rpmds.c

Bug Summary

File:	lib/rpmds.c
Warning:	line 281, column 5 Value stored to 'ds' is never read

Annotated Source Code

1	/** \ingroup rpmdep
2	* \file lib/rpmds.c
3	*/
4	#include "system.h"
5
6	#include <rpm/rpmtypes.h>
7	#include <rpm/rpmlib.h> /* rpmvercmp */
8	#include <rpm/rpmstring.h>
9	#include <rpm/rpmlog.h>
10	#include <rpm/rpmstrpool.h>
11
12	#include "lib/rpmds_internal.h"
13
14	#include "debug.h"
15
16	int _rpmds_debug = 0;
17
18	int _rpmds_nopromote = 1;
19
20	/**
21	* A package dependency set.
22	*/
23	struct rpmds_s {
24	rpmstrPool pool; /!< String pool. /
25	const char * Type; /!< Tag name. /
26	char * DNEVR; /!< Formatted dependency string. /
27	rpmsid * N; /!< Dependency name id's (pool) /
28	rpmsid * EVR; /!< Dependency EVR id's (pool) /
29	rpmsenseFlags * Flags; /!< Bit(s) identifying context/comparison. /
30	rpm_color_t * Color; /!< Bit(s) calculated from file color(s). /
31	rpmTagVal tagN; /!< Header tag. /
32	int32_t Count; /!< No. of elements /
33	unsigned int instance; /!< From rpmdb instance? /
34	int i; /!< Element index. /
35	int nopromote; /!< Don't promote Epoch: in rpmdsCompare()? /
36	int nrefs; /!< Reference count. /
37	int ti; /!< Trigger index. */
38	};
39
40	static int dsType(rpmTagVal tag,
41	const char ** Type, rpmTagVal * tagEVR, rpmTagVal * tagF,
42	rpmTagVal * tagTi)
43	{
44	int rc = 0;
45	const char t = NULL((void)0);
46	rpmTagVal evr = RPMTAG_NOT_FOUND;
47	rpmTagVal f = RPMTAG_NOT_FOUND;
48	rpmTagVal ti = RPMTAG_NOT_FOUND;
49
50	if (tag == RPMTAG_PROVIDENAME) {
51	t = "Provides";
52	evr = RPMTAG_PROVIDEVERSION;
53	f = RPMTAG_PROVIDEFLAGS;
54	} else if (tag == RPMTAG_REQUIRENAME) {
55	t = "Requires";
56	evr = RPMTAG_REQUIREVERSION;
57	f = RPMTAG_REQUIREFLAGS;
58	} else if (tag == RPMTAG_SUPPLEMENTNAME) {
59	t = "Supplements";
60	evr = RPMTAG_SUPPLEMENTVERSION;
61	f = RPMTAG_SUPPLEMENTFLAGS;
62	} else if (tag == RPMTAG_ENHANCENAME) {
63	t = "Enhances";
64	evr = RPMTAG_ENHANCEVERSION;
65	f = RPMTAG_ENHANCEFLAGS;
66	} else if (tag == RPMTAG_RECOMMENDNAME) {
67	t = "Recommends";
68	evr = RPMTAG_RECOMMENDVERSION;
69	f = RPMTAG_RECOMMENDFLAGS;
70	} else if (tag == RPMTAG_SUGGESTNAME) {
71	t = "Suggests";
72	evr = RPMTAG_SUGGESTVERSION;
73	f = RPMTAG_SUGGESTFLAGS;
74	} else if (tag == RPMTAG_CONFLICTNAME) {
75	t = "Conflicts";
76	evr = RPMTAG_CONFLICTVERSION;
77	f = RPMTAG_CONFLICTFLAGS;
78	} else if (tag == RPMTAG_OBSOLETENAME) {
79	t = "Obsoletes";
80	evr = RPMTAG_OBSOLETEVERSION;
81	f = RPMTAG_OBSOLETEFLAGS;
82	} else if (tag == RPMTAG_ORDERNAME) {
83	t = "Order";
84	evr = RPMTAG_ORDERVERSION;
85	f = RPMTAG_ORDERFLAGS;
86	} else if (tag == RPMTAG_TRIGGERNAME) {
87	t = "Trigger";
88	evr = RPMTAG_TRIGGERVERSION;
89	f = RPMTAG_TRIGGERFLAGS;
90	ti = RPMTAG_TRIGGERINDEX;
91	} else if (tag == RPMTAG_OLDSUGGESTSNAME) {
92	t = "Oldsuggests";
93	evr = RPMTAG_OLDSUGGESTSVERSION;
94	f = RPMTAG_OLDSUGGESTSFLAGS;
95	} else if (tag == RPMTAG_OLDENHANCESNAME) {
96	t = "Oldenhances";
97	evr = RPMTAG_OLDENHANCESVERSION;
98	f = RPMTAG_OLDENHANCESFLAGS;
99	} else if (tag == RPMTAG_FILETRIGGERNAME) {
100	t = "FileTrigger";
101	evr = RPMTAG_FILETRIGGERVERSION;
102	f = RPMTAG_FILETRIGGERFLAGS;
103	ti = RPMTAG_FILETRIGGERINDEX;
104	} else if (tag == RPMTAG_TRANSFILETRIGGERNAME) {
105	t = "TransFileTrigger";
106	evr = RPMTAG_TRANSFILETRIGGERVERSION;
107	f = RPMTAG_TRANSFILETRIGGERFLAGS;
108	ti = RPMTAG_TRANSFILETRIGGERINDEX;
109	} else {
110	rc = 1;
111	}
112	if (Type) *Type = t;
113	if (tagEVR) *tagEVR = evr;
114	if (tagF) *tagF = f;
115	if (tagTi) *tagTi = ti;
116	return rc;
117	}
118
119	static char tagNToChar(rpmTagVal tagN)
120	{
121	switch (tagN) {
122	default:
123	return 'R';
124	break;
125	case RPMTAG_REQUIRENAME:
126	return 'R';
127	break;
128	case RPMTAG_PROVIDENAME:
129	return 'P';
130	break;
131	case RPMTAG_RECOMMENDNAME:
132	return 'r';
133	break;
134	case RPMTAG_SUGGESTNAME:
135	return 's';
136	break;
137	case RPMTAG_SUPPLEMENTNAME:
138	return 'S';
139	break;
140	case RPMTAG_ENHANCENAME:
141	return 'e';
142	break;
143	case RPMTAG_CONFLICTNAME:
144	return 'C';
145	break;
146	case RPMTAG_OBSOLETENAME:
147	return 'O';
148	break;
149	}
150	}
151
152	rpmTagVal rpmdsDToTagN(char deptype)
153	{
154	rpmTagVal tagN = RPMTAG_REQUIRENAME;
155	switch (deptype) {
156	default:
157	tagN = RPMTAG_NOT_FOUND;
158	break;
159	case 'P':
160	tagN = RPMTAG_PROVIDENAME;
161	break;
162	case 'R':
163	tagN = RPMTAG_REQUIRENAME;
164	break;
165	case 'r':
166	tagN = RPMTAG_RECOMMENDNAME;
167	break;
168	case 's':
169	tagN = RPMTAG_SUGGESTNAME;
170	break;
171	case 'S':
172	tagN = RPMTAG_SUPPLEMENTNAME;
173	break;
174	case 'e':
175	tagN = RPMTAG_ENHANCENAME;
176	break;
177	case 'C':
178	tagN = RPMTAG_CONFLICTNAME;
179	break;
180	case 'O':
181	tagN = RPMTAG_OBSOLETENAME;
182	break;
183	}
184	return tagN;
185	}
186
187	rpmsid rpmdsNIdIndex(rpmds ds, int i)
188	{
189	rpmsid id = 0;
190	if (ds != NULL((void)0) && i >= 0 && i < ds->Count && ds->N != NULL((void)0))
191	id = ds->N[i];
192	return id;
193	}
194
195	rpmsid rpmdsEVRIdIndex(rpmds ds, int i)
196	{
197	rpmsid id = 0;
198	if (ds != NULL((void)0) && i >= 0 && i < ds->Count && ds->EVR != NULL((void)0))
199	id = ds->EVR[i];
200	return id;
201	}
202	const char * rpmdsNIndex(rpmds ds, int i)
203	{
204	const char * N = NULL((void*)0);
205	if (ds != NULL((void)0) && i >= 0 && i < ds->Count && ds->N != NULL((void)0))
206	N = rpmstrPoolStr(ds->pool, ds->N[i]);
207	return N;
208	}
209
210	const char * rpmdsEVRIndex(rpmds ds, int i)
211	{
212	const char * EVR = NULL((void*)0);
213	if (ds != NULL((void)0) && i >= 0 && i < ds->Count && ds->EVR != NULL((void)0))
214	EVR = rpmstrPoolStr(ds->pool, ds->EVR[i]);
215	return EVR;
216	}
217
218	rpmsenseFlags rpmdsFlagsIndex(rpmds ds, int i)
219	{
220	rpmsenseFlags Flags = 0;
221	if (ds != NULL((void)0) && i >= 0 && i < ds->Count && ds->Flags != NULL((void)0))
