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91447636
A
1/*
2 * Copyright (c) 2004 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
37839358
A
6 * The contents of this file constitute Original Code as defined in and
7 * are subject to the Apple Public Source License Version 1.1 (the
8 * "License"). You may not use this file except in compliance with the
9 * License. Please obtain a copy of the License at
10 * http://www.apple.com/publicsource and read it before using this file.
91447636 11 *
37839358
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12 * This Original Code and all software distributed under the License are
13 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
91447636
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14 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
15 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
37839358
A
16 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
17 * License for the specific language governing rights and limitations
18 * under the License.
91447636
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19 *
20 * @APPLE_LICENSE_HEADER_END@
21 */
22
55e303ae
A
23#ifdef KERNEL
24#include <libsa/vers_rsrc.h>
25#else
26#include <libc.h>
27#include <stdlib.h>
28#include <stdarg.h>
29#include <stdio.h>
30#include <string.h>
31#include <unistd.h>
32
33#include "KXKext.h"
34#include "vers_rsrc.h"
35#endif /* KERNEL */
36
37#include "dgraph.h"
38#include "load.h"
39
40
41static void __dgraph_entry_free(dgraph_entry_t * entry);
42
43#ifdef KERNEL
44/*******************************************************************************
45*
46*******************************************************************************/
47char * strdup(const char * string)
48{
49 char * dup = 0;
50 unsigned int length;
51
52 length = strlen(string);
53 dup = (char *)malloc((1+length) * sizeof(char));
54 if (!dup) {
55 return NULL;
56 }
57 strcpy(dup, string);
58 return dup;
59}
60
61#endif /* KERNEL */
62
63/*******************************************************************************
64*
65*******************************************************************************/
66dgraph_error_t dgraph_init(dgraph_t * dgraph)
67{
68 bzero(dgraph, sizeof(dgraph_t));
69
70 dgraph->capacity = (5); // pulled from a hat
71
72 /* Make sure list is big enough & graph has a good start size.
73 */
74 dgraph->graph = (dgraph_entry_t **)malloc(
75 dgraph->capacity * sizeof(dgraph_entry_t *));
76
77 if (!dgraph->graph) {
78 return dgraph_error;
79 }
80
81 return dgraph_valid;
82}
83
84#ifndef KERNEL
85/*******************************************************************************
86*
87*******************************************************************************/
88dgraph_error_t dgraph_init_with_arglist(
89 dgraph_t * dgraph,
90 int expect_addresses,
91 const char * dependency_delimiter,
92 const char * kernel_dependency_delimiter,
93 int argc,
94 char * argv[])
95{
96 dgraph_error_t result = dgraph_valid;
97 unsigned int i;
98 int found_zero_load_address = 0;
99 int found_nonzero_load_address = 0;
100 dgraph_entry_t * current_dependent = NULL;
101 char kernel_dependencies = 0;
102
103 result = dgraph_init(dgraph);
104 if (result != dgraph_valid) {
105 return result;
106 }
107
108 for (i = 0; i < argc; i++) {
109 vm_address_t load_address = 0;
110
111 if (0 == strcmp(argv[i], dependency_delimiter)) {
112 kernel_dependencies = 0;
113 current_dependent = NULL;
114 continue;
115 } else if (0 == strcmp(argv[i], kernel_dependency_delimiter)) {
116 kernel_dependencies = 1;
117 current_dependent = NULL;
118 continue;
119 }
120
121 if (expect_addresses) {
122 char * address = rindex(argv[i], '@');
123 if (address) {
124 *address++ = 0; // snip the address from the filename
125 load_address = strtoul(address, NULL, 0);
126 }
127 }
128
129 if (!current_dependent) {
