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Manage to get a nice big packet queue going inside lwIP.
[netwatch.git] / lwip / src / core / snmp / mib_structs.c
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CommitLineData
1/**
2 * @file
3 * MIB tree access/construction functions.
4 */
5
6/*
7 * Copyright (c) 2006 Axon Digital Design B.V., The Netherlands.
8 * All rights reserved.
9 *
10 * Redistribution and use in source and binary forms, with or without modification,
11 * are permitted provided that the following conditions are met:
12 *
13 * 1. Redistributions of source code must retain the above copyright notice,
14 * this list of conditions and the following disclaimer.
15 * 2. Redistributions in binary form must reproduce the above copyright notice,
16 * this list of conditions and the following disclaimer in the documentation
17 * and/or other materials provided with the distribution.
18 * 3. The name of the author may not be used to endorse or promote products
19 * derived from this software without specific prior written permission.
20 *
21 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
22 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
23 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
24 * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
25 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
26 * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
27 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
28 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
29 * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
30 * OF SUCH DAMAGE.
31 *
32 * Author: Christiaan Simons <christiaan.simons@axon.tv>
33 */
34
35#include "lwip/opt.h"
36
37#if LWIP_SNMP /* don't build if not configured for use in lwipopts.h */
38
39#include "lwip/snmp_structs.h"
40#include "lwip/mem.h"
41
42/** .iso.org.dod.internet address prefix, @see snmp_iso_*() */
43const s32_t prefix[4] = {1, 3, 6, 1};
44
45#define NODE_STACK_SIZE (LWIP_SNMP_OBJ_ID_LEN)
46/** node stack entry (old news?) */
47struct nse
48{
49 /** right child */
50 struct mib_node* r_ptr;
51 /** right child identifier */
52 s32_t r_id;
53 /** right child next level */
54 u8_t r_nl;
55};
56static u8_t node_stack_cnt;
57static struct nse node_stack[NODE_STACK_SIZE];
58
59/**
60 * Pushes nse struct onto stack.
61 */
62static void
63push_node(struct nse* node)
64{
65 LWIP_ASSERT("node_stack_cnt < NODE_STACK_SIZE",node_stack_cnt < NODE_STACK_SIZE);
66 LWIP_DEBUGF(SNMP_MIB_DEBUG,("push_node() node=%p id=%"S32_F"\n",(void*)(node->r_ptr),node->r_id));
67 if (node_stack_cnt < NODE_STACK_SIZE)
68 {
69 node_stack[node_stack_cnt] = *node;
70 node_stack_cnt++;
71 }
72}
73
74/**
75 * Pops nse struct from stack.
76 */
77static void
78pop_node(struct nse* node)
79{
80 if (node_stack_cnt > 0)
81 {
82 node_stack_cnt--;
83 *node = node_stack[node_stack_cnt];
84 }
85 LWIP_DEBUGF(SNMP_MIB_DEBUG,("pop_node() node=%p id=%"S32_F"\n",(void *)(node->r_ptr),node->r_id));
86}
87
88/**
89 * Conversion from ifIndex to lwIP netif
90 * @param ifindex is a s32_t object sub-identifier
91 * @param netif points to returned netif struct pointer
92 */
93void
94snmp_ifindextonetif(s32_t ifindex, struct netif **netif)
95{
96 struct netif *nif = netif_list;
97 u16_t i, ifidx;
98
99 ifidx = ifindex - 1;
100 i = 0;
101 while ((nif != NULL) && (i < ifidx))
102 {
103 nif = nif->next;
104 i++;
105 }
106 *netif = nif;
107}
108
109/**
110 * Conversion from lwIP netif to ifIndex
111 * @param netif points to a netif struct
112 * @param ifidx points to s32_t object sub-identifier
113 */
114void
115snmp_netiftoifindex(struct netif *netif, s32_t *ifidx)
116{
117 struct netif *nif = netif_list;
118 u16_t i;
119
120 i = 0;
121 while (nif != netif)
122 {
123 nif = nif->next;
124 i++;
125 }
126 *ifidx = i+1;
127}
128
129/**
130 * Conversion from oid to lwIP ip_addr
131 * @param ident points to s32_t ident[4] input
132 * @param ip points to output struct
133 */
134void
135snmp_oidtoip(s32_t *ident, struct ip_addr *ip)
136{
137 u32_t ipa;
138
139 ipa = ident[0];
140 ipa <<= 8;
141 ipa |= ident[1];
142 ipa <<= 8;
143 ipa |= ident[2];
144 ipa <<= 8;
145 ipa |= ident[3];
