13c602fabSXin LI /** 23c602fabSXin LI * Copyright (c) 2012 33c602fabSXin LI * 43c602fabSXin LI * Gregory Detal <gregory.detal@uclouvain.be> 53c602fabSXin LI * Christoph Paasch <christoph.paasch@uclouvain.be> 63c602fabSXin LI * 73c602fabSXin LI * Redistribution and use in source and binary forms, with or without 83c602fabSXin LI * modification, are permitted provided that the following conditions 93c602fabSXin LI * are met: 103c602fabSXin LI * 113c602fabSXin LI * 1. Redistributions of source code must retain the above copyright 123c602fabSXin LI * notice, this list of conditions and the following disclaimer. 133c602fabSXin LI * 143c602fabSXin LI * 2. Redistributions in binary form must reproduce the above copyright 153c602fabSXin LI * notice, this list of conditions and the following disclaimer in the 163c602fabSXin LI * documentation and/or other materials provided with the distribution. 173c602fabSXin LI * 183c602fabSXin LI * 3. Neither the name of the University nor of the Laboratory may be used 193c602fabSXin LI * to endorse or promote products derived from this software without 203c602fabSXin LI * specific prior written permission. 213c602fabSXin LI * 223c602fabSXin LI * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 233c602fabSXin LI * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 243c602fabSXin LI * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 253c602fabSXin LI * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 263c602fabSXin LI * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 273c602fabSXin LI * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 283c602fabSXin LI * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 293c602fabSXin LI * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 303c602fabSXin LI * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 313c602fabSXin LI * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 323c602fabSXin LI * SUCH DAMAGE. 333c602fabSXin LI */ 343c602fabSXin LI 353340d773SGleb Smirnoff /* \summary: Multipath TCP (MPTCP) printer */ 363340d773SGleb Smirnoff 373340d773SGleb Smirnoff /* specification: RFC 6824 */ 383340d773SGleb Smirnoff 39*ee67461eSJoseph Mingrone #include <config.h> 403c602fabSXin LI 41*ee67461eSJoseph Mingrone #include "netdissect-stdinc.h" 423c602fabSXin LI 433340d773SGleb Smirnoff #include "netdissect.h" 443c602fabSXin LI #include "extract.h" 453c602fabSXin LI #include "addrtoname.h" 463c602fabSXin LI 473c602fabSXin LI #include "tcp.h" 483c602fabSXin LI 493c602fabSXin LI #define MPTCP_SUB_CAPABLE 0x0 503c602fabSXin LI #define MPTCP_SUB_JOIN 0x1 513c602fabSXin LI #define MPTCP_SUB_DSS 0x2 523c602fabSXin LI #define MPTCP_SUB_ADD_ADDR 0x3 533c602fabSXin LI #define MPTCP_SUB_REMOVE_ADDR 0x4 543c602fabSXin LI #define MPTCP_SUB_PRIO 0x5 553c602fabSXin LI #define MPTCP_SUB_FAIL 0x6 563c602fabSXin LI #define MPTCP_SUB_FCLOSE 0x7 573c602fabSXin LI 583c602fabSXin LI struct mptcp_option { 59*ee67461eSJoseph Mingrone nd_uint8_t kind; 60*ee67461eSJoseph Mingrone nd_uint8_t len; 