/** \ingroup rpmcli * \file lib/verify.c * Verify installed payload files from package metadata. */ #include "system.h" #include #if WITH_CAP #include #endif #if WITH_ACL #include #endif #include #include #include #include #include #include #include #include "lib/misc.h" #include "lib/rpmchroot.h" #include "lib/rpmte_internal.h" /* rpmteProcess() */ #include "lib/rpmug.h" #include "debug.h" #define S_ISDEV(m) (S_ISBLK((m)) || S_ISCHR((m))) /* If cap_compare() (Linux extension) not available, do it the hard way */ #if WITH_CAP && !defined(HAVE_CAP_COMPARE) static int cap_compare(cap_t acap, cap_t bcap) { int rc = 0; size_t asize = cap_size(acap); size_t bsize = cap_size(bcap); if (asize != bsize) { rc = 1; } else { char *abuf = xcalloc(asize, sizeof(*abuf)); char *bbuf = xcalloc(bsize, sizeof(*bbuf)); cap_copy_ext(abuf, acap, asize); cap_copy_ext(bbuf, bcap, bsize); rc = memcmp(abuf, bbuf, asize); free(abuf); free(bbuf); } return rc; } #endif int rpmVerifyFile(const rpmts ts, const rpmfi fi, rpmVerifyAttrs * res, rpmVerifyAttrs omitMask) { rpm_mode_t fmode = rpmfiFMode(fi); rpmfileAttrs fileAttrs = rpmfiFFlags(fi); rpmVerifyAttrs flags = rpmfiVFlags(fi); const char * fn = rpmfiFN(fi); struct stat sb; int rc; *res = RPMVERIFY_NONE; /* * Check to see if the file was installed - if not pretend all is OK. */ switch (rpmfiFState(fi)) { case RPMFILE_STATE_NETSHARED: case RPMFILE_STATE_NOTINSTALLED: case RPMFILE_STATE_MISSING: return 0; break; case RPMFILE_STATE_REPLACED: /* For replaced files we can only verify if it exists at all */ flags = RPMVERIFY_LSTATFAIL; break; case RPMFILE_STATE_WRONGCOLOR: /* * Files with wrong color are supposed to share some attributes * with the actually installed file - verify what we can. */ flags &= ~(RPMVERIFY_FILEDIGEST | RPMVERIFY_FILESIZE | RPMVERIFY_MTIME | RPMVERIFY_RDEV); break; case RPMFILE_STATE_NORMAL: break; } if (fn == NULL || lstat(fn, &sb) != 0) { *res |= RPMVERIFY_LSTATFAIL; return 1; } /* Links have no mode, other types have no linkto */ if (S_ISLNK(sb.st_mode)) flags &= ~(RPMVERIFY_MODE); else flags &= ~(RPMVERIFY_LINKTO); /* Not all attributes of non-regular files can be verified */ if (!S_ISREG(sb.st_mode)) flags &= ~(RPMVERIFY_FILEDIGEST | RPMVERIFY_FILESIZE | RPMVERIFY_MTIME | RPMVERIFY_CAPS); /* Content checks of %ghost files are meaningless. */ if (fileAttrs & RPMFILE_GHOST) flags &= ~(RPMVERIFY_FILEDIGEST | RPMVERIFY_FILESIZE | RPMVERIFY_MTIME | RPMVERIFY_LINKTO); /* Don't verify any features in omitMask. */ flags &= ~(omitMask | RPMVERIFY_FAILURES); if (flags & RPMVERIFY_FILEDIGEST) { const unsigned char *digest; int algo; size_t diglen; /* XXX If --nomd5, then prelinked library sizes are not corrected. */ if ((digest = rpmfiFDigest(fi, &algo, &diglen))) { unsigned char fdigest[diglen]; rpm_loff_t fsize; rc = rpmDoDigest(algo, fn, 0, fdigest, &fsize); sb.st_size = fsize; if (rc) { *res |= (RPMVERIFY_READFAIL|RPMVERIFY_FILEDIGEST); } else if (memcmp(fdigest, digest, diglen)) { *res |= RPMVERIFY_FILEDIGEST; } } else { *res |= RPMVERIFY_FILEDIGEST; } } if (flags & RPMVERIFY_LINKTO) { char linkto[1024+1]; int size = 0; if ((size = readlink(fn, linkto, sizeof(linkto)-1)) == -1) *res |= (RPMVERIFY_READLINKFAIL|RPMVERIFY_LINKTO); else { const char * flink = rpmfiFLink(fi); linkto[size] = '\0'; if (flink == NULL || !rstreq(linkto, flink)) *res |= RPMVERIFY_LINKTO; } } if (flags & RPMVERIFY_FILESIZE) { if (sb.st_size != rpmfiFSize(fi)) *res |= RPMVERIFY_FILESIZE; } if (flags & RPMVERIFY_MODE) { rpm_mode_t metamode = fmode; rpm_mode_t filemode; /* * Platforms (like AIX) where sizeof(rpm_mode_t) != sizeof(mode_t) * need the (rpm_mode_t) cast here. */ filemode = (rpm_mode_t)sb.st_mode; /* * Comparing the type of %ghost files is meaningless, but perms are OK. */ if (fileAttrs & RPMFILE_GHOST) { metamode &= ~0xf000; filemode &= ~0xf000; } if (metamode != filemode) *res |= RPMVERIFY_MODE; #if WITH_ACL /* * For now, any non-default acl's on a file is a difference as rpm * cannot have set them. */ acl_t facl = acl_get_file(fn, ACL_TYPE_ACCESS); if (facl) { if (acl_equiv_mode(facl, NULL) == 1) { *res |= RPMVERIFY_MODE; } acl_free(facl); } #endif } if (flags & RPMVERIFY_RDEV) { if (S_ISCHR(fmode) != S_ISCHR(sb.st_mode) || S_ISBLK(fmode) != S_ISBLK(sb.st_mode)) { *res |= RPMVERIFY_RDEV; } else if (S_ISDEV(fmode) && S_ISDEV(sb.st_mode)) { rpm_rdev_t st_rdev = (sb.st_rdev & 0xffff); rpm_rdev_t frdev = (rpmfiFRdev(fi) & 0xffff); if (st_rdev != frdev) *res |= RPMVERIFY_RDEV; } } #if WITH_CAP if (flags & RPMVERIFY_CAPS) { /* * Empty capability set ("=") is not exactly the same as no * capabilities at all but suffices for now... */ cap_t cap, fcap; cap = cap_from_text(rpmfiFCaps(fi)); if (!cap) { cap = cap_from_text("="); } fcap = cap_get_file(fn); if (!fcap) { fcap = cap_from_text("="); } if (cap_compare(cap, fcap) != 0) *res |= RPMVERIFY_CAPS; cap_free(fcap); cap_free(cap); } #endif if ((flags & RPMVERIFY_MTIME) && (sb.st_mtime != rpmfiFMtime(fi))) { *res |= RPMVERIFY_MTIME; } if (flags & RPMVERIFY_USER) { const char * name = rpmugUname(sb.st_uid); const char * fuser = rpmfiFUser(fi); if (name == NULL || fuser == NULL || !rstreq(name, fuser)) *res |= RPMVERIFY_USER; } if (flags & RPMVERIFY_GROUP) { const char * name = rpmugGname(sb.st_gid); const char * fgroup = rpmfiFGroup(fi); if (name == NULL || fgroup == NULL || !rstreq(name, fgroup)) *res |= RPMVERIFY_GROUP; } return 0; } /** * Return exit code from running verify script from header. * @param ts transaction set * @param h header * @return 0 on success */ static int rpmVerifyScript(rpmts ts, Header h) { int rc = 0; if (headerIsEntry(h, RPMTAG_VERIFYSCRIPT)) { /* fake up a erasure transaction element */ rpmte p = rpmteNew(ts, h, TR_REMOVED, NULL, NULL); if (p != NULL) { rpmteSetHeader(p, h); rc = (rpmpsmRun(ts, p, PKG_VERIFY) != RPMRC_OK); /* clean up our fake transaction bits */ rpmteFree(p); } else { rc = RPMRC_FAIL; } } return rc; } #define unknown "?" #define _verify(_RPMVERIFY_F, _C, _pad) \ ((verifyResult & _RPMVERIFY_F) ? _C : _pad) #define _verifylink(_RPMVERIFY_F, _C, _pad) \ ((verifyResult & RPMVERIFY_READLINKFAIL) ? unknown : \ (verifyResult & _RPMVERIFY_F) ? _C : _pad) #define _verifyfile(_RPMVERIFY_F, _C, _pad) \ ((verifyResult & RPMVERIFY_READFAIL) ? unknown : \ (verifyResult & _RPMVERIFY_F) ? _C : _pad) char * rpmVerifyString(uint32_t verifyResult, const char *pad) { char *fmt = NULL; rasprintf(&fmt, "%s%s%s%s%s%s%s%s%s", _verify(RPMVERIFY_FILESIZE, "S", pad), _verify(RPMVERIFY_MODE, "M", pad), _verifyfile(RPMVERIFY_FILEDIGEST, "5", pad), _verify(RPMVERIFY_RDEV, "D", pad), _verifylink(RPMVERIFY_LINKTO, "L", pad), _verify(RPMVERIFY_USER, "U", pad), _verify(RPMVERIFY_GROUP, "G", pad), _verify(RPMVERIFY_MTIME, "T", pad), _verify(RPMVERIFY_CAPS, "P", pad)); return fmt; } #undef _verifyfile #undef _verifylink #undef _verify #undef aok #undef unknown char * rpmFFlagsString(uint32_t fflags, const char *pad) { char *fmt = NULL; rasprintf(&fmt, "%s%s%s%s%s%s%s%s", (fflags & RPMFILE_DOC) ? "d" : pad, (fflags & RPMFILE_CONFIG) ? "c" : pad, (fflags & RPMFILE_SPECFILE) ? "s" : pad, (fflags & RPMFILE_MISSINGOK) ? "m" : pad, (fflags & RPMFILE_NOREPLACE) ? "n" : pad, (fflags & RPMFILE_GHOST) ? "g" : pad, (fflags & RPMFILE_LICENSE) ? "l" : pad, (fflags & RPMFILE_README) ? "r" : pad); return fmt; } /** * Check file info from header against what's actually installed. * @param ts transaction set * @param h header to verify * @param omitMask bits to disable verify checks * @param ghosts should ghosts be verified? * @return 0 no problems, 1 problems found */ static int verifyHeader(rpmts ts, Header h, rpmVerifyAttrs omitMask, int ghosts) { rpmVerifyAttrs verifyResult = 0; int ec = 0; /* assume no problems */ rpmfi fi = rpmfiNew(ts, h, RPMTAG_BASENAMES, RPMFI_FLAGS_VERIFY); if (fi == NULL) return 1; rpmfiInit(fi, 0); while (rpmfiNext(fi) >= 0) { rpmfileAttrs fileAttrs = rpmfiFFlags(fi); char *buf = NULL, *attrFormat; char ac; int rc; /* If not verifying %ghost, skip ghost files. */ if ((fileAttrs & RPMFILE_GHOST) && !ghosts) continue; rc = rpmVerifyFile(ts, fi, &verifyResult, omitMask); /* Filter out timestamp differences of shared files */ if (rc == 0 && (verifyResult & RPMVERIFY_MTIME)) { rpmdbMatchIterator mi; mi = rpmtsInitIterator(ts, RPMDBI_BASENAMES, rpmfiFN(fi), 0); if (rpmdbGetIteratorCount(mi) > 1) verifyResult &= ~RPMVERIFY_MTIME; rpmdbFreeIterator(mi); } attrFormat = rpmFFlagsString(fileAttrs, ""); ac = rstreq(attrFormat, "") ? ' ' : attrFormat[0]; if (rc) { if (!