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Date: Fri, 24 Feb 2012 17:08:07 -0800
From: Mat Martineau <mathewm@codeaurora.org>
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To: Ulisses Furquim <ulisses@profusion.mobi>
CC: linux-bluetooth@vger.kernel.org, padovan@profusion.mobi,
 pkrystad@codeaurora.org, marcel@holtmann.org, luiz.dentz@gmail.com,
 andrei.emeltchenko.news@gmail.com
Subject: Re: [RFC 2/2] Bluetooth: L2CAP ERTM state machine replacement
References: <1330029469-8565-1-git-send-email-mathewm@codeaurora.org> <1330029469-8565-3-git-send-email-mathewm@codeaurora.org> <CAA37ikYHwKfBV8Ojgqoc8XYQpgv2oHFkzZA6NEZgFkF9nVjBSw@mail.gmail.com>
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On 2/24/2012 12:13 PM, Ulisses Furquim wrote:
> Hi Mat,
>
> On Thu, Feb 23, 2012 at 6:37 PM, Mat Martineau<mathewm@codeaurora.org>  wrote:
>> The previous ERTM implementation had a handler for each frame type,
>> and each handler had to figure out what the current state was and
>> handle each frame accordingly.
>>
>> This implementation has a state machine that chooses an execution path
>> first based on the receive or transmit state, then each state has
>> handlers for the frame types. This is easier to match up with the
>> spec, which is defined similarly.
>>
>> Signed-off-by: Mat Martineau<mathewm@codeaurora.org>
>
> <snip>
>
> @@ -1245,7 +1457,8 @@ int __l2cap_wait_ack(struct sock *sk)
>
>          add_wait_queue(sk_sleep(sk),&wait);
>          set_current_state(TASK_INTERRUPTIBLE);
> -       while (chan->unacked_frames>  0&&  chan->conn) {
> +       while (chan->unacked_frames>  0&&  chan->conn&&
> +               atomic_read(&chan->ertm_queued)) {
>                  if (!timeo)
>                          timeo = HZ/5;
>
> Can we have unacked_frames>  0 and nothing queued? Or have I misinterpreted?

In normal operation, there should be unacked frames when ertm_queued is 
non-zero.  I think I ran in to a corner case with AMP, where 
unacked_frames can be forced to 0 during a channel move.  There are AMP 
components to the state machine that are not included in this patch.

>
> <snip>
>
> +               BT_DBG("Sent txseq %d", (int)control->txseq);
>
> -               skb = skb_queue_next(&chan->tx_q, skb);
> +               chan->next_tx_seq = __next_seq(chan->next_tx_seq, chan);
> +               chan->frames_sent += 1;
> +               sent += 1;
>
> Nitpick here. frames_sent++ and sent++ ? Happens in other places as
> well so I won't copy all of them here.

Ok, will fix.

>
> <snip>
>
> -               if (bt_cb(skb)->retries == 1) {
> -                       chan->unacked_frames++;
> +               l2cap_chan_hold(chan);
> +               sock_hold(chan->sk);
> +               tx_skb->sk = chan->sk;
>
> Do we really need these? Do we always have chan->sk? (We have that in
> l2cap_ertm_send() and l2cap_ertm_resend()).

The upstream ERTM code still relies on having chan->sk, so I didn't try 
to finish splitting channels & sockets within this patch.  skb 
destructors expect to have an sk pointer, so it is critical to modify 
these reference counts so the socket and chan are around when the skb 
leaves the hci tx queue.

>
> <snip>
>
> +               keep_sk = schedule_work(&chan->tx_work);
>
> Would make sense to schedule this in hdev->workqueue?

It's a tradeoff.  If this is scheduled on hdev->workqueue, then that 
workqueue can get blocked waiting for the socket lock.  If these are 
scheduled on the system workqueue, there is potential for more latency 
(but it hasn't been a problem in practice, even with AMP data rates).

>
> <snip>
>
> +static void l2cap_ertm_tx_worker(struct work_struct *work)
>   {
>
> Why do we need this worker?

