npf_state_tcp.c revision 1.4.2.3
1 1.4.2.3 yamt /* $NetBSD: npf_state_tcp.c,v 1.4.2.3 2012/10/30 17:22:44 yamt Exp $ */ 2 1.4.2.2 yamt 3 1.4.2.2 yamt /*- 4 1.4.2.3 yamt * Copyright (c) 2010-2012 The NetBSD Foundation, Inc. 5 1.4.2.2 yamt * All rights reserved. 6 1.4.2.2 yamt * 7 1.4.2.2 yamt * This material is based upon work partially supported by The 8 1.4.2.2 yamt * NetBSD Foundation under a contract with Mindaugas Rasiukevicius. 9 1.4.2.2 yamt * 10 1.4.2.2 yamt * Redistribution and use in source and binary forms, with or without 11 1.4.2.2 yamt * modification, are permitted provided that the following conditions 12 1.4.2.2 yamt * are met: 13 1.4.2.2 yamt * 1. Redistributions of source code must retain the above copyright 14 1.4.2.2 yamt * notice, this list of conditions and the following disclaimer. 15 1.4.2.2 yamt * 2. Redistributions in binary form must reproduce the above copyright 16 1.4.2.2 yamt * notice, this list of conditions and the following disclaimer in the 17 1.4.2.2 yamt * documentation and/or other materials provided with the distribution. 18 1.4.2.2 yamt * 19 1.4.2.2 yamt * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.4.2.2 yamt * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.4.2.2 yamt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.4.2.2 yamt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.4.2.2 yamt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.4.2.2 yamt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.4.2.2 yamt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.4.2.2 yamt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.4.2.2 yamt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.4.2.2 yamt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.4.2.2 yamt * POSSIBILITY OF SUCH DAMAGE. 30 1.4.2.2 yamt */ 31 1.4.2.2 yamt 32 1.4.2.2 yamt /* 33 1.4.2.2 yamt * NPF TCP state engine for connection tracking. 34 1.4.2.2 yamt */ 35 1.4.2.2 yamt 36 1.4.2.2 yamt #include <sys/cdefs.h> 37 1.4.2.3 yamt __KERNEL_RCSID(0, "$NetBSD: npf_state_tcp.c,v 1.4.2.3 2012/10/30 17:22:44 yamt Exp $"); 38 1.4.2.2 yamt 39 1.4.2.2 yamt #include <sys/param.h> 40 1.4.2.2 yamt #include <sys/types.h> 41 1.4.2.2 yamt 42 1.4.2.2 yamt #ifndef _KERNEL 43 1.4.2.2 yamt #include <stdio.h> 44 1.4.2.2 yamt #include <stdbool.h> 45 1.4.2.2 yamt #include <inttypes.h> 46 1.4.2.2 yamt #endif 47 1.4.2.2 yamt #include <netinet/in.h> 48 1.4.2.2 yamt #include <netinet/tcp.h> 49 1.4.2.2 yamt #include <netinet/tcp_seq.h> 50 1.4.2.2 yamt 51 1.4.2.2 yamt #include "npf_impl.h" 52 1.4.2.2 yamt 53 1.4.2.2 yamt /* 54 1.4.2.2 yamt * NPF TCP states. Note: these states are different from the TCP FSM 55 1.4.2.2 yamt * states of RFC 793. The packet filter is a man-in-the-middle. 