ip_reass.c revision 1.2.4.4
1 1.2.4.4 uebayasi /* $NetBSD: ip_reass.c,v 1.2.4.4 2010/11/06 08:08:50 uebayasi Exp $ */ 2 1.2.4.2 uebayasi 3 1.2.4.2 uebayasi /* 4 1.2.4.2 uebayasi * Copyright (c) 1982, 1986, 1988, 1993 5 1.2.4.2 uebayasi * The Regents of the University of California. All rights reserved. 6 1.2.4.2 uebayasi * 7 1.2.4.2 uebayasi * Redistribution and use in source and binary forms, with or without 8 1.2.4.2 uebayasi * modification, are permitted provided that the following conditions 9 1.2.4.2 uebayasi * are met: 10 1.2.4.2 uebayasi * 1. Redistributions of source code must retain the above copyright 11 1.2.4.2 uebayasi * notice, this list of conditions and the following disclaimer. 12 1.2.4.2 uebayasi * 2. Redistributions in binary form must reproduce the above copyright 13 1.2.4.2 uebayasi * notice, this list of conditions and the following disclaimer in the 14 1.2.4.2 uebayasi * documentation and/or other materials provided with the distribution. 15 1.2.4.2 uebayasi * 3. Neither the name of the University nor the names of its contributors 16 1.2.4.2 uebayasi * may be used to endorse or promote products derived from this software 17 1.2.4.2 uebayasi * without specific prior written permission. 18 1.2.4.2 uebayasi * 19 1.2.4.2 uebayasi * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 20 1.2.4.2 uebayasi * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 21 1.2.4.2 uebayasi * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 22 1.2.4.2 uebayasi * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 23 1.2.4.2 uebayasi * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 24 1.2.4.2 uebayasi * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 25 1.2.4.2 uebayasi * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26 1.2.4.2 uebayasi * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 1.2.4.2 uebayasi * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 28 1.2.4.2 uebayasi * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 29 1.2.4.2 uebayasi * SUCH DAMAGE. 30 1.2.4.2 uebayasi * 31 1.2.4.2 uebayasi * @(#)ip_input.c 8.2 (Berkeley) 1/4/94 32 1.2.4.2 uebayasi */ 33 1.2.4.2 uebayasi 34 1.2.4.2 uebayasi /* 35 1.2.4.2 uebayasi * IP reassembly. 36 1.2.4.2 uebayasi * 37 1.2.4.2 uebayasi * Additive-Increase/Multiplicative-Decrease (AIMD) strategy for IP 38 1.2.4.2 uebayasi * reassembly queue buffer managment. 39 1.2.4.2 uebayasi * 40 1.2.4.2 uebayasi * We keep a count of total IP fragments (NB: not fragmented packets), 41 1.2.4.2 uebayasi * awaiting reassembly (ip_nfrags) and a limit (ip_maxfrags) on fragments. 42 1.2.4.2 uebayasi * If ip_nfrags exceeds ip_maxfrags the limit, we drop half the total 43 1.2.4.2 uebayasi * fragments in reassembly queues. This AIMD policy avoids repeatedly 44 1.2.4.2 uebayasi * deleting single packets under heavy fragmentation load (e.g., from lossy 45 1.2.4.2 uebayasi * NFS peers). 46 1.2.4.2 uebayasi */ 47 1.2.4.2 uebayasi 48 1.2.4.2 uebayasi #include <sys/cdefs.h> 49 1.2.4.4 uebayasi __KERNEL_RCSID(0, "$NetBSD: ip_reass.c,v 1.2.4.4 2010/11/06 08:08:50 uebayasi Exp $"); 50 1.2.4.2 uebayasi 51 1.2.4.2 uebayasi #include <sys/param.h> 52 1.2.4.2 uebayasi #include <sys/types.h> 53 1.2.4.2 uebayasi 54 1.2.4.2 uebayasi #include <sys/malloc.h> 55 1.2.4.2 uebayasi #include <sys/mbuf.h> 56 1.2.4.3 uebayasi #include <sys/mutex.h> 57 1.2.4.2 uebayasi #include <sys/domain.h> 58 1.2.4.2 uebayasi #include <sys/protosw.h> 59 1.2.4.2 uebayasi #include <sys/pool.h> 60 1.2.4.2 uebayasi #include <sys/queue.h> 61 1.2.4.2 uebayasi #include <sys/sysctl.h> 62 1.2.4.2 uebayasi #include <sys/systm.h> 63 1.2.4.2 uebayasi 64 1.2.4.2 uebayasi #include <net/if.h> 65 1.2.4.2 uebayasi #include <net/route.h> 66 1.2.4.2 uebayasi 67 1.2.4.2 uebayasi #include <netinet/in.h> 68 1.2.4.2 uebayasi #include <netinet/in_systm.h> 69 1.2.4.2 uebayasi #include <netinet/ip.h> 70 1.2.4.2 uebayasi #include <netinet/in_pcb.h> 71 1.2.4.2 uebayasi #include <netinet/ip_var.h> 72 1.2.4.2 uebayasi #include <netinet/in_proto.h> 73 1.2.4.2 uebayasi #include <netinet/ip_private.h> 74 1.2.4.2 uebayasi #include <netinet/in_var.h> 75 1.2.4.2 uebayasi 76 1.2.4.2 uebayasi /* 77 1.2.4.3 uebayasi * IP reassembly queue structures. Each fragment being reassembled is 78 1.2.4.3 uebayasi * attached to one of these structures. They are timed out after TTL 79 1.2.4.3 uebayasi * drops to 0, and may also be reclaimed if memory becomes tight. 