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At the moment, handle_sigterm() in event-top.c does the following:
sync_quit_force_run = 1;
set_quit_flag ();
This was used several more times in a later patch in this series, so
I'm introducing (at Pedro's suggestion) a new function named
'set_force_quit_flag'. It simply sets sync_quit_force_run and also
calls set_quit_flag(). I've revised the later patch to call
set_force_quit_flag instead.
I noticed that sync_quit_force_run is declared as an int but is being
used as a bool, so I also changed its type to bool in this commit.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=26761
Approved-By: Pedro Alves <pedro@palves.net>
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This commit contains changes which have an explicit throw for
gdb_exception_forced_quit, or, in a couple of cases for gdb_exception,
but with a throw following a check to see if 'reason' is
RETURN_FORCED_QUIT.
Most of these are straightforward - it made sense to continue to allow
an existing catch of gdb_exception to also catch gdb_exception_quit;
in these cases, a catch/throw for gdb_exception_forced_quit was added.
There are two cases, however, which deserve a more detailed
explanation.
1) remote_fileio_request in gdb/remote-fileio.c:
The try block calls do_remote_fileio_request which can (in turn)
call one of the functions in remote_fio_func_map[]. Taking the
first one, remote_fileio_func_open(), we have the following call
path to maybe_quit():
remote_fileio_func_open(remote_target*, char*)
-> target_read_memory(unsigned long, unsigned char*, long)
-> target_read(target_ops*, target_object, char const*, unsigned char*, unsigned long, long)
-> maybe_quit()
Since there is a path to maybe_quit(), we must ensure that the
catch block is not permitted to swallow a QUIT representing a
SIGTERM.
However, for this case, we must take care not to change the way that
Ctrl-C / SIGINT is handled; we want to send a suitable EINTR reply to
the remote target should that happen. That being the case, I added a
catch/throw for gdb_exception_forced_quit. I also did a bit of
rewriting here, adding a catch for gdb_exception_quit in favor of
checking the 'reason' code in the catch block for gdb_exception.
2) mi_execute_command in gdb/mi/mi-main.c:
The try block calls captured_mi_execute_command(); there exists
a call path to maybe_quit():
captured_mi_execute_command(ui_out*, mi_parse*)
-> mi_cmd_execute(mi_parse*)
-> get_current_frame()
-> get_prev_frame_always_1(frame_info*)
-> frame_register_unwind_location(frame_info*, int, int*, lval_type*, unsigned long*, int*)
-> frame_register_unwind(frame_info*, int, int*, int*, lval_type*, unsigned long*, int*, unsigned char*)
-> value_entirely_available(value*)
-> value_fetch_lazy(value*)
-> value_fetch_lazy_memory(value*)
-> read_value_memory(value*, long, int, unsigned long, unsigned char*, unsigned long)
-> maybe_quit()
That being the case, we can't allow the exception handler (catch block)
to swallow a gdb_exception_quit for SIGTERM. However, it does seem
reasonable to output the exception via the mi interface so that some
suitable message regarding SIGTERM might be printed; therefore, I
check the exception's 'reason' field for RETURN_FORCED_QUIT and
do a throw for this case.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=26761
Tested-by: Tom de Vries <tdevries@suse.de>
Approved-By: Pedro Alves <pedro@palves.net>
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This changes event-top.c to use std::string rather than struct buffer.
This isn't completely ideal, in that it requires a copy of the string
to be made.
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When an assert triggers in tui mode the output is not great, the
internal backtrace that is generated is printed directly to the file
descriptor for gdb_stderr, and, as a result, does not currently format
itself correctly - the output uses only '\n' at the end of each line,
and so, when the terminal is in raw mode, the cursor does not return
to the start of each line after the '\n'.
This is mostly fixable, we could update bt-utils.c to use '\r\n'
instead of just '\n', and this would fix most of the problems. The
one we can't easily fix is if/when GDB is built to use execinfo
instead of libbacktrace, in this case we use backtrace_symbols_fd to
print the symbols, and this function only uses '\n' as the line
terminator. Fixing this would require switching to backtrace_symbols,
but that API uses malloc, which is something we're trying to
avoid (this code is called when GDB hits an error, so ideally we don't
want to rely on malloc).
However, the execinfo code is only used when libbacktrace is not
available (or the user specifically disables libbacktrace) so maybe we
can ignore that problem...
... but there is another problem. When the backtrace is printed in
raw mode, it is possible that the backtrace fills the screen. With
the terminal in raw mode we don't have the ability to scroll back,
which means we loose some of the backtrace, which isn't ideal.
In this commit I propose that we should disable tui mode whenever we
handle a fatal signal, or when we hit the internal error code
path (e.g. when an assert triggers). With this done then we don't
need to update the bt-utils.c code, and the execinfo version of the
code (using backtrace_symbols_fd) works just fine. We also get the
ability to scroll back to view the error message and all of the
backtrace, assuming the users terminal supports scrolling back.
The only downside I see with this change is if the tui_disable call
itself causes an error for some reason, or, if we handle a single at a
time when it is not safe to call tui_disable, in these cases the extra
tui_disable call might cause GDB to loose the original error.
However, I think (just from personal experience) that the above two
issues are pretty rare and the benefits from this change far out
weighs the possible drawbacks.
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This commit is the result of running the gdb/copyright.py script,
which automated the update of the copyright year range for all
source files managed by the GDB project to be updated to include
year 2023.
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[I sent this earlier today, but I don't see it in the archives.
Resending it through a different computer / SMTP.]
The use of the static buffer in command_line_input is becoming
problematic, as explained here [1]. In short, with this patch [2] that
attempt to fix a post-hook bug, when running gdb.base/commands.exp, we
hit a case where we read a "define" command line from a script file
using command_command_line_input. The command line is stored in
command_line_input's static buffer. Inside the define command's
execution, we read the lines inside the define using command_line_input,
which overwrites the define command, in command_line_input's static
buffer. After the execution of the define command, execute_command does
a command look up to see if a post-hook is registered. For that, it
uses a now stale pointer that used to point to the define command, in
the static buffer, causing a use-after-free. Note that the pointer in
execute_command points to the dynamically-allocated buffer help by the
static buffer in command_line_input, not to the static object itself,
hence why we see a use-after-free.
Fix that by removing the static buffer. I initially changed
command_line_input and other related functions to return an std::string,
which is the obvious but naive solution. The thing is that some callees
don't need to return an allocated string, so this this an unnecessary
pessimization. I changed it to passing in a reference to an std::string
buffer, which the callee can use if it needs to return
dynamically-allocated content. It fills the buffer and returns a
pointers to the C string inside. The callees that don't need to return
dynamically-allocated content simply don't use it.
So, it started with modifying command_line_input as described above, all
the other changes derive directly from that.
One slightly shady thing is in handle_line_of_input, where we now pass a
pointer to an std::string's internal buffer to readline's history_value
function, which takes a `char *`. I'm pretty sure that this function
does not modify the input string, because I was able to change it (with
enough massaging) to take a `const char *`.
A subtle change is that we now clear a UI's line buffer using a
SCOPE_EXIT in command_line_handler, after executing the command.
This was previously done by this line in handle_line_of_input:
/* We have a complete command line now. Prepare for the next
command, but leave ownership of memory to the buffer . */
cmd_line_buffer->used_size = 0;
I think the new way is clearer.
[1] https://inbox.sourceware.org/gdb-patches/becb8438-81ef-8ad8-cc42-fcbfaea8cddd@simark.ca/
[2] https://inbox.sourceware.org/gdb-patches/20221213112241.621889-1-jan.vrany@labware.com/
Change-Id: I8fc89b1c69870c7fc7ad9c1705724bd493596300
Reviewed-By: Tom Tromey <tom@tromey.com>
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This commit removes the global functions pop_all_targets,
pop_all_targets_above, and pop_all_targets_at_and_above, and makes
them methods on the inferior class.
As the pop_all_targets functions will unpush each target, which
decrements the targets reference count, it is possible that the target
might be closed.
Right now, closing a target, in some cases, depends on the current
inferior being set correctly, that is, to the inferior from which the
target was popped.
To facilitate this I have used switch_to_inferior_no_thread within the
new methods. Previously it was the responsibility of the caller to
ensure that the correct inferior was selected.
In a couple of places (event-top.c and top.c) I have been able to
remove a previous switch_to_inferior_no_thread call.
In remote_unpush_target (remote.c) I have left the
switch_to_inferior_no_thread call as it is required for the
generic_mourn_inferior call.
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As Hannes pointed out, the Windows target-async patches broke C-c
handling there. Looking into this, I found a few oddities, fixed
here.
First, windows_nat_target::interrupt calls GenerateConsoleCtrlEvent.
I think this event can be ignored by the inferior, so it's not a great
way to interrupt. Instead, using DebugBreakProcess (or a more
complicated thing for Wow64) seems better.
Second, windows_nat_target did not implement the pass_ctrlc method.
Implementing this lets us remove the special code to call
SetConsoleCtrlHandler and instead integrate into gdb's approach to C-c
handling. I believe that this should also fix the race that's
described in the comment that's being removed.
Initially, I thought a simpler version of this patch would work.
However, I think what happens is that some other library (I'm not sure
what) calls SetConsoleCtrlHandler while gdb is running, and this
intercepts and handles C-c -- so that the gdb SIGINT handler is not
called. C-break continues to work, presumably because whatever
handler is installed ignores it.
This patch works around this issue by ensuring that the gdb handler
always comes first.
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Currently, every internal_error call must be passed __FILE__/__LINE__
explicitly, like:
internal_error (__FILE__, __LINE__, "foo %d", var);
The need to pass in explicit __FILE__/__LINE__ is there probably
because the function predates widespread and portable variadic macros
availability. We can use variadic macros nowadays, and in fact, we
already use them in several places, including the related
gdb_assert_not_reached.
So this patch renames the internal_error function to something else,
and then reimplements internal_error as a variadic macro that expands
__FILE__/__LINE__ itself.
The result is that we now should call internal_error like so:
internal_error ("foo %d", var);
Likewise for internal_warning.
The patch adjusts all calls sites. 99% of the adjustments were done
with a perl/sed script.
