treesource.c 9.1 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /*
  3. * (C) Copyright David Gibson <dwg@au1.ibm.com>, IBM Corporation. 2005.
  4. */
  5. #include "dtc.h"
  6. #include "srcpos.h"
  7. extern FILE *yyin;
  8. extern int yyparse(void);
  9. extern YYLTYPE yylloc;
  10. struct dt_info *parser_output;
  11. bool treesource_error;
  12. struct dt_info *dt_from_source(const char *fname)
  13. {
  14. parser_output = NULL;
  15. treesource_error = false;
  16. srcfile_push(fname);
  17. yyin = current_srcfile->f;
  18. yylloc.file = current_srcfile;
  19. if (yyparse() != 0)
  20. die("Unable to parse input tree\n");
  21. if (treesource_error)
  22. die("Syntax error parsing input tree\n");
  23. return parser_output;
  24. }
  25. static void write_prefix(FILE *f, int level)
  26. {
  27. int i;
  28. for (i = 0; i < level; i++)
  29. fputc('\t', f);
  30. }
  31. static bool isstring(char c)
  32. {
  33. return (isprint((unsigned char)c)
  34. || (c == '\0')
  35. || strchr("\a\b\t\n\v\f\r", c));
  36. }
  37. static void write_propval_string(FILE *f, const char *s, size_t len)
  38. {
  39. const char *end = s + len - 1;
  40. if (!len)
  41. return;
  42. assert(*end == '\0');
  43. fprintf(f, "\"");
  44. while (s < end) {
  45. char c = *s++;
  46. switch (c) {
  47. case '\a':
  48. fprintf(f, "\\a");
  49. break;
  50. case '\b':
  51. fprintf(f, "\\b");
  52. break;
  53. case '\t':
  54. fprintf(f, "\\t");
  55. break;
  56. case '\n':
  57. fprintf(f, "\\n");
  58. break;
  59. case '\v':
  60. fprintf(f, "\\v");
  61. break;
  62. case '\f':
  63. fprintf(f, "\\f");
  64. break;
  65. case '\r':
  66. fprintf(f, "\\r");
  67. break;
  68. case '\\':
  69. fprintf(f, "\\\\");
  70. break;
  71. case '\"':
  72. fprintf(f, "\\\"");
  73. break;
  74. case '\0':
  75. fprintf(f, "\\0");
  76. break;
  77. default:
  78. if (isprint((unsigned char)c))
  79. fprintf(f, "%c", c);
  80. else
  81. fprintf(f, "\\x%02"PRIx8, c);
  82. }
  83. }
  84. fprintf(f, "\"");
  85. }
  86. static void write_propval_int(FILE *f, const char *p, size_t len, size_t width)
  87. {
  88. const char *end = p + len;
  89. assert(len % width == 0);
  90. for (; p < end; p += width) {
  91. switch (width) {
  92. case 1:
  93. fprintf(f, "%02"PRIx8, *(const uint8_t*)p);
  94. break;
  95. case 2:
  96. fprintf(f, "0x%02"PRIx16, dtb_ld16(p));
  97. break;
  98. case 4:
  99. fprintf(f, "0x%02"PRIx32, dtb_ld32(p));
  100. break;
  101. case 8:
  102. fprintf(f, "0x%02"PRIx64, dtb_ld64(p));
  103. break;
  104. }
  105. if (p + width < end)
  106. fputc(' ', f);
  107. }
  108. }
  109. static const char *delim_start[] = {
  110. [TYPE_UINT8] = "[",
  111. [TYPE_UINT16] = "/bits/ 16 <",
  112. [TYPE_UINT32] = "<",
  113. [TYPE_UINT64] = "/bits/ 64 <",
  114. [TYPE_STRING] = "",
  115. };
  116. static const char *delim_end[] = {
  117. [TYPE_UINT8] = "]",
  118. [TYPE_UINT16] = ">",
  119. [TYPE_UINT32] = ">",
  120. [TYPE_UINT64] = ">",
  121. [TYPE_STRING] = "",
  122. };
  123. /*
  124. * The invariants in the marker list are:
  125. * - offsets are non-strictly monotonically increasing
  126. * - for a single offset there is at most one type marker
  127. * - for a single offset that has both a type marker and non-type markers, the
  128. * type marker appears before the others.
