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git://git.openwrt.org/openwrt/openwrt.git
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3a9b6dc313
SVN-Revision: 31336
189 lines
7.5 KiB
Diff
189 lines
7.5 KiB
Diff
From 9d02daf754238adac48fa075ee79e7edd3d79ed3 Mon Sep 17 00:00:00 2001
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From: David Woodhouse <dwmw2@infradead.org>
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Date: Sun, 8 Apr 2012 09:55:43 +0000
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Subject: [PATCH] pppoatm: Fix excessive queue bloat
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We discovered that PPPoATM has an excessively deep transmit queue. A
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queue the size of the default socket send buffer (wmem_default) is
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maintained between the PPP generic core and the ATM device.
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Fix it to queue a maximum of *two* packets. The one the ATM device is
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currently working on, and one more for the ATM driver to process
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immediately in its TX done interrupt handler. The PPP core is designed
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to feed packets to the channel with minimal latency, so that really
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ought to be enough to keep the ATM device busy.
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While we're at it, fix the fact that we were triggering the wakeup
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tasklet on *every* pppoatm_pop() call. The comment saying "this is
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inefficient, but doing it right is too hard" turns out to be overly
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pessimistic... I think :)
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On machines like the Traverse Geos, with a slow Geode CPU and two
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high-speed ADSL2+ interfaces, there were reports of extremely high CPU
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usage which could partly be attributed to the extra wakeups.
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(The wakeup handling could actually be made a whole lot easier if we
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stop checking sk->sk_sndbuf altogether. Given that we now only queue
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*two* packets ever, one wonders what the point is. As it is, you could
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already deadlock the thing by setting the sk_sndbuf to a value lower
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than the MTU of the device, and it'd just block for ever.)
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Signed-off-by: David Woodhouse <David.Woodhouse@intel.com>
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Signed-off-by: David S. Miller <davem@davemloft.net>
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---
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net/atm/pppoatm.c | 95 +++++++++++++++++++++++++++++++++++++++++++++++-----
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1 files changed, 85 insertions(+), 10 deletions(-)
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--- a/net/atm/pppoatm.c
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+++ b/net/atm/pppoatm.c
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@@ -62,12 +62,25 @@ struct pppoatm_vcc {
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void (*old_pop)(struct atm_vcc *, struct sk_buff *);
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/* keep old push/pop for detaching */
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enum pppoatm_encaps encaps;
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+ atomic_t inflight;
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+ unsigned long blocked;
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int flags; /* SC_COMP_PROT - compress protocol */
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struct ppp_channel chan; /* interface to generic ppp layer */
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struct tasklet_struct wakeup_tasklet;
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};
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/*
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+ * We want to allow two packets in the queue. The one that's currently in
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+ * flight, and *one* queued up ready for the ATM device to send immediately
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+ * from its TX done IRQ. We want to be able to use atomic_inc_not_zero(), so
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+ * inflight == -2 represents an empty queue, -1 one packet, and zero means
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+ * there are two packets in the queue.
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+ */
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+#define NONE_INFLIGHT -2
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+
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+#define BLOCKED 0
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+
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+/*
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* Header used for LLC Encapsulated PPP (4 bytes) followed by the LCP protocol
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* ID (0xC021) used in autodetection
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*/
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@@ -102,16 +115,30 @@ static void pppoatm_wakeup_sender(unsign
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static void pppoatm_pop(struct atm_vcc *atmvcc, struct sk_buff *skb)
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{
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struct pppoatm_vcc *pvcc = atmvcc_to_pvcc(atmvcc);
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+
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pvcc->old_pop(atmvcc, skb);
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+ atomic_dec(&pvcc->inflight);
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+
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/*
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- * We don't really always want to do this since it's
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- * really inefficient - it would be much better if we could
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- * test if we had actually throttled the generic layer.
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- * Unfortunately then there would be a nasty SMP race where
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- * we could clear that flag just as we refuse another packet.
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- * For now we do the safe thing.
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+ * We always used to run the wakeup tasklet unconditionally here, for
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+ * fear of race conditions where we clear the BLOCKED flag just as we
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+ * refuse another packet in pppoatm_send(). This was quite inefficient.
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+ *
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+ * In fact it's OK. The PPP core will only ever call pppoatm_send()
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+ * while holding the channel->downl lock. And ppp_output_wakeup() as
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+ * called by the tasklet will *also* grab that lock. So even if another
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+ * CPU is in pppoatm_send() right now, the tasklet isn't going to race
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+ * with it. The wakeup *will* happen after the other CPU is safely out
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+ * of pppoatm_send() again.