146 ip->addr = ipa;
147}
148
149/**
150 * Conversion from lwIP ip_addr to oid
151 * @param ip points to input struct
152 * @param ident points to s32_t ident[4] output
153 */
154void
155snmp_iptooid(struct ip_addr *ip, s32_t *ident)
156{
157 u32_t ipa;
158
159 ipa = ip->addr;
160 ident[0] = (ipa >> 24) & 0xff;
161 ident[1] = (ipa >> 16) & 0xff;
162 ident[2] = (ipa >> 8) & 0xff;
163 ident[3] = ipa & 0xff;
164}
165
166struct mib_list_node *
167snmp_mib_ln_alloc(s32_t id)
168{
169 struct mib_list_node *ln;
170
171 ln = (struct mib_list_node *)mem_malloc(sizeof(struct mib_list_node));
172 if (ln != NULL)
173 {
174 ln->prev = NULL;
175 ln->next = NULL;
176 ln->objid = id;
177 ln->nptr = NULL;
178 }
179 return ln;
180}
181
182void
183snmp_mib_ln_free(struct mib_list_node *ln)
184{
185 mem_free(ln);
186}
187
188struct mib_list_rootnode *
189snmp_mib_lrn_alloc(void)
190{
191 struct mib_list_rootnode *lrn;
192
193 lrn = (struct mib_list_rootnode*)mem_malloc(sizeof(struct mib_list_rootnode));
194 if (lrn != NULL)
195 {
196 lrn->get_object_def = noleafs_get_object_def;
197 lrn->get_value = noleafs_get_value;
198 lrn->set_test = noleafs_set_test;
199 lrn->set_value = noleafs_set_value;
200 lrn->node_type = MIB_NODE_LR;
201 lrn->maxlength = 0;
202 lrn->head = NULL;
203 lrn->tail = NULL;
204 lrn->count = 0;
205 }
206 return lrn;
207}
208
209void
210snmp_mib_lrn_free(struct mib_list_rootnode *lrn)
211{
212 mem_free(lrn);
213}
214
215/**
216 * Inserts node in idx list in a sorted
217 * (ascending order) fashion and
218 * allocates the node if needed.
219 *
220 * @param rn points to the root node
221 * @param objid is the object sub identifier
222 * @param insn points to a pointer to the inserted node
223 * used for constructing the tree.
224 * @return -1 if failed, 1 if inserted, 2 if present.
225 */
226s8_t
227snmp_mib_node_insert(struct mib_list_rootnode *rn, s32_t objid, struct mib_list_node **insn)
228{
229 struct mib_list_node *nn;
230 s8_t insert;
231
232 LWIP_ASSERT("rn != NULL",rn != NULL);
233
234 /* -1 = malloc failure, 0 = not inserted, 1 = inserted, 2 = was present */
235 insert = 0;
236 if (rn->head == NULL)
237 {
238 /* empty list, add first node */
239 LWIP_DEBUGF(SNMP_MIB_DEBUG,("alloc empty list objid==%"S32_F"\n",objid));
240 nn = snmp_mib_ln_alloc(objid);
241 if (nn != NULL)
242 {
243 rn->head = nn;
244 rn->tail = nn;
245 *insn = nn;
246 insert = 1;
247 }
248 else
249 {
250 insert = -1;
251 }
252 }
253 else
254 {
255 struct mib_list_node *n;
256 /* at least one node is present */
257 n = rn->head;
258 while ((n != NULL) && (insert == 0))
259 {
260 if (n->objid == objid)
261 {
262 /* node is already there */
263 LWIP_DEBUGF(SNMP_MIB_DEBUG,("node already there objid==%"S32_F"\n",objid));
264 *insn = n;
265 insert = 2;
266 }
267 else if (n->objid < objid)
268 {
269 if (n->next == NULL)
270 {
271 /* alloc and insert at the tail */
272 LWIP_DEBUGF(SNMP_MIB_DEBUG,("alloc ins tail objid==%"S32_F"\n",objid));
273 nn = snmp_mib_ln_alloc(objid);
274 if (nn != NULL)
275 {
276 nn->next = NULL;
277 nn->prev = n;
278 n->next = nn;
279 rn->tail = nn;
280 *insn = nn;
281 insert = 1;
282 }
283 else
284 {
285 /* insertion failure */
286 insert = -1;
287 }
288 }
289 else
290 {
291 /* there's more to explore: traverse list */
292 LWIP_DEBUGF(SNMP_MIB_DEBUG,("traverse list\n"));
293 n = n->next;
294 }
295 }
296 else
297 {
298 /* n->objid > objid */
299 /* alloc and insert between n->prev and n */
300 LWIP_DEBUGF(SNMP_MIB_DEBUG,("alloc ins n->prev, objid==%"S32_F", n\n",objid));
301 nn = snmp_mib_ln_alloc(objid);
302 if (nn != NULL)
303 {
304 if (n->prev == NULL)
305 {
306 /* insert at the head */
307 nn->next = n;
308 nn->prev = NULL;
309 rn->head = nn;
310 n->prev = nn;
311 }
312 else
313 {
314 /* insert in the middle */
315 nn->next = n;
316 nn->prev = n->prev;
317 n->prev->next = nn;
318 n->prev = nn;
319 }
320 *insn = nn;
321 insert = 1;
322 }
323 else
324 {
325 /* insertion failure */
326 insert = -1;
327 }
328 }
329 }
330 }
331 if (insert == 1)
332 {
333 rn->count += 1;
334 }
335 LWIP_ASSERT("insert != 0",insert != 0);
336 return insert;
337}
338
339/**
340 * Finds node in idx list and returns deletion mark.
