1 /*- 2 * Copyright (c) 1996-1999 Whistle Communications, Inc. 3 * All rights reserved. 4 * 5 * Subject to the following obligations and disclaimer of warranty, use and 6 * redistribution of this software, in source or object code forms, with or 7 * without modifications are expressly permitted by Whistle Communications; 8 * provided, however, that: 9 * 1. Any and all reproductions of the source or object code must include the 10 * copyright notice above and the following disclaimer of warranties; and 11 * 2. No rights are granted, in any manner or form, to use Whistle 12 * Communications, Inc. trademarks, including the mark "WHISTLE 13 * COMMUNICATIONS" on advertising, endorsements, or otherwise except as 14 * such appears in the above copyright notice or in the software. 15 * 16 * THIS SOFTWARE IS BEING PROVIDED BY WHISTLE COMMUNICATIONS "AS IS", AND 17 * TO THE MAXIMUM EXTENT PERMITTED BY LAW, WHISTLE COMMUNICATIONS MAKES NO 18 * REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED, REGARDING THIS SOFTWARE, 19 * INCLUDING WITHOUT LIMITATION, ANY AND ALL IMPLIED WARRANTIES OF 20 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, OR NON-INFRINGEMENT. 21 * WHISTLE COMMUNICATIONS DOES NOT WARRANT, GUARANTEE, OR MAKE ANY 22 * REPRESENTATIONS REGARDING THE USE OF, OR THE RESULTS OF THE USE OF THIS 23 * SOFTWARE IN TERMS OF ITS CORRECTNESS, ACCURACY, RELIABILITY OR OTHERWISE. 24 * IN NO EVENT SHALL WHISTLE COMMUNICATIONS BE LIABLE FOR ANY DAMAGES 25 * RESULTING FROM OR ARISING OUT OF ANY USE OF THIS SOFTWARE, INCLUDING 26 * WITHOUT LIMITATION, ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, 27 * PUNITIVE, OR CONSEQUENTIAL DAMAGES, PROCUREMENT OF SUBSTITUTE GOODS OR 28 * SERVICES, LOSS OF USE, DATA OR PROFITS, HOWEVER CAUSED AND UNDER ANY 29 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 * THIS SOFTWARE, EVEN IF WHISTLE COMMUNICATIONS IS ADVISED OF THE POSSIBILITY 32 * OF SUCH DAMAGE. 33 * 34 * Authors: Julian Elischer <julian@freebsd.org> 35 * Archie Cobbs <archie@freebsd.org> 36 * 37 * $FreeBSD: src/sys/netgraph/ng_base.c,v 1.159 2008/04/19 05:30:49 mav Exp $ 38 * $Whistle: ng_base.c,v 1.39 1999/01/28 23:54:53 julian Exp $ 39 */ 40 41 /* 42 * This file implements the base netgraph code. 43 */ 44 45 #include <sys/param.h> 46 #include <sys/systm.h> 47 #include <sys/ctype.h> 48 #include <sys/errno.h> 49 #include <sys/hash.h> 50 /*#include <sys/kdb.h>*/ 51 #include <sys/kernel.h> 52 #include <sys/limits.h> 53 #include <sys/malloc.h> 54 #include <sys/mbuf.h> 55 #include <sys/msgport2.h> 56 #include <sys/mutex2.h> 57 #include <sys/objcache.h> 58 #include <sys/proc.h> 59 #include <sys/queue.h> 60 #include <sys/refcount.h> 61 #include <sys/sysctl.h> 62 #include <sys/syslog.h> 63 #include <machine/cpu.h> 64 65 #include <netgraph7/netgraph.h> 66 #include <netgraph7/netgraph2.h> 67 #include <netgraph7/ng_parse.h> 68 69 MODULE_VERSION(netgraph, NG_ABI_VERSION); 70 71 /* Token to protect topology events. */ 72 static struct lwkt_token ng_topo_token; 73 #define TOPOLOGY_RLOCK() lwkt_gettoken_shared(&ng_topo_token) 74 #define TOPOLOGY_RUNLOCK() lwkt_reltoken(&ng_topo_token) 75 #define TOPOLOGY_WLOCK() lwkt_gettoken(&ng_topo_token) 76 #define TOPOLOGY_WUNLOCK() lwkt_reltoken(&ng_topo_token) 77 #define TOPOLOGY_NOTOWNED() KKASSERT(!LWKT_TOKEN_HELD_ANY(&ng_topo_token)) 78 79 #ifdef NETGRAPH_DEBUG 80 static struct mtx ng_nodelist_mtx; /* protects global node/hook lists */ 81 static struct mtx ngq_mtx; /* protects the queue item list */ 82 83 static SLIST_HEAD(, ng_node) ng_allnodes; 84 static LIST_HEAD(, ng_node) ng_freenodes; /* in debug, we never free() them */ 85 static SLIST_HEAD(, ng_hook) ng_allhooks; 86 static LIST_HEAD(, ng_hook) ng_freehooks; /* in debug, we never free() them */ 87 88 static void ng_dumpitems(void); 89 static void ng_dumpnodes(void); 90 static void ng_dumphooks(void); 91 92 #endif /* NETGRAPH_DEBUG */ 93 /* 94 * DEAD versions of the structures. 95 * In order to avoid races, it is sometimes necessary to point 96 * at SOMETHING even though theoretically, the current entity is 97 * INVALID. Use these to avoid these races. 98 */ 99 struct ng_type ng_deadtype = { 100 NG_ABI_VERSION, 101 "dead", 102 NULL, /* modevent */ 103 NULL, /* constructor */ 104 NULL, /* rcvmsg */ 105 NULL, /* shutdown */ 106 NULL, /* newhook */ 107 NULL, /* findhook */ 108 NULL, /* connect */ 109 NULL, /* rcvdata */ 110 NULL, /* disconnect */ 111 NULL, /* cmdlist */ 112 }; 113 114 struct ng_node ng_deadnode = { 115 "dead", 116 &ng_deadtype, 117 NGF_INVALID, 118 0, /* numhooks */ 119 NULL, /* private */ 120 0, /* ID */ 121 LIST_HEAD_INITIALIZER(ng_deadnode.hooks), 122 {}, /* all_nodes list entry */ 123 {}, /* id hashtable list entry */ 124 { 125 0, 126 NULL, 127 0, 128 NULL, 129 }, /* token */ 130 1, /* refs */ 131 #ifdef NETGRAPH_DEBUG 132 ND_MAGIC, 133 __FILE__, 134 __LINE__, 135 {NULL} 136 #endif /* NETGRAPH_DEBUG */ 137 }; 138 139 struct ng_hook ng_deadhook = { 140 "dead", 141 NULL, /* private */ 142 HK_INVALID | HK_DEAD, 143 0, /* undefined data link type */ 144 &ng_deadhook, /* Peer is self */ 145 &ng_deadnode, /* attached to deadnode */ 146 {}, /* hooks list */ 147 NULL, /* override rcvmsg() */ 148 NULL, /* override rcvdata() */ 149 1, /* refs always >= 1 */ 150 #ifdef NETGRAPH_DEBUG 151 HK_MAGIC, 152 __FILE__, 153 __LINE__, 154 {NULL} 155 #endif /* NETGRAPH_DEBUG */ 156 }; 157 158 /* 159 * END DEAD STRUCTURES 160 */ 161 162 /* We don't want our messages to be replied. This is our panic reply port. */ 163 static struct lwkt_port ng_panic_reply_port; 164 165 /* Array of per-CPU target ports */ 166 struct lwkt_port *ng_msgport[MAXCPU]; 167 168 /* List of installed types */ 169 static LIST_HEAD(, ng_type) ng_typelist; 170 static struct lwkt_token ng_typelist_token; 171 #define TYPELIST_RLOCK() lwkt_gettoken_shared(&ng_typelist_token) 172 #define TYPELIST_RUNLOCK() lwkt_reltoken(&ng_typelist_token) 173 #define TYPELIST_WLOCK() lwkt_gettoken(&ng_typelist_token) 174 #define TYPELIST_WUNLOCK() lwkt_reltoken(&ng_typelist_token) 175 176 /* Hash related definitions */ 177 LIST_HEAD(nodehash, ng_node); 178 static struct nodehash *ng_ID_hash; 179 static u_long ng_ID_hmask; 180 static u_long ng_nodes; 181 static struct nodehash *ng_name_hash; 182 static u_long ng_name_hmask; 183 static u_long ng_named_nodes; 184 static struct lwkt_token ng_idhash_token; 185 #define IDHASH_RLOCK() lwkt_gettoken_shared(&ng_idhash_token) 186 #define IDHASH_RUNLOCK() lwkt_reltoken(&ng_idhash_token) 187 #define IDHASH_WLOCK() lwkt_gettoken(&ng_idhash_token) 188 #define IDHASH_WUNLOCK() lwkt_reltoken(&ng_idhash_token) 189 #define IDHASH_ASSERT_LOCKED() KKASSERT(LWKT_TOKEN_HELD_ANY(&ng_idhash_token)); 190 /* Method to find a node.. used twice so do it here */ 191 #define NG_IDHASH_FN(ID) ((ID) % (ng_ID_hmask + 1)) 192 #define NG_IDHASH_FIND(ID, node) \ 193 do { \ 194 IDHASH_ASSERT_LOCKED(); \ 195 LIST_FOREACH(node, &ng_ID_hash[NG_IDHASH_FN(ID)], \ 196 nd_idnodes) { \ 197 if (NG_NODE_IS_VALID(node) \ 198 && (NG_NODE_ID(node) == ID)) { \ 199 break; \ 200 } \ 201 } \ 202 } while (0) 203 204 static struct lwkt_token ng_namehash_token; 205 #define NAMEHASH_RLOCK() lwkt_gettoken_shared(&ng_namehash_token) 206 #define NAMEHASH_RUNLOCK() lwkt_reltoken(&ng_namehash_token) 207 #define NAMEHASH_WLOCK() lwkt_gettoken(&ng_namehash_token) 208 #define NAMEHASH_WUNLOCK() lwkt_reltoken(&ng_namehash_token) 209 #define NAMEHASH_ASSERT_LOCKED() KKASSERT(LWKT_TOKEN_HELD_ANY(&ng_namehash_token)); 210 211 /* Internal functions */ 212 static int ng_add_hook(node_p node, const char *name, hook_p * hookp); 213 static int ng_generic_msg(node_p here, item_p item, hook_p lasthook); 214 static ng_ID_t ng_decodeidname(const char *name); 215 static int ngb_mod_event(module_t mod, int event, void *data); 216 static void ngthread(void *dummy); 217 static int ng_apply_item(item_p item); 218 static node_p ng_ID2noderef(ng_ID_t ID); 219 static int ng_con_nodes(item_p item, node_p node, const char *name, 220 node_p node2, const char *name2); 221 static int ng_con_part2(node_p node, item_p item, hook_p hook); 222 static int ng_con_part3(node_p node, item_p item, hook_p hook); 223 static int ng_mkpeer(node_p node, const char *name, const char *name2, 224 char *type); 225 static void ng_name_rehash(void); 226 static void ng_ID_rehash(void); 227 static boolean_t bzero_ctor(void *obj, void *private, int ocflags); 228 229 /* Imported, these used to be externally visible, some may go back. */ 230 void ng_destroy_hook(hook_p hook); 231 node_p ng_name2noderef(node_p node, const char *name); 232 int ng_path2noderef(node_p here, const char *path, 233 node_p *dest, hook_p *lasthook); 234 int ng_make_node(const char *type, node_p *nodepp); 235 int ng_path_parse(char *addr, char **node, char **path, char **hook); 236 void ng_rmnode(node_p node, hook_p dummy1, void *dummy2, int dummy3); 237 void ng_unname(node_p node); 238 239 240 /* Our own netgraph malloc type */ 241 MALLOC_DEFINE(M_NETGRAPH, "netgraph", "netgraph structures and ctrl messages"); 242 MALLOC_DEFINE(M_NETGRAPH_HOOK, "netgraph_hook", "netgraph hook structures"); 243 MALLOC_DEFINE(M_NETGRAPH_NODE, "netgraph_node", "netgraph node structures"); 244 MALLOC_DEFINE(M_NETGRAPH_MSG, "netgraph_msg", "netgraph name storage"); 245 MALLOC_DEFINE(M_NETGRAPH_APPLY, "netgraph_apply", "netgraph apply_info structures"); 246 247 /* Should not be visible outside this file */ 248 249 #define _NG_ALLOC_HOOK(hook) \ 250 hook = kmalloc(sizeof(*hook), M_NETGRAPH_HOOK, \ 251 M_WAITOK | M_NULLOK | M_ZERO) 252 #define _NG_ALLOC_NODE(node) \ 253 node = kmalloc(sizeof(*node), M_NETGRAPH_NODE, \ 254 M_WAITOK | M_NULLOK | M_ZERO) 255 256 #ifdef NETGRAPH_DEBUG /*----------------------------------------------*/ 257 /* 258 * In debug mode: 259 * In an attempt to help track reference count screwups 260 * we do not free objects back to the malloc system, but keep them 261 * in a local cache where we can examine them and keep information safely 262 * after they have been freed. 263 * We use this scheme for nodes and hooks, and to some extent for items. 264 */ 265 static __inline hook_p 266 ng_alloc_hook(void) 267 { 268 hook_p hook; 269 SLIST_ENTRY(ng_hook) temp; 270 mtx_lock(&ng_nodelist_mtx); 271 hook = LIST_FIRST(&ng_freehooks); 272 if (hook) { 273 LIST_REMOVE(hook, hk_hooks); 274 bcopy(&hook->hk_all, &temp, sizeof(temp)); 275 bzero(hook, sizeof(struct ng_hook)); 276 bcopy(&temp, &hook->hk_all, sizeof(temp)); 277 mtx_unlock(&ng_nodelist_mtx); 278 hook->hk_magic = HK_MAGIC; 279 } else { 280 mtx_unlock(&ng_nodelist_mtx); 281 _NG_ALLOC_HOOK(hook); 282 if (hook) { 283 hook->hk_magic = HK_MAGIC; 284 mtx_lock(&ng_nodelist_mtx); 285 SLIST_INSERT_HEAD(&ng_allhooks, hook, hk_all); 286 mtx_unlock(&ng_nodelist_mtx); 287 } 288 } 289 return (hook); 290 } 291 292 static __inline node_p 293 ng_alloc_node(void) 294 { 295 node_p node; 296 SLIST_ENTRY(ng_node) temp; 297 mtx_lock(&ng_nodelist_mtx); 298 node = LIST_FIRST(&ng_freenodes); 299 if (node) { 300 LIST_REMOVE(node, nd_nodes); 301 bcopy(&node->nd_all, &temp, sizeof(temp)); 302 bzero(node, sizeof(struct ng_node)); 303 bcopy(&temp, &node->nd_all, sizeof(temp)); 304 mtx_unlock(&ng_nodelist_mtx); 305 node->nd_magic = ND_MAGIC; 306 } else { 307 mtx_unlock(&ng_nodelist_mtx); 308 _NG_ALLOC_NODE(node); 309 if (node) { 310 node->nd_magic = ND_MAGIC; 311 mtx_lock(&ng_nodelist_mtx); 312 SLIST_INSERT_HEAD(&ng_allnodes, node, nd_all); 313 mtx_unlock(&ng_nodelist_mtx); 314 } 315 } 316 return (node); 317 } 318 319 #define NG_ALLOC_HOOK(hook) do { (hook) = ng_alloc_hook(); } while (0) 320 #define NG_ALLOC_NODE(node) do { (node) = ng_alloc_node(); } while (0) 321 322 323 #define NG_FREE_HOOK(hook) \ 324 do { \ 325 mtx_lock(&ng_nodelist_mtx); \ 326 LIST_INSERT_HEAD(&ng_freehooks, hook, hk_hooks); \ 327 hook->hk_magic = 0; \ 328 mtx_unlock(&ng_nodelist_mtx); \ 329 } while (0) 330 331 #define NG_FREE_NODE(node) \ 332 do { \ 333 mtx_lock(&ng_nodelist_mtx); \ 334 LIST_INSERT_HEAD(&ng_freenodes, node, nd_nodes); \ 335 node->nd_magic = 0; \ 336 mtx_unlock(&ng_nodelist_mtx); \ 337 } while (0) 338 339 #else /* NETGRAPH_DEBUG */ /*----------------------------------------------*/ 340 341 #define NG_ALLOC_HOOK(hook) _NG_ALLOC_HOOK(hook) 342 #define NG_ALLOC_NODE(node) _NG_ALLOC_NODE(node) 343 344 #define NG_FREE_HOOK(hook) do { kfree((hook), M_NETGRAPH_HOOK); } while (0) 345 #define NG_FREE_NODE(node) do { kfree((node), M_NETGRAPH_NODE); } while (0) 346 347 #endif /* NETGRAPH_DEBUG */ /*----------------------------------------------*/ 348 349 /* Set this to kdb_enter("X") to catch all errors as they occur */ 350 #ifndef TRAP_ERROR 351 #define TRAP_ERROR() 352 #endif 353 354 static ng_ID_t nextID = 1; 355 356 #ifdef INVARIANTS 357 #define CHECK_DATA_MBUF(m) do { \ 358 struct mbuf *n; \ 359 int total; \ 360 \ 361 M_ASSERTPKTHDR(m); \ 362 for (total = 0, n = (m); n != NULL; n = n->m_next) { \ 363 total += n->m_len; \ 364 if (n->m_nextpkt != NULL) \ 365 panic("%s: m_nextpkt", __func__); \ 366 } \ 367 \ 368 if ((m)->m_pkthdr.len != total) { \ 369 panic("%s: %d != %d", \ 370 __func__, (m)->m_pkthdr.len, total); \ 371 } \ 372 } while (0) 373 #else 374 #define CHECK_DATA_MBUF(m) 375 #endif 376 377 #define ERROUT(x) do { error = (x); goto done; } while (0) 378 379 /************************************************************************ 380 Parse type definitions for generic messages 381 ************************************************************************/ 382 383 /* Handy structure parse type defining macro */ 384 #define DEFINE_PARSE_STRUCT_TYPE(lo, up, args) \ 385 static const struct ng_parse_struct_field \ 386 ng_ ## lo ## _type_fields[] = NG_GENERIC_ ## up ## _INFO args; \ 387 static const struct ng_parse_type ng_generic_ ## lo ## _type = { \ 388 &ng_parse_struct_type, \ 389 &ng_ ## lo ## _type_fields \ 390 } 391 392 DEFINE_PARSE_STRUCT_TYPE(mkpeer, MKPEER, ()); 393 DEFINE_PARSE_STRUCT_TYPE(connect, CONNECT, ()); 394 DEFINE_PARSE_STRUCT_TYPE(name, NAME, ()); 395 DEFINE_PARSE_STRUCT_TYPE(rmhook, RMHOOK, ()); 396 DEFINE_PARSE_STRUCT_TYPE(nodeinfo, NODEINFO, ()); 397 DEFINE_PARSE_STRUCT_TYPE(typeinfo, TYPEINFO, ()); 398 DEFINE_PARSE_STRUCT_TYPE(linkinfo, LINKINFO, (&ng_generic_nodeinfo_type)); 399 400 /* Get length of an array when the length is stored as a 32 bit 401 value immediately preceding the array -- as with struct namelist 402 and struct typelist. */ 403 static int 404 ng_generic_list_getLength(const struct ng_parse_type *type, 405 const u_char *start, const u_char *buf) 406 { 407 return *((const u_int32_t *)(buf - 4)); 408 } 409 410 /* Get length of the array of struct linkinfo inside a struct hooklist */ 411 static int 412 ng_generic_linkinfo_getLength(const struct ng_parse_type *type, 413 const u_char *start, const u_char *buf) 414 { 415 const struct hooklist *hl = (const struct hooklist *)start; 416 417 return hl->nodeinfo.hooks; 418 } 419 420 /* Array type for a variable length array of struct namelist */ 421 static const struct ng_parse_array_info ng_nodeinfoarray_type_info = { 422 &ng_generic_nodeinfo_type, 423 &ng_generic_list_getLength 424 }; 425 static const struct ng_parse_type ng_generic_nodeinfoarray_type = { 426 &ng_parse_array_type, 427 &ng_nodeinfoarray_type_info 428 }; 429 430 /* Array type for a variable length array of struct typelist */ 431 static const struct ng_parse_array_info ng_typeinfoarray_type_info = { 432 &ng_generic_typeinfo_type, 433 &ng_generic_list_getLength 434 }; 435 static const struct ng_parse_type ng_generic_typeinfoarray_type = { 436 &ng_parse_array_type, 437 &ng_typeinfoarray_type_info 438 }; 439 440 /* Array type for array of struct linkinfo in struct hooklist */ 441 static const struct ng_parse_array_info ng_generic_linkinfo_array_type_info = { 442 &ng_generic_linkinfo_type, 443 &ng_generic_linkinfo_getLength 444 }; 445 static const struct ng_parse_type ng_generic_linkinfo_array_type = { 446 &ng_parse_array_type, 447 &ng_generic_linkinfo_array_type_info 448 }; 449 450 DEFINE_PARSE_STRUCT_TYPE(typelist, TYPELIST, (&ng_generic_typeinfoarray_type)); 451 DEFINE_PARSE_STRUCT_TYPE(hooklist, HOOKLIST, 452 (&ng_generic_nodeinfo_type, &ng_generic_linkinfo_array_type)); 453 DEFINE_PARSE_STRUCT_TYPE(listnodes, LISTNODES, 454 (&ng_generic_nodeinfoarray_type)); 455 456 /* List of commands and how to convert arguments to/from ASCII */ 457 static const struct ng_cmdlist ng_generic_cmds[] = { 458 { 459 NGM_GENERIC_COOKIE, 460 NGM_SHUTDOWN, 461 "shutdown", 462 NULL, 463 NULL 464 }, 465 { 466 NGM_GENERIC_COOKIE, 467 NGM_MKPEER, 468 "mkpeer", 469 &ng_generic_mkpeer_type, 470 NULL 471 }, 472 { 473 NGM_GENERIC_COOKIE, 474 NGM_CONNECT, 475 "connect", 476 &ng_generic_connect_type, 477 NULL 478 }, 479 { 480 NGM_GENERIC_COOKIE, 481 NGM_NAME, 482 "name", 483 &ng_generic_name_type, 484 NULL 485 }, 486 { 487 NGM_GENERIC_COOKIE, 488 NGM_RMHOOK, 489 "rmhook", 490 &ng_generic_rmhook_type, 491 NULL 492 }, 493 { 494 NGM_GENERIC_COOKIE, 495 NGM_NODEINFO, 496 "nodeinfo", 497 NULL, 498 &ng_generic_nodeinfo_type 499 }, 500 { 501 NGM_GENERIC_COOKIE, 502 NGM_LISTHOOKS, 503 "listhooks", 504 NULL, 505 &ng_generic_hooklist_type 506 }, 507 { 508 NGM_GENERIC_COOKIE, 509 NGM_LISTNAMES, 510 "listnames", 511 NULL, 512 &ng_generic_listnodes_type /* same as NGM_LISTNODES */ 513 }, 514 { 515 NGM_GENERIC_COOKIE, 516 NGM_LISTNODES, 517 "listnodes", 518 NULL, 519 &ng_generic_listnodes_type 520 }, 521 { 522 NGM_GENERIC_COOKIE, 523 NGM_LISTTYPES, 524 "listtypes", 525 NULL, 526 &ng_generic_typeinfo_type 527 }, 528 { 529 NGM_GENERIC_COOKIE, 530 NGM_TEXT_CONFIG, 531 "textconfig", 532 NULL, 533 &ng_parse_string_type 534 }, 535 { 536 NGM_GENERIC_COOKIE, 537 NGM_TEXT_STATUS, 538 "textstatus", 539 NULL, 540 &ng_parse_string_type 541 }, 542 { 543 NGM_GENERIC_COOKIE, 544 NGM_ASCII2BINARY, 545 "ascii2binary", 546 &ng_parse_ng_mesg_type, 547 &ng_parse_ng_mesg_type 548 }, 549 { 550 NGM_GENERIC_COOKIE, 551 NGM_BINARY2ASCII, 552 "binary2ascii", 553 &ng_parse_ng_mesg_type, 554 &ng_parse_ng_mesg_type 555 }, 556 { 0 } 557 }; 558 559 /************************************************************************ 560 Node routines 561 ************************************************************************/ 562 563 /* 564 * Instantiate a node of the requested type 565 */ 566 int 567 ng_make_node(const char *typename, node_p *nodepp) 568 { 569 struct ng_type *type; 570 int error; 571 572 /* Check that the type makes sense */ 573 if (typename == NULL) { 574 TRAP_ERROR(); 575 return (EINVAL); 576 } 577 578 /* Locate the node type. If we fail we return. Do not try to load 579 * module. 580 */ 581 if ((type = ng_findtype(typename)) == NULL) 582 return (ENXIO); 583 584 /* 585 * If we have a constructor, then make the node and 586 * call the constructor to do type specific initialisation. 587 */ 588 if (type->constructor != NULL) { 589 if ((error = ng_make_node_common(type, nodepp)) == 0) { 590 if ((error = ((*type->constructor)(*nodepp)) != 0)) { 591 NG_NODE_UNREF(*nodepp); 592 } 593 } 594 } else { 595 /* 596 * Node has no constructor. We cannot ask for one 597 * to be made. It must be brought into existence by 598 * some external agency. The external agency should 599 * call ng_make_node_common() directly to get the 600 * netgraph part initialised. 601 */ 602 TRAP_ERROR(); 603 error = EINVAL; 604 } 605 return (error); 606 } 607 608 /* 609 * Generic node creation. Called by node initialisation for externally 610 * instantiated nodes (e.g. hardware, sockets, etc ). 611 * The returned node has a reference count of 1. 612 */ 613 int 614 ng_make_node_common(struct ng_type *type, node_p *nodepp) 615 { 616 node_p node; 617 618 /* Require the node type to have been already installed */ 619 if (ng_findtype(type->name) == NULL) { 620 TRAP_ERROR(); 621 return (EINVAL); 622 } 623 624 /* Make a node and try attach it to the type */ 625 NG_ALLOC_NODE(node); 626 if (node == NULL) { 627 TRAP_ERROR(); 628 return (ENOMEM); 629 } 630 node->nd_type = type; 631 NG_NODE_REF(node); /* note reference */ 632 type->refs++; 633 634 /* Initialize the reader/writer shared token */ 635 lwkt_token_init(&node->nd_token, type->name); 636 637 /* Initialize hook list for new node */ 638 LIST_INIT(&node->nd_hooks); 639 640 /* Get an ID and put us in the hash chain. */ 641 IDHASH_WLOCK(); 642 for (;;) { /* wrap protection, even if silly */ 643 node_p node2 = NULL; 644 node->nd_ID = nextID++; /* 137/second for 1 year before wrap */ 645 646 /* Is there a problem with the new number? */ 647 NG_IDHASH_FIND(node->nd_ID, node2); /* already taken? */ 648 if ((node->nd_ID != 0) && (node2 == NULL)) { 649 break; 650 } 651 } 652 ng_nodes++; 653 if (ng_nodes * 2 > ng_ID_hmask) 654 ng_ID_rehash(); 655 LIST_INSERT_HEAD(&ng_ID_hash[NG_IDHASH_FN(node->nd_ID)], node, 656 nd_idnodes); 657 IDHASH_WUNLOCK(); 658 659 /* Done */ 660 *nodepp = node; 661 return (0); 662 } 663 664 /* 665 * Forceably start the shutdown process on a node. Either call 666 * its shutdown method, or do the default shutdown if there is 667 * no type-specific method. 668 * 669 * We can only be called from a shutdown message, so we know we have 670 * a writer lock, and therefore exclusive access. 671 * 672 * Persistent node types must have a type-specific method which 673 * allocates a new node in which case, this one is irretrievably going away, 674 * or cleans up anything it needs, and just makes the node valid again, 675 * in which case we allow the node to survive. 676 * 677 * XXX We need to think of how to tell a persistent node that we 678 * REALLY need to go away because the hardware has gone or we 679 * are rebooting.... etc. 680 */ 681 void 682 ng_rmnode(node_p node, hook_p dummy1, void *dummy2, int dummy3) 683 { 684 hook_p hook; 685 686 /* Check if it's already shutting down */ 687 if ((node->nd_flags & NGF_CLOSING) != 0) 688 return; 689 690 if (node == &ng_deadnode) { 691 kprintf ("shutdown called on deadnode\n"); 692 return; 693 } 694 695 /* Add an extra reference so it doesn't go away during this */ 696 NG_NODE_REF(node); 697 698 /* 699 * Mark it invalid so any newcomers know not to try use it 700 * Also add our own mark so we can't recurse 701 * note that NGF_INVALID does not do this as it's also set during 702 * creation 703 */ 704 node->nd_flags |= NGF_INVALID|NGF_CLOSING; 705 706 /* If node has its pre-shutdown method, then call it first*/ 707 if (node->nd_type && node->nd_type->close) 708 (*node->nd_type->close)(node); 709 710 /* Notify all remaining connected nodes to disconnect */ 711 while ((hook = LIST_FIRST(&node->nd_hooks)) != NULL) 712 ng_destroy_hook(hook); 713 714 /* Ask the type if it has anything to do in this case */ 715 if (node->nd_type && node->nd_type->shutdown) { 716 (*node->nd_type->shutdown)(node); 717 if (NG_NODE_IS_VALID(node)) { 718 /* 719 * Well, blow me down if the node code hasn't declared 720 * that it doesn't want to die. 721 * Presumably it is a persistant node. 722 * If we REALLY want it to go away, 723 * e.g. hardware going away, 724 * Our caller should set NGF_REALLY_DIE in nd_flags. 725 */ 726 node->nd_flags &= ~(NGF_INVALID|NGF_CLOSING); 727 NG_NODE_UNREF(node); /* Assume they still have theirs */ 728 return; 729 } 730 } else { /* do the default thing */ 731 NG_NODE_UNREF(node); 732 } 733 734 ng_unname(node); /* basically a NOP these days */ 735 736 /* 737 * Remove extra reference, possibly the last 738 * Possible other holders of references may include 739 * timeout callouts, but theoretically the node's supposed to 740 * have cancelled them. Possibly hardware dependencies may 741 * force a driver to 'linger' with a reference. 