header.c

Bug Summary

File:	lib/header.c
Warning:	line 968, column 2 Value stored to 'uh' is never read

Annotated Source Code

1	/** \ingroup header
2	* \file lib/header.c
3	*/
4
5	/* RPM - Copyright (C) 1995-2002 Red Hat Software */
6
7	/* Data written to file descriptors is in network byte order. */
8	/* Data read from file descriptors is expected to be in */
9	/* network byte order and is converted on the fly to host order. */
10
11	#include "system.h"
12	#include <netdb.h>
13	#include <errno(*__errno_location ()).h>
14	#include <rpm/rpmtypes.h>
15	#include <rpm/rpmstring.h>
16	#include "lib/header_internal.h"
17	#include "lib/misc.h" /* tag function proto */
18
19	#include "debug.h"
20
21	/** \ingroup header
22	*/
23	const unsigned char rpm_header_magic[8] = {
24	0x8e, 0xad, 0xe8, 0x01, 0x00, 0x00, 0x00, 0x00
25	};
26
27	/** \ingroup header
28	* Alignment needed for header data types.
29	*/
30	static const int typeAlign[16] = {
31	1, /!< RPM_NULL_TYPE /
32	1, /!< RPM_CHAR_TYPE /
33	1, /!< RPM_INT8_TYPE /
34	2, /!< RPM_INT16_TYPE /
35	4, /!< RPM_INT32_TYPE /
36	8, /!< RPM_INT64_TYPE /
37	1, /!< RPM_STRING_TYPE /
38	1, /!< RPM_BIN_TYPE /
39	1, /!< RPM_STRING_ARRAY_TYPE /
40	1, /!< RPM_I18NSTRING_TYPE /
41	0,
42	0,
43	0,
44	0,
45	0,
46	0
47	};
48
49	/** \ingroup header
50	* Size of header data types.
51	*/
52	static const int typeSizes[16] = {
53	0, /!< RPM_NULL_TYPE /
54	1, /!< RPM_CHAR_TYPE /
55	1, /!< RPM_INT8_TYPE /
56	2, /!< RPM_INT16_TYPE /
57	4, /!< RPM_INT32_TYPE /
58	8, /!< RPM_INT64_TYPE /
59	-1, /!< RPM_STRING_TYPE /
60	1, /!< RPM_BIN_TYPE /
61	-1, /!< RPM_STRING_ARRAY_TYPE /
62	-1, /!< RPM_I18NSTRING_TYPE /
63	0,
64	0,
65	0,
66	0,
67	0,
68	0
69	};
70
71	enum headerSorted_e {
72	HEADERSORT_NONE = 0, /* Not sorted */
73	HEADERSORT_OFFSET = 1, /* Sorted by offset (on-disk format) */
74	HEADERSORT_INDEX = 2, /* Sorted by index */
75	};
76
77	enum headerFlags_e {
78	HEADERFLAG_ALLOCATED = (1 << 1), /!< Is 1st header region allocated? /
79	HEADERFLAG_LEGACY = (1 << 2), /!< Header came from legacy source? /
80	HEADERFLAG_DEBUG = (1 << 3), /!< Debug this header? /
81	};
82
83	typedef rpmFlags headerFlags;
84
85	/** \ingroup header
86	* A single tag from a Header.
87	*/
88	typedef struct indexEntry_s * indexEntry;
89	struct indexEntry_s {
90	struct entryInfo_s info; /!< Description of tag data. /
91	rpm_data_t data; /!< Location of tag data. /
92	int length; /!< No. bytes of data. /
93	int rdlen; /!< No. bytes of data in region. /
94	};
95
96	/** \ingroup header
97	* The Header data structure.
98	*/
99	struct headerToken_s {
100	void * blob; /!< Header region blob. /
101	indexEntry index; /!< Array of tags. /
102	int indexUsed; /!< Current size of tag array. /
103	int indexAlloced; /!< Allocated size of tag array. /
104	unsigned int instance; /!< Rpmdb instance (offset) /
105	headerFlags flags;
106	int sorted; /!< Current sort method /
107	int nrefs; /!< Reference count. /
108	};
109
110	/** \ingroup header
111	* Maximum no. of bytes permitted in a header.
112	*/
113	static const size_t headerMaxbytes = (25610241024);
114
115	#define INDEX_MALLOC_SIZE8 8
116
117	#define ENTRY_IS_REGION(_e)(((_e)->info.tag >= RPMTAG_HEADERIMAGE) && ((_e )->info.tag < RPMTAG_HEADERREGIONS)) \
118	(((_e)->info.tag >= RPMTAG_HEADERIMAGE) && ((_e)->info.tag < RPMTAG_HEADERREGIONS))
119	#define ENTRY_IN_REGION(_e)((_e)->info.offset < 0) ((_e)->info.offset < 0)
120
121	#define REGION_TAG_TYPERPM_BIN_TYPE RPM_BIN_TYPE
122	#define REGION_TAG_COUNTsizeof(struct entryInfo_s) sizeof(struct entryInfo_s)
123
124	/**
125	* Sanity check on no. of tags.
126	* This check imposes a limit of 65K tags, more than enough.
127	*/
128	#define HEADER_TAGS_MAX0x0000ffff 0x0000ffff
129	#define hdrchkTags(_ntags)((_ntags) & (~0x0000ffff)) ((_ntags) & (~HEADER_TAGS_MAX0x0000ffff))
130
131	/**
132	* Sanity check on tag values.
133	* Catches out nasties like negative values and multiple regions.
134	**/
135	#define hdrchkTag(_tag)((_tag) < 100) ((_tag) < HEADER_I18NTABLE100)
136
137	/**
138	* Sanity check on type values.
139	*/
140	#define hdrchkType(_type)((_type) < 0 \|\| (_type) > 9) ((_type) < RPM_MIN_TYPE0 \|\| (_type) > RPM_MAX_TYPE9)
141
142	/**
143	* Sanity check on data size and/or offset and/or count.
144	* This check imposes a limit of 256 MB -- file signatures
145	* may require a lot of space in the header.
146	*/
147	#define HEADER_DATA_MAX0x0fffffff 0x0fffffff
148	#define hdrchkData(_nbytes)((_nbytes) & (~0x0fffffff)) ((_nbytes) & (~HEADER_DATA_MAX0x0fffffff))
149
150	/**
151	* Sanity check on data alignment for data type.
152	*/
153	#define hdrchkAlign(_type, _off)((_off) & (typeAlign[_type]-1)) ((_off) & (typeAlign[_type]-1))
154
155	/**
156	* Sanity check on range of data offset.
157	*/
158	#define hdrchkRange(_dl, _off)((_off) < 0 \|\| (_off) > (_dl)) ((_off) < 0 \|\| (_off) > (_dl))
159
160	static int dataLength(rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t count,
161	int onDisk, rpm_constdata_t pend);
162
163	#ifndef htonll
164	/* Convert a 64bit value to network byte order. */
165	RPM_GNUC_CONST__attribute__((__const__))
166	static uint64_t htonll(uint64_t n)
167	{
168	#if __BYTE_ORDER__1234 == __ORDER_LITTLE_ENDIAN__1234
169	uint32_t i = (uint32_t)&n;
170	uint32_t b = i[0];
171	i[0] = htonl(i[1])(__extension__ ({ unsigned int __v, __x = (i[1]); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
172	i[1] = htonl(b)(__extension__ ({ unsigned int __v, __x = (b); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
173	#endif
174	return n;
175	}
176	#endif
177
178	Header headerLink(Header h)
179	{
180	if (h != NULL((void*)0))
181	h->nrefs++;
182	return h;
183	}
184
185	static Header headerUnlink(Header h)
186	{
187	if (h != NULL((void*)0))
188	h->nrefs--;
189	return NULL((void*)0);
190	}
191
192	Header headerFree(Header h)
193	{
194	(void) headerUnlink(h);
195
196	if (h == NULL((void*)0) \|\| h->nrefs > 0)
197	return NULL((void*)0);
198
199	if (h->index) {
200	indexEntry entry = h->index;
201	int i;
202	for (i = 0; i < h->indexUsed; i++, entry++) {
203	if ((h->flags & HEADERFLAG_ALLOCATED) && ENTRY_IS_REGION(entry)(((entry)->info.tag >= RPMTAG_HEADERIMAGE) && ( (entry)->info.tag < RPMTAG_HEADERREGIONS))) {
204	if (entry->length > 0) {
205	int32_t * ei = entry->data;
206	if ((ei - 2) == h->blob) h->blob = _free(h->blob)rfree((h->blob));
207	entry->data = NULL((void*)0);
208	}
209	} else if (!ENTRY_IN_REGION(entry)((entry)->info.offset < 0)) {
210	entry->data = _free(entry->data)rfree((entry->data));
211	}
212	entry->data = NULL((void*)0);
213	}
214	h->index = _free(h->index)rfree((h->index));
215	}
216
217	h = _free(h)rfree((h));
218	return NULL((void*)0);
219	}
220
221	static Header headerCreate(void *blob, int32_t indexLen)
222	{
223	Header h = xcalloc(1, sizeof(h))rcalloc((1), (sizeof(h)));
224	if (blob) {
225	h->blob = blob;
226	h->indexAlloced = indexLen + 1;
227	h->indexUsed = indexLen;
228	} else {
229	h->indexAlloced = INDEX_MALLOC_SIZE8;
230	h->indexUsed = 0;
231	}
232	h->instance = 0;
233	h->sorted = HEADERSORT_NONE;
234
235	h->index = (h->indexAlloced
236	? xcalloc(h->indexAlloced, sizeof(h->index))rcalloc((h->indexAlloced), (sizeof(h->index)))
237	: NULL((void*)0));
238
239	h->nrefs = 0;
240	return headerLink(h);
241	}
242
243	Header headerNew(void)
244	{
245	return headerCreate(NULL((void*)0), 0);
246	}
247
248	static rpmRC hdrblobVerifyInfo(hdrblob blob, char **emsg)
249	{
250	struct entryInfo_s info;
251	int i, len = 0;
252	int32_t end = 0;
253	const char ds = (const char ) blob->dataStart;
254	int32_t il = (blob->regionTag) ? blob->il-1 : blob->il;
255	entryInfo pe = (blob->regionTag) ? blob->pe+1 : blob->pe;
256
257	for (i = 0; i < il; i++) {
258	ei2h(&pe[i], &info);
259
260	/* Previous data must not overlap */
261	if (end > info.offset)
262	goto err;
263
264	if (hdrchkTag(info.tag)((info.tag) < 100))
265	goto err;
266	if (hdrchkType(info.type)((info.type) < 0 \|\| (info.type) > 9))
267	goto err;
