1 /*-
2 * Copyright (c) 2015 Oleksandr Tymoshenko <gonzo@FreeBSD.org>
3 * All rights reserved.
4 *
5 * This software was developed by Semihalf under sponsorship from
6 * the FreeBSD Foundation.
7 *
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
10 * are met:
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in the
15 * documentation and/or other materials provided with the distribution.
16 *
17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
27 * SUCH DAMAGE.
28 */
29
30 #include "ufdt_overlay.h"
31 #include "libufdt.h"
32 #include "ufdt_node_pool.h"
33 #include "ufdt_overlay_internal.h"
34
35 /*
36 * The original version of fdt_overlay.c is slow in searching for particular
37 * nodes and adding subnodes/properties due to the operations on flattened
38 * device tree (FDT).
39 *
40 * Here we introduce `libufdt` which builds a real tree structure (named
41 * ufdt -- unflattned device tree) from FDT. In the real tree, we can perform
42 * certain operations (e.g., merge 2 subtrees, search for a node by path) in
43 * almost optimal time complexity with acceptable additional memory usage.
44 *
45 * This file is the improved version of fdt_overlay.c by using the real tree
46 * structure defined in libufdt.
47 *
48 * How the device tree overlay works and some
49 * special terms (e.g., fixups, local fixups, fragment, etc)
50 * are described in the document
51 * external/dtc/Documentation/dt-object-internal.txt.
52 */
53
54 /* BEGIN of operations about phandles in ufdt. */
55
56 /*
57 * Increases u32 value at pos by offset.
58 */
fdt_increase_u32(void * pos,uint32_t offset)59 static void fdt_increase_u32(void *pos, uint32_t offset) {
60 uint32_t val;
61
62 dto_memcpy(&val, pos, sizeof(val));
63 val = cpu_to_fdt32(fdt32_to_cpu(val) + offset);
64 dto_memcpy(pos, &val, sizeof(val));
65 }
66
67 /*
68 * Gets the max phandle of a given ufdt.
69 */
ufdt_get_max_phandle(struct ufdt * tree)70 uint32_t ufdt_get_max_phandle(struct ufdt *tree) {
71 struct ufdt_static_phandle_table sorted_table = tree->phandle_table;
72 if (sorted_table.len > 0)
73 return sorted_table.data[sorted_table.len - 1].phandle;
74 else
75 return 0;
76 }
77
78 /*
79 * Tries to increase the phandle value of a node
80 * if the phandle exists.
81 */
ufdt_node_try_increase_phandle(struct ufdt_node * node,uint32_t offset)82 static void ufdt_node_try_increase_phandle(struct ufdt_node *node,
83 uint32_t offset) {
84 int len = 0;
85 char *prop_data = ufdt_node_get_fdt_prop_data_by_name(node, "phandle", &len);
86 if (prop_data != NULL && len == sizeof(fdt32_t)) {
87 fdt_increase_u32(prop_data, offset);
88 }
89 prop_data = ufdt_node_get_fdt_prop_data_by_name(node, "linux,phandle", &len);
90 if (prop_data != NULL && len == sizeof(fdt32_t)) {
91 fdt_increase_u32(prop_data, offset);
92 }
93 }
94
95 /*
96 * Increases all phandles by offset in a ufdt
97 * in O(n) time.
98 */
ufdt_try_increase_phandle(struct ufdt * tree,uint32_t offset)99 void ufdt_try_increase_phandle(struct ufdt *tree, uint32_t offset) {
100 struct ufdt_static_phandle_table sorted_table = tree->phandle_table;
101 int i;
102
103 for (i = 0; i < sorted_table.len; i++) {
104 struct ufdt_node *target_node = sorted_table.data[i].node;
105
106 ufdt_node_try_increase_phandle(target_node, offset);
107 }
108 }
109
110 /* END of operations about phandles in ufdt. */
111
112 /*
113 * In the overlay_tree, there are some references (phandle)
114 * pointing to somewhere in the main_tree.
115 * Fix-up operations is to resolve the right address
116 * in the overlay_tree.
117 */
118
119 /* BEGIN of doing fixup in the overlay ufdt. */
120
121 /*
122 * Returns exact memory location specified by fixup in format
123 * /path/to/node:property:offset.
124 * A property might contain multiple values and the offset is used to locate a
125 * reference inside the property.