80 1.2.4.3 uebayasi */ 81 1.2.4.3 uebayasi 82 1.2.4.3 uebayasi typedef struct ipfr_qent { 83 1.2.4.3 uebayasi TAILQ_ENTRY(ipfr_qent) ipqe_q; 84 1.2.4.3 uebayasi struct ip * ipqe_ip; 85 1.2.4.3 uebayasi struct mbuf * ipqe_m; 86 1.2.4.3 uebayasi bool ipqe_mff; 87 1.2.4.3 uebayasi } ipfr_qent_t; 88 1.2.4.3 uebayasi 89 1.2.4.4 uebayasi TAILQ_HEAD(ipfr_qent_head, ipfr_qent); 90 1.2.4.4 uebayasi 91 1.2.4.3 uebayasi typedef struct ipfr_queue { 92 1.2.4.3 uebayasi LIST_ENTRY(ipfr_queue) ipq_q; /* to other reass headers */ 93 1.2.4.4 uebayasi struct ipfr_qent_head ipq_fragq; /* queue of fragment entries */ 94 1.2.4.3 uebayasi uint8_t ipq_ttl; /* time for reass q to live */ 95 1.2.4.3 uebayasi uint8_t ipq_p; /* protocol of this fragment */ 96 1.2.4.3 uebayasi uint16_t ipq_id; /* sequence id for reassembly */ 97 1.2.4.3 uebayasi struct in_addr ipq_src; 98 1.2.4.3 uebayasi struct in_addr ipq_dst; 99 1.2.4.3 uebayasi uint16_t ipq_nfrags; /* frags in this queue entry */ 100 1.2.4.3 uebayasi uint8_t ipq_tos; /* TOS of this fragment */ 101 1.2.4.3 uebayasi } ipfr_queue_t; 102 1.2.4.3 uebayasi 103 1.2.4.3 uebayasi /* 104 1.2.4.3 uebayasi * Hash table of IP reassembly queues. 105 1.2.4.2 uebayasi */ 106 1.2.4.2 uebayasi #define IPREASS_HASH_SHIFT 6 107 1.2.4.2 uebayasi #define IPREASS_HASH_SIZE (1 << IPREASS_HASH_SHIFT) 108 1.2.4.2 uebayasi #define IPREASS_HASH_MASK (IPREASS_HASH_SIZE - 1) 109 1.2.4.2 uebayasi #define IPREASS_HASH(x, y) \ 110 1.2.4.2 uebayasi (((((x) & 0xf) | ((((x) >> 8) & 0xf) << 4)) ^ (y)) & IPREASS_HASH_MASK) 111 1.2.4.2 uebayasi 112 1.2.4.3 uebayasi static LIST_HEAD(, ipfr_queue) ip_frags[IPREASS_HASH_SIZE]; 113 1.2.4.3 uebayasi static pool_cache_t ipfren_cache; 114 1.2.4.3 uebayasi static kmutex_t ipfr_lock; 115 1.2.4.2 uebayasi 116 1.2.4.3 uebayasi /* Number of packets in reassembly queue and total number of fragments. */ 117 1.2.4.3 uebayasi static int ip_nfragpackets; 118 1.2.4.3 uebayasi static int ip_nfrags; 119 1.2.4.2 uebayasi 120 1.2.4.3 uebayasi /* Limits on packet and fragments. */ 121 1.2.4.3 uebayasi static int ip_maxfragpackets; 122 1.2.4.3 uebayasi static int ip_maxfrags; 123 1.2.4.2 uebayasi 124 1.2.4.2 uebayasi /* 125 1.2.4.3 uebayasi * Cached copy of nmbclusters. If nbclusters is different, recalculate 126 1.2.4.3 uebayasi * IP parameters derived from nmbclusters. 127 1.2.4.2 uebayasi */ 128 1.2.4.3 uebayasi static int ip_nmbclusters; 129 1.2.4.2 uebayasi 130 1.2.4.2 uebayasi /* 131 1.2.4.2 uebayasi * IP reassembly TTL machinery for multiplicative drop. 132 1.2.4.2 uebayasi */ 133 1.2.4.3 uebayasi static u_int fragttl_histo[IPFRAGTTL + 1]; 134 1.2.4.3 uebayasi 135 1.2.4.3 uebayasi static struct sysctllog *ip_reass_sysctllog; 136 1.2.4.2 uebayasi 137 1.2.4.3 uebayasi void sysctl_ip_reass_setup(void); 138 1.2.4.3 uebayasi static void ip_nmbclusters_changed(void); 139 1.2.4.2 uebayasi 140 1.2.4.3 uebayasi static struct mbuf * ip_reass(ipfr_qent_t *, ipfr_queue_t *, u_int); 141 1.2.4.2 uebayasi static u_int ip_reass_ttl_decr(u_int ticks); 142 1.2.4.2 uebayasi static void ip_reass_drophalf(void); 143 1.2.4.3 uebayasi static void ip_freef(ipfr_queue_t *); 144 1.2.4.2 uebayasi 145 1.2.4.2 uebayasi /* 146 1.2.4.2 uebayasi * ip_reass_init: 147 1.2.4.2 uebayasi * 148 1.2.4.2 uebayasi * Initialization of IP reassembly mechanism. 