742 */ 743 NG_NODE_UNREF(node); 744 } 745 746 /* 747 * Remove a reference to the node, possibly the last. 748 * deadnode always acts as it it were the last. 749 */ 750 void 751 ng_unref_node(node_p node) 752 { 753 754 if (node == &ng_deadnode) 755 return; 756 757 if (refcount_release(&node->nd_refs)) { /* we were the last */ 758 759 node->nd_type->refs--; /* XXX maybe should get types lock? */ 760 NAMEHASH_WLOCK(); 761 if (NG_NODE_HAS_NAME(node)) { 762 ng_named_nodes--; 763 LIST_REMOVE(node, nd_nodes); 764 } 765 NAMEHASH_WUNLOCK(); 766 767 IDHASH_WLOCK(); 768 ng_nodes--; 769 LIST_REMOVE(node, nd_idnodes); 770 IDHASH_WUNLOCK(); 771 772 NG_FREE_NODE(node); 773 } 774 } 775 776 /************************************************************************ 777 Node ID handling 778 ************************************************************************/ 779 static node_p 780 ng_ID2noderef(ng_ID_t ID) 781 { 782 node_p node; 783 784 IDHASH_RLOCK(); 785 NG_IDHASH_FIND(ID, node); 786 if (node) 787 NG_NODE_REF(node); 788 IDHASH_RUNLOCK(); 789 return(node); 790 } 791 792 ng_ID_t 793 ng_node2ID(node_p node) 794 { 795 return (node ? NG_NODE_ID(node) : 0); 796 } 797 798 /************************************************************************ 799 Node name handling 800 ************************************************************************/ 801 802 /* 803 * Assign a node a name. 804 */ 805 int 806 ng_name_node(node_p node, const char *name) 807 { 808 uint32_t hash; 809 node_p node2; 810 int i; 811 812 /* Check the name is valid */ 813 for (i = 0; i < NG_NODESIZ; i++) { 814 if (name[i] == '\0' || name[i] == '.' || name[i] == ':') 815 break; 816 } 817 if (i == 0 || name[i] != '\0') { 818 TRAP_ERROR(); 819 return (EINVAL); 820 } 821 if (ng_decodeidname(name) != 0) { /* valid IDs not allowed here */ 822 TRAP_ERROR(); 823 return (EINVAL); 824 } 825 826 NAMEHASH_WLOCK(); 827 if (ng_named_nodes * 2 > ng_name_hmask) 828 ng_name_rehash(); 829 830 hash = hash32_str(name, HASHINIT) & ng_name_hmask; 831 /* Check the name isn't already being used. */ 832 LIST_FOREACH(node2, &ng_name_hash[hash], nd_nodes) 833 if (NG_NODE_IS_VALID(node2) && 834 (strcmp(NG_NODE_NAME(node2), name) == 0)) { 835 NAMEHASH_WUNLOCK(); 836 return (EADDRINUSE); 837 } 838 839 if (NG_NODE_HAS_NAME(node)) 840 LIST_REMOVE(node, nd_nodes); 841 else 842 ng_named_nodes++; 843 /* Copy it. */ 844 strlcpy(NG_NODE_NAME(node), name, NG_NODESIZ); 845 846 /* Update name hash. */ 847 LIST_INSERT_HEAD(&ng_name_hash[hash], node, nd_nodes); 848 NAMEHASH_WUNLOCK(); 849 850 return (0); 851 } 852 853 /* 854 * Find a node by absolute name. The name should NOT end with ':' 855 * The name "." means "this node" and "[xxx]" means "the node 856 * with ID (ie, at address) xxx". 857 * 858 * Returns the node if found, else NULL. 859 * Eventually should add something faster than a sequential search. 860 * Note it acquires a reference on the node so you can be sure it's still 861 * there. 862 */ 863 node_p 864 ng_name2noderef(node_p here, const char *name) 865 { 866 node_p node; 867 ng_ID_t temp; 868 int hash; 869 870 /* "." means "this node" */ 871 if (strcmp(name, ".") == 0) { 872 NG_NODE_REF(here); 873 return(here); 874 } 875 876 /* Check for name-by-ID */ 877 if ((temp = ng_decodeidname(name)) != 0) { 878 return (ng_ID2noderef(temp)); 879 } 880 881 /* Find node by name. */ 882 hash = hash32_str(name, HASHINIT) & ng_name_hmask; 883 NAMEHASH_RLOCK(); 884 LIST_FOREACH(node, &ng_name_hash[hash], nd_nodes) 885 if (NG_NODE_IS_VALID(node) && 886 (strcmp(NG_NODE_NAME(node), name) == 0)) { 887 NG_NODE_REF(node); 888 break; 889 } 890 NAMEHASH_RUNLOCK(); 891 892 return (node); 893 } 894 895 /* 896 * Decode an ID name, eg. "[f03034de]". Returns 0 if the 897 * string is not valid, otherwise returns the value. 898 */ 899 static ng_ID_t 900 ng_decodeidname(const char *name) 901 { 902 const int len = strlen(name); 903 char *eptr; 904 u_long val; 905 906 /* Check for proper length, brackets, no leading junk */ 907 if ((len < 3) 908 || (name[0] != '[') 909 || (name[len - 1] != ']') 910 || (!isxdigit(name[1]))) { 911 return ((ng_ID_t)0); 912 } 913 914 /* Decode number */ 915 val = strtoul(name + 1, &eptr, 16); 916 if ((eptr - name != len - 1) 917 || (val == ULONG_MAX) 918 || (val == 0)) { 919 return ((ng_ID_t)0); 920 } 921 return (ng_ID_t)val; 922 } 923 924 /* 925 * Remove a name from a node. This should only be called 926 * when shutting down and removing the node. 927 */ 928 void 929 ng_unname(node_p node) 930 { 931 } 932 933 /* 934 * Allocate a bigger name hash. 935 */ 936 static void 937 ng_name_rehash(void) 938 { 939 struct nodehash *new; 940 uint32_t hash; 941 u_long hmask; 942 node_p node, node2; 943 int i; 944 945 NAMEHASH_ASSERT_LOCKED(); 946 new = hashinit((ng_name_hmask + 1) * 2, M_NETGRAPH_NODE, &hmask); 947 if (new == NULL) 948 return; 949 950 for (i = 0; i <= ng_name_hmask; i++) { 951 LIST_FOREACH_MUTABLE(node, &ng_name_hash[i], nd_nodes, node2) { 952 #ifdef INVARIANTS 953 LIST_REMOVE(node, nd_nodes); 954 #endif 955 hash = hash32_str(NG_NODE_NAME(node), HASHINIT) & hmask; 956 LIST_INSERT_HEAD(&new[hash], node, nd_nodes); 957 } 958 } 959 960 hashdestroy(ng_name_hash, M_NETGRAPH_NODE, ng_name_hmask); 961 ng_name_hash = new; 962 ng_name_hmask = hmask; 963 } 964 965 /* 966 * Allocate a bigger ID hash. 967 */ 968 static void 969 ng_ID_rehash(void) 970 { 971 struct nodehash *new; 972 uint32_t hash; 973 u_long hmask; 974 node_p node, node2; 975 int i; 976 977 IDHASH_ASSERT_LOCKED(); 978 new = hashinit((ng_ID_hmask + 1) * 2, M_NETGRAPH_NODE, &hmask); 979 if (new == NULL) 980 return; 981 982 for (i = 0; i <= ng_ID_hmask; i++) { 983 LIST_FOREACH_MUTABLE(node, &ng_ID_hash[i], nd_idnodes, node2) { 984 #ifdef INVARIANTS 985 LIST_REMOVE(node, nd_idnodes); 986 #endif 987 hash = (node->nd_ID % (hmask + 1)); 988 LIST_INSERT_HEAD(&new[hash], node, nd_idnodes); 989 } 990 } 991 992 hashdestroy(ng_ID_hash, M_NETGRAPH_NODE, ng_name_hmask); 993 ng_ID_hash = new; 994 ng_ID_hmask = hmask; 995 } 996 997 /************************************************************************ 998 Hook routines 999 Names are not optional. Hooks are always connected, except for a 1000 brief moment within these routines. On invalidation or during creation 1001 they are connected to the 'dead' hook. 1002 ************************************************************************/ 1003 1004 /* 1005 * Remove a hook reference 1006 */ 1007 void 1008 ng_unref_hook(hook_p hook) 1009 { 1010 int v; 1011 1012 if (hook == &ng_deadhook) { 1013 return; 1014 } 1015 1016 v = atomic_fetchadd_int(&hook->hk_refs, -1); 1017 1018 if (v == 1) { /* we were the last */ 1019 if (_NG_HOOK_NODE(hook)) /* it'll probably be ng_deadnode */ 1020 _NG_NODE_UNREF((_NG_HOOK_NODE(hook))); 1021 NG_FREE_HOOK(hook); 1022 } 1023 } 1024 1025 /* 1026 * Add an unconnected hook to a node. Only used internally. 1027 * Assumes node is locked. (XXX not yet true ) 1028 */ 1029 static int 1030 ng_add_hook(node_p node, const char *name, hook_p *hookp) 1031 { 1032 hook_p hook; 1033 int error = 0; 1034 1035 /* Check that the given name is good */ 1036 if (name == NULL) { 1037 TRAP_ERROR(); 1038 return (EINVAL); 1039 } 1040 if (ng_findhook(node, name) != NULL) { 1041 TRAP_ERROR(); 1042 return (EEXIST); 1043 } 1044 1045 /* Allocate the hook and link it up */ 1046 NG_ALLOC_HOOK(hook); 1047 if (hook == NULL) { 1048 TRAP_ERROR(); 1049 return (ENOMEM); 1050 } 1051 hook->hk_refs = 1; /* add a reference for us to return */ 1052 hook->hk_flags = HK_INVALID; 1053 hook->hk_peer = &ng_deadhook; /* start off this way */ 1054 hook->hk_node = node; 1055 NG_NODE_REF(node); /* each hook counts as a reference */ 1056 1057 /* Set hook name */ 1058 strlcpy(NG_HOOK_NAME(hook), name, NG_HOOKSIZ); 1059 1060 /* 1061 * Check if the node type code has something to say about it 1062 * If it fails, the unref of the hook will also unref the node. 1063 */ 1064 if (node->nd_type->newhook != NULL) { 1065 if ((error = (*node->nd_type->newhook)(node, hook, name))) { 1066 NG_HOOK_UNREF(hook); /* this frees the hook */ 1067 return (error); 1068 } 1069 } 1070 /* 1071 * The 'type' agrees so far, so go ahead and link it in. 1072 * We'll ask again later when we actually connect the hooks. 1073 */ 1074 LIST_INSERT_HEAD(&node->nd_hooks, hook, hk_hooks); 1075 node->nd_numhooks++; 1076 NG_HOOK_REF(hook); /* one for the node */ 1077 1078 if (hookp) 1079 *hookp = hook; 1080 return (0); 1081 } 1082 1083 /* 1084 * Find a hook 1085 * 1086 * Node types may supply their own optimized routines for finding 1087 * hooks. If none is supplied, we just do a linear search. 1088 * XXX Possibly we should add a reference to the hook? 1089 */ 1090 hook_p 1091 ng_findhook(node_p node, const char *name) 1092 { 1093 hook_p hook; 1094 1095 if (node->nd_type->findhook != NULL) 1096 return (*node->nd_type->findhook)(node, name); 1097 LIST_FOREACH(hook, &node->nd_hooks, hk_hooks) { 1098 if (NG_HOOK_IS_VALID(hook) 1099 && (strcmp(NG_HOOK_NAME(hook), name) == 0)) 1100 return (hook); 1101 } 1102 return (NULL); 1103 } 1104 1105 /* 1106 * Destroy a hook 1107 * 1108 * As hooks are always attached, this really destroys two hooks. 1109 * The one given, and the one attached to it. Disconnect the hooks 1110 * from each other first. We reconnect the peer hook to the 'dead' 1111 * hook so that it can still exist after we depart. We then 1112 * send the peer its own destroy message. This ensures that we only 1113 * interact with the peer's structures when it is locked processing that 1114 * message. We hold a reference to the peer hook so we are guaranteed that 1115 * the peer hook and node are still going to exist until 1116 * we are finished there as the hook holds a ref on the node. 1117 * We run this same code again on the peer hook, but that time it is already 1118 * attached to the 'dead' hook. 1119 * 1120 * This routine is called at all stages of hook creation 1121 * on error detection and must be able to handle any such stage. 1122 */ 1123 void 1124 ng_destroy_hook(hook_p hook) 1125 { 1126 hook_p peer; 1127 node_p node; 1128 1129 if (hook == &ng_deadhook) { /* better safe than sorry */ 1130 kprintf("ng_destroy_hook called on deadhook\n"); 1131 return; 1132 } 1133 1134 /* 1135 * Protect divorce process with mutex, to avoid races on 1136 * simultaneous disconnect. 1137 */ 1138 TOPOLOGY_WLOCK(); 1139 1140 hook->hk_flags |= HK_INVALID; 1141 1142 peer = NG_HOOK_PEER(hook); 1143 node = NG_HOOK_NODE(hook); 1144 1145 if (peer && (peer != &ng_deadhook)) { 1146 /* 1147 * Set the peer to point to ng_deadhook 1148 * from this moment on we are effectively independent it. 1149 * send it an rmhook message of it's own. 1150 */ 1151 peer->hk_peer = &ng_deadhook; /* They no longer know us */ 1152 hook->hk_peer = &ng_deadhook; /* Nor us, them */ 1153 if (NG_HOOK_NODE(peer) == &ng_deadnode) { 1154 /* 1155 * If it's already divorced from a node, 1156 * just free it. 1157 */ 1158 TOPOLOGY_WUNLOCK(); 1159 } else { 1160 TOPOLOGY_WUNLOCK(); 1161 ng_rmhook_self(peer); /* Send it a surprise */ 1162 } 1163 NG_HOOK_UNREF(peer); /* account for peer link */ 1164 NG_HOOK_UNREF(hook); /* account for peer link */ 1165 } else 1166 TOPOLOGY_WUNLOCK(); 1167 1168 TOPOLOGY_NOTOWNED(); 1169 1170 /* 1171 * Remove the hook from the node's list to avoid possible recursion 1172 * in case the disconnection results in node shutdown. 1173 */ 1174 if (node == &ng_deadnode) { /* happens if called from ng_con_nodes() */ 1175 return; 1176 } 1177 LIST_REMOVE(hook, hk_hooks); 1178 node->nd_numhooks--; 1179 if (node->nd_type->disconnect) { 1180 /* 1181 * The type handler may elect to destroy the node so don't 1182 * trust its existence after this point. (except 1183 * that we still hold a reference on it. (which we 1184 * inherrited from the hook we are destroying) 1185 */ 1186 (*node->nd_type->disconnect) (hook); 1187 } 1188 1189 /* 1190 * Note that because we will point to ng_deadnode, the original node 1191 * is not decremented automatically so we do that manually. 1192 */ 1193 _NG_HOOK_NODE(hook) = &ng_deadnode; 1194 NG_NODE_UNREF(node); /* We no longer point to it so adjust count */ 1195 NG_HOOK_UNREF(hook); /* Account for linkage (in list) to node */ 1196 } 1197 1198 /* 1199 * Take two hooks on a node and merge the connection so that the given node 1200 * is effectively bypassed. 