1 /* SPDX-License-Identifier: LGPL-2.1-or-later */
4 #include <netinet/in.h>
6 #include <linux/if_arp.h>
7 #include <linux/if_link.h>
8 #include <linux/netdevice.h>
9 #include <sys/socket.h>
12 #include "alloc-util.h"
13 #include "arphrd-util.h"
18 #include "device-private.h"
19 #include "device-util.h"
20 #include "dhcp-identifier.h"
21 #include "dhcp-lease-internal.h"
23 #include "ethtool-util.h"
24 #include "event-util.h"
27 #include "format-util.h"
29 #include "glyph-util.h"
30 #include "logarithm.h"
31 #include "missing_network.h"
32 #include "netlink-util.h"
33 #include "network-internal.h"
34 #include "networkd-address-label.h"
35 #include "networkd-address.h"
36 #include "networkd-bridge-fdb.h"
37 #include "networkd-bridge-mdb.h"
38 #include "networkd-bridge-vlan.h"
39 #include "networkd-can.h"
40 #include "networkd-dhcp-prefix-delegation.h"
41 #include "networkd-dhcp-server.h"
42 #include "networkd-dhcp4.h"
43 #include "networkd-dhcp6.h"
44 #include "networkd-ipv4acd.h"
45 #include "networkd-ipv4ll.h"
46 #include "networkd-ipv6-proxy-ndp.h"
47 #include "networkd-link-bus.h"
48 #include "networkd-link.h"
49 #include "networkd-lldp-tx.h"
50 #include "networkd-manager.h"
51 #include "networkd-ndisc.h"
52 #include "networkd-neighbor.h"
53 #include "networkd-nexthop.h"
54 #include "networkd-queue.h"
55 #include "networkd-radv.h"
56 #include "networkd-route-util.h"
57 #include "networkd-route.h"
58 #include "networkd-routing-policy-rule.h"
59 #include "networkd-setlink.h"
60 #include "networkd-sriov.h"
61 #include "networkd-state-file.h"
62 #include "networkd-sysctl.h"
63 #include "networkd-wifi.h"
65 #include "socket-util.h"
66 #include "stdio-util.h"
67 #include "string-table.h"
70 #include "tmpfile-util.h"
72 #include "udev-util.h"
75 bool link_ipv6_enabled(Link
*link
) {
78 if (!socket_ipv6_is_supported())
81 if (link
->iftype
== ARPHRD_CAN
)
87 if (link
->network
->bond
)
90 if (link_may_have_ipv6ll(link
, /* check_multicast = */ false))
93 if (network_has_static_ipv6_configurations(link
->network
))
99 bool link_has_ipv6_connectivity(Link
*link
) {
100 LinkAddressState ipv6_address_state
;
104 link_get_address_states(link
, NULL
, &ipv6_address_state
, NULL
);
106 switch (ipv6_address_state
) {
107 case LINK_ADDRESS_STATE_ROUTABLE
:
108 /* If the interface has a routable IPv6 address, then we assume yes. */
111 case LINK_ADDRESS_STATE_DEGRADED
:
112 /* If the interface has only degraded IPv6 address (mostly, link-local address), then let's check
113 * there is an IPv6 default gateway. */
114 return link_has_default_gateway(link
, AF_INET6
);
116 case LINK_ADDRESS_STATE_OFF
:
117 /* No IPv6 address. */
121 assert_not_reached();
125 static bool link_is_ready_to_configure_one(Link
*link
, bool allow_unmanaged
) {
128 if (!IN_SET(link
->state
, LINK_STATE_CONFIGURING
, LINK_STATE_CONFIGURED
, LINK_STATE_UNMANAGED
))
132 return allow_unmanaged
;
134 if (!link
->network
->configure_without_carrier
) {
135 if (link
->set_flags_messages
> 0)
138 if (!link_has_carrier(link
))
142 if (link
->set_link_messages
> 0)
145 if (!link
->activated
)
151 bool link_is_ready_to_configure(Link
*link
, bool allow_unmanaged
) {
152 return check_ready_for_all_sr_iov_ports(link
, allow_unmanaged
, link_is_ready_to_configure_one
);
155 void link_ntp_settings_clear(Link
*link
) {
156 link
->ntp
= strv_free(link
->ntp
);
159 void link_dns_settings_clear(Link
*link
) {
160 if (link
->n_dns
!= UINT_MAX
)
161 for (unsigned i
= 0; i
< link
->n_dns
; i
++)
162 in_addr_full_free(link
->dns
[i
]);
163 link
->dns
= mfree(link
->dns
);
164 link
->n_dns
= UINT_MAX
;
166 link
->search_domains
= ordered_set_free(link
->search_domains
);
167 link
->route_domains
= ordered_set_free(link
->route_domains
);
169 link
->dns_default_route
= -1;
170 link
->llmnr
= _RESOLVE_SUPPORT_INVALID
;
171 link
->mdns
= _RESOLVE_SUPPORT_INVALID
;
172 link
->dnssec_mode
= _DNSSEC_MODE_INVALID
;
173 link
->dns_over_tls_mode
= _DNS_OVER_TLS_MODE_INVALID
;
175 link
->dnssec_negative_trust_anchors
= set_free_free(link
->dnssec_negative_trust_anchors
);
178 static void link_free_engines(Link
*link
) {
182 link
->dhcp_server
= sd_dhcp_server_unref(link
->dhcp_server
);
184 link
->dhcp_client
= sd_dhcp_client_unref(link
->dhcp_client
);
185 link
->dhcp_lease
= sd_dhcp_lease_unref(link
->dhcp_lease
);
186 link
->dhcp4_6rd_tunnel_name
= mfree(link
->dhcp4_6rd_tunnel_name
);
188 link
->lldp_rx
= sd_lldp_rx_unref(link
->lldp_rx
);
189 link
->lldp_tx
= sd_lldp_tx_unref(link
->lldp_tx
);
191 link
->ipv4acd_by_address
= hashmap_free(link
->ipv4acd_by_address
);
193 link
->ipv4ll
= sd_ipv4ll_unref(link
->ipv4ll
);
195 link
->dhcp6_client
= sd_dhcp6_client_unref(link
->dhcp6_client
);
196 link
->dhcp6_lease
= sd_dhcp6_lease_unref(link
->dhcp6_lease
);
198 link
->ndisc
= sd_ndisc_unref(link
->ndisc
);
199 link
->ndisc_expire
= sd_event_source_disable_unref(link
->ndisc_expire
);
202 link
->radv
= sd_radv_unref(link
->radv
);
205 static Link
*link_free(Link
*link
) {
208 link_ntp_settings_clear(link
);
209 link_dns_settings_clear(link
);
211 link
->routes
= set_free(link
->routes
);
212 link
->nexthops
= set_free(link
->nexthops
);
213 link
->neighbors
= set_free(link
->neighbors
);
214 link
->addresses
= set_free(link
->addresses
);
215 link
->qdiscs
= set_free(link
->qdiscs
);
216 link
->tclasses
= set_free(link
->tclasses
);
218 link
->dhcp_pd_prefixes
= set_free(link
->dhcp_pd_prefixes
);
220 link_free_engines(link
);
222 set_free(link
->sr_iov_virt_port_ifindices
);
224 strv_free(link
->alternative_names
);
227 free(link
->previous_ssid
);
230 unlink_and_free(link
->lease_file
);
231 unlink_and_free(link
->lldp_file
);
232 unlink_and_free(link
->state_file
);
234 sd_device_unref(link
->dev
);
235 netdev_unref(link
->netdev
);
237 hashmap_free(link
->bound_to_links
);
238 hashmap_free(link
->bound_by_links
);
240 set_free_with_destructor(link
->slaves
, link_unref
);
242 network_unref(link
->network
);
244 sd_event_source_disable_unref(link
->carrier_lost_timer
);
249 DEFINE_TRIVIAL_REF_UNREF_FUNC(Link
, link
, link_free
);
251 int link_get_by_index(Manager
*m
, int ifindex
, Link
**ret
) {
257 link
= hashmap_get(m
->links_by_index
, INT_TO_PTR(ifindex
));
266 int link_get_by_name(Manager
*m
, const char *ifname
, Link
**ret
) {
272 link
= hashmap_get(m
->links_by_name
, ifname
);
281 int link_get_by_hw_addr(Manager
*m
, const struct hw_addr_data
*hw_addr
, Link
**ret
) {
287 link
= hashmap_get(m
->links_by_hw_addr
, hw_addr
);
296 int link_get_master(Link
*link
, Link
**ret
) {
298 assert(link
->manager
);
301 if (link
->master_ifindex
<= 0 || link
->master_ifindex
== link
->ifindex
)
304 return link_get_by_index(link
->manager
, link
->master_ifindex
, ret
);
307 void link_set_state(Link
*link
, LinkState state
) {
310 if (link
->state
== state
)
313 log_link_debug(link
, "State changed: %s -> %s",
314 link_state_to_string(link
->state
),
315 link_state_to_string(state
));
319 link_send_changed(link
, "AdministrativeState", NULL
);
323 int link_stop_engines(Link
*link
, bool may_keep_dhcp
) {
327 assert(link
->manager
);
328 assert(link
->manager
->event
);
330 bool keep_dhcp
= may_keep_dhcp
&&
332 !link
->network
->dhcp_send_decline
&& /* IPv4 ACD for the DHCPv4 address is running. */
333 (link
->manager
->restarting
||
334 FLAGS_SET(link
->network
->keep_configuration
, KEEP_CONFIGURATION_DHCP_ON_STOP
));
337 k
= sd_dhcp_client_stop(link
->dhcp_client
);
339 r
= log_link_warning_errno(link
, k
, "Could not stop DHCPv4 client: %m");
342 k
= sd_dhcp_server_stop(link
->dhcp_server
);
344 r
= log_link_warning_errno(link
, k
, "Could not stop DHCPv4 server: %m");
346 k
= sd_lldp_rx_stop(link
->lldp_rx
);
348 r
= log_link_warning_errno(link
, k
, "Could not stop LLDP Rx: %m");
350 k
= sd_lldp_tx_stop(link
->lldp_tx
);
352 r
= log_link_warning_errno(link
, k
, "Could not stop LLDP Tx: %m");
354 k
= sd_ipv4ll_stop(link
->ipv4ll
);
356 r
= log_link_warning_errno(link
, k
, "Could not stop IPv4 link-local: %m");
358 k
= ipv4acd_stop(link
);
360 r
= log_link_warning_errno(link
, k
, "Could not stop IPv4 ACD client: %m");
362 k
= sd_dhcp6_client_stop(link
->dhcp6_client
);
364 r
= log_link_warning_errno(link
, k
, "Could not stop DHCPv6 client: %m");
366 k
= dhcp_pd_remove(link
, /* only_marked = */ false);
368 r
= log_link_warning_errno(link
, k
, "Could not remove DHCPv6 PD addresses and routes: %m");
370 k
= ndisc_stop(link
);
372 r
= log_link_warning_errno(link
, k
, "Could not stop IPv6 Router Discovery: %m");
376 k
= sd_radv_stop(link
->radv
);
378 r
= log_link_warning_errno(link
, k
, "Could not stop IPv6 Router Advertisement: %m");
383 void link_enter_failed(Link
*link
) {
386 if (IN_SET(link
->state
, LINK_STATE_FAILED
, LINK_STATE_LINGER
))
389 log_link_warning(link
, "Failed");
391 link_set_state(link
, LINK_STATE_FAILED
);
393 (void) link_stop_engines(link
, false);
396 void link_check_ready(Link
*link
) {
401 if (link
->state
== LINK_STATE_CONFIGURED
)
404 if (link
->state
!= LINK_STATE_CONFIGURING
)
405 return (void) log_link_debug(link
, "%s(): link is in %s state.", __func__
, link_state_to_string(link
->state
));
408 return (void) log_link_debug(link
, "%s(): link is unmanaged.", __func__
);
410 if (!link
->tc_configured
)
411 return (void) log_link_debug(link
, "%s(): traffic controls are not configured.", __func__
);
413 if (link
->set_link_messages
> 0)
414 return (void) log_link_debug(link