(fileAttrs & (RPMFILE_MISSINGOK|RPMFILE_GHOST)) || rpmIsVerbose()) { rasprintf(&buf, _("missing %c %s"), ac, rpmfiFN(fi)); if ((verifyResult & RPMVERIFY_LSTATFAIL) != 0 && errno != ENOENT) { char *app; rasprintf(&app, " (%s)", strerror(errno)); rstrcat(&buf, app); free(app); } ec = rc; } } else if (verifyResult || rpmIsVerbose()) { char *verifyFormat = rpmVerifyString(verifyResult, "."); rasprintf(&buf, "%s %c %s", verifyFormat, ac, rpmfiFN(fi)); free(verifyFormat); if (verifyResult) ec = 1; } free(attrFormat); if (buf) { rpmlog(RPMLOG_NOTICE, "%s\n", buf); buf = _free(buf); } } rpmfiFree(fi); return ec; } /** * Check installed package dependencies for problems. * @param ts transaction set * @param h header * @return number of problems found (0 for no problems) */ static int verifyDependencies(rpmts ts, Header h) { rpmps ps; rpmte te; int rc; rpmtsEmpty(ts); (void) rpmtsAddInstallElement(ts, h, NULL, 0, NULL); (void) rpmtsCheck(ts); te = rpmtsElement(ts, 0); ps = rpmteProblems(te); rc = rpmpsNumProblems(ps); if (rc > 0) { rpmlog(RPMLOG_NOTICE, _("Unsatisfied dependencies for %s:\n"), rpmteNEVRA(te)); rpmpsi psi = rpmpsInitIterator(ps); rpmProblem p; while ((p = rpmpsiNext(psi)) != NULL) { char * ps = rpmProblemString(p); rpmlog(RPMLOG_NOTICE, "\t%s\n", ps); free(ps); } rpmpsFreeIterator(psi); } rpmpsFree(ps); rpmtsEmpty(ts); return rc; } int showVerifyPackage(QVA_t qva, rpmts ts, Header h) { rpmVerifyAttrs omitMask = ((qva->qva_flags & VERIFY_ATTRS) ^ VERIFY_ATTRS); int ghosts = (qva->qva_fflags & RPMFILE_GHOST); int ec = 0; int rc; if (qva->qva_flags & VERIFY_DEPS) { if ((rc = verifyDependencies(ts, h)) != 0) ec = rc; } if (qva->qva_flags & VERIFY_FILES) { if ((rc = verifyHeader(ts, h, omitMask, ghosts)) != 0) ec = rc; } if (qva->qva_flags & VERIFY_SCRIPT) { if ((rc = rpmVerifyScript(ts, h)) != 0) ec = rc; } return ec; } int rpmcliVerify(rpmts ts, QVA_t qva, char * const * argv) { rpmVSFlags vsflags, ovsflags; int ec = 0; FD_t scriptFd = fdDup(STDOUT_FILENO); /* * Open the DB + indices explicitly before possible chroot, * otherwises BDB is going to be unhappy... */ rpmtsOpenDB(ts, O_RDONLY); rpmdbOpenAll(rpmtsGetRdb(ts)); if (rpmChrootSet(rpmtsRootDir(ts)) || rpmChrootIn()) { ec = 1; goto exit; } if (qva->qva_showPackage == NULL) qva->qva_showPackage = showVerifyPackage; vsflags = rpmExpandNumeric("%{?_vsflags_verify}"); if (rpmcliQueryFlags & VERIFY_DIGEST) vsflags |= _RPMVSF_NODIGESTS; if (rpmcliQueryFlags & VERIFY_SIGNATURE) vsflags |= _RPMVSF_NOSIGNATURES; if (rpmcliQueryFlags & VERIFY_HDRCHK) vsflags |= RPMVSF_NOHDRCHK; vsflags &= ~RPMVSF_NEEDPAYLOAD; rpmtsSetScriptFd(ts, scriptFd); ovsflags = rpmtsSetVSFlags(ts, vsflags); ec = rpmcliArgIter(ts, qva, argv); rpmtsSetVSFlags(ts, ovsflags); rpmtsSetScriptFd(ts, NULL); if (qva->qva_showPackage == showVerifyPackage) qva->qva_showPackage = NULL; rpmtsEmpty(ts); if (rpmChrootOut() || rpmChrootSet(NULL)) ec = 1; exit: Fclose(scriptFd); return ec; }