Message ID | 20241029-b4-ovpn-v11-15-de4698c73a25@openvpn.net |
---|---|
State | New |
Headers | show |
Series | Introducing OpenVPN Data Channel Offload | expand |
2024-10-29, 11:47:28 +0100, Antonio Quartulli wrote: > @@ -105,6 +132,9 @@ void ovpn_decrypt_post(void *data, int ret) > goto drop; > } > > + /* keep track of last received authenticated packet for keepalive */ > + peer->last_recv = ktime_get_real_seconds(); It doesn't look like we're locking the peer here so that should be a WRITE_ONCE() (and READ_ONCE(peer->last_recv) for all reads). > + > /* point to encapsulated IP packet */ > __skb_pull(skb, payload_offset); > > @@ -121,6 +151,12 @@ void ovpn_decrypt_post(void *data, int ret) > goto drop; > } > > + if (ovpn_is_keepalive(skb)) { > + net_dbg_ratelimited("%s: ping received from peer %u\n", > + peer->ovpn->dev->name, peer->id); > + goto drop; To help with debugging connectivity issues, maybe keepalives shouldn't be counted as drops? (consume_skb instead of kfree_skb, and not incrementing rx_dropped) The packet was successfully received and did all it had to do. > + } > + > net_info_ratelimited("%s: unsupported protocol received from peer %u\n", > peer->ovpn->dev->name, peer->id); > goto drop; > @@ -221,6 +257,10 @@ void ovpn_encrypt_post(void *data, int ret) > /* no transport configured yet */ > goto err; > } > + > + /* keep track of last sent packet for keepalive */ > + peer->last_sent = ktime_get_real_seconds(); And another WRITE_ONCE() here (also paired with READ_ONCE() on the read side). > +static int ovpn_peer_del_nolock(struct ovpn_peer *peer, > + enum ovpn_del_peer_reason reason) > +{ > + switch (peer->ovpn->mode) { > + case OVPN_MODE_MP: I think it would be nice to add lockdep_assert_held(&peer->ovpn->peers->lock); > + return ovpn_peer_del_mp(peer, reason); > + case OVPN_MODE_P2P: and here lockdep_assert_held(&peer->ovpn->lock); (I had to check that ovpn_peer_del_nolock is indeed called with those locks held since they're taken by ovpn_peer_keepalive_work_{mp,p2p}, adding these assertions would make it clear that ovpn_peer_del_nolock is not an unsafe version of ovpn_peer_del) > + return ovpn_peer_del_p2p(peer, reason); > + default: > + return -EOPNOTSUPP; > + } > +} > + > /** > * ovpn_peers_free - free all peers in the instance > * @ovpn: the instance whose peers should be released > @@ -830,3 +871,150 @@ void ovpn_peers_free(struct ovpn_struct *ovpn) > ovpn_peer_unhash(peer, OVPN_DEL_PEER_REASON_TEARDOWN); > spin_unlock_bh(&ovpn->peers->lock); > } > + > +static time64_t ovpn_peer_keepalive_work_single(struct ovpn_peer *peer, > + time64_t now) > +{ > + time64_t next_run1, next_run2, delta; > + unsigned long timeout, interval; > + bool expired; > + > + spin_lock_bh(&peer->lock); > + /* we expect both timers to be configured at the same time, > + * therefore bail out if either is not set > + */ > + if (!peer->keepalive_timeout || !peer->keepalive_interval) { > + spin_unlock_bh(&peer->lock); > + return 0; > + } > + > + /* check for peer timeout */ > + expired = false; > + timeout = peer->keepalive_timeout; > + delta = now - peer->last_recv; I'm not sure that's always > 0 if we finish decrypting a packet just as the workqueue starts: ovpn_peer_keepalive_work now = ... ovpn_decrypt_post peer->last_recv = ... ovpn_peer_keepalive_work_single delta: now < peer->last_recv > + if (delta < timeout) { > + peer->keepalive_recv_exp = now + timeout - delta; I'd shorten that to peer->keepalive_recv_exp = peer->last_recv + timeout; it's a bit more readable to my eyes and avoids risks of wrapping values. So I'd probably get rid of delta and go with: last_recv = READ_ONCE(peer->last_recv) if (now < last_recv + timeout) { peer->keepalive_recv_exp = last_recv + timeout; next_run1 = peer->keepalive_recv_exp; } else if ... > + next_run1 = peer->keepalive_recv_exp; > + } else if (peer->keepalive_recv_exp > now) { > + next_run1 = peer->keepalive_recv_exp; > + } else { > + expired = true; > + } [...] > + /* check for peer keepalive */ > + expired = false; > + interval = peer->keepalive_interval; > + delta = now - peer->last_sent; > + if (delta < interval) { > + peer->keepalive_xmit_exp = now + interval - delta; > + next_run2 = peer->keepalive_xmit_exp; and same here
