/* * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016 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 #include #include #include #include #include #include #include "bundle.h" #include "byte-order.h" #include "colors.h" #include "compiler.h" #include "dp-packet.h" #include "flow.h" #include "learn.h" #include "multipath.h" #include "netdev.h" #include "nx-match.h" #include "odp-util.h" #include "openflow/nicira-ext.h" #include "openflow/openflow.h" #include "openvswitch/dynamic-string.h" #include "openvswitch/meta-flow.h" #include "openvswitch/ofp-actions.h" #include "openvswitch/ofp-errors.h" #include "openvswitch/ofp-msgs.h" #include "openvswitch/ofp-print.h" #include "openvswitch/ofp-util.h" #include "openvswitch/ofpbuf.h" #include "openvswitch/type-props.h" #include "packets.h" #include "unaligned.h" #include "util.h" #include "uuid.h" static void ofp_print_queue_name(struct ds *string, uint32_t port); static void ofp_print_error(struct ds *, enum ofperr); /* Returns a string that represents the contents of the Ethernet frame in the * 'len' bytes starting at 'data'. The caller must free the returned string.*/ char * ofp_packet_to_string(const void *data, size_t len) { struct ds ds = DS_EMPTY_INITIALIZER; struct dp_packet buf; struct flow flow; size_t l4_size; dp_packet_use_const(&buf, data, len); flow_extract(&buf, &flow); flow_format(&ds, &flow); l4_size = dp_packet_l4_size(&buf); if (flow.nw_proto == IPPROTO_TCP && l4_size >= TCP_HEADER_LEN) { struct tcp_header *th = dp_packet_l4(&buf); ds_put_format(&ds, " tcp_csum:%"PRIx16, ntohs(th->tcp_csum)); } else if (flow.nw_proto == IPPROTO_UDP && l4_size >= UDP_HEADER_LEN) { struct udp_header *uh = dp_packet_l4(&buf); ds_put_format(&ds, " udp_csum:%"PRIx16, ntohs(uh->udp_csum)); } else if (flow.nw_proto == IPPROTO_SCTP && l4_size >= SCTP_HEADER_LEN) { struct sctp_header *sh = dp_packet_l4(&buf); ds_put_format(&ds, " sctp_csum:%"PRIx32, ntohl(get_16aligned_be32(&sh->sctp_csum))); } else if (flow.nw_proto == IPPROTO_ICMP && l4_size >= ICMP_HEADER_LEN) { struct icmp_header *icmph = dp_packet_l4(&buf); ds_put_format(&ds, " icmp_csum:%"PRIx16, ntohs(icmph->icmp_csum)); } else if (flow.nw_proto == IPPROTO_ICMPV6 && l4_size >= ICMP6_HEADER_LEN) { struct icmp6_header *icmp6h = dp_packet_l4(&buf); ds_put_format(&ds, " icmp6_csum:%"PRIx16, ntohs(icmp6h->icmp6_cksum)); } ds_put_char(&ds, '\n'); return ds_cstr(&ds); } static void format_hex_arg(struct ds *s, const uint8_t *data, size_t len) { for (size_t i = 0; i < len; i++) { if (i) { ds_put_char(s, '.'); } ds_put_format(s, "%02"PRIx8, data[i]); } } static void ofp_print_packet_in(struct ds *string, const struct ofp_header *oh, int verbosity) { char reasonbuf[OFPUTIL_PACKET_IN_REASON_BUFSIZE]; struct ofputil_packet_in_private pin; const struct ofputil_packet_in *public = &pin.public; uint32_t buffer_id; size_t total_len; enum ofperr error; error = ofputil_decode_packet_in_private(oh, true, &pin, &total_len, &buffer_id); if (error) { ofp_print_error(string, error); return; } if (public->table_id) { ds_put_format(string, " table_id=%"PRIu8, public->table_id); } if (public->cookie != OVS_BE64_MAX) { ds_put_format(string, " cookie=0x%"PRIx64, ntohll(public->cookie)); } ds_put_format(string, " total_len=%"PRIuSIZE" ", total_len); match_format(&public->flow_metadata, string, OFP_DEFAULT_PRIORITY); ds_put_format(string, " (via %s)", ofputil_packet_in_reason_to_string(public->reason, reasonbuf, sizeof reasonbuf)); ds_put_format(string, " data_len=%"PRIuSIZE, public->packet_len); if (buffer_id == UINT32_MAX) { ds_put_format(string, " (unbuffered)"); if (total_len != public->packet_len) { ds_put_format(string, " (***total_len != data_len***)"); } } else { ds_put_format(string, " buffer=0x%08"PRIx32, buffer_id); if (total_len < public->packet_len) { ds_put_format(string, " (***total_len < data_len***)"); } } ds_put_char(string, '\n'); if (public->userdata_len) { ds_put_cstr(string, " userdata="); format_hex_arg(string, pin.public.userdata, pin.public.userdata_len); ds_put_char(string, '\n'); } if (!uuid_is_zero(&pin.bridge)) { ds_put_format(string, " continuation.bridge="UUID_FMT"\n", UUID_ARGS(&pin.bridge)); } if (pin.n_stack) { ds_put_cstr(string, " continuation.stack="); for (size_t i = 0; i < pin.n_stack; i++) { if (i) { ds_put_char(string, ' '); } mf_subvalue_format(&pin.stack[i], string); } } if (pin.mirrors) { ds_put_format(string, " continuation.mirrors=0x%"PRIx32"\n", pin.mirrors); } if (pin.conntracked) { ds_put_cstr(string, " continuation.conntracked=true\n"); } if (pin.actions_len) { ds_put_cstr(string, " continuation.actions="); ofpacts_format(pin.actions, pin.actions_len, string); ds_put_char(string, '\n'); } if (pin.action_set_len) { ds_put_cstr(string, " continuation.action_set="); ofpacts_format(pin.action_set, pin.action_set_len, string); ds_put_char(string, '\n'); } if (verbosity > 0) { char *packet = ofp_packet_to_string(public->packet, public->packet_len); ds_put_cstr(string, packet); free(packet); } if (verbosity > 2) { ds_put_hex_dump(string, public->packet, public->packet_len, 0, false); } ofputil_packet_in_private_destroy(&pin); } static void ofp_print_packet_out(struct ds *string, const struct ofp_header *oh, int verbosity) { struct ofputil_packet_out po; struct ofpbuf ofpacts; enum ofperr error; ofpbuf_init(&ofpacts, 64); error = ofputil_decode_packet_out(&po, oh, &ofpacts); if (error) { ofpbuf_uninit(&ofpacts); ofp_print_error(string, error); return; } ds_put_cstr(string, " in_port="); ofputil_format_port(po.in_port, string); ds_put_cstr(string, " actions="); ofpacts_format(po.ofpacts, po.ofpacts_len, string); if (po.buffer_id == UINT32_MAX) { ds_put_format(string, " data_len=%"PRIuSIZE, po.packet_len); if (verbosity > 0 && po.packet_len > 0) { char *packet = ofp_packet_to_string(po.packet, po.packet_len); ds_put_char(string, '\n'); ds_put_cstr(string, packet); free(packet); } if (verbosity > 2) { ds_put_hex_dump(string, po.packet, po.packet_len, 0, false); } } else { ds_put_format(string, " buffer=0x%08"PRIx32, po.buffer_id); } ofpbuf_uninit(&ofpacts); } /* qsort comparison function. */ static int compare_ports(const void *a_, const void *b_) { const struct ofputil_phy_port *a = a_; const struct ofputil_phy_port *b = b_; uint16_t ap = ofp_to_u16(a->port_no); uint16_t bp = ofp_to_u16(b->port_no); return ap < bp ? -1 : ap > bp; } static void ofp_print_bit_names(struct ds *string, uint32_t bits, const char *(*bit_to_name)(uint32_t bit), char separator) { int n = 0; int i; if (!bits) { ds_put_cstr(string, "0"); return; } for (i = 0; i < 32; i++) { uint32_t bit = UINT32_C(1) << i; if (bits & bit) { const char *name = bit_to_name(bit); if (name) { if (n++) { ds_put_char(string, separator); } ds_put_cstr(string, name); bits &= ~bit; } } } if (bits) { if (n) { ds_put_char(string, separator); } ds_put_format(string, "0x%"PRIx32, bits); } } static const char * netdev_feature_to_name(uint32_t bit) { enum netdev_features f = bit; switch (f) { case NETDEV_F_10MB_HD: return "10MB-HD"; case NETDEV_F_10MB_FD: return "10MB-FD"; case NETDEV_F_100MB_HD: return "100MB-HD"; case NETDEV_F_100MB_FD: return "100MB-FD"; case NETDEV_F_1GB_HD: return "1GB-HD"; case NETDEV_F_1GB_FD: return "1GB-FD"; case NETDEV_F_10GB_FD: return "10GB-FD"; case NETDEV_F_40GB_FD: return "40GB-FD"; case NETDEV_F_100GB_FD: return "100GB-FD"; case NETDEV_F_1TB_FD: return "1TB-FD"; case NETDEV_F_OTHER: return "OTHER"; case NETDEV_F_COPPER: return "COPPER"; case NETDEV_F_FIBER: return "FIBER"; case NETDEV_F_AUTONEG: return "AUTO_NEG"; case NETDEV_F_PAUSE: return "AUTO_PAUSE"; case NETDEV_F_PAUSE_ASYM: return "AUTO_PAUSE_ASYM"; } return NULL; } static void ofp_print_port_features(struct ds *string, enum netdev_features features) { ofp_print_bit_names(string, features, netdev_feature_to_name, ' '); ds_put_char(string, '\n'); } static const char * ofputil_port_config_to_name(uint32_t bit) { enum ofputil_port_config pc = bit; switch (pc) { case OFPUTIL_PC_PORT_DOWN: return "PORT_DOWN"; case OFPUTIL_PC_NO_STP: return "NO_STP"; case OFPUTIL_PC_NO_RECV: return "NO_RECV"; case OFPUTIL_PC_NO_RECV_STP: return "NO_RECV_STP"; case OFPUTIL_PC_NO_FLOOD: return "NO_FLOOD"; case OFPUTIL_PC_NO_FWD: return "NO_FWD"; case OFPUTIL_PC_NO_PACKET_IN: return "NO_PACKET_IN"; } return NULL; } static void ofp_print_port_config(struct ds *string, enum ofputil_port_config config) { ofp_print_bit_names(string, config, ofputil_port_config_to_name, ' '); ds_put_char(string, '\n'); } static const char * ofputil_port_state_to_name(uint32_t bit) { enum ofputil_port_state ps = bit; switch (ps) { case OFPUTIL_PS_LINK_DOWN: return "LINK_DOWN"; case OFPUTIL_PS_BLOCKED: return "BLOCKED"; case OFPUTIL_PS_LIVE: return "LIVE"; case OFPUTIL_PS_STP_LISTEN: case OFPUTIL_PS_STP_LEARN: case OFPUTIL_PS_STP_FORWARD: case OFPUTIL_PS_STP_BLOCK: /* Handled elsewhere. */ return NULL; } return NULL; } static void ofp_print_port_state(struct ds *string, enum ofputil_port_state state) { enum ofputil_port_state stp_state; /* The STP state is a 2-bit field so it doesn't fit in with the bitmask * pattern. We have to special case it. * * OVS doesn't support STP, so this field will always be 0 if we are * talking to OVS, so we'd always print STP_LISTEN in that case. * Therefore, we don't print anything at all if the value is STP_LISTEN, to * avoid confusing users. */ stp_state = state & OFPUTIL_PS_STP_MASK; if (stp_state) { ds_put_cstr(string, (stp_state == OFPUTIL_PS_STP_LEARN ? "STP_LEARN" : stp_state == OFPUTIL_PS_STP_FORWARD ? "STP_FORWARD" : "STP_BLOCK")); state &= ~OFPUTIL_PS_STP_MASK; if (state) { ofp_print_bit_names(string, state, ofputil_port_state_to_name, ' '); } } else { ofp_print_bit_names(string, state, ofputil_port_state_to_name, ' '); } ds_put_char(string, '\n'); } static void ofp_print_phy_port(struct ds *string, const struct ofputil_phy_port *port) { char name[sizeof port->name]; int j; memcpy(name, port->name, sizeof name); for (j = 0; j < sizeof name - 1; j++) { if (!isprint((unsigned char) name[j])) { break; } } name[j] = '\0'; ds_put_char(string, ' '); ofputil_format_port(port->port_no, string); ds_put_format(string, "(%s): addr:"ETH_ADDR_FMT"\n", name, ETH_ADDR_ARGS(port->hw_addr)); ds_put_cstr(string, " config: "); ofp_print_port_config(string, port->config); ds_put_cstr(string, " state: "); ofp_print_port_state(string, port->state); if (port->curr) { ds_put_format(string, " current: "); ofp_print_port_features(string, port->curr); } if (port->advertised) { ds_put_format(string, " advertised: "); ofp_print_port_features(string, port->advertised); } if (port->supported) { ds_put_format(string, " supported: "); ofp_print_port_features(string, port->supported); } if (port->peer) { ds_put_format(string, " peer: "); ofp_print_port_features(string, port->peer); } ds_put_format(string, " speed: %"PRIu32" Mbps now, " "%"PRIu32" Mbps max\n", port->curr_speed / UINT32_C(1000), port->max_speed / UINT32_C(1000)); } /* Given a buffer 'b' that contains an array of OpenFlow ports of type * 'ofp_version', writes a detailed description of each port into * 'string'. */ static void ofp_print_phy_ports(struct ds *string, uint8_t ofp_version, struct ofpbuf *b) { struct ofputil_phy_port *ports; size_t allocated_ports, n_ports; int