, "%s(): link layer is configuring.", __func__
);
416 if (!link
->activated
)
417 return (void) log_link_debug(link
, "%s(): link is not activated.", __func__
);
419 if (link
->iftype
== ARPHRD_CAN
) {
420 /* let's shortcut things for CAN which doesn't need most of checks below. */
421 link_set_state(link
, LINK_STATE_CONFIGURED
);
425 if (!link
->stacked_netdevs_created
)
426 return (void) log_link_debug(link
, "%s(): stacked netdevs are not created.", __func__
);
428 if (!link
->static_addresses_configured
)
429 return (void) log_link_debug(link
, "%s(): static addresses are not configured.", __func__
);
431 if (!link
->static_address_labels_configured
)
432 return (void) log_link_debug(link
, "%s(): static address labels are not configured.", __func__
);
434 if (!link
->static_bridge_fdb_configured
)
435 return (void) log_link_debug(link
, "%s(): static bridge MDB entries are not configured.", __func__
);
437 if (!link
->static_bridge_mdb_configured
)
438 return (void) log_link_debug(link
, "%s(): static bridge MDB entries are not configured.", __func__
);
440 if (!link
->static_ipv6_proxy_ndp_configured
)
441 return (void) log_link_debug(link
, "%s(): static IPv6 proxy NDP addresses are not configured.", __func__
);
443 if (!link
->static_neighbors_configured
)
444 return (void) log_link_debug(link
, "%s(): static neighbors are not configured.", __func__
);
446 if (!link
->static_nexthops_configured
)
447 return (void) log_link_debug(link
, "%s(): static nexthops are not configured.", __func__
);
449 if (!link
->static_routes_configured
)
450 return (void) log_link_debug(link
, "%s(): static routes are not configured.", __func__
);
452 if (!link
->static_routing_policy_rules_configured
)
453 return (void) log_link_debug(link
, "%s(): static routing policy rules are not configured.", __func__
);
455 if (!link
->sr_iov_configured
)
456 return (void) log_link_debug(link
, "%s(): SR-IOV is not configured.", __func__
);
458 /* IPv6LL is assigned after the link gains its carrier. */
459 if (!link
->network
->configure_without_carrier
&&
460 link_ipv6ll_enabled(link
) &&
461 !in6_addr_is_set(&link
->ipv6ll_address
))
462 return (void) log_link_debug(link
, "%s(): IPv6LL is not configured yet.", __func__
);
464 /* All static addresses must be ready. */
465 bool has_static_address
= false;
466 SET_FOREACH(a
, link
->addresses
) {
467 if (a
->source
!= NETWORK_CONFIG_SOURCE_STATIC
)
469 if (!address_is_ready(a
))
470 return (void) log_link_debug(link
, "%s(): static address %s is not ready.", __func__
,
471 IN_ADDR_PREFIX_TO_STRING(a
->family
, &a
->in_addr
, a
->prefixlen
));
472 has_static_address
= true;
475 /* If at least one static address is requested, do not request that dynamic addressing protocols are finished. */
476 if (has_static_address
)
479 /* If no dynamic addressing protocol enabled, assume the interface is ready.
480 * Note, ignore NDisc when ConfigureWithoutCarrier= is enabled, as IPv6AcceptRA= is enabled by default. */
481 if (!link_ipv4ll_enabled(link
) && !link_dhcp4_enabled(link
) &&
482 !link_dhcp6_enabled(link
) && !link_dhcp_pd_is_enabled(link
) &&
483 (link
->network
->configure_without_carrier
|| !link_ipv6_accept_ra_enabled(link
)))
487 link_ipv4ll_enabled(link
) && link
->ipv4ll_address_configured
&&
488 link_check_addresses_ready(link
, NETWORK_CONFIG_SOURCE_IPV4LL
);
490 link_dhcp4_enabled(link
) && link
->dhcp4_configured
&&
491 link_check_addresses_ready(link
, NETWORK_CONFIG_SOURCE_DHCP4
);
493 link_dhcp6_enabled(link
) && link
->dhcp6_configured
&&
494 (!link
->network
->dhcp6_use_address
||
495 link_check_addresses_ready(link
, NETWORK_CONFIG_SOURCE_DHCP6
));
497 link_dhcp_pd_is_enabled(link
) && link
->dhcp_pd_configured
&&
498 (!link
->network
->dhcp_pd_assign
||
499 link_check_addresses_ready(link
, NETWORK_CONFIG_SOURCE_DHCP_PD
));
501 link_ipv6_accept_ra_enabled(link
) && link
->ndisc_configured
&&
502 (!link
->network
->ipv6_accept_ra_use_autonomous_prefix
||
503 link_check_addresses_ready(link
, NETWORK_CONFIG_SOURCE_NDISC
));
505 /* If the uplink for PD is self, then request the corresponding DHCP protocol is also ready. */
506 if (dhcp_pd_is_uplink(link
, link
, /* accept_auto = */ false)) {
507 if (link_dhcp4_enabled(link
) && link
->network
->dhcp_use_6rd
&&
508 sd_dhcp_lease_has_6rd(link
->dhcp_lease
)) {
510 return (void) log_link_debug(link
, "%s(): DHCPv4 6rd prefix is assigned, but DHCPv4 protocol is not finished yet.", __func__
);
512 return (void) log_link_debug(link
, "%s(): DHCPv4 is finished, but prefix acquired by DHCPv4-6rd is not assigned yet.", __func__
);
515 if (link_dhcp6_enabled(link
) && link
->network
->dhcp6_use_pd_prefix
&&
516 sd_dhcp6_lease_has_pd_prefix(link
->dhcp6_lease
)) {
518 return (void) log_link_debug(link
, "%s(): DHCPv6 IA_PD prefix is assigned, but DHCPv6 protocol is not finished yet.", __func__
);
520 return (void) log_link_debug(link
, "%s(): DHCPv6 is finished, but prefix acquired by DHCPv6 IA_PD is not assigned yet.", __func__
);
524 /* At least one dynamic addressing protocol is finished. */
525 if (!ipv4ll_ready
&& !dhcp4_ready
&& !dhcp6_ready
&& !dhcp_pd_ready
&& !ndisc_ready
)
526 return (void) log_link_debug(link
, "%s(): dynamic addressing protocols are enabled but none of them finished yet.", __func__
);
528 log_link_debug(link
, "%s(): IPv4LL:%s DHCPv4:%s DHCPv6:%s DHCP-PD:%s NDisc:%s",
530 yes_no(ipv4ll_ready
),
533 yes_no(dhcp_pd_ready
),
534 yes_no(ndisc_ready
));
537 link_set_state(link
, LINK_STATE_CONFIGURED
);
540 static int link_request_static_configs(Link
*link
) {
544 assert(link
->network
);
545 assert(link
->state
!= _LINK_STATE_INVALID
);
547 r
= link_request_static_addresses(link
);
551 r
= link_request_static_address_labels(link
);
555 r
= link_request_static_bridge_fdb(link
);
559 r
= link_request_static_bridge_mdb(link
);
563 r
= link_request_static_ipv6_proxy_ndp_addresses(link
);
567 r
= link_request_static_neighbors(link
);
571 r
= link_request_static_nexthops(link
, false);
575 r
= link_request_static_routes(link
, false);
579 r
= link_request_static_routing_policy_rules(link
);
586 static int link_request_stacked_netdevs(Link
*link
) {
592 link
->stacked_netdevs_created
= false;
594 HASHMAP_FOREACH(netdev
, link
->network
->stacked_netdevs
) {
595 r
= link_request_stacked_netdev(link
, netdev
);
600 if (link
->create_stacked_netdev_messages
== 0) {
601 link
->stacked_netdevs_created
= true;
602 link_check_ready(link
);
608 static int link_acquire_dynamic_ipv6_conf(Link
*link
) {
613 r
= radv_start(link
);
615 return log_link_warning_errno(link
, r
, "Failed to start IPv6 Router Advertisement engine: %m");
617 r
= ndisc_start(link
);
619 return log_link_warning_errno(link
, r
, "Failed to start IPv6 Router Discovery: %m");
621 r
= dhcp6_start(link
);
623 return log_link_warning_errno(link
, r
, "Failed to start DHCPv6 client: %m");
628 static int link_acquire_dynamic_ipv4_conf(Link
*link
) {
632 assert(link
->manager
);
633 assert(link
->manager
->event
);
635 if (link
->dhcp_client
) {
636 r
= dhcp4_start(link
);
638 return log_link_warning_errno(link
, r
, "Failed to start DHCPv4 client: %m");
640 log_link_debug(link
, "Acquiring DHCPv4 lease.");
642 } else if (link
->ipv4ll
) {
643 if (in4_addr_is_set(&link
->network
->ipv4ll_start_address
)) {
644 r
= sd_ipv4ll_set_address(link
->ipv4ll
, &link
->network
->ipv4ll_start_address
);
646 return log_link_warning_errno(link
, r
, "Could not set IPv4 link-local start address: %m");
649 r
= sd_ipv4ll_start(link
->ipv4ll
);
651 return log_link_warning_errno(link
, r
, "Could not acquire IPv4 link-local address: %m");
653 log_link_debug(link
, "Acquiring IPv4 link-local address.");
656 if (link
->dhcp_server
) {
657 r
= sd_dhcp_server_start(link
->dhcp_server
);
659 return log_link_warning_errno(link
, r
, "Could not start DHCP server: %m");
662 r
= ipv4acd_start(link
);
664 return log_link_warning_errno(link
, r
, "Could not start IPv4 ACD client: %m");
669 static int link_acquire_dynamic_conf(Link
*link
) {
673 assert(link
->network
);
675 r
= link_acquire_dynamic_ipv4_conf(link
);
679 if (in6_addr_is_set(&link
->ipv6ll_address
)) {
680 r
= link_acquire_dynamic_ipv6_conf(link
);
685 if (!link_radv_enabled(link
) || !link
->network
->dhcp_pd_announce
) {
686 /* DHCPv6PD downstream does not require IPv6LL address. But may require RADV to be
687 * configured, and RADV may not be configured yet here. Only acquire subnet prefix when
688 * RADV is disabled, or the announcement of the prefix is disabled. Otherwise, the
689 * below will be called in radv_start(). */
690 r
= dhcp_request_prefix_delegation(link
);
692 return log_link_warning_errno(link
, r
, "Failed to request DHCP delegated subnet prefix: %m");
696 r
= sd_lldp_tx_start(link
->lldp_tx
);
698 return log_link_warning_errno(link
, r
, "Failed to start LLDP transmission: %m");
702 r
= sd_lldp_rx_start(link
->lldp_rx
);
704 return log_link_warning_errno(link
, r
, "Failed to start LLDP client: %m");
710 int link_ipv6ll_gained(Link
*link
) {
715 log_link_info(link
, "Gained IPv6LL");
717 if (!IN_SET(link
->state
, LINK_STATE_CONFIGURING
, LINK_STATE_CONFIGURED
))
720 r
= link_acquire_dynamic_ipv6_conf(link
);
724 link_check_ready(link
);
728 int link_handle_bound_to_list(Link
*link
) {
729 bool required_up
= false;
730 bool link_is_up
= false;
735 /* If at least one interface in bound_to_links has carrier, then make this interface up.
