Context Navigation

← Previous Revision
Latest Revision
Next Revision →
Blame
Revision Log

source: EcnlProtoTool/trunk/mruby-1.2.0/src/dump.c@ 270

Last change on this file since 270 was 270, checked in by coas-nagasima, 7 years ago
mruby版ECNLプロトタイピング・ツールを追加
Property svn:eol-style set to `native` Property svn:keywords set to `Id` Property svn:mime-type set to `text/x-csrc`
File size: 27.7 KB

Line
1	/*
2	** dump.c - mruby binary dumper (mrbc binary format)
3	**
4	** See Copyright Notice in mruby.h
5	*/
6
7	#include <string.h>
8	#include <limits.h>
9	#include "mruby/dump.h"
10	#include "mruby/string.h"
11	#include "mruby/irep.h"
12	#include "mruby/numeric.h"
13	#include "mruby/debug.h"
14
15	#define FLAG_BYTEORDER_NATIVE 2
16	#define FLAG_BYTEORDER_NONATIVE 0
17
18	#ifdef MRB_USE_FLOAT
19	#define MRB_FLOAT_FMT "%.8e"
20	#else
21	#define MRB_FLOAT_FMT "%.16e"
22	#endif
23
24	static size_t get_irep_record_size_1(mrb_state mrb, mrb_irep irep);
25
26	#if UINT32_MAX > SIZE_MAX
27	# error This code cannot be built on your environment.
28	#endif
29
30	static size_t
31	write_padding(uint8_t *buf)
32	{
33	const size_t align = MRB_DUMP_ALIGNMENT;
34	size_t pad_len = -(intptr_t)buf & (align-1);
35	if (pad_len > 0) {
36	memset(buf, 0, pad_len);
37	}
38	return pad_len;
39	}
40
41	static size_t
42	get_irep_header_size(mrb_state *mrb)
43	{
44	size_t size = 0;
45
46	size += sizeof(uint32_t) * 1;
47	size += sizeof(uint16_t) * 3;
48
49	return size;
50	}
51
52	static ptrdiff_t
53	write_irep_header(mrb_state mrb, mrb_irep irep, uint8_t *buf)
54	{
55	uint8_t *cur = buf;
56
57	cur += uint32_to_bin(get_irep_record_size_1(mrb, irep), cur); /* record size */
58	cur += uint16_to_bin((uint16_t)irep->nlocals, cur); /* number of local variable */
59	cur += uint16_to_bin((uint16_t)irep->nregs, cur); /* number of register variable */
60	cur += uint16_to_bin((uint16_t)irep->rlen, cur); /* number of child irep */
61
62	return cur - buf;
63	}
64
65
66	static size_t
67	get_iseq_block_size(mrb_state mrb, mrb_irep irep)
68	{
69	size_t size = 0;
70
71	size += sizeof(uint32_t); /* ilen */
72	size += sizeof(uint32_t); /* max padding */
73	size += sizeof(uint32_t) * irep->ilen; /* iseq(n) */
74
75	return size;
76	}
77
78	static ptrdiff_t
79	write_iseq_block(mrb_state mrb, mrb_irep irep, uint8_t *buf, uint8_t flags)
80	{
81	uint8_t *cur = buf;
82	uint32_t iseq_no;
83
84	cur += uint32_to_bin(irep->ilen, cur); /* number of opcode */
85	cur += write_padding(cur);
86	switch (flags & DUMP_ENDIAN_NAT) {
87	case DUMP_ENDIAN_BIG:
88	if (bigendian_p()) goto native;
89	for (iseq_no = 0; iseq_no < irep->ilen; iseq_no++) {
90	cur += uint32_to_bin(irep->iseq[iseq_no], cur); /* opcode */
91	}
92	break;
93	case DUMP_ENDIAN_LIL:
94	if (!bigendian_p()) goto native;
95	for (iseq_no = 0; iseq_no < irep->ilen; iseq_no++) {
96	cur += uint32l_to_bin(irep->iseq[iseq_no], cur); /* opcode */
97	}
98	break;
99
100	native:
101	case DUMP_ENDIAN_NAT:
102	memcpy(cur, irep->iseq, irep->ilen * sizeof(mrb_code));
103	cur += irep->ilen * sizeof(mrb_code);
104	break;
105	}
106
107	return cur - buf;
108	}
109
110
111	static size_t
112	get_pool_block_size(mrb_state mrb, mrb_irep irep)
113	{
114	size_t size = 0;
115	size_t pool_no;
116	mrb_value str;
117
118	size += sizeof(uint32_t); /* plen */
119	size += irep->plen * (sizeof(uint8_t) + sizeof(uint16_t)); /* len(n) */
120
121	for (pool_no = 0; pool_no < irep->plen; pool_no++) {
122	int ai = mrb_gc_arena_save(mrb);
123
124	switch (mrb_type(irep->pool[pool_no])) {
125	case MRB_TT_FIXNUM:
126	str = mrb_fixnum_to_str(mrb, irep->pool[pool_no], 10);
127	{
128	mrb_int len = RSTRING_LEN(str);
129	mrb_assert_int_fit(mrb_int, len, size_t, SIZE_MAX);
130	size += (size_t)len;
131	}
132	break;
133
134	case MRB_TT_FLOAT:
135	str = mrb_float_to_str(mrb, irep->pool[pool_no], MRB_FLOAT_FMT);
