#include "config.h" #include "miscfn.h" #if HAVE_ALLOCA_H # include #endif #include #include #include #include #include #include #include #include #include #include #include #include "messages.h" #include "misc.h" #include "rpmlib.h" #if HAVE_SYS_SYSTEMCFG_H #include #else #define __power_pc() 0 #endif struct machCacheEntry { char * name; int count; char ** equivs; int visited; }; struct machCache { struct machCacheEntry * cache; int size; }; struct machEquivInfo { char * name; int score; }; struct machEquivTable { int count; struct machEquivInfo * list; }; struct rpmvarValue { char * value; /* eventually, this arch will be replaced with a generic condition */ char * arch; struct rpmvarValue * next; }; struct rpmOption { char * name; int var; int archSpecific, required; struct rpmOptionValue * value; }; struct defaultEntry { char *name; char *defName; }; struct canonEntry { char *name; char *short_name; short num; }; /* tags are 'key'canon, 'key'translate, 'key'compat for giggles, 'key'_canon, 'key'_compat, and 'key'_canon will also work */ struct tableType { char * key; int hasCanon, hasTranslate; struct machEquivTable equiv; struct machCache cache; struct defaultEntry * defaults; struct canonEntry * canons; int defaultsLength; int canonsLength; }; static struct tableType tables[RPM_MACHTABLE_COUNT] = { { "arch", 1, 0 }, { "os", 1, 0 }, { "buildarch", 0, 1 }, { "buildos", 0, 1 } }; /* this *must* be kept in alphabetical order */ static struct rpmOption optionTable[] = { { "builddir", RPMVAR_BUILDDIR, 0, 0 }, { "buildroot", RPMVAR_BUILDROOT, 0, 0 }, { "dbpath", RPMVAR_DBPATH, 0, 1 }, { "defaultdocdir", RPMVAR_DEFAULTDOCDIR, 0, 0 }, { "distribution", RPMVAR_DISTRIBUTION, 0, 0 }, { "excludedocs", RPMVAR_EXCLUDEDOCS, 0, 0 }, { "fixperms", RPMVAR_FIXPERMS, 0, 1 }, { "ftpport", RPMVAR_FTPPORT, 0, 0 }, { "ftpproxy", RPMVAR_FTPPROXY, 0, 0 }, { "gzipbin", RPMVAR_GZIPBIN, 0, 1 }, { "messagelevel", RPMVAR_MESSAGELEVEL, 0, 0 }, { "netsharedpath", RPMVAR_NETSHAREDPATH, 0, 0 }, { "optflags", RPMVAR_OPTFLAGS, 1, 0 }, { "packager", RPMVAR_PACKAGER, 0, 0 }, { "pgp_name", RPMVAR_PGP_NAME, 0, 0 }, { "pgp_path", RPMVAR_PGP_PATH, 0, 0 }, { "provides", RPMVAR_PROVIDES, 0, 0 }, { "require_distribution", RPMVAR_REQUIREDISTRIBUTION, 0, 0 }, { "require_icon", RPMVAR_REQUIREICON, 0, 0 }, { "require_vendor", RPMVAR_REQUIREVENDOR, 0, 0 }, { "root", RPMVAR_ROOT, 0, 0 }, { "rpmdir", RPMVAR_RPMDIR, 0, 0 }, { "rpmfilename", RPMVAR_RPMFILENAME, 0, 1 }, { "signature", RPMVAR_SIGTYPE, 0, 0 }, { "sourcedir", RPMVAR_SOURCEDIR, 0, 0 }, { "specdir", RPMVAR_SPECDIR, 0, 0 }, { "srcrpmdir", RPMVAR_SRPMDIR, 0, 0 }, { "timecheck", RPMVAR_TIMECHECK, 0, 0 }, { "tmppath", RPMVAR_TMPPATH, 0, 1 }, { "topdir", RPMVAR_TOPDIR, 0, 0 }, { "vendor", RPMVAR_VENDOR, 0, 0 }, }; static int optionTableSize = sizeof(optionTable) / sizeof(*optionTable); #define OS 0 #define ARCH 1 static char * current[2]; static int currTables[2] = { RPM_MACHTABLE_INSTOS, RPM_MACHTABLE_INSTARCH }; static struct rpmvarValue values[RPMVAR_NUM]; /* prototypes */ static void defaultMachine(char ** arch, char ** os); static int doReadRC(int fd, char * filename); static int optionCompare(const void * a, const void * b); static int addCanon(struct canonEntry **table, int *tableLen, char *line, char *fn, int lineNum); static int addDefault(struct defaultEntry **table, int *tableLen, char *line, char *fn, int lineNum); static void freeRpmVar(struct rpmvarValue * orig); static void rpmSetVarArch(int var, char * val, char * arch); static struct canonEntry *lookupInCanonTable(char *name, struct canonEntry *table, int