1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* 22 * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 23 * Use is subject to license terms. 24 */ 25 26 #ifndef STATES_H 27 #define STATES_H 28 29 #include <sys/types.h> 30 #include <netinet/in.h> 31 #include <netinet/dhcp.h> 32 #include <libinetutil.h> 33 34 #include "common.h" 35 #include "ipc_action.h" 36 #include "async.h" 37 #include "packet.h" 38 #include "util.h" 39 40 /* 41 * interfaces for state transition/action functions. these functions 42 * can be found in suitably named .c files, such as inform.c, select.c, 43 * renew.c, etc. 44 */ 45 46 #ifdef __cplusplus 47 extern "C" { 48 #endif 49 50 /* 51 * DHCP state machine representation: includes all of the information used for 52 * a state machine instance. For IPv4, this represents a single logical 53 * interface and (usually) a leased address. For IPv6, it represents a 54 * DUID+IAID combination. Note that if multiple DUID+IAID instances are one 55 * day allowed per interface, this will need to become a list. 56 */ 57 struct dhcp_smach_s { 58 dhcp_smach_t *dsm_next; /* Note: must be first */ 59 dhcp_smach_t *dsm_prev; 60 61 /* 62 * The name of the state machine. This is currently just a pointer to 63 * the controlling LIF's name, but could be otherwise. 64 */ 65 const char *dsm_name; 66 dhcp_lif_t *dsm_lif; /* Controlling LIF */ 67 uint_t dsm_hold_count; /* reference count */ 68 69 dhcp_lease_t *dsm_leases; /* List of leases */ 70 uint_t dsm_lif_wait; /* LIFs waiting on DAD */ 71 uint_t dsm_lif_down; /* LIFs failed */ 72 73 /* 74 * each state machine can have at most one pending asynchronous 75 * action, which is represented in a `struct async_action'. 76 * if that asynchronous action was a result of a user request, 77 * then the `struct ipc_action' is used to hold information 78 * about the user request. these structures are opaque to 79 * users of the ifslist, and the functional interfaces 80 * provided in async.[ch] and ipc_action.[ch] should be used 81 * to maintain them. 82 */ 83 84 ipc_action_t dsm_ia; 85 async_action_t dsm_async; 86 87 uchar_t *dsm_cid; /* client id */ 88 uchar_t dsm_cidlen; /* client id len */ 89 90 /* 91 * current state of the machine 92 */ 93 94 DHCPSTATE dsm_state; 95 boolean_t dsm_droprelease; /* soon to call finished_smach */ 96 97 uint16_t dsm_dflags; /* DHCP_IF_* (shared with IPC) */ 98 99 uint16_t *dsm_prl; /* if non-NULL, param request list */ 100 uint_t dsm_prllen; /* param request list len */ 101 uint16_t *dsm_pil; /* if non-NULL, param ignore list */ 102 uint_t dsm_pillen; /* param ignore list len */ 103 104 uint_t dsm_nrouters; /* the number of default routers */ 105 struct in_addr *dsm_routers; /* an array of default routers */ 106 107 in6_addr_t dsm_server; /* our DHCP server */ 108 uchar_t *dsm_serverid; /* server DUID for v6 */ 109 uint_t dsm_serveridlen; /* DUID length */ 110 111 /* 112 * We retain the very first ack obtained on the state machine to 113 * provide access to options which were originally assigned by 114 * the server but may not have been included in subsequent 115 * acks, as there are servers which do this and customers have 116 * had unsatisfactory results when using our agent with them. 117 * ipc_event() in agent.c provides a fallback to the original 118 * ack when the current ack doesn't have the information 119 * requested. 120 * 121 * Note that neither of these is actually a list of packets. There's 122 * exactly one packet here, so use free_pkt_entry. 123 */ 124 PKT_LIST *dsm_ack; 125 PKT_LIST *dsm_orig_ack; 126 127 /* 128 * other miscellaneous variables set or needed in the process 129 * of acquiring a lease. 