136	{
137	mrb_int len = RSTRING_LEN(str);
138	mrb_assert_int_fit(mrb_int, len, size_t, SIZE_MAX);
139	size += (size_t)len;
140	}
141	break;
142
143	case MRB_TT_STRING:
144	{
145	mrb_int len = RSTRING_LEN(irep->pool[pool_no]);
146	mrb_assert_int_fit(mrb_int, len, size_t, SIZE_MAX);
147	size += (size_t)len;
148	}
149	break;
150
151	default:
152	break;
153	}
154	mrb_gc_arena_restore(mrb, ai);
155	}
156
157	return size;
158	}
159
160	static ptrdiff_t
161	write_pool_block(mrb_state mrb, mrb_irep irep, uint8_t *buf)
162	{
163	size_t pool_no;
164	uint8_t *cur = buf;
165	uint16_t len;
166	mrb_value str;
167	const char *char_ptr;
168
169	cur += uint32_to_bin(irep->plen, cur); /* number of pool */
170
171	for (pool_no = 0; pool_no < irep->plen; pool_no++) {
172	int ai = mrb_gc_arena_save(mrb);
173
174	switch (mrb_type(irep->pool[pool_no])) {
175	case MRB_TT_FIXNUM:
176	cur += uint8_to_bin(IREP_TT_FIXNUM, cur); /* data type */
177	str = mrb_fixnum_to_str(mrb, irep->pool[pool_no], 10);
178	break;
179
180	case MRB_TT_FLOAT:
181	cur += uint8_to_bin(IREP_TT_FLOAT, cur); /* data type */
182	str = mrb_float_to_str(mrb, irep->pool[pool_no], MRB_FLOAT_FMT);
183	break;
184
185	case MRB_TT_STRING:
186	cur += uint8_to_bin(IREP_TT_STRING, cur); /* data type */
187	str = irep->pool[pool_no];
188	break;
189
190	default:
191	continue;
192	}
193
194	char_ptr = RSTRING_PTR(str);
195	{
196	mrb_int tlen = RSTRING_LEN(str);
197	mrb_assert_int_fit(mrb_int, tlen, uint16_t, UINT16_MAX);
198	len = (uint16_t)tlen;
199	}
200
201	cur += uint16_to_bin(len, cur); /* data length */
202	memcpy(cur, char_ptr, (size_t)len);
203	cur += len;
204
205	mrb_gc_arena_restore(mrb, ai);
206	}
207
208	return cur - buf;
209	}
210
211
212	static size_t
213	get_syms_block_size(mrb_state mrb, mrb_irep irep)
214	{
215	size_t size = 0;
216	uint32_t sym_no;
217	mrb_int len;
218
219	size += sizeof(uint32_t); /* slen */
220	for (sym_no = 0; sym_no < irep->slen; sym_no++) {
221	size += sizeof(uint16_t); /* snl(n) */
222	if (irep->syms[sym_no] != 0) {
223	mrb_sym2name_len(mrb, irep->syms[sym_no], &len);
224	size += len + 1; /* sn(n) + null char */
225	}
226	}
227
228	return size;
229	}
230
231	static ptrdiff_t
232	write_syms_block(mrb_state mrb, mrb_irep irep, uint8_t *buf)
233	{
234	uint32_t sym_no;
235	uint8_t *cur = buf;
236	const char *name;
237
238	cur += uint32_to_bin(irep->slen, cur); /* number of symbol */
239
240	for (sym_no = 0; sym_no < irep->slen; sym_no++) {
241	if (irep->syms[sym_no] != 0) {
242	mrb_int len;
243
244	name = mrb_sym2name_len(mrb, irep->syms[sym_no], &len);
245
246	mrb_assert_int_fit(mrb_int, len, uint16_t, UINT16_MAX);
247	cur += uint16_to_bin((uint16_t)len, cur); /* length of symbol name */
248	memcpy(cur, name, len); /* symbol name */
249	cur += (uint16_t)len;
250	*cur++ = '\0';
251	}
252	else {
253	cur += uint16_to_bin(MRB_DUMP_NULL_SYM_LEN, cur); /* length of symbol name */
254	}
255	}
256
257	return cur - buf;
258	}
259
260	static size_t
261	get_irep_record_size_1(mrb_state mrb, mrb_irep irep)
262	{
263	size_t size = 0;
264
265	size += get_irep_header_size(mrb);
266	size += get_iseq_block_size(mrb, irep);
267	size += get_pool_block_size(mrb, irep);
268	size += get_syms_block_size(mrb, irep);
269	return size;
270	}
271
272	static size_t
273	get_irep_record_size(mrb_state mrb, mrb_irep irep)
274	{
275	size_t size = 0;
276	size_t irep_no;
277
278	size = get_irep_record_size_1(mrb, irep);
279	for (irep_no = 0; irep_no < irep->rlen; irep_no++) {
280	size += get_irep_record_size(mrb, irep->reps[irep_no]);
281	}
282	return size;
283	}
284
285	static int
286	write_irep_record(mrb_state mrb, mrb_irep irep, uint8_t bin, size_t irep_record_size, uint8_t flags)
287	{
288	uint32_t i;
289	uint8_t *src = bin;
290
291	if (irep == NULL) {