The non-mechanical changes are in gdbsupport/errors.h,
gdbsupport/gdb_assert.h, and gdb/gdbarch.py.
Approved-By: Simon Marchi <simon.marchi@efficios.com>
Change-Id: Ia6f372c11550ca876829e8fd85048f4502bdcf06
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I noticed that stdin_event_handler is only used in event-top.c, so
this patch changes it to be 'static'.
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In completion tests in various test-cases, we've been running into these
"clearing input line" timeouts:
...
(gdb) $cmd^GPASS: gdb.gdb/unittest.exp: tab complete "$cmd"
FAIL: gdb.gdb/unittest.exp: tab complete "$cmd" (clearing input line) (timeout)
...
where $cmd == "maintenance selftest name_that_does_not_exist".
AFAIU, the following scenario happens:
- expect sends "$cmd\t"
- gdb detects the stdin event, and calls rl_callback_read_char until it
comes to handle \t
- readline interprets the \t as completion, tries to complete, fails to do so,
outputs a bell (^G)
- expect sees the bell, and proceeds to send ^C
- readline is still in the call to rl_callback_read_char, and stores the
signal in _rl_caught_signal
- readline returns from the call to rl_callback_read_char, without having
handled _rl_caught_signal
- gdb goes to wait for the next event
- expect times out waiting for "Quit", the expected reaction for ^C
Fix this by handling pending signals after each call to rl_callback_read_char.
The fix is only available for readline 8.x, if --with-system-readline provides
an older version, then the fix is disabled due to missing function
rl_check_signals.
Tested on x86_64-linux.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=27813
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PR mi/10347 points out that using interpreter-exec inside of a
"define" command will crash gdb. The bug here is that
gdb_setup_readline doesn't check for the case where instream==nullptr.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=10347
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gdb_setup_readline makes new streams and assigns to the various stream
members of struct ui. However, these assignments cause the previous
values to leak. As far as I can, this code is simply unnecessary and
can be removed -- with the exception of the assignment to gdb_stdtarg,
which is not initialized anywhere else.
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A few spots setting some gdb output stream variables have a "for
moment" comment. These comments aren't useful and I think the moment
has passed -- these are permanent now.
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This patch removes some dead code and an old FIXME. These no longer
seem useful, even for documentation purposes.
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This changes gdb so that, if ui::input_fd is set to -1, then it will
not be registered with the event loop. This is useful for the DAP
support code I wrote, but as it turns out to also be useful to
Insight, it seems best to check it in separately.
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This replaces the global input_interactive_p function with a new
method ui::input_interactive_p.
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This patch removes ui_register_input_event_handler and
ui_unregister_input_event_handler, replacing them with methods on
'ui'. It also changes gdb to use these methods everywhere, rather
than sometimes reaching in to the ui to manage the file descriptor
directly.
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After this commit:
commit d08cbc5d3203118da5583296e49273cf82378042
Date: Wed Dec 22 12:57:44 2021 +0000
gdb: unbuffer all input streams when not using readline
Issues were reported with some MS-Windows hosts, see the thread
starting here:
https://sourceware.org/pipermail/gdb-patches/2022-March/187004.html
Filed in bugzilla as: PR mi/29002
The problem seems to be that calling setbuf on terminal file handles
is not always acceptable, see this mail for more details:
https://sourceware.org/pipermail/gdb-patches/2022-April/187310.html
This commit does two things, first moving the setbuf calls out of
gdb_readline_no_editing_callback so that we don't end up calling
setbuf so often.
Then, for MS-Windows hosts, we don't call setbuf for terminals, this
appears to resolve the issues that have been reported.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=29002
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This commit replaces an earlier commit that worked around the issues
reported in bug PR gdb/28833.
The previous commit just implemented a work around in order to avoid
the worst results of the bug, but was not a complete solution. The
full solution was considered too risky to merge close to branching GDB
12. This improved fix has been applied after GDB 12 branched. See
this thread for more details:
https://sourceware.org/pipermail/gdb-patches/2022-March/186391.html
This commit replaces this earlier commit:
commit 74a159a420d4b466cc81061c16d444568e36740c
Date: Fri Mar 11 14:44:03 2022 +0000
gdb: work around prompt corruption caused by bracketed-paste-mode
Please read that commit for a full description of the bug, and why is
occurs.
In this commit I extend GDB to use readline's rl_deprep_term_function
hook to call a new function gdb_rl_deprep_term_function. From this
new function we can now print the 'quit' message, this replaces the
old printing of 'quit' in command_line_handler. Of course, we only
print 'quit' in gdb_rl_deprep_term_function when we are handling EOF,
but thanks to the previous commit (to readline) we now know when this
is.
There are two aspects of this commit that are worth further
discussion, the first is in the new gdb_rl_deprep_term_function
function. In here I have used a scoped_restore_tmpl to disable the
readline global variable rl_eof_found.
The reason for this is that, in rl_deprep_terminal, readline will
print an extra '\n' character before printing the escape sequence to
leave bracketed paste mode. You might then think that in the
gdb_rl_deprep_term_function function, we could simply print "quit" and
rely on rl_deprep_terminal to print the trailing '\n'. However,
rl_deprep_terminal only prints the '\n' when bracketed paste mode is
on. If the user has turned this feature off, no '\n' is printed.
This means that in gdb_rl_deprep_term_function we need to print
"quit" when bracketed paste mode is on, and "quit\n" when bracketed
paste mode is off.
We could absolutely do that, no problem, but given we know how
rl_deprep_terminal is implemented, it's easier (I think) to just
temporarily clear rl_eof_found, this prevents the '\n' being printed
from rl_deprep_terminal, and so in gdb_rl_deprep_term_function, we can
now always print "quit\n" and this works for all cases.
The second issue that should be discussed is backwards compatibility
with older versions of readline. GDB can be built against the system
readline, which might be older than the version contained within GDB's
tree. If this is the case then the system readline might not contain
the fixes needed to support correctly printing the 'quit' string.
To handle this situation I have retained the existing code in
command_line_handler for printing 'quit', however, this code is only
used now if the version of readline we are using doesn't not include
the required fixes. And so, if a user is using an older version of
readline, and they have bracketed paste mode on, then they will see
the 'quit' sting printed on the line below the prompt, like this:
(gdb)
quit
I think this is the best we can do when someone builds GDB against an
older version of readline.
Using a newer version of readline, or the patched version of readline
that is in-tree, will now give a result like this in all cases:
(gdb) quit
Which is what we want.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=28833
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In this commit:
commit a6b413d24ccc5d76179bab866834e11fd6fec294
Date: Fri Mar 11 14:44:03 2022 +0000
gdb: work around prompt corruption caused by bracketed-paste-mode
a change was made to GDB to work around bug PR gdb/28833. The
consequence of this work around is that, when bracketed paste mode is
enabled in readline, and GDB is quit by sending EOF, then the output
will look like this:
(gdb)
quit
The ideal output, which is what we get when bracketed paste mode is
off, is this:
(gdb) quit
The reason we need to make this change is explained in the original
commit referenced above. What isn't mentioned in the above commit, is
that the change that motivated this work around was only added in
readline 8, older versions of readline don't require the change.
In later commits in this series I will add a fix to GDB's in-tree copy
of readline (this fix is back-ported from upstream readline), and then
I will change GDB so that, when using the (patched) in-tree readline,
we can have the ideal output in all cases.
However, GDB can be built against the system readline. When this is
done, and the system readline is version 8, then we will still have to
use the work around (two line) style output.
But, if GDB is built against the system readline, and the system
readline is an older version 7 readline, then there's no reason why we
can't have the ideal output, after all, readline 7 doesn't include the
change that we need to work around.
This commit changes GDB so that, when using readline 7 we get the
ideal output in all cases. This change is trivial (a simple check
against the readline version number) so I think this should be fine to
include.
For testing this commit, you need to configure GDB including the
'--with-system-readline' flag, and build GDB on a system that uses
readline 7, for example 'Ubuntu 18.04'. Then run the test
'gdb.base/eof-exit.exp', you should expect everything to PASS.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=28833
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Now that filtered and unfiltered output can be treated identically, we
can unify the printf family of functions. This is done under the name
"gdb_printf". Most of this patch was written by script.
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Now that filtered and unfiltered output can be treated identically, we
can unify the puts family of functions. This is done under the name
"gdb_puts". Most of this patch was written by script.
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This rewrites the output pager as a ui_file implementation.
A new header is introduced to declare the pager class. The
implementation remains in utils.c for the time being, because there
are some static globals there that must be used by this code. (This
could be cleaned up at some future date.)
I went through all the text output in gdb to ensure that this change
should be ok. There are a few cases:
* Any existing call to printf_unfiltered is required to be avoid the
pager. This is ensured directly in the implementation.
* All remaining calls to the f*_unfiltered functions -- the ones that
take an explicit ui_file -- either send to an unfiltered stream
(e.g., gdb_stderr), which is obviously ok; or conditionally send to
gdb_stdout
I investigated all such calls by searching for:
grep -e '\bf[a-z0-9_]*_unfiltered' *.[chyl] */*.[ch] | grep -v gdb_stdlog | grep -v gdb_stderr
This yields a number of candidates to check.
* The breakpoint _print_recreate family, and
save_trace_state_variables. These are used for "save" commands
and so are fine.
* Things printing to a temporary stream. Obviously ok.
* Disassembly selftests.
* print_gdb_help - this is non-obvious, but ok because paging isn't
yet enabled at this point during startup.
* serial.c - doens't use gdb_stdout
* The code in compile/. This is all printing to a file.
* DWARF DIE dumping - doesn't reference gdb_stdout.
* Calls to the _filtered form -- these are all clearly ok, because if
they are using gdb_stdout, then filtering will still apply; and if
not, then filtering never applied and still will not.
Therefore, at this point, there is no longer any distinction between
all the other _filtered and _unfiltered calls, and they can be
unified.
In this patch, take special note of the vfprintf_maybe_filtered and
ui_file::vprintf change. This is one instance of the above idea,
erasing the distinction between filtered and unfiltered -- in this
part of the change, the "unfiltered_output" flag is never passe to
cli_ui_out. Subsequent patches will go much further in this
direction.
