/* SPDX-License-Identifier: LGPL-2.1+ */ /*** This file is part of systemd. Copyright (C) 2014 Axis Communications AB. All rights reserved. Copyright (C) 2015 Tom Gundersen ***/ #include #include #include #include #include #include "sd-ipv4acd.h" #include "alloc-util.h" #include "arp-util.h" #include "ether-addr-util.h" #include "fd-util.h" #include "in-addr-util.h" #include "list.h" #include "random-util.h" #include "siphash24.h" #include "string-util.h" #include "util.h" /* Constants from the RFC */ #define PROBE_WAIT_USEC (1U * USEC_PER_SEC) #define PROBE_NUM 3U #define PROBE_MIN_USEC (1U * USEC_PER_SEC) #define PROBE_MAX_USEC (2U * USEC_PER_SEC) #define ANNOUNCE_WAIT_USEC (2U * USEC_PER_SEC) #define ANNOUNCE_NUM 2U #define ANNOUNCE_INTERVAL_USEC (2U * USEC_PER_SEC) #define MAX_CONFLICTS 10U #define RATE_LIMIT_INTERVAL_USEC (60U * USEC_PER_SEC) #define DEFEND_INTERVAL_USEC (10U * USEC_PER_SEC) typedef enum IPv4ACDState { IPV4ACD_STATE_INIT, IPV4ACD_STATE_STARTED, IPV4ACD_STATE_WAITING_PROBE, IPV4ACD_STATE_PROBING, IPV4ACD_STATE_WAITING_ANNOUNCE, IPV4ACD_STATE_ANNOUNCING, IPV4ACD_STATE_RUNNING, _IPV4ACD_STATE_MAX, _IPV4ACD_STATE_INVALID = -1 } IPv4ACDState; struct sd_ipv4acd { unsigned n_ref; IPv4ACDState state; int ifindex; int fd; unsigned n_iteration; unsigned n_conflict; sd_event_source *receive_message_event_source; sd_event_source *timer_event_source; usec_t defend_window; be32_t address; /* External */ struct ether_addr mac_addr; sd_event *event; int event_priority; sd_ipv4acd_callback_t callback; void* userdata; }; #define log_ipv4acd_errno(acd, error, fmt, ...) log_internal(LOG_DEBUG, error, __FILE__, __LINE__, __func__, "IPV4ACD: " fmt, ##__VA_ARGS__) #define log_ipv4acd(acd, fmt, ...) log_ipv4acd_errno(acd, 0, fmt, ##__VA_ARGS__) static void ipv4acd_set_state(sd_ipv4acd *acd, IPv4ACDState st, bool reset_counter) { assert(acd); assert(st < _IPV4ACD_STATE_MAX); if (st == acd->state && !reset_counter) acd->n_iteration++; else { acd->state = st; acd->n_iteration = 0; } } static void ipv4acd_reset(sd_ipv4acd *acd) { assert(acd); acd->timer_event_source = sd_event_source_unref(acd->timer_event_source); acd->receive_message_event_source = sd_event_source_unref(acd->receive_message_event_source); acd->fd = safe_close(acd->fd); ipv4acd_set_state(acd, IPV4ACD_STATE_INIT, true); } sd_ipv4acd *sd_ipv4acd_ref(sd_ipv4acd *acd) { if (!acd) return NULL; assert_se(acd->n_ref >= 1); acd->n_ref++; return acd; } sd_ipv4acd *sd_ipv4acd_unref(sd_ipv4acd *acd) { if (!acd) return NULL; assert_se(acd->n_ref >= 1); acd->n_ref--; if (acd->n_ref > 0) return NULL; ipv4acd_reset(acd); sd_ipv4acd_detach_event(acd); return mfree(acd); } int sd_ipv4acd_new(sd_ipv4acd **ret) { _cleanup_(sd_ipv4acd_unrefp) sd_ipv4acd *acd = NULL; assert_return(ret, -EINVAL); acd = new0(sd_ipv4acd, 1); if (!acd) return -ENOMEM; acd->n_ref = 1; acd->state = IPV4ACD_STATE_INIT; acd->ifindex = -1; acd->fd = -1; *ret = TAKE_PTR(acd); return 0; } static void ipv4acd_client_notify(sd_ipv4acd *acd, int event) { assert(acd); if (!acd->callback) return; acd->callback(acd, event, acd->userdata); } int sd_ipv4acd_stop(sd_ipv4acd *acd) { assert_return(acd, -EINVAL); ipv4acd_reset(acd); log_ipv4acd(acd, "STOPPED"); ipv4acd_client_notify(acd, SD_IPV4ACD_EVENT_STOP); return 0; } static int ipv4acd_on_timeout(sd_event_source *s, uint64_t usec, void *userdata); static int ipv4acd_set_next_wakeup(sd_ipv4acd *acd, usec_t usec, usec_t random_usec) { _cleanup_(sd_event_source_unrefp) sd_event_source *timer = NULL; usec_t next_timeout, time_now; int r; assert(acd); next_timeout = usec; if (random_usec > 0) next_timeout += (usec_t) random_u64() % random_usec; assert_se(sd_event_now(acd->event, clock_boottime_or_monotonic(), &time_now) >= 0); r = sd_event_add_time(acd->event, &timer, clock_boottime_or_monotonic(), time_now + next_timeout, 0, ipv4acd_on_timeout, acd); if (r < 0) return r; r = sd_event_source_set_priority(timer, acd->event_priority); if (r < 0) return r; (void) sd_event_source_set_description(timer, "ipv4acd-timer"); sd_event_source_unref(acd->timer_event_source); acd->timer_event_source = TAKE_PTR(timer); return 0; } static bool ipv4acd_arp_conflict(sd_ipv4acd *acd, struct ether_arp *arp) { assert(acd); assert(arp); /* see the BPF */ if (memcmp(arp->arp_spa, &acd->address, sizeof(acd->address)) == 0) return true; /* the TPA matched instead of the SPA, this is not a conflict */ return false; } static int ipv4acd_on_timeout(sd_event_source *s, uint64_t usec, void *userdata) { sd_ipv4acd *acd = userdata; int r = 0; assert(acd); switch (acd->state) { case IPV4ACD_STATE_STARTED: ipv4acd_set_state(acd, IPV4ACD_STATE_WAITING_PROBE, true); if (acd->n_conflict >= MAX_CONFLICTS) { char ts[FORMAT_TIMESPAN_MAX]; log_ipv4acd(acd, "Max conflicts reached, delaying by %s", format_timespan(ts, sizeof(ts), RATE_LIMIT_INTERVAL_USEC, 0)); r = ipv4acd_set_next_wakeup(acd, RATE_LIMIT_INTERVAL_USEC, PROBE_WAIT_USEC); if (r < 0) goto fail; } else { r = ipv4acd_set_next_wakeup(acd, 0, PROBE_WAIT_USEC); if (r < 0) goto fail; } break; case IPV4ACD_STATE_WAITING_PROBE: case IPV4ACD_STATE_PROBING: /* Send a probe */ r = arp_send_probe(acd->fd, acd->ifindex, acd->address, &acd->mac_addr); if (r < 0) { log_ipv4acd_errno(acd, r, "Failed to send ARP probe: %m"); goto fail; } else { _cleanup_free_ char *address = NULL; union in_addr_union addr = { .in.s_addr = acd->address }; (void) in_addr_to_string(AF_INET, &addr, &address); log_ipv4acd(acd, "Probing %s", strna(address)); } if (acd->n_iteration < PROBE_NUM - 2) { ipv4acd_set_state(acd, IPV4ACD_STATE_PROBING, false); r = ipv4acd_set_next_wakeup(acd, PROBE_MIN_USEC, (PROBE_MAX_USEC-PROBE_MIN_USEC)); if (r < 0) goto fail; } else { ipv4acd_set_state(acd, IPV4ACD_STATE_WAITING_ANNOUNCE, true); r = ipv4acd_set_next_wakeup(acd, ANNOUNCE_WAIT_USEC, 0); if (r < 0) goto fail; } break; case IPV4ACD_STATE_ANNOUNCING: if (acd->n_iteration >= ANNOUNCE_NUM - 1) { ipv4acd_set_state(acd, IPV4ACD_STATE_RUNNING, false); break; } _fallthrough_; case IPV4ACD_STATE_WAITING_ANNOUNCE: /* Send announcement packet */ r = arp_send_announcement(acd->fd, acd->ifindex, acd->address, &acd->mac_addr); if (r < 0) { log_ipv4acd_errno(acd, r, "Failed to send ARP announcement: %m"); goto fail; } else log_ipv4acd(acd, "ANNOUNCE"); ipv4acd_set_state(acd, IPV4ACD_STATE_ANNOUNCING, false); r = ipv4acd_set_next_wakeup(acd, ANNOUNCE_INTERVAL_USEC, 0); if (r < 0) goto fail; if (acd->n_iteration == 0) { acd->n_conflict = 0; ipv4acd_client_notify(acd, SD_IPV4ACD_EVENT_BIND); } break; default: assert_not_reached("Invalid state."); } return 0; fail: sd_ipv4acd_stop(acd); return 0; } static void ipv4acd_on_conflict(sd_ipv4acd *acd) { _cleanup_free_ char *address = NULL; union in_addr_union addr = { .in.s_addr = acd->address }; assert(acd); acd->n_conflict++; (void) in_addr_to_string(AF_INET, &addr, &address); log_ipv4acd(acd, "Conflict on %s (%u)", strna(address), acd->n_conflict); ipv4acd_reset(acd); ipv4acd_client_notify(acd, SD_IPV4ACD_EVENT_CONFLICT); } static int ipv4acd_on_packet( sd_event_source *s, int fd, uint32_t revents, void *userdata) { sd_ipv4acd *acd = userdata; struct ether_arp packet; ssize_t n; int