292	return MRB_DUMP_INVALID_IREP;
293	}
294
295	*irep_record_size = get_irep_record_size_1(mrb, irep);
296	if (*irep_record_size == 0) {
297	return MRB_DUMP_GENERAL_FAILURE;
298	}
299
300	bin += write_irep_header(mrb, irep, bin);
301	bin += write_iseq_block(mrb, irep, bin, flags);
302	bin += write_pool_block(mrb, irep, bin);
303	bin += write_syms_block(mrb, irep, bin);
304
305	for (i = 0; i < irep->rlen; i++) {
306	int result;
307	size_t rsize;
308
309	result = write_irep_record(mrb, irep->reps[i], bin, &rsize, flags);
310	if (result != MRB_DUMP_OK) {
311	return result;
312	}
313	bin += rsize;
314	}
315	*irep_record_size = bin - src;
316	return MRB_DUMP_OK;
317	}
318
319	static uint32_t
320	write_footer(mrb_state mrb, uint8_t bin)
321	{
322	struct rite_binary_footer footer;
323
324	memcpy(footer.section_ident, RITE_BINARY_EOF, sizeof(footer.section_ident));
325	uint32_to_bin(sizeof(struct rite_binary_footer), footer.section_size);
326	memcpy(bin, &footer, sizeof(struct rite_binary_footer));
327
328	return sizeof(struct rite_binary_footer);
329	}
330
331
332	static int
333	write_section_irep_header(mrb_state mrb, size_t section_size, uint8_t bin)
334	{
335	struct rite_section_irep_header header = (struct rite_section_irep_header)bin;
336
337	memcpy(header->section_ident, RITE_SECTION_IREP_IDENT, sizeof(header->section_ident));
338
339	mrb_assert_int_fit(size_t, section_size, uint32_t, UINT32_MAX);
340	uint32_to_bin((uint32_t)section_size, header->section_size);
341	memcpy(header->rite_version, RITE_VM_VER, sizeof(header->rite_version));
342
343	return MRB_DUMP_OK;
344	}
345
346	static int
347	write_section_irep(mrb_state mrb, mrb_irep irep, uint8_t bin, size_t len_p, uint8_t flags)
348	{
349	int result;
350	size_t rsize = 0;
351	uint8_t *cur = bin;
352
353	if (mrb == NULL \|\| bin == NULL) {
354	return MRB_DUMP_INVALID_ARGUMENT;
355	}
356
357	cur += sizeof(struct rite_section_irep_header);
358
359	result = write_irep_record(mrb, irep, cur, &rsize, flags);
360	if (result != MRB_DUMP_OK) {
361	return result;
362	}
363	*len_p = cur - bin + rsize;
364	write_section_irep_header(mrb, *len_p, bin);
365
366	return MRB_DUMP_OK;
367	}
368
369	static int
370	write_section_lineno_header(mrb_state mrb, size_t section_size, uint8_t bin)
371	{
372	struct rite_section_lineno_header header = (struct rite_section_lineno_header)bin;
373
374	memcpy(header->section_ident, RITE_SECTION_LINENO_IDENT, sizeof(header->section_ident));
375	uint32_to_bin((uint32_t)section_size, header->section_size);
376
377	return MRB_DUMP_OK;
378	}
379
380	static size_t
381	get_lineno_record_size(mrb_state mrb, mrb_irep irep)
382	{
383	size_t size = 0;
384
385	size += sizeof(uint32_t); /* record size */
386	size += sizeof(uint16_t); /* filename size */
387	if (irep->filename) {
388	size += strlen(irep->filename); /* filename */
389	}
390	size += sizeof(uint32_t); /* niseq */
391	if (irep->lines) {
392	size += sizeof(uint16_t) * irep->ilen; /* lineno */
393	}
394
395	return size;
396	}
397
398	static size_t
399	write_lineno_record_1(mrb_state mrb, mrb_irep irep, uint8_t* bin)
400	{
401	uint8_t *cur = bin;
402	size_t iseq_no;
403	size_t filename_len;
404	ptrdiff_t diff;
405
406	cur += sizeof(uint32_t); /* record size */
407
408	if (irep->filename) {
409	filename_len = strlen(irep->filename);
410	} else {
411	filename_len = 0;
412	}
413	mrb_assert_int_fit(size_t, filename_len, uint16_t, UINT16_MAX);
414	cur += uint16_to_bin((uint16_t)filename_len, cur); /* filename size */
415
416	if (filename_len) {
417	memcpy(cur, irep->filename, filename_len);
418	cur += filename_len; /* filename */
419	}
420
421	if (irep->lines) {
422	mrb_assert_int_fit(size_t, irep->ilen, uint32_t, UINT32_MAX);
423	cur += uint32_to_bin((uint32_t)(irep->ilen), cur); /* niseq */
424	for (iseq_no = 0; iseq_no < irep->ilen; iseq_no++) {