To control the depth of the hci tx queue.  Without this, you end up with 
an entire tx window of iframes queued up at the hci layer.  When an 
sframe shows up from the remote device and you have to retransmit, or 
when an sframe needs to be sent, then retransmissions and sframes have 
to get queued behind that full tx window of iframes.  It adds a HUGE 
amount of latency in those situations, which leads to ERTM timeouts and 
disconnects that are not necessary.  ERTM works much, much better with 
lossy connections (like AMP) if it does not flood the hci tx queue.

We had a discussion on the list about how to solve this.  The idea is to 
push most queuing up to the L2CAP layer, and have the hci scheduler call 
up to L2CAP to fetch frames.  However, this hasn't been implemented yet.

>
> -       int ret;
> +       struct l2cap_chan *chan =
> +               container_of(work, struct l2cap_chan, tx_work);
>
> -       if (!skb_queue_empty(&chan->tx_q))
> -               chan->tx_send_head = chan->tx_q.next;
> +       BT_DBG("%p", chan);
>
> -       chan->next_tx_seq = chan->expected_ack_seq;
> -       ret = l2cap_ertm_send(chan);
> -       return ret;
> +       lock_sock(chan->sk);
> +       l2cap_ertm_send(chan);
> +       release_sock(chan->sk);
>
> Can't we just use l2cap_chan_lock()/l2cap_chan_unlock() here? (I'm
> assuming you saw the patches creating a lock in l2cap_chan to protect
> it) Do we always have sk?

l2cap_chan_lock() is pretty new!  Yes, I should use that to guard the 
ERTM state.

Right now, we do still always have sk, but that is changing (as it should).

> +       sock_put(chan->sk);
> +       l2cap_chan_put(chan);
>   }
>
> <snip>
>
> +static void l2cap_monitor_timeout(struct work_struct *work)
> +{
> +       struct l2cap_chan *chan = container_of(work, struct l2cap_chan,
> +                                                       monitor_timer.work);
> +       struct sock *sk = chan->sk;
> +
> +       BT_DBG("chan %p", chan);
> +
> +       lock_sock(sk);
> +
> +       if (!chan->conn) {
> +               release_sock(sk);
> +               l2cap_chan_put(chan);
> +               return;
> +       }
> +
> +       l2cap_ertm_tx(chan, 0, 0, L2CAP_ERTM_EVENT_MONITOR_TIMER_EXPIRES);
> +
> +       release_sock(sk);
> +       l2cap_chan_put(chan);
> +}
>
> Here we might need to use l2cap_chan_lock/unlock instead of
> lock_sock/release_sock.

Agreed.

>
> +static void l2cap_retrans_timeout(struct work_struct *work)
> +{
> +       struct l2cap_chan *chan = container_of(work, struct l2cap_chan,
> +                                                       retrans_timer.work);
> +       struct sock *sk = chan->sk;
> +
> +       BT_DBG("chan %p", chan);
> +
> +       lock_sock(sk);
> +
> +       if (!chan->conn) {
> +               release_sock(sk);
> +               l2cap_chan_put(chan);
> +               return;
> +       }
> +
> +       l2cap_ertm_tx(chan, 0, 0, L2CAP_ERTM_EVENT_RETRANS_TIMER_EXPIRES);
> +       release_sock(sk);
> +       l2cap_chan_put(chan);
>
> And here as well.
>
> Ok, that's it for now. Have you run this code through PTS or any other
> test? I haven't checked the actual bits of ERTM but since we're
> replacing the current state machine code we need to be somewhat sure
> this code is as good as or even better than the current one.
> Introducing too many regressions would be really bad IMHO.

The kernel I'm porting from is qualified, listed, interop'd, UPF'd, and 
heavily tested -- but I haven't validated this port yet.  I will 
definitely run this through PTS and test against other ERTM 
implementations before we merge the changes.

-- 
Mat Martineau
Employee of Qualcomm Innovation Center, Inc.
Qualcomm Innovation Center, Inc. is a member of Code Aurora Forum