1201 */ 1202 int 1203 ng_bypass(hook_p hook1, hook_p hook2) 1204 { 1205 if (hook1->hk_node != hook2->hk_node) { 1206 TRAP_ERROR(); 1207 return (EINVAL); 1208 } 1209 hook1->hk_peer->hk_peer = hook2->hk_peer; 1210 hook2->hk_peer->hk_peer = hook1->hk_peer; 1211 1212 hook1->hk_peer = &ng_deadhook; 1213 hook2->hk_peer = &ng_deadhook; 1214 1215 NG_HOOK_UNREF(hook1); 1216 NG_HOOK_UNREF(hook2); 1217 1218 /* XXX If we ever cache methods on hooks update them as well */ 1219 ng_destroy_hook(hook1); 1220 ng_destroy_hook(hook2); 1221 return (0); 1222 } 1223 1224 /* 1225 * Install a new netgraph type 1226 */ 1227 int 1228 ng_newtype(struct ng_type *tp) 1229 { 1230 const size_t namelen = strlen(tp->name); 1231 1232 /* Check version and type name fields */ 1233 if ((tp->version != NG_ABI_VERSION) 1234 || (namelen == 0) 1235 || (namelen >= NG_TYPESIZ)) { 1236 TRAP_ERROR(); 1237 if (tp->version != NG_ABI_VERSION) { 1238 kprintf("Netgraph: Node type rejected. ABI mismatch. Suggest recompile\n"); 1239 } 1240 return (EINVAL); 1241 } 1242 1243 /* Check for name collision */ 1244 if (ng_findtype(tp->name) != NULL) { 1245 TRAP_ERROR(); 1246 return (EEXIST); 1247 } 1248 1249 /* Link in new type */ 1250 TYPELIST_WLOCK(); 1251 LIST_INSERT_HEAD(&ng_typelist, tp, types); 1252 tp->refs = 1; /* first ref is linked list */ 1253 TYPELIST_WUNLOCK(); 1254 return (0); 1255 } 1256 1257 /* 1258 * unlink a netgraph type 1259 * If no examples exist 1260 */ 1261 int 1262 ng_rmtype(struct ng_type *tp) 1263 { 1264 /* Check for name collision */ 1265 if (tp->refs != 1) { 1266 TRAP_ERROR(); 1267 return (EBUSY); 1268 } 1269 1270 /* Unlink type */ 1271 TYPELIST_WLOCK(); 1272 LIST_REMOVE(tp, types); 1273 TYPELIST_WUNLOCK(); 1274 return (0); 1275 } 1276 1277 /* 1278 * Look for a type of the name given 1279 */ 1280 struct ng_type * 1281 ng_findtype(const char *typename) 1282 { 1283 struct ng_type *type; 1284 1285 TYPELIST_RLOCK(); 1286 LIST_FOREACH(type, &ng_typelist, types) { 1287 if (strcmp(type->name, typename) == 0) 1288 break; 1289 } 1290 TYPELIST_RUNLOCK(); 1291 return (type); 1292 } 1293 1294 /************************************************************************ 1295 Composite routines 1296 ************************************************************************/ 1297 /* 1298 * Connect two nodes using the specified hooks, using queued functions. 1299 */ 1300 static int 1301 ng_con_part3(node_p node, item_p item, hook_p hook) 1302 { 1303 int error = 0; 1304 1305 /* 1306 * When we run, we know that the node 'node' is locked for us. 1307 * Our caller has a reference on the hook. 1308 * Our caller has a reference on the node. 1309 * (In this case our caller is ng_apply_item() ). 1310 * The peer hook has a reference on the hook. 1311 * We are all set up except for the final call to the node, and 1312 * the clearing of the INVALID flag. 1313 */ 1314 if (NG_HOOK_NODE(hook) == &ng_deadnode) { 1315 /* 1316 * The node must have been freed again since we last visited 1317 * here. ng_destry_hook() has this effect but nothing else does. 1318 * We should just release our references and 1319 * free anything we can think of. 1320 * Since we know it's been destroyed, and it's our caller 1321 * that holds the references, just return. 1322 */ 1323 ERROUT(ENOENT); 1324 } 1325 if (hook->hk_node->nd_type->connect) { 1326 if ((error = (*hook->hk_node->nd_type->connect) (hook))) { 1327 ng_destroy_hook(hook); /* also zaps peer */ 1328 kprintf("failed in ng_con_part3()\n"); 1329 ERROUT(error); 1330 } 1331 } 1332 /* 1333 * XXX this is wrong for SMP. Possibly we need 1334 * to separate out 'create' and 'invalid' flags. 1335 * should only set flags on hooks we have locked under our node. 1336 */ 1337 hook->hk_flags &= ~HK_INVALID; 1338 done: 1339 NG_FREE_ITEM(item); 1340 return (error); 1341 } 1342 1343 static int 1344 ng_con_part2(node_p node, item_p item, hook_p hook) 1345 { 1346 hook_p peer; 1347 int error = 0; 1348 1349 /* 1350 * When we run, we know that the node 'node' is locked for us. 1351 * Our caller has a reference on the hook. 1352 * Our caller has a reference on the node. 1353 * (In this case our caller is ng_apply_item() ). 1354 * The peer hook has a reference on the hook. 1355 * our node pointer points to the 'dead' node. 1356 * First check the hook name is unique. 1357 * Should not happen because we checked before queueing this. 1358 */ 1359 if (ng_findhook(node, NG_HOOK_NAME(hook)) != NULL) { 1360 TRAP_ERROR(); 1361 ng_destroy_hook(hook); /* should destroy peer too */ 1362 kprintf("failed in ng_con_part2()\n"); 1363 ERROUT(EEXIST); 1364 } 1365 /* 1366 * Check if the node type code has something to say about it 1367 * If it fails, the unref of the hook will also unref the attached node, 1368 * however since that node is 'ng_deadnode' this will do nothing. 1369 * The peer hook will also be destroyed. 1370 */ 1371 if (node->nd_type->newhook != NULL) { 1372 if ((error = (*node->nd_type->newhook)(node, hook, 1373 hook->hk_name))) { 1374 ng_destroy_hook(hook); /* should destroy peer too */ 1375 kprintf("failed in ng_con_part2()\n"); 1376 ERROUT(error); 1377 } 1378 } 1379 1380 /* 1381 * The 'type' agrees so far, so go ahead and link it in. 1382 * We'll ask again later when we actually connect the hooks. 1383 */ 1384 hook->hk_node = node; /* just overwrite ng_deadnode */ 1385 NG_NODE_REF(node); /* each hook counts as a reference */ 1386 LIST_INSERT_HEAD(&node->nd_hooks, hook, hk_hooks); 1387 node->nd_numhooks++; 1388 NG_HOOK_REF(hook); /* one for the node */ 1389 1390 /* 1391 * We now have a symmetrical situation, where both hooks have been 1392 * linked to their nodes, the newhook methods have been called 1393 * And the references are all correct. The hooks are still marked 1394 * as invalid, as we have not called the 'connect' methods 1395 * yet. 1396 * We can call the local one immediately as we have the 1397 * node locked, but we need to queue the remote one. 1398 */ 1399 if (hook->hk_node->nd_type->connect) { 1400 if ((error = (*hook->hk_node->nd_type->connect) (hook))) { 1401 ng_destroy_hook(hook); /* also zaps peer */ 1402 kprintf("failed in ng_con_part2(A)\n"); 1403 ERROUT(error); 1404 } 1405 } 1406 1407 /* 1408 * Acquire topo token to avoid race with ng_destroy_hook(). 1409 */ 1410 TOPOLOGY_RLOCK(); 1411 peer = hook->hk_peer; 1412 if (peer == &ng_deadhook) { 1413 TOPOLOGY_RUNLOCK(); 1414 kprintf("failed in ng_con_part2(B)\n"); 1415 ng_destroy_hook(hook); 1416 ERROUT(ENOENT); 1417 } 1418 TOPOLOGY_RUNLOCK(); 1419 1420 if ((error = ng_send_fn2(peer->hk_node, peer, item, &ng_con_part3, 1421 NULL, 0, NG_REUSE_ITEM))) { 1422 kprintf("failed in ng_con_part2(C)\n"); 1423 ng_destroy_hook(hook); /* also zaps peer */ 1424 return (error); /* item was consumed. */ 1425 } 1426 hook->hk_flags &= ~HK_INVALID; /* need both to be able to work */ 1427 return (0); /* item was consumed. */ 1428 done: 1429 NG_FREE_ITEM(item); 1430 return (error); 1431 } 1432 1433 /* 1434 * Connect this node with another node. We assume that this node is 1435 * currently locked, as we are only called from an NGM_CONNECT message. 1436 */ 1437 static int 1438 ng_con_nodes(item_p item, node_p node, const char *name, 1439 node_p node2, const char *name2) 1440 { 1441 int error; 1442 hook_p hook; 1443 hook_p hook2; 1444 1445 if (ng_findhook(node2, name2) != NULL) { 1446 return(EEXIST); 1447 } 1448 if ((error = ng_add_hook(node, name, &hook))) /* gives us a ref */ 1449 return (error); 1450 /* Allocate the other hook and link it up */ 1451 NG_ALLOC_HOOK(hook2); 1452 if (hook2 == NULL) { 1453 TRAP_ERROR(); 1454 ng_destroy_hook(hook); /* XXX check ref counts so far */ 1455 NG_HOOK_UNREF(hook); /* including our ref */ 1456 return (ENOMEM); 1457 } 1458 hook2->hk_refs = 1; /* start with a reference for us. */ 1459 hook2->hk_flags = HK_INVALID; 1460 hook2->hk_peer = hook; /* Link the two together */ 1461 hook->hk_peer = hook2; 1462 NG_HOOK_REF(hook); /* Add a ref for the peer to each*/ 1463 NG_HOOK_REF(hook2); 1464 hook2->hk_node = &ng_deadnode; 1465 strlcpy(NG_HOOK_NAME(hook2), name2, NG_HOOKSIZ); 1466 1467 /* 1468 * Queue the function above. 1469 * Procesing continues in that function in the lock context of 1470 * the other node. 1471 */ 1472 if ((error = ng_send_fn2(node2, hook2, item, &ng_con_part2, NULL, 0, 1473 NG_NOFLAGS))) { 1474 kprintf("failed in ng_con_nodes(): %d\n", error); 1475 ng_destroy_hook(hook); /* also zaps peer */ 1476 } 1477 1478 NG_HOOK_UNREF(hook); /* Let each hook go if it wants to */ 1479 NG_HOOK_UNREF(hook2); 1480 return (error); 1481 } 1482 1483 /* 1484 * Make a peer and connect. 1485 * We assume that the local node is locked. 1486 * The new node probably doesn't need a lock until 1487 * it has a hook, because it cannot really have any work until then, 1488 * but we should think about it a bit more. 1489 * 1490 * The problem may come if the other node also fires up 1491 * some hardware or a timer or some other source of activation, 1492 * also it may already get a command msg via it's ID. 1493 * 1494 * We could use the same method as ng_con_nodes() but we'd have 1495 * to add ability to remove the node when failing. (Not hard, just 1496 * make arg1 point to the node to remove). 1497 * Unless of course we just ignore failure to connect and leave 1498 * an unconnected node? 1499 */ 1500 static int 1501 ng_mkpeer(node_p node, const char *name, const char *name2, char *type) 1502 { 1503 node_p node2; 1504 hook_p hook1, hook2; 1505 int error; 1506 1507 if ((error = ng_make_node(type, &node2))) { 1508 return (error); 1509 } 1510 1511 if ((error = ng_add_hook(node, name, &hook1))) { /* gives us a ref */ 1512 ng_rmnode(node2, NULL, NULL, 0); 1513 return (error); 1514 } 1515 1516 if ((error = ng_add_hook(node2, name2, &hook2))) { 1517 ng_rmnode(node2, NULL, NULL, 0); 1518 ng_destroy_hook(hook1); 1519 NG_HOOK_UNREF(hook1); 1520 return (error); 1521 } 1522 1523 /* 1524 * Actually link the two hooks together. 1525 */ 1526 hook1->hk_peer = hook2; 1527 hook2->hk_peer = hook1; 1528 1529 /* Each hook is referenced by the other */ 1530 NG_HOOK_REF(hook1); 1531 NG_HOOK_REF(hook2); 1532 1533 /* Give each node the opportunity to veto the pending connection */ 1534 if (hook1->hk_node->nd_type->connect) { 1535 error = (*hook1->hk_node->nd_type->connect) (hook1); 1536 } 1537 1538 if ((error == 0) && hook2->hk_node->nd_type->connect) { 1539 error = (*hook2->hk_node->nd_type->connect) (hook2); 1540 1541 } 1542 1543 /* 1544 * drop the references we were holding on the two hooks. 1545 */ 1546 if (error) { 1547 ng_destroy_hook(hook2); /* also zaps hook1 */ 1548 ng_rmnode(node2, NULL, NULL, 0); 1549 } else { 1550 /* As a last act, allow the hooks to be used */ 1551 hook1->hk_flags &= ~HK_INVALID; 1552 hook2->hk_flags &= ~HK_INVALID; 1553 } 1554 NG_HOOK_UNREF(hook1); 1555 NG_HOOK_UNREF(hook2); 1556 return (error); 1557 } 1558 1559 /************************************************************************ 1560 Utility routines to send self messages 1561 ************************************************************************/ 1562 1563 /* Shut this node down as soon as everyone is clear of it */ 1564 /* Should add arg "immediately" to jump the queue */ 1565 int 1566 ng_rmnode_self(node_p node) 1567 { 1568 int error; 1569 1570 if (node == &ng_deadnode) 1571 return (0); 1572 node->nd_flags |= NGF_INVALID; 1573 if (node->nd_flags & NGF_CLOSING) 1574 return (0); 1575 1576 error = ng_send_fn(node, NULL, &ng_rmnode, NULL, 0); 1577 return (error); 1578 } 1579 1580 static void 1581 ng_rmhook_part2(node_p node, hook_p hook, void *arg1, int arg2) 1582 { 1583 ng_destroy_hook(hook); 1584 return ; 1585 } 1586 1587 int 1588 ng_rmhook_self(hook_p hook) 1589 { 1590 int error; 1591 node_p node = NG_HOOK_NODE(hook); 1592 1593 if (node == &ng_deadnode) 1594 return (0); 1595 1596 error = ng_send_fn(node, hook, &ng_rmhook_part2, NULL, 0); 1597 return (error); 1598 } 1599 1600 /*********************************************************************** 1601 * Parse and verify a string of the form: <NODE:><PATH> 1602 * 1603 * Such a string can refer to a specific node or a specific hook 1604 * on a specific node, depending on how you look at it. In the 1605 * latter case, the PATH component must not end in a dot. 1606 * 1607 * Both <NODE:> and <PATH> are optional. The <PATH> is a string 1608 * of hook names separated by dots. This breaks out the original 1609 * string, setting *nodep to "NODE" (or NULL if none) and *pathp 1610 * to "PATH" (or NULL if degenerate). Also, *hookp will point to 1611 * the final hook component of <PATH>, if any, otherwise NULL. 1612 * 1613 * This returns -1 if the path is malformed. The char ** are optional. 