/* * Copyright (c) 2007-2009, Novell Inc. * * This program is licensed under the BSD license, read LICENSE.BSD * for further information */ /* * pool.c * * The pool contains information about solvables * stored optimized for memory consumption and fast retrieval. */ #include #include #include #include #include #include "pool.h" #include "poolvendor.h" #include "repo.h" #include "poolid.h" #include "poolid_private.h" #include "poolarch.h" #include "util.h" #include "bitmap.h" #include "evr.h" #ifdef ENABLE_CONDA #include "conda.h" #endif #define SOLVABLE_BLOCK 255 #undef LIBSOLV_KNOWNID_H #define KNOWNID_INITIALIZE #include "knownid.h" #undef KNOWNID_INITIALIZE /* create pool */ Pool * pool_create(void) { Pool *pool; Solvable *s; pool = (Pool *)solv_calloc(1, sizeof(*pool)); stringpool_init(&pool->ss, initpool_data); /* alloc space for RelDep 0 */ pool->rels = solv_extend_resize(0, 1, sizeof(Reldep), REL_BLOCK); pool->nrels = 1; memset(pool->rels, 0, sizeof(Reldep)); /* alloc space for Solvable 0 and system solvable */ pool->solvables = solv_extend_resize(0, 2, sizeof(Solvable), SOLVABLE_BLOCK); pool->nsolvables = 2; memset(pool->solvables, 0, 2 * sizeof(Solvable)); queue_init(&pool->vendormap); queue_init(&pool->pooljobs); queue_init(&pool->lazywhatprovidesq); #if defined(DEBIAN) pool->disttype = DISTTYPE_DEB; pool->noarchid = ARCH_ALL; #elif defined(ARCHLINUX) pool->disttype = DISTTYPE_ARCH; pool->noarchid = ARCH_ANY; #elif defined(HAIKU) pool->disttype = DISTTYPE_HAIKU; pool->noarchid = ARCH_ANY; pool->obsoleteusesprovides = 1; #else pool->disttype = DISTTYPE_RPM; pool->noarchid = ARCH_NOARCH; #endif /* initialize the system solvable */ s = pool->solvables + SYSTEMSOLVABLE; s->name = SYSTEM_SYSTEM; s->arch = pool->noarchid; s->evr = ID_EMPTY; pool->debugmask = SOLV_DEBUG_RESULT; /* FIXME */ #if defined(FEDORA) || defined(MAGEIA) pool->implicitobsoleteusescolors = 1; #endif #ifdef RPM5 pool->noobsoletesmultiversion = 1; pool->forbidselfconflicts = 1; pool->obsoleteusesprovides = 1; pool->implicitobsoleteusesprovides = 1; pool->havedistepoch = 1; #endif return pool; } /* free all the resources of our pool */ void pool_free(Pool *pool) { int i; pool_freewhatprovides(pool); pool_freeidhashes(pool); pool_freeallrepos(pool, 1); solv_free(pool->id2arch); solv_free(pool->id2color); solv_free(pool->solvables); stringpool_free(&pool->ss); solv_free(pool->rels); pool_setvendorclasses(pool, 0); queue_free(&pool->vendormap); queue_free(&pool->pooljobs); queue_free(&pool->lazywhatprovidesq); for (i = 0; i < POOL_TMPSPACEBUF; i++) solv_free(pool->tmpspace.buf[i]); for (i = 0; i < pool->nlanguages; i++) free((char *)pool->languages[i]); solv_free((void *)pool->languages); solv_free(pool->languagecache); solv_free(pool->errstr); solv_free(pool->rootdir); solv_free(pool); } void pool_freeallrepos(Pool *pool, int reuseids) { int i; pool_freewhatprovides(pool); for (i = 1; i < pool->nrepos; i++) if (pool->repos[i]) repo_freedata(pool->repos[i]); pool->repos = solv_free(pool->repos); pool->nrepos = 0; pool->urepos = 0; /* the first two solvables don't belong to a repo */ pool_free_solvable_block(pool, 2, pool->nsolvables - 2, reuseids); } int pool_setdisttype(Pool *pool, int disttype) { #ifdef MULTI_SEMANTICS int olddisttype = pool->disttype; switch(disttype) { case DISTTYPE_RPM: pool->noarchid = ARCH_NOARCH; break; case DISTTYPE_DEB: pool->noarchid = ARCH_ALL; break; case DISTTYPE_ARCH: case DISTTYPE_HAIKU: pool->noarchid = ARCH_ANY; break; case DISTTYPE_CONDA: pool->noarchid = ARCH_ANY; break; default: return -1; } pool->disttype = disttype; pool->solvables[SYSTEMSOLVABLE].arch = pool->noarchid; return olddisttype; #else return pool->disttype == disttype ? disttype : -1; #endif } int pool_get_flag(Pool *pool, int flag) { switch (flag) { case POOL_FLAG_PROMOTEEPOCH: return pool->promoteepoch; case POOL_FLAG_FORBIDSELFCONFLICTS: return pool->forbidselfconflicts; case POOL_FLAG_OBSOLETEUSESPROVIDES: return pool->obsoleteusesprovides; case POOL_FLAG_IMPLICITOBSOLETEUSESPROVIDES: return pool->implicitobsoleteusesprovides; case POOL_FLAG_OBSOLETEUSESCOLORS: return pool->obsoleteusescolors; case POOL_FLAG_IMPLICITOBSOLETEUSESCOLORS: return pool->implicitobsoleteusescolors; case POOL_FLAG_NOINSTALLEDOBSOLETES: return pool->noinstalledobsoletes; case POOL_FLAG_HAVEDISTEPOCH: return pool->havedistepoch; case POOL_FLAG_NOOBSOLETESMULTIVERSION: return pool->noobsoletesmultiversion; case POOL_FLAG_ADDFILEPROVIDESFILTERED: return pool->addfileprovidesfiltered; case POOL_FLAG_NOWHATPROVIDESAUX: return pool->nowhatprovidesaux; case POOL_FLAG_WHATPROVIDESWITHDISABLED: return pool->whatprovideswithdisabled; default: break; } return -1; } int pool_set_flag(Pool *pool, int flag, int value) { int old = pool_get_flag(pool, flag); switch (flag) { case POOL_FLAG_PROMOTEEPOCH: pool->promoteepoch = value; break; case POOL_FLAG_FORBIDSELFCONFLICTS: pool->forbidselfconflicts = value; break; case POOL_FLAG_OBSOLETEUSESPROVIDES: pool->obsoleteusesprovides = value; break; case POOL_FLAG_IMPLICITOBSOLETEUSESPROVIDES: pool->implicitobsoleteusesprovides = value; break; case POOL_FLAG_OBSOLETEUSESCOLORS: pool->obsoleteusescolors = value; break; case POOL_FLAG_IMPLICITOBSOLETEUSESCOLORS: pool->implicitobsoleteusescolors = value; break; case POOL_FLAG_NOINSTALLEDOBSOLETES: pool->noinstalledobsoletes = value; break; case POOL_FLAG_HAVEDISTEPOCH: pool->havedistepoch = value; break; case POOL_FLAG_NOOBSOLETESMULTIVERSION: pool->noobsoletesmultiversion = value; break; case POOL_FLAG_ADDFILEPROVIDESFILTERED: pool->addfileprovidesfiltered = value; break; case POOL_FLAG_NOWHATPROVIDESAUX: pool->nowhatprovidesaux = value; break; case POOL_FLAG_WHATPROVIDESWITHDISABLED: pool->whatprovideswithdisabled = value; break; default: break; } return old; } Id pool_add_solvable(Pool *pool) { pool->solvables = solv_extend(pool->solvables, pool->nsolvables, 1, sizeof(Solvable), SOLVABLE_BLOCK); memset(pool->solvables + pool->nsolvables, 0, sizeof(Solvable)); return pool->nsolvables++; } Id pool_add_solvable_block(Pool *pool, int