/* * Copyright (c) 2008, 2009, 2010, 2011 Nicira Networks. * * 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 "dpif-linux.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "bitmap.h" #include "dpif-provider.h" #include "netdev.h" #include "netdev-vport.h" #include "netlink-socket.h" #include "netlink.h" #include "odp-util.h" #include "ofpbuf.h" #include "openvswitch/tunnel.h" #include "packets.h" #include "poll-loop.h" #include "rtnetlink.h" #include "rtnetlink-link.h" #include "shash.h" #include "sset.h" #include "unaligned.h" #include "util.h" #include "vlog.h" VLOG_DEFINE_THIS_MODULE(dpif_linux); enum { LRU_MAX_PORTS = 1024 }; enum { LRU_MASK = LRU_MAX_PORTS - 1}; BUILD_ASSERT_DECL(IS_POW2(LRU_MAX_PORTS)); struct dpif_linux_dp { /* Generic Netlink header. */ uint8_t cmd; /* struct odp_header. */ int dp_ifindex; /* Attributes. */ const char *name; /* ODP_DP_ATTR_NAME. */ struct odp_stats stats; /* ODP_DP_ATTR_STATS. */ enum odp_frag_handling ipv4_frags; /* ODP_DP_ATTR_IPV4_FRAGS. */ const uint32_t *sampling; /* ODP_DP_ATTR_SAMPLING. */ uint32_t mcgroups[DPIF_N_UC_TYPES]; /* ODP_DP_ATTR_MCGROUPS. */ }; static void dpif_linux_dp_init(struct dpif_linux_dp *); static int dpif_linux_dp_from_ofpbuf(struct dpif_linux_dp *, const struct ofpbuf *); static void dpif_linux_dp_dump_start(struct nl_dump *); static int dpif_linux_dp_transact(const struct dpif_linux_dp *request, struct dpif_linux_dp *reply, struct ofpbuf **bufp); static int dpif_linux_dp_get(const struct dpif *, struct dpif_linux_dp *reply, struct ofpbuf **bufp); struct dpif_linux_flow { /* Generic Netlink header. */ uint8_t cmd; /* struct odp_header. */ unsigned int nlmsg_flags; int dp_ifindex; /* Attributes. * * The 'stats' and 'used' members point to 64-bit data that might only be * aligned on 32-bit boundaries, so get_unaligned_u64() should be used to * access their values. * * If 'actions' is nonnull then ODP_FLOW_ATTR_ACTIONS will be included in * the Netlink version of the command, even if actions_len is zero. */ const struct nlattr *key; /* ODP_FLOW_ATTR_KEY. */ size_t key_len; const struct nlattr *actions; /* ODP_FLOW_ATTR_ACTIONS. */ size_t actions_len; const struct odp_flow_stats *stats; /* ODP_FLOW_ATTR_STATS. */ const uint8_t *tcp_flags; /* ODP_FLOW_ATTR_TCP_FLAGS. */ const uint64_t *used; /* ODP_FLOW_ATTR_USED. */ bool clear; /* ODP_FLOW_ATTR_CLEAR. */ }; static void dpif_linux_flow_init(struct dpif_linux_flow *); static int dpif_linux_flow_from_ofpbuf(struct dpif_linux_flow *, const struct ofpbuf *); static void dpif_linux_flow_to_ofpbuf(const struct dpif_linux_flow *, struct ofpbuf *); static int dpif_linux_flow_transact(const struct dpif_linux_flow *request, struct dpif_linux_flow *reply, struct ofpbuf **bufp); static void dpif_linux_flow_get_stats(const struct dpif_linux_flow *, struct dpif_flow_stats *); /* Datapath interface for the openvswitch Linux kernel module. */ struct dpif_linux { struct dpif dpif; int dp_ifindex; /* Multicast group messages. */ struct nl_sock *mc_sock; uint32_t mcgroups[DPIF_N_UC_TYPES]; unsigned int listen_mask; /* Change notification. */ struct sset changed_ports; /* Ports that have changed. */ struct rtnetlink_notifier port_notifier; bool change_error; /* Queue of unused ports. */ unsigned long *lru_bitmap; uint16_t lru_ports[LRU_MAX_PORTS]; size_t lru_head; size_t lru_tail; }; static struct vlog_rate_limit error_rl = VLOG_RATE_LIMIT_INIT(9999, 5); /* Generic Netlink family numbers for ODP. */ static int odp_datapath_family; static int odp_vport_family; static int odp_flow_family; static int odp_packet_family; /* Generic Netlink socket. */ static struct nl_sock *genl_sock; static int dpif_linux_init(void); static int open_dpif(const struct dpif_linux_dp *, struct dpif **); static void dpif_linux_port_changed(const struct rtnetlink_link_change *, void *dpif); static void dpif_linux_vport_to_ofpbuf(const struct dpif_linux_vport *, struct ofpbuf *); static int dpif_linux_vport_from_ofpbuf(struct dpif_linux_vport *, const struct ofpbuf *); static struct dpif_linux * dpif_linux_cast(const struct dpif *dpif) { dpif_assert_class(dpif, &dpif_linux_class); return CONTAINER_OF(dpif, struct dpif_linux, dpif); } static void dpif_linux_push_port(struct dpif_linux *dp, uint16_t port) { if (port < LRU_MAX_PORTS && !bitmap_is_set(dp->lru_bitmap, port)) { bitmap_set1(dp->lru_bitmap, port); dp->lru_ports[dp->lru_head++ & LRU_MASK] = port; } } static uint32_t dpif_linux_pop_port(struct dpif_linux *dp) { uint16_t port; if (dp->lru_head == dp->lru_tail) { return UINT32_MAX; } port = dp->lru_ports[dp->lru_tail++ & LRU_MASK]; bitmap_set0(dp->lru_bitmap, port); return port; } static int dpif_linux_enumerate(struct sset *all_dps) { struct nl_dump dump; struct ofpbuf msg; int error; error = dpif_linux_init(); if (error) { return error; } dpif_linux_dp_dump_start(&dump); while (nl_dump_next(&dump, &msg)) { struct dpif_linux_dp dp; if (!dpif_linux_dp_from_ofpbuf(&dp, &msg)) { sset_add(all_dps, dp.name); } } return nl_dump_done(&dump); } static int dpif_linux_open(const struct dpif_class *class OVS_UNUSED, const char *name, bool create, struct dpif **dpifp) { struct