/* $Id: udns_dn.c,v 1.7 2006/11/28 22:45:20 mjt Exp $ domain names manipulation routines Copyright (C) 2005 Michael Tokarev This file is part of UDNS library, an async DNS stub resolver. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library, in file named COPYING.LGPL; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include "udns.h" unsigned dns_dnlen(dnscc_t *dn) { register dnscc_t *d = dn; while(*d) d += 1 + *d; return (unsigned)(d - dn) + 1; } unsigned dns_dnlabels(register dnscc_t *dn) { register unsigned l = 0; while(*dn) ++l, dn += 1 + *dn; return l; } unsigned dns_dnequal(register dnscc_t *dn1, register dnscc_t *dn2) { register unsigned c; dnscc_t *dn = dn1; for(;;) { if ((c = *dn1++) != *dn2++) return 0; if (!c) return (unsigned)(dn1 - dn); while(c--) { if (DNS_DNLC(*dn1) != DNS_DNLC(*dn2)) return 0; ++dn1; ++dn2; } } } unsigned dns_dntodn(dnscc_t *sdn, dnsc_t *ddn, unsigned ddnsiz) { unsigned sdnlen = dns_dnlen(sdn); if (ddnsiz < sdnlen) return 0; memcpy(ddn, sdn, sdnlen); return sdnlen; } int dns_ptodn(const char *name, unsigned namelen, dnsc_t *dn, unsigned