1614 ***********************************************************************/ 1615 int 1616 ng_path_parse(char *addr, char **nodep, char **pathp, char **hookp) 1617 { 1618 char *node, *path, *hook; 1619 int k; 1620 1621 /* 1622 * Extract absolute NODE, if any 1623 */ 1624 for (path = addr; *path && *path != ':'; path++); 1625 if (*path) { 1626 node = addr; /* Here's the NODE */ 1627 *path++ = '\0'; /* Here's the PATH */ 1628 1629 /* Node name must not be empty */ 1630 if (!*node) 1631 return -1; 1632 1633 /* A name of "." is OK; otherwise '.' not allowed */ 1634 if (strcmp(node, ".") != 0) { 1635 for (k = 0; node[k]; k++) 1636 if (node[k] == '.') 1637 return -1; 1638 } 1639 } else { 1640 node = NULL; /* No absolute NODE */ 1641 path = addr; /* Here's the PATH */ 1642 } 1643 1644 /* Snoop for illegal characters in PATH */ 1645 for (k = 0; path[k]; k++) 1646 if (path[k] == ':') 1647 return -1; 1648 1649 /* Check for no repeated dots in PATH */ 1650 for (k = 0; path[k]; k++) 1651 if (path[k] == '.' && path[k + 1] == '.') 1652 return -1; 1653 1654 /* Remove extra (degenerate) dots from beginning or end of PATH */ 1655 if (path[0] == '.') 1656 path++; 1657 if (*path && path[strlen(path) - 1] == '.') 1658 path[strlen(path) - 1] = 0; 1659 1660 /* If PATH has a dot, then we're not talking about a hook */ 1661 if (*path) { 1662 for (hook = path, k = 0; path[k]; k++) 1663 if (path[k] == '.') { 1664 hook = NULL; 1665 break; 1666 } 1667 } else 1668 path = hook = NULL; 1669 1670 /* Done */ 1671 if (nodep) 1672 *nodep = node; 1673 if (pathp) 1674 *pathp = path; 1675 if (hookp) 1676 *hookp = hook; 1677 return (0); 1678 } 1679 1680 /* 1681 * Given a path, which may be absolute or relative, and a starting node, 1682 * return the destination node. 1683 */ 1684 int 1685 ng_path2noderef(node_p here, const char *address, 1686 node_p *destp, hook_p *lasthook) 1687 { 1688 char fullpath[NG_PATHSIZ]; 1689 char *nodename, *path, pbuf[2]; 1690 node_p node, oldnode; 1691 char *cp; 1692 hook_p hook = NULL; 1693 1694 /* Initialize */ 1695 if (destp == NULL) { 1696 TRAP_ERROR(); 1697 return EINVAL; 1698 } 1699 *destp = NULL; 1700 1701 /* Make a writable copy of address for ng_path_parse() */ 1702 strncpy(fullpath, address, sizeof(fullpath) - 1); 1703 fullpath[sizeof(fullpath) - 1] = '\0'; 1704 1705 /* Parse out node and sequence of hooks */ 1706 if (ng_path_parse(fullpath, &nodename, &path, NULL) < 0) { 1707 TRAP_ERROR(); 1708 return EINVAL; 1709 } 1710 if (path == NULL) { 1711 pbuf[0] = '.'; /* Needs to be writable */ 1712 pbuf[1] = '\0'; 1713 path = pbuf; 1714 } 1715 1716 /* 1717 * For an absolute address, jump to the starting node. 1718 * Note that this holds a reference on the node for us. 1719 * Don't forget to drop the reference if we don't need it. 1720 */ 1721 if (nodename) { 1722 node = ng_name2noderef(here, nodename); 1723 if (node == NULL) { 1724 TRAP_ERROR(); 1725 return (ENOENT); 1726 } 1727 } else { 1728 if (here == NULL) { 1729 TRAP_ERROR(); 1730 return (EINVAL); 1731 } 1732 node = here; 1733 NG_NODE_REF(node); 1734 } 1735 1736 /* 1737 * Now follow the sequence of hooks 1738 * XXX 1739 * We actually cannot guarantee that the sequence 1740 * is not being demolished as we crawl along it 1741 * without extra-ordinary locking etc. 1742 * So this is a bit dodgy to say the least. 1743 * We can probably hold up some things by holding 1744 * the nodelist mutex for the time of this 1745 * crawl if we wanted.. At least that way we wouldn't have to 1746 * worry about the nodes disappearing, but the hooks would still 1747 * be a problem. 1748 */ 1749 for (cp = path; node != NULL && *cp != '\0'; ) { 1750 char *segment; 1751 1752 /* 1753 * Break out the next path segment. Replace the dot we just 1754 * found with a NUL; "cp" points to the next segment (or the 1755 * NUL at the end). 1756 */ 1757 for (segment = cp; *cp != '\0'; cp++) { 1758 if (*cp == '.') { 1759 *cp++ = '\0'; 1760 break; 1761 } 1762 } 1763 1764 /* Empty segment */ 1765 if (*segment == '\0') 1766 continue; 1767 1768 /* We have a segment, so look for a hook by that name */ 1769 hook = ng_findhook(node, segment); 1770 1771 /* Can't get there from here... */ 1772 if (hook == NULL 1773 || NG_HOOK_PEER(hook) == NULL 1774 || NG_HOOK_NOT_VALID(hook) 1775 || NG_HOOK_NOT_VALID(NG_HOOK_PEER(hook))) { 1776 TRAP_ERROR(); 1777 NG_NODE_UNREF(node); 1778 #if 0 1779 kprintf("hooknotvalid %s %s %d %d %d %d ", 1780 path, 1781 segment, 1782 hook == NULL, 1783 NG_HOOK_PEER(hook) == NULL, 1784 NG_HOOK_NOT_VALID(hook), 1785 NG_HOOK_NOT_VALID(NG_HOOK_PEER(hook))); 1786 #endif 1787 return (ENOENT); 1788 } 1789 1790 /* 1791 * Hop on over to the next node 1792 * XXX 1793 * Big race conditions here as hooks and nodes go away 1794 * *** Idea.. store an ng_ID_t in each hook and use that 1795 * instead of the direct hook in this crawl? 1796 */ 1797 oldnode = node; 1798 if ((node = NG_PEER_NODE(hook))) 1799 NG_NODE_REF(node); /* XXX RACE */ 1800 NG_NODE_UNREF(oldnode); /* XXX another race */ 1801 if (NG_NODE_NOT_VALID(node)) { 1802 NG_NODE_UNREF(node); /* XXX more races */ 1803 node = NULL; 1804 } 1805 } 1806 1807 /* If node somehow missing, fail here (probably this is not needed) */ 1808 if (node == NULL) { 1809 TRAP_ERROR(); 1810 return (ENXIO); 1811 } 1812 1813 /* Done */ 1814 *destp = node; 1815 if (lasthook != NULL) 1816 *lasthook = (hook ? NG_HOOK_PEER(hook) : NULL); 1817 return (0); 1818 } 1819 1820 /*********************************************************************\ 1821 * Inter-CPU node synchronization 1822 * 1823 * All activities are submitted to one of the netgraph per-CPU threads. 1824 * There is one item input queue per CPU, not one per node as in 1825 * FreeBSD. If the item is entering netgraph for the first time, it is 1826 * queued to the thread's msgport. Otherwise it is applied directly. 1827 * From start to finish, the item is processed on the same CPU. Items 1828 * are distributed based on the ingress node, to keep item ordering. 1829 \***************************************************************/ 1830 1831 static __inline void ng_acquire_read(node_p node); 1832 static __inline void ng_acquire_write(node_p node); 1833 static __inline void ng_leave_readwrite(node_p node); 1834 1835 static __inline void 1836 ng_acquire_read(node_p node) 1837 { 1838 KASSERT(node != &ng_deadnode, 1839 ("%s: working on deadnode", __func__)); 1840 1841 lwkt_gettoken_shared(&node->nd_token); 1842 } 1843 1844 /* Acquire writer lock on node. If node is busy, sleep. */ 1845 static __inline void 1846 ng_acquire_write(node_p node) 1847 { 1848 KASSERT(node != &ng_deadnode, 1849 ("%s: working on deadnode", __func__)); 1850 1851 lwkt_gettoken(&node->nd_token); 1852 } 1853 1854 /* Release reader or writer lock. */ 1855 static __inline void 1856 ng_leave_readwrite(node_p node) 1857 { 1858 lwkt_reltoken(&node->nd_token); 1859 } 1860 1861 /*********************************************************************** 1862 * Worklist routines 1863 **********************************************************************/ 1864 /* NETGRAPH thread routine 1865 * 1866 * Pick an item from our thread's queue and apply it. 1867 */ 1868 static void 1869 ngthread(void *dummy __unused) 1870 { 1871 lwkt_msg_t msg; 1872 1873 while ((msg = lwkt_waitport(&curthread->td_msgport, 0)) != NULL) { 1874 item_p item = (void *)msg; 1875 1876 ng_apply_item(item); 1877 /* Do not reply to the message */ 1878 } 1879 } 1880 1881 /*********************************************************************** 1882 * Externally visible method for sending or queueing messages or data. 1883 ***********************************************************************/ 1884 1885 /* 1886 * The module code should have filled out the item correctly by this stage: 1887 * Common: 1888 * reference to destination node. 1889 * Reference to destination rcv hook if relevant. 1890 * apply pointer must be or NULL or reference valid struct ng_apply_info. 1891 * Data: 1892 * pointer to mbuf 1893 * Control_Message: 1894 * pointer to msg. 1895 * ID of original sender node. (return address) 1896 * Function: 1897 * Function pointer 1898 * void * argument 1899 * integer argument 1900 * 1901 * The nodes have several routines and macros to help with this task: 1902 */ 1903 1904 int 1905 ng_snd_item(item_p item, int flags) 1906 { 1907 hook_p hook; 1908 node_p node; 1909 int error = 0; 1910 1911 /* We are sending item, so it must be present! */ 1912 KASSERT(item != NULL, ("ng_snd_item: item is NULL")); 1913 1914 #ifdef NETGRAPH_DEBUG 1915 _ngi_check(item, __FILE__, __LINE__); 1916 #endif 1917 1918 /* 1919 * Every time an item is sent or forwarded we hold a reference on it 1920 * to postone the callback (if there is one) and item freedom. 1921 */ 1922 ng_ref_item(item); 1923 1924 /* 1925 * Node is never optional. 1926 */ 1927 node = NGI_NODE(item); 1928 KASSERT(node != NULL, ("ng_snd_item: node is NULL")); 1929 1930 /* 1931 * Valid hook and mbuf are mandatory for data. 1932 */ 1933 hook = NGI_HOOK(item); 1934 if ((item->el_flags & NGQF_TYPE) == NGQF_DATA) { 1935 KASSERT(hook != NULL, ("ng_snd_item: hook for data is NULL")); 1936 if (NGI_M(item) == NULL) 1937 ERROUT(EINVAL); 1938 CHECK_DATA_MBUF(NGI_M(item)); 1939 } 1940 1941 /* 1942 * Always queue items entering netgraph for the first time. 1943 */ 1944 if (item->refs == 1) { 1945 struct lwkt_msg *msg = &item->el_lmsg; 1946 1947 lwkt_initmsg(msg, &ng_panic_reply_port, 0); 1948 /* Always send to cpu0 for now */ 1949 lwkt_sendmsg(ng_cpuport(0), msg); 1950 1951 return ((flags & NG_PROGRESS) ? EINPROGRESS : 0); 1952 } 1953 1954 /* 1955 * The item wasn't queued. Process it synchronously. 1956 */ 1957 error = ng_apply_item(item); 1958 1959 done: 1960 return (error); 1961 } 1962 1963 /* 1964 * We have an item that was possibly queued somewhere. 1965 * It should contain all the information needed 1966 * to run it on the appropriate node/hook. 1967 * If there is apply pointer and we own the last reference, call apply(). 1968 */ 1969 static int 1970 ng_apply_item(item_p item) 1971 { 1972 hook_p hook; 1973 node_p node; 1974 ng_rcvdata_t *rcvdata; 1975 ng_rcvmsg_t *rcvmsg; 1976 int error = 0; 1977 1978 /* Node and item are never optional. */ 1979 KASSERT(item != NULL, ("ng_apply_item: item is NULL")); 1980 NGI_GET_NODE(item, node); /* zaps stored node */ 1981 KASSERT(node != NULL, ("ng_apply_item: node is NULL")); 1982 NGI_GET_HOOK(item, hook); /* clears stored hook */ 1983 1984 /* 1985 * If the item or the node specifies single threading, force 1986 * writer semantics. Similarly, the node may say one hook always 1987 * produces writers. These are overrides. 1988 */ 1989 if (((item->el_flags & NGQF_RW) == NGQF_WRITER) || 1990 (node->nd_flags & NGF_FORCE_WRITER) || 1991 (hook && (hook->hk_flags & HK_FORCE_WRITER))) { 1992 ng_acquire_write(node); 1993 } else { 1994 ng_acquire_read(node); 1995 } 1996 1997 #ifdef NETGRAPH_DEBUG 1998 _ngi_check(item, __FILE__, __LINE__); 1999 #endif 2000 2001 switch (item->el_flags & NGQF_TYPE) { 2002 case NGQF_DATA: 2003 /* 2004 * Check things are still ok as when we were queued. 2005 */ 2006 KASSERT(hook != NULL, ("ng_apply_item: hook for data is NULL")); 2007 if (NG_HOOK_NOT_VALID(hook) || 2008 NG_NODE_NOT_VALID(node)) { 2009 error = EIO; 2010 NG_FREE_ITEM(item); 2011 break; 2012 } 2013 /* 2014 * If no receive method, just silently drop it. 2015 * Give preference to the hook over-ride method 2016 */ 2017 if ((!(rcvdata = hook->hk_rcvdata)) 2018 && (!(rcvdata = NG_HOOK_NODE(hook)->nd_type->rcvdata))) { 2019 error = 0; 2020 NG_FREE_ITEM(item); 2021 break; 2022 } 2023 error = (*rcvdata)(hook, item); 2024 break; 2025 case NGQF_MESG: 2026 if (hook && NG_HOOK_NOT_VALID(hook)) { 2027 /* 2028 * The hook has been zapped then we can't use it. 2029 * Immediately drop its reference. 2030 * The message may not need it. 2031 */ 2032 NG_HOOK_UNREF(hook); 2033 hook = NULL; 2034 } 2035 /* 2036 * Similarly, if the node is a zombie there is 2037 * nothing we can do with it, drop everything. 