Re: [PATCH net 1/5] net/smc: fix dangling sock under state SMC_APPFINCLOSEWAIT

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On Tue, Oct 17, 2023 at 10:00:28AM +0800, D. Wythe wrote:
>
>
>On 10/13/23 8:27 PM, Dust Li wrote:
>> On Fri, Oct 13, 2023 at 01:52:09PM +0200, Wenjia Zhang wrote:
>> > 
>> > On 13.10.23 07:32, Dust Li wrote:
>> > > On Thu, Oct 12, 2023 at 01:51:54PM +0200, Wenjia Zhang wrote:
>> > > > 
>> > > > On 12.10.23 04:37, D. Wythe wrote:
>> > > > > 
>> > > > > On 10/12/23 4:31 AM, Wenjia Zhang wrote:
>> > > > > > 
>> > > > > > On 11.10.23 09:33, D. Wythe wrote:
>> > > > > > > From: "D. Wythe" <alibuda@xxxxxxxxxxxxxxxxx>
>> > > > > > > 
>> > > > > > > Considering scenario:
>> > > > > > > 
>> > > > > > >                   smc_cdc_rx_handler_rwwi
>> > > > > > > __smc_release
>> > > > > > >                   sock_set_flag
>> > > > > > > smc_close_active()
>> > > > > > > sock_set_flag
>> > > > > > > 
>> > > > > > > __set_bit(DEAD)            __set_bit(DONE)
>> > > > > > > 
>> > > > > > > Dues to __set_bit is not atomic, the DEAD or DONE might be lost.
>> > > > > > > if the DEAD flag lost, the state SMC_CLOSED  will be never be reached
>> > > > > > > in smc_close_passive_work:
>> > > > > > > 
>> > > > > > > if (sock_flag(sk, SOCK_DEAD) &&
>> > > > > > >       smc_close_sent_any_close(conn)) {
>> > > > > > >       sk->sk_state = SMC_CLOSED;
>> > > > > > > } else {
>> > > > > > >       /* just shutdown, but not yet closed locally */
>> > > > > > >       sk->sk_state = SMC_APPFINCLOSEWAIT;
>> > > > > > > }
>> > > > > > > 
>> > > > > > > Replace sock_set_flags or __set_bit to set_bit will fix this problem.
>> > > > > > > Since set_bit is atomic.
>> > > > > > > 
>> > > > > > I didn't really understand the scenario. What is
>> > > > > > smc_cdc_rx_handler_rwwi()? What does it do? Don't it get the lock
>> > > > > > during the runtime?
>> > > > > > 
>> > > > > Hi Wenjia,
>> > > > > 
>> > > > > Sorry for that, It is not smc_cdc_rx_handler_rwwi() but
>> > > > > smc_cdc_rx_handler();
>> > > > > 
>> > > > > Following is a more specific description of the issues
>> > > > > 
>> > > > > 
>> > > > > lock_sock()
>> > > > > __smc_release
>> > > > > 
>> > > > > smc_cdc_rx_handler()
>> > > > > smc_cdc_msg_recv()
>> > > > > bh_lock_sock()
>> > > > > smc_cdc_msg_recv_action()
>> > > > > sock_set_flag(DONE) sock_set_flag(DEAD)
>> > > > > __set_bit __set_bit
>> > > > > bh_unlock_sock()
>> > > > > release_sock()
>> > > > > 
>> > > > > 
>> > > > > 
>> > > > > Note : |bh_lock_sock|and |lock_sock|are not mutually exclusive. They are
>> > > > > actually used for different purposes and contexts.
>> > > > > 
>> > > > > 
>> > > > ok, that's true that |bh_lock_sock|and |lock_sock|are not really mutually
>> > > > exclusive. However, since bh_lock_sock() is used, this scenario you described
>> > > > above should not happen, because that gets the sk_lock.slock. Following this
>> > > > scenarios, IMO, only the following situation can happen.
>> > > > 
>> > > > lock_sock()
>> > > > __smc_release
>> > > > 
>> > > > smc_cdc_rx_handler()
>> > > > smc_cdc_msg_recv()
>> > > > bh_lock_sock()
>> > > > smc_cdc_msg_recv_action()
>> > > > sock_set_flag(DONE)
>> > > > bh_unlock_sock()
>> > > > sock_set_flag(DEAD)
>> > > > release_sock()
>> > > Hi wenjia,
>> > > 
>> > > I think I know what D. Wythe means now, and I think he is right on this.
>> > > 
>> > > IIUC, in process context, lock_sock() won't respect bh_lock_sock() if it
>> > > acquires the lock before bh_lock_sock(). This is how the sock lock works.
>> > > 
>> > >       PROCESS CONTEXT                                 INTERRUPT CONTEXT
>> > > ------------------------------------------------------------------------
>> > > lock_sock()
>> > >       spin_lock_bh(&sk->sk_lock.slock);