retval; size_t i; ports = NULL; allocated_ports = 0; for (n_ports = 0; ; n_ports++) { if (n_ports >= allocated_ports) { ports = x2nrealloc(ports, &allocated_ports, sizeof *ports); } retval = ofputil_pull_phy_port(ofp_version, b, &ports[n_ports]); if (retval) { break; } } qsort(ports, n_ports, sizeof *ports, compare_ports); for (i = 0; i < n_ports; i++) { ofp_print_phy_port(string, &ports[i]); } free(ports); if (retval != EOF) { ofp_print_error(string, retval); } } static const char * ofputil_capabilities_to_name(uint32_t bit) { enum ofputil_capabilities capabilities = bit; switch (capabilities) { case OFPUTIL_C_FLOW_STATS: return "FLOW_STATS"; case OFPUTIL_C_TABLE_STATS: return "TABLE_STATS"; case OFPUTIL_C_PORT_STATS: return "PORT_STATS"; case OFPUTIL_C_IP_REASM: return "IP_REASM"; case OFPUTIL_C_QUEUE_STATS: return "QUEUE_STATS"; case OFPUTIL_C_ARP_MATCH_IP: return "ARP_MATCH_IP"; case OFPUTIL_C_STP: return "STP"; case OFPUTIL_C_GROUP_STATS: return "GROUP_STATS"; case OFPUTIL_C_PORT_BLOCKED: return "PORT_BLOCKED"; } return NULL; } static void ofp_print_switch_features(struct ds *string, const struct ofp_header *oh) { struct ofputil_switch_features features; struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); enum ofperr error = ofputil_pull_switch_features(&b, &features); if (error) { ofp_print_error(string, error); return; } ds_put_format(string, " dpid:%016"PRIx64"\n", features.datapath_id); ds_put_format(string, "n_tables:%"PRIu8", n_buffers:%"PRIu32, features.n_tables, features.n_buffers); if (features.auxiliary_id) { ds_put_format(string, ", auxiliary_id:%"PRIu8, features.auxiliary_id); } ds_put_char(string, '\n'); ds_put_cstr(string, "capabilities: "); ofp_print_bit_names(string, features.capabilities, ofputil_capabilities_to_name, ' '); ds_put_char(string, '\n'); switch ((enum ofp_version)oh->version) { case OFP10_VERSION: ds_put_cstr(string, "actions: "); ofpact_bitmap_format(features.ofpacts, string); ds_put_char(string, '\n'); break; case OFP11_VERSION: case OFP12_VERSION: break; case OFP13_VERSION: case OFP14_VERSION: case OFP15_VERSION: case OFP16_VERSION: return; /* no ports in ofp13_switch_features */ default: OVS_NOT_REACHED(); } ofp_print_phy_ports(string, oh->version, &b); } static void ofp_print_switch_config(struct ds *string, const struct ofputil_switch_config *config) { ds_put_format(string, " frags=%s", ofputil_frag_handling_to_string(config->frag)); if (config->invalid_ttl_to_controller > 0) { ds_put_format(string, " invalid_ttl_to_controller"); } ds_put_format(string, " miss_send_len=%"PRIu16"\n", config->miss_send_len); } static void ofp_print_set_config(struct ds *string, const struct ofp_header *oh) { struct ofputil_switch_config config; enum ofperr error; error = ofputil_decode_set_config(oh, &config); if (error) { ofp_print_error(string, error); return; } ofp_print_switch_config(string, &config); } static void ofp_print_get_config_reply(struct ds *string, const struct ofp_header *oh) { struct ofputil_switch_config config; ofputil_decode_get_config_reply(oh, &config); ofp_print_switch_config(string, &config); } static void print_wild(struct ds *string, const char *leader, int is_wild, int verbosity, const char *format, ...) OVS_PRINTF_FORMAT(5, 6); static void print_wild(struct ds *string, const char *leader, int is_wild, int verbosity, const char *format, ...) { if (is_wild && verbosity < 2) { return; } ds_put_cstr(string, leader); if (!is_wild) { va_list args; va_start(args, format); ds_put_format_valist(string, format, args); va_end(args); } else { ds_put_char(string, '*'); } ds_put_char(string, ','); } static void print_wild_port(struct ds *string, const char *leader, int is_wild, int verbosity, ofp_port_t port) { if (is_wild && verbosity < 2) { return; } ds_put_cstr(string, leader); if (!is_wild) { ofputil_format_port(port, string); } else { ds_put_char(string, '*'); } ds_put_char(string, ','); } static void print_ip_netmask(struct ds *string, const char *leader, ovs_be32 ip, uint32_t wild_bits, int verbosity) { if (wild_bits >= 32 && verbosity < 2) { return; } ds_put_cstr(string, leader); if (wild_bits < 32) { ds_put_format(string, IP_FMT, IP_ARGS(ip)); if (wild_bits) { ds_put_format(string, "/%d", 32 - wild_bits); } } else { ds_put_char(string, '*'); } ds_put_char(string, ','); } void ofp10_match_print(struct ds *f, const struct ofp10_match *om, int verbosity) { char *s = ofp10_match_to_string(om, verbosity); ds_put_cstr(f, s); free(s); } char * ofp10_match_to_string(const struct ofp10_match *om, int verbosity) { struct ds f = DS_EMPTY_INITIALIZER; uint32_t w = ntohl(om->wildcards); bool skip_type = false; bool skip_proto = false; if (!(w & OFPFW10_DL_TYPE)) { skip_type = true; if (om->dl_type == htons(ETH_TYPE_IP)) { if (!(w & OFPFW10_NW_PROTO)) { skip_proto = true; if (om->nw_proto == IPPROTO_ICMP) { ds_put_cstr(&f, "icmp,"); } else if (om->nw_proto == IPPROTO_TCP) { ds_put_cstr(&f, "tcp,"); } else if (om->nw_proto == IPPROTO_UDP) { ds_put_cstr(&f, "udp,"); } else if (om->nw_proto == IPPROTO_SCTP) { ds_put_cstr(&f, "sctp,"); } else { ds_put_cstr(&f, "ip,"); skip_proto = false; } } else { ds_put_cstr(&f, "ip,"); } } else if (om->dl_type == htons(ETH_TYPE_ARP)) { ds_put_cstr(&f, "arp,"); } else if (om->dl_type == htons(ETH_TYPE_RARP)){ ds_put_cstr(&f, "rarp,"); } else if (om->dl_type == htons(ETH_TYPE_MPLS)) { ds_put_cstr(&f, "mpls,"); } else if (om->dl_type == htons(ETH_TYPE_MPLS_MCAST)) { ds_put_cstr(&f, "mplsm,"); } else { skip_type = false; } } print_wild_port(&f, "in_port=", w & OFPFW10_IN_PORT, verbosity, u16_to_ofp(ntohs(om->in_port))); print_wild(&f, "dl_vlan=", w & OFPFW10_DL_VLAN, verbosity, "%d", ntohs(om->dl_vlan)); print_wild(&f, "dl_vlan_pcp=", w & OFPFW10_DL_VLAN_PCP, verbosity, "%d", om->dl_vlan_pcp); print_wild(&f, "dl_src=", w & OFPFW10_DL_SRC, verbosity, ETH_ADDR_FMT, ETH_ADDR_ARGS(om->dl_src)); print_wild(&f, "dl_dst=", w & OFPFW10_DL_DST, verbosity, ETH_ADDR_FMT, ETH_ADDR_ARGS(om->dl_dst)); if (!skip_type) { print_wild(&f, "dl_type=", w & OFPFW10_DL_TYPE, verbosity, "0x%04x", ntohs(om->dl_type)); } print_ip_netmask(&f, "nw_src=", om->nw_src, (w & OFPFW10_NW_SRC_MASK) >> OFPFW10_NW_SRC_SHIFT, verbosity); print_ip_netmask(&f, "nw_dst=", om->nw_dst, (w & OFPFW10_NW_DST_MASK) >> OFPFW10_NW_DST_SHIFT, verbosity); if (!skip_proto) { if (om->dl_type == htons(ETH_TYPE_ARP) || om->dl_type == htons(ETH_TYPE_RARP)) { print_wild(&f, "arp_op=", w & OFPFW10_NW_PROTO, verbosity, "%u", om->nw_proto); } else { print_wild(&f, "nw_proto=", w & OFPFW10_NW_PROTO, verbosity, "%u", om->nw_proto); } } print_wild(&f, "nw_tos=", w & OFPFW10_NW_TOS, verbosity, "%u", om->nw_tos); if (om->nw_proto == IPPROTO_ICMP) { print_wild(&f, "icmp_type=", w & OFPFW10_ICMP_TYPE, verbosity, "%d", ntohs(om->tp_src)); print_wild(&f, "icmp_code=", w & OFPFW10_ICMP_CODE, verbosity, "%d", ntohs(om->tp_dst)); } else { print_wild(&f, "tp_src=", w & OFPFW10_TP_SRC, verbosity, "%d", ntohs(om->tp_src)); print_wild(&f, "tp_dst=", w & OFPFW10_TP_DST, verbosity, "%d", ntohs(om->tp_dst)); } ds_chomp(&f, ','); return ds_cstr(&f); } static void ofp_print_flow_flags(struct ds *s, enum ofputil_flow_mod_flags flags) { if (flags & OFPUTIL_FF_SEND_FLOW_REM) { ds_put_cstr(s, "send_flow_rem "); } if (flags & OFPUTIL_FF_CHECK_OVERLAP) { ds_put_cstr(s, "check_overlap "); } if (flags & OFPUTIL_FF_RESET_COUNTS) { ds_put_cstr(s, "reset_counts "); } if (flags & OFPUTIL_FF_NO_PKT_COUNTS) { ds_put_cstr(s, "no_packet_counts "); } if (flags & OFPUTIL_FF_NO_BYT_COUNTS) { ds_put_cstr(s, "no_byte_counts "); } if (flags & OFPUTIL_FF_HIDDEN_FIELDS) { ds_put_cstr(s, "allow_hidden_fields "); } if (flags & OFPUTIL_FF_NO_READONLY) { ds_put_cstr(s, "no_readonly_table "); } } static void ofp_print_flow_mod(struct ds *s, const struct ofp_header *oh, int verbosity) { struct ofputil_flow_mod fm; struct ofpbuf ofpacts; bool need_priority; enum ofperr error; enum ofpraw raw; enum ofputil_protocol protocol; protocol = ofputil_protocol_from_ofp_version(oh->version); protocol = ofputil_protocol_set_tid(protocol, true); ofpbuf_init(&ofpacts, 64); error = ofputil_decode_flow_mod(&fm, oh, protocol, &ofpacts, OFPP_MAX, 255); if (error) { ofpbuf_uninit(&ofpacts); ofp_print_error(s, error); return; } ds_put_char(s, ' '); switch (fm.command) { case OFPFC_ADD: ds_put_cstr(s, "ADD"); break; case OFPFC_MODIFY: ds_put_cstr(s, "MOD"); break; case OFPFC_MODIFY_STRICT: ds_put_cstr(s, "MOD_STRICT"); break; case OFPFC_DELETE: ds_put_cstr(s, "DEL"); break; case OFPFC_DELETE_STRICT: ds_put_cstr(s, "DEL_STRICT"); break; default: ds_put_format(s, "cmd:%d", fm.command); } if (fm.table_id != 0) { ds_put_format(s, " table:%d", fm.table_id); } ds_put_char(s, ' '); ofpraw_decode(&raw, oh); if (verbosity >= 3 && raw == OFPRAW_OFPT10_FLOW_MOD) { const struct ofp10_flow_mod *ofm = ofpmsg_body(oh); ofp10_match_print(s, &ofm->match, verbosity); /* ofp_print_match() doesn't print priority. */ need_priority = true; } else if (verbosity >= 3 && raw == OFPRAW_NXT_FLOW_MOD) { const struct nx_flow_mod *nfm = ofpmsg_body(oh); const void *nxm = nfm + 1; char *nxm_s; nxm_s = nx_match_to_string(nxm, ntohs(nfm->match_len)); ds_put_cstr(s, nxm_s); free(nxm_s); /* nx_match_to_string() doesn't print priority. */ need_priority = true; } else { match_format(&fm.match, s, fm.priority); /* match_format() does print priority. */ need_priority = false; } if (ds_last(s) != ' ') { ds_put_char(s, ' '); } if (fm.new_cookie != htonll(0) && fm.new_cookie != OVS_BE64_MAX) { ds_put_format(s, "cookie:0x%"PRIx64" ", ntohll(fm.new_cookie)); } if (fm.cookie_mask != htonll(0)) { ds_put_format(s, "cookie:0x%"PRIx64"/0x%"PRIx64" ", ntohll(fm.cookie), ntohll(fm.cookie_mask)); } if (fm.idle_timeout != OFP_FLOW_PERMANENT) { ds_put_format(s, "idle:%"PRIu16" ", fm.idle_timeout); } if (fm.hard_timeout != OFP_FLOW_PERMANENT) { ds_put_format(s, "hard:%"PRIu16" ", fm.hard_timeout); } if (fm.importance != 0) { ds_put_format(s, "importance:%"PRIu16" ", fm.importance); } if (fm.priority != OFP_DEFAULT_PRIORITY && need_priority) { ds_put_format(s, "pri:%"PRIu16" ", fm.priority); } if (fm.buffer_id != UINT32_MAX) { ds_put_format(s, "buf:0x%"PRIx32" ", fm.buffer_id); } if (fm.out_port != OFPP_ANY) { ds_put_format(s, "out_port:"); ofputil_format_port(fm.out_port, s); ds_put_char(s, ' '); } if (oh->version == OFP10_VERSION || oh->version == OFP11_VERSION) { /* Don't print the reset_counts flag for OF1.0 and OF1.1 because those * versions don't really have such a flag and printing one is likely to * confuse people. */ fm.flags &= ~OFPUTIL_FF_RESET_COUNTS; } ofp_print_flow_flags(s, fm.flags); ds_put_cstr(s, "actions="); ofpacts_format(fm.ofpacts, fm.ofpacts_len, s); ofpbuf_uninit(&ofpacts); } static void ofp_print_duration(struct ds *string, unsigned int sec, unsigned int nsec) { ds_put_format(string, "%u", sec); /* If there are no fractional seconds, don't print any decimals. * * If the fractional seconds can be expressed exactly as milliseconds, * print 3 decimals. Open vSwitch provides millisecond precision for most * time measurements, so printing 3 decimals every time makes it easier to * spot real changes in flow dumps that refresh themselves quickly. * * If the fractional seconds are more precise than milliseconds, print the * number of decimals needed to express them exactly. */ if (nsec > 0) { unsigned int msec = nsec / 1000000; if (msec * 1000000 == nsec) { ds_put_format(string, ".