/** \ingroup rpmdep * \file lib/rpmts.c * Routine(s) to handle a "rpmts" transaction sets. */ #include "system.h" #include #include #include #include /* rpmReadPackage etc */ #include #include /* rpmtsOpenDB() needs rpmGetPath */ #include #include #include #include #include #include #include #include "rpmio/digest.h" #include "lib/rpmal.h" #include "lib/rpmts_internal.h" #include "lib/rpmte_internal.h" #include "lib/misc.h" #include "debug.h" /** * Iterator across transaction elements, forward on install, backward on erase. */ struct rpmtsi_s { rpmts ts; /*!< transaction set. */ int oc; /*!< iterator index. */ }; static void loadKeyring(rpmts ts); int _rpmts_stats = 0; rpmts rpmtsUnlink(rpmts ts) { if (ts) ts->nrefs--; return NULL; } rpmts rpmtsLink(rpmts ts) { if (ts) ts->nrefs++; return ts; } int rpmtsCloseDB(rpmts ts) { int rc = 0; if (ts->rdb != NULL) { (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_DBGET), rpmdbOp(ts->rdb, RPMDB_OP_DBGET)); (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_DBPUT), rpmdbOp(ts->rdb, RPMDB_OP_DBPUT)); (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_DBDEL), rpmdbOp(ts->rdb, RPMDB_OP_DBDEL)); rc = rpmdbClose(ts->rdb); ts->rdb = NULL; } return rc; } int rpmtsOpenDB(rpmts ts, int dbmode) { int rc = 0; if (ts->rdb != NULL && ts->dbmode == dbmode) return 0; (void) rpmtsCloseDB(ts); /* XXX there's a potential db lock race here. */ ts->dbmode = dbmode; rc = rpmdbOpen(ts->rootDir, &ts->rdb, ts->dbmode, 0644); if (rc) { char * dn = rpmGetPath(ts->rootDir, "%{_dbpath}", NULL); rpmlog(RPMLOG_ERR, _("cannot open Packages database in %s\n"), dn); dn = _free(dn); } return rc; } int rpmtsInitDB(rpmts ts, int dbmode) { rpmlock lock = rpmtsAcquireLock(ts); int rc = -1; if (lock) rc = rpmdbInit(ts->rootDir, dbmode); rpmlockFree(lock); return rc; } int rpmtsGetDBMode(rpmts ts) { assert(ts != NULL); return (ts->dbmode); } int rpmtsSetDBMode(rpmts ts, int dbmode) { int rc = 1; /* mode setting only permitted on non-open db */ if (ts != NULL && rpmtsGetRdb(ts) == NULL) { ts->dbmode = dbmode; rc = 0; } return rc; } int rpmtsRebuildDB(rpmts ts) { int rc; rpmlock lock = rpmtsAcquireLock(ts); if (!lock) return -1; if (!(ts->vsflags & RPMVSF_NOHDRCHK)) rc = rpmdbRebuild(ts->rootDir, ts, headerCheck); else rc = rpmdbRebuild(ts->rootDir, NULL, NULL); rpmlockFree(lock); return rc; } int rpmtsVerifyDB(rpmts ts) { int rc = -1; rpmlock lock = rpmtsAcquireLock(ts); if (lock) { rc = rpmdbVerify(ts->rootDir); rpmlockFree(lock); } return rc; } /* keyp might no be defined. */ rpmdbMatchIterator rpmtsInitIterator(const rpmts ts, rpmTag rpmtag, const void * keyp, size_t keylen) { rpmdbMatchIterator mi = NULL; const char * arch = NULL; char *tmp = NULL; int xx; if (ts->keyring == NULL) loadKeyring(ts); if (ts->rdb == NULL && rpmtsOpenDB(ts, ts->dbmode)) return NULL; /* Parse out "N(EVR).A" tokens from a label key. */ if (rpmtag == RPMDBI_LABEL && keyp != NULL) { const char *se, *s = keyp; char *t; size_t slen = strlen(s); int level = 0; int c; tmp = xmalloc(slen+1); keyp = t = tmp; while ((c = *s++) != '\0') { switch (c) { default: *t++ = c; break; case '(': /* XXX Fail if nested parens. */ if (level++ != 0) { rpmlog(RPMLOG_ERR, _("extra '(' in package label: %s\n"), (const char*)keyp); goto exit; } /* Parse explicit epoch. */ for (se = s; *se && risdigit(*se); se++) {}; if (*se == ':') { /* XXX skip explicit epoch's (for now) */ *t++ = '-'; s = se + 1; } else { /* No Epoch: found. Convert '(' to '-' and chug. */ *t++ = '-'; } break; case ')': /* XXX Fail if nested parens. */ if (--level != 0) { rpmlog(RPMLOG_ERR, _("missing '(' in package label: %s\n"), (const char*)keyp); goto exit; } /* Don't copy trailing ')' */ break; } } if (level) { rpmlog(RPMLOG_ERR, _("missing ')' in package label: %s\n"), (const char*)keyp); goto exit; } *t = '\0'; t = (char *) keyp; t = strrchr(t, '.'); /* Is this a valid ".arch" suffix? */ if (t != NULL && rpmIsKnownArch(t+1)) { *t++ = '\0'; arch = t; } } mi = rpmdbInitIterator(ts->rdb, rpmtag, keyp, keylen); /* Verify header signature/digest during retrieve (if not disabled). */ if (mi && !(ts->vsflags & RPMVSF_NOHDRCHK)) (void) rpmdbSetHdrChk(mi, ts, headerCheck); /* Select specified arch only. */ if (arch != NULL) xx = rpmdbSetIteratorRE(mi, RPMTAG_ARCH, RPMMIRE_DEFAULT, arch); exit: free(tmp); return mi; } rpmKeyring rpmtsGetKeyring(rpmts ts, int autoload) { rpmKeyring keyring = NULL; if (ts) { if (ts->keyring == NULL && autoload) { loadKeyring(ts); } keyring = rpmKeyringLink(ts->keyring); } return keyring; } int rpmtsSetKeyring(rpmts ts, rpmKeyring keyring) { /* * Should we permit switching keyring on the fly? For now, require * rpmdb isn't open yet (fairly arbitrary limitation)... */ if (ts == NULL || rpmtsGetRdb(ts) != NULL) return -1; rpmKeyringFree(ts->keyring); ts->keyring = rpmKeyringLink(keyring); return 0; } static int loadKeyringFromFiles(rpmts ts) { ARGV_t files = NULL; /* XXX TODO: deal with chroot path issues */ char *pkpath = rpmGetPath(ts->rootDir, "%{_keyringpath}/*.key", NULL); int nkeys = 0; rpmlog(RPMLOG_DEBUG, "loading keyring from pubkeys in %s\n", pkpath); if (rpmGlob(pkpath, NULL, &files)) { rpmlog(RPMLOG_DEBUG, "couldn't find any keys in %s\n", pkpath); goto exit; } for (char **f = files; *f; f++) { rpmPubkey key = rpmPubkeyRead(*f); if (!key) { rpmlog(RPMLOG_ERR, _("%s: reading of public key failed.