56 1.4.2.2 yamt */ 57 1.4.2.3 yamt #define NPF_TCPS_OK (-1) 58 1.4.2.2 yamt #define NPF_TCPS_CLOSED 0 59 1.4.2.2 yamt #define NPF_TCPS_SYN_SENT 1 60 1.4.2.2 yamt #define NPF_TCPS_SIMSYN_SENT 2 61 1.4.2.2 yamt #define NPF_TCPS_SYN_RECEIVED 3 62 1.4.2.2 yamt #define NPF_TCPS_ESTABLISHED 4 63 1.4.2.3 yamt #define NPF_TCPS_FIN_SENT 5 64 1.4.2.3 yamt #define NPF_TCPS_FIN_RECEIVED 6 65 1.4.2.3 yamt #define NPF_TCPS_CLOSE_WAIT 7 66 1.4.2.3 yamt #define NPF_TCPS_FIN_WAIT 8 67 1.4.2.3 yamt #define NPF_TCPS_CLOSING 9 68 1.4.2.3 yamt #define NPF_TCPS_LAST_ACK 10 69 1.4.2.3 yamt #define NPF_TCPS_TIME_WAIT 11 70 1.4.2.2 yamt 71 1.4.2.3 yamt #define NPF_TCP_NSTATES 12 72 1.4.2.2 yamt 73 1.4.2.2 yamt /* 74 1.4.2.2 yamt * TCP connection timeout table (in seconds). 75 1.4.2.2 yamt */ 76 1.4.2.2 yamt static u_int npf_tcp_timeouts[] __read_mostly = { 77 1.4.2.2 yamt /* Closed, timeout nearly immediately. */ 78 1.4.2.2 yamt [NPF_TCPS_CLOSED] = 10, 79 1.4.2.2 yamt /* Unsynchronised states. */ 80 1.4.2.2 yamt [NPF_TCPS_SYN_SENT] = 30, 81 1.4.2.2 yamt [NPF_TCPS_SIMSYN_SENT] = 30, 82 1.4.2.2 yamt [NPF_TCPS_SYN_RECEIVED] = 60, 83 1.4.2.3 yamt /* Established: 24 hours. */ 84 1.4.2.2 yamt [NPF_TCPS_ESTABLISHED] = 60 * 60 * 24, 85 1.4.2.3 yamt /* FIN seen: 4 minutes (2 * MSL). */ 86 1.4.2.3 yamt [NPF_TCPS_FIN_SENT] = 60 * 2 * 2, 87 1.4.2.3 yamt [NPF_TCPS_FIN_RECEIVED] = 60 * 2 * 2, 88 1.4.2.3 yamt /* Half-closed cases: 6 hours. */ 89 1.4.2.3 yamt [NPF_TCPS_CLOSE_WAIT] = 60 * 60 * 6, 90 1.4.2.3 yamt [NPF_TCPS_FIN_WAIT] = 60 * 60 * 6, 91 1.4.2.3 yamt /* Full close cases: 30 sec and 2 * MSL. */ 92 1.4.2.2 yamt [NPF_TCPS_CLOSING] = 30, 93 1.4.2.2 yamt [NPF_TCPS_LAST_ACK] = 30, 94 1.4.2.2 yamt [NPF_TCPS_TIME_WAIT] = 60 * 2 * 2, 95 1.4.2.2 yamt }; 96 1.4.2.2 yamt 97 1.4.2.3 yamt static bool npf_strict_order_rst __read_mostly = false; 98 1.4.2.3 yamt 99 1.4.2.2 yamt #define NPF_TCP_MAXACKWIN 66000 100 1.4.2.2 yamt 101 1.4.2.2 yamt /* 102 1.4.2.2 yamt * List of TCP flag cases and conversion of flags to a case (index). 103 1.4.2.2 yamt */ 104 1.4.2.2 yamt 105 1.4.2.2 yamt #define TCPFC_INVALID 0 106 1.4.2.2 yamt #define TCPFC_SYN 1 107 1.4.2.2 yamt #define TCPFC_SYNACK 2 108 1.4.2.2 yamt #define TCPFC_ACK 3 109 1.4.2.2 yamt #define TCPFC_FIN 4 110 1.4.2.2 yamt #define TCPFC_COUNT 5 111 1.4.2.2 yamt 112 1.4.2.2 yamt static inline u_int 113 1.4.2.2 yamt npf_tcpfl2case(const int tcpfl) 114 1.4.2.2 yamt { 115 1.4.2.2 yamt u_int i, c; 116 1.4.2.2 yamt 117 1.4.2.2 yamt CTASSERT(TH_FIN == 0x01); 118 1.4.2.2 yamt CTASSERT(TH_SYN == 0x02); 119 1.4.2.2 yamt CTASSERT(TH_ACK == 0x10); 120 1.4.2.2 yamt 121 1.4.2.2 yamt /* 122 1.4.2.2 yamt * Flags are shifted to use three least significant bits, thus each 123 1.4.2.2 yamt * flag combination has a unique number ranging from 0 to 7, e.g. 124 1.4.2.2 yamt * TH_SYN | TH_ACK has number 6, since (0x02 | (0x10 >> 2)) == 6. 