpoint(x86_debug_reg_state*, target_hw_bp_type, unsigned long, int)
>>> referenced by x86-nat.c:156 (../../gdb/x86-nat.c:156)
>>> x86-nat.o:(x86_insert_watchpoint(unsigned long, int, target_hw_bp_type, expression*))
ld: error: undefined symbol: x86_dr_remove_watchpoint(x86_debug_reg_state*, target_hw_bp_type, unsigned long, int)
>>> referenced by x86-nat.c:169 (../../gdb/x86-nat.c:169)
>>> x86-nat.o:(x86_remove_watchpoint(unsigned long, int, target_hw_bp_type, expression*))
ld: error: undefined symbol: x86_dr_region_ok_for_watchpoint(x86_debug_reg_state*, unsigned long, int)
>>> referenced by x86-nat.c:181 (../../gdb/x86-nat.c:181)
>>> x86-nat.o:(x86_region_ok_for_hw_watchpoint(unsigned long, int))
ld: error: undefined symbol: x86_dr_stopped_data_address(x86_debug_reg_state*, unsigned long*)
>>> referenced by x86-nat.c:194 (../../gdb/x86-nat.c:194)
>>> x86-nat.o:(x86_stopped_data_address(unsigned long*))
ld: error: undefined symbol: x86_dr_stopped_by_watchpoint(x86_debug_reg_state*)
>>> referenced by x86-nat.c:206 (../../gdb/x86-nat.c:206)
>>> x86-nat.o:(x86_stopped_by_watchpoint())
ld: error: undefined symbol: x86_dr_insert_watchpoint(x86_debug_reg_state*, target_hw_bp_type, unsigned long, int)
>>> referenced by x86-nat.c:219 (../../gdb/x86-nat.c:219)
>>> x86-nat.o:(x86_insert_hw_breakpoint(gdbarch*, bp_target_info*))
ld: error: undefined symbol: x86_dr_remove_watchpoint(x86_debug_reg_state*, target_hw_bp_type, unsigned long, int)
>>> referenced by x86-nat.c:233 (../../gdb/x86-nat.c:233)
>>> x86-nat.o:(x86_remove_hw_breakpoint(gdbarch*, bp_target_info*))
ld: error: undefined symbol: x86_dr_stopped_by_hw_breakpoint(x86_debug_reg_state*)
>>> referenced by x86-nat.c:269 (../../gdb/x86-nat.c:269)
>>> x86-nat.o:(x86_stopped_by_hw_breakpoint())
It does not fix:
ld: error: can't create dynamic relocation R_X86_64_64 against symbol: __gmp_binvert_limb_table in readonly segment; recompile object files with -fPIC or pass '-Wl,-z,notext' to allow text relocations in the output
>>> defined in /usr/local/lib/libgmp.a(mp_minv_tab.o)
>>> referenced by tmp-dive_1.s
>>> dive_1.o:(__gmpn_divexact_1) in archive /usr/local/lib/libgmp.a
ld: error: can't create dynamic relocation R_X86_64_64 against symbol: __gmp_binvert_limb_table in readonly segment; recompile object files with -fPIC or pass '-Wl,-z,notext' to allow text relocations in the output
>>> defined in /usr/local/lib/libgmp.a(mp_minv_tab.o)
>>> referenced by tmp-bdiv_q_1.s
>>> bdiv_q_1.o:(__gmpn_bdiv_q_1) in archive /usr/local/lib/libgmp.a
ld: error: can't create dynamic relocation R_X86_64_64 against symbol: __gmpn_invert_limb_table in readonly segment; recompile object files with -fPIC or pass '-Wl,-z,notext' to allow text relocations in the output
>>> defined in /usr/local/lib/libgmp.a(invert_limb_table.o)
>>> referenced by tmp-invert_limb.s
>>> invert_limb.o:(__gmpn_invert_limb) in archive /usr/local/lib/libgmp.a
gdb/ChangeLog:
2019-12-04 Christian Biesinger <cbiesinger@google.com>
* configure.nat (obsd64): Add missing files x86-nat.o and
nat/x86-dregs.o.
Change-Id: I4a443c0cf805efd7b45feaabd729a01b07772724
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I happened to find a few more spots that should use metadata style,
but do not. I missed these in my earlier search somehow. This patch
also adds gettext markup in a couple of spots where it was missing.
gdb/ChangeLog
2019-12-04 Tom Tromey <tom@tromey.com>
* valprint.c (val_print_string): Use metadata_style.
* go-valprint.c (print_go_string): Use metadata style.
* p-valprint.c (pascal_object_print_static_field): Use metadata
style.
* cp-valprint.c (cp_print_static_field): Use metadata style.
Change-Id: Id82ca2aa306c6694b111d5c92dfa6f0cce919ebf
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When compiling Fortran tests (e.g. gdb.fortran/info-modules.exp), the
Fotran compile produces .mod files. These files contain details of
compiled modules that are then consumed by the compiler when compiling
other files that USE a module.