tableLen); static char *lookupInDefaultTable(char *name, struct defaultEntry *table, int tableLen); static void setDefaults(void); static void setPathDefault(int var, char * s); static void rebuildCompatTables(int type, char * name); /* compatiblity tables */ static int machCompatCacheAdd(char * name, char * fn, int linenum, struct machCache * cache); static struct machCacheEntry * machCacheFindEntry(struct machCache * cache, char * key); static struct machEquivInfo * machEquivSearch( struct machEquivTable * table, char * name); static void machAddEquiv(struct machEquivTable * table, char * name, int distance); static void machCacheEntryVisit(struct machCache * cache, struct machEquivTable * table, char * name, int distance); static void machFindEquivs(struct machCache * cache, struct machEquivTable * table, char * key); static int optionCompare(const void * a, const void * b) { return strcasecmp(((struct rpmOption *) a)->name, ((struct rpmOption *) b)->name); } static struct machCacheEntry * machCacheFindEntry(struct machCache * cache, char * key) { int i; for (i = 0; i < cache->size; i++) if (!strcmp(cache->cache[i].name, key)) return cache->cache + i; return NULL; } static int machCompatCacheAdd(char * name, char * fn, int linenum, struct machCache * cache) { char * chptr, * equivs; int delEntry = 0; int i; struct machCacheEntry * entry = NULL; while (*name && isspace(*name)) name++; chptr = name; while (*chptr && *chptr != ':') chptr++; if (!*chptr) { rpmError(RPMERR_RPMRC, _("missing second ':' at %s:%d"), fn, linenum); return 1; } else if (chptr == name) { rpmError(RPMERR_RPMRC, _("missing architecture name at %s:%d"), fn, linenum); return 1; } while (*chptr == ':' || isspace(*chptr)) chptr--; *(++chptr) = '\0'; equivs = chptr + 1; while (*equivs && isspace(*equivs)) equivs++; if (!*equivs) { delEntry = 1; } if (cache->size) { entry = machCacheFindEntry(cache, name); if (entry) { for (i = 0; i < entry->count; i++) free(entry->equivs[i]); if (entry->count) free(entry->equivs); entry->count = 0; } } if (!entry) { cache->cache = realloc(cache->cache, (cache->size + 1) * sizeof(*cache->cache)); entry = cache->cache + cache->size++; entry->name = strdup(name); entry->count = 0; entry->visited = 0; } if (delEntry) return 0; chptr = strtok(equivs, " "); while (chptr) { if (strlen(chptr)) { /* does strtok() return "" ever?? */ if (entry->count) entry->equivs = realloc(entry->equivs, sizeof(*entry->equivs) * (entry->count + 1)); else entry->equivs = malloc(sizeof(*entry->equivs)); entry->equivs[entry->count] = strdup(chptr); entry->count++; } chptr = strtok(NULL, " "); } return 0; } static struct machEquivInfo * machEquivSearch( struct machEquivTable * table, char * name) { int i; for (i = 0; i < table->count; i++) if (!strcmp(table->list[i].name, name)) return table->list + i; return NULL; } static void machAddEquiv(struct machEquivTable * table, char * name, int distance) { struct machEquivInfo * equiv; equiv = machEquivSearch(table, name); if (!equiv) { if (table->count) table->list = realloc(table->list, (table->count + 1) * sizeof(*table->list)); else table->list = malloc(sizeof(*table->list)); table->list[table->count].name = strdup(name); table->list[table->count++].score = distance; } } static void machCacheEntryVisit(struct machCache * cache, struct machEquivTable * table, char * name, int distance) { struct machCacheEntry * entry; int i; entry = machCacheFindEntry(cache, name); if (!entry || entry->visited) return; entry->visited = 1; for (i = 0; i < entry->count; i++) { machAddEquiv(table, entry->equivs[i], distance); } for (i = 0; i < entry->count; i++) { machCacheEntryVisit(cache, table, entry->equivs[i], distance + 1); } }; static void machFindEquivs(struct machCache * cache, struct machEquivTable * table, char * key) { int i; for (i = 0; i < cache->size; i++) cache->cache[i].visited = 0; table->count = 0; /* We have a general graph built using strings instead of pointers. Yuck. We have to start at a point at traverse it, remembering how far away everything is. */ machAddEquiv(table, key, 1); machCacheEntryVisit(cache, table, key, 2); } static int addCanon(struct canonEntry **table, int *tableLen, char *line, char *fn, int lineNum) { struct canonEntry *t; char *s, *s1; if (! *tableLen) { *tableLen = 2; *table = malloc(2 * sizeof(struct canonEntry)); } else { (*tableLen) += 2; *table = realloc(*table, sizeof(struct canonEntry) * (*tableLen)); } t = & ((*table)[*tableLen - 2]); t->name = strtok(line, ": \t"); t->short_name = strtok(NULL, " \t"); s = strtok(NULL, " \t"); if (! (t->name && t->short_name && s)) { rpmError(RPMERR_RPMRC, _("Incomplete data line at %s:%d"), fn, lineNum); return RPMERR_RPMRC; } if (strtok(NULL, " \t")) { rpmError(RPMERR_RPMRC, _("Too many args in data line at %s:%d"), fn, lineNum); return RPMERR_RPMRC; } t->num = strtoul(s, &s1, 10); if ((*s1) || (s1 == s) || (t->num == ULONG_MAX)) { rpmError(RPMERR_RPMRC, _("Bad arch/os number: %s (%s:%d)"), s, fn, lineNum); return(RPMERR_RPMRC); } t->name = strdup(t->name); t->short_name = strdup(t->short_name); /* From A B C entry */ /* Add B B C entry */ t[1].name = strdup(t->short_name); t[1].short_name = strdup(t->short_name); t[1].num = t->num; return 0; } static int addDefault(struct defaultEntry **table, int *tableLen, char *line, char *fn, int lineNum) { struct defaultEntry *t; if (! *tableLen) { *tableLen = 1; *table = malloc(sizeof(struct defaultEntry)); } else { (*tableLen)++; *table = realloc(*table, sizeof(struct defaultEntry) * (*tableLen)); } t = & ((*table)[*tableLen - 1]); t->name = strtok(line, ": \t"); t->defName = strtok(NULL, " \t"); if (! (t->name && t->defName)) { rpmError(RPMERR_RPMRC, _("Incomplete default line at %s:%d"), fn, lineNum); return RPMERR_RPMRC; } if (strtok(NULL, " \t")) { rpmError(RPMERR_RPMRC, _("Too many args in default line at %s:%d"), fn, lineNum); return RPMERR_RPMRC; } t->name = strdup(t->name); t->defName = strdup(t->defName); return 0; } static struct canonEntry *lookupInCanonTable(char *name, struct canonEntry *table, int tableLen) { while (tableLen) { tableLen--; if (!strcmp(name, table[tableLen].name)) { return &(table[tableLen]); } } return NULL; } static char *lookupInDefaultTable(char *name, struct defaultEntry *table, int tableLen) { while (tableLen) { tableLen--; if (!strcmp(name, table[tableLen].name)) { return table[tableLen].defName; } } return name; } int rpmReadConfigFiles(char * file, char * arch, char * os, int building) { if (rpmReadRC(file)) return -1; if (building) rpmSetTables(RPM_MACHTABLE_BUILDARCH, RPM_MACHTABLE_BUILDOS); rpmSetMachine(arch, os); return 0; } static void setPathDefault(int var, char * s) { char * topdir; char * fn; if (rpmGetVar(var)) return; topdir = rpmGetVar(RPMVAR_TOPDIR); if (!topdir) topdir = rpmGetVar(RPMVAR_TMPPATH); fn = alloca(strlen(topdir) + strlen(s) + 2); strcpy(fn, topdir); if (fn[strlen(topdir) - 1] != '/') strcat(fn, "/"); strcat(fn, s); rpmSetVar(var, fn); } static void setDefaults(void) { rpmSetVar(RPMVAR_OPTFLAGS, "-O2"); rpmSetVar(RPMVAR_SIGTYPE, "none"); rpmSetVar(RPMVAR_DEFAULTDOCDIR, "/usr/doc"); rpmSetVar(RPMVAR_TOPDIR, "/usr/src/redhat"); } int rpmReadRC(char * file) { int fd; char * fn; char * home; int rc = 0; static int first = 1; if (first) { setDefaults(); first = 0; } fd = open(LIBRPMRC_FILENAME, O_RDONLY); if (fd > 0) { rc = doReadRC(fd, LIBRPMRC_FILENAME); close(fd); if (rc) return rc; } else { rpmError(RPMERR_RPMRC, _("Unable to open %s for reading: %s."), LIBRPMRC_FILENAME, strerror(errno)); return 1; } if (file) fn = file; else fn = "/etc/rpmrc"; fd = open(fn, O_RDONLY); if (fd > 0) { rc = doReadRC(fd, fn); close(fd); if (rc) return rc; } else if (file) { rpmError(RPMERR_RPMRC, _("Unable to open %s for reading: %s."), file, strerror(errno)); return 1; } if (!file) { home = getenv("HOME"); if (home) { fn = alloca(strlen(home) + 8); strcpy(fn, home); strcat(fn, "/.rpmrc"); fd = open(fn, O_RDONLY); if (fd > 0) { rc |= doReadRC(fd, fn); close(fd); if (rc) return rc; } } } rpmSetMachine(NULL, NULL); setPathDefault(RPMVAR_BUILDDIR, "BUILD"); setPathDefault(RPMVAR_RPMDIR, "RPMS"); setPathDefault(RPMVAR_SRPMDIR, "SRPMS"); setPathDefault(RPMVAR_SOURCEDIR, "SOURCES"); setPathDefault(RPMVAR_SPECDIR, "SPECS"); return 0; } static int doReadRC(int fd, char * filename) { struct stat sb; char * buf; char * start, * chptr, * next, * rest; int linenum = 0; struct rpmOption searchOption, * option; int i; int gotit; fstat(fd, &sb); next = buf = alloca(sb.st_size + 2); if (read(fd, buf, sb.st_size) != sb.st_size) { rpmError(RPMERR_RPMRC, _("Failed to read %s: %s."), filename, strerror(errno)); return 1; } buf[sb.st_size] = '\n'; buf[sb.st_size + 1] = '\0'; while (*next) { linenum++; chptr = start = next; while (*chptr != '\n') chptr++; *chptr = '\0'; next = chptr + 1; while (isspace(*start)) start++; /* we used to allow comments to begin anywhere, but not anymore */ if (*start == '#' || !*start) continue; chptr = start; while (!isspace(*chptr) && *chptr != ':' && *chptr) chptr++; if (isspace(*chptr)) { *chptr++ = '\0'; while (isspace(*chptr) && *chptr != ':' && *chptr) chptr++; } if (*chptr != ':') { rpmError(RPMERR_RPMRC, _("missing ':' at %s:%d"), filename, linenum); return 1; } *chptr++ = '\0'; searchOption.name = start; option = bsearch(&searchOption, optionTable, optionTableSize, sizeof(struct rpmOption), optionCompare); if (option) { start = chptr; while (isspace(*start) && *start) start++; if (! *start) { rpmError(RPMERR_RPMRC, _("missing argument for %s at %s:%d"), option->name, filename, linenum); return 1; } if (option->archSpecific) { chptr = start; while (!isspace(*chptr) && *chptr) chptr++; if (!*chptr) { rpmError(RPMERR_RPMRC, _("missing architecture for %s at %s:%d"), option->name, filename, linenum); return 1; } *chptr++ = '\0'; while (isspace(*chptr) && *chptr) chptr++; if (!*chptr) { rpmError(RPMERR_RPMRC, _("missing argument for %s at %s:%d"), option->name, filename, linenum); return 1; } rpmSetVarArch(option->var, chptr, start); } else { rpmSetVarArch(option->var, start, NULL); } } else { gotit = 0; for (i = 0; i < RPM_MACHTABLE_COUNT; i++) { if (!strncmp(tables[i].key, start, strlen(tables[i].key))) break; } if (i < RPM_MACHTABLE_COUNT) { rest = start + strlen(tables[i].key); if (*rest == '_') rest++; if (!strcmp(rest, "compat")) { if (machCompatCacheAdd(chptr, filename, linenum, &tables[i].cache)) return 1; gotit = 1; } else if (tables[i].hasTranslate && !strcmp(rest, "translate")) { if (addDefault(&tables[i].defaults, &tables[i].defaultsLength, chptr, filename, linenum)) return 1; gotit = 1; } else if (tables[i].hasCanon && !strcmp(rest, "canon")) { if (addCanon(&tables[i].canons, &tables[i].canonsLength, chptr, filename, linenum)) return 1; gotit = 1; } } if (!gotit) { rpmError(RPMERR_RPMRC, _("bad option '%s' at %s:%d"), start, filename, linenum); } } } return 0; } static void defaultMachine(char ** arch, char ** os) { static struct utsname un; static int gotDefaults = 0; char * chptr; struct canonEntry * canon; if (!gotDefaults) { uname(&un); if (!strcmp(un.sysname, "AIX")) { strcpy(un.machine, __power_pc() ? "ppc" : "rs6000"); } else if (!strncmp(un.sysname, "IP", 2)) { un.sysname[2] = '\0'; } /* get rid of the hyphens in the sysname */ chptr = un.machine; while (*chptr++) if (*chptr == '/') *chptr = '-'; #if defined(__hpux) && defined(_SC_CPU_VERSION) { int cpu_version = sysconf(_SC_CPU_VERSION); #if defined(CPU_HP_MC68020) if (cpu_version == CPU_HP_MC68020) strcpy(un.machine, "m68k"); #endif #if defined(CPU_HP_MC68030) if (cpu_version == CPU_HP_MC68030) strcpy(un.machine, "m68k"); #endif #if defined(CPU_HP_MC68040) if (cpu_version == CPU_HP_MC68040) strcpy(un.machine, "m68k"); #endif #if defined(CPU_PA_RISC1_0) if (cpu_version == CPU_PA_RISC1_0) strcpy(un.machine, "parisc"); #endif #if defined(CPU_PA_RISC1_1) if (cpu_version == CPU_PA_RISC1_1) strcpy(un.machine, "parisc"); #endif #if defined(CPU_PA_RISC1_2) if (cpu_version == CPU_PA_RISC1_2) strcpy(un.machine, "parisc"); #endif } #endif /* the uname() result goes through the arch_canon table */ canon = lookupInCanonTable(un.machine, tables[RPM_MACHTABLE_INSTARCH].canons, tables[RPM_MACHTABLE_INSTARCH].canonsLength); if (canon) strcpy(un.machine, canon->short_name); canon = lookupInCanonTable(un.sysname, tables[RPM_MACHTABLE_INSTOS].canons, tables[RPM_MACHTABLE_INSTOS].canonsLength); if (canon) strcpy(un.sysname, canon->short_name); } if (arch) *arch = un.machine; if (os) *os = un.sysname; } static char * rpmGetVarArch(int var, char * arch) { struct rpmvarValue * next; if (!arch) arch = current[ARCH]; if (arch) { next = &values[var]; while (next) { if (next->arch && !strcmp(next->arch, arch)) return next->value; next = next->next; } } next = values + var; while (next && next->arch) next = next->next; return next ? next->value : NULL; } char *rpmGetVar(int var) { return rpmGetVarArch(var, NULL); } int rpmGetBooleanVar(int var) { char * val; int num; char * chptr; val = rpmGetVar(var); if (!val) return 0; if (val[0] == 'y' || val[0] == 'Y') return 1; num = strtol(val, &chptr, 0); if (chptr && *chptr == '\0') { return num != 0; } return 0; } void rpmSetVar(int var, char *val) { freeRpmVar(&values[var]); values[var].arch = NULL; values[var].next = NULL; if (val) values[var].value = strdup(val); else values[var].value = NULL; } /* this doesn't free the passed pointer! */ static void freeRpmVar(struct rpmvarValue * orig) { struct rpmvarValue * next, * var = orig; while (var) { next = var->next; if (var->arch) free(var->arch); if (var->value) free(var->value); if (var != orig) free(var); var = next; } } static void rpmSetVarArch(int var, char * val, char * arch) { struct rpmvarValue * next = values + var; if (next->value) { if (arch) { while (next->next) { if (next->arch && !strcmp(next->arch, arch)) break; next = next->next; } } else { while (next->next) { if (!next->arch) break; next = next->next; } } if (next->arch && arch && !strcmp(next->arch, arch)) { if (next->value) free(next->value); if (next->arch) free(next->arch); } else if (next->arch || arch) { next->next = malloc(sizeof(*next->next)); next = next->next; next->next = NULL; } } next->value = strdup(val); if (arch) next->arch = strdup(arch); else next->arch = NULL; } void rpmSetTables(int archTable, int osTable) { char * arch, * os; defaultMachine(&arch, &os); if (currTables[ARCH] != archTable) { currTables[ARCH] = archTable; rebuildCompatTables(ARCH, arch); } if (currTables[OS] != osTable) { currTables[OS] = osTable; rebuildCompatTables(OS, os); } } int rpmMachineScore(int type, char * name) { struct machEquivInfo * info; info = machEquivSearch(&tables[type].equiv, name); if (info) return info->score; else return 0; } void rpmSetMachine(char * arch, char * os) { int transOs = os == NULL; int transArch = arch == NULL; char * realArch, * realOs; defaultMachine(&realArch, &realOs); if (!arch) arch = realArch; if (!os) os = realOs; if (transArch && tables[currTables[ARCH]].hasTranslate) arch = lookupInDefaultTable(arch, tables[currTables[ARCH]].defaults, tables[currTables[ARCH]].defaultsLength); if (transOs && tables[currTables[OS]].hasTranslate) os = lookupInDefaultTable(os, tables[currTables[OS]].defaults, tables[currTables[OS]].defaultsLength); if (!current[ARCH] || strcmp(arch, current[ARCH])) { if (current[ARCH]) free(current[ARCH]); current[ARCH] = strdup(arch); rebuildCompatTables(ARCH, realArch); } if (!current[OS] || strcmp(os, current[OS])) { if (current[OS]) free(current[OS]); current[OS] = strdup(os); rebuildCompatTables(OS, realOs); } } static void rebuildCompatTables(int type, char * name) { machFindEquivs(&tables[currTables[type]].cache, &tables[currTables[type]].equiv, name); } static void getMachineInfo(int type, char ** name, int * num) { struct canonEntry * canon; int which = currTables[type]; /* use the normal canon tables, even if we're looking up build stuff */ if (which >= 2) which -= 2; canon = lookupInCanonTable(current[type], tables[which].canons, tables[which].canonsLength); if (canon) { if (num) *num = canon->num; if (name) *name = canon->short_name; } else { if (num) *num = 255; if (name) *name = current[type]; if (tables[currTables[type]].hasCanon) { rpmMessage(RPMMESS_WARNING, "Unknown system: %s\n", current[type]); rpmMessage(RPMMESS_WARNING, "Please contact rpm-list@redhat.com\n"); } } } void rpmGetArchInfo(char ** name, int * num) { getMachineInfo(ARCH, name, num); } void rpmGetOsInfo(char ** name, int * num) { getMachineInfo(OS, name, num); } int rpmShowRC(FILE *f) { struct rpmOption *opt; int count = 0; char *s; int i; struct machEquivTable * equivTable; /* the caller may set the build arch which should be printed here */ fprintf(f, "ARCHITECTURE AND OS:\n"); fprintf(f, "build arch : %s\n", current[ARCH]); fprintf(f, "compatible build archs:"); equivTable = &tables[RPM_MACHTABLE_BUILDARCH].equiv; for (i = 0; i < equivTable->count; i++) fprintf(f," %s", equivTable->list[i].name); fprintf(f, "\n"); fprintf(f, "build os : %s\n", current[OS]); fprintf(f, "compatible build os's :"); equivTable = &tables[RPM_MACHTABLE_BUILDOS].equiv; for (i = 0; i < equivTable->count; i++) fprintf(f," %s", equivTable->list[i].name); fprintf(f, "\n"); rpmSetTables(RPM_MACHTABLE_INSTARCH, RPM_MACHTABLE_INSTOS); rpmSetMachine(NULL, NULL); fprintf(f, "install arch : %s\n", current[ARCH]); fprintf(f, "install os : %s\n", current[OS]); fprintf(f, "compatible archs :"); equivTable = &tables[RPM_MACHTABLE_INSTARCH].equiv; for (i = 0; i < equivTable->count; i++) fprintf(f," %s", equivTable->list[i].name); fprintf(f, "\n"); fprintf(f, "compatible os's :"); equivTable = &tables[RPM_MACHTABLE_INSTOS].equiv; for (i = 0; i < equivTable->count; i++) fprintf(f," %s", equivTable->list[i].name); fprintf(f, "\n"); fprintf(f, "RPMRC VALUES:\n"); opt = optionTable; while (count < optionTableSize) { s = rpmGetVar(opt->var); fprintf(f, "%-21s : %s\n", opt->name, s ? s : "(not set)"); opt++; count++; } return 0; }