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+ *
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+ * So if the CPU in pppoatm_send() has already set the BLOCKED bit and
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+ * it about to return, that's fine. We trigger a wakeup which will
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+ * happen later. And if the CPU in pppoatm_send() *hasn't* set the
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+ * BLOCKED bit yet, that's fine too because of the double check in
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+ * pppoatm_may_send() which is commented there.
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*/
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- tasklet_schedule(&pvcc->wakeup_tasklet);
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+ if (test_and_clear_bit(BLOCKED, &pvcc->blocked))
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+ tasklet_schedule(&pvcc->wakeup_tasklet);
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}
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/*
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@@ -184,6 +211,51 @@ error:
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ppp_input_error(&pvcc->chan, 0);
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}
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+static inline int pppoatm_may_send(struct pppoatm_vcc *pvcc, int size)
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+{
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+ /*
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+ * It's not clear that we need to bother with using atm_may_send()
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+ * to check we don't exceed sk->sk_sndbuf. If userspace sets a
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+ * value of sk_sndbuf which is lower than the MTU, we're going to
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+ * block for ever. But the code always did that before we introduced
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+ * the packet count limit, so...
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+ */
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+ if (atm_may_send(pvcc->atmvcc, size) &&
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+ atomic_inc_not_zero_hint(&pvcc->inflight, NONE_INFLIGHT))
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+ return 1;
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+
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+ /*
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+ * We use test_and_set_bit() rather than set_bit() here because
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+ * we need to ensure there's a memory barrier after it. The bit
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+ * *must* be set before we do the atomic_inc() on pvcc->inflight.
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+ * There's no smp_mb__after_set_bit(), so it's this or abuse
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+ * smp_mb__after_clear_bit().
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+ */
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+ test_and_set_bit(BLOCKED, &pvcc->blocked);
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+
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+ /*
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+ * We may have raced with pppoatm_pop(). If it ran for the
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+ * last packet in the queue, *just* before we set the BLOCKED
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+ * bit, then it might never run again and the channel could
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+ * remain permanently blocked. Cope with that race by checking
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+ * *again*. If it did run in that window, we'll have space on
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+ * the queue now and can return success. It's harmless to leave
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+ * the BLOCKED flag set, since it's only used as a trigger to
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+ * run the wakeup tasklet. Another wakeup will never hurt.
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+ * If pppoatm_pop() is running but hasn't got as far as making
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+ * space on the queue yet, then it hasn't checked the BLOCKED
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+ * flag yet either, so we're safe in that case too. It'll issue
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+ * an "immediate" wakeup... where "immediate" actually involves
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+ * taking the PPP channel's ->downl lock, which is held by the
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+ * code path that calls pppoatm_send(), and is thus going to
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+ * wait for us to finish.
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+ */
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+ if (atm_may_send(pvcc->atmvcc, size) &&
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+ atomic_inc_not_zero(&pvcc->inflight))
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+ return 1;
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+
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+ return 0;
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+}
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/*
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* Called by the ppp_generic.c to send a packet - returns true if packet
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* was accepted. If we return false, then it's our job to call
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@@ -207,7 +279,7 @@ static int pppoatm_send(struct ppp_chann
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struct sk_buff *n;
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n = skb_realloc_headroom(skb, LLC_LEN);
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if (n != NULL &&
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- !atm_may_send(pvcc->atmvcc, n->truesize)) {
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+ !pppoatm_may_send(pvcc, n->truesize)) {
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kfree_skb(n);
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goto nospace;
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}
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@@ -215,12 +287,12 @@ static int pppoatm_send(struct ppp_chann
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skb = n;
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if (skb == NULL)
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return DROP_PACKET;
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- } else if (!atm_may_send(pvcc->atmvcc, skb->truesize))
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+ } else if (!pppoatm_may_send(pvcc, skb->truesize))
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goto nospace;
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memcpy(skb_push(skb, LLC_LEN), pppllc, LLC_LEN);
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break;
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case e_vc:
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- if (!atm_may_send(pvcc->atmvcc, skb->truesize))
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+ if (!pppoatm_may_send(pvcc, skb->truesize))
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goto nospace;
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break;
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case e_autodetect:
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@@ -285,6 +357,9 @@ static int pppoatm_assign_vcc(struct atm
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if (pvcc == NULL)
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return -ENOMEM;
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pvcc->atmvcc = atmvcc;
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+
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+ /* Maximum is zero, so that we can use atomic_inc_not_zero() */
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+ atomic_set(&pvcc->inflight, NONE_INFLIGHT);
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pvcc->old_push = atmvcc->push;
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pvcc->old_pop = atmvcc->pop;
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pvcc->encaps = (enum pppoatm_encaps) be.encaps;
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