61*ee67461eSJoseph Mingrone nd_uint8_t sub_etc; /* subtype upper 4 bits, other stuff lower 4 bits */ 623c602fabSXin LI }; 633c602fabSXin LI 643c602fabSXin LI #define MPTCP_OPT_SUBTYPE(sub_etc) (((sub_etc) >> 4) & 0xF) 653c602fabSXin LI 663c602fabSXin LI struct mp_capable { 67*ee67461eSJoseph Mingrone nd_uint8_t kind; 68*ee67461eSJoseph Mingrone nd_uint8_t len; 69*ee67461eSJoseph Mingrone nd_uint8_t sub_ver; 70*ee67461eSJoseph Mingrone nd_uint8_t flags; 71*ee67461eSJoseph Mingrone nd_uint64_t sender_key; 72*ee67461eSJoseph Mingrone nd_uint64_t receiver_key; 733c602fabSXin LI }; 743c602fabSXin LI 753c602fabSXin LI #define MP_CAPABLE_OPT_VERSION(sub_ver) (((sub_ver) >> 0) & 0xF) 763c602fabSXin LI #define MP_CAPABLE_C 0x80 773c602fabSXin LI #define MP_CAPABLE_S 0x01 783c602fabSXin LI 793c602fabSXin LI struct mp_join { 80*ee67461eSJoseph Mingrone nd_uint8_t kind; 81*ee67461eSJoseph Mingrone nd_uint8_t len; 82*ee67461eSJoseph Mingrone nd_uint8_t sub_b; 83*ee67461eSJoseph Mingrone nd_uint8_t addr_id; 843c602fabSXin LI union { 853c602fabSXin LI struct { 86*ee67461eSJoseph Mingrone nd_uint32_t token; 87*ee67461eSJoseph Mingrone nd_uint32_t nonce; 883c602fabSXin LI } syn; 893c602fabSXin LI struct { 90*ee67461eSJoseph Mingrone nd_uint64_t mac; 91*ee67461eSJoseph Mingrone nd_uint32_t nonce; 923c602fabSXin LI } synack; 933c602fabSXin LI struct { 94*ee67461eSJoseph Mingrone nd_byte mac[20]; 953c602fabSXin LI } ack; 963c602fabSXin LI } u; 973c602fabSXin LI }; 983c602fabSXin LI 993c602fabSXin LI #define MP_JOIN_B 0x01 1003c602fabSXin LI 1013c602fabSXin LI struct mp_dss { 102*ee67461eSJoseph Mingrone nd_uint8_t kind; 103*ee67461eSJoseph Mingrone nd_uint8_t len; 104*ee67461eSJoseph Mingrone nd_uint8_t sub; 105*ee67461eSJoseph Mingrone nd_uint8_t flags; 1063c602fabSXin LI }; 1073c602fabSXin LI 1083c602fabSXin LI #define MP_DSS_F 0x10 1093c602fabSXin LI #define MP_DSS_m 0x08 1103c602fabSXin LI #define MP_DSS_M 0x04 1113c602fabSXin LI #define MP_DSS_a 0x02 1123c602fabSXin LI #define MP_DSS_A 0x01 1133c602fabSXin LI 114*ee67461eSJoseph Mingrone static const struct tok mptcp_addr_subecho_bits[] = { 115*ee67461eSJoseph Mingrone { 0x6, "v0-ip6" }, 116*ee67461eSJoseph Mingrone { 0x4, "v0-ip4" }, 117*ee67461eSJoseph Mingrone { 0x1, "v1-echo" }, 118*ee67461eSJoseph Mingrone { 0x0, "v1" }, 119*ee67461eSJoseph Mingrone { 0, NULL } 120*ee67461eSJoseph Mingrone }; 121*ee67461eSJoseph Mingrone 1223c602fabSXin LI struct mp_add_addr { 123*ee67461eSJoseph Mingrone nd_uint8_t kind; 124*ee67461eSJoseph Mingrone nd_uint8_t len; 125*ee67461eSJoseph Mingrone nd_uint8_t sub_echo; 126*ee67461eSJoseph Mingrone nd_uint8_t addr_id; 1273c602fabSXin LI union { 1283c602fabSXin LI struct { 129*ee67461eSJoseph Mingrone nd_ipv4 addr; 130*ee67461eSJoseph Mingrone nd_uint16_t port; 131*ee67461eSJoseph Mingrone nd_uint64_t mac; 1323c602fabSXin LI } v4; 1333c602fabSXin LI struct { 134*ee67461eSJoseph Mingrone nd_ipv4 addr; 135*ee67461eSJoseph Mingrone nd_uint64_t mac; 136*ee67461eSJoseph Mingrone } v4np; 137*ee67461eSJoseph