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Alex Bennée reported a ThreadSanitizer warning about a plain concurrent
access to ram_list [1]. Ensure the concurrent accesses to ram_list are
properly synchronized with atomic accesses, mutexes, or RCU.
First, the plain assignments of ram_list.mru_block are replaced with
qatomic_set(). A comment in qemu_get_ram_block() explains why the
ordering requirement is relaxed, but it still needs to be atomically
accessed. include/qemu/atomic.h says:
> The C11 memory model says that variables that are accessed from
> different threads should at least be done with __ATOMIC_RELAXED
> primitives or the result is undefined. Generally this has little to
> no effect on the generated code but not using the atomic primitives
> will get flagged by sanitizers as a violation.
Second, ram_list.version accesses are replaced with atomic operations
or protected with a mutex. Unlike ram_list.mru_block, ram_list.version
has tighter ordering requirements for one of its goals: ensuring that
the reader-held rs->last_seen_block value is invalidated whenever a RAM
block is reclaimed between two RCU reader critical sections. Below are
steps a reader and an updater follow:
Reader:
R-1. Enter the first RCU read-side critical section:
R-1-1. rs->last_version = qatomic_load_acquire(&ram_list.version)
R-1-2. rs->last_seen_block = an element of ram_list.blocks
R-2. Enter the second RCU read-side critical section:
R-2-1. if (qatomic_read(&ram_list.version) != rs->last_version)
R-2-2. rs->last_seen_block = NULL
Updater:
W-1. Enter a ram_list.mutex critical section
W-1-1. Update ram_list.blocks
W-1-2. qatomic_store_release(&ram_list.version, ram_list.version + 1)
W-2. Enter another ram_list.mutex critical section
W-2-1. QLIST_REMOVE_RCU(block, next)
W-2-2. qatomic_store_release(&ram_list.version, ram_list.version + 1)
W-2-3. call_rcu(block, reclaim_ramblock, rcu)
W-1-2 represents the write observed by R-1-1.
ram_list.version is read non-atomically on the update side because the
update side is serialized with ram_list.mutex. The other ram_list
accesses in these steps are reasoned about in two cases.
When the grace period of W-2-3 contains R-2:
qatomic_load_acquire() at R-1-1 and qatomic_store_release() at W-1-2
enforce the following ordering:
W-1-1 -> W-1-2 -> R-1-1 -> R-1-2
The value of ram_list.blocks stored by W-1-1 or a newer value that
was loaded by R-1-2 is still valid because of the grace period.
When the grace period of W-2-3 ends before R-2:
call_rcu() at W-2-3 and the read-side critical section at R-2 ensure
the following ordering:
W-2-2 -> W-2-3 -> the grace period -> R-2 -> R-2-1
The value of ram_list.version stored by W-2-2 or a newer value that
was loaded by R-2-1 differs from rs->last_version and the reader
invalidates rs->last_seen_block.
Together, these steps ensure that rs->last_seen_block is invalidated
whenever necessary. With added atomic operations, pre-existing memory
barriers are no longer necessary and are removed.
Any other ram_list accesses are already properly synchronized.
[1] https://lore.kernel.org/qemu-devel/878q9fbmap.fsf@draig.linaro.org/
Signed-off-by: Akihiko Odaki <odaki@rsg.ci.i.u-tokyo.ac.jp>
Reviewed-by: Philippe Mathieu-Daudé <philmd@linaro.org>
Link: https://lore.kernel.org/r/20260523-tsan-v1-1-07d5eb9dcaa2@rsg.ci.i.u-tokyo.ac.jp
Signed-off-by: Peter Xu <peterx@redhat.com>