125 1.4.2.2 yamt * However, the requirement is to have number 0 for invalid cases, 126 1.4.2.2 yamt * such as TH_SYN | TH_FIN, and to have the same number for TH_FIN 127 1.4.2.2 yamt * and TH_FIN|TH_ACK cases. Thus, we generate a mask assigning 3 128 1.4.2.2 yamt * bits for each number, which contains the actual case numbers: 129 1.4.2.2 yamt * 130 1.4.2.2 yamt * TCPFC_SYNACK << (6 << 2) == 0x2000000 (6 - SYN,ACK) 131 1.4.2.2 yamt * TCPFC_FIN << (5 << 2) == 0x0400000 (5 - FIN,ACK) 132 1.4.2.2 yamt * ... 133 1.4.2.2 yamt * 134 1.4.2.2 yamt * Hence, OR'ed mask value is 0x2430140. 135 1.4.2.2 yamt */ 136 1.4.2.2 yamt i = (tcpfl & (TH_SYN | TH_FIN)) | ((tcpfl & TH_ACK) >> 2); 137 1.4.2.2 yamt c = (0x2430140 >> (i << 2)) & 7; 138 1.4.2.2 yamt 139 1.4.2.2 yamt KASSERT(c < TCPFC_COUNT); 140 1.4.2.2 yamt return c; 141 1.4.2.2 yamt } 142 1.4.2.2 yamt 143 1.4.2.2 yamt /* 144 1.4.2.2 yamt * NPF transition table of a tracked TCP connection. 145 1.4.2.2 yamt * 146 1.4.2.2 yamt * There is a single state, which is changed in the following way: 147 1.4.2.2 yamt * 148 1.4.2.2 yamt * new_state = npf_tcp_fsm[old_state][direction][npf_tcpfl2case(tcp_flags)]; 149 1.4.2.2 yamt * 150 1.4.2.2 yamt * Note that this state is different from the state in each end (host). 151 1.4.2.2 yamt */ 152 1.4.2.2 yamt 153 1.4.2.2 yamt static const int npf_tcp_fsm[NPF_TCP_NSTATES][2][TCPFC_COUNT] = { 154 1.4.2.2 yamt [NPF_TCPS_CLOSED] = { 155 1.4.2.2 yamt [NPF_FLOW_FORW] = { 156 1.4.2.2 yamt /* Handshake (1): initial SYN. */ 157 1.4.2.2 yamt [TCPFC_SYN] = NPF_TCPS_SYN_SENT, 158 1.4.2.2 yamt }, 159 1.4.2.2 yamt }, 160 1.4.2.2 yamt [NPF_TCPS_SYN_SENT] = { 161 1.4.2.2 yamt [NPF_FLOW_FORW] = { 162 1.4.2.2 yamt /* SYN may be retransmitted. */ 163 1.4.2.2 yamt [TCPFC_SYN] = NPF_TCPS_OK, 164 1.4.2.2 yamt }, 165 1.4.2.2 yamt [NPF_FLOW_BACK] = { 166 1.4.2.2 yamt /* Handshake (2): SYN-ACK is expected. */ 167 1.4.2.2 yamt [TCPFC_SYNACK] = NPF_TCPS_SYN_RECEIVED, 168 1.4.2.2 yamt /* Simultaneous initiation - SYN. */ 169 1.4.2.2 yamt [TCPFC_SYN] = NPF_TCPS_SIMSYN_SENT, 170 1.4.2.2 yamt }, 171 1.4.2.2 yamt }, 172 1.4.2.2 yamt [NPF_TCPS_SIMSYN_SENT] = { 173 1.4.2.2 yamt [NPF_FLOW_FORW] = { 174 1.4.2.2 yamt /* Original SYN re-transmission. */ 175 1.4.2.2 yamt [TCPFC_SYN] = NPF_TCPS_OK, 176 1.4.2.2 yamt /* SYN-ACK response to simultaneous SYN. */ 177 1.4.2.2 yamt [TCPFC_SYNACK] = NPF_TCPS_SYN_RECEIVED, 178 1.4.2.2 yamt }, 179 1.4.2.2 yamt [NPF_FLOW_BACK] = { 180 1.4.2.2 yamt /* Simultaneous SYN re-transmission.