126 * e.g.,
127 * "property"=<1, 2, &ref, 4>, we can use /path/to/node:property:8 to get ref,
128 * where 8 is sizeof(uint32) + sizeof(unit32).
129 */
ufdt_get_fixup_location(struct ufdt * tree,const char * fixup)130 void *ufdt_get_fixup_location(struct ufdt *tree, const char *fixup) {
131 char *path, *prop_ptr, *offset_ptr, *end_ptr;
132 int prop_offset, prop_len;
133 const char *prop_data;
134 char path_buf[1024];
135 char *path_mem = NULL;
136
137 size_t fixup_len = strlen(fixup) + 1;
138 if (fixup_len > sizeof(path_buf)) {
139 path_mem = dto_malloc(fixup_len);
140 path = path_mem;
141 } else {
142 path = path_buf;
143 }
144 dto_memcpy(path, fixup, fixup_len);
145
146 prop_ptr = dto_strchr(path, ':');
147 if (prop_ptr == NULL) {
148 dto_error("Missing property part in '%s'\n", path);
149 goto fail;
150 }
151
152 *prop_ptr = '\0';
153 prop_ptr++;
154
155 offset_ptr = dto_strchr(prop_ptr, ':');
156 if (offset_ptr == NULL) {
157 dto_error("Missing offset part in '%s'\n", path);
158 goto fail;
159 }
160
161 *offset_ptr = '\0';
162 offset_ptr++;
163
164 prop_offset = dto_strtoul(offset_ptr, &end_ptr, 10 /* base */);
165 if (*end_ptr != '\0') {
166 dto_error("'%s' is not valid number\n", offset_ptr);
167 goto fail;
168 }
169
170 struct ufdt_node *target_node;
171 target_node = ufdt_get_node_by_path(tree, path);
172 if (target_node == NULL) {
173 dto_error("Path '%s' not found\n", path);
174 goto fail;
175 }
176
177 prop_data =
178 ufdt_node_get_fdt_prop_data_by_name(target_node, prop_ptr, &prop_len);
179 if (prop_data == NULL) {
180 dto_error("Property '%s' not found in '%s' node\n", prop_ptr, path);
181 goto fail;
182 }
183 /*
184 * Note that prop_offset is the offset inside the property data.
185 */
186 if (prop_len < prop_offset + (int)sizeof(uint32_t)) {
187 dto_error("%s: property length is too small for fixup\n", path);
188 goto fail;
189 }
190
191 if (path_mem) dto_free(path_mem);
192 return (char *)prop_data + prop_offset;
193
194 fail:
195 if (path_mem) dto_free(path_mem);
196 return NULL;
197 }
198
199 /*
200 * Process one entry in __fixups__ { } node.
201 * @fixups is property value, array of NUL-terminated strings
202 * with fixup locations.
203 * @fixups_len length of the fixups array in bytes.
204 * @phandle is value for these locations.
205 */
ufdt_do_one_fixup(struct ufdt * tree,const char * fixups,int fixups_len,int phandle)206 int ufdt_do_one_fixup(struct ufdt *tree, const char *fixups, int fixups_len,
207 int phandle) {
208 void *fixup_pos;
209 uint32_t val;
210
211 val = cpu_to_fdt32(phandle);
212
213 while (fixups_len > 0) {
214 fixup_pos = ufdt_get_fixup_location(tree, fixups);
215 if (fixup_pos != NULL) {
216 dto_memcpy(fixup_pos, &val, sizeof(val));
217 } else {
218 return -1;
219 }
220
221 fixups_len -= dto_strlen(fixups) + 1;
222 fixups += dto_strlen(fixups) + 1;
223 }
224
225 return 0;
226 }
227
228 /*
229 * Handle __fixups__ node in overlay tree.
230 */
231
ufdt_overlay_do_fixups(struct ufdt * main_tree,struct ufdt * overlay_tree)232 int ufdt_overlay_do_fixups(struct ufdt *main_tree, struct ufdt *overlay_tree) {
233 int len = 0;
234 struct ufdt_node *overlay_fixups_node =
235 ufdt_get_node_by_path(overlay_tree, "/__fixups__");
236 if (!overlay_fixups_node) {
237 /* There is no __fixups__. Do nothing. */
238 return 0;
239 }
240
241 struct ufdt_node *main_symbols_node =
242 ufdt_get_node_by_path(main_tree, "/__symbols__");
243
244 struct ufdt_node **it;
245 for_each_prop(it, overlay_fixups_node) {
246 /* Find the first property */
247
248 /* Check __symbols__ is exist when we have any property in __fixups__ */
249 if (!main_symbols_node) {
250 dto_error("No node __symbols__ in main dtb.\n");
251 return -1;
252 }
253 break;
254 }
255
256 for_each_prop(it, overlay_fixups_node) {
257 /*
258 * A property in __fixups__ looks like:
259 * symbol_name =
260 * "/path/to/node:prop:offset0\x00/path/to/node:prop:offset1..."