Mingrone struct { 138*ee67461eSJoseph Mingrone nd_ipv6 addr; 139*ee67461eSJoseph Mingrone nd_uint16_t port; 140*ee67461eSJoseph Mingrone nd_uint64_t mac; 1413c602fabSXin LI } v6; 142*ee67461eSJoseph Mingrone struct { 143*ee67461eSJoseph Mingrone nd_ipv6 addr; 144*ee67461eSJoseph Mingrone nd_uint64_t mac; 145*ee67461eSJoseph Mingrone } v6np; 1463c602fabSXin LI } u; 1473c602fabSXin LI }; 1483c602fabSXin LI 1493c602fabSXin LI struct mp_remove_addr { 150*ee67461eSJoseph Mingrone nd_uint8_t kind; 151*ee67461eSJoseph Mingrone nd_uint8_t len; 152*ee67461eSJoseph Mingrone nd_uint8_t sub; 1533c602fabSXin LI /* list of addr_id */ 154*ee67461eSJoseph Mingrone nd_uint8_t addrs_id[1]; 1553c602fabSXin LI }; 1563c602fabSXin LI 1573c602fabSXin LI struct mp_fail { 158*ee67461eSJoseph Mingrone nd_uint8_t kind; 159*ee67461eSJoseph Mingrone nd_uint8_t len; 160*ee67461eSJoseph Mingrone nd_uint8_t sub; 161*ee67461eSJoseph Mingrone nd_uint8_t resv; 162*ee67461eSJoseph Mingrone nd_uint64_t data_seq; 1633c602fabSXin LI }; 1643c602fabSXin LI 1653c602fabSXin LI struct mp_close { 166*ee67461eSJoseph Mingrone nd_uint8_t kind; 167*ee67461eSJoseph Mingrone nd_uint8_t len; 168*ee67461eSJoseph Mingrone nd_uint8_t sub; 169*ee67461eSJoseph Mingrone nd_uint8_t rsv; 170*ee67461eSJoseph Mingrone nd_byte key[8]; 1713c602fabSXin LI }; 1723c602fabSXin LI 1733c602fabSXin LI struct mp_prio { 174*ee67461eSJoseph Mingrone nd_uint8_t kind; 175*ee67461eSJoseph Mingrone nd_uint8_t len; 176*ee67461eSJoseph Mingrone nd_uint8_t sub_b; 177*ee67461eSJoseph Mingrone nd_uint8_t addr_id; 1783c602fabSXin LI }; 1793c602fabSXin LI 1803c602fabSXin LI #define MP_PRIO_B 0x01 1813c602fabSXin LI 1823c602fabSXin LI static int 1833c602fabSXin LI dummy_print(netdissect_options *ndo _U_, 1843c602fabSXin LI const u_char *opt _U_, u_int opt_len _U_, u_char flags _U_) 1853c602fabSXin LI { 1863c602fabSXin LI return 1; 1873c602fabSXin LI } 1883c602fabSXin LI 1893c602fabSXin LI static int 1903c602fabSXin LI mp_capable_print(netdissect_options *ndo, 1913c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags) 1923c602fabSXin LI { 1933340d773SGleb Smirnoff const struct mp_capable *mpc = (const struct mp_capable *) opt; 194*ee67461eSJoseph Mingrone uint8_t version; 1953c602fabSXin LI 196*ee67461eSJoseph Mingrone if (!((opt_len == 12 || opt_len == 4) && flags & TH_SYN) && 197*ee67461eSJoseph Mingrone !((opt_len == 20 || opt_len == 22) && (flags & (TH_SYN | TH_ACK)) == 198*ee67461eSJoseph Mingrone TH_ACK)) 1993c602fabSXin LI return 0; 2003c602fabSXin LI 201*ee67461eSJoseph Mingrone version = MP_CAPABLE_OPT_VERSION(GET_U_1(mpc->sub_ver)); 202*ee67461eSJoseph Mingrone switch (version) { 203*ee67461eSJoseph Mingrone case 0: /* fall through */ 204*ee67461eSJoseph Mingrone case 1: 205*ee67461eSJoseph Mingrone ND_PRINT(" v%u", version); 206*ee67461eSJoseph Mingrone break; 207*ee67461eSJoseph Mingrone default: 208*ee67461eSJoseph Mingrone ND_PRINT(" Unknown Version (%u)", version); 2093c602fabSXin LI return 1; 2103c602fabSXin LI } 2113c602fabSXin LI 