On 05/11/2024 19:10, Sabrina Dubroca wrote: > 2024-10-29, 11:47:28 +0100, Antonio Quartulli wrote: >> @@ -105,6 +132,9 @@ void ovpn_decrypt_post(void *data, int ret) >> goto drop; >> } >> >> + /* keep track of last received authenticated packet for keepalive */ >> + peer->last_recv = ktime_get_real_seconds(); > > It doesn't look like we're locking the peer here so that should be a > WRITE_ONCE() (and READ_ONCE(peer->last_recv) for all reads). Is that because last_recv is 64 bit long (and might be more than one word on certain architectures)? I don't remember having to do so for reading/writing 32 bit long integers. I presume we need a WRITE_ONCE also upon initialization in ovpn_peer_keepalive_set() right? We still want to coordinate that with other reads/writes. > >> + >> /* point to encapsulated IP packet */ >> __skb_pull(skb, payload_offset); >> >> @@ -121,6 +151,12 @@ void ovpn_decrypt_post(void *data, int ret) >> goto drop; >> } >> >> + if (ovpn_is_keepalive(skb)) { >> + net_dbg_ratelimited("%s: ping received from peer %u\n", >> + peer->ovpn->dev->name, peer->id); >> + goto drop; > > To help with debugging connectivity issues, maybe keepalives shouldn't > be counted as drops? (consume_skb instead of kfree_skb, and not > incrementing rx_dropped) > The packet was successfully received and did all it had to do. you're absolutely right. Will change that. > >> + } >> + >> net_info_ratelimited("%s: unsupported protocol received from peer %u\n", >> peer->ovpn->dev->name, peer->id); >> goto drop; >> @@ -221,6 +257,10 @@ void ovpn_encrypt_post(void *data, int ret) >> /* no transport configured yet */ >> goto err; >> } >> + >> + /* keep track of last sent packet for keepalive */ >> + peer->last_sent = ktime_get_real_seconds(); > > And another WRITE_ONCE() here (also paired with READ_ONCE() on the > read side). Yap > > >> +static int ovpn_peer_del_nolock(struct ovpn_peer *peer, >> + enum ovpn_del_peer_reason reason) >> +{ >> + switch (peer->ovpn->mode) { >> + case OVPN_MODE_MP: > > I think it would be nice to add > > lockdep_assert_held(&peer->ovpn->peers->lock); > >> + return ovpn_peer_del_mp(peer, reason); >> + case OVPN_MODE_P2P: > > and here > > lockdep_assert_held(&peer->ovpn->lock); Yeah, good idea. __must_hold() can't work here, so lockdep_assert_held is definitely the way to go. > > (I had to check that ovpn_peer_del_nolock is indeed called with those > locks held since they're taken by ovpn_peer_keepalive_work_{mp,p2p}, > adding these assertions would make it clear that ovpn_peer_del_nolock > is not an unsafe version of ovpn_peer_del) Right, it makes sense. > >> + return ovpn_peer_del_p2p(peer, reason); >> + default: >> + return -EOPNOTSUPP; >> + } >> +} >> + >> /** >> * ovpn_peers_free - free all peers in the instance >> * @ovpn: the instance whose peers should be released >> @@ -830,3 +871,150 @@ void ovpn_peers_free(struct ovpn_struct *ovpn) >> ovpn_peer_unhash(peer, OVPN_DEL_PEER_REASON_TEARDOWN); >> spin_unlock_bh(&ovpn->peers->lock); >> } >> + >> +static time64_t ovpn_peer_keepalive_work_single(struct ovpn_peer *peer, >> + time64_t now) >> +{ >> + time64_t next_run1, next_run2, delta; >> + unsigned long timeout, interval; >> + bool expired; >> + >> + spin_lock_bh(&peer->lock); >> + /* we expect both timers to be configured at the same time, >> + * therefore bail out if either is not set >> + */ >> + if (!peer->keepalive_timeout || !peer->keepalive_interval) { >> + spin_unlock_bh(&peer->lock); >> + return 0; >> + } >> + >> + /* check for peer timeout */ >> + expired = false; >> + timeout = peer->keepalive_timeout; >> + delta = now - peer->last_recv; > > I'm not sure that's always > 0 if we finish decrypting a packet just > as the workqueue starts: > > ovpn_peer_keepalive_work > now = ... > > ovpn_decrypt_post > peer->last_recv = ... > > ovpn_peer_keepalive_work_single > delta: now < peer->last_recv > Yeah, there is nothing preventing this from happening...but is this truly a problem? The math should still work, no? However: > > >> + if (delta < timeout) { >> + peer->keepalive_recv_exp = now + timeout - delta; > > I'd shorten that to > > peer->keepalive_recv_exp = peer->last_recv + timeout; > > it's a bit more readable to my eyes and avoids risks of wrapping > values. > > So I'd probably get rid of delta and go with: > > last_recv = READ_ONCE(peer->last_recv) > if (now < last_recv + timeout) { > peer->keepalive_recv_exp = last_recv + timeout; > next_run1 = peer->keepalive_recv_exp; > } else if ... > >> + next_run1 = peer->keepalive_recv_exp; >> + } else if (peer->keepalive_recv_exp > now) { >> + next_run1 = peer->keepalive_recv_exp; >> + } else { >> + expired = true; >> + } I agree this is simpler to read and gets rid of some extra operations. [note: I took inspiration from nat_keepalive_work_single() - it could be simplified as well I guess] > > [...] >> + /* check for peer keepalive */ >> + expired = false; >> + interval = peer->keepalive_interval; >> + delta = now - peer->last_sent; >> + if (delta < interval) { >> + peer->keepalive_xmit_exp = now + interval - delta; >> + next_run2 = peer->keepalive_xmit_exp; > > and same here Yeah, will change both. Thanks! Regards,