130 current_dependent = dgraph_add_dependent(dgraph, argv[i],
131 /* expected kmod name */ NULL, /* expected vers */ 0,
132 load_address, 0);
133 if (!current_dependent) {
134 return dgraph_error;
135 }
136 } else {
137 if (!dgraph_add_dependency(dgraph, current_dependent, argv[i],
138 /* expected kmod name */ NULL, /* expected vers */ 0,
139 load_address, kernel_dependencies)) {
140
141 return dgraph_error;
142 }
143 }
144 }
145
146 dgraph->root = dgraph_find_root(dgraph);
147 dgraph_establish_load_order(dgraph);
148
149 if (!dgraph->root) {
150 kload_log_error("dependency graph has no root" KNL);
151 return dgraph_invalid;
152 }
153
154 if (dgraph->root->is_kernel_component && !dgraph->root->is_symbol_set) {
155 kload_log_error("dependency graph root is a kernel component" KNL);
156 return dgraph_invalid;
157 }
158
159 for (i = 0; i < dgraph->length; i++) {
160 if (dgraph->graph[i]->loaded_address == 0) {
161 found_zero_load_address = 1;
162 } else {
163 found_nonzero_load_address = 1;
164 }
165 if ( (i > 0) &&
166 (found_zero_load_address && found_nonzero_load_address)) {
167
168 kload_log_error(
169 "load addresses must be specified for all module files" KNL);
170 return dgraph_invalid;
171 }
172 }
173
174 return dgraph_valid;
175}
176#endif /* not KERNEL */
177
178/*******************************************************************************
179*
180*******************************************************************************/
181static void __dgraph_entry_free(dgraph_entry_t * entry)
182{
183 if (entry->name) {
184 free(entry->name);
185 entry->name = NULL;
186 }
187 if (entry->expected_kmod_name) {
188 free(entry->expected_kmod_name);
189 entry->expected_kmod_name = NULL;
190 }
191 if (entry->expected_kmod_vers) {
192 free(entry->expected_kmod_vers);
193 entry->expected_kmod_vers = NULL;
194 }
195 if (entry->dependencies) {
196 free(entry->dependencies);
197 entry->dependencies = NULL;
198 }
199 if (entry->symbols_malloc) {
200 free((void *) entry->symbols_malloc);
201 entry->symbols_malloc = NULL;
202 }
203 free(entry);
204 return;
205}
206
207/*******************************************************************************
208*
209*******************************************************************************/
210void dgraph_free(
211 dgraph_t * dgraph,
212 int free_graph)
213{
214 unsigned int entry_index;
215
216 if (!dgraph) {
217 return;
218 }
219
220 for (entry_index = 0; entry_index < dgraph->length; entry_index++) {
221 dgraph_entry_t * current = dgraph->graph[entry_index];
222 __dgraph_entry_free(current);
223 }
224
225 if (dgraph->graph) {
226 free(dgraph->graph);
227 dgraph->graph = NULL;
228 }
229
230 if (dgraph->load_order) {
231 free(dgraph->load_order);
232 dgraph->load_order = NULL;
233 }
234
235 if (free_graph && dgraph) {
236 free(dgraph);
237 }
238
239 return;
240}
241
242
243/*******************************************************************************
244*
245*******************************************************************************/
246dgraph_entry_t * dgraph_find_root(dgraph_t * dgraph) {
247 dgraph_entry_t * root = NULL;
248 dgraph_entry_t * candidate = NULL;
249 unsigned int candidate_index;
250 unsigned int scan_index;
251 unsigned int dep_index;
252
253
254 /* Scan each entry in the graph for one that isn't in any other entry's
255 * dependencies.
256 */
257 for (candidate_index = 0; candidate_index < dgraph->length;
258 candidate_index++) {
259
260 candidate = dgraph->graph[candidate_index];
261
262 for (scan_index = 0; scan_index < dgraph->length; scan_index++) {
263
264 dgraph_entry_t * scan_entry = dgraph->graph[scan_index];
265 if (candidate == scan_entry) {
266 // don't check yourself
267 continue;
268 }
269 for (dep_index = 0; dep_index < scan_entry->num_dependencies;
270 dep_index++) {
271
272 /* If the dependency being checked is the candidate,
273 * then the candidate can't be the root.