Also note the can_emit_style_escape changes in ui-file.c. Checking
against gdb_stdout or gdb_stderr was always a bit of a hack; and now
it is no longer needed, because this is decision can be more fully
delegated to the particular ui_file implementation.
ui_file::can_page is removed, because this patch removed the only call
to it.
I think this is the main part of fixing PR cli/7234.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=7234
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At the end of this series, the use of unfiltered output will be very
restricted -- only places that definitely need it will use it. To
this end, I thought it would be good to reduce the number of
_unfiltered APIs that are exposed. This patch changes gdb so that
only printf_unfiltered exists. (After this patch, the f* variants
still exist as well, but those will be removed later.)
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Currently, timestamps for logging are done by looking for the use of
gdb_stdlog in vfprintf_unfiltered. This seems potentially buggy, in
that during logging or other redirects (like execute_fn_to_ui_file) we
might have gdb_stdout==gdb_stdlog and so, conceivably, wind up with
timestamps in a log when they were not desired.
It seems better, instead, for timestamps to be a property of the
ui_file itself.
This patch changes gdb to use the new timestamped_file for gdb_stdlog
where appropriate, and removes the special case from
vfprintf_unfiltered.
Note that this may somewhat change the output in some cases -- in
particular, when going through execute_fn_to_ui_file (or the _string
variant), timestamps won't be emitted. This could be fixed in those
functions, but it wasn't clear to me whether this is really desirable.
Note also that this changes the TUI to send gdb_stdlog to gdb_stderr.
I imagine that the previous use of gdb_stdout here was inadvertent.
(And in any case it probably doesn't matter.)
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In this commit:
commit b4f26d541aa7224b70d363932e816e6e1a857633
Date: Tue Mar 2 13:42:37 2021 -0700
Import GNU Readline 8.1
We imported readline 8.1 into GDB. As a consequence bug PR cli/28833
was reported. This bug spotted that, when the user terminated GDB by
sending EOF (usually bound to Ctrl+d), the last prompt would become
corrupted. Here's what happens, the user is sat at a prompt like
this:
(gdb)
And then the user sends EOF (Ctrl+d), we now see this:
quit)
... gdb terminates, and we return to the shell ...
Notice the 'quit' was printed over the prompt.
This problem is a result of readline 8.1 enabling bracketed paste mode
by default. This problem is present in readline 8.0 too, but in that
version of readline bracketed paste mode is off by default, so a user
will not see the bug unless they specifically enable the feature.
Bracketed paste mode is available in readline 7.0 too, but the bug
is not present in this version of readline, see below for why.
What causes this problem is how readline disables bracketed paste
mode. Bracketed paste mode is a terminal feature that is enabled and
disabled by readline emitting a specific escape sequence. The problem
for GDB is that the escape sequence to disable bracketed paste mode
includes a '\r' character at the end, see this thread for more
details:
https://lists.gnu.org/archive/html/bug-bash/2018-01/msg00097.html
The change to add the '\r' character to the escape sequence used to
disable bracketed paste mode was introduced between readline 7.0 and
readline 8.0, this is why the bug would not occur when using older
versions of readline (note: I don't know if its even possible to build
GDB using readline 7.0. That really isn't important, I'm just
documenting the history of this issue).
So, the escape sequence to disable bracketed paste mode is emitted
from the readline function rl_deprep_terminal, this is called after
the user has entered a complete command and pressed return, or, if the
user sends EOF.
However, these two cases are slightly different. In the first case,
when the user has entered a command and pressed return, the cursor
will have moved to the next, empty, line, before readline emits the
escape sequence to leave bracketed paste mode. The final '\r'
character moves the cursor back to the beginning of this empty line,
which is harmless.
For the EOF case though, this is not what happens. Instead, the
escape sequence to leave bracketed paste mode is emitted on the same
line as the prompt. The final '\r' moves the cursor back to the start
of the prompt line. This leaves us ready to override the prompt.
It is worth noting, that this is not the intended behaviour of
readline, in rl_deprep_terminal, readline should emit a '\n' character
when EOF is seen. However, due to a bug in readline this does not
happen (the _rl_eof_found flag is never set). This is the first
readline bug that effects GDB.
GDB prints the 'quit' message from command_line_handler (in
event-top.c), this function is called (indirectly) from readline to
process the complete command line, but also in the EOF case (in which
case the command line is set to nullptr). As this is part of the
callback to process a complete command, this is called after readline
has disabled bracketed paste mode (by calling rl_deprep_terminal).
And so, when bracketed paste mode is in use, rl_deprep_terminal leaves
the cursor at the start of the prompt line (in the EOF case), and
command_line_handler then prints 'quit', which overwrites the prompt.
The solution to this problem is to print the 'quit' message earlier,
before rl_deprep_terminal is called. This is easy to do by using the
rl_deprep_term_function hook. It is this hook that usually calls
rl_deprep_terminal, however, if we replace this with a new function,
we can print the 'quit' string, and then call rl_deprep_terminal
ourselves. This allows the 'quit' to be printed before
rl_deprep_terminal is called.
The problem here is that there is no way in rl_deprep_terminal to know
if readline is processing EOF or not, and as a result, we don't know
when we should print 'quit'. This is the second readline bug that
effects GDB.
Both of these readline issues are discussed in this thread:
https://lists.gnu.org/archive/html/bug-readline/2022-02/msg00021.html
The result of that thread was that readline was patched to address
both of these issues.
Now it should be easy to backport the readline fix to GDB's in tree
copy of readline, and then change GDB to make use of these fixes to
correctly print the 'quit' string.
However, we are just about to branch GDB 12, and there is concern from
some that changing readline this close to a new release is a risky
idea, see this thread:
https://sourceware.org/pipermail/gdb-patches/2022-March/186391.html
So, this commit doesn't change readline at all. Instead, this commit
is the smallest possible GDB change in order to avoid the prompt
corruption.
In this commit I change GDB to print the 'quit' string on the line
after the prompt, but only when bracketed paste mode is on. This
avoids the overwriting issue, the user sees this:
(gdb)
quit
... gdb terminates, and returns to the shell ...
This isn't ideal, but is better than the existing behaviour. After
GDB 12 has branched, we can backport the readline fix, and apply a
real fix to GDB.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=28833
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Simple int to bool conversion on callback_handler_installed in
event-top.c. There should be no user visible changes after this
commit.
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This commit should fix PR gdb/28711. What's actually going on is
pretty involved, and there's still a bit of the story that I don't
understand completely, however, from my observed results, I think that
the change I propose making here (or something very similar) is going
to be needed.
The original bug report involves using eclipse to drive gdb using mi
commands. A separate tty is spun off in which to send gdb the mi
commands, this tty is created using the new-ui command.
The behaviour observed is that, given a particular set of mi commands
being sent to gdb, we sometimes see an ESPIPE error from a lseek
call, which ultimately results in gdb terminating.
The problems all originate from gdb_readline_no_editing_callback in
gdb/event-top.c, where we can (sometimes) perform calls to fgetc, and
allow glibc to perform buffering on the FILE object being used.
I say sometime, because, gdb_readline_no_editing_callback already
includes a call to disable the glibc buffering, but this is only done
if the input stream is not a tty. In our case the input stream is a
tty, so the buffering is left in place.
The first step to understanding why this problem occurs is to
understand that eclipse sends multiple commands to gdb very quickly
without waiting for and answer to each command, eclipse plans to
collect all of the command results after sending all the commands to
gdb. In fact, eclipse sends the commands to gdb that they appear to
arrive in the gdb process as a single block of data. When reproducing
this issue within the testsuite I find it necessary to send multiple
commands using a single write call.
The next bit of the story gets a little involved, and this is where my
understanding is not complete. I can describe the behaviour that I
observe, and (for me at least) I'm happy that what I'm seeing, if a
little strange, is consistent. In order to fully understand what's
going on I think I would likely need to dive into kernel code, which
currently seems unnecessary given that I'm happy with the solution I'm
proposing.
The following description all relates to input from a tty in which I'm
not using readline. I see the same problems either when using a
new-ui tty, or with gdb's standard, non-readline, mi tty.
Here's what I observe happening when I send multiple commands to gdb
using a single write, if I send gdb this:
command_1\ncommand_2\ncommand_3
then gdb's event loop will wake up (from its select) as it sees there
is input available. We call into gdb_readline_no_editing_callback,
where we call fgetc, glibc will do a single big read, and get back
just:
command_1\n
that is, despite there being multiple lines of input available, I
consistently get just a single line. From glibc a single character is
returned from the fgetc call, and within gdb we accumulate characters,
one at a time, into our own buffer. Eventually gdb sees the '\n'
character, and dispatches the whole 'command_1' into gdb's command
handler, which processes the command and prints the result. We then
return to gdb_readline_no_editing_callback, which in turn returns to
gdb's event loop where we re-enter the select.
Inside the select we immediately see that there is more input waiting
on the input stream, drop out of the select, and call back into
gdb_readline_no_editing_callback. In this function we again call
fgetc where glibc performs another big read. This time glibc gets:
command_2\n
that is, we once again get just a single line, despite there being a
third line available. Just like the first command we copy the whole
string, character by character into gdb's buffer, then handle the
command. After handling the command we go to the event loop, enter,
and then exit the select, and call back to the function
gdb_readline_no_editing_callback.
In gdb_readline_no_editing_callback we again call fgetc, this time
glibc gets the string:
command_3\n
like before, we copy this to gdb's buffer and handle the command, then
we return to the event loop. At this point the select blocks while we
wait for more input to arrive.
The important bit of this is that someone, somewhere is, it appears,
taking care to split the incoming write into lines.
My next experiment is to try something like:
this_is_a_very_long_command\nshort_command\n
However, I actually make 'this_is_a_very_long_command' very long, as
in many hundreds of characters long. One way to do this is:
echo xxxxxx.....xxxxx
and just adding more and more 'x' characters as needed. What I'm
aiming for is to have the first command be longer than glibc's
internal read buffer, which, on my machine, is 1024 characters.
However, for this discussion, lets imagine that glibc's buffer is just
8 characters (we can create just this situation by adding a suitable
setbuf call into gdb_readline_no_editing_callback).