2024-11-12, 14:20:45 +0100, Antonio Quartulli wrote: > On 05/11/2024 19:10, Sabrina Dubroca wrote: > > 2024-10-29, 11:47:28 +0100, Antonio Quartulli wrote: > > > @@ -105,6 +132,9 @@ void ovpn_decrypt_post(void *data, int ret) > > > goto drop; > > > } > > > + /* keep track of last received authenticated packet for keepalive */ > > > + peer->last_recv = ktime_get_real_seconds(); > > > > It doesn't look like we're locking the peer here so that should be a > > WRITE_ONCE() (and READ_ONCE(peer->last_recv) for all reads). > > Is that because last_recv is 64 bit long (and might be more than one word on > certain architectures)? > > I don't remember having to do so for reading/writing 32 bit long integers. AFAIK it's not just that. The compiler is free to do the read/write in any way it wants when you don't specify _ONCE. On the read side, it could read from memory a single time or multiple times (getting possibly different values each time), or maybe split the load (possibly reading chunks from different values being written in parallel). > I presume we need a WRITE_ONCE also upon initialization in > ovpn_peer_keepalive_set() right? > We still want to coordinate that with other reads/writes. I think it makes sense, yes. > > > + > > > /* point to encapsulated IP packet */ > > > __skb_pull(skb, payload_offset); > > > @@ -121,6 +151,12 @@ void ovpn_decrypt_post(void *data, int ret) > > > goto drop; > > > } > > > + if (ovpn_is_keepalive(skb)) { > > > + net_dbg_ratelimited("%s: ping received from peer %u\n", > > > + peer->ovpn->dev->name, peer->id); > > > + goto drop; > > > > To help with debugging connectivity issues, maybe keepalives shouldn't > > be counted as drops? (consume_skb instead of kfree_skb, and not > > incrementing rx_dropped) > > The packet was successfully received and did all it had to do. > > you're absolutely right. Will change that. Thanks. > > > + /* check for peer timeout */ > > > + expired = false; > > > + timeout = peer->keepalive_timeout; > > > + delta = now - peer->last_recv; > > > > I'm not sure that's always > 0 if we finish decrypting a packet just > > as the workqueue starts: > > > > ovpn_peer_keepalive_work > > now = ... > > > > ovpn_decrypt_post > > peer->last_recv = ... > > > > ovpn_peer_keepalive_work_single > > delta: now < peer->last_recv > > > > Yeah, there is nothing preventing this from happening...but is this truly a > problem? The math should still work, no? We'll fail "delta < timeout" (which we shouldn't), so we'll end up either in the "expired = true" case, or not updating keepalive_recv_exp. Both of these seem not ideal. > > However: > > > > > > > > + if (delta < timeout) { > > > + peer->keepalive_recv_exp = now + timeout - delta; > > > > I'd shorten that to > > > > peer->keepalive_recv_exp = peer->last_recv + timeout; > > > > it's a bit more readable to my eyes and avoids risks of wrapping > > values. > > > > So I'd probably get rid of delta and go with: > > > > last_recv = READ_ONCE(peer->last_recv) > > if (now < last_recv + timeout) { > > peer->keepalive_recv_exp = last_recv + timeout; > > next_run1 = peer->keepalive_recv_exp; > > } else if ... > > > > > + next_run1 = peer->keepalive_recv_exp; > > > + } else if (peer->keepalive_recv_exp > now) { > > > + next_run1 = peer->keepalive_recv_exp; > > > + } else { > > > + expired = true; > > > + } > > I agree this is simpler to read and gets rid of some extra operations. > > [note: I took inspiration from nat_keepalive_work_single() - it could be > simplified as well I guess] Ah, ok. I wanted to review this code when it was posted but didn't have time :( > > > > [...] > > > + /* check for peer keepalive */ > > > + expired = false; > > > + interval = peer->keepalive_interval; > > > + delta = now - peer->last_sent; > > > + if (delta < interval) { > > > + peer->keepalive_xmit_exp = now + interval - delta; > > > + next_run2 = peer->keepalive_xmit_exp; > > > > and same here > > Yeah, will change both. Thanks! Thanks.