*/ 181 1.4.2.2 yamt [TCPFC_SYN] = NPF_TCPS_OK, 182 1.4.2.2 yamt /* SYN-ACK response to original SYN. */ 183 1.4.2.2 yamt [TCPFC_SYNACK] = NPF_TCPS_SYN_RECEIVED, 184 1.4.2.3 yamt /* FIN may occur early. */ 185 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_FIN_RECEIVED, 186 1.4.2.2 yamt }, 187 1.4.2.2 yamt }, 188 1.4.2.2 yamt [NPF_TCPS_SYN_RECEIVED] = { 189 1.4.2.2 yamt [NPF_FLOW_FORW] = { 190 1.4.2.2 yamt /* Handshake (3): ACK is expected. */ 191 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_ESTABLISHED, 192 1.4.2.2 yamt /* FIN may be sent early. */ 193 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_FIN_SENT, 194 1.4.2.2 yamt }, 195 1.4.2.2 yamt [NPF_FLOW_BACK] = { 196 1.4.2.2 yamt /* SYN-ACK may be retransmitted. */ 197 1.4.2.2 yamt [TCPFC_SYNACK] = NPF_TCPS_OK, 198 1.4.2.2 yamt /* XXX: ACK of late SYN in simultaneous case? */ 199 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_OK, 200 1.4.2.3 yamt /* FIN may occur early. */ 201 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_FIN_RECEIVED, 202 1.4.2.2 yamt }, 203 1.4.2.2 yamt }, 204 1.4.2.2 yamt [NPF_TCPS_ESTABLISHED] = { 205 1.4.2.2 yamt /* 206 1.4.2.2 yamt * Regular ACKs (data exchange) or FIN. 207 1.4.2.2 yamt * FIN packets may have ACK set. 208 1.4.2.2 yamt */ 209 1.4.2.2 yamt [NPF_FLOW_FORW] = { 210 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_OK, 211 1.4.2.2 yamt /* FIN by the sender. */ 212 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_FIN_SENT, 213 1.4.2.2 yamt }, 214 1.4.2.2 yamt [NPF_FLOW_BACK] = { 215 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_OK, 216 1.4.2.2 yamt /* FIN by the receiver. */ 217 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_FIN_RECEIVED, 218 1.4.2.3 yamt }, 219 1.4.2.3 yamt }, 220 1.4.2.3 yamt [NPF_TCPS_FIN_SENT] = { 221 1.4.2.3 yamt [NPF_FLOW_FORW] = { 222 1.4.2.3 yamt /* FIN may be re-transmitted. Late ACK as well. */ 223 1.4.2.3 yamt [TCPFC_ACK] = NPF_TCPS_OK, 224 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_OK, 225 1.4.2.3 yamt }, 226 1.4.2.3 yamt [NPF_FLOW_BACK] = { 227 1.4.2.3 yamt /* If ACK, connection is half-closed now. */ 228 1.4.2.3 yamt [TCPFC_ACK] = NPF_TCPS_FIN_WAIT, 229 1.4.2.3 yamt /* FIN or FIN-ACK race - immediate closing. */ 230 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_CLOSING, 231 1.4.2.2 yamt }, 232 1.4.2.2 yamt }, 233 1.4.2.3 yamt [NPF_TCPS_FIN_RECEIVED] = { 234 1.4.2.2 yamt /* 235 1.4.2.3 yamt * FIN was received. Equivalent scenario to sent FIN. 236 1.4.2.2 yamt */ 237 1.4.2.2 yamt [NPF_FLOW_FORW] = { 238 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_CLOSE_WAIT, 239 1.4.2.2 yamt [TCPFC_FIN] = NPF_TCPS_CLOSING, 240 1.4.2.2 yamt }, 241 1.4.2.2 yamt [NPF_FLOW_BACK] = { 242 1.4.2.3 yamt [TCPFC_ACK] = NPF_TCPS_OK, 243 