268	if (hdrchkAlign(info.type, info.offset)((info.offset) & (typeAlign[info.type]-1)))
269	goto err;
270	if (hdrchkRange(blob->dl, info.offset)((info.offset) < 0 \|\| (info.offset) > (blob->dl)))
271	goto err;
272
273	/* Verify the data actually fits */
274	len = dataLength(info.type, ds + info.offset,
275	info.count, 1, ds + blob->dl);
276	end = info.offset + len;
277	if (hdrchkRange(blob->dl, end)((end) < 0 \|\| (end) > (blob->dl)) \|\| len <= 0)
278	goto err;
279	}
280	return 0; /* Everything ok */
281
282	err:
283	if (emsg) {
284	rasprintf(emsg,
285	_("tag[%d]: BAD, tag %d type %d offset %d count %d len %d")dcgettext ("rpm", "tag[%d]: BAD, tag %d type %d offset %d count %d len %d" , 5),
286	i, info.tag, info.type, info.offset, info.count, len);
287	}
288	return i + 1;
289	}
290
291	static int indexCmp(const void * avp, const void * bvp)
292	{
293	indexEntry ap = (indexEntry) avp, bp = (indexEntry) bvp;
294	return (ap->info.tag - bp->info.tag);
295	}
296
297	static void headerSort(Header h)
298	{
299	if (h->sorted != HEADERSORT_INDEX) {
300	qsort(h->index, h->indexUsed, sizeof(*h->index), indexCmp);
301	h->sorted = HEADERSORT_INDEX;
302	}
303	}
304
305	static int offsetCmp(const void * avp, const void * bvp)
306	{
307	indexEntry ap = (indexEntry) avp, bp = (indexEntry) bvp;
308	int rc = (ap->info.offset - bp->info.offset);
309
310	if (rc == 0) {
311	/* Within a region, entries sort by address. Added drips sort by tag. */
312	if (ap->info.offset < 0)
313	rc = (((char )ap->data) - ((char )bp->data));
314	else
315	rc = (ap->info.tag - bp->info.tag);
316	}
317	return rc;
318	}
319
320	static void headerUnsort(Header h)
321	{
322	if (h->sorted != HEADERSORT_OFFSET) {
323	qsort(h->index, h->indexUsed, sizeof(*h->index), offsetCmp);
324	h->sorted = HEADERSORT_OFFSET;
325	}
326	}
327
328	static inline unsigned int alignDiff(rpm_tagtype_t type, unsigned int alignsize)
329	{
330	int typesize = typeSizes[type];
331
332	if (typesize > 1) {
333	unsigned int diff = typesize - (alignsize % typesize);
334	if (diff != typesize)
335	return diff;
336	}
337	return 0;
338	}
339
340	unsigned headerSizeof(Header h, int magicp)
341	{
342	indexEntry entry;
343	unsigned int size = 0;
344	int i;
345
346	if (h == NULL((void*)0))
347	return size;
348
349	headerSort(h);
350
351	if (magicp == HEADER_MAGIC_YES)
352	size += sizeof(rpm_header_magic);
353
354	size += 2 * sizeof(int32_t); /* count of index entries */
355
356	for (i = 0, entry = h->index; i < h->indexUsed; i++, entry++) {
357	/* Regions go in as is ... */
358	if (ENTRY_IS_REGION(entry)(((entry)->info.tag >= RPMTAG_HEADERIMAGE) && ( (entry)->info.tag < RPMTAG_HEADERREGIONS))) {
359	size += entry->length;
360	/* Reserve space for legacy region tag + data */
361	if (i == 0 && (h->flags & HEADERFLAG_LEGACY))
362	size += sizeof(struct entryInfo_s) + entry->info.count;
363	continue;
364	}
365
366	/* ... and region elements are skipped. */
367	if (entry->info.offset < 0)
368	continue;
369
370	/* Alignment */
371	size += alignDiff(entry->info.type, size);
372
373	size += sizeof(struct entryInfo_s) + entry->length;
374	}
375
376	return size;
377	}
378
379	/*
380	* Header string (array) size calculation, bounded if end is non-NULL.
381	* Return length (including \0 termination) on success, -1 on error.
382	*/
383	static inline int strtaglen(const char str, rpm_count_t c, const char end)
384	{
385	const char *start = str;
386	const char *s;
387
388	if (end) {
389	if (str >= end)
390	return -1;
391	while ((s = memchr(start, '\0', end-start))) {
392	if (--c == 0 \|\| s > end)
393	break;
394	start = s + 1;
395	}
396	} else {
397	while ((s = strchr(start, '\0'))) {
398	if (--c == 0)
399	break;
400	start = s + 1;
401	}
402	}
403	return (c > 0) ? -1 : (s - str + 1);
404	}
405
406	/**
407	* Return length of entry data.
408	* @param type entry data type
409	* @param p entry data
410	* @param count entry item count
411	* @param onDisk data is concatenated strings (with NUL's))?
412	* @param pend pointer to end of data (or NULL)
413	* @return no. bytes in data, -1 on failure
414	*/
415	static int dataLength(rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t count,
416	int onDisk, rpm_constdata_t pend)
417	{
418	const char * s = p;
419	const char * se = pend;
420	int length = 0;
421
422	switch (type) {
423	case RPM_STRING_TYPE:
424	if (count != 1)
425	return -1;
426	length = strtaglen(s, 1, se);
427	break;
428
429	case RPM_STRING_ARRAY_TYPE:
430	case RPM_I18NSTRING_TYPE:
431	/* These are like RPM_STRING_TYPE, except they're always an array */
432	/* Compute sum of length of all strings, including nul terminators */
433
434	if (onDisk) {
435	length = strtaglen(s, count, se);
436	} else {
437	const char av = (const char )p;
438	while (count--) {
439	/* add one for null termination */
440	length += strlen(*av++) + 1;
441	}
442	}
443	break;
444
445	default:
446	if (typeSizes[type] == -1)
447	return -1;
448	length = typeSizes[(type & 0xf)] * count;
449	if (length < 0 \|\| (se && (s + length) > se))
450	return -1;
451	break;
452	}
453
454	return length;
455	}
456
457	/** \ingroup header
458	* Swap int32_t and int16_t arrays within header region.
459	*
460	* If a header region tag is in the set to be swabbed, as the data for a
461	* a header region is located after all other tag data.
462	*
463	* @param entry header entry
464	* @param il no. of entries
465	* @param dl start no. bytes of data
466	* @param pe header physical entry pointer (swapped)
467	* @param dataStart header data start
468	* @param dataEnd header data end
469	* @param regionid region offset
470	* @param fast use offsets for data sizes if possible
471	* @return no. bytes of data in region, -1 on error
472	*/
473	static int regionSwab(indexEntry entry, int il, int dl,
474	entryInfo pe,
475	unsigned char * dataStart,
476	const unsigned char * dataEnd,
477	int regionid, int fast)
478	{
479	if ((entry != NULL((void)0) && regionid >= 0) \|\| (entry == NULL((void)0) && regionid != 0))
480	return -1;
481
482	for (; il > 0; il--, pe++) {
483	struct indexEntry_s ie;
484
485	ei2h(pe, &ie.info);
486
487	if (hdrchkType(ie.info.type)((ie.info.type) < 0 \|\| (ie.info.type) > 9))
488	return -1;
489	if (hdrchkData(ie.info.count)((ie.info.count) & (~0x0fffffff)))
490	return -1;
491	if (hdrchkData(ie.info.offset)((ie.info.offset) & (~0x0fffffff)))
492	return -1;
493	if (hdrchkAlign(ie.info.type, ie.info.offset)((ie.info.offset) & (typeAlign[ie.info.type]-1)))
494	return -1;
495
496	ie.data = dataStart + ie.info.offset;
497	if (dataEnd && (unsigned char *)ie.data >= dataEnd)
498	return -1;
499
500	if (fast && il > 1) {
501	ie.length = ntohl(pe[1].offset)(__extension__ ({ unsigned int __v, __x = (pe[1].offset); if ( __builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00 ) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v; })) - ie.info.offset;
502	} else {
503	ie.length = dataLength(ie.info.type, ie.data, ie.info.count,
504	1, dataEnd);
505	}
506	if (ie.length < 0 \|\| hdrchkData(ie.length)((ie.length) & (~0x0fffffff)))
507	return -1;
508
509	ie.rdlen = 0;
510
511	if (entry) {
512	ie.info.offset = regionid;
513	entry = ie; / structure assignment */
514	entry++;
515	}
516
517	/* Alignment */
518	dl += alignDiff(ie.info.type, dl);
519
520	/* Perform endian conversions */
521	switch (ntohl(pe->type)(__extension__ ({ unsigned int __v, __x = (pe->type); if ( __builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00 ) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v; }))) {
522	case RPM_INT64_TYPE:
523	{ uint64_t * it = ie.data;
524	for (; ie.info.count > 0; ie.info.count--, it += 1) {
525	if (dataEnd && ((unsigned char *)it) >= dataEnd)
526	return -1;
527	it = htonll(it);
528	}
529	} break;
530	case RPM_INT32_TYPE:
531	{ int32_t * it = ie.data;
532	for (; ie.info.count > 0; ie.info.count--, it += 1) {
533	if (dataEnd && ((unsigned char *)it) >= dataEnd)
534	return -1;
535	it = htonl(it)(__extension__ ({ unsigned int __v, __x = (*it); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