341 *
342 * @param rn points to the root node
343 * @param objid is the object sub identifier
344 * @param fn returns pointer to found node
345 * @return 0 if not found, 1 if deletable,
346 * 2 can't delete (2 or more children), 3 not a list_node
347 */
348s8_t
349snmp_mib_node_find(struct mib_list_rootnode *rn, s32_t objid, struct mib_list_node **fn)
350{
351 s8_t fc;
352 struct mib_list_node *n;
353
354 LWIP_ASSERT("rn != NULL",rn != NULL);
355 n = rn->head;
356 while ((n != NULL) && (n->objid != objid))
357 {
358 n = n->next;
359 }
360 if (n == NULL)
361 {
362 fc = 0;
363 }
364 else if (n->nptr == NULL)
365 {
366 /* leaf, can delete node */
367 fc = 1;
368 }
369 else
370 {
371 struct mib_list_rootnode *r;
372
373 if (n->nptr->node_type == MIB_NODE_LR)
374 {
375 r = (struct mib_list_rootnode *)n->nptr;
376 if (r->count > 1)
377 {
378 /* can't delete node */
379 fc = 2;
380 }
381 else
382 {
383 /* count <= 1, can delete node */
384 fc = 1;
385 }
386 }
387 else
388 {
389 /* other node type */
390 fc = 3;
391 }
392 }
393 *fn = n;
394 return fc;
395}
396
397/**
398 * Removes node from idx list
399 * if it has a single child left.
400 *
401 * @param rn points to the root node
402 * @param n points to the node to delete
403 * @return the nptr to be freed by caller
404 */
405struct mib_list_rootnode *
406snmp_mib_node_delete(struct mib_list_rootnode *rn, struct mib_list_node *n)
407{
408 struct mib_list_rootnode *next;
409
410 LWIP_ASSERT("rn != NULL",rn != NULL);
411 LWIP_ASSERT("n != NULL",n != NULL);
412
413 /* caller must remove this sub-tree */
414 next = (struct mib_list_rootnode*)(n->nptr);
415 rn->count -= 1;
416
417 if (n == rn->head)
418 {
419 rn->head = n->next;
420 if (n->next != NULL)
421 {
422 /* not last node, new list begin */
423 n->next->prev = NULL;
424 }
425 }
426 else if (n == rn->tail)
427 {
428 rn->tail = n->prev;
429 if (n->prev != NULL)
430 {
431 /* not last node, new list end */
432 n->prev->next = NULL;
433 }
434 }
435 else
436 {
437 /* node must be in the middle */
438 n->prev->next = n->next;
439 n->next->prev = n->prev;
440 }
441 LWIP_DEBUGF(SNMP_MIB_DEBUG,("free list objid==%"S32_F"\n",n->objid));
442 snmp_mib_ln_free(n);
443 if (rn->count == 0)
444 {
445 rn->head = NULL;
446 rn->tail = NULL;
447 }
448 return next;
449}
450
451
452
453/**
454 * Searches tree for the supplied (scalar?) object identifier.
