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author | Pedro Alves <pedro@palves.net> | 2022-07-18 18:22:15 +0100 |
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committer | Pedro Alves <pedro@palves.net> | 2022-07-18 19:54:54 +0100 |
commit | 6994a75776b3a40e9a7435be8e6c5518c18bd391 (patch) | |
tree | 39e8629bb5e00850db3360034ccdfbf044c5ef61 /bfd/vms.h | |
parent | 23948f56021f46bb2bdee7afad074aafe8329230 (diff) | |
download | gdb-6994a75776b3a40e9a7435be8e6c5518c18bd391.zip gdb-6994a75776b3a40e9a7435be8e6c5518c18bd391.tar.gz gdb-6994a75776b3a40e9a7435be8e6c5518c18bd391.tar.bz2 |
Don't stop all threads prematurely after first step of "step N"
In all-stop mode, when the target is itself in non-stop mode (like
GNU/Linux), if you use the "step N" (or "stepi/next/nexti N") to step
a thread a number of times:
(gdb) help step
step, s
Step program until it reaches a different source line.
Usage: step [N]
Argument N means step N times (or till program stops for another reason).
... GDB prematurely stops all threads after the first step, and
doesn't re-resume them for the subsequent N-1 steps. It's as if for
the 2nd and subsequent steps, the command was running with
scheduler-locking enabled.
This can be observed with the testcase added by this commit, which
looks like this:
static pthread_barrier_t barrier;
static void *
thread_func (void *arg)
{
pthread_barrier_wait (&barrier);
return NULL;
}
int
main ()
{
pthread_t thread;
int ret;
pthread_barrier_init (&barrier, NULL, 2);
/* We run to this line below, and then issue "next 3". That should
step over the 3 lines below and land on the return statement. If
GDB prematurely stops the thread_func thread after the first of
the 3 nexts (and never resumes it again), then the join won't
ever return. */
pthread_create (&thread, NULL, thread_func, NULL); /* set break here */
pthread_barrier_wait (&barrier);
pthread_join (thread, NULL);
return 0;
}
The test hangs and times out without the GDB fix:
(gdb) next 3
[New Thread 0x7ffff7d89700 (LWP 525772)]
FAIL: gdb.threads/step-N-all-progress.exp: non-stop=off: target-non-stop=on: next 3 (timeout)
The problem is a core gdb bug.
When you do "step/stepi/next/nexti N", GDB internally creates a
thread_fsm object and associates it with the stepping thread. For the
stepping commands, the FSM's class is step_command_fsm. That object
is what keeps track of how many steps are left to make. When one step
finishes, handle_inferior_event calls stop_waiting and returns, and
then fetch_inferior_event calls the "should_stop" method of the event
thread's FSM. The implementation of that method decrements the
steps-left counter. If the counter is 0, it returns true and we
proceed to presenting the stop to the user. If it isn't 0 yet, then
the method returns false, indicating to fetch_inferior_event to "keep
going".
Focusing now on when the first step finishes -- we're in "all-stop"
mode, with the target in non-stop mode. When a step finishes,
handle_inferior_event calls stop_waiting, which itself calls
stop_all_threads to stop everything. I.e., after the first step
completes, all threads are stopped, before handle_inferior_event
returns. And after that, now in fetch_inferior_event, we consult the
thread's thread_fsm::should_stop, which as we've seen, for the first
step returns false -- i.e., we need to keep_going for another step.
However, since the target is in non-stop mode, keep_going resumes
_only_ the current thread. All the other threads remain stopped,
inadvertently.
If the target is in non-stop mode, we don't actually need to stop all
threads right after each first step finishes, and then re-resume them
again. We can instead defer stopping all threads until all the steps
are completed.
So fix this by delaying the stopping of all threads until after we
called the FSM's "should_stop" method. I.e., move it from
stop_waiting, to handle_inferior_events's callers,
fetch_inferior_event and wait_for_inferior.
New test included. Tested on x86-64 GNU/Linux native and gdbserver.
Change-Id: Iaad50dcfea4464c84bdbac853a89df92ade6ae01
Diffstat (limited to 'bfd/vms.h')
0 files changed, 0 insertions, 0 deletions