Currently the compiler writes the .mod files into its current
directory, so for us this turns out to be 'build/gdb/testsuite/'.
This means that .mod files can be shared between tests, which seems
against the spirit of the GDB testsuite; source files should be
compiled fresh for each test.
This commit adds the -J option to the compiler flags whenever we
compile a Fortran file, this option tells the compiler where to write,
and look for, .mod files.
After this commit there was one Fortran test that needed fixing, with
that fix in place all of the Fortran tests pass again, but now the
.mod files are now produced in the per-test output directories.
gdb/testsuite/ChangeLog:
* lib/gdb.exp (gdb_compile): Add -J compiler option when building
Fortran tests.
* gdb.mi/mi-fortran-modules.exp: Compile source files in correct
order.
Change-Id: I99444cf22d80e320093d3f3ed9abb8825f378e0b
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Extend the Fortran parser to support 'single precision' and 'double
precision' types as well 'single complex' and 'double complex' types.
gdb/ChangeLog:
* f-exp.y (COMPLEX_KEYWORD, SINGLE, DOUBLE, PRECISION): New
tokens.
(typebase): New patterns for complex, single/double precision, and
single/double complex.
(f77_keywords): Change token for complex keyword, and add single,
double, and precision keywords.
gdb/testsuite/ChangeLog:
* gdb.fortran/type-kinds.exp (test_cast_1_to_type_kind): Handle
casting to type with no kind specified.
(test_basic_parsing_of_type_kinds): Additional tests for types
with no kind specified, and add tests for single/double
precision/complex types.
Change-Id: I9c82f4d392c58607747bd08862c1ee330723a1ba
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Running the selftests on an all-targets build, I get:
Running selftest help_doc_invariants.
help doc broken invariant: command 'info io_registers' help doc first line is not terminated with a '.' character
Self test failed: self-test failed at /home/simark/src/binutils-gdb/gdb/unittests/help-doc-selftests.c:95
Add a period at the end of the doc of that command, and make it a bit
nicer in general.
gdb/ChangeLog:
* avr-tdep.c (_initialize_avr_tdep): Improve help of command
"info io_registers".
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When running the regcache::cooked_read_test selftest in an all targets
build, I get the following internal error:
/home/simark/src/binutils-gdb/gdb/thread.c:95: internal-error: thread_info* inferior_thread(): Assertion `tp' failed.
The stack trace is the followiing:
#9 0x000055fe25584a52 in internal_error (file=0x55fe27a25fe0 "/home/simark/src/binutils-gdb/gdb/thread.c", line=95, fmt=0x55fe27a25c80 "%s: Assertion `%s' failed.")
at /home/simark/src/binutils-gdb/gdb/gdbsupport/errors.c:55
#10 0x000055fe260674bc in inferior_thread () at /home/simark/src/binutils-gdb/gdb/thread.c:95
#11 0x000055fe25c62f0f in get_current_regcache () at /home/simark/src/binutils-gdb/gdb/regcache.c:372
#12 0x000055fe2594fcf1 in current_options () at /home/simark/src/binutils-gdb/gdb/mep-tdep.c:873
#13 0x000055fe2594ff08 in mep_register_name (gdbarch=0x62100056f510, regnr=152) at /home/simark/src/binutils-gdb/gdb/mep-tdep.c:958
#14 0x000055fe25950112 in mep_register_reggroup_p (gdbarch=0x62100056f510, regnum=152, group=0x55fe2924d540 <save_group>) at /home/simark/src/binutils-gdb/gdb/mep-tdep.c:1029
#15 0x000055fe2555ad87 in gdbarch_register_reggroup_p (gdbarch=0x62100056f510, regnum=152, reggroup=0x55fe2924d540 <save_group>) at /home/simark/src/binutils-gdb/gdb/gdbarch.c:3622
#16 0x000055fe25c61d45 in reg_buffer::save(gdb::function_view<register_status (int, unsigned char*)>) (this=0x7ffc61a0ed90, cooked_read=...)
at /home/simark/src/binutils-gdb/gdb/regcache.c:247
#17 0x000055fe2552ac60 in readonly_detached_regcache::readonly_detached_regcache(gdbarch*, gdb::function_view<register_status (int, unsigned char*)>) (this=0x7ffc61a0ed90,
gdbarch=0x62100056f510, cooked_read=...) at /home/simark/src/binutils-gdb/gdb/regcache.h:444
#18 0x000055fe25c61867 in readonly_detached_regcache::readonly_detached_regcache (this=0x7ffc61a0ed90, src=...) at /home/simark/src/binutils-gdb/gdb/regcache.c:212
#19 0x000055fe25c6a5ca in selftests::cooked_read_test (gdbarch=0x62100056f510) at /home/simark/src/binutils-gdb/gdb/regcache.c:1613
The problems is that mep's code ends up calling inferior_thread, which
calls find_thread_ptid. find_thread_ptid searches for a thread by ptid
in the thread list of the inferior that is expected to contain that
thread.
