/** \ingroup signature * \file lib/signature.c */ #include "system.h" #include #include #include #include #include #include #include #include "lib/rpmlead.h" #include "lib/signature.h" #include "lib/header_internal.h" #include "debug.h" /* Dumb wrapper around headerPut() for signature header */ static int sighdrPut(Header h, rpmTagVal tag, rpmTagType type, rpm_data_t p, rpm_count_t c) { struct rpmtd_s sigtd; rpmtdReset(&sigtd); sigtd.tag = tag; sigtd.type = type; sigtd.data = p; sigtd.count = c; return headerPut(h, &sigtd, HEADERPUT_DEFAULT); } /** * Print package size. * @todo rpmio: use fdSize rather than fstat(2) to get file size. * @param fd package file handle * @param siglen signature header size * @param pad signature padding * @param datalen length of header+payload * @return rpmRC return code */ static inline rpmRC printSize(FD_t fd, size_t siglen, size_t pad, rpm_loff_t datalen) { struct stat st; int fdno = Fileno(fd); if (fstat(fdno, &st) < 0) return RPMRC_FAIL; rpmlog(RPMLOG_DEBUG, "Expected size: %12" PRIu64 \ " = lead(%d)+sigs(%zd)+pad(%zd)+data(%" PRIu64 ")\n", RPMLEAD_SIZE+siglen+pad+datalen, RPMLEAD_SIZE, siglen, pad, datalen); rpmlog(RPMLOG_DEBUG, " Actual size: %12" PRIu64 "\n", (rpm_loff_t) st.st_size); return RPMRC_OK; } rpmRC rpmReadSignature(FD_t fd, Header * sighp, sigType sig_type, char ** msg) { char *buf = NULL; int32_t block[4]; int32_t il; int32_t dl; int32_t * ei = NULL; entryInfo pe; size_t nb; int32_t ril = 0; struct indexEntry_s entry; struct entryInfo_s info; unsigned char * dataStart; unsigned char * dataEnd = NULL; Header sigh = NULL; rpmRC rc = RPMRC_FAIL; /* assume failure */ int xx; int i; if (sighp) *sighp = NULL; if (sig_type != RPMSIGTYPE_HEADERSIG) goto exit; memset(block, 0, sizeof(block)); if ((xx = Fread(block, 1, sizeof(block), fd)) != sizeof(block)) { rasprintf(&buf, _("sigh 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, _("sigh magic: BAD\n")); goto exit; } il = ntohl(block[2]); if (il < 0 || il > 32) { rasprintf(&buf, _("sigh tags: BAD, no. of tags(%d) out of range\n"), il); goto exit; } dl = ntohl(block[3]); if (dl < 0 || dl > 8192) { rasprintf(&buf, _("sigh data: BAD, no. of bytes(%d) out of range\n"), dl); goto exit; } memset(&entry, 0, sizeof(entry)); memset(&info, 0, sizeof(info)); nb = (il * sizeof(struct entryInfo_s)) + dl; ei = xmalloc(sizeof(il) + sizeof(dl) + nb); ei[0] = block[2]; ei[1] = block[3]; pe = (entryInfo) &ei[2]; dataStart = (unsigned char *) (pe + il); if ((xx = Fread(pe, 1, nb, fd)) != nb) { rasprintf(&buf, _("sigh blob(%d): BAD, read returned %d\n"), (int)nb, xx); goto exit; } /* 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_HEADERSIGNATURES && entry.info.type == RPM_BIN_TYPE && entry.info.count == REGION_TAG_COUNT) { /* Is the trailer within the data area? */ if (entry.info.offset + REGION_TAG_COUNT > 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? */ dataEnd = dataStart + entry.info.offset; (void) memcpy(&info, dataEnd, REGION_TAG_COUNT); /* XXX Really old packages have HEADER_IMAGE, not HEADER_SIGNATURES. */ if (info.tag == htonl(RPMTAG_HEADERIMAGE)) { rpmTagVal stag = htonl(RPMTAG_HEADERSIGNATURES); info.tag = stag; memcpy(dataEnd, &stag, sizeof(stag)); } dataEnd += REGION_TAG_COUNT; xx = headerVerifyInfo(1, dl, &info, &entry.info, 1); if (xx != -1 || !