736 * If all interfaces in bound_to_links do not, then make this interface down. */
738 if (hashmap_isempty(link
->bound_to_links
))
741 if (link
->flags
& IFF_UP
)
744 HASHMAP_FOREACH(l
, link
->bound_to_links
)
745 if (link_has_carrier(l
)) {
750 if (!required_up
&& link_is_up
)
751 return link_request_to_bring_up_or_down(link
, /* up = */ false);
752 if (required_up
&& !link_is_up
)
753 return link_request_to_bring_up_or_down(link
, /* up = */ true);
758 static int link_handle_bound_by_list(Link
*link
) {
764 /* Update up or down state of interfaces which depend on this interface's carrier state. */
766 if (hashmap_isempty(link
->bound_by_links
))
769 HASHMAP_FOREACH(l
, link
->bound_by_links
) {
770 r
= link_handle_bound_to_list(l
);
778 static int link_put_carrier(Link
*link
, Link
*carrier
, Hashmap
**h
) {
787 if (hashmap_get(*h
, INT_TO_PTR(carrier
->ifindex
)))
790 r
= hashmap_ensure_put(h
, NULL
, INT_TO_PTR(carrier
->ifindex
), carrier
);
799 static int link_new_bound_by_list(Link
*link
) {
805 assert(link
->manager
);
809 HASHMAP_FOREACH(carrier
, m
->links_by_index
) {
810 if (!carrier
->network
)
813 if (strv_isempty(carrier
->network
->bind_carrier
))
816 if (strv_fnmatch(carrier
->network
->bind_carrier
, link
->ifname
)) {
817 r
= link_put_carrier(link
, carrier
, &link
->bound_by_links
);
823 HASHMAP_FOREACH(carrier
, link
->bound_by_links
) {
824 r
= link_put_carrier(carrier
, link
, &carrier
->bound_to_links
);
832 static int link_new_bound_to_list(Link
*link
) {
838 assert(link
->manager
);
843 if (strv_isempty(link
->network
->bind_carrier
))
848 HASHMAP_FOREACH(carrier
, m
->links_by_index
) {
849 if (strv_fnmatch(link
->network
->bind_carrier
, carrier
->ifname
)) {
850 r
= link_put_carrier(link
, carrier
, &link
->bound_to_links
);
856 HASHMAP_FOREACH(carrier
, link
->bound_to_links
) {
857 r
= link_put_carrier(carrier
, link
, &carrier
->bound_by_links
);
865 static void link_free_bound_to_list(Link
*link
) {
866 bool updated
= false;
871 while ((bound_to
= hashmap_steal_first(link
->bound_to_links
))) {
874 if (hashmap_remove(bound_to
->bound_by_links
, INT_TO_PTR(link
->ifindex
)))
875 link_dirty(bound_to
);
882 static void link_free_bound_by_list(Link
*link
) {
883 bool updated
= false;
888 while ((bound_by
= hashmap_steal_first(link
->bound_by_links
))) {
891 if (hashmap_remove(bound_by
->bound_to_links
, INT_TO_PTR(link
->ifindex
))) {
892 link_dirty(bound_by
);
893 link_handle_bound_to_list(bound_by
);
901 static int link_append_to_master(Link
*link
) {
907 /* - The link may have no master.
908 * - RTM_NEWLINK message about master interface may not be received yet. */
909 if (link_get_master(link
, &master
) < 0)
912 r
= set_ensure_put(&master
->slaves
, NULL
, link
);
920 static void link_drop_from_master(Link
*link
) {
928 if (link_get_master(link
, &master
) < 0)
931 link_unref(set_remove(master
->slaves
, link
));
934 static void link_drop_requests(Link
*link
) {
938 assert(link
->manager
);
940 ORDERED_SET_FOREACH(req
, link
->manager
->request_queue
)
941 if (req
->link
== link
)
942 request_detach(link
->manager
, req
);
945 static Link
*link_drop(Link
*link
) {
949 assert(link
->manager
);
951 link_set_state(link
, LINK_STATE_LINGER
);
953 /* Drop all references from other links and manager. Note that async netlink calls may have
954 * references to the link, and they will be dropped when we receive replies. */
956 link_drop_requests(link
);
958 link_free_bound_to_list(link
);
959 link_free_bound_by_list(link
);
961 link_clear_sr_iov_ifindices(link
);
963 link_drop_from_master(link
);
965 if (link
->state_file
)
966 (void) unlink(link
->state_file
);
970 STRV_FOREACH(n
, link
->alternative_names
)
971 hashmap_remove(link
->manager
->links_by_name
, *n
);
972 hashmap_remove(link
->manager
->links_by_name
, link
->ifname
);
974 /* bonding master and its slaves have the same hardware address. */
975 hashmap_remove_value(link
->manager
->links_by_hw_addr
, &link
->hw_addr
, link
);
977 /* The following must be called at last. */
978 assert_se(hashmap_remove(link
->manager
->links_by_index
, INT_TO_PTR(link
->ifindex
)) == link
);
979 return link_unref(link
);
982 static int link_drop_foreign_config(Link
*link
) {
986 assert(link
->manager
);
988 /* Drop foreign config, but ignore unmanaged, loopback, or critical interfaces. We do not want
989 * to remove loopback address or addresses used for root NFS. */
991 if (IN_SET(link
->state
, LINK_STATE_UNMANAGED
, LINK_STATE_PENDING
, LINK_STATE_INITIALIZED
))
993 if (FLAGS_SET(link
->flags
, IFF_LOOPBACK
))
995 if (link
->network
->keep_configuration
== KEEP_CONFIGURATION_YES
)
998 r
= link_drop_foreign_routes(link
);
1000 RET_GATHER(r
, link_drop_foreign_nexthops(link
));
1001 RET_GATHER(r
, link_drop_foreign_addresses(link
));
1002 RET_GATHER(r
, link_drop_foreign_neighbors(link
));
1003 RET_GATHER(r
, manager_drop_foreign_routing_policy_rules(link
->manager
));
1008 static int link_drop_managed_config(Link
*link
) {
1012 assert(link
->manager
);
1014 r
= link_drop_managed_routes(link
);
1016 RET_GATHER(r
, link_drop_managed_nexthops(link
));
1017 RET_GATHER(r
, link_drop_managed_addresses(link
));
1018 RET_GATHER(r
, link_drop_managed_neighbors(link
));
1019 RET_GATHER(r
, link_drop_managed_routing_policy_rules(link
));
1024 static void link_foreignize_config(Link
*link
) {
1026 assert(link
->manager
);
1028 link_foreignize_routes(link
);
1029 link_foreignize_nexthops(link
);
1030 link_foreignize_addresses(link
);
1031 link_foreignize_neighbors(link
);
1032 link_foreignize_routing_policy_rules(link
);
1035 static int link_configure(Link
*link
) {
1039 assert(link
->network
);
1040 assert(link
->state
== LINK_STATE_INITIALIZED
);
1042 link_set_state(link
, LINK_STATE_CONFIGURING
);
1044 r
= link_new_bound_to_list(link
);
1048 r
= link_request_traffic_control(link
);
1052 if (link
->iftype
== ARPHRD_CAN
) {
1053 /* let's shortcut things for CAN which doesn't need most of what's done below. */
1054 r
= link_request_to_set_can(link
);
1058 return link_request_to_activate(link
);
1061 r
= link_request_sr_iov_vfs(link
);
1065 r
= link_set_sysctl(link
);
1069 r
= link_request_to_set_mac(link
, /* allow_retry = */ true);
1073 r
= link_request_to_set_ipoib(link
);
1077 r
= link_request_to_set_flags(link
);
1081 r
= link_request_to_set_group(link
);
1085 r
= link_configure_mtu(link
);
1089 r
= link_request_to_set_addrgen_mode(link
);
1093 r
= link_request_to_set_master(link
);
1097 r
= link_request_stacked_netdevs(link
);
1101 r
= link_request_to_set_bond(link
);
1105 r
= link_request_to_set_bridge(link
);
1109 r
= link_request_to_set_bridge_vlan(link
);
1113 r
= link_request_to_activate(link
);
1117 r
= ipv4ll_configure(link
);
1121 r
= link_request_dhcp4_client(link
);
1125 r
= link_request_dhcp6_client(link
);
1129 r
= link_request_ndisc(link
);
1133 r
= link_request_dhcp_server(link
);
1137 r
= link_request_radv(link
);
1141 r
= link_lldp_rx_configure(link
);
1145 r
= link_lldp_tx_configure(link
);
1149 r
= link_drop_foreign_config(link
);
1153 r
= link_request_static_configs(link
);
1157 if (!link_has_carrier(link
))
1160 return link_acquire_dynamic_conf(link
);
1163 static int link_get_network(Link
*link
, Network
**ret
) {
1168 assert(link
->manager
);
1171 ORDERED_HASHMAP_FOREACH(network
, link
->manager
->networks
) {
1174 r
= net_match_config(
1178 &link
->permanent_hw_addr
,
1183 link
->alternative_names
,
1192 if (network
->match
.ifname
&& link
->dev
) {
1193 uint8_t name_assign_type
= NET_NAME_UNKNOWN
;
1196 if (sd_device_get_sysattr_value(link
->dev
, "name_assign_type", &attr
) >= 0)
1197 (void) safe_atou8(attr
, &name_assign_type
);
1199 warn
= name_assign_type
== NET_NAME_ENUM
;
1202 log_link_full(link
, warn
? LOG_WARNING
: LOG_DEBUG
,
1203 "found matching network '%s'%s.",
1205 warn
? ", based on potentially unpredictable interface name" : "");
1207 if (network
->unmanaged
)
1217 int link_reconfigure_impl(Link
*link
, bool force
) {
1218 Network
*network
= NULL
;
1219 NetDev
*netdev
= NULL
;
1224 if (IN_SET(link
->state
, LINK_STATE_PENDING
, LINK_STATE_LINGER
))
1227 r
= netdev_get(link
->manager
, link
->ifname
, &netdev
);
1228 if (r
< 0 && r
!= -ENOENT
)
1231 r
= link_get_network(link
, &network
);
1232 if (r
< 0 && r
!= -ENOENT
)
1235 if (link
->state
!= LINK_STATE_UNMANAGED
&& !network
)
1236 /* If link is in initialized state, then link->network is also NULL. */
1239 if (link
->network
== network
&& !force
)
1243 if (link
->state
== LINK_STATE_INITIALIZED
)
1244 log_link_info(link
, "Configuring with %s.", network
->filename
);
1246 log_link_info(link
, "Reconfiguring with %s.", network
->filename
);
1248 log_link_full(link
, link
->state
== LINK_STATE_INITIALIZED
? LOG_DEBUG
: LOG_INFO
,
1249 "Unmanaging interface.");
1251 /* Dropping old .network file */
1252 r
= link_stop_engines(link
, false);
1256 link_drop_requests(link
);
1258 if (network
&& !force
&& network
->keep_configuration
!= KEEP_CONFIGURATION_YES
)
1259 /* When a new/updated .network file is assigned, first make all configs (addresses,
1260 * routes, and so on) foreign, and then drop unnecessary configs later by
1261 * link_drop_foreign_config() in link_configure().