261 * So we firstly find the node "symbol_name" and obtain its phandle in
262 * __symbols__ of the main_tree.
263 */
264
265 struct ufdt_node *fixups = *it;
266 char *symbol_path = ufdt_node_get_fdt_prop_data_by_name(
267 main_symbols_node, ufdt_node_name(fixups), &len);
268
269 if (!symbol_path) {
270 dto_error("Couldn't find '%s' symbol in main dtb\n",
271 ufdt_node_name(fixups));
272 return -1;
273 }
274
275 struct ufdt_node *symbol_node;
276 symbol_node = ufdt_get_node_by_path(main_tree, symbol_path);
277
278 if (!symbol_node) {
279 dto_error("Couldn't find '%s' path in main dtb\n", symbol_path);
280 return -1;
281 }
282
283 uint32_t phandle = ufdt_node_get_phandle(symbol_node);
284
285 const char *fixups_paths = ufdt_node_get_fdt_prop_data(fixups, &len);
286
287 if (ufdt_do_one_fixup(overlay_tree, fixups_paths, len, phandle) < 0) {
288 dto_error("Failed one fixup in ufdt_do_one_fixup\n");
289 return -1;
290 }
291 }
292
293 return 0;
294 }
295
296 /* END of doing fixup in the overlay ufdt. */
297
298 /*
299 * Here is to overlay all fragments in the overlay_tree to the main_tree.
300 * What is "overlay fragment"? The main purpose is to add some subtrees to the
301 * main_tree in order to complete the entire device tree.
302 *
303 * A fragment consists of two parts: 1. the subtree to be added 2. where it
304 * should be added.
305 *
306 * Overlaying a fragment requires: 1. find the node in the main_tree 2. merge
307 * the subtree into that node in the main_tree.
308 */
309
310 /* BEGIN of applying fragments. */
311
312 /*
313 * Overlay the overlay_node over target_node.
314 */
ufdt_overlay_node(struct ufdt_node * target_node,struct ufdt_node * overlay_node,struct ufdt_node_pool * pool)315 static int ufdt_overlay_node(struct ufdt_node *target_node,
316 struct ufdt_node *overlay_node,
317 struct ufdt_node_pool *pool) {
318 return ufdt_node_merge_into(target_node, overlay_node, pool);
319 }
320
ufdt_overlay_get_target(struct ufdt * tree,struct ufdt_node * frag_node,struct ufdt_node ** target_node)321 enum overlay_result ufdt_overlay_get_target(struct ufdt *tree,
322 struct ufdt_node *frag_node,
323 struct ufdt_node **target_node) {
324 uint32_t target;
325 const char *target_path;
326 const void *val;
327 *target_node = NULL;
328
329 val = ufdt_node_get_fdt_prop_data_by_name(frag_node, "target", NULL);
330 if (val) {
331 dto_memcpy(&target, val, sizeof(target));
332 target = fdt32_to_cpu(target);
333 *target_node = ufdt_get_node_by_phandle(tree, target);
334 if (*target_node == NULL) {
335 dto_error("failed to find target %04x\n", target);
336 return OVERLAY_RESULT_TARGET_INVALID;
337 }
338 }
339
340 if (*target_node == NULL) {
341 target_path =
342 ufdt_node_get_fdt_prop_data_by_name(frag_node, "target-path", NULL);
343 if (target_path == NULL) {
344 return OVERLAY_RESULT_MISSING_TARGET;
345 }
346
347 *target_node = ufdt_get_node_by_path(tree, target_path);
348 if (*target_node == NULL) {
349 dto_error("failed to find target-path %s\n", target_path);
350 return OVERLAY_RESULT_TARGET_PATH_INVALID;
351 }
352 }
353
354 return OVERLAY_RESULT_OK;
355 }
356
357 /*
358 * Apply one overlay fragment (subtree).
