@@ -1857,9 +1857,8 @@ nd_na_router {
IPv4: For a configured DNAT IP address or a load balancer
IPv4 VIP <var>A</var>, for each router port <var>P</var> with
Ethernet address <var>E</var>, a priority-90 flow matches
- <code>inport == <var>P</var> && arp.op == 1 &&
- arp.tpa == <var>A</var></code> (ARP request)
- with the following actions:
+ <code>arp.op == 1 && arp.tpa == <var>A</var></code>
+ (ARP request) with the following actions:
</p>
<pre>
@@ -1876,6 +1875,11 @@ output;
</pre>
<p>
+ IPv4: For a configured load balancer IPv4 VIP, a similar flow is
+ added with the additional match <code>inport == <var>P</var></code>.
+ </p>
+
+ <p>
If the router port <var>P</var> is a distributed gateway router
port, then the <code>is_chassis_resident(<var>P</var>)</code> is
also added in the match condition for the load balancer IPv4
@@ -1922,9 +1926,11 @@ nd_na {
<ul>
<li>
If the corresponding NAT rule cannot be handled in a
- distributed manner, then this flow is only programmed on
+ distributed manner, then a priority-92 flow is programmed on
the gateway port instance on the
- <code>redirect-chassis</code>. This behavior avoids
+ <code>redirect-chassis</code>. A priority-91 drop flow is
+ programmed on the other chassis when ARP requests/NS packets
+ are received on the gateway port. This behavior avoids
generation of multiple ARP responses from different chassis,
and allows upstream MAC learning to point to the
<code>redirect-chassis</code>.
@@ -8039,7 +8039,7 @@ lrouter_nat_is_stateless(const struct nbrec_nat *nat)
static void
build_lrouter_arp_flow(struct ovn_datapath *od, struct ovn_port *op,
const char *ip_address, const char *eth_addr,
- struct ds *extra_match, uint16_t priority,
+ struct ds *extra_match, bool drop, uint16_t priority,
struct hmap *lflows, const struct ovsdb_idl_row *hint)
{
struct ds match = DS_EMPTY_INITIALIZER;
@@ -8054,20 +8054,24 @@ build_lrouter_arp_flow(struct ovn_datapath *od, struct ovn_port *op,
if (extra_match && ds_last(extra_match) != EOF) {
ds_put_format(&match, " && %s", ds_cstr(extra_match));
}
- ds_put_format(&actions,
- "eth.dst = eth.src; "
- "eth.src = %s; "
- "arp.op = 2; /* ARP reply */ "
- "arp.tha = arp.sha; "
- "arp.sha = %s; "
- "arp.tpa = arp.spa; "
- "arp.spa = %s; "
- "outport = inport; "
- "flags.loopback = 1; "
- "output;",
- eth_addr,
- eth_addr,
- ip_address);
+ if (drop) {
+ ds_put_format(&actions, "drop;");
+ } else {
+ ds_put_format(&actions,
+ "eth.dst = eth.src; "
+ "eth.src = %s; "
+ "arp.op = 2; /* ARP reply */ "
+ "arp.tha = arp.sha; "
+ "arp.sha = %s; "
+ "arp.tpa = arp.spa; "
+ "arp.spa = %s; "
+ "outport = inport; "
+ "flags.loopback = 1; "
+ "output;",
+ eth_addr,
+ eth_addr,
+ ip_address);
+ }
ovn_lflow_add_with_hint(lflows, od, S_ROUTER_IN_IP_INPUT, priority,
ds_cstr(&match), ds_cstr(&actions), hint);
@@ -8086,7 +8090,7 @@ static void
build_lrouter_nd_flow(struct ovn_datapath *od, struct ovn_port *op,
const char *action, const char *ip_address,
const char *sn_ip_address, const char *eth_addr,
- struct ds *extra_match, uint16_t priority,
+ struct ds *extra_match, bool drop, uint16_t priority,
struct hmap *lflows,
const struct ovsdb_idl_row *hint)
{
@@ -8108,21 +8112,25 @@ build_lrouter_nd_flow(struct ovn_datapath *od, struct ovn_port *op,
ds_put_format(&match, " && %s", ds_cstr(extra_match));