455 *
456 * @param node points to the root of the tree ('.internet')
457 * @param ident_len the length of the supplied object identifier
458 * @param ident points to the array of sub identifiers
459 * @param np points to the found object instance (rerurn)
460 * @return pointer to the requested parent (!) node if success, NULL otherwise
461 */
462struct mib_node *
463snmp_search_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_name_ptr *np)
464{
465 u8_t node_type, ext_level;
466
467 ext_level = 0;
468 LWIP_DEBUGF(SNMP_MIB_DEBUG,("node==%p *ident==%"S32_F"\n",(void*)node,*ident));
469 while (node != NULL)
470 {
471 node_type = node->node_type;
472 if ((node_type == MIB_NODE_AR) || (node_type == MIB_NODE_RA))
473 {
474 struct mib_array_node *an;
475 u16_t i;
476
477 if (ident_len > 0)
478 {
479 /* array node (internal ROM or RAM, fixed length) */
480 an = (struct mib_array_node *)node;
481 i = 0;
482 while ((i < an->maxlength) && (an->objid[i] != *ident))
483 {
484 i++;
485 }
486 if (i < an->maxlength)
487 {
488 /* found it, if available proceed to child, otherwise inspect leaf */
489 LWIP_DEBUGF(SNMP_MIB_DEBUG,("an->objid[%"U16_F"]==%"S32_F" *ident==%"S32_F"\n",i,an->objid[i],*ident));
490 if (an->nptr[i] == NULL)
491 {
492 /* a scalar leaf OR table,
493 inspect remaining instance number / table index */
494 np->ident_len = ident_len;
495 np->ident = ident;
496 return (struct mib_node*)an;
497 }
498 else
499 {
500 /* follow next child pointer */
501 ident++;
502 ident_len--;
503 node = an->nptr[i];
504 }
505 }
506 else
507 {
508 /* search failed, identifier mismatch (nosuchname) */
509 LWIP_DEBUGF(SNMP_MIB_DEBUG,("an search failed *ident==%"S32_F"\n",*ident));
510 return NULL;
511 }
512 }
513 else
514 {
515 /* search failed, short object identifier (nosuchname) */
516 LWIP_DEBUGF(SNMP_MIB_DEBUG,("an search failed, short object identifier\n"));
517 return NULL;
518 }
519 }
520 else if(node_type == MIB_NODE_LR)
521 {
522 struct mib_list_rootnode *lrn;
523 struct mib_list_node *ln;
524
525 if (ident_len > 0)
526 {
527 /* list root node (internal 'RAM', variable length) */
528 lrn = (struct mib_list_rootnode *)node;
529 ln = lrn->head;
530 /* iterate over list, head to tail */
531 while ((ln != NULL) && (ln->objid != *ident))
532 {
533 ln = ln->next;
534 }
535 if (ln != NULL)
536 {
537 /* found it, proceed to child */;
538 LWIP_DEBUGF(SNMP_MIB_DEBUG,("ln->objid==%"S32_F" *ident==%"S32_F"\n",ln->objid,*ident));
539 if (ln->nptr == NULL)
540 {
541 np->ident_len = ident_len;
542 np->ident = ident;
543 return (struct mib_node*)lrn;
544 }
545 else
546 {
547 /* follow next child pointer */
548 ident_len--;
549 ident++;
550 node = ln->nptr;
551 }
552 }
553 else
554 {
555 /* search failed */
556 LWIP_DEBUGF(SNMP_MIB_DEBUG,("ln search failed *ident==%"S32_F"\n",*ident));
557 return NULL;
558 }
559 }
560 else
561 {
562 /* search failed, short object identifier (nosuchname) */
563 LWIP_DEBUGF(SNMP_MIB_DEBUG,("ln search failed, short object identifier\n"));
564 return NULL;
565 }
566 }
567 else if(node_type == MIB_NODE_EX)
568 {
569 struct mib_external_node *en;
570 u16_t i, len;
571
572 if (ident_len > 0)
573 {
574 /* external node (addressing and access via functions) */
575 en = (struct mib_external_node *)node;
576
577 i = 0;
578 len = en->level_length(en->addr_inf,ext_level);