count) { Id nsolvables = pool->nsolvables; if (!count) return nsolvables; pool->solvables = solv_extend(pool->solvables, pool->nsolvables, count, sizeof(Solvable), SOLVABLE_BLOCK); memset(pool->solvables + nsolvables, 0, sizeof(Solvable) * count); pool->nsolvables += count; return nsolvables; } void pool_free_solvable_block(Pool *pool, Id start, int count, int reuseids) { if (!count) return; if (reuseids && start + count == pool->nsolvables) { /* might want to shrink solvable array */ pool->nsolvables = start; return; } memset(pool->solvables + start, 0, sizeof(Solvable) * count); } void pool_set_installed(Pool *pool, Repo *installed) { if (pool->installed == installed) return; pool->installed = installed; pool_freewhatprovides(pool); } static int pool_shrink_whatprovides_sortcmp(const void *ap, const void *bp, void *dp) { int r; Pool *pool = dp; Id oa, ob, *da, *db; oa = pool->whatprovides[*(Id *)ap]; ob = pool->whatprovides[*(Id *)bp]; if (oa == ob) return *(Id *)ap - *(Id *)bp; da = pool->whatprovidesdata + oa; db = pool->whatprovidesdata + ob; while (*db) if ((r = (*da++ - *db++)) != 0) return r; if (*da) return *da; return *(Id *)ap - *(Id *)bp; } /* * pool_shrink_whatprovides - unify whatprovides data * * whatprovides_rel must be empty for this to work! * */ static void pool_shrink_whatprovides(Pool *pool) { Id i, n, id; Id *sorted; Id lastid, *last, *dp, *lp; Offset o; int r; if (pool->ss.nstrings < 3) return; sorted = solv_malloc2(pool->ss.nstrings, sizeof(Id)); for (i = id = 0; id < pool->ss.nstrings; id++) if (pool->whatprovides[id] >= 4) sorted[i++] = id; n = i; solv_sort(sorted, n, sizeof(Id), pool_shrink_whatprovides_sortcmp, pool); last = 0; lastid = 0; for (i = 0; i < n; i++) { id = sorted[i]; o = pool->whatprovides[id]; dp = pool->whatprovidesdata + o; if (last) { lp = last; while (*dp) if (*dp++ != *lp++) { last = 0; break; } if (last && *lp) last = 0; if (last) { pool->whatprovides[id] = -lastid; continue; } } last = pool->whatprovidesdata + o; lastid = id; } solv_free(sorted); dp = pool->whatprovidesdata + 4; for (id = 1; id < pool->ss.nstrings; id++) { o = pool->whatprovides[id]; if (!o) continue; if ((Id)o < 0) { i = -(Id)o; if (i >= id) abort(); pool->whatprovides[id] = pool->whatprovides[i]; continue; } if (o < 4) continue; lp = pool->whatprovidesdata + o; if (lp < dp) abort(); pool->whatprovides[id] = dp - pool->whatprovidesdata; while ((*dp++ = *lp++) != 0) ; } o = dp - pool->whatprovidesdata; POOL_DEBUG(SOLV_DEBUG_STATS, "shrunk whatprovidesdata from %d to %d\n", pool->whatprovidesdataoff, o); if (pool->whatprovidesdataoff == o) return; r = pool->whatprovidesdataoff - o; pool->whatprovidesdataoff = o; pool->whatprovidesdata = solv_realloc(pool->whatprovidesdata, (o + pool->whatprovidesdataleft) * sizeof(Id)); if (r > pool->whatprovidesdataleft) r = pool->whatprovidesdataleft; memset(pool->whatprovidesdata + o, 0, r * sizeof(Id)); } /* this gets rid of all the zeros in the aux */ static void pool_shrink_whatprovidesaux(Pool *pool) { int num = pool->whatprovidesauxoff; Id id; Offset newoff; Id *op, *wp = pool->whatprovidesauxdata + 1; int i; for (i = 0; i < num; i++) { Offset o = pool->whatprovidesaux[i]; if (o < 2) continue; op = pool->whatprovidesauxdata + o; pool->whatprovidesaux[i] = wp - pool->whatprovidesauxdata; if (op < wp) abort(); while ((id = *op++) != 0) *wp++ = id; } newoff = wp - pool->whatprovidesauxdata; pool->whatprovidesauxdata = solv_realloc(pool->whatprovidesauxdata, newoff * sizeof(Id)); POOL_DEBUG(SOLV_DEBUG_STATS, "shrunk whatprovidesauxdata from %d to %d\n", pool->whatprovidesauxdataoff, newoff); pool->whatprovidesauxdataoff = newoff; } /* * pool_createwhatprovides() * * create hashes over pool of solvables to ease provide lookups * */ void pool_createwhatprovides(Pool *pool) { int i, num, np, extra; Offset off; Solvable *s; Id id; Offset *idp, n; Offset *whatprovides; Id *whatprovidesdata, *dp, *whatprovidesauxdata; Offset *whatprovidesaux; unsigned int now; now = solv_timems(0); POOL_DEBUG(SOLV_DEBUG_STATS, "number of solvables: %d, memory used: %d K\n", pool->nsolvables, pool->nsolvables * (int)sizeof(Solvable) / 1024); POOL_DEBUG(SOLV_DEBUG_STATS, "number of ids: %d + %d\n", pool->ss.nstrings, pool->nrels); POOL_DEBUG(SOLV_DEBUG_STATS, "string memory used: %d K array + %d K data, rel memory used: %d K array\n", pool->ss.nstrings / (1024 / (int)sizeof(Id)), pool->ss.sstrings / 1024, pool->nrels * (int)sizeof(Reldep) / 1024); if (pool->ss.stringhashmask || pool->relhashmask) POOL_DEBUG(SOLV_DEBUG_STATS, "string hash memory: %d K, rel hash memory : %d K\n", (pool->ss.stringhashmask + 1) / (int)(1024/sizeof(Id)), (pool->relhashmask + 1) / (int)(1024/sizeof(Id))); pool_freeidhashes(pool); /* XXX: should not be here! */ pool_freewhatprovides(pool); num = pool->ss.nstrings; pool->whatprovides = whatprovides = solv_calloc_block(num, sizeof(Offset), WHATPROVIDES_BLOCK); pool->whatprovides_rel = solv_calloc_block(pool->nrels, sizeof(Offset), WHATPROVIDES_BLOCK); /* count providers for each name */ for (i = pool->nsolvables - 1; i > 0; i--) { Id *pp; s = pool->solvables + i; if (!s->provides || !s->repo || s->repo->disabled) continue; if (!pool_installable_whatprovides(pool, s)) continue; pp = s->repo->idarraydata + s->provides; while ((id = *pp++) != 0) { while (ISRELDEP(id)) { Reldep *rd = GETRELDEP(pool, id); id = rd->name; } whatprovides[id]++; /* inc count of providers */ } } off = 4; /* first entry is undef, second is empty list, third is system solvable */ np = 0; /* number of names provided */ for (i = 0, idp = whatprovides; i < num; i++, idp++) { n = *idp; if (!n) /* no providers */ { *idp = 1; /* offset for empty list */ continue; } off += n; /* make space for all providers */ *idp = off++; /* now idp points to terminating zero */ np++; /* inc # of provider 'slots' for stats */ } POOL_DEBUG(SOLV_DEBUG_STATS, "provide ids: %d\n", np); /* reserve some space for relation data */ extra = 2 * pool->nrels; if (extra < 256) extra = 256; POOL_DEBUG(SOLV_DEBUG_STATS, "provide space needed: %d + %d\n", off, extra); /* alloc