}
- ds_put_format(&actions,
- "%s { "
- "eth.src = %s; "
- "ip6.src = %s; "
- "nd.target = %s; "
- "nd.tll = %s; "
- "outport = inport; "
- "flags.loopback = 1; "
- "output; "
- "};",
- action,
- eth_addr,
- ip_address,
- ip_address,
- eth_addr);
+ if (drop) {
+ ds_put_format(&actions, "drop;");
+ } else {
+ ds_put_format(&actions,
+ "%s { "
+ "eth.src = %s; "
+ "ip6.src = %s; "
+ "nd.target = %s; "
+ "nd.tll = %s; "
+ "outport = inport; "
+ "flags.loopback = 1; "
+ "output; "
+ "};",
+ action,
+ eth_addr,
+ ip_address,
+ ip_address,
+ eth_addr);
+ }
ovn_lflow_add_with_hint(lflows, od, S_ROUTER_IN_IP_INPUT, priority,
ds_cstr(&match), ds_cstr(&actions), hint);
@@ -8312,7 +8320,41 @@ build_lrouter_flows(struct hmap *datapaths, struct hmap *ports,
"ip4.dst == 0.0.0.0/8",
"drop;");
- /* Priority-90 flows reply to ARP requests and ND packets. */
+ /* Priority-90-92 flows handle ARP requests and ND packets. Most are
+ * per logical port but DNAT addresses can be handled per datapath
+ * for non gateway router ports.
+ */
+ for (int i = 0; i < od->nbr->n_nat; i++) {
+ struct ovn_nat *nat_entry = &od->nat_entries[i];
+ const struct nbrec_nat *nat = nat_entry->nb;
+
+ /* Skip entries we failed to parse. */
+ if (!nat_entry_is_valid(nat_entry)) {
+ continue;
+ }
+
+ if (!strcmp(nat->type, "snat")) {
+ continue;
+ }
+
+ /* Priority 91 and 92 flows are added for each gateway router
+ * port to handle the special cases. In case we get the packet
+ * on a regular port, just reply with the port's ETH address.
+ */
+ struct lport_addresses *ext_addrs = &nat_entry->ext_addrs;
+ if (nat_entry_is_v6(nat_entry)) {
+ build_lrouter_nd_flow(od, NULL, "nd_na",
+ ext_addrs->ipv6_addrs[0].addr_s,
+ ext_addrs->ipv6_addrs[0].sn_addr_s,
+ REG_INPORT_ETH_ADDR, NULL, false, 90,
+ lflows, &nat->header_);
+ } else {
+ build_lrouter_arp_flow(od, NULL,
+ ext_addrs->ipv4_addrs[0].addr_s,
+ REG_INPORT_ETH_ADDR, NULL, false, 90,
+ lflows, &nat->header_);
+ }
+ }
/* Drop ARP packets (priority 85). ARP request packets for router's own
* IPs are handled with priority-90 flows.
@@ -8462,8 +8504,8 @@ build_lrouter_flows(struct hmap *datapaths, struct hmap *ports,
build_lrouter_arp_flow(op->od, op,
op->lrp_networks.ipv4_addrs[i].addr_s,
- REG_INPORT_ETH_ADDR, &match, 90, lflows,
- &op->nbrp->header_);
+ REG_INPORT_ETH_ADDR, &match, false, 90,
+ lflows, &op->nbrp->header_);
}
/* A set to hold all load-balancer vips that need ARP responses. */
@@ -8481,7 +8523,7 @@ build_lrouter_flows(struct hmap *datapaths, struct hmap *ports,
build_lrouter_arp_flow(op->od, op,
ip_address, REG_INPORT_ETH_ADDR,
- &match, 90, lflows, NULL);
+ &match, false, 90, lflows, NULL);
}
SSET_FOR_EACH (ip_address, &all_ips_v6) {
@@ -8493,7 +8535,7 @@ build_lrouter_flows(struct hmap *datapaths, struct hmap *ports,
build_lrouter_nd_flow(op->od, op, "nd_na",
ip_address, NULL, REG_INPORT_ETH_ADDR,
- &match, 90, lflows, NULL);
+ &match, false, 90, lflows, NULL);
}
sset_destroy(&all_ips_v4);
@@ -8546,53 +8588,84 @@ build_lrouter_flows(struct hmap *datapaths, struct hmap *ports,
/* Mac address to use when replying to ARP/NS. */
const char *mac_s = REG_INPORT_ETH_ADDR;
+ /* ARP/NS packets are taken care of per router. The only exception
+ * is on the l3dgw_port where we might need to use a different
+ * ETH address.
