On Mon, Sep 20, 2021 at 2:17 PM Luis Chamberlain mcgrof@kernel.org wrote:
On Mon, Sep 20, 2021 at 01:52:21PM -0700, Dan Williams wrote:
On Fri, Sep 17, 2021 at 10:05 PM Luis Chamberlain mcgrof@kernel.org wrote:
This deadlock was first reported with the zram driver, however the live patching folks have acknowledged they have observed this as well with live patching, when a live patch is removed. I was then able to reproduce easily by creating a dedicated selftests.
A sketch of how this can happen follows:
CPU A CPU B whatever_store() module_unload mutex_lock(foo) mutex_lock(foo) del_gendisk(zram->disk); device_del() device_remove_groups()
This flow seems possible to trigger with:
echo $dev > /sys/bus/$bus/drivers/$driver/unbind
I am missing why module pinning
The aspect of try_module_get() which comes to value to prevent the deadlock is it ensures kernfs ops do not run once exit is on the way.
is part of the solution when it's the device_del() path that is racing?
But its not, the device_del() path will yield until the kernfs op completes. It is fine to wait there.
The deadlock happens if a module exit routine uses a lock which is also used on a sysfs op. If the lock was first held by module exit, and module exit is waiting for the kernfs op to complete, and the kernfs op is waiting to hold the same lock then the exit will wait forever.
Module removal is just a more coarse grained way to trigger unbind => device_del().
Right, but the device_del() path is not sharing a lock with the sysfs op.
The deadlock in the example comes from holding a lock over device_del() that is also taken in a kernfs op. For example, the code above looks like something that runs from driver.remove(), not exclusively module_exit(). Yes, module_exit() may trigger driver.remove() via driver_unregister(), but there's other ways to trigger driver.remove() that do not involve module_exit().
Isn't the above a bug in the driver, not missing synchronization in kernfs?
We can certainly take the position as an alternative:
"thou shalt not use a lock on exit which is also used on a syfs op"
However that seems counter intuitive, specially if we can resolve the issue easily with a try_module_get().
Again, I don't see how try_module_get() can affect the ABBA failure case of holding a lock over device_del() that is also held inside sysfs op. I agree that the problem is subtle. Does lockdep not complain about this case? If it's going to be avoided in the core it seems try_module_get() does not completely cover the hole that unsuspecting driver writers might fall into.