((entry.info.tag == RPMTAG_HEADERSIGNATURES || entry.info.tag == RPMTAG_HEADERIMAGE) && 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; } } /* Sanity check signature tags */ memset(&info, 0, sizeof(info)); for (i = 1; i < il; i++) { xx = headerVerifyInfo(1, dl, pe+i, &entry.info, 0); if (xx != -1) { rasprintf(&buf, _("sigh 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; } } /* OK, blob looks sane, load the header. */ sigh = headerLoad(ei); if (sigh == NULL) { rasprintf(&buf, _("sigh load: BAD\n")); goto exit; } { size_t sigSize = headerSizeof(sigh, HEADER_MAGIC_YES); size_t pad = (8 - (sigSize % 8)) % 8; /* 8-byte pad */ ssize_t trc; struct rpmtd_s sizetag; rpm_loff_t archSize = 0; /* Position at beginning of header. */ if (pad && (trc = Fread(block, 1, pad, fd)) != pad) { rasprintf(&buf, _("sigh pad(%zd): BAD, read %zd bytes\n"), pad, trc); goto exit; } /* Print package component sizes. */ if (headerGet(sigh, RPMSIGTAG_LONGSIZE, &sizetag, HEADERGET_DEFAULT)) { rpm_loff_t *tsize = rpmtdGetUint64(&sizetag); archSize = (tsize) ? *tsize : 0; } else if (headerGet(sigh, RPMSIGTAG_SIZE, &sizetag, HEADERGET_DEFAULT)) { rpm_off_t *tsize = rpmtdGetUint32(&sizetag); archSize = (tsize) ? *tsize : 0; } rpmtdFreeData(&sizetag); rc = printSize(fd, sigSize, pad, archSize); if (rc != RPMRC_OK) { rasprintf(&buf, _("sigh sigSize(%zd): BAD, fstat(2) failed\n"), sigSize); goto exit; } } ei = NULL; /* XXX will be freed with header */ exit: if (sighp && sigh && rc == RPMRC_OK) *sighp = headerLink(sigh); headerFree(sigh); free(ei); if (msg != NULL) { *msg = buf; } else { free(buf); } return rc; } int rpmWriteSignature(FD_t fd, Header sigh) { static uint8_t buf[8] = { 0, 0, 0, 0, 0, 0, 0, 0 }; int sigSize, pad; int rc; rc = headerWrite(fd, sigh, HEADER_MAGIC_YES); if (rc) return rc; sigSize = headerSizeof(sigh, HEADER_MAGIC_YES); pad = (8 - (sigSize % 8)) % 8; if (pad) { if (Fwrite(buf, sizeof(buf[0]), pad, fd) != pad) rc = 1; } rpmlog(RPMLOG_DEBUG, "Signature: size(%d)+pad(%d)\n", sigSize, pad); return rc; } Header rpmNewSignature(void) { Header sigh = headerNew(); return sigh; } Header rpmFreeSignature(Header sigh) { return headerFree(sigh); } static int makeHDRDigest(Header sigh, const char * file, rpmTagVal sigTag) { Header h = NULL; FD_t fd = NULL; char * SHA1 = NULL; int ret = -1; /* assume failure. */ switch (sigTag) { case RPMSIGTAG_SHA1: fd = Fopen(file, "r.fdio"); if (fd == NULL || Ferror(fd)) goto exit; h = headerRead(fd, HEADER_MAGIC_YES); if (h == NULL) goto exit; if (headerIsEntry(h, RPMTAG_HEADERIMMUTABLE)) { DIGEST_CTX ctx; struct rpmtd_s utd; if (!headerGet(h, RPMTAG_HEADERIMMUTABLE, &utd, HEADERGET_DEFAULT) || utd.data == NULL) { rpmlog(RPMLOG_ERR, _("Immutable header region could not be read. " "Corrupted package?\n")); goto exit; } ctx = rpmDigestInit(PGPHASHALGO_SHA1, RPMDIGEST_NONE); (void) rpmDigestUpdate(ctx, rpm_header_magic, sizeof(rpm_header_magic)); (void) rpmDigestUpdate(ctx, utd.data, utd.count); (void) rpmDigestFinal(ctx, (void **)&SHA1, NULL, 1); rpmtdFreeData(&utd); } else { rpmlog(RPMLOG_ERR, _("Cannot sign RPM v3 packages\n")); goto exit; } if (SHA1 == NULL) goto exit; if (!sighdrPut(sigh, RPMSIGTAG_SHA1, RPM_STRING_TYPE, SHA1, 1)) goto exit; ret = 0; break; default: break; } exit: free(SHA1); headerFree(h); if (fd != NULL) (void) Fclose(fd); return ret; } int rpmGenDigest(Header sigh, const char * file, rpmTagVal sigTag) { struct stat st; uint8_t * pkt = NULL; size_t pktlen; int ret = -1; /* assume failure. */ switch (sigTag) { case RPMSIGTAG_SIZE: { rpm_off_t size; if (stat(file, &st) != 0) break; size = st.st_size; if (!sighdrPut(sigh, sigTag, RPM_INT32_TYPE, &size, 1)) break; ret = 0; } break; case RPMSIGTAG_LONGSIZE: { rpm_loff_t size; if (stat(file, &st) != 0) break; size = st.st_size; if (!sighdrPut(sigh, sigTag, RPM_INT64_TYPE, &size, 1)) break; ret = 0; } break; case RPMSIGTAG_MD5: pktlen = 16; pkt = xcalloc(pktlen, sizeof(*pkt)); if (rpmDoDigest(PGPHASHALGO_MD5, file, 0, pkt, NULL) || !sighdrPut(sigh, sigTag, RPM_BIN_TYPE, pkt, pktlen)) break; ret = 0; break; case RPMSIGTAG_SHA1: ret = makeHDRDigest(sigh, file, sigTag); break; default: break; } free(pkt); return ret; } static const char * rpmSigString(rpmRC res) { const char * str; switch (res) { case RPMRC_OK: str = "OK"; break; case RPMRC_FAIL: str = "BAD"; break; case RPMRC_NOKEY: str = "NOKEY"; break; case RPMRC_NOTTRUSTED: str = "NOTRUSTED"; break; default: case RPMRC_NOTFOUND: str = "UNKNOWN"; break; } return str; } static rpmRC verifyMD5Digest(rpmtd sigtd, DIGEST_CTX md5ctx, char **msg) { rpmRC res = RPMRC_FAIL; /* assume failure */ uint8_t * md5sum = NULL; size_t md5len = 0; char *md5; const char *title = _("MD5 digest:"); *msg = NULL; DIGEST_CTX ctx = rpmDigestDup(md5ctx); if (ctx == NULL) { rasprintf(msg, "%s %s\n", title, rpmSigString(res)); goto exit; } (void) rpmDigestFinal(ctx, (void **)&md5sum, &md5len, 0); md5 = pgpHexStr(md5sum, md5len); if (md5len != sigtd->count || memcmp(md5sum, sigtd->data, md5len)) { char *hex = rpmtdFormat(sigtd, RPMTD_FORMAT_STRING, NULL); rasprintf(msg, "%s %s Expected(%s) != (%s)\n", title, rpmSigString(res), hex, md5); free(hex); } else { res = RPMRC_OK; rasprintf(msg, "%s %s (%s)\n", title, rpmSigString(res), md5); } free(md5); exit: md5sum = _free(md5sum); return res; } /** * Verify header immutable region SHA1 digest. * @retval msg verbose success/failure text * @param sha1ctx * @return RPMRC_OK on success */ static rpmRC verifySHA1Digest(rpmtd sigtd, DIGEST_CTX sha1ctx, char **msg) { rpmRC res = RPMRC_FAIL; /* assume failure */ char * SHA1 = NULL; const char *title = _("Header SHA1 digest:"); const char *sig = sigtd->data; *msg = NULL; DIGEST_CTX ctx = rpmDigestDup(sha1ctx); if (ctx == NULL) { rasprintf(msg, "%s %s\n", title, rpmSigString(res)); goto exit; } (void) rpmDigestFinal(ctx, (void **)&SHA1, NULL, 1); if (SHA1 == NULL || !rstreq(SHA1, sig)) { rasprintf(msg, "%s %s Expected(%s) != (%s)\n", title, rpmSigString(res), sig, SHA1 ? SHA1 : "(nil)"); } else { res = RPMRC_OK; rasprintf(msg, "%s %s (%s)\n", title, rpmSigString(res), SHA1); } exit: SHA1 = _free(SHA1); return res; } /** * Verify DSA/RSA signature. * @param keyring pubkey keyring * @param sig OpenPGP signature parameters * @param hashctx digest context * @param isHdr header-only signature? * @retval msg verbose success/failure text * @return RPMRC_OK on success */ static rpmRC verifySignature(rpmKeyring keyring, pgpDigParams sig, DIGEST_CTX hashctx, int isHdr, char **msg) { rpmRC res = rpmKeyringVerifySig(keyring, sig, hashctx); char *sigid = pgpIdentItem(sig); rasprintf(msg, "%s%s: %s\n", isHdr ? _("Header ") : "", sigid, rpmSigString(res)); free(sigid); return res; } rpmRC rpmVerifySignature(rpmKeyring keyring, rpmtd sigtd, pgpDigParams sig, DIGEST_CTX ctx, char ** result) { rpmRC res = RPMRC_NOTFOUND; char *msg = NULL; int hdrsig = 0; if (sigtd->data == NULL || sigtd->count <= 0 || ctx == NULL) goto exit; switch (sigtd->tag) { case RPMSIGTAG_MD5: res = verifyMD5Digest(sigtd, ctx, &msg); break; case RPMSIGTAG_SHA1: res = verifySHA1Digest(sigtd, ctx, &msg); break; case RPMSIGTAG_RSA: case RPMSIGTAG_DSA: hdrsig = 1; /* fallthrough */ case RPMSIGTAG_PGP5: /* XXX legacy */ case RPMSIGTAG_PGP: case RPMSIGTAG_GPG: if (sig != NULL) res = verifySignature(keyring, sig, ctx, hdrsig, &msg); break; default: break; } exit: if (res == RPMRC_NOTFOUND) { rasprintf(&msg, _("Verify signature: BAD PARAMETERS (%d %p %d %p %p)\n"), sigtd->tag, sigtd->data, sigtd->count, ctx, sig); res = RPMRC_FAIL; } if (result) { *result = msg; } else { free(msg); } return res; }