On 13/11/2024 11:36, Sabrina Dubroca wrote: > 2024-11-12, 14:20:45 +0100, Antonio Quartulli wrote: >> On 05/11/2024 19:10, Sabrina Dubroca wrote: >>> 2024-10-29, 11:47:28 +0100, Antonio Quartulli wrote: >>>> @@ -105,6 +132,9 @@ void ovpn_decrypt_post(void *data, int ret) >>>> goto drop; >>>> } >>>> + /* keep track of last received authenticated packet for keepalive */ >>>> + peer->last_recv = ktime_get_real_seconds(); >>> >>> It doesn't look like we're locking the peer here so that should be a >>> WRITE_ONCE() (and READ_ONCE(peer->last_recv) for all reads). >> >> Is that because last_recv is 64 bit long (and might be more than one word on >> certain architectures)? >> >> I don't remember having to do so for reading/writing 32 bit long integers. > > AFAIK it's not just that. The compiler is free to do the read/write in > any way it wants when you don't specify _ONCE. On the read side, it > could read from memory a single time or multiple times (getting > possibly different values each time), or maybe split the load > (possibly reading chunks from different values being written in > parallel). Ok, thanks. Will switch to WRITE/READ_ONE then. > >> I presume we need a WRITE_ONCE also upon initialization in >> ovpn_peer_keepalive_set() right? >> We still want to coordinate that with other reads/writes. > > I think it makes sense, yes. ACK [...] > >>>> + /* check for peer timeout */ >>>> + expired = false; >>>> + timeout = peer->keepalive_timeout; >>>> + delta = now - peer->last_recv; >>> >>> I'm not sure that's always > 0 if we finish decrypting a packet just >>> as the workqueue starts: >>> >>> ovpn_peer_keepalive_work >>> now = ... >>> >>> ovpn_decrypt_post >>> peer->last_recv = ... >>> >>> ovpn_peer_keepalive_work_single >>> delta: now < peer->last_recv >>> >> >> Yeah, there is nothing preventing this from happening...but is this truly a >> problem? The math should still work, no? > > We'll fail "delta < timeout" (which we shouldn't), so we'll end up > either in the "expired = true" case, or not updating > keepalive_recv_exp. Both of these seem not ideal. delta is signed, so it'll end up being a negative value and "delta < timeout" should not fail then. Unless I am missing something. Anyway, this was just an exercise to understand what was going on. I already changed the code as per your suggestion (the fact that we are still discussing this chunk proves that it needed to be simplified :)) > >> >> However: >> >>> >>> >>>> + if (delta < timeout) { >>>> + peer->keepalive_recv_exp = now + timeout - delta; >>> >>> I'd shorten that to >>> >>> peer->keepalive_recv_exp = peer->last_recv + timeout; >>> >>> it's a bit more readable to my eyes and avoids risks of wrapping >>> values. >>> >>> So I'd probably get rid of delta and go with: >>> >>> last_recv = READ_ONCE(peer->last_recv) >>> if (now < last_recv + timeout) { >>> peer->keepalive_recv_exp = last_recv + timeout; >>> next_run1 = peer->keepalive_recv_exp; >>> } else if ... >>> >>>> + next_run1 = peer->keepalive_recv_exp; >>>> + } else if (peer->keepalive_recv_exp > now) { >>>> + next_run1 = peer->keepalive_recv_exp; >>>> + } else { >>>> + expired = true; >>>> + } >> >> I agree this is simpler to read and gets rid of some extra operations. >> >> [note: I took inspiration from nat_keepalive_work_single() - it could be >> simplified as well I guess] > > Ah, ok. I wanted to review this code when it was posted but didn't > have time :( It can still be fixed ;) Thanks. Regards,
2024-11-14, 09:12:01 +0100, Antonio Quartulli wrote: > On 13/11/2024 11:36, Sabrina Dubroca wrote: > > 2024-11-12, 14:20:45 +0100, Antonio Quartulli wrote: > > > On 05/11/2024 19:10, Sabrina Dubroca wrote: > > > > 2024-10-29, 11:47:28 +0100, Antonio Quartulli wrote: > > > > > + /* check for peer timeout */ > > > > > + expired = false; > > > > > + timeout = peer->keepalive_timeout; > > > > > + delta = now - peer->last_recv; > > > > > > > > I'm not sure that's always > 0 if we finish decrypting a packet just > > > > as the workqueue starts: > > > > > > > > ovpn_peer_keepalive_work > > > > now = ... > > > > > > > > ovpn_decrypt_post > > > > peer->last_recv = ... > > > > > > > > ovpn_peer_keepalive_work_single > > > > delta: now < peer->last_recv > > > > > > > > > > Yeah, there is nothing preventing this from happening...but is this truly a > > > problem? The math should still work, no? > > > > We'll fail "delta < timeout" (which we shouldn't), so we'll end up > > either in the "expired = true" case, or not updating > > keepalive_recv_exp. Both of these seem not ideal. > > delta is signed, so it'll end up being a negative value and "delta < > timeout" should not fail then. Unless I am missing something. But timeout is "unsigned long", so the comparison will be done as unsigned. > Anyway, this was just an exercise to understand what was going on. > I already changed the code as per your suggestion (the fact that we are > still discussing this chunk proves that it needed to be simplified :)) :)
2024-11-22, 10:41:26 +0100, Antonio Quartulli wrote: > On 12/11/2024 14:20, Antonio Quartulli wrote: > [...] > > > > +static int ovpn_peer_del_nolock(struct ovpn_peer *peer, > > > > + enum ovpn_del_peer_reason reason) > > > > +{ > > > > + switch (peer->ovpn->mode) { > > > > + case OVPN_MODE_MP: > > > > > > I think it would be nice to add > > > > > > lockdep_assert_held(&peer->ovpn->peers->lock); > > Sabrina, in other places I have used the sparse notation __must_hold() > instead. > Is there any preference in regards to lockdep vs sparse? > > I could switch them all to lockdep_assert_held if needed. __must_hold has the advantage of being checked at compile time (though I'm not sure it's that reliable [1]), so you don't need to run a test that actually hits that particular code path. In this case I see lockdep_assert_held as mainly documenting that the locking that makes ovpn_peer_del_nolock safe (as safe as ovpn_peer_del) is provided by its caller. The splat for incorrect use on debug kernels is a bonus. Sprinkling lockdep_assert_held all over ovpn might be bloating the code too much, but I'm not opposed to adding them if it helps. [1] I ran sparse on drivers/net/ovpn/peer.c before/after removing the locking from ovpn_peer_del and didn't get any warnings. sparse is good to detect imbalances (function that locks without unlocking), but maybe don't trust __must_hold for more than documenting expectations. [note: if you end up merging ovpn->peers->lock with ovpn->lock as we've discussed somewhere else, the locking around keepalive and ovpn_peer_del becomes a bit less hairy]
diff --git a/drivers/net/ovpn/io.c b/drivers/net/ovpn/io.c index deda19ab87391f86964ba43088b7847d22420eee..63c140138bf98e5d1df79a2565b666d86513323d 100644 --- a/drivers/net/ovpn/io.c +++ b/drivers/net/ovpn/io.c @@ -27,6 +27,33 @@ #include "skb.h" #include "socket.h" +const unsigned char ovpn_keepalive_message[OVPN_KEEPALIVE_SIZE] = { + 0x2a, 0x18, 0x7b, 0xf3, 0x64, 0x1e, 0xb4, 0xcb, + 0x07, 0xed, 0x2d, 0x0a, 0x98, 0x1f, 0xc7, 0x48 +}; + +/** + * ovpn_is_keepalive - check if skb contains a keepalive message + * @skb: packet to check + * + * Assumes that the first byte of skb->data is defined. + * + * Return: true if skb contains a keepalive or false otherwise + */ +static bool ovpn_is_keepalive(struct sk_buff *skb) +{ + if (*skb->data != ovpn_keepalive_message[0]) + return false; + + if (skb->len != OVPN_KEEPALIVE_SIZE) + return false; + + if (!pskb_may_pull(skb, OVPN_KEEPALIVE_SIZE)) + return false; + + return !memcmp(skb->data, ovpn_keepalive_message, OVPN_KEEPALIVE_SIZE); +} + /* Called after decrypt to write the IP packet to the device. * This method is expected to manage/free the skb. */ @@ -105,6 +132,9 @@ void ovpn_decrypt_post(void *data, int ret) goto drop; } + /* keep track of last received authenticated packet for keepalive */ + peer->last_recv = ktime_get_real_seconds(); + /* point to encapsulated IP packet */ __skb_pull(skb, payload_offset); @@ -121,6 +151,12 @@ void ovpn_decrypt_post(void *data, int ret) goto drop; } + if (ovpn_is_keepalive(skb)) { + net_dbg_ratelimited("%s: ping received from peer %u\n", + peer->ovpn->dev->name, peer->id); + goto drop; + } + net_info_ratelimited("%s: unsupported protocol received from peer %u\n", peer->ovpn->dev->name, peer->id); goto drop; @@ -221,6 +257,10 @@ void ovpn_encrypt_post(void *data, int ret) /* no transport configured yet */ goto err; } + + /* keep track of last sent packet for keepalive */ + peer->last_sent = ktime_get_real_seconds(); + /* skb passed down the stack - don't free it */ skb = NULL; err: @@ -361,3 +401,40 @@ netdev_tx_t ovpn_net_xmit(struct sk_buff *skb, struct net_device *dev) kfree_skb_list(skb); return NET_XMIT_DROP; } + +/** + * ovpn_xmit_special - encrypt and transmit an out-of-band message to peer + * @peer: peer to send the message to + * @data: message content + * @len: message length + * + * Assumes that caller holds a reference to peer + */ +void ovpn_xmit_special(struct ovpn_peer *peer, const void *data, + const unsigned int len) +{ + struct ovpn_struct *ovpn; + struct sk_buff *skb; + + ovpn = peer->ovpn; + if (unlikely(!ovpn)) + return; + + skb = alloc_skb(256 + len, GFP_ATOMIC); + if (unlikely(!skb)) + return; + + skb_reserve(skb, 128); + skb->priority = TC_PRIO_BESTEFFORT; + __skb_put_data(skb, data, len); + + /* increase reference counter when passing peer to sending queue */ + if (!ovpn_peer_hold(peer)) { + netdev_dbg(ovpn->dev, "%s: cannot hold peer reference for sending special packet\n", + __func__); + kfree_skb(skb); + return; + } + + ovpn_send(ovpn, skb, peer); +} diff --git a/drivers/net/ovpn/io.h b/drivers/net/ovpn/io.h index ad81dd86924689309b3299573575a1705eddaf99..eb224114152c29f42aadf026212e8d278006b490 100644 --- a/drivers/net/ovpn/io.h +++ b/drivers/net/ovpn/io.h @@ -10,9 +10,14 @@ #ifndef _NET_OVPN_OVPN_H_ #define _NET_OVPN_OVPN_H_ +#define OVPN_KEEPALIVE_SIZE 16 +extern const unsigned char ovpn_keepalive_message[OVPN_KEEPALIVE_SIZE]; + netdev_tx_t ovpn_net_xmit(struct sk_buff *skb, struct net_device *dev); void ovpn_recv(struct ovpn_peer *peer, struct sk_buff *skb); +void ovpn_xmit_special(struct ovpn_peer *peer, const void *data, + const unsigned int len); void ovpn_encrypt_post(void *data, int ret); void ovpn_decrypt_post(void *data, int ret); diff --git a/drivers/net/ovpn/main.c b/drivers/net/ovpn/main.c index c7453127ab640d7268c1ce919a87cc5419fac9ee..1bd563e3f16f49dd01c897fbe79cbd90f4b8e9aa 100644 --- a/drivers/net/ovpn/main.c +++ b/drivers/net/ovpn/main.c @@ -191,6 +191,7 @@ static int ovpn_newlink(struct net *src_net, struct net_device *dev, ovpn->dev = dev; ovpn->mode = mode; spin_lock_init(&ovpn->lock); + INIT_DELAYED_WORK(&ovpn->keepalive_work, ovpn_peer_keepalive_work); err = ovpn_mp_alloc(ovpn); if (err < 0) @@ -244,6 +245,8 @@ static int ovpn_netdev_notifier_call(struct notifier_block *nb, netif_carrier_off(dev); ovpn->registered = false; + cancel_delayed_work_sync(&ovpn->keepalive_work); + switch (ovpn->mode) { case OVPN_MODE_P2P: ovpn_peer_release_p2p(ovpn); diff --git a/drivers/net/ovpn/ovpnstruct.h b/drivers/net/ovpn/ovpnstruct.h index 12ed5e22c2108c9f143d1984048eb40c887cac63..4ac00d550ecb9f84c6c132dd2bdc0a3fc0ab342c 100644 --- a/drivers/net/ovpn/ovpnstruct.h +++ b/drivers/net/ovpn/ovpnstruct.h @@ -43,6 +43,7 @@ struct ovpn_peer_collection { * @peer: in P2P mode, this is the only remote peer * @dev_list: entry for the module wide device list * @gro_cells: pointer to the Generic Receive Offload cell + * @keepalive_work: struct used to schedule keepalive periodic job */ struct ovpn_struct { struct net_device *dev; @@ -54,6 +55,7 @@ struct ovpn_struct { struct ovpn_peer __rcu *peer; struct list_head dev_list; struct gro_cells gro_cells; + struct delayed_work keepalive_work; }; #endif /* _NET_OVPN_OVPNSTRUCT_H_ */ diff --git a/drivers/net/ovpn/peer.c b/drivers/net/ovpn/peer.c index c7dc9032c2b55fd42befc1f3e7a0eca893a96576..e8a42212af391916b5321e729f7e8a864d0a541f 100644 --- a/drivers/net/ovpn/peer.c +++ b/drivers/net/ovpn/peer.c @@ -22,6 +22,34 @@ #include "peer.h" #include "socket.h" +/** + * ovpn_peer_keepalive_set - configure keepalive values for peer + * @peer: the peer to configure + * @interval: outgoing keepalive interval + * @timeout: incoming keepalive timeout + */ +void ovpn_peer_keepalive_set(struct ovpn_peer *peer, u32 interval, u32 timeout) +{ + time64_t