+ */
+ if (op != op->od->l3dgw_port) {
+ continue;
+ }
+
/* ARP / ND handling for external IP addresses.
*
* DNAT IP addresses are external IP addresses that need ARP
* handling. */
ds_clear(&match);
- if (op->od->l3dgw_port && op == op->od->l3dgw_port) {
- struct eth_addr mac;
- if (nat->external_mac &&
- eth_addr_from_string(nat->external_mac, &mac)
- && nat->logical_port) {
- /* distributed NAT case, use nat->external_mac */
- mac_s = nat->external_mac;
- /* Traffic with eth.src = nat->external_mac should only be
- * sent from the chassis where nat->logical_port is
- * resident, so that upstream MAC learning points to the
- * correct chassis. Also need to avoid generation of
- * multiple ARP responses from different chassis. */
- ds_put_format(&match, "is_chassis_resident(\"%s\")",
- nat->logical_port);
- } else {
- mac_s = REG_INPORT_ETH_ADDR;
- /* Traffic with eth.src = l3dgw_port->lrp_networks.ea_s
- * should only be sent from the "redirect-chassis", so that
- * upstream MAC learning points to the "redirect-chassis".
- * Also need to avoid generation of multiple ARP responses
- * from different chassis. */
- if (op->od->l3redirect_port) {
- ds_put_format(&match, "is_chassis_resident(%s)",
- op->od->l3redirect_port->json_key);
- }
+ struct ds match_cr_port = DS_EMPTY_INITIALIZER;
+ struct ds match_non_cr_port = DS_EMPTY_INITIALIZER;
+
+ struct eth_addr mac;
+ if (nat->external_mac &&
+ eth_addr_from_string(nat->external_mac, &mac)
+ && nat->logical_port) {
+ /* distributed NAT case, use nat->external_mac */
+ mac_s = nat->external_mac;
+ /* Traffic with eth.src = nat->external_mac should only be
+ * sent from the chassis where nat->logical_port is
+ * resident, so that upstream MAC learning points to the
+ * correct chassis. Also need to avoid generation of
+ * multiple ARP responses from different chassis. */
+ ds_put_format(&match_cr_port,
+ "is_chassis_resident(\"%s\")",
+ nat->logical_port);
+ ds_put_format(&match_non_cr_port,
+ "!is_chassis_resident(\"%s\")",
+ nat->logical_port);
+ } else {
+ mac_s = REG_INPORT_ETH_ADDR;
+ /* Traffic with eth.src = l3dgw_port->lrp_networks.ea_s
+ * should only be sent from the "redirect-chassis", so that
+ * upstream MAC learning points to the "redirect-chassis".
+ * Also need to avoid generation of multiple ARP responses
+ * from different chassis. */
+ if (op->od->l3redirect_port) {
+ ds_put_format(&match_cr_port,
+ "is_chassis_resident(\"%s\")",
+ op->od->l3redirect_port->json_key);
+ ds_put_format(&match_non_cr_port,
+ "!is_chassis_resident(\"%s\")",
+ op->od->l3redirect_port->json_key);
}
}
+ /* Respond to ARP/NS requests on the chassis that binds the gw
+ * port. Drop the ARP/NS requests on other chassis.