359 */
ufdt_apply_fragment(struct ufdt * tree,struct ufdt_node * frag_node,struct ufdt_node_pool * pool)360 static enum overlay_result ufdt_apply_fragment(struct ufdt *tree,
361 struct ufdt_node *frag_node,
362 struct ufdt_node_pool *pool) {
363 struct ufdt_node *target_node = NULL;
364 struct ufdt_node *overlay_node = NULL;
365
366 enum overlay_result result =
367 ufdt_overlay_get_target(tree, frag_node, &target_node);
368 if (target_node == NULL) {
369 return result;
370 }
371
372 overlay_node = ufdt_node_get_node_by_path(frag_node, "__overlay__");
373 if (overlay_node == NULL) {
374 dto_error("missing __overlay__ sub-node\n");
375 return OVERLAY_RESULT_MISSING_OVERLAY;
376 }
377
378 int err = ufdt_overlay_node(target_node, overlay_node, pool);
379
380 if (err < 0) {
381 dto_error("failed to overlay node %s to target %s\n",
382 ufdt_node_name(overlay_node), ufdt_node_name(target_node));
383 return OVERLAY_RESULT_MERGE_FAIL;
384 }
385
386 return OVERLAY_RESULT_OK;
387 }
388
389 /*
390 * Applies all fragments to the main_tree.
391 */
ufdt_overlay_apply_fragments(struct ufdt * main_tree,struct ufdt * overlay_tree,struct ufdt_node_pool * pool)392 static int ufdt_overlay_apply_fragments(struct ufdt *main_tree,
393 struct ufdt *overlay_tree,
394 struct ufdt_node_pool *pool) {
395 enum overlay_result err;
396 struct ufdt_node **it;
397 /*
398 * This loop may iterate to subnodes that's not a fragment node.
399 * In such case, ufdt_apply_fragment would fail with return value = -1.
400 */
401 for_each_node(it, overlay_tree->root) {
402 err = ufdt_apply_fragment(main_tree, *it, pool);
403 if (err == OVERLAY_RESULT_MERGE_FAIL) {
404 return -1;
405 }
406 }
407 return 0;
408 }
409
410 /* END of applying fragments. */
411
412 /*
413 * Since the overlay_tree will be "merged" into the main_tree, some
414 * references (e.g., phandle values that acts as an unique ID) need to be
415 * updated so it won't lead to collision that different nodes have the same
416 * phandle value.
417 *
418 * Two things need to be done:
419 *
420 * 1. ufdt_try_increase_phandle()
421 * Update phandle (an unique integer ID of a node in the device tree) of each
422 * node in the overlay_tree. To achieve this, we simply increase each phandle
423 * values in the overlay_tree by the max phandle value of the main_tree.
424 *
425 * 2. ufdt_overlay_do_local_fixups()
426 * If there are some reference in the overlay_tree that references nodes
427 * inside the overlay_tree, we have to modify the reference value (address of
428 * the referenced node: phandle) so that it corresponds to the right node inside
429 * the overlay_tree. Where the reference exists is kept in __local_fixups__ node
430 * in the overlay_tree.
431 */
432
433 /* BEGIN of updating local references (phandle values) in the overlay ufdt. */
434
435 /*
436 * local fixups
437 */
ufdt_local_fixup_prop(struct ufdt_node * target_prop_node,struct ufdt_node * local_fixup_prop_node,uint32_t phandle_offset)438 static int ufdt_local_fixup_prop(struct ufdt_node *target_prop_node,
439 struct ufdt_node *local_fixup_prop_node,
440 uint32_t phandle_offset) {
441 /*
442 * prop_offsets_ptr should be a list of fdt32_t.
