/* Copyright (c) 2013, 2014, 2015, 2017 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include "byte-order.h" #include "connectivity.h" #include "csum.h" #include "dpif.h" #include "openvswitch/dynamic-string.h" #include "fat-rwlock.h" #include "hash.h" #include "openvswitch/hmap.h" #include "netdev.h" #include "odp-util.h" #include "openvswitch/ofpbuf.h" #include "packets.h" #include "route-table.h" #include "seq.h" #include "smap.h" #include "socket-util.h" #include "tnl-ports.h" #include "tunnel.h" #include "openvswitch/vlog.h" #include "unaligned.h" #include "unixctl.h" #include "ofproto-dpif.h" #include "netdev-vport.h" VLOG_DEFINE_THIS_MODULE(tunnel); struct tnl_match { ovs_be64 in_key; struct in6_addr ipv6_src; struct in6_addr ipv6_dst; odp_port_t odp_port; bool in_key_flow; bool ip_src_flow; bool ip_dst_flow; enum netdev_pt_mode pt_mode; }; struct tnl_port { struct hmap_node ofport_node; struct hmap_node match_node; const struct ofport_dpif *ofport; uint64_t change_seq; struct netdev *netdev; struct tnl_match match; }; static struct fat_rwlock rwlock; /* Tunnel matches. * * This module maps packets received over tunnel protocols to vports. The * tunnel protocol and, for some protocols, tunnel-specific information (e.g., * for VXLAN, the UDP destination port number) are always use as part of the * mapping. Which other fields are used for the mapping depends on the vports * themselves (the parenthesized notations refer to "struct tnl_match" fields): * * - in_key: A vport may match a specific tunnel ID (in_key_flow == false) * or arrange for the tunnel ID to be matched as tunnel.tun_id in the * OpenFlow flow (in_key_flow == true). * * - ip_dst: A vport may match a specific destination IP address * (ip_dst_flow == false) or arrange for the destination IP to be matched * as tunnel.ip_dst in the OpenFlow flow (ip_dst_flow == true). * * - ip_src: A vport may match a specific IP source address (ip_src_flow == * false, ip_src != 0), wildcard all source addresses (ip_src_flow == * false, ip_src == 0), or arrange for the IP source address to be * handled in the OpenFlow flow table (ip_src_flow == true). * * Thus, there are 2 * 2 * 3 == 12 possible ways a vport can match against a * tunnel packet. We number the possibilities for each field in increasing * order as listed in each bullet above. We order the 12 overall combinations * in lexicographic order considering in_key first, then ip_dst, then * ip_src. */ #define N_MATCH_TYPES (2 * 2 * 3) /* The three possibilities (see above) for vport ip_src matches. */ enum ip_src_type { IP_SRC_CFG, /* ip_src must equal configured address. */ IP_SRC_ANY, /* Any ip_src is acceptable. */ IP_SRC_FLOW /* ip_src is handled in flow table. */ }; /* Each hmap contains "struct tnl_port"s. * The index is a combination of how each of the fields listed under "Tunnel * matches" above matches, see the final paragraph for ordering. */ static struct hmap *tnl_match_maps[N_MATCH_TYPES] OVS_GUARDED_BY(rwlock); static struct hmap **tnl_match_map(const struct tnl_match *); static struct hmap ofport_map__ = HMAP_INITIALIZER(&ofport_map__); static struct hmap *ofport_map OVS_GUARDED_BY(rwlock) = &ofport_map__; static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5); static struct vlog_rate_limit dbg_rl = VLOG_RATE_LIMIT_INIT(60, 60); static struct tnl_port *tnl_find(const