\n"), *f); continue; } if (rpmKeyringAddKey(ts->keyring, key) == 0) { nkeys++; rpmlog(RPMLOG_DEBUG, "added key %s to keyring\n", *f); } rpmPubkeyFree(key); } exit: free(pkpath); argvFree(files); return nkeys; } static int loadKeyringFromDB(rpmts ts) { Header h; rpmdbMatchIterator mi; int nkeys = 0; rpmlog(RPMLOG_DEBUG, "loading keyring from rpmdb\n"); mi = rpmtsInitIterator(ts, RPMTAG_NAME, "gpg-pubkey", 0); while ((h = rpmdbNextIterator(mi)) != NULL) { struct rpmtd_s pubkeys; const char *key; if (!headerGet(h, RPMTAG_PUBKEYS, &pubkeys, HEADERGET_MINMEM)) continue; while ((key = rpmtdNextString(&pubkeys))) { uint8_t *pkt; size_t pktlen; if (b64decode(key, (void **) &pkt, &pktlen) == 0) { rpmPubkey key = rpmPubkeyNew(pkt, pktlen); if (rpmKeyringAddKey(ts->keyring, key) == 0) { char *nvr = headerGetAsString(h, RPMTAG_NVR); rpmlog(RPMLOG_DEBUG, "added key %s to keyring\n", nvr); free(nvr); nkeys++; } rpmPubkeyFree(key); free(pkt); } } rpmtdFreeData(&pubkeys); } rpmdbFreeIterator(mi); return nkeys; } static void loadKeyring(rpmts ts) { ts->keyring = rpmKeyringNew(); if (loadKeyringFromFiles(ts) == 0) { if (loadKeyringFromDB(ts) > 0) { /* XXX make this a warning someday... */ rpmlog(RPMLOG_DEBUG, "Using legacy gpg-pubkey(s) from rpmdb\n"); } } } /* Build pubkey header. */ static int makePubkeyHeader(rpmts ts, rpmPubkey key, Header h) { const char * afmt = "%{pubkeys:armor}"; const char * group = "Public Keys"; const char * license = "pubkey"; const char * buildhost = "localhost"; rpmsenseFlags pflags = (RPMSENSE_KEYRING|RPMSENSE_EQUAL); uint32_t zero = 0; pgpDig dig = NULL; pgpDigParams pubp = NULL; char * d = NULL; char * enc = NULL; char * n = NULL; char * u = NULL; char * v = NULL; char * r = NULL; char * evr = NULL; int rc = -1; if ((enc = rpmPubkeyBase64(key)) == NULL) goto exit; if ((dig = rpmPubkeyDig(key)) == NULL) goto exit; /* Build header elements. */ pubp = &dig->pubkey; v = pgpHexStr(pubp->signid, sizeof(pubp->signid)); r = pgpHexStr(pubp->time, sizeof(pubp->time)); rasprintf(&n, "gpg(%s)", v+8); rasprintf(&u, "gpg(%s)", pubp->userid ? pubp->userid : "none"); rasprintf(&evr, "%d:%s-%s", pubp->version, v, r); headerPutString(h, RPMTAG_PUBKEYS, enc); if ((d = headerFormat(h, afmt, NULL)) == NULL) goto exit; headerPutString(h, RPMTAG_NAME, "gpg-pubkey"); headerPutString(h, RPMTAG_VERSION, v+8); headerPutString(h, RPMTAG_RELEASE, r); headerPutString(h, RPMTAG_DESCRIPTION, d); headerPutString(h, RPMTAG_GROUP, group); headerPutString(h, RPMTAG_LICENSE, license); headerPutString(h, RPMTAG_SUMMARY, u); headerPutUint32(h, RPMTAG_SIZE, &zero, 1); headerPutString(h, RPMTAG_PROVIDENAME, u); headerPutString(h, RPMTAG_PROVIDEVERSION, evr); headerPutUint32(h, RPMTAG_PROVIDEFLAGS, &pflags, 1); headerPutString(h, RPMTAG_PROVIDENAME, n); headerPutString(h, RPMTAG_PROVIDEVERSION, evr); headerPutUint32(h, RPMTAG_PROVIDEFLAGS, &pflags, 1); headerPutString(h, RPMTAG_RPMVERSION, RPMVERSION); headerPutString(h, RPMTAG_BUILDHOST, buildhost); headerPutString(h, RPMTAG_SOURCERPM, "(none)"); { rpm_tid_t tid = rpmtsGetTid(ts); headerPutUint32(h, RPMTAG_INSTALLTIME, &tid, 1); headerPutUint32(h, RPMTAG_INSTALLTID, &tid, 1); headerPutUint32(h, RPMTAG_BUILDTIME, &tid, 1); } rc = 0; exit: pgpFreeDig(dig); free(n); free(u); free(v); free(r); free(evr); free(enc); free(d); return