1262 * Note, when KeepConfiguration=yes, link_drop_foreign_config() does nothing. Hence,
1263 * here we need to drop the configs such as addresses, routes, and so on configured by
1264 * the previously assigned .network file. */
1265 link_foreignize_config(link
);
1267 /* Remove all managed configs. Note, foreign configs are removed in later by
1268 * link_configure() -> link_drop_foreign_config() if the link is managed by us. */
1269 r
= link_drop_managed_config(link
);
1274 /* The bound_to map depends on .network file, hence it needs to be freed. But, do not free the
1275 * bound_by map. Otherwise, if a link enters unmanaged state below, then its carrier state will
1276 * not propagated to other interfaces anymore. Moreover, it is not necessary to recreate the
1277 * map here, as it depends on .network files assigned to other links. */
1278 link_free_bound_to_list(link
);
1280 link_free_engines(link
);
1281 link
->network
= network_unref(link
->network
);
1283 netdev_unref(link
->netdev
);
1284 link
->netdev
= netdev_ref(netdev
);
1287 link_set_state(link
, LINK_STATE_UNMANAGED
);
1291 /* Then, apply new .network file */
1292 link
->network
= network_ref(network
);
1293 link_update_operstate(link
, true);
1296 link_set_state(link
, LINK_STATE_INITIALIZED
);
1297 link
->activated
= false;
1299 r
= link_configure(link
);
1306 static int link_reconfigure_handler_internal(sd_netlink
*rtnl
, sd_netlink_message
*m
, Link
*link
, bool force
) {
1311 r
= link_getlink_handler_internal(rtnl
, m
, link
, "Failed to update link state");
1315 r
= link_reconfigure_impl(link
, force
);
1317 link_enter_failed(link
);
1324 static int link_reconfigure_handler(sd_netlink
*rtnl
, sd_netlink_message
*m
, Link
*link
) {
1325 return link_reconfigure_handler_internal(rtnl
, m
, link
, /* force = */ false);
1328 static int link_force_reconfigure_handler(sd_netlink
*rtnl
, sd_netlink_message
*m
, Link
*link
) {
1329 return link_reconfigure_handler_internal(rtnl
, m
, link
, /* force = */ true);
1332 int link_reconfigure(Link
*link
, bool force
) {
1337 /* When link in pending or initialized state, then link_configure() will be called. To prevent
1338 * the function from being called multiple times simultaneously, refuse to reconfigure the
1339 * interface in these cases. */
1340 if (IN_SET(link
->state
, LINK_STATE_PENDING
, LINK_STATE_INITIALIZED
, LINK_STATE_LINGER
))
1341 return 0; /* 0 means no-op. */
1343 r
= link_call_getlink(link
, force
? link_force_reconfigure_handler
: link_reconfigure_handler
);
1347 return 1; /* 1 means the interface will be reconfigured. */
1350 static int link_initialized_and_synced(Link
*link
) {
1354 assert(link
->manager
);
1356 if (link
->manager
->test_mode
) {
1357 log_link_debug(link
, "Running in test mode, refusing to enter initialized state.");
1358 link_set_state(link
, LINK_STATE_UNMANAGED
);
1362 if (link
->state
== LINK_STATE_PENDING
) {
1363 log_link_debug(link
, "Link state is up-to-date");
1364 link_set_state(link
, LINK_STATE_INITIALIZED
);
1366 r
= link_new_bound_by_list(link
);
1370 r
= link_handle_bound_by_list(link
);
1375 return link_reconfigure_impl(link
, /* force = */ false);
1378 static int link_initialized_handler(sd_netlink
*rtnl
, sd_netlink_message
*m
, Link
*link
) {
1381 r
= link_getlink_handler_internal(rtnl
, m
, link
, "Failed to wait for the interface to be initialized");
1385 r
= link_initialized_and_synced(link
);
1387 link_enter_failed(link
);
1392 static int link_initialized(Link
*link
, sd_device
*device
) {
1398 /* Always replace with the new sd_device object. As the sysname (and possibly other properties
1399 * or sysattrs) may be outdated. */
1400 device_unref_and_replace(link
->dev
, device
);
1402 if (link
->dhcp_client
) {
1403 r
= sd_dhcp_client_attach_device(link
->dhcp_client
, link
->dev
);
1405 log_link_warning_errno(link
, r
, "Failed to attach device to DHCPv4 client, ignoring: %m");
1408 if (link
->dhcp6_client
) {
1409 r
= sd_dhcp6_client_attach_device(link
->dhcp6_client
, link
->dev
);
1411 log_link_warning_errno(link
, r
, "Failed to attach device to DHCPv6 client, ignoring: %m");
1414 r
= link_set_sr_iov_ifindices(link
);
1416 log_link_warning_errno(link
, r
, "Failed to manage SR-IOV PF and VF ports, ignoring: %m");
1418 if (link
->state
!= LINK_STATE_PENDING
)
1419 return link_reconfigure(link
, /* force = */ false);
1421 log_link_debug(link
, "udev initialized link");
1423 /* udev has initialized the link, but we don't know if we have yet
1424 * processed the NEWLINK messages with the latest state. Do a GETLINK,
1425 * when it returns we know that the pending NEWLINKs have already been
1426 * processed and that we are up-to-date */
1428 return link_call_getlink(link
, link_initialized_handler
);
1431 static int link_check_initialized(Link
*link
) {
1432 _cleanup_(sd_device_unrefp
) sd_device
*device
= NULL
;
1437 if (!udev_available())
1438 return link_initialized_and_synced(link
);
1440 /* udev should be around */
1441 r
= sd_device_new_from_ifindex(&device
, link
->ifindex
);
1443 log_link_debug_errno(link
, r
, "Could not find device, waiting for device initialization: %m");
1447 r
= sd_device_get_is_initialized(device
);
1449 return log_link_warning_errno(link
, r
, "Could not determine whether the device is initialized: %m");
1452 log_link_debug(link
, "link pending udev initialization...");
1456 r
= device_is_renaming(device
);
1458 return log_link_warning_errno(link
, r
, "Failed to determine the device is being renamed: %m");
1460 log_link_debug(link
, "Interface is being renamed, pending initialization.");
1464 return link_initialized(link
, device
);
1467 int manager_udev_process_link(Manager
*m
, sd_device
*device
, sd_device_action_t action
) {
1475 r
= sd_device_get_ifindex(device
, &ifindex
);
1477 return log_device_debug_errno(device
, r
, "Failed to get ifindex: %m");
1479 r
= link_get_by_index(m
, ifindex
, &link
);
1481 /* This error is not critical, as the corresponding rtnl message may be received later. */
1482 log_device_debug_errno(device
, r
, "Failed to get link from ifindex %i, ignoring: %m", ifindex
);
1486 /* Let's unref the sd-device object assigned to the corresponding Link object, but keep the Link
1487 * object here. It will be removed only when rtnetlink says so. */
1488 if (action
== SD_DEVICE_REMOVE
) {
1489 link
->dev
= sd_device_unref(link
->dev
);
1493 r
= device_is_renaming(device
);
1495 return log_device_debug_errno(device
, r
, "Failed to determine if the device is renaming or not: %m");
1497 log_device_debug(device
, "Device is renaming, waiting for the interface to be renamed.");
1499 * What happens when a device is initialized, then soon renamed after that? When we detect
1500 * such, maybe we should cancel or postpone all queued requests for the interface. */
1504 r
= sd_device_get_property_value(device
, "ID_NET_MANAGED_BY", &s
);
1505 if (r
< 0 && r
!= -ENOENT
)
1506 log_device_debug_errno(device
, r
, "Failed to get ID_NET_MANAGED_BY udev property, ignoring: %m");
1507 if (r
>= 0 && !streq(s
, "io.systemd.Network")) {
1508 log_device_debug(device
, "Interface is requested to be managed by '%s', not managing the interface.", s
);
1509 link_set_state(link
, LINK_STATE_UNMANAGED
);
1513 r
= link_initialized(link
, device
);
1515 link_enter_failed(link
);
1520 static int link_carrier_gained(Link
*link
) {
1521 bool force_reconfigure
;
1526 r
= event_source_disable(link
->carrier_lost_timer
);
1528 log_link_warning_errno(link
, r
, "Failed to disable carrier lost timer, ignoring: %m");
1530 /* If a wireless interface was connected to an access point, and the SSID is changed (that is,
1531 * both previous_ssid and ssid are non-NULL), then the connected wireless network could be
1532 * changed. So, always reconfigure the link. Which means e.g. the DHCP client will be
1533 * restarted, and the correct network information will be gained.
1535 * However, do not reconfigure the wireless interface forcibly if it was not connected to any
1536 * access points previously (previous_ssid is NULL in this case). As, a .network file may be
1537 * already assigned to the interface (in that case, the .network file does not have the SSID=
1538 * setting in the [Match] section), and the interface is already being configured. Of course,
1539 * there may exist another .network file with higher priority and a matching SSID= setting. But
1540 * in that case, link_reconfigure_impl() can handle that without the force_reconfigure flag.
1542 * For non-wireless interfaces, we have no way to detect the connected network change. So,
1543 * setting force_reconfigure = false. Note, both ssid and previous_ssid are NULL in that case. */
1544 force_reconfigure
= link
->previous_ssid
&& !streq_ptr(link
->previous_ssid
, link
->ssid
);
1545 link
->previous_ssid
= mfree(link
->previous_ssid
);
1547 /* AP and P2P-GO interfaces may have a new SSID - update the link properties in case a new .network
1548 * profile wants to match on it with SSID= in its [Match] section.