+ */
struct lport_addresses *ext_addrs = &nat_entry->ext_addrs;
if (nat_entry_is_v6(nat_entry)) {
build_lrouter_nd_flow(op->od, op, "nd_na",
ext_addrs->ipv6_addrs[0].addr_s,
ext_addrs->ipv6_addrs[0].sn_addr_s,
- mac_s, &match, 90,
+ mac_s, &match_cr_port, false, 92,
+ lflows, &nat->header_);
+ build_lrouter_nd_flow(op->od, op, "nd_na",
+ ext_addrs->ipv6_addrs[0].addr_s,
+ ext_addrs->ipv6_addrs[0].sn_addr_s,
+ mac_s, &match_non_cr_port, true, 91,
lflows, &nat->header_);
} else {
build_lrouter_arp_flow(op->od, op,
ext_addrs->ipv4_addrs[0].addr_s,
- mac_s, &match, 90,
+ mac_s, &match_cr_port, false, 92,
+ lflows, &nat->header_);
+ build_lrouter_arp_flow(op->od, op,
+ ext_addrs->ipv4_addrs[0].addr_s,
+ mac_s, &match_non_cr_port, true, 91,
lflows, &nat->header_);
}
+ ds_destroy(&match_cr_port);
+ ds_destroy(&match_non_cr_port);
}
if (!smap_get(&op->od->nbr->options, "chassis")
@@ -8778,8 +8851,8 @@ build_lrouter_flows(struct hmap *datapaths, struct hmap *ports,
build_lrouter_nd_flow(op->od, op, "nd_na_router",
op->lrp_networks.ipv6_addrs[i].addr_s,
op->lrp_networks.ipv6_addrs[i].sn_addr_s,
- REG_INPORT_ETH_ADDR, &match, 90, lflows,
- &op->nbrp->header_);
+ REG_INPORT_ETH_ADDR, &match, false, 90,
+ lflows, &op->nbrp->header_);
}
/* UDP/TCP port unreachable */
@@ -1594,33 +1594,24 @@ action=(xreg0[[0..47]] = 00:00:00:00:01:00; next;)
# Ingress router port ETH address is used for ARP reply/NA in lr_in_ip_input.
AT_CHECK([ovn-sbctl lflow-list | grep -E "lr_in_ip_input.*priority=90" | grep "arp\|nd" | sort], [0], [dnl
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 42.42.42.1 && arp.spa == 42.42.42.0/24), dnl
-action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 42.42.42.1; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 43.43.43.2), dnl
+match=(arp.op == 1 && arp.tpa == 43.43.43.2), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.2; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 43.43.43.3), dnl
+match=(arp.op == 1 && arp.tpa == 43.43.43.3), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.3; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 43.43.43.4), dnl
+match=(arp.op == 1 && arp.tpa == 43.43.43.4), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.4; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
+match=(inport == "lrp" && arp.op == 1 && arp.tpa == 42.42.42.1 && arp.spa == 42.42.42.0/24), dnl
+action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 42.42.42.1; outport = inport; flags.loopback = 1; output;)
+ table=3 (lr_in_ip_input ), priority=90 , dnl
match=(inport == "lrp" && ip6.dst == {fe80::200:ff:fe00:1, ff02::1:ff00:1} && nd_ns && nd.target == fe80::200:ff:fe00:1), dnl
action=(nd_na_router { eth.src = xreg0[[0..47]]; ip6.src = fe80::200:ff:fe00:1; nd.target = fe80::200:ff:fe00:1; nd.tll = xreg0[[0..47]]; outport = inport; flags.loopback = 1; output; };)
table=3 (lr_in_ip_input ), priority=90 , dnl
match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.1 && arp.spa == 43.43.43.0/24), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.1; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.2), dnl
-action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.2; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.3), dnl
-action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.3; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.4), dnl
-action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.4; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
match=(inport == "lrp-public" && ip6.dst == {fe80::200:ff:fe00:100, ff02::1:ff00:100} && nd_ns && nd.target == fe80::200:ff:fe00:100), dnl
action=(nd_na_router { eth.src = xreg0[[0..47]]; ip6.src = fe80::200:ff:fe00:100; nd.target = fe80::200:ff:fe00:100; nd.tll = xreg0[[0..47]]; outport = inport; flags.loopback = 1; output; };)
])
@@ -1654,37 +1645,55 @@ action=(xreg0[[0..47]] = 00:00:00:00:01:00; next;)
# Ingress router port is used for ARP reply/NA in lr_in_ip_input.
# xxreg0[0..47] is used unless external_mac is set.
+# Priority 90 flows (per router).