149 1.2.4.2 uebayasi */ 150 1.2.4.2 uebayasi void 151 1.2.4.2 uebayasi ip_reass_init(void) 152 1.2.4.2 uebayasi { 153 1.2.4.2 uebayasi int i; 154 1.2.4.2 uebayasi 155 1.2.4.3 uebayasi ipfren_cache = pool_cache_init(sizeof(ipfr_qent_t), coherency_unit, 156 1.2.4.3 uebayasi 0, 0, "ipfrenpl", NULL, IPL_NET, NULL, NULL, NULL); 157 1.2.4.3 uebayasi mutex_init(&ipfr_lock, MUTEX_DEFAULT, IPL_VM); 158 1.2.4.2 uebayasi 159 1.2.4.2 uebayasi for (i = 0; i < IPREASS_HASH_SIZE; i++) { 160 1.2.4.3 uebayasi LIST_INIT(&ip_frags[i]); 161 1.2.4.2 uebayasi } 162 1.2.4.2 uebayasi ip_maxfragpackets = 200; 163 1.2.4.2 uebayasi ip_maxfrags = 0; 164 1.2.4.2 uebayasi ip_nmbclusters_changed(); 165 1.2.4.2 uebayasi 166 1.2.4.2 uebayasi sysctl_ip_reass_setup(); 167 1.2.4.2 uebayasi } 168 1.2.4.2 uebayasi 169 1.2.4.2 uebayasi void 170 1.2.4.2 uebayasi sysctl_ip_reass_setup(void) 171 1.2.4.2 uebayasi { 172 1.2.4.2 uebayasi 173 1.2.4.2 uebayasi sysctl_createv(&ip_reass_sysctllog, 0, NULL, NULL, 174 1.2.4.2 uebayasi CTLFLAG_PERMANENT, 175 1.2.4.2 uebayasi CTLTYPE_NODE, "net", NULL, 176 1.2.4.2 uebayasi NULL, 0, NULL, 0, 177 1.2.4.2 uebayasi CTL_NET, CTL_EOL); 178 1.2.4.2 uebayasi sysctl_createv(&ip_reass_sysctllog, 0, NULL, NULL, 179 1.2.4.2 uebayasi CTLFLAG_PERMANENT, 180 1.2.4.2 uebayasi CTLTYPE_NODE, "inet", 181 1.2.4.2 uebayasi SYSCTL_DESCR("PF_INET related settings"), 182 1.2.4.2 uebayasi NULL, 0, NULL, 0, 183 1.2.4.2 uebayasi CTL_NET, PF_INET, CTL_EOL); 184 1.2.4.2 uebayasi sysctl_createv(&ip_reass_sysctllog, 0, NULL, NULL, 185 1.2.4.2 uebayasi CTLFLAG_PERMANENT, 186 1.2.4.2 uebayasi CTLTYPE_NODE, "ip", 187 1.2.4.2 uebayasi SYSCTL_DESCR("IPv4 related settings"), 188 1.2.4.2 uebayasi NULL, 0, NULL, 0, 189 1.2.4.2 uebayasi CTL_NET, PF_INET, IPPROTO_IP, CTL_EOL); 190 1.2.4.2 uebayasi 191 1.2.4.2 uebayasi sysctl_createv(&ip_reass_sysctllog, 0, NULL, NULL, 192 1.2.4.2 uebayasi CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 193 1.2.4.2 uebayasi CTLTYPE_INT, "maxfragpackets", 194 1.2.4.2 uebayasi SYSCTL_DESCR("Maximum number of fragments to retain for " 195 1.2.4.2 uebayasi "possible reassembly"), 196 1.2.4.2 uebayasi NULL, 0, &ip_maxfragpackets, 0, 197 1.2.4.2 uebayasi CTL_NET, PF_INET, IPPROTO_IP, IPCTL_MAXFRAGPACKETS, CTL_EOL); 198 1.2.4.2 uebayasi } 199 1.2.4.2 uebayasi 200 1.2.4.2 uebayasi #define CHECK_NMBCLUSTER_PARAMS() \ 201 1.2.4.2 uebayasi do { \ 202 1.2.4.2 uebayasi if (__predict_false(ip_nmbclusters != nmbclusters)) \ 203 1.2.4.2 uebayasi ip_nmbclusters_changed(); \ 204 1.2.4.2 uebayasi } while (/*CONSTCOND*/0) 205 1.2.4.2 uebayasi 206 1.2.4.2 uebayasi /* 207 1.2.4.2 uebayasi * Compute IP limits derived from the value of nmbclusters. 208 1.2.4.2 uebayasi */ 209 1.2.4.2 uebayasi static void 210 1.2.4.2 uebayasi ip_nmbclusters_changed(void) 211 1.2.4.2 uebayasi { 212 1.2.4.2 uebayasi ip_maxfrags = nmbclusters / 4; 213 1.2.4.2 uebayasi ip_nmbclusters = nmbclusters; 214 1.2.4.2 uebayasi } 215 1.2.4.2 uebayasi 216 1.2.4.2 uebayasi /* 217 1.2.4.2 uebayasi * ip_reass: 218 1.2.4.2 uebayasi * 219 1.2.4.2 uebayasi * Take incoming datagram fragment and try to reassemble it into whole 220 1.2.4.2 uebayasi * datagram. If a chain for reassembly of this datagram already exists, 221 1.2.4.2 uebayasi * then it is given as 'fp'; otherwise have to make a chain. 222 1.2.4.2 uebayasi */ 223 1.2.4.2 uebayasi struct mbuf * 224 1.2.4.3 uebayasi ip_reass(ipfr_qent_t *ipqe, ipfr_queue_t *fp, const u_int hash) 225 1.2.4.2 uebayasi { 226 1.2.4.4 uebayasi struct ip *ip = ipqe->ipqe_ip, *qip; 227 1.2.4.4 uebayasi const int hlen = ip->ip_hl << 2; 228 1.2.4.2 uebayasi struct mbuf *m = ipqe->ipqe_m, *t; 229 1.2.4.3 uebayasi ipfr_qent_t *nq, *p, *q; 230 1.2.4.3 uebayasi int i, next; 231 1.2.4.2 uebayasi 232 1.2.4.3 uebayasi KASSERT(mutex_owned(&ipfr_lock)); 233 1.2.4.2 uebayasi 234 1.2.4.2 uebayasi /* 235 1.2.4.2 uebayasi * Presence of header sizes in mbufs would confuse code below. 