It is probably sort of thread-safe.
Thread safety tends to depend on context. Updating a bool is always thread safe, if you never read from it.
And if you do read from it, then the answer depends on when you read from it, and what that read signifies.
On some CPUs, but not all, writes to an object of type
bool will be atomic. x86 CPUs will generally make it atomic, but others might not. If the update isn't atomic, then adding
volatile won't help you.
But the next problem is reordering. The compiler (and CPU) will carry out reads/writes to
volatile variables in the order specified, without any reordering. So that's good.
But it makes no guarantee about reordering one
volatile memory access relative to all the non-
volatile ones. So a common example is that you define some kind of flag to protect access to a resource, you make the flag
volatile, and then the compiler moves the resource access up so it happens before you check the flag. It's allowed to do that, because it's not reordering the internal ordering of two
volatile accesses, but merely a
volatile and a non-
Honestly, the question I'd ask is why not just do it properly?
It is possible that
volatile will work in this situation, but why not save yourself the trouble, and make it clearer that it's correct? Slap a memory barrier around it instead.