AT_CHECK([ovn-sbctl lflow-list | grep -E "lr_in_ip_input.*priority=90" | grep "arp\|nd" | sort], [0], [dnl
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 42.42.42.1 && arp.spa == 42.42.42.0/24), dnl
-action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 42.42.42.1; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 43.43.43.2), dnl
+match=(arp.op == 1 && arp.tpa == 43.43.43.2), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.2; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 43.43.43.3), dnl
+match=(arp.op == 1 && arp.tpa == 43.43.43.3), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.3; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp" && arp.op == 1 && arp.tpa == 43.43.43.4), dnl
+match=(arp.op == 1 && arp.tpa == 43.43.43.4), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.4; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
+match=(inport == "lrp" && arp.op == 1 && arp.tpa == 42.42.42.1 && arp.spa == 42.42.42.0/24), dnl
+action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 42.42.42.1; outport = inport; flags.loopback = 1; output;)
+ table=3 (lr_in_ip_input ), priority=90 , dnl
match=(inport == "lrp" && ip6.dst == {fe80::200:ff:fe00:1, ff02::1:ff00:1} && nd_ns && nd.target == fe80::200:ff:fe00:1), dnl
action=(nd_na_router { eth.src = xreg0[[0..47]]; ip6.src = fe80::200:ff:fe00:1; nd.target = fe80::200:ff:fe00:1; nd.tll = xreg0[[0..47]]; outport = inport; flags.loopback = 1; output; };)
table=3 (lr_in_ip_input ), priority=90 , dnl
match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.1 && arp.spa == 43.43.43.0/24), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.1; outport = inport; flags.loopback = 1; output;)
table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.2 && is_chassis_resident("cr-lrp-public")), dnl
+match=(inport == "lrp-public" && ip6.dst == {fe80::200:ff:fe00:100, ff02::1:ff00:100} && nd_ns && nd.target == fe80::200:ff:fe00:100 && is_chassis_resident("cr-lrp-public")), dnl
+action=(nd_na_router { eth.src = xreg0[[0..47]]; ip6.src = fe80::200:ff:fe00:100; nd.target = fe80::200:ff:fe00:100; nd.tll = xreg0[[0..47]]; outport = inport; flags.loopback = 1; output; };)
+])
+
+# Priority 91 drop flows (per distributed gw port), if port is not resident.
+AT_CHECK([ovn-sbctl lflow-list | grep -E "lr_in_ip_input.*priority=91" | grep "arp\|nd" | sort], [0], [dnl
+ table=3 (lr_in_ip_input ), priority=91 , dnl
+match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.2 && !is_chassis_resident(""cr-lrp-public"")), dnl
+action=(drop;)
+ table=3 (lr_in_ip_input ), priority=91 , dnl
+match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.3 && !is_chassis_resident(""cr-lrp-public"")), dnl
+action=(drop;)
+ table=3 (lr_in_ip_input ), priority=91 , dnl
+match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.4 && !is_chassis_resident("ls-vm")), dnl
+action=(drop;)
+])
+
+# Priority 92 ARP/NS responders (per distributed gw port), if port is resident.
+AT_CHECK([ovn-sbctl lflow-list | grep -E "lr_in_ip_input.*priority=92" | grep "arp\|nd" | sort], [0], [dnl
+ table=3 (lr_in_ip_input ), priority=92 , dnl
+match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.2 && is_chassis_resident(""cr-lrp-public"")), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.2; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.3 && is_chassis_resident("cr-lrp-public")), dnl
+ table=3 (lr_in_ip_input ), priority=92 , dnl
+match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.3 && is_chassis_resident(""cr-lrp-public"")), dnl
action=(eth.dst = eth.src; eth.src = xreg0[[0..47]]; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = xreg0[[0..47]]; arp.tpa = arp.spa; arp.spa = 43.43.43.3; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
+ table=3 (lr_in_ip_input ), priority=92 , dnl
match=(inport == "lrp-public" && arp.op == 1 && arp.tpa == 43.43.43.4 && is_chassis_resident("ls-vm")), dnl
action=(eth.dst = eth.src; eth.src = 00:00:00:00:00:02; arp.op = 2; /* ARP reply */ arp.tha = arp.sha; arp.sha = 00:00:00:00:00:02; arp.tpa = arp.spa; arp.spa = 43.43.43.4; outport = inport; flags.loopback = 1; output;)
- table=3 (lr_in_ip_input ), priority=90 , dnl
-match=(inport == "lrp-public" && ip6.dst == {fe80::200:ff:fe00:100, ff02::1:ff00:100} && nd_ns && nd.target == fe80::200:ff:fe00:100 && is_chassis_resident("cr-lrp-public")), dnl
-action=(nd_na_router { eth.src = xreg0[[0..47]]; ip6.src = fe80::200:ff:fe00:100; nd.target = fe80::200:ff:fe00:100; nd.tll = xreg0[[0..47]]; outport = inport; flags.loopback = 1; output; };)
])