2038 */ 2039 if (NG_NODE_NOT_VALID(node)) { 2040 TRAP_ERROR(); 2041 error = EINVAL; 2042 NG_FREE_ITEM(item); 2043 break; 2044 } 2045 /* 2046 * Call the appropriate message handler for the object. 2047 * It is up to the message handler to free the message. 2048 * If it's a generic message, handle it generically, 2049 * otherwise call the type's message handler (if it exists). 2050 * XXX (race). Remember that a queued message may 2051 * reference a node or hook that has just been 2052 * invalidated. It will exist as the queue code 2053 * is holding a reference, but.. 2054 */ 2055 if ((NGI_MSG(item)->header.typecookie == NGM_GENERIC_COOKIE) && 2056 ((NGI_MSG(item)->header.flags & NGF_RESP) == 0)) { 2057 error = ng_generic_msg(node, item, hook); 2058 break; 2059 } 2060 if (((!hook) || (!(rcvmsg = hook->hk_rcvmsg))) && 2061 (!(rcvmsg = node->nd_type->rcvmsg))) { 2062 TRAP_ERROR(); 2063 error = 0; 2064 NG_FREE_ITEM(item); 2065 break; 2066 } 2067 error = (*rcvmsg)(node, item, hook); 2068 break; 2069 case NGQF_FN: 2070 case NGQF_FN2: 2071 /* 2072 * We have to implicitly trust the hook, 2073 * as some of these are used for system purposes 2074 * where the hook is invalid. In the case of 2075 * the shutdown message we allow it to hit 2076 * even if the node is invalid. 2077 */ 2078 if ((NG_NODE_NOT_VALID(node)) 2079 && (NGI_FN(item) != &ng_rmnode)) { 2080 TRAP_ERROR(); 2081 error = EINVAL; 2082 NG_FREE_ITEM(item); 2083 break; 2084 } 2085 if ((item->el_flags & NGQF_TYPE) == NGQF_FN) { 2086 (*NGI_FN(item))(node, hook, NGI_ARG1(item), 2087 NGI_ARG2(item)); 2088 NG_FREE_ITEM(item); 2089 } else /* it is NGQF_FN2 */ 2090 error = (*NGI_FN2(item))(node, item, hook); 2091 break; 2092 } 2093 /* 2094 * We held references on some of the resources 2095 * that we took from the item. Now that we have 2096 * finished doing everything, drop those references. 2097 */ 2098 if (hook) 2099 NG_HOOK_UNREF(hook); 2100 2101 /* Release our node's token */ 2102 ng_leave_readwrite(node); 2103 2104 /* Free the item if we own the last reference to it. */ 2105 ng_unref_item(item, error); 2106 2107 NG_NODE_UNREF(node); 2108 2109 return (error); 2110 } 2111 2112 /*********************************************************************** 2113 * Implement the 'generic' control messages 2114 ***********************************************************************/ 2115 static int 2116 ng_generic_msg(node_p here, item_p item, hook_p lasthook) 2117 { 2118 int error = 0; 2119 struct ng_mesg *msg; 2120 struct ng_mesg *resp = NULL; 2121 2122 NGI_GET_MSG(item, msg); 2123 if (msg->header.typecookie != NGM_GENERIC_COOKIE) { 2124 TRAP_ERROR(); 2125 error = EINVAL; 2126 goto out; 2127 } 2128 switch (msg->header.cmd) { 2129 case NGM_SHUTDOWN: 2130 ng_rmnode(here, NULL, NULL, 0); 2131 break; 2132 case NGM_MKPEER: 2133 { 2134 struct ngm_mkpeer *const mkp = (struct ngm_mkpeer *) msg->data; 2135 2136 if (msg->header.arglen != sizeof(*mkp)) { 2137 TRAP_ERROR(); 2138 error = EINVAL; 2139 break; 2140 } 2141 mkp->type[sizeof(mkp->type) - 1] = '\0'; 2142 mkp->ourhook[sizeof(mkp->ourhook) - 1] = '\0'; 2143 mkp->peerhook[sizeof(mkp->peerhook) - 1] = '\0'; 2144 error = ng_mkpeer(here, mkp->ourhook, mkp->peerhook, mkp->type); 2145 break; 2146 } 2147 case NGM_CONNECT: 2148 { 2149 struct ngm_connect *const con = 2150 (struct ngm_connect *) msg->data; 2151 node_p node2; 2152 2153 if (msg->header.arglen != sizeof(*con)) { 2154 TRAP_ERROR(); 2155 error = EINVAL; 2156 break; 2157 } 2158 con->path[sizeof(con->path) - 1] = '\0'; 2159 con->ourhook[sizeof(con->ourhook) - 1] = '\0'; 2160 con->peerhook[sizeof(con->peerhook) - 1] = '\0'; 2161 /* Don't forget we get a reference.. */ 2162 error = ng_path2noderef(here, con->path, &node2, NULL); 2163 if (error) 2164 break; 2165 error = ng_con_nodes(item, here, con->ourhook, 2166 node2, con->peerhook); 2167 NG_NODE_UNREF(node2); 2168 break; 2169 } 2170 case NGM_NAME: 2171 { 2172 struct ngm_name *const nam = (struct ngm_name *) msg->data; 2173 2174 if (msg->header.arglen != sizeof(*nam)) { 2175 TRAP_ERROR(); 2176 error = EINVAL; 2177 break; 2178 } 2179 nam->name[sizeof(nam->name) - 1] = '\0'; 2180 error = ng_name_node(here, nam->name); 2181 break; 2182 } 2183 case NGM_RMHOOK: 2184 { 2185 struct ngm_rmhook *const rmh = (struct ngm_rmhook *) msg->data; 2186 hook_p hook; 2187 2188 if (msg->header.arglen != sizeof(*rmh)) { 2189 TRAP_ERROR(); 2190 error = EINVAL; 2191 break; 2192 } 2193 rmh->ourhook[sizeof(rmh->ourhook) - 1] = '\0'; 2194 if ((hook = ng_findhook(here, rmh->ourhook)) != NULL) 2195 ng_destroy_hook(hook); 2196 break; 2197 } 2198 case NGM_NODEINFO: 2199 { 2200 struct nodeinfo *ni; 2201 2202 NG_MKRESPONSE(resp, msg, sizeof(*ni), M_WAITOK | M_NULLOK); 2203 if (resp == NULL) { 2204 error = ENOMEM; 2205 break; 2206 } 2207 2208 /* Fill in node info */ 2209 ni = (struct nodeinfo *) resp->data; 2210 if (NG_NODE_HAS_NAME(here)) 2211 strcpy(ni->name, NG_NODE_NAME(here)); 2212 strcpy(ni->type, here->nd_type->name); 2213 ni->id = ng_node2ID(here); 2214 ni->hooks = here->nd_numhooks; 2215 break; 2216 } 2217 case NGM_LISTHOOKS: 2218 { 2219 const int nhooks = here->nd_numhooks; 2220 struct hooklist *hl; 2221 struct nodeinfo *ni; 2222 hook_p hook; 2223 2224 /* Get response struct */ 2225 NG_MKRESPONSE(resp, msg, sizeof(*hl) 2226 + (nhooks * sizeof(struct linkinfo)), M_WAITOK | M_NULLOK); 2227 if (resp == NULL) { 2228 error = ENOMEM; 2229 break; 2230 } 2231 hl = (struct hooklist *) resp->data; 2232 ni = &hl->nodeinfo; 2233 2234 /* Fill in node info */ 2235 if (NG_NODE_HAS_NAME(here)) 2236 strcpy(ni->name, NG_NODE_NAME(here)); 2237 strcpy(ni->type, here->nd_type->name); 2238 ni->id = ng_node2ID(here); 2239 2240 /* Cycle through the linked list of hooks */ 2241 ni->hooks = 0; 2242 LIST_FOREACH(hook, &here->nd_hooks, hk_hooks) { 2243 struct linkinfo *const link = &hl->link[ni->hooks]; 2244 2245 if (ni->hooks >= nhooks) { 2246 log(LOG_ERR, "%s: number of %s changed\n", 2247 __func__, "hooks"); 2248 break; 2249 } 2250 if (NG_HOOK_NOT_VALID(hook)) 2251 continue; 2252 strcpy(link->ourhook, NG_HOOK_NAME(hook)); 2253 strcpy(link->peerhook, NG_PEER_HOOK_NAME(hook)); 2254 if (NG_PEER_NODE_NAME(hook)[0] != '\0') 2255 strcpy(link->nodeinfo.name, 2256 NG_PEER_NODE_NAME(hook)); 2257 strcpy(link->nodeinfo.type, 2258 NG_PEER_NODE(hook)->nd_type->name); 2259 link->nodeinfo.id = ng_node2ID(NG_PEER_NODE(hook)); 2260 link->nodeinfo.hooks = NG_PEER_NODE(hook)->nd_numhooks; 2261 ni->hooks++; 2262 } 2263 break; 2264 } 2265 2266 case NGM_LISTNODES: 2267 { 2268 struct namelist *nl; 2269 node_p node; 2270 int i; 2271 2272 IDHASH_RLOCK(); 2273 /* Get response struct. */ 2274 NG_MKRESPONSE(resp, msg, sizeof(*nl) + 2275 (ng_nodes * sizeof(struct nodeinfo)), M_NOWAIT | M_ZERO); 2276 if (resp == NULL) { 2277 IDHASH_RUNLOCK(); 2278 error = ENOMEM; 2279 break; 2280 } 2281 nl = (struct namelist *) resp->data; 2282 2283 /* Cycle through the lists of nodes. */ 2284 nl->numnames = 0; 2285 for (i = 0; i <= ng_ID_hmask; i++) { 2286 LIST_FOREACH(node, &ng_ID_hash[i], nd_idnodes) { 2287 struct nodeinfo *const np = 2288 &nl->nodeinfo[nl->numnames]; 2289 2290 if (NG_NODE_NOT_VALID(node)) 2291 continue; 2292 if (NG_NODE_HAS_NAME(node)) 2293 strcpy(np->name, NG_NODE_NAME(node)); 2294 strcpy(np->type, node->nd_type->name); 2295 np->id = ng_node2ID(node); 2296 np->hooks = node->nd_numhooks; 2297 KASSERT(nl->numnames < ng_nodes, 2298 ("%s: no space", __func__)); 2299 nl->numnames++; 2300 } 2301 } 2302 IDHASH_RUNLOCK(); 2303 break; 2304 } 2305 case NGM_LISTNAMES: 2306 { 2307 struct namelist *nl; 2308 node_p node; 2309 int i; 2310 2311 NAMEHASH_RLOCK(); 2312 /* Get response struct. */ 2313 NG_MKRESPONSE(resp, msg, sizeof(*nl) + 2314 (ng_named_nodes * sizeof(struct nodeinfo)), M_NOWAIT); 2315 if (resp == NULL) { 2316 NAMEHASH_RUNLOCK(); 2317 error = ENOMEM; 2318 break; 2319 } 2320 nl = (struct namelist *) resp->data; 2321 2322 /* Cycle through the lists of nodes. */ 2323 nl->numnames = 0; 2324 for (i = 0; i <= ng_name_hmask; i++) { 2325 LIST_FOREACH(node, &ng_name_hash[i], nd_nodes) { 2326 struct nodeinfo *const np = 2327 &nl->nodeinfo[nl->numnames]; 2328 2329 if (NG_NODE_NOT_VALID(node)) 2330 continue; 2331 strcpy(np->name, NG_NODE_NAME(node)); 2332 strcpy(np->type, node->nd_type->name); 2333 np->id = ng_node2ID(node); 2334 np->hooks = node->nd_numhooks; 2335 KASSERT(nl->numnames < ng_named_nodes, 2336 ("%s: no space", __func__)); 2337 nl->numnames++; 2338 } 2339 } 2340 NAMEHASH_RUNLOCK(); 2341 break; 2342 } 2343 2344 case NGM_LISTTYPES: 2345 { 2346 struct typelist *tl; 2347 struct ng_type *type; 2348 int num = 0; 2349 2350 TYPELIST_RLOCK(); 2351 /* Count number of types */ 2352 LIST_FOREACH(type, &ng_typelist, types) 2353 num++; 2354 2355 /* Get response struct */ 2356 NG_MKRESPONSE(resp, msg, sizeof(*tl) 2357 + (num * sizeof(struct typeinfo)), M_WAITOK | M_NULLOK); 2358 if (resp == NULL) { 2359 TYPELIST_RUNLOCK(); 2360 error = ENOMEM; 2361 break; 2362 } 2363 tl = (struct typelist *) resp->data; 2364 2365 /* Cycle through the linked list of types */ 2366 tl->numtypes = 0; 2367 LIST_FOREACH(type, &ng_typelist, types) { 2368 struct typeinfo *const tp = &tl->typeinfo[tl->numtypes]; 2369 2370 strcpy(tp->type_name, type->name); 2371 tp->numnodes = type->refs - 1; /* don't count list */ 2372 KASSERT(tl->numtypes < num, ("%s: no space", __func__)); 2373 tl->numtypes++; 2374 } 2375 TYPELIST_RUNLOCK(); 2376 break; 2377 } 2378 2379 case NGM_BINARY2ASCII: 2380 { 2381 int bufSize = 20 * 1024; /* XXX hard coded constant */ 2382 const struct ng_parse_type *argstype; 2383 const struct ng_cmdlist *c; 2384 struct ng_mesg *binary, *ascii; 2385 2386 /* Data area must contain a valid netgraph message */ 2387 binary = (struct ng_mesg *)msg->data; 2388 if (msg->header.arglen < sizeof(struct ng_mesg) || 2389 (msg->header.arglen - sizeof(struct ng_mesg) < 2390 binary->header.arglen)) { 2391 TRAP_ERROR(); 2392 error = EINVAL; 2393 break; 2394 } 2395 2396 /* Get a response message with lots of room */ 2397 NG_MKRESPONSE(resp, msg, sizeof(*ascii) + bufSize, M_WAITOK | M_NULLOK); 2398 if (resp == NULL) { 2399 error = ENOMEM; 2400 break; 2401 } 2402 ascii = (struct ng_mesg *)resp->data; 2403 2404 /* Copy binary message header to response message payload */ 2405 bcopy(binary, ascii, sizeof(*binary)); 2406 2407 /* Find command by matching typecookie and command number */ 2408 for (c = here->nd_type->cmdlist; 2409 c != NULL && c->name != NULL; c++) { 2410 if (binary->header.typecookie == c->cookie 2411 && binary->header.cmd == c->cmd) 2412 break; 2413 } 2414 if (c == NULL || c->name == NULL) { 2415 for (c = ng_generic_cmds; c->name != NULL; c++) { 2416 if (binary->header.typecookie == c->cookie 2417 && binary->header.cmd == c->cmd) 2418 break; 2419 } 2420 if (c->name == NULL) { 2421 NG_FREE_MSG(resp); 2422 error = ENOSYS; 2423 break; 2424 } 2425 } 2426 2427 /* Convert command name to ASCII */ 2428 ksnprintf(ascii->header.cmdstr, sizeof(ascii->header.cmdstr), 2429 "%s", c->name); 2430 2431 /* Convert command arguments to ASCII */ 2432 argstype = (binary->header.flags & NGF_RESP) ? 