dpif_linux_dp dp_request, dp; struct ofpbuf *buf; int error; error = dpif_linux_init(); if (error) { return error; } /* Create or look up datapath. */ dpif_linux_dp_init(&dp_request); dp_request.cmd = create ? ODP_DP_CMD_NEW : ODP_DP_CMD_GET; dp_request.name = name; error = dpif_linux_dp_transact(&dp_request, &dp, &buf); if (error) { return error; } error = open_dpif(&dp, dpifp); ofpbuf_delete(buf); return error; } static int open_dpif(const struct dpif_linux_dp *dp, struct dpif **dpifp) { struct dpif_linux *dpif; int error; int i; dpif = xmalloc(sizeof *dpif); error = rtnetlink_link_notifier_register(&dpif->port_notifier, dpif_linux_port_changed, dpif); if (error) { goto error_free; } dpif_init(&dpif->dpif, &dpif_linux_class, dp->name, dp->dp_ifindex, dp->dp_ifindex); dpif->mc_sock = NULL; for (i = 0; i < DPIF_N_UC_TYPES; i++) { dpif->mcgroups[i] = dp->mcgroups[i]; } dpif->listen_mask = 0; dpif->dp_ifindex = dp->dp_ifindex; sset_init(&dpif->changed_ports); dpif->change_error = false; *dpifp = &dpif->dpif; dpif->lru_head = dpif->lru_tail = 0; dpif->lru_bitmap = bitmap_allocate(LRU_MAX_PORTS); bitmap_set1(dpif->lru_bitmap, ODPP_LOCAL); for (i = 1; i < LRU_MAX_PORTS; i++) { dpif_linux_push_port(dpif, i); } return 0; error_free: free(dpif); return error; } static void dpif_linux_close(struct dpif *dpif_) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); rtnetlink_link_notifier_unregister(&dpif->port_notifier); sset_destroy(&dpif->changed_ports); free(dpif->lru_bitmap); free(dpif); } static int dpif_linux_destroy(struct dpif *dpif_) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_dp dp; dpif_linux_dp_init(&dp); dp.cmd = ODP_DP_CMD_DEL; dp.dp_ifindex = dpif->dp_ifindex; return dpif_linux_dp_transact(&dp, NULL, NULL); } static int dpif_linux_get_stats(const struct dpif *dpif_, struct odp_stats *stats) { struct dpif_linux_dp dp; struct ofpbuf *buf; int error; error = dpif_linux_dp_get(dpif_, &dp, &buf); if (!error) { *stats = dp.stats; ofpbuf_delete(buf); } return error; } static int dpif_linux_get_drop_frags(const struct dpif *dpif_, bool *drop_fragsp) { struct dpif_linux_dp dp; struct ofpbuf *buf; int error; error = dpif_linux_dp_get(dpif_, &dp, &buf); if (!error) { *drop_fragsp = dp.ipv4_frags == ODP_DP_FRAG_DROP; ofpbuf_delete(buf); } return error; } static int dpif_linux_set_drop_frags(struct dpif *dpif_, bool drop_frags) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_dp dp; dpif_linux_dp_init(&dp); dp.cmd = ODP_DP_CMD_SET; dp.dp_ifindex = dpif->dp_ifindex; dp.ipv4_frags = drop_frags ? ODP_DP_FRAG_DROP : ODP_DP_FRAG_ZERO; return dpif_linux_dp_transact(&dp, NULL, NULL); } static int dpif_linux_port_add(struct dpif *dpif_, struct netdev *netdev, uint16_t *port_nop) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); const char *name = netdev_get_name(netdev); const char *type = netdev_get_type(netdev); struct dpif_linux_vport request, reply; const struct ofpbuf *options; struct ofpbuf *buf; int error; dpif_linux_vport_init(&request); request.cmd = ODP_VPORT_CMD_NEW; request.dp_ifindex = dpif->dp_ifindex; request.type = netdev_vport_get_vport_type(netdev); if (request.type == ODP_VPORT_TYPE_UNSPEC) { VLOG_WARN_RL(&error_rl, "%s: cannot create port `%s' because it has " "unsupported type `%s'", dpif_name(dpif_), name, type); return EINVAL; } request.name = name; options = netdev_vport_get_options(netdev); if (options && options->size) { request.options = options->data; request.options_len = options->size; } /* Loop until we find a port that isn't used. */ do { request.port_no = dpif_linux_pop_port(dpif); error = dpif_linux_vport_transact(&request, &reply, &buf); if (!error) { *port_nop = reply.port_no; } ofpbuf_delete(buf); } while (request.port_no != UINT32_MAX && (error == EBUSY || error == EFBIG)); return error; } static int dpif_linux_port_del(struct dpif *dpif_, uint16_t port_no) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_vport vport; int error; dpif_linux_vport_init(&vport); vport.cmd = ODP_VPORT_CMD_DEL; vport.dp_ifindex = dpif->dp_ifindex; vport.port_no = port_no; error = dpif_linux_vport_transact(&vport, NULL, NULL); if (!error) { dpif_linux_push_port(dpif, port_no); } return error; } static int dpif_linux_port_query__(const struct dpif *dpif, uint32_t port_no, const char *port_name, struct dpif_port *dpif_port) { struct dpif_linux_vport request; struct dpif_linux_vport reply; struct ofpbuf *buf; int error; dpif_linux_vport_init(&request); request.cmd = ODP_VPORT_CMD_GET; request.dp_ifindex = dpif_linux_cast(dpif)->dp_ifindex; request.port_no = port_no; request.name = port_name; error = dpif_linux_vport_transact(&request, &reply, &buf); if (!error) { dpif_port->name = xstrdup(reply.name); dpif_port->type = xstrdup(netdev_vport_get_netdev_type(&reply)); dpif_port->port_no = reply.port_no; ofpbuf_delete(buf); } return error; } static int dpif_linux_port_query_by_number(const struct dpif *dpif, uint16_t port_no, struct dpif_port *dpif_port) { return dpif_linux_port_query__(dpif, port_no, NULL, dpif_port); } static int dpif_linux_port_query_by_name(const struct dpif *dpif, const char *devname, struct dpif_port *dpif_port) { return dpif_linux_port_query__(dpif, 0, devname, dpif_port); } static int dpif_linux_get_max_ports(const struct dpif *dpif OVS_UNUSED) { /* If the datapath increases its range of supported ports, then it should * start reporting that. */ return 1024; } static int dpif_linux_flow_flush(struct dpif *dpif_) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_flow flow; dpif_linux_flow_init(&flow); flow.cmd = ODP_FLOW_CMD_DEL; flow.dp_ifindex = dpif->dp_ifindex; return dpif_linux_flow_transact(&flow, NULL, NULL); } struct dpif_linux_port_state { struct nl_dump dump; unsigned long *port_bitmap; /* Ports in the datapath. */ bool complete; /* Dump completed without error. */ }; static int dpif_linux_port_dump_start(const struct dpif *dpif_, void **statep) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_port_state *state; struct dpif_linux_vport request; struct ofpbuf *buf; *statep = state = xmalloc(sizeof *state); state->port_bitmap = bitmap_allocate(LRU_MAX_PORTS); state->complete = false; dpif_linux_vport_init(&request); request.cmd = ODP_DP_CMD_GET; request.dp_ifindex = dpif->dp_ifindex; buf = ofpbuf_new(1024); dpif_linux_vport_to_ofpbuf(&request, buf); nl_dump_start(&state->dump, genl_sock, buf); ofpbuf_delete(buf); return 0; } static int dpif_linux_port_dump_next(const struct dpif *dpif OVS_UNUSED, void *state_, struct dpif_port *dpif_port) { struct dpif_linux_port_state *state = state_; struct dpif_linux_vport vport; struct ofpbuf buf; int error; if (!nl_dump_next(&state->dump, &buf)) { state->complete = true; return EOF; } error = dpif_linux_vport_from_ofpbuf(&vport, &buf); if (error) { return error; } if (vport.port_no < LRU_MAX_PORTS) { bitmap_set1(state->port_bitmap, vport.port_no); } dpif_port->name = (char *) vport.name; dpif_port->type = (char *) netdev_vport_get_netdev_type(&vport); dpif_port->port_no = vport.port_no; return 0; } static int dpif_linux_port_dump_done(const struct dpif *dpif_, void *state_) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_port_state *state = state_; int error = nl_dump_done(&state->dump); if (state->complete) { uint16_t i; for (i = 0; i < LRU_MAX_PORTS; i++) { if (!bitmap_is_set(state->port_bitmap, i)) { dpif_linux_push_port(dpif, i); } } } free(state->port_bitmap); free(state); return error; } static int dpif_linux_port_poll(const struct dpif *dpif_, char **devnamep) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); if (dpif->change_error) { dpif->change_error = false; sset_clear(&dpif->changed_ports); return ENOBUFS; } else if (!sset_is_empty(&dpif->changed_ports)) { *devnamep = sset_pop(&dpif->changed_ports); return 0; } else { return EAGAIN; } } static void dpif_linux_port_poll_wait(const struct dpif *dpif_) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); if (!sset_is_empty(&dpif->changed_ports) || dpif->change_error) { poll_immediate_wake(); } else { rtnetlink_link_notifier_wait(); } } static int dpif_linux_flow_get__(const struct dpif *dpif_, const struct nlattr *key, size_t key_len, struct dpif_linux_flow *reply, struct ofpbuf **bufp) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_flow request; dpif_linux_flow_init(&request); request.cmd = ODP_FLOW_CMD_GET; request.dp_ifindex = dpif->dp_ifindex; request.key = key; request.key_len = key_len; return dpif_linux_flow_transact(&request, reply, bufp); } static int dpif_linux_flow_get(const struct dpif *dpif_, const struct nlattr *key, size_t key_len, struct ofpbuf **actionsp, struct dpif_flow_stats *stats) { struct dpif_linux_flow reply; struct ofpbuf *buf; int error; error = dpif_linux_flow_get__(dpif_, key, key_len, &reply, &buf); if (!error) { if (stats) { dpif_linux_flow_get_stats(&reply, stats); } if (actionsp) { buf->data = (void *) reply.actions; buf->size = reply.actions_len; *actionsp = buf; } else { ofpbuf_delete(buf); } } return error; } static int dpif_linux_flow_put(struct dpif *dpif_, enum dpif_flow_put_flags flags, const struct nlattr *key, size_t key_len, const struct nlattr *actions, size_t actions_len, struct dpif_flow_stats *stats) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_flow request, reply; struct nlattr dummy_action; struct ofpbuf *buf; int error; dpif_linux_flow_init(&request); request.cmd = flags & DPIF_FP_CREATE ? ODP_FLOW_CMD_NEW : ODP_FLOW_CMD_SET; request.dp_ifindex = dpif->dp_ifindex; request.key = key; request.key_len = key_len; /* Ensure that ODP_FLOW_ATTR_ACTIONS will always be included. */ request.actions = actions ? actions : &dummy_action; request.actions_len = actions_len; if (flags & DPIF_FP_ZERO_STATS) { request.clear = true; } request.nlmsg_flags = flags & DPIF_FP_MODIFY ? 