236 1.2.4.2 uebayasi */ 237 1.2.4.2 uebayasi m->m_data += hlen; 238 1.2.4.2 uebayasi m->m_len -= hlen; 239 1.2.4.2 uebayasi 240 1.2.4.2 uebayasi #ifdef notyet 241 1.2.4.2 uebayasi /* Make sure fragment limit is up-to-date. */ 242 1.2.4.2 uebayasi CHECK_NMBCLUSTER_PARAMS(); 243 1.2.4.2 uebayasi 244 1.2.4.2 uebayasi /* If we have too many fragments, drop the older half. */ 245 1.2.4.2 uebayasi if (ip_nfrags >= ip_maxfrags) { 246 1.2.4.2 uebayasi ip_reass_drophalf(void); 247 1.2.4.2 uebayasi } 248 1.2.4.2 uebayasi #endif 249 1.2.4.2 uebayasi 250 1.2.4.2 uebayasi /* 251 1.2.4.2 uebayasi * We are about to add a fragment; increment frag count. 252 1.2.4.2 uebayasi */ 253 1.2.4.2 uebayasi ip_nfrags++; 254 1.2.4.2 uebayasi 255 1.2.4.2 uebayasi /* 256 1.2.4.2 uebayasi * If first fragment to arrive, create a reassembly queue. 257 1.2.4.2 uebayasi */ 258 1.2.4.2 uebayasi if (fp == NULL) { 259 1.2.4.2 uebayasi /* 260 1.2.4.2 uebayasi * Enforce upper bound on number of fragmented packets 261 1.2.4.2 uebayasi * for which we attempt reassembly: a) if maxfrag is 0, 262 1.2.4.2 uebayasi * never accept fragments b) if maxfrag is -1, accept 263 1.2.4.2 uebayasi * all fragments without limitation. 264 1.2.4.2 uebayasi */ 265 1.2.4.2 uebayasi if (ip_maxfragpackets < 0) 266 1.2.4.2 uebayasi ; 267 1.2.4.2 uebayasi else if (ip_nfragpackets >= ip_maxfragpackets) { 268 1.2.4.2 uebayasi goto dropfrag; 269 1.2.4.2 uebayasi } 270 1.2.4.2 uebayasi ip_nfragpackets++; 271 1.2.4.3 uebayasi fp = malloc(sizeof(ipfr_queue_t), M_FTABLE, M_NOWAIT); 272 1.2.4.2 uebayasi if (fp == NULL) { 273 1.2.4.2 uebayasi goto dropfrag; 274 1.2.4.2 uebayasi } 275 1.2.4.4 uebayasi TAILQ_INIT(&fp->ipq_fragq); 276 1.2.4.2 uebayasi fp->ipq_nfrags = 1; 277 1.2.4.2 uebayasi fp->ipq_ttl = IPFRAGTTL; 278 1.2.4.4 uebayasi fp->ipq_p = ip->ip_p; 279 1.2.4.4 uebayasi fp->ipq_id = ip->ip_id; 280 1.2.4.4 uebayasi fp->ipq_tos = ip->ip_tos; 281 1.2.4.4 uebayasi fp->ipq_src = ip->ip_src; 282 1.2.4.4 uebayasi fp->ipq_dst = ip->ip_dst; 283 1.2.4.4 uebayasi LIST_INSERT_HEAD(&ip_frags[hash], fp, ipq_q); 284 1.2.4.2 uebayasi p = NULL; 285 1.2.4.2 uebayasi goto insert; 286 1.2.4.2 uebayasi } else { 287 1.2.4.2 uebayasi fp->ipq_nfrags++; 288 1.2.4.2 uebayasi } 289 1.2.4.2 uebayasi 290 1.2.4.2 uebayasi /* 291 1.2.4.2 uebayasi * Find a segment which begins after this one does. 292 1.2.4.2 uebayasi */ 293 1.2.4.4 uebayasi TAILQ_FOREACH(q, &fp->ipq_fragq, ipqe_q) { 294 1.2.4.4 uebayasi if (ntohs(q->ipqe_ip->ip_off) > ntohs(ip->ip_off)) 295 1.2.4.2 uebayasi break; 296 1.2.4.4 uebayasi } 297 1.2.4.4 uebayasi if (q != NULL) { 298 1.2.4.4 uebayasi p = TAILQ_PREV(q, ipfr_qent_head, ipqe_q); 299 1.2.4.4 uebayasi } else { 300 1.2.4.4 uebayasi p = TAILQ_LAST(&fp->ipq_fragq, ipfr_qent_head); 301 1.2.4.4 uebayasi } 302 1.2.4.2 uebayasi 303 1.2.4.2 uebayasi /* 304 1.2.4.2 uebayasi * If there is a preceding segment, it may provide some of our 305 1.2.4.2 uebayasi * data already. If so, drop the data from the incoming segment. 306 1.2.4.2 uebayasi * If it provides all of our data, drop us. 307 1.2.4.2 uebayasi */ 308 1.2.4.2 uebayasi if (p != NULL) { 309 1.2.4.2 uebayasi i = ntohs(p->ipqe_ip->ip_off) + ntohs(p->ipqe_ip->ip_len) - 310 1.2.4.4 uebayasi ntohs(ip->ip_off); 311 1.2.4.2 uebayasi if (i > 0) { 312 1.2.4.4 uebayasi if (i >= ntohs(ip->ip_len)) { 313 1.2.4.2 uebayasi goto dropfrag; 314 1.2.4.2 uebayasi } 315 1.2.4.2 uebayasi m_adj(ipqe->ipqe_m, i); 316 1.2.4.4 uebayasi ip->ip_off = htons(ntohs(ip->ip_off) + i); 317 1.2.4.4 uebayasi ip->ip_len = htons(ntohs(ip->ip_len) - i); 318 1.2.4.2 uebayasi } 319 1.2.4.2 uebayasi } 320 1.2.4.2 uebayasi 321 1.2.4.2 uebayasi /* 322 1.2.4.2 uebayasi * While we overlap succeeding segments trim them or, if they are 323 1.2.4.2 uebayasi * completely covered, dequeue them. 324 1.2.4.2 uebayasi */ 325 1.2.4.4 uebayasi while (q != NULL) { 326 1.2.4.4 uebayasi size_t end; 327 1.2.4.4 uebayasi 328 1.2.4.4 uebayasi qip = q->ipqe_ip; 329 1.2.4.4 uebayasi end = ntohs(ip->ip_off) + ntohs(ip->ip_len); 330 1.2.4.4 uebayasi if (end <= ntohs(qip->ip_off)) { 331 1.2.4.4 uebayasi break; 332 1.2.4.4 uebayasi } 333 1.2.4.4 uebayasi i = end - ntohs(qip->ip_off); 