However, the thread list of the mock inferior set up in cooked_read_test
is never initialized. So find_thread_ptid doesn't find the thread,
which is an unexpected situation for inferior_thread.
This is failing since this commit:
080363310650c93ad8e93018bcb6760ba5d32d1c
Per-inferior thread list, thread ranges/iterators, down with ALL_THREADS, etc.
Fix it by putting the mock thread in the thread list of the mock
inferior in cooked_read_test.
gdb/ChangeLog:
* regcache.c (cooked_read_test): Initialize thread list of
mock_inferior.
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include-what-you-use reports:
../../../src/binutils-gdb/gdb/aarch64-linux-tdep.c should remove these lines:
- #include "arch-utils.h" // lines 24-24
- #include "auxv.h" // lines 48-48
- #include "cli/cli-utils.h" // lines 39-39
- #include "elf/common.h" // lines 49-49
- #include "inferior.h" // lines 35-35
Add an include for "target/target.h", otherwise target_read_memory isn't
found.
gdb/ChangeLog:
* aarch64-linux-tdep.c: Remove includes.
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include-what-you-use reports:
../../../src/binutils-gdb/gdb/aarch64-tdep.c should remove these lines:
- #include "ax.h" // lines 45-45
- #include "elf-bfd.h" // lines 52-52
- #include "elf/aarch64.h" // lines 53-53
- #include "infcall.h" // lines 44-44
- #include "inferior.h" // lines 24-24
- #include "language.h" // lines 43-43
gdb/ChangeLog:
* aarch64-tdep.c: Remove includes.
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The == and != operators on filtered_iterator are not doing the
right thing, they compare values pointed by the wrapped iterators
instead of comparing the iterators themselves.
As a result, operator== will return true if the two iterators point to
two equal values at different positions. operator!= will fail
similarly.
Also, this causes it to deference past-the-end iterators when doing.
For example, in
for (iter = ...; iter != end_iter; ++iter)
the != comparison dereferences end_iter. I don't think this should
happen.
I don't think it's a problem today, given that we only use
filtered_iterator to wrap linked lists of threads and inferiors.
Dereferencing past-the-end iterators of these types is not fatal, it
just returns NULL, which is not a value we otherwise find in the lists.
But in other contexts, it could become problematic.
I have added a simple self test that fails without the fix applied.
gdb/ChangeLog:
* filtered-iterator.h (filtered_iterator) <operator==,
operator!=>: Compare wrapped iterators, not wrapped pointers.
* Makefile.in (SUBDIR_UNITTESTS_SRCS): Add
unittests/filtered_iterator-selftests.c.
* unittests/filtered_iterator-selftests.c: New file.
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This adds a bit-field test for scalar_storage_order.
gdb/testsuite/ChangeLog
2019-12-04 Tom Tromey <tromey@adacore.com>
* gdb.base/endianity.c (struct other) <x>: New field.
(main): Initialize it.
* gdb.base/endianity.exp: Update.
Change-Id: I9e07d1b3e08e7c3384832b68ef286afe1d11479a
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A subrange type should inherit its endianity from its base type.
gdb/ChangeLog
2019-12-04 Tom Tromey <tromey@adacore.com>
* gdbtypes.c (create_range_type): Inherit endianity
from base type.
gdb/testsuite/ChangeLog
2019-12-04 Tom Tromey <tromey@adacore.com>
* gdb.ada/scalar_storage/storage.adb: New file.
* gdb.ada/scalar_storage/pck.adb: New file.
* gdb.ada/scalar_storage/pck.ads: New file.
* gdb.ada/scalar_storage.exp: New file.
Change-Id: I2998ab919dc28aeff097763c4242f9bfb90823a3
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From what I can tell, set_gdbarch_bits_big_endian has never been used.
That is, all architectures since its introduction have simply used the
default, which is simply check the architecture's byte-endianness.
Because this interferes with the scalar_storage_order code, this patch
removes this gdbarch setting entirely. In some places,
type_byte_order is used rather than the plain gdbarch.
gdb/ChangeLog
2019-12-04 Tom Tromey <tromey@adacore.com>
* ada-lang.c (decode_constrained_packed_array)
(ada_value_assign, value_assign_to_component): Update.
* dwarf2loc.c (rw_pieced_value, access_memory)
(dwarf2_compile_expr_to_ax): Update.
* dwarf2read.c (dwarf2_add_field): Update.
* eval.c (evaluate_subexp_standard): Update.
* gdbarch.c, gdbarch.h: Rebuild.
* gdbarch.sh (bits_big_endian): Remove.
* gdbtypes.h (union field_location): Update comment.
* target-descriptions.c (make_gdb_type): Update.
* valarith.c (value_bit_index): Update.
* value.c (struct value) <bitpos>: Update comment.
(unpack_bits_as_long, modify_field): Update.
* value.h (value_bitpos): Update comment.
Change-Id: I379b5e0c408ec8742f7a6c6b721108e73ed1b018
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