struct flow *) OVS_REQ_RDLOCK(rwlock); static struct tnl_port *tnl_find_exact(struct tnl_match *, struct hmap *) OVS_REQ_RDLOCK(rwlock); static struct tnl_port *tnl_find_ofport(const struct ofport_dpif *) OVS_REQ_RDLOCK(rwlock); static uint32_t tnl_hash(struct tnl_match *); static void tnl_match_fmt(const struct tnl_match *, struct ds *); static char *tnl_port_to_string(const struct tnl_port *) OVS_REQ_RDLOCK(rwlock); static void tnl_port_format(const struct tnl_port *, struct ds *) OVS_REQ_RDLOCK(rwlock); static void tnl_port_mod_log(const struct tnl_port *, const char *action) OVS_REQ_RDLOCK(rwlock); static const char *tnl_port_get_name(const struct tnl_port *) OVS_REQ_RDLOCK(rwlock); static void tnl_port_del__(const struct ofport_dpif *, odp_port_t) OVS_REQ_WRLOCK(rwlock); static unixctl_cb_func tnl_unixctl_list; void ofproto_tunnel_init(void) { static struct ovsthread_once once = OVSTHREAD_ONCE_INITIALIZER; if (ovsthread_once_start(&once)) { fat_rwlock_init(&rwlock); unixctl_command_register("ofproto/list-tunnels", "", 0, 0, tnl_unixctl_list, NULL); ovsthread_once_done(&once); } } static bool tnl_port_add__(const struct ofport_dpif *ofport, const struct netdev *netdev, odp_port_t odp_port, bool warn, bool native_tnl, const char name[]) OVS_REQ_WRLOCK(rwlock) { const struct netdev_tunnel_config *cfg; struct tnl_port *existing_port; struct tnl_port *tnl_port; struct hmap **map; cfg = netdev_get_tunnel_config(netdev); ovs_assert(cfg); tnl_port = xzalloc(sizeof *tnl_port); tnl_port->ofport = ofport; tnl_port->netdev = netdev_ref(netdev); tnl_port->change_seq = netdev_get_change_seq(tnl_port->netdev); tnl_port->match.in_key = cfg->in_key; tnl_port->match.ipv6_src = cfg->ipv6_src; tnl_port->match.ipv6_dst = cfg->ipv6_dst; tnl_port->match.ip_src_flow = cfg->ip_src_flow; tnl_port->match.ip_dst_flow = cfg->ip_dst_flow; tnl_port->match.in_key_flow = cfg->in_key_flow; tnl_port->match.odp_port = odp_port; tnl_port->match.pt_mode = netdev_get_pt_mode(netdev); map = tnl_match_map(&tnl_port->match); existing_port = tnl_find_exact(&tnl_port->match, *map); if (existing_port) { if (warn) { struct ds ds = DS_EMPTY_INITIALIZER; tnl_match_fmt(&tnl_port->match, &ds); VLOG_WARN("%s: attempting to add tunnel port with same config as " "port '%s' (%s)", tnl_port_get_name(tnl_port), tnl_port_get_name(existing_port), ds_cstr(&ds)); ds_destroy(&ds); } netdev_close(tnl_port->netdev); free(tnl_port); return false; } hmap_insert(ofport_map, &tnl_port->ofport_node, hash_pointer(ofport, 0)); if (!*map) { *map = xmalloc(sizeof **map); hmap_init(*map); } hmap_insert(*map, &tnl_port->match_node, tnl_hash(&tnl_port->match)); tnl_port_mod_log(tnl_port, "adding"); if (native_tnl) { const char *type; type = netdev_get_type(netdev); tnl_port_map_insert(odp_port, cfg->dst_port, name, type); } return true; } /* Adds 'ofport' to the module with datapath port number 'odp_port'. 'ofport's * must be added before they can be used by the module. 'ofport' must be a * tunnel. * * Returns 0 if successful, otherwise a positive errno value. */ int tnl_port_add(const struct ofport_dpif *ofport, const struct netdev *netdev, odp_port_t odp_port, bool native_tnl, const char name[]) OVS_EXCLUDED(rwlock) { bool ok; fat_rwlock_wrlock(&rwlock); ok = tnl_port_add__(ofport, netdev, odp_port, true, native_tnl, name); fat_rwlock_unlock(&rwlock); return ok ? 