%03u", msec); } else { ds_put_format(string, ".%09u", nsec); while (string->string[string->length - 1] == '0') { string->length--; } } } ds_put_char(string, 's'); } /* Returns a string form of 'reason'. The return value is either a statically * allocated constant string or the 'bufsize'-byte buffer 'reasonbuf'. * 'bufsize' should be at least OFP_FLOW_REMOVED_REASON_BUFSIZE. */ #define OFP_FLOW_REMOVED_REASON_BUFSIZE (INT_STRLEN(int) + 1) static const char * ofp_flow_removed_reason_to_string(enum ofp_flow_removed_reason reason, char *reasonbuf, size_t bufsize) { switch (reason) { case OFPRR_IDLE_TIMEOUT: return "idle"; case OFPRR_HARD_TIMEOUT: return "hard"; case OFPRR_DELETE: return "delete"; case OFPRR_GROUP_DELETE: return "group_delete"; case OFPRR_EVICTION: return "eviction"; case OFPRR_METER_DELETE: return "meter_delete"; case OVS_OFPRR_NONE: default: snprintf(reasonbuf, bufsize, "%d", (int) reason); return reasonbuf; } } static void ofp_print_flow_removed(struct ds *string, const struct ofp_header *oh) { char reasonbuf[OFP_FLOW_REMOVED_REASON_BUFSIZE]; struct ofputil_flow_removed fr; enum ofperr error; error = ofputil_decode_flow_removed(&fr, oh); if (error) { ofp_print_error(string, error); return; } ds_put_char(string, ' '); match_format(&fr.match, string, fr.priority); ds_put_format(string, " reason=%s", ofp_flow_removed_reason_to_string(fr.reason, reasonbuf, sizeof reasonbuf)); if (fr.table_id != 255) { ds_put_format(string, " table_id=%"PRIu8, fr.table_id); } if (fr.cookie != htonll(0)) { ds_put_format(string, " cookie:0x%"PRIx64, ntohll(fr.cookie)); } ds_put_cstr(string, " duration"); ofp_print_duration(string, fr.duration_sec, fr.duration_nsec); ds_put_format(string, " idle%"PRIu16, fr.idle_timeout); if (fr.hard_timeout) { /* The hard timeout was only added in OF1.2, so only print it if it is * actually in use to avoid gratuitous change to the formatting. */ ds_put_format(string, " hard%"PRIu16, fr.hard_timeout); } ds_put_format(string, " pkts%"PRIu64" bytes%"PRIu64"\n", fr.packet_count, fr.byte_count); } static void ofp_print_port_mod(struct ds *string, const struct ofp_header *oh) { struct ofputil_port_mod pm; enum ofperr error; error = ofputil_decode_port_mod(oh, &pm, true); if (error) { ofp_print_error(string, error); return; } ds_put_cstr(string, " port: "); ofputil_format_port(pm.port_no, string); ds_put_format(string, ": addr:"ETH_ADDR_FMT"\n", ETH_ADDR_ARGS(pm.hw_addr)); ds_put_cstr(string, " config: "); ofp_print_port_config(string, pm.config); ds_put_cstr(string, " mask: "); ofp_print_port_config(string, pm.mask); ds_put_cstr(string, " advertise: "); if (pm.advertise) { ofp_print_port_features(string, pm.advertise); } else { ds_put_cstr(string, "UNCHANGED\n"); } } static const char * ofputil_table_miss_to_string(enum ofputil_table_miss miss) { switch (miss) { case OFPUTIL_TABLE_MISS_DEFAULT: return "default"; case OFPUTIL_TABLE_MISS_CONTROLLER: return "controller"; case OFPUTIL_TABLE_MISS_CONTINUE: return "continue"; case OFPUTIL_TABLE_MISS_DROP: return "drop"; default: return "***error***"; } } static const char * ofputil_table_eviction_to_string(enum ofputil_table_eviction eviction) { switch (eviction) { case OFPUTIL_TABLE_EVICTION_DEFAULT: return "default"; case OFPUTIL_TABLE_EVICTION_ON: return "on"; case OFPUTIL_TABLE_EVICTION_OFF: return "off"; default: return "***error***"; } } static const char * ofputil_eviction_flag_to_string(uint32_t bit) { enum ofp14_table_mod_prop_eviction_flag eviction_flag = bit; switch (eviction_flag) { case OFPTMPEF14_OTHER: return "OTHER"; case OFPTMPEF14_IMPORTANCE: return "IMPORTANCE"; case OFPTMPEF14_LIFETIME: return "LIFETIME"; } return NULL; } /* Appends to 'string' a description of the bitmap of OFPTMPEF14_* values in * 'eviction_flags'. */ static void ofputil_put_eviction_flags(struct ds *string, uint32_t eviction_flags) { if (eviction_flags != UINT32_MAX) { ofp_print_bit_names(string, eviction_flags, ofputil_eviction_flag_to_string, '|'); } else { ds_put_cstr(string, "(default)"); } } static const char * ofputil_table_vacancy_to_string(enum ofputil_table_vacancy vacancy) { switch (vacancy) { case OFPUTIL_TABLE_VACANCY_DEFAULT: return "default"; case OFPUTIL_TABLE_VACANCY_ON: return "on"; case OFPUTIL_TABLE_VACANCY_OFF: return "off"; default: return "***error***"; } } static void ofp_print_table_mod(struct ds *string, const struct ofp_header *oh) { struct ofputil_table_mod pm; enum ofperr error; error = ofputil_decode_table_mod(oh, &pm); if (error) { ofp_print_error(string, error); return; } if (pm.table_id == 0xff) { ds_put_cstr(string, " table_id: ALL_TABLES"); } else { ds_put_format(string, " table_id=%"PRIu8, pm.table_id); } if (pm.miss != OFPUTIL_TABLE_MISS_DEFAULT) { ds_put_format(string, ", flow_miss_config=%s", ofputil_table_miss_to_string(pm.miss)); } if (pm.eviction != OFPUTIL_TABLE_EVICTION_DEFAULT) { ds_put_format(string, ", eviction=%s", ofputil_table_eviction_to_string(pm.eviction)); } if (pm.eviction_flags != UINT32_MAX) { ds_put_cstr(string, "eviction_flags="); ofputil_put_eviction_flags(string, pm.eviction_flags); } if (pm.vacancy != OFPUTIL_TABLE_VACANCY_DEFAULT) { ds_put_format(string, ", vacancy=%s", ofputil_table_vacancy_to_string(pm.vacancy)); if (pm.vacancy == OFPUTIL_TABLE_VACANCY_ON) { ds_put_format(string, " vacancy:%"PRIu8"" ",%"PRIu8"", pm.table_vacancy.vacancy_down, pm.table_vacancy.vacancy_up); } } } /* This function will print the Table description properties. */ static void ofp_print_table_desc(struct ds *string, const struct ofputil_table_desc *td) { ds_put_format(string, "\n table %"PRIu8, td->table_id); ds_put_cstr(string, ":\n"); ds_put_format(string, " eviction=%s eviction_flags=", ofputil_table_eviction_to_string(td->eviction)); ofputil_put_eviction_flags(string, td->eviction_flags); ds_put_char(string, '\n'); ds_put_format(string, " vacancy=%s", ofputil_table_vacancy_to_string(td->vacancy)); if (td->vacancy == OFPUTIL_TABLE_VACANCY_ON) { ds_put_format(string, " vacancy_down=%"PRIu8"%%", td->table_vacancy.vacancy_down); ds_put_format(string, " vacancy_up=%"PRIu8"%%", td->table_vacancy.vacancy_up); ds_put_format(string, " vacancy=%"PRIu8"%%", td->table_vacancy.vacancy); } ds_put_char(string, '\n'); } static void ofp_print_table_status_message(struct ds *string, const struct ofp_header *oh) { struct ofputil_table_status ts; enum ofperr error; error = ofputil_decode_table_status(oh, &ts); if (error) { ofp_print_error(string, error); return; } if (ts.reason == OFPTR_VACANCY_DOWN) { ds_put_format(string, " reason=VACANCY_DOWN"); } else if (ts.reason == OFPTR_VACANCY_UP) { ds_put_format(string, " reason=VACANCY_UP"); } ds_put_format(string, "\ntable_desc:-"); ofp_print_table_desc(string, &ts.desc); } static void ofp_print_queue_get_config_request(struct ds *string, const struct ofp_header *oh) { enum ofperr error; ofp_port_t port; uint32_t queue; error = ofputil_decode_queue_get_config_request(oh, &port, &queue); if (error) { ofp_print_error(string, error); return; } ds_put_cstr(string, " port="); ofputil_format_port(port, string); if (queue != OFPQ_ALL) { ds_put_cstr(string, " queue="); ofp_print_queue_name(string, queue); } } static void print_queue_rate(struct ds *string, const char *name, unsigned int rate) { if (rate <= 1000) { ds_put_format(string, " %s:%u.%u%%", name, rate / 10, rate % 10); } else if (rate < UINT16_MAX) { ds_put_format(string, " %s:(disabled)", name); } } /* qsort comparison function. */ static int compare_queues(const void *a_, const void *b_) { const struct ofputil_queue_config *a = a_; const struct ofputil_queue_config *b = b_; uint16_t ap = ofp_to_u16(a->port); uint16_t bp = ofp_to_u16(b->port); if (ap != bp) { return ap < bp ? -1 : 1; } uint32_t aq = a->queue; uint32_t bq = b->queue; return aq < bq ? -1 : aq > bq; } static void ofp_print_queue_get_config_reply(struct ds *string, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); struct ofputil_queue_config *queues = NULL; size_t allocated_queues = 0; size_t n = 0; int retval = 0; for (;;) { if (n >= allocated_queues) { queues = x2nrealloc(queues, &allocated_queues, sizeof *queues); } retval = ofputil_pull_queue_get_config_reply(&b, &queues[n]); if (retval) { break; } n++; } qsort(queues, n, sizeof *queues, compare_queues); ds_put_char(string, ' '); ofp_port_t port = 0; for (const struct ofputil_queue_config *q = queues; q < &queues[n]; q++) { if (q->port != port) { port = q->port; ds_put_cstr(string, "port="); ofputil_format_port(port, string); ds_put_char(string, '\n'); } ds_put_format(string, "queue %"PRIu32":", q->queue); print_queue_rate(string, "min_rate", q->min_rate); print_queue_rate(string, "max_rate", q->max_rate); ds_put_char(string, '\n'); } if (retval != EOF) { ofp_print_error(string, retval); } ds_chomp(string, ' '); } static void ofp_print_meter_flags(struct ds *s, uint16_t flags) { if (flags & OFPMF13_KBPS) { ds_put_cstr(s, "kbps "); } if (flags & OFPMF13_PKTPS) { ds_put_cstr(s, "pktps "); } if (flags & OFPMF13_BURST) { ds_put_cstr(s, "burst "); } if (flags & OFPMF13_STATS) { ds_put_cstr(s, "stats "); } flags &= ~(OFPMF13_KBPS | OFPMF13_PKTPS | OFPMF13_BURST | OFPMF13_STATS); if (flags) { ds_put_format(s, "flags:0x%"PRIx16" ", flags); } } static void ofp_print_meter_band(struct ds *s, uint16_t flags, const struct ofputil_meter_band *mb) { ds_put_cstr(s, "\ntype="); switch (mb->type) { case OFPMBT13_DROP: ds_put_cstr(s, "drop"); break; case OFPMBT13_DSCP_REMARK: ds_put_cstr(s, "dscp_remark"); break; default: ds_put_format(s, "%u", mb->type); } ds_put_format(s, " rate=%"PRIu32, mb->rate); if (flags & OFPMF13_BURST) { ds_put_format(s, " burst_size=%"PRIu32, mb->burst_size); } if (mb->type == OFPMBT13_DSCP_REMARK) { ds_put_format(s, " prec_level=%"PRIu8, mb->prec_level); } } static void ofp_print_meter_stats(struct ds *s, const struct ofputil_meter_stats *ms) { uint16_t i; ds_put_format(s, "meter:%"PRIu32" ", ms->meter_id); ds_put_format(s, "flow_count:%"PRIu32" ", ms->flow_count); ds_put_format(s, "packet_in_count:%"PRIu64" ", ms->packet_in_count); ds_put_format(s, "byte_in_count:%"PRIu64" ", ms->byte_in_count); ds_put_cstr(s, "duration:"); ofp_print_duration(s, ms->duration_sec, ms->duration_nsec); ds_put_char(s, ' '); ds_put_cstr(s, "bands:\n"); for (i = 0; i < ms->n_bands; ++i) { ds_put_format(s, "%d: ", i); ds_put_format(s, "packet_count:%"PRIu64" ", ms->bands[i].packet_count); ds_put_format(s, "byte_count:%"PRIu64"\n", ms->bands[i].byte_count); } } static void ofp_print_meter_config(struct ds *s, const struct ofputil_meter_config *mc) { uint16_t i; ds_put_format(s, "meter=%"PRIu32" ", mc->meter_id); ofp_print_meter_flags(s, mc->flags); ds_put_cstr(s, "bands="); for (i = 0; i < mc->n_bands; ++i) { ofp_print_meter_band(s, mc->flags, &mc->bands[i]); } ds_put_char(s, '\n'); } static void ofp_print_meter_mod__(struct ds *s, const struct ofputil_meter_mod *mm) { switch (mm->command) { case OFPMC13_ADD: ds_put_cstr(s, " ADD "); break; case OFPMC13_MODIFY: ds_put_cstr(s, " MOD "); break; case OFPMC13_DELETE: ds_put_cstr(s, " DEL "); break; default: ds_put_format(s, " cmd:%d ", mm->command); } ofp_print_meter_config(s, &mm->meter); } static void ofp_print_meter_mod(struct ds *s, const struct ofp_header *oh) { struct ofputil_meter_mod mm; struct ofpbuf bands; enum ofperr error; ofpbuf_init(&bands, 64); error = ofputil_decode_meter_mod(oh, &mm, &bands); if (error) { ofp_print_error(s, error); } else { ofp_print_meter_mod__(s, &mm); } ofpbuf_uninit(&bands); } static void ofp_print_meter_stats_request(struct ds *s, const struct ofp_header *oh) { uint32_t meter_id; ofputil_decode_meter_request(oh, &meter_id); ds_put_format(s, " meter=%"PRIu32, meter_id); } static const char * ofputil_meter_capabilities_to_name(uint32_t bit) { enum ofp13_meter_flags flag = bit; switch (flag) { case OFPMF13_KBPS: return "kbps"; case OFPMF13_PKTPS: return "pktps"; case OFPMF13_BURST: return "burst"; case OFPMF13_STATS: return "stats"; } return NULL; } static const char * ofputil_meter_band_types_to_name(uint32_t bit) { switch (bit) { case 1 << OFPMBT13_DROP: return "drop"; case 1 << OFPMBT13_DSCP_REMARK: return "dscp_remark"; } return NULL; } static void ofp_print_meter_features_reply(struct ds *s, const struct ofp_header *oh) { struct ofputil_meter_features mf; ofputil_decode_meter_features(oh, &mf); ds_put_format(s, "\nmax_meter:%"PRIu32, mf.max_meters); ds_put_format(s, " max_bands:%"PRIu8, mf.max_bands); ds_put_format(s, " max_color:%"PRIu8"\n", mf.max_color); ds_put_cstr(s, "band_types: "); ofp_print_bit_names(s, mf.band_types, ofputil_meter_band_types_to_name, ' '); ds_put_char(s, '\n'); ds_put_cstr(s, "capabilities: "); ofp_print_bit_names(s, mf.capabilities, ofputil_meter_capabilities_to_name, ' '); ds_put_char(s, '\n'); } static void ofp_print_meter_config_reply(struct ds *s, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); struct ofpbuf bands; ofpbuf_init(&bands, 64); for (;;) { struct ofputil_meter_config mc; int retval; retval = ofputil_decode_meter_config(&b, &mc, &bands); if (retval) { if (retval != EOF) { ofp_print_error(s, retval); } break; } ds_put_char(s, '\n'); ofp_print_meter_config(s, &mc); } ofpbuf_uninit(&bands); } static void ofp_print_meter_stats_reply(struct ds *s, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); struct ofpbuf bands; ofpbuf_init(&bands, 64); for (;;) { struct ofputil_meter_stats ms; int retval; retval = ofputil_decode_meter_stats(&b, &ms, &bands); if (retval) { if (retval != EOF) { ofp_print_error(s, retval); } break; } ds_put_char(s, '\n'); ofp_print_meter_stats(s, &ms); } ofpbuf_uninit(&bands); } static void ofp_print_error(struct ds *string, enum ofperr error) { if (string->length) { ds_put_char(string, ' '); } ds_put_format(string, "***decode error: %s***\n", ofperr_get_name(error)); } static void ofp_print_hello(struct ds *string, const struct ofp_header *oh) { uint32_t allowed_versions; bool ok; ok = ofputil_decode_hello(oh, &allowed_versions); ds_put_cstr(string, "\n version bitmap: "); ofputil_format_version_bitmap(string, allowed_versions); if (!ok) { ds_put_cstr(string, "\n unknown data in hello:\n"); ds_put_hex_dump(string, oh, ntohs(oh->length), 0, true); } } static void ofp_print_error_msg(struct ds *string, const struct ofp_header *oh) { size_t len = ntohs(oh->length); struct ofpbuf payload; enum ofperr error; char *s; error = ofperr_decode_msg(oh, &payload); if (!error) { ds_put_cstr(string, "***decode error***"); ds_put_hex_dump(string, oh + 1, len - sizeof *oh, 0, true); return; } ds_put_format(string, " %s\n", ofperr_get_name(error)); if (error == OFPERR_OFPHFC_INCOMPATIBLE || error == OFPERR_OFPHFC_EPERM) { ds_put_printable(string, payload.data, payload.size); } else { s = ofp_to_string(payload.data, payload.size, 1); ds_put_cstr(string, s); free(s); } ofpbuf_uninit(&payload); } static void ofp_print_port_status(struct ds *string, const struct ofp_header *oh) { struct ofputil_port_status ps; enum ofperr error; error = ofputil_decode_port_status(oh, &ps); if (error) { ofp_print_error(string, error); return; } if (ps.reason == OFPPR_ADD) { ds_put_format(string, " ADD:"); } else if (ps.reason == OFPPR_DELETE) { ds_put_format(string, " DEL:"); } else if (ps.reason == OFPPR_MODIFY) { ds_put_format(string, " MOD:"); } ofp_print_phy_port(string, &ps.desc); } static void ofp_print_ofpst_desc_reply(struct ds *string, const struct ofp_header *oh) { const struct ofp_desc_stats *ods = ofpmsg_body(oh); ds_put_char(string, '\n'); ds_put_format(string, "Manufacturer: %.*s\n", (int) sizeof ods->mfr_desc, ods->mfr_desc); ds_put_format(string, "Hardware: %.*s\n", (int) sizeof ods->hw_desc, ods->hw_desc); ds_put_format(string, "Software: %.*s\n", (int) sizeof ods->sw_desc, ods->sw_desc); ds_put_format(string, "Serial Num: %.*s\n", (int) sizeof ods->serial_num, ods->serial_num); ds_put_format(string, "DP Description: %.*s\n", (int) sizeof ods->dp_desc, ods->dp_desc); } static void ofp_print_flow_stats_request(struct ds *string, const struct ofp_header *oh) { struct ofputil_flow_stats_request fsr; enum ofperr error; error = ofputil_decode_flow_stats_request(&fsr, oh); if (error) { ofp_print_error(string, error); return; } if (fsr.table_id != 0xff) { ds_put_format(string, " table=%"PRIu8, fsr.table_id); } if (fsr.out_port != OFPP_ANY) { ds_put_cstr(string, " out_port="); ofputil_format_port(fsr.out_port, string); } ds_put_char(string, ' '); match_format(&fsr.match, string, OFP_DEFAULT_PRIORITY); } void ofp_print_flow_stats(struct ds *string, struct ofputil_flow_stats *fs) { ds_put_format(string, " %scookie=%s0x%"PRIx64", %sduration=%s", colors.param, colors.end, ntohll(fs->cookie), colors.param, colors.end); ofp_print_duration(string, fs->duration_sec, fs->duration_nsec); ds_put_format(string, ", %stable=%s%"PRIu8", ", colors.special, colors.end, fs->table_id); ds_put_format(string, "%sn_packets=%s%"PRIu64", ", colors.param, colors.end, fs->packet_count); ds_put_format(string, "%sn_bytes=%s%"PRIu64", ", colors.param, colors.end, fs->byte_count); if (fs->idle_timeout != OFP_FLOW_PERMANENT) { ds_put_format(string, "%sidle_timeout=%s%"PRIu16", ", colors.param, colors.end, fs->idle_timeout); } if (fs->hard_timeout != OFP_FLOW_PERMANENT) { ds_put_format(string, "%shard_timeout=%s%"PRIu16", ", colors.param, colors.end, fs->hard_timeout); } if (fs->flags) { ofp_print_flow_flags(string, fs->flags); } if (fs->importance != 0) { ds_put_format(string, "%simportance=%s%"PRIu16", ", colors.param, colors.end, fs->importance); } if (fs->idle_age >= 0) { ds_put_format(string, "%sidle_age=%s%d, ", colors.param, colors.end, fs->idle_age); } if (fs->hard_age >= 0 && fs->hard_age != fs->duration_sec) { ds_put_format(string, "%shard_age=%s%d, ", colors.param, colors.end, fs->hard_age); } match_format(&fs->match, string, fs->priority); if (string->string[string->length - 1] != ' ') { ds_put_char(string, ' '); } ds_put_format(string, "%sactions=%s", colors.actions, colors.end); ofpacts_format(fs->ofpacts, fs->ofpacts_len, string); } static void ofp_print_flow_stats_reply(struct ds *string, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); struct ofpbuf ofpacts; ofpbuf_init(&ofpacts, 64); for (;;) { struct ofputil_flow_stats fs; int retval; retval = ofputil_decode_flow_stats_reply(&fs, &b, true, &ofpacts); if (retval) { if (retval != EOF) { ds_put_cstr(string, " ***parse error***"); } break; } ds_put_char(string, '\n'); ofp_print_flow_stats(string, &fs); } ofpbuf_uninit(&ofpacts); } static void ofp_print_aggregate_stats_reply(struct ds *string, const struct ofp_header *oh) { struct ofputil_aggregate_stats as; enum ofperr error; error = ofputil_decode_aggregate_stats_reply(&as, oh); if (error) { ofp_print_error(string, error); return; } ds_put_format(string, " packet_count=%"PRIu64, as.packet_count); ds_put_format(string, " byte_count=%"PRIu64, as.byte_count); ds_put_format(string, " flow_count=%"PRIu32, as.flow_count); } static void print_port_stat(struct ds *string, const char *leader, uint64_t stat, int more) { ds_put_cstr(string, leader); if (stat != UINT64_MAX) { ds_put_format(string, "%"PRIu64, stat); } else { ds_put_char(string, '?'); } if (more) { ds_put_cstr(string, ", "); } else { ds_put_cstr(string, "\n"); } } static void print_port_stat_cond(struct ds *string, const char *leader, uint64_t stat) { if (stat != UINT64_MAX) { ds_put_format(string, "%s%"PRIu64", ", leader, stat); } } static void ofp_print_ofpst_port_request(struct ds *string, const struct ofp_header *oh) { ofp_port_t ofp10_port; enum ofperr error; error = ofputil_decode_port_stats_request(oh, &ofp10_port); if (error) { ofp_print_error(string, error); return; } ds_put_cstr(string, " port_no="); ofputil_format_port(ofp10_port, string); } static void ofp_print_ofpst_port_reply(struct ds *string, const struct ofp_header *oh, int verbosity) { ds_put_format(string, " %"PRIuSIZE" ports\n", ofputil_count_port_stats(oh)); if (verbosity < 1) { return; } struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_port_stats ps; int retval; retval = ofputil_decode_port_stats(&ps, &b); if (retval) { if (retval != EOF) { ds_put_cstr(string, " ***parse error***"); } return; } ds_put_cstr(string, " port "); if (ofp_to_u16(ps.port_no) < 10) { ds_put_char(string, ' '); } ofputil_format_port(ps.port_no, string); ds_put_cstr(string, ": rx "); print_port_stat(string, "pkts=", ps.stats.rx_packets, 1); print_port_stat(string, "bytes=", ps.stats.rx_bytes, 1); print_port_stat(string, "drop=", ps.stats.rx_dropped, 1); print_port_stat(string, "errs=", ps.stats.rx_errors, 1); print_port_stat(string, "frame=", ps.stats.rx_frame_errors, 1); print_port_stat(string, "over=", ps.stats.rx_over_errors, 1); print_port_stat(string, "crc=", ps.stats.rx_crc_errors, 0); ds_put_cstr(string, " tx "); print_port_stat(string, "pkts=", ps.stats.tx_packets, 1); print_port_stat(string, "bytes=", ps.stats.tx_bytes, 1); print_port_stat(string, "drop=", ps.stats.tx_dropped, 1); print_port_stat(string, "errs=", ps.stats.tx_errors, 1); print_port_stat(string, "coll=", ps.stats.collisions, 0); if (ps.duration_sec != UINT32_MAX) { ds_put_cstr(string, " duration="); ofp_print_duration(string, ps.duration_sec, ps.duration_nsec); ds_put_char(string, '\n'); } struct ds string_ext_stats = DS_EMPTY_INITIALIZER; ds_init(&string_ext_stats); print_port_stat_cond(&string_ext_stats, "1_to_64_packets=", ps.stats.rx_1_to_64_packets); print_port_stat_cond(&string_ext_stats, "65_to_127_packets=", ps.stats.rx_65_to_127_packets); print_port_stat_cond(&string_ext_stats, "128_to_255_packets=", ps.stats.rx_128_to_255_packets); print_port_stat_cond(&string_ext_stats, "256_to_511_packets=", ps.stats.rx_256_to_511_packets); print_port_stat_cond(&string_ext_stats, "512_to_1023_packets=", ps.stats.rx_512_to_1023_packets); print_port_stat_cond(&string_ext_stats, "1024_to_1522_packets=", ps.stats.rx_1024_to_1522_packets); print_port_stat_cond(&string_ext_stats, "1523_to_max_packets=", ps.stats.rx_1523_to_max_packets); print_port_stat_cond(&string_ext_stats, "broadcast_packets=", ps.stats.rx_broadcast_packets); print_port_stat_cond(&string_ext_stats, "undersized_errors=", ps.stats.rx_undersized_errors); print_port_stat_cond(&string_ext_stats, "oversize_errors=", ps.stats.rx_oversize_errors); print_port_stat_cond(&string_ext_stats, "rx_fragmented_errors=", ps.stats.rx_fragmented_errors); print_port_stat_cond(&string_ext_stats, "rx_jabber_errors=", ps.stats.rx_jabber_errors); if (string_ext_stats.length != 0) { /* If at least one statistics counter is reported: */ ds_put_cstr(string, " rx rfc2819 "); ds_put_buffer(string, string_ext_stats.string, string_ext_stats.length); ds_put_cstr(string, "\n"); ds_destroy(&string_ext_stats); } ds_init(&string_ext_stats); print_port_stat_cond(&string_ext_stats, "1_to_64_packets=", ps.stats.tx_1_to_64_packets); print_port_stat_cond(&string_ext_stats, "65_to_127_packets=", ps.stats.tx_65_to_127_packets); print_port_stat_cond(&string_ext_stats, "128_to_255_packets=", ps.stats.tx_128_to_255_packets); print_port_stat_cond(&string_ext_stats, "256_to_511_packets=", ps.stats.tx_256_to_511_packets); print_port_stat_cond(&string_ext_stats, "512_to_1023_packets=", ps.stats.tx_512_to_1023_packets); print_port_stat_cond(&string_ext_stats, "1024_to_1522_packets=", ps.stats.tx_1024_to_1522_packets); print_port_stat_cond(&string_ext_stats, "1523_to_max_packets=", ps.stats.tx_1523_to_max_packets); print_port_stat_cond(&string_ext_stats, "multicast_packets=", ps.stats.tx_multicast_packets); print_port_stat_cond(&string_ext_stats, "broadcast_packets=", ps.stats.tx_broadcast_packets); if (string_ext_stats.length != 0) { /* If at least one statistics counter is reported: */ ds_put_cstr(string, " tx rfc2819 "); ds_put_buffer(string, string_ext_stats.string, string_ext_stats.length); ds_put_cstr(string, "\n"); ds_destroy(&string_ext_stats); } } } static void ofp_print_table_stats_reply(struct ds *string, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); ofpraw_pull_assert(&b); struct ofputil_table_features prev_features; struct ofputil_table_stats prev_stats; for (int i = 0;; i++) { struct ofputil_table_features features; struct ofputil_table_stats stats; int retval; retval = ofputil_decode_table_stats_reply(&b, &stats, &features); if (retval) { if (retval != EOF) { ofp_print_error(string, retval); } return; } ds_put_char(string, '\n'); ofp_print_table_features(string, &features, i ? &prev_features : NULL, &stats, i ? &prev_stats : NULL); prev_features = features; prev_stats = stats; } } static void ofp_print_queue_name(struct ds *string, uint32_t queue_id) { if (queue_id == OFPQ_ALL) { ds_put_cstr(string, "ALL"); } else { ds_put_format(string, "%"PRIu32, queue_id); } } static void ofp_print_ofpst_queue_request(struct ds *string, const struct ofp_header *oh) { struct ofputil_queue_stats_request oqsr; enum ofperr error; error = ofputil_decode_queue_stats_request(oh, &oqsr); if (error) { ds_put_format(string, "***decode error: %s***\n", ofperr_get_name(error)); return; } ds_put_cstr(string, " port="); ofputil_format_port(oqsr.port_no, string); ds_put_cstr(string, " queue="); ofp_print_queue_name(string, oqsr.queue_id); } static void ofp_print_ofpst_queue_reply(struct ds *string, const struct ofp_header *oh, int verbosity) { ds_put_format(string, " %"PRIuSIZE" queues\n", ofputil_count_queue_stats(oh)); if (verbosity < 1) { return; } struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_queue_stats qs; int retval; retval = ofputil_decode_queue_stats(&qs, &b); if (retval) { if (retval != EOF) { ds_put_cstr(string, " ***parse error***"); } return; } ds_put_cstr(string, " port "); ofputil_format_port(qs.port_no, string); ds_put_cstr(string, " queue "); ofp_print_queue_name(string, qs.queue_id); ds_put_cstr(string, ": "); print_port_stat(string, "bytes=", qs.tx_bytes, 1); print_port_stat(string, "pkts=", qs.tx_packets, 1); print_port_stat(string, "errors=", qs.tx_errors, 1); ds_put_cstr(string, "duration="); if (qs.duration_sec != UINT32_MAX) { ofp_print_duration(string, qs.duration_sec, qs.duration_nsec); } else { ds_put_char(string, '?'); } ds_put_char(string, '\n'); } } static void ofp_print_ofpst_port_desc_request(struct ds *string, const struct ofp_header *oh) { enum ofperr error; ofp_port_t port; error = ofputil_decode_port_desc_stats_request(oh, &port); if (error) { ofp_print_error(string, error); return; } ds_put_cstr(string, " port="); ofputil_format_port(port, string); } static void ofp_print_ofpst_port_desc_reply(struct ds *string, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); ofpraw_pull_assert(&b); ds_put_char(string, '\n'); ofp_print_phy_ports(string, oh->version, &b); } static void ofp_print_stats(struct ds *string, const struct ofp_header *oh) { uint16_t flags = ofpmp_flags(oh); if (flags) { ds_put_cstr(string, " flags="); if ((!ofpmsg_is_stat_request(oh) || oh->version >= OFP13_VERSION) && (flags & OFPSF_REPLY_MORE)) { ds_put_cstr(string, "[more]"); flags &= ~OFPSF_REPLY_MORE; } if (flags) { ds_put_format(string, "[***unknown flags 0x%04"PRIx16"***]", flags); } } } static void ofp_print_echo(struct ds *string, const struct ofp_header *oh, int verbosity) { size_t len = ntohs(oh->length); ds_put_format(string, " %"PRIuSIZE" bytes of payload\n", len - sizeof *oh); if (verbosity > 1) { ds_put_hex_dump(string, oh + 1, len - sizeof *oh, 0, true); } } static void ofp_print_role_generic(struct ds *string, enum ofp12_controller_role role, uint64_t generation_id) { ds_put_cstr(string, " role="); switch (role) { case OFPCR12_ROLE_NOCHANGE: ds_put_cstr(string, "nochange"); break; case OFPCR12_ROLE_EQUAL: ds_put_cstr(string, "equal"); /* OF 1.2 wording */ break; case OFPCR12_ROLE_MASTER: ds_put_cstr(string, "master"); break; case OFPCR12_ROLE_SLAVE: ds_put_cstr(string, "slave"); break; default: OVS_NOT_REACHED(); } if (generation_id != UINT64_MAX) { ds_put_format(string, " generation_id=%"PRIu64, generation_id); } } static void ofp_print_role_message(struct ds *string, const struct ofp_header *oh) { struct ofputil_role_request rr; enum ofperr error; error = ofputil_decode_role_message(oh, &rr); if (error) { ofp_print_error(string, error); return; } ofp_print_role_generic(string, rr.role, rr.have_generation_id ? rr.generation_id : UINT64_MAX); } static void ofp_print_role_status_message(struct ds *string, const struct ofp_header *oh) { struct ofputil_role_status rs; enum ofperr error; error = ofputil_decode_role_status(oh, &rs); if (error) { ofp_print_error(string, error); return; } ofp_print_role_generic(string, rs.role, rs.generation_id); ds_put_cstr(string, " reason="); switch (rs.reason) { case OFPCRR_MASTER_REQUEST: ds_put_cstr(string, "master_request"); break; case OFPCRR_CONFIG: ds_put_cstr(string, "configuration_changed"); break; case OFPCRR_EXPERIMENTER: ds_put_cstr(string, "experimenter_data_changed"); break; case OFPCRR_N_REASONS: default: OVS_NOT_REACHED(); } } static void ofp_print_nxt_flow_mod_table_id(struct ds *string, const struct nx_flow_mod_table_id *nfmti) { ds_put_format(string, " %s", nfmti->set ? "enable" : "disable"); } static void ofp_print_nxt_set_flow_format(struct ds *string, const struct nx_set_flow_format *nsff) { uint32_t format = ntohl(nsff->format); ds_put_cstr(string, " format="); if (ofputil_nx_flow_format_is_valid(format)) { ds_put_cstr(string, ofputil_nx_flow_format_to_string(format)); } else { ds_put_format(string, "%"PRIu32, format); } } static void ofp_print_nxt_set_packet_in_format(struct ds *string, const struct nx_set_packet_in_format *nspf) { uint32_t format = ntohl(nspf->format); ds_put_cstr(string, " format="); if (ofputil_packet_in_format_is_valid(format)) { ds_put_cstr(string, ofputil_packet_in_format_to_string(format)); } else { ds_put_format(string, "%"PRIu32, format); } } /* Returns a string form of 'reason'. The return value is either a statically * allocated constant string or the 'bufsize'-byte buffer 'reasonbuf'. * 'bufsize' should be at least OFP_PORT_REASON_BUFSIZE. */ #define OFP_PORT_REASON_BUFSIZE (INT_STRLEN(int) + 1) static const char * ofp_port_reason_to_string(enum ofp_port_reason reason, char *reasonbuf, size_t bufsize) { switch (reason) { case OFPPR_ADD: return "add"; case OFPPR_DELETE: return "delete"; case OFPPR_MODIFY: return "modify"; case OFPPR_N_REASONS: default: snprintf(reasonbuf, bufsize, "%d", (int) reason); return reasonbuf; } } /* Returns a string form of 'reason'. The return value is either a statically * allocated constant string or the 'bufsize'-byte buffer 'reasonbuf'. * 'bufsize' should be at least OFP_ASYNC_CONFIG_REASON_BUFSIZE. */ static const char* ofp_role_reason_to_string(enum ofp14_controller_role_reason reason, char *reasonbuf, size_t bufsize) { switch (reason) { case OFPCRR_MASTER_REQUEST: return "master_request"; case OFPCRR_CONFIG: return "configuration_changed"; case OFPCRR_EXPERIMENTER: return "experimenter_data_changed"; case OFPCRR_N_REASONS: default: snprintf(reasonbuf, bufsize, "%d", (int) reason); return reasonbuf; } } /* Returns a string form of 'reason'. The return value is either a statically * allocated constant string or the 'bufsize'-byte buffer 'reasonbuf'. * 'bufsize' should be at least OFP_ASYNC_CONFIG_REASON_BUFSIZE. */ static const char* ofp_table_reason_to_string(enum ofp14_table_reason reason, char *reasonbuf, size_t bufsize) { switch (reason) { case OFPTR_VACANCY_DOWN: return "vacancy_down"; case OFPTR_VACANCY_UP: return "vacancy_up"; default: snprintf(reasonbuf, bufsize, "%d", (int) reason); return reasonbuf; } } /* Returns a string form of 'reason'. The return value is either a statically * allocated constant string or the 'bufsize'-byte buffer 'reasonbuf'. * 'bufsize' should be at least OFP_ASYNC_CONFIG_REASON_BUFSIZE. */ static const char* ofp_requestforward_reason_to_string(enum ofp14_requestforward_reason reason, char *reasonbuf, size_t bufsize) { switch (reason) { case OFPRFR_GROUP_MOD: return "group_mod_request"; case OFPRFR_METER_MOD: return "meter_mod_request"; case OFPRFR_N_REASONS: default: snprintf(reasonbuf, bufsize, "%d", (int) reason); return reasonbuf; } } static const char * ofp_async_config_reason_to_string(uint32_t reason, enum ofputil_async_msg_type type, char *reasonbuf, size_t bufsize) { switch (type) { case OAM_PACKET_IN: return ofputil_packet_in_reason_to_string(reason, reasonbuf, bufsize); case OAM_PORT_STATUS: return ofp_port_reason_to_string(reason, reasonbuf, bufsize); case OAM_FLOW_REMOVED: return ofp_flow_removed_reason_to_string(reason, reasonbuf, bufsize); case OAM_ROLE_STATUS: return ofp_role_reason_to_string(reason, reasonbuf, bufsize); case OAM_TABLE_STATUS: return ofp_table_reason_to_string(reason, reasonbuf, bufsize); case OAM_REQUESTFORWARD: return ofp_requestforward_reason_to_string(reason, reasonbuf, bufsize); case OAM_N_TYPES: default: return "Unknown asynchronous configuration message type"; } } #define OFP_ASYNC_CONFIG_REASON_BUFSIZE (INT_STRLEN(int) + 1) static void ofp_print_set_async_config(struct ds *string, const struct ofp_header *oh, enum ofptype type) { struct ofputil_async_cfg basis = OFPUTIL_ASYNC_CFG_INIT; struct ofputil_async_cfg ac; bool is_reply = type == OFPTYPE_GET_ASYNC_REPLY; enum ofperr error = ofputil_decode_set_async_config(oh, is_reply, &basis, &ac); if (error) { ofp_print_error(string, error); return; } for (int i = 0; i < 2; i++) { ds_put_format(string, "\n %s:\n", i == 0 ? "master" : "slave"); for (uint32_t type = 0; type < OAM_N_TYPES; type++) { ds_put_format(string, "%16s:", ofputil_async_msg_type_to_string(type)); uint32_t role = i == 0 ? ac.master[type] : ac.slave[type]; for (int j = 0; j < 32; j++) { if (role & (1u << j)) { char reasonbuf[OFP_ASYNC_CONFIG_REASON_BUFSIZE]; const