0 : NLM_F_CREATE; error = dpif_linux_flow_transact(&request, stats ? &reply : NULL, stats ? &buf : NULL); if (!error && stats) { dpif_linux_flow_get_stats(&reply, stats); ofpbuf_delete(buf); } return error; } static int dpif_linux_flow_del(struct dpif *dpif_, const struct nlattr *key, size_t key_len, struct dpif_flow_stats *stats) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_flow request, reply; struct ofpbuf *buf; int error; dpif_linux_flow_init(&request); request.cmd = ODP_FLOW_CMD_DEL; request.dp_ifindex = dpif->dp_ifindex; request.key = key; request.key_len = key_len; error = dpif_linux_flow_transact(&request, stats ? &reply : NULL, stats ? &buf : NULL); if (!error && stats) { dpif_linux_flow_get_stats(&reply, stats); ofpbuf_delete(buf); } return error; } struct dpif_linux_flow_state { struct nl_dump dump; struct dpif_linux_flow flow; struct dpif_flow_stats stats; struct ofpbuf *buf; }; static int dpif_linux_flow_dump_start(const struct dpif *dpif_, void **statep) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_flow_state *state; struct dpif_linux_flow request; struct ofpbuf *buf; *statep = state = xmalloc(sizeof *state); dpif_linux_flow_init(&request); request.cmd = ODP_DP_CMD_GET; request.dp_ifindex = dpif->dp_ifindex; buf = ofpbuf_new(1024); dpif_linux_flow_to_ofpbuf(&request, buf); nl_dump_start(&state->dump, genl_sock, buf); ofpbuf_delete(buf); state->buf = NULL; return 0; } static int dpif_linux_flow_dump_next(const struct dpif *dpif_ OVS_UNUSED, void *state_, const struct nlattr **key, size_t *key_len, const struct nlattr **actions, size_t *actions_len, const struct dpif_flow_stats **stats) { struct dpif_linux_flow_state *state = state_; struct ofpbuf buf; int error; do { ofpbuf_delete(state->buf); state->buf = NULL; if (!nl_dump_next(&state->dump, &buf)) { return EOF; } error = dpif_linux_flow_from_ofpbuf(&state->flow, &buf); if (error) { return error; } if (actions && !state->flow.actions) { error = dpif_linux_flow_get__(dpif_, state->flow.key, state->flow.key_len, &state->flow, &state->buf); if (error == ENOENT) { VLOG_DBG("dumped flow disappeared on get"); } else if (error) { VLOG_WARN("error fetching dumped flow: %s", strerror(error)); } } } while (error); if (actions) { *actions = state->flow.actions; *actions_len = state->flow.actions_len; } if (key) { *key = state->flow.key; *key_len = state->flow.key_len; } if (stats) { dpif_linux_flow_get_stats(&state->flow, &state->stats); *stats = &state->stats; } return error; } static int dpif_linux_flow_dump_done(const struct dpif *dpif OVS_UNUSED, void *state_) { struct dpif_linux_flow_state *state = state_; int error = nl_dump_done(&state->dump); ofpbuf_delete(state->buf); free(state); return error; } static int dpif_linux_execute(struct dpif *dpif_, const struct nlattr *actions, size_t actions_len, const struct ofpbuf *packet) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct odp_header *execute; struct ofpbuf *buf; int error; buf = ofpbuf_new(128 + actions_len + packet->size); nl_msg_put_genlmsghdr(buf, 0, odp_packet_family, NLM_F_REQUEST, ODP_PACKET_CMD_EXECUTE, 1); execute = ofpbuf_put_uninit(buf, sizeof *execute); execute->dp_ifindex = dpif->dp_ifindex; nl_msg_put_unspec(buf, ODP_PACKET_ATTR_PACKET, packet->data, packet->size); nl_msg_put_unspec(buf, ODP_PACKET_ATTR_ACTIONS, actions, actions_len); error = nl_sock_transact(genl_sock, buf, NULL); ofpbuf_delete(buf); return error; } static int dpif_linux_recv_get_mask(const struct dpif *dpif_, int *listen_mask) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); *listen_mask = dpif->listen_mask; return 0; } static int dpif_linux_recv_set_mask(struct dpif *dpif_, int listen_mask) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); int error; int i; if (listen_mask == dpif->listen_mask) { return 0; } else if (!listen_mask) { nl_sock_destroy(dpif->mc_sock); dpif->mc_sock = NULL; dpif->listen_mask = 0; return 0; } else if (!dpif->mc_sock) { error = nl_sock_create(NETLINK_GENERIC, &dpif->mc_sock); if (error) { return error; } } /* Unsubscribe from old groups. */ for (i = 0; i < DPIF_N_UC_TYPES; i++) { if (dpif->listen_mask & (1u << i)) { nl_sock_leave_mcgroup(dpif->mc_sock, dpif->mcgroups[i]); } } /* Update listen_mask. */ dpif->listen_mask = listen_mask; /* Subscribe to new groups. */ error = 0; for (i = 0; i < DPIF_N_UC_TYPES; i++) { if (dpif->listen_mask & (1u << i)) { int retval; retval = nl_sock_join_mcgroup(dpif->mc_sock, dpif->mcgroups[i]); if (retval) { error = retval; } } } return error; } static int dpif_linux_get_sflow_probability(const struct dpif *dpif_, uint32_t *probability) { struct dpif_linux_dp dp; struct ofpbuf *buf; int error; error = dpif_linux_dp_get(dpif_, &dp, &buf); if (!error) { *probability = dp.sampling ? *dp.sampling : 0; ofpbuf_delete(buf); } return error; } static int dpif_linux_set_sflow_probability(struct dpif *dpif_, uint32_t probability) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_dp dp; dpif_linux_dp_init(&dp); dp.cmd = ODP_DP_CMD_SET; dp.dp_ifindex = dpif->dp_ifindex; dp.sampling = &probability; return dpif_linux_dp_transact(&dp, NULL, NULL); } static int dpif_linux_queue_to_priority(const struct dpif *dpif OVS_UNUSED, uint32_t queue_id, uint32_t *priority) { if (queue_id < 0xf000) { *priority = TC_H_MAKE(1 << 16, queue_id + 1); return 0; } else { return EINVAL; } } static int parse_odp_packet(struct ofpbuf *buf, struct dpif_upcall *upcall, int *dp_ifindex) { static const struct nl_policy odp_packet_policy[] = { /* Always present. */ [ODP_PACKET_ATTR_PACKET] = { .type = NL_A_UNSPEC, .min_len = ETH_HEADER_LEN }, [ODP_PACKET_ATTR_KEY] = { .type = NL_A_NESTED }, /* ODP_PACKET_CMD_ACTION only. */ [ODP_PACKET_ATTR_USERDATA] = { .type = NL_A_U64, .optional = true }, /* ODP_PACKET_CMD_SAMPLE only. */ [ODP_PACKET_ATTR_SAMPLE_POOL] = { .type = NL_A_U32, .optional = true }, [ODP_PACKET_ATTR_ACTIONS] = { .type = NL_A_NESTED, .optional = true }, }; struct odp_header *odp_header; struct nlattr *a[ARRAY_SIZE(odp_packet_policy)]; struct nlmsghdr *nlmsg; struct genlmsghdr *genl; struct ofpbuf b; int type; ofpbuf_use_const(&b, buf->data, buf->size); nlmsg = ofpbuf_try_pull(&b, sizeof *nlmsg); genl = ofpbuf_try_pull(&b, sizeof *genl); odp_header = ofpbuf_try_pull(&b, sizeof *odp_header); if (!nlmsg || !genl || !odp_header || nlmsg->nlmsg_type != odp_packet_family || !nl_policy_parse(&b, 0, odp_packet_policy, a, ARRAY_SIZE(odp_packet_policy))) { return EINVAL; } type = (genl->cmd == ODP_PACKET_CMD_MISS ? DPIF_UC_MISS : genl->cmd == ODP_PACKET_CMD_ACTION ? DPIF_UC_ACTION : genl->cmd == ODP_PACKET_CMD_SAMPLE ? DPIF_UC_SAMPLE : -1); if (type < 0) { return EINVAL; } memset(upcall, 0, sizeof *upcall); upcall->type = type; upcall->packet = buf; upcall->packet->data = (void *) nl_attr_get(a[ODP_PACKET_ATTR_PACKET]); upcall->packet->size = nl_attr_get_size(a[ODP_PACKET_ATTR_PACKET]); upcall->key = (void *) nl_attr_get(a[ODP_PACKET_ATTR_KEY]); upcall->key_len = nl_attr_get_size(a[ODP_PACKET_ATTR_KEY]); upcall->userdata = (a[ODP_PACKET_ATTR_USERDATA] ? nl_attr_get_u64(a[ODP_PACKET_ATTR_USERDATA]) : 0); upcall->sample_pool = (a[ODP_PACKET_ATTR_SAMPLE_POOL] ? nl_attr_get_u32(a[ODP_PACKET_ATTR_SAMPLE_POOL]) : 0); if (a[ODP_PACKET_ATTR_ACTIONS]) { upcall->actions = (void *) nl_attr_get(a[ODP_PACKET_ATTR_ACTIONS]); upcall->actions_len = nl_attr_get_size(a[ODP_PACKET_ATTR_ACTIONS]); } *dp_ifindex = odp_header->dp_ifindex; return 0; } static int dpif_linux_recv(struct dpif *dpif_, struct dpif_upcall *upcall) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct ofpbuf *buf; int error; int i; if (!dpif->mc_sock) { return EAGAIN; } for (i = 0; i < 50; i++) { int dp_ifindex; error = nl_sock_recv(dpif->mc_sock, &buf, false); if (error) { return error; } error = parse_odp_packet(buf, upcall, &dp_ifindex); if (!error && dp_ifindex == dpif->dp_ifindex && dpif->listen_mask & (1u << upcall->type)) { return 0; } ofpbuf_delete(buf); if (error) { return error; } } return EAGAIN; } static void dpif_linux_recv_wait(struct dpif *dpif_) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); if (dpif->mc_sock) { nl_sock_wait(dpif->mc_sock, POLLIN); } } static void dpif_linux_recv_purge(struct dpif *dpif_) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); if (dpif->mc_sock) { nl_sock_drain(dpif->mc_sock); } } const struct dpif_class dpif_linux_class = { "system", NULL, /* run */ NULL, /* wait */ dpif_linux_enumerate, dpif_linux_open, dpif_linux_close, dpif_linux_destroy, dpif_linux_get_stats, dpif_linux_get_drop_frags, dpif_linux_set_drop_frags, dpif_linux_port_add, dpif_linux_port_del, dpif_linux_port_query_by_number, dpif_linux_port_query_by_name, dpif_linux_get_max_ports, dpif_linux_port_dump_start, dpif_linux_port_dump_next, dpif_linux_port_dump_done, dpif_linux_port_poll, dpif_linux_port_poll_wait, dpif_linux_flow_get, dpif_linux_flow_put, dpif_linux_flow_del, dpif_linux_flow_flush, dpif_linux_flow_dump_start, dpif_linux_flow_dump_next, dpif_linux_flow_dump_done, dpif_linux_execute, dpif_linux_recv_get_mask, dpif_linux_recv_set_mask, dpif_linux_get_sflow_probability, dpif_linux_set_sflow_probability, dpif_linux_queue_to_priority, dpif_linux_recv, dpif_linux_recv_wait, dpif_linux_recv_purge, }; static int dpif_linux_init(void) { static int error = -1; if (error < 0) { error = nl_lookup_genl_family(ODP_DATAPATH_FAMILY, &odp_datapath_family); if (error) { VLOG_ERR("Generic Netlink family '%s' does not exist. " "The Open vSwitch kernel module is probably not loaded.", ODP_DATAPATH_FAMILY); } if (!error) { error = nl_lookup_genl_family(ODP_VPORT_FAMILY, &odp_vport_family); } if (!error) { error = nl_lookup_genl_family(ODP_FLOW_FAMILY, &odp_flow_family); } if (!error) { error = nl_lookup_genl_family(ODP_PACKET_FAMILY, &odp_packet_family); } if (!error) { error = nl_sock_create(NETLINK_GENERIC, &genl_sock); } } return error; } bool dpif_linux_is_internal_device(const char *name) { struct dpif_linux_vport reply; struct ofpbuf *buf; int error; error = dpif_linux_vport_get(name, &reply, &buf); if (!error) { ofpbuf_delete(buf); } else if (error != ENODEV && error != ENOENT) { VLOG_WARN_RL(&error_rl, "%s: vport query failed (%s)", name, strerror(error)); } return reply.type == ODP_VPORT_TYPE_INTERNAL; } static void dpif_linux_port_changed(const struct rtnetlink_link_change *change, void *dpif_) { struct dpif_linux *dpif = dpif_; if (change) { if (change->master_ifindex == dpif->dp_ifindex && (change->nlmsg_type == RTM_NEWLINK || change->nlmsg_type == RTM_DELLINK)) { /* Our datapath changed, either adding a new port or deleting an * existing one. */ sset_add(&dpif->changed_ports, change->ifname); } } else { dpif->change_error = true; } } /* Parses the contents of 'buf', which contains a "struct odp_header" followed * by Netlink attributes, into 