425	cur += uint16_to_bin(irep->lines[iseq_no], cur); /* opcode */
426	}
427	}
428	else {
429	cur += uint32_to_bin(0, cur); /* niseq */
430	}
431
432	diff = cur - bin;
433	mrb_assert_int_fit(ptrdiff_t, diff, uint32_t, UINT32_MAX);
434
435	uint32_to_bin((uint32_t)diff, bin); /* record size */
436
437	mrb_assert_int_fit(ptrdiff_t, diff, size_t, SIZE_MAX);
438	return (size_t)diff;
439	}
440
441	static size_t
442	write_lineno_record(mrb_state mrb, mrb_irep irep, uint8_t* bin)
443	{
444	size_t i;
445	size_t rlen, size = 0;
446
447	rlen = write_lineno_record_1(mrb, irep, bin);
448	bin += rlen;
449	size += rlen;
450	for (i=0; i<irep->rlen; i++) {
451	rlen = write_lineno_record(mrb, irep, bin);
452	bin += rlen;
453	size += rlen;
454	}
455	return size;
456	}
457
458	static int
459	write_section_lineno(mrb_state mrb, mrb_irep irep, uint8_t *bin)
460	{
461	size_t section_size = 0;
462	size_t rlen = 0; /* size of irep record */
463	uint8_t *cur = bin;
464
465	if (mrb == NULL \|\| bin == NULL) {
466	return MRB_DUMP_INVALID_ARGUMENT;
467	}
468
469	cur += sizeof(struct rite_section_lineno_header);
470	section_size += sizeof(struct rite_section_lineno_header);
471
472	rlen = write_lineno_record(mrb, irep, cur);
473	section_size += rlen;
474
475	write_section_lineno_header(mrb, section_size, bin);
476
477	return MRB_DUMP_OK;
478	}
479
480	static size_t
481	get_debug_record_size(mrb_state mrb, mrb_irep irep)
482	{
483	size_t ret = 0;
484	uint16_t f_idx;
485	size_t i;
486
487	ret += sizeof(uint32_t); /* record size */
488	ret += sizeof(uint16_t); /* file count */
489
490	for (f_idx = 0; f_idx < irep->debug_info->flen; ++f_idx) {
491	mrb_irep_debug_info_file const* file = irep->debug_info->files[f_idx];
492
493	ret += sizeof(uint32_t); /* position */
494	ret += sizeof(uint16_t); /* filename index */
495
496	/* lines */
497	ret += sizeof(uint32_t); /* entry count */
498	ret += sizeof(uint8_t); /* line type */
499	switch (file->line_type) {
500	case mrb_debug_line_ary:
501	ret += sizeof(uint16_t) * (size_t)(file->line_entry_count);
502	break;
503
504	case mrb_debug_line_flat_map:
505	ret += (sizeof(uint32_t) + sizeof(uint16_t)) * (size_t)(file->line_entry_count);
506	break;
507
508	default: mrb_assert(0); break;
509	}
510	}
511	for (i=0; i<irep->rlen; i++) {
512	ret += get_debug_record_size(mrb, irep->reps[i]);
513	}
514
515	return ret;
516	}
517
518	static int
519	find_filename_index(const mrb_sym *ary, int ary_len, mrb_sym s)
520	{
521	int i;
522
523	for (i = 0; i < ary_len; ++i) {
524	if (ary[i] == s) { return i; }
525	}
526	return -1;
527	}
528
529	static size_t
530	get_filename_table_size(mrb_state mrb, mrb_irep irep, mrb_sym *fp, uint16_t lp)
531	{
532	mrb_sym filenames = fp;
533	size_t i, size = 0;
534	mrb_irep_debug_info *di = irep->debug_info;
535
536	mrb_assert(lp);
537	for (i = 0; i < di->flen; ++i) {
538	mrb_irep_debug_info_file *file;
539	mrb_int filename_len;
540
541	file = di->files[i];
542	if (find_filename_index(filenames, *lp, file->filename_sym) == -1) {
543	/* register filename */
544	*lp += 1;
545	fp = filenames = (mrb_sym )mrb_realloc(mrb, filenames, sizeof(mrb_sym) * (*lp));
546	filenames[*lp - 1] = file->filename_sym;
547
548	/* filename */
549	mrb_sym2name_len(mrb, file->filename_sym, &filename_len);
550	size += sizeof(uint16_t) + (size_t)filename_len;
551	}
552	}
553	for (i=0; i<irep->rlen; i++) {
554	size += get_filename_table_size(mrb, irep->reps[i], fp, lp);
555	}
556	return size;
557	}
558
559	static size_t
560	write_debug_record_1(mrb_state mrb, mrb_irep irep, uint8_t bin, mrb_sym const filenames, uint16_t filenames_len)
561	{
562	uint8_t *cur;
563	uint16_t f_idx;
564	ptrdiff_t ret;
565
566	cur = bin + sizeof(uint32_t); /* skip record size */
567	cur += uint16_to_bin(irep->debug_info->flen, cur); /* file count */