274 */
275 dgraph_entry_t * check = scan_entry->dependencies[dep_index];
276
277 if (check == candidate) {
278 candidate = NULL;
279 break;
280 }
281 }
282
283 /* If the candidate was rejected, then hop out of this loop.
284 */
285 if (!candidate) {
286 break;
287 }
288 }
289
290 /* If we got here, the candidate is a valid one. However, if we already
291 * found another, that means we have two possible roots (or more), which
292 * is NOT ALLOWED.
293 */
294 if (candidate) {
295 if (root) {
296 kload_log_error("dependency graph has multiple roots "
297 "(%s and %s)" KNL, root->name, candidate->name);
298 return NULL; // two valid roots, illegal
299 } else {
300 root = candidate;
301 }
302 }
303 }
304
305 if (!root) {
306 kload_log_error("dependency graph has no root node" KNL);
307 }
308
309 return root;
310}
311
312/*******************************************************************************
313*
314*******************************************************************************/
315dgraph_entry_t ** fill_backward_load_order(
316 dgraph_entry_t ** backward_load_order,
317 unsigned int * list_length,
318 dgraph_entry_t * first_entry,
319 unsigned int * last_index /* out param */)
320{
321 int i;
322 unsigned int scan_index = 0;
323 unsigned int add_index = 0;
324 dgraph_entry_t * scan_entry;
325
326 if (*list_length == 0) {
327 if (backward_load_order) {
328 free(backward_load_order);
329 backward_load_order = NULL;
330 }
331 goto finish;
332 }
333
334 backward_load_order[add_index++] = first_entry;
335
336 while (scan_index < add_index) {
337
338 if (add_index > 255) {
339 kload_log_error(
340 "dependency list for %s ridiculously long; probably a loop" KNL,
341 first_entry->name);
342 if (backward_load_order) {
343 free(backward_load_order);
344 backward_load_order = NULL;
345 }
346 goto finish;
347 }
348
349 scan_entry = backward_load_order[scan_index++];
350
351 /* Increase the load order list if needed.
352 */
353 if (add_index + scan_entry->num_dependencies > (*list_length)) {
354 (*list_length) *= 2;
355 backward_load_order = (dgraph_entry_t **)realloc(
356 backward_load_order,
357 (*list_length) * sizeof(dgraph_entry_t *));
358 if (!backward_load_order) {
359 goto finish;
360 }
361 }
362
363 /* Put the dependencies of the scanning entry into the list.
364 */
365 for (i = 0; i < scan_entry->num_dependencies; i++) {
366 backward_load_order[add_index++] =
367 scan_entry->dependencies[i];
368 }
369 }
370
371finish:
372
373 if (last_index) {
374 *last_index = add_index;
375 }
376 return backward_load_order;
377}
378
379/*******************************************************************************
380*
381*******************************************************************************/
382int dgraph_establish_load_order(dgraph_t * dgraph) {
383 unsigned int total_dependencies;
384 unsigned int entry_index;
385 unsigned int list_index;
386 unsigned int backward_index;
387 unsigned int forward_index;
388 size_t load_order_size;
389 size_t backward_load_order_size;
390 dgraph_entry_t ** backward_load_order;
391
392 /* Lose the old load_order list. Size can change, so it's easier to just
393 * recreate from scratch.
394 */
395 if (dgraph->load_order) {
396 free(dgraph->load_order);
397 dgraph->load_order = NULL;
398 }
399
400 /* Figure how long the list needs to be to accommodate the max possible
401 * entries from the graph. Duplicates get weeded out, but the list
402 * initially has to accommodate them all.
403 */
404 total_dependencies = dgraph->length;
405
406 for (entry_index = 0; entry_index < dgraph->length; entry_index ++) {
407 dgraph_entry_t * curdep = dgraph->graph[entry_index];
408 total_dependencies += curdep->num_dependencies;
409 }
410
411 /* Hmm, nothing to do!