'vport'. Returns 0 if successful, otherwise a * positive errno value. * * 'vport' will contain pointers into 'buf', so the caller should not free * 'buf' while 'vport' is still in use. */ static int dpif_linux_vport_from_ofpbuf(struct dpif_linux_vport *vport, const struct ofpbuf *buf) { static const struct nl_policy odp_vport_policy[] = { [ODP_VPORT_ATTR_PORT_NO] = { .type = NL_A_U32 }, [ODP_VPORT_ATTR_TYPE] = { .type = NL_A_U32 }, [ODP_VPORT_ATTR_NAME] = { .type = NL_A_STRING, .max_len = IFNAMSIZ }, [ODP_VPORT_ATTR_STATS] = { .type = NL_A_UNSPEC, .min_len = sizeof(struct rtnl_link_stats64), .max_len = sizeof(struct rtnl_link_stats64), .optional = true }, [ODP_VPORT_ATTR_ADDRESS] = { .type = NL_A_UNSPEC, .min_len = ETH_ADDR_LEN, .max_len = ETH_ADDR_LEN, .optional = true }, [ODP_VPORT_ATTR_MTU] = { .type = NL_A_U32, .optional = true }, [ODP_VPORT_ATTR_OPTIONS] = { .type = NL_A_NESTED, .optional = true }, [ODP_VPORT_ATTR_IFINDEX] = { .type = NL_A_U32, .optional = true }, [ODP_VPORT_ATTR_IFLINK] = { .type = NL_A_U32, .optional = true }, }; struct nlattr *a[ARRAY_SIZE(odp_vport_policy)]; struct odp_header *odp_header; struct nlmsghdr *nlmsg; struct genlmsghdr *genl; struct ofpbuf b; dpif_linux_vport_init(vport); ofpbuf_use_const(&b, buf->data, buf->size); nlmsg = ofpbuf_try_pull(&b, sizeof *nlmsg); genl = ofpbuf_try_pull(&b, sizeof *genl); odp_header = ofpbuf_try_pull(&b, sizeof *odp_header); if (!nlmsg || !genl || !odp_header || nlmsg->nlmsg_type != odp_vport_family || !nl_policy_parse(&b, 0, odp_vport_policy, a, ARRAY_SIZE(odp_vport_policy))) { return EINVAL; } vport->cmd = genl->cmd; vport->dp_ifindex = odp_header->dp_ifindex; vport->port_no = nl_attr_get_u32(a[ODP_VPORT_ATTR_PORT_NO]); vport->type = nl_attr_get_u32(a[ODP_VPORT_ATTR_TYPE]); vport->name = nl_attr_get_string(a[ODP_VPORT_ATTR_NAME]); if (a[ODP_VPORT_ATTR_STATS]) { vport->stats = nl_attr_get(a[ODP_VPORT_ATTR_STATS]); } if (a[ODP_VPORT_ATTR_ADDRESS]) { vport->address = nl_attr_get(a[ODP_VPORT_ATTR_ADDRESS]); } if (a[ODP_VPORT_ATTR_MTU]) { vport->mtu = nl_attr_get_u32(a[ODP_VPORT_ATTR_MTU]); } else { vport->mtu = INT_MAX; } if (a[ODP_VPORT_ATTR_OPTIONS]) { vport->options = nl_attr_get(a[ODP_VPORT_ATTR_OPTIONS]); vport->options_len = nl_attr_get_size(a[ODP_VPORT_ATTR_OPTIONS]); } if (a[ODP_VPORT_ATTR_IFINDEX]) { vport->ifindex = nl_attr_get_u32(a[ODP_VPORT_ATTR_IFINDEX]); } if (a[ODP_VPORT_ATTR_IFLINK]) { vport->iflink = nl_attr_get_u32(a[ODP_VPORT_ATTR_IFLINK]); } return 0; } /* Appends to 'buf' (which must initially be empty) a "struct odp_header" * followed by Netlink attributes corresponding to 'vport'. */ static void dpif_linux_vport_to_ofpbuf(const struct dpif_linux_vport *vport, struct ofpbuf *buf) { struct odp_header *odp_header; nl_msg_put_genlmsghdr(buf, 0, odp_vport_family, NLM_F_REQUEST | NLM_F_ECHO, vport->cmd, 1); odp_header = ofpbuf_put_uninit(buf, sizeof *odp_header); odp_header->dp_ifindex = vport->dp_ifindex; if (vport->port_no != UINT32_MAX) { nl_msg_put_u32(buf, ODP_VPORT_ATTR_PORT_NO, vport->port_no); } if (vport->type != ODP_VPORT_TYPE_UNSPEC) { nl_msg_put_u32(buf, ODP_VPORT_ATTR_TYPE, vport->type); } if (vport->name) { nl_msg_put_string(buf, ODP_VPORT_ATTR_NAME, vport->name); } if (vport->stats) { nl_msg_put_unspec(buf, ODP_VPORT_ATTR_STATS, vport->stats, sizeof *vport->stats); } if (vport->address) { nl_msg_put_unspec(buf, ODP_VPORT_ATTR_ADDRESS, vport->address, ETH_ADDR_LEN); } if (vport->mtu && vport->mtu != INT_MAX) { nl_msg_put_u32(buf, ODP_VPORT_ATTR_MTU, vport->mtu); } if (vport->options) { nl_msg_put_nested(buf, ODP_VPORT_ATTR_OPTIONS, vport->options, vport->options_len); } if (vport->ifindex) { nl_msg_put_u32(buf, ODP_VPORT_ATTR_IFINDEX, vport->ifindex); } if (vport->iflink) { nl_msg_put_u32(buf, ODP_VPORT_ATTR_IFLINK, vport->iflink); } } /* Clears 'vport' to "empty" values. */ void dpif_linux_vport_init(struct dpif_linux_vport *vport) { memset(vport, 0, sizeof *vport); vport->port_no = UINT32_MAX; } /* Executes 'request' in the kernel datapath. If the command fails, returns a * positive errno value. Otherwise, if 'reply' and 'bufp' are null, returns 0 * without doing anything else. If 'reply' and 'bufp' are nonnull, then the * result of the command is expected to be an odp_vport also, which is decoded * and stored in '*reply' and '*bufp'. The caller must free '*bufp' when the * reply is no longer needed ('reply' will contain pointers into '*bufp'). */ int dpif_linux_vport_transact(const struct dpif_linux_vport *request, struct dpif_linux_vport *reply, struct ofpbuf **bufp) { struct ofpbuf *request_buf; int error; assert((reply != NULL) == (bufp != NULL)); error = dpif_linux_init(); if (error) { if (reply) { *bufp = NULL; dpif_linux_vport_init(reply); } return error; } request_buf = ofpbuf_new(1024); dpif_linux_vport_to_ofpbuf(request, request_buf); error = nl_sock_transact(genl_sock, request_buf, bufp); ofpbuf_delete(request_buf); if (reply) { if (!error) { error = dpif_linux_vport_from_ofpbuf(reply, *bufp); } if (error) { dpif_linux_vport_init(reply); ofpbuf_delete(*bufp); *bufp = NULL; } } return error; } /* Obtains information about the kernel vport