212*ee67461eSJoseph Mingrone if (GET_U_1(mpc->flags) & MP_CAPABLE_C) 213*ee67461eSJoseph Mingrone ND_PRINT(" csum"); 214*ee67461eSJoseph Mingrone if (opt_len == 12 || opt_len >= 20) { 215*ee67461eSJoseph Mingrone ND_PRINT(" {0x%" PRIx64, GET_BE_U_8(mpc->sender_key)); 216*ee67461eSJoseph Mingrone if (opt_len >= 20) 217*ee67461eSJoseph Mingrone ND_PRINT(",0x%" PRIx64, GET_BE_U_8(mpc->receiver_key)); 218*ee67461eSJoseph Mingrone ND_PRINT("}"); 219*ee67461eSJoseph Mingrone } 2203c602fabSXin LI return 1; 2213c602fabSXin LI } 2223c602fabSXin LI 2233c602fabSXin LI static int 2243c602fabSXin LI mp_join_print(netdissect_options *ndo, 2253c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags) 2263c602fabSXin LI { 2273340d773SGleb Smirnoff const struct mp_join *mpj = (const struct mp_join *) opt; 2283c602fabSXin LI 2290bff6a5aSEd Maste if (!(opt_len == 12 && (flags & TH_SYN)) && 2303c602fabSXin LI !(opt_len == 16 && (flags & (TH_SYN | TH_ACK)) == (TH_SYN | TH_ACK)) && 2310bff6a5aSEd Maste !(opt_len == 24 && (flags & TH_ACK))) 2323c602fabSXin LI return 0; 2333c602fabSXin LI 2343c602fabSXin LI if (opt_len != 24) { 235*ee67461eSJoseph Mingrone if (GET_U_1(mpj->sub_b) & MP_JOIN_B) 236*ee67461eSJoseph Mingrone ND_PRINT(" backup"); 237*ee67461eSJoseph Mingrone ND_PRINT(" id %u", GET_U_1(mpj->addr_id)); 2383c602fabSXin LI } 2393c602fabSXin LI 2403c602fabSXin LI switch (opt_len) { 2413c602fabSXin LI case 12: /* SYN */ 242*ee67461eSJoseph Mingrone ND_PRINT(" token 0x%x" " nonce 0x%x", 243*ee67461eSJoseph Mingrone GET_BE_U_4(mpj->u.syn.token), 244*ee67461eSJoseph Mingrone GET_BE_U_4(mpj->u.syn.nonce)); 2453c602fabSXin LI break; 2463c602fabSXin LI case 16: /* SYN/ACK */ 247*ee67461eSJoseph Mingrone ND_PRINT(" hmac 0x%" PRIx64 " nonce 0x%x", 248*ee67461eSJoseph Mingrone GET_BE_U_8(mpj->u.synack.mac), 249*ee67461eSJoseph Mingrone GET_BE_U_4(mpj->u.synack.nonce)); 2503c602fabSXin LI break; 2513c602fabSXin LI case 24: {/* ACK */ 2523c602fabSXin LI size_t i; 253*ee67461eSJoseph Mingrone ND_PRINT(" hmac 0x"); 2543c602fabSXin LI for (i = 0; i < sizeof(mpj->u.ack.mac); ++i) 255*ee67461eSJoseph Mingrone ND_PRINT("%02x", mpj->u.ack.mac[i]); 2563c602fabSXin LI } 2573c602fabSXin LI default: 2583c602fabSXin LI break; 2593c602fabSXin LI } 2603c602fabSXin LI return 1; 2613c602fabSXin LI } 2623c602fabSXin LI 2633c602fabSXin LI static int 2643c602fabSXin LI mp_dss_print(netdissect_options *ndo, 2653c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags) 2663c602fabSXin LI { 2673340d773SGleb Smirnoff const struct mp_dss *mdss = (const struct mp_dss *) opt; 268*ee67461eSJoseph Mingrone uint8_t mdss_flags; 2693c602fabSXin LI 2700bff6a5aSEd Maste /* We need the flags, at a minimum. */ 2710bff6a5aSEd Maste if (opt_len < 4) 2720bff6a5aSEd Maste return 0; 2730bff6a5aSEd Maste 2740bff6a5aSEd Maste if (flags & TH_SYN) 2753c602fabSXin LI return 0; 2763c602fabSXin LI 277*ee67461eSJoseph Mingrone mdss_flags = GET_U_1(mdss->flags); 278*ee67461eSJoseph Mingrone if (mdss_flags & MP_DSS_F) 279*ee67461eSJoseph Mingrone