space for all providers + extra */ whatprovidesdata = solv_calloc(off + extra, sizeof(Id)); whatprovidesdata[2] = SYSTEMSOLVABLE; /* alloc aux vector */ whatprovidesauxdata = 0; if (!pool->nowhatprovidesaux) { pool->whatprovidesaux = whatprovidesaux = solv_calloc(num, sizeof(Offset)); pool->whatprovidesauxoff = num; pool->whatprovidesauxdataoff = off; pool->whatprovidesauxdata = whatprovidesauxdata = solv_calloc(pool->whatprovidesauxdataoff, sizeof(Id)); } /* now fill data for all provides */ for (i = pool->nsolvables - 1; i > 0; i--) { Id *pp; s = pool->solvables + i; if (!s->provides || !s->repo || s->repo->disabled) continue; if (!pool_installable_whatprovides(pool, s)) continue; /* for all provides of this solvable */ pp = s->repo->idarraydata + s->provides; while ((id = *pp++) != 0) { Id auxid = id; while (ISRELDEP(id)) { Reldep *rd = GETRELDEP(pool, id); id = rd->name; } dp = whatprovidesdata + whatprovides[id]; /* offset into whatprovidesdata */ if (*dp != i) /* don't add same solvable twice */ { dp[-1] = i; whatprovides[id]--; } else auxid = 1; if (whatprovidesauxdata) whatprovidesauxdata[whatprovides[id]] = auxid; } } if (pool->whatprovidesaux) memcpy(pool->whatprovidesaux, pool->whatprovides, num * sizeof(Id)); pool->whatprovidesdata = whatprovidesdata; pool->whatprovidesdataoff = off; pool->whatprovidesdataleft = extra; pool_shrink_whatprovides(pool); if (pool->whatprovidesaux) pool_shrink_whatprovidesaux(pool); POOL_DEBUG(SOLV_DEBUG_STATS, "whatprovides memory used: %d K id array, %d K data\n", (pool->ss.nstrings + pool->nrels + WHATPROVIDES_BLOCK) / (int)(1024/sizeof(Id)), (pool->whatprovidesdataoff + pool->whatprovidesdataleft) / (int)(1024/sizeof(Id))); if (pool->whatprovidesaux) POOL_DEBUG(SOLV_DEBUG_STATS, "whatprovidesaux memory used: %d K id array, %d K data\n", pool->whatprovidesauxoff / (int)(1024/sizeof(Id)), pool->whatprovidesauxdataoff / (int)(1024/sizeof(Id))); queue_empty(&pool->lazywhatprovidesq); if ((!pool->addedfileprovides && pool->disttype == DISTTYPE_RPM) || pool->addedfileprovides == 1) { if (!pool->addedfileprovides) POOL_DEBUG(SOLV_DEBUG_STATS, "WARNING: pool_addfileprovides was not called, this may result in slow operation\n"); /* lazyly add file provides */ for (i = 1; i < num; i++) { const char *str = pool->ss.stringspace + pool->ss.strings[i]; if (str[0] != '/') continue; if (pool->addedfileprovides == 1 && repodata_filelistfilter_matches(0, str)) continue; /* setup lazy adding, but remember old value */ if (pool->whatprovides[i] > 1) queue_push2(&pool->lazywhatprovidesq, i, pool->whatprovides[i]); pool->whatprovides[i] = 0; if (pool->whatprovidesaux) pool->whatprovidesaux[i] = 0; /* sorry */ } POOL_DEBUG(SOLV_DEBUG_STATS, "lazywhatprovidesq size: %d entries\n", pool->lazywhatprovidesq.count / 2); } POOL_DEBUG(SOLV_DEBUG_STATS, "createwhatprovides took %d ms\n", solv_timems(now)); } /* * free all of our whatprovides data * be careful, everything internalized with pool_queuetowhatprovides is * gone, too */ void pool_freewhatprovides(Pool *pool) { pool->whatprovides = solv_free(pool->whatprovides); pool->whatprovides_rel = solv_free(pool->whatprovides_rel); pool->whatprovidesdata = solv_free(pool->whatprovidesdata); pool->whatprovidesdataoff = 0; pool->whatprovidesdataleft = 0; pool->whatprovidesaux = solv_free(pool->whatprovidesaux); pool->whatprovidesauxdata = solv_free(pool->whatprovidesauxdata); pool->whatprovidesauxoff = 0; pool->whatprovidesauxdataoff = 0; } /******************************************************************************/ /* * pool_queuetowhatprovides - add queue contents to whatprovidesdata * * used for whatprovides, jobs, learnt rules, selections * input: q: queue of Ids * returns: Offset into whatprovidesdata * */ Id pool_ids2whatprovides(Pool *pool, Id *ids, int count) { Offset off; if (count == 0) /* queue empty -> 1 */ return 1; if (count == 1 && *ids == SYSTEMSOLVABLE) return 2; /* extend whatprovidesdata if needed, +1 for 0-termination */ if (pool->whatprovidesdataleft < count + 1) { POOL_DEBUG(SOLV_DEBUG_STATS, "growing provides hash data...\n"); pool->whatprovidesdata = solv_realloc(pool->whatprovidesdata, (pool->whatprovidesdataoff + count + 4096) * sizeof(Id)); pool->whatprovidesdataleft = count + 4096; } /* copy queue to next free slot */ off = pool->whatprovidesdataoff; memcpy(pool->whatprovidesdata + pool->whatprovidesdataoff, ids, count * sizeof(Id)); /* adapt count and 0-terminate */ pool->whatprovidesdataoff += count; pool->whatprovidesdata[pool->whatprovidesdataoff++] = 0; pool->whatprovidesdataleft -= count + 1; return (Id)off; } Id pool_queuetowhatprovides(Pool *pool, Queue *q) { int count = q->count; if (count == 0) /* queue empty -> 1 */ return 1; if (count == 1 && q->elements[0] == SYSTEMSOLVABLE) return 2; return pool_ids2whatprovides(pool, q->elements, count); } /*************************************************************************/ #if defined(MULTI_SEMANTICS) # define EVRCMP_DEPCMP (pool->disttype == DISTTYPE_DEB ? EVRCMP_COMPARE : EVRCMP_MATCH_RELEASE) #elif defined(DEBIAN) # define EVRCMP_DEPCMP EVRCMP_COMPARE #else # define EVRCMP_DEPCMP EVRCMP_MATCH_RELEASE #endif /* check if a package's nevr matches a dependency */ /* semi-private, called from public pool_match_nevr */ int pool_match_nevr_rel(Pool *pool, Solvable *s, Id d) { Reldep *rd = GETRELDEP(pool, d); Id name = rd->name; Id evr = rd->evr; int flags = rd->flags; if (flags > 7) { switch (flags) { case REL_ARCH: if (s->arch != evr) { if (evr != ARCH_SRC || s->arch != ARCH_NOSRC) return 0; } return pool_match_nevr(pool, s, name); case REL_OR: if (pool_match_nevr(pool, s, name)) return 1; return pool_match_nevr(pool, s, evr); case REL_AND: case REL_WITH: if (!pool_match_nevr(pool, s, name)) return 0; return pool_match_nevr(pool, s, evr); case REL_WITHOUT: if (!pool_match_nevr(pool, s, name)) return 0; return !pool_match_nevr(pool, s, evr); case REL_MULTIARCH: if (evr != ARCH_ANY) return 0; /* XXX : need to check for Multi-Arch: allowed! */ return pool_match_nevr(pool, s, name); default: return 0; } } if (!pool_match_nevr(pool, s, name)) return 0; if (evr == s->evr) return (flags & REL_EQ) ? 