1.4.2.3 yamt [TCPFC_FIN] = NPF_TCPS_OK, 244 1.4.2.2 yamt }, 245 1.4.2.2 yamt }, 246 1.4.2.2 yamt [NPF_TCPS_CLOSE_WAIT] = { 247 1.4.2.2 yamt /* Sender has sent the FIN and closed its end. */ 248 1.4.2.2 yamt [NPF_FLOW_FORW] = { 249 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_OK, 250 1.4.2.2 yamt [TCPFC_FIN] = NPF_TCPS_LAST_ACK, 251 1.4.2.2 yamt }, 252 1.4.2.2 yamt [NPF_FLOW_BACK] = { 253 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_OK, 254 1.4.2.2 yamt [TCPFC_FIN] = NPF_TCPS_LAST_ACK, 255 1.4.2.2 yamt }, 256 1.4.2.2 yamt }, 257 1.4.2.2 yamt [NPF_TCPS_FIN_WAIT] = { 258 1.4.2.2 yamt /* Receiver has closed its end. */ 259 1.4.2.2 yamt [NPF_FLOW_FORW] = { 260 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_OK, 261 1.4.2.2 yamt [TCPFC_FIN] = NPF_TCPS_LAST_ACK, 262 1.4.2.2 yamt }, 263 1.4.2.2 yamt [NPF_FLOW_BACK] = { 264 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_OK, 265 1.4.2.2 yamt [TCPFC_FIN] = NPF_TCPS_LAST_ACK, 266 1.4.2.2 yamt }, 267 1.4.2.2 yamt }, 268 1.4.2.2 yamt [NPF_TCPS_CLOSING] = { 269 1.4.2.2 yamt /* Race of FINs - expecting ACK. */ 270 1.4.2.2 yamt [NPF_FLOW_FORW] = { 271 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_LAST_ACK, 272 1.4.2.2 yamt }, 273 1.4.2.2 yamt [NPF_FLOW_BACK] = { 274 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_LAST_ACK, 275 1.4.2.2 yamt }, 276 1.4.2.2 yamt }, 277 1.4.2.2 yamt [NPF_TCPS_LAST_ACK] = { 278 1.4.2.2 yamt /* FINs exchanged - expecting last ACK. */ 279 1.4.2.2 yamt [NPF_FLOW_FORW] = { 280 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_TIME_WAIT, 281 1.4.2.2 yamt }, 282 1.4.2.2 yamt [NPF_FLOW_BACK] = { 283 1.4.2.2 yamt [TCPFC_ACK] = NPF_TCPS_TIME_WAIT, 284 1.4.2.2 yamt }, 285 1.4.2.2 yamt }, 286 1.4.2.2 yamt [NPF_TCPS_TIME_WAIT] = { 287 1.4.2.2 yamt /* May re-open the connection as per RFC 1122. */ 288 1.4.2.2 yamt [NPF_FLOW_FORW] = { 289 1.4.2.2 yamt [TCPFC_SYN] = NPF_TCPS_SYN_SENT, 290 1.4.2.2 yamt }, 291 1.4.2.2 yamt }, 292 1.4.2.2 yamt }; 293 1.4.2.2 yamt 294 1.4.2.2 yamt /* 295 1.4.2.2 yamt * npf_tcp_inwindow: determine whether the packet is in the TCP window 296 1.4.2.2 yamt * and thus part of the connection we are tracking. 297 1.4.2.2 yamt */ 298 1.4.2.2 yamt static bool 299 1.4.2.2 yamt npf_tcp_inwindow(const npf_cache_t *npc, nbuf_t *nbuf, npf_state_t *nst, 300 1.4.2.2 yamt const int di) 301 1.4.2.2 yamt { 302 1.4.2.2 yamt const struct tcphdr * const th = &npc->npc_l4.tcp; 303 1.4.2.2 yamt const int tcpfl = th->th_flags; 304 1.4.2.2 yamt npf_tcpstate_t *fstate, *tstate; 305 1.4.2.3 yamt int tcpdlen, ackskew; 306 1.4.2.2 yamt tcp_seq seq, ack, end; 307 1.4.2.2 yamt uint32_t win; 308 1.4.2.2 yamt 309 1.4.2.2 yamt KASSERT(npf_iscached(npc, NPC_TCP)); 310 1.4.2.2 yamt KASSERT(di == NPF_FLOW_FORW || di == NPF_FLOW_BACK); 311 1.4.2.2 yamt 312 1.4.2.2 yamt /* 313 1.4.2.2 yamt * Perform SEQ/ACK numbers check against boundaries. Reference: 314 1.4.2.2 yamt * 315 1.4.2.2 yamt * Rooij G., "Real stateful TCP packet filtering in IP Filter", 316 1.4.2.2 yamt * 10th USENIX Security Symposium invited talk, Aug. 2001. 