536	}
537	} break;
538	case RPM_INT16_TYPE:
539	{ int16_t * it = ie.data;
540	for (; ie.info.count > 0; ie.info.count--, it += 1) {
541	if (dataEnd && ((unsigned char *)it) >= dataEnd)
542	return -1;
543	it = htons(it)(__extension__ ({ unsigned short int __v, __x = (unsigned short int) (*it); if (__builtin_constant_p (__x)) __v = ((unsigned short int) ((((__x) >> 8) & 0xff) \| (((__x) & 0xff ) << 8))); else __asm__ ("rorw $8, %w0" : "=r" (__v) : "0" (__x) : "cc"); __v; }));
544	}
545	} break;
546	}
547
548	dl += ie.length;
549	}
550
551	return dl;
552	}
553
554	void * headerExport(Header h, unsigned int *bsize)
555	{
556	int32_t * ei = NULL((void*)0);
557	entryInfo pe;
558	char * dataStart;
559	char * te;
560	unsigned len, diff;
561	int32_t il = 0;
562	int32_t dl = 0;
563	indexEntry entry;
564	int i;
565	int drlen, ndribbles;
566
567	if (h == NULL((void)0)) return NULL((void)0);
568
569	/* Sort entries by (offset,tag). */
570	headerUnsort(h);
571
572	/* Compute (il,dl) for all tags, including those deleted in region. */
573	drlen = ndribbles = 0;
574	for (i = 0, entry = h->index; i < h->indexUsed; i++, entry++) {
575	if (ENTRY_IS_REGION(entry)(((entry)->info.tag >= RPMTAG_HEADERIMAGE) && ( (entry)->info.tag < RPMTAG_HEADERREGIONS))) {
576	int32_t rdl = -entry->info.offset; /* negative offset */
577	int32_t ril = rdl/sizeof(*pe);
578	int rid = entry->info.offset;
579
580	il += ril;
581	dl += entry->rdlen + entry->info.count;
582	/* Reserve space for legacy region tag */
583	if (i == 0 && (h->flags & HEADERFLAG_LEGACY))
584	il += 1;
585
586	/* Skip rest of entries in region, but account for dribbles. */
587	for (; i < h->indexUsed && entry->info.offset <= rid+1; i++, entry++) {
588	if (entry->info.offset <= rid)
589	continue;
590
591	/* Alignment */
592	diff = alignDiff(entry->info.type, dl);
593	if (diff) {
594	drlen += diff;
595	dl += diff;
596	}
597
598	ndribbles++;
599	il++;
600	drlen += entry->length;
601	dl += entry->length;
602	}
603	i--;
604	entry--;
605	continue;
606	}
607
608	/* Ignore deleted drips. */
609	if (entry->data == NULL((void*)0) \|\| entry->length <= 0)
610	continue;
611
612	/* Alignment */
613	dl += alignDiff(entry->info.type, dl);
614
615	il++;
616	dl += entry->length;
617	}
618
619	/* Sanity checks on header intro. */
620	if (hdrchkTags(il)((il) & (~0x0000ffff)) \|\| hdrchkData(dl)((dl) & (~0x0fffffff)))
621	goto errxit;
622
623	len = sizeof(il) + sizeof(dl) + (il * sizeof(*pe)) + dl;
624
625	ei = xmalloc(len)rmalloc((len));
626	ei[0] = htonl(il)(__extension__ ({ unsigned int __v, __x = (il); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
627	ei[1] = htonl(dl)(__extension__ ({ unsigned int __v, __x = (dl); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
628
629	pe = (entryInfo) &ei[2];
630	dataStart = te = (char *) (pe + il);
631
632	for (i = 0, entry = h->index; i < h->indexUsed; i++, entry++) {
633	const char * src;
634	unsigned char *t;
635	int count;
636	int rdlen;
637	unsigned int diff;
638
639	if (entry->data == NULL((void*)0) \|\| entry->length <= 0)
640	continue;
641
642	t = (unsigned char*)te;
643	pe->tag = htonl(entry->info.tag)(__extension__ ({ unsigned int __v, __x = (entry->info.tag ); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
644	pe->type = htonl(entry->info.type)(__extension__ ({ unsigned int __v, __x = (entry->info.type ); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
645	pe->count = htonl(entry->info.count)(__extension__ ({ unsigned int __v, __x = (entry->info.count ); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
646
647	if (ENTRY_IS_REGION(entry)(((entry)->info.tag >= RPMTAG_HEADERIMAGE) && ( (entry)->info.tag < RPMTAG_HEADERREGIONS))) {
648	int32_t rdl = -entry->info.offset; /* negative offset */
649	int32_t ril = rdl/sizeof(*pe) + ndribbles;
650	int rid = entry->info.offset;
651
652	src = (char *)entry->data;
653	rdlen = entry->rdlen;
654
655	/* Legacy headers don't have regions originally, create one */
656	if (i == 0 && (h->flags & HEADERFLAG_LEGACY)) {
657	int32_t stei[4];
658
659	memcpy(pe+1, src, rdl);
660	memcpy(te, src + rdl, rdlen);
661	te += rdlen;
662
663	pe->offset = htonl(te - dataStart)(__extension__ ({ unsigned int __v, __x = (te - dataStart); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
664	stei[0] = pe->tag;
665	stei[1] = pe->type;
666	stei[2] = htonl(-rdl-entry->info.count)(__extension__ ({ unsigned int __v, __x = (-rdl-entry->info .count); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff ) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" ( __x)); __v; }));
667	stei[3] = pe->count;
668	memcpy(te, stei, entry->info.count);
669	te += entry->info.count;
670	ril++;
671	rdlen += entry->info.count;
672
673	count = regionSwab(NULL((void)0), ril, 0, pe, t, NULL((void)0), 0, 0);
674	if (count != rdlen)
675	goto errxit;
676
677	} else {
678
679	memcpy(pe+1, src + sizeof(pe), ((ril-1) sizeof(*pe)));
680	memcpy(te, src + (ril * sizeof(*pe)), rdlen+entry->info.count+drlen);
681	te += rdlen;
682	{
683	entryInfo se = (entryInfo)src;
684	int off = ntohl(se->offset)(__extension__ ({ unsigned int __v, __x = (se->offset); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
685	pe->offset = (off) ? htonl(te - dataStart)(__extension__ ({ unsigned int __v, __x = (te - dataStart); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; })) : htonl(off)(__extension__ ({ unsigned int __v, __x = (off); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
686	}
687	te += entry->info.count + drlen;
688
689	count = regionSwab(NULL((void)0), ril, 0, pe, t, NULL((void)0), 0, 0);
690	if (count != (rdlen + entry->info.count + drlen))
691	goto errxit;
692	}
693
694	/* Skip rest of entries in region. */
695	while (i < h->indexUsed && entry->info.offset <= rid+1) {
696	i++;
697	entry++;
698	}
699	i--;
700	entry--;
701	pe += ril;
702	continue;
703	}
704
705	/* Ignore deleted drips. */
706	if (entry->data == NULL((void*)0) \|\| entry->length <= 0)
707	continue;
708
709	/* Alignment */
710	diff = alignDiff(entry->info.type, (te - dataStart));
711	if (diff) {
712	memset(te, 0, diff);
713	te += diff;
714	}
715
716	pe->offset = htonl(te - dataStart)(__extension__ ({ unsigned int __v, __x = (te - dataStart); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
717
718	/* copy data w/ endian conversions */
719	switch (entry->info.type) {
720	case RPM_INT64_TYPE:
721	count = entry->info.count;
722	src = entry->data;
723	while (count--) {
724	((uint64_t )te) = htonll(((uint64_t )src));
725	te += sizeof(uint64_t);
726	src += sizeof(uint64_t);
727	}
728	break;
729
730	case RPM_INT32_TYPE:
731	count = entry->info.count;
732	src = entry->data;
733	while (count--) {
734	((int32_t )te) = htonl(((int32_t )src))(__extension__ ({ unsigned int __v, __x = (((int32_t )src)) ; if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
735	te += sizeof(int32_t);
736	src += sizeof(int32_t);
737	}
738	break;
739
740	case RPM_INT16_TYPE:
741	count = entry->info.count;
742	src = entry->data;
743	while (count--) {
744	((int16_t )te) = htons(((int16_t )src))(__extension__ ({ unsigned short int __v, __x = (unsigned short int) (((int16_t )src)); if (__builtin_constant_p (__x)) __v = ((unsigned short int) ((((__x) >> 8) & 0xff) \| ( ((__x) & 0xff) << 8))); else __asm__ ("rorw $8, %w0" : "=r" (__v) : "0" (__x) : "cc"); __v; }));
745	te += sizeof(int16_t);
746	src += sizeof(int16_t);
747	}
748	break;
749
750	default:
751	memcpy(te, entry->data, entry->length);
752	te += entry->length;
753	break;
754	}
755	pe++;
756	}
757
758	/* Insure that there are no memcpy underruns/overruns. */
759	if (((char *)pe) != dataStart)
760	goto errxit;
761	if ((((char *)ei)+len) != te)
762	goto errxit;
763
764	if (bsize)
765	*bsize = len;
766
767	headerSort(h);
768
769	return (void *) ei;
770
771	errxit:
772	free(ei);
773	return NULL((void*)0);
774	}
775
776	void * headerUnload(Header h)
777	{
778	return headerExport(h, NULL((void*)0));
779	}
780
781	/**
782	* Find matching (tag,type) entry in header.