222	Flags = ds->Flags[i];
223	return Flags;
224	}
225
226	int rpmdsTiIndex(rpmds ds, int i)
227	{
228	int ti = -1;
229	if (ds != NULL((void)0) && i >= 0 && i < ds->Count && ds->ti != NULL((void)0))
230	ti = ds->ti[i];
231	return ti;
232	}
233
234	rpm_color_t rpmdsColorIndex(rpmds ds, int i)
235	{
236	rpm_color_t Color = 0;
237	if (ds != NULL((void)0) && i >= 0 && i < ds->Count && ds->Color != NULL((void)0))
238	Color = ds->Color[i];
239	return Color;
240	}
241	static rpmds rpmdsUnlink(rpmds ds)
242	{
243	if (ds)
244	ds->nrefs--;
245	return NULL((void*)0);
246	}
247
248	rpmds rpmdsLink(rpmds ds)
249	{
250	if (ds)
251	ds->nrefs++;
252	return ds;
253	}
254
255	rpmds rpmdsFree(rpmds ds)
256	{
257	rpmTagVal tagEVR, tagF, tagTi;
258
259	if (ds == NULL((void*)0))
260	return NULL((void*)0);
261
262	if (ds->nrefs > 1)
263	return rpmdsUnlink(ds);
264
265	if (dsType(ds->tagN, NULL((void*)0), &tagEVR, &tagF, &tagTi))
266	return NULL((void*)0);
267
268	if (ds->Count > 0) {
269	ds->N = _free(ds->N)rfree((ds->N));
270	ds->EVR = _free(ds->EVR)rfree((ds->EVR));
271	ds->Flags = _free(ds->Flags)rfree((ds->Flags));
272	ds->ti = _free(ds->ti)rfree((ds->ti));
273	}
274
275	ds->pool = rpmstrPoolFree(ds->pool);
276	ds->DNEVR = _free(ds->DNEVR)rfree((ds->DNEVR));
277	ds->Color = _free(ds->Color)rfree((ds->Color));
278
279	(void) rpmdsUnlink(ds);
280	memset(ds, 0, sizeof(ds)); / XXX trash and burn */
281	ds = _free(ds)rfree((ds));
	Value stored to 'ds' is never read
282	return NULL((void*)0);
283	}
284
285	static rpmds rpmdsCreate(rpmstrPool pool,
286	rpmTagVal tagN, const char * Type, int Count,
287	unsigned int instance)
288	{
289	rpmds ds = xcalloc(1, sizeof(ds))rcalloc((1), (sizeof(ds)));
290
291	ds->pool = (pool != NULL((void*)0)) ? rpmstrPoolLink(pool) : rpmstrPoolCreate();
292	ds->tagN = tagN;
293	ds->Type = Type;
294	ds->Count = Count;
295	ds->instance = instance;
296	ds->nopromote = _rpmds_nopromote;
297	ds->i = -1;
298
299	return rpmdsLink(ds);
300	}
301
302	rpmds rpmdsNewPool(rpmstrPool pool, Header h, rpmTagVal tagN, int flags)
303	{
304	rpmTagVal tagEVR, tagF, tagTi;
305	rpmds ds = NULL((void*)0);
306	const char * Type;
307	struct rpmtd_s names;
308	if (dsType(tagN, &Type, &tagEVR, &tagF, &tagTi))
309	goto exit;
310
311	if (headerGet(h, tagN, &names, HEADERGET_MINMEM)) {
312	struct rpmtd_s evr, flags, tindices;
313	rpm_count_t count = rpmtdCount(&names);
314
315	headerGet(h, tagEVR, &evr, HEADERGET_MINMEM);
316	if (evr.count && evr.count != count) {
317	rpmtdFreeData(&evr);
318	return NULL((void*)0);
319	}
320
321	headerGet(h, tagF, &flags, HEADERGET_ALLOC);
322	if (flags.count && flags.count != count) {
323	rpmtdFreeData(&flags);
324	return NULL((void*)0);
325	}
326
327	if (tagTi != RPMTAG_NOT_FOUND) {
328	headerGet(h, tagTi, &tindices, HEADERGET_ALLOC);
329	if (tindices.count && tindices.count != count) {
330	rpmtdFreeData(&tindices);
331	return NULL((void*)0);
332	}
333	}
334
335	ds = rpmdsCreate(pool, tagN, Type, count, headerGetInstance(h));
336
337	ds->N = names.count ? rpmtdToPool(&names, ds->pool) : NULL((void*)0);
338	ds->EVR = evr.count ? rpmtdToPool(&evr, ds->pool): NULL((void*)0);
339	ds->Flags = flags.data;
340	if (tagTi != RPMTAG_NOT_FOUND) {
341	ds->ti = tindices.data;
342	}
343
344	/* ensure rpmlib() requires always have RPMSENSE_RPMLIB flag set */
345	if (tagN == RPMTAG_REQUIRENAME && ds->Flags) {
346	for (int i = 0; i < ds->Count; i++) {
347	if (!(rpmdsFlagsIndex(ds, i) & RPMSENSE_RPMLIB)) {
348	const char *N = rpmdsNIndex(ds, i);
349	if (rstreqn(N, "rpmlib(", sizeof("rpmlib(")-1))
350	ds->Flags[i] \|= RPMSENSE_RPMLIB;
351	}
352	}
353	}
354	rpmtdFreeData(&names);
355	rpmtdFreeData(&evr);
356
357	/* freeze the pool to save memory, but only if private pool */
358	if (ds->pool != pool)
359	rpmstrPoolFreeze(ds->pool, 0);
360	}
361
362	exit:
363	return ds;
364	}
365
366	rpmds rpmdsNew(Header h, rpmTagVal tagN, int flags)
367	{
368	return rpmdsNewPool(NULL((void*)0), h, tagN, flags);
369	}
370
371	char * rpmdsNewDNEVR(const char * dspfx, const rpmds ds)
372	{
373	const char * N = rpmdsN(ds);
374	const char * EVR = rpmdsEVR(ds);
375	rpmsenseFlags Flags = rpmdsFlags(ds);
376	char * tbuf, * t;
377	size_t nb;
378
379	nb = 0;
380	if (dspfx) nb += strlen(dspfx) + 1;
381	if (N) nb += strlen(N);
382	/* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */
383	if (Flags & RPMSENSE_SENSEMASK15) {
384	if (nb) nb++;
385	if (Flags & RPMSENSE_LESS) nb++;
386	if (Flags & RPMSENSE_GREATER) nb++;
387	if (Flags & RPMSENSE_EQUAL) nb++;
388	}
389	/* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */
390	if (EVR && *EVR) {
391	if (nb) nb++;
392	nb += strlen(EVR);
393	}
394
395	t = tbuf = xmalloc(nb + 1)rmalloc((nb + 1));
396	if (dspfx) {
397	t = stpcpy(t, dspfx);
398	*t++ = ' ';
399	}
400	if (N)
401	t = stpcpy(t, N);
402	/* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */
403	if (Flags & RPMSENSE_SENSEMASK15) {
404	if (t != tbuf) *t++ = ' ';
405	if (Flags & RPMSENSE_LESS) *t++ = '<';
406	if (Flags & RPMSENSE_GREATER) *t++ = '>';
407	if (Flags & RPMSENSE_EQUAL) *t++ = '=';
408	}
409	/* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */
410	if (EVR && *EVR) {
411	if (t != tbuf) *t++ = ' ';
412	t = stpcpy(t, EVR);
413	}
414	*t = '\0';
415	return tbuf;
416	}
417
418	static rpmds singleDSPool(rpmstrPool pool, rpmTagVal tagN,
419	rpmsid N, rpmsid EVR, rpmsenseFlags Flags,
420	unsigned int instance, rpm_color_t Color,
421	int triggerIndex)
422	{
423	rpmds ds = NULL((void*)0);
424	const char * Type;
425	rpmTagVal tagTi;
426
427	if (dsType(tagN, &Type, NULL((void)0), NULL((void)0), &tagTi))
428	goto exit;
429
430	ds = rpmdsCreate(pool, tagN, Type, 1, instance);
431
432	ds->N = xmalloc(1 * sizeof(ds->N))rmalloc((1 sizeof(*ds->N)));
433	ds->N[0] = N;
434	ds->EVR = xmalloc(1 * sizeof(ds->EVR))rmalloc((1 sizeof(*ds->EVR)));
435	ds->EVR[0] = EVR;