Now, if I send gdb this data:
abcdefghij\nkl\n
The first read from glibc will get 'abcdefgh', that is a full 8
character buffer. Once gdb has copied these to its buffer we call
fgetc again, and now glibc will get 'ij\n', that is, just like before,
multiple lines are split at the '\n' character. The full command,
which is now in gdb's buffer can be handled 'abcdefghij', after which
we go (via the event loop) back to gdb_readline_no_editing_callback.
Now we call fgetc, and glibc will get 'kl\n', which is then handled in
the normal way.
So far, so good. However, there is, apparently, one edge case where
the above rules don't apply.
If the '\n' character is the first character read from the kernel,
then the incoming lines are not split up. So, given glibc's 8
character buffer, if I send gdb this:
abcdefgh\nkl\n
that is the first command is 8 characters plus a newline, then, on the
first read (from within glibc) we get 'abcdefgh' in a single buffer.
As there's no newline gdb calls fgetc again, and glibc does another
large read, now we get:
\nkl\n
which doesn't follow the above pattern - the lines are not split into
separate buffers!
So, gdb reads the first character from glibc using fgetc, this is the
newline. Now gdb has a complete command, and so the command is
handled. We then return to the event loop and enter the select.
The problem is that, as far as the kernel is concerned, there is no
more input pending, it's all been read into glibc's buffer, and so the
select doesn't return. The second command is basically stuck in
glibc's buffer.
If I send another command to gdb, or even just send an empty
command (a lone newline) then the select returns, we call into
gdb_readline_no_editing_callback, and now gdb sees the second
command.
OK, so the above is interesting, but it doesn't explain the ESPIPE
error.
Well, that's a slightly different, but related issue. The ESPIPE
case will _only_ show up when using new-ui to create the separate tty
for mi commands, and is a consequence of this commit:
commit afe09f0b6311a4dd1a7e2dc6491550bb228734f8
Date: Thu Jul 18 17:20:04 2019 +0100
Fix for using named pipes on Windows
Prior to this commit, the new-ui command would open the tty three
times, once each for stdin, stderr, and stdout. After this commit we
open the tty just once and reuse the FILE object for all three roles.
Consider the problem case, where glibc has (unexpectedly) read the
second command into its internal buffer. When we handle the first
command we usually end up having to write something to the mi output
stream.
After the above commit the same FILE object represents both the input
and output streams, so, when gdb tries to write to the FILE object,
glibc spots that there is input pending within the input buffer, and
so assumes that we have read ahead of where we should be in the input
file. To correct for this glibc tries to do an lseek call to
reposition the file offset of the output stream prior to writing to
it. However, as the output stream is a tty, and seeking is not
supported on a tty, this lseek call fails, this results in the ESPIPE,
which ultimately causes gdb to terminate.
So, now we understand why the ESPIPE triggers (which was what caused
the gdb crash in the original bug report), and we also understand that
sometime gdb will not handle the second command in a timely
fashion (if the first command is just the wrong length). So, what to
do about all this?
We could revert the commit mentioned above (and implement its
functionality another way). This would certainly resolve the ESPIPE
issue, the buffered input would now only be on the input stream, the
output stream would have no buffered input, and so glibc would never
try to lseek, and so we'd never get the ESPIPE error.
However, this only solves one of the two problems. We would still
suffer from the problem where, if the first command is just the wrong
length, the second command will not (immediately) get handled.
The only solution I can see to this problem is to unbuffer the input
stream. If glibc is not buffering the input, but instead, we read
incoming data character by character from the kernel, then everything
will be fine. As soon as we see the newline at the end of the first
command we will handle the first command. As glibc will have no
buffered input it will not be tempted to lseek, so no ESPIPE error.
When we go have to the event loop there will be more data pending in
the kernel, so the select will immediately return, and the second
command will be processed.
I'm tempted to suggest that we should move the unbuffering of the
input stream out of gdb_readline_no_editing_callback and do it
somewhere earlier, more like when we create the input streams.
However, I've not done that in this commit for a couple of reasons:
1. By keeping the unbuffering in gdb_readline_no_editing_callback
I'm making the smallest possible change that fixes the bug. Moving
the unbuffering somewhere better can be done as a refactor later, if
that 's felt to be important,
2. I don't think making repeated calls to unbuffer the input will
have that much performance impact. We only make the unbuffer call
once per call to gdb_readline_no_editing_callback, and, if the input
stream is already unbuffered we'll return pretty quickly, so I don't
see this as being massively costly,
3. Tom is currently doing lots of gdb stream management changes and
I want to minimise the chances we'll conflict.
So, this commit just changes gdb_readline_no_editing_callback to
always unbuffer the input stream.
The test for this issue sends two commands in a loop, with the first
command growing bigger each time around the loop. I actually make the
first command bigger by just adding whitespace to the front, as gdb
still has to read the complete command (including whitespace) via
glibc, so this is enough to trigger the bug.
The original bug was reported when using a virtual machine, and in
this situation we see this in the strace output:
read(9, "70-var-info-path-expression var1.aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa", 1024) = 64
read(9, "\n71-var-info-path-expression var1.aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa\n", 1024) = 67
I'm not completely sure what's going on here, but it appears that the
kernel on the virtual machine is delivering the input to glibc slower
than I see on my real hardware; glibc asks for 1024 bytes, but only
gets 64 bytes the first time. In the second read we see the problem
case, the first character is the newline, but then the entire second
command is included.
If I run this exact example on my real hardware then the first command
would not be truncated at 64 bytes, instead, I'd expect to see the
newline included in the first read, with the second command split into
a second read.
So, for testing, I check cases where the first command is just a few
characters (starting at 8 character), all the way up to 2048
characters. Hopefully, this should mean we hit the problem case for
most machine setups.
The only last question relates to commit afe09f0b6311a4d that I
mentioned earlier. That commit was intended to provide support for
Microsoft named pipes:
https://docs.microsoft.com/en-us/windows/win32/ipc/named-pipes
I know next to nothing about this topic beyond a brief scan of the
above link, but I think these windows named pipe are closer in
behaviour to unix sockets than to unix named fifos.
I am a little nervous that, after the above commit, we now use the
same FILE for in, err, and out streams. In contrast, in a vanilla C
program, I would expect different FILE objects for each stream.
Still, I'm reluctant to revert the above commit (and provide the same
functionality a different way) without a specific bug to point at,
and, now that the streams are unbuffered, I expect a lot of the read
and write calls are going straight to the kernel with minimal glibc
involvement, so maybe it doesn't really matter. Anyway, I haven't
touched the above patch, but it is something to keep in mind when
working in this area.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=28711
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In an earlier version of the pager rewrite series, it was important to
audit unfiltered output calls to see which were truly necessary.
This is no longer necessary, but it still seems like a decent cleanup
to change calls to avoid explicitly passing gdb_stdout. That is,
rather than using something like fprintf_unfiltered with gdb_stdout,
the code ought to use plain printf_unfiltered instead.
This patch makes this change. I went ahead and converted all the
_filtered calls I could find, as well, for the same clarity.
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This changes some code to send some error messages to gdb_stderr
rather than gdb_stdout.
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This commit brings all the changes made by running gdb/copyright.py
as per GDB's Start of New Year Procedure.
For the avoidance of doubt, all changes in this commits were
performed by the script.
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String-like settings (var_string, var_filename, var_optional_filename,
var_string_noescape) currently take a pointer to a `char *` storage
variable (typically global) that holds the setting's value. I'd like to
"mordernize" this by changing them to use an std::string for storage.
An obvious reason is that string operations on std::string are often
easier to write than with C strings. And they avoid having to do any
manual memory management.
Another interesting reason is that, with `char *`, nullptr and an empty
string often both have the same meaning of "no value". String settings
are initially nullptr (unless initialized otherwise). But when doing
"set foo" (where `foo` is a string setting), the setting now points to
an empty string. For example, solib_search_path is nullptr at startup,
but points to an empty string after doing "set solib-search-path". This
leads to some code that needs to check for both to check for "no value".
Or some code that converts back and forth between NULL and "" when
getting or setting the value. I find this very error-prone, because it
is very easy to forget one or the other. With std::string, we at least
know that the variable is not "NULL". There is only one way of
representing an empty string setting, that is with an empty string.
I was wondering whether the distinction between NULL and "" would be
important for some setting, but it doesn't seem so. If that ever
happens, it would be more C++-y and self-descriptive to use
optional<string> anyway.
Actually, there's one spot where this distinction mattered, it's in
init_history, for the test gdb.base/gdbinit-history.exp. init_history
sets the history filename to the default ".gdb_history" if it sees that
the setting was never set - if history_filename is nullptr. If
history_filename is an empty string, it means the setting was explicitly
cleared, so it leaves it as-is. With the change to std::string, this
distinction doesn't exist anymore. This can be fixed by moving the code
that chooses a good default value for history_filename to
_initialize_top. This is ran before -ex commands are processed, so an
-ex command can then clear that value if needed (what
gdb.base/gdbinit-history.exp tests).
Another small improvement, in my opinion is that we can now easily
give string parameters initial values, by simply initializing the global
variables, instead of xstrdup-ing it in the _initialize function.
In Python and Guile, when registering a string-like parameter, we
allocate (with new) an std::string that is owned by the param_smob (in
Guile) and the parmpy_object (in Python) objects.
This patch started by changing all relevant add_setshow_* commands to
take an `std::string *` instead of a `char **` and fixing everything
that failed to build. That includes of course all string setting
variable and their uses.
string_option_def now uses an std::string also, because there's a
connection between options and settings (see
add_setshow_cmds_for_options).
The add_path function in source.c is really complex and twisted, I'd
rather not try to change it to work on an std::string right now.
Instead, I added an overload that copies the std:string to a `char *`
and back. This means more copying, but this is not used in a hot path
at all, so I think it is acceptable.
Change-Id: I92c50a1bdd8307141cdbacb388248e4e4fc08c93
Co-authored-by: Lancelot SIX <lsix@lancelotsix.com>
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GDB recently gained the ability to print a backtrace when a fatal
signal is encountered. This backtrace is produced using the backtrace
and backtrace_symbols_fd API available in glibc.
However, in order for this API to actually map addresses to symbol
names it is required that the application (GDB) be compiled with
-rdynamic, which GDB is not by default.
