/** \ingroup rpmdep * \file lib/rpmds.c */ #include "system.h" #include #include /* rpmvercmp */ #include #include #include #include #include "debug.h" int _rpmds_debug = 0; int _rpmds_nopromote = 1; /** * A package dependency set. */ struct rpmds_s { rpmstrPool pool; /*!< String pool. */ const char * Type; /*!< Tag name. */ char * DNEVR; /*!< Formatted dependency string. */ rpmsid * N; /*!< Dependency name id's (pool) */ rpmsid * EVR; /*!< Dependency EVR id's (pool) */ rpmsenseFlags * Flags; /*!< Bit(s) identifying context/comparison. */ rpm_color_t * Color; /*!< Bit(s) calculated from file color(s). */ rpmTagVal tagN; /*!< Header tag. */ int32_t Count; /*!< No. of elements */ unsigned int instance; /*!< From rpmdb instance? */ int i; /*!< Element index. */ unsigned l; /*!< Low element (bsearch). */ unsigned u; /*!< High element (bsearch). */ int nopromote; /*!< Don't promote Epoch: in rpmdsCompare()? */ int nrefs; /*!< Reference count. */ }; static int dsType(rpmTagVal tag, const char ** Type, rpmTagVal * tagEVR, rpmTagVal * tagF) { int rc = 0; const char *t = NULL; rpmTagVal evr = RPMTAG_NOT_FOUND; rpmTagVal f = RPMTAG_NOT_FOUND; if (tag == RPMTAG_PROVIDENAME) { t = "Provides"; evr = RPMTAG_PROVIDEVERSION; f = RPMTAG_PROVIDEFLAGS; } else if (tag == RPMTAG_REQUIRENAME) { t = "Requires"; evr = RPMTAG_REQUIREVERSION; f = RPMTAG_REQUIREFLAGS; } else if (tag == RPMTAG_CONFLICTNAME) { t = "Conflicts"; evr = RPMTAG_CONFLICTVERSION; f = RPMTAG_CONFLICTFLAGS; } else if (tag == RPMTAG_OBSOLETENAME) { t = "Obsoletes"; evr = RPMTAG_OBSOLETEVERSION; f = RPMTAG_OBSOLETEFLAGS; } else if (tag == RPMTAG_ORDERNAME) { t = "Order"; evr = RPMTAG_ORDERVERSION; f = RPMTAG_ORDERFLAGS; } else if (tag == RPMTAG_TRIGGERNAME) { t = "Trigger"; evr = RPMTAG_TRIGGERVERSION; f = RPMTAG_TRIGGERFLAGS; } else { rc = 1; } if (Type) *Type = t; if (tagEVR) *tagEVR = evr; if (tagF) *tagF = f; return rc; } static rpmsid rpmdsNIdIndex(rpmds ds, int i) { rpmsid id = 0; if (i >= 0 && i < ds->Count && ds->N != NULL) id = ds->N[i]; return id; } static rpmsid rpmdsEVRIdIndex(rpmds ds, int i) { rpmsid id = 0; if (i >= 0 && i < ds->Count && ds->EVR != NULL) id = ds->EVR[i]; return id; } static const char * rpmdsNIndex(rpmds ds, int i) { const char * N = NULL; if (i >= 0 && i < ds->Count && ds->N != NULL) N = rpmstrPoolStr(ds->pool, ds->N[i]); return N; } static const char * rpmdsEVRIndex(rpmds ds, int i) { const char * EVR = NULL; if (i >= 0 && i < ds->Count && ds->EVR != NULL) EVR = rpmstrPoolStr(ds->pool, ds->EVR[i]); return EVR; } static rpmsenseFlags rpmdsFlagsIndex(rpmds ds, int i) { rpmsenseFlags Flags = 0; if (i >= 0 && i < ds->Count && ds->Flags != NULL) Flags = ds->Flags[i]; return Flags; } static rpmds rpmdsUnlink(rpmds ds) { if (ds) ds->nrefs--; return NULL; } rpmds rpmdsLink(rpmds ds) { if (ds) ds->nrefs++; return ds; } rpmds rpmdsFree(rpmds ds) { rpmTagVal tagEVR, tagF; if (ds == NULL) return NULL; if (ds->nrefs > 1) return rpmdsUnlink(ds); if (dsType(ds->tagN, NULL, &tagEVR, &tagF)) return NULL; if (ds->Count > 0) { ds->N = _free(ds->N); ds->EVR = _free(ds->EVR); ds->Flags = _free(ds->Flags); } ds->pool = rpmstrPoolFree(ds->pool); ds->DNEVR = _free(ds->DNEVR); ds->Color = _free(ds->Color); (void) rpmdsUnlink(ds); memset(ds, 0, sizeof(*ds)); /* XXX trash and burn */ ds = _free(ds); return NULL; } static rpmds rpmdsCreate(rpmstrPool pool, rpmTagVal tagN, const char * Type, int Count, unsigned int instance) { rpmds ds = xcalloc(1, sizeof(*ds)); ds->pool = (pool != NULL) ? rpmstrPoolLink(pool) : rpmstrPoolCreate(); ds->tagN = tagN; ds->Type = Type; ds->Count = Count; ds->instance = instance; ds->nopromote = _rpmds_nopromote; ds->i = -1; return rpmdsLink(ds); } rpmds rpmdsNewPool(rpmstrPool pool, Header h, rpmTagVal tagN, int flags) { rpmTagVal tagEVR, tagF; rpmds ds = NULL; const char * Type; struct rpmtd_s names; if (dsType(tagN, &Type, &tagEVR, &tagF)) goto exit; if (headerGet(h, tagN, &names, HEADERGET_MINMEM)) { struct rpmtd_s evr, flags; ds = rpmdsCreate(pool, tagN, Type, rpmtdCount(&names), headerGetInstance(h)); ds->N = rpmtdToPool(&names, ds->pool); headerGet(h, tagEVR, &evr, HEADERGET_MINMEM); ds->EVR = rpmtdToPool(&evr, ds->pool); headerGet(h, tagF, &flags, HEADERGET_ALLOC); ds->Flags = flags.data; /* ensure rpmlib() requires always have RPMSENSE_RPMLIB flag set */ if (tagN == RPMTAG_REQUIRENAME && ds->Flags) { for (int i = 0; i < ds->Count; i++) { if (!(rpmdsFlagsIndex(ds, i) & RPMSENSE_RPMLIB)) { const char *N = rpmdsNIndex(ds, i); if (rstreqn(N, "rpmlib(", sizeof("rpmlib(")-1)) ds->Flags[i] |= RPMSENSE_RPMLIB; } } } rpmtdFreeData(&names); rpmtdFreeData(&evr); /* freeze the pool to save memory, but only if private pool */ if (ds->pool != pool) rpmstrPoolFreeze(ds->pool, 0); } exit: return ds; } rpmds rpmdsNew(Header h, rpmTagVal tagN, int flags) { return rpmdsNewPool(NULL, h, tagN, flags); } char * rpmdsNewDNEVR(const char * dspfx, const rpmds ds) { const char * N = rpmdsN(ds); const char * EVR = rpmdsEVR(ds); rpmsenseFlags Flags = rpmdsFlags(ds); char * tbuf, * t; size_t nb; nb = 0; if (dspfx) nb += strlen(dspfx) + 1; if (N) nb += strlen(N); /* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */ if (Flags & RPMSENSE_SENSEMASK) { if (nb) nb++; if (Flags & RPMSENSE_LESS) nb++; if (Flags & RPMSENSE_GREATER) nb++; if (Flags & RPMSENSE_EQUAL) nb++; } /* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */ if (EVR && *EVR) { if (nb) nb++; nb += strlen(EVR); } t = tbuf = xmalloc(nb + 1); if (dspfx) { t = stpcpy(t, dspfx); *t++ = ' '; } if (N) t = stpcpy(t, N); /* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */ if (Flags & RPMSENSE_SENSEMASK) { if (t != tbuf) *t++ = ' '; if (Flags & RPMSENSE_LESS) *t++ = '<'; if (Flags & RPMSENSE_GREATER) *t++ = '>'; if (Flags & RPMSENSE_EQUAL) *t++ = '='; } /* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */ if (EVR && *EVR) { if (t != tbuf) *t++ = ' '; t = stpcpy(t, EVR); } *t = '\0'; return tbuf; } static rpmds singleDSPool(rpmstrPool pool, rpmTagVal tagN, rpmsid N, rpmsid EVR, rpmsenseFlags Flags, unsigned int instance, rpm_color_t Color) { rpmds ds = NULL; const char * Type; if (dsType(tagN, &Type, NULL, NULL)) goto exit; ds = rpmdsCreate(pool, tagN, Type, 1, instance); ds->N = xmalloc(1 * sizeof(*ds->N)); ds->N[0] = N; ds->EVR = xmalloc(1 * sizeof(*ds->EVR)); ds->EVR[0] = EVR; ds->Flags = xmalloc(sizeof(*ds->Flags)); ds->Flags[0] = Flags; ds->i = 0; if (Color) rpmdsSetColor(ds, Color); exit: return ds; } static rpmds singleDS(rpmstrPool pool, rpmTagVal tagN, const char * N, const char * EVR, rpmsenseFlags Flags, unsigned int instance, rpm_color_t Color) { rpmds ds = singleDSPool(pool, tagN, 0, 0, Flags, instance, Color); if (ds) { /* now that we have a pool, we can insert our N & EVR strings */ ds->N[0] = rpmstrPoolId(ds->pool, N ? N : "", 1); ds->EVR[0] = rpmstrPoolId(ds->pool, EVR ? EVR : "", 1); /* freeze the pool to save memory, but only if private pool */ if (ds->pool != pool) rpmstrPoolFreeze(ds->pool, 0); } return ds; } rpmds rpmdsThisPool(rpmstrPool pool, Header h, rpmTagVal tagN, rpmsenseFlags Flags) { char *evr = headerGetAsString(h, RPMTAG_EVR); rpmds ds = singleDS(pool, tagN, headerGetString(h, RPMTAG_NAME), evr, Flags, headerGetInstance(h), 0); free(evr); return ds; } rpmds rpmdsThis(Header h, rpmTagVal tagN, rpmsenseFlags Flags) { return rpmdsThisPool(NULL, h, tagN, Flags); } rpmds rpmdsSinglePool(rpmstrPool pool,rpmTagVal tagN, const char * N, const char * EVR, rpmsenseFlags Flags) { return singleDS(pool, tagN, N, EVR, Flags, 0, 0); } rpmds rpmdsSingle(rpmTagVal tagN, const char * N, const char * EVR, rpmsenseFlags Flags) { return rpmdsSinglePool(NULL, tagN, N, EVR, Flags); } rpmds rpmdsCurrent(rpmds ds) { rpmds cds = NULL; if (ds != NULL && ds->i >= 0 && ds->i < ds->Count) { /* Using parent's pool so we can just use the same id's */ cds = singleDSPool(ds->pool, ds->tagN, ds->N[ds->i], ds->EVR[ds->i], rpmdsFlags(ds), ds->instance, rpmdsColor(ds)); } return cds; } int rpmdsCount(const rpmds ds) { return (ds != NULL ? ds->Count : 0); } int rpmdsIx(const rpmds ds) { return (ds != NULL ? ds->i : -1); } int rpmdsSetIx(rpmds ds, int ix) { int i = -1; if (ds != NULL) { i = ds->i; ds->i = ix; ds->DNEVR = _free(ds->DNEVR); } return i; } const char * rpmdsDNEVR(const rpmds ds) { const char * DNEVR = NULL; if (ds != NULL && ds->i >= 0 && ds->i < ds->Count) { if (ds->DNEVR == NULL) { char t[2] = { ds->Type[0], '\0' }; ds->DNEVR = rpmdsNewDNEVR(t, ds); } DNEVR = ds->DNEVR; } return DNEVR; } rpmsid rpmdsNId(rpmds ds) { return (ds != NULL) ? rpmdsNIdIndex(ds, ds->i) : 0; } rpmsid rpmdsEVRId(rpmds ds) { return (ds != NULL) ? rpmdsEVRIdIndex(ds, ds->i) : 0; } const char * rpmdsN(const rpmds ds) { return (ds != NULL) ? rpmdsNIndex(ds, ds->i) : NULL; } const char * rpmdsEVR(const rpmds ds) { return (ds != NULL) ? rpmdsEVRIndex(ds, ds->i) : NULL; } rpmsenseFlags rpmdsFlags(const rpmds ds) { return (ds != NULL) ? rpmdsFlagsIndex(ds, ds->i) : 0; } rpmTagVal rpmdsTagN(const rpmds ds) { rpmTagVal tagN = RPMTAG_NOT_FOUND; if (ds != NULL) tagN = ds->tagN; return tagN; } unsigned int rpmdsInstance(rpmds ds) { return (ds != NULL) ? ds->instance : 0; } int rpmdsNoPromote(const rpmds ds) { int nopromote = 0; if (ds != NULL) nopromote = ds->nopromote; return nopromote; } int rpmdsSetNoPromote(rpmds ds, int nopromote) { int onopromote = 0; if (ds != NULL) { onopromote = ds->nopromote; ds->nopromote = nopromote; } return onopromote; } rpm_color_t rpmdsColor(const rpmds ds) { rpm_color_t Color = 0; if (ds != NULL && ds->i >= 0 && ds->i < ds->Count) { if (ds->Color != NULL) Color = ds->Color[ds->i]; } return Color; } rpm_color_t rpmdsSetColor(const rpmds ds, rpm_color_t color) { rpm_color_t ocolor = 0; if (ds != NULL && ds->i >= 0 && ds->i < ds->Count) { if (ds->Color == NULL) { ds->Color = xcalloc(ds->Count, sizeof(*ds->Color)); } ocolor = ds->Color[ds->i]; ds->Color[ds->i] = color; } return ocolor; } void rpmdsNotify(rpmds ds, const char * where, int rc) { const char *DNEVR; if (!rpmIsDebug()) return; if (!(ds != NULL && ds->i >= 0 && ds->i < ds->Count)) return; if (!(ds->Type != NULL && (DNEVR = rpmdsDNEVR(ds)) != NULL)) return; rpmlog(RPMLOG_DEBUG, "%9s: %-45s %-s %s\n", ds->Type, (rstreq(DNEVR, "cached") ? DNEVR : DNEVR+2), (rc ? _("NO ") : _("YES")), (where != NULL ? where : "")); } int rpmdsNext(rpmds ds) { int i = -1; if (ds != NULL && ++ds->i >= 0) { if (ds->i < ds->Count) { i = ds->i; ds->DNEVR = _free(ds->DNEVR); } else ds->i = -1; if (_rpmds_debug < 0 && i != -1) fprintf(stderr, "*** ds %p\t%s[%d]: %s\n", ds, (ds->Type ? ds->Type : "?Type?"), i, (ds->DNEVR ? ds->DNEVR : "?DNEVR?")); } return i; } rpmds rpmdsInit(rpmds ds) { if (ds != NULL) { ds->i = -1; ds->DNEVR = _free(ds->DNEVR); } return ds; } static rpmds rpmdsDup(const rpmds ods) { rpmds ds = rpmdsCreate(ods->pool, ods->tagN, ods->Type, ods->Count, ods->instance); size_t nb; ds->i = ods->i; ds->l = ods->l; ds->u = ods->u; ds->nopromote = ods->nopromote; nb = ds->Count * sizeof(*ds->N); ds->N = memcpy(xmalloc(nb), ods->N, nb); /* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */ if (ods->EVR) { nb = ds->Count * sizeof(*ds->EVR); ds->EVR = memcpy(xmalloc(nb), ods->EVR, nb); } if (ods->Flags) { nb = ds->Count * sizeof(*ds->Flags); ds->Flags = memcpy(xmalloc(nb), ods->Flags, nb); } return ds; } int rpmdsFind(rpmds ds, const rpmds ods) { int comparison; const char *N, *ON = rpmdsN(ods); const char *EVR, *OEVR = rpmdsEVR(ods); rpmsenseFlags Flags, OFlags = rpmdsFlags(ods); int rc = -1; /* assume not found */ if (ds == NULL || ods == NULL) return -1; ds->l = 0; ds->u = ds->Count; while (ds->l < ds->u) { ds->i = (ds->l + ds->u) / 2; N = rpmdsN(ds); EVR = rpmdsEVR(ds); Flags = rpmdsFlags(ds); comparison = strcmp(ON, N); /* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */ if (comparison == 0 && OEVR && EVR) comparison = strcmp(OEVR, EVR); if (comparison == 0 && OFlags && Flags) comparison = OFlags - Flags; if (comparison < 0) ds->u = ds->i; else if (comparison > 0) ds->l = ds->i + 1; else { rc = ds->i; break; } } return rc; } int rpmdsMerge(rpmds * dsp, rpmds ods) { rpmds ds; int save; if (dsp == NULL || ods == NULL) return -1; /* If not initialized yet, dup the 1st entry. */ if (*dsp == NULL) { save = ods->Count; ods->Count = 1; *dsp = rpmdsDup(ods); ods->Count = save; } ds = *dsp; if (ds == NULL) return -1; /* Ensure EVR and Flags exist */ if (ds->EVR == NULL) ds->EVR = xcalloc(ds->Count, sizeof(*ds->EVR)); if (ds->Flags == NULL) ds->Flags = xcalloc(ds->Count, sizeof(*ds->Flags)); /* * Add new entries. */ save = ods->i; ods = rpmdsInit(ods); while (rpmdsNext(ods) >= 0) { const char *OEVR; /* * If this entry is already present, don't bother. */ if (rpmdsFind(ds, ods) >= 0) continue; /* * Insert new entry. Ensure pool is unfrozen to allow additions. */ rpmstrPoolUnfreeze(ds->pool); ds->N = xrealloc(ds->N, (ds->Count+1) * sizeof(*ds->N)); if (ds->u < ds->Count) { memmove(ds->N + ds->u + 1, ds->N + ds->u, (ds->Count - ds->u) * sizeof(*ds->N)); } ds->N[ds->u] = rpmstrPoolId(ds->pool, rpmdsN(ods), 1); ds->EVR = xrealloc(ds->EVR, (ds->Count+1) * sizeof(*ds->EVR)); if (ds->u < ds->Count) { memmove(ds->EVR + ds->u + 1, ds->EVR + ds->u, (ds->Count - ds->u) * sizeof(*ds->EVR)); } OEVR = rpmdsEVR(ods); ds->EVR[ds->u] = rpmstrPoolId(ds->pool, OEVR ? OEVR : "", 1); ds->Flags = xrealloc(ds->Flags, (ds->Count+1) * sizeof(*ds->Flags)); if (ds->u < ds->Count) { memmove(ds->Flags + ds->u + 1, ds->Flags + ds->u, (ds->Count - ds->u) * sizeof(*ds->Flags)); } ds->Flags[ds->u] = rpmdsFlags(ods); ds->i = ds->Count; ds->Count++; } ods->i = save; return 0; } int rpmdsSearch(rpmds ds, rpmds ods) { int comparison; int i, l, u; const char *ON = rpmdsN(ods); if (ds == NULL || ods == NULL) return -1; /* Binary search to find the [l,u) subset that contains N */ i = -1; l = 0; u = ds->Count; while (l < u) { i = (l + u) / 2; comparison = strcmp(ON, rpmdsNIndex(ds, i)); if (comparison < 0) u = i; else if (comparison > 0) l = i + 1; else { /* Set l to 1st member of set that contains N. */ if (!rstreq(ON, rpmdsNIndex(ds, l))) l = i; while (l > 0 && rstreq(ON, rpmdsNIndex(ds, l-1))) l--; /* Set u to 1st member of set that does not contain N. */ if (u >= ds->Count || !rstreq(ON, rpmdsNIndex(ds, u))) u = i; while (++u < ds->Count) { if (!rstreq(ON, rpmdsNIndex(ds, u))) break; } break; } } /* Check each member of [l,u) subset for ranges overlap. */ i = -1; if (l < u) { int save = rpmdsSetIx(ds, l-1); while ((l = rpmdsNext(ds)) >= 0 && (l < u)) { if ((i = rpmdsCompare(ods, ds)) != 0) break; } /* Return element index that overlaps, or -1. */ if (i) i = rpmdsIx(ds); else { (void) rpmdsSetIx(ds, save); i = -1; } } return i; } /** * Split EVR into epoch, version, and release components. * @param evr [epoch:]version[-release] string * @retval *ep pointer to epoch * @retval *vp pointer to version * @retval *rp pointer to release */ static void parseEVR(char * evr, const char ** ep, const char ** vp, const char ** rp) { const char *epoch; const char *version; /* assume only version is present */ const char *release; char *s, *se; s = evr; while (*s && risdigit(*s)) s++; /* s points to epoch terminator */ se = strrchr(s, '-'); /* se points to version terminator */ if (*s == ':') { epoch = evr; *s++ = '\0'; version = s; if (*epoch == '\0') epoch = "0"; } else { epoch = NULL; /* XXX disable epoch compare if missing */ version = evr; } if (se) { *se++ = '\0'; release = se; } else { release = NULL; } if (ep) *ep = epoch; if (vp) *vp = version; if (rp) *rp = release; } static inline int rpmdsCompareEVR(const char *AEVR, uint32_t AFlags, const char *BEVR, uint32_t BFlags, int nopromote) { const char *aE, *aV, *aR, *bE, *bV, *bR; char *aEVR = xstrdup(AEVR); char *bEVR = xstrdup(BEVR); int sense = 0; int result = 0; parseEVR(aEVR, &aE, &aV, &aR); parseEVR(bEVR, &bE, &bV, &bR); /* Compare {A,B} [epoch:]version[-release] */ if (aE && *aE && bE && *bE) sense = rpmvercmp(aE, bE); else if (aE && *aE && atol(aE) > 0) { if (!nopromote) { sense = 0; } else sense = 1; } else if (bE && *bE && atol(bE) > 0) sense = -1; if (sense == 0) { sense = rpmvercmp(aV, bV); if (sense == 0) { if (aR && *aR && bR && *bR) { sense = rpmvercmp(aR, bR); } else { /* always matches if the side with no release has SENSE_EQUAL */ if ((aR && *aR && (BFlags & RPMSENSE_EQUAL)) || (bR && *bR && (AFlags & RPMSENSE_EQUAL))) { aEVR = _free(aEVR); bEVR = _free(bEVR); result = 1; goto exit; } } } } /* Detect overlap of {A,B} range. */ if (sense < 0 && ((AFlags & RPMSENSE_GREATER) || (BFlags & RPMSENSE_LESS))) { result = 1; } else if (sense > 0 && ((AFlags & RPMSENSE_LESS) || (BFlags & RPMSENSE_GREATER))) { result = 1; } else if (sense == 0 && (((AFlags & RPMSENSE_EQUAL) && (BFlags & RPMSENSE_EQUAL)) || ((AFlags & RPMSENSE_LESS) && (BFlags & RPMSENSE_LESS)) || ((AFlags & RPMSENSE_GREATER) && (BFlags & RPMSENSE_GREATER)))) { result = 1; } exit: free(aEVR); free(bEVR); return result; } int rpmdsCompare(const rpmds A, const rpmds B) { const char *AEVR, *BEVR; rpmsenseFlags AFlags, BFlags; int result; /* Different names don't overlap. */ if (!rpmstrPoolStreq(A->pool, rpmdsNId(A), B->pool, rpmdsNId(B))) { result = 0; goto exit; } /* XXX rpm prior to 3.0.2 did not always supply EVR and Flags. */ if (!(A->EVR && A->Flags && B->EVR && B->Flags)) { result = 1; goto exit; } /* Same name. If either A or B is an existence test, always overlap. */ AFlags = rpmdsFlags(A); BFlags = rpmdsFlags(B); if (!((AFlags & RPMSENSE_SENSEMASK) && (BFlags & RPMSENSE_SENSEMASK))) { result = 1; goto exit; } AEVR = rpmdsEVR(A); BEVR = rpmdsEVR(B); if (!(AEVR && *AEVR && BEVR && *BEVR)) { /* If either EVR is non-existent or empty, always overlap. */ result = 1; } else { /* Both AEVR and BEVR exist, compare [epoch:]version[-release]. */ result = rpmdsCompareEVR(AEVR, AFlags, BEVR, BFlags, B->nopromote); } exit: return result; } int rpmdsMatches(rpmstrPool pool, Header h, int prix, rpmds req, int selfevr, int nopromote) { rpmds provides; rpmTagVal tag = RPMTAG_PROVIDENAME; int result = 0; /* Get provides information from header */ if (selfevr) provides = rpmdsThisPool(pool, h, tag, RPMSENSE_EQUAL); else provides = rpmdsNewPool(pool, h, tag, 0); rpmdsSetNoPromote(provides, nopromote); /* * For a self-provide and indexed provide, we only need one comparison. * Otherwise loop through the provides until match or end. */ if (prix >= 0 || selfevr) { if (prix >= 0) rpmdsSetIx(provides, prix); result = rpmdsCompare(provides, req); } else { provides = rpmdsInit(provides); while (rpmdsNext(provides) >= 0) { result = rpmdsCompare(provides, req); /* If this provide matches the require, we're done. */ if (result) break; } } rpmdsFree(provides); return result; } int rpmdsMatchesDep (const Header h, int ix, const rpmds req, int nopromote) { return rpmdsMatches(NULL, h, ix, req, 0, nopromote); } int rpmdsAnyMatchesDep (const Header h, const rpmds req, int nopromote) { return rpmdsMatches(NULL, h, -1, req, 0, nopromote); } int rpmdsNVRMatchesDep(const Header h, const rpmds req, int nopromote) { return