579 while ((i < len) && (en->ident_cmp(en->addr_inf,ext_level,i,*ident) != 0))
580 {
581 i++;
582 }
583 if (i < len)
584 {
585 s32_t debug_id;
586
587 en->get_objid(en->addr_inf,ext_level,i,&debug_id);
588 LWIP_DEBUGF(SNMP_MIB_DEBUG,("en->objid==%"S32_F" *ident==%"S32_F"\n",debug_id,*ident));
589 if ((ext_level + 1) == en->tree_levels)
590 {
591 np->ident_len = ident_len;
592 np->ident = ident;
593 return (struct mib_node*)en;
594 }
595 else
596 {
597 /* found it, proceed to child */
598 ident_len--;
599 ident++;
600 ext_level++;
601 }
602 }
603 else
604 {
605 /* search failed */
606 LWIP_DEBUGF(SNMP_MIB_DEBUG,("en search failed *ident==%"S32_F"\n",*ident));
607 return NULL;
608 }
609 }
610 else
611 {
612 /* search failed, short object identifier (nosuchname) */
613 LWIP_DEBUGF(SNMP_MIB_DEBUG,("en search failed, short object identifier\n"));
614 return NULL;
615 }
616 }
617 else if (node_type == MIB_NODE_SC)
618 {
619 mib_scalar_node *sn;
620
621 sn = (mib_scalar_node *)node;
622 if ((ident_len == 1) && (*ident == 0))
623 {
624 np->ident_len = ident_len;
625 np->ident = ident;
626 return (struct mib_node*)sn;
627 }
628 else
629 {
630 /* search failed, short object identifier (nosuchname) */
631 LWIP_DEBUGF(SNMP_MIB_DEBUG,("search failed, invalid object identifier length\n"));
632 return NULL;
633 }
634 }
635 else
636 {
637 /* unknown node_type */
638 LWIP_DEBUGF(SNMP_MIB_DEBUG,("search failed node_type %"U16_F" unkown\n",(u16_t)node_type));
639 return NULL;
640 }
641 }
642 /* done, found nothing */
643 LWIP_DEBUGF(SNMP_MIB_DEBUG,("search failed node==%p\n",(void*)node));
644 return NULL;
645}
646
647/**
648 * Test table for presence of at least one table entry.
649 */
650static u8_t
651empty_table(struct mib_node *node)
652{
653 u8_t node_type;
654 u8_t empty = 0;
655
656 if (node != NULL)
657 {
658 node_type = node->node_type;
659 if (node_type == MIB_NODE_LR)
660 {
661 struct mib_list_rootnode *lrn;
662 lrn = (struct mib_list_rootnode *)node;
663 if ((lrn->count == 0) || (lrn->head == NULL))
664 {
665 empty = 1;
666 }
667 }
668 else if ((node_type == MIB_NODE_AR) || (node_type == MIB_NODE_RA))
669 {
670 struct mib_array_node *an;
671 an = (struct mib_array_node *)node;
672 if ((an->maxlength == 0) || (an->nptr == NULL))
673 {
674 empty = 1;
675 }
676 }
677 else if (node_type == MIB_NODE_EX)
678 {
679 struct mib_external_node *en;
680 en = (struct mib_external_node *)node;
681 if (en->tree_levels == 0)
682 {
683 empty = 1;
684 }
685 }
686 }
687 return empty;
688}
689
690/**
691 * Tree expansion.
692 */
693struct mib_node *
694snmp_expand_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
695{
696 u8_t node_type, ext_level, climb_tree;
697
698 ext_level = 0;
699 /* reset node stack */
700 node_stack_cnt = 0;
701 while (node != NULL)
702 {
703 climb_tree = 0;
704 node_type = node->node_type;
705 if ((node_type == MIB_NODE_AR) || (node_type == MIB_NODE_RA))
706 {
707 struct mib_array_node *an;
708 u16_t i;
709
710 /* array node (internal ROM or RAM, fixed length) */
711 an = (struct mib_array_node *)node;
712 if (ident_len > 0)
713 {
714 i = 0;
715 while ((i < an->maxlength) && (an->objid[i] < *ident))
716 {
717 i++;
718 }
719 if (i < an->maxlength)
720 {
721 LWIP_DEBUGF(SNMP_MIB_DEBUG,("an->objid[%"U16_F"]==%"S32_F" *ident==%"S32_F"\n",i,an->objid[i],*ident));
722 /* add identifier to oidret */