783	* @param h header
784	* @param tag entry tag
785	* @param type entry type
786	* @return header entry
787	*/
788	static
789	indexEntry findEntry(Header h, rpmTagVal tag, rpm_tagtype_t type)
790	{
791	indexEntry entry;
792	struct indexEntry_s key;
793
794	if (h == NULL((void)0)) return NULL((void)0);
795	if (h->sorted != HEADERSORT_INDEX)
796	headerSort(h);
797
798	key.info.tag = tag;
799
800	entry = bsearch(&key, h->index, h->indexUsed, sizeof(*h->index), indexCmp);
801	if (entry == NULL((void*)0))
802	return NULL((void*)0);
803
804	if (type == RPM_NULL_TYPE)
805	return entry;
806
807	/* look backwards */
808	while (entry->info.tag == tag && entry->info.type != type &&
809	entry > h->index) entry--;
810
811	if (entry->info.tag == tag && entry->info.type == type)
812	return entry;
813
814	return NULL((void*)0);
815	}
816
817	int headerDel(Header h, rpmTagVal tag)
818	{
819	indexEntry last = h->index + h->indexUsed;
820	indexEntry entry, first;
821	int ne;
822
823	entry = findEntry(h, tag, RPM_NULL_TYPE);
824	if (!entry) return 1;
825
826	/* Make sure entry points to the first occurrence of this tag. */
827	while (entry > h->index && (entry - 1)->info.tag == tag)
828	entry--;
829
830	/* Free data for tags being removed. */
831	for (first = entry; first < last; first++) {
832	rpm_data_t data;
833	if (first->info.tag != tag)
834	break;
835	data = first->data;
836	first->data = NULL((void*)0);
837	first->length = 0;
838	if (ENTRY_IN_REGION(first)((first)->info.offset < 0))
839	continue;
840	free(data);
841	}
842
843	ne = (first - entry);
844	if (ne > 0) {
845	h->indexUsed -= ne;
846	ne = last - first;
847	if (ne > 0)
848	memmove(entry, first, (ne * sizeof(*entry)));
849	}
850
851	return 0;
852	}
853
854	rpmRC hdrblobImport(hdrblob blob, int fast, Header hdrp, char *emsg)
855	{
856	Header h = NULL((void*)0);
857	indexEntry entry;
858	int rdlen;
859
860	h = headerCreate(blob->ei, blob->il);
861
862	entry = h->index;
863	if (!(htonl(blob->pe->tag)(__extension__ ({ unsigned int __v, __x = (blob->pe->tag ); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; })) < RPMTAG_HEADERI18NTABLE)) {
864	/* An original v3 header, create a legacy region entry for it */
865	h->flags \|= HEADERFLAG_LEGACY;
866	entry->info.type = REGION_TAG_TYPERPM_BIN_TYPE;
867	entry->info.tag = RPMTAG_HEADERIMAGE;
868	entry->info.count = REGION_TAG_COUNTsizeof(struct entryInfo_s);
869	entry->info.offset = ((unsigned char )blob->pe - blob->dataStart); / negative offset */
870
871	entry->data = blob->pe;
872	entry->length = blob->pvlen - sizeof(blob->il) - sizeof(blob->dl);
873	rdlen = regionSwab(entry+1, blob->il, 0, blob->pe,
874	blob->dataStart, blob->dataEnd,
875	entry->info.offset, fast);
876	if (rdlen != blob->dl)
877	goto errxit;
878	entry->rdlen = rdlen;
879	h->indexUsed++;
880	} else {
881	/* Either a v4 header or an "upgraded" v3 header with a legacy region */
882	int32_t ril;
883
884	h->flags &= ~HEADERFLAG_LEGACY;
885	ei2h(blob->pe, &entry->info);
886	ril = (entry->info.offset != 0) ? blob->ril : blob->il;
887
888	entry->info.offset = -(ril * sizeof(blob->pe)); / negative offset */
889	entry->data = blob->pe;
890	entry->length = blob->pvlen - sizeof(blob->il) - sizeof(blob->dl);
891	rdlen = regionSwab(entry+1, ril-1, 0, blob->pe+1,
892	blob->dataStart, blob->dataEnd,
893	entry->info.offset, fast);
894	if (rdlen < 0)
895	goto errxit;
896	entry->rdlen = rdlen;
897
898	if (ril < h->indexUsed) {
899	indexEntry newEntry = entry + ril;
900	int ne = (h->indexUsed - ril);
901	int rid = entry->info.offset+1;
902
903	/* Load dribble entries from region. */
904	rdlen = regionSwab(newEntry, ne, rdlen, blob->pe+ril,
905	blob->dataStart, blob->dataEnd, rid, fast);
906	if (rdlen < 0)
907	goto errxit;
908
909	{ indexEntry firstEntry = newEntry;
910	int save = h->indexUsed;
911	int j;
912
913	/* Dribble entries replace duplicate region entries. */
914	h->indexUsed -= ne;
915	for (j = 0; j < ne; j++, newEntry++) {
916	(void) headerDel(h, newEntry->info.tag);
917	if (newEntry->info.tag == RPMTAG_BASENAMES)
918	(void) headerDel(h, RPMTAG_OLDFILENAMES);
919	}
920
921	/* If any duplicate entries were replaced, move new entries down. */
922	if (h->indexUsed < (save - ne)) {
923	memmove(h->index + h->indexUsed, firstEntry,
924	(ne * sizeof(*entry)));
925	}
926	h->indexUsed += ne;
927	}
928	}
929
930	rdlen += REGION_TAG_COUNTsizeof(struct entryInfo_s);
931
932	if (rdlen != blob->dl)
933	goto errxit;
934	}
935
936	/* Force sorting, dribble lookups can cause early sort on partial header */
937	h->sorted = HEADERSORT_NONE;
938	headerSort(h);
939	h->flags \|= HEADERFLAG_ALLOCATED;
940	if (hdrp)
941	*hdrp = h;
942
943	/* We own the memory now, avoid double-frees */
944	blob->ei = NULL((void*)0);
945
946	return RPMRC_OK;
947
948	errxit:
949	if (h) {
950	free(h->index);
951	free(h);
952	rasprintf(emsg, _("hdr load: BAD")dcgettext ("rpm", "hdr load: BAD", 5));
953	}
954	return RPMRC_FAIL;
955	}
956
957	Header headerReload(Header h, rpmTagVal tag)
958	{
959	Header nh;
960	unsigned int uc = 0;
961	void * uh = headerExport(h, &uc);
962
963	h = headerFree(h);
964	if (uh == NULL((void*)0))
965	return NULL((void*)0);
966	nh = headerImport(uh, uc, 0);
967	if (nh == NULL((void*)0)) {
968	uh = _free(uh)rfree((uh));
	Value stored to 'uh' is never read
969	return NULL((void*)0);
970	}
971	if (ENTRY_IS_REGION(nh->index)(((nh->index)->info.tag >= RPMTAG_HEADERIMAGE) && ((nh->index)->info.tag < RPMTAG_HEADERREGIONS))) {
972	if (tag == RPMTAG_HEADERSIGNATURES \|\| tag == RPMTAG_HEADERIMMUTABLE)
973	nh->index[0].info.tag = tag;
974	}
975	return nh;
976	}
977
978	Header headerLoad(void * uh)
979	{
980	return headerImport(uh, 0, 0);
981	}
982
983	Header headerCopyLoad(const void * uh)
984	{
985	/* Discards const but that's ok as we'll take a copy */
986	return headerImport((void *)uh, 0, HEADERIMPORT_COPY);
987	}
988
989	Header headerRead(FD_t fd, int magicp)
990	{
991	Header h = NULL((void*)0);
992	struct hdrblob_s blob;
993	char buf = NULL((void)0);
994
995	if (hdrblobRead(fd, magicp, 0, 0, &blob, &buf) == RPMRC_OK)
996	hdrblobImport(&blob, 0, &h, &buf);
997
998	free(buf);
999	return h;
1000	}
1001
1002	int headerWrite(FD_t fd, Header h, int magicp)
1003	{
1004	ssize_t nb;
1005	unsigned int length;
1006	void * uh = headerExport(h, &length);
1007
1008	if (uh == NULL((void*)0))
1009	return 1;
1010
1011	if (magicp == HEADER_MAGIC_YES) {
1012	nb = Fwrite(rpm_header_magic, sizeof(rpm_header_magic), 1, fd);
1013	if (nb != sizeof(rpm_header_magic))
1014	goto exit;
1015	}
1016
1017	nb = Fwrite(uh, sizeof(char), length, fd);
1018
1019	exit:
1020	free(uh);
1021	return (nb == length ? 0 : 1);
1022	}
1023
1024	int headerIsEntry(Header h, rpmTagVal tag)
1025	{
1026	/* FIX: h modified by sort. */
1027	return (findEntry(h, tag, RPM_NULL_TYPE) ? 1 : 0);
1028
1029	}
1030
1031	/* simple heuristic to find out if the header is from * a source rpm
1032	* or not: source rpms contain at least the spec file and have all
1033	* files in one directory with an empty name.
1034	*/
1035	int headerIsSourceHeuristic(Header h)
1036	{
1037	indexEntry entry = findEntry(h, RPMTAG_DIRNAMES, RPM_STRING_ARRAY_TYPE);
1038	return entry && entry->info.count == 1 && entry->data && !(const char )entry->data;
1039	}
1040
1041	/** \ingroup header
1042	* Retrieve data from header entry.
1043	* Relevant flags (others are ignored), if neither is set allocation
1044	* behavior depends on data type(!)
1045	* HEADERGET_MINMEM: return pointers to header memory
1046	* HEADERGET_ALLOC: always return malloced memory, overrides MINMEM
1047	*
1048	* @todo Permit retrieval of regions other than HEADER_IMUTABLE.
1049	* @param entry header entry
1050	* @param td tag data container
1051	* @param flags flags to control memory allocation
1052	* @return 1 on success, otherwise error.
1053	*/
1054	static int copyTdEntry(const indexEntry entry, rpmtd td, headerGetFlags flags)
1055	{
1056	rpm_count_t count = entry->info.count;
1057	int rc = 1; /* XXX 1 on success. */
1058	/* ALLOC overrides MINMEM */
1059	int allocMem = flags & HEADERGET_ALLOC;
1060	int minMem = allocMem ? 0 : flags & HEADERGET_MINMEM;
1061	int argvArray = (flags & HEADERGET_ARGV) ? 1 : 0;
1062
1063	assert(td != NULL)((void) sizeof ((td != ((void)0)) == 0), __extension__ ({ if (td != ((void)0)) ; else __assert_fail ("td != NULL", "header.c" , 1063, __extension__ __PRETTY_FUNCTION__); }));
1064	td->flags = RPMTD_IMMUTABLE;
1065	switch (entry->info.type) {
1066	case RPM_BIN_TYPE:
1067	/*
1068	* XXX This only works for
1069	* XXX "sealed" HEADER_IMMUTABLE/HEADER_SIGNATURES/HEADER_IMAGE.