As a result, the backtrace produced often looks like this:
Fatal signal: Bus error
----- Backtrace -----
./gdb/gdb[0x80ec00]
./gdb/gdb[0x80ed56]
/lib64/libc.so.6(+0x3c6b0)[0x7fc2ce1936b0]
/lib64/libc.so.6(__poll+0x4f)[0x7fc2ce24da5f]
./gdb/gdb[0x15495ba]
./gdb/gdb[0x15489b8]
./gdb/gdb[0x9b794d]
./gdb/gdb[0x9b7a6d]
./gdb/gdb[0x9b943b]
./gdb/gdb[0x9b94a1]
./gdb/gdb[0x4175dd]
/lib64/libc.so.6(__libc_start_main+0xf3)[0x7fc2ce17e1a3]
./gdb/gdb[0x4174de]
---------------------
This is OK if you have access to the exact same build of GDB, you can
manually map the addresses back to symbols, however, it is next to
useless if all you have is a backtrace copied into a bug report.
GCC uses libbacktrace for printing a backtrace when it encounters an
error. In recent commits I added this library into the binutils-gdb
repository, and in this commit I allow this library to be used by
GDB. Now (when GDB is compiled with debug information) the backtrace
looks like this:
----- Backtrace -----
0x80ee08 gdb_internal_backtrace
../../src/gdb/event-top.c:989
0x80ef0b handle_fatal_signal
../../src/gdb/event-top.c:1036
0x7f24539dd6af ???
0x7f2453a97a5f ???
0x154976f gdb_wait_for_event
../../src/gdbsupport/event-loop.cc:613
0x1548b6d _Z16gdb_do_one_eventv
../../src/gdbsupport/event-loop.cc:237
0x9b7b02 start_event_loop
../../src/gdb/main.c:421
0x9b7c22 captured_command_loop
../../src/gdb/main.c:481
0x9b95f0 captured_main
../../src/gdb/main.c:1353
0x9b9656 _Z8gdb_mainP18captured_main_args
../../src/gdb/main.c:1368
0x4175ec main
../../src/gdb/gdb.c:32
---------------------
Which seems much more useful.
Use of libbacktrace is optional. If GDB is configured with
--disable-libbacktrace then the libbacktrace directory will not be
built, and GDB will not try to use this library. In this case GDB
would try to use the old backtrace and backtrace_symbols_fd API.
All of the functions related to writing the backtrace of GDB itself
have been moved into the new files gdb/by-utils.{c,h}.
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Register handlers for SIGBUS, SIGFPE, and SIGABRT. All of these
signals are setup as fatal signals that will cause GDB to terminate.
However, by passing these signals through the handle_fatal_signal
function, a user can arrange to see a backtrace when GDB
terminates (see maint set backtrace-on-fatal-signal).
In normal use of GDB there should be no user visible changes after
this commit. Only if GDB terminates with one of the above signals
will GDB change slightly, potentially printing a backtrace before
aborting.
I've added new tests for SIGFPE, SIGBUS, and SIGABRT.
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This commit adds a new maintenance feature, the ability to print
a (limited) backtrace if GDB dies due to a fatal signal.
The backtrace is produced using the backtrace and backtrace_symbols_fd
functions which are declared in the execinfo.h header, and both of
which are async signal safe. A configure check has been added to
check for these features, if they are not available then the new code
is not compiled into GDB and the backtrace will not be printed.
The motivation for this new feature is to aid in debugging GDB in
situations where GDB has crashed at a users site, but the user is
reluctant to share core files, possibly due to concerns about what
might be in the memory image within the core file. Such a user might
be happy to share a simple backtrace that was written to stderr.
The production of the backtrace is on by default, but can switched off
using the new commands:
maintenance set backtrace-on-fatal-signal on|off
maintenance show backtrace-on-fatal-signal
Right now, I have hooked this feature in to GDB's existing handling of
SIGSEGV only, but this will be extended to more signals in a later
commit.
One additional change I have made in this commit is that, when we
decide GDB should terminate due to the fatal signal, we now
raise the same fatal signal rather than raising SIGABRT.
Currently, this is only effecting our handling of SIGSEGV. So,
previously, if GDB hit a SEGV then we would terminate GDB with a
SIGABRT. After this commit we will terminate GDB with a SIGSEGV.
This feels like an improvement to me, we should still get a core dump,
but in many shells, the user will see a more specific message once GDB
exits, in bash for example "Segmentation fault" rather than "Aborted".
Finally then, here is an example of the output a user would see if GDB
should hit an internal SIGSEGV:
Fatal signal: Segmentation fault
----- Backtrace -----
./gdb/gdb[0x8078e6]
./gdb/gdb[0x807b20]
/lib64/libpthread.so.0(+0x14b20)[0x7f6648c92b20]
/lib64/libc.so.6(__poll+0x4f)[0x7f66484d3a5f]
./gdb/gdb[0x1540f4c]
./gdb/gdb[0x154034a]
./gdb/gdb[0x9b002d]
./gdb/gdb[0x9b014d]
./gdb/gdb[0x9b1aa6]
./gdb/gdb[0x9b1b0c]
./gdb/gdb[0x41756d]
/lib64/libc.so.6(__libc_start_main+0xf3)[0x7f66484041a3]
./gdb/gdb[0x41746e]
---------------------
A fatal error internal to GDB has been detected, further
debugging is not possible. GDB will now terminate.
This is a bug, please report it. For instructions, see:
<https://www.gnu.org/software/gdb/bugs/>.
Segmentation fault (core dumped)
It is disappointing that backtrace_symbols_fd does not actually map
the addresses back to symbols, this appears, in part, to be due to GDB
not being built with -rdynamic as the manual page for
backtrace_symbols_fd suggests, however, even when I do add -rdynamic
to the build of GDB I only see symbols for some addresses.
We could potentially look at alternative libraries to provide the
backtrace (e.g. libunwind) however, the solution presented here, which
is available as part of glibc is probably a good baseline from which
we might improve things in future.
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The async_init_signals has, for some time, dealt with async and sync
signals, so removing the async prefix makes sense I think.
Additionally, as pointed out by Pedro:
.....
The comments relating to SIGTRAP and SIGQUIT within this function are
out of date.
The comments for SIGTRAP talk about the signal disposition (SIG_IGN)
being passed to the inferior, meaning the signal disposition being
inherited by GDB's fork children. However, we now call
restore_original_signals_state prior to forking, so the comment on
SIGTRAP is redundant.
The comments for SIGQUIT are similarly out of date, further, the
comment on SIGQUIT talks about problems with BSD4.3 and vfork,
however, we have not supported BSD4.3 for several years now.
Given the above, it seems that changing the disposition of SIGTRAP is
no longer needed, so I've deleted the signal() call for SIGTRAP.
Finally, the header comment on the function now called
gdb_init_signals was getting quite out of date, so I've updated it
to (hopefully) better reflect reality.
There should be no user visible change after this commit.
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This commit fixes the smallest of small possible bug related to signal
handling. If we look in async_init_signals we see code like this:
signal (SIGQUIT, handle_sigquit);
sigquit_token =
create_async_signal_handler (async_do_nothing, NULL, "sigquit");
Then if we look in handle_sigquit we see code like this:
mark_async_signal_handler (sigquit_token);
signal (sig, handle_sigquit);
Finally, in mark_async_signal_handler we have:
async_handler_ptr->ready = 1;
Where async_handler_ptr will be sigquit_token.
What this means is that if a SIGQUIT arrive in async_init_signals
after handle_sigquit has been registered, but before sigquit_token has
been initialised, then GDB will most likely crash.
The chance of this happening is tiny, but fixing this is trivial, just
ensure we call create_async_signal_handler before calling signal, so
lets do that.
There are no tests for this. Trying to land a signal in the right
spot is pretty hit and miss. I did try changing the current HEAD GDB
like this:
signal (SIGQUIT, handle_sigquit);
raise (SIGQUIT);
sigquit_token =
create_async_signal_handler (async_do_nothing, NULL, "sigquit");
And confirmed that this did result in a crash, after my change I tried
this:
sigquit_token =
create_async_signal_handler (async_do_nothing, NULL, "sigquit");
signal (SIGQUIT, handle_sigquit);
raise (SIGQUIT);
And GDB now starts up just fine.
gdb/ChangeLog:
* event-top.c (async_init_signals): For each signal, call signal
only after calling create_async_signal_handler.
|
|
GDB's SIGFPE handling is broken, this is PR gdb/16505 and
PR gdb/17891.
We currently try to use an async event token to process SIGFPE. So,
when a SIGFPE arrives the signal handler calls
mark_async_signal_handler then returns, effectively ignoring the
signal (for now).
The intention is that later the event loop will see that the async
token associated with SIGFPE has been marked and will call the async
handler, which just throws an error.
The problem is that SIGFPE is not safe to ignore. Ignoring a
SIGFPE (unless it is generated artificially, e.g. by raise()) is
undefined behaviour, after ignoring the signal on many targets we
return to the instruction that caused the SIGFPE to be raised, which
immediately causes another SIGFPE to be raised, we get stuck in an
infinite loop. The behaviour is certainly true on x86-64.
To view this behaviour I simply added some dummy code to GDB that
performed an integer divide by zero, compiled this on x86-64
GNU/Linux, ran GDB and saw GDB hang.
In this commit, I propose to remove all special handling of SIGFPE and
instead just let GDB make use of the default SIGFPE action, that is,
to terminate the process.
The only user visible change here should be:
- If a user sends a SIGFPE to GDB using something like kill,
previously GDB would just print an error and remain alive, now GDB
will terminate. This is inline with what happens if the user
sends GDB a SIGSEGV from kill though, so I don't see this as an
issue.
- If a bug in GDB causes a real SIGFPE, previously the users GDB
session would hang. Now the GDB session will terminate. Again,
this is inline with what happens if GDB receives a SIGSEGV due to
an internal bug.
In bug gdb/16505 there is mention that it would be nice if GDB did
more than just terminate when receiving a fatal signal. I haven't
done that in this commit, but later commits will move in that
direction.