723 oidret->id[oidret->len] = an->objid[i];
724 (oidret->len)++;
725
726 if (an->nptr[i] == NULL)
727 {
728 LWIP_DEBUGF(SNMP_MIB_DEBUG,("leaf node\n"));
729 /* leaf node (e.g. in a fixed size table) */
730 if (an->objid[i] > *ident)
731 {
732 return (struct mib_node*)an;
733 }
734 else if ((i + 1) < an->maxlength)
735 {
736 /* an->objid[i] == *ident */
737 (oidret->len)--;
738 oidret->id[oidret->len] = an->objid[i + 1];
739 (oidret->len)++;
740 return (struct mib_node*)an;
741 }
742 else
743 {
744 /* (i + 1) == an->maxlength */
745 (oidret->len)--;
746 climb_tree = 1;
747 }
748 }
749 else
750 {
751 u8_t j;
752 struct nse cur_node;
753
754 LWIP_DEBUGF(SNMP_MIB_DEBUG,("non-leaf node\n"));
755 /* non-leaf, store right child ptr and id */
756 j = i + 1;
757 while ((j < an->maxlength) && (empty_table(an->nptr[j])))
758 {
759 j++;
760 }
761 if (j < an->maxlength)
762 {
763 cur_node.r_ptr = an->nptr[j];
764 cur_node.r_id = an->objid[j];
765 cur_node.r_nl = 0;
766 }
767 else
768 {
769 cur_node.r_ptr = NULL;
770 }
771 push_node(&cur_node);
772 if (an->objid[i] == *ident)
773 {
774 ident_len--;
775 ident++;
776 }
777 else
778 {
779 /* an->objid[i] < *ident */
780 ident_len = 0;
781 }
782 /* follow next child pointer */
783 node = an->nptr[i];
784 }
785 }
786 else
787 {
788 /* i == an->maxlength */
789 climb_tree = 1;
790 }
791 }
792 else
793 {
794 u8_t j;
795 /* ident_len == 0, complete with leftmost '.thing' */
796 j = 0;
797 while ((j < an->maxlength) && empty_table(an->nptr[j]))
798 {
799 j++;
800 }
801 if (j < an->maxlength)
802 {
803 LWIP_DEBUGF(SNMP_MIB_DEBUG,("left an->objid[j]==%"S32_F"\n",an->objid[j]));
804 oidret->id[oidret->len] = an->objid[j];
805 (oidret->len)++;
806 if (an->nptr[j] == NULL)
807 {
808 /* leaf node */
809 return (struct mib_node*)an;
810 }
811 else
812 {
813 /* no leaf, continue */
814 node = an->nptr[j];
815 }
816 }
817 else
818 {
819 /* j == an->maxlength */
820 climb_tree = 1;
821 }
822 }
823 }
824 else if(node_type == MIB_NODE_LR)
825 {
826 struct mib_list_rootnode *lrn;
827 struct mib_list_node *ln;
828
829 /* list root node (internal 'RAM', variable length) */
830 lrn = (struct mib_list_rootnode *)node;
831 if (ident_len > 0)
832 {
833 ln = lrn->head;
834 /* iterate over list, head to tail */
835 while ((ln != NULL) && (ln->objid < *ident))
836 {
837 ln = ln->next;
838 }
839 if (ln != NULL)
840 {
841 LWIP_DEBUGF(SNMP_MIB_DEBUG,("ln->objid==%"S32_F" *ident==%"S32_F"\n",ln->objid,*ident));
842 oidret->id[oidret->len] = ln->objid;
843 (oidret->len)++;
844 if (ln->nptr == NULL)
845 {
846 /* leaf node */
847 if (ln->objid > *ident)
848 {
849 return (struct mib_node*)lrn;
850 }
851 else if (ln->next != NULL)
852 {
853 /* ln->objid == *ident */
854 (oidret->len)--;
855 oidret->id[oidret->len] = ln->next->objid;
856 (oidret->len)++;
857 return (struct mib_node*)lrn;
858 }
859 else
860 {
861 /* ln->next == NULL */
862 (oidret->len)--;
863 climb_tree = 1;
864 }
865 }
866 else
867 {
868 struct mib_list_node *jn;
869 struct nse cur_node;
870
871 /* non-leaf, store right child ptr and id */
872 jn = ln->next;
873 while ((jn != NULL) && empty_table(jn->nptr))
874 {
875 jn = jn->next;
876 }
877 if (jn != NULL)
878 {
879 cur_node.r_ptr = jn->nptr;
880 cur_node.r_id = jn->objid;
881 cur_node.r_nl = 0;
882 }
883 else
884 {
885 cur_node.r_ptr = NULL;
886 }
887 push_node(&cur_node);