rc; } rpmRC rpmtsImportPubkey(const rpmts ts, const unsigned char * pkt, size_t pktlen) { Header h = headerNew(); rpmRC rc = RPMRC_FAIL; /* assume failure */ rpmPubkey pubkey = NULL; rpmKeyring keyring = rpmtsGetKeyring(ts, 1); if ((pubkey = rpmPubkeyNew(pkt, pktlen)) == NULL) goto exit; if (rpmKeyringAddKey(keyring, pubkey) != 0) goto exit; if (makePubkeyHeader(ts, pubkey, h) != 0) goto exit; /* Add header to database. */ if (rpmtsOpenDB(ts, (O_RDWR|O_CREAT))) goto exit; if (rpmdbAdd(rpmtsGetRdb(ts), h) != 0) goto exit; rc = RPMRC_OK; exit: /* Clean up. */ headerFree(h); rpmPubkeyFree(pubkey); rpmKeyringFree(keyring); return rc; } int rpmtsSetSolveCallback(rpmts ts, int (*solve) (rpmts ts, rpmds key, const void * data), const void * solveData) { int rc = 0; if (ts) { ts->solve = solve; ts->solveData = solveData; } return rc; } int rpmtsSolve(rpmts ts, rpmds key) { int rc = 1; /* assume not found */ if (ts && ts->solve) { rc = (*ts->solve)(ts, key, ts->solveData); } return rc; } rpmps rpmtsProblems(rpmts ts) { rpmps ps = rpmpsCreate(); rpmtsi pi = rpmtsiInit(ts); rpmte p; while ((p = rpmtsiNext(pi, 0)) != NULL) { rpmps teprobs = rpmteProblems(p); rpmpsMerge(ps, teprobs); rpmpsFree(teprobs); } pi = rpmtsiFree(pi); return ps; } void rpmtsCleanProblems(rpmts ts) { rpmte p; rpmtsi pi = rpmtsiInit(ts); while ((p = rpmtsiNext(pi, 0)) != NULL) rpmteCleanProblems(p); pi = rpmtsiFree(pi); } void rpmtsClean(rpmts ts) { rpmtsi pi; rpmte p; tsMembers tsmem = rpmtsMembers(ts); if (ts == NULL) return; /* Clean up after dependency checks. */ pi = rpmtsiInit(ts); while ((p = rpmtsiNext(pi, 0)) != NULL) rpmteCleanDS(p); pi = rpmtsiFree(pi); tsmem->addedPackages = rpmalFree(tsmem->addedPackages); tsmem->numAddedPackages = 0; rpmtsCleanProblems(ts); } /* hash comparison function */ static int uintCmp(unsigned int a, unsigned int b) { return (a != b); } /* "hash"function*/ static unsigned int uintId(unsigned int a) { return a; } void rpmtsEmpty(rpmts ts) { tsMembers tsmem = rpmtsMembers(ts); if (ts == NULL) return; rpmtsClean(ts); for (int oc = 0; oc < tsmem->orderCount; oc++) { tsmem->order[oc] = rpmteFree(tsmem->order[oc]); } tsmem->orderCount = 0; intHashEmpty(tsmem->removedPackages); return; } static void rpmtsPrintStat(const char * name, struct rpmop_s * op) { static const unsigned int scale = (1000 * 1000); if (op != NULL && op->count > 0) fprintf(stderr, " %s %6d %6lu.%06lu MB %6lu.%06lu secs\n", name, op->count, (unsigned long)op->bytes/scale, (unsigned long)op->bytes%scale, op->usecs/scale, op->usecs%scale); } static void rpmtsPrintStats(rpmts ts) { (void) rpmswExit(rpmtsOp(ts, RPMTS_OP_TOTAL), 0); rpmtsPrintStat("total: ", rpmtsOp(ts, RPMTS_OP_TOTAL)); rpmtsPrintStat("check: ", rpmtsOp(ts, RPMTS_OP_CHECK)); rpmtsPrintStat("order: ", rpmtsOp(ts, RPMTS_OP_ORDER)); rpmtsPrintStat("fingerprint: ", rpmtsOp(ts, RPMTS_OP_FINGERPRINT)); rpmtsPrintStat("install: ", rpmtsOp(ts, RPMTS_OP_INSTALL)); rpmtsPrintStat("erase: ", rpmtsOp(ts, RPMTS_OP_ERASE)); rpmtsPrintStat("scriptlets: ", rpmtsOp(ts, RPMTS_OP_SCRIPTLETS)); rpmtsPrintStat("compress: ", rpmtsOp(ts, RPMTS_OP_COMPRESS)); rpmtsPrintStat("uncompress: ", rpmtsOp(ts, RPMTS_OP_UNCOMPRESS)); rpmtsPrintStat("digest: ", rpmtsOp(ts, RPMTS_OP_DIGEST)); rpmtsPrintStat("signature: ", rpmtsOp(ts, RPMTS_OP_SIGNATURE)); rpmtsPrintStat("dbadd: ", rpmtsOp(ts, RPMTS_OP_DBADD)); rpmtsPrintStat("dbremove: ", rpmtsOp(ts, RPMTS_OP_DBREMOVE)); rpmtsPrintStat("dbget: ", rpmtsOp(ts, RPMTS_OP_DBGET)); rpmtsPrintStat("dbput: ", rpmtsOp(ts, RPMTS_OP_DBPUT)); rpmtsPrintStat("dbdel: ", rpmtsOp(ts, RPMTS_OP_DBDEL)); } rpmts rpmtsFree(rpmts ts) { tsMembers tsmem = rpmtsMembers(ts); if (ts == NULL) return NULL; if (ts->nrefs > 1) return rpmtsUnlink(ts); rpmtsEmpty(ts); (void) rpmtsCloseDB(ts); tsmem->removedPackages = intHashFree(tsmem->removedPackages); tsmem->order = _free(tsmem->order); ts->members = _free(ts->members); ts->dsi = _free(ts->dsi); if (ts->scriptFd != NULL) { ts->scriptFd = fdFree(ts->scriptFd); ts->scriptFd = NULL; } ts->rootDir = _free(ts->rootDir); ts->currDir = _free(ts->currDir); ts->lockPath = _free(ts->lockPath); ts->keyring = rpmKeyringFree(ts->keyring); ts->netsharedPaths = argvFree(ts->netsharedPaths); ts->installLangs = argvFree(ts->installLangs); if (_rpmts_stats) rpmtsPrintStats(ts); (void) rpmtsUnlink(ts); ts = _free(ts); return NULL; } rpmVSFlags rpmtsVSFlags(rpmts ts) { rpmVSFlags vsflags = 0; if (ts != NULL) vsflags = ts->vsflags; return vsflags; } rpmVSFlags rpmtsSetVSFlags(rpmts ts, rpmVSFlags vsflags) { rpmVSFlags ovsflags = 0; if (ts != NULL) { ovsflags = ts->vsflags; ts->vsflags = vsflags; } return ovsflags; } const char * rpmtsRootDir(rpmts ts) { return ts ? ts->rootDir : NULL; } int rpmtsSetRootDir(rpmts ts, const char * rootDir) { if (ts == NULL || (rootDir && rootDir[0] != '/')) { return -1; } ts->rootDir = _free(ts->rootDir); /* Ensure clean path with a trailing slash */ ts->rootDir = rootDir ? rpmGetPath(rootDir, NULL) : xstrdup("/"); if (!rstreq(ts->rootDir, "/")) { rstrcat(&ts->rootDir, "/"); } return 0; } const char * rpmtsCurrDir(rpmts ts) { const char * currDir = NULL; if (ts != NULL) { currDir = ts->currDir; } return currDir; } void rpmtsSetCurrDir(rpmts ts, const char * currDir) { if (ts != NULL) { ts->currDir = _free(ts->currDir); if (currDir) ts->currDir = xstrdup(currDir); } } FD_t rpmtsScriptFd(rpmts ts) { FD_t scriptFd = NULL; if (ts != NULL) { scriptFd = ts->scriptFd; } return scriptFd; } void rpmtsSetScriptFd(rpmts ts, FD_t scriptFd) { if (ts != NULL) { if (ts->scriptFd != NULL) { ts->scriptFd = fdFree(ts->scriptFd); ts->scriptFd = NULL; } if (scriptFd != NULL) ts->scriptFd = fdLink(scriptFd); } } int rpmtsSELinuxEnabled(rpmts ts) { return (ts != NULL ? (ts->selinuxEnabled > 0) : 0); } int rpmtsChrootDone(rpmts ts) { return (ts != NULL ? ts->chrootDone : 0); } int rpmtsSetChrootDone(rpmts ts, int chrootDone) { int ochrootDone = 0; if (ts != NULL) { ochrootDone = ts->chrootDone; rpmdbSetChrootDone(rpmtsGetRdb(ts), chrootDone); ts->chrootDone = chrootDone; } return ochrootDone; } rpm_tid_t rpmtsGetTid(rpmts ts) { rpm_tid_t tid = (rpm_tid_t)-1; /* XXX -1 is time(2) error return. */ if (ts != NULL) { tid = ts->tid; } return tid; } rpm_tid_t rpmtsSetTid(rpmts ts, rpm_tid_t tid) { rpm_tid_t otid = (rpm_tid_t)-1; /* XXX -1 is time(2) error return. */ if (ts != NULL) { otid = ts->tid; ts->tid = tid; } return otid; } rpmdb rpmtsGetRdb(rpmts ts) { rpmdb rdb = NULL; if (ts != NULL) { rdb = ts->rdb; } return rdb; } void * rpmtsNotify(rpmts ts, rpmte te, rpmCallbackType what, rpm_loff_t amount, rpm_loff_t total) { void * ptr = NULL; if (ts && ts->notify) { Header h = NULL; fnpyKey cbkey = NULL; if (te) { h = rpmteHeader(te); cbkey = rpmteKey(te); } ptr = ts->notify(h, what, amount, total, cbkey, ts->notifyData); if (h) { headerUnlink(h); /* undo rpmteHeader() ref */ } } return ptr; } int rpmtsNElements(rpmts ts) { int nelements = 0; tsMembers tsmem = rpmtsMembers(ts); if (tsmem != NULL && tsmem->order != NULL) { nelements = tsmem->orderCount; } return nelements; } rpmte rpmtsElement(rpmts ts, int ix) { rpmte te = NULL; tsMembers tsmem = rpmtsMembers(ts); if (tsmem != NULL && tsmem->order != NULL) { if (ix >= 0 && ix < tsmem->orderCount) te = tsmem->order[ix]; } return te; } rpmprobFilterFlags rpmtsFilterFlags(rpmts ts) { return (ts != NULL ? ts->ignoreSet : 0); } rpmtransFlags rpmtsFlags(rpmts ts) { return (ts != NULL ? ts->transFlags : 0); } rpmtransFlags rpmtsSetFlags(rpmts ts, rpmtransFlags transFlags) { rpmtransFlags otransFlags = 0; if (ts != NULL) { otransFlags = ts->transFlags; ts->transFlags = transFlags; } return otransFlags; } rpmSpec rpmtsSpec(rpmts ts) { return ts->spec; } rpmSpec rpmtsSetSpec(rpmts ts, rpmSpec spec) { rpmSpec ospec = ts->spec; ts->spec = spec; return ospec; } rpm_color_t rpmtsColor(rpmts ts) { return (ts != NULL ? ts->color : 0); } rpm_color_t rpmtsSetColor(rpmts ts, rpm_color_t color) { rpm_color_t ocolor = 0; if (ts != NULL) { ocolor = ts->color; ts->color = color; } return ocolor; } rpm_color_t rpmtsPrefColor(rpmts ts) { return (ts != NULL ? ts->prefcolor : 0); } rpm_color_t rpmtsSetPrefColor(rpmts ts, rpm_color_t color) { rpm_color_t ocolor = 0; if (ts != NULL) { ocolor = ts->prefcolor; ts->prefcolor = color; } return ocolor; } rpmop rpmtsOp(rpmts ts, rpmtsOpX opx) { rpmop op = NULL; if (ts != NULL && opx >= 0 && opx < RPMTS_OP_MAX) op = ts->ops + opx; return op; } int rpmtsSetNotifyCallback(rpmts ts, rpmCallbackFunction notify, rpmCallbackData notifyData) { if (ts != NULL) { ts->notify = notify; ts->notifyData = notifyData; } return 0; } tsMembers rpmtsMembers(rpmts ts) { return (ts != NULL) ? ts->members : NULL; } rpmts rpmtsCreate(void) { rpmts ts; tsMembers tsmem; ts = xcalloc(1, sizeof(*ts)); memset(&ts->ops, 0, sizeof(ts->ops)); (void) rpmswEnter(rpmtsOp(ts, RPMTS_OP_TOTAL), -1); ts->dsi = NULL; ts->solve = NULL; ts->solveData = NULL; ts->rdb = NULL; ts->dbmode = O_RDONLY; ts->scriptFd = NULL; ts->tid = (rpm_tid_t) time(NULL); ts->color = rpmExpandNumeric("%{?