/** \ingroup header * \file lib/package.c */ #include "system.h" #include #include /* XXX RPMSIGTAG, other sig stuff */ #include #include #include #include #include "lib/rpmlead.h" #include "lib/signature.h" #include "rpmio/digest.h" #include "rpmio/rpmio_internal.h" /* fd digest bits */ #include "lib/header_internal.h" /* XXX headerCheck */ #include "debug.h" static int _print_pkts = 0; static const unsigned int nkeyids_max = 256; static unsigned int nkeyids = 0; static unsigned int nextkeyid = 0; static unsigned int * keyids; void headerMergeLegacySigs(Header h, const Header sigh) { HeaderIterator hi; struct rpmtd_s td; hi = headerInitIterator(sigh); for (; headerNext(hi, &td); rpmtdFreeData(&td)) { switch (td.tag) { /* XXX Translate legacy signature tag values. */ case RPMSIGTAG_SIZE: td.tag = RPMTAG_SIGSIZE; break; case RPMSIGTAG_PGP: td.tag = RPMTAG_SIGPGP; break; case RPMSIGTAG_MD5: td.tag = RPMTAG_SIGMD5; break; case RPMSIGTAG_GPG: td.tag = RPMTAG_SIGGPG; break; case RPMSIGTAG_PGP5: td.tag = RPMTAG_SIGPGP5; break; case RPMSIGTAG_PAYLOADSIZE: td.tag = RPMTAG_ARCHIVESIZE; break; case RPMSIGTAG_SHA1: case RPMSIGTAG_DSA: case RPMSIGTAG_RSA: default: if (!(td.tag >= HEADER_SIGBASE && td.tag < HEADER_TAGBASE)) continue; break; } if (td.data == NULL) continue; /* XXX can't happen */ if (!headerIsEntry(h, td.tag)) { if (hdrchkType(td.type)) continue; if (td.count < 0 || hdrchkData(td.count)) continue; switch(td.type) { case RPM_NULL_TYPE: continue; break; case RPM_CHAR_TYPE: case RPM_INT8_TYPE: case RPM_INT16_TYPE: case RPM_INT32_TYPE: case RPM_INT64_TYPE: if (td.count != 1) continue; break; case RPM_STRING_TYPE: case RPM_BIN_TYPE: if (td.count >= 16*1024) continue; break; case RPM_STRING_ARRAY_TYPE: case RPM_I18NSTRING_TYPE: continue; break; } (void) headerPut(h, &td, HEADERPUT_DEFAULT); } } hi = headerFreeIterator(hi); } Header headerRegenSigHeader(const Header h, int noArchiveSize) { Header sigh = rpmNewSignature(); HeaderIterator hi; struct rpmtd_s td; for (hi = headerInitIterator(h); headerNext(hi, &td); rpmtdFreeData(&td)) { switch (td.tag) { /* XXX Translate legacy signature tag values. */ case RPMTAG_SIGSIZE: td.tag = RPMSIGTAG_SIZE; break; case RPMTAG_SIGPGP: td.tag = RPMSIGTAG_PGP; break; case RPMTAG_SIGMD5: td.tag = RPMSIGTAG_MD5; break; case RPMTAG_SIGGPG: td.tag = RPMSIGTAG_GPG; break; case RPMTAG_SIGPGP5: td.tag = RPMSIGTAG_PGP5; break; case RPMTAG_ARCHIVESIZE: /* XXX rpm-4.1 and later has archive size in signature header. */ if (noArchiveSize) continue; td.tag = RPMSIGTAG_PAYLOADSIZE; break; case RPMTAG_SHA1HEADER: case RPMTAG_DSAHEADER: case RPMTAG_RSAHEADER: default: if (!(td.tag >= HEADER_SIGBASE && td.tag < HEADER_TAGBASE)) continue; break; } if (td.data == NULL) continue; /* XXX can't happen */ if (!headerIsEntry(sigh, td.tag)) (void) headerPut(sigh, &td, HEADERPUT_DEFAULT); } hi = headerFreeIterator(hi); return sigh; } /** * Remember current key id. * @param dig OpenPGP packet containter * @return 0 if new keyid, otherwise 1 */ static int stashKeyid(pgpDig dig) { pgpDigParams sigp = dig ? &dig->signature : NULL; unsigned int keyid; int i; if (dig == NULL || sigp == NULL) return 0; keyid = pgpGrab(sigp->signid+4, 4); if (keyid == 0) return 0; if (keyids != NULL) for (i = 0; i < nkeyids; i++) { if (keyid == keyids[i]) return 1; } if (nkeyids < nkeyids_max) { nkeyids++; keyids = xrealloc(keyids, nkeyids * sizeof(*keyids)); } if (keyids) /* XXX can't happen */ keyids[nextkeyid] = keyid; nextkeyid++; nextkeyid %= nkeyids_max; return 0; } /* Parse the parameters from the OpenPGP packets that will be needed. */ static rpmRC parsePGP(rpmtd sigtd, const char *type, pgpDig dig) { rpmRC rc = RPMRC_FAIL; int debug = (_print_pkts & rpmIsDebug()); if ((pgpPrtPkts(sigtd->data, sigtd->count, dig, debug) == 0) && (dig->signature.version == 3 || dig->signature.version == 4)) { rc = RPMRC_OK; } else { rpmlog(RPMLOG_ERR, _("skipping %s with unverifiable V%u signature\n"), type, dig->signature.version); } return rc; } static rpmRC headerVerify(rpmKeyring keyring, rpmVSFlags vsflags, const void * uh, size_t uc, char ** msg) { pgpDig dig = NULL; char *buf = NULL; int32_t * ei = (int32_t *) uh; int32_t il = ntohl(ei[0]); int32_t dl = ntohl(ei[1]); entryInfo pe = (entryInfo) &ei[2]; int32_t ildl[2]; int32_t pvlen = sizeof(ildl) + (il * sizeof(*pe)) + dl; unsigned char * dataStart = (unsigned char *) (pe + il); struct indexEntry_s entry; struct entryInfo_s info; unsigned const char * b; size_t siglen = 0; size_t blen; size_t nb; int32_t ril = 0; unsigned char * regionEnd = NULL; rpmRC rc = RPMRC_FAIL; /* assume failure */ int xx; int i; struct rpmtd_s sigtd; DIGEST_CTX ctx = NULL; /* Is the blob the right size? */ if (uc > 0 && pvlen != uc) { rasprintf(&buf, _("blob size(%d): BAD, 8 + 16 * il(%d) + dl(%d)\n"), (int)uc, (int)il, (int)dl); goto exit; } memset(&entry, 0, sizeof(entry)); memset(&info, 0, sizeof(info)); /* Check (and convert) the 1st tag element. */ xx = headerVerifyInfo(1, dl, pe, &entry.info, 0); if (xx != -1) { rasprintf(&buf, _("tag[%d]: BAD, tag %d type %d offset %d count %d\n"), 0, entry.info.tag, entry.info.type, entry.info.offset, entry.info.count); goto exit; } /* Is there an immutable header region tag? */ if (!(entry.info.tag == RPMTAG_HEADERIMMUTABLE && entry.info.type == RPM_BIN_TYPE && entry.info.count == REGION_TAG_COUNT)) { rc = RPMRC_NOTFOUND; goto exit; } /* Is the offset within the data area? */ if (entry.info.offset >= dl) { rasprintf(&buf, _("region offset: BAD, tag %d type %d offset %d count %d\n"), entry.info.tag, entry.info.type, entry.info.offset, entry.info.count); goto exit; } /* Is there an immutable header region tag trailer? */ regionEnd = dataStart + entry.info.offset; (void) memcpy(&info, regionEnd, REGION_TAG_COUNT); regionEnd += REGION_TAG_COUNT; xx = headerVerifyInfo(1, dl, &info, &entry.info, 1); if (xx != -1 || !