436	ds->Flags = xmalloc(sizeof(ds->Flags))rmalloc((sizeof(ds->Flags)));
437	ds->Flags[0] = Flags;
438	if (tagTi != RPMTAG_NOT_FOUND) {
439	ds->ti = xmalloc(sizeof(ds->ti))rmalloc((sizeof(ds->ti)));
440	ds->ti[0] = triggerIndex;
441	}
442	ds->i = 0;
443	if (Color)
444	rpmdsSetColor(ds, Color);
445
446	exit:
447	return ds;
448	}
449
450	static rpmds singleDS(rpmstrPool pool, rpmTagVal tagN,
451	const char * N, const char * EVR,
452	rpmsenseFlags Flags, unsigned int instance,
453	rpm_color_t Color, int triggerIndex)
454	{
455	rpmds ds = singleDSPool(pool, tagN, 0, 0, Flags, instance, Color,
456	triggerIndex);
457	if (ds) {
458	/* now that we have a pool, we can insert our N & EVR strings */
459	ds->N[0] = rpmstrPoolId(ds->pool, N ? N : "", 1);
460	ds->EVR[0] = rpmstrPoolId(ds->pool, EVR ? EVR : "", 1);
461	/* freeze the pool to save memory, but only if private pool */
462	if (ds->pool != pool)
463	rpmstrPoolFreeze(ds->pool, 0);
464	}
465	return ds;
466	}
467
468	rpmds rpmdsThisPool(rpmstrPool pool,
469	Header h, rpmTagVal tagN, rpmsenseFlags Flags)
470	{
471	char *evr = headerGetAsString(h, RPMTAG_EVR);
472	rpmds ds = singleDS(pool, tagN, headerGetString(h, RPMTAG_NAME),
473	evr, Flags, headerGetInstance(h), 0, 0);
474	free(evr);
475	return ds;
476	}
477
478	rpmds rpmdsThis(Header h, rpmTagVal tagN, rpmsenseFlags Flags)
479	{
480	return rpmdsThisPool(NULL((void*)0), h, tagN, Flags);
481	}
482
483	rpmds rpmdsSinglePool(rpmstrPool pool,rpmTagVal tagN,
484	const char * N, const char * EVR, rpmsenseFlags Flags)
485	{
486	return singleDS(pool, tagN, N, EVR, Flags, 0, 0, 0);
487	}
488
489	rpmds rpmdsSinglePoolTix(rpmstrPool pool,rpmTagVal tagN,
490	const char * N, const char * EVR,
491	rpmsenseFlags Flags, int triggerIndex)
492	{
493	return singleDS(pool, tagN, N, EVR, Flags, 0, 0, triggerIndex);
494	}
495
496	rpmds rpmdsSingle(rpmTagVal tagN, const char * N, const char * EVR, rpmsenseFlags Flags)
497	{
498	return rpmdsSinglePool(NULL((void*)0), tagN, N, EVR, Flags);
499	}
500
501	rpmds rpmdsCurrent(rpmds ds)
502	{
503	rpmds cds = NULL((void*)0);
504	int ti = -1;
505	if (ds != NULL((void*)0) && ds->i >= 0 && ds->i < ds->Count) {
506	if (ds->ti)
507	ti = ds->ti[ds->i];
508	/* Using parent's pool so we can just use the same id's */
509	cds = singleDSPool(ds->pool, ds->tagN, ds->N[ds->i], ds->EVR[ds->i],
510	rpmdsFlags(ds), ds->instance, rpmdsColor(ds), ti);
511	}
512	return cds;
513	}
514
515	rpmds rpmdsFilterTi(rpmds ds, int ti)
516	{
517	int i, i2, tiCount = 0;
518	rpmds fds;
519
520	if (ds == NULL((void*)0) \|\| !ds->ti \|\| !ds->Count)
521	return NULL((void*)0);
522
523	for (i = 0; i < ds->Count; i++) {
524	if (ds->ti[i] == ti)
525	tiCount++;
526	}
527
528	if (!tiCount)
529	return NULL((void*)0);
530
531	fds = rpmdsCreate(ds->pool, ds->tagN, ds->Type, tiCount, ds->instance);
532
533	fds->N = xmalloc(tiCount * sizeof(fds->N))rmalloc((tiCount sizeof(*fds->N)));
534	fds->EVR = xmalloc(tiCount * sizeof(fds->EVR))rmalloc((tiCount sizeof(*fds->EVR)));
535	fds->Flags = xmalloc(tiCount * sizeof(fds->Flags))rmalloc((tiCount sizeof(*fds->Flags)));
536	fds->ti = xmalloc(tiCount * sizeof(fds->ti))rmalloc((tiCount sizeof(*fds->ti)));
537	fds->i = -1;
538
539	i2 = 0;
540	for (i = 0; i < ds->Count; i++) {
541	if (ds->ti[i] == ti) {
542	fds->N[i2] = ds->N[i];
543	fds->EVR[i2] = ds->EVR[i];
544	fds->Flags[i2] = ds->Flags[i];
545	fds->ti[i2] = ds->ti[i];
546	i2++;
547	}
548	}
549
550	return fds;
551	}
552
553	int rpmdsPutToHeader(rpmds ds, Header h)
554	{
555	rpmTagVal tagN = rpmdsTagN(ds);
556	rpmTagVal tagEVR = rpmdsTagEVR(ds);
557	rpmTagVal tagF = rpmdsTagF(ds);
558	rpmTagVal tagTi = rpmdsTagTi(ds);
559	if (!tagN)
560	return -1;
561
562	rpmds pi = rpmdsInit(ds);
563	while (rpmdsNext(pi) >= 0) {
564	rpmsenseFlags flags = rpmdsFlags(pi);
565	uint32_t index = rpmdsTi(pi);
566	headerPutString(h, tagN, rpmdsN(pi));
567	headerPutString(h, tagEVR, rpmdsEVR(pi));
568	headerPutUint32(h, tagF, &flags, 1);
569	if (tagTi != RPMTAG_NOT_FOUND) {
570	headerPutUint32(h, tagTi, &index, 1);
571	}
572	}
573	return 0;
574	}
575
576	int rpmdsCount(const rpmds ds)
577	{
578	return (ds != NULL((void*)0) ? ds->Count : 0);
579	}
580
581	int rpmdsIx(const rpmds ds)
582	{
583	return (ds != NULL((void*)0) ? ds->i : -1);
584	}
585
586	int rpmdsSetIx(rpmds ds, int ix)
587	{
588	int i = -1;
589
590	if (ds != NULL((void*)0)) {
591	i = ds->i;
592	ds->i = ix;
593	ds->DNEVR = _free(ds->DNEVR)rfree((ds->DNEVR));
594	}
595	return i;
596	}
597
598	char rpmdsD(const rpmds ds)
599	{
600	if (ds != NULL((void*)0)) {
601	return tagNToChar(ds->tagN);
602	} else {
603	return '\0';
604	}
605	}
606
607	const char * rpmdsDNEVR(const rpmds ds)
608	{
609	const char * DNEVR = NULL((void*)0);
610
611	if (ds != NULL((void*)0) && ds->i >= 0 && ds->i < ds->Count) {
612	if (ds->DNEVR == NULL((void*)0)) {
613	char t[2] = { tagNToChar(ds->tagN), '\0' };
614	ds->DNEVR = rpmdsNewDNEVR(t, ds);
615	}
616	DNEVR = ds->DNEVR;
617	}
618	return DNEVR;
619	}
620
621	rpmsid rpmdsNId(rpmds ds)
622	{
623	return (ds != NULL((void*)0)) ? rpmdsNIdIndex(ds, ds->i) : 0;
624	}
625
626	rpmsid rpmdsEVRId(rpmds ds)
627	{
628	return (ds != NULL((void*)0)) ? rpmdsEVRIdIndex(ds, ds->i) : 0;
629	}
630
631	const char * rpmdsN(const rpmds ds)
632	{
633	return (ds != NULL((void)0)) ? rpmdsNIndex(ds, ds->i) : NULL((void)0);
634	}
635
636	const char * rpmdsEVR(const rpmds ds)
637	{
638	return (ds != NULL((void)0)) ? rpmdsEVRIndex(ds, ds->i) : NULL((void)0);
639	}
640
641	rpmsenseFlags rpmdsFlags(const rpmds ds)
642	{
643	return (ds != NULL((void*)0)) ? rpmdsFlagsIndex(ds, ds->i) : 0;
644	}
645
646	int rpmdsTi(const rpmds ds)
647	{
648	return (ds != NULL((void*)0)) ? rpmdsTiIndex(ds, ds->i) : 0;
649	}
650
651	rpmTagVal rpmdsTagN(const rpmds ds)
652	{
653	rpmTagVal tagN = RPMTAG_NOT_FOUND;
654
655	if (ds != NULL((void*)0))
656	tagN = ds->tagN;
657	return tagN;
658	}
659
660	rpmTagVal rpmdsTagEVR(const rpmds ds)