now = ktime_get_real_seconds(); + + netdev_dbg(peer->ovpn->dev, + "%s: scheduling keepalive for peer %u: interval=%u timeout=%u\n", + __func__, peer->id, interval, timeout); + + peer->keepalive_interval = interval; + peer->last_sent = now; + peer->keepalive_xmit_exp = now + interval; + + peer->keepalive_timeout = timeout; + peer->last_recv = now; + peer->keepalive_recv_exp = now + timeout; + + /* now that interval and timeout have been changed, kick + * off the worker so that the next delay can be recomputed + */ + mod_delayed_work(system_wq, &peer->ovpn->keepalive_work, 0); +} + /** * ovpn_peer_new - allocate and initialize a new peer object * @ovpn: the openvpn instance inside which the peer should be created @@ -815,6 +843,19 @@ int ovpn_peer_del(struct ovpn_peer *peer, enum ovpn_del_peer_reason reason) } } +static int ovpn_peer_del_nolock(struct ovpn_peer *peer, + enum ovpn_del_peer_reason reason) +{ + switch (peer->ovpn->mode) { + case OVPN_MODE_MP: + return ovpn_peer_del_mp(peer, reason); + case OVPN_MODE_P2P: + return ovpn_peer_del_p2p(peer, reason); + default: + return -EOPNOTSUPP; + } +} + /** * ovpn_peers_free - free all peers in the instance * @ovpn: the instance whose peers should be released @@ -830,3 +871,150 @@ void ovpn_peers_free(struct ovpn_struct *ovpn) ovpn_peer_unhash(peer, OVPN_DEL_PEER_REASON_TEARDOWN); spin_unlock_bh(&ovpn->peers->lock); } + +static time64_t ovpn_peer_keepalive_work_single(struct ovpn_peer *peer, + time64_t now) +{ + time64_t next_run1, next_run2, delta; + unsigned long timeout, interval; + bool expired; + + spin_lock_bh(&peer->lock); + /* we expect both timers to be configured at the same time, + * therefore bail out if either is not set + */ + if (!peer->keepalive_timeout || !peer->keepalive_interval) { + spin_unlock_bh(&peer->lock); + return 0; + } + + /* check for peer timeout */ + expired = false; + timeout = peer->keepalive_timeout; + delta = now - peer->last_recv; + if (delta < timeout) { + peer->keepalive_recv_exp = now + timeout - delta; + next_run1 = peer->keepalive_recv_exp; + } else if (peer->keepalive_recv_exp > now) { + next_run1 = peer->keepalive_recv_exp; + } else { + expired = true; + } + + if (expired) { + /* peer is dead -> kill it and move on */ + spin_unlock_bh(&peer->lock); + netdev_dbg(peer->ovpn->dev, "peer %u expired\n", + peer->id); + ovpn_peer_del_nolock(peer, OVPN_DEL_PEER_REASON_EXPIRED); + return 0; + } + + /* check for peer keepalive */ + expired = false; + interval = peer->keepalive_interval; + delta = now - peer->last_sent; + if (delta < interval) { + peer->keepalive_xmit_exp = now + interval - delta; + next_run2 = peer->keepalive_xmit_exp; + } else if (peer->keepalive_xmit_exp > now) { + next_run2 = peer->keepalive_xmit_exp; + } else { + expired = true; + next_run2 = now + interval; + } + spin_unlock_bh(&peer->lock); + + if (expired) { + /* a keepalive packet is required */ + netdev_dbg(peer->ovpn->dev, + "sending keepalive to peer %u\n", + peer->id); + ovpn_xmit_special(peer, ovpn_keepalive_message, + sizeof(ovpn_keepalive_message)); + } + + if (next_run1 < next_run2) + return next_run1; + + return next_run2; +} + +static time64_t ovpn_peer_keepalive_work_mp(struct ovpn_struct *ovpn, + time64_t now) +{ + time64_t tmp_next_run, next_run = 0; + struct hlist_node *tmp; + struct ovpn_peer *peer; + int bkt; + + spin_lock_bh(&ovpn->peers->lock); + hash_for_each_safe(ovpn->peers->by_id, bkt, tmp, peer, hash_entry_id) { + tmp_next_run = ovpn_peer_keepalive_work_single(peer, now); + if (!tmp_next_run) + continue; + + /* the next worker run will be scheduled based on the shortest + * required interval across all peers + */ + if (!next_run || tmp_next_run < next_run) + next_run = tmp_next_run; + } + spin_unlock_bh(&ovpn->peers->lock); + + return next_run; +} + +static time64_t ovpn_peer_keepalive_work_p2p(struct ovpn_struct *ovpn, + time64_t now) +{ + struct ovpn_peer *peer; + time64_t next_run = 0; + + spin_lock_bh(&ovpn->lock); + peer = rcu_dereference_protected(ovpn->peer, + lockdep_is_held(&ovpn->lock)); + if (peer) + next_run = ovpn_peer_keepalive_work_single(peer, now); + spin_unlock_bh(&ovpn->lock); + + return