0 : EEXIST; } /* Checks if the tunnel represented by 'ofport' reconfiguration due to changes * in its netdev_tunnel_config. If it does, returns true. Otherwise, returns * false. 'new_odp_port' should be the port number coming from 'ofport' that * is passed to tnl_port_add__(). 'old_odp_port' should be the port number * that is passed to tnl_port_del__(). */ bool tnl_port_reconfigure(const struct ofport_dpif *ofport, const struct netdev *netdev, odp_port_t new_odp_port, odp_port_t old_odp_port, bool native_tnl, const char name[]) OVS_EXCLUDED(rwlock) { struct tnl_port *tnl_port; bool changed = false; fat_rwlock_wrlock(&rwlock); tnl_port = tnl_find_ofport(ofport); if (!tnl_port) { changed = tnl_port_add__(ofport, netdev, new_odp_port, false, native_tnl, name); } else if (tnl_port->netdev != netdev || tnl_port->match.odp_port != new_odp_port || tnl_port->change_seq != netdev_get_change_seq(tnl_port->netdev)) { VLOG_DBG("reconfiguring %s", tnl_port_get_name(tnl_port)); tnl_port_del__(ofport, old_odp_port); tnl_port_add__(ofport, netdev, new_odp_port, true, native_tnl, name); changed = true; } fat_rwlock_unlock(&rwlock); return changed; } static void tnl_port_del__(const struct ofport_dpif *ofport, odp_port_t odp_port) OVS_REQ_WRLOCK(rwlock) { struct tnl_port *tnl_port; if (!ofport) { return; } tnl_port = tnl_find_ofport(ofport); if (tnl_port) { struct hmap **map; tnl_port_map_delete(odp_port, netdev_get_type(tnl_port->netdev)); tnl_port_mod_log(tnl_port, "removing"); map = tnl_match_map(&tnl_port->match); hmap_remove(*map, &tnl_port->match_node); if (hmap_is_empty(*map)) { hmap_destroy(*map); free(*map); *map = NULL; } hmap_remove(ofport_map, &tnl_port->ofport_node); netdev_close(tnl_port->netdev); free(tnl_port); } } /* Removes 'ofport' from the module. */ void tnl_port_del(const struct ofport_dpif *ofport, odp_port_t odp_port) OVS_EXCLUDED(rwlock) { fat_rwlock_wrlock(&rwlock); tnl_port_del__(ofport, odp_port); fat_rwlock_unlock(&rwlock); } /* Looks in the table of tunnels for a tunnel matching the metadata in 'flow'. * Returns the 'ofport' corresponding to the new in_port, or a null pointer if * none is found. * * Callers should verify that 'flow' needs to be received by calling * tnl_port_should_receive() before this function. */ const struct ofport_dpif * tnl_port_receive(const struct flow *flow) OVS_EXCLUDED(rwlock) { const struct ofport_dpif *ofport; struct tnl_port *tnl_port; fat_rwlock_rdlock(&rwlock); tnl_port = tnl_find(flow); ofport = tnl_port ? tnl_port->ofport : NULL; if (!tnl_port) { if (!VLOG_DROP_WARN(&rl)) { char *flow_str = flow_to_string(flow, NULL); VLOG_WARN("receive tunnel port not found (%s)", flow_str); free(flow_str); } goto out; } if (!VLOG_DROP_DBG(&dbg_rl)) { char *flow_str = flow_to_string(flow, NULL); char *tnl_str = tnl_port_to_string(tnl_port); VLOG_DBG("tunnel port %s receive from flow %s", tnl_str, flow_str); free(tnl_str); free(flow_str); } out: fat_rwlock_unlock(&rwlock); return ofport; } /* Should be called at the beginning of action translation to initialize * wildcards and perform any actions based on receiving on tunnel port. * * Returns false if the packet must be dropped. */ bool tnl_process_ecn(struct flow *flow) { if (!tnl_port_should_receive(flow)) { return true; } if (is_ip_any(flow) && IP_ECN_is_ce(flow->tunnel.ip_tos)) { if ((flow->nw_tos & IP_ECN_MASK) == IP_ECN_NOT_ECT) { VLOG_WARN_RL(&rl, "dropping tunnel packet marked ECN CE" " but is not ECN capable"); return false; } /* Set the ECN CE value in the tunneled packet. */ flow->nw_tos |= IP_ECN_CE; } return true; } void tnl_wc_init(struct flow *flow, struct flow_wildcards *wc) { if (tnl_port_should_receive(flow)) { wc->masks.tunnel.tun_id = OVS_BE64_MAX; if (flow->tunnel.ip_dst) { wc->masks.tunnel.ip_src = OVS_BE32_MAX; wc->masks.tunnel.ip_dst = OVS_BE32_MAX; } else { wc->masks.tunnel.ipv6_src = in6addr_exact; wc->masks.tunnel.ipv6_dst = in6addr_exact; } wc->masks.tunnel.flags = (FLOW_TNL_F_DONT_FRAGMENT | FLOW_TNL_F_CSUM | FLOW_TNL_F_KEY); wc->masks.tunnel.ip_tos = UINT8_MAX; wc->masks.tunnel.ip_ttl = 0; /* The tp_src and tp_dst members in flow_tnl are set to be always * wildcarded, not to unwildcard them here. */ wc->masks.tunnel.tp_src = 0; wc->masks.tunnel.tp_dst = 0; if (is_ip_any(flow) && IP_ECN_is_ce(flow->tunnel.ip_tos)) { wc->masks.nw_tos |= IP_ECN_MASK; } } } /* Given that 'flow' should be output to the ofport corresponding to * 'tnl_port', updates 'flow''s tunnel headers and returns the actual datapath * port that the output should happen on. May return ODPP_NONE if the output * shouldn't occur. */ odp_port_t tnl_port_send(const struct ofport_dpif *ofport, struct flow *flow, struct flow_wildcards *wc) OVS_EXCLUDED(rwlock) { const struct netdev_tunnel_config *cfg; struct tnl_port *tnl_port; char *pre_flow_str = NULL; odp_port_t out_port; fat_rwlock_rdlock(&rwlock); tnl_port = tnl_find_ofport(ofport); out_port = tnl_port ? tnl_port->match.odp_port : ODPP_NONE; if (!tnl_port) { goto out; } cfg = netdev_get_tunnel_config(tnl_port->netdev); ovs_assert(cfg); if (!VLOG_DROP_DBG(&dbg_rl)) { pre_flow_str = flow_to_string(flow, NULL); } if (!cfg->ip_src_flow) { flow->tunnel.ip_src = in6_addr_get_mapped_ipv4(&tnl_port->match.ipv6_src); if (!flow->tunnel.ip_src) { flow->tunnel.ipv6_src = tnl_port->match.ipv6_src; } else { flow->tunnel.ipv6_src = in6addr_any; } } if (!cfg->ip_dst_flow) { flow->tunnel.ip_dst = in6_addr_get_mapped_ipv4(&tnl_port->match.ipv6_dst); if (!flow->tunnel.ip_dst) { flow->tunnel.ipv6_dst = tnl_port->match.ipv6_dst; } else { flow->tunnel.ipv6_dst = in6addr_any; } } flow->tunnel.tp_dst = cfg->dst_port; if (!cfg->out_key_flow) { flow->tunnel.tun_id = cfg->out_key; } if (cfg->ttl_inherit && is_ip_any(flow)) { wc->masks.nw_ttl = 0xff; flow->tunnel.ip_ttl = flow->nw_ttl; } else { flow->tunnel.ip_ttl = cfg->ttl; } if (cfg->tos_inherit && is_ip_any(flow)) { wc->masks.nw_tos |= IP_DSCP_MASK; flow->tunnel.ip_tos = flow->nw_tos & IP_DSCP_MASK; } else { flow->tunnel.ip_tos = cfg->tos; } /* ECN fields are always inherited. */ if (is_ip_any(flow)) { wc->masks.nw_tos |= IP_ECN_MASK; if (IP_ECN_is_ce(flow->nw_tos)) { flow->tunnel.ip_tos |= IP_ECN_ECT_0; } else { flow->tunnel.ip_tos |= flow->nw_tos & IP_ECN_MASK; } } flow->tunnel.flags &= ~(FLOW_TNL_F_MASK & ~FLOW_TNL_PUB_F_MASK); flow->tunnel.flags |= (cfg->dont_fragment ? FLOW_TNL_F_DONT_FRAGMENT : 0) | (cfg->csum ? FLOW_TNL_F_CSUM : 0) | (cfg->out_key_present ? FLOW_TNL_F_KEY : 0); if (cfg->set_egress_pkt_mark) { flow->pkt_mark = cfg->egress_pkt_mark; wc->masks.pkt_mark = UINT32_MAX; } if (!cfg->erspan_ver_flow) { flow->tunnel.erspan_ver = cfg->erspan_ver; } if (!cfg->erspan_idx_flow) { flow->tunnel.erspan_idx = cfg->erspan_idx; } if (!cfg->erspan_dir_flow) { flow->tunnel.erspan_dir = cfg->erspan_dir; } if (!cfg->erspan_hwid_flow) { flow->tunnel.erspan_hwid = cfg->erspan_hwid; } if (pre_flow_str) { char *post_flow_str = flow_to_string(flow, NULL); char *tnl_str = tnl_port_to_string(tnl_port); VLOG_DBG("flow sent\n" "%s" " pre: %s\n" "post: %s", tnl_str, pre_flow_str, post_flow_str); free(tnl_str); free(pre_flow_str); free(post_flow_str); } out: fat_rwlock_unlock(&rwlock); return out_port; } static uint32_t tnl_hash(struct tnl_match *match) { BUILD_ASSERT_DECL(sizeof *match % sizeof(uint32_t) == 0); return hash_words((uint32_t *) match, sizeof *match / sizeof(uint32_t), 0); } static struct tnl_port * tnl_find_ofport(const struct ofport_dpif *ofport) OVS_REQ_RDLOCK(rwlock) { struct tnl_port *tnl_port; HMAP_FOR_EACH_IN_BUCKET (tnl_port, ofport_node, hash_pointer(ofport, 0), ofport_map) { if (tnl_port->ofport == ofport) { return tnl_port; } } return NULL; } static struct tnl_port * tnl_find_exact(struct tnl_match *match, struct hmap *map) OVS_REQ_RDLOCK(rwlock) { if (map) { struct tnl_port *tnl_port; HMAP_FOR_EACH_WITH_HASH (tnl_port, match_node, tnl_hash(match), map) { if (!memcmp(match, &tnl_port->match, sizeof *match)) { return tnl_port; } } } return NULL; } /* Returns the tnl_port that is the best match for the tunnel data in 'flow', * or NULL if no tnl_port matches 'flow'. */ static struct tnl_port * tnl_find(const struct flow *flow) OVS_REQ_RDLOCK(rwlock) { enum ip_src_type ip_src; int in_key_flow; int ip_dst_flow; int i; i = 0; for (in_key_flow = 0; in_key_flow < 2; in_key_flow++) { for (ip_dst_flow = 0; ip_dst_flow < 2; ip_dst_flow++) { for (ip_src = 0; ip_src < 3; ip_src++) { struct hmap *map = tnl_match_maps[i]; if (map) { struct tnl_port *tnl_port; struct tnl_match match; memset(&match, 0, sizeof match); /* The apparent mix-up of 'ip_dst' and 'ip_src' below is * correct, because "struct tnl_match" is expressed in * terms of packets being sent out, but we are using it * here as a description of how to treat received * packets. */ match.in_key = in_key_flow ? 0 : flow->tunnel.tun_id; if (ip_src == IP_SRC_CFG) { match.ipv6_src = flow_tnl_dst(&flow->tunnel); } if (!ip_dst_flow) { match.ipv6_dst = flow_tnl_src(&flow->tunnel); } match.odp_port = flow->in_port.odp_port; match.in_key_flow = in_key_flow; match.ip_dst_flow = ip_dst_flow; match.ip_src_flow = ip_src == IP_SRC_FLOW; /* Look for a legacy L2 or L3 tunnel port first. */ if (pt_ns(flow->packet_type) == OFPHTN_ETHERTYPE) { match.pt_mode = NETDEV_PT_LEGACY_L3; } else { match.pt_mode = NETDEV_PT_LEGACY_L2; } tnl_port = tnl_find_exact(&match, map); if (tnl_port) { return tnl_port; } /* Then check for a packet type aware port. */ match.pt_mode = NETDEV_PT_AWARE; tnl_port = tnl_find_exact(&match, map); if (tnl_port) { return tnl_port; } } i++; } } } return NULL; } /* Returns a pointer to the 'tnl_match_maps' element corresponding to 'm''s * matching criteria. */ static struct hmap ** tnl_match_map(const struct tnl_match *m) { enum ip_src_type ip_src; ip_src = (m->ip_src_flow ? IP_SRC_FLOW : ipv6_addr_is_set(&m->ipv6_src) ? IP_SRC_CFG : IP_SRC_ANY); return &tnl_match_maps[6 * m->in_key_flow + 3 * m->ip_dst_flow + ip_src]; } static void tnl_match_fmt(const struct tnl_match *match, struct ds *ds) OVS_REQ_RDLOCK(rwlock) { if (!match->ip_dst_flow) { ipv6_format_mapped(&match->ipv6_src, ds); ds_put_cstr(ds, "->"); ipv6_format_mapped(&match->ipv6_dst, ds); } else if (!match->ip_src_flow) { ipv6_format_mapped(&match->ipv6_src, ds); ds_put_cstr(ds, "->flow"); } else { ds_put_cstr(ds, "flow->flow"); } if (match->in_key_flow) { ds_put_cstr(ds, ", key=flow"); } else { ds_put_format(ds, ", key=%#"PRIx64, ntohll(match->in_key)); } const char *pt_mode = (match->pt_mode == NETDEV_PT_LEGACY_L2 ? "legacy_l2" : match->pt_mode == NETDEV_PT_LEGACY_L3 ? "legacy_l3" : "ptap"); ds_put_format(ds, ", %s, dp port=%"PRIu32, pt_mode, match->odp_port); } static void tnl_port_mod_log(const struct tnl_port *tnl_port, const char *action) OVS_REQ_RDLOCK(rwlock) { if (VLOG_IS_DBG_ENABLED()) { struct ds ds = DS_EMPTY_INITIALIZER; tnl_match_fmt(&tnl_port->match, &ds); VLOG_INFO("%s tunnel port %s (%s)", action, tnl_port_get_name(tnl_port), ds_cstr(&ds)); ds_destroy(&ds); } } static void OVS_REQ_RDLOCK(rwlock) tnl_port_format(const struct tnl_port *tnl_port, struct ds *ds) { const struct netdev_tunnel_config *cfg = netdev_get_tunnel_config(tnl_port->netdev); ds_put_format(ds, "port %"PRIu32": %s (%s: ", tnl_port->match.odp_port, tnl_port_get_name(tnl_port), netdev_get_type(tnl_port->netdev)); tnl_match_fmt(&tnl_port->match, ds); if (cfg->out_key != cfg->in_key || cfg->out_key_present != cfg->in_key_present || cfg->out_key_flow != cfg->in_key_flow) { ds_put_cstr(ds, ", out_key="); if (!cfg->out_key_present) { ds_put_cstr(ds, "none"); } else if (cfg->out_key_flow) { ds_put_cstr(ds, "flow"); } else { ds_put_format(ds, "%#"PRIx64, ntohll(cfg->out_key)); } } if (cfg->ttl_inherit) { ds_put_cstr(ds, ", ttl=inherit"); } else { ds_put_format(ds, ", ttl=%"PRIu8, cfg->ttl); } if (cfg->tos_inherit) { ds_put_cstr(ds, ", tos=inherit"); } else if (cfg->tos) { ds_put_format(ds, ", tos=%#"PRIx8, cfg->tos); } if (!cfg->dont_fragment) { ds_put_cstr(ds, ", df=false"); } if (cfg->csum) { ds_put_cstr(ds, ", csum=true"); } ds_put_cstr(ds, ")\n"); } static char * OVS_REQ_RDLOCK(rwlock) tnl_port_to_string(const struct tnl_port *tnl_port) { struct ds ds = DS_EMPTY_INITIALIZER; tnl_port_format(tnl_port, &ds); return ds_steal_cstr(&ds); } static const char * tnl_port_get_name(const struct tnl_port *tnl_port) OVS_REQ_RDLOCK(rwlock) { return netdev_get_name(tnl_port->netdev); } const char * tnl_port_get_type(const struct ofport_dpif *ofport) OVS_REQ_RDLOCK(rwlock) { struct tnl_port *tnl_port; tnl_port = tnl_find_ofport(ofport); return !tnl_port ? NULL : netdev_get_type(tnl_port->netdev); } int tnl_port_build_header(const struct ofport_dpif *ofport, struct ovs_action_push_tnl *data, const struct netdev_tnl_build_header_params *params) { struct tnl_port *tnl_port; int res; fat_rwlock_rdlock(&rwlock); tnl_port = tnl_find_ofport(ofport); ovs_assert(tnl_port); res = netdev_build_header(tnl_port->netdev, data, params); fat_rwlock_unlock(&rwlock); return res; } static void tnl_unixctl_list(struct unixctl_conn *conn, int argc OVS_UNUSED, const char *argv[] OVS_UNUSED, void *aux OVS_UNUSED) { struct ds reply = DS_EMPTY_INITIALIZER; fat_rwlock_rdlock(&rwlock); for (int i = 0; i < N_MATCH_TYPES; i++) { struct hmap *map = tnl_match_maps[i]; if (map) { struct tnl_port *tnl_port; HMAP_FOR_EACH (tnl_port, match_node, map) { tnl_port_format(tnl_port, &reply); } } } fat_rwlock_unlock(&rwlock); unixctl_command_reply(conn, ds_cstr(&reply)); ds_destroy(&reply); }