661	{
662	rpmTagVal tagEVR = RPMTAG_NOT_FOUND;
663
664	if (ds != NULL((void*)0))
665	dsType(ds->tagN, NULL((void)0), &tagEVR, NULL((void)0), NULL((void*)0));
666	return tagEVR;
667	}
668
669	rpmTagVal rpmdsTagF(const rpmds ds)
670	{
671	rpmTagVal tagF = RPMTAG_NOT_FOUND;
672
673	if (ds != NULL((void*)0))
674	dsType(ds->tagN, NULL((void)0), NULL((void)0), &tagF, NULL((void*)0));
675	return tagF;
676	}
677
678	rpmTagVal rpmdsTagTi(const rpmds ds)
679	{
680	rpmTagVal tagTi = RPMTAG_NOT_FOUND;
681
682	if (ds != NULL((void*)0))
683	dsType(ds->tagN, NULL((void)0), NULL((void)0), NULL((void*)0), &tagTi);
684	return tagTi;
685	}
686
687	unsigned int rpmdsInstance(rpmds ds)
688	{
689	return (ds != NULL((void*)0)) ? ds->instance : 0;
690	}
691
692	int rpmdsNoPromote(const rpmds ds)
693	{
694	int nopromote = 0;
695
696	if (ds != NULL((void*)0))
697	nopromote = ds->nopromote;
698	return nopromote;
699	}
700
701	int rpmdsSetNoPromote(rpmds ds, int nopromote)
702	{
703	int onopromote = 0;
704
705	if (ds != NULL((void*)0)) {
706	onopromote = ds->nopromote;
707	ds->nopromote = nopromote;
708	}
709	return onopromote;
710	}
711
712	rpm_color_t rpmdsColor(const rpmds ds)
713	{
714	return (ds != NULL((void*)0)) ? rpmdsColorIndex(ds, ds->i) : 0;
715	}
716
717	rpm_color_t rpmdsSetColor(const rpmds ds, rpm_color_t color)
718	{
719	rpm_color_t ocolor = 0;
720
721	if (ds != NULL((void*)0) && ds->i >= 0 && ds->i < ds->Count) {
722	if (ds->Color == NULL((void*)0)) {
723	ds->Color = xcalloc(ds->Count, sizeof(ds->Color))rcalloc((ds->Count), (sizeof(ds->Color)));
724	}
725	ocolor = ds->Color[ds->i];
726	ds->Color[ds->i] = color;
727	}
728	return ocolor;
729	}
730
731	void rpmdsNotify(rpmds ds, const char * where, int rc)
732	{
733	const char *DNEVR;
734
735	if (!rpmIsDebug()(rpmlogSetMask(0) >= (1 << ((unsigned)(RPMLOG_DEBUG) ))))
736	return;
737	if (!(ds != NULL((void*)0) && ds->i >= 0 && ds->i < ds->Count))
738	return;
739	if (!(ds->Type != NULL((void)0) && (DNEVR = rpmdsDNEVR(ds)) != NULL((void)0)))
740	return;
741
742	rpmlog(RPMLOG_DEBUG, "%9s: %-45s %-s %s\n", ds->Type,
743	(rstreq(DNEVR, "cached") ? DNEVR : DNEVR+2),
744	(rc ? _("NO ")dcgettext ("rpm", "NO ", 5) : _("YES")dcgettext ("rpm", "YES", 5)),
745	(where != NULL((void*)0) ? where : ""));
746	}
747
748	int rpmdsNext(rpmds ds)
749	{
750	int i = -1;
751
752	if (ds != NULL((void*)0) && ++ds->i >= 0) {
753	if (ds->i < ds->Count) {
754	i = ds->i;
755	ds->DNEVR = _free(ds->DNEVR)rfree((ds->DNEVR));
756	} else
757	ds->i = -1;
758
759	if (_rpmds_debug < 0 && i != -1)
760	fprintf(stderrstderr, "*** ds %p\t%s[%d]: %s\n", ds, (ds->Type ? ds->Type : "?Type?"), i, (ds->DNEVR ? ds->DNEVR : "?DNEVR?"));
761
762	}
763
764	return i;
765	}
766
767	rpmds rpmdsInit(rpmds ds)
768	{
769	if (ds != NULL((void*)0)) {
770	ds->i = -1;
771	ds->DNEVR = _free(ds->DNEVR)rfree((ds->DNEVR));
772	}
773	return ds;
774	}
775
776	static rpmds rpmdsDup(const rpmds ods)
777	{
778	rpmds ds = rpmdsCreate(ods->pool, ods->tagN, ods->Type,
779	ods->Count, ods->instance);
780	size_t nb;
781
782	ds->i = ods->i;
783	ds->nopromote = ods->nopromote;
784
785	nb = ds->Count * sizeof(*ds->N);
786	ds->N = memcpy(xmalloc(nb)rmalloc((nb)), ods->N, nb);
787
788	/* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */
789	if (ods->EVR) {
790	nb = ds->Count * sizeof(*ds->EVR);
791	ds->EVR = memcpy(xmalloc(nb)rmalloc((nb)), ods->EVR, nb);
792	}
793
794	if (ods->Flags) {
795	nb = ds->Count * sizeof(*ds->Flags);
796	ds->Flags = memcpy(xmalloc(nb)rmalloc((nb)), ods->Flags, nb);
797	}
798
799	if (ods->ti) {
800	nb = ds->Count * sizeof(*ds->ti);
801	ds->ti = memcpy(xmalloc(nb)rmalloc((nb)), ods->ti, nb);
802	}
803
804	return ds;
805
806	}
807
808	static int doFind(rpmds ds, const rpmds ods, unsigned int *he)
809	{
810	int comparison;
811	const char N, ON = rpmdsN(ods);
812	const char EVR, OEVR = rpmdsEVR(ods);
813	rpmsenseFlags Flags, OFlags = rpmdsFlags(ods);
814	int index, Oindex = rpmdsTi(ods);
815	int rc = -1; /* assume not found */
816
817	if (ds == NULL((void)0) \|\| ods == NULL((void)0))
818	return -1;
819
820	unsigned int l = 0;
821	unsigned int u = ds->Count;
822	while (l < u) {
823	ds->i = (l + u) / 2;
824
825	N = rpmdsN(ds);
826	EVR = rpmdsEVR(ds);
827	Flags = rpmdsFlags(ds);
828	index = rpmdsTi(ds);
829
830	comparison = strcmp(ON, N);
831
832	/* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */
833	if (comparison == 0 && OEVR && EVR)
834	comparison = strcmp(OEVR, EVR);
835	if (comparison == 0)
836	comparison = OFlags - Flags;
837	if (comparison == 0)
838	comparison = Oindex - index;
839
840	if (comparison < 0)
841	u = ds->i;
842	else if (comparison > 0)
843	l = ds->i + 1;
844	else {
845	rc = ds->i;
846	break;
847	}
848	}
849	if (he)
850	*he = u;
851	return rc;
852	}
853
854	int rpmdsFind(rpmds ds, const rpmds ods)
855	{
856	return doFind(ds, ods, NULL((void*)0));
857	}
858
859	int rpmdsMerge(rpmds * dsp, rpmds ods)
860	{
861	rpmds ds;
862	int save;
863	int ocount;
864
865	if (dsp == NULL((void)0) \|\| ods == NULL((void)0))
866	return -1;
867
868	ocount = rpmdsCount(*dsp);
869
870	/* If not initialized yet, dup the 1st entry. */
871	if (dsp == NULL((void)0)) {
872	save = ods->Count;
873	ods->Count = 1;
874	*dsp = rpmdsDup(ods);
875	ods->Count = save;
876	}
877	ds = *dsp;
878	if (ds == NULL((void*)0))
879	return -1;
880
881	/* Ensure EVR and Flags exist */
882	if (ds->EVR == NULL((void*)0))
883	ds->EVR = xcalloc(ds->Count, sizeof(ds->EVR))rcalloc((ds->Count), (sizeof(ds->EVR)));
884	if (ds->Flags == NULL((void*)0))
885	ds->Flags = xcalloc(ds->Count, sizeof(ds->Flags))rcalloc((ds->Count), (sizeof(ds->Flags)));
886	if (ds->ti == NULL((void*)0) && ods->ti) {
887	int i;
888	ds->ti = xcalloc(ds->Count, sizeof(ds->ti))rcalloc((ds->Count), (sizeof(ds->ti)));
889	for (i = 0; i < ds->Count; i++)
890	ds->ti[i] = -1;
891	}
892
893	/*
894	* Add new entries.