568
569	for (f_idx = 0; f_idx < irep->debug_info->flen; ++f_idx) {
570	int filename_idx;
571	const mrb_irep_debug_info_file *file = irep->debug_info->files[f_idx];
572
573	/* position */
574	cur += uint32_to_bin(file->start_pos, cur);
575
576	/* filename index */
577	filename_idx = find_filename_index(filenames, filenames_len,
578	file->filename_sym);
579	mrb_assert_int_fit(int, filename_idx, uint16_t, UINT16_MAX);
580	cur += uint16_to_bin((uint16_t)filename_idx, cur);
581
582	/* lines */
583	cur += uint32_to_bin(file->line_entry_count, cur);
584	cur += uint8_to_bin(file->line_type, cur);
585	switch (file->line_type) {
586	case mrb_debug_line_ary: {
587	uint32_t l;
588	for (l = 0; l < file->line_entry_count; ++l) {
589	cur += uint16_to_bin(file->lines.ary[l], cur);
590	}
591	} break;
592
593	case mrb_debug_line_flat_map: {
594	uint32_t line;
595	for (line = 0; line < file->line_entry_count; ++line) {
596	cur += uint32_to_bin(file->lines.flat_map[line].start_pos, cur);
597	cur += uint16_to_bin(file->lines.flat_map[line].line, cur);
598	}
599	} break;
600
601	default: mrb_assert(0); break;
602	}
603	}
604
605	ret = cur - bin;
606	mrb_assert_int_fit(ptrdiff_t, ret, uint32_t, UINT32_MAX);
607	uint32_to_bin(ret, bin);
608
609	mrb_assert_int_fit(ptrdiff_t, ret, size_t, SIZE_MAX);
610	return (size_t)ret;
611	}
612
613	static size_t
614	write_debug_record(mrb_state mrb, mrb_irep irep, uint8_t bin, mrb_sym const filenames, uint16_t filenames_len)
615	{
616	size_t size, len;
617	size_t irep_no;
618
619	size = len = write_debug_record_1(mrb, irep, bin, filenames, filenames_len);
620	bin += len;
621	for (irep_no = 0; irep_no < irep->rlen; irep_no++) {
622	len = write_debug_record(mrb, irep->reps[irep_no], bin, filenames, filenames_len);
623	bin += len;
624	size += len;
625	}
626
627	mrb_assert(size == get_debug_record_size(mrb, irep));
628	return size;
629	}
630
631	static int
632	write_section_debug(mrb_state mrb, mrb_irep irep, uint8_t cur, mrb_sym const filenames, uint16_t filenames_len)
633	{
634	size_t section_size = 0;
635	const uint8_t *bin = cur;
636	struct rite_section_debug_header *header;
637	size_t dlen;
638	uint16_t i;
639	char const *sym; mrb_int sym_len;
640
641	if (mrb == NULL \|\| cur == NULL) {
642	return MRB_DUMP_INVALID_ARGUMENT;
643	}
644
645	header = (struct rite_section_debug_header *)bin;
646	cur += sizeof(struct rite_section_debug_header);
647	section_size += sizeof(struct rite_section_debug_header);
648
649	/* filename table */
650	cur += uint16_to_bin(filenames_len, cur);
651	section_size += sizeof(uint16_t);
652	for (i = 0; i < filenames_len; ++i) {
653	sym = mrb_sym2name_len(mrb, filenames[i], &sym_len);
654	mrb_assert(sym);
655	cur += uint16_to_bin(sym_len, cur);
656	memcpy(cur, sym, sym_len);
657	cur += sym_len;
658	section_size += sizeof(uint16_t) + sym_len;
659	}
660
661	/* debug records */
662	dlen = write_debug_record(mrb, irep, cur, filenames, filenames_len);
663	section_size += dlen;
664
665	memcpy(header->section_ident, RITE_SECTION_DEBUG_IDENT, sizeof(header->section_ident));
666	mrb_assert(section_size <= INT32_MAX);
667	uint32_to_bin(section_size, header->section_size);
668
669	return MRB_DUMP_OK;
670	}
671
672	static void
673	create_lv_sym_table(mrb_state mrb, const mrb_irep irep, mrb_sym *syms, uint32_t syms_len)
674	{
675	size_t i;
676
677	if (*syms == NULL) {
678	syms = (mrb_sym)mrb_malloc(mrb, sizeof(mrb_sym) * 1);
679	}
680
681	for (i = 0; i + 1 < irep->nlocals; ++i) {
682	mrb_sym const name = irep->lv[i].name;
683	if (name == 0) continue;
684	if (find_filename_index(syms, syms_len, name) != -1) continue;
685
686	++(*syms_len);
687	syms = (mrb_sym)mrb_realloc(mrb, syms, sizeof(mrb_sym) (*syms_len));
688	(syms)[syms_len - 1] = name;
689	}
690
691	for (i = 0; i < irep->rlen; ++i) {