1550 if (IN_SET(link
->wlan_iftype
, NL80211_IFTYPE_AP
, NL80211_IFTYPE_P2P_GO
)) {
1551 r
= link_get_wlan_interface(link
);
1556 /* At this stage, both wlan and link information should be up-to-date. Hence, it is not necessary to
1557 * call RTM_GETLINK, NL80211_CMD_GET_INTERFACE, or NL80211_CMD_GET_STATION commands, and simply call
1558 * link_reconfigure_impl(). Note, link_reconfigure_impl() returns 1 when the link is reconfigured. */
1559 r
= link_reconfigure_impl(link
, force_reconfigure
);
1563 r
= link_handle_bound_by_list(link
);
1567 if (link
->iftype
== ARPHRD_CAN
)
1568 /* let's shortcut things for CAN which doesn't need most of what's done below. */
1571 if (IN_SET(link
->state
, LINK_STATE_CONFIGURING
, LINK_STATE_CONFIGURED
)) {
1572 r
= link_acquire_dynamic_conf(link
);
1576 r
= link_request_static_configs(link
);
1584 static int link_carrier_lost_impl(Link
*link
) {
1589 link
->previous_ssid
= mfree(link
->previous_ssid
);
1591 if (IN_SET(link
->state
, LINK_STATE_FAILED
, LINK_STATE_LINGER
))
1597 r
= link_stop_engines(link
, false);
1601 r
= link_drop_managed_config(link
);
1602 if (r
< 0 && ret
>= 0)
1608 static int link_carrier_lost_handler(sd_event_source
*s
, uint64_t usec
, void *userdata
) {
1609 Link
*link
= ASSERT_PTR(userdata
);
1612 r
= link_carrier_lost_impl(link
);
1614 log_link_warning_errno(link
, r
, "Failed to process carrier lost event: %m");
1615 link_enter_failed(link
);
1621 static int link_carrier_lost(Link
*link
) {
1628 r
= link_handle_bound_by_list(link
);
1632 if (link
->iftype
== ARPHRD_CAN
)
1633 /* let's shortcut things for CAN which doesn't need most of what's done below. */
1639 if (link
->network
->ignore_carrier_loss_set
)
1640 /* If IgnoreCarrierLoss= is explicitly specified, then use the specified value. */
1641 usec
= link
->network
->ignore_carrier_loss_usec
;
1643 else if (link
->network
->bond
&& link
->wlan_iftype
> 0)
1644 /* Enslaving wlan interface to a bond disconnects from the connected AP, and causes its
1645 * carrier to be lost. See #19832. */
1646 usec
= 3 * USEC_PER_SEC
;
1648 else if (link
->network
->dhcp_use_mtu
&&
1650 sd_dhcp_lease_get_mtu(link
->dhcp_lease
, &dhcp_mtu
) >= 0 &&
1651 dhcp_mtu
!= link
->original_mtu
)
1652 /* Some drivers reset interfaces when changing MTU. Resetting interfaces by the static
1653 * MTU should not cause any issues, as MTU is changed only once. However, setting MTU
1654 * through DHCP lease causes an infinite loop of resetting the interface. See #18738. */
1655 usec
= 5 * USEC_PER_SEC
;
1658 /* Otherwise, use the currently set value. */
1659 usec
= link
->network
->ignore_carrier_loss_usec
;
1661 if (usec
== USEC_INFINITY
)
1665 return link_carrier_lost_impl(link
);
1667 return event_reset_time_relative(link
->manager
->event
,
1668 &link
->carrier_lost_timer
,
1672 link_carrier_lost_handler
,
1675 "link-carrier-loss",
1679 static int link_admin_state_up(Link
*link
) {
1684 /* This is called every time an interface admin state changes to up;
1685 * specifically, when IFF_UP flag changes from unset to set. */
1690 if (link
->activated
&& link
->network
->activation_policy
== ACTIVATION_POLICY_ALWAYS_DOWN
) {
1691 log_link_info(link
, "Activation policy is \"always-down\", forcing link down.");
1692 return link_request_to_bring_up_or_down(link
, /* up = */ false);
1695 /* We set the ipv6 mtu after the device mtu, but the kernel resets
1696 * ipv6 mtu on NETDEV_UP, so we need to reset it. */
1697 r
= link_set_ipv6_mtu(link
);
1699 log_link_warning_errno(link
, r
, "Cannot set IPv6 MTU, ignoring: %m");
1704 static int link_admin_state_down(Link
*link
) {
1710 if (link
->activated
&& link
->network
->activation_policy
== ACTIVATION_POLICY_ALWAYS_UP
) {
1711 log_link_info(link
, "Activation policy is \"always-up\", forcing link up.");
1712 return link_request_to_bring_up_or_down(link
, /* up = */ true);
1718 static bool link_is_enslaved(Link
*link
) {
1719 if (link
->flags
& IFF_SLAVE
)
1722 if (link
->master_ifindex
> 0)
1728 void link_update_operstate(Link
*link
, bool also_update_master
) {
1729 LinkOperationalState operstate
;
1730 LinkCarrierState carrier_state
;
1731 LinkAddressState ipv4_address_state
, ipv6_address_state
, address_state
;
1732 LinkOnlineState online_state
;
1733 _cleanup_strv_free_
char **p
= NULL
;
1734 bool changed
= false;
1738 if (link
->kernel_operstate
== IF_OPER_DORMANT
)
1739 carrier_state
= LINK_CARRIER_STATE_DORMANT
;
1740 else if (link_has_carrier(link
)) {
1741 if (link_is_enslaved(link
))
1742 carrier_state
= LINK_CARRIER_STATE_ENSLAVED
;
1744 carrier_state
= LINK_CARRIER_STATE_CARRIER
;
1745 } else if (link
->flags
& IFF_UP
)
1746 carrier_state
= LINK_CARRIER_STATE_NO_CARRIER
;
1748 carrier_state
= LINK_CARRIER_STATE_OFF
;
1750 if (carrier_state
>= LINK_CARRIER_STATE_CARRIER
) {
1753 SET_FOREACH(slave
, link
->slaves
) {
1754 link_update_operstate(slave
, false);
1756 if (slave
->carrier_state
< LINK_CARRIER_STATE_CARRIER
)
1757 carrier_state
= LINK_CARRIER_STATE_DEGRADED_CARRIER
;
1761 link_get_address_states(link
, &ipv4_address_state
, &ipv6_address_state
, &address_state
);
1763 /* Mapping of address and carrier state vs operational state
1765 * | off | no-carrier | dormant | degraded-carrier | carrier | enslaved
1766 * ------------------------------------------------------------------------------
1767 * off | off | no-carrier | dormant | degraded-carrier | carrier | enslaved
1768 * address_state degraded | off | no-carrier | dormant | degraded | degraded | enslaved
1769 * routable | off | no-carrier | dormant | routable | routable | routable
1772 if (carrier_state
== LINK_CARRIER_STATE_DEGRADED_CARRIER
&& address_state
== LINK_ADDRESS_STATE_ROUTABLE
)
1773 operstate
= LINK_OPERSTATE_ROUTABLE
;
1774 else if (carrier_state
== LINK_CARRIER_STATE_DEGRADED_CARRIER
&& address_state
== LINK_ADDRESS_STATE_DEGRADED
)
1775 operstate
= LINK_OPERSTATE_DEGRADED
;
1776 else if (carrier_state
< LINK_CARRIER_STATE_CARRIER
|| address_state
== LINK_ADDRESS_STATE_OFF
)
1777 operstate
= (LinkOperationalState
) carrier_state
;
1778 else if (address_state
== LINK_ADDRESS_STATE_ROUTABLE
)
1779 operstate
= LINK_OPERSTATE_ROUTABLE
;
1780 else if (carrier_state
== LINK_CARRIER_STATE_CARRIER
)
1781 operstate
= LINK_OPERSTATE_DEGRADED
;
1783 operstate
= LINK_OPERSTATE_ENSLAVED
;
1785 /* Only determine online state for managed links with RequiredForOnline=yes */
1786 if (!link
->network
|| !link
->network
->required_for_online
)
1787 online_state
= _LINK_ONLINE_STATE_INVALID
;
1788 else if (operstate
< link
->network
->required_operstate_for_online
.min
||
1789 operstate
> link
->network
->required_operstate_for_online
.max
)
1790 online_state
= LINK_ONLINE_STATE_OFFLINE
;
1792 AddressFamily required_family
= link
->network
->required_family_for_online
;
1793 bool needs_ipv4
= required_family
& ADDRESS_FAMILY_IPV4
;
1794 bool needs_ipv6
= required_family
& ADDRESS_FAMILY_IPV6
;
1796 /* The operational state is within the range required for online.