1070	* XXX This will not work for unsealed legacy HEADER_IMAGE (i.e.
1071	* XXX a legacy header freshly read, but not yet unloaded to the rpmdb).
1072	*/
1073	if (ENTRY_IS_REGION(entry)(((entry)->info.tag >= RPMTAG_HEADERIMAGE) && ( (entry)->info.tag < RPMTAG_HEADERREGIONS))) {
1074	int32_t * ei = ((int32_t *)entry->data) - 2;
1075	entryInfo pe = (entryInfo) (ei + 2);
1076	unsigned char * dataStart = (unsigned char *) (pe + ntohl(ei[0])(__extension__ ({ unsigned int __v, __x = (ei[0]); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; })));
1077	int32_t rdl = -entry->info.offset; /* negative offset */
1078	int32_t ril = rdl/sizeof(*pe);
1079
1080	rdl = entry->rdlen;
1081	count = 2 * sizeof(ei) + (ril sizeof(*pe)) + rdl;
1082	if (entry->info.tag == RPMTAG_HEADERIMAGE) {
1083	ril -= 1;
1084	pe += 1;
1085	} else {
1086	count += REGION_TAG_COUNTsizeof(struct entryInfo_s);
1087	rdl += REGION_TAG_COUNTsizeof(struct entryInfo_s);
1088	}
1089
1090	td->data = xmalloc(count)rmalloc((count));
1091	ei = (int32_t *) td->data;
1092	ei[0] = htonl(ril)(__extension__ ({ unsigned int __v, __x = (ril); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
1093	ei[1] = htonl(rdl)(__extension__ ({ unsigned int __v, __x = (rdl); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
1094
1095	pe = (entryInfo) memcpy(ei + 2, pe, (ril * sizeof(*pe)));
1096
1097	dataStart = (unsigned char *) memcpy(pe + ril, dataStart, rdl);
1098
1099	rc = regionSwab(NULL((void*)0), ril, 0, pe, dataStart, dataStart + rdl, 0, 0);
1100	/* don't return data on failure */
1101	if (rc < 0) {
1102	td->data = _free(td->data)rfree((td->data));
1103	}
1104	/* XXX 1 on success. */
1105	rc = (rc < 0) ? 0 : 1;
1106	} else {
1107	count = entry->length;
1108	td->data = (!minMem
1109	? memcpy(xmalloc(count)rmalloc((count)), entry->data, count)
1110	: entry->data);
1111	}
1112	break;
1113	case RPM_STRING_TYPE:
1114	/* simple string, but fallthrough if its actually an array */
1115	if (count == 1 && !argvArray) {
1116	td->data = allocMem ? xstrdup(entry->data)rstrdup((entry->data)) : entry->data;
1117	break;
1118	}
1119	case RPM_STRING_ARRAY_TYPE:
1120	case RPM_I18NSTRING_TYPE:
1121	{ const char ** ptrEntry;
1122	int tableSize = (count + argvArray) * sizeof(char *);
1123	char * t;
1124	int i;
1125
1126	if (minMem) {
1127	td->data = xmalloc(tableSize)rmalloc((tableSize));
1128	ptrEntry = (const char **) td->data;
1129	t = entry->data;
1130	} else {
1131	t = xmalloc(tableSize + entry->length)rmalloc((tableSize + entry->length));
1132	td->data = (void *)t;
1133	ptrEntry = (const char **) td->data;
1134	t += tableSize;
1135	memcpy(t, entry->data, entry->length);
1136	}
1137	for (i = 0; i < count; i++) {
1138	*ptrEntry++ = t;
1139	t = strchr(t, 0);
1140	t++;
1141	}
1142	if (argvArray) {
1143	ptrEntry = NULL((void)0);
1144	td->flags \|= RPMTD_ARGV;
1145	}
1146	} break;
1147	case RPM_CHAR_TYPE:
1148	case RPM_INT8_TYPE:
1149	case RPM_INT16_TYPE:
1150	case RPM_INT32_TYPE:
1151	case RPM_INT64_TYPE:
1152	if (allocMem) {
1153	td->data = xmalloc(entry->length)rmalloc((entry->length));
1154	memcpy(td->data, entry->data, entry->length);
1155	} else {
1156	td->data = entry->data;
1157	}
1158	break;
1159	default:
1160	/* WTH? Don't mess with unknown data types... */
1161	rc = 0;
1162	td->data = NULL((void*)0);
1163	break;
1164	}
1165	td->type = entry->info.type;
1166	td->count = count;
1167	td->size = entry->length;
1168
1169	if (td->data && entry->data != td->data) {
1170	td->flags \|= RPMTD_ALLOCED;
1171	}
1172
1173	return rc;
1174	}
1175
1176	/**
1177	* Does locale match entry in header i18n table?
1178	*
1179	* \verbatim
1180	* The range [l,le) contains the next locale to match:
1181	* ll[_CC][.EEEEE][@dddd]
1182	* where
1183	* ll ISO language code (in lowercase).
1184	* CC (optional) ISO coutnry code (in uppercase).
1185	* EEEEE (optional) encoding (not really standardized).
1186	* dddd (optional) dialect.
1187	* \endverbatim
1188	*
1189	* @param td header i18n table data, NUL terminated
1190	* @param l start of locale to match
1191	* @param le end of locale to match
1192	* @return 1 on good match, 2 on weak match, 0 on no match
1193	*/
1194	static int headerMatchLocale(const char td, const char l, const char *le)
1195	{
1196	const char *fe;
1197
1198	/* First try a complete match. */
1199	if (strlen(td) == (le-l) && rstreqn(td, l, (le - l)))
1200	return 1;
1201
1202	/* Next, try stripping optional dialect and matching. */
1203	for (fe = l; fe < le && *fe != '@'; fe++)
1204	{};
1205	if (fe < le && rstreqn(td, l, (fe - l)))
1206	return 1;
1207
1208	/* Next, try stripping optional codeset and matching. */
1209	for (fe = l; fe < le && *fe != '.'; fe++)
1210	{};
1211	if (fe < le && rstreqn(td, l, (fe - l)))
1212	return 1;
1213
1214	/* Finally, try stripping optional country code and matching. */
1215	for (fe = l; fe < le && *fe != '_'; fe++)
1216	{};
1217	if (fe < le && rstreqn(td, l, (fe - l)))
1218	return 2;
1219
1220	return 0;
1221	}
1222
1223	/**
1224	* Return i18n string from header that matches locale.
1225	* @param h header
1226	* @param entry i18n string data
1227	* @retval td tag data container
1228	* @param flags flags to control allocation
1229	* @return 1 always
1230	*/
1231	static int copyI18NEntry(Header h, indexEntry entry, rpmtd td,
1232	headerGetFlags flags)
1233	{
1234	const char lang, l, *le;
1235	indexEntry table;
1236
1237	td->type = RPM_STRING_TYPE;
1238	td->count = 1;
1239	/* if no match, just return the first string */
1240	td->data = entry->data;
1241
1242	/* XXX Drepper sez' this is the order. */
1243	if ((lang = getenv("LANGUAGE")secure_getenv("LANGUAGE")) == NULL((void*)0) &&
1244	(lang = getenv("LC_ALL")secure_getenv("LC_ALL")) == NULL((void*)0) &&
1245	(lang = getenv("LC_MESSAGES")secure_getenv("LC_MESSAGES")) == NULL((void*)0) &&
1246	(lang = getenv("LANG")secure_getenv("LANG")) == NULL((void*)0))
1247	goto exit;
1248
1249	if ((table = findEntry(h, RPMTAG_HEADERI18NTABLE, RPM_STRING_ARRAY_TYPE)) == NULL((void*)0))
1250	goto exit;
1251
1252	for (l = lang; *l != '\0'; l = le) {
1253	const char *t;
1254	char ed, ed_weak = NULL((void*)0);
1255	int langNum;
1256
1257	while (l && l == ':') /* skip leading colons */
1258	l++;
1259	if (*l == '\0')
1260	break;
1261	for (le = l; le && le != ':'; le++) /* find end of this locale */
1262	{};
1263
1264	/* For each entry in the header ... */
1265	for (langNum = 0, t = table->data, ed = entry->data;
1266	langNum < entry->info.count;
1267	langNum++, t += strlen(t) + 1, ed += strlen(ed) + 1) {
1268
1269	int match = headerMatchLocale(t, l, le);
1270	if (match == 1) {
1271	td->data = ed;
1272	goto exit;
1273	} else if (match == 2) {
1274	ed_weak = ed;
1275	}
1276	}
1277	if (ed_weak) {
1278	td->data = ed_weak;
1279	goto exit;
1280	}
1281	}
1282
1283	exit:
1284	if (flags & HEADERGET_ALLOC) {
1285	td->data = xstrdup(td->data)rstrdup((td->data));
1286	td->flags \|= RPMTD_ALLOCED;
1287	}
1288
1289	return 1;
1290	}
1291
1292	/**
1293	* Retrieve tag data from header.