next_run; +} + +/** + * ovpn_peer_keepalive_work - run keepalive logic on each known peer + * @work: pointer to the work member of the related ovpn object + * + * Each peer has two timers (if configured): + * 1. peer timeout: when no data is received for a certain interval, + * the peer is considered dead and it gets killed. + * 2. peer keepalive: when no data is sent to a certain peer for a + * certain interval, a special 'keepalive' packet is explicitly sent. + * + * This function iterates across the whole peer collection while + * checking the timers described above. + */ +void ovpn_peer_keepalive_work(struct work_struct *work) +{ + struct ovpn_struct *ovpn = container_of(work, struct ovpn_struct, + keepalive_work.work); + time64_t next_run = 0, now = ktime_get_real_seconds(); + + switch (ovpn->mode) { + case OVPN_MODE_MP: + next_run = ovpn_peer_keepalive_work_mp(ovpn, now); + break; + case OVPN_MODE_P2P: + next_run = ovpn_peer_keepalive_work_p2p(ovpn, now); + break; + } + + /* prevent rearming if the interface is being destroyed */ + if (next_run > 0 && ovpn->registered) { + netdev_dbg(ovpn->dev, + "scheduling keepalive work: now=%llu next_run=%llu delta=%llu\n", + next_run, now, next_run - now); + schedule_delayed_work(&ovpn->keepalive_work, + (next_run - now) * HZ); + } +} diff --git a/drivers/net/ovpn/peer.h b/drivers/net/ovpn/peer.h index 942b90c84a0fb9e6fbb96f6df7f7842a9f738caf..952927ae78a3ab753aaf2c6cc6f77121bdac34be 100644 --- a/drivers/net/ovpn/peer.h +++ b/drivers/net/ovpn/peer.h @@ -43,6 +43,12 @@ * @crypto: the crypto configuration (ciphers, keys, etc..) * @dst_cache: cache for dst_entry used to send to peer * @bind: remote peer binding + * @keepalive_interval: seconds after which a new keepalive should be sent + * @keepalive_xmit_exp: future timestamp when next keepalive should be sent + * @last_sent: timestamp of the last successfully sent packet + * @keepalive_timeout: seconds after which an inactive peer is considered dead + * @keepalive_recv_exp: future timestamp when the peer should expire + * @last_recv: timestamp of the last authenticated received packet * @halt: true if ovpn_peer_mark_delete was called * @vpn_stats: per-peer in-VPN TX/RX stays * @link_stats: per-peer link/transport TX/RX stats @@ -91,6 +97,12 @@ struct ovpn_peer { struct ovpn_crypto_state crypto; struct dst_cache dst_cache; struct ovpn_bind __rcu *bind; + unsigned long keepalive_interval; + unsigned long keepalive_xmit_exp; + time64_t last_sent; + unsigned long keepalive_timeout; + unsigned long keepalive_recv_exp; + time64_t last_recv; bool halt; struct ovpn_peer_stats vpn_stats; struct ovpn_peer_stats link_stats; @@ -137,4 +149,7 @@ struct ovpn_peer *ovpn_peer_get_by_dst(struct ovpn_struct *ovpn, bool ovpn_peer_check_by_src(struct ovpn_struct *ovpn, struct sk_buff *skb, struct ovpn_peer *peer); +void ovpn_peer_keepalive_set(struct ovpn_peer *peer, u32 interval, u32 timeout); +void ovpn_peer_keepalive_work(struct work_struct *work); + #endif /* _NET_OVPN_OVPNPEER_H_ */ diff --git a/drivers/net/ovpn/proto.h b/drivers/net/ovpn/proto.h index 32af6b8e574381fb719a1b3b9de3ae1071cc4846..0de8bafadc89ebb85ce40de95ef394588738a4ad 100644 --- a/drivers/net/ovpn/proto.h +++ b/drivers/net/ovpn/proto.h @@ -35,8 +35,6 @@ #define OVPN_OP_SIZE_V2 4 #define OVPN_PEER_ID_MASK 0x00FFFFFF #define OVPN_PEER_ID_UNDEF 0x00FFFFFF -/* first byte of keepalive message */ -#define OVPN_KEEPALIVE_FIRST_BYTE 0x2a /* first byte of exit message */ #define OVPN_EXPLICIT_EXIT_NOTIFY_FIRST_BYTE 0x28
OpenVPN supports configuring a periodic keepalive packet. message to allow the remote endpoint detect link failures. This change implements the keepalive sending and timer expiring logic. Signed-off-by: Antonio Quartulli <antonio@openvpn.net> --- drivers/net/ovpn/io.c | 77 +++++++++++++++++ drivers/net/ovpn/io.h | 5 ++ drivers/net/ovpn/main.c | 3 + drivers/net/ovpn/ovpnstruct.h | 2 + drivers/net/ovpn/peer.c | 188 ++++++++++++++++++++++++++++++++++++++++++ drivers/net/ovpn/peer.h | 15 ++++ drivers/net/ovpn/proto.h | 2 - 7 files changed, 290 insertions(+), 2 deletions(-)