895	*/
896	save = ods->i;
897	ods = rpmdsInit(ods);
898	while (rpmdsNext(ods) >= 0) {
899	const char *OEVR;
900	unsigned int u;
901	/*
902	* If this entry is already present, don't bother.
903	*/
904	if (doFind(ds, ods, &u) >= 0)
905	continue;
906
907	/*
908	* Insert new entry. Ensure pool is unfrozen to allow additions.
909	*/
910	rpmstrPoolUnfreeze(ds->pool);
911	ds->N = xrealloc(ds->N, (ds->Count+1) * sizeof(ds->N))rrealloc((ds->N), ((ds->Count+1) sizeof(*ds->N)));
912	if (u < ds->Count) {
913	memmove(ds->N + u + 1, ds->N + u,
914	(ds->Count - u) * sizeof(*ds->N));
915	}
916	ds->N[u] = rpmstrPoolId(ds->pool, rpmdsN(ods), 1);
917
918	ds->EVR = xrealloc(ds->EVR, (ds->Count+1) * sizeof(ds->EVR))rrealloc((ds->EVR), ((ds->Count+1) sizeof(*ds->EVR )));
919	if (u < ds->Count) {
920	memmove(ds->EVR + u + 1, ds->EVR + u,
921	(ds->Count - u) * sizeof(*ds->EVR));
922	}
923	OEVR = rpmdsEVR(ods);
924	ds->EVR[u] = rpmstrPoolId(ds->pool, OEVR ? OEVR : "", 1);
925
926	ds->Flags = xrealloc(ds->Flags, (ds->Count+1) * sizeof(ds->Flags))rrealloc((ds->Flags), ((ds->Count+1) sizeof(*ds->Flags )));
927	if (u < ds->Count) {
928	memmove(ds->Flags + u + 1, ds->Flags + u,
929	(ds->Count - u) * sizeof(*ds->Flags));
930	}
931	ds->Flags[u] = rpmdsFlags(ods);
932
933	if (ds->ti \|\| ods->ti) {
934	ds->ti = xrealloc(ds->ti, (ds->Count+1) * sizeof(ds->ti))rrealloc((ds->ti), ((ds->Count+1) sizeof(*ds->ti)) );
935	if (u < ds->Count) {
936	memmove(ds->ti + u + 1, ds->ti + u,
937	(ds->Count - u) * sizeof(*ds->ti));
938	}
939	ds->ti[u] = rpmdsTi(ods);
940	}
941
942	ds->i = ds->Count;
943	ds->Count++;
944
945	}
946	ods->i = save;
947	return (ds->Count - ocount);
948	}
949
950
951	int rpmdsSearch(rpmds ds, rpmds ods)
952	{
953	int comparison;
954	int i, l, u;
955	const char *ON = rpmdsN(ods);
956
957	if (ds == NULL((void)0) \|\| ods == NULL((void)0))
958	return -1;
959
960	/* Binary search to find the [l,u) subset that contains N */
961	i = -1;
962	l = 0;
963	u = ds->Count;
964	while (l < u) {
965	i = (l + u) / 2;
966
967	comparison = strcmp(ON, rpmdsNIndex(ds, i));
968
969	if (comparison < 0)
970	u = i;
971	else if (comparison > 0)
972	l = i + 1;
973	else {
974	/* Set l to 1st member of set that contains N. */
975	if (!rstreq(ON, rpmdsNIndex(ds, l)))
976	l = i;
977	while (l > 0 && rstreq(ON, rpmdsNIndex(ds, l-1)))
978	l--;
979	/* Set u to 1st member of set that does not contain N. */
980	if (u >= ds->Count \|\| !rstreq(ON, rpmdsNIndex(ds, u)))
981	u = i;
982	while (++u < ds->Count) {
983	if (!rstreq(ON, rpmdsNIndex(ds, u)))
984	break;
985	}
986	break;
987	}
988	}
989
990	/* Check each member of [l,u) subset for ranges overlap. */
991	i = -1;
992	if (l < u) {
993	int save = rpmdsSetIx(ds, l-1);
994	while ((l = rpmdsNext(ds)) >= 0 && (l < u)) {
995	if ((i = rpmdsCompare(ods, ds)) != 0)
996	break;
997	}
998	/* Return element index that overlaps, or -1. */
999	if (i)
1000	i = rpmdsIx(ds);
1001	else {
1002	(void) rpmdsSetIx(ds, save);
1003	i = -1;
1004	}
1005	}
1006	return i;
1007	}
1008	/**
1009	* Split EVR into epoch, version, and release components.
1010	* @param evr [epoch:]version[-release] string
1011	* @retval *ep pointer to epoch
1012	* @retval *vp pointer to version
1013	* @retval *rp pointer to release
1014	*/
1015	static
1016	void parseEVR(char * evr,
1017	const char ** ep,
1018	const char ** vp,
1019	const char ** rp)
1020	{
1021	const char *epoch;
1022	const char version; / assume only version is present */
1023	const char *release;
1024	char s, se;
1025
1026	s = evr;
1027	while (s && risdigit(s)) s++; /* s points to epoch terminator */
1028	se = strrchr(s, '-'); /* se points to version terminator */
1029
1030	if (*s == ':') {
1031	epoch = evr;
1032	*s++ = '\0';
1033	version = s;
1034	if (*epoch == '\0') epoch = "0";
1035	} else {
1036	epoch = NULL((void)0); / XXX disable epoch compare if missing */
1037	version = evr;
1038	}
1039	if (se) {
1040	*se++ = '\0';
1041	release = se;
1042	} else {
1043	release = NULL((void*)0);
1044	}
1045
1046	if (ep) *ep = epoch;
1047	if (vp) *vp = version;
1048	if (rp) *rp = release;
1049	}
1050
1051	static inline int rpmdsCompareEVR(const char *AEVR, uint32_t AFlags,
1052	const char *BEVR, uint32_t BFlags,
1053	int nopromote)
1054	{
1055	const char aE, aV, aR, bE, bV, bR;
1056	char *aEVR = xstrdup(AEVR)rstrdup((AEVR));
1057	char *bEVR = xstrdup(BEVR)rstrdup((BEVR));
1058	int sense = 0;
1059	int result = 0;
1060
1061	parseEVR(aEVR, &aE, &aV, &aR);
1062	parseEVR(bEVR, &bE, &bV, &bR);
1063
1064	/* Compare {A,B} [epoch:]version[-release] */
1065	if (aE && aE && bE && bE)
1066	sense = rpmvercmp(aE, bE);
1067	else if (aE && *aE && atol(aE) > 0) {
1068	if (!nopromote) {
1069	sense = 0;
1070	} else
1071	sense = 1;
1072	} else if (bE && *bE && atol(bE) > 0)
1073	sense = -1;
1074
1075	if (sense == 0) {
1076	sense = rpmvercmp(aV, bV);
1077	if (sense == 0) {
1078	if (aR && aR && bR && bR) {
1079	sense = rpmvercmp(aR, bR);
1080	} else {
1081	/* always matches if the side with no release has SENSE_EQUAL */
1082	if ((aR && *aR && (BFlags & RPMSENSE_EQUAL)) \|\|
1083	(bR && *bR && (AFlags & RPMSENSE_EQUAL))) {
1084	aEVR = _free(aEVR)rfree((aEVR));
1085	bEVR = _free(bEVR)rfree((bEVR));
1086	result = 1;
1087	goto exit;
1088	}
1089	}
1090	}
1091	}
1092
1093	/* Detect overlap of {A,B} range. */
1094	if (sense < 0 && ((AFlags & RPMSENSE_GREATER) \|\| (BFlags & RPMSENSE_LESS))) {
1095	result = 1;
1096	} else if (sense > 0 && ((AFlags & RPMSENSE_LESS) \|\| (BFlags & RPMSENSE_GREATER))) {
1097	result = 1;
1098	} else if (sense == 0 &&
1099	(((AFlags & RPMSENSE_EQUAL) && (BFlags & RPMSENSE_EQUAL)) \|\|
1100	((AFlags & RPMSENSE_LESS) && (BFlags & RPMSENSE_LESS)) \|\|
1101	((AFlags & RPMSENSE_GREATER) && (BFlags & RPMSENSE_GREATER)))) {
1102	result = 1;
1103	}
1104
1105	exit:
1106	free(aEVR);
1107	free(bEVR);
1108	return result;
1109	}
1110
1111	int rpmdsCompareIndex(rpmds A, int aix, rpmds B, int bix)
1112	{
1113	const char AEVR, BEVR;
1114	rpmsenseFlags AFlags, BFlags;
1115	int result;
1116
1117	/* Different names don't overlap. */
1118	if (!rpmstrPoolStreq(A->pool, rpmdsNIdIndex(A, aix),
1119	B->pool, rpmdsNIdIndex(B, bix))) {
1120	result = 0;
1121	goto exit;
1122	}
1123
1124	/* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */
1125	if (!(A->EVR && A->Flags && B->EVR && B->Flags)) {
1126	result = 1;
1127	goto exit;
1128	}
1129
1130	/* Same name. If either A or B is an existence test, always overlap. */
1131	AFlags = rpmdsFlagsIndex(A, aix);
1132	BFlags = rpmdsFlagsIndex(B, bix);
1133	if (!((AFlags & RPMSENSE_SENSEMASK15) && (BFlags & RPMSENSE_SENSEMASK15))) {
1134	result = 1;
1135	goto exit;
1136	}
1137
1138	AEVR = rpmdsEVRIndex(A, aix);
1139	BEVR = rpmdsEVRIndex(B, bix);
1140	if (!(AEVR && AEVR && BEVR && BEVR)) {
1141	/* If either EVR is non-existent or empty, always overlap. */
1142	result = 1;
1143	} else {
1144	/* Both AEVR and BEVR exist, compare [epoch:]version[-release]. */
1145	result = rpmdsCompareEVR(AEVR, AFlags, BEVR, BFlags, B->nopromote);
1146	}
1147
1148	exit:
1149	return result;
1150	}
1151
1152	int rpmdsCompare(const rpmds A, const rpmds B)
1153	{
1154	return rpmdsCompareIndex(A, A->i, B, B->i);
1155	}
1156
1157	int rpmdsMatches(rpmstrPool pool, Header h, int prix,
1158	rpmds req, int selfevr, int nopromote)
1159	{
1160	rpmds provides;
1161	rpmTagVal tag = RPMTAG_PROVIDENAME;
1162	int result = 0;
1163
1164	/* Get provides information from header */
1165	if (selfevr)
1166	provides = rpmdsThisPool(pool, h, tag, RPMSENSE_EQUAL);
1167	else
1168	provides = rpmdsNewPool(pool, h, tag, 0);
1169
1170	rpmdsSetNoPromote(provides, nopromote);
1171
1172	/*
1173	* For a self-provide and indexed provide, we only need one comparison.