888 if (ln->objid == *ident)
889 {
890 ident_len--;
891 ident++;
892 }
893 else
894 {
895 /* ln->objid < *ident */
896 ident_len = 0;
897 }
898 /* follow next child pointer */
899 node = ln->nptr;
900 }
901
902 }
903 else
904 {
905 /* ln == NULL */
906 climb_tree = 1;
907 }
908 }
909 else
910 {
911 struct mib_list_node *jn;
912 /* ident_len == 0, complete with leftmost '.thing' */
913 jn = lrn->head;
914 while ((jn != NULL) && empty_table(jn->nptr))
915 {
916 jn = jn->next;
917 }
918 if (jn != NULL)
919 {
920 LWIP_DEBUGF(SNMP_MIB_DEBUG,("left jn->objid==%"S32_F"\n",jn->objid));
921 oidret->id[oidret->len] = jn->objid;
922 (oidret->len)++;
923 if (jn->nptr == NULL)
924 {
925 /* leaf node */
926 LWIP_DEBUGF(SNMP_MIB_DEBUG,("jn->nptr == NULL\n"));
927 return (struct mib_node*)lrn;
928 }
929 else
930 {
931 /* no leaf, continue */
932 node = jn->nptr;
933 }
934 }
935 else
936 {
937 /* jn == NULL */
938 climb_tree = 1;
939 }
940 }
941 }
942 else if(node_type == MIB_NODE_EX)
943 {
944 struct mib_external_node *en;
945 s32_t ex_id;
946
947 /* external node (addressing and access via functions) */
948 en = (struct mib_external_node *)node;
949 if (ident_len > 0)
950 {
951 u16_t i, len;
952
953 i = 0;
954 len = en->level_length(en->addr_inf,ext_level);
955 while ((i < len) && (en->ident_cmp(en->addr_inf,ext_level,i,*ident) < 0))
956 {
957 i++;
958 }
959 if (i < len)
960 {
961 /* add identifier to oidret */
962 en->get_objid(en->addr_inf,ext_level,i,&ex_id);
963 LWIP_DEBUGF(SNMP_MIB_DEBUG,("en->objid[%"U16_F"]==%"S32_F" *ident==%"S32_F"\n",i,ex_id,*ident));
964 oidret->id[oidret->len] = ex_id;
965 (oidret->len)++;
966
967 if ((ext_level + 1) == en->tree_levels)
968 {
969 LWIP_DEBUGF(SNMP_MIB_DEBUG,("leaf node\n"));
970 /* leaf node */
971 if (ex_id > *ident)
972 {
973 return (struct mib_node*)en;
974 }
975 else if ((i + 1) < len)
976 {
977 /* ex_id == *ident */
978 en->get_objid(en->addr_inf,ext_level,i + 1,&ex_id);
979 (oidret->len)--;
980 oidret->id[oidret->len] = ex_id;
981 (oidret->len)++;
982 return (struct mib_node*)en;
983 }
984 else
985 {
986 /* (i + 1) == len */
987 (oidret->len)--;
988 climb_tree = 1;
989 }
990 }
991 else
992 {
993 u8_t j;
994 struct nse cur_node;
995
996 LWIP_DEBUGF(SNMP_MIB_DEBUG,("non-leaf node\n"));
997 /* non-leaf, store right child ptr and id */
998 j = i + 1;
999 if (j < len)
1000 {
1001 /* right node is the current external node */
1002 cur_node.r_ptr = node;
1003 en->get_objid(en->addr_inf,ext_level,j,&cur_node.r_id);
1004 cur_node.r_nl = ext_level + 1;
1005 }
1006 else
1007 {
1008 cur_node.r_ptr = NULL;
1009 }
1010 push_node(&cur_node);
1011 if (en->ident_cmp(en->addr_inf,ext_level,i,*ident) == 0)
1012 {
1013 ident_len--;
1014 ident++;
1015 }
1016 else
1017 {
1018 /* external id < *ident */
1019 ident_len = 0;
1020 }
1021 /* proceed to child */
1022 ext_level++;
1023 }
1024 }
1025 else
1026 {
1027 /* i == len (en->level_len()) */
1028 climb_tree = 1;
1029 }
1030 }
1031 else
1032 {
1033 /* ident_len == 0, complete with leftmost '.thing' */
1034 en->get_objid(en->addr_inf,ext_level,0,&ex_id);
1035 LWIP_DEBUGF(SNMP_MIB_DEBUG,("left en->objid==%"S32_F"\n",ex_id));
1036 oidret->id[oidret->len] = ex_id;
1037 (oidret->len)++;
1038 if ((ext_level + 1) == en->tree_levels)
1039 {
1040 /* leaf node */
1041 LWIP_DEBUGF(SNMP_MIB_DEBUG,("(ext_level + 1) == en->tree_levels\n"));