317 1.4.2.2 yamt * 318 1.4.2.2 yamt * There are four boundaries defined as following: 319 1.4.2.2 yamt * I) SEQ + LEN <= MAX { SND.ACK + MAX(SND.WIN, 1) } 320 1.4.2.2 yamt * II) SEQ >= MAX { SND.SEQ + SND.LEN - MAX(RCV.WIN, 1) } 321 1.4.2.2 yamt * III) ACK <= MAX { RCV.SEQ + RCV.LEN } 322 1.4.2.2 yamt * IV) ACK >= MAX { RCV.SEQ + RCV.LEN } - MAXACKWIN 323 1.4.2.2 yamt * 324 1.4.2.2 yamt * Let these members of npf_tcpstate_t be the maximum seen values of: 325 1.4.2.2 yamt * nst_end - SEQ + LEN 326 1.4.2.2 yamt * nst_maxend - ACK + MAX(WIN, 1) 327 1.4.2.2 yamt * nst_maxwin - MAX(WIN, 1) 328 1.4.2.2 yamt */ 329 1.4.2.2 yamt 330 1.4.2.2 yamt tcpdlen = npf_tcpsaw(__UNCONST(npc), &seq, &ack, &win); 331 1.4.2.2 yamt end = seq + tcpdlen; 332 1.4.2.2 yamt if (tcpfl & TH_SYN) { 333 1.4.2.2 yamt end++; 334 1.4.2.2 yamt } 335 1.4.2.2 yamt if (tcpfl & TH_FIN) { 336 1.4.2.2 yamt end++; 337 1.4.2.2 yamt } 338 1.4.2.2 yamt 339 1.4.2.2 yamt fstate = &nst->nst_tcpst[di]; 340 1.4.2.2 yamt tstate = &nst->nst_tcpst[!di]; 341 1.4.2.2 yamt win = win ? (win << fstate->nst_wscale) : 1; 342 1.4.2.2 yamt 343 1.4.2.2 yamt /* 344 1.4.2.2 yamt * Initialise if the first packet. 345 1.4.2.2 yamt * Note: only case when nst_maxwin is zero. 346 1.4.2.2 yamt */ 347 1.4.2.2 yamt if (__predict_false(fstate->nst_maxwin == 0)) { 348 1.4.2.2 yamt /* 349 1.4.2.3 yamt * Normally, it should be the first SYN or a re-transmission 350 1.4.2.3 yamt * of SYN. The state of the other side will get set with a 351 1.4.2.3 yamt * SYN-ACK reply (see below). 352 1.4.2.2 yamt */ 353 1.4.2.2 yamt fstate->nst_end = end; 354 1.4.2.2 yamt fstate->nst_maxend = end; 355 1.4.2.2 yamt fstate->nst_maxwin = win; 356 1.4.2.2 yamt tstate->nst_end = 0; 357 1.4.2.2 yamt tstate->nst_maxend = 0; 358 1.4.2.2 yamt tstate->nst_maxwin = 1; 359 1.4.2.2 yamt 360 1.4.2.2 yamt /* 361 1.4.2.2 yamt * Handle TCP Window Scaling (RFC 1323). Both sides may 362 1.4.2.2 yamt * send this option in their SYN packets. 363 1.4.2.2 yamt */ 364 1.4.2.3 yamt fstate->nst_wscale = 0; 365 1.4.2.3 yamt (void)npf_fetch_tcpopts(npc, nbuf, NULL, &fstate->nst_wscale); 366 1.4.2.3 yamt 367 1.4.2.2 yamt tstate->nst_wscale = 0; 368 1.4.2.2 yamt 369 1.4.2.2 yamt /* Done. */ 370 1.4.2.2 yamt return true; 371 1.4.2.2 yamt } 372 1.4.2.2 yamt if (fstate->nst_end == 0) { 373 1.4.2.2 yamt /* 374 1.4.2.2 yamt * Should be a SYN-ACK reply to SYN. If SYN is not set, 375 1.4.2.2 yamt * then we are in the middle of connection and lost tracking. 