443 * <offset0 offset1 offset2 ...>
444 */
445 char *prop_offsets_ptr;
446 int len = 0;
447 prop_offsets_ptr = ufdt_node_get_fdt_prop_data(local_fixup_prop_node, &len);
448
449 char *prop_data;
450 int target_length = 0;
451
452 prop_data = ufdt_node_get_fdt_prop_data(target_prop_node, &target_length);
453
454 if (prop_offsets_ptr == NULL || prop_data == NULL) return -1;
455
456 int i;
457 for (i = 0; i < len; i += sizeof(fdt32_t)) {
458 int offset = fdt32_to_cpu(*(fdt32_t *)(prop_offsets_ptr + i));
459 if (offset + sizeof(fdt32_t) > (size_t)target_length) return -1;
460 fdt_increase_u32((prop_data + offset), phandle_offset);
461 }
462 return 0;
463 }
464
ufdt_local_fixup_node(struct ufdt_node * target_node,struct ufdt_node * local_fixups_node,uint32_t phandle_offset)465 static int ufdt_local_fixup_node(struct ufdt_node *target_node,
466 struct ufdt_node *local_fixups_node,
467 uint32_t phandle_offset) {
468 if (local_fixups_node == NULL) return 0;
469
470 struct ufdt_node **it_local_fixups;
471 struct ufdt_node *sub_target_node;
472
473 for_each_prop(it_local_fixups, local_fixups_node) {
474 sub_target_node = ufdt_node_get_property_by_name(
475 target_node, ufdt_node_name(*it_local_fixups));
476
477 if (sub_target_node != NULL) {
478 int err = ufdt_local_fixup_prop(sub_target_node, *it_local_fixups,
479 phandle_offset);
480 if (err < 0) return -1;
481 } else {
482 return -1;
483 }
484 }
485
486 for_each_node(it_local_fixups, local_fixups_node) {
487 sub_target_node = ufdt_node_get_node_by_path(
488 target_node, ufdt_node_name(*it_local_fixups));
489 if (sub_target_node != NULL) {
490 int err = ufdt_local_fixup_node(sub_target_node, *it_local_fixups,
491 phandle_offset);
492 if (err < 0) return -1;
493 } else {
494 return -1;
495 }
496 }
497
498 return 0;
499 }
500
501 /*
502 * Handle __local_fixups__ node in overlay DTB
503 * The __local_fixups__ format we expect is
504 * __local_fixups__ {
505 * path {
506 * to {
507 * local_ref1 = <offset>;
508 * };
509 * };
510 * path2 {
511 * to2 {
512 * local_ref2 = <offset1 offset2 ...>;
513 * };
514 * };
515 * };
516 *
517 * which follows the dtc patch from:
518 * https://marc.info/?l=devicetree&m=144061468601974&w=4
519 */
ufdt_overlay_do_local_fixups(struct ufdt * tree,uint32_t phandle_offset)520 int ufdt_overlay_do_local_fixups(struct ufdt *tree, uint32_t phandle_offset) {
521 struct ufdt_node *overlay_node = ufdt_get_node_by_path(tree, "/");
522 struct ufdt_node *local_fixups_node =
523 ufdt_get_node_by_path(tree, "/__local_fixups__");
524
525 int err =
526 ufdt_local_fixup_node(overlay_node, local_fixups_node, phandle_offset);
527
528 if (err < 0) return -1;
529
530 return 0;
531 }
532
ufdt_overlay_local_ref_update(struct ufdt * main_tree,struct ufdt * overlay_tree)533 static int ufdt_overlay_local_ref_update(struct ufdt *main_tree,
534 struct ufdt *overlay_tree) {
535 uint32_t phandle_offset = 0;
536
537 phandle_offset = ufdt_get_max_phandle(main_tree);
538 if (phandle_offset > 0) {
539 ufdt_try_increase_phandle(overlay_tree, phandle_offset);
540 }
541
542 int err = ufdt_overlay_do_local_fixups(overlay_tree, phandle_offset);
543 if (err < 0) {
544 dto_error("failed to perform local fixups in overlay\n");
545 return -1;
546 }
547 return 0;
548 }
549
550 /* END of updating local references (phandle values) in the overlay ufdt. */
551
_ufdt_overlay_fdtps(struct ufdt * main_tree,const struct ufdt * overlay_tree)552 static int _ufdt_overlay_fdtps(struct ufdt *main_tree,
553 const struct ufdt *overlay_tree) {
554 for (int i = 0; i < overlay_tree->num_used_fdtps; i++) {
555 void *fdt = overlay_tree->fdtps[i];
556 if (ufdt_add_fdt(main_tree, fdt) < 0) {
557 return -1;
558 }
559 }
560 return 0;
561 }
562