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=16505
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=17891
|
|
Turn continuations-related functions into methods of the inferior
class. This is a refactoring.
gdb/ChangeLog:
2021-04-22 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* Makefile.in (COMMON_SFILES): Remove continuations.c.
* inferior.c (inferior::add_continuation): New method, adapted
from 'add_inferior_continuation'.
(inferior::do_all_continuations): New method, adapted from
'do_all_inferior_continuations'.
(inferior::~inferior): Clear the list of continuations directly.
* inferior.h (class inferior) <continuations>: Rename into...
<m_continuations>: ...this and make private.
* continuations.c: Remove.
* continuations.h: Remove.
* event-top.c: Don't include "continuations.h".
Update the users below.
* inf-loop.c (inferior_event_handler)
* infcmd.c (attach_command)
(notice_new_inferior): Update.
|
|
This avoids using a thread-local extern variable, which causes link errors
on some platforms, notably Cygwin. But I think this is a better pattern
even outside of working around linker bugs because it encapsulates direct
access to the variable inside the class, instead of having a global extern
variable.
The cygwin link error is:
cp-support.o: in function `gdb_demangle(char const*, int)':
/home/Christian/binutils-gdb/obj/gdb/../../gdb/cp-support.c:1619:(.text+0x6472): relocation truncated to fit: R_X86_64_PC32 against undefined symbol `TLS init function for thread_local_segv_handler'
/home/Christian/binutils-gdb/obj/gdb/../../gdb/cp-support.c:1619:(.text+0x648b): relocation truncated to fit: R_X86_64_PC32 against undefined symbol `TLS init function for thread_local_segv_handler'
collect2: error: ld returned 1 exit status
2021-03-12 Christian Biesinger <cbiesinger@google.com>
PR threads/27239
* cp-support.c: Use scoped_segv_handler_restore.
* event-top.c (thread_local_segv_handler): Made static.
(scoped_segv_handler_restore::scoped_segv_handler_restore):
New function.
(scoped_segv_handler_restore::~scoped_segv_handler_restore): New
function.
* event-top.h (class scoped_segv_handler_restore): New class.
(thread_local_segv_handler): Removed.
|
|
This commits the result of running gdb/copyright.py as per our Start
of New Year procedure...
gdb/ChangeLog
Update copyright year range in copyright header of all GDB files.
|
|
Many spots incorrectly use only spaces for indentation (for example,
there are a lot of spots in ada-lang.c). I've always found it awkward
when I needed to edit one of these spots: do I keep the original wrong
indentation, or do I fix it? What if the lines around it are also
wrong, do I fix them too? I probably don't want to fix them in the same
patch, to avoid adding noise to my patch.
So I propose to fix as much as possible once and for all (hopefully).
One typical counter argument for this is that it makes code archeology
more difficult, because git-blame will show this commit as the last
change for these lines. My counter counter argument is: when
git-blaming, you often need to do "blame the file at the parent commit"
anyway, to go past some other refactor that touched the line you are
interested in, but is not the change you are looking for. So you
already need a somewhat efficient way to do this.
Using some interactive tool, rather than plain git-blame, makes this
trivial. For example, I use "tig blame <file>", where going back past
the commit that changed the currently selected line is one keystroke.
It looks like Magit in Emacs does it too (though I've never used it).
Web viewers of Github and Gitlab do it too. My point is that it won't
really make archeology more difficult.
The other typical counter argument is that it will cause conflicts with
existing patches. That's true... but it's a one time cost, and those
are not conflicts that are difficult to resolve. I have also tried "git
rebase --ignore-whitespace", it seems to work well. Although that will
re-introduce the faulty indentation, so one needs to take care of fixing
the indentation in the patch after that (which is easy).
gdb/ChangeLog:
* aarch64-linux-tdep.c: Fix indentation.
* aarch64-ravenscar-thread.c: Fix indentation.
* aarch64-tdep.c: Fix indentation.
* aarch64-tdep.h: Fix indentation.
* ada-lang.c: Fix indentation.
* ada-lang.h: Fix indentation.
* ada-tasks.c: Fix indentation.
* ada-typeprint.c: Fix indentation.
* ada-valprint.c: Fix indentation.
* ada-varobj.c: Fix indentation.
* addrmap.c: Fix indentation.
* addrmap.h: Fix indentation.
* agent.c: Fix indentation.
* aix-thread.c: Fix indentation.
* alpha-bsd-nat.c: Fix indentation.
* alpha-linux-tdep.c: Fix indentation.
* alpha-mdebug-tdep.c: Fix indentation.
* alpha-nbsd-tdep.c: Fix indentation.
* alpha-obsd-tdep.c: Fix indentation.
* alpha-tdep.c: Fix indentation.
* amd64-bsd-nat.c: Fix indentation.
* amd64-darwin-tdep.c: Fix indentation.
* amd64-linux-nat.c: Fix indentation.
* amd64-linux-tdep.c: Fix indentation.
* amd64-nat.c: Fix indentation.
* amd64-obsd-tdep.c: Fix indentation.
* amd64-tdep.c: Fix indentation.
* amd64-windows-tdep.c: Fix indentation.
* annotate.c: Fix indentation.
* arc-tdep.c: Fix indentation.
* arch-utils.c: Fix indentation.
* arch/arm-get-next-pcs.c: Fix indentation.
* arch/arm.c: Fix indentation.
* arm-linux-nat.c: Fix indentation.
* arm-linux-tdep.c: Fix indentation.
* arm-nbsd-tdep.c: Fix indentation.
* arm-pikeos-tdep.c: Fix indentation.
* arm-tdep.c: Fix indentation.
* arm-tdep.h: Fix indentation.
* arm-wince-tdep.c: Fix indentation.
* auto-load.c: Fix indentation.
* auxv.c: Fix indentation.
* avr-tdep.c: Fix indentation.
* ax-gdb.c: Fix indentation.
* ax-general.c: Fix indentation.
* bfin-linux-tdep.c: Fix indentation.
* block.c: Fix indentation.
* block.h: Fix indentation.
* blockframe.c: Fix indentation.
* bpf-tdep.c: Fix indentation.
* break-catch-sig.c: Fix indentation.
* break-catch-syscall.c: Fix indentation.
* break-catch-throw.c: Fix indentation.
* breakpoint.c: Fix indentation.
* breakpoint.h: Fix indentation.
* bsd-uthread.c: Fix indentation.
* btrace.c: Fix indentation.
* build-id.c: Fix indentation.
* buildsym-legacy.h: Fix indentation.
* buildsym.c: Fix indentation.
* c-typeprint.c: Fix indentation.
* c-valprint.c: Fix indentation.
* c-varobj.c: Fix indentation.
* charset.c: Fix indentation.
* cli/cli-cmds.c: Fix indentation.
* cli/cli-decode.c: Fix indentation.
* cli/cli-decode.h: Fix indentation.
* cli/cli-script.c: Fix indentation.
* cli/cli-setshow.c: Fix indentation.
* coff-pe-read.c: Fix indentation.
* coffread.c: Fix indentation.
* compile/compile-cplus-types.c: Fix indentation.
* compile/compile-object-load.c: Fix indentation.
* compile/compile-object-run.c: Fix indentation.
* completer.c: Fix indentation.
* corefile.c: Fix indentation.
* corelow.c: Fix indentation.
* cp-abi.h: Fix indentation.
* cp-namespace.c: Fix indentation.
* cp-support.c: Fix indentation.
* cp-valprint.c: Fix indentation.
* cris-linux-tdep.c: Fix indentation.
* cris-tdep.c: Fix indentation.
* darwin-nat-info.c: Fix indentation.
* darwin-nat.c: Fix indentation.
* darwin-nat.h: Fix indentation.
* dbxread.c: Fix indentation.
* dcache.c: Fix indentation.
* disasm.c: Fix indentation.
* dtrace-probe.c: Fix indentation.
* dwarf2/abbrev.c: Fix indentation.
* dwarf2/attribute.c: Fix indentation.
* dwarf2/expr.c: Fix indentation.
* dwarf2/frame.c: Fix indentation.
* dwarf2/index-cache.c: Fix indentation.
* dwarf2/index-write.c: Fix indentation.
* dwarf2/line-header.c: Fix indentation.
* dwarf2/loc.c: Fix indentation.
* dwarf2/macro.c: Fix indentation.
* dwarf2/read.c: Fix indentation.
* dwarf2/read.h: Fix indentation.
* elfread.c: Fix indentation.
* eval.c: Fix indentation.
* event-top.c: Fix indentation.
* exec.c: Fix indentation.
* exec.h: Fix indentation.
* expprint.c: Fix indentation.
* f-lang.c: Fix indentation.
* f-typeprint.c: Fix indentation.
* f-valprint.c: Fix indentation.
* fbsd-nat.c: Fix indentation.
* fbsd-tdep.c: Fix indentation.
* findvar.c: Fix indentation.
* fork-child.c: Fix indentation.
* frame-unwind.c: Fix indentation.
* frame-unwind.h: Fix indentation.
* frame.c: Fix indentation.
* frv-linux-tdep.c: Fix indentation.
* frv-tdep.c: Fix indentation.
* frv-tdep.h: Fix indentation.
* ft32-tdep.c: Fix indentation.
* gcore.c: Fix indentation.
* gdb_bfd.c: Fix indentation.
* gdbarch.sh: Fix indentation.
* gdbarch.c: Re-generate
* gdbarch.h: Re-generate.
* gdbcore.h: Fix indentation.
* gdbthread.h: Fix indentation.
* gdbtypes.c: Fix indentation.
* gdbtypes.h: Fix indentation.
* glibc-tdep.c: Fix indentation.
* gnu-nat.c: Fix indentation.
* gnu-nat.h: Fix indentation.
* gnu-v2-abi.c: Fix indentation.
* gnu-v3-abi.c: Fix indentation.
* go32-nat.c: Fix indentation.
* guile/guile-internal.h: Fix indentation.
* guile/scm-cmd.c: Fix indentation.
* guile/scm-frame.c: Fix indentation.
* guile/scm-iterator.c: Fix indentation.
* guile/scm-math.c: Fix indentation.
* guile/scm-ports.c: Fix indentation.
* guile/scm-pretty-print.c: Fix indentation.