334 1.2.4.4 uebayasi if (i < ntohs(qip->ip_len)) { 335 1.2.4.4 uebayasi qip->ip_len = htons(ntohs(qip->ip_len) - i); 336 1.2.4.4 uebayasi qip->ip_off = htons(ntohs(qip->ip_off) + i); 337 1.2.4.2 uebayasi m_adj(q->ipqe_m, i); 338 1.2.4.2 uebayasi break; 339 1.2.4.2 uebayasi } 340 1.2.4.2 uebayasi nq = TAILQ_NEXT(q, ipqe_q); 341 1.2.4.2 uebayasi m_freem(q->ipqe_m); 342 1.2.4.2 uebayasi TAILQ_REMOVE(&fp->ipq_fragq, q, ipqe_q); 343 1.2.4.3 uebayasi pool_cache_put(ipfren_cache, q); 344 1.2.4.2 uebayasi fp->ipq_nfrags--; 345 1.2.4.2 uebayasi ip_nfrags--; 346 1.2.4.4 uebayasi q = nq; 347 1.2.4.2 uebayasi } 348 1.2.4.2 uebayasi 349 1.2.4.2 uebayasi insert: 350 1.2.4.2 uebayasi /* 351 1.2.4.2 uebayasi * Stick new segment in its place; check for complete reassembly. 352 1.2.4.2 uebayasi */ 353 1.2.4.2 uebayasi if (p == NULL) { 354 1.2.4.2 uebayasi TAILQ_INSERT_HEAD(&fp->ipq_fragq, ipqe, ipqe_q); 355 1.2.4.2 uebayasi } else { 356 1.2.4.2 uebayasi TAILQ_INSERT_AFTER(&fp->ipq_fragq, p, ipqe, ipqe_q); 357 1.2.4.2 uebayasi } 358 1.2.4.2 uebayasi next = 0; 359 1.2.4.4 uebayasi TAILQ_FOREACH(q, &fp->ipq_fragq, ipqe_q) { 360 1.2.4.4 uebayasi qip = q->ipqe_ip; 361 1.2.4.4 uebayasi if (ntohs(qip->ip_off) != next) { 362 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 363 1.2.4.2 uebayasi return NULL; 364 1.2.4.2 uebayasi } 365 1.2.4.4 uebayasi next += ntohs(qip->ip_len); 366 1.2.4.2 uebayasi } 367 1.2.4.4 uebayasi p = TAILQ_LAST(&fp->ipq_fragq, ipfr_qent_head); 368 1.2.4.2 uebayasi if (p->ipqe_mff) { 369 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 370 1.2.4.2 uebayasi return NULL; 371 1.2.4.2 uebayasi } 372 1.2.4.4 uebayasi 373 1.2.4.2 uebayasi /* 374 1.2.4.3 uebayasi * Reassembly is complete. Check for a bogus message size. 375 1.2.4.2 uebayasi */ 376 1.2.4.2 uebayasi q = TAILQ_FIRST(&fp->ipq_fragq); 377 1.2.4.2 uebayasi ip = q->ipqe_ip; 378 1.2.4.2 uebayasi if ((next + (ip->ip_hl << 2)) > IP_MAXPACKET) { 379 1.2.4.2 uebayasi IP_STATINC(IP_STAT_TOOLONG); 380 1.2.4.2 uebayasi ip_freef(fp); 381 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 382 1.2.4.2 uebayasi return NULL; 383 1.2.4.2 uebayasi } 384 1.2.4.3 uebayasi LIST_REMOVE(fp, ipq_q); 385 1.2.4.3 uebayasi ip_nfrags -= fp->ipq_nfrags; 386 1.2.4.3 uebayasi ip_nfragpackets--; 387 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 388 1.2.4.3 uebayasi 389 1.2.4.3 uebayasi /* Concatenate all fragments. */ 390 1.2.4.2 uebayasi m = q->ipqe_m; 391 1.2.4.2 uebayasi t = m->m_next; 392 1.2.4.2 uebayasi m->m_next = NULL; 393 1.2.4.2 uebayasi m_cat(m, t); 394 1.2.4.2 uebayasi nq = TAILQ_NEXT(q, ipqe_q); 395 1.2.4.3 uebayasi pool_cache_put(ipfren_cache, q); 396 1.2.4.3 uebayasi 397 1.2.4.2 uebayasi for (q = nq; q != NULL; q = nq) { 398 1.2.4.2 uebayasi t = q->ipqe_m; 399 1.2.4.2 uebayasi nq = TAILQ_NEXT(q, ipqe_q); 400 1.2.4.3 uebayasi pool_cache_put(ipfren_cache, q); 401 1.2.4.2 uebayasi m_cat(m, t); 402 1.2.4.2 uebayasi } 403 1.2.4.2 uebayasi 404 1.2.4.2 uebayasi /* 405 1.2.4.2 uebayasi * Create header for new packet by modifying header of first 406 1.2.4.2 uebayasi * packet. Dequeue and discard fragment reassembly header. Make 407 1.2.4.2 uebayasi * header visible. 408 1.2.4.2 uebayasi */ 409 1.2.4.2 uebayasi ip->ip_len = htons((ip->ip_hl << 2) + next); 410 1.2.4.2 uebayasi ip->ip_src = fp->ipq_src; 411 1.2.4.2 uebayasi ip->ip_dst = fp->ipq_dst; 412 1.2.4.2 uebayasi free(fp, M_FTABLE); 413 1.2.4.3 uebayasi 414 1.2.4.2 uebayasi m->m_len += (ip->ip_hl << 2); 415 1.2.4.2 uebayasi m->m_data -= (ip->ip_hl << 2); 416 1.2.4.3 uebayasi 417 1.2.4.3 uebayasi /* Fix up mbuf. XXX This should be done elsewhere. */ 418 1.2.4.3 uebayasi if (m->m_flags & M_PKTHDR) { 419 1.2.4.2 uebayasi int plen = 0; 420 1.2.4.2 uebayasi for (t = m; t; t = t->m_next) { 421 1.2.4.2 uebayasi plen += t->m_len; 422 1.2.4.2 uebayasi } 423 1.2.4.2 uebayasi m->m_pkthdr.len = plen; 424 1.2.4.2 uebayasi m->m_pkthdr.csum_flags = 0; 425 1.2.4.2 uebayasi } 426 1.2.4.2 