1 : 0; if (!flags) return 0; if (flags == 7) return 1; switch (pool_evrcmp(pool, s->evr, evr, EVRCMP_DEPCMP)) { case -2: return 1; case -1: return (flags & REL_LT) ? 1 : 0; case 0: return (flags & REL_EQ) ? 1 : 0; case 1: return (flags & REL_GT) ? 1 : 0; case 2: return (flags & REL_EQ) ? 1 : 0; default: break; } return 0; } #if defined(HAIKU) || defined(MULTI_SEMANTICS) /* forward declaration */ static int pool_match_flags_evr_rel_compat(Pool *pool, Reldep *range, int flags, int evr); #endif /* match (flags, evr) against provider (pflags, pevr) */ static inline int pool_match_flags_evr(Pool *pool, int pflags, Id pevr, int flags, int evr) { if (!pflags || !flags || pflags >= 8 || flags >= 8) return 0; if (flags == 7 || pflags == 7) return 1; /* rel provides every version */ if ((pflags & flags & (REL_LT | REL_GT)) != 0) return 1; /* both rels show in the same direction */ if (pevr == evr) return (flags & pflags & REL_EQ) ? 1 : 0; #if defined(HAIKU) || defined(MULTI_SEMANTICS) if (ISRELDEP(pevr)) { Reldep *rd = GETRELDEP(pool, pevr); if (rd->flags == REL_COMPAT) return pool_match_flags_evr_rel_compat(pool, rd, flags, evr); } #endif switch (pool_evrcmp(pool, pevr, evr, EVRCMP_DEPCMP)) { case -2: return (pflags & REL_EQ) ? 1 : 0; case -1: return (flags & REL_LT) || (pflags & REL_GT) ? 1 : 0; case 0: return (flags & pflags & REL_EQ) ? 1 : 0; case 1: return (flags & REL_GT) || (pflags & REL_LT) ? 1 : 0; case 2: return (flags & REL_EQ) ? 1 : 0; default: break; } return 0; } #if defined(HAIKU) || defined(MULTI_SEMANTICS) static int pool_match_flags_evr_rel_compat(Pool *pool, Reldep *range, int flags, int evr) { /* range->name is the actual version, range->evr the backwards compatibility version. If flags are '>=' or '>', we match the compatibility version as well, otherwise only the actual version. */ if (!(flags & REL_GT) || (flags & REL_LT)) return pool_match_flags_evr(pool, REL_EQ, range->name, flags, evr); return pool_match_flags_evr(pool, REL_LT | REL_EQ, range->name, flags, evr) && pool_match_flags_evr(pool, REL_GT | REL_EQ, range->evr, REL_EQ, evr); } #endif /* public (i.e. not inlined) version of pool_match_flags_evr */ int pool_intersect_evrs(Pool *pool, int pflags, Id pevr, int flags, Id evr) { return pool_match_flags_evr(pool, pflags, pevr, flags, evr); } static int is_interval_dep(Pool *pool, Id d1, Id d2) { Reldep *rd1, *rd2; if (!ISRELDEP(d1) || !ISRELDEP(d2)) return 0; rd1 = GETRELDEP(pool, d1); rd2 = GETRELDEP(pool, d2); if (rd1->name != rd2->name || rd1->flags >= 8 || rd2->flags >= 8) return 0; if (((rd1->flags ^ rd2->flags) & (REL_LT|REL_GT)) != (REL_LT|REL_GT)) return 0; return 1; } /* match two dependencies (d1 = provider) */ int pool_match_dep(Pool *pool, Id d1, Id d2) { Reldep *rd1, *rd2; if (d1 == d2) return 1; if (ISRELDEP(d1)) { /* we use potentially matches for complex deps */ rd1 = GETRELDEP(pool, d1); if (rd1->flags == REL_AND || rd1->flags == REL_OR || rd1->flags == REL_WITH || rd1->flags == REL_WITHOUT || rd1->flags == REL_COND || rd1->flags == REL_UNLESS) { if (rd1->flags == REL_WITH && is_interval_dep(pool, rd1->name, rd1->evr)) return pool_match_dep(pool, rd1->name, d2) && pool_match_dep(pool, rd1->evr, d2); if (pool_match_dep(pool, rd1->name, d2)) return 1; if ((rd1->flags == REL_COND || rd1->flags == REL_UNLESS) && ISRELDEP(rd1->evr)) { rd1 = GETRELDEP(pool, rd1->evr); if (rd1->flags != REL_ELSE) return 0; } if (rd1->flags != REL_COND && rd1->flags != REL_UNLESS && rd1->flags != REL_WITHOUT && pool_match_dep(pool, rd1->evr, d2)) return 1; return 0; } } if (ISRELDEP(d2)) { /* we use potentially matches for complex deps */ rd2 = GETRELDEP(pool, d2); if (rd2->flags == REL_AND || rd2->flags == REL_OR || rd2->flags == REL_WITH || rd2->flags == REL_WITHOUT || rd2->flags == REL_COND || rd2->flags == REL_UNLESS) { if (rd2->flags == REL_WITH && is_interval_dep(pool, rd2->name, rd2->evr)) return pool_match_dep(pool, d1, rd2->name) && pool_match_dep(pool, d1, rd2->evr); if (pool_match_dep(pool, d1, rd2->name)) return 1; if ((rd2->flags == REL_COND || rd2->flags == REL_UNLESS) && ISRELDEP(rd2->evr)) { rd2 = GETRELDEP(pool, rd2->evr); if (rd2->flags != REL_ELSE) return 0; } if (rd2->flags != REL_COND && rd2->flags != REL_UNLESS && rd2->flags != REL_WITHOUT && pool_match_dep(pool, d1, rd2->evr)) return 1; return 0; } } if (!ISRELDEP(d1)) { if (!ISRELDEP(d2)) return 0; /* cannot match as d1 != d2 */ rd2 = GETRELDEP(pool, d2); return pool_match_dep(pool, d1, rd2->name); } rd1 = GETRELDEP(pool, d1); if (!ISRELDEP(d2)) { return pool_match_dep(pool, rd1->name, d2); } rd2 = GETRELDEP(pool, d2); /* first match name */ if (!pool_match_dep(pool, rd1->name, rd2->name)) return 0; /* name matches, check flags and evr */ return pool_intersect_evrs(pool, rd1->flags, rd1->evr, rd2->flags, rd2->evr); } Id pool_searchlazywhatprovidesq(Pool *pool, Id d) { int start = 0; int end = pool->lazywhatprovidesq.count; Id *elements; if (!end) return 0; elements = pool->lazywhatprovidesq.elements; while (end - start > 16) { int mid = (start + end) / 2 & ~1; if (elements[mid] == d) return elements[mid + 1]; if (elements[mid] < d) start = mid + 2; else end = mid; } for (; start < end; start += 2) if (elements[start] == d) return elements[start + 1]; return 0; } /* * addstdproviders * * lazy populating of the whatprovides array, non relation case */ static Id pool_addstdproviders(Pool *pool, Id d) { const char *str; Queue q; Id qbuf[16]; Dataiterator di; Id oldoffset; if (pool->addedfileprovides == 2) { pool->whatprovides[d] = 1; return 1; } str = pool->ss.stringspace + pool->ss.strings[d]; if (*str != '/') { pool->whatprovides[d] = 1; return 1; } queue_init_buffer(&q, qbuf, sizeof(qbuf)/sizeof(*qbuf)); dataiterator_init(&di, pool, 0, 0, SOLVABLE_FILELIST, str, SEARCH_STRING|SEARCH_FILES); for (; dataiterator_step(&di); dataiterator_skip_solvable(&di)) { Solvable *s = pool->solvables + di.solvid; /* XXX: maybe should add a provides dependency to the solvables * OTOH this is only needed for rel deps that filter the provides, * and those should not use filelist entries */ if (s->repo->disabled) continue; if (!pool_installable_whatprovides(pool, s)) continue; queue_push(&q, di.solvid); } dataiterator_free(&di); oldoffset = pool_searchlazywhatprovidesq(pool, d); if (!q.count) pool->whatprovides[d] = oldoffset ? oldoffset : 1; else { if (oldoffset) { Id *oo = pool->whatprovidesdata + oldoffset; int i; /* unify both queues. easy, as we know both are sorted */ for (i = 0; i < q.count; i++) { if (*oo > q.elements[i]) continue; if (*oo < q.elements[i]) queue_insert(&q, i, *oo); oo++; if (!