2433 c->respType : c->mesgType; 2434 if (argstype == NULL) { 2435 *ascii->data = '\0'; 2436 } else { 2437 if ((error = ng_unparse(argstype, 2438 (u_char *)binary->data, 2439 ascii->data, bufSize)) != 0) { 2440 NG_FREE_MSG(resp); 2441 break; 2442 } 2443 } 2444 2445 /* Return the result as struct ng_mesg plus ASCII string */ 2446 bufSize = strlen(ascii->data) + 1; 2447 ascii->header.arglen = bufSize; 2448 resp->header.arglen = sizeof(*ascii) + bufSize; 2449 break; 2450 } 2451 2452 case NGM_ASCII2BINARY: 2453 { 2454 int bufSize = 2000; /* XXX hard coded constant */ 2455 const struct ng_cmdlist *c; 2456 const struct ng_parse_type *argstype; 2457 struct ng_mesg *ascii, *binary; 2458 int off = 0; 2459 2460 /* Data area must contain at least a struct ng_mesg + '\0' */ 2461 ascii = (struct ng_mesg *)msg->data; 2462 if ((msg->header.arglen < sizeof(*ascii) + 1) || 2463 (ascii->header.arglen < 1) || 2464 (msg->header.arglen < sizeof(*ascii) + 2465 ascii->header.arglen)) { 2466 TRAP_ERROR(); 2467 error = EINVAL; 2468 break; 2469 } 2470 ascii->data[ascii->header.arglen - 1] = '\0'; 2471 2472 /* Get a response message with lots of room */ 2473 NG_MKRESPONSE(resp, msg, sizeof(*binary) + bufSize, M_WAITOK | M_NULLOK); 2474 if (resp == NULL) { 2475 error = ENOMEM; 2476 break; 2477 } 2478 binary = (struct ng_mesg *)resp->data; 2479 2480 /* Copy ASCII message header to response message payload */ 2481 bcopy(ascii, binary, sizeof(*ascii)); 2482 2483 /* Find command by matching ASCII command string */ 2484 for (c = here->nd_type->cmdlist; 2485 c != NULL && c->name != NULL; c++) { 2486 if (strcmp(ascii->header.cmdstr, c->name) == 0) 2487 break; 2488 } 2489 if (c == NULL || c->name == NULL) { 2490 for (c = ng_generic_cmds; c->name != NULL; c++) { 2491 if (strcmp(ascii->header.cmdstr, c->name) == 0) 2492 break; 2493 } 2494 if (c->name == NULL) { 2495 NG_FREE_MSG(resp); 2496 error = ENOSYS; 2497 break; 2498 } 2499 } 2500 2501 /* Convert command name to binary */ 2502 binary->header.cmd = c->cmd; 2503 binary->header.typecookie = c->cookie; 2504 2505 /* Convert command arguments to binary */ 2506 argstype = (binary->header.flags & NGF_RESP) ? 2507 c->respType : c->mesgType; 2508 if (argstype == NULL) { 2509 bufSize = 0; 2510 } else { 2511 if ((error = ng_parse(argstype, ascii->data, 2512 &off, (u_char *)binary->data, &bufSize)) != 0) { 2513 NG_FREE_MSG(resp); 2514 break; 2515 } 2516 } 2517 2518 /* Return the result */ 2519 binary->header.arglen = bufSize; 2520 resp->header.arglen = sizeof(*binary) + bufSize; 2521 break; 2522 } 2523 2524 case NGM_TEXT_CONFIG: 2525 case NGM_TEXT_STATUS: 2526 /* 2527 * This one is tricky as it passes the command down to the 2528 * actual node, even though it is a generic type command. 2529 * This means we must assume that the item/msg is already freed 2530 * when control passes back to us. 2531 */ 2532 if (here->nd_type->rcvmsg != NULL) { 2533 NGI_MSG(item) = msg; /* put it back as we found it */ 2534 return((*here->nd_type->rcvmsg)(here, item, lasthook)); 2535 } 2536 /* Fall through if rcvmsg not supported */ 2537 default: 2538 TRAP_ERROR(); 2539 error = EINVAL; 2540 } 2541 /* 2542 * Sometimes a generic message may be statically allocated 2543 * to avoid problems with allocating when in tight memeory situations. 2544 * Don't free it if it is so. 2545 * I break them appart here, because erros may cause a free if the item 2546 * in which case we'd be doing it twice. 2547 * they are kept together above, to simplify freeing. 2548 */ 2549 out: 2550 NG_RESPOND_MSG(error, here, item, resp); 2551 if (msg) 2552 NG_FREE_MSG(msg); 2553 return (error); 2554 } 2555 2556 /************************************************************************ 2557 Queue element get/free routines 2558 ************************************************************************/ 2559 2560 static struct objcache *ng_oc; 2561 static struct objcache *ng_apply_oc; 2562 static int maxalloc = 4096; /* limit the damage of a leak */ 2563 2564 TUNABLE_INT("net.graph.maxalloc", &maxalloc); 2565 SYSCTL_INT(_net_graph, OID_AUTO, maxalloc, CTLFLAG_RD, &maxalloc, 2566 0, "Maximum number of queue items to allocate"); 2567 2568 #ifdef NETGRAPH_DEBUG 2569 static TAILQ_HEAD(, ng_item) ng_itemlist = TAILQ_HEAD_INITIALIZER(ng_itemlist); 2570 static int allocated; /* number of items malloc'd */ 2571 #endif 2572 2573 /* 2574 * Get a queue entry. 2575 * This is usually called when a packet first enters netgraph. 2576 * By definition, this is usually from an interrupt, or from a user. 2577 * Users are not so important, but try be quick for the times that it's 2578 * an interrupt. 2579 */ 2580 static __inline item_p 2581 ng_alloc_item(int type, int flags) 2582 { 2583 item_p item; 2584 2585 KASSERT(((type & ~NGQF_TYPE) == 0), 2586 ("%s: incorrect item type: %d", __func__, type)); 2587 2588 item = objcache_get(ng_oc, 2589 (flags & NG_WAITOK) ? M_WAITOK : M_NOWAIT ); 2590 2591 if (item) { 2592 item->el_flags = type; 2593 #ifdef NETGRAPH_DEBUG 2594 mtx_lock(&ngq_mtx); 2595 TAILQ_INSERT_TAIL(&ng_itemlist, item, all); 2596 allocated++; 2597 mtx_unlock(&ngq_mtx); 2598 #endif 2599 } 2600 2601 return (item); 2602 } 2603 2604 /* 2605 * Release a queue entry 2606 */ 2607 void 2608 ng_free_item(item_p item) 2609 { 2610 /* 2611 * If the item still has an apply callback registered, it is 2612 * being freed too early. 2613 */ 2614 KASSERT(item->apply == NULL, ("freeing item with registered callback")); 2615 2616 /* 2617 * Make sure the reference count has reached zero. 2618 */ 2619 KASSERT(item->refs == 0, ("freeing item with non-zero refcount")); 2620 2621 /* 2622 * The item may hold resources on it's own. We need to free 2623 * these before we can free the item. What they are depends upon 2624 * what kind of item it is. it is important that nodes zero 2625 * out pointers to resources that they remove from the item 2626 * or we release them again here. 2627 */ 2628 switch (item->el_flags & NGQF_TYPE) { 2629 case NGQF_DATA: 2630 /* If we have an mbuf still attached.. */ 2631 NG_FREE_M(_NGI_M(item)); 2632 break; 2633 case NGQF_MESG: 2634 _NGI_RETADDR(item) = 0; 2635 NG_FREE_MSG(_NGI_MSG(item)); 2636 break; 2637 case NGQF_FN: 2638 case NGQF_FN2: 2639 /* nothing to free really, */ 2640 _NGI_FN(item) = NULL; 2641 _NGI_ARG1(item) = NULL; 2642 _NGI_ARG2(item) = 0; 2643 break; 2644 } 2645 /* If we still have a node or hook referenced... */ 2646 _NGI_CLR_NODE(item); 2647 _NGI_CLR_HOOK(item); 2648 2649 #ifdef NETGRAPH_DEBUG 2650 mtx_lock(&ngq_mtx); 2651 TAILQ_REMOVE(&ng_itemlist, item, all); 2652 allocated--; 2653 mtx_unlock(&ngq_mtx); 2654 #endif 2655 /* Object must be initialized before returning to objcache */ 2656 bzero(item, sizeof(struct ng_item)); 2657 objcache_put(ng_oc, item); 2658 } 2659 2660 /* 2661 * Change type of the queue entry. 2662 */ 2663 static __inline item_p 2664 ng_realloc_item(item_p item, int type, int flags) 2665 { 2666 2667 KASSERT((item != NULL), ("%s: can't reallocate NULL", __func__)); 2668 KASSERT(((type & ~NGQF_TYPE) == 0), 2669 ("%s: incorrect item type: %d", __func__, type)); 2670 2671 item->el_flags = (item->el_flags & ~NGQF_TYPE) | type; 2672 2673 return (item); 2674 } 2675 2676 __inline apply_p 2677 ng_alloc_apply(void) 2678 { 2679 return (objcache_get(ng_apply_oc, M_WAITOK)); 2680 } 2681 2682 __inline void 2683 ng_free_apply(apply_p apply) 2684 { 2685 objcache_put(ng_apply_oc, apply); 2686 } 2687 2688 /************************************************************************ 2689 Module routines 2690 ************************************************************************/ 2691 2692 /* 2693 * Handle the loading/unloading of a netgraph node type module 2694 */ 2695 int 2696 ng_mod_event(module_t mod, int event, void *data) 2697 { 2698 struct ng_type *const type = data; 2699 int error = 0; 2700 2701 switch (event) { 2702 case MOD_LOAD: 2703 2704 /* Register new netgraph node type */ 2705 if ((error = ng_newtype(type)) != 0) { 2706 break; 2707 } 2708 2709 /* Call type specific code */ 2710 if (type->mod_event != NULL) 2711 if ((error = (*type->mod_event)(mod, event, data))) { 2712 TYPELIST_WLOCK(); 2713 type->refs--; /* undo it */ 2714 LIST_REMOVE(type, types); 2715 TYPELIST_WUNLOCK(); 2716 } 2717 break; 2718 2719 case MOD_UNLOAD: 2720 if (type->refs > 1) { /* make sure no nodes exist! */ 2721 error = EBUSY; 2722 } else { 2723 if (type->refs == 0) { 2724 /* failed load, nothing to undo */ 2725 break; 2726 } 2727 if (type->mod_event != NULL) { /* check with type */ 2728 error = (*type->mod_event)(mod, event, data); 2729 if (error != 0) { /* type refuses.. */ 2730 break; 2731 } 2732 } 2733 TYPELIST_WLOCK(); 2734 LIST_REMOVE(type, types); 2735 TYPELIST_WUNLOCK(); 2736 } 2737 break; 2738 2739 default: 2740 if (type->mod_event != NULL) 2741 error = (*type->mod_event)(mod, event, data); 2742 else 2743 error = EOPNOTSUPP; /* XXX ? */ 2744 break; 2745 } 2746 return (error); 2747 } 2748 2749 /* 2750 * Handle loading and unloading for this code. 2751 */ 2752 static int 2753 ngb_mod_event(module_t mod, int event, void *data) 2754 { 2755 int i, error = 0; 2756 2757 switch (event) { 2758 case MOD_LOAD: 2759 /* Initialize everything. */ 2760 lwkt_token_init(&ng_typelist_token, "ng typelist"); 2761 lwkt_token_init(&ng_idhash_token, "ng idhash"); 2762 lwkt_token_init(&ng_namehash_token, "ng namehash"); 2763 lwkt_token_init(&ng_topo_token, "ng topology"); 2764 #ifdef NETGRAPH_DEBUG 2765 mtx_init(&ng_nodelist_mtx, "ng nodelist"); 2766 mtx_init(&ngq_mtx, "ng queue"); 2767 #endif 2768 ng_oc = objcache_create_mbacked(M_NETGRAPH, 2769 sizeof(struct ng_item), maxalloc, 0, bzero_ctor, 2770 NULL, NULL); 2771 ng_apply_oc = objcache_create_mbacked(M_NETGRAPH_APPLY, 2772 sizeof(struct ng_apply_info), 0, 0, bzero_ctor, 2773 NULL, NULL); 2774 2775 /* We start with small hashes, but they can grow. */ 2776 ng_ID_hash = hashinit(16, M_NETGRAPH_NODE, &ng_ID_hmask); 2777 ng_name_hash = hashinit(16, M_NETGRAPH_NODE, &ng_name_hmask); 2778 2779 lwkt_initport_panic(&ng_panic_reply_port); 2780 for (i = 0; i < ncpus; ++i) { 2781 thread_t td; 2782 2783 lwkt_create(ngthread, NULL, &td, 2784 NULL, 0, i, "netgraph %d", i); 2785 ng_msgport[i] = &td->td_msgport; 2786 } 2787 break; 2788 case MOD_UNLOAD: 2789 #if 0 2790 hashdestroy(V_ng_name_hash, M_NETGRAPH_NODE, V_ng_name_hmask); 2791 hashdestroy(V_ng_ID_hash, M_NETGRAPH_NODE, V_ng_ID_hmask); 2792 2793 /* Destroy the lwkt threads too */ 2794 2795 objcache_destroy(ng_apply_oc); 2796 objcache_destroy(ng_oc); 2797 #endif 2798 /* You can't unload it because an interface may be using it. */ 2799 error = EBUSY; 2800 break; 2801 default: 2802 error = EOPNOTSUPP; 2803 break; 2804 } 2805 return (error); 2806 } 2807 2808 static moduledata_t netgraph_mod = { 2809 "netgraph", 2810 ngb_mod_event, 2811 (NULL) 2812 }; 2813 DECLARE_MODULE(netgraph, netgraph_mod, SI_SUB_NETGRAPH, SI_ORDER_MIDDLE); 2814 SYSCTL_NODE(_net, OID_AUTO, graph, CTLFLAG_RW, 0, "netgraph Family"); 2815 SYSCTL_INT(_net_graph, OID_AUTO, abi_version, CTLFLAG_RD, 0, NG_ABI_VERSION,""); 2816 SYSCTL_INT(_net_graph, OID_AUTO, msg_version, CTLFLAG_RD, 0, NG_VERSION, ""); 2817 2818 #ifdef NETGRAPH_DEBUG 2819 void 2820 dumphook (hook_p hook, char *file, int line) 2821 { 2822 kprintf("hook: name %s, %d refs, Last touched:\n", 2823 _NG_HOOK_NAME(hook), hook->hk_refs); 2824 kprintf(" Last active @ %s, line %d\n", 2825 hook->lastfile, hook->lastline); 2826 if (line) { 2827 kprintf(" problem discovered at file %s, line %d\n", file, line); 2828 } 2829 } 2830 2831 void 2832 dumpnode(node_p node, char *file, int line) 2833 { 2834 kprintf("node: ID [%x]: type '%s', %d hooks, flags 0x%x, %d refs, %s:\n", 2835 _NG_NODE_ID(node), node->nd_type->name, 2836 node->nd_numhooks, node->nd_flags, 2837 node->nd_refs, node->nd_name); 2838 kprintf(" Last active @ %s, line %d\n", 2839 node->lastfile, node->lastline); 2840 if (line) { 2841 kprintf(" problem discovered at file %s, line %d\n", file, line); 2842 } 2843 } 2844 2845 void 2846 dumpitem(item_p item, char *file, int line) 2847 { 2848 kprintf(" ACTIVE item, last used at %s, line %d", 2849 item->lastfile, item->lastline); 2850 switch(item->el_flags & NGQF_TYPE) { 2851 case NGQF_DATA: 2852 kprintf(" - [data]\n"); 2853 break; 2854 case NGQF_MESG: 2855 kprintf(" - retaddr[%d]:\n", _NGI_RETADDR(item)); 2856 break; 2857 case NGQF_FN: 2858 kprintf(" - fn@%p (%p, %p, %p, %d (%x))\n", 2859 _NGI_FN(item), 2860 _NGI_NODE(item), 2861 _NGI_HOOK(item), 2862 item->body.fn.fn_arg1, 2863 item->body.fn.fn_arg2, 2864 item->body.fn.fn_arg2); 2865 break; 2866 case NGQF_FN2: 2867 kprintf(" - fn2@%p (%p, %p, %p, %d (%x))\n", 2868 _NGI_FN2(item), 2869 _NGI_NODE(item), 2870 _NGI_HOOK(item), 2871 item->body.fn.fn_arg1, 2872 item->body.fn.fn_arg2, 2873 item->body.fn.fn_arg2); 2874 break; 2875 } 2876 if (line) { 2877 kprintf(" problem discovered at file %s, line %d\n", file, line); 2878 if (_NGI_NODE(item)) { 2879 kprintf("node %p ([%x])\n", 2880 _NGI_NODE(item), ng_node2ID(_NGI_NODE(item))); 2881 } 2882 } 2883 } 2884 2885 static void 2886 ng_dumpitems(void) 2887 { 2888 item_p item; 2889 