No description
90e289504f
With target async enabled, py-finish-breakpoint.exp triggers an
assertion failure.
The failure occurs because execute_command re-enters the event loop in
some circumstances, and in this case resets the sync_execution flag.
Then later GDB reaches this assertion in normal_stop:
gdb_assert (sync_execution || !target_can_async_p ());
In detail:
#1 - A synchronous execution command is run. sync_execution is set.
#2 - A python breakpoint is hit (TARGET_WAITKIND_STOPPED), and the
corresponding Python breakpoint's stop method is executed. When
and while python commands are executed, interpreter_async is
forced to 0.
#3 - The Python stop method happens to execute a not-execution-related
gdb command. In this case, "where 1".
#4 - Seeing that sync_execution is set, execute_command nests a new
event loop (although that wasn't necessary; this is the problem).
#5 - The linux-nat target's pipe in the event loop happens to be
marked. That's normal, due to this in linux_nat_wait:
/* If we requested any event, and something came out, assume there
may be more. If we requested a specific lwp or process, also
assume there may be more. */
The nested event loop thus immediately wakes up and calls
target_wait. No thread is actually executing in the inferior, so
the target returns TARGET_WAITKIND_NO_RESUMED.
#6 - normal_stop is reached. GDB prints "No unwaited-for children
left.", and resets the sync_execution flag (IOW, there are no
resumed threads left, so the synchronous command is considered
completed.) This is already bogus. We were handling a
breakpoint!
#7 - the nested event loop unwinds/ends. GDB is now back to handling
the python stop method (TARGET_WAITKIND_STOPPED), which decides
the breakpoint should stop. normal_stop is called for this
event. However, normal_stop actually works with the _last_
reported target status:
void
normal_stop (void)
{
struct target_waitstatus last;
ptid_t last_ptid;
struct cleanup *old_chain = make_cleanup (null_cleanup, NULL);
...
get_last_target_status (&last_ptid, &last);
...
if (last.kind == TARGET_WAITKIND_NO_RESUMED)
{
gdb_assert (sync_execution || !target_can_async_p ());
target_terminal_ours_for_output ();
printf_filtered (_("No unwaited-for children left.\n"));
}
And due to the nesting in execute command, the last event is now
TARGET_WAITKIND_NO_RESUMED, not the actual breakpoint event being
handled. This could be seen to be broken in itself, but we can
leave fixing that for another pass. The assertion is reached, and
fails.
execute_command has a comment explaining when it should synchronously
wait for events:
/* If the interpreter is in sync mode (we're running a user
command's list, running command hooks or similars), and we
just ran a synchronous command that started the target, wait
for that command to end. */
However, the code did not follow this comment -- it didn't check to
see if the command actually started the target, just whether the
target was executing a sync command at this point.
This patch fixes the problem by noting whether the target was
executing in sync_execution mode before running the command, and then
augmenting the condition to test this as well.
2014-03-20 Tom Tromey <tromey@redhat.com>
PR gdb/14135
* top.c (execute_command): Only dispatch events if the command
started the target.
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README for GNU development tools This directory contains various GNU compilers, assemblers, linkers, debuggers, etc., plus their support routines, definitions, and documentation. If you are receiving this as part of a GDB release, see the file gdb/README. If with a binutils release, see binutils/README; if with a libg++ release, see libg++/README, etc. That'll give you info about this package -- supported targets, how to use it, how to report bugs, etc. It is now possible to automatically configure and build a variety of tools with one command. To build all of the tools contained herein, run the ``configure'' script here, e.g.: ./configure make To install them (by default in /usr/local/bin, /usr/local/lib, etc), then do: make install (If the configure script can't determine your type of computer, give it the name as an argument, for instance ``./configure sun4''. You can use the script ``config.sub'' to test whether a name is recognized; if it is, config.sub translates it to a triplet specifying CPU, vendor, and OS.) If you have more than one compiler on your system, it is often best to explicitly set CC in the environment before running configure, and to also set CC when running make. For example (assuming sh/bash/ksh): CC=gcc ./configure make A similar example using csh: setenv CC gcc ./configure make Much of the code and documentation enclosed is copyright by the Free Software Foundation, Inc. See the file COPYING or COPYING.LIB in the various directories, for a description of the GNU General Public License terms under which you can copy the files. REPORTING BUGS: Again, see gdb/README, binutils/README, etc., for info on where and how to report problems.