ND_PRINT(" fin"); 2803c602fabSXin LI 2813c602fabSXin LI opt += 4; 2820bff6a5aSEd Maste opt_len -= 4; 283*ee67461eSJoseph Mingrone if (mdss_flags & MP_DSS_A) { 2840bff6a5aSEd Maste /* Ack present */ 285*ee67461eSJoseph Mingrone ND_PRINT(" ack "); 2860bff6a5aSEd Maste /* 2870bff6a5aSEd Maste * If the a flag is set, we have an 8-byte ack; if it's 2880bff6a5aSEd Maste * clear, we have a 4-byte ack. 2890bff6a5aSEd Maste */ 290*ee67461eSJoseph Mingrone if (mdss_flags & MP_DSS_a) { 2910bff6a5aSEd Maste if (opt_len < 8) 2920bff6a5aSEd Maste return 0; 293*ee67461eSJoseph Mingrone ND_PRINT("%" PRIu64, GET_BE_U_8(opt)); 2943c602fabSXin LI opt += 8; 2950bff6a5aSEd Maste opt_len -= 8; 2963c602fabSXin LI } else { 2970bff6a5aSEd Maste if (opt_len < 4) 2980bff6a5aSEd Maste return 0; 299*ee67461eSJoseph Mingrone ND_PRINT("%u", GET_BE_U_4(opt)); 3003c602fabSXin LI opt += 4; 3010bff6a5aSEd Maste opt_len -= 4; 3023c602fabSXin LI } 3033c602fabSXin LI } 3043c602fabSXin LI 305*ee67461eSJoseph Mingrone if (mdss_flags & MP_DSS_M) { 3060bff6a5aSEd Maste /* 3070bff6a5aSEd Maste * Data Sequence Number (DSN), Subflow Sequence Number (SSN), 3080bff6a5aSEd Maste * Data-Level Length present, and Checksum possibly present. 3090bff6a5aSEd Maste */ 310*ee67461eSJoseph Mingrone ND_PRINT(" seq "); 3110bff6a5aSEd Maste /* 3120bff6a5aSEd Maste * If the m flag is set, we have an 8-byte NDS; if it's clear, 3130bff6a5aSEd Maste * we have a 4-byte DSN. 3140bff6a5aSEd Maste */ 315*ee67461eSJoseph Mingrone if (mdss_flags & MP_DSS_m) { 3160bff6a5aSEd Maste if (opt_len < 8) 3170bff6a5aSEd Maste return 0; 318*ee67461eSJoseph Mingrone ND_PRINT("%" PRIu64, GET_BE_U_8(opt)); 3193c602fabSXin LI opt += 8; 3200bff6a5aSEd Maste opt_len -= 8; 3213c602fabSXin LI } else { 3220bff6a5aSEd Maste if (opt_len < 4) 3230bff6a5aSEd Maste return 0; 324*ee67461eSJoseph Mingrone ND_PRINT("%u", GET_BE_U_4(opt)); 3253c602fabSXin LI opt += 4; 3260bff6a5aSEd Maste opt_len -= 4; 3273c602fabSXin LI } 3280bff6a5aSEd Maste if (opt_len < 4) 3290bff6a5aSEd Maste return 0; 330*ee67461eSJoseph Mingrone ND_PRINT(" subseq %u", GET_BE_U_4(opt)); 3313c602fabSXin LI opt += 4; 3320bff6a5aSEd Maste opt_len -= 4; 3330bff6a5aSEd Maste if (opt_len < 2) 3340bff6a5aSEd Maste return 0; 335*ee67461eSJoseph Mingrone ND_PRINT(" len %u", GET_BE_U_2(opt)); 3363c602fabSXin LI opt += 2; 3370bff6a5aSEd Maste opt_len -= 2; 3383c602fabSXin LI 3390bff6a5aSEd Maste /* 3400bff6a5aSEd Maste * The Checksum is present only if negotiated. 3410bff6a5aSEd Maste * If there are at least 2 bytes left, process the next 2 3420bff6a5aSEd Maste * bytes as the Checksum. 3430bff6a5aSEd Maste */ 3440bff6a5aSEd Maste if (opt_len >= 2) { 345*ee67461eSJoseph Mingrone ND_PRINT(" csum 0x%x", GET_BE_U_2(opt)); 3460bff6a5aSEd Maste opt_len -= 2; 3473c602fabSXin LI } 3480bff6a5aSEd Maste } 3490bff6a5aSEd Maste if (opt_len != 0) 3500bff6a5aSEd Maste return 0; 3513c602fabSXin LI return 1; 3523c602fabSXin LI } 3533c602fabSXin LI 3543c602fabSXin LI static int 3553c602fabSXin LI add_addr_print(netdissect_options *ndo, 3563c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags _U_) 3573c602fabSXin LI { 3583340d773SGleb Smirnoff const struct mp_add_addr *add_addr = (const struct mp_add_addr *) opt; 3593c602fabSXin LI 360*ee67461eSJoseph Mingrone if (!