int i = 1; 2890 TAILQ_FOREACH(item, &ng_itemlist, all) { 2891 kprintf("[%d] ", i++); 2892 dumpitem(item, NULL, 0); 2893 } 2894 } 2895 2896 static void 2897 ng_dumpnodes(void) 2898 { 2899 node_p node; 2900 int i = 1; 2901 mtx_lock(&ng_nodelist_mtx); 2902 SLIST_FOREACH(node, &ng_allnodes, nd_all) { 2903 kprintf("[%d] ", i++); 2904 dumpnode(node, NULL, 0); 2905 } 2906 mtx_unlock(&ng_nodelist_mtx); 2907 } 2908 2909 static void 2910 ng_dumphooks(void) 2911 { 2912 hook_p hook; 2913 int i = 1; 2914 mtx_lock(&ng_nodelist_mtx); 2915 SLIST_FOREACH(hook, &ng_allhooks, hk_all) { 2916 kprintf("[%d] ", i++); 2917 dumphook(hook, NULL, 0); 2918 } 2919 mtx_unlock(&ng_nodelist_mtx); 2920 } 2921 2922 static int 2923 sysctl_debug_ng_dump_items(SYSCTL_HANDLER_ARGS) 2924 { 2925 int error; 2926 int val; 2927 2928 val = allocated; 2929 error = sysctl_handle_int(oidp, &val, 0, req); 2930 if (error != 0 || req->newptr == NULL) 2931 return (error); 2932 if (val == 42) { 2933 ng_dumpitems(); 2934 ng_dumpnodes(); 2935 ng_dumphooks(); 2936 } 2937 return (0); 2938 } 2939 2940 SYSCTL_PROC(_debug, OID_AUTO, ng_dump_items, CTLTYPE_INT | CTLFLAG_RW, 2941 0, sizeof(int), sysctl_debug_ng_dump_items, "I", "Number of allocated items"); 2942 #endif /* NETGRAPH_DEBUG */ 2943 2944 2945 /*********************************************************************** 2946 * Externally useable functions to set up a queue item ready for sending 2947 ***********************************************************************/ 2948 2949 #ifdef NETGRAPH_DEBUG 2950 #define ITEM_DEBUG_CHECKS \ 2951 do { \ 2952 if (NGI_NODE(item) ) { \ 2953 kprintf("item already has node"); \ 2954 kdb_enter(KDB_WHY_NETGRAPH, "has node"); \ 2955 NGI_CLR_NODE(item); \ 2956 } \ 2957 if (NGI_HOOK(item) ) { \ 2958 kprintf("item already has hook"); \ 2959 kdb_enter(KDB_WHY_NETGRAPH, "has hook"); \ 2960 NGI_CLR_HOOK(item); \ 2961 } \ 2962 } while (0) 2963 #else 2964 #define ITEM_DEBUG_CHECKS 2965 #endif 2966 2967 /* 2968 * Put mbuf into the item. 2969 * Hook and node references will be removed when the item is dequeued. 2970 * (or equivalent) 2971 * (XXX) Unsafe because no reference held by peer on remote node. 2972 * remote node might go away in this timescale. 2973 * We know the hooks can't go away because that would require getting 2974 * a writer item on both nodes and we must have at least a reader 2975 * here to be able to do this. 2976 * Note that the hook loaded is the REMOTE hook. 2977 * 2978 * This is possibly in the critical path for new data. 2979 */ 2980 item_p 2981 ng_package_data(struct mbuf *m, int flags) 2982 { 2983 item_p item; 2984 2985 if ((item = ng_alloc_item(NGQF_DATA, flags)) == NULL) { 2986 NG_FREE_M(m); 2987 return (NULL); 2988 } 2989 ITEM_DEBUG_CHECKS; 2990 item->el_flags |= NGQF_READER; 2991 NGI_M(item) = m; 2992 return (item); 2993 } 2994 2995 /* 2996 * Allocate a queue item and put items into it.. 2997 * Evaluate the address as this will be needed to queue it and 2998 * to work out what some of the fields should be. 2999 * Hook and node references will be removed when the item is dequeued. 3000 * (or equivalent) 3001 */ 3002 item_p 3003 ng_package_msg(struct ng_mesg *msg, int flags) 3004 { 3005 item_p item; 3006 3007 if ((item = ng_alloc_item(NGQF_MESG, flags)) == NULL) { 3008 NG_FREE_MSG(msg); 3009 return (NULL); 3010 } 3011 ITEM_DEBUG_CHECKS; 3012 /* Messages items count as writers unless explicitly exempted. */ 3013 if (msg->header.cmd & NGM_READONLY) 3014 item->el_flags |= NGQF_READER; 3015 else 3016 item->el_flags |= NGQF_WRITER; 3017 /* 3018 * Set the current lasthook into the queue item 3019 */ 3020 NGI_MSG(item) = msg; 3021 NGI_RETADDR(item) = 0; 3022 return (item); 3023 } 3024 3025 3026 3027 #define SET_RETADDR(item, here, retaddr) \ 3028 do { /* Data or fn items don't have retaddrs */ \ 3029 if ((item->el_flags & NGQF_TYPE) == NGQF_MESG) { \ 3030 if (retaddr) { \ 3031 NGI_RETADDR(item) = retaddr; \ 3032 } else { \ 3033 /* \ 3034 * The old return address should be ok. \ 3035 * If there isn't one, use the address \ 3036 * here. \ 3037 */ \ 3038 if (NGI_RETADDR(item) == 0) { \ 3039 NGI_RETADDR(item) \ 3040 = ng_node2ID(here); \ 3041 } \ 3042 } \ 3043 } \ 3044 } while (0) 3045 3046 int 3047 ng_address_hook(node_p here, item_p item, hook_p hook, ng_ID_t retaddr) 3048 { 3049 hook_p peer; 3050 node_p peernode; 3051 ITEM_DEBUG_CHECKS; 3052 /* 3053 * Quick sanity check.. 3054 * Since a hook holds a reference on it's node, once we know 3055 * that the peer is still connected (even if invalid,) we know 3056 * that the peer node is present, though maybe invalid. 3057 */ 3058 if ((hook == NULL) || 3059 NG_HOOK_NOT_VALID(hook) || 3060 NG_HOOK_NOT_VALID(peer = NG_HOOK_PEER(hook)) || 3061 NG_NODE_NOT_VALID(peernode = NG_PEER_NODE(hook))) { 3062 NG_FREE_ITEM(item); 3063 TRAP_ERROR(); 3064 return (ENETDOWN); 3065 } 3066 3067 /* 3068 * Transfer our interest to the other (peer) end. 3069 */ 3070 NG_HOOK_REF(peer); 3071 NG_NODE_REF(peernode); 3072 NGI_SET_HOOK(item, peer); 3073 NGI_SET_NODE(item, peernode); 3074 SET_RETADDR(item, here, retaddr); 3075 return (0); 3076 } 3077 3078 int 3079 ng_address_path(node_p here, item_p item, char *address, ng_ID_t retaddr) 3080 { 3081 node_p dest = NULL; 3082 hook_p hook = NULL; 3083 int error; 3084 3085 ITEM_DEBUG_CHECKS; 3086 /* 3087 * Note that ng_path2noderef increments the reference count 3088 * on the node for us if it finds one. So we don't have to. 3089 */ 3090 error = ng_path2noderef(here, address, &dest, &hook); 3091 if (error) { 3092 NG_FREE_ITEM(item); 3093 return (error); 3094 } 3095 NGI_SET_NODE(item, dest); 3096 if ( hook) { 3097 NG_HOOK_REF(hook); /* don't let it go while on the queue */ 3098 NGI_SET_HOOK(item, hook); 3099 } 3100 SET_RETADDR(item, here, retaddr); 3101 return (0); 3102 } 3103 3104 int 3105 ng_address_ID(node_p here, item_p item, ng_ID_t ID, ng_ID_t retaddr) 3106 { 3107 node_p dest; 3108 3109 ITEM_DEBUG_CHECKS; 3110 /* 3111 * Find the target node. 3112 */ 3113 dest = ng_ID2noderef(ID); /* GETS REFERENCE! */ 3114 if (dest == NULL) { 3115 NG_FREE_ITEM(item); 3116 TRAP_ERROR(); 3117 return(EINVAL); 3118 } 3119 /* Fill out the contents */ 3120 NGI_SET_NODE(item, dest); 3121 NGI_CLR_HOOK(item); 3122 SET_RETADDR(item, here, retaddr); 3123 return (0); 3124 } 3125 3126 /* 3127 * special case to send a message to self (e.g. destroy node) 3128 * Possibly indicate an arrival hook too. 3129 * Useful for removing that hook :-) 3130 */ 3131 item_p 3132 ng_package_msg_self(node_p here, hook_p hook, struct ng_mesg *msg) 3133 { 3134 item_p item; 3135 3136 /* 3137 * Find the target node. 3138 * If there is a HOOK argument, then use that in preference 3139 * to the address. 3140 */ 3141 if ((item = ng_alloc_item(NGQF_MESG, NG_NOFLAGS)) == NULL) { 3142 NG_FREE_MSG(msg); 3143 return (NULL); 3144 } 3145 3146 /* Fill out the contents */ 3147 item->el_flags |= NGQF_WRITER; 3148 NG_NODE_REF(here); 3149 NGI_SET_NODE(item, here); 3150 if (hook) { 3151 NG_HOOK_REF(hook); 3152 NGI_SET_HOOK(item, hook); 3153 } 3154 NGI_MSG(item) = msg; 3155 NGI_RETADDR(item) = ng_node2ID(here); 3156 return (item); 3157 } 3158 3159 /* 3160 * Send ng_item_fn function call to the specified node. 3161 */ 3162 3163 int 3164 ng_send_fn(node_p node, hook_p hook, ng_item_fn *fn, void * arg1, int arg2) 3165 { 3166 return ng_send_fn1(node, hook, fn, arg1, arg2, NG_NOFLAGS); 3167 } 3168 3169 int 3170 ng_send_fn1(node_p node, hook_p hook, ng_item_fn *fn, void * arg1, int arg2, 3171 int flags) 3172 { 3173 item_p item; 3174 3175 if ((item = ng_alloc_item(NGQF_FN, flags)) == NULL) { 3176 return (ENOMEM); 3177 } 3178 item->el_flags |= NGQF_WRITER; 3179 NG_NODE_REF(node); /* and one for the item */ 3180 NGI_SET_NODE(item, node); 3181 if (hook) { 3182 NG_HOOK_REF(hook); 3183 NGI_SET_HOOK(item, hook); 3184 } 3185 NGI_FN(item) = fn; 3186 NGI_ARG1(item) = arg1; 3187 NGI_ARG2(item) = arg2; 3188 return(ng_snd_item(item, flags)); 3189 } 3190 3191 /* 3192 * Send ng_item_fn2 function call to the specified node. 3193 * 3194 * If NG_REUSE_ITEM flag is set, no new item will be allocated, 3195 * pitem will be used instead. 3196 */ 3197 int 3198 ng_send_fn2(node_p node, hook_p hook, item_p pitem, ng_item_fn2 *fn, void *arg1, 3199 int arg2, int flags) 3200 { 3201 item_p item; 3202 3203 KASSERT((pitem != NULL || (flags & NG_REUSE_ITEM) == 0), 3204 ("%s: NG_REUSE_ITEM but no pitem", __func__)); 3205 3206 /* 3207 * Allocate a new item if no supplied or 3208 * if we can't use supplied one. 3209 */ 3210 if (pitem == NULL || (flags & NG_REUSE_ITEM) == 0) { 3211 if ((item = ng_alloc_item(NGQF_FN2, flags)) == NULL) 3212 return (ENOMEM); 3213 } else { 3214 if ((item = ng_realloc_item(pitem, NGQF_FN2, flags)) == NULL) 3215 return (ENOMEM); 3216 } 3217 3218 item->el_flags = (item->el_flags & ~NGQF_RW) | NGQF_WRITER; 3219 NG_NODE_REF(node); /* and one for the item */ 3220 NGI_SET_NODE(item, node); 3221 if (hook) { 3222 NG_HOOK_REF(hook); 3223 NGI_SET_HOOK(item, hook); 3224 } 3225 NGI_FN2(item) = fn; 3226 NGI_ARG1(item) = arg1; 3227 NGI_ARG2(item) = arg2; 3228 return(ng_snd_item(item, flags)); 3229 } 3230 3231 /* 3232 * Official timeout routines for Netgraph nodes. 3233 */ 3234 static void 3235 ng_callout_trampoline(void *arg) 3236 { 3237 item_p item = arg; 3238 3239 ng_snd_item(item, 0); 3240 } 3241 3242 3243 int 3244 ng_callout(struct callout *c, node_p node, hook_p hook, int ticks, 3245 ng_item_fn *fn, void * arg1, int arg2) 3246 { 3247 item_p item, oitem; 3248 3249 if ((item = ng_alloc_item(NGQF_FN, NG_NOFLAGS)) == NULL) 3250 return (ENOMEM); 3251 3252 item->el_flags |= NGQF_WRITER; 3253 NG_NODE_REF(node); /* and one for the item */ 3254 NGI_SET_NODE(item, node); 3255 if (hook) { 3256 NG_HOOK_REF(hook); 3257 NGI_SET_HOOK(item, hook); 3258 } 3259 NGI_FN(item) = fn; 3260 NGI_ARG1(item) = arg1; 3261 NGI_ARG2(item) = arg2; 3262 oitem = c->c_arg; 3263 callout_reset(c, ticks, &ng_callout_trampoline, item); 3264 return (0); 3265 } 3266 3267 /* A special modified version of untimeout() */ 3268 int 3269 ng_uncallout(struct callout *c, node_p node) 3270 { 3271 item_p item; 3272 int rval; 3273 3274 KASSERT(c != NULL, ("ng_uncallout: NULL callout")); 3275 KASSERT(node != NULL, ("ng_uncallout: NULL node")); 3276 3277 rval = callout_stop(c); 3278 item = c->c_arg; 3279 /* Do an extra check */ 3280 if ((rval > 0) && (c->c_func == &ng_callout_trampoline) && 3281 (NGI_NODE(item) == node)) { 3282 /* 3283 * We successfully removed it from the queue before it ran 3284 * So now we need to unreference everything that was 3285 * given extra references. (NG_FREE_ITEM does this). 3286 */ 3287 NG_FREE_ITEM(item); 3288 } 3289 c->c_arg = NULL; 3290 3291 return (rval); 3292 } 3293 3294 /* 3295 * Set the address, if none given, give the node here. 3296 */ 3297 void 3298 ng_replace_retaddr(node_p here, item_p item, ng_ID_t retaddr) 3299 { 3300 if (retaddr) { 3301 NGI_RETADDR(item) = retaddr; 3302 } else { 3303 /* 3304 * The old return address should be ok. 3305 * If there isn't one, use the address here. 3306 */ 3307 NGI_RETADDR(item) = ng_node2ID(here); 3308 } 3309 } 3310 3311 static boolean_t 3312 bzero_ctor(void *obj, void *private, int ocflags) 3313 { 3314 struct ng_item *i = obj; 3315 3316 bzero(i, sizeof(struct ng_item)); 3317 return(TRUE); 3318 } 3319 3320 #define TESTING 3321 #ifdef TESTING 3322 /* just test all the macros */ 3323 void 3324 ng_macro_test(item_p item); 3325 void 3326 ng_macro_test(item_p item) 3327 { 3328 node_p node = NULL; 3329 hook_p hook = NULL; 3330 struct mbuf *m; 3331 struct ng_mesg *msg; 3332 ng_ID_t retaddr; 3333 int error; 3334 3335 NGI_GET_M(item, m); 3336 NGI_GET_MSG(item, msg); 3337 retaddr = NGI_RETADDR(item); 3338 NG_SEND_DATA(error, hook, m, NULL); 3339 NG_SEND_DATA_ONLY(error, hook, m); 3340 NG_FWD_NEW_DATA(error, item, hook, m); 3341 NG_FWD_ITEM_HOOK(error, item, hook); 3342 NG_SEND_MSG_HOOK(error, node, msg, hook, retaddr); 3343 NG_SEND_MSG_ID(error, node, msg, retaddr, retaddr); 3344 NG_SEND_MSG_PATH(error, node, msg, ".:", retaddr); 3345 NG_FWD_MSG_HOOK(error, node, item, hook, retaddr); 3346 } 3347 #endif /* TESTING */ 3348 3349