1174	* Otherwise loop through the provides until match or end.
1175	*/
1176	if (prix >= 0 \|\| selfevr) {
1177	if (prix >= 0)
1178	rpmdsSetIx(provides, prix);
1179	result = rpmdsCompare(provides, req);
1180	} else {
1181	provides = rpmdsInit(provides);
1182	while (rpmdsNext(provides) >= 0) {
1183	result = rpmdsCompare(provides, req);
1184	/* If this provide matches the require, we're done. */
1185	if (result)
1186	break;
1187	}
1188	}
1189
1190	rpmdsFree(provides);
1191	return result;
1192	}
1193
1194	int rpmdsMatchesDep (const Header h, int ix, const rpmds req, int nopromote)
1195	{
1196	return rpmdsMatches(NULL((void*)0), h, ix, req, 0, nopromote);
1197	}
1198
1199	int rpmdsAnyMatchesDep (const Header h, const rpmds req, int nopromote)
1200	{
1201	return rpmdsMatches(NULL((void*)0), h, -1, req, 0, nopromote);
1202	}
1203
1204	int rpmdsNVRMatchesDep(const Header h, const rpmds req, int nopromote)
1205	{
1206	return rpmdsMatches(NULL((void*)0), h, -1, req, 1, nopromote);
1207	}
1208
1209	/**
1210	*/
1211	struct rpmlibProvides_s {
1212	const char * featureName;
1213	const char * featureEVR;
1214	rpmsenseFlags featureFlags;
1215	const char * featureDescription;
1216	};
1217
1218	static const struct rpmlibProvides_s rpmlibProvides[] = {
1219	{ "rpmlib(VersionedDependencies)", "3.0.3-1",
1220	(RPMSENSE_RPMLIB\|RPMSENSE_EQUAL),
1221	N_("PreReq:, Provides:, and Obsoletes: dependencies support versions.")"PreReq:, Provides:, and Obsoletes: dependencies support versions." },
1222	{ "rpmlib(CompressedFileNames)", "3.0.4-1",
1223	(RPMSENSE_RPMLIB\|RPMSENSE_EQUAL),
1224	N_("file name(s) stored as (dirName,baseName,dirIndex) tuple, not as path.")"file name(s) stored as (dirName,baseName,dirIndex) tuple, not as path."},
1225	#if HAVE_BZLIB_H1
1226	{ "rpmlib(PayloadIsBzip2)", "3.0.5-1",
1227	(RPMSENSE_RPMLIB\|RPMSENSE_EQUAL),
1228	N_("package payload can be compressed using bzip2.")"package payload can be compressed using bzip2." },
1229	#endif
1230	#if HAVE_LZMA_H1
1231	{ "rpmlib(PayloadIsXz)", "5.2-1",
1232	(RPMSENSE_RPMLIB\|RPMSENSE_EQUAL),
1233	N_("package payload can be compressed using xz.")"package payload can be compressed using xz." },
1234	{ "rpmlib(PayloadIsLzma)", "4.4.2-1",
1235	(RPMSENSE_RPMLIB\|RPMSENSE_EQUAL),
1236	N_("package payload can be compressed using lzma.")"package payload can be compressed using lzma." },
1237	#endif
1238	{ "rpmlib(PayloadFilesHavePrefix)", "4.0-1",
1239	(RPMSENSE_RPMLIB\|RPMSENSE_EQUAL),
1240	N_("package payload file(s) have \"./\" prefix.")"package payload file(s) have \"./\" prefix." },
1241	{ "rpmlib(ExplicitPackageProvide)", "4.0-1",
1242	(RPMSENSE_RPMLIB\|RPMSENSE_EQUAL),
1243	N_("package name-version-release is not implicitly provided.")"package name-version-release is not implicitly provided." },
1244	{ "rpmlib(HeaderLoadSortsTags)", "4.0.1-1",
1245	( RPMSENSE_EQUAL),
1246	N_("header tags are always sorted after being loaded.")"header tags are always sorted after being loaded." },
1247	{ "rpmlib(ScriptletInterpreterArgs)", "4.0.3-1",
1248	( RPMSENSE_EQUAL),
1249	N_("the scriptlet interpreter can use arguments from header.")"the scriptlet interpreter can use arguments from header." },
1250	{ "rpmlib(PartialHardlinkSets)", "4.0.4-1",
1251	( RPMSENSE_EQUAL),
1252	N_("a hardlink file set may be installed without being complete.")"a hardlink file set may be installed without being complete." },
1253	{ "rpmlib(ConcurrentAccess)", "4.1-1",
1254	( RPMSENSE_EQUAL),
1255	N_("package scriptlets may access the rpm database while installing.")"package scriptlets may access the rpm database while installing." },
1256	#ifdef WITH_LUA1
1257	{ "rpmlib(BuiltinLuaScripts)", "4.2.2-1",
1258	( RPMSENSE_EQUAL),
1259	N_("internal support for lua scripts.")"internal support for lua scripts." },
1260	#endif
1261	{ "rpmlib(FileDigests)", "4.6.0-1",
1262	( RPMSENSE_EQUAL),
1263	N_("file digest algorithm is per package configurable")"file digest algorithm is per package configurable" },
1264	#ifdef WITH_CAP
1265	{ "rpmlib(FileCaps)", "4.6.1-1",
1266	( RPMSENSE_EQUAL),
1267	N_("support for POSIX.1e file capabilities")"support for POSIX.1e file capabilities" },
1268	#endif
1269	{ "rpmlib(ScriptletExpansion)", "4.9.0-1",
1270	( RPMSENSE_EQUAL),
1271	N_("package scriptlets can be expanded at install time.")"package scriptlets can be expanded at install time." },
1272	{ "rpmlib(TildeInVersions)", "4.10.0-1",
1273	( RPMSENSE_EQUAL),
1274	N_("dependency comparison supports versions with tilde.")"dependency comparison supports versions with tilde." },
1275	{ "rpmlib(LargeFiles)", "4.12.0-1",
1276	( RPMSENSE_EQUAL),
1277	N_("support files larger than 4GB")"support files larger than 4GB" },
1278	{ "rpmlib(RichDependencies)", "4.12.0-1",
1279	( RPMSENSE_EQUAL),
1280	N_("support for rich dependencies.")"support for rich dependencies." },
1281	{ NULL((void)0), NULL((void)0), 0, NULL((void*)0) }
1282	};
1283
1284
1285	int rpmdsRpmlibPool(rpmstrPool pool, rpmds * dsp, const void * tblp)
1286	{
1287	const struct rpmlibProvides_s * rltblp = tblp;
1288	const struct rpmlibProvides_s * rlp;
1289	int rc = 0;
1290
1291	if (rltblp == NULL((void*)0))
1292	rltblp = rpmlibProvides;
1293
1294	for (rlp = rltblp; rlp->featureName != NULL((void*)0) && rc >= 0; rlp++) {
1295	rpmds ds = rpmdsSinglePool(pool, RPMTAG_PROVIDENAME, rlp->featureName,
1296	rlp->featureEVR, rlp->featureFlags);
1297	rc = rpmdsMerge(dsp, ds);
1298	rpmdsFree(ds);
1299	}
