[<prev] [next>] [<thread-prev] [thread-next>] [day] [month] [year] [list]
Message-ID: <87tv19tv65.fsf@x220.int.ebiederm.org>
Date: Thu, 23 Apr 2020 22:33:06 -0500
From: ebiederm@...ssion.com (Eric W. Biederman)
To: Linus Torvalds <torvalds@...ux-foundation.org>
Cc: LKML <linux-kernel@...r.kernel.org>,
Linux FS Devel <linux-fsdevel@...r.kernel.org>,
Alexey Dobriyan <adobriyan@...il.com>,
Alexey Gladkov <legion@...nel.org>,
Andrew Morton <akpm@...ux-foundation.org>,
Oleg Nesterov <oleg@...hat.com>,
Alexey Gladkov <gladkov.alexey@...il.com>
Subject: Re: [PATCH v2 2/2] proc: Ensure we see the exit of each process tid exactly
Linus Torvalds <torvalds@...ux-foundation.org> writes:
> On Thu, Apr 23, 2020 at 12:42 PM Eric W. Biederman
> <ebiederm@...ssion.com> wrote:
>>
>> +void exchange_tids(struct task_struct *ntask, struct task_struct *otask)
>> +{
>> + /* pid_links[PIDTYPE_PID].next is always NULL */
>> + struct pid *npid = READ_ONCE(ntask->thread_pid);
>> + struct pid *opid = READ_ONCE(otask->thread_pid);
>> +
>> + rcu_assign_pointer(opid->tasks[PIDTYPE_PID].first, &ntask->pid_links[PIDTYPE_PID]);
>> + rcu_assign_pointer(npid->tasks[PIDTYPE_PID].first, &otask->pid_links[PIDTYPE_PID]);
>> + rcu_assign_pointer(ntask->thread_pid, opid);
>> + rcu_assign_pointer(otask->thread_pid, npid);
>> + WRITE_ONCE(ntask->pid_links[PIDTYPE_PID].pprev, &opid->tasks[PIDTYPE_PID].first);
>> + WRITE_ONCE(otask->pid_links[PIDTYPE_PID].pprev, &npid->tasks[PIDTYPE_PID].first);
>> + WRITE_ONCE(ntask->pid, pid_nr(opid));
>> + WRITE_ONCE(otask->pid, pid_nr(npid));
>> +}
>
> This function is _very_ hard to read as written.
>
> It really wants a helper function to do the swapping per hlist_head
> and hlist_node, I think. And "opid/npid" is very hard to see, and the
> naming doesn't make much sense (if it's an "exchange", then why is it
> "old/new" - they're symmetric).
>
> At least something like
>
> struct hlist_head *old_pid_hlist = opid->tasks + PIDTYPE_PID;
> struct hlist_head *new_pid_hlist = npid->tasks + PIDTYPE_PID;
> struct hlist_node *old_pid_node = otask->pid_links + PIDTYPE_PID;
> struct hlist_node *new_pid_node = ntask->pid_links + PIDTYPE_PID;
>
> struct hlist_node *old_first_node = old_pid_hlist->first;
> struct hlist_node *new_first_node = new_pid_hlist->first;
>
> and then trying to group up the first/pprev/thread_pid/pid accesses
> so that you them together, and using a helper function that does the
> whole switch, so that you'd have
>
> /* Move new node to old hlist, and update thread_pid/pid fields */
> insert_pid_pointers(old_pid_hlist, new_pid_node, new_first_node);
> rcu_assign_pointer(ntask->thread_pid, opid);
> WRITE_ONCE(ntask->pid, pid_nr(opid));
>
> /* Move old new to new hlist, and update thread_pid/pid fields */
> insert_pid_pointers(new_pid_hlist, old_pid_node, old_first_node);
> rcu_assign_pointer(otask->thread_pid, npid);
> WRITE_ONCE(otask->pid, pid_nr(npid));
>
> or something roughly like that.
>
> (And the above still uses "old/new", which as mentioned sounds wrong
> to me. Maybe it should just be "a_xyz" and "b_xyz"? Also note that I
> did this in my MUA, so I could have gotten the names and types wrong
> etc).
>
> I think that would make it look at least _slightly_ less like random
> line noise and easier to follow.
>
> But maybe even a rcu_hlist_swap() helper? We have one for regular
> lists. Do we really have to do it all written out, not do it with a
> "remove and reinsert" model?
At one point my brain I had forgetten that xchg can not take two memory
arguments and had hoped to be able to provide stronger guarnatees than I
can. Which is where I think the structure of exchange_pids came from.
I do agree the clearer we can write things, the easier it is for
someone else to come along and follow.
We can not use a remove and reinser model because that does break rcu
accesses, and complicates everything else. With a swap model we have
the struct pids pointer at either of the tasks that are swapped but
never at nothing. With a remove/reinsert model we have to deal the
addittional possibility of the pids not pointing at a thread at all
which can result in things like signals not being delivered at all.
I played with it a bit and the best I have been able to come up is:
void hlist_swap_before_rcu(struct hlist_node *left, struct hlist_node *right)
{
struct hlist_node **lpprev = left->pprev;
struct hlist_node **rpprev = right->pprev;
rcu_assign_pointer(*lpprev, right);
rcu_assign_pointer(*rpprev, left);
WRITE_ONCE(left->pprev, rpprev);
WRITE_ONCE(right->pprev, lpprev);
}
void exchange_tids(struct task_struct *left, struct task_struct *right)
{
struct hlist_node *lnode = &left->pid_links[PIDTYPE_PID];
struct hlist_node *rnode = &right->pid_links[PIDTYPE_PID];
struct pid *lpid, *rpid;
/* Replace the single entry tid lists with each other */
hlist_swap_before_rcu(lnode, rnode);
/* Swap thread_pid */
rpid = left->thread_pid;
lpid = right->thread_pid;
rcu_assign_pointer(left->thread_pid, lpid);
rcu_assign_pointer(right->thread_pid, rpid);
/* Swap the cached pid value */
WRITE_ONCE(left->pid, pid_nr(lpid));
WRITE_ONCE(right->pid, pid_nr(rpid));
}
hlists because they are not doubly linked can legitimately swap their
beginnings or their tails. Something that regular lists can not,
and I think that is exactly the general purpose semantic I want.
Does that look a little more readable?
Eric
Powered by blists - more mailing lists