*oo) break; } while (*oo) queue_push(&q, *oo++); if (q.count == oo - (pool->whatprovidesdata + oldoffset)) { /* end result has same size as oldoffset -> no new entries */ queue_free(&q); pool->whatprovides[d] = oldoffset; return oldoffset; } } pool->whatprovides[d] = pool_queuetowhatprovides(pool, &q); } queue_free(&q); return pool->whatprovides[d]; } static inline int pool_is_kind(Pool *pool, Id name, Id kind) { const char *n; if (!kind) return 1; n = pool_id2str(pool, name); if (kind != 1) { const char *kn = pool_id2str(pool, kind); int knl = strlen(kn); return !strncmp(n, kn, knl) && n[knl] == ':' ? 1 : 0; } else { if (*n == ':') return 1; while(*n >= 'a' && *n <= 'z') n++; return *n == ':' ? 0 : 1; } } /* * rpm eq magic: * * some dependencies are of the from "foo = md5sum", like the * buildid provides. There's not much we can do to speed up * getting the providers, because rpm's complex evr comparison * rules get in the way. But we can use the first character(s) * of the md5sum to do a simple pre-check. */ static inline int rpmeqmagic(Pool *pool, Id evr) { const char *s = pool_id2str(pool, evr); if (*s == '0') { while (*s == '0' && s[1] >= '0' && s[1] <= '9') s++; /* ignore epoch 0 */ if (*s == '0' && s[1] == ':') { s += 2; while (*s == '0' && s[1] >= '0' && s[1] <= '9') s++; } } if (*s >= '0' && *s <= '9') { if (s[1] >= '0' && s[1] <= '9') return *s + (s[1] << 8); return *s; } if ((*s >= 'a' && *s <= 'z') || (*s >= 'A' && *s <= 'Z')) { if ((s[1] >= 'a' && s[1] <= 'z') || (s[1] >= 'A' && s[1] <= 'Z')) return *s + (s[1] << 8); return *s; } return -1; } static inline int rpmeqmagic_init(Pool *pool, int flags, Id evr) { if (flags != REL_EQ || pool->disttype != DISTTYPE_RPM || pool->promoteepoch || ISRELDEP(evr)) return -1; else return rpmeqmagic(pool, evr); } static inline int rpmeqmagic_cantmatch(Pool *pool, int flags, Id evr, int eqmagic) { int peqmagic = rpmeqmagic(pool, evr); if (peqmagic > 0 && peqmagic != eqmagic) return 1; return 0; } /* * addrelproviders * * add packages fulfilling the relation to whatprovides array * * some words about REL_AND and REL_IF: we assume the best case * here, so that you get a "potential" result if you ask for a match. * E.g. if you ask for "whatrequires A" and package X contains * "Requires: A & B", you'll get "X" as an answer. */ Id pool_addrelproviders(Pool *pool, Id d) { Reldep *rd; Reldep *prd; Queue plist; Id buf[16]; Id name, evr, flags; Id pid, *pidp; Id p, *pp; if (!ISRELDEP(d)) return pool_addstdproviders(pool, d); rd = GETRELDEP(pool, d); name = rd->name; evr = rd->evr; flags = rd->flags; d = GETRELID(d); queue_init_buffer(&plist, buf, sizeof(buf)/sizeof(*buf)); if (flags >= 8) { /* special relation */ Id wp = 0; Id *pp2, *pp3; switch (flags) { case REL_WITH: wp = pool_whatprovides(pool, name); pp2 = pool_whatprovides_ptr(pool, evr); pp = pool->whatprovidesdata + wp; while ((p = *pp++) != 0) { for (pp3 = pp2; *pp3; pp3++) if (*pp3 == p) break; if (*pp3) queue_push(&plist, p); /* found it */ else wp = 0; } break; case REL_WITHOUT: wp = pool_whatprovides(pool, name); pp2 = pool_whatprovides_ptr(pool, evr); pp = pool->whatprovidesdata + wp; while ((p = *pp++) != 0) { for (pp3 = pp2; *pp3; pp3++) if (*pp3 == p) break; if (!*pp3) queue_push(&plist, p); /* use it */ else wp = 0; } break; case REL_AND: case REL_OR: case REL_COND: case REL_UNLESS: if (flags == REL_COND || flags == REL_UNLESS) { if (ISRELDEP(evr)) { Reldep *rd2 = GETRELDEP(pool, evr); evr = rd2->flags == REL_ELSE ? rd2->evr : 0; } else evr = 0; /* assume cond is true */ } wp = pool_whatprovides(pool, name); if (!pool->whatprovidesdata[wp]) wp = evr ? pool_whatprovides(pool, evr) : 1; else if (evr) { /* sorted merge */ pp2 = pool_whatprovides_ptr(pool, evr); pp = pool->whatprovidesdata + wp; while (*pp && *pp2) { if (*pp < *pp2) queue_push(&plist, *pp++); else { if (*pp == *pp2) pp++; queue_push(&plist, *pp2++); } } while (*pp) queue_push(&plist, *pp++); while (*pp2) queue_push(&plist, *pp2++); /* if the number of elements did not change, we can reuse wp */ if (pp - (pool->whatprovidesdata + wp) != plist.count) wp = 0; } break; case REL_NAMESPACE: if (name == NAMESPACE_OTHERPROVIDERS) { wp = pool_whatprovides(pool, evr); break; } if (pool->nscallback) { /* ask callback which packages provide the dependency * 0: none * 1: the system (aka SYSTEMSOLVABLE) * >1: set of packages, stored as offset on whatprovidesdata */ p = pool->nscallback(pool, pool->nscallbackdata, name, evr); if (p > 1) wp = p; if (p == 1) queue_push(&plist, SYSTEMSOLVABLE); } break; case REL_ARCH: /* small hack: make it possible to match .src * we have to iterate over the solvables as src packages do not * provide anything, thus they are not indexed in our * whatprovides hash */ if (evr == ARCH_SRC || evr == ARCH_NOSRC) { Solvable *s; for (p = 1, s = pool->solvables + p; p < pool->nsolvables; p++, s++) { if (!s->repo) continue; if (s->arch != evr && s->arch != ARCH_NOSRC) continue; if (pool_disabled_solvable(pool, s)) continue; if (!name || pool_match_nevr(pool, s, name)) queue_push(&plist, p); } break; } if (!name) { FOR_POOL_SOLVABLES(p) { Solvable *s = pool->solvables + p; if (!pool_installable_whatprovides(pool, s)) continue; if (s->arch == evr) queue_push(&plist, p); } break; } wp = pool_whatprovides(pool, name); pp = pool->whatprovidesdata + wp; while ((p = *pp++) != 0) { Solvable *s = pool->solvables + p; if (s->arch == evr) queue_push(&plist, p); else wp = 0; } break; case