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authorSimon Marchi <simon.marchi@efficios.com>2021-12-01 09:40:03 -0500
committerSimon Marchi <simon.marchi@efficios.com>2021-12-08 21:00:39 -0500
commitdf5ad102009c41ab4dfadbb8cfb8c8b2a02a4f78 (patch)
treed3e4ea03469af069618f83928fdc275f6d5bfa83 /sim/lm32
parent577d2167bbed078e99fe8b704f936be8ac7cf83d (diff)
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gdb, gdbserver: detach fork child when detaching from fork parent
While working with pending fork events, I wondered what would happen if the user detached an inferior while a thread of that inferior had a pending fork event. What happens with the fork child, which is ptrace-attached by the GDB process (or by GDBserver), but not known to the core? Sure enough, neither the core of GDB or the target detach the child process, so GDB (or GDBserver) just stays ptrace-attached to the process. The result is that the fork child process is stuck, while you would expect it to be detached and run. Make GDBserver detach of fork children it knows about. That is done in the generic handle_detach function. Since a process_info already exists for the child, we can simply call detach_inferior on it. GDB-side, make the linux-nat and remote targets detach of fork children known because of pending fork events. These pending fork events can be stored in: - thread_info::pending_waitstatus, if the core has consumed the event but then saved it for later (for example, because it got the event while stopping all threads, to present an all-stop stop on top of a non-stop target) - thread_info::pending_follow: if we ran to a "catch fork" and we detach at that moment Additionally, pending fork events can be in target-specific fields: - For linux-nat, they can be in lwp_info::status and lwp_info::waitstatus. - For the remote target, they could be stored as pending stop replies, saved in `remote_state::notif_state::pending_event`, if not acknowledged yet, or in `remote_state::stop_reply_queue`, if acknowledged. I followed the model of remove_new_fork_children for this: call remote_notif_get_pending_events to process / acknowledge any unacknowledged notification, then look through stop_reply_queue. Update the gdb.threads/pending-fork-event.exp test (and rename it to gdb.threads/pending-fork-event-detach.exp) to try to detach the process while it is stopped with a pending fork event. In order to verify that the fork child process is correctly detached and resumes execution outside of GDB's control, make that process create a file in the test output directory, and make the test wait $timeout seconds for that file to appear (it happens instantly if everything goes well). This test catches a bug in linux-nat.c, also reported as PR 28512 ("waitstatus.h:300: internal-error: gdb_signal target_waitstatus::sig() const: Assertion `m_kind == TARGET_WAITKIND_STOPPED || m_kind == TARGET_WAITKIND_SIGNALLED' failed.). When detaching a thread with a pending event, get_detach_signal unconditionally fetches the signal stored in the waitstatus (`tp->pending_waitstatus ().sig ()`). However, that is only valid if the pending event is of type TARGET_WAITKIND_STOPPED, and this is now enforced using assertions (iit would also be valid for TARGET_WAITKIND_SIGNALLED, but that would mean the thread does not exist anymore, so we wouldn't be detaching it). Add a condition in get_detach_signal to access the signal number only if the wait status is of kind TARGET_WAITKIND_STOPPED, and use GDB_SIGNAL_0 instead (since the thread was not stopped with a signal to begin with). Add another test, gdb.threads/pending-fork-event-ns.exp, specifically to verify that we consider events in pending stop replies in the remote target. This test has many threads constantly forking, and we detach from the program while the program is executing. That gives us some chance that we detach while a fork stop reply is stored in the remote target. To verify that we correctly detach all fork children, we ask the parent to exit by sending it a SIGUSR1 signal and have it write a file to the filesystem before exiting. Because the parent's main thread joins the forking threads, and the forking threads wait for their fork children to exit, if some fork child is not detach by GDB, the parent will not write the file, and the test will time out. If I remove the new remote_detach_pid calls in remote.c, the test fails eventually if I run it in a loop. There is a known limitation: we don't remove breakpoints from the children before detaching it. So the children, could hit a trap instruction after being detached and crash. I know this is wrong, and it should be fixed, but I would like to handle that later. The current patch doesn't fix everything, but it's a step in the right direction. Change-Id: I6d811a56f520e3cb92d5ea563ad38976f92e93dd Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=28512
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