412 */
413 if (!total_dependencies) {
414 return 1;
415 }
416
417 backward_load_order_size = total_dependencies * sizeof(dgraph_entry_t *);
418
419 backward_load_order = (dgraph_entry_t **)malloc(backward_load_order_size);
420 if (!backward_load_order) {
421 kload_log_error("malloc failure" KNL);
422 return 0;
423 }
424 bzero(backward_load_order, backward_load_order_size);
425
426 backward_load_order = fill_backward_load_order(backward_load_order,
427 &total_dependencies, dgraph->root, &list_index);
428 if (!backward_load_order) {
429 kload_log_error("error establishing load order" KNL);
430 return 0;
431 }
432
433 load_order_size = dgraph->length * sizeof(dgraph_entry_t *);
434 dgraph->load_order = (dgraph_entry_t **)malloc(load_order_size);
435 if (!dgraph->load_order) {
436 kload_log_error("malloc failure" KNL);
437 return 0;
438 }
439 bzero(dgraph->load_order, load_order_size);
440
441
442 /* Reverse the list into the dgraph's load_order list,
443 * removing any duplicates.
444 */
445 backward_index = list_index;
446 //
447 // the required 1 is taken off in loop below!
448
449 forward_index = 0;
450 do {
451 dgraph_entry_t * current_entry;
452 unsigned int already_got_it = 0;
453
454 backward_index--;
455
456 /* Get the entry to check.
457 */
458 current_entry = backward_load_order[backward_index];
459
460 /* Did we already get it?
461 */
462 for (list_index = 0; list_index < forward_index; list_index++) {
463 if (current_entry == dgraph->load_order[list_index]) {
464 already_got_it = 1;
465 break;
466 }
467 }
468
469 if (already_got_it) {
470 continue;
471 }
472
473 /* Haven't seen it before; tack it onto the load-order list.
474 */
475 dgraph->load_order[forward_index++] = current_entry;
476
477 } while (backward_index > 0);
478
479 free(backward_load_order);
480
481 return 1;
482}
483
484/*******************************************************************************
485*
486*******************************************************************************/
487void dgraph_log(dgraph_t * depgraph)
488{
489 unsigned int i, j;
490
491 kload_log_message("flattened dependency list: " KNL);
492 for (i = 0; i < depgraph->length; i++) {
493 dgraph_entry_t * current = depgraph->graph[i];
494
495 kload_log_message(" %s" KNL, current->name);
496 kload_log_message(" is kernel component: %s" KNL,
497 current->is_kernel_component ? "yes" : "no");
498 kload_log_message(" expected kmod name: [%s]" KNL,
499 current->expected_kmod_name);
500 kload_log_message(" expected kmod vers: [%s]" KNL,
501 current->expected_kmod_vers);
502 }
503 kload_log_message("" KNL);
504
505 kload_log_message("load order dependency list: " KNL);
506 for (i = 0; i < depgraph->length; i++) {
507 dgraph_entry_t * current = depgraph->load_order[i];
508 kload_log_message(" %s" KNL, current->name);
509 }
510 kload_log_message("" KNL);
511
512 kload_log_message("dependency graph: " KNL);
513 for (i = 0; i < depgraph->length; i++) {
514 dgraph_entry_t * current = depgraph->graph[i];
515 for (j = 0; j < current->num_dependencies; j++) {
516 dgraph_entry_t * cdep = current->dependencies[j];
517 kload_log_message(" %s -> %s" KNL, current->name, cdep->name);
518 }
519 }
520 kload_log_message("" KNL);
521
522 return;
523}
524
525/*******************************************************************************
526*
527*******************************************************************************/
528dgraph_entry_t * dgraph_find_dependent(dgraph_t * dgraph, const char * name)
529{
530 unsigned int i;
531
532 for (i = 0; i < dgraph->length; i++) {
533 dgraph_entry_t * current_entry = dgraph->graph[i];
534 if (0 == strcmp(name, current_entry->name)) {
535 return current_entry;
536 }
537 }
538
539 return NULL;
540}
541
542/*******************************************************************************
543*
544*******************************************************************************/
545dgraph_entry_t * dgraph_add_dependent(
546 dgraph_t * dgraph,
547 const char * name,
548#ifdef KERNEL
549 void * object,
550 size_t object_length,
551 bool object_is_kmem,
552#endif /* KERNEL */
553 const char * expected_kmod_name,
554 const char * expected_kmod_vers,
555 vm_address_t load_address,
556 char is_kernel_component)
557{
558 int error = 0;
559 dgraph_entry_t * found_entry = NULL;
560 dgraph_entry_t * new_entry = NULL; // free on error
561 dgraph_entry_t * the_entry = NULL; // returned
562
563 /* Already got it? Great!