rpmdsMatches(NULL, h, -1, req, 1, nopromote); } /** */ struct rpmlibProvides_s { const char * featureName; const char * featureEVR; rpmsenseFlags featureFlags; const char * featureDescription; }; static const struct rpmlibProvides_s rpmlibProvides[] = { { "rpmlib(VersionedDependencies)", "3.0.3-1", (RPMSENSE_RPMLIB|RPMSENSE_EQUAL), N_("PreReq:, Provides:, and Obsoletes: dependencies support versions.") }, { "rpmlib(CompressedFileNames)", "3.0.4-1", (RPMSENSE_RPMLIB|RPMSENSE_EQUAL), N_("file name(s) stored as (dirName,baseName,dirIndex) tuple, not as path.")}, #if HAVE_BZLIB_H { "rpmlib(PayloadIsBzip2)", "3.0.5-1", (RPMSENSE_RPMLIB|RPMSENSE_EQUAL), N_("package payload can be compressed using bzip2.") }, #endif #if HAVE_LZMA_H { "rpmlib(PayloadIsXz)", "5.2-1", (RPMSENSE_RPMLIB|RPMSENSE_EQUAL), N_("package payload can be compressed using xz.") }, { "rpmlib(PayloadIsLzma)", "4.4.2-1", (RPMSENSE_RPMLIB|RPMSENSE_EQUAL), N_("package payload can be compressed using lzma.") }, #endif { "rpmlib(PayloadFilesHavePrefix)", "4.0-1", (RPMSENSE_RPMLIB|RPMSENSE_EQUAL), N_("package payload file(s) have \"./\" prefix.") }, { "rpmlib(ExplicitPackageProvide)", "4.0-1", (RPMSENSE_RPMLIB|RPMSENSE_EQUAL), N_("package name-version-release is not implicitly provided.") }, { "rpmlib(HeaderLoadSortsTags)", "4.0.1-1", ( RPMSENSE_EQUAL), N_("header tags are always sorted after being loaded.") }, { "rpmlib(ScriptletInterpreterArgs)", "4.0.3-1", ( RPMSENSE_EQUAL), N_("the scriptlet interpreter can use arguments from header.") }, { "rpmlib(PartialHardlinkSets)", "4.0.4-1", ( RPMSENSE_EQUAL), N_("a hardlink file set may be installed without being complete.") }, { "rpmlib(ConcurrentAccess)", "4.1-1", ( RPMSENSE_EQUAL), N_("package scriptlets may access the rpm database while installing.") }, #ifdef WITH_LUA { "rpmlib(BuiltinLuaScripts)", "4.2.2-1", ( RPMSENSE_EQUAL), N_("internal support for lua scripts.") }, #endif { "rpmlib(FileDigests)", "4.6.0-1", ( RPMSENSE_EQUAL), N_("file digest algorithm is per package configurable") }, #ifdef WITH_CAP { "rpmlib(FileCaps)", "4.6.1-1", ( RPMSENSE_EQUAL), N_("support for POSIX.1e file capabilities") }, #endif { "rpmlib(ScriptletExpansion)", "4.9.0-1", ( RPMSENSE_EQUAL), N_("package scriptlets can be expanded at install time.") }, { "rpmlib(TildeInVersions)", "4.10.0-1", ( RPMSENSE_EQUAL), N_("dependency comparison supports versions with tilde.") }, { NULL, NULL, 0, NULL } }; int rpmdsRpmlibPool(rpmstrPool pool, rpmds * dsp, const void * tblp) { const struct rpmlibProvides_s * rltblp = tblp; const struct rpmlibProvides_s * rlp; int rc = 0; if (rltblp == NULL) rltblp = rpmlibProvides; for (rlp = rltblp; rlp->featureName != NULL && rc == 0; rlp++) { rpmds ds = rpmdsSinglePool(pool, RPMTAG_PROVIDENAME, rlp->featureName, rlp->featureEVR, rlp->featureFlags); rc = rpmdsMerge(dsp, ds); rpmdsFree(ds); } /* freeze the pool to save memory, but only if private pool */ if (*dsp && (*dsp)->pool != pool) rpmstrPoolFreeze((*dsp)->pool, 0); return rc; } int rpmdsRpmlib(rpmds * dsp, const void * tblp) { return rpmdsRpmlibPool(NULL, dsp, tblp); } rpmstrPool rpmdsPool(rpmds ds) { return (ds != NULL) ? ds->pool : NULL; }