uebayasi return m; 427 1.2.4.2 uebayasi 428 1.2.4.2 uebayasi dropfrag: 429 1.2.4.2 uebayasi if (fp != NULL) { 430 1.2.4.2 uebayasi fp->ipq_nfrags--; 431 1.2.4.2 uebayasi } 432 1.2.4.2 uebayasi ip_nfrags--; 433 1.2.4.2 uebayasi IP_STATINC(IP_STAT_FRAGDROPPED); 434 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 435 1.2.4.3 uebayasi 436 1.2.4.3 uebayasi pool_cache_put(ipfren_cache, ipqe); 437 1.2.4.2 uebayasi m_freem(m); 438 1.2.4.2 uebayasi return NULL; 439 1.2.4.2 uebayasi } 440 1.2.4.2 uebayasi 441 1.2.4.2 uebayasi /* 442 1.2.4.2 uebayasi * ip_freef: 443 1.2.4.2 uebayasi * 444 1.2.4.2 uebayasi * Free a fragment reassembly header and all associated datagrams. 445 1.2.4.2 uebayasi */ 446 1.2.4.2 uebayasi static void 447 1.2.4.3 uebayasi ip_freef(ipfr_queue_t *fp) 448 1.2.4.2 uebayasi { 449 1.2.4.3 uebayasi ipfr_qent_t *q; 450 1.2.4.2 uebayasi 451 1.2.4.3 uebayasi KASSERT(mutex_owned(&ipfr_lock)); 452 1.2.4.2 uebayasi 453 1.2.4.3 uebayasi LIST_REMOVE(fp, ipq_q); 454 1.2.4.3 uebayasi ip_nfrags -= fp->ipq_nfrags; 455 1.2.4.3 uebayasi ip_nfragpackets--; 456 1.2.4.2 uebayasi 457 1.2.4.3 uebayasi while ((q = TAILQ_FIRST(&fp->ipq_fragq)) != NULL) { 458 1.2.4.3 uebayasi TAILQ_REMOVE(&fp->ipq_fragq, q, ipqe_q); 459 1.2.4.3 uebayasi m_freem(q->ipqe_m); 460 1.2.4.3 uebayasi pool_cache_put(ipfren_cache, q); 461 1.2.4.2 uebayasi } 462 1.2.4.2 uebayasi free(fp, M_FTABLE); 463 1.2.4.2 uebayasi } 464 1.2.4.2 uebayasi 465 1.2.4.2 uebayasi /* 466 1.2.4.2 uebayasi * ip_reass_ttl_decr: 467 1.2.4.2 uebayasi * 468 1.2.4.2 uebayasi * Decrement TTL of all reasembly queue entries by `ticks'. Count 469 1.2.4.2 uebayasi * number of distinct fragments (as opposed to partial, fragmented 470 1.2.4.2 uebayasi * datagrams) inthe reassembly queue. While we traverse the entire 471 1.2.4.2 uebayasi * reassembly queue, compute and return the median TTL over all 472 1.2.4.2 uebayasi * fragments. 473 1.2.4.2 uebayasi */ 474 1.2.4.2 uebayasi static u_int 475 1.2.4.2 uebayasi ip_reass_ttl_decr(u_int ticks) 476 1.2.4.2 uebayasi { 477 1.2.4.2 uebayasi u_int nfrags, median, dropfraction, keepfraction; 478 1.2.4.3 uebayasi ipfr_queue_t *fp, *nfp; 479 1.2.4.2 uebayasi int i; 480 1.2.4.2 uebayasi 481 1.2.4.2 uebayasi nfrags = 0; 482 1.2.4.2 uebayasi memset(fragttl_histo, 0, sizeof(fragttl_histo)); 483 1.2.4.2 uebayasi 484 1.2.4.2 uebayasi for (i = 0; i < IPREASS_HASH_SIZE; i++) { 485 1.2.4.3 uebayasi for (fp = LIST_FIRST(&ip_frags[i]); fp != NULL; fp = nfp) { 486 1.2.4.2 uebayasi fp->ipq_ttl = ((fp->ipq_ttl <= ticks) ? 487 1.2.4.2 uebayasi 0 : fp->ipq_ttl - ticks); 488 1.2.4.2 uebayasi nfp = LIST_NEXT(fp, ipq_q); 489 1.2.4.2 uebayasi if (fp->ipq_ttl == 0) { 490 1.2.4.2 uebayasi IP_STATINC(IP_STAT_FRAGTIMEOUT); 491 1.2.4.2 uebayasi ip_freef(fp); 492 1.2.4.2 uebayasi } else { 493 1.2.4.2 uebayasi nfrags += fp->ipq_nfrags; 494 1.2.4.2 uebayasi fragttl_histo[fp->ipq_ttl] += fp->ipq_nfrags; 495 1.2.4.2 uebayasi } 496 1.2.4.2 uebayasi } 497 1.2.4.2 uebayasi } 498 1.2.4.2 uebayasi 499 1.2.4.2 uebayasi KASSERT(ip_nfrags == nfrags); 500 1.2.4.2 uebayasi 501 1.2.4.2 uebayasi /* Find median (or other drop fraction) in histogram. */ 502 1.2.4.2 uebayasi dropfraction = (ip_nfrags / 2); 503 1.2.4.2 uebayasi keepfraction = ip_nfrags - dropfraction; 504 1.2.4.2 uebayasi for (i = IPFRAGTTL, median = 0; i >= 0; i--) { 505 1.2.4.2 uebayasi median += fragttl_histo[i]; 506 1.2.4.2 uebayasi if (median >= keepfraction) 507 1.2.4.2 uebayasi break; 508 1.2.4.2 uebayasi } 509 1.2.4.2 uebayasi 510 1.2.4.2 uebayasi /* Return TTL of median (or other fraction). */ 511 1.2.4.2 uebayasi return (u_int)i; 512 1.2.4.2 uebayasi } 513 1.2.4.2 uebayasi 514 1.2.4.2 uebayasi static void 515 1.2.4.2 uebayasi ip_reass_drophalf(void) 516 1.2.4.2 uebayasi { 517 1.2.4.2 uebayasi u_int median_ticks; 518 1.2.4.2 uebayasi 519 1.2.4.3 uebayasi KASSERT(mutex_owned(&ipfr_lock)); 520 1.2.4.3 uebayasi 521 1.2.4.2 uebayasi /* 522 1.2.4.2 uebayasi * Compute median TTL of all fragments, and count frags 523 1.2.4.2 uebayasi * with that TTL or lower (roughly half of all fragments). 