>> > >       ...
>> > >       sk->sk_lock.owned = 1;
>> > >       // here the spinlock is released
>> > >       spin_unlock_bh(&sk->sk_lock.slock);
>> > > __smc_release()
>> > >                                                      bh_lock_sock(&smc->sk);
>> > >                                                      smc_cdc_msg_recv_action(smc, cdc);
>> > >                                                          sock_set_flag(&smc->sk, SOCK_DONE);
>> > >                                                      bh_unlock_sock(&smc->sk);
>> > > 
>> > >       sock_set_flag(DEAD)  <-- Can be before or after sock_set_flag(DONE)
>> > > release_sock()
>> > > 
>> > > The bh_lock_sock() only spins on sk->sk_lock.slock, which is already released
>> > > after lock_sock() return. Therefor, there is actually no lock between
>> > > the code after lock_sock() and before release_sock() with bh_lock_sock()...bh_unlock_sock().
>> > > Thus, sock_set_flag(DEAD) won't respect bh_lock_sock() at all, and might be
>> > > before or after sock_set_flag(DONE).
>> > > 
>> > > 
>> > > Actually, in TCP, the interrupt context will check sock_owned_by_user().
>> > > If it returns true, the softirq just defer the process to backlog, and process
>> > > that in release_sock(). Which avoid the race between softirq and process
>> > > when visiting the 'struct sock'.
>> > > 
>> > > tcp_v4_rcv()
>> > >            bh_lock_sock_nested(sk);
>> > >            tcp_segs_in(tcp_sk(sk), skb);
>> > >            ret = 0;
>> > >            if (!sock_owned_by_user(sk)) {
>> > >                    ret = tcp_v4_do_rcv(sk, skb);
>> > >            } else {
>> > >                    if (tcp_add_backlog(sk, skb, &drop_reason))
>> > >                            goto discard_and_relse;
>> > >            }
>> > >            bh_unlock_sock(sk);
>> > > 
>> > > 
>> > > But in SMC we don't have a backlog, that means fields in 'struct sock'
>> > > might all have race, and this sock_set_flag() is just one of the cases.
>> > > 
>> > > Best regards,
>> > > Dust
>> > > 
>> > I agree on your description above.
>> > Sure, the following case 1) can also happen
>> > 
>> > case 1)
>> > -------
>> > lock_sock()
>> > __smc_release
>> > 
>> > sock_set_flag(DEAD)
>> > bh_lock_sock()
>> > smc_cdc_msg_recv_action()
>> > sock_set_flag(DONE)
>> > bh_unlock_sock()
>> > release_sock()
>> > 
>> > case 2)
>> > -------
>> > lock_sock()
>> > __smc_release
>> > 
>> > bh_lock_sock()
>> > smc_cdc_msg_recv_action()
>> > sock_set_flag(DONE) sock_set_flag(DEAD)
>> > __set_bit __set_bit
>> > bh_unlock_sock()
>> > release_sock()
>> > 
>> > My point here is that case2) can never happen. i.e that sock_set_flag(DONE)
>> > and sock_set_flag(DEAD) can not happen concurrently. Thus, how could
>> > the atomic set help make sure that the Dead flag would not be overwritten
>> > with DONE?
>> I agree with you on this. I also don't see using atomic can
>> solve the problem of overwriting the DEAD flag with DONE.
>> 
>> I think we need some mechanisms to ensure that sk_flags and other
>> struct sock related fields are not modified simultaneously.
>> 
>> Best regards,
>> Dust
>
>It seems that everyone has agrees on that case 2 is impossible. I'm a bit
>confused, why that
>sock_set_flag(DONE) and sock_set_flag(DEAD) can not happen concurrently. What
>mechanism
>prevents their parallel execution?

Upon reviewing the code again, I realize that my previous understanding
was incorrect. I mistakenly believed that the DEAD and DONE flags would
overwrite each other, without realizing that sk_flags is actually used
as a bitmap.

So, I think you are right, using atomic will ensure that the DEAD flag is
always set.

Best regards,
Dust




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