1294	* @param h header
1295	* @retval td tag data container
1296	* @param flags flags to control retrieval
1297	* @return 1 on success, 0 on not found
1298	*/
1299	static int intGetTdEntry(Header h, rpmtd td, headerGetFlags flags)
1300	{
1301	indexEntry entry;
1302	int rc;
1303
1304	/* First find the tag */
1305	/* FIX: h modified by sort. */
1306	entry = findEntry(h, td->tag, RPM_NULL_TYPE);
1307	if (entry == NULL((void*)0)) {
1308	/* Td is zeroed above, just return... */
1309	return 0;
1310	}
1311
1312	if (entry->info.type == RPM_I18NSTRING_TYPE && !(flags & HEADERGET_RAW))
1313	rc = copyI18NEntry(h, entry, td, flags);
1314	else
1315	rc = copyTdEntry(entry, td, flags);
1316
1317	if (rc == 0)
1318	td->flags \|= RPMTD_INVALID;
1319
1320	/* XXX 1 on success */
1321	return ((rc == 1) ? 1 : 0);
1322	}
1323
1324	int headerGet(Header h, rpmTagVal tag, rpmtd td, headerGetFlags flags)
1325	{
1326	int rc;
1327	headerTagTagFunction tagfunc = intGetTdEntry;
1328
1329	if (td == NULL((void*)0)) return 0;
1330
1331	rpmtdReset(td);
1332	td->tag = tag;
1333
1334	if (flags & HEADERGET_EXT) {
1335	headerTagTagFunction extfunc = rpmHeaderTagFunc(tag);
1336	if (extfunc) tagfunc = extfunc;
1337	}
1338	rc = tagfunc(h, td, flags);
1339
1340	assert(tag == td->tag)((void) sizeof ((tag == td->tag) == 0), __extension__ ({ if (tag == td->tag) ; else __assert_fail ("tag == td->tag" , "header.c", 1340, __extension__ __PRETTY_FUNCTION__); }));
1341	return rc;
1342	}
1343
1344	/**
1345	*/
1346	static void copyData(rpm_tagtype_t type, rpm_data_t dstPtr,
1347	rpm_constdata_t srcPtr, rpm_count_t cnt, int dataLength)
1348	{
1349	switch (type) {
1350	case RPM_STRING_ARRAY_TYPE:
1351	case RPM_I18NSTRING_TYPE:
1352	{ const char av = (const char ) srcPtr;
1353	char * t = dstPtr;
1354
1355	while (cnt-- > 0 && dataLength > 0) {
1356	const char * s;
1357	if ((s = av++) == NULL((void)0))
1358	continue;
1359	do {
1360	t++ = s++;
1361	} while (s[-1] && --dataLength > 0);
1362	}
1363	} break;
1364
1365	default:
1366	memmove(dstPtr, srcPtr, dataLength);
1367	break;
1368	}
1369	}
1370
1371	/**
1372	* Return (malloc'ed) copy of entry data.
1373	* @param type entry data type
1374	* @param p entry data
1375	* @param c entry item count
1376	* @retval lengthPtr no. bytes in returned data
1377	* @return (malloc'ed) copy of entry data, NULL on error
1378	*/
1379	static void *
1380	grabData(rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t c, int * lengthPtr)
1381	{
1382	rpm_data_t data = NULL((void*)0);
1383	int length;
1384
1385	length = dataLength(type, p, c, 0, NULL((void*)0));
1386	if (length > 0) {
1387	data = xmalloc(length)rmalloc((length));
1388	copyData(type, data, p, c, length);
1389	}
1390
1391	if (lengthPtr)
1392	*lengthPtr = length;
1393	return data;
1394	}
1395
1396	static int intAddEntry(Header h, rpmtd td)
1397	{
1398	indexEntry entry;
1399	rpm_data_t data;
1400	int length = 0;
1401
1402	/* Count must always be >= 1 for headerAddEntry. */
1403	if (td->count <= 0)
1404	return 0;
1405
1406	if (hdrchkType(td->type)((td->type) < 0 \|\| (td->type) > 9))
1407	return 0;
1408	if (hdrchkData(td->count)((td->count) & (~0x0fffffff)))
1409	return 0;
1410
1411	data = grabData(td->type, td->data, td->count, &length);
1412	if (data == NULL((void*)0))
1413	return 0;
1414
1415	/* Allocate more index space if necessary */
1416	if (h->indexUsed == h->indexAlloced) {
1417	h->indexAlloced += INDEX_MALLOC_SIZE8;
1418	h->index = xrealloc(h->index, h->indexAlloced * sizeof(h->index))rrealloc((h->index), (h->indexAlloced sizeof(*h->index )));
1419	}
1420
1421	/* Fill in the index */
1422	entry = h->index + h->indexUsed;
1423	entry->info.tag = td->tag;
1424	entry->info.type = td->type;
1425	entry->info.count = td->count;
1426	entry->info.offset = 0;
1427	entry->data = data;
1428	entry->length = length;
1429
1430	if (h->indexUsed > 0 && td->tag < h->index[h->indexUsed-1].info.tag)
1431	h->sorted = HEADERSORT_NONE;
1432	h->indexUsed++;
1433
1434	return 1;
1435	}
1436
1437	static int intAppendEntry(Header h, rpmtd td)
1438	{
1439	indexEntry entry;
1440	int length;
1441
1442	if (td->type == RPM_STRING_TYPE \|\| td->type == RPM_I18NSTRING_TYPE) {
1443	/* we can't do this */
1444	return 0;
1445	}
1446
1447	/* Find the tag entry in the header. */
1448	entry = findEntry(h, td->tag, td->type);
1449	if (!entry)
1450	return 0;
1451
1452	length = dataLength(td->type, td->data, td->count, 0, NULL((void*)0));
1453	if (length < 0)
1454	return 0;
1455
1456	if (ENTRY_IN_REGION(entry)((entry)->info.offset < 0)) {
1457	char * t = xmalloc(entry->length + length)rmalloc((entry->length + length));
1458	memcpy(t, entry->data, entry->length);
1459	entry->data = t;
1460	entry->info.offset = 0;
1461	} else
1462	entry->data = xrealloc(entry->data, entry->length + length)rrealloc((entry->data), (entry->length + length));
1463
1464	copyData(td->type, ((char *) entry->data) + entry->length,
1465	td->data, td->count, length);
1466
1467	entry->length += length;
1468
1469	entry->info.count += td->count;
1470
1471	return 1;
1472	}
1473
1474	int headerPut(Header h, rpmtd td, headerPutFlags flags)
1475	{
1476	int rc;
1477
1478	assert(td != NULL)((void) sizeof ((td != ((void)0)) == 0), __extension__ ({ if (td != ((void)0)) ; else __assert_fail ("td != NULL", "header.c" , 1478, __extension__ __PRETTY_FUNCTION__); }));
1479	if (flags & HEADERPUT_APPEND) {
1480	rc = findEntry(h, td->tag, td->type) ?
1481	intAppendEntry(h, td) :
1482	intAddEntry(h, td);
1483	} else {
1484	rc = intAddEntry(h, td);
1485	}
1486	return rc;
1487	}
1488
1489	int headerAddI18NString(Header h, rpmTagVal tag, const char * string,
1490	const char * lang)
1491	{
1492	indexEntry table, entry;
1493	const char ** strArray;
1494	int length;
1495	int ghosts;
1496	rpm_count_t i, langNum;
1497	char * buf;
1498
1499	table = findEntry(h, RPMTAG_HEADERI18NTABLE, RPM_STRING_ARRAY_TYPE);
1500	entry = findEntry(h, tag, RPM_I18NSTRING_TYPE);
1501
1502	if (!table && entry)
1503	return 0; /* this shouldn't ever happen!! */
1504
1505	if (!table && !entry) {
1506	const char * charArray[2];
1507	rpm_count_t count = 0;
1508	struct rpmtd_s td;
1509	if (!lang \|\| (lang[0] == 'C' && lang[1] == '\0')) {
1510	charArray[count++] = "C";
1511	} else {
1512	charArray[count++] = "C";
1513	charArray[count++] = lang;
1514	}
1515
1516	rpmtdReset(&td);
1517	td.tag = RPMTAG_HEADERI18NTABLE;
1518	td.type = RPM_STRING_ARRAY_TYPE;
1519	td.data = (void *) charArray;
1520	td.count = count;
1521	if (!headerPut(h, &td, HEADERPUT_DEFAULT))
1522	return 0;
1523	table = findEntry(h, RPMTAG_HEADERI18NTABLE, RPM_STRING_ARRAY_TYPE);
1524	}
1525
1526	if (!table)
1527	return 0;
1528	if (!lang) lang = "C";
1529
1530	{ const char * l = table->data;
1531	for (langNum = 0; langNum < table->info.count; langNum++) {
1532	if (rstreq(l, lang)) break;
1533	l += strlen(l) + 1;
1534	}
1535	}
1536
1537	if (langNum >= table->info.count) {
1538	length = strlen(lang) + 1;
1539	if (ENTRY_IN_REGION(table)((table)->info.offset < 0)) {
1540	char * t = xmalloc(table->length + length)rmalloc((table->length + length));
1541	memcpy(t, table->data, table->length);
1542	table->data = t;
1543	table->info.offset = 0;
1544	} else
1545	table->data = xrealloc(table->data, table->length + length)rrealloc((table->data), (table->length + length));
1546	memmove(((char *)table->data) + table->length, lang, length);
1547	table->length += length;
1548	table->info.count++;
1549	}
1550
1551	if (!entry) {
1552	int rc;
1553	struct rpmtd_s td;
1554	strArray = xmalloc(sizeof(strArray) (langNum + 1))rmalloc((sizeof(strArray) (langNum + 1)));
1555	for (i = 0; i < langNum; i++)
1556	strArray[i] = "";
1557	strArray[langNum] = string;
1558
1559	rpmtdReset(&td);
1560	td.tag = tag;
1561	td.type = RPM_I18NSTRING_TYPE;
1562	td.data = strArray;
1563	td.count = langNum + 1;
1564	rc = headerPut(h, &td, HEADERPUT_DEFAULT);
1565	free(strArray);
1566	return rc;
1567	} else if (langNum >= entry->info.count) {
1568	ghosts = langNum - entry->info.count;
1569
1570	length = strlen(string) + 1 + ghosts;
1571	if (ENTRY_IN_REGION(entry)((entry)->info.offset < 0)) {
1572	char * t = xmalloc(entry->length + length)rmalloc((entry->length + length));
1573	memcpy(t, entry->data, entry->length);
1574	entry->data = t;
1575	entry->info.offset = 0;
1576	} else
1577	entry->data = xrealloc(entry->data, entry->length + length)rrealloc((entry->data), (entry->length + length));
1578
1579	memset(((char *)entry->data) + entry->length, '\0', ghosts);
1580	memmove(((char *)entry->data) + entry->length + ghosts, string, strlen(string)+1);
1581
1582	entry->length += length;
1583	entry->info.count = langNum + 1;
1584	} else {
1585	char b, be, e, ee, *t;
1586	size_t bn, sn, en;
1587
1588	/* Set beginning/end pointers to previous data */
1589	b = be = e = ee = entry->data;
1590	for (i = 0; i < table->info.count; i++) {
1591	if (i == langNum)
1592	be = ee;
1593	ee += strlen(ee) + 1;
1594	if (i == langNum)
1595	e = ee;
1596	}
1597
1598	/* Get storage for new buffer */
1599	bn = (be-b);
1600	sn = strlen(string) + 1;
1601	en = (ee-e);
1602	length = bn + sn + en;
1603	t = buf = xmalloc(length)rmalloc((length));
1604
1605	/* Copy values into new storage */
1606	memcpy(t, b, bn);
1607	t += bn;
1608	memcpy(t, string, sn);
1609	t += sn;
1610	memcpy(t, e, en);
1611	t += en;
1612
1613	/* Replace i18N string array */
1614	entry->length -= strlen(be) + 1;
1615	entry->length += sn;
1616
1617	if (ENTRY_IN_REGION(entry)((entry)->info.offset < 0)) {
1618	entry->info.offset = 0;
1619	} else
1620	entry->data = _free(entry->data)rfree((entry->data));
1621	entry->data = buf;
1622	}
1623
1624	return 0;
1625	}
1626
1627	int headerMod(Header h, rpmtd td)
1628	{
1629	indexEntry entry;
1630	rpm_data_t oldData;
1631	rpm_data_t data;
1632	int length = 0;
1633
1634	/* First find the tag */
1635	entry = findEntry(h, td->tag, td->type);
1636	if (!entry)
1637	return 0;
1638
1639	data = grabData(td->type, td->data, td->count, &length);
1640	if (data == NULL((void*)0))
1641	return 0;
1642
1643	/* make sure entry points to the first occurrence of this tag */
1644	while (entry > h->index && (entry - 1)->info.tag == td->tag)
1645	entry--;
1646
1647	/* free after we've grabbed the new data in case the two are intertwined;
1648	that's a bad idea but at least we won't break */
1649	oldData = entry->data;
1650
1651	entry->info.count = td->count;
1652	entry->info.type = td->type;
1653	entry->data = data;
1654	entry->length = length;
1655
1656	if (ENTRY_IN_REGION(entry)((entry)->info.offset < 0)) {
1657	entry->info.offset = 0;
1658	} else
1659	free(oldData);
1660
1661	return 1;
1662	}
1663
1664	/**
1665	* Header tag iterator data structure.