* guile/scm-value.c: Fix indentation.
* h8300-tdep.c: Fix indentation.
* hppa-linux-nat.c: Fix indentation.
* hppa-linux-tdep.c: Fix indentation.
* hppa-nbsd-nat.c: Fix indentation.
* hppa-nbsd-tdep.c: Fix indentation.
* hppa-obsd-nat.c: Fix indentation.
* hppa-tdep.c: Fix indentation.
* hppa-tdep.h: Fix indentation.
* i386-bsd-nat.c: Fix indentation.
* i386-darwin-nat.c: Fix indentation.
* i386-darwin-tdep.c: Fix indentation.
* i386-dicos-tdep.c: Fix indentation.
* i386-gnu-nat.c: Fix indentation.
* i386-linux-nat.c: Fix indentation.
* i386-linux-tdep.c: Fix indentation.
* i386-nto-tdep.c: Fix indentation.
* i386-obsd-tdep.c: Fix indentation.
* i386-sol2-nat.c: Fix indentation.
* i386-tdep.c: Fix indentation.
* i386-tdep.h: Fix indentation.
* i386-windows-tdep.c: Fix indentation.
* i387-tdep.c: Fix indentation.
* i387-tdep.h: Fix indentation.
* ia64-libunwind-tdep.c: Fix indentation.
* ia64-libunwind-tdep.h: Fix indentation.
* ia64-linux-nat.c: Fix indentation.
* ia64-linux-tdep.c: Fix indentation.
* ia64-tdep.c: Fix indentation.
* ia64-tdep.h: Fix indentation.
* ia64-vms-tdep.c: Fix indentation.
* infcall.c: Fix indentation.
* infcmd.c: Fix indentation.
* inferior.c: Fix indentation.
* infrun.c: Fix indentation.
* iq2000-tdep.c: Fix indentation.
* language.c: Fix indentation.
* linespec.c: Fix indentation.
* linux-fork.c: Fix indentation.
* linux-nat.c: Fix indentation.
* linux-tdep.c: Fix indentation.
* linux-thread-db.c: Fix indentation.
* lm32-tdep.c: Fix indentation.
* m2-lang.c: Fix indentation.
* m2-typeprint.c: Fix indentation.
* m2-valprint.c: Fix indentation.
* m32c-tdep.c: Fix indentation.
* m32r-linux-tdep.c: Fix indentation.
* m32r-tdep.c: Fix indentation.
* m68hc11-tdep.c: Fix indentation.
* m68k-bsd-nat.c: Fix indentation.
* m68k-linux-nat.c: Fix indentation.
* m68k-linux-tdep.c: Fix indentation.
* m68k-tdep.c: Fix indentation.
* machoread.c: Fix indentation.
* macrocmd.c: Fix indentation.
* macroexp.c: Fix indentation.
* macroscope.c: Fix indentation.
* macrotab.c: Fix indentation.
* macrotab.h: Fix indentation.
* main.c: Fix indentation.
* mdebugread.c: Fix indentation.
* mep-tdep.c: Fix indentation.
* mi/mi-cmd-catch.c: Fix indentation.
* mi/mi-cmd-disas.c: Fix indentation.
* mi/mi-cmd-env.c: Fix indentation.
* mi/mi-cmd-stack.c: Fix indentation.
* mi/mi-cmd-var.c: Fix indentation.
* mi/mi-cmds.c: Fix indentation.
* mi/mi-main.c: Fix indentation.
* mi/mi-parse.c: Fix indentation.
* microblaze-tdep.c: Fix indentation.
* minidebug.c: Fix indentation.
* minsyms.c: Fix indentation.
* mips-linux-nat.c: Fix indentation.
* mips-linux-tdep.c: Fix indentation.
* mips-nbsd-tdep.c: Fix indentation.
* mips-tdep.c: Fix indentation.
* mn10300-linux-tdep.c: Fix indentation.
* mn10300-tdep.c: Fix indentation.
* moxie-tdep.c: Fix indentation.
* msp430-tdep.c: Fix indentation.
* namespace.h: Fix indentation.
* nat/fork-inferior.c: Fix indentation.
* nat/gdb_ptrace.h: Fix indentation.
* nat/linux-namespaces.c: Fix indentation.
* nat/linux-osdata.c: Fix indentation.
* nat/netbsd-nat.c: Fix indentation.
* nat/x86-dregs.c: Fix indentation.
* nbsd-nat.c: Fix indentation.
* nbsd-tdep.c: Fix indentation.
* nios2-linux-tdep.c: Fix indentation.
* nios2-tdep.c: Fix indentation.
* nto-procfs.c: Fix indentation.
* nto-tdep.c: Fix indentation.
* objfiles.c: Fix indentation.
* objfiles.h: Fix indentation.
* opencl-lang.c: Fix indentation.
* or1k-tdep.c: Fix indentation.
* osabi.c: Fix indentation.
* osabi.h: Fix indentation.
* osdata.c: Fix indentation.
* p-lang.c: Fix indentation.
* p-typeprint.c: Fix indentation.
* p-valprint.c: Fix indentation.
* parse.c: Fix indentation.
* ppc-linux-nat.c: Fix indentation.
* ppc-linux-tdep.c: Fix indentation.
* ppc-nbsd-nat.c: Fix indentation.
* ppc-nbsd-tdep.c: Fix indentation.
* ppc-obsd-nat.c: Fix indentation.
* ppc-ravenscar-thread.c: Fix indentation.
* ppc-sysv-tdep.c: Fix indentation.
* ppc64-tdep.c: Fix indentation.
* printcmd.c: Fix indentation.
* proc-api.c: Fix indentation.
* producer.c: Fix indentation.
* producer.h: Fix indentation.
* prologue-value.c: Fix indentation.
* prologue-value.h: Fix indentation.
* psymtab.c: Fix indentation.
* python/py-arch.c: Fix indentation.
* python/py-bpevent.c: Fix indentation.
* python/py-event.c: Fix indentation.
* python/py-event.h: Fix indentation.
* python/py-finishbreakpoint.c: Fix indentation.
* python/py-frame.c: Fix indentation.
* python/py-framefilter.c: Fix indentation.
* python/py-inferior.c: Fix indentation.
* python/py-infthread.c: Fix indentation.
* python/py-objfile.c: Fix indentation.
* python/py-prettyprint.c: Fix indentation.
* python/py-registers.c: Fix indentation.
* python/py-signalevent.c: Fix indentation.
* python/py-stopevent.c: Fix indentation.
* python/py-stopevent.h: Fix indentation.
* python/py-threadevent.c: Fix indentation.
* python/py-tui.c: Fix indentation.
* python/py-unwind.c: Fix indentation.
* python/py-value.c: Fix indentation.
* python/py-xmethods.c: Fix indentation.
* python/python-internal.h: Fix indentation.
* python/python.c: Fix indentation.
* ravenscar-thread.c: Fix indentation.
* record-btrace.c: Fix indentation.
* record-full.c: Fix indentation.
* record.c: Fix indentation.
* reggroups.c: Fix indentation.
* regset.h: Fix indentation.
* remote-fileio.c: Fix indentation.
* remote.c: Fix indentation.
* reverse.c: Fix indentation.
* riscv-linux-tdep.c: Fix indentation.
* riscv-ravenscar-thread.c: Fix indentation.
* riscv-tdep.c: Fix indentation.
* rl78-tdep.c: Fix indentation.
* rs6000-aix-tdep.c: Fix indentation.
* rs6000-lynx178-tdep.c: Fix indentation.
* rs6000-nat.c: Fix indentation.
* rs6000-tdep.c: Fix indentation.
* rust-lang.c: Fix indentation.
* rx-tdep.c: Fix indentation.
* s12z-tdep.c: Fix indentation.
* s390-linux-tdep.c: Fix indentation.
* score-tdep.c: Fix indentation.
* ser-base.c: Fix indentation.
* ser-mingw.c: Fix indentation.
* ser-uds.c: Fix indentation.
* ser-unix.c: Fix indentation.
* serial.c: Fix indentation.
* sh-linux-tdep.c: Fix indentation.
* sh-nbsd-tdep.c: Fix indentation.
* sh-tdep.c: Fix indentation.
* skip.c: Fix indentation.
* sol-thread.c: Fix indentation.
* solib-aix.c: Fix indentation.
* solib-darwin.c: Fix indentation.
* solib-frv.c: Fix indentation.
* solib-svr4.c: Fix indentation.
* solib.c: Fix indentation.
* source.c: Fix indentation.
* sparc-linux-tdep.c: Fix indentation.
* sparc-nbsd-tdep.c: Fix indentation.
* sparc-obsd-tdep.c: Fix indentation.
* sparc-ravenscar-thread.c: Fix indentation.
* sparc-tdep.c: Fix indentation.
* sparc64-linux-tdep.c: Fix indentation.
* sparc64-nbsd-tdep.c: Fix indentation.
* sparc64-obsd-tdep.c: Fix indentation.
* sparc64-tdep.c: Fix indentation.
* stabsread.c: Fix indentation.
* stack.c: Fix indentation.
* stap-probe.c: Fix indentation.
* stubs/ia64vms-stub.c: Fix indentation.
* stubs/m32r-stub.c: Fix indentation.
* stubs/m68k-stub.c: Fix indentation.
* stubs/sh-stub.c: Fix indentation.
* stubs/sparc-stub.c: Fix indentation.
* symfile-mem.c: Fix indentation.
* symfile.c: Fix indentation.
* symfile.h: Fix indentation.
* symmisc.c: Fix indentation.
* symtab.c: Fix indentation.
* symtab.h: Fix indentation.
* target-float.c: Fix indentation.
* target.c: Fix indentation.
* target.h: Fix indentation.
* tic6x-tdep.c: Fix indentation.
* tilegx-linux-tdep.c: Fix indentation.
* tilegx-tdep.c: Fix indentation.
* top.c: Fix indentation.
* tracefile-tfile.c: Fix indentation.
* tracepoint.c: Fix indentation.
* tui/tui-disasm.c: Fix indentation.
* tui/tui-io.c: Fix indentation.
* tui/tui-regs.c: Fix indentation.
* tui/tui-stack.c: Fix indentation.
* tui/tui-win.c: Fix indentation.