_transaction_color}"); ts->prefcolor = rpmExpandNumeric("%{?_prefer_color}")?:2; ts->netsharedPaths = NULL; ts->installLangs = NULL; { char *tmp = rpmExpand("%{_netsharedpath}", NULL); if (tmp && *tmp != '%') { argvSplit(&ts->netsharedPaths, tmp, ":"); } free(tmp); tmp = rpmExpand("%{_install_langs}", NULL); if (tmp && *tmp != '%') { ARGV_t langs = NULL; argvSplit(&langs, tmp, ":"); /* If we'll be installing all languages anyway, don't bother */ for (ARGV_t l = langs; *l; l++) { if (rstreq(*l, "all")) { langs = argvFree(langs); break; } } ts->installLangs = langs; } free(tmp); } tsmem = xcalloc(1, sizeof(*ts->members)); tsmem->delta = 5; tsmem->numAddedPackages = 0; tsmem->addedPackages = NULL; tsmem->removedPackages = intHashCreate(128, uintId, uintCmp, NULL); tsmem->orderAlloced = 0; tsmem->orderCount = 0; tsmem->order = NULL; ts->members = tsmem; ts->rootDir = NULL; ts->currDir = NULL; ts->chrootDone = 0; ts->selinuxEnabled = is_selinux_enabled(); ts->keyring = NULL; ts->nrefs = 0; return rpmtsLink(ts); } rpmtsi rpmtsiFree(rpmtsi tsi) { /* XXX watchout: a funky recursion segfaults here iff nrefs is wrong. */ if (tsi) tsi->ts = rpmtsFree(tsi->ts); return _free(tsi); } rpmtsi rpmtsiInit(rpmts ts) { rpmtsi tsi = NULL; tsi = xcalloc(1, sizeof(*tsi)); tsi->ts = rpmtsLink(ts); tsi->oc = 0; return tsi; } /** * Return next transaction element. * @param tsi transaction element iterator * @return transaction element, NULL on termination */ static rpmte rpmtsiNextElement(rpmtsi tsi) { rpmte te = NULL; int oc = -1; if (tsi == NULL || tsi->ts == NULL || rpmtsNElements(tsi->ts) <= 0) return te; if (tsi->oc < rpmtsNElements(tsi->ts)) oc = tsi->oc++; if (oc != -1) te = rpmtsElement(tsi->ts, oc); return te; } rpmte rpmtsiNext(rpmtsi tsi, rpmElementType type) { rpmte te; while ((te = rpmtsiNextElement(tsi)) != NULL) { if (type == 0 || (rpmteType(te) & type) != 0) break; } return te; } #define RPMLOCK_PATH LOCALSTATEDIR "/rpm/.rpm.lock" rpmlock rpmtsAcquireLock(rpmts ts) { static const char * const rpmlock_path_default = "%{?_rpmlock_path}"; if (ts->lockPath == NULL) { const char *rootDir = rpmtsRootDir(ts); char *t; if (!rootDir || rpmtsChrootDone(ts)) rootDir = "/"; t = rpmGenPath(rootDir, rpmlock_path_default, NULL); if (t == NULL || *t == '\0' || *t == '%') { free(t); t = xstrdup(RPMLOCK_PATH); } ts->lockPath = xstrdup(t); (void) rpmioMkpath(dirname(t), 0755, getuid(), getgid()); free(t); } return rpmlockAcquire(ts->lockPath, _("transaction")); }