r; assert(s); assert(acd); assert(fd >= 0); n = recv(fd, &packet, sizeof(struct ether_arp), 0); if (n < 0) { if (IN_SET(errno, EAGAIN, EINTR)) return 0; log_ipv4acd_errno(acd, errno, "Failed to read ARP packet: %m"); goto fail; } if ((size_t) n != sizeof(struct ether_arp)) { log_ipv4acd(acd, "Ignoring too short ARP packet."); return 0; } switch (acd->state) { case IPV4ACD_STATE_ANNOUNCING: case IPV4ACD_STATE_RUNNING: if (ipv4acd_arp_conflict(acd, &packet)) { usec_t ts; assert_se(sd_event_now(acd->event, clock_boottime_or_monotonic(), &ts) >= 0); /* Defend address */ if (ts > acd->defend_window) { acd->defend_window = ts + DEFEND_INTERVAL_USEC; r = arp_send_announcement(acd->fd, acd->ifindex, acd->address, &acd->mac_addr); if (r < 0) { log_ipv4acd_errno(acd, r, "Failed to send ARP announcement: %m"); goto fail; } else log_ipv4acd(acd, "DEFEND"); } else ipv4acd_on_conflict(acd); } break; case IPV4ACD_STATE_WAITING_PROBE: case IPV4ACD_STATE_PROBING: case IPV4ACD_STATE_WAITING_ANNOUNCE: /* BPF ensures this packet indicates a conflict */ ipv4acd_on_conflict(acd); break; default: assert_not_reached("Invalid state."); } return 0; fail: sd_ipv4acd_stop(acd); return 0; } int sd_ipv4acd_set_ifindex(sd_ipv4acd *acd, int ifindex) { assert_return(acd, -EINVAL); assert_return(ifindex > 0, -EINVAL); assert_return(acd->state == IPV4ACD_STATE_INIT, -EBUSY); acd->ifindex = ifindex; return 0; } int sd_ipv4acd_set_mac(sd_ipv4acd *acd, const struct ether_addr *addr) { assert_return(acd, -EINVAL); assert_return(addr, -EINVAL); assert_return(acd->state == IPV4ACD_STATE_INIT, -EBUSY); acd->mac_addr = *addr; return 0; } int sd_ipv4acd_detach_event(sd_ipv4acd *acd) { assert_return(acd, -EINVAL); acd->event = sd_event_unref(acd->event); return 0; } int sd_ipv4acd_attach_event(sd_ipv4acd *acd, sd_event *event, int64_t priority) { int r; assert_return(acd, -EINVAL); assert_return(!acd->event, -EBUSY); if (event) acd->event = sd_event_ref(event); else { r = sd_event_default(&acd->event); if (r < 0) return r; } acd->event_priority = priority; return 0; } int sd_ipv4acd_set_callback(sd_ipv4acd *acd, sd_ipv4acd_callback_t cb, void *userdata) { assert_return(acd, -EINVAL); acd->callback = cb; acd->userdata = userdata; return 0; } int sd_ipv4acd_set_address(sd_ipv4acd *acd, const struct in_addr *address) { assert_return(acd, -EINVAL); assert_return(address, -EINVAL); assert_return(acd->state == IPV4ACD_STATE_INIT, -EBUSY); acd->address = address->s_addr; return 0; } int sd_ipv4acd_is_running(sd_ipv4acd *acd) { assert_return(acd, false); return acd->state != IPV4ACD_STATE_INIT; } int sd_ipv4acd_start(sd_ipv4acd *acd) { int r; assert_return(acd, -EINVAL); assert_return(acd->event, -EINVAL); assert_return(acd->ifindex > 0, -EINVAL); assert_return(acd->address != 0, -EINVAL); assert_return(!ether_addr_is_null(&acd->mac_addr), -EINVAL); assert_return(acd->state == IPV4ACD_STATE_INIT, -EBUSY); r = arp_network_bind_raw_socket(acd->ifindex, acd->address, &acd->mac_addr); if (r < 0) return r; safe_close(acd->fd); acd->fd = r; acd->defend_window = 0; acd->n_conflict = 0; r = sd_event_add_io(acd->event, &acd->receive_message_event_source, acd->fd, EPOLLIN, ipv4acd_on_packet, acd); if (r < 0) goto fail; r = sd_event_source_set_priority(acd->receive_message_event_source, acd->event_priority); if (r < 0) goto fail; (void) sd_event_source_set_description(acd->receive_message_event_source, "ipv4acd-receive-message"); r = ipv4acd_set_next_wakeup(acd, 0, 0); if (r < 0) goto fail; ipv4acd_set_state(acd, IPV4ACD_STATE_STARTED, true); return 0; fail: ipv4acd_reset(acd); return r; }