char *reason; reason = ofp_async_config_reason_to_string( j, type, reasonbuf, sizeof reasonbuf); if (reason[0]) { ds_put_format(string, " %s", reason); } } } if (!role) { ds_put_cstr(string, " (off)"); } ds_put_char(string, '\n'); } } } static void ofp_print_nxt_set_controller_id(struct ds *string, const struct nx_controller_id *nci) { ds_put_format(string, " id=%"PRIu16, ntohs(nci->controller_id)); } static void ofp_print_nxt_flow_monitor_cancel(struct ds *string, const struct ofp_header *oh) { ds_put_format(string, " id=%"PRIu32, ofputil_decode_flow_monitor_cancel(oh)); } static const char * nx_flow_monitor_flags_to_name(uint32_t bit) { enum nx_flow_monitor_flags fmf = bit; switch (fmf) { case NXFMF_INITIAL: return "initial"; case NXFMF_ADD: return "add"; case NXFMF_DELETE: return "delete"; case NXFMF_MODIFY: return "modify"; case NXFMF_ACTIONS: return "actions"; case NXFMF_OWN: return "own"; } return NULL; } static void ofp_print_nxst_flow_monitor_request(struct ds *string, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_flow_monitor_request request; int retval; retval = ofputil_decode_flow_monitor_request(&request, &b); if (retval) { if (retval != EOF) { ofp_print_error(string, retval); } return; } ds_put_format(string, "\n id=%"PRIu32" flags=", request.id); ofp_print_bit_names(string, request.flags, nx_flow_monitor_flags_to_name, ','); if (request.out_port != OFPP_NONE) { ds_put_cstr(string, " out_port="); ofputil_format_port(request.out_port, string); } if (request.table_id != 0xff) { ds_put_format(string, " table=%"PRIu8, request.table_id); } ds_put_char(string, ' '); match_format(&request.match, string, OFP_DEFAULT_PRIORITY); ds_chomp(string, ' '); } } static void ofp_print_nxst_flow_monitor_reply(struct ds *string, const struct ofp_header *oh) { uint64_t ofpacts_stub[1024 / 8]; struct ofpbuf ofpacts = OFPBUF_STUB_INITIALIZER(ofpacts_stub); struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { char reasonbuf[OFP_FLOW_REMOVED_REASON_BUFSIZE]; struct ofputil_flow_update update; struct match match; int retval; update.match = &match; retval = ofputil_decode_flow_update(&update, &b, &ofpacts); if (retval) { if (retval != EOF) { ofp_print_error(string, retval); } ofpbuf_uninit(&ofpacts); return; } ds_put_cstr(string, "\n event="); switch (update.event) { case NXFME_ADDED: ds_put_cstr(string, "ADDED"); break; case NXFME_DELETED: ds_put_format(string, "DELETED reason=%s", ofp_flow_removed_reason_to_string(update.reason, reasonbuf, sizeof reasonbuf)); break; case NXFME_MODIFIED: ds_put_cstr(string, "MODIFIED"); break; case NXFME_ABBREV: ds_put_format(string, "ABBREV xid=0x%"PRIx32, ntohl(update.xid)); continue; } ds_put_format(string, " table=%"PRIu8, update.table_id); if (update.idle_timeout != OFP_FLOW_PERMANENT) { ds_put_format(string, " idle_timeout=%"PRIu16, update.idle_timeout); } if (update.hard_timeout != OFP_FLOW_PERMANENT) { ds_put_format(string, " hard_timeout=%"PRIu16, update.hard_timeout); } ds_put_format(string, " cookie=%#"PRIx64, ntohll(update.cookie)); ds_put_char(string, ' '); match_format(update.match, string, OFP_DEFAULT_PRIORITY); if (update.ofpacts_len) { if (string->string[string->length - 1] != ' ') { ds_put_char(string, ' '); } ds_put_cstr(string, "actions="); ofpacts_format(update.ofpacts, update.ofpacts_len, string); } } } void ofp_print_version(const struct ofp_header *oh, struct ds *string) { switch (oh->version) { case OFP10_VERSION: break; case OFP11_VERSION: ds_put_cstr(string, " (OF1.1)"); break; case OFP12_VERSION: ds_put_cstr(string, " (OF1.2)"); break; case OFP13_VERSION: ds_put_cstr(string, " (OF1.3)"); break; case OFP14_VERSION: ds_put_cstr(string, " (OF1.4)"); break; case OFP15_VERSION: ds_put_cstr(string, " (OF1.5)"); break; case OFP16_VERSION: ds_put_cstr(string, " (OF1.6)"); break; default: ds_put_format(string, " (OF 0x%02"PRIx8")", oh->version); break; } ds_put_format(string, " (xid=0x%"PRIx32"):", ntohl(oh->xid)); } static void ofp_header_to_string__(const struct ofp_header *oh, enum ofpraw raw, struct ds *string) { ds_put_cstr(string, ofpraw_get_name(raw)); ofp_print_version(oh, string); } static void ofp_print_bucket_id(struct ds *s, const char *label, uint32_t bucket_id, enum ofp_version ofp_version) { if (ofp_version < OFP15_VERSION) { return; } ds_put_cstr(s, label); switch (bucket_id) { case OFPG15_BUCKET_FIRST: ds_put_cstr(s, "first"); break; case OFPG15_BUCKET_LAST: ds_put_cstr(s, "last"); break; case OFPG15_BUCKET_ALL: ds_put_cstr(s, "all"); break; default: ds_put_format(s, "%"PRIu32, bucket_id); break; } ds_put_char(s, ','); } static void ofp_print_group(struct ds *s, uint32_t group_id, uint8_t type, const struct ovs_list *p_buckets, const struct ofputil_group_props *props, enum ofp_version ofp_version, bool suppress_type) { struct ofputil_bucket *bucket; ds_put_format(s, "group_id=%"PRIu32, group_id); if (!suppress_type) { static const char *type_str[] = { "all", "select", "indirect", "ff", "unknown" }; ds_put_format(s, ",type=%s", type_str[type > 4 ? 4 : type]); } if (props->selection_method[0]) { ds_put_format(s, ",selection_method=%s", props->selection_method); if (props->selection_method_param) { ds_put_format(s, ",selection_method_param=%"PRIu64, props->selection_method_param); } size_t n = bitmap_count1(props->fields.used.bm, MFF_N_IDS); if (n == 1) { ds_put_cstr(s, ",fields="); oxm_format_field_array(s, &props->fields); } else if (n > 1) { ds_put_cstr(s, ",fields("); oxm_format_field_array(s, &props->fields); ds_put_char(s, ')'); } } if (!p_buckets) { return; } ds_put_char(s, ','); LIST_FOR_EACH (bucket, list_node, p_buckets) { ds_put_cstr(s, "bucket="); ofp_print_bucket_id(s, "bucket_id:", bucket->bucket_id, ofp_version); if (bucket->weight != (type == OFPGT11_SELECT ? 1 : 0)) { ds_put_format(s, "weight:%"PRIu16",", bucket->weight); } if (bucket->watch_port != OFPP_NONE) { ds_put_format(s, "watch_port:%"PRIu32",", bucket->watch_port); } if (bucket->watch_group != OFPG_ANY) { ds_put_format(s, "watch_group:%"PRIu32",", bucket->watch_group); } ds_put_cstr(s, "actions="); ofpacts_format(bucket->ofpacts, bucket->ofpacts_len, s); ds_put_char(s, ','); } ds_chomp(s, ','); } static void ofp_print_ofpst_group_desc_request(struct ds *string, const struct ofp_header *oh) { uint32_t group_id = ofputil_decode_group_desc_request(oh); ds_put_cstr(string, " group_id="); ofputil_format_group(group_id, string); } static void ofp_print_group_desc(struct ds *s, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_group_desc gd; int retval; retval = ofputil_decode_group_desc_reply(&gd, &b, oh->version); if (retval) { if (retval != EOF) { ds_put_cstr(s, " ***parse error***"); } break; } ds_put_char(s, '\n'); ds_put_char(s, ' '); ofp_print_group(s, gd.group_id, gd.type, &gd.buckets, &gd.props, oh->version, false); ofputil_bucket_list_destroy(&gd.buckets); } } static void ofp_print_ofpst_group_request(struct ds *string, const struct ofp_header *oh) { enum ofperr error; uint32_t group_id; error = ofputil_decode_group_stats_request(oh, &group_id); if (error) { ofp_print_error(string, error); return; } ds_put_cstr(string, " group_id="); ofputil_format_group(group_id, string); } static void ofp_print_group_stats(struct ds *s, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_group_stats gs; int retval; retval = ofputil_decode_group_stats_reply(&b, &gs); if (retval) { if (retval != EOF) { ds_put_cstr(s, " ***parse error***"); } break; } ds_put_char(s, '\n'); ds_put_char(s, ' '); ds_put_format(s, "group_id=%"PRIu32",", gs.group_id); if (gs.duration_sec != UINT32_MAX) { ds_put_cstr(s, "duration="); ofp_print_duration(s, gs.duration_sec, gs.duration_nsec); ds_put_char(s, ','); } ds_put_format(s, "ref_count=%"PRIu32",", gs.ref_count); ds_put_format(s, "packet_count=%"PRIu64",", gs.packet_count); ds_put_format(s, "byte_count=%"PRIu64"", gs.byte_count); for (uint32_t bucket_i = 0; bucket_i < gs.n_buckets; bucket_i++) { if (gs.bucket_stats[bucket_i].packet_count != UINT64_MAX) { ds_put_format(s, ",bucket%"PRIu32":", bucket_i); ds_put_format(s, "packet_count=%"PRIu64",", gs.bucket_stats[bucket_i].packet_count); ds_put_format(s, "byte_count=%"PRIu64"", gs.bucket_stats[bucket_i].byte_count); } } free(gs.bucket_stats); } } static const char * group_type_to_string(enum ofp11_group_type type) { switch (type) { case OFPGT11_ALL: return "all"; case OFPGT11_SELECT: return "select"; case OFPGT11_INDIRECT: return "indirect"; case OFPGT11_FF: return "fast failover"; default: OVS_NOT_REACHED(); } } static void ofp_print_group_features(struct ds *string, const struct ofp_header *oh) { struct ofputil_group_features features; int i; ofputil_decode_group_features_reply(oh, &features); ds_put_format(string, "\n Group table:\n"); ds_put_format(string, " Types: 0x%"PRIx32"\n", features.types); ds_put_format(string, " Capabilities: 0x%"PRIx32"\n", features.capabilities); for (i = 0; i < OFPGT12_N_TYPES; i++) { if (features.types & (1u << i)) { ds_put_format(string, " %s group:\n", group_type_to_string(i)); ds_put_format(string, " max_groups=%#"PRIx32"\n", features.max_groups[i]); ds_put_format(string, " actions: "); ofpact_bitmap_format(features.ofpacts[i], string); ds_put_char(string, '\n'); } } } static void ofp_print_group_mod__(struct ds *s, enum ofp_version ofp_version, const struct ofputil_group_mod *gm) { bool bucket_command = false; ds_put_char(s, '\n'); ds_put_char(s, ' '); switch (gm->command) { case OFPGC11_ADD: ds_put_cstr(s, "ADD"); break; case OFPGC11_MODIFY: ds_put_cstr(s, "MOD"); break; case OFPGC11_ADD_OR_MOD: ds_put_cstr(s, "ADD_OR_MOD"); break; case OFPGC11_DELETE: ds_put_cstr(s, "DEL"); break; case OFPGC15_INSERT_BUCKET: ds_put_cstr(s, "INSERT_BUCKET"); bucket_command = true; break; case OFPGC15_REMOVE_BUCKET: ds_put_cstr(s, "REMOVE_BUCKET"); bucket_command = true; break; default: ds_put_format(s, "cmd:%"PRIu16"", gm->command); } ds_put_char(s, ' '); if (bucket_command) { ofp_print_bucket_id(s, "command_bucket_id:", gm->command_bucket_id, ofp_version); } ofp_print_group(s, gm->group_id, gm->type, &gm->buckets, &gm->props, ofp_version, bucket_command); } static void ofp_print_group_mod(struct ds *s, const struct ofp_header *oh) { struct ofputil_group_mod gm; int error; error = ofputil_decode_group_mod(oh, &gm); if (error) { ofp_print_error(s, error); return; } ofp_print_group_mod__(s, oh->version, &gm); ofputil_bucket_list_destroy(&gm.buckets); } static void print_table_action_features(struct ds *s, const struct ofputil_table_action_features *taf) { if (taf->ofpacts) { ds_put_cstr(s, " actions: "); ofpact_bitmap_format(taf->ofpacts, s); ds_put_char(s, '\n'); } if (!bitmap_is_all_zeros(taf->set_fields.bm, MFF_N_IDS)) { int i; ds_put_cstr(s, " supported on Set-Field:"); BITMAP_FOR_EACH_1 (i, MFF_N_IDS, taf->set_fields.bm) { ds_put_format(s, " %s", mf_from_id(i)->name); } ds_put_char(s, '\n'); } } static bool table_action_features_equal(const struct ofputil_table_action_features *a, const struct ofputil_table_action_features *b) { return (a->ofpacts == b->ofpacts && bitmap_equal(a->set_fields.bm, b->set_fields.bm, MFF_N_IDS)); } static bool table_action_features_empty(const struct ofputil_table_action_features *taf) { return !taf->ofpacts && bitmap_is_all_zeros(taf->set_fields.bm, MFF_N_IDS); } static