1042 return (struct mib_node*)en;
1043 }
1044 else
1045 {
1046 /* no leaf, proceed to child */
1047 ext_level++;
1048 }
1049 }
1050 }
1051 else if(node_type == MIB_NODE_SC)
1052 {
1053 mib_scalar_node *sn;
1054
1055 /* scalar node */
1056 sn = (mib_scalar_node *)node;
1057 if (ident_len > 0)
1058 {
1059 /* at .0 */
1060 climb_tree = 1;
1061 }
1062 else
1063 {
1064 /* ident_len == 0, complete object identifier */
1065 oidret->id[oidret->len] = 0;
1066 (oidret->len)++;
1067 /* leaf node */
1068 LWIP_DEBUGF(SNMP_MIB_DEBUG,("completed scalar leaf\n"));
1069 return (struct mib_node*)sn;
1070 }
1071 }
1072 else
1073 {
1074 /* unknown/unhandled node_type */
1075 LWIP_DEBUGF(SNMP_MIB_DEBUG,("expand failed node_type %"U16_F" unkown\n",(u16_t)node_type));
1076 return NULL;
1077 }
1078
1079 if (climb_tree)
1080 {
1081 struct nse child;
1082
1083 /* find right child ptr */
1084 child.r_ptr = NULL;
1085 child.r_id = 0;
1086 child.r_nl = 0;
1087 while ((node_stack_cnt > 0) && (child.r_ptr == NULL))
1088 {
1089 pop_node(&child);
1090 /* trim returned oid */
1091 (oidret->len)--;
1092 }
1093 if (child.r_ptr != NULL)
1094 {
1095 /* incoming ident is useless beyond this point */
1096 ident_len = 0;
1097 oidret->id[oidret->len] = child.r_id;
1098 oidret->len++;
1099 node = child.r_ptr;
1100 ext_level = child.r_nl;
1101 }
1102 else
1103 {
1104 /* tree ends here ... */
1105 LWIP_DEBUGF(SNMP_MIB_DEBUG,("expand failed, tree ends here\n"));
1106 return NULL;
1107 }
1108 }
1109 }
1110 /* done, found nothing */
1111 LWIP_DEBUGF(SNMP_MIB_DEBUG,("expand failed node==%p\n",(void*)node));
1112 return NULL;
1113}
1114
1115/**
1116 * Test object identifier for the iso.org.dod.internet prefix.
1117 *
1118 * @param ident_len the length of the supplied object identifier
1119 * @param ident points to the array of sub identifiers
1120 * @return 1 if it matches, 0 otherwise
1121 */
1122u8_t
1123snmp_iso_prefix_tst(u8_t ident_len, s32_t *ident)
1124{
1125 if ((ident_len > 3) &&
1126 (ident[0] == 1) && (ident[1] == 3) &&
1127 (ident[2] == 6) && (ident[3] == 1))
1128 {
1129 return 1;
1130 }
1131 else
1132 {
1133 return 0;
1134 }
1135}
1136
1137/**
1138 * Expands object identifier to the iso.org.dod.internet
1139 * prefix for use in getnext operation.
1140 *
1141 * @param ident_len the length of the supplied object identifier
1142 * @param ident points to the array of sub identifiers
1143 * @param oidret points to returned expanded object identifier
1144 * @return 1 if it matches, 0 otherwise
1145 *
1146 * @note ident_len 0 is allowed, expanding to the first known object id!!
1147 */
1148u8_t
1149snmp_iso_prefix_expand(u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
1150{
1151 const s32_t *prefix_ptr;
1152 s32_t *ret_ptr;
1153 u8_t i;
1154
1155 i = 0;
1156 prefix_ptr = &prefix[0];
1157 ret_ptr = &oidret->id[0];
1158 ident_len = ((ident_len < 4)?ident_len:4);
1159 while ((i < ident_len) && ((*ident) <= (*prefix_ptr)))
1160 {
1161 *ret_ptr++ = *prefix_ptr++;
1162 ident++;
1163 i++;
1164 }
1165 if (i == ident_len)
1166 {
1167 /* match, complete missing bits */
1168 while (i < 4)
1169 {
1170 *ret_ptr++ = *prefix_ptr++;
1171 i++;
1172 }
1173 oidret->len = i;
1174 return 1;
1175 }
1176 else
1177 {
1178 /* i != ident_len */
1179 return 0;
1180 }
1181}
1182
1183#endif /* LWIP_SNMP */
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