1797 * If a particular address family is also required, we might revert
1798 * to offline in the blocks below. */
1799 online_state
= LINK_ONLINE_STATE_ONLINE
;
1801 if (link
->network
->required_operstate_for_online
.min
>= LINK_OPERSTATE_DEGRADED
) {
1802 if (needs_ipv4
&& ipv4_address_state
< LINK_ADDRESS_STATE_DEGRADED
)
1803 online_state
= LINK_ONLINE_STATE_OFFLINE
;
1804 if (needs_ipv6
&& ipv6_address_state
< LINK_ADDRESS_STATE_DEGRADED
)
1805 online_state
= LINK_ONLINE_STATE_OFFLINE
;
1808 if (link
->network
->required_operstate_for_online
.min
>= LINK_OPERSTATE_ROUTABLE
) {
1809 if (needs_ipv4
&& ipv4_address_state
< LINK_ADDRESS_STATE_ROUTABLE
)
1810 online_state
= LINK_ONLINE_STATE_OFFLINE
;
1811 if (needs_ipv6
&& ipv6_address_state
< LINK_ADDRESS_STATE_ROUTABLE
)
1812 online_state
= LINK_ONLINE_STATE_OFFLINE
;
1816 if (link
->carrier_state
!= carrier_state
) {
1817 link
->carrier_state
= carrier_state
;
1819 if (strv_extend(&p
, "CarrierState") < 0)
1823 if (link
->address_state
!= address_state
) {
1824 link
->address_state
= address_state
;
1826 if (strv_extend(&p
, "AddressState") < 0)
1830 if (link
->ipv4_address_state
!= ipv4_address_state
) {
1831 link
->ipv4_address_state
= ipv4_address_state
;
1833 if (strv_extend(&p
, "IPv4AddressState") < 0)
1837 if (link
->ipv6_address_state
!= ipv6_address_state
) {
1838 link
->ipv6_address_state
= ipv6_address_state
;
1840 if (strv_extend(&p
, "IPv6AddressState") < 0)
1844 if (link
->operstate
!= operstate
) {
1845 link
->operstate
= operstate
;
1847 if (strv_extend(&p
, "OperationalState") < 0)
1851 if (link
->online_state
!= online_state
) {
1852 link
->online_state
= online_state
;
1854 if (strv_extend(&p
, "OnlineState") < 0)
1859 link_send_changed_strv(link
, p
);
1863 if (also_update_master
) {
1866 if (link_get_master(link
, &master
) >= 0)
1867 link_update_operstate(master
, true);
1871 #define FLAG_STRING(string, flag, old, new) \
1872 (((old ^ new) & flag) \
1873 ? ((old & flag) ? (" -" string) : (" +" string)) \
1876 static int link_update_flags(Link
*link
, sd_netlink_message
*message
) {
1877 bool link_was_admin_up
, had_carrier
;
1885 r
= sd_rtnl_message_link_get_flags(message
, &flags
);
1887 return log_link_debug_errno(link
, r
, "rtnl: failed to read link flags: %m");
1889 r
= sd_netlink_message_read_u8(message
, IFLA_OPERSTATE
, &operstate
);
1891 /* If we got a message without operstate, assume the state was unchanged. */
1892 operstate
= link
->kernel_operstate
;
1894 return log_link_debug_errno(link
, r
, "rtnl: failed to read operational state: %m");
1896 if (link
->flags
== flags
&& link
->kernel_operstate
== operstate
)
1899 if (link
->flags
!= flags
) {
1900 unsigned unknown_flags
, unknown_flags_added
, unknown_flags_removed
;
1902 log_link_debug(link
, "Flags change:%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s",
1903 FLAG_STRING("LOOPBACK", IFF_LOOPBACK
, link
->flags
, flags
),
1904 FLAG_STRING("MASTER", IFF_MASTER
, link
->flags
, flags
),
1905 FLAG_STRING("SLAVE", IFF_SLAVE
, link
->flags
, flags
),
1906 FLAG_STRING("UP", IFF_UP
, link
->flags
, flags
),
1907 FLAG_STRING("DORMANT", IFF_DORMANT
, link
->flags
, flags
),
1908 FLAG_STRING("LOWER_UP", IFF_LOWER_UP
, link
->flags
, flags
),
1909 FLAG_STRING("RUNNING", IFF_RUNNING
, link
->flags
, flags
),
1910 FLAG_STRING("MULTICAST", IFF_MULTICAST
, link
->flags
, flags
),
1911 FLAG_STRING("BROADCAST", IFF_BROADCAST
, link
->flags
, flags
),
1912 FLAG_STRING("POINTOPOINT", IFF_POINTOPOINT
, link
->flags
, flags
),
1913 FLAG_STRING("PROMISC", IFF_PROMISC
, link
->flags
, flags
),
1914 FLAG_STRING("ALLMULTI", IFF_ALLMULTI
, link
->flags
, flags
),
1915 FLAG_STRING("PORTSEL", IFF_PORTSEL
, link
->flags
, flags
),
1916 FLAG_STRING("AUTOMEDIA", IFF_AUTOMEDIA
, link
->flags
, flags
),
1917 FLAG_STRING("DYNAMIC", IFF_DYNAMIC
, link
->flags
, flags
),
1918 FLAG_STRING("NOARP", IFF_NOARP
, link
->flags
, flags
),
1919 FLAG_STRING("NOTRAILERS", IFF_NOTRAILERS
, link
->flags
, flags
),
1920 FLAG_STRING("DEBUG", IFF_DEBUG
, link
->flags
, flags
),
1921 FLAG_STRING("ECHO", IFF_ECHO
, link
->flags
, flags
));
1923 unknown_flags
= ~(IFF_LOOPBACK
| IFF_MASTER
| IFF_SLAVE
| IFF_UP
|
1924 IFF_DORMANT
| IFF_LOWER_UP
| IFF_RUNNING
|
1925 IFF_MULTICAST
| IFF_BROADCAST
| IFF_POINTOPOINT
|
1926 IFF_PROMISC
| IFF_ALLMULTI
| IFF_PORTSEL
|
1927 IFF_AUTOMEDIA
| IFF_DYNAMIC
| IFF_NOARP
|
1928 IFF_NOTRAILERS
| IFF_DEBUG
| IFF_ECHO
);
1929 unknown_flags_added
= ((link
->flags
^ flags
) & flags
& unknown_flags
);
1930 unknown_flags_removed
= ((link
->flags
^ flags
) & link
->flags
& unknown_flags
);
1932 if (unknown_flags_added
)
1933 log_link_debug(link
, "Unknown link flags gained, ignoring: %#.5x", unknown_flags_added
);
1935 if (unknown_flags_removed
)
1936 log_link_debug(link
, "Unknown link flags lost, ignoring: %#.5x", unknown_flags_removed
);
1939 link_was_admin_up
= link
->flags
& IFF_UP
;
1940 had_carrier
= link_has_carrier(link
);
1942 link
->flags
= flags
;
1943 link
->kernel_operstate
= operstate
;
1945 link_update_operstate(link
, true);
1947 if (!link_was_admin_up
&& (link
->flags
& IFF_UP
)) {
1948 log_link_info(link
, "Link UP");
1950 r
= link_admin_state_up(link
);
1953 } else if (link_was_admin_up
&& !(link
->flags
& IFF_UP
)) {
1954 log_link_info(link
, "Link DOWN");
1956 r
= link_admin_state_down(link
);
1961 if (!had_carrier
&& link_has_carrier(link
)) {
1962 log_link_info(link
, "Gained carrier");
1964 r
= link_carrier_gained(link
);
1967 } else if (had_carrier
&& !link_has_carrier(link
)) {
1968 log_link_info(link
, "Lost carrier");
1970 r
= link_carrier_lost(link
);
1978 static int link_update_master(Link
*link
, sd_netlink_message
*message
) {
1979 int master_ifindex
, r
;
1984 r
= sd_netlink_message_read_u32(message
, IFLA_MASTER
, (uint32_t*) &master_ifindex
);
1988 return log_link_debug_errno(link
, r
, "rtnl: failed to read master ifindex: %m");
1990 if (master_ifindex
== link
->ifindex
)
1993 if (master_ifindex
== link
->master_ifindex
)
1996 if (link
->master_ifindex
== 0)
1997 log_link_debug(link
, "Attached to master interface: %i", master_ifindex
);
1998 else if (master_ifindex
== 0)
1999 log_link_debug(link
, "Detached from master interface: %i", link
->master_ifindex
);
2001 log_link_debug(link
, "Master interface changed: %i %s %i", link
->master_ifindex
,
2002 special_glyph(SPECIAL_GLYPH_ARROW_RIGHT
), master_ifindex
);
2004 link_drop_from_master(link
);
2006 link
->master_ifindex
= master_ifindex
;
2008 r
= link_append_to_master(link
);
2010 return log_link_debug_errno(link
, r
, "Failed to append link to master: %m");
2015 static int link_update_driver(Link
*link
, sd_netlink_message
*message
) {
2019 assert(link
->manager
);
2022 /* Driver is already read. Assuming the driver is never changed. */
2023 if (link
->ethtool_driver_read
)
2026 /* When udevd is running, read the driver after the interface is initialized by udevd.
2027 * Otherwise, ethtool may not work correctly. See issue #22538.
2028 * When udevd is not running, read the value when the interface is detected. */
2029 if (udev_available() && !link
->dev
)
2032 link
->ethtool_driver_read
= true;
2034 r
= ethtool_get_driver(&link
->manager
->ethtool_fd
, link
->ifname
, &link
->driver
);
2036 log_link_debug_errno(link
, r
, "Failed to get driver, continuing without: %m");
2040 log_link_debug(link
, "Found driver: %s", strna(link
->driver
));
2042 if (streq_ptr(link
->driver
, "dsa")) {
2043 uint32_t dsa_master_ifindex
= 0;
2045 r
= sd_netlink_message_read_u32(message
, IFLA_LINK
, &dsa_master_ifindex
);
2046 if (r
< 0 && r
!= -ENODATA
)
2047 return log_link_debug_errno(link
, r
, "rtnl: failed to read ifindex of the DSA master interface: %m");
2049 if (dsa_master_ifindex
> INT_MAX
) {
2050 log_link_debug(link
, "rtnl: received too large DSA master ifindex (%"PRIu32
" > INT_MAX), ignoring.",
2051 dsa_master_ifindex
);
2052 dsa_master_ifindex
= 0;
2055 link
->dsa_master_ifindex
= (int) dsa_master_ifindex
;
2058 return 1; /* needs reconfigure */
2061 static int link_update_permanent_hardware_address_from_ethtool(Link
*link
, sd_netlink_message
*message
) {
2065 assert(link
->manager
);
2068 if (link
->ethtool_permanent_hw_addr_read
)
2071 /* When udevd is running, read the permanent hardware address after the interface is
2072 * initialized by udevd. Otherwise, ethtool may not work correctly. See issue #22538.