376 1.4.2.2 yamt */ 377 1.4.2.2 yamt fstate->nst_end = end; 378 1.4.2.2 yamt fstate->nst_maxend = end + 1; 379 1.4.2.2 yamt fstate->nst_maxwin = win; 380 1.4.2.3 yamt fstate->nst_wscale = 0; 381 1.4.2.2 yamt 382 1.4.2.2 yamt /* Handle TCP Window Scaling (must be ignored if no SYN). */ 383 1.4.2.2 yamt if (tcpfl & TH_SYN) { 384 1.4.2.3 yamt (void)npf_fetch_tcpopts(npc, nbuf, NULL, 385 1.4.2.3 yamt &fstate->nst_wscale); 386 1.4.2.2 yamt } 387 1.4.2.2 yamt } 388 1.4.2.3 yamt 389 1.4.2.2 yamt if ((tcpfl & TH_ACK) == 0) { 390 1.4.2.2 yamt /* Pretend that an ACK was sent. */ 391 1.4.2.2 yamt ack = tstate->nst_end; 392 1.4.2.2 yamt } else if ((tcpfl & (TH_ACK|TH_RST)) == (TH_ACK|TH_RST) && ack == 0) { 393 1.4.2.2 yamt /* Workaround for some TCP stacks. */ 394 1.4.2.2 yamt ack = tstate->nst_end; 395 1.4.2.2 yamt } 396 1.4.2.2 yamt 397 1.4.2.3 yamt if (__predict_false(tcpfl & TH_RST)) { 398 1.4.2.3 yamt /* RST to the initial SYN may have zero SEQ - fix it up. */ 399 1.4.2.3 yamt if (seq == 0 && nst->nst_state == NPF_TCPS_SYN_SENT) { 400 1.4.2.3 yamt end = fstate->nst_end; 401 1.4.2.3 yamt seq = end; 402 1.4.2.3 yamt } 403 1.4.2.3 yamt 404 1.4.2.3 yamt /* Strict in-order sequence for RST packets. */ 405 1.4.2.3 yamt if (npf_strict_order_rst && (fstate->nst_end - seq) > 1) { 406 1.4.2.3 yamt return false; 407 1.4.2.3 yamt } 408 1.4.2.2 yamt } 409 1.4.2.3 yamt 410 1.4.2.2 yamt /* 411 1.4.2.2 yamt * Determine whether the data is within previously noted window, 412 1.4.2.2 yamt * that is, upper boundary for valid data (I). 413 1.4.2.2 yamt */ 414 1.4.2.2 yamt if (!SEQ_LEQ(end, fstate->nst_maxend)) { 415 1.4.2.2 yamt npf_stats_inc(NPF_STAT_INVALID_STATE_TCP1); 416 1.4.2.2 yamt return false; 417 1.4.2.2 yamt } 418 1.4.2.2 yamt 419 1.4.2.2 yamt /* Lower boundary (II), which is no more than one window back. */ 420 1.4.2.2 yamt if (!SEQ_GEQ(seq, fstate->nst_end - tstate->nst_maxwin)) { 421 1.4.2.2 yamt npf_stats_inc(NPF_STAT_INVALID_STATE_TCP2); 422 1.4.2.2 yamt return false; 423 1.4.2.2 yamt } 424 1.4.2.2 yamt 425 1.4.2.2 yamt /* 426 1.4.2.3 yamt * Boundaries for valid acknowledgments (III, IV) - one predicted 427 1.4.2.2 yamt * window up or down, since packets may be fragmented. 428 1.4.2.2 yamt */ 429 1.4.2.2 yamt ackskew = tstate->nst_end - ack; 430 1.4.2.2 yamt if (ackskew < -NPF_TCP_MAXACKWIN || 431 1.4.2.2 yamt ackskew > (NPF_TCP_MAXACKWIN << fstate->nst_wscale)) { 432 1.4.2.2 yamt npf_stats_inc(NPF_STAT_INVALID_STATE_TCP3); 433 1.4.2.2 yamt return false; 434 1.4.2.2 yamt } 435 1.4.2.2 yamt 436 1.4.2.2 yamt /* 437 1.4.2.2 yamt * Packet has been passed. 