# xreg0[0..47] isn't used anywhere else.
@@ -19324,7 +19324,7 @@ OVS_WAIT_UNTIL([
send_arp_request 1 0 ${src_mac} $(ip_to_hex 10 0 0 254) $(ip_to_hex 10 0 0 121)
# Verify that the ARP request is replied to from hv1 and not hv2.
-match_arp_req="priority=90.*${match_r1_metadata}.*arp_tpa=10.0.0.121,arp_op=1"
+match_arp_req="priority=92.*${match_r1_metadata}.*arp_tpa=10.0.0.121,arp_op=1"
as hv1
OVS_WAIT_UNTIL([
@@ -19344,7 +19344,7 @@ OVS_WAIT_UNTIL([
send_arp_request 1 0 ${src_mac} $(ip_to_hex 10 0 0 254) $(ip_to_hex 10 0 0 122)
# Verify that the ARP request is replied to from hv2 and not hv1.
-match_arp_req="priority=90.*${match_r1_metadata}.*arp_tpa=10.0.0.122,arp_op=1"
+match_arp_req="priority=92.*${match_r1_metadata}.*arp_tpa=10.0.0.122,arp_op=1"
as hv2
OVS_WAIT_UNTIL([
@@ -19388,7 +19388,7 @@ dst_ipv6=00100000000000000000000000000121
send_nd_ns 1 0 ${src_mac} ${src_ipv6} ${dst_ipv6} 72dd
# Verify that the ND_NS is replied to from hv1 and not hv2.
-match_nd_ns="priority=90.*${match_r1_metadata}.*icmp_type=135.*nd_target=10::121"
+match_nd_ns="priority=92.*${match_r1_metadata}.*icmp_type=135.*nd_target=10::121"
as hv1
OVS_WAIT_UNTIL([
@@ -19410,7 +19410,7 @@ dst_ipv6=00100000000000000000000000000122
send_nd_ns 1 0 ${src_mac} ${src_ipv6} ${dst_ipv6} 72db
# Verify that the ND_NS is replied to from hv2 and not hv1.
-match_nd_ns="priority=90.*${match_r1_metadata}.*icmp_type=135.*nd_target=10::122"
+match_nd_ns="priority=92.*${match_r1_metadata}.*icmp_type=135.*nd_target=10::122"
as hv2
OVS_WAIT_UNTIL([
Most ARP/NS responder flows can be configured per datapath instead of per router port. The only exception is with distributed gateway router ports which need special treatment. This patch changes the ARP/NS responder behavior and adds: - Priority 92 flows to reply to ARP requests on distributed gateway router ports, on the chassis where the DNAT entry is bound. - Priority 91 flows to drop ARP requests on distributed gateway router ports, on chassis where the DNAT entry is not bound. - Priority 90 flows to reply to ARP requests on all other router ports. This last type of flows is programmed exactly once per logical router limiting the total number of required logical flows. Suggested-by: Han Zhou <hzhou@ovn.org> Reported-by: Girish Moodalbail <gmoodalbail@gmail.com> Reported-at: https://mail.openvswitch.org/pipermail/ovs-discuss/2020-June/050186.html Signed-off-by: Dumitru Ceara <dceara@redhat.com> --- northd/ovn-northd.8.xml | 16 +++- northd/ovn-northd.c | 203 ++++++++++++++++++++++++++++++++--------------- tests/ovn-northd.at | 65 +++++++++------ tests/ovn.at | 8 +- 4 files changed, 190 insertions(+), 102 deletions(-)