524 1.2.4.2 uebayasi */ 525 1.2.4.2 uebayasi median_ticks = ip_reass_ttl_decr(0); 526 1.2.4.2 uebayasi 527 1.2.4.2 uebayasi /* Drop half. */ 528 1.2.4.2 uebayasi median_ticks = ip_reass_ttl_decr(median_ticks); 529 1.2.4.2 uebayasi } 530 1.2.4.2 uebayasi 531 1.2.4.2 uebayasi /* 532 1.2.4.2 uebayasi * ip_reass_drain: drain off all datagram fragments. Do not acquire 533 1.2.4.2 uebayasi * softnet_lock as can be called from hardware interrupt context. 534 1.2.4.2 uebayasi */ 535 1.2.4.2 uebayasi void 536 1.2.4.2 uebayasi ip_reass_drain(void) 537 1.2.4.2 uebayasi { 538 1.2.4.2 uebayasi 539 1.2.4.2 uebayasi /* 540 1.2.4.2 uebayasi * We may be called from a device's interrupt context. If 541 1.2.4.2 uebayasi * the ipq is already busy, just bail out now. 542 1.2.4.2 uebayasi */ 543 1.2.4.3 uebayasi if (mutex_tryenter(&ipfr_lock)) { 544 1.2.4.2 uebayasi /* 545 1.2.4.2 uebayasi * Drop half the total fragments now. If more mbufs are 546 1.2.4.2 uebayasi * needed, we will be called again soon. 547 1.2.4.2 uebayasi */ 548 1.2.4.2 uebayasi ip_reass_drophalf(); 549 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 550 1.2.4.2 uebayasi } 551 1.2.4.2 uebayasi } 552 1.2.4.2 uebayasi 553 1.2.4.2 uebayasi /* 554 1.2.4.2 uebayasi * ip_reass_slowtimo: 555 1.2.4.2 uebayasi * 556 1.2.4.2 uebayasi * If a timer expires on a reassembly queue, discard it. 557 1.2.4.2 uebayasi */ 558 1.2.4.2 uebayasi void 559 1.2.4.2 uebayasi ip_reass_slowtimo(void) 560 1.2.4.2 uebayasi { 561 1.2.4.2 uebayasi static u_int dropscanidx = 0; 562 1.2.4.2 uebayasi u_int i, median_ttl; 563 1.2.4.2 uebayasi 564 1.2.4.3 uebayasi mutex_enter(&ipfr_lock); 565 1.2.4.2 uebayasi 566 1.2.4.2 uebayasi /* Age TTL of all fragments by 1 tick .*/ 567 1.2.4.2 uebayasi median_ttl = ip_reass_ttl_decr(1); 568 1.2.4.2 uebayasi 569 1.2.4.2 uebayasi /* Make sure fragment limit is up-to-date. */ 570 1.2.4.2 uebayasi CHECK_NMBCLUSTER_PARAMS(); 571 1.2.4.2 uebayasi 572 1.2.4.2 uebayasi /* If we have too many fragments, drop the older half. */ 573 1.2.4.2 uebayasi if (ip_nfrags > ip_maxfrags) { 574 1.2.4.2 uebayasi ip_reass_ttl_decr(median_ttl); 575 1.2.4.2 uebayasi } 576 1.2.4.2 uebayasi 577 1.2.4.2 uebayasi /* 578 1.2.4.2 uebayasi * If we are over the maximum number of fragmented packets (due to 579 1.2.4.2 uebayasi * the limit being lowered), drain off enough to get down to the 580 1.2.4.2 uebayasi * new limit. Start draining from the reassembly hashqueue most 581 1.2.4.2 uebayasi * recently drained. 582 1.2.4.2 uebayasi */ 583 1.2.4.2 uebayasi if (ip_maxfragpackets < 0) 584 1.2.4.2 uebayasi ; 585 1.2.4.2 uebayasi else { 586 1.2.4.2 uebayasi int wrapped = 0; 587 1.2.4.2 uebayasi 588 1.2.4.2 uebayasi i = dropscanidx; 589 1.2.4.2 uebayasi while (ip_nfragpackets > ip_maxfragpackets && wrapped == 0) { 590 1.2.4.3 uebayasi while (LIST_FIRST(&ip_frags[i]) != NULL) { 591 1.2.4.3 uebayasi ip_freef(LIST_FIRST(&ip_frags[i])); 592 1.2.4.2 uebayasi } 593 1.2.4.2 uebayasi if (++i >= IPREASS_HASH_SIZE) { 594 1.2.4.2 uebayasi i = 0; 595 1.2.4.2 uebayasi } 596 1.2.4.2 uebayasi /* 597 1.2.4.2 uebayasi * Do not scan forever even if fragment counters are 598 1.2.4.2 uebayasi * wrong: stop after scanning entire reassembly queue. 599 1.2.4.2 uebayasi */ 600 1.2.4.2 uebayasi if (i == dropscanidx) { 601 1.2.4.2 uebayasi wrapped = 1; 602 1.2.4.2 uebayasi } 603 1.2.4.2 uebayasi } 604 1.2.4.2 uebayasi dropscanidx = i; 605 1.2.4.2 uebayasi } 606 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 607 1.2.4.2 uebayasi } 608 1.2.4.2 uebayasi 609 1.2.4.2 uebayasi /* 610 1.2.4.2 uebayasi * ip_reass_packet: generic routine to perform IP reassembly. 611 1.2.4.2 uebayasi * 612 1.2.4.2 uebayasi * => Passed fragment should have IP_MF flag and/or offset set. 613 1.2.4.2 uebayasi * => Fragment should not have other than IP_MF flags set. 614 1.2.4.2 uebayasi * 615 1.2.4.4 uebayasi * => Returns 0 on success or error otherwise. 