(entry.info.tag == RPMTAG_HEADERIMMUTABLE && entry.info.type == RPM_BIN_TYPE && entry.info.count == REGION_TAG_COUNT)) { rasprintf(&buf, _("region trailer: BAD, tag %d type %d offset %d count %d\n"), entry.info.tag, entry.info.type, entry.info.offset, entry.info.count); goto exit; } memset(&info, 0, sizeof(info)); /* Is the no. of tags in the region less than the total no. of tags? */ ril = entry.info.offset/sizeof(*pe); if ((entry.info.offset % sizeof(*pe)) || ril > il) { rasprintf(&buf, _("region size: BAD, ril(%d) > il(%d)\n"), ril, il); goto exit; } /* Find a header-only digest/signature tag. */ for (i = ril; i < il; i++) { xx = headerVerifyInfo(1, dl, pe+i, &entry.info, 0); if (xx != -1) { rasprintf(&buf, _("tag[%d]: BAD, tag %d type %d offset %d count %d\n"), i, entry.info.tag, entry.info.type, entry.info.offset, entry.info.count); goto exit; } switch (entry.info.tag) { case RPMTAG_SHA1HEADER: if (vsflags & RPMVSF_NOSHA1HEADER) break; blen = 0; for (b = dataStart + entry.info.offset; *b != '\0'; b++) { if (strchr("0123456789abcdefABCDEF", *b) == NULL) break; blen++; } if (entry.info.type != RPM_STRING_TYPE || *b != '\0' || blen != 40) { rasprintf(&buf, _("hdr SHA1: BAD, not hex\n")); goto exit; } if (info.tag == 0) { info = entry.info; /* structure assignment */ siglen = blen + 1; } break; case RPMTAG_RSAHEADER: if (vsflags & RPMVSF_NORSAHEADER) break; if (entry.info.type != RPM_BIN_TYPE) { rasprintf(&buf, _("hdr RSA: BAD, not binary\n")); goto exit; } info = entry.info; /* structure assignment */ siglen = info.count; break; case RPMTAG_DSAHEADER: if (vsflags & RPMVSF_NODSAHEADER) break; if (entry.info.type != RPM_BIN_TYPE) { rasprintf(&buf, _("hdr DSA: BAD, not binary\n")); goto exit; } info = entry.info; /* structure assignment */ siglen = info.count; break; default: break; } } rc = RPMRC_NOTFOUND; exit: /* Return determined RPMRC_OK/RPMRC_FAIL conditions. */ if (rc != RPMRC_NOTFOUND) { if (msg) *msg = buf; else free(buf); return rc; } /* If no header-only digest/signature, then do simple sanity check. */ if (info.tag == 0) { verifyinfo_exit: xx = headerVerifyInfo(ril-1, dl, pe+1, &entry.info, 0); if (xx != -1) { rasprintf(&buf, _("tag[%d]: BAD, tag %d type %d offset %d count %d\n"), xx+1, entry.info.tag, entry.info.type, entry.info.offset, entry.info.count); rc = RPMRC_FAIL; } else { rasprintf(&buf, "Header sanity check: OK\n"); rc = RPMRC_OK; } if (msg) *msg = buf; else free(buf); return rc; } /* Verify header-only digest/signature. */ dig = pgpNewDig(); if (dig == NULL) goto verifyinfo_exit; sigtd.tag = info.tag; sigtd.type = info.type; sigtd.count = info.count; sigtd.data = memcpy(xmalloc(siglen), dataStart + info.offset, siglen); sigtd.flags = RPMTD_ALLOCED; switch (info.tag) { case RPMTAG_RSAHEADER: case RPMTAG_DSAHEADER: if ((rc = parsePGP(&sigtd, "header", dig)) != RPMRC_OK) { pgpFreeDig(dig); goto exit; } /* fallthrough */ case RPMTAG_SHA1HEADER: { pgpHashAlgo hashalgo = (info.tag == RPMTAG_SHA1HEADER) ? PGPHASHALGO_SHA1 : dig->signature.hash_algo; ildl[0] = htonl(ril); ildl[1] = (regionEnd - dataStart); ildl[1] = htonl(ildl[1]); ctx = rpmDigestInit(hashalgo, RPMDIGEST_NONE); b = (unsigned char *) rpm_header_magic; nb = sizeof(rpm_header_magic); (void) rpmDigestUpdate(ctx, b, nb); b = (unsigned char *) ildl; nb = sizeof(ildl); (void) rpmDigestUpdate(ctx, b, nb); b = (unsigned char *) pe; nb = (htonl(ildl[0]) * sizeof(*pe)); (void) rpmDigestUpdate(ctx, b, nb); b = (unsigned char *) dataStart; nb = htonl(ildl[1]); (void) rpmDigestUpdate(ctx, b, nb); } break; default: sigtd.data = _free(sigtd.data); /* Hmm...? */ break; } rc = rpmVerifySignature(keyring, &sigtd, dig, ctx, &buf); if (msg) *msg = buf; else free(buf); rpmtdFreeData(&sigtd); pgpFreeDig(dig); rpmDigestFinal(ctx, NULL, NULL, 0); return rc; } rpmRC headerCheck(rpmts ts, const void * uh, size_t uc, char ** msg) { rpmRC rc; rpmVSFlags vsflags = rpmtsVSFlags(ts); rpmKeyring keyring = rpmtsGetKeyring(ts, 1); rpmswEnter(rpmtsOp(ts, RPMTS_OP_DIGEST), 0); rc = headerVerify(keyring, vsflags, uh, uc, msg); rpmswExit(rpmtsOp(ts, RPMTS_OP_DIGEST), uc); rpmKeyringFree(keyring); return rc; } static rpmRC rpmpkgReadHeader(rpmKeyring keyring, rpmVSFlags vsflags, FD_t fd, Header *hdrp, char ** msg) { char *buf = NULL; int32_t block[4]; int32_t il; int32_t dl; int32_t * ei = NULL; size_t uc; size_t nb; Header h = NULL; rpmRC rc = RPMRC_FAIL; /* assume failure */ int xx; if (hdrp) *hdrp = NULL; if (msg) *msg = NULL; memset(block, 0, sizeof(block)); if ((xx = timedRead(fd, (char *)block, sizeof(block))) != sizeof(block)) { rasprintf(&buf, _("hdr size(%d): BAD, read returned %d\n"), (int)sizeof(block), xx); goto exit; } if (memcmp(block, rpm_header_magic, sizeof(rpm_header_magic))) { rasprintf(&buf, _("hdr magic: BAD\n")); goto exit; } il = ntohl(block[2]); if (hdrchkTags(il)) { rasprintf(&buf, _("hdr tags: BAD, no. of tags(%d) out of range\n"), il); goto exit; } dl = ntohl(block[3]); if (hdrchkData(dl)) { rasprintf(&buf, _("hdr data: BAD, no. of bytes(%d) out of range\n"), dl); goto exit; } nb = (il * sizeof(struct entryInfo_s)) + dl; uc = sizeof(il) + sizeof(dl) + nb; ei = xmalloc(uc); ei[0] = block[2]; ei[1] = block[3]; if ((xx = timedRead(fd, (char *)&ei[2], nb)) != nb) { rasprintf(&buf, _("hdr blob(%zd): BAD, read returned %d\n"), nb, xx); goto exit; } /* Sanity check header tags */ rc = headerVerify(keyring, vsflags, ei, uc, msg); if (rc != RPMRC_OK) goto exit; /* OK, blob looks sane, load the header. */ h = headerLoad(ei); if (h == NULL) { rasprintf(&buf, _("hdr load: BAD\n")); rc = RPMRC_FAIL; goto exit; } ei = NULL; /* XXX will be freed with header */ exit: if (hdrp && h && rc == RPMRC_OK) *hdrp = headerLink(h); ei = _free(ei); h = headerFree(h); if (msg != NULL && *msg == NULL && buf != NULL) { *msg = buf; } else { free(buf); } return rc; } rpmRC rpmReadHeader(rpmts ts, FD_t fd, Header *hdrp, char ** msg) { rpmRC rc; rpmKeyring keyring = rpmtsGetKeyring(ts, 1); rpmVSFlags vsflags = rpmtsVSFlags(ts); rc = rpmpkgReadHeader(keyring, vsflags, fd, hdrp, msg); rpmKeyringFree(keyring); return rc; } static rpmRC rpmpkgRead(rpmKeyring keyring, rpmVSFlags vsflags, FD_t fd, const char * fn, Header * hdrp) { pgpDig dig = NULL; char buf[8*BUFSIZ]; ssize_t count; rpmlead l = NULL; Header sigh = NULL; rpmSigTag sigtag; struct rpmtd_s sigtd; Header h = NULL; char * msg; rpmRC rc = RPMRC_FAIL; /* assume failure */ int leadtype = -1; headerGetFlags hgeflags = HEADERGET_DEFAULT; DIGEST_CTX ctx = NULL; if (hdrp) *hdrp = NULL; rpmtdReset(&sigtd); l = rpmLeadNew(); if ((rc = rpmLeadRead(fd, l)) == RPMRC_OK) { const char * err = NULL; if ((rc = rpmLeadCheck(l, &err)) == RPMRC_FAIL) { rpmlog(RPMLOG_ERR, "%s: %s\n", fn, err); } leadtype = rpmLeadType(l); } l = rpmLeadFree(l); if (rc != RPMRC_OK) goto exit; /* Read the signature header. */ msg = NULL; rc = rpmReadSignature(fd, &sigh, RPMSIGTYPE_HEADERSIG, &msg); switch (rc) { default: rpmlog(RPMLOG_ERR, _("%s: rpmReadSignature failed: %s"), fn, (msg && *msg ? msg : "\n")); msg = _free(msg); goto exit; break; case RPMRC_OK: if (sigh == NULL) { rpmlog(RPMLOG_ERR, _("%s: No signature available\n"), fn); rc = RPMRC_FAIL; goto exit; } break; } msg = _free(msg); #define _chk(_mask, _tag) \ (sigtag == 0 && !(vsflags & (_mask)) && headerIsEntry(sigh, (_tag))) /* * Figger the most effective available signature. * Prefer signatures over digests, then header-only over header+payload. * DSA will be preferred over RSA if both exist because tested first. * Note that NEEDPAYLOAD prevents header+payload signatures and digests. */ sigtag = 0; if (_chk(RPMVSF_NODSAHEADER, RPMSIGTAG_DSA)) { sigtag = RPMSIGTAG_DSA; } else if (_chk(RPMVSF_NORSAHEADER, RPMSIGTAG_RSA)) { sigtag = RPMSIGTAG_RSA; } else if (_chk(RPMVSF_NODSA|RPMVSF_NEEDPAYLOAD, RPMSIGTAG_GPG)) { sigtag = RPMSIGTAG_GPG; fdInitDigest(fd, PGPHASHALGO_SHA1, 0); } else if (_chk(RPMVSF_NORSA|RPMVSF_NEEDPAYLOAD, RPMSIGTAG_PGP)) { sigtag = RPMSIGTAG_PGP; fdInitDigest(fd, PGPHASHALGO_MD5, 0); } else if (_chk(RPMVSF_NOSHA1HEADER, RPMSIGTAG_SHA1)) { sigtag = RPMSIGTAG_SHA1; } else if (_chk(RPMVSF_NOMD5|RPMVSF_NEEDPAYLOAD, RPMSIGTAG_MD5)) { sigtag = RPMSIGTAG_MD5; fdInitDigest(fd, PGPHASHALGO_MD5, 0); } /* Read the metadata, computing digest(s) on the fly. */ h = NULL; msg = NULL; rc = rpmpkgReadHeader(keyring, vsflags, fd, &h, &msg); if (rc != RPMRC_OK || h == NULL) { rpmlog(RPMLOG_ERR, _("%s: headerRead failed: %s"), fn, (msg && *msg ? msg : "\n")); msg = _free(msg); goto exit; } msg = _free(msg); /* Any digests or signatures to check? */ if (sigtag == 0) { rc = RPMRC_OK; goto exit; } dig = pgpNewDig(); if (dig == NULL) { rc = RPMRC_FAIL; goto exit; } /* Retrieve the tag parameters from the signature header. */ if (!headerGet(sigh, sigtag, &sigtd, hgeflags)) { rc = RPMRC_FAIL; goto exit; } switch (sigtag) { case RPMSIGTAG_RSA: case RPMSIGTAG_DSA: if ((rc = parsePGP(&sigtd, "package", dig)) != RPMRC_OK) { goto exit; } /* fallthrough */ case RPMSIGTAG_SHA1: { struct rpmtd_s utd; pgpHashAlgo hashalgo = (sigtag == RPMSIGTAG_SHA1) ? PGPHASHALGO_SHA1 : dig->signature.hash_algo; if (!headerGet(h, RPMTAG_HEADERIMMUTABLE, &utd, hgeflags)) break; ctx = rpmDigestInit(hashalgo, RPMDIGEST_NONE); (void) rpmDigestUpdate(ctx, rpm_header_magic, sizeof(rpm_header_magic)); (void) rpmDigestUpdate(ctx, utd.data, utd.count); rpmtdFreeData(&utd); } break; case RPMSIGTAG_GPG: case RPMSIGTAG_PGP5: /* XXX legacy */ case RPMSIGTAG_PGP: if ((rc = parsePGP(&sigtd, "package", dig)) != RPMRC_OK) { goto exit; } /* fallthrough */ case RPMSIGTAG_MD5: /* Legacy signatures need the compressed payload in the digest too. */ while ((count = Fread(buf, sizeof(buf[0]), sizeof(buf), fd)) > 0) {} if (count < 0) { rpmlog(RPMLOG_ERR, _("%s: Fread failed: %s\n"), fn, Fstrerror(fd)); rc = RPMRC_FAIL; goto exit; } ctx = rpmDigestBundleDupCtx(fdGetBundle(fd), (sigtag == RPMSIGTAG_MD5) ? PGPHASHALGO_MD5 : dig->signature.hash_algo); break; default: break; } /** @todo Implement disable/enable/warn/error/anal policy. */ rc = rpmVerifySignature(keyring, &sigtd, dig, ctx, &msg); switch (rc) { case RPMRC_OK: /* Signature is OK. */ rpmlog(RPMLOG_DEBUG, "%s: %s", fn, msg); break; case RPMRC_NOTTRUSTED: /* Signature is OK, but key is not trusted. */ case RPMRC_NOKEY: /* Public key is unavailable. */ /* XXX Print NOKEY/NOTTRUSTED warning only once. */ { int lvl = (stashKeyid(dig) ? RPMLOG_DEBUG : RPMLOG_WARNING); rpmlog(lvl, "%s: %s", fn, msg); } break; case RPMRC_NOTFOUND: /* Signature is unknown type. */ rpmlog(RPMLOG_WARNING, "%s: %s", fn, msg); break; default: case RPMRC_FAIL: /* Signature does not verify. */ rpmlog(RPMLOG_ERR, "%s: %s", fn, msg); break; } free(msg); exit: if (rc != RPMRC_FAIL && h != NULL && hdrp != NULL) { /* Retrofit RPMTAG_SOURCEPACKAGE to srpms for compatibility */ if (leadtype == RPMLEAD_SOURCE && headerIsSource(h)) { if (!headerIsEntry(h, RPMTAG_SOURCEPACKAGE)) { uint32_t one = 1; headerPutUint32(h, RPMTAG_SOURCEPACKAGE, &one, 1); } } /* * Try to make sure binary rpms have RPMTAG_SOURCERPM set as that's * what we use for differentiating binary vs source elsewhere. */ if (!headerIsEntry(h, RPMTAG_SOURCEPACKAGE) && headerIsSource(h)) { headerPutString(h, RPMTAG_SOURCERPM, "(none)"); } /* * Convert legacy headers on the fly. Not having "new" style compressed * filenames is close enough estimate for legacy indication... */ if (!headerIsEntry(h, RPMTAG_DIRNAMES)) { headerConvert(h, HEADERCONV_RETROFIT_V3); } /* Append (and remap) signature tags to the metadata. */ headerMergeLegacySigs(h, sigh); /* Bump reference count for return. */ *hdrp = headerLink(h); } rpmtdFreeData(&sigtd); rpmDigestFinal(ctx, NULL, NULL, 0); h = headerFree(h); pgpFreeDig(dig); sigh = rpmFreeSignature(sigh); return rc; } rpmRC rpmReadPackageFile(rpmts ts, FD_t fd, const char * fn, Header * hdrp) { rpmRC rc; rpmVSFlags vsflags = rpmtsVSFlags(ts); rpmKeyring keyring = 0; if ((vsflags & _RPMVSF_NOSIGNATURES) != _RPMVSF_NOSIGNATURES) keyring = rpmtsGetKeyring(ts, 1); rc = rpmpkgRead(keyring, vsflags, fd, fn, hdrp); if (keyring) rpmKeyringFree(keyring); return rc; } /** * Check for supported payload format in header. * @param h header to check * @return RPMRC_OK if supported, RPMRC_FAIL otherwise */ rpmRC headerCheckPayloadFormat(Header h) { rpmRC rc = RPMRC_OK; const char *payloadfmt = headerGetString(h, RPMTAG_PAYLOADFORMAT); /* * XXX Ugh, rpm 3.x packages don't have payload format tag. Instead * of blinly allowing, should check somehow (HDRID existence or... ?) */ if (!payloadfmt) return rc; if (!rstreq(payloadfmt, "cpio")) { char *nevra = headerGetAsString(h, RPMTAG_NEVRA); if (payloadfmt && rstreq(payloadfmt, "drpm")) { rpmlog(RPMLOG_ERR, _("%s is a Delta RPM and cannot be directly installed\n"), nevra); } else { rpmlog(RPMLOG_ERR, _("Unsupported payload (%s) in package %s\n"), payloadfmt ? payloadfmt : "none", nevra); } nevra = _free(nevra); rc = RPMRC_FAIL; } return rc; }