2073 * When udevd is not running, read the value when the interface is detected. */
2074 if (udev_available() && !link
->dev
)
2077 /* If the interface does not have a hardware address, then it will not have a permanent address either. */
2078 r
= netlink_message_read_hw_addr(message
, IFLA_ADDRESS
, NULL
);
2082 return log_link_debug_errno(link
, r
, "Failed to read IFLA_ADDRESS attribute: %m");
2084 link
->ethtool_permanent_hw_addr_read
= true;
2086 r
= ethtool_get_permanent_hw_addr(&link
->manager
->ethtool_fd
, link
->ifname
, &link
->permanent_hw_addr
);
2088 log_link_debug_errno(link
, r
, "Permanent hardware address not found, continuing without: %m");
2093 static int link_update_permanent_hardware_address(Link
*link
, sd_netlink_message
*message
) {
2097 assert(link
->manager
);
2100 if (link
->permanent_hw_addr
.length
> 0)
2103 r
= netlink_message_read_hw_addr(message
, IFLA_PERM_ADDRESS
, &link
->permanent_hw_addr
);
2106 return log_link_debug_errno(link
, r
, "Failed to read IFLA_PERM_ADDRESS attribute: %m");
2108 /* Fallback to ethtool for older kernels. */
2109 r
= link_update_permanent_hardware_address_from_ethtool(link
, message
);
2114 if (link
->permanent_hw_addr
.length
> 0)
2115 log_link_debug(link
, "Saved permanent hardware address: %s", HW_ADDR_TO_STR(&link
->permanent_hw_addr
));
2117 return 1; /* needs reconfigure */
2120 static int link_update_hardware_address(Link
*link
, sd_netlink_message
*message
) {
2121 struct hw_addr_data addr
;
2127 r
= netlink_message_read_hw_addr(message
, IFLA_BROADCAST
, &link
->bcast_addr
);
2128 if (r
< 0 && r
!= -ENODATA
)
2129 return log_link_debug_errno(link
, r
, "rtnl: failed to read broadcast address: %m");
2131 r
= netlink_message_read_hw_addr(message
, IFLA_ADDRESS
, &addr
);
2135 return log_link_debug_errno(link
, r
, "rtnl: failed to read hardware address: %m");
2137 if (hw_addr_equal(&link
->hw_addr
, &addr
))
2140 if (link
->hw_addr
.length
== 0)
2141 log_link_debug(link
, "Saved hardware address: %s", HW_ADDR_TO_STR(&addr
));
2143 log_link_debug(link
, "Hardware address is changed: %s %s %s",
2144 HW_ADDR_TO_STR(&link
->hw_addr
),
2145 special_glyph(SPECIAL_GLYPH_ARROW_RIGHT
),
2146 HW_ADDR_TO_STR(&addr
));
2148 hashmap_remove_value(link
->manager
->links_by_hw_addr
, &link
->hw_addr
, link
);
2151 link
->hw_addr
= addr
;
2153 if (!hw_addr_is_null(&link
->hw_addr
)) {
2154 r
= hashmap_ensure_put(&link
->manager
->links_by_hw_addr
, &hw_addr_hash_ops
, &link
->hw_addr
, link
);
2155 if (r
== -EEXIST
&& streq_ptr(link
->kind
, "bond"))
2156 /* bonding master and its slaves have the same hardware address. */
2157 r
= hashmap_replace(link
->manager
->links_by_hw_addr
, &link
->hw_addr
, link
);
2159 log_link_debug_errno(link
, r
, "Failed to manage link by its new hardware address, ignoring: %m");
2162 r
= ipv4acd_update_mac(link
);
2164 return log_link_debug_errno(link
, r
, "Could not update MAC address in IPv4 ACD client: %m");
2166 r
= ipv4ll_update_mac(link
);
2168 return log_link_debug_errno(link
, r
, "Could not update MAC address in IPv4LL client: %m");
2170 r
= dhcp4_update_mac(link
);
2172 return log_link_debug_errno(link
, r
, "Could not update MAC address in DHCP client: %m");
2174 r
= dhcp6_update_mac(link
);
2176 return log_link_debug_errno(link
, r
, "Could not update MAC address in DHCPv6 client: %m");
2178 r
= radv_update_mac(link
);
2180 return log_link_debug_errno(link
, r
, "Could not update MAC address for Router Advertisement: %m");
2182 if (link
->ndisc
&& link
->hw_addr
.length
== ETH_ALEN
) {
2183 r
= sd_ndisc_set_mac(link
->ndisc
, &link
->hw_addr
.ether
);
2185 return log_link_debug_errno(link
, r
, "Could not update MAC for NDisc: %m");
2188 if (link
->lldp_rx
) {
2189 r
= sd_lldp_rx_set_filter_address(link
->lldp_rx
, &link
->hw_addr
.ether
);
2191 return log_link_debug_errno(link
, r
, "Could not update MAC address for LLDP Rx: %m");
2194 if (link
->lldp_tx
) {
2195 r
= sd_lldp_tx_set_hwaddr(link
->lldp_tx
, &link
->hw_addr
.ether
);
2197 return log_link_debug_errno(link
, r
, "Could not update MAC address for LLDP Tx: %m");
2200 return 1; /* needs reconfigure */
2203 static int link_update_mtu(Link
*link
, sd_netlink_message
*message
) {
2204 uint32_t mtu
, min_mtu
= 0, max_mtu
= UINT32_MAX
;
2210 r
= sd_netlink_message_read_u32(message
, IFLA_MTU
, &mtu
);
2214 return log_link_debug_errno(link
, r
, "rtnl: failed to read MTU in RTM_NEWLINK message: %m");
2218 r
= sd_netlink_message_read_u32(message
, IFLA_MIN_MTU
, &min_mtu
);
2219 if (r
< 0 && r
!= -ENODATA
)
2220 return log_link_debug_errno(link
, r
, "rtnl: failed to read minimum MTU in RTM_NEWLINK message: %m");
2222 r
= sd_netlink_message_read_u32(message
, IFLA_MAX_MTU
, &max_mtu
);
2223 if (r
< 0 && r
!= -ENODATA
)
2224 return log_link_debug_errno(link
, r
, "rtnl: failed to read maximum MTU in RTM_NEWLINK message: %m");
2227 max_mtu
= UINT32_MAX
;
2229 link
->min_mtu
= min_mtu
;
2230 link
->max_mtu
= max_mtu
;
2232 if (link
->original_mtu
== 0) {
2233 link
->original_mtu
= mtu
;
2234 log_link_debug(link
, "Saved original MTU %" PRIu32
" (min: %"PRIu32
", max: %"PRIu32
")",
2235 link
->original_mtu
, link
->min_mtu
, link
->max_mtu
);
2238 if (link
->mtu
== mtu
)
2242 log_link_debug(link
, "MTU is changed: %"PRIu32
" %s %"PRIu32
" (min: %"PRIu32
", max: %"PRIu32
")",
2243 link
->mtu
, special_glyph(SPECIAL_GLYPH_ARROW_RIGHT
), mtu
,
2244 link
->min_mtu
, link
->max_mtu
);
2248 if (link
->dhcp_client
) {
2249 r
= sd_dhcp_client_set_mtu(link
->dhcp_client
, link
->mtu
);
2251 return log_link_debug_errno(link
, r
, "Could not update MTU in DHCP client: %m");
2255 r
= sd_radv_set_mtu(link
->radv
, link
->mtu
);
2257 return log_link_debug_errno(link
, r
, "Could not set MTU for Router Advertisement: %m");
2263 static int link_update_alternative_names(Link
*link
, sd_netlink_message
*message
) {
2264 _cleanup_strv_free_
char **altnames
= NULL
;
2270 r
= sd_netlink_message_read_strv(message
, IFLA_PROP_LIST
, IFLA_ALT_IFNAME
, &altnames
);
2272 /* The message does not have IFLA_PROP_LIST container attribute. It does not mean the
2273 * interface has no alternative name. */
2276 return log_link_debug_errno(link
, r
, "rtnl: failed to read alternative names: %m");
2278 if (strv_equal(altnames
, link
->alternative_names
))
2281 STRV_FOREACH(n
, link
->alternative_names
)
2282 hashmap_remove(link
->manager
->links_by_name
, *n
);
2284 strv_free_and_replace(link
->alternative_names
, altnames
);
2286 STRV_FOREACH(n
, link
->alternative_names
) {
2287 r
= hashmap_ensure_put(&link
->manager
->links_by_name
, &string_hash_ops
, *n
, link
);
2289 return log_link_debug_errno(link
, r
, "Failed to manage link by its new alternative names: %m");
2292 return 1; /* needs reconfigure */
2295 static int link_update_name(Link
*link
, sd_netlink_message
*message
) {
2296 char ifname_from_index
[IF_NAMESIZE
];
2303 r
= sd_netlink_message_read_string(message
, IFLA_IFNAME
, &ifname
);
2308 return log_link_debug_errno(link
, r
, "Failed to read interface name in RTM_NEWLINK message: %m");
2310 if (streq(ifname
, link
->ifname
))
2313 r
= format_ifname(link
->ifindex
, ifname_from_index
);
2315 return log_link_debug_errno(link
, r
, "Could not get interface name for index %i.", link
->ifindex
);
2317 if (!streq(ifname
, ifname_from_index
)) {
2318 log_link_debug(link
, "New interface name '%s' received from the kernel does not correspond "
2319 "with the name currently configured on the actual interface '%s'. Ignoring.",
2320 ifname
, ifname_from_index
);
2324 log_link_info(link
, "Interface name change detected, renamed to %s.", ifname
);
2326 hashmap_remove(link
->manager
->links_by_name
, link
->ifname
);
2328 r
= free_and_strdup(&link
->ifname
, ifname
);
2330 return log_oom_debug();
2332 r
= hashmap_ensure_put(&link
->manager
->links_by_name
, &string_hash_ops
, link
->ifname
, link
);
2334 return log_link_debug_errno(link
, r
, "Failed to manage link by its new name: %m");
2336 if (link
->dhcp_client
) {
2337 r
= sd_dhcp_client_set_ifname(link
->dhcp_client
, link
->ifname
);
2339 return log_link_debug_errno(link
, r
, "Failed to update interface name in DHCP client: %m");
2342 if (link
->dhcp6_client
) {
2343 r
= sd_dhcp6_client_set_ifname(link
->dhcp6_client
, link
->ifname
);
2345 return log_link_debug_errno(link
, r
, "Failed to update interface name in DHCP6 client: %m");
2349 r
= sd_ndisc_set_ifname(link
->ndisc
, link
->ifname
);
2351 return log_link_debug_errno(link
, r
, "Failed to update interface name in NDisc: %m");
2354 if (link
->dhcp_server
) {
2355 r
= sd_dhcp_server_set_ifname(link
->dhcp_server
, link
->ifname
);
2357 return log_link_debug_errno(link
, r
, "Failed to update interface name in DHCP server: %m");
2361 r
= sd_radv_set_ifname(link
->radv
, link
->ifname
);
2363 return log_link_debug_errno(link
, r
, "Failed to update interface name in Router Advertisement: %m");
2366 if (link
->lldp_rx
) {
2367 r
= sd_lldp_rx_set_ifname(link
->lldp_rx
, link
->ifname
);
2369 return log_link_debug_errno(link
, r
, "Failed to update interface name in LLDP Rx: %m");
2372 if (link
->lldp_tx
) {
2373 r
= sd_lldp_tx_set_ifname(link
->lldp_tx
, link
->ifname
);
2375 return log_link_debug_errno(link
, r
, "Failed to update interface name in LLDP Tx: %m");
2379 r
= sd_ipv4ll_set_ifname(link
->ipv4ll
, link
->ifname
);
2381 return log_link_debug_errno(link
, r
, "Failed to update interface name in IPv4LL client: %m");
2384 r
= ipv4acd_set_ifname(link
);
2386 return log_link_debug_errno(link
, r
, "Failed to update interface name in IPv4ACD client: %m");
2388 return 1; /* needs reconfigure */
2391 static int link_update(Link
*link
, sd_netlink_message
*message
) {
2392 bool needs_reconfigure
= false;
2398 r
= link_update_name(link
, message
);
2401 needs_reconfigure
= needs_reconfigure
|| r
> 0;
2403 r
= link_update_alternative_names(link
, message
);
2406 needs_reconfigure
= needs_reconfigure
|| r
> 0;
2408 r
= link_update_mtu(link
, message
);
2412 r
= link_update_driver(link
, message
);
2415 needs_reconfigure
= needs_reconfigure
|| r
> 0;
2417 r
= link_update_permanent_hardware_address(link
, message
);
2420 needs_reconfigure
= needs_reconfigure
|| r
> 0;
2422 r
= link_update_hardware_address(link
, message
);
2425 needs_reconfigure
= needs_reconfigure
|| r
> 0;
2427 r
= link_update_master(link
, message
);
2431 r
= link_update_ipv6ll_addrgen_mode(link
, message
);
2435 r
= link_update_flags(link
, message
);
2439 r
= link_update_bridge_vlan(link
, message
);
2443 return needs_reconfigure
;
2446 static Link
*link_drop_or_unref(Link
*link
) {
2450 return link_unref(link
);
2451 return link_drop(link
);
2454 DEFINE_TRIVIAL_CLEANUP_FUNC(Link
*, link_drop_or_unref
);
2456 static int link_new(Manager
*manager
, sd_netlink_message
*message
, Link
**ret
) {
2457 _cleanup_free_
char *ifname
= NULL
, *kind
= NULL
, *state_file
= NULL
, *lease_file
= NULL
, *lldp_file
= NULL
;
2458 _cleanup_(link_drop_or_unrefp
) Link
*link
= NULL
;
2459 unsigned short iftype
;
2466 r
= sd_rtnl_message_link_get_ifindex(message
, &ifindex
);
2468 return log_debug_errno(r
, "rtnl: failed to read ifindex from link message: %m");
2469 else if (ifindex
<= 0)
2470 return log_debug_errno(SYNTHETIC_ERRNO(EINVAL
), "rtnl: received link message without valid ifindex.");
2472 r
= sd_rtnl_message_link_get_type(message
, &iftype
);
2474 return log_debug_errno(r
, "rtnl: failed to read interface type from link message: %m");
2476 r
= sd_netlink_message_read_string_strdup(message
, IFLA_IFNAME
, &ifname
);
2478 return log_debug_errno(r
, "rtnl: failed to read interface name from link message: %m");
2480 /* check for link kind */
2481 r
= sd_netlink_message_enter_container(message
, IFLA_LINKINFO
);
2483 r
= sd_netlink_message_read_string_strdup(message
, IFLA_INFO_KIND
, &kind
);
2484 if (r
< 0 && r
!= -ENODATA
)
2485 return log_debug_errno(r
, "rtnl: failed to read interface kind from link message: %m");
2486 r
= sd_netlink_message_exit_container(message
);
2488 return log_debug_errno(r
, "rtnl: failed to exit IFLA_LINKINFO container: %m");
2491 if (!manager
->test_mode
) {
2492 /* Do not update state files when running in test mode. */
2493 if (asprintf(&state_file
, "/run/systemd/netif/links/%d", ifindex
) < 0)
2494 return log_oom_debug();
2496 if (asprintf(&lease_file
, "/run/systemd/netif/leases/%d", ifindex
) < 0)
2497 return log_oom_debug();
2499 if (asprintf(&lldp_file
, "/run/systemd/netif/lldp/%d", ifindex
) < 0)
2500 return log_oom_debug();
2503 link
= new(Link
, 1);
2509 .state
= LINK_STATE_PENDING
,
2510 .online_state
= _LINK_ONLINE_STATE_INVALID
,
2513 .ifname
= TAKE_PTR(ifname
),
2514 .kind
= TAKE_PTR(kind
),
2516 .bridge_vlan_pvid
= UINT16_MAX
,
2518 .ipv6ll_address_gen_mode
= _IPV6_LINK_LOCAL_ADDRESS_GEN_MODE_INVALID
,
2520 .state_file
= TAKE_PTR(state_file
),
2521 .lease_file
= TAKE_PTR(lease_file
),
2522 .lldp_file
= TAKE_PTR(lldp_file
),
2525 .dns_default_route
= -1,
2526 .llmnr
= _RESOLVE_SUPPORT_INVALID
,
2527 .mdns
= _RESOLVE_SUPPORT_INVALID
,
2528 .dnssec_mode
= _DNSSEC_MODE_INVALID
,
2529 .dns_over_tls_mode
= _DNS_OVER_TLS_MODE_INVALID
,
2532 r
= hashmap_ensure_put(&manager
->links_by_index
, NULL
, INT_TO_PTR(link
->ifindex
), link
);
2534 return log_link_debug_errno(link
, r
, "Failed to store link into manager: %m");
2536 link
->manager
= manager
;
2538 r
= hashmap_ensure_put(&manager
->links_by_name
, &string_hash_ops
, link
->ifname
, link
);
2540 return log_link_debug_errno(link
, r
, "Failed to manage link by its interface name: %m");
2542 log_link_debug(link
, "Saved new link: ifindex=%i, iftype=%s(%u), kind=%s",
2543 link
->ifindex
, strna(arphrd_to_name(link
->iftype
)), link
->iftype
, strna(link
->kind
));
2545 /* If contained in this set, the link is wireless and the corresponding NL80211_CMD_NEW_INTERFACE
2546 * message arrived too early. Request the wireless link information again.