  129. */
  130. static struct marker **add_marker(struct marker **mi,
  131. enum markertype type, unsigned int offset, char *ref)
  132. {
  133. struct marker *nm;
  134. while (*mi && (*mi)->offset < offset)
  135. mi = &(*mi)->next;
  136. if (*mi && (*mi)->offset == offset && is_type_marker((*mi)->type)) {
  137. if (is_type_marker(type))
  138. return mi;
  139. mi = &(*mi)->next;
  140. }
  141. if (*mi && (*mi)->offset == offset && type == (*mi)->type)
  142. return mi;
  143. nm = xmalloc(sizeof(*nm));
  144. nm->type = type;
  145. nm->offset = offset;
  146. nm->ref = ref;
  147. nm->next = *mi;
  148. *mi = nm;
  149. return &nm->next;
  150. }
  151. void property_add_marker(struct property *prop,
  152. enum markertype type, unsigned int offset, char *ref)
  153. {
  154. add_marker(&prop->val.markers, type, offset, ref);
  155. }
  156. static void add_string_markers(struct property *prop, unsigned int offset, int len)
  157. {
  158. int l;
  159. const char *p = prop->val.val + offset;
  160. struct marker **mi = &prop->val.markers;
  161. for (l = strlen(p) + 1; l < len; l += strlen(p + l) + 1)
  162. mi = add_marker(mi, TYPE_STRING, offset + l, NULL);
  163. }
  164. void add_phandle_marker(struct dt_info *dti, struct property *prop, unsigned int offset)
  165. {
  166. cell_t phandle;
  167. struct node *refn;
  168. char *ref;
  169. if (prop->val.len < offset + 4) {
  170. if (quiet < 1)
  171. fprintf(stderr,
  172. "Warning: property %s too short to contain a phandle at offset %u\n",
  173. prop->name, offset);
  174. return;
  175. }
  176. phandle = dtb_ld32(prop->val.val + offset);
  177. refn = get_node_by_phandle(dti->dt, phandle);
  178. if (!refn) {
  179. if (quiet < 1)
  180. fprintf(stderr,
  181. "Warning: node referenced by phandle 0x%x in property %s not found\n",
  182. phandle, prop->name);
  183. return;
  184. }
  185. if (refn->labels)
  186. ref = refn->labels->label;
  187. else
  188. ref = refn->fullpath;
  189. add_marker(&prop->val.markers, REF_PHANDLE, offset, ref);
  190. }
  191. static enum markertype guess_value_type(struct property *prop, unsigned int offset, int len)
  192. {
  193. const char *p = prop->val.val + offset;
  194. int nnotstring = 0, nnul = 0;
  195. int i;
  196. for (i = 0; i < len; i++) {
  197. if (! isstring(p[i]))
  198. nnotstring++;
  199. if (p[i] == '\0')
  200. nnul++;
  201. }
  202. if ((p[len-1] == '\0') && (nnotstring == 0) && (nnul <= len - nnul)) {
  203. if (nnul > 1)
  204. add_string_markers(prop, offset, len);
  205. return TYPE_STRING;
  206. } else if ((len % sizeof(cell_t)) == 0) {
  207. return TYPE_UINT32;
  208. }
  209. return TYPE_UINT8;
  210. }
  211. static void guess_type_markers(struct property *prop)
  212. {
  213. struct marker **m = &prop->val.markers;
  214. unsigned int offset = 0;
  215. for (m = &prop->val.markers; *m; m = &((*m)->next)) {
  216. if (is_type_marker((*m)->type))
  217. /* assume the whole property is already marked */
  218. return;
  219. if ((*m)->offset > offset) {
  220. m = add_marker(m, guess_value_type(prop, offset, (*m)->offset - offset),
  221. offset, NULL);
  222. offset = (*m)->offset;
  223. }
  224. if ((*m)->type == REF_PHANDLE) {
  225. m = add_marker(m, TYPE_UINT32, offset, NULL);
  226. offset += 4;
  227. }
  228. }
  229. if (offset < prop->val.len)
  230. add_marker(m, guess_value_type(prop, offset, prop->val.len - offset),
  231. offset, NULL);
  232. }
  233. static void write_propval(FILE *f, struct property *prop)
  234. {
  235. size_t len = prop->val.len;
  236. struct marker *m;
  237. enum markertype emit_type = TYPE_NONE;
  238. char *srcstr;
  239. if (len == 0) {
  240. fprintf(f, ";");
  241. if (annotate) {
  242. srcstr = srcpos_string_first(prop->srcpos, annotate);
  243. if (srcstr) {
  244. fprintf(f, " /* %s */", srcstr);
  245. free(srcstr);