130 */ 131 132 int dsm_offer_wait; /* seconds between sending offers */ 133 iu_timer_id_t dsm_offer_timer; /* timer associated with offer wait */ 134 135 /* 136 * time we sent the DISCOVER relative to dsm_neg_hrtime, so that the 137 * REQUEST can have the same pkt->secs. 138 */ 139 140 uint16_t dsm_disc_secs; 141 142 /* 143 * this is a chain of packets which have been received on this 144 * state machine over some interval of time. the packets may have 145 * to meet some criteria in order to be put on this list. in 146 * general, packets are put on this list through recv_pkt() 147 */ 148 149 PKT_LIST *dsm_recv_pkt_list; 150 151 /* 152 * these three fields are initially zero, and get incremented 153 * as the ifslist goes from INIT -> BOUND. if and when the 154 * ifslist moves to the RENEWING state, these fields are 155 * reset, so they always either indicate the number of packets 156 * sent, received, and declined while obtaining the current 157 * lease (if BOUND), or the number of packets sent, received, 158 * and declined while attempting to obtain a future lease 159 * (if any other state). 160 */ 161 162 uint32_t dsm_sent; 163 uint32_t dsm_received; 164 uint32_t dsm_bad_offers; 165 166 /* 167 * dsm_send_pkt.pkt is dynamically allocated to be as big a 168 * packet as we can send out on this state machine. the remainder 169 * of this information is needed to make it easy to handle 170 * retransmissions. note that other than dsm_bad_offers, all 171 * of these fields are maintained internally in send_pkt(), 172 * and consequently should never need to be modified by any 173 * other functions. 174 */ 175 176 dhcp_pkt_t dsm_send_pkt; 177 union { 178 struct sockaddr_in v4; 179 struct sockaddr_in6 v6; 180 } dsm_send_dest; 181 182 /* 183 * For v4, dsm_send_tcenter is used to track the central timer value in 184 * milliseconds (4000, 8000, 16000, 32000, 64000), and dsm_send_timeout 185 * is that value plus the +/- 1000 millisecond fuzz. 186 * 187 * For v6, dsm_send_tcenter is the MRT (maximum retransmit timer) 188 * value, and dsm_send_timeout must be set to the IRT (initial 189 * retransmit timer) value by the sender. 190 */ 191 uint_t dsm_send_timeout; 192 uint_t dsm_send_tcenter; 193 stop_func_t *dsm_send_stop_func; 194 uint32_t dsm_packet_sent; 195 iu_timer_id_t dsm_retrans_timer; 196 197 /* 198 * The host name we've been asked to request is remembered 199 * here between the DISCOVER and the REQUEST. (v4 only) 200 */ 201 char *dsm_reqhost; 202 203 /* 204 * V4 and V6 use slightly different timers. For v4, we must count 205 * seconds from the point where we first try to configure the 206 * interface. For v6, only seconds while performing a transaction 207 * matter. 208 * 209 * In v4, `dsm_neg_hrtime' represents the time since DHCP started 210 * configuring the interface, and is used for computing the pkt->secs 211 * field in v4. In v6, it represents the time since the current 212 * transaction (if any) was started, and is used for the ELAPSED_TIME 213 * option. 214 * 215 * `dsm_newstart_monosec' represents the time the ACKed REQUEST was 216 * sent, which represents the start time of a new batch of leases. 217 * When the lease time actually begins (and thus becomes current), 218 * `dsm_curstart_monosec' is set to `dsm_newstart_monosec'. 