2548 if (set_remove(manager
->new_wlan_ifindices
, INT_TO_PTR(link
->ifindex
))) {
2549 r
= link_get_wlan_interface(link
);
2551 log_link_warning_errno(link
, r
, "Failed to get wireless interface, ignoring: %m");
2554 *ret
= TAKE_PTR(link
);
2558 int manager_rtnl_process_link(sd_netlink
*rtnl
, sd_netlink_message
*message
, Manager
*manager
) {
2560 NetDev
*netdev
= NULL
;
2569 if (sd_netlink_message_is_error(message
)) {
2570 r
= sd_netlink_message_get_errno(message
);
2572 log_message_warning_errno(message
, r
, "rtnl: Could not receive link message, ignoring");
2577 r
= sd_netlink_message_get_type(message
, &type
);
2579 log_warning_errno(r
, "rtnl: Could not get message type, ignoring: %m");
2581 } else if (!IN_SET(type
, RTM_NEWLINK
, RTM_DELLINK
)) {
2582 log_warning("rtnl: Received unexpected message type %u when processing link, ignoring.", type
);
2586 r
= sd_rtnl_message_link_get_ifindex(message
, &ifindex
);
2588 log_warning_errno(r
, "rtnl: Could not get ifindex from link message, ignoring: %m");
2590 } else if (ifindex
<= 0) {
2591 log_warning("rtnl: received link message with invalid ifindex %d, ignoring.", ifindex
);
2595 r
= sd_netlink_message_read_string(message
, IFLA_IFNAME
, &name
);
2597 log_warning_errno(r
, "rtnl: Received link message without ifname, ignoring: %m");
2601 (void) link_get_by_index(manager
, ifindex
, &link
);
2602 (void) netdev_get(manager
, name
, &netdev
);
2607 /* netdev exists, so make sure the ifindex matches */
2608 r
= netdev_set_ifindex(netdev
, message
);
2610 log_netdev_warning_errno(netdev
, r
, "Could not process new link message for netdev, ignoring: %m");
2616 /* link is new, so add it */
2617 r
= link_new(manager
, message
, &link
);
2619 log_warning_errno(r
, "Could not process new link message: %m");
2623 r
= link_update(link
, message
);
2625 log_link_warning_errno(link
, r
, "Could not process link message: %m");
2626 link_enter_failed(link
);
2630 r
= link_check_initialized(link
);
2632 log_link_warning_errno(link
, r
, "Failed to check link is initialized: %m");
2633 link_enter_failed(link
);
2637 r
= link_update(link
, message
);
2639 log_link_warning_errno(link
, r
, "Could not process link message: %m");
2640 link_enter_failed(link
);
2644 r
= link_reconfigure_impl(link
, /* force = */ false);
2646 log_link_warning_errno(link
, r
, "Failed to reconfigure interface: %m");
2647 link_enter_failed(link
);
2656 netdev_drop(netdev
);
2660 assert_not_reached();
2666 int link_getlink_handler_internal(sd_netlink
*rtnl
, sd_netlink_message
*m
, Link
*link
, const char *error_msg
) {
2667 uint16_t message_type
;
2674 if (IN_SET(link
->state
, LINK_STATE_FAILED
, LINK_STATE_LINGER
))
2677 r
= sd_netlink_message_get_errno(m
);
2679 log_link_message_warning_errno(link
, m
, r
, error_msg
);
2680 link_enter_failed(link
);
2684 r
= sd_netlink_message_get_type(m
, &message_type
);
2686 log_link_debug_errno(link
, r
, "rtnl: failed to read link message type, ignoring: %m");
2689 if (message_type
!= RTM_NEWLINK
) {
2690 log_link_debug(link
, "rtnl: received invalid link message type, ignoring.");
2694 r
= link_update(link
, m
);
2696 link_enter_failed(link
);
2703 int link_call_getlink(Link
*link
, link_netlink_message_handler_t callback
) {
2704 _cleanup_(sd_netlink_message_unrefp
) sd_netlink_message
*req
= NULL
;
2708 assert(link
->manager
);
2709 assert(link
->manager
->rtnl
);
2712 r
= sd_rtnl_message_new_link(link
->manager
->rtnl
, &req
, RTM_GETLINK
, link
->ifindex
);
2716 r
= netlink_call_async(link
->manager
->rtnl
, NULL
, req
, callback
,
2717 link_netlink_destroy_callback
, link
);
2725 static const char* const link_state_table
[_LINK_STATE_MAX
] = {
2726 [LINK_STATE_PENDING
] = "pending",
2727 [LINK_STATE_INITIALIZED
] = "initialized",
2728 [LINK_STATE_CONFIGURING
] = "configuring",
2729 [LINK_STATE_CONFIGURED
] = "configured",
2730 [LINK_STATE_UNMANAGED
] = "unmanaged",
2731 [LINK_STATE_FAILED
] = "failed",
2732 [LINK_STATE_LINGER
] = "linger",
2735 DEFINE_STRING_TABLE_LOOKUP(link_state
, LinkState
);
2737 int link_flags_to_string_alloc(uint32_t flags
, char **ret
) {
2738 _cleanup_free_
char *str
= NULL
;
2739 static const char* map
[] = {
2740 [LOG2U(IFF_UP
)] = "up", /* interface is up. */
2741 [LOG2U(IFF_BROADCAST
)] = "broadcast", /* broadcast address valid. */
2742 [LOG2U(IFF_DEBUG
)] = "debug", /* turn on debugging. */
2743 [LOG2U(IFF_LOOPBACK
)] = "loopback", /* interface is a loopback net. */
2744 [LOG2U(IFF_POINTOPOINT
)] = "point-to-point", /* interface has p-p link. */
2745 [LOG2U(IFF_NOTRAILERS
)] = "no-trailers", /* avoid use of trailers. */
2746 [LOG2U(IFF_RUNNING
)] = "running", /* interface RFC2863 OPER_UP. */
2747 [LOG2U(IFF_NOARP
)] = "no-arp", /* no ARP protocol. */
2748 [LOG2U(IFF_PROMISC
)] = "promiscuous", /* receive all packets. */
2749 [LOG2U(IFF_ALLMULTI
)] = "all-multicast", /* receive all multicast packets. */
2750 [LOG2U(IFF_MASTER
)] = "master", /* master of a load balancer. */
2751 [LOG2U(IFF_SLAVE
)] = "slave", /* slave of a load balancer. */
2752 [LOG2U(IFF_MULTICAST
)] = "multicast", /* supports multicast. */
2753 [LOG2U(IFF_PORTSEL
)] = "portsel", /* can set media type. */
2754 [LOG2U(IFF_AUTOMEDIA
)] = "auto-media", /* auto media select active. */
2755 [LOG2U(IFF_DYNAMIC
)] = "dynamic", /* dialup device with changing addresses. */
2756 [LOG2U(IFF_LOWER_UP
)] = "lower-up", /* driver signals L1 up. */
2757 [LOG2U(IFF_DORMANT
)] = "dormant", /* driver signals dormant. */
2758 [LOG2U(IFF_ECHO
)] = "echo", /* echo sent packets. */
2763 for (size_t i
= 0; i
< ELEMENTSOF(map
); i
++)
2764 if (FLAGS_SET(flags
, 1 << i
) && map
[i
])
2765 if (!strextend_with_separator(&str
, ",", map
[i
]))
2768 *ret
= TAKE_PTR(str
);
2772 static const char * const kernel_operstate_table
[] = {
2773 [IF_OPER_UNKNOWN
] = "unknown",
2774 [IF_OPER_NOTPRESENT
] = "not-present",
2775 [IF_OPER_DOWN
] = "down",
2776 [IF_OPER_LOWERLAYERDOWN
] = "lower-layer-down",
2777 [IF_OPER_TESTING
] = "testing",
2778 [IF_OPER_DORMANT
] = "dormant",
2779 [IF_OPER_UP
] = "up",
2782 DEFINE_STRING_TABLE_LOOKUP_TO_STRING(kernel_operstate
, int);