1300	/* freeze the pool to save memory, but only if private pool */
1301	if (dsp && (dsp)->pool != pool)
1302	rpmstrPoolFreeze((*dsp)->pool, 0);
1303	return (rc < 0) ? -1 : 0;
1304	}
1305
1306	int rpmdsRpmlib(rpmds * dsp, const void * tblp)
1307	{
1308	return rpmdsRpmlibPool(NULL((void*)0), dsp, tblp);
1309	}
1310
1311	rpmstrPool rpmdsPool(rpmds ds)
1312	{
1313	return (ds != NULL((void)0)) ? ds->pool : NULL((void)0);
1314	}
1315
1316	rpmsenseFlags rpmSanitizeDSFlags(rpmTagVal tagN, rpmsenseFlags Flags)
1317	{
1318	rpmsenseFlags extra = RPMSENSE_ANY;
1319	switch (tagN) {
1320	case RPMTAG_PROVIDENAME:
1321	extra = Flags & RPMSENSE_FIND_PROVIDES;
1322	break;
1323	case RPMTAG_TRIGGERNAME:
1324	case RPMTAG_FILETRIGGERNAME:
1325	case RPMTAG_TRANSFILETRIGGERNAME:
1326	extra = Flags & RPMSENSE_TRIGGER(RPMSENSE_TRIGGERPREIN \| RPMSENSE_TRIGGERIN \| RPMSENSE_TRIGGERUN \| RPMSENSE_TRIGGERPOSTUN);
1327	break;
1328	case RPMTAG_RECOMMENDNAME:
1329	case RPMTAG_SUGGESTNAME:
1330	case RPMTAG_SUPPLEMENTNAME:
1331	case RPMTAG_ENHANCENAME:
1332	case RPMTAG_REQUIRENAME:
1333	extra = Flags & (_ALL_REQUIRES_MASK( RPMSENSE_INTERP \| RPMSENSE_SCRIPT_PRE \| RPMSENSE_SCRIPT_POST \| RPMSENSE_SCRIPT_PREUN \| RPMSENSE_SCRIPT_POSTUN \| RPMSENSE_SCRIPT_VERIFY \| RPMSENSE_FIND_REQUIRES \| RPMSENSE_RPMLIB \| RPMSENSE_KEYRING \| RPMSENSE_PRETRANS \| RPMSENSE_POSTTRANS \| RPMSENSE_PREREQ \| RPMSENSE_MISSINGOK));
1334	break;
1335	case RPMTAG_CONFLICTNAME:
1336	extra = Flags;
1337	break;
1338	default:
1339	break;
1340	}
1341	return (Flags & RPMSENSE_SENSEMASK15) \| extra;
1342	}
1343
1344	static struct ReqComp {
1345	const char * token;
1346	rpmsenseFlags sense;
1347	} const ReqComparisons[] = {
1348	{ "<=", RPMSENSE_LESS \| RPMSENSE_EQUAL},
1349	{ "=<", RPMSENSE_LESS \| RPMSENSE_EQUAL},
1350	{ "<", RPMSENSE_LESS},
1351
1352	{ "==", RPMSENSE_EQUAL},
1353	{ "=", RPMSENSE_EQUAL},
1354
1355	{ ">=", RPMSENSE_GREATER \| RPMSENSE_EQUAL},
1356	{ "=>", RPMSENSE_GREATER \| RPMSENSE_EQUAL},
1357	{ ">", RPMSENSE_GREATER},
1358
1359	{ NULL((void*)0), 0 },
1360	};
1361
1362	rpmsenseFlags rpmParseDSFlags(const char *str, size_t len)
1363	{
1364	const struct ReqComp *rc;
1365	for (rc = ReqComparisons; rc->token != NULL((void*)0); rc++)
1366	if (len == strlen(rc->token) && rstreqn(str, rc->token, len))
1367	return rc->sense;
1368	return 0;
1369	}
1370
1371	static struct RichOpComp {
1372	const char * token;
1373	rpmrichOp op;
1374	} const RichOps[] = {
1375	{ "and", RPMRICHOP_AND},
1376	{ "or", RPMRICHOP_OR},
1377	{ "if", RPMRICHOP_IF},
1378	{ "else", RPMRICHOP_ELSE},
1379	{ NULL((void*)0), 0 },
1380	};
1381
1382	int rpmdsIsRich(rpmds dep)
1383	{
1384	const char * n = rpmdsN(dep);
1385	return (n && n[0] == '(');
1386	}
1387
1388	static rpmRC parseRichDepOp(const char *dstrp, rpmrichOp opp, char **emsg)
1389	{
1390	const char p = dstrp, *pe = p;
1391	const struct RichOpComp *ro;
1392
1393	while (pe && !risspace(pe) && *pe != ')')
1394	pe++;
1395	for (ro = RichOps; ro->token != NULL((void*)0); ro++)
1396	if (pe - p == strlen(ro->token) && rstreqn(p, ro->token, pe - p)) {
1397	*opp = ro->op;
1398	*dstrp = pe;
1399	return RPMRC_OK;
1400	}
1401	if (emsg)
1402	rasprintf(emsg, _("Unknown rich dependency op '%.s'")dcgettext ("rpm", "Unknown rich dependency op '%.s'", 5), (int)(pe - p), p);
1403	return RPMRC_FAIL;
1404	}
1405
1406	const char *rpmrichOpStr(rpmrichOp op)
1407	{
1408	if (op == RPMRICHOP_SINGLE)
1409	return "SINGLE";
1410	if (op == RPMRICHOP_AND)
1411	return "and";
1412	if (op == RPMRICHOP_OR)
1413	return "or";
1414	if (op == RPMRICHOP_IF)
1415	return "if";
1416	if (op == RPMRICHOP_ELSE)
1417	return "else";
1418	return NULL((void*)0);
1419	}
1420
1421
1422	#define SKIPWHITE(_x){while ((_x) && (risspace(_x) \|\| (_x) == ',')) (_x )++;} {while ((_x) && (risspace(_x) \|\| (_x) == ',')) (_x)++;}
1423	#define SKIPNONWHITEX(_x){int bl = 0; while ((_x) &&!(risspace(_x) \|\| (_x) == ',' \|\| ((_x) == ')' && bl-- <= 0))) if ((_x)++ == '(') bl++;}{int bl = 0; while ((_x) &&!(risspace(_x) \|\| (_x) == ',' \|\| ((_x) == ')' && bl-- <= 0))) if ((_x)++ == '(') bl++;}
1424
1425	static rpmRC parseSimpleDep(const char dstrp, char emsg, rpmrichParseFunction cb, void *cbdata)
1426	{
1427	const char p = dstrp;
1428	const char n, e = 0;
1429	int nl, el = 0;
1430	rpmsenseFlags sense = 0;
1431
1432	n = p;
1433	SKIPNONWHITEX(p){int bl = 0; while ((p) &&!(risspace(p) \|\| (p) == ',' \|\| ((p) == ')' && bl-- <= 0))) if (*(p)++ == '(' ) bl++;};
1434	nl = p - n;
1435	if (nl == 0) {
1436	if (emsg)
1437	rasprintf(emsg, _("Name required")dcgettext ("rpm", "Name required", 5));
1438	return RPMRC_FAIL;
1439	}
1440	SKIPWHITE(p){while ((p) && (risspace(p) \|\| *(p) == ',')) (p)++; };
1441	if (*p) {
1442	const char *pe = p;
1443
1444	SKIPNONWHITEX(pe){int bl = 0; while ((pe) &&!(risspace(pe) \|\| (pe) == ',' \|\| ((pe) == ')' && bl-- <= 0))) if (*(pe)++ == '(') bl++;};
1445	sense = rpmParseDSFlags(p, pe - p);
1446	if (sense) {
1447	p = pe;
1448	SKIPWHITE(p){while ((p) && (risspace(p) \|\| *(p) == ',')) (p)++; };
1449	e = p;
1450	SKIPNONWHITEX(p){int bl = 0; while ((p) &&!(risspace(p) \|\| (p) == ',' \|\| ((p) == ')' && bl-- <= 0))) if (*(p)++ == '(' ) bl++;};
1451	el = p - e;
1452	}
1453	}
1454	if (e && el == 0) {
1455	if (emsg)
1456	rasprintf(emsg, _("Version required")dcgettext ("rpm", "Version required", 5));
1457	return RPMRC_FAIL;
1458	}
1459	if (cb(cbdata, RPMRICH_PARSE_SIMPLE, n, nl, e, el, sense, RPMRICHOP_SINGLE, emsg) != RPMRC_OK)