ufdt_overlay_apply(struct ufdt * main_tree,struct ufdt * overlay_tree,size_t overlay_length,struct ufdt_node_pool * pool)563 static int ufdt_overlay_apply(struct ufdt *main_tree, struct ufdt *overlay_tree,
564 size_t overlay_length,
565 struct ufdt_node_pool *pool) {
566 if (_ufdt_overlay_fdtps(main_tree, overlay_tree) < 0) {
567 dto_error("failed to add more fdt into main ufdt tree.\n");
568 return -1;
569 }
570
571 if (overlay_length < sizeof(struct fdt_header)) {
572 dto_error("Overlay_length %zu smaller than header size %zu\n",
573 overlay_length, sizeof(struct fdt_header));
574 return -1;
575 }
576
577 if (ufdt_overlay_local_ref_update(main_tree, overlay_tree) < 0) {
578 dto_error("failed to perform local fixups in overlay\n");
579 return -1;
580 }
581
582 if (ufdt_overlay_do_fixups(main_tree, overlay_tree) < 0) {
583 dto_error("failed to perform fixups in overlay\n");
584 return -1;
585 }
586 if (ufdt_overlay_apply_fragments(main_tree, overlay_tree, pool) < 0) {
587 dto_error("failed to apply fragments\n");
588 return -1;
589 }
590
591 return 0;
592 }
593
ufdt_install_blob(void * blob,size_t blob_size)594 struct fdt_header *ufdt_install_blob(void *blob, size_t blob_size) {
595 struct fdt_header *pHeader;
596 int err;
597
598 dto_debug("ufdt_install_blob (0x%08jx)\n", (uintmax_t)blob);
599
600 if (blob_size < sizeof(struct fdt_header)) {
601 dto_error("Blob_size %zu smaller than the header size %zu\n", blob_size,
602 sizeof(struct fdt_header));
603 return NULL;
604 }
605
606 pHeader = (struct fdt_header *)blob;
607 err = fdt_check_header(pHeader);
608 if (err < 0) {
609 if (err == -FDT_ERR_BADVERSION) {
610 dto_error("incompatible blob version: %d, should be: %d",
611 fdt_version(pHeader), FDT_LAST_SUPPORTED_VERSION);
612
613 } else {
614 dto_error("error validating blob: %s", fdt_strerror(err));
615 }
616 return NULL;
617 }
618
619 return pHeader;
620 }
621
622 /*
623 * From Google, based on dt_overlay_apply() logic
624 * Will dto_malloc a new fdt blob and return it. Will not dto_free parameters.
625 */
ufdt_apply_overlay(struct fdt_header * main_fdt_header,size_t main_fdt_size,void * overlay_fdtp,size_t overlay_size)626 struct fdt_header *ufdt_apply_overlay(struct fdt_header *main_fdt_header,
627 size_t main_fdt_size,
628 void *overlay_fdtp,
629 size_t overlay_size) {
630 size_t out_fdt_size;
631
632 if (main_fdt_header == NULL) {
633 return NULL;
634 }
635
636 if (overlay_size < 8 || overlay_size != fdt_totalsize(overlay_fdtp)) {
637 dto_error("Bad overlay size!\n");
638 return NULL;
639 }
640 if (main_fdt_size < 8 || main_fdt_size != fdt_totalsize(main_fdt_header)) {
641 dto_error("Bad fdt size!\n");
642 return NULL;
643 }
644
645 out_fdt_size = fdt_totalsize(main_fdt_header) + overlay_size;
646 /* It's actually more than enough */
647 struct fdt_header *out_fdt_header = dto_malloc(out_fdt_size);
648
649 if (out_fdt_header == NULL) {
650 dto_error("failed to allocate memory for DTB blob with overlays\n");
651 return NULL;
652 }
653
654 struct ufdt_node_pool pool;
655 ufdt_node_pool_construct(&pool);
656 struct ufdt *main_tree = ufdt_from_fdt(main_fdt_header, main_fdt_size, &pool);
657 struct ufdt *overlay_tree = ufdt_from_fdt(overlay_fdtp, overlay_size, &pool);
658 int err = ufdt_overlay_apply(main_tree, overlay_tree, overlay_size, &pool);
659 if (err < 0) {
660 goto fail;
661 }
662
663 err = ufdt_to_fdt(main_tree, out_fdt_header, out_fdt_size);
664 if (err < 0) {
665 dto_error("Failed to dump the device tree to out_fdt_header\n");
666 goto fail;
667 }
668
669 ufdt_destruct(overlay_tree, &pool);
670 ufdt_destruct(main_tree, &pool);
671 ufdt_node_pool_destruct(&pool);
672
673 return out_fdt_header;
674
675 fail:
676 ufdt_destruct(overlay_tree, &pool);
677 ufdt_destruct(main_tree, &pool);
678 ufdt_node_pool_destruct(&pool);
679 dto_free(out_fdt_header);
680
681 return NULL;
682 }
683