219 */ 220 hrtime_t dsm_neg_hrtime; 221 monosec_t dsm_newstart_monosec; 222 monosec_t dsm_curstart_monosec; 223 224 int dsm_script_fd; 225 pid_t dsm_script_pid; 226 pid_t dsm_script_helper_pid; 227 const char *dsm_script_event; 228 iu_event_id_t dsm_script_event_id; 229 void *dsm_callback_arg; 230 script_callback_t *dsm_script_callback; 231 232 iu_timer_id_t dsm_start_timer; 233 }; 234 235 #define dsm_isv6 dsm_lif->lif_pif->pif_isv6 236 #define dsm_hwtype dsm_lif->lif_pif->pif_hwtype 237 238 struct dhcp_lease_s { 239 dhcp_lease_t *dl_next; /* Note: must be first */ 240 dhcp_lease_t *dl_prev; 241 242 dhcp_smach_t *dl_smach; /* back pointer to state machine */ 243 dhcp_lif_t *dl_lifs; /* LIFs configured by this lease */ 244 uint_t dl_nlifs; /* Number of configured LIFs */ 245 uint_t dl_hold_count; /* reference counter */ 246 boolean_t dl_removed; /* Set if removed from list */ 247 boolean_t dl_stale; /* not updated by Renew/bind */ 248 249 /* 250 * the following fields are set when a lease is acquired, and 251 * may be updated over the lifetime of the lease. they are 252 * all reset by reset_smach(). 253 */ 254 255 dhcp_timer_t dl_t1; /* relative renewal start time, hbo */ 256 dhcp_timer_t dl_t2; /* relative rebinding start time, hbo */ 257 }; 258 259 /* The IU event callback functions */ 260 iu_eh_callback_t dhcp_acknak_global; 261 iu_eh_callback_t dhcp_packet_lif; 262 263 /* Common state-machine related routines throughout dhcpagent */ 264 boolean_t dhcp_adopt(void); 265 void dhcp_adopt_complete(dhcp_smach_t *); 266 boolean_t dhcp_bound(dhcp_smach_t *, PKT_LIST *); 267 void dhcp_bound_complete(dhcp_smach_t *); 268 int dhcp_drop(dhcp_smach_t *, void *); 269 void dhcp_deprecate(iu_tq_t *, void *); 270 void dhcp_expire(iu_tq_t *, void *); 271 boolean_t dhcp_extending(dhcp_smach_t *); 272 void dhcp_inform(dhcp_smach_t *); 273 void dhcp_init_reboot(dhcp_smach_t *); 274 void dhcp_rebind(iu_tq_t *, void *); 275 int dhcp_release(dhcp_smach_t *, void *); 276 void dhcp_renew(iu_tq_t *, void *); 277 void dhcp_requesting(iu_tq_t *, void *); 278 void dhcp_restart(dhcp_smach_t *); 279 void dhcp_selecting(dhcp_smach_t *); 280 boolean_t set_start_timer(dhcp_smach_t *); 281 void send_declines(dhcp_smach_t *); 282 void send_v6_request(dhcp_smach_t *); 283 boolean_t save_server_id(dhcp_smach_t *, PKT_LIST *); 284 void server_unicast_option(dhcp_smach_t *, PKT_LIST *); 285 286 /* State machine support functions in states.c */ 287 dhcp_smach_t *insert_smach(dhcp_lif_t *, int *); 288 void hold_smach(dhcp_smach_t *); 289 void release_smach(dhcp_smach_t *); 290 void remove_smach(dhcp_smach_t *); 291 dhcp_smach_t *next_smach(dhcp_smach_t *, boolean_t); 292 dhcp_smach_t *primary_smach(boolean_t); 293 dhcp_smach_t *info_primary_smach(boolean_t); 294 void make_primary(dhcp_smach_t *); 295 dhcp_smach_t *lookup_smach(const char *, boolean_t); 296 dhcp_smach_t *lookup_smach_by_uindex(uint16_t, dhcp_smach_t *, boolean_t); 297 dhcp_smach_t *lookup_smach_by_xid(uint32_t, dhcp_smach_t *, boolean_t); 298 dhcp_smach_t *lookup_smach_by_event(iu_event_id_t); 299 void finished_smach(dhcp_smach_t *, int); 300 boolean_t set_smach_state(dhcp_smach_t *, DHCPSTATE); 301 int get_smach_cid(dhcp_smach_t *); 302 boolean_t verify_smach(dhcp_smach_t *); 303 uint_t smach_count(void); 304 void reset_smach(dhcp_smach_t *); 305 void refresh_smachs(iu_eh_t *, int, void *); 306 void refresh_smach(dhcp_smach_t *); 307 void nuke_smach_list(void); 308 boolean_t schedule_smach_timer(dhcp_smach_t *, int, uint32_t, 309 iu_tq_callback_t *); 310 void cancel_offer_timer(dhcp_smach_t *); 311 void cancel_smach_timers(dhcp_smach_t *); 312 void discard_default_routes(dhcp_smach_t *); 313 void remove_default_routes(dhcp_smach_t *); 314 boolean_t is_bound_state(DHCPSTATE); 315 316 /* Lease-related support functions in states.c */ 317 dhcp_lease_t *insert_lease(dhcp_smach_t *); 318 void hold_lease(dhcp_lease_t *); 319 void release_lease(dhcp_lease_t *); 320 void remove_lease(dhcp_lease_t *); 321 void deprecate_leases(dhcp_smach_t *); 322 void cancel_lease_timers(dhcp_lease_t *); 323 boolean_t schedule_lease_timer(dhcp_lease_t *, dhcp_timer_t *, 324 iu_tq_callback_t *); 325 326 #ifdef __cplusplus 327 } 328 #endif 329 330 #endif /* STATES_H */ 331