1666	*/
1667	struct headerIterator_s {
1668	Header h; /!< Header being iterated. /
1669	int next_index; /!< Next tag index. /
1670	};
1671
1672	HeaderIterator headerFreeIterator(HeaderIterator hi)
1673	{
1674	if (hi != NULL((void*)0)) {
1675	hi->h = headerFree(hi->h);
1676	hi = _free(hi)rfree((hi));
1677	}
1678	return NULL((void*)0);
1679	}
1680
1681	HeaderIterator headerInitIterator(Header h)
1682	{
1683	HeaderIterator hi = xmalloc(sizeof(hi))rmalloc((sizeof(hi)));
1684
1685	headerSort(h);
1686
1687	hi->h = headerLink(h);
1688	hi->next_index = 0;
1689	return hi;
1690	}
1691
1692	static indexEntry nextIndex(HeaderIterator hi)
1693	{
1694	Header h = hi->h;
1695	int slot;
1696	indexEntry entry = NULL((void*)0);
1697
1698	for (slot = hi->next_index; slot < h->indexUsed; slot++) {
1699	entry = h->index + slot;
1700	if (!ENTRY_IS_REGION(entry)(((entry)->info.tag >= RPMTAG_HEADERIMAGE) && ( (entry)->info.tag < RPMTAG_HEADERREGIONS)))
1701	break;
1702	}
1703	hi->next_index = slot;
1704	if (entry == NULL((void*)0) \|\| slot >= h->indexUsed)
1705	return NULL((void*)0);
1706
1707	hi->next_index++;
1708	return entry;
1709	}
1710
1711	rpmTagVal headerNextTag(HeaderIterator hi)
1712	{
1713	indexEntry entry = nextIndex(hi);
1714	return entry ? entry->info.tag : RPMTAG_NOT_FOUND;
1715	}
1716
1717	int headerNext(HeaderIterator hi, rpmtd td)
1718	{
1719	indexEntry entry = nextIndex(hi);
1720	int rc = 0;
1721
1722	rpmtdReset(td);
1723	if (entry) {
1724	td->tag = entry->info.tag;
1725	rc = copyTdEntry(entry, td, HEADERGET_DEFAULT);
1726	}
1727	return ((rc == 1) ? 1 : 0);
1728	}
1729
1730	unsigned int headerGetInstance(Header h)
1731	{
1732	return h ? h->instance : 0;
1733	}
1734
1735	void headerSetInstance(Header h, unsigned int instance)
1736	{
1737	h->instance = instance;
1738	}
1739
1740	#define RETRY_ERROR(_err)((_err) == 4 \|\| (_err) == 11 \|\| (_err) == 11) \
1741	((_err) == EINTR4 \|\| (_err) == EAGAIN11 \|\| (_err) == EWOULDBLOCK11)
1742
1743	ssize_t Freadall(FD_t fd, void * buf, ssize_t size)
1744	{
1745	ssize_t total = 0;
1746	ssize_t nb = 0;
1747	char * bufp = buf;
1748
1749	while (total < size) {
1750	nb = Fread(bufp, 1, size - total, fd);
1751
1752	if (nb == 0 \|\| (nb < 0 && !RETRY_ERROR(errno)(((__errno_location ())) == 4 \|\| ((__errno_location ())) == 11 \|\| ((*__errno_location ())) == 11))) {
1753	total = nb;
1754	break;
1755	}
1756
1757	if (nb > 0) {
1758	bufp += nb;
1759	total += nb;
1760	}
1761	}
1762
1763	return total;
1764	}
1765
1766	static rpmRC hdrblobVerifyRegion(rpmTagVal regionTag, int exact_size,
1767	hdrblob blob, char **buf)
1768	{
1769	rpmRC rc = RPMRC_FAIL;
1770	struct entryInfo_s trailer, einfo;
1771	unsigned char * regionEnd = NULL((void*)0);
1772
1773	/* Check that we have at least on tag */
1774	if (blob->il < 1) {
1775	rasprintf(buf, _("region: no tags")dcgettext ("rpm", "region: no tags", 5));
1776	goto exit;
1777	}
1778
1779	/* Convert the 1st tag element. */
1780	ei2h(blob->pe, &einfo);
1781
1782	if (!regionTag && (einfo.tag == RPMTAG_HEADERSIGNATURES \|\|
1783	einfo.tag == RPMTAG_HEADERIMMUTABLE \|\|
1784	einfo.tag == RPMTAG_HEADERIMAGE)) {
1785	regionTag = einfo.tag;
1786	}
1787
1788	/* Is there an immutable header region tag? */
1789	if (!(einfo.tag == regionTag)) {
1790	rc = RPMRC_NOTFOUND;
1791	goto exit;
1792	}
1793
1794	/* Is the region tag sane? */
1795	if (!(einfo.type == REGION_TAG_TYPERPM_BIN_TYPE && einfo.count == REGION_TAG_COUNTsizeof(struct entryInfo_s))) {
1796	rasprintf(buf,
1797	_("region tag: BAD, tag %d type %d offset %d count %d")dcgettext ("rpm", "region tag: BAD, tag %d type %d offset %d count %d" , 5),
1798	einfo.tag, einfo.type, einfo.offset, einfo.count);
1799	goto exit;
1800	}
1801
1802	/* Is the trailer within the data area? */
1803	if (hdrchkRange(blob->dl, einfo.offset + REGION_TAG_COUNT)((einfo.offset + sizeof(struct entryInfo_s)) < 0 \|\| (einfo .offset + sizeof(struct entryInfo_s)) > (blob->dl))) {
1804	rasprintf(buf,
1805	_("region offset: BAD, tag %d type %d offset %d count %d")dcgettext ("rpm", "region offset: BAD, tag %d type %d offset %d count %d" , 5),
1806	einfo.tag, einfo.type, einfo.offset, einfo.count);
1807	goto exit;
1808	}
1809
1810	/* Is there an immutable header region tag trailer? */
1811	memset(&trailer, 0, sizeof(trailer));
1812	regionEnd = blob->dataStart + einfo.offset;
1813	(void) memcpy(&trailer, regionEnd, REGION_TAG_COUNTsizeof(struct entryInfo_s));
1814	regionEnd += REGION_TAG_COUNTsizeof(struct entryInfo_s);
1815	blob->rdl = regionEnd - blob->dataStart;
1816
1817	ei2h(&trailer, &einfo);
1818	/* Trailer offset is negative and has a special meaning */
1819	einfo.offset = -einfo.offset;
1820	if (!(einfo.tag == regionTag &&
1821	einfo.type == REGION_TAG_TYPERPM_BIN_TYPE && einfo.count == REGION_TAG_COUNTsizeof(struct entryInfo_s)))
1822	{
1823	rasprintf(buf,
1824	_("region trailer: BAD, tag %d type %d offset %d count %d")dcgettext ("rpm", "region trailer: BAD, tag %d type %d offset %d count %d" , 5),
1825	einfo.tag, einfo.type, einfo.offset, einfo.count);
1826	goto exit;
1827	}
1828
1829	/* Does the region actually fit within the header? */
1830	blob->ril = einfo.offset/sizeof(*blob->pe);
1831	if ((einfo.offset % sizeof(*blob->pe)) \|\| hdrchkRange(blob->il, blob->ril)((blob->ril) < 0 \|\| (blob->ril) > (blob->il)) \|\|
1832	hdrchkRange(blob->dl, blob->rdl)((blob->rdl) < 0 \|\| (blob->rdl) > (blob->dl))) {
1833	rasprintf(buf, _("region %d size: BAD, ril %d il %d rdl %d dl %d")dcgettext ("rpm", "region %d size: BAD, ril %d il %d rdl %d dl %d" , 5),
1834	regionTag, blob->ril, blob->il, blob->rdl, blob->dl);
1835	goto exit;
1836	}
1837
1838	/* In package files region size is expected to match header size. */
1839	if (exact_size && !(blob->il == blob->ril && blob->dl == blob->rdl)) {
1840	rasprintf(buf,
1841	_("region %d: tag number mismatch il %d ril %d dl %d rdl %d\n")dcgettext ("rpm", "region %d: tag number mismatch il %d ril %d dl %d rdl %d\n" , 5),
1842	regionTag, blob->il, blob->ril, blob->dl, blob->rdl);
1843	goto exit;
1844	}
1845
1846	blob->regionTag = regionTag;
1847	rc = RPMRC_OK;
1848
1849	exit:
1850	return rc;
1851	}
1852
1853	rpmRC hdrblobRead(FD_t fd, int magic, int exact_size, rpmTagVal regionTag, hdrblob blob, char **emsg)
1854	{
1855	int32_t block[4];
1856	int32_t *bs = (magic != 0) ? &block[0] : &block[2];
1857	int blen = (magic != 0) ? sizeof(block) : sizeof(block) / 2;