* tui/tui-winsource.c: Fix indentation.
* tui/tui.c: Fix indentation.
* typeprint.c: Fix indentation.
* ui-out.h: Fix indentation.
* unittests/copy_bitwise-selftests.c: Fix indentation.
* unittests/memory-map-selftests.c: Fix indentation.
* utils.c: Fix indentation.
* v850-tdep.c: Fix indentation.
* valarith.c: Fix indentation.
* valops.c: Fix indentation.
* valprint.c: Fix indentation.
* valprint.h: Fix indentation.
* value.c: Fix indentation.
* value.h: Fix indentation.
* varobj.c: Fix indentation.
* vax-tdep.c: Fix indentation.
* windows-nat.c: Fix indentation.
* windows-tdep.c: Fix indentation.
* xcoffread.c: Fix indentation.
* xml-syscall.c: Fix indentation.
* xml-tdesc.c: Fix indentation.
* xstormy16-tdep.c: Fix indentation.
* xtensa-config.c: Fix indentation.
* xtensa-linux-nat.c: Fix indentation.
* xtensa-linux-tdep.c: Fix indentation.
* xtensa-tdep.c: Fix indentation.
gdbserver/ChangeLog:
* ax.cc: Fix indentation.
* dll.cc: Fix indentation.
* inferiors.h: Fix indentation.
* linux-low.cc: Fix indentation.
* linux-nios2-low.cc: Fix indentation.
* linux-ppc-ipa.cc: Fix indentation.
* linux-ppc-low.cc: Fix indentation.
* linux-x86-low.cc: Fix indentation.
* linux-xtensa-low.cc: Fix indentation.
* regcache.cc: Fix indentation.
* server.cc: Fix indentation.
* tracepoint.cc: Fix indentation.
gdbsupport/ChangeLog:
* common-exceptions.h: Fix indentation.
* event-loop.cc: Fix indentation.
* fileio.cc: Fix indentation.
* filestuff.cc: Fix indentation.
* gdb-dlfcn.cc: Fix indentation.
* gdb_string_view.h: Fix indentation.
* job-control.cc: Fix indentation.
* signals.cc: Fix indentation.
Change-Id: I4bad7ae6be0fbe14168b8ebafb98ffe14964a695
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Add debug printouts about event loop-related events:
- When a file descriptor handler gets invoked
- When an async event/signal handler gets invoked
gdb/ChangeLog:
* async-event.c (invoke_async_signal_handlers): Add debug
print.
(check_async_event_handlers): Likewise.
* event-top.c (show_debug_event_loop): New function.
(_initialize_event_top): Register "set debug event-loop"
setting.
gdbserver/ChangeLog:
* server.cc (handle_monitor_command): Handle "set
debug-event-loop".
(captured_main): Handle "--debug-event-loop".
(monitor_show_help): Mention new setting.
(gdbserver_usage): Mention new flag.
gdbsupport/ChangeLog:
* event-loop.h (debug_event_loop): New variable declaration.
(event_loop_debug_printf_1): New function declaration.
(event_loop_debug_printf): New macro.
* event-loop.cc (debug_event_loop): New variable.
(handle_file_event): Add debug print.
(event_loop_debug_printf_1): New function.
Change-Id: If78ed3a69179881368e7895b42940ce13b6a1a05
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Assign names to async event/signal handlers. They will be used in debug
messages when file handlers are invoked.
Unlike in the previous patch, the names are not copied in the structure,
since we don't need to (all names are string literals for the moment).
gdb/ChangeLog:
* async-event.h (create_async_signal_handler): Add name
parameter.
(create_async_event_handler): Likewise.
* async-event.c (struct async_signal_handler) <name>: New field.
(struct async_event_handler) <name>: New field.
(create_async_signal_handler): Assign name.
(create_async_event_handler): Assign name.
* event-top.c (async_init_signals): Pass name when creating
handler.
* infrun.c (_initialize_infrun): Likewise.
* record-btrace.c (record_btrace_push_target): Likewise.
* record-full.c (record_full_open): Likewise.
* remote-notif.c (remote_notif_state_allocate): Likewise.
* remote.c (remote_target::open_1): Likewise.
* tui/tui-win.c (tui_initialize_win): Likewise.
Change-Id: Icd9d9f775542ae5fc2cd148c12f481e7885936d5
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Assign names to event loop file handlers. They will be used in debug
messages when file handlers are invoked.
In GDB, each UI used to get its own unique number, until commit
cbe256847e19 ("Remove ui::num"). Re-introduce this field, and use it to
make a unique name for the handler.
I'm not too sure what goes on in ser-base.c, all I know is that it's
what is used when debugging remotely. I've just named the main handler
"serial". It would be good to have unique names there too. For instance
when debugging with two different remote connections, we'd ideally want
the handlers to have unique names. I didn't do it in this patch though.
gdb/ChangeLog:
* async-event.c (initialize_async_signal_handlers): Pass name to
add_file_handler
* event-top.c (ui_register_input_event_handler): Likewise.
* linux-nat.c (linux_nat_target::async): Likewise.
* run-on-main-thread.c (_initialize_run_on_main_thread):
Likewise
* ser-base.c (reschedule): Likewise.
(ser_base_async): Likewise.
* tui/tui-io.c: Likewise.
* top.h (struct ui) <num>: New field.
* top.c (highest_ui_num): New variable.
(ui::ui): Initialize num.
gdbserver/ChangeLog:
* linux-low.cc (linux_process_target::async): Pass name to
add_file_handler.
* remote-utils.cc (handle_accept_event): Likewise.
(remote_open): Likewise.
gdbsupport/ChangeLog:
* event-loop.h (add_file_handler): Add "name" parameter.
* event-loop.cc (struct file_handler) <name>: New field.
(create_file_handler): Add "name" parameter, assign it to file
handler.
(add_file_handler): Add "name" parameter.
Change-Id: I9f1545f73888ebb6778eb653a618ca44d105f92c
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This moves event-loop.[ch] to gdbsupport/ and updates the uses in gdb.
gdb/ChangeLog
2020-04-13 Tom Tromey <tom@tromey.com>
* run-on-main-thread.c: Update include.
* unittests/main-thread-selftests.c: Update include.
* tui/tui-win.c: Update include.
* tui/tui-io.c: Update include.
* tui/tui-interp.c: Update include.
* tui/tui-hooks.c: Update include.
* top.h: Update include.
* top.c: Update include.
* ser-base.c: Update include.
* remote.c: Update include.
* remote-notif.c: Update include.
* remote-fileio.c: Update include.
* record-full.c: Update include.
* record-btrace.c: Update include.
* python/python.c: Update include.
* posix-hdep.c: Update include.
* mingw-hdep.c: Update include.
* mi/mi-main.c: Update include.
* mi/mi-interp.c: Update include.
* main.c: Update include.
* linux-nat.c: Update include.
* interps.c: Update include.
* infrun.c: Update include.
* inf-loop.c: Update include.
* event-top.c: Update include.
* event-loop.c: Move to ../gdbsupport/.
* event-loop.h: Move to ../gdbsupport/.
* async-event.h: Update include.
* Makefile.in (COMMON_SFILES, HFILES_NO_SRCDIR): Update.
gdbsupport/ChangeLog
2020-04-13 Tom Tromey <tom@tromey.com>
* event-loop.h: Move from ../gdb/.
* event-loop.cc: Move from ../gdb/.
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This patch splits out some gdb-specific code from event-loop, into new
files async-event.[ch]. Strictly speaking this code could perhaps be
put into gdbsupport/, but because gdbserver does not currently use it,
it seemed better, for size reasons, to split it out.
gdb/ChangeLog
2020-04-13 Tom Tromey <tom@tromey.com>
* tui/tui-win.c: Include async-event.h.
* remote.c: Include async-event.h.
* remote-notif.c: Include async-event.h.
* record-full.c: Include async-event.h.
* record-btrace.c: Include async-event.h.
* infrun.c: Include async-event.h.
* event-top.c: Include async-event.h.
* event-loop.h: Move some declarations to async-event.h.
* event-loop.c: Don't include ser-event.h or top.h. Move some
code to async-event.c.
* async-event.h: New file.
* async-event.c: New file.
* Makefile.in (COMMON_SFILES): Add async-event.c.
(HFILES_NO_SRCDIR): Add async-event.h.
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This moves gdb_select.h to gdbsupport/, so it can be used by other
code there.
gdb/ChangeLog
2020-04-13 Tom Tromey <tom@tromey.com>
* gdb_select.h: Move to ../gdbsupport/.
* event-loop.c: Update include path.
* top.c: Update include path.
* ser-base.c: Update include path.
* ui-file.c: Update include path.
* ser-tcp.c: Update include path.
* guile/scm-ports.c: Update include path.
* posix-hdep.c: Update include path.
* ser-unix.c: Update include path.
* gdb_usleep.c: Update include path.
* mingw-hdep.c: Update include path.
* inflow.c: Update include path.
* infrun.c: Update include path.
* event-top.c: Update include path.
gdbsupport/ChangeLog
2020-04-13 Tom Tromey <tom@tromey.com>
* gdb_select.h: Move from ../gdb/.
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This changes gdb_flush to also flush the internal wrap buffer. A few
places needed to continue using the previous approach, so this also
introduces ui_file_flush for those.
2020-02-05 Iain Buclaw <ibuclaw@gdcproject.org>
* gdb/event-loop.c (gdb_wait_for_event): Update.
* gdb/printcmd.c (printf_command): Update.
* gdb/remote-fileio.c (remote_fileio_func_write): Update.
* gdb/remote-sim.c (gdb_os_flush_stdout): Update.
(gdb_os_flush_stderr): Update.
* gdb/remote.c (remote_console_output): Update.
* gdb/ui-file.c (gdb_flush): Rename to...
(ui_file_flush): ...this.
(stderr_file::write): Update.
(stderr_file::puts): Update.
* gdb/ui-file.h (gdb_flush): Rename to...
(ui_file_flush): ...this.
* gdb/utils.c (gdb_flush): Add function.
* gdb/utils.h (gdb_flush): Add declaration.
Change-Id: I7ca143d30f03dc39f218f6e880eb9bca9e15af39
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