564 */
565 found_entry = dgraph_find_dependent(dgraph, name);
566 if (found_entry) {
567 if (found_entry->is_kernel_component != is_kernel_component) {
568 kload_log_error(
569 "%s is already defined as a %skernel component" KNL,
570 name, found_entry->is_kernel_component ? "" : "non-");
571 error = 1;
572 goto finish;
573 }
574
575 if (load_address != 0) {
576 if (found_entry->loaded_address == 0) {
577 found_entry->do_load = 0;
578 found_entry->loaded_address = load_address;
579 } else if (found_entry->loaded_address != load_address) {
580 kload_log_error(
581 "%s has been assigned two different addresses (0x%x, 0x%x) KNL",
582 found_entry->name,
583 found_entry->loaded_address,
584 load_address);
585 error = 1;
586 goto finish;
587 }
588 }
589 the_entry = found_entry;
590 goto finish;
591 }
592
593 /* If the graph is full, make it bigger.
594 */
595 if (dgraph->length == dgraph->capacity) {
596 unsigned int old_capacity = dgraph->capacity;
597 dgraph_entry_t ** newgraph;
598
599 dgraph->capacity *= 2;
600 newgraph = (dgraph_entry_t **)malloc(dgraph->capacity *
601 sizeof(dgraph_entry_t *));
602 if (!newgraph) {
603 return NULL;
604 }
605 memcpy(newgraph, dgraph->graph, old_capacity * sizeof(dgraph_entry_t *));
606 free(dgraph->graph);
607 dgraph->graph = newgraph;
608 }
609
610 if (strlen(expected_kmod_name) > KMOD_MAX_NAME - 1) {
611 kload_log_error("expected kmod name \"%s\" is too long" KNL,
612 expected_kmod_name);
613 error = 1;
614 goto finish;
615 }
616
617 /* Fill it.
618 */
619 new_entry = (dgraph_entry_t *)malloc(sizeof(dgraph_entry_t));
620 if (!new_entry) {
621 error = 1;
622 goto finish;
623 }
624 bzero(new_entry, sizeof(dgraph_entry_t));
625 new_entry->expected_kmod_name = strdup(expected_kmod_name);
626 if (!new_entry->expected_kmod_name) {
627 error = 1;
628 goto finish;
629 }
630 new_entry->expected_kmod_vers = strdup(expected_kmod_vers);
631 if (!new_entry->expected_kmod_vers) {
632 error = 1;
633 goto finish;
634 }
635 new_entry->is_kernel_component = is_kernel_component;
636
637 // /hacks
638 new_entry->is_symbol_set = (2 & is_kernel_component);
91447636
A
639
640 new_entry->opaques = 0;
641 if (!strncmp(new_entry->expected_kmod_name,
642 "com.apple.kpi", strlen("com.apple.kpi")))
643 new_entry->opaques |= kOpaqueLink;
644 if (!strcmp(new_entry->expected_kmod_name,
645 "com.apple.kernel"))
646 new_entry->opaques |= kOpaqueLink | kRawKernelLink;
55e303ae
A
647 // hacks/
648
649 dgraph->has_symbol_sets |= new_entry->is_symbol_set;
650
651 new_entry->do_load = !is_kernel_component;
652
653#ifndef KERNEL
654 new_entry->object = NULL; // provided elswehere in userland
655 new_entry->object_length = 0;
656#else
657 new_entry->object = object;
658 new_entry->object_length = object_length;
659 new_entry->object_is_kmem = object_is_kmem;
660#endif /* KERNEL */
661 new_entry->name = strdup(name);
662 if (!new_entry->name) {
663 error = 1;
664 goto finish;
665 }
666 dgraph->graph[dgraph->length++] = new_entry;
667
668
669 /* Create a dependency list for the entry. Start with 5 slots.