1858	int32_t il;
1859	int32_t dl;
1860	int32_t * ei = NULL((void*)0);
1861	size_t uc;
1862	size_t nb;
1863	rpmRC rc = RPMRC_FAIL; /* assume failure */
1864	int xx;
1865	int32_t il_max = HEADER_TAGS_MAX0x0000ffff;
1866	int32_t dl_max = HEADER_DATA_MAX0x0fffffff;
1867
1868	if (regionTag == RPMTAG_HEADERSIGNATURES) {
1869	il_max = 32;
1870	dl_max = 8192;
1871	}
1872
1873	memset(block, 0, sizeof(block));
1874	if ((xx = Freadall(fd, bs, blen)) != blen) {
1875	rasprintf(emsg,
1876	_("hdr size(%d): BAD, read returned %d")dcgettext ("rpm", "hdr size(%d): BAD, read returned %d", 5), blen, xx);
1877	goto exit;
1878	}
1879	if (magic && memcmp(block, rpm_header_magic, sizeof(rpm_header_magic))) {
1880	rasprintf(emsg, _("hdr magic: BAD")dcgettext ("rpm", "hdr magic: BAD", 5));
1881	goto exit;
1882	}
1883	il = ntohl(block[2])(__extension__ ({ unsigned int __v, __x = (block[2]); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
1884	if (hdrchkRange(il_max, il)((il) < 0 \|\| (il) > (il_max))) {
1885	rasprintf(emsg, _("hdr tags: BAD, no. of tags(%d) out of range")dcgettext ("rpm", "hdr tags: BAD, no. of tags(%d) out of range" , 5), il);
1886	goto exit;
1887	}
1888	dl = ntohl(block[3])(__extension__ ({ unsigned int __v, __x = (block[3]); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
1889	if (hdrchkRange(dl_max, dl)((dl) < 0 \|\| (dl) > (dl_max))) {
1890	rasprintf(emsg, _("hdr data: BAD, no. of bytes(%d) out of range")dcgettext ("rpm", "hdr data: BAD, no. of bytes(%d) out of range" , 5), dl);
1891	goto exit;
1892	}
1893
1894	nb = (il * sizeof(struct entryInfo_s)) + dl;
1895	uc = sizeof(il) + sizeof(dl) + nb;
1896	ei = xmalloc(uc)rmalloc((uc));
1897	ei[0] = block[2];
1898	ei[1] = block[3];
1899	if ((xx = Freadall(fd, (char *)&ei[2], nb)) != nb) {
1900	rasprintf(emsg, _("hdr blob(%zd): BAD, read returned %d")dcgettext ("rpm", "hdr blob(%zd): BAD, read returned %d", 5), nb, xx);
1901	goto exit;
1902	}
1903
1904	if (regionTag == RPMTAG_HEADERSIGNATURES) {
1905	size_t sigSize = uc + sizeof(rpm_header_magic);
1906	size_t pad = (8 - (sigSize % 8)) % 8;
1907	size_t trc;
1908	if (pad && (trc = Freadall(fd, block, pad)) != pad) {
1909	rasprintf(emsg, _("sigh pad(%zd): BAD, read %zd bytes")dcgettext ("rpm", "sigh pad(%zd): BAD, read %zd bytes", 5), pad, trc);
1910	goto exit;
1911	}
1912	}
1913
1914	rc = hdrblobInit(ei, uc, regionTag, exact_size, blob, emsg);
1915
1916	exit:
1917	if (rc != RPMRC_OK) {
1918	free(ei);
1919	blob->ei = NULL((void*)0);
1920	if (emsg && *emsg && regionTag == RPMTAG_HEADERSIGNATURES) {
1921	/* rstrscat() cannot handle overlap even if it claims so */
1922	char tmp = rstrscat(NULL((void)0), _("signature ")dcgettext ("rpm", "signature ", 5), emsg, NULL((void)0));
1923	free(*emsg);
1924	*emsg = tmp;
1925	}
1926	}
1927
1928	return rc;
1929	}
1930
1931	rpmRC hdrblobInit(const void *uh, size_t uc,
1932	rpmTagVal regionTag, int exact_size,
1933	struct hdrblob_s blob, char *emsg)
1934	{
1935	rpmRC rc = RPMRC_FAIL;
1936
1937	memset(blob, 0, sizeof(*blob));
1938	blob->ei = (int32_t ) uh; / discards const */
1939	blob->il = ntohl(blob->ei[0])(__extension__ ({ unsigned int __v, __x = (blob->ei[0]); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
1940	blob->dl = ntohl(blob->ei[1])(__extension__ ({ unsigned int __v, __x = (blob->ei[1]); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000 ) >> 24) \| (((__x) & 0x00ff0000) >> 8) \| (((__x ) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ("bswap %0" : "=r" (__v) : "0" (__x)); __v ; }));
1941	blob->pe = (entryInfo) &(blob->ei[2]);
1942	blob->pvlen = sizeof(blob->il) + sizeof(blob->dl) +
1943	(blob->il * sizeof(*blob->pe)) + blob->dl;
1944	blob->dataStart = (uint8_t *) (blob->pe + blob->il);
1945	blob->dataEnd = blob->dataStart + blob->dl;
1946
1947	/* Is the blob the right size? */
1948	if (blob->pvlen >= headerMaxbytes \|\| (uc && blob->pvlen != uc)) {
1949	rasprintf(emsg, _("blob size(%d): BAD, 8 + 16 * il(%d) + dl(%d)")dcgettext ("rpm", "blob size(%d): BAD, 8 + 16 * il(%d) + dl(%d)" , 5),
1950	blob->pvlen, blob->il, blob->dl);
1951	goto exit;
1952	}
1953
1954	if (hdrblobVerifyRegion(regionTag, exact_size, blob, emsg) == RPMRC_FAIL)
1955	goto exit;
1956
1957	/* Sanity check the rest of the header structure. */
1958	if (hdrblobVerifyInfo(blob, emsg))
1959	goto exit;
1960
1961	rc = RPMRC_OK;
1962
1963	exit:
1964	return rc;
1965	}
1966
1967	rpmRC hdrblobGet(hdrblob blob, uint32_t tag, rpmtd td)
1968	{
1969	rpmRC rc = RPMRC_NOTFOUND;
1970	struct indexEntry_s entry;
1971	struct entryInfo_s einfo;
1972	const struct entryInfo_s *pe = blob->pe;
1973	uint32_t ntag = htonl(tag)(__extension__ ({ unsigned int __v, __x = (tag); if (__builtin_constant_p (__x)) __v = ((((__x) & 0xff000000) >> 24) \| (((__x ) & 0x00ff0000) >> 8) \| (((__x) & 0x0000ff00) << 8) \| (((__x) & 0x000000ff) << 24)); else __asm__ ( "bswap %0" : "=r" (__v) : "0" (__x)); __v; }));
1974	int tsize;
1975
1976	memset(&einfo, 0, sizeof(einfo));
1977	rpmtdReset(td);
1978
1979	for (int i = 1; i < blob->il; i++, pe++) {
1980	if (pe->tag != ntag)
1981	continue;
1982	ei2h(pe, &einfo);
1983
1984	/* We can only handle non-byteswappable data */
1985	tsize = typeSizes[einfo.type];
1986	if (tsize != 1 && tsize != -1)
1987	return RPMRC_FAIL;
1988
1989	entry.info = einfo; /* struct assignment */
1990	entry.data = blob->dataStart + einfo.offset;
1991	entry.length = dataLength(einfo.type, blob->dataStart + einfo.offset,
1992	einfo.count, 1, blob->dataEnd);
1993	entry.rdlen = 0;
1994	td->tag = einfo.tag;
1995	rc = copyTdEntry(&entry, td, HEADERGET_MINMEM) ? RPMRC_OK : RPMRC_FAIL;
1996	break;
1997	}
1998	return rc;
1999	}
2000
2001	Header headerImport(void * blob, unsigned int bsize, headerImportFlags flags)
2002	{
2003	Header h = NULL((void*)0);
2004	struct hdrblob_s hblob;
2005	char buf = NULL((void)0);
2006	void * b = blob;
2007
2008	if (flags & HEADERIMPORT_COPY) {
2009	if (bsize == 0 && hdrblobInit(b, 0, 0, 0, &hblob, &buf) == RPMRC_OK)
2010	bsize = hblob.pvlen;
2011	if (bsize == 0)
2012	goto exit;
2013	b = memcpy(xmalloc(bsize)rmalloc((bsize)), b, bsize);
2014	}
2015
2016	/* Sanity checks on header intro. */
2017	if (hdrblobInit(b, bsize, 0, 0, &hblob, &buf) == RPMRC_OK)
2018	hdrblobImport(&hblob, (flags & HEADERIMPORT_FAST), &h, &buf);
2019
2020	exit:
2021	if (h == NULL((void*)0) && b != blob)
2022	free(b);
2023	free(buf);
2024
2025	return h;
2026	}