616 1.2.4.4 uebayasi * => On complete, m0 represents a constructed final packet. 617 1.2.4.2 uebayasi */ 618 1.2.4.2 uebayasi int 619 1.2.4.4 uebayasi ip_reass_packet(struct mbuf **m0, struct ip *ip) 620 1.2.4.2 uebayasi { 621 1.2.4.4 uebayasi const int hlen = ip->ip_hl << 2; 622 1.2.4.4 uebayasi const int len = ntohs(ip->ip_len); 623 1.2.4.4 uebayasi struct mbuf *m = *m0; 624 1.2.4.3 uebayasi ipfr_queue_t *fp; 625 1.2.4.3 uebayasi ipfr_qent_t *ipqe; 626 1.2.4.4 uebayasi u_int hash, off, flen; 627 1.2.4.4 uebayasi bool mff; 628 1.2.4.4 uebayasi 629 1.2.4.4 uebayasi /* 630 1.2.4.4 uebayasi * Prevent TCP blind data attacks by not allowing non-initial 631 1.2.4.4 uebayasi * fragments to start at less than 68 bytes (minimal fragment 632 1.2.4.4 uebayasi * size) and making sure the first fragment is at least 68 633 1.2.4.4 uebayasi * bytes. 634 1.2.4.4 uebayasi */ 635 1.2.4.4 uebayasi off = (ntohs(ip->ip_off) & IP_OFFMASK) << 3; 636 1.2.4.4 uebayasi if ((off > 0 ? off + hlen : len) < IP_MINFRAGSIZE - 1) { 637 1.2.4.4 uebayasi IP_STATINC(IP_STAT_BADFRAGS); 638 1.2.4.4 uebayasi return EINVAL; 639 1.2.4.4 uebayasi } 640 1.2.4.4 uebayasi 641 1.2.4.4 uebayasi /* 642 1.2.4.4 uebayasi * Fragment length and MF flag. Make sure that fragments have 643 1.2.4.4 uebayasi * a data length which is non-zero and multiple of 8 bytes. 644 1.2.4.4 uebayasi */ 645 1.2.4.4 uebayasi flen = ntohs(ip->ip_len) - hlen; 646 1.2.4.4 uebayasi mff = (ip->ip_off & htons(IP_MF)) != 0; 647 1.2.4.4 uebayasi if (mff && (flen == 0 || (flen & 0x7) != 0)) { 648 1.2.4.4 uebayasi IP_STATINC(IP_STAT_BADFRAGS); 649 1.2.4.4 uebayasi return EINVAL; 650 1.2.4.4 uebayasi } 651 1.2.4.4 uebayasi 652 1.2.4.4 uebayasi /* 653 1.2.4.4 uebayasi * Adjust total IP length to not reflect header and convert 654 1.2.4.4 uebayasi * offset of this to bytes. XXX: clobbers struct ip. 655 1.2.4.4 uebayasi */ 656 1.2.4.4 uebayasi ip->ip_len = htons(flen); 657 1.2.4.4 uebayasi ip->ip_off = htons(off); 658 1.2.4.2 uebayasi 659 1.2.4.2 uebayasi /* Look for queue of fragments of this datagram. */ 660 1.2.4.3 uebayasi mutex_enter(&ipfr_lock); 661 1.2.4.3 uebayasi hash = IPREASS_HASH(ip->ip_src.s_addr, ip->ip_id); 662 1.2.4.3 uebayasi LIST_FOREACH(fp, &ip_frags[hash], ipq_q) { 663 1.2.4.3 uebayasi if (ip->ip_id != fp->ipq_id) 664 1.2.4.3 uebayasi continue; 665 1.2.4.3 uebayasi if (!in_hosteq(ip->ip_src, fp->ipq_src)) 666 1.2.4.3 uebayasi continue; 667 1.2.4.3 uebayasi if (!in_hosteq(ip->ip_dst, fp->ipq_dst)) 668 1.2.4.3 uebayasi continue; 669 1.2.4.3 uebayasi if (ip->ip_p != fp->ipq_p) 670 1.2.4.3 uebayasi continue; 671 1.2.4.3 uebayasi break; 672 1.2.4.3 uebayasi } 673 1.2.4.2 uebayasi 674 1.2.4.2 uebayasi /* Make sure that TOS matches previous fragments. */ 675 1.2.4.2 uebayasi if (fp && fp->ipq_tos != ip->ip_tos) { 676 1.2.4.2 uebayasi IP_STATINC(IP_STAT_BADFRAGS); 677 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 678 1.2.4.2 uebayasi return EINVAL; 679 1.2.4.2 uebayasi } 680 1.2.4.2 uebayasi 681 1.2.4.2 uebayasi /* 682 1.2.4.2 uebayasi * Create new entry and attempt to reassembly. 683 1.2.4.2 uebayasi */ 684 1.2.4.2 uebayasi IP_STATINC(IP_STAT_FRAGMENTS); 685 1.2.4.3 uebayasi ipqe = pool_cache_get(ipfren_cache, PR_NOWAIT); 686 1.2.4.2 uebayasi if (ipqe == NULL) { 687 1.2.4.2 uebayasi IP_STATINC(IP_STAT_RCVMEMDROP); 688 1.2.4.3 uebayasi mutex_exit(&ipfr_lock); 689 1.2.4.2 uebayasi return ENOMEM; 690 1.2.4.2 uebayasi } 691 1.2.4.2 uebayasi ipqe->ipqe_mff = mff; 692 1.2.4.2 uebayasi ipqe->ipqe_m = m; 693 1.2.4.2 uebayasi ipqe->ipqe_ip = ip; 694 1.2.4.2 uebayasi 695 1.2.4.4 uebayasi *m0 = ip_reass(ipqe, fp, hash); 696 1.2.4.4 uebayasi if (*m0) { 697 1.2.4.4 uebayasi /* Note that finally reassembled. */ 698 1.2.4.2 uebayasi IP_STATINC(IP_STAT_REASSEMBLED); 699 1.2.4.2 uebayasi } 700 1.2.4.2 uebayasi return 0; 701 1.2.4.2 uebayasi } 702
Indexes created Thu Oct 23 22:10:10 GMT 2025