670 */
671 new_entry->dependencies_capacity = 5;
672 new_entry->num_dependencies = 0;
673 new_entry->dependencies = (dgraph_entry_t **)malloc(
674 new_entry->dependencies_capacity * sizeof(dgraph_entry_t *));
675 if (!new_entry->dependencies) {
676 error = 1;
677 goto finish;
678 }
679
680 if (new_entry->loaded_address == 0) {
681 new_entry->loaded_address = load_address;
682 if (load_address != 0) {
683 new_entry->do_load = 0;
684 }
685 }
686
687 the_entry = new_entry;
688
689finish:
690 if (error) {
691 if (new_entry) __dgraph_entry_free(new_entry);
692 the_entry = new_entry = NULL;
693 }
694 return the_entry;
695}
696
697/*******************************************************************************
698*
699*******************************************************************************/
700dgraph_entry_t * dgraph_add_dependency(
701 dgraph_t * dgraph,
702 dgraph_entry_t * current_dependent,
703 const char * name,
704#ifdef KERNEL
705 void * object,
706 size_t object_length,
707 bool object_is_kmem,
708#endif /* KERNEL */
709 const char * expected_kmod_name,
710 const char * expected_kmod_vers,
711 vm_address_t load_address,
712 char is_kernel_component)
713{
714 dgraph_entry_t * dependency = NULL;
715 unsigned int i = 0;
716
717 /* If the dependent's dependency list is full, make it bigger.
718 */
719 if (current_dependent->num_dependencies ==
720 current_dependent->dependencies_capacity) {
721
722 unsigned int old_capacity = current_dependent->dependencies_capacity;
723 dgraph_entry_t ** newlist;
724
725 current_dependent->dependencies_capacity *= 2;
726 newlist = (dgraph_entry_t **)malloc(
727 (current_dependent->dependencies_capacity *
728 sizeof(dgraph_entry_t *)) );
729
730 if (!newlist) {
731 return NULL;
732 }
733 memcpy(newlist, current_dependent->dependencies,
734 old_capacity * sizeof(dgraph_entry_t *));
735 free(current_dependent->dependencies);
736 current_dependent->dependencies = newlist;
737 }
738
739
740 /* Find or add the entry for the new dependency.
741 */
742 dependency = dgraph_add_dependent(dgraph, name,
743#ifdef KERNEL
744 object, object_length, object_is_kmem,
745#endif /* KERNEL */
746 expected_kmod_name, expected_kmod_vers, load_address,
747 is_kernel_component);
748 if (!dependency) {
749 return NULL;
750 }
751
752 if (dependency == current_dependent) {
753 kload_log_error("attempt to set dependency on itself: %s" KNL,
754 current_dependent->name);
755 return NULL;
756 }
757
758 for (i = 0; i < current_dependent->num_dependencies; i++) {
759 dgraph_entry_t * this_dependency = current_dependent->dependencies[i];
760 if (this_dependency == dependency) {
761 return dependency;
762 }
763 }
764
765 /* Fill in the dependency.
766 */
767 current_dependent->dependencies[current_dependent->num_dependencies] =
768 dependency;
769 current_dependent->num_dependencies++;
770
771 current_dependent->opaque_link |= dependency->opaques;
772 dgraph->has_opaque_links |= current_dependent->opaque_link;
773
774 return dependency;
775}