REL_MULTIARCH: if (evr != ARCH_ANY) break; /* XXX : need to check for Multi-Arch: allowed! */ wp = pool_whatprovides(pool, name); break; case REL_KIND: /* package kind filtering */ if (!name) { FOR_POOL_SOLVABLES(p) { Solvable *s = pool->solvables + p; if (s->repo != pool->installed && !pool_installable(pool, s)) continue; if (pool_is_kind(pool, s->name, evr)) queue_push(&plist, p); } break; } wp = pool_whatprovides(pool, name); pp = pool->whatprovidesdata + wp; while ((p = *pp++) != 0) { Solvable *s = pool->solvables + p; if (pool_is_kind(pool, s->name, evr)) queue_push(&plist, p); else wp = 0; } break; case REL_FILECONFLICT: pp = pool_whatprovides_ptr(pool, name); while ((p = *pp++) != 0) { Id origd = MAKERELDEP(d); Solvable *s = pool->solvables + p; if (!s->provides) continue; pidp = s->repo->idarraydata + s->provides; while ((pid = *pidp++) != 0) if (pid == origd) break; if (pid) queue_push(&plist, p); } break; #ifdef ENABLE_CONDA case REL_CONDA: wp = pool_addrelproviders_conda(pool, name, evr, &plist); break; #endif default: break; } if (wp) { /* we can reuse an existing entry */ queue_free(&plist); pool->whatprovides_rel[d] = wp; return wp; } } else if (flags) { Id *ppaux = 0; int eqmagic = 0; /* simple version comparison relation */ #if 0 POOL_DEBUG(SOLV_DEBUG_STATS, "addrelproviders: what provides %s?\n", pool_dep2str(pool, name)); #endif pp = pool_whatprovides_ptr(pool, name); if (!ISRELDEP(name) && (Offset)name < pool->whatprovidesauxoff) ppaux = pool->whatprovidesaux[name] ? pool->whatprovidesauxdata + pool->whatprovidesaux[name] : 0; while (ISRELDEP(name)) { rd = GETRELDEP(pool, name); name = rd->name; } while ((p = *pp++) != 0) { Solvable *s = pool->solvables + p; if (ppaux) { pid = *ppaux++; if (pid && pid != 1) { #if 0 POOL_DEBUG(SOLV_DEBUG_STATS, "addrelproviders: aux hit %d %s\n", p, pool_dep2str(pool, pid)); #endif if (!ISRELDEP(pid)) { if (pid != name) continue; /* wrong provides name */ if (pool->disttype == DISTTYPE_DEB) continue; /* unversioned provides can never match versioned deps */ } else { prd = GETRELDEP(pool, pid); if (prd->name != name) continue; /* wrong provides name */ if (!eqmagic) eqmagic = rpmeqmagic_init(pool, flags, evr); if (eqmagic > 0 && prd->flags == REL_EQ && !ISRELDEP(prd->evr) && rpmeqmagic_cantmatch(pool, prd->flags, prd->evr, eqmagic)) continue; /* right package, both deps are rels. check flags/evr */ if (!pool_match_flags_evr(pool, prd->flags, prd->evr, flags, evr)) continue; } queue_push(&plist, p); continue; } } if (!s->provides || s->arch == ARCH_SRC || s->arch == ARCH_NOSRC) { /* no provides or src rpm - check nevr */ if (pool_match_nevr_rel(pool, s, MAKERELDEP(d))) queue_push(&plist, p); continue; } /* solvable p provides name in some rels */ if (!eqmagic) eqmagic = rpmeqmagic_init(pool, flags, evr); pidp = s->repo->idarraydata + s->provides; while ((pid = *pidp++) != 0) { if (!ISRELDEP(pid)) { if (pid != name) continue; /* wrong provides name */ if (pool->disttype == DISTTYPE_DEB) continue; /* unversioned provides can never match versioned deps */ break; } prd = GETRELDEP(pool, pid); if (prd->name != name) continue; /* wrong provides name */ /* right package, both deps are rels. check flags/evr */ if (eqmagic > 0 && prd->flags == REL_EQ && !ISRELDEP(prd->evr) && rpmeqmagic_cantmatch(pool, prd->flags, prd->evr, eqmagic)) continue; if (pool_match_flags_evr(pool, prd->flags, prd->evr, flags, evr)) break; /* matches */ } if (!pid) continue; /* none of the providers matched */ queue_push(&plist, p); } /* make our system solvable provide all unknown rpmlib() stuff */ if (plist.count == 0 && !strncmp(pool_id2str(pool, name), "rpmlib(", 7)) queue_push(&plist, SYSTEMSOLVABLE); } /* add providers to whatprovides */ #if 0 POOL_DEBUG(SOLV_DEBUG_STATS, "addrelproviders: adding %d packages to %d\n", plist.count, d); #endif pool->whatprovides_rel[d] = pool_queuetowhatprovides(pool, &plist); queue_free(&plist); return pool->whatprovides_rel[d]; } void pool_flush_namespaceproviders(Pool *pool, Id ns, Id evr) { int nrels = pool->nrels; Id d; Reldep *rd; if (!pool->whatprovides_rel) return; for (d = 1, rd = pool->rels + d; d < nrels; d++, rd++) { if (rd->flags != REL_NAMESPACE || rd->name == NAMESPACE_OTHERPROVIDERS) continue; if (ns && rd->name != ns) continue; if (evr && rd->evr != evr) continue; if (pool->whatprovides_rel[d]) pool_set_whatprovides(pool, MAKERELDEP(d), 0); } } /* intersect dependencies in keyname with dep, return list of matching packages */ void pool_whatmatchesdep(Pool *pool, Id keyname, Id dep, Queue *q, int marker) { Id p; Queue qq; int i; queue_empty(q); if (keyname == SOLVABLE_NAME) { Id pp; FOR_PROVIDES(p, pp, dep) if (pool_match_dep(pool, p, dep)) queue_push(q, p); return; } queue_init(&qq); FOR_POOL_SOLVABLES(p) { Solvable *s = pool->solvables + p; if (s->repo->disabled) continue; if (s->repo != pool->installed && !pool_installable(pool, s)) continue; if (qq.count) queue_empty(&qq); solvable_lookup_deparray(s, keyname, &qq, marker); for (i = 0; i < qq.count; i++) if (pool_match_dep(pool, qq.elements[i], dep)) { queue_push(q, p); break; } } queue_free(&qq); } /* check if keyname contains dep, return list of matching packages */ void pool_whatcontainsdep(Pool *pool, Id keyname, Id dep, Queue *q, int marker) { Id p; Queue qq; int i; queue_empty(q); if (!dep) return; queue_init(&qq); FOR_POOL_SOLVABLES(p) { Solvable *s = pool->solvables + p; if (s->repo->disabled) continue; if (s->repo != pool->installed && !pool_installable(pool, s)) continue; if (qq.count) queue_empty(&qq); solvable_lookup_deparray(s, keyname, &qq, marker); for (i = 0; i < qq.count; i++) if (qq.elements[i] == dep) { queue_push(q, p); break; } } queue_free(&qq); } /* intersect dependencies in keyname with all provides of solvable solvid, * return list of matching packages */ /* this currently only works for installable packages */ void pool_whatmatchessolvable(Pool *pool, Id keyname, Id solvid, Queue *q, int marker) { Id p; Queue qq; Map missc; /* cache for misses */ int reloff; queue_empty(q); queue_init(&qq); reloff = pool->ss.nstrings; map_init(&missc, reloff + pool->nrels); FOR_POOL_SOLVABLES(p) { Solvable *s = pool->solvables + p; if (p == solvid) continue; /* filter out self-matches */ if (s->repo->disabled) continue; if (s->repo != pool->installed && !pool_installable(pool, s)) continue; if (solvable_matchessolvable_int(s, keyname, marker, solvid, 0, &qq, &missc, reloff, 0)) queue_push(q, p); } map_free(&missc); queue_free(&qq); } /*************************************************************************/ void pool_debug(Pool *pool, int type, const char *format, ...) { va_list args; char buf[1024]; if ((type & (SOLV_FATAL|SOLV_ERROR)) == 0) { if ((pool->debugmask & type) == 0) return; } va_start(args, format); if (!pool->debugcallback) { if ((type & (SOLV_FATAL|SOLV_ERROR)) == 0 && !