438 1.4.2.2 yamt * 439 1.4.2.2 yamt * Negative ackskew might be due to fragmented packets. Since the 440 1.4.2.2 yamt * total length of the packet is unknown - bump the boundary. 441 1.4.2.2 yamt */ 442 1.4.2.3 yamt 443 1.4.2.2 yamt if (ackskew < 0) { 444 1.4.2.2 yamt tstate->nst_end = ack; 445 1.4.2.2 yamt } 446 1.4.2.2 yamt /* Keep track of the maximum window seen. */ 447 1.4.2.2 yamt if (fstate->nst_maxwin < win) { 448 1.4.2.2 yamt fstate->nst_maxwin = win; 449 1.4.2.2 yamt } 450 1.4.2.2 yamt if (SEQ_GT(end, fstate->nst_end)) { 451 1.4.2.2 yamt fstate->nst_end = end; 452 1.4.2.2 yamt } 453 1.4.2.2 yamt /* Note the window for upper boundary. */ 454 1.4.2.2 yamt if (SEQ_GEQ(ack + win, tstate->nst_maxend)) { 455 1.4.2.2 yamt tstate->nst_maxend = ack + win; 456 1.4.2.2 yamt } 457 1.4.2.2 yamt return true; 458 1.4.2.2 yamt } 459 1.4.2.2 yamt 460 1.4.2.3 yamt /* 461 1.4.2.3 yamt * npf_state_tcp: inspect TCP segment, determine whether it belongs to 462 1.4.2.3 yamt * the connection and track its state. 463 1.4.2.3 yamt */ 464 1.4.2.2 yamt bool 465 1.4.2.2 yamt npf_state_tcp(const npf_cache_t *npc, nbuf_t *nbuf, npf_state_t *nst, int di) 466 1.4.2.2 yamt { 467 1.4.2.2 yamt const struct tcphdr * const th = &npc->npc_l4.tcp; 468 1.4.2.2 yamt const int tcpfl = th->th_flags, state = nst->nst_state; 469 1.4.2.2 yamt int nstate; 470 1.4.2.2 yamt 471 1.4.2.3 yamt KASSERT(nst->nst_state == 0 || mutex_owned(&nst->nst_lock)); 472 1.4.2.3 yamt 473 1.4.2.2 yamt /* Look for a transition to a new state. */ 474 1.4.2.2 yamt if (__predict_true((tcpfl & TH_RST) == 0)) { 475 1.4.2.2 yamt const int flagcase = npf_tcpfl2case(tcpfl); 476 1.4.2.2 yamt nstate = npf_tcp_fsm[state][di][flagcase]; 477 1.4.2.2 yamt } else if (state == NPF_TCPS_TIME_WAIT) { 478 1.4.2.2 yamt /* Prevent TIME-WAIT assassination (RFC 1337). */ 479 1.4.2.2 yamt nstate = NPF_TCPS_OK; 480 1.4.2.2 yamt } else { 481 1.4.2.2 yamt nstate = NPF_TCPS_CLOSED; 482 1.4.2.2 yamt } 483 1.4.2.3 yamt 484 1.4.2.2 yamt /* Determine whether TCP packet really belongs to this connection. */ 485 1.4.2.2 yamt if (!npf_tcp_inwindow(npc, nbuf, nst, di)) { 486 1.4.2.2 yamt return false; 487 1.4.2.2 yamt } 488 1.4.2.2 yamt if (__predict_true(nstate == NPF_TCPS_OK)) { 489 1.4.2.2 yamt return true; 490 1.4.2.2 yamt } 491 1.4.2.3 yamt 492 1.4.2.2 yamt nst->nst_state = nstate; 493 1.4.2.2 yamt return true; 494 1.4.2.2 yamt } 495 1.4.2.2 yamt 496 1.4.2.2 yamt int 497 1.4.2.2 yamt npf_state_tcp_timeout(const npf_state_t *nst) 498 1.4.2.2 yamt { 499 1.4.2.2 yamt const u_int state = nst->nst_state; 500 1.4.2.2 yamt 501 1.4.2.2 yamt KASSERT(state < NPF_TCP_NSTATES); 502 1.4.2.2 yamt return npf_tcp_timeouts[state]; 503 1.4.2.2 yamt } 504
Indexes created Thu Oct 02 14:10:14 GMT 2025