692	create_lv_sym_table(mrb, irep->reps[i], syms, syms_len);
693	}
694	}
695
696	static int
697	write_lv_sym_table(mrb_state mrb, uint8_t start, mrb_sym const syms, uint32_t syms_len)
698	{
699	uint8_t cur = start;
700	uint32_t i;
701	const char *str;
702	mrb_int str_len;
703
704	cur += uint32_to_bin(syms_len, cur);
705
706	for (i = 0; i < syms_len; ++i) {
707	str = mrb_sym2name_len(mrb, syms[i], &str_len);
708	cur += uint16_to_bin(str_len, cur);
709	memcpy(cur, str, str_len);
710	cur += str_len;
711	}
712
713	*start = cur;
714
715	return MRB_DUMP_OK;
716	}
717
718	static int
719	write_lv_record(mrb_state mrb, const mrb_irep irep, uint8_t *start, mrb_sym const syms, uint32_t syms_len)
720	{
721	uint8_t cur = start;
722	size_t i;
723
724	for (i = 0; i + 1 < irep->nlocals; ++i) {
725	if (irep->lv[i].name == 0) {
726	cur += uint16_to_bin(RITE_LV_NULL_MARK, cur);
727	cur += uint16_to_bin(0, cur);
728	}
729	else {
730	int const sym_idx = find_filename_index(syms, syms_len, irep->lv[i].name);
731	mrb_assert(sym_idx != -1); /* local variable name must be in syms */
732
733	cur += uint16_to_bin(sym_idx, cur);
734	cur += uint16_to_bin(irep->lv[i].r, cur);
735	}
736	}
737
738	for (i = 0; i < irep->rlen; ++i) {
739	write_lv_record(mrb, irep->reps[i], &cur, syms, syms_len);
740	}
741
742	*start = cur;
743
744	return MRB_DUMP_OK;
745	}
746
747	static size_t
748	get_lv_record_size(mrb_state mrb, mrb_irep irep)
749	{
750	size_t ret = 0, i;
751
752	ret += (sizeof(uint16_t) + sizeof(uint16_t)) * (irep->nlocals - 1);
753
754	for (i = 0; i < irep->rlen; ++i) {
755	ret += get_lv_record_size(mrb, irep->reps[i]);
756	}
757
758	return ret;
759	}
760
761	static size_t
762	get_lv_section_size(mrb_state mrb, mrb_irep irep, mrb_sym const *syms, uint32_t syms_len)
763	{
764	size_t ret = 0, i;
765
766	ret += sizeof(uint32_t); /* syms_len */
767	ret += sizeof(uint16_t) * syms_len; /* symbol name lengths */
768	for (i = 0; i < syms_len; ++i) {
769	mrb_int str_len;
770	mrb_sym2name_len(mrb, syms[i], &str_len);
771	ret += str_len;
772	}
773
774	ret += get_lv_record_size(mrb, irep);
775
776	return ret;
777	}
778
779	static int
780	write_section_lv(mrb_state mrb, mrb_irep irep, uint8_t start, mrb_sym const syms, uint32_t const syms_len)
781	{
782	uint8_t *cur = start;
783	struct rite_section_lv_header *header;
784	ptrdiff_t diff;
785	int result = MRB_DUMP_OK;
786
787	if (mrb == NULL \|\| cur == NULL) {
788	return MRB_DUMP_INVALID_ARGUMENT;
789	}
790
791	header = (struct rite_section_lv_header*)cur;
792	cur += sizeof(struct rite_section_lv_header);
793
794	result = write_lv_sym_table(mrb, &cur, syms, syms_len);
795	if (result != MRB_DUMP_OK) {
796	goto lv_section_exit;
797	}
798
799	result = write_lv_record(mrb, irep, &cur, syms, syms_len);
800	if (result != MRB_DUMP_OK) {
801	goto lv_section_exit;
802	}
803
804	memcpy(header->section_ident, RITE_SECTION_LV_IDENT, sizeof(header->section_ident));
805
806	diff = cur - start;
807	mrb_assert_int_fit(ptrdiff_t, diff, size_t, SIZE_MAX);
808	uint32_to_bin(diff, header->section_size);
809
810	lv_section_exit:
811	return result;
812	}
813
814	static int
815	write_rite_binary_header(mrb_state mrb, size_t binary_size, uint8_t bin, uint8_t flags)
816	{
817	struct rite_binary_header header = (struct rite_binary_header )bin;
818	uint16_t crc;
819	uint32_t offset;
820
821	switch (flags & DUMP_ENDIAN_NAT) {
822	endian_big:
823	case DUMP_ENDIAN_BIG:
824	memcpy(header->binary_ident, RITE_BINARY_IDENT, sizeof(header->binary_ident));
825	break;
826	endian_little:
827	case DUMP_ENDIAN_LIL:
828	memcpy(header->binary_ident, RITE_BINARY_IDENT_LIL, sizeof(header->binary_ident));
829	break;
830
831	case DUMP_ENDIAN_NAT:
832	if (bigendian_p()) goto endian_big;
833	goto endian_little;
834	break;
835	}
836
