/*@-sizeoftype@*/ /** \ingroup header * \file rpmdb/header_internal.c */ #include "system.h" #include #include "debug.h" /*@-boundswrite@*/ char ** headerGetLangs(Header h) { char **s, *e, **table; int i, type, count; if (!headerGetRawEntry(h, HEADER_I18NTABLE, &type, (const void **)&s, &count)) return NULL; /* XXX xcalloc never returns NULL. */ if ((table = (char **)xcalloc((count+1), sizeof(char *))) == NULL) return NULL; for (i = 0, e = *s; i < count > 0; i++, e += strlen(e)+1) table[i] = e; table[count] = NULL; /*@-nullret@*/ return table; /*@=nullret@*/ /* LCL: double indirection? */ } /*@=boundswrite@*/ /*@-boundsread@*/ /*@-type@*/ /* FIX: shrug */ void headerDump(Header h, FILE *f, int flags, const struct headerTagTableEntry_s * tags) { int i; indexEntry p; const struct headerTagTableEntry_s * tage; const char * tag; char * type; /* First write out the length of the index (count of index entries) */ fprintf(f, "Entry count: %d\n", h->indexUsed); /* Now write the index */ p = h->index; fprintf(f, "\n CT TAG TYPE " " OFSET COUNT\n"); for (i = 0; i < h->indexUsed; i++) { switch (p->info.type) { case RPM_NULL_TYPE: type = "NULL"; /*@switchbreak@*/ break; case RPM_CHAR_TYPE: type = "CHAR"; /*@switchbreak@*/ break; case RPM_BIN_TYPE: type = "BIN"; /*@switchbreak@*/ break; case RPM_INT8_TYPE: type = "INT8"; /*@switchbreak@*/ break; case RPM_INT16_TYPE: type = "INT16"; /*@switchbreak@*/ break; case RPM_INT32_TYPE: type = "INT32"; /*@switchbreak@*/ break; /*case RPM_INT64_TYPE: type = "INT64"; break;*/ case RPM_STRING_TYPE: type = "STRING"; /*@switchbreak@*/ break; case RPM_STRING_ARRAY_TYPE: type = "STRING_ARRAY"; /*@switchbreak@*/ break; case RPM_I18NSTRING_TYPE: type = "I18N_STRING"; /*@switchbreak@*/ break; default: type = "(unknown)"; /*@switchbreak@*/ break; } tage = tags; while (tage->name && tage->val != p->info.tag) tage++; if (!tage->name) tag = "(unknown)"; else tag = tage->name; fprintf(f, "Entry : %3.3d (%d)%-14s %-18s 0x%.8x %.8d\n", i, p->info.tag, tag, type, (unsigned) p->info.offset, (int) p->info.count); if (flags & HEADER_DUMP_INLINE) { char *dp = p->data; int c = p->info.count; int ct = 0; /* Print the data inline */ switch (p->info.type) { case RPM_INT32_TYPE: while (c--) { fprintf(f, " Data: %.3d 0x%08x (%d)\n", ct++, (unsigned) *((int_32 *) dp), (int) *((int_32 *) dp)); dp += sizeof(int_32); } /*@switchbreak@*/ break; case RPM_INT16_TYPE: while (c--) { fprintf(f, " Data: %.3d 0x%04x (%d)\n", ct++, (unsigned) (*((int_16 *) dp) & 0xffff), (int) *((int_16 *) dp)); dp += sizeof(int_16); } /*@switchbreak@*/ break; case RPM_INT8_TYPE: while (c--) { fprintf(f, " Data: %.3d 0x%02x (%d)\n", ct++, (unsigned) (*((int_8 *) dp) & 0xff), (int) *((int_8 *) dp)); dp += sizeof(int_8); } /*@switchbreak@*/ break; case RPM_BIN_TYPE: while (c > 0) { fprintf(f, " Data: %.3d ", ct); while (c--) { fprintf(f, "%02x ", (unsigned) (*(int_8 *)dp & 0xff)); ct++; dp += sizeof(int_8); if (! (ct % 8)) { /*@loopbreak@*/ break; } } fprintf(f, "\n"); } /*@switchbreak@*/ break; case RPM_CHAR_TYPE: while (c--) { char ch = (char) *((char *) dp); fprintf(f, " Data: %.3d 0x%2x %c (%d)\n", ct++, (unsigned)(ch & 0xff), (isprint(ch) ? ch : ' '), (int) *((char *) dp)); dp += sizeof(char); } /*@switchbreak@*/ break; case RPM_STRING_TYPE: case RPM_STRING_ARRAY_TYPE: case RPM_I18NSTRING_TYPE: while (c--) { fprintf(f, " Data: %.3d %s\n", ct++, (char *) dp); dp = strchr(dp, 0); dp++; } /*@switchbreak@*/ break; default: fprintf(stderr, _("Data type %d not supported\n"), (int) p->info.type); /*@switchbreak@*/ break; } } p++; } } /*@=type@*/ /*@=sizeoftype@*/ /*@=boundsread@*/