(pool->debugmask & SOLV_DEBUG_TO_STDERR)) vprintf(format, args); else vfprintf(stderr, format, args); va_end(args); return; } vsnprintf(buf, sizeof(buf), format, args); va_end(args); pool->debugcallback(pool, pool->debugcallbackdata, type, buf); } int pool_error(Pool *pool, int ret, const char *format, ...) { va_list args; int l; if (!pool) return ret; va_start(args, format); if (!pool->errstr) { pool->errstra = 1024; pool->errstr = solv_malloc(pool->errstra); } if (!*format) { *pool->errstr = 0; l = 0; } else l = vsnprintf(pool->errstr, pool->errstra, format, args); va_end(args); if (l >= 0 && l + 1 > pool->errstra) { pool->errstra = l + 256; pool->errstr = solv_realloc(pool->errstr, pool->errstra); va_start(args, format); l = vsnprintf(pool->errstr, pool->errstra, format, args); va_end(args); } if (l < 0) strcpy(pool->errstr, "unknown error"); if (pool->debugmask & SOLV_ERROR) pool_debug(pool, SOLV_ERROR, "%s\n", pool->errstr); return ret; } char * pool_errstr(Pool *pool) { return pool->errstr ? pool->errstr : "no error"; } void pool_setdebuglevel(Pool *pool, int level) { int mask = SOLV_DEBUG_RESULT; if (level > 0) mask |= SOLV_DEBUG_STATS|SOLV_DEBUG_ANALYZE|SOLV_DEBUG_UNSOLVABLE|SOLV_DEBUG_SOLVER|SOLV_DEBUG_TRANSACTION|SOLV_ERROR; if (level > 1) mask |= SOLV_DEBUG_JOB|SOLV_DEBUG_SOLUTIONS|SOLV_DEBUG_POLICY; if (level > 2) mask |= SOLV_DEBUG_PROPAGATE; if (level > 3) mask |= SOLV_DEBUG_RULE_CREATION | SOLV_DEBUG_WATCHES; mask |= pool->debugmask & SOLV_DEBUG_TO_STDERR; /* keep bit */ pool->debugmask = mask; } void pool_setdebugcallback(Pool *pool, void (*debugcallback)(struct s_Pool *, void *data, int type, const char *str), void *debugcallbackdata) { pool->debugcallback = debugcallback; pool->debugcallbackdata = debugcallbackdata; } void pool_setdebugmask(Pool *pool, int mask) { pool->debugmask = mask; } void pool_setloadcallback(Pool *pool, int (*cb)(struct s_Pool *, struct s_Repodata *, void *), void *loadcbdata) { pool->loadcallback = cb; pool->loadcallbackdata = loadcbdata; } void pool_setnamespacecallback(Pool *pool, Id (*cb)(struct s_Pool *, void *, Id, Id), void *nscbdata) { pool->nscallback = cb; pool->nscallbackdata = nscbdata; } void pool_search(Pool *pool, Id p, Id key, const char *match, int flags, int (*callback)(void *cbdata, Solvable *s, struct s_Repodata *data, struct s_Repokey *key, struct s_KeyValue *kv), void *cbdata) { if (p) { if (pool->solvables[p].repo) repo_search(pool->solvables[p].repo, p, key, match, flags, callback, cbdata); return; } /* FIXME: obey callback return value! */ for (p = 1; p < pool->nsolvables; p++) if (pool->solvables[p].repo) repo_search(pool->solvables[p].repo, p, key, match, flags, callback, cbdata); } void pool_clear_pos(Pool *pool) { memset(&pool->pos, 0, sizeof(pool->pos)); } void pool_set_languages(Pool *pool, const char **languages, int nlanguages) { int i; pool->languagecache = solv_free(pool->languagecache); pool->languagecacheother = 0; for (i = 0; i < pool->nlanguages; i++) free((char *)pool->languages[i]); pool->languages = solv_free((void *)pool->languages); pool->nlanguages = nlanguages; if (!nlanguages) return; pool->languages = solv_calloc(nlanguages, sizeof(const char **)); for (i = 0; i < pool->nlanguages; i++) pool->languages[i] = solv_strdup(languages[i]); } Id pool_id2langid(Pool *pool, Id id, const char *lang, int create) { const char *n; char buf[256], *p; int l; if (!lang || !*lang) return id; n = pool_id2str(pool, id); l = strlen(n) + strlen(lang) + 2; if (l > sizeof(buf)) p = solv_malloc(strlen(n) + strlen(lang) + 2); else p = buf; sprintf(p, "%s:%s", n, lang); id = pool_str2id(pool, p, create); if (p != buf) free(p); return id; } char * pool_alloctmpspace(Pool *pool, int len) { int n = pool->tmpspace.n; if (!len) return 0; if (len > pool->tmpspace.len[n]) { pool->tmpspace.buf[n] = solv_realloc(pool->tmpspace.buf[n], len + 32); pool->tmpspace.len[n] = len + 32; } pool->tmpspace.n = (n + 1) % POOL_TMPSPACEBUF; return pool->tmpspace.buf[n]; } static char * pool_alloctmpspace_free(Pool *pool, const char *space, int len) { if (space) { int n, oldn; n = oldn = pool->tmpspace.n; for (;;) { if (!n--) n = POOL_TMPSPACEBUF - 1; if (n == oldn) break; if (pool->tmpspace.buf[n] != space) continue; if (len > pool->tmpspace.len[n]) { pool->tmpspace.buf[n] = solv_realloc(pool->tmpspace.buf[n], len + 32); pool->tmpspace.len[n] = len + 32; } return pool->tmpspace.buf[n]; } } return 0; } void pool_freetmpspace(Pool *pool, const char *space) { int n = pool->tmpspace.n; if (!space) return; n = (n + (POOL_TMPSPACEBUF - 1)) % POOL_TMPSPACEBUF; if (pool->tmpspace.buf[n] == space) pool->tmpspace.n = n; } char * pool_tmpjoin(Pool *pool, const char *str1, const char *str2, const char *str3) { int l1, l2, l3; char *s, *str; l1 = str1 ? strlen(str1) : 0; l2 = str2 ? strlen(str2) : 0; l3 = str3 ? strlen(str3) : 0; s = str = pool_alloctmpspace(pool, l1 + l2 + l3 + 1); if (l1) { strcpy(s, str1); s += l1; } if (l2) { strcpy(s, str2); s += l2; } if (l3) { strcpy(s, str3); s += l3; } *s = 0; return str; } char * pool_tmpappend(Pool *pool, const char *str1, const char *str2, const char *str3) { int l1, l2, l3; char *s, *str; l1 = str1 ? strlen(str1) : 0; l2 = str2 ? strlen(str2) : 0; l3 = str3 ? strlen(str3) : 0; str = pool_alloctmpspace_free(pool, str1, l1 + l2 + l3 + 1); if (str) str1 = str; else str = pool_alloctmpspace(pool, l1 + l2 + l3 + 1); s = str; if (l1) { if (s != str1) strcpy(s, str1); s += l1; } if (l2) { strcpy(s, str2); s += l2; } if (l3) { strcpy(s, str3); s += l3; } *s = 0; return str; } const char * pool_bin2hex(Pool *pool, const unsigned char *buf, int len) { char *s; if (!len) return ""; s = pool_alloctmpspace(pool, 2 * len + 1); solv_bin2hex(buf, len, s); return s; } const char * pool_lookup_str(Pool *pool, Id entry, Id keyname) { if (entry == SOLVID_POS && pool->pos.repo) return repo_lookup_str(pool->pos.repo, pool->pos.repodataid ? entry : pool->pos.solvid, keyname); if (entry <= 0) return 0; return solvable_lookup_str(pool->solvables + entry, keyname); } Id pool_lookup_id(Pool *pool, Id entry, Id keyname) { if (entry == SOLVID_POS && pool->pos.repo) return repo_lookup_id(pool->pos.repo, pool->pos.repodataid ? entry : pool->pos.solvid, keyname); if (entry <= 0) return 0; return solvable_lookup_id(pool->solvables + entry, keyname); } unsigned long long pool_lookup_num(Pool *pool, Id entry, Id keyname, unsigned long long notfound) { if (entry == SOLVID_POS && pool->pos.repo) return repo_lookup_num(pool->pos.repo, pool->pos.repodataid ? entry : pool->pos.solvid, keyname, notfound); if (entry <= 0) return notfound; return solvable_lookup_num(pool->solvables + entry, keyname, notfound); } int pool_lookup_void(Pool *pool, Id entry, Id keyname) { if (entry == SOLVID_POS && pool->pos.repo) return repo_lookup_void(pool->pos.repo, pool->pos.repodataid ? entry : pool->pos.solvid, keyname); if (entry <= 0) return 0; return solvable_lookup_void(pool->solvables + entry, keyname); } const unsigned char * pool_lookup_bin_checksum(Pool *pool, Id entry, Id keyname, Id *typep) { if (entry == SOLVID_POS && pool->pos.repo) return repo_lookup_bin_checksum(pool->pos.repo, pool->pos.repodataid ? entry : pool->pos.solvid, keyname, typep); if (entry <= 0) return 0; return solvable_lookup_bin_checksum(pool->solvables + entry, keyname, typep); } const char * pool_lookup_checksum(Pool *pool, Id entry, Id keyname, Id *typep) { if (entry == SOLVID_POS && pool->pos.repo) return repo_lookup_checksum(pool->pos.repo, pool->pos.repodataid ? entry : pool->pos.solvid, keyname, typep); if (entry <= 0) return 0; return solvable_lookup_checksum(pool->solvables + entry, keyname, typep); } int pool_lookup_idarray(Pool *pool, Id entry, Id keyname, Queue *q) { if (entry == SOLVID_POS && pool->pos.repo) return repo_lookup_idarray(pool->pos.repo, pool->pos.repodataid ? entry : pool->pos.solvid, keyname, q); if (entry <= 0) return 0; return solvable_lookup_idarray(pool->solvables + entry, keyname, q); } const char * pool_lookup_deltalocation(Pool *pool, Id entry, unsigned int *medianrp) { const char *loc; if (medianrp) *medianrp = 0; if (entry != SOLVID_POS) return 0; loc = pool_lookup_str(pool, entry, DELTA_LOCATION_DIR); loc = pool_tmpjoin(pool, loc, loc ? "/" : 0, pool_lookup_str(pool, entry, DELTA_LOCATION_NAME)); loc = pool_tmpappend(pool, loc, "-", pool_lookup_str(pool, entry, DELTA_LOCATION_EVR)); loc = pool_tmpappend(pool, loc, ".", pool_lookup_str(pool, entry, DELTA_LOCATION_SUFFIX)); return loc; } void pool_set_whatprovides(Pool *pool, Id id, Id providers) { int d, nrels = pool->nrels; Reldep *rd; Map m; /* set new entry */ if (ISRELDEP(id)) { d = GETRELID(id); pool->whatprovides_rel[d] = providers; d++; } else { pool->whatprovides[id] = providers; if ((Offset)id < pool->whatprovidesauxoff) pool->whatprovidesaux[id] = 0; /* sorry */ d = 1; } if (!pool->whatprovides_rel) return; /* clear cache of all rels that use it */ map_init(&m, 0); for (rd = pool->rels + d; d < nrels; d++, rd++) { if (rd->name == id || rd->evr == id || (m.size && ISRELDEP(rd->name) && MAPTST(&m, GETRELID(rd->name))) || (m.size && ISRELDEP(rd->evr) && MAPTST(&m, GETRELID(rd->evr)))) { pool->whatprovides_rel[d] = 0; /* clear cache */ if (!m.size) map_init(&m, nrels); MAPSET(&m, d); } } map_free(&m); } static void add_new_provider(Pool *pool, Id id, Id p) { Queue q; Id *pp; /* find whatprovides entry */ while (ISRELDEP(id)) { Reldep *rd = GETRELDEP(pool, id); id = rd->name; } /* add new provider to existing list keeping it sorted */ queue_init(&q); for (pp = pool->whatprovidesdata + pool->whatprovides[id]; *pp; pp++) { if (*pp == p) { queue_free(&q); /* already have it */ return; } if (*pp > p) { queue_push(&q, p); p = 0; } queue_push(&q, *pp); } if (p) queue_push(&q, p); pool_set_whatprovides(pool, id, pool_queuetowhatprovides(pool, &q)); queue_free(&q); } void pool_add_fileconflicts_deps(Pool *pool, Queue *conflicts) { int hadhashes = pool->relhashtbl ? 1 : 0; Solvable *s; Id fn, p, q, md5; Id id; int i; if (!conflicts->count) return; for (i = 0; i < conflicts->count; i += 6) { fn = conflicts->elements[i]; p = conflicts->elements[i + 1]; md5 = conflicts->elements[i + 2]; q = conflicts->elements[i + 4]; id = pool_rel2id(pool, fn, md5, REL_FILECONFLICT, 1); s = pool->solvables + p; if (!s->repo) continue; s->provides = repo_addid_dep(s->repo, s->provides, id, SOLVABLE_FILEMARKER); if (pool->whatprovides) add_new_provider(pool, id, p); s = pool->solvables + q; if (!s->repo) continue; s->conflicts = repo_addid_dep(s->repo, s->conflicts, id, 0); } if (!hadhashes) pool_freeidhashes(pool); } char * pool_prepend_rootdir(Pool *pool, const char *path) { if (!path) return 0; if (!pool->rootdir) return solv_strdup(path); return solv_dupjoin(pool->rootdir, "/", *path == '/' ? path + 1 : path); } const char * pool_prepend_rootdir_tmp(Pool *pool, const char *path) { if (!path) return 0; if (!pool->rootdir) return path; return pool_tmpjoin(pool, pool->rootdir, "/", *path == '/' ? path + 1 : path); } void pool_set_rootdir(Pool *pool, const char *rootdir) { solv_free(pool->rootdir); pool->rootdir = solv_strdup(rootdir); } const char * pool_get_rootdir(Pool *pool) { return pool->rootdir; } /* only used in libzypp */ void pool_set_custom_vendorcheck(Pool *pool, int (*vendorcheck)(Pool *, Solvable *, Solvable *)) { pool->custom_vendorcheck = vendorcheck; } /* EOF */