1460	return RPMRC_FAIL;
1461	*dstrp = p;
1462	return RPMRC_OK;
1463	}
1464
1465	rpmRC rpmrichParse(const char dstrp, char emsg, rpmrichParseFunction cb, void *cbdata)
1466	{
1467	const char p = dstrp, *pe;
1468	rpmrichOp op = RPMRICHOP_SINGLE, chainop = 0;
1469
1470	if (cb(cbdata, RPMRICH_PARSE_ENTER, p, 0, 0, 0, 0, op, emsg) != RPMRC_OK)
1471	return RPMRC_FAIL;
1472	if (*p++ != '(') {
1473	if (emsg)
1474	rasprintf(emsg, _("Rich dependency does not start with '('")dcgettext ("rpm", "Rich dependency does not start with '('", 5 ));
1475	return RPMRC_FAIL;
1476	}
1477	for (;;) {
1478	SKIPWHITE(p){while ((p) && (risspace(p) \|\| *(p) == ',')) (p)++; };
1479	if (*p == ')') {
1480	if (emsg) {
1481	if (chainop)
1482	rasprintf(emsg, _("Missing argument to rich dependency op")dcgettext ("rpm", "Missing argument to rich dependency op", 5 ));
1483	else
1484	rasprintf(emsg, _("Empty rich dependency")dcgettext ("rpm", "Empty rich dependency", 5));
1485	}
1486	return RPMRC_FAIL;
1487	}
1488	if (*p == '(') {
1489	if (rpmrichParse(&p, emsg, cb, cbdata) != RPMRC_OK)
1490	return RPMRC_FAIL;
1491	} else {
1492	if (parseSimpleDep(&p, emsg, cb, cbdata) != RPMRC_OK)
1493	return RPMRC_FAIL;
1494	}
1495	SKIPWHITE(p){while ((p) && (risspace(p) \|\| *(p) == ',')) (p)++; };
1496	if (!*p) {
1497	if (emsg)
1498	rasprintf(emsg, _("Unterminated rich dependency: %s")dcgettext ("rpm", "Unterminated rich dependency: %s", 5), *dstrp);
1499	return RPMRC_FAIL;
1500	}
1501	if (*p == ')')
1502	break;
1503	pe = p;
1504	if (parseRichDepOp(&pe, &op, emsg) != RPMRC_OK)
1505	return RPMRC_FAIL;
1506	if (op == RPMRICHOP_ELSE && chainop == RPMRICHOP_IF)
1507	chainop = 0;
1508	if (chainop && op != chainop) {
1509	if (emsg)
1510	rasprintf(emsg, _("Cannot chain different ops")dcgettext ("rpm", "Cannot chain different ops", 5));
1511	return RPMRC_FAIL;
1512	}
1513	if (chainop && op != RPMRICHOP_AND && op != RPMRICHOP_OR) {
1514	if (emsg)
1515	rasprintf(emsg, _("Can only chain AND and OR ops")dcgettext ("rpm", "Can only chain AND and OR ops", 5));
1516	return RPMRC_FAIL;
1517	}
1518	if (cb(cbdata, RPMRICH_PARSE_OP, p, pe - p, 0, 0, 0, op, emsg) != RPMRC_OK)
1519	return RPMRC_FAIL;
1520	chainop = op;
1521	p = pe;
1522	}
1523	p++;
1524	if (cb(cbdata, RPMRICH_PARSE_LEAVE, dstrp, p - dstrp , 0, 0, 0, op, emsg) != RPMRC_OK)
1525	return RPMRC_FAIL;
1526	*dstrp = p;
1527	return RPMRC_OK;
1528	}
1529
1530
1531	struct rpmdsParseRichDepData {
1532	rpmds dep;
1533	rpmsenseFlags depflags;
1534
1535	rpmds leftds;
1536	rpmds rightds;
1537	rpmrichOp op;
1538
1539	int depth;
1540	const char *rightstart;
1541	int dochain;
1542	};
1543
1544	static rpmRC rpmdsParseRichDepCB(void *cbdata, rpmrichParseType type,
1545	const char n, int nl, const char e, int el, rpmsenseFlags sense,
1546	rpmrichOp op, char **emsg) {
1547	struct rpmdsParseRichDepData *data = cbdata;
1548	rpmds ds = 0;
1549
1550	if (type == RPMRICH_PARSE_ENTER)
1551	data->depth++;
1552	else if (type == RPMRICH_PARSE_LEAVE) {
1553	if (--data->depth == 0 && data->dochain && data->rightstart) {
1554	/* chain op hack, construct a sub-ds from the right side of the chain */
1555	char *right = xmalloc(n + nl - data->rightstart + 2)rmalloc((n + nl - data->rightstart + 2));
1556	right[0] = '(';
1557	strncpy(right + 1, data->rightstart, n + nl - data->rightstart);
1558	right[n + nl - data->rightstart + 1] = 0;
1559	data->rightds = rpmdsFree(data->rightds);
1560	ds = singleDS(data->dep->pool, data->dep->tagN, 0, 0, data->depflags, 0, 0, 0);
1561	ds->N[0] = rpmstrPoolId(ds->pool, right, 1);
1562	ds->EVR[0] = rpmstrPoolId(ds->pool, "", 1);
1563	data->rightds = ds;
1564	free(right);
1565	}
1566	}
1567	if (data->depth != 1)
1568	return RPMRC_OK; /* we're only interested in top-level parsing */
1569	if ((type == RPMRICH_PARSE_SIMPLE \|\| type == RPMRICH_PARSE_LEAVE) && !data->dochain) {
1570	if (type == RPMRICH_PARSE_SIMPLE && data->dep->tagN == RPMTAG_REQUIRENAME && nl > 7 &&
1571	rstreqn(n, "rpmlib(", sizeof("rpmlib(")-1))
1572	sense \|= RPMSENSE_RPMLIB;
1573	ds = singleDS(data->dep->pool, data->dep->tagN, 0, 0, sense \| data->depflags, 0, 0, 0);
1574	ds->N[0] = rpmstrPoolIdn(ds->pool, n, nl, 1);
1575	ds->EVR[0] = rpmstrPoolIdn(ds->pool, e ? e : "", el, 1);
1576	if (!data->leftds)
1577	data->leftds = ds;
1578	else {
1579	data->rightds = ds;
1580	data->rightstart = n;
1581	}
1582	}
1583	if (type == RPMRICH_PARSE_OP) {
1584	if (data->op != RPMRICHOP_SINGLE)
1585	data->dochain = 1; /* this is a chained op */
1586	else
1587	data->op = op;
1588	}
1589	return RPMRC_OK;
1590	}
1591
1592
1593	rpmRC rpmdsParseRichDep(rpmds dep, rpmds leftds, rpmds rightds, rpmrichOp op, char *emsg)
1594	{
1595	rpmRC rc;
1596	struct rpmdsParseRichDepData data;
1597	const char *depstr = rpmdsN(dep);
1598	memset(&data, 0, sizeof(data));
1599	data.dep = dep;
1600	data.op = RPMRICHOP_SINGLE;
1601	data.depflags = rpmdsFlags(dep) & ~(RPMSENSE_SENSEMASK15 \| RPMSENSE_MISSINGOK);
1602	rc = rpmrichParse(&depstr, emsg, rpmdsParseRichDepCB, &data);
1603	if (rc == RPMRC_OK && *depstr) {
1604	if (emsg)
1605	rasprintf(emsg, _("Junk after rich dependency")dcgettext ("rpm", "Junk after rich dependency", 5));
1606	rc = RPMRC_FAIL;
1607	}
1608	if (rc != RPMRC_OK) {
1609	rpmdsFree(data.leftds);
1610	rpmdsFree(data.rightds);
1611	} else {
1612	*leftds = data.leftds;
1613	*rightds = data.rightds;
1614	*op = data.op;
1615	}
1616	return rc;
1617	}
1618