(opt_len == 8 || opt_len == 10 || opt_len == 16 || opt_len == 18 || 361*ee67461eSJoseph Mingrone opt_len == 20 || opt_len == 22 || opt_len == 28 || opt_len == 30)) 3623c602fabSXin LI return 0; 3633c602fabSXin LI 364*ee67461eSJoseph Mingrone ND_PRINT(" %s", 365*ee67461eSJoseph Mingrone tok2str(mptcp_addr_subecho_bits, "[bad version/echo]", 366*ee67461eSJoseph Mingrone GET_U_1(add_addr->sub_echo) & 0xF)); 367*ee67461eSJoseph Mingrone ND_PRINT(" id %u", GET_U_1(add_addr->addr_id)); 368*ee67461eSJoseph Mingrone if (opt_len == 8 || opt_len == 10 || opt_len == 16 || opt_len == 18) { 369*ee67461eSJoseph Mingrone ND_PRINT(" %s", GET_IPADDR_STRING(add_addr->u.v4.addr)); 370*ee67461eSJoseph Mingrone if (opt_len == 10 || opt_len == 18) 371*ee67461eSJoseph Mingrone ND_PRINT(":%u", GET_BE_U_2(add_addr->u.v4.port)); 372*ee67461eSJoseph Mingrone if (opt_len == 16) 373*ee67461eSJoseph Mingrone ND_PRINT(" hmac 0x%" PRIx64, GET_BE_U_8(add_addr->u.v4np.mac)); 374*ee67461eSJoseph Mingrone if (opt_len == 18) 375*ee67461eSJoseph Mingrone ND_PRINT(" hmac 0x%" PRIx64, GET_BE_U_8(add_addr->u.v4.mac)); 376*ee67461eSJoseph Mingrone } 377*ee67461eSJoseph Mingrone 378*ee67461eSJoseph Mingrone if (opt_len == 20 || opt_len == 22 || opt_len == 28 || opt_len == 30) { 379*ee67461eSJoseph Mingrone ND_PRINT(" %s", GET_IP6ADDR_STRING(add_addr->u.v6.addr)); 380*ee67461eSJoseph Mingrone if (opt_len == 22 || opt_len == 30) 381*ee67461eSJoseph Mingrone ND_PRINT(":%u", GET_BE_U_2(add_addr->u.v6.port)); 382*ee67461eSJoseph Mingrone if (opt_len == 28) 383*ee67461eSJoseph Mingrone ND_PRINT(" hmac 0x%" PRIx64, GET_BE_U_8(add_addr->u.v6np.mac)); 384*ee67461eSJoseph Mingrone if (opt_len == 30) 385*ee67461eSJoseph Mingrone ND_PRINT(" hmac 0x%" PRIx64, GET_BE_U_8(add_addr->u.v6.mac)); 3863c602fabSXin LI } 3873c602fabSXin LI 3883c602fabSXin LI return 1; 3893c602fabSXin LI } 3903c602fabSXin LI 3913c602fabSXin LI static int 3923c602fabSXin LI remove_addr_print(netdissect_options *ndo, 3933c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags _U_) 3943c602fabSXin LI { 3953340d773SGleb Smirnoff const struct mp_remove_addr *remove_addr = (const struct mp_remove_addr *) opt; 396*ee67461eSJoseph Mingrone u_int i; 3973c602fabSXin LI 3983c602fabSXin LI if (opt_len < 4) 3993c602fabSXin LI return 0; 4003c602fabSXin LI 4013c602fabSXin LI opt_len -= 3; 402*ee67461eSJoseph Mingrone ND_PRINT(" id"); 403*ee67461eSJoseph Mingrone for (i = 0; i < opt_len; i++) 404*ee67461eSJoseph Mingrone ND_PRINT(" %u", GET_U_1(remove_addr->addrs_id[i])); 4053c602fabSXin LI return 1; 4063c602fabSXin LI } 4073c602fabSXin LI 4083c602fabSXin LI static int 4093c602fabSXin LI mp_prio_print(netdissect_options *ndo, 4103c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags _U_) 4113c602fabSXin LI { 