Re: KASAN: use-after-free Read in task_is_descendant

From: Tetsuo Handa
Date: Fri Oct 26 2018 - 08:24:26 EST

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In reply to: Oleg Nesterov: "Re: KASAN: use-after-free Read in task_is_descendant"
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On 2018/10/26 0:55, Oleg Nesterov wrote:
> On 10/25, Tetsuo Handa wrote:
>>
>> On 2018/10/25 21:17, Oleg Nesterov wrote:
>>>>> And yes, task_is_descendant() can hit the dead child, if nothing else it can
>>>>> be killed. This can explain the kasan report.
>>>>
>>>> The kasan is reporting that child->real_parent (or maybe child->real_parent->real_parent
>>>> or child->real_parent->real_parent->real_parent ...) was pointing to already freed memory,
>>>> isn't it?
>>>
>>> Yes. and you know, I am all confused. I no longer can understand you :/
>>
>> Why don't we need to check every time like shown below?
>> Why checking only once is sufficient?
>
> Why do you think it is not sufficient?
>
> Again, I can be easily wrong, rcu is not simple, but so far I think we need
> a single check at the start.
>

Hmm, this report is difficult to guess what happened.

Since the "child" passed to task_is_descendant() has at least one reference
count taken by find_get_task_by_vpid(), rcu_dereference(walker->real_parent)
in the first iteration

while (child->pid > 0) {
if (!thread_group_leader(child))
walker = rcu_dereference(child->group_leader);
if (walker == parent) {
rc = 1;
break;
}
walker = rcu_dereference(walker->real_parent);
}

must not trigger use-after-free bug. Thus, when this use-after-free was
detected at rcu_dereference(walker->real_parent), the memory pointed by
"walker" must have been released between

while (walker->pid > 0) {
if (!thread_group_leader(walker))
walker = rcu_dereference(walker->group_leader);

and

walker = rcu_dereference(walker->real_parent);
}

because otherwise use-after-free would have been reported at walker->pid
or thread_group_leader(walker) or rcu_dereference(walker->group_leader).

Is my understanding correct?

Then, what pid_alive(child) is testing? It is not memory pointed by "child" but
memory pointed by "walker" (i.e. parent of "child" or parent of parent of "child"
or ... ) which is triggering use-after-free.

Suppose p1 == p2->real_parent and p2 == p3->real_parent, and p1 exited
when p2 tried to attach on p1, p2->real_parent was pointing to already
(or about to be) freed p1.

Even if pid_alive(p2) test can guarantee that p1 won't be released,
how can pid_alive(p3) test guarantee that p1 won't be released?
p1 can be released any moment because it has already waited for RCU
grace period, can't it?

ptrace(PTRACE_ATTACH, vpid_of_p2) {
p2 = find_get_task_by_vpid(vpid_of_p2);
ptrace_attach(p2, PTRACE_ATTACH, addr, data) {
mutex_lock_interruptible(&p2->signal->cred_guard_mutex);
// p1 starts exit()ing here.
task_lock(p2);
__ptrace_may_access(p2) {
// p2->real_parent starts pointing to already freed p1.
security_ptrace_access_check(p2, PTRACE_MODE_ATTACH) {
yama_ptrace_access_check() {
task_is_descendant(current, p2) {
walker = p2;
rcu_read_lock();
if (pid_alive(p2)) { // If true
if (p2->pid > 0) { // will be true
p1 = rcu_dereference(p2->real_parent); // might be OK due to pid_alive(p2) == true?
}
}
rcu_read_unlock();
}
}
}
}
task_unlock(p2);
mutex_unlock(&p2->signal->cred_guard_mutex);
}
put_task_struct(p2);
}

ptrace(PTRACE_ATTACH, vpid_of_p3) {
p3 = find_get_task_by_vpid(vpid_of_p3);
ptrace_attach(p3, PTRACE_ATTACH, addr, data) {
mutex_lock_interruptible(&p3->signal->cred_guard_mutex);
// p1 starts exit()ing here.
task_lock(p3);
__ptrace_may_access(p3) {
// p2->real_parent starts pointing to already freed p1.
security_ptrace_access_check(p3, PTRACE_MODE_ATTACH) {
yama_ptrace_access_check() {
task_is_descendant(current, p3) {
walker = p3;
rcu_read_lock();
if (pid_alive(p3)) { // If true
if (p3->pid > 0) { // will be true
p2 = rcu_dereference(p3->real_parent); // will be OK if above assumption is OK.
if (p2->pid > 0) { // will be true
p1 = rcu_dereference(p2->real_parent); // will read already (or about to be) freed p1 address
if (p1->pid > 0) { // Oops here or
if (!thread_group_leader(p1)) // oops here or
p1 = rcu_dereference(p1->group_leader); // oops here or
p0 = rcu_dereference(p1->real_parent); // oops here, or not oops because releasing after this
}
}
}
}
rcu_read_unlock();
}
}
}
}
task_unlock(p3);
mutex_unlock(&p3->signal->cred_guard_mutex);
}
put_task_struct(p3);
}

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