  246. }
  247. }
  248. fprintf(f, "\n");
  249. return;
  250. }
  251. fprintf(f, " =");
  252. guess_type_markers(prop);
  253. m = prop->val.markers;
  254. for_each_marker(m) {
  255. size_t chunk_len = (m->next ? m->next->offset : len) - m->offset;
  256. size_t data_len = type_marker_length(m) ? : len - m->offset;
  257. const char *p = &prop->val.val[m->offset];
  258. struct marker *m_phandle;
  259. if (is_type_marker(m->type)) {
  260. emit_type = m->type;
  261. fprintf(f, " %s", delim_start[emit_type]);
  262. } else if (m->type == LABEL)
  263. fprintf(f, " %s:", m->ref);
  264. if (emit_type == TYPE_NONE || chunk_len == 0)
  265. continue;
  266. switch(emit_type) {
  267. case TYPE_UINT16:
  268. write_propval_int(f, p, chunk_len, 2);
  269. break;
  270. case TYPE_UINT32:
  271. m_phandle = prop->val.markers;
  272. for_each_marker_of_type(m_phandle, REF_PHANDLE)
  273. if (m->offset == m_phandle->offset)
  274. break;
  275. if (m_phandle) {
  276. if (m_phandle->ref[0] == '/')
  277. fprintf(f, "&{%s}", m_phandle->ref);
  278. else
  279. fprintf(f, "&%s", m_phandle->ref);
  280. if (chunk_len > 4) {
  281. fputc(' ', f);
  282. write_propval_int(f, p + 4, chunk_len - 4, 4);
  283. }
  284. } else {
  285. write_propval_int(f, p, chunk_len, 4);
  286. }
  287. if (data_len > chunk_len)
  288. fputc(' ', f);
  289. break;
  290. case TYPE_UINT64:
  291. write_propval_int(f, p, chunk_len, 8);
  292. break;
  293. case TYPE_STRING:
  294. write_propval_string(f, p, chunk_len);
  295. break;
  296. default:
  297. write_propval_int(f, p, chunk_len, 1);
  298. }
  299. if (chunk_len == data_len) {
  300. size_t pos = m->offset + chunk_len;
  301. fprintf(f, pos == len ? "%s" : "%s,",
  302. delim_end[emit_type] ? : "");
  303. emit_type = TYPE_NONE;
  304. }
  305. }
  306. fprintf(f, ";");
  307. if (annotate) {
  308. srcstr = srcpos_string_first(prop->srcpos, annotate);
  309. if (srcstr) {
  310. fprintf(f, " /* %s */", srcstr);
  311. free(srcstr);
  312. }
  313. }
  314. fprintf(f, "\n");
  315. }
  316. static void write_tree_source_node(FILE *f, struct node *tree, int level)
  317. {
  318. struct property *prop;
  319. struct node *child;
  320. struct label *l;
  321. char *srcstr;
  322. write_prefix(f, level);
  323. for_each_label(tree->labels, l)
  324. fprintf(f, "%s: ", l->label);
  325. if (tree->name && (*tree->name))
  326. fprintf(f, "%s {", tree->name);
  327. else
  328. fprintf(f, "/ {");
  329. if (annotate) {
  330. srcstr = srcpos_string_first(tree->srcpos, annotate);
  331. if (srcstr) {
  332. fprintf(f, " /* %s */", srcstr);
  333. free(srcstr);
  334. }
  335. }
  336. fprintf(f, "\n");
  337. for_each_property(tree, prop) {
  338. write_prefix(f, level+1);
  339. for_each_label(prop->labels, l)
  340. fprintf(f, "%s: ", l->label);
  341. fprintf(f, "%s", prop->name);
  342. write_propval(f, prop);
  343. }
  344. for_each_child(tree, child) {
  345. fprintf(f, "\n");
  346. write_tree_source_node(f, child, level+1);
  347. }
  348. write_prefix(f, level);
  349. fprintf(f, "};");
  350. if (annotate) {
  351. srcstr = srcpos_string_last(tree->srcpos, annotate);
  352. if (srcstr) {
  353. fprintf(f, " /* %s */", srcstr);
  354. free(srcstr);
  355. }
  356. }
  357. fprintf(f, "\n");
  358. }
  359. void dt_to_source(FILE *f, struct dt_info *dti)
  360. {
  361. struct reserve_info *re;
  362. fprintf(f, "/dts-v1/;\n");
  363. if (dti->dtsflags & DTSF_PLUGIN)
  364. fprintf(f, "/plugin/;\n");
  365. fprintf(f, "\n");
  366. for (re = dti->reservelist; re; re = re->next) {
  367. struct label *l;
  368. for_each_label(re->labels, l)
  369. fprintf(f, "%s: ", l->label);
  370. fprintf(f, "/memreserve/\t0x%016llx 0x%016llx;\n",
  371. (unsigned long long)re->address,
  372. (unsigned long long)re->size);
  373. }
  374. write_tree_source_node(f, dti->dt, 0);
  375. }