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Merge pull request #824 from joe-lawrence/author-guide-callback-locks
patch-author-guide: more on locks in callbacks
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@ -193,10 +193,51 @@ static void kpatch_post_unpatch_tcp_send_challenge_ack(patch_object *obj)
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+KPATCH_POST_UNPATCH_CALLBACK(kpatch_post_unpatch_tcp_send_challenge_ack);
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```
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Don't forget to protect access to the data as needed. Please note that mutexes
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and other sleeping locks can't be used from stop_machine context, so you will
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have to check if any locks protecting the data are already held and if so
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return an error from your callback function.
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Don't forget to protect access to the data as needed. Please note that
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spinlocks and mutexes / sleeping locks can't be used from stop_machine
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context. Also note the pre-patch callback return code will be ignored by the
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kernel's module notifier, so it does not affect the target module or livepatch
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module status. This means:
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* Pre-patch callbacks to loaded objects (vmlinux, loaded kernel modules) are
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run from stop_machine(), so they may only inspect lock state (i.e.
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spin_is_locked(), mutex_is_locked()) and optionally return -EBUSY to prevent
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patching.
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* Post-patch, pre-unpatch, and post-unpatch callbacks to loaded objects are
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also run from stop_machine(), so the same locking context applies. No
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return status is supported.
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* Deferred pre-patch callbacks to newly loading objects do not run from
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stop_machine(), so they may spin or schedule, i.e. spin_lock(),
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mutex_lock()). Return status is ignored.
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* Post-patch, pre-unpatch, and post-unpatch callbacks to unloading objects are
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also *not* run from stop_machine(), so they may spin or sleep. No return
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status is supported.
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Unfortunately there is no simple, all-case-inclusive kpatch callback
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implementation that handles data structures and mutual exclusion.
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A few workarounds:
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1. If a given lock/mutex is held and released by the same set of functions
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(that is, functions that take a lock/mutex always release it before
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returning), a trivial change to those functions can re-purpose kpatch's
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activeness safety check to avoid patching when the lock/mutex may be held.
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This assumes that all lock/mutex holders can be patched.
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2. If it can be assured that all patch targets will be loaded before the
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kpatch patch module, pre-patch callbacks may return -EBUSY if the lock/mutex
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is held to block the patching.
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3. Finally, if a kpatch is disabled or removed and while all patch targets are
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still loaded, then all unpatch callbacks will run from stop_machine() -- the
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unpatching cannot be stopped at this point and the callbacks cannot spin or
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sleep.
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With that in mind, it is probably easiest to omit unpatching callbacks
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at this point.
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Also be careful when upgrading. If patch A has a pre/post-patch callback which
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writes to X, and then you load patch B which is a superset of A, in some cases
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