4123340d773SGleb Smirnoff const struct mp_prio *mpp = (const struct mp_prio *) opt; 4133c602fabSXin LI 4143c602fabSXin LI if (opt_len != 3 && opt_len != 4) 4153c602fabSXin LI return 0; 4163c602fabSXin LI 417*ee67461eSJoseph Mingrone if (GET_U_1(mpp->sub_b) & MP_PRIO_B) 418*ee67461eSJoseph Mingrone ND_PRINT(" backup"); 4193c602fabSXin LI else 420*ee67461eSJoseph Mingrone ND_PRINT(" non-backup"); 4213c602fabSXin LI if (opt_len == 4) 422*ee67461eSJoseph Mingrone ND_PRINT(" id %u", GET_U_1(mpp->addr_id)); 4233c602fabSXin LI 4243c602fabSXin LI return 1; 4253c602fabSXin LI } 4263c602fabSXin LI 4273c602fabSXin LI static int 4283c602fabSXin LI mp_fail_print(netdissect_options *ndo, 4293c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags _U_) 4303c602fabSXin LI { 4313c602fabSXin LI if (opt_len != 12) 4323c602fabSXin LI return 0; 4333c602fabSXin LI 434*ee67461eSJoseph Mingrone ND_PRINT(" seq %" PRIu64, GET_BE_U_8(opt + 4)); 4353c602fabSXin LI return 1; 4363c602fabSXin LI } 4373c602fabSXin LI 4383c602fabSXin LI static int 4393c602fabSXin LI mp_fast_close_print(netdissect_options *ndo, 4403c602fabSXin LI const u_char *opt, u_int opt_len, u_char flags _U_) 4413c602fabSXin LI { 4423c602fabSXin LI if (opt_len != 12) 4433c602fabSXin LI return 0; 4443c602fabSXin LI 445*ee67461eSJoseph Mingrone ND_PRINT(" key 0x%" PRIx64, GET_BE_U_8(opt + 4)); 4463c602fabSXin LI return 1; 4473c602fabSXin LI } 4483c602fabSXin LI 4493c602fabSXin LI static const struct { 4503c602fabSXin LI const char *name; 4513c602fabSXin LI int (*print)(netdissect_options *, const u_char *, u_int, u_char); 4523c602fabSXin LI } mptcp_options[] = { 4533c602fabSXin LI { "capable", mp_capable_print }, 4543c602fabSXin LI { "join", mp_join_print }, 4553c602fabSXin LI { "dss", mp_dss_print }, 4563c602fabSXin LI { "add-addr", add_addr_print }, 4573c602fabSXin LI { "rem-addr", remove_addr_print }, 4583c602fabSXin LI { "prio", mp_prio_print }, 4593c602fabSXin LI { "fail", mp_fail_print }, 4603c602fabSXin LI { "fast-close", mp_fast_close_print }, 4613c602fabSXin LI { "unknown", dummy_print }, 4623c602fabSXin LI }; 4633c602fabSXin LI 4643c602fabSXin LI int 4653c602fabSXin LI mptcp_print(netdissect_options *ndo, 4663c602fabSXin LI const u_char *cp, u_int len, u_char flags) 4673c602fabSXin LI { 4683340d773SGleb Smirnoff const struct mptcp_option *opt; 4693c602fabSXin LI u_int subtype; 4703c602fabSXin LI 471*ee67461eSJoseph Mingrone ndo->ndo_protocol = "mptcp"; 4723c602fabSXin LI if (len < 3) 4733c602fabSXin LI return 0; 4743c602fabSXin LI 4753340d773SGleb Smirnoff opt = (const struct mptcp_option *) cp; 476*ee67461eSJoseph Mingrone subtype = MPTCP_OPT_SUBTYPE(GET_U_1(opt->sub_etc)); 477*ee67461eSJoseph Mingrone subtype = ND_MIN(subtype, MPTCP_SUB_FCLOSE + 1); 4783c602fabSXin LI 479*ee67461eSJoseph Mingrone ND_PRINT(" %u", len); 480*ee67461eSJoseph Mingrone 481*ee67461eSJoseph Mingrone ND_PRINT(" %s", mptcp_options[subtype].name); 4823c602fabSXin LI return mptcp_options[subtype].print(ndo, cp, len, flags); 4833c602fabSXin LI } 484