named 'name' and stores it into * '*reply' and '*bufp'. The caller must free '*bufp' when the reply is no * longer needed ('reply' will contain pointers into '*bufp'). */ int dpif_linux_vport_get(const char *name, struct dpif_linux_vport *reply, struct ofpbuf **bufp) { struct dpif_linux_vport request; dpif_linux_vport_init(&request); request.cmd = ODP_VPORT_CMD_GET; request.name = name; return dpif_linux_vport_transact(&request, reply, bufp); } /* Parses the contents of 'buf', which contains a "struct odp_header" followed * by Netlink attributes, into 'dp'. Returns 0 if successful, otherwise a * positive errno value. * * 'dp' will contain pointers into 'buf', so the caller should not free 'buf' * while 'dp' is still in use. */ static int dpif_linux_dp_from_ofpbuf(struct dpif_linux_dp *dp, const struct ofpbuf *buf) { static const struct nl_policy odp_datapath_policy[] = { [ODP_DP_ATTR_NAME] = { .type = NL_A_STRING, .max_len = IFNAMSIZ }, [ODP_DP_ATTR_STATS] = { .type = NL_A_UNSPEC, .min_len = sizeof(struct odp_stats), .max_len = sizeof(struct odp_stats), .optional = true }, [ODP_DP_ATTR_IPV4_FRAGS] = { .type = NL_A_U32, .optional = true }, [ODP_DP_ATTR_SAMPLING] = { .type = NL_A_U32, .optional = true }, [ODP_DP_ATTR_MCGROUPS] = { .type = NL_A_NESTED, .optional = true }, }; struct nlattr *a[ARRAY_SIZE(odp_datapath_policy)]; struct odp_header *odp_header; struct nlmsghdr *nlmsg; struct genlmsghdr *genl; struct ofpbuf b; dpif_linux_dp_init(dp); ofpbuf_use_const(&b, buf->data, buf->size); nlmsg = ofpbuf_try_pull(&b, sizeof *nlmsg); genl = ofpbuf_try_pull(&b, sizeof *genl); odp_header = ofpbuf_try_pull(&b, sizeof *odp_header); if (!nlmsg || !genl || !odp_header || nlmsg->nlmsg_type != odp_datapath_family || !nl_policy_parse(&b, 0, odp_datapath_policy, a, ARRAY_SIZE(odp_datapath_policy))) { return EINVAL; } dp->cmd = genl->cmd; dp->dp_ifindex = odp_header->dp_ifindex; dp->name = nl_attr_get_string(a[ODP_DP_ATTR_NAME]); if (a[ODP_DP_ATTR_STATS]) { /* Can't use structure assignment because Netlink doesn't ensure * sufficient alignment for 64-bit members. */ memcpy(&dp->stats, nl_attr_get(a[ODP_DP_ATTR_STATS]), sizeof dp->stats); } if (a[ODP_DP_ATTR_IPV4_FRAGS]) { dp->ipv4_frags = nl_attr_get_u32(a[ODP_DP_ATTR_IPV4_FRAGS]); } if (a[ODP_DP_ATTR_SAMPLING]) { dp->sampling = nl_attr_get(a[ODP_DP_ATTR_SAMPLING]); } if (a[ODP_DP_ATTR_MCGROUPS]) { static const struct nl_policy odp_mcgroup_policy[] = { [ODP_PACKET_CMD_MISS] = { .type = NL_A_U32, .optional = true }, [ODP_PACKET_CMD_ACTION] = { .type = NL_A_U32, .optional = true }, [ODP_PACKET_CMD_SAMPLE] = { .type = NL_A_U32, .optional = true }, }; struct nlattr *mcgroups[ARRAY_SIZE(odp_mcgroup_policy)]; if (!nl_parse_nested(a[ODP_DP_ATTR_MCGROUPS], odp_mcgroup_policy, mcgroups, ARRAY_SIZE(odp_mcgroup_policy))) { return EINVAL; } if (mcgroups[ODP_PACKET_CMD_MISS]) { dp->mcgroups[DPIF_UC_MISS] = nl_attr_get_u32(mcgroups[ODP_PACKET_CMD_MISS]); } if (mcgroups[ODP_PACKET_CMD_ACTION]) { dp->mcgroups[DPIF_UC_ACTION] = nl_attr_get_u32(mcgroups[ODP_PACKET_CMD_ACTION]); } if (mcgroups[ODP_PACKET_CMD_SAMPLE]) { dp->mcgroups[DPIF_UC_SAMPLE] = nl_attr_get_u32(mcgroups[ODP_PACKET_CMD_SAMPLE]); } } return 0; } /* Appends to 'buf' the Generic Netlink message described by 'dp'. */ static void dpif_linux_dp_to_ofpbuf(const struct dpif_linux_dp *dp, struct ofpbuf *buf) { struct odp_header *odp_header; nl_msg_put_genlmsghdr(buf, 0, odp_datapath_family, NLM_F_REQUEST | NLM_F_ECHO, dp->cmd, 1); odp_header = ofpbuf_put_uninit(buf, sizeof *odp_header); odp_header->dp_ifindex = dp->dp_ifindex; if (dp->name) { nl_msg_put_string(buf, ODP_DP_ATTR_NAME, dp->name); } /* Skip ODP_DP_ATTR_STATS since we never have a reason to serialize it. */ if (dp->ipv4_frags) { nl_msg_put_u32(buf, ODP_DP_ATTR_IPV4_FRAGS, dp->ipv4_frags); } if (dp->sampling) { nl_msg_put_u32(buf, ODP_DP_ATTR_SAMPLING, *dp->sampling); } } /* Clears 'dp' to "empty" values. */ void dpif_linux_dp_init(struct dpif_linux_dp *dp) { memset(dp, 0, sizeof *dp); } static void dpif_linux_dp_dump_start(struct nl_dump *dump) { struct dpif_linux_dp request; struct ofpbuf *buf; dpif_linux_dp_init(&request); request.cmd = ODP_DP_CMD_GET; buf = ofpbuf_new(1024); dpif_linux_dp_to_ofpbuf(&request, buf); nl_dump_start(dump, genl_sock, buf); ofpbuf_delete(buf); } /* Executes 'request' in the kernel datapath. If the command fails, returns a * positive errno value. Otherwise, if 'reply' and 'bufp' are null, returns 0 * without doing anything else. If 'reply' and 'bufp' are nonnull, then the * result of the command is expected to be of the same form, which is decoded * and stored in '*reply' and '*bufp'. The caller must free '*bufp' when the * reply is no longer needed ('reply' will contain pointers into '*bufp'). */ int dpif_linux_dp_transact(const struct dpif_linux_dp *request, struct dpif_linux_dp *reply, struct ofpbuf **bufp) { struct ofpbuf *request_buf; int error; assert((reply != NULL) == (bufp != NULL)); request_buf = ofpbuf_new(1024); dpif_linux_dp_to_ofpbuf(request, request_buf); error = nl_sock_transact(genl_sock, request_buf, bufp); ofpbuf_delete(request_buf); if (reply) { if (!error) { error = dpif_linux_dp_from_ofpbuf(reply, *bufp); } if (error) { dpif_linux_dp_init(reply); ofpbuf_delete(*bufp); *bufp = NULL; } } return error; } /* Obtains information about 'dpif_' and stores it into '*reply' and '*bufp'. * The caller must free '*bufp' when the reply is no longer needed ('reply' * will contain pointers into '*bufp'). */ int dpif_linux_dp_get(const struct dpif *dpif_, struct dpif_linux_dp *reply, struct ofpbuf **bufp) { struct dpif_linux *dpif = dpif_linux_cast(dpif_); struct dpif_linux_dp request; dpif_linux_dp_init(&request); request.cmd = ODP_DP_CMD_GET; request.dp_ifindex = dpif->dp_ifindex; return dpif_linux_dp_transact(&request, reply, bufp); } /* Parses the contents of 'buf', which contains a "struct odp_header" followed * by Netlink attributes, into 'flow'. Returns 0 if successful, otherwise a * positive errno value. * * 'flow' will contain pointers into 'buf', so the caller should not free 'buf' * while 'flow' is still in use. */ static int dpif_linux_flow_from_ofpbuf(struct dpif_linux_flow *flow, const struct ofpbuf *buf) { static const struct nl_policy odp_flow_policy[] = { [ODP_FLOW_ATTR_KEY] = { .type = NL_A_NESTED }, [ODP_FLOW_ATTR_ACTIONS] = { .type = NL_A_NESTED, .optional = true }, [ODP_FLOW_ATTR_STATS] = { .type = NL_A_UNSPEC, .min_len = sizeof(struct odp_flow_stats), .max_len = sizeof(struct odp_flow_stats), .optional = true }, [ODP_FLOW_ATTR_TCP_FLAGS] = { .type = NL_A_U8, .optional = true }, [ODP_FLOW_ATTR_USED] = { .type = NL_A_U64, .optional = true }, /* The kernel never uses ODP_FLOW_ATTR_CLEAR. */ }; struct nlattr *a[ARRAY_SIZE(odp_flow_policy)]; struct odp_header *odp_header; struct nlmsghdr *nlmsg; struct genlmsghdr *genl; struct ofpbuf b; dpif_linux_flow_init(flow); ofpbuf_use_const(&b, buf->data, buf->size); nlmsg = ofpbuf_try_pull(&b, sizeof *nlmsg); genl = ofpbuf_try_pull(&b, sizeof *genl); odp_header = ofpbuf_try_pull(&b, sizeof *odp_header); if (!nlmsg || !genl || !odp_header || nlmsg->nlmsg_type != odp_flow_family || !nl_policy_parse(&b, 0, odp_flow_policy, a, ARRAY_SIZE(odp_flow_policy))) { return EINVAL; } flow->nlmsg_flags = nlmsg->nlmsg_flags; flow->dp_ifindex = odp_header->dp_ifindex; flow->key = nl_attr_get(a[ODP_FLOW_ATTR_KEY]); flow->key_len = nl_attr_get_size(a[ODP_FLOW_ATTR_KEY]); if (a[ODP_FLOW_ATTR_ACTIONS]) { flow->actions = nl_attr_get(a[ODP_FLOW_ATTR_ACTIONS]); flow->actions_len = nl_attr_get_size(a[ODP_FLOW_ATTR_ACTIONS]); } if (a[ODP_FLOW_ATTR_STATS]) { flow->stats = nl_attr_get(a[ODP_FLOW_ATTR_STATS]); } if (a[ODP_FLOW_ATTR_TCP_FLAGS]) { flow->tcp_flags = nl_attr_get(a[ODP_FLOW_ATTR_TCP_FLAGS]); } if (a[ODP_FLOW_ATTR_USED]) { flow->used = nl_attr_get(a[ODP_FLOW_ATTR_USED]); } return 0; } /* Appends to 'buf' (which must initially be empty) a "struct odp_header" * followed by Netlink attributes corresponding to 'flow'. */ static void dpif_linux_flow_to_ofpbuf(const struct dpif_linux_flow *flow, struct ofpbuf *buf) { struct odp_header *odp_header; nl_msg_put_genlmsghdr(buf, 0, odp_flow_family, NLM_F_REQUEST | NLM_F_ECHO | flow->nlmsg_flags, flow->cmd, 1); odp_header = ofpbuf_put_uninit(buf, sizeof *odp_header); odp_header->dp_ifindex = flow->dp_ifindex; if (flow->key_len) { nl_msg_put_unspec(buf, ODP_FLOW_ATTR_KEY, flow->key, flow->key_len); } if (flow->actions || flow->actions_len) { nl_msg_put_unspec(buf, ODP_FLOW_ATTR_ACTIONS, flow->actions, flow->actions_len); } /* We never need to send these to the kernel. */ assert(!flow->stats); assert(!flow->tcp_flags); assert(!flow->used); if (flow->clear) { nl_msg_put_flag(buf, ODP_FLOW_ATTR_CLEAR); } } /* Clears 'flow' to "empty" values. */ void dpif_linux_flow_init(struct dpif_linux_flow *flow) { memset(flow, 0, sizeof *flow); } /* Executes 'request' in the kernel datapath. If the command fails, returns a * positive errno value. Otherwise, if 'reply' and 'bufp' are null, returns 0 * without doing anything else. If 'reply' and 'bufp' are nonnull, then the * result of the command is expected to be a flow also, which is decoded and * stored in '*reply' and '*bufp'. The caller must free '*bufp' when the reply * is no longer needed ('reply' will contain pointers into '*bufp'). */ int dpif_linux_flow_transact(const struct dpif_linux_flow *request, struct dpif_linux_flow *reply, struct ofpbuf **bufp) { struct ofpbuf *request_buf; int error; assert((reply != NULL) == (bufp != NULL)); request_buf = ofpbuf_new(1024); dpif_linux_flow_to_ofpbuf(request, request_buf); error = nl_sock_transact(genl_sock, request_buf, bufp); ofpbuf_delete(request_buf); if (reply) { if (!error) { error = dpif_linux_flow_from_ofpbuf(reply, *bufp); } if (error) { dpif_linux_flow_init(reply); ofpbuf_delete(*bufp); *bufp = NULL; } } return error; } static void dpif_linux_flow_get_stats(const struct dpif_linux_flow *flow, struct dpif_flow_stats *stats) { if (flow->stats) { stats->n_packets = get_unaligned_u64(&flow->stats->n_packets); stats->n_bytes = get_unaligned_u64(&flow->stats->n_bytes); } else { stats->n_packets = 0; stats->n_bytes = 0; } stats->used = flow->used ? get_unaligned_u64(flow->used) : 0; stats->tcp_flags = flow->tcp_flags ? *flow->tcp_flags : 0; }