void print_table_instruction_features( struct ds *s, const struct ofputil_table_instruction_features *tif, const struct ofputil_table_instruction_features *prev_tif) { int start, end; if (!bitmap_is_all_zeros(tif->next, 255)) { ds_put_cstr(s, " next tables: "); for (start = bitmap_scan(tif->next, 1, 0, 255); start < 255; start = bitmap_scan(tif->next, 1, end, 255)) { end = bitmap_scan(tif->next, 0, start + 1, 255); if (end == start + 1) { ds_put_format(s, "%d,", start); } else { ds_put_format(s, "%d-%d,", start, end - 1); } } ds_chomp(s, ','); if (ds_last(s) == ' ') { ds_put_cstr(s, "none"); } ds_put_char(s, '\n'); } if (tif->instructions) { if (prev_tif && tif->instructions == prev_tif->instructions) { ds_put_cstr(s, " (same instructions)\n"); } else { ds_put_cstr(s, " instructions: "); int i; for (i = 0; i < 32; i++) { if (tif->instructions & (1u << i)) { ds_put_format(s, "%s,", ovs_instruction_name_from_type(i)); } } ds_chomp(s, ','); ds_put_char(s, '\n'); } } if (prev_tif && table_action_features_equal(&tif->write, &prev_tif->write) && table_action_features_equal(&tif->apply, &prev_tif->apply) && !bitmap_is_all_zeros(tif->write.set_fields.bm, MFF_N_IDS)) { ds_put_cstr(s, " (same actions)\n"); } else if (!table_action_features_equal(&tif->write, &tif->apply)) { ds_put_cstr(s, " Write-Actions features:\n"); print_table_action_features(s, &tif->write); ds_put_cstr(s, " Apply-Actions features:\n"); print_table_action_features(s, &tif->apply); } else if (tif->write.ofpacts || !bitmap_is_all_zeros(tif->write.set_fields.bm, MFF_N_IDS)) { ds_put_cstr(s, " Write-Actions and Apply-Actions features:\n"); print_table_action_features(s, &tif->write); } } static bool table_instruction_features_equal( const struct ofputil_table_instruction_features *a, const struct ofputil_table_instruction_features *b) { return (bitmap_equal(a->next, b->next, 255) && a->instructions == b->instructions && table_action_features_equal(&a->write, &b->write) && table_action_features_equal(&a->apply, &b->apply)); } static bool table_instruction_features_empty( const struct ofputil_table_instruction_features *tif) { return (bitmap_is_all_zeros(tif->next, 255) && !tif->instructions && table_action_features_empty(&tif->write) && table_action_features_empty(&tif->apply)); } static bool table_features_equal(const struct ofputil_table_features *a, const struct ofputil_table_features *b) { return (a->metadata_match == b->metadata_match && a->metadata_write == b->metadata_write && a->miss_config == b->miss_config && a->supports_eviction == b->supports_eviction && a->supports_vacancy_events == b->supports_vacancy_events && a->max_entries == b->max_entries && table_instruction_features_equal(&a->nonmiss, &b->nonmiss) && table_instruction_features_equal(&a->miss, &b->miss) && bitmap_equal(a->match.bm, b->match.bm, MFF_N_IDS)); } static bool table_features_empty(const struct ofputil_table_features *tf) { return (!tf->metadata_match && !tf->metadata_write && tf->miss_config == OFPUTIL_TABLE_MISS_DEFAULT && tf->supports_eviction < 0 && tf->supports_vacancy_events < 0 && !tf->max_entries && table_instruction_features_empty(&tf->nonmiss) && table_instruction_features_empty(&tf->miss) && bitmap_is_all_zeros(tf->match.bm, MFF_N_IDS)); } static bool table_stats_equal(const struct ofputil_table_stats *a, const struct ofputil_table_stats *b) { return (a->active_count == b->active_count && a->lookup_count == b->lookup_count && a->matched_count == b->matched_count); } void ofp_print_table_features(struct ds *s, const struct ofputil_table_features *features, const struct ofputil_table_features *prev_features, const struct ofputil_table_stats *stats, const struct ofputil_table_stats *prev_stats) { int i; ds_put_format(s, " table %"PRIu8, features->table_id); if (features->name[0]) { ds_put_format(s, " (\"%s\")", features->name); } ds_put_char(s, ':'); bool same_stats = prev_stats && table_stats_equal(stats, prev_stats); bool same_features = prev_features && table_features_equal(features, prev_features); if ((!stats || same_stats) && same_features) { ds_put_cstr(s, " ditto"); return; } ds_put_char(s, '\n'); if (stats) { ds_put_format(s, " active=%"PRIu32", ", stats->active_count); ds_put_format(s, "lookup=%"PRIu64", ", stats->lookup_count); ds_put_format(s, "matched=%"PRIu64"\n", stats->matched_count); } if (same_features) { if (!table_features_empty(features)) { ds_put_cstr(s, " (same features)\n"); } return; } if (features->metadata_match || features->metadata_write) { ds_put_format(s, " metadata: match=%#"PRIx64" write=%#"PRIx64"\n", ntohll(features->metadata_match), ntohll(features->metadata_write)); } if (features->miss_config != OFPUTIL_TABLE_MISS_DEFAULT) { ds_put_format(s, " config=%s\n", ofputil_table_miss_to_string(features->miss_config)); } if (features->supports_eviction >= 0) { ds_put_format(s, " eviction: %ssupported\n", features->supports_eviction ? "" : "not "); } if (features->supports_vacancy_events >= 0) { ds_put_format(s, " vacancy events: %ssupported\n", features->supports_vacancy_events ? "" : "not "); } if (features->max_entries) { ds_put_format(s, " max_entries=%"PRIu32"\n", features->max_entries); } const struct ofputil_table_instruction_features *prev_nonmiss = prev_features ? &prev_features->nonmiss : NULL; const struct ofputil_table_instruction_features *prev_miss = prev_features ? &prev_features->miss : NULL; if (prev_features && table_instruction_features_equal(&features->nonmiss, prev_nonmiss) && table_instruction_features_equal(&features->miss, prev_miss)) { if (!table_instruction_features_empty(&features->nonmiss)) { ds_put_cstr(s, " (same instructions)\n"); } } else if (!table_instruction_features_equal(&features->nonmiss, &features->miss)) { ds_put_cstr(s, " instructions (other than table miss):\n"); print_table_instruction_features(s, &features->nonmiss, prev_nonmiss); ds_put_cstr(s, " instructions (table miss):\n"); print_table_instruction_features(s, &features->miss, prev_miss); } else if (!table_instruction_features_empty(&features->nonmiss)) { ds_put_cstr(s, " instructions (table miss and others):\n"); print_table_instruction_features(s, &features->nonmiss, prev_nonmiss); } if (!bitmap_is_all_zeros(features->match.bm, MFF_N_IDS)) { if (prev_features && bitmap_equal(features->match.bm, prev_features->match.bm, MFF_N_IDS)) { ds_put_cstr(s, " (same matching)\n"); } else { ds_put_cstr(s, " matching:\n"); BITMAP_FOR_EACH_1 (i, MFF_N_IDS, features->match.bm) { const struct mf_field *f = mf_from_id(i); bool mask = bitmap_is_set(features->mask.bm, i); bool wildcard = bitmap_is_set(features->wildcard.bm, i); ds_put_format(s, " %s: %s\n", f->name, (mask ? "arbitrary mask" : wildcard ? "exact match or wildcard" : "must exact match")); } } } } static void ofp_print_table_features_reply(struct ds *s, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); struct ofputil_table_features prev; for (int i = 0; ; i++) { struct ofputil_table_features tf; int retval; retval = ofputil_decode_table_features(&b, &tf, true); if (retval) { if (retval != EOF) { ofp_print_error(s, retval); } return; } ds_put_char(s, '\n'); ofp_print_table_features(s, &tf, i ? &prev : NULL, NULL, NULL); prev = tf; } } static void ofp_print_table_desc_reply(struct ds *s, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_table_desc td; int retval; retval = ofputil_decode_table_desc(&b, &td, oh->version); if (retval) { if (retval != EOF) { ofp_print_error(s, retval); } return; } ofp_print_table_desc(s, &td); } } static const char * bundle_flags_to_name(uint32_t bit) { switch (bit) { case OFPBF_ATOMIC: return "atomic"; case OFPBF_ORDERED: return "ordered"; default: return NULL; } } static void ofp_print_bundle_ctrl(struct ds *s, const struct ofp_header *oh) { int error; struct ofputil_bundle_ctrl_msg bctrl; error = ofputil_decode_bundle_ctrl(oh, &bctrl); if (error) { ofp_print_error(s, error); return; } ds_put_char(s, '\n'); ds_put_format(s, " bundle_id=%#"PRIx32" type=", bctrl.bundle_id); switch (bctrl.type) { case OFPBCT_OPEN_REQUEST: ds_put_cstr(s, "OPEN_REQUEST"); break; case OFPBCT_OPEN_REPLY: ds_put_cstr(s, "OPEN_REPLY"); break; case OFPBCT_CLOSE_REQUEST: ds_put_cstr(s, "CLOSE_REQUEST"); break; case OFPBCT_CLOSE_REPLY: ds_put_cstr(s, "CLOSE_REPLY"); break; case OFPBCT_COMMIT_REQUEST: ds_put_cstr(s, "COMMIT_REQUEST"); break; case OFPBCT_COMMIT_REPLY: ds_put_cstr(s, "COMMIT_REPLY"); break; case OFPBCT_DISCARD_REQUEST: ds_put_cstr(s, "DISCARD_REQUEST"); break; case OFPBCT_DISCARD_REPLY: ds_put_cstr(s, "DISCARD_REPLY"); break; } ds_put_cstr(s, " flags="); ofp_print_bit_names(s, bctrl.flags, bundle_flags_to_name, ' '); } static void ofp_print_bundle_add(struct ds *s, const struct ofp_header *oh, int verbosity) { int error; struct ofputil_bundle_add_msg badd; error = ofputil_decode_bundle_add(oh, &badd, NULL); if (error) { ofp_print_error(s, error); return; } ds_put_char(s, '\n'); ds_put_format(s, " bundle_id=%#"PRIx32, badd.bundle_id); ds_put_cstr(s, " flags="); ofp_print_bit_names(s, badd.flags, bundle_flags_to_name, ' '); ds_put_char(s, '\n'); char *msg = ofp_to_string(badd.msg, ntohs(badd.msg->length), verbosity); ds_put_and_free_cstr(s, msg); } static void print_tlv_table(struct ds *s, struct ovs_list *mappings) { struct ofputil_tlv_map *map; ds_put_cstr(s, " mapping table:\n"); ds_put_cstr(s, " class\ttype\tlength\tmatch field\n"); ds_put_cstr(s, " -----\t----\t------\t-----------"); LIST_FOR_EACH (map, list_node, mappings) { ds_put_char(s, '\n'); ds_put_format(s, " 0x%"PRIx16"\t0x%"PRIx8"\t%"PRIu8"\ttun_metadata%"PRIu16, map->option_class, map->option_type, map->option_len, map->index); } } static void ofp_print_tlv_table_mod(struct ds *s, const struct ofp_header *oh) { int error; struct ofputil_tlv_table_mod ttm; error = ofputil_decode_tlv_table_mod(oh, &ttm); if (error) { ofp_print_error(s, error); return; } ds_put_cstr(s, "\n "); switch (ttm.command) { case NXTTMC_ADD: ds_put_cstr(s, "ADD"); break; case NXTTMC_DELETE: ds_put_cstr(s, "DEL"); break; case NXTTMC_CLEAR: ds_put_cstr(s, "CLEAR"); break; } if (ttm.command != NXTTMC_CLEAR) { print_tlv_table(s, &ttm.mappings); } ofputil_uninit_tlv_table(&ttm.mappings); } static void ofp_print_tlv_table_reply(struct ds *s, const struct ofp_header *oh) { int error; struct ofputil_tlv_table_reply ttr; struct ofputil_tlv_map *map; int allocated_space = 0; error = ofputil_decode_tlv_table_reply(oh, &ttr); if (error) { ofp_print_error(s, error); return; } ds_put_char(s, '\n'); LIST_FOR_EACH (map, list_node, &ttr.mappings) { allocated_space += map->option_len; } ds_put_format(s, " max option space=%"PRIu32" max fields=%"PRIu16"\n", ttr.max_option_space, ttr.max_fields); ds_put_format(s, " allocated option space=%d\n", allocated_space); ds_put_char(s, '\n'); print_tlv_table(s, &ttr.mappings); ofputil_uninit_tlv_table(&ttr.mappings); } /* This function will print the request forward message. The reason for * request forward is taken from rf.request.type */ static void ofp_print_requestforward(struct ds *string, const struct ofp_header *oh) { struct ofputil_requestforward rf; enum ofperr error; error = ofputil_decode_requestforward(oh, &rf); if (error) { ofp_print_error(string, error); return; } ds_put_cstr(string, " reason="); switch (rf.reason) { case OFPRFR_GROUP_MOD: ds_put_cstr(string, "group_mod"); ofp_print_group_mod__(string, oh->version, rf.group_mod); break; case OFPRFR_METER_MOD: ds_put_cstr(string, "meter_mod"); ofp_print_meter_mod__(string, rf.meter_mod); break; case OFPRFR_N_REASONS: OVS_NOT_REACHED(); } ofputil_destroy_requestforward(&rf); } static void print_ipfix_stat(struct ds *string, const char *leader, uint64_t stat, int more) { ds_put_cstr(string, leader); if (stat != UINT64_MAX) { ds_put_format(string, "%"PRIu64, stat); } else { ds_put_char(string, '?'); } if (more) { ds_put_cstr(string, ", "); } else { ds_put_cstr(string, "\n"); } } static void ofp_print_nxst_ipfix_bridge_reply(struct ds *string, const struct ofp_header *oh) { struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_ipfix_stats is; int retval; retval = ofputil_pull_ipfix_stats(&is, &b); if (retval) { if (retval != EOF) { ds_put_cstr(string, " ***parse error***"); } return; } ds_put_cstr(string, "\n bridge ipfix: "); print_ipfix_stat(string, "flows=", is.total_flows, 1); print_ipfix_stat(string, "current flows=", is.current_flows, 1); print_ipfix_stat(string, "sampled pkts=", is.pkts, 1); print_ipfix_stat(string, "ipv4 ok=", is.ipv4_pkts, 1); print_ipfix_stat(string, "ipv6 ok=", is.ipv6_pkts, 1); print_ipfix_stat(string, "tx pkts=", is.tx_pkts, 0); ds_put_cstr(string, " "); print_ipfix_stat(string, "pkts errs=", is.error_pkts, 1); print_ipfix_stat(string, "ipv4 errs=", is.ipv4_error_pkts, 1); print_ipfix_stat(string, "ipv6 errs=", is.ipv6_error_pkts, 1); print_ipfix_stat(string, "tx errs=", is.tx_errors, 0); } } static void ofp_print_nxst_ipfix_flow_reply(struct ds *string, const struct ofp_header *oh) { ds_put_format(string, " %"PRIuSIZE" ids\n", ofputil_count_ipfix_stats(oh)); struct ofpbuf b = ofpbuf_const_initializer(oh, ntohs(oh->length)); for (;;) { struct ofputil_ipfix_stats is; int retval; retval = ofputil_pull_ipfix_stats(&is, &b); if (retval) { if (retval != EOF) { ds_put_cstr(string, " ***parse error***"); } return; } ds_put_cstr(string, " id"); ds_put_format(string, " %3"PRIuSIZE": ", (size_t) is.collector_set_id); print_ipfix_stat(string, "flows=", is.total_flows, 1); print_ipfix_stat(string, "current flows=", is.current_flows, 1); print_ipfix_stat(string, "sampled pkts=", is.pkts, 1); print_ipfix_stat(string, "ipv4 ok=", is.ipv4_pkts, 1); print_ipfix_stat(string, "ipv6 ok=", is.ipv6_pkts, 1); print_ipfix_stat(string, "tx pkts=", is.tx_pkts, 0); ds_put_cstr(string, " "); print_ipfix_stat(string, "pkts errs=", is.error_pkts, 1); print_ipfix_stat(string, "ipv4 errs=", is.ipv4_error_pkts, 1); print_ipfix_stat(string, "ipv6 errs=", is.ipv6_error_pkts, 1); print_ipfix_stat(string, "tx errs=", is.tx_errors, 0); } } static void ofp_to_string__(const struct ofp_header *oh, enum ofpraw raw, struct ds *string, int verbosity) { const void *msg = oh; ofp_header_to_string__(oh, raw, string); enum ofptype type = ofptype_from_ofpraw(raw); switch (type) { case OFPTYPE_GROUP_STATS_REQUEST: ofp_print_stats(string, oh); ofp_print_ofpst_group_request(string, oh); break; case OFPTYPE_GROUP_STATS_REPLY: ofp_print_group_stats(string, oh); break; case OFPTYPE_GROUP_DESC_STATS_REQUEST: ofp_print_stats(string, oh); ofp_print_ofpst_group_desc_request(string, oh); break; case OFPTYPE_GROUP_DESC_STATS_REPLY: ofp_print_group_desc(string, oh); break; case OFPTYPE_GROUP_FEATURES_STATS_REQUEST: ofp_print_stats(string, oh); break; case OFPTYPE_GROUP_FEATURES_STATS_REPLY: ofp_print_group_features(string, oh); break; case OFPTYPE_GROUP_MOD: ofp_print_group_mod(string, oh); break; case OFPTYPE_TABLE_FEATURES_STATS_REQUEST: case OFPTYPE_TABLE_FEATURES_STATS_REPLY: ofp_print_table_features_reply(string, oh); break; case OFPTYPE_TABLE_DESC_REQUEST: case OFPTYPE_TABLE_DESC_REPLY: ofp_print_table_desc_reply(string, oh); break; case OFPTYPE_HELLO: ofp_print_hello(string, oh); break; case OFPTYPE_ERROR: ofp_print_error_msg(string, oh); break; case OFPTYPE_ECHO_REQUEST: case OFPTYPE_ECHO_REPLY: ofp_print_echo(string, oh, verbosity); break; case OFPTYPE_FEATURES_REQUEST: break; case OFPTYPE_FEATURES_REPLY: ofp_print_switch_features(string, oh); break; case OFPTYPE_GET_CONFIG_REQUEST: break; case OFPTYPE_GET_CONFIG_REPLY: ofp_print_get_config_reply(string, oh); break; case OFPTYPE_SET_CONFIG: ofp_print_set_config(string, oh); break; case OFPTYPE_PACKET_IN: ofp_print_packet_in(string, oh, verbosity); break; case OFPTYPE_FLOW_REMOVED: ofp_print_flow_removed(string, oh); break; case OFPTYPE_PORT_STATUS: ofp_print_port_status(string, oh); break; case OFPTYPE_PACKET_OUT: ofp_print_packet_out(string, oh, verbosity); break; case OFPTYPE_FLOW_MOD: ofp_print_flow_mod(string, oh, verbosity); break; case OFPTYPE_PORT_MOD: ofp_print_port_mod(string, oh); break; case OFPTYPE_TABLE_MOD: ofp_print_table_mod(string, oh); break; case OFPTYPE_METER_MOD: ofp_print_meter_mod(string, oh); break; case OFPTYPE_BARRIER_REQUEST: case OFPTYPE_BARRIER_REPLY: break; case OFPTYPE_QUEUE_GET_CONFIG_REQUEST: ofp_print_queue_get_config_request(string, oh); break; case OFPTYPE_QUEUE_GET_CONFIG_REPLY: ofp_print_queue_get_config_reply(string, oh); break; case OFPTYPE_ROLE_REQUEST: case OFPTYPE_ROLE_REPLY: ofp_print_role_message(string, oh); break; case OFPTYPE_ROLE_STATUS: ofp_print_role_status_message(string, oh); break; case OFPTYPE_REQUESTFORWARD: ofp_print_requestforward(string, oh); break; case OFPTYPE_TABLE_STATUS: ofp_print_table_status_message(string, oh); break; case OFPTYPE_METER_STATS_REQUEST: case OFPTYPE_METER_CONFIG_STATS_REQUEST: ofp_print_stats(string, oh); ofp_print_meter_stats_request(string, oh); break; case OFPTYPE_METER_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_meter_stats_reply(string, oh); break; case OFPTYPE_METER_CONFIG_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_meter_config_reply(string, oh); break; case OFPTYPE_METER_FEATURES_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_meter_features_reply(string, oh); break; case OFPTYPE_DESC_STATS_REQUEST: case OFPTYPE_METER_FEATURES_STATS_REQUEST: ofp_print_stats(string, oh); break; case OFPTYPE_FLOW_STATS_REQUEST: case OFPTYPE_AGGREGATE_STATS_REQUEST: ofp_print_stats(string, oh); ofp_print_flow_stats_request(string, oh); break; case OFPTYPE_TABLE_STATS_REQUEST: ofp_print_stats(string, oh); break; case OFPTYPE_PORT_STATS_REQUEST: ofp_print_stats(string, oh); ofp_print_ofpst_port_request(string, oh); break; case OFPTYPE_QUEUE_STATS_REQUEST: ofp_print_stats(string, oh); ofp_print_ofpst_queue_request(string, oh); break; case OFPTYPE_DESC_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_ofpst_desc_reply(string, oh); break; case OFPTYPE_FLOW_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_flow_stats_reply(string, oh); break; case OFPTYPE_QUEUE_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_ofpst_queue_reply(string, oh, verbosity); break; case OFPTYPE_PORT_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_ofpst_port_reply(string, oh, verbosity); break; case OFPTYPE_TABLE_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_table_stats_reply(string, oh); break; case OFPTYPE_AGGREGATE_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_aggregate_stats_reply(string, oh); break; case OFPTYPE_PORT_DESC_STATS_REQUEST: ofp_print_stats(string, oh); ofp_print_ofpst_port_desc_request(string, oh); break; case OFPTYPE_PORT_DESC_STATS_REPLY: ofp_print_stats(string, oh); ofp_print_ofpst_port_desc_reply(string, oh); break; case OFPTYPE_FLOW_MOD_TABLE_ID: ofp_print_nxt_flow_mod_table_id(string, ofpmsg_body(oh)); break; case OFPTYPE_SET_FLOW_FORMAT: ofp_print_nxt_set_flow_format(string, ofpmsg_body(oh)); break; case OFPTYPE_SET_PACKET_IN_FORMAT: ofp_print_nxt_set_packet_in_format(string, ofpmsg_body(oh)); break; case OFPTYPE_FLOW_AGE: break; case OFPTYPE_SET_CONTROLLER_ID: ofp_print_nxt_set_controller_id(string, ofpmsg_body(oh)); break; case OFPTYPE_GET_ASYNC_REPLY: case OFPTYPE_SET_ASYNC_CONFIG: ofp_print_set_async_config(string, oh, type); break; case OFPTYPE_GET_ASYNC_REQUEST: break; case OFPTYPE_FLOW_MONITOR_CANCEL: ofp_print_nxt_flow_monitor_cancel(string, msg); break; case OFPTYPE_FLOW_MONITOR_PAUSED: case OFPTYPE_FLOW_MONITOR_RESUMED: break; case OFPTYPE_FLOW_MONITOR_STATS_REQUEST: ofp_print_nxst_flow_monitor_request(string, msg); break; case OFPTYPE_FLOW_MONITOR_STATS_REPLY: ofp_print_nxst_flow_monitor_reply(string, msg); break; case OFPTYPE_BUNDLE_CONTROL: ofp_print_bundle_ctrl(string, msg); break; case OFPTYPE_BUNDLE_ADD_MESSAGE: ofp_print_bundle_add(string, msg, verbosity); break; case OFPTYPE_NXT_TLV_TABLE_MOD: ofp_print_tlv_table_mod(string, msg); break; case OFPTYPE_NXT_TLV_TABLE_REQUEST: break; case OFPTYPE_NXT_TLV_TABLE_REPLY: ofp_print_tlv_table_reply(string, msg); break; case OFPTYPE_NXT_RESUME: ofp_print_packet_in(string, msg, verbosity); break; case OFPTYPE_IPFIX_BRIDGE_STATS_REQUEST: break; case OFPTYPE_IPFIX_BRIDGE_STATS_REPLY: ofp_print_nxst_ipfix_bridge_reply(string, oh); break; case OFPTYPE_IPFIX_FLOW_STATS_REQUEST: break; case OFPTYPE_IPFIX_FLOW_STATS_REPLY: ofp_print_nxst_ipfix_flow_reply(string, oh); break; } } /* Composes and returns a string representing the OpenFlow packet of 'len' * bytes at 'oh' at the given 'verbosity' level. 0 is a minimal amount of * verbosity and higher numbers increase verbosity. The caller is responsible * for freeing the string. */ char * ofp_to_string(const void *oh_, size_t len, int verbosity) { struct ds string = DS_EMPTY_INITIALIZER; const struct ofp_header *oh = oh_; if (!len) { ds_put_cstr(&string, "OpenFlow message is empty\n"); } else if (len < sizeof(struct ofp_header)) { ds_put_format(&string, "OpenFlow packet too short (only %"PRIuSIZE" bytes):\n", len); } else if (ntohs(oh->length) > len) { enum ofperr error; enum ofpraw raw; error = ofpraw_decode_partial(&raw, oh, len); if (!error) { ofp_header_to_string__(oh, raw, &string); ds_put_char(&string, '\n'); } ds_put_format(&string, "(***truncated to %"PRIuSIZE" bytes from %"PRIu16"***)\n", len, ntohs(oh->length)); } else if (ntohs(oh->length) < len) { ds_put_format(&string, "(***only uses %"PRIu16" bytes out of %"PRIuSIZE"***)\n", ntohs(oh->length), len); } else { enum ofperr error; enum ofpraw raw; error = ofpraw_decode(&raw, oh); if (!error) { ofp_to_string__(oh, raw, &string, verbosity); if (verbosity >= 5) { if (ds_last(&string) != '\n') { ds_put_char(&string, '\n'); } ds_put_hex_dump(&string, oh, len, 0, true); } if (ds_last(&string) != '\n') { ds_put_char(&string, '\n'); } return ds_steal_cstr(&string); } ofp_print_error(&string, error); } ds_put_hex_dump(&string, oh, len, 0, true); return ds_steal_cstr(&string); } static void print_and_free(FILE *stream, char *string) { fputs(string, stream); free(string); } /* Pretty-print the OpenFlow packet of 'len' bytes at 'oh' to 'stream' at the * given 'verbosity' level. 0 is a minimal amount of verbosity and higher * numbers increase verbosity. */ void ofp_print(FILE *stream, const void *oh, size_t len, int verbosity) { print_and_free(stream, ofp_to_string(oh, len, verbosity)); } /* Dumps the contents of the Ethernet frame in the 'len' bytes starting at * 'data' to 'stream'. */ void ofp_print_packet(FILE *stream, const void *data, size_t len) { print_and_free(stream, ofp_packet_to_string(data, len)); }