/** \ingroup rpmbuild * \file build/pack.c * Assemble components of an RPM package. */ #include "system.h" #include #include #include "rpmps.h" #include "cpio.h" #include "fsm.h" #include "psm.h" #define _RPMFI_INTERNAL /* XXX fi->fsm */ #include "rpmfi.h" #include "rpmts.h" #include "buildio.h" #include "legacy.h" /* XXX providePackageNVR */ #include "signature.h" #include "rpmlead.h" #include "debug.h" /*@access rpmts @*/ /*@access rpmfi @*/ /* compared with NULL */ /*@access Header @*/ /* compared with NULL */ /*@access FD_t @*/ /* compared with NULL */ /*@access StringBuf @*/ /* compared with NULL */ /*@access CSA_t @*/ /** */ static inline int genSourceRpmName(Spec spec) /*@modifies spec->sourceRpmName @*/ { if (spec->sourceRpmName == NULL) { const char *name, *version, *release; char fileName[BUFSIZ]; (void) headerNVR(spec->packages->header, &name, &version, &release); sprintf(fileName, "%s-%s-%s.%ssrc.rpm", name, version, release, spec->noSource ? "no" : ""); spec->sourceRpmName = xstrdup(fileName); } return 0; } /** * @todo Create transaction set *much* earlier. */ static int cpio_doio(FD_t fdo, /*@unused@*/ Header h, CSA_t csa, const char * fmodeMacro) /*@globals rpmGlobalMacroContext, h_errno, fileSystem, internalState @*/ /*@modifies fdo, csa, rpmGlobalMacroContext, fileSystem, internalState @*/ { rpmts ts = rpmtsCreate(); rpmfi fi = csa->cpioList; const char *failedFile = NULL; FD_t cfd; int rc, ec; /*@-boundsread@*/ { const char *fmode = rpmExpand(fmodeMacro, NULL); if (!(fmode && fmode[0] == 'w')) fmode = xstrdup("w9.gzdio"); /*@-nullpass@*/ (void) Fflush(fdo); cfd = Fdopen(fdDup(Fileno(fdo)), fmode); /*@=nullpass@*/ fmode = _free(fmode); } /*@=boundsread@*/ if (cfd == NULL) return 1; rc = fsmSetup(fi->fsm, FSM_PKGBUILD, ts, fi, cfd, &csa->cpioArchiveSize, &failedFile); (void) Fclose(cfd); ec = fsmTeardown(fi->fsm); if (!rc) rc = ec; if (rc) { if (failedFile) rpmError(RPMERR_CPIO, _("create archive failed on file %s: %s\n"), failedFile, cpioStrerror(rc)); else rpmError(RPMERR_CPIO, _("create archive failed: %s\n"), cpioStrerror(rc)); rc = 1; } failedFile = _free(failedFile); ts = rpmtsFree(ts); return rc; } /** */ static int cpio_copy(FD_t fdo, CSA_t csa) /*@globals fileSystem, internalState @*/ /*@modifies fdo, csa, fileSystem, internalState @*/ { char buf[BUFSIZ]; size_t nb; while((nb = Fread(buf, sizeof(buf[0]), sizeof(buf), csa->cpioFdIn)) > 0) { if (Fwrite(buf, sizeof(buf[0]), nb, fdo) != nb) { rpmError(RPMERR_CPIO, _("cpio_copy write failed: %s\n"), Fstrerror(fdo)); return 1; } csa->cpioArchiveSize += nb; } if (Ferror(csa->cpioFdIn)) { rpmError(RPMERR_CPIO, _("cpio_copy read failed: %s\n"), Fstrerror(csa->cpioFdIn)); return 1; } return 0; } /** */ static /*@only@*/ /*@null@*/ StringBuf addFileToTagAux(Spec spec, const char * file, /*@only@*/ StringBuf sb) /*@globals rpmGlobalMacroContext, h_errno, fileSystem, internalState @*/ /*@modifies rpmGlobalMacroContext, fileSystem, internalState @*/ { char buf[BUFSIZ]; const char * fn = buf; FILE * f; FD_t fd; /* XXX use rpmGenPath(rootdir, "%{_buildir}/%{_buildsubdir}/", file) */ fn = rpmGetPath("%{_builddir}/", spec->buildSubdir, "/", file, NULL); fd = Fopen(fn, "r.ufdio"); if (fn != buf) fn = _free(fn); if (fd == NULL || Ferror(fd)) { sb = freeStringBuf(sb); return NULL; } /*@-type@*/ /* FIX: cast? */ if ((f = fdGetFp(fd)) != NULL) /*@=type@*/ while (fgets(buf, sizeof(buf), f)) { /* XXX display fn in error msg */ if (expandMacros(spec, spec->macros, buf, sizeof(buf))) { rpmError(RPMERR_BADSPEC, _("line: %s\n"), buf); sb = freeStringBuf(sb); break; } appendStringBuf(sb, buf); } (void) Fclose(fd); return sb; } /** */ static int addFileToTag(Spec spec, const char * file, Header h, int tag) /*@globals rpmGlobalMacroContext, h_errno, fileSystem, internalState @*/ /*@modifies h, rpmGlobalMacroContext, fileSystem, internalState @*/ { HGE_t hge = (HGE_t)headerGetEntryMinMemory; StringBuf sb = newStringBuf(); char *s; if (hge(h, tag, NULL, (void **)&s, NULL)) { appendLineStringBuf(sb, s); (void) headerRemoveEntry(h, tag); } if ((sb = addFileToTagAux(spec, file, sb)) == NULL) return 1; (void) headerAddEntry(h, tag, RPM_STRING_TYPE, getStringBuf(sb), 1); sb = freeStringBuf(sb); return 0; } /** */ static int addFileToArrayTag(Spec spec, const char *file, Header h, int tag) /*@globals rpmGlobalMacroContext, h_errno, fileSystem, internalState @*/ /*@modifies h, rpmGlobalMacroContext, fileSystem, internalState @*/ { StringBuf sb = newStringBuf(); char *s; if ((sb = addFileToTagAux(spec, file, sb)) == NULL) return 1; s = getStringBuf(sb); (void) headerAddOrAppendEntry(h, tag, RPM_STRING_ARRAY_TYPE, &s, 1); sb = freeStringBuf(sb); return 0; } /** */ static int processScriptFiles(Spec spec, Package pkg) /*@globals rpmGlobalMacroContext, h_errno, fileSystem, internalState @*/ /*@modifies pkg->header, rpmGlobalMacroContext, fileSystem, internalState @*/ { struct TriggerFileEntry *p; if (pkg->preInFile) { if (addFileToTag(spec, pkg->preInFile, pkg->header, RPMTAG_PREIN)) { rpmError(RPMERR_BADFILENAME, _("Could not open PreIn file: %s\n"), pkg->preInFile); return RPMERR_BADFILENAME; } } if (pkg->preUnFile) { if (addFileToTag(spec, pkg->preUnFile, pkg->header, RPMTAG_PREUN)) { rpmError(RPMERR_BADFILENAME, _("Could not open PreUn file: %s\n"), pkg->preUnFile); return RPMERR_BADFILENAME; } } if (pkg->preTransFile) { if (addFileToTag(spec, pkg->preTransFile, pkg->header, RPMTAG_PRETRANS)) { rpmError(RPMERR_BADFILENAME, _("Could not open PreIn file: %s\n"), pkg->preTransFile); return RPMERR_BADFILENAME; } } if (pkg->postInFile) { if (addFileToTag(spec, pkg->postInFile, pkg->header, RPMTAG_POSTIN)) { rpmError(RPMERR_BADFILENAME, _("Could not open PostIn file: %s\n"), pkg->postInFile); return RPMERR_BADFILENAME; } } if (pkg->postUnFile) { if (addFileToTag(spec, pkg->postUnFile, pkg->header, RPMTAG_POSTUN)) { rpmError(RPMERR_BADFILENAME, _("Could not open PostUn file: %s\n"), pkg->postUnFile); return RPMERR_BADFILENAME; } } if (pkg->postTransFile) { if (addFileToTag(spec, pkg->postTransFile, pkg->header, RPMTAG_POSTTRANS)) { rpmError(RPMERR_BADFILENAME, _("Could not open PostUn file: %s\n"), pkg->postTransFile); return RPMERR_BADFILENAME; } } if (pkg->verifyFile) { if (addFileToTag(spec, pkg->verifyFile, pkg->header, RPMTAG_VERIFYSCRIPT)) { rpmError(RPMERR_BADFILENAME, _("Could not open VerifyScript file: %s\n"), pkg->verifyFile); return RPMERR_BADFILENAME; } } for (p = pkg->triggerFiles; p != NULL; p = p->next) { (void) headerAddOrAppendEntry(pkg->header, RPMTAG_TRIGGERSCRIPTPROG, RPM_STRING_ARRAY_TYPE, &(p->prog), 1); if (p->script) { (void) headerAddOrAppendEntry(pkg->header, RPMTAG_TRIGGERSCRIPTS, RPM_STRING_ARRAY_TYPE, &(p->script), 1); } else if (p->fileName) { if (addFileToArrayTag(spec, p->fileName, pkg->header, RPMTAG_TRIGGERSCRIPTS)) { rpmError(RPMERR_BADFILENAME, _("Could not open Trigger script file: %s\n"), p->fileName); return RPMERR_BADFILENAME; } } else { /* This is dumb. When the header supports NULL string */ /* this will go away. */ char *bull = ""; (void) headerAddOrAppendEntry(pkg->header, RPMTAG_TRIGGERSCRIPTS, RPM_STRING_ARRAY_TYPE, &bull, 1); } } return 0; } /*@-boundswrite@*/ int readRPM(const char *fileName, Spec *specp, struct rpmlead *lead, Header *sigs, CSA_t csa) { FD_t fdi; Spec spec; rpmRC rc; fdi = (fileName != NULL) ? Fopen(fileName, "r.ufdio") : fdDup(STDIN_FILENO); if (fdi == NULL || Ferror(fdi)) { rpmError(RPMERR_BADMAGIC, _("readRPM: open %s: %s\n"), (fileName ? fileName : ""), Fstrerror(fdi)); if (fdi) (void) Fclose(fdi); return RPMERR_BADMAGIC; } /* Get copy of lead */ /*@-sizeoftype@*/ if ((rc = Fread(lead, sizeof(char), sizeof(*lead), fdi)) != sizeof(*lead)) { rpmError(RPMERR_BADMAGIC, _("readRPM: read %s: %s\n"), (fileName ? fileName : ""), Fstrerror(fdi)); return RPMERR_BADMAGIC; } /*@=sizeoftype@*/ /* XXX FIXME: EPIPE on */ if (Fseek(fdi, 0, SEEK_SET) == -1) { rpmError(RPMERR_FSEEK, _("%s: Fseek failed: %s\n"), (fileName ? fileName : ""), Fstrerror(fdi)); return RPMERR_FSEEK; } /* Reallocate build data structures */ spec = newSpec(); spec->packages = newPackage(spec); /* XXX the header just allocated will be allocated again */ spec->packages->header = headerFree(spec->packages->header); /* Read the rpm lead, signatures, and header */ { rpmts ts = rpmtsCreate(); /* XXX W2DO? pass fileName? */ /*@-mustmod@*/ /* LCL: segfault */ rc = rpmReadPackageFile(ts, fdi, "readRPM", &spec->packages->header); /*@=mustmod@*/ ts = rpmtsFree(ts); if (sigs) *sigs = NULL; /* XXX HACK */ } switch (rc) { case RPMRC_OK: case RPMRC_NOKEY: case RPMRC_NOTTRUSTED: break; case RPMRC_NOTFOUND: rpmError(RPMERR_BADMAGIC, _("readRPM: %s is not an RPM package\n"), (fileName ? fileName : "")); return RPMERR_BADMAGIC; case RPMRC_FAIL: default: rpmError(RPMERR_BADMAGIC, _("readRPM: reading header from %s\n"), (fileName ? fileName : "")); return RPMERR_BADMAGIC; /*@notreached@*/ break; } /*@-branchstate@*/ if (specp) *specp = spec; else spec = freeSpec(spec); /*@=branchstate@*/ if (csa != NULL) csa->cpioFdIn = fdi; else (void) Fclose(fdi); return 0; } /*@=boundswrite@*/ #ifdef DYING /*@unchecked@*/ static unsigned char header_magic[8] = { 0x8e, 0xad, 0xe8, 0x01, 0x00, 0x00, 0x00, 0x00 }; #endif #define RPMPKGVERSION_MIN 30004 #define RPMPKGVERSION_MAX 40003 /*@unchecked@*/ static int rpmpkg_version = -1; static int rpmLeadVersion(void) /*@globals rpmpkg_version, rpmGlobalMacroContext, h_errno @*/ /*@modifies rpmpkg_version, rpmGlobalMacroContext @*/ { int rpmlead_version; /* Intitialize packaging version from macro configuration. */ if (rpmpkg_version < 0) { rpmpkg_version = rpmExpandNumeric("%{_package_version}"); if (rpmpkg_version < RPMPKGVERSION_MIN) rpmpkg_version = RPMPKGVERSION_MIN; if (rpmpkg_version > RPMPKGVERSION_MAX) rpmpkg_version = RPMPKGVERSION_MAX; } rpmlead_version = rpmpkg_version / 10000; if (_noDirTokens || (rpmlead_version < 3 || rpmlead_version > 4)) rpmlead_version = 3; return rpmlead_version; } /*@-boundswrite@*/ int writeRPM(Header *hdrp, unsigned char ** pkgidp, const char *fileName, int type, CSA_t csa, char *passPhrase, const char **cookie) { FD_t fd = NULL; FD_t ifd = NULL; int_32 count, sigtag; const char * sigtarget; const char * rpmio_flags = NULL; const char * SHA1 = NULL; char *s; char buf[BUFSIZ]; Header h; Header sig = NULL; int rc = 0; /* Transfer header reference form *hdrp to h. */ h = headerLink(*hdrp); *hdrp = headerFree(*hdrp); if (pkgidp) *pkgidp = NULL; #ifdef DYING if (Fileno(csa->cpioFdIn) < 0) { csa->cpioArchiveSize = 0; /* Add a bogus archive size to the Header */ (void) headerAddEntry(h, RPMTAG_ARCHIVESIZE, RPM_INT32_TYPE, &csa->cpioArchiveSize, 1); } #endif /* Binary packages now have explicit Provides: name = version-release. */ if (type == RPMLEAD_BINARY) providePackageNVR(h); /* Save payload information */ /*@-branchstate@*/ switch(type) { case RPMLEAD_SOURCE: rpmio_flags = rpmExpand("%{?_source_payload}", NULL); break; case RPMLEAD_BINARY: rpmio_flags = rpmExpand("%{?_binary_payload}", NULL); break; } /*@=branchstate@*/ if (!(rpmio_flags && *rpmio_flags)) { rpmio_flags = _free(rpmio_flags); rpmio_flags = xstrdup("w9.gzdio"); } s = strchr(rpmio_flags, '.'); if (s) { (void) headerAddEntry(h, RPMTAG_PAYLOADFORMAT, RPM_STRING_TYPE, "cpio", 1); if (s[1] == 'g' && s[2] == 'z') (void) headerAddEntry(h, RPMTAG_PAYLOADCOMPRESSOR, RPM_STRING_TYPE, "gzip", 1); if (s[1] == 'b' && s[2] == 'z') { (void) headerAddEntry(h, RPMTAG_PAYLOADCOMPRESSOR, RPM_STRING_TYPE, "bzip2", 1); /* Add prereq on rpm version that understands bzip2 payloads */ (void) rpmlibNeedsFeature(h, "PayloadIsBzip2", "3.0.5-1"); } strcpy(buf, rpmio_flags); buf[s - rpmio_flags] = '\0'; (void) headerAddEntry(h, RPMTAG_PAYLOADFLAGS, RPM_STRING_TYPE, buf+1, 1); } /* Create and add the cookie */ if (cookie) { sprintf(buf, "%s %d", buildHost(), (int) (*getBuildTime())); *cookie = xstrdup(buf); (void) headerAddEntry(h, RPMTAG_COOKIE, RPM_STRING_TYPE, *cookie, 1); } /* Reallocate the header into one contiguous region. */ h = headerReload(h, RPMTAG_HEADERIMMUTABLE); if (h == NULL) { /* XXX can't happen */ rc = RPMERR_RELOAD; rpmError(RPMERR_RELOAD, _("Unable to create immutable header region.\n")); goto exit; } /* Re-reference reallocated header. */ *hdrp = headerLink(h); /* * Write the header+archive into a temp file so that the size of * archive (after compression) can be added to the header. */ if (makeTempFile(NULL, &sigtarget, &fd)) { rc = RPMERR_CREATE; rpmError(RPMERR_CREATE, _("Unable to open temp file.\n")); goto exit; } fdInitDigest(fd, PGPHASHALGO_SHA1, 0); if (headerWrite(fd, h, HEADER_MAGIC_YES)) { rc = RPMERR_NOSPACE; rpmError(RPMERR_NOSPACE, _("Unable to write temp header\n")); } else { /* Write the archive and get the size */ (void) Fflush(fd); fdFiniDigest(fd, PGPHASHALGO_SHA1, (void **)&SHA1, NULL, 1); if (csa->cpioList != NULL) { rc = cpio_doio(fd, h, csa, rpmio_flags); } else if (Fileno(csa->cpioFdIn) >= 0) { rc = cpio_copy(fd, csa); } else { rc = RPMERR_BADARG; rpmError(RPMERR_BADARG, _("Bad CSA data\n")); } } rpmio_flags = _free(rpmio_flags); if (rc) goto exit; #ifdef DYING /* * Set the actual archive size, and rewrite the header. * This used to be done using headerModifyEntry(), but now that headers * have regions, the value is scribbled directly into the header data * area. Some new scheme for adding the final archive size will have * to be devised if headerGetEntryMinMemory() ever changes to return * a pointer to memory not in the region, probably by appending * the archive size to the header region rather than including the * archive size within the header region. */ if (Fileno(csa->cpioFdIn) < 0) { HGE_t hge = (HGE_t)headerGetEntryMinMemory; int_32 * archiveSize; if (hge(h, RPMTAG_ARCHIVESIZE, NULL, (void *)&archiveSize, NULL)) *archiveSize = csa->cpioArchiveSize; } (void) Fflush(fd); if (Fseek(fd, 0, SEEK_SET) == -1) { rc = RPMERR_FSEEK; rpmError(RPMERR_FSEEK, _("%s: Fseek failed: %s\n"), sigtarget, Fstrerror(fd)); } fdInitDigest(fd, PGPHASHALGO_SHA1, 0); if (headerWrite(fd, h, HEADER_MAGIC_YES)) { rc = RPMERR_NOSPACE; rpmError(RPMERR_NOSPACE, _("Unable to write final header\n")); } (void) Fflush(fd); fdFiniDigest(fd, PGPHASHALGO_SHA1, (void **)&SHA1, NULL, 1); #endif (void) Fclose(fd); fd = NULL; (void) Unlink(fileName); if (rc) goto exit; /* Generate the signature */ (void) fflush(stdout); sig = rpmNewSignature(); (void) rpmAddSignature(sig, sigtarget, RPMSIGTAG_SIZE, passPhrase); (void) rpmAddSignature(sig, sigtarget, RPMSIGTAG_MD5, passPhrase); if ((sigtag = rpmLookupSignatureType(RPMLOOKUPSIG_QUERY)) > 0) { rpmMessage(RPMMESS_NORMAL, _("Generating signature: %d\n"), sigtag); (void) rpmAddSignature(sig, sigtarget, sigtag, passPhrase); } if (SHA1) { (void) headerAddEntry(sig, RPMSIGTAG_SHA1, RPM_STRING_TYPE, SHA1, 1); SHA1 = _free(SHA1); } { int_32 payloadSize = csa->cpioArchiveSize; (void) headerAddEntry(sig, RPMSIGTAG_PAYLOADSIZE, RPM_INT32_TYPE, &payloadSize, 1); } /* Reallocate the signature into one contiguous region. */ sig = headerReload(sig, RPMTAG_HEADERSIGNATURES); if (sig == NULL) { /* XXX can't happen */ rc = RPMERR_RELOAD; rpmError(RPMERR_RELOAD, _("Unable to reload signature header.\n")); goto exit; } /* Open the output file */ fd = Fopen(fileName, "w.ufdio"); if (fd == NULL || Ferror(fd)) { rc = RPMERR_CREATE; rpmError(RPMERR_CREATE, _("Could not open %s: %s\n"), fileName, Fstrerror(fd)); goto exit; } /* Write the lead section into the package. */ { int archnum = -1; int osnum = -1; struct rpmlead lead; if (Fileno(csa->cpioFdIn) < 0) { #ifndef DYING rpmGetArchInfo(NULL, &archnum); rpmGetOsInfo(NULL, &osnum); #endif } else if (csa->lead != NULL) { archnum = csa->lead->archnum; osnum = csa->lead->osnum; } memset(&lead, 0, sizeof(lead)); lead.major = rpmLeadVersion(); lead.minor = 0; lead.type = type; lead.archnum = archnum; lead.osnum = osnum; lead.signature_type = RPMSIGTYPE_HEADERSIG; { const char *name, *version, *release; (void) headerNVR(h, &name, &version, &release); sprintf(buf, "%s-%s-%s", name, version, release); strncpy(lead.name, buf, sizeof(lead.name)); } if (writeLead(fd, &lead) != RPMRC_OK) { rc = RPMERR_NOSPACE; rpmError(RPMERR_NOSPACE, _("Unable to write package: %s\n"), Fstrerror(fd)); goto exit; } } /* Write the signature section into the package. */ rc = rpmWriteSignature(fd, sig); if (rc) goto exit; /* Append the header and archive */ ifd = Fopen(sigtarget, "r.ufdio"); if (ifd == NULL || Ferror(ifd)) { rc = RPMERR_READ; rpmError(RPMERR_READ, _("Unable to open sigtarget %s: %s\n"), sigtarget, Fstrerror(ifd)); goto exit; } /* Add signatures to header, and write header into the package. */ /* XXX header+payload digests/signatures might be checked again here. */ { Header nh = headerRead(ifd, HEADER_MAGIC_YES); if (nh == NULL) { rc = RPMERR_READ; rpmError(RPMERR_READ, _("Unable to read header from %s: %s\n"), sigtarget, Fstrerror(ifd)); goto exit; } #ifdef NOTYET (void) headerMergeLegacySigs(nh, sig); #endif rc = headerWrite(fd, nh, HEADER_MAGIC_YES); nh = headerFree(nh); if (rc) { rc = RPMERR_NOSPACE; rpmError(RPMERR_NOSPACE, _("Unable to write header to %s: %s\n"), fileName, Fstrerror(fd)); goto exit; } } /* Write the payload into the package. */ while ((count = Fread(buf, sizeof(buf[0]), sizeof(buf), ifd)) > 0) { if (count == -1) { rc = RPMERR_READ; rpmError(RPMERR_READ, _("Unable to read payload from %s: %s\n"), sigtarget, Fstrerror(ifd)); goto exit; } if (Fwrite(buf, sizeof(buf[0]), count, fd) != count) { rc = RPMERR_NOSPACE; rpmError(RPMERR_NOSPACE, _("Unable to write payload to %s: %s\n"), fileName, Fstrerror(fd)); goto exit; } } rc = 0; exit: SHA1 = _free(SHA1); h = headerFree(h); /* XXX Fish the pkgid out of the signature header. */ if (sig != NULL && pkgidp != NULL) { int_32 tagType; unsigned char * MD5 = NULL; int_32 c; int xx; xx = headerGetEntry(sig, RPMSIGTAG_MD5, &tagType, (void **)&MD5, &c); if (tagType == RPM_BIN_TYPE && MD5 != NULL && c == 16) *pkgidp = MD5; } sig = rpmFreeSignature(sig); if (ifd) { (void) Fclose(ifd); ifd = NULL; } if (fd) { (void) Fclose(fd); fd = NULL; } if (sigtarget) { (void) Unlink(sigtarget); sigtarget = _free(sigtarget); } if (rc == 0) rpmMessage(RPMMESS_NORMAL, _("Wrote: %s\n"), fileName); else (void) Unlink(fileName); return rc; } /*@=boundswrite@*/ /*@unchecked@*/ static int_32 copyTags[] = { RPMTAG_CHANGELOGTIME, RPMTAG_CHANGELOGNAME, RPMTAG_CHANGELOGTEXT, 0 }; /*@-boundswrite@*/ int packageBinaries(Spec spec) { struct cpioSourceArchive_s csabuf; CSA_t csa = &csabuf; int rc; const char *errorString; Package pkg; for (pkg = spec->packages; pkg != NULL; pkg = pkg->next) { const char *fn; if (pkg->fileList == NULL) continue; if ((rc = processScriptFiles(spec, pkg))) return rc; if (spec->cookie) { (void) headerAddEntry(pkg->header, RPMTAG_COOKIE, RPM_STRING_TYPE, spec->cookie, 1); } /* Copy changelog from src rpm */ headerCopyTags(spec->packages->header, pkg->header, copyTags); (void) headerAddEntry(pkg->header, RPMTAG_RPMVERSION, RPM_STRING_TYPE, VERSION, 1); (void) headerAddEntry(pkg->header, RPMTAG_BUILDHOST, RPM_STRING_TYPE, buildHost(), 1); (void) headerAddEntry(pkg->header, RPMTAG_BUILDTIME, RPM_INT32_TYPE, getBuildTime(), 1); providePackageNVR(pkg->header); { const char * optflags = rpmExpand("%{optflags}", NULL); (void) headerAddEntry(pkg->header, RPMTAG_OPTFLAGS, RPM_STRING_TYPE, optflags, 1); optflags = _free(optflags); } (void) genSourceRpmName(spec); (void) headerAddEntry(pkg->header, RPMTAG_SOURCERPM, RPM_STRING_TYPE, spec->sourceRpmName, 1); if (spec->sourcePkgId != NULL) { (void) headerAddEntry(pkg->header, RPMTAG_SOURCEPKGID, RPM_BIN_TYPE, spec->sourcePkgId, 16); } { const char *binFormat = rpmGetPath("%{_rpmfilename}", NULL); char *binRpm, *binDir; binRpm = headerSprintf(pkg->header, binFormat, rpmTagTable, rpmHeaderFormats, &errorString); binFormat = _free(binFormat); if (binRpm == NULL) { const char *name; (void) headerNVR(pkg->header, &name, NULL, NULL); rpmError(RPMERR_BADFILENAME, _("Could not generate output " "filename for package %s: %s\n"), name, errorString); return RPMERR_BADFILENAME; } fn = rpmGetPath("%{_rpmdir}/", binRpm, NULL); if ((binDir = strchr(binRpm, '/')) != NULL) { struct stat st; const char *dn; *binDir = '\0'; dn = rpmGetPath("%{_rpmdir}/", binRpm, NULL); if (Stat(dn, &st) < 0) { switch(errno) { case ENOENT: if (Mkdir(dn, 0755) == 0) /*@switchbreak@*/ break; /*@fallthrough@*/ default: rpmError(RPMERR_BADFILENAME,_("cannot create %s: %s\n"), dn, strerror(errno)); /*@switchbreak@*/ break; } } dn = _free(dn); } binRpm = _free(binRpm); } memset(csa, 0, sizeof(*csa)); csa->cpioArchiveSize = 0; /*@-type@*/ /* LCL: function typedefs */ csa->cpioFdIn = fdNew("init (packageBinaries)"); /*@-assignexpose -newreftrans@*/ csa->cpioList = rpmfiLink(pkg->cpioList, "packageBinaries"); /*@=assignexpose =newreftrans@*/ rc = writeRPM(&pkg->header, NULL, fn, RPMLEAD_BINARY, csa, spec->passPhrase, NULL); csa->cpioList = rpmfiFree(csa->cpioList); csa->cpioFdIn = fdFree(csa->cpioFdIn, "init (packageBinaries)"); /*@=type@*/ fn = _free(fn); if (rc) return rc; } return 0; } /*@=boundswrite@*/ /*@-boundswrite@*/ int packageSources(Spec spec) { struct cpioSourceArchive_s csabuf; CSA_t csa = &csabuf; int rc; /* Add some cruft */ (void) headerAddEntry(spec->sourceHeader, RPMTAG_RPMVERSION, RPM_STRING_TYPE, VERSION, 1); (void) headerAddEntry(spec->sourceHeader, RPMTAG_BUILDHOST, RPM_STRING_TYPE, buildHost(), 1); (void) headerAddEntry(spec->sourceHeader, RPMTAG_BUILDTIME, RPM_INT32_TYPE, getBuildTime(), 1); (void) genSourceRpmName(spec); spec->cookie = _free(spec->cookie); /* XXX this should be %_srpmdir */ { const char *fn = rpmGetPath("%{_srcrpmdir}/", spec->sourceRpmName,NULL); memset(csa, 0, sizeof(*csa)); csa->cpioArchiveSize = 0; /*@-type@*/ /* LCL: function typedefs */ csa->cpioFdIn = fdNew("init (packageSources)"); /*@-assignexpose -newreftrans@*/ csa->cpioList = rpmfiLink(spec->sourceCpioList, "packageSources"); /*@=assignexpose =newreftrans@*/ spec->sourcePkgId = NULL; rc = writeRPM(&spec->sourceHeader, &spec->sourcePkgId, fn, RPMLEAD_SOURCE, csa, spec->passPhrase, &(spec->cookie)); csa->cpioList = rpmfiFree(csa->cpioList); csa->cpioFdIn = fdFree(csa->cpioFdIn, "init (packageSources)"); /*@=type@*/ fn = _free(fn); } return rc; } /*@=boundswrite@*/