837	memcpy(header->binary_version, RITE_BINARY_FORMAT_VER, sizeof(header->binary_version));
838	memcpy(header->compiler_name, RITE_COMPILER_NAME, sizeof(header->compiler_name));
839	memcpy(header->compiler_version, RITE_COMPILER_VERSION, sizeof(header->compiler_version));
840	mrb_assert(binary_size <= UINT32_MAX);
841	uint32_to_bin((uint32_t)binary_size, header->binary_size);
842
843	offset = (&(header->binary_crc[0]) - bin) + sizeof(uint16_t);
844	crc = calc_crc_16_ccitt(bin + offset, binary_size - offset, 0);
845	uint16_to_bin(crc, header->binary_crc);
846
847	return MRB_DUMP_OK;
848	}
849
850	static mrb_bool
851	is_debug_info_defined(mrb_irep *irep)
852	{
853	size_t i;
854
855	if (!irep->debug_info) return FALSE;
856	for (i=0; i<irep->rlen; i++) {
857	if (!is_debug_info_defined(irep->reps[i])) return FALSE;
858	}
859	return TRUE;
860	}
861
862	static mrb_bool
863	is_lv_defined(mrb_irep *irep)
864	{
865	size_t i;
866
867	if (irep->lv) { return TRUE; }
868
869	for (i = 0; i < irep->rlen; ++i) {
870	if (is_lv_defined(irep->reps[i])) { return TRUE; }
871	}
872
873	return FALSE;
874	}
875
876	static uint8_t
877	dump_flags(uint8_t flags, uint8_t native)
878	{
879	if (native == FLAG_BYTEORDER_NATIVE) {
880	if ((flags & DUMP_ENDIAN_NAT) == 0) {
881	return (flags & DUMP_DEBUG_INFO) \| DUMP_ENDIAN_NAT;
882	}
883	return flags;
884	}
885	if ((flags & DUMP_ENDIAN_NAT) == 0) {
886	return (flags & DUMP_DEBUG_INFO) \| DUMP_ENDIAN_BIG;
887	}
888	return flags;
889	}
890
891	static int
892	dump_irep(mrb_state mrb, mrb_irep irep, uint8_t flags, uint8_t *bin, size_t bin_size)
893	{
894	int result = MRB_DUMP_GENERAL_FAILURE;
895	size_t malloc_size;
896	size_t section_irep_size;
897	size_t section_lineno_size = 0, section_lv_size = 0;
898	uint8_t *cur = NULL;
899	mrb_bool const debug_info_defined = is_debug_info_defined(irep), lv_defined = is_lv_defined(irep);
900	mrb_sym *lv_syms = NULL; uint32_t lv_syms_len = 0;
901	mrb_sym *filenames = NULL; uint16_t filenames_len = 0;
902
903	if (mrb == NULL) {
904	*bin = NULL;
905	return MRB_DUMP_GENERAL_FAILURE;
906	}
907
908	section_irep_size = sizeof(struct rite_section_irep_header);
909	section_irep_size += get_irep_record_size(mrb, irep);
910
911	/* DEBUG section size */
912	if (flags & DUMP_DEBUG_INFO) {
913	if (debug_info_defined) {
914	section_lineno_size += sizeof(struct rite_section_debug_header);
915	/* filename table */
916	filenames = (mrb_sym*)mrb_malloc(mrb, sizeof(mrb_sym) + 1);
917
918	/* filename table size */
919	section_lineno_size += sizeof(uint16_t);
920	section_lineno_size += get_filename_table_size(mrb, irep, &filenames, &filenames_len);
921
922	section_lineno_size += get_debug_record_size(mrb, irep);
923	}
924	else {
925	section_lineno_size += sizeof(struct rite_section_lineno_header);
926	section_lineno_size += get_lineno_record_size(mrb, irep);
927	}
928	}
929
930	if (lv_defined) {
931	section_lv_size += sizeof(struct rite_section_lv_header);
932	create_lv_sym_table(mrb, irep, &lv_syms, &lv_syms_len);
933	section_lv_size += get_lv_section_size(mrb, irep, lv_syms, lv_syms_len);
934	}
935
936	malloc_size = sizeof(struct rite_binary_header) +
937	section_irep_size + section_lineno_size + section_lv_size +
938	sizeof(struct rite_binary_footer);
939	cur = bin = (uint8_t)mrb_malloc(mrb, malloc_size);
940	cur += sizeof(struct rite_binary_header);
941
942	result = write_section_irep(mrb, irep, cur, &section_irep_size, flags);
943	if (result != MRB_DUMP_OK) {
944	goto error_exit;
945	}
946	cur += section_irep_size;
947	*bin_size = sizeof(struct rite_binary_header) +
948	section_irep_size + section_lineno_size + section_lv_size +
949	sizeof(struct rite_binary_footer);
950
951	/* write DEBUG section */
952	if (flags & DUMP_DEBUG_INFO) {
953	if (debug_info_defined) {
954	result = write_section_debug(mrb, irep, cur, filenames, filenames_len);
955	}
956	else {
957	result = write_section_lineno(mrb, irep, cur);
958	}
959	if (result != MRB_DUMP_OK) {
960	goto error_exit;
961	}
962	cur += section_lineno_size;
963	}
964
965	if (lv_defined) {
966	result = write_section_lv(mrb, irep, cur, lv_syms, lv_syms_len);
967	if (result != MRB_DUMP_OK) {
968	goto error_exit;
969	}
970	cur += section_lv_size;
971	}
972
973	write_footer(mrb, cur);
974	write_rite_binary_header(mrb, bin_size, bin, flags);
975
976	error_exit:
977	if (result != MRB_DUMP_OK) {
978	mrb_free(mrb, *bin);
979	*bin = NULL;
980	}
981	mrb_free(mrb, lv_syms);
982	mrb_free(mrb, filenames);
983	return result;
984	}
985
986	int
987	mrb_dump_irep(mrb_state mrb, mrb_irep irep, uint8_t flags, uint8_t *bin, size_t bin_size)
988	{
989	return dump_irep(mrb, irep, dump_flags(flags, FLAG_BYTEORDER_NONATIVE), bin, bin_size);
990	}
991
992	#ifndef MRB_DISABLE_STDIO
993
994	int
995	mrb_dump_irep_binary(mrb_state mrb, mrb_irep irep, uint8_t flags, FILE* fp)
996	{
997	uint8_t *bin = NULL;
998	size_t bin_size = 0;
999	int result;
1000
1001	if (fp == NULL) {
1002	return MRB_DUMP_INVALID_ARGUMENT;
1003	}
1004
1005	result = dump_irep(mrb, irep, dump_flags(flags, FLAG_BYTEORDER_NONATIVE), &bin, &bin_size);
1006	if (result == MRB_DUMP_OK) {
1007	if (fwrite(bin, sizeof(bin[0]), bin_size, fp) != bin_size) {
1008	result = MRB_DUMP_WRITE_FAULT;
1009	}
1010	}
1011
1012	mrb_free(mrb, bin);
1013	return result;
1014	}
1015
1016	static mrb_bool
1017	dump_bigendian_p(uint8_t flags)
1018	{
1019	switch (flags & DUMP_ENDIAN_NAT) {
1020	case DUMP_ENDIAN_BIG:
1021	return TRUE;
1022	case DUMP_ENDIAN_LIL:
1023	return FALSE;
1024	default:
1025	case DUMP_ENDIAN_NAT:
1026	return bigendian_p();
1027	}
1028	}
1029
1030	int
1031	mrb_dump_irep_cfunc(mrb_state mrb, mrb_irep irep, uint8_t flags, FILE fp, const char initname)
1032	{
1033	uint8_t *bin = NULL;
1034	size_t bin_size = 0, bin_idx = 0;
1035	int result;
1036
1037	if (fp == NULL \|\| initname == NULL \|\| initname[0] == '\0') {
1038	return MRB_DUMP_INVALID_ARGUMENT;
1039	}
1040	flags = dump_flags(flags, FLAG_BYTEORDER_NATIVE);
1041	result = dump_irep(mrb, irep, flags, &bin, &bin_size);
1042	if (result == MRB_DUMP_OK) {
1043	if (!dump_bigendian_p(flags)) {
1044	if (fprintf(fp, "/* dumped in little endian order.\n"
1045	" use `mrbc -E` option for big endian CPU. */\n") < 0) {
1046	mrb_free(mrb, bin);
1047	return MRB_DUMP_WRITE_FAULT;
1048	}
1049	}
1050	else {
1051	if (fprintf(fp, "/* dumped in big endian order.\n"
1052	" use `mrbc -e` option for better performance on little endian CPU. */\n") < 0) {
1053	mrb_free(mrb, bin);
1054	return MRB_DUMP_WRITE_FAULT;
1055	}
1056	}
1057	if (fprintf(fp, "#include <stdint.h>\n") < 0) { /* for uint8_t under at least Darwin */
1058	mrb_free(mrb, bin);
1059	return MRB_DUMP_WRITE_FAULT;
1060	}
1061	if (fprintf(fp,
1062	"const uint8_t\n"
1063	"#if defined __GNUC__\n"
1064	"__attribute__((aligned(%u)))\n"
1065	"#elif defined _MSC_VER\n"
1066	"__declspec(align(%u))\n"
1067	"#endif\n"
1068	"%s[] = {",
1069	(uint16_t)MRB_DUMP_ALIGNMENT, (uint16_t)MRB_DUMP_ALIGNMENT, initname) < 0) {
1070	mrb_free(mrb, bin);
1071	return MRB_DUMP_WRITE_FAULT;
1072	}
1073	while (bin_idx < bin_size) {
1074	if (bin_idx % 16 == 0) {
1075	if (fputs("\n", fp) == EOF) {
1076	mrb_free(mrb, bin);
1077	return MRB_DUMP_WRITE_FAULT;
1078	}
1079	}
1080	if (fprintf(fp, "0x%02x,", bin[bin_idx++]) < 0) {
1081	mrb_free(mrb, bin);
1082	return MRB_DUMP_WRITE_FAULT;
1083	}
1084	}
1085	if (fputs("\n};\n", fp) == EOF) {
1086	mrb_free(mrb, bin);
1087	return MRB_DUMP_WRITE_FAULT;
1088	}
1089	}
1090
1091	mrb_free(mrb, bin);
1092	return result;
1093	}
1094
1095	#endif /* MRB_DISABLE_STDIO */

Note: See TracBrowser for help on using the repository browser.

Download in other formats: