/** * \file lib/legacy.c */ #include "system.h" #include #include #include #include #include #include "debug.h" static int dncmp(const void * a, const void * b) { const char *const * first = a; const char *const * second = b; return strcmp(*first, *second); } static void compressFilelist(Header h) { struct rpmtd_s fileNames; char ** dirNames; const char ** baseNames; uint32_t * dirIndexes; rpm_count_t count; int i; int dirIndex = -1; /* * This assumes the file list is already sorted, and begins with a * single '/'. That assumption isn't critical, but it makes things go * a bit faster. */ if (headerIsEntry(h, RPMTAG_DIRNAMES)) { headerDel(h, RPMTAG_OLDFILENAMES); return; /* Already converted. */ } if (!headerGet(h, RPMTAG_OLDFILENAMES, &fileNames, HEADERGET_MINMEM)) return; count = rpmtdCount(&fileNames); if (count < 1) return; dirNames = xmalloc(sizeof(*dirNames) * count); /* worst case */ baseNames = xmalloc(sizeof(*dirNames) * count); dirIndexes = xmalloc(sizeof(*dirIndexes) * count); /* HACK. Source RPM, so just do things differently */ { const char *fn = rpmtdGetString(&fileNames); if (fn && *fn != '/') { dirIndex = 0; dirNames[dirIndex] = xstrdup(""); while ((i = rpmtdNext(&fileNames)) >= 0) { dirIndexes[i] = dirIndex; baseNames[i] = rpmtdGetString(&fileNames); } goto exit; } } /* * XXX EVIL HACK, FIXME: * This modifies (and then restores) a const string from rpmtd * through basename retrieved from strrchr() which silently * casts away const on return. */ while ((i = rpmtdNext(&fileNames)) >= 0) { char ** needle; char savechar; char * baseName; size_t len; char *filename = (char *) rpmtdGetString(&fileNames); /* HACK HACK */ if (filename == NULL) /* XXX can't happen */ continue; baseName = strrchr(filename, '/') + 1; len = baseName - filename; needle = dirNames; savechar = *baseName; *baseName = '\0'; if (dirIndex < 0 || (needle = bsearch(&filename, dirNames, dirIndex + 1, sizeof(dirNames[0]), dncmp)) == NULL) { char *s = xmalloc(len + 1); rstrlcpy(s, filename, len + 1); dirIndexes[i] = ++dirIndex; dirNames[dirIndex] = s; } else dirIndexes[i] = needle - dirNames; *baseName = savechar; baseNames[i] = baseName; } exit: if (count > 0) { headerPutUint32(h, RPMTAG_DIRINDEXES, dirIndexes, count); headerPutStringArray(h, RPMTAG_BASENAMES, baseNames, count); headerPutStringArray(h, RPMTAG_DIRNAMES, (const char **) dirNames, dirIndex + 1); } rpmtdFreeData(&fileNames); for (i = 0; i <= dirIndex; i++) { free(dirNames[i]); } free(dirNames); free(baseNames); free(dirIndexes); headerDel(h, RPMTAG_OLDFILENAMES); } static void expandFilelist(Header h) { struct rpmtd_s filenames; if (!headerIsEntry(h, RPMTAG_OLDFILENAMES)) { (void) headerGet(h, RPMTAG_FILENAMES, &filenames, HEADERGET_EXT); if (rpmtdCount(&filenames) < 1) return; rpmtdSetTag(&filenames, RPMTAG_OLDFILENAMES); headerPut(h, &filenames, HEADERPUT_DEFAULT); rpmtdFreeData(&filenames); } (void) headerDel(h, RPMTAG_DIRNAMES); (void) headerDel(h, RPMTAG_BASENAMES); (void) headerDel(h, RPMTAG_DIRINDEXES); } /* * Up to rpm 3.0.4, packages implicitly provided their own name-version-release. * Retrofit an explicit "Provides: name = epoch:version-release. */ static void providePackageNVR(Header h) { const char *name = headerGetString(h, RPMTAG_NAME); char *pEVR = headerGetAsString(h, RPMTAG_EVR); rpmsenseFlags pFlags = RPMSENSE_EQUAL; int bingo = 1; struct rpmtd_s pnames; rpmds hds, nvrds; /* Generate provides for this package name-version-release. */ if (!(name && pEVR)) return; /* * Rpm prior to 3.0.3 does not have versioned provides. * If no provides at all are available, we can just add. */ if (!headerGet(h, RPMTAG_PROVIDENAME, &pnames, HEADERGET_MINMEM)) { goto exit; } /* * Otherwise, fill in entries on legacy packages. */ if (!headerIsEntry(h, RPMTAG_PROVIDEVERSION)) { while (rpmtdNext(&pnames) >= 0) { rpmsenseFlags fdummy = RPMSENSE_ANY; headerPutString(h, RPMTAG_PROVIDEVERSION, ""); headerPutUint32(h, RPMTAG_PROVIDEFLAGS, &fdummy, 1); } goto exit; } /* see if we already have this provide */ hds = rpmdsNew(h, RPMTAG_PROVIDENAME, 0); nvrds = rpmdsSingle(RPMTAG_PROVIDENAME, name, pEVR, pFlags); if (rpmdsFind(hds, nvrds) >= 0) { bingo = 0; } rpmdsFree(hds); rpmdsFree(nvrds); exit: if (bingo) { headerPutString(h, RPMTAG_PROVIDENAME, name); headerPutString(h, RPMTAG_PROVIDEVERSION, pEVR); headerPutUint32(h, RPMTAG_PROVIDEFLAGS, &pFlags, 1); } rpmtdFreeData(&pnames); free(pEVR); } static void legacyRetrofit(Header h) { /* * The file list was moved to a more compressed format which not * only saves memory (nice), but gives fingerprinting a nice, fat * speed boost (very nice). Go ahead and convert old headers to * the new style (this is a noop for new headers). */ compressFilelist(h); /* Retrofit "Provide: name = EVR" for binary packages. */ if (!headerIsSource(h)) { providePackageNVR(h); } } int headerConvert(Header h, int op) { int rc = 1; if (h == NULL) return 0; switch (op) { case HEADERCONV_EXPANDFILELIST: expandFilelist(h); break; case HEADERCONV_COMPRESSFILELIST: compressFilelist(h); break; case HEADERCONV_RETROFIT_V3: legacyRetrofit(h); break; default: rc = 0; break; } return rc; }; /* * Backwards compatibility wrappers for legacy interfaces. * Remove these some day... */ #define _RPM_4_4_COMPAT #include /* dumb macro to avoid 50 copies of this code while converting... */ #define TDWRAP() \ if (type) \ *type = td.type; \ if (p) \ *p = td.data; \ else \ rpmtdFreeData(&td); \ if (c) \ *c = td.count int headerRemoveEntry(Header h, rpm_tag_t tag) { return headerDel(h, tag); } static void *_headerFreeData(rpm_data_t data, rpm_tagtype_t type) { if (data) { if (type == RPM_FORCEFREE_TYPE || type == RPM_STRING_ARRAY_TYPE || type == RPM_I18NSTRING_TYPE || type == RPM_BIN_TYPE) free(data); } return NULL; } void * headerFreeData(rpm_data_t data, rpm_tagtype_t type) { return _headerFreeData(data, type); } void * headerFreeTag(Header h, rpm_data_t data, rpm_tagtype_t type) { return _headerFreeData(data, type); } static int headerGetWrap(Header h, rpm_tag_t tag, rpm_tagtype_t * type, rpm_data_t * p, rpm_count_t * c, headerGetFlags flags) { struct rpmtd_s td; int rc; rc = headerGet(h, tag, &td, flags); TDWRAP(); return rc; } int headerGetEntry(Header h, rpm_tag_t tag, rpm_tagtype_t * type, rpm_data_t * p, rpm_count_t * c) { return headerGetWrap(h, tag, type, p, c, HEADERGET_DEFAULT); } int headerGetEntryMinMemory(Header h, rpm_tag_t tag, rpm_tagtype_t * type, rpm_data_t * p, rpm_count_t * c) { return headerGetWrap(h, tag, type, (rpm_data_t) p, c, HEADERGET_MINMEM); } /* XXX shut up compiler warning from missing prototype */ int headerGetRawEntry(Header h, rpm_tag_t tag, rpm_tagtype_t * type, rpm_data_t * p, rpm_count_t * c); int headerGetRawEntry(Header h, rpm_tag_t tag, rpm_tagtype_t * type, rpm_data_t * p, rpm_count_t * c) { if (p == NULL) return headerIsEntry(h, tag); return headerGetWrap(h, tag, type, p, c, HEADERGET_RAW); } int headerNextIterator(HeaderIterator hi, rpm_tag_t * tag, rpm_tagtype_t * type, rpm_data_t * p, rpm_count_t * c) { struct rpmtd_s td; int rc; rc = headerNext(hi, &td); if (tag) *tag = td.tag; TDWRAP(); return rc; } int headerModifyEntry(Header h, rpm_tag_t tag, rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t c) { struct rpmtd_s td = { .tag = tag, .type = type, .data = (void *) p, .count = c, }; return headerMod(h, &td); } static int headerPutWrap(Header h, rpm_tag_t tag, rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t c, headerPutFlags flags) { struct rpmtd_s td = { .tag = tag, .type = type, .data = (void *) p, .count = c, }; return headerPut(h, &td, flags); } int headerAddOrAppendEntry(Header h, rpm_tag_t tag, rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t c) { return headerPutWrap(h, tag, type, p, c, HEADERPUT_APPEND); } int headerAppendEntry(Header h, rpm_tag_t tag, rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t c) { return headerPutWrap(h, tag, type, p, c, HEADERPUT_APPEND); } int headerAddEntry(Header h, rpm_tag_t tag, rpm_tagtype_t type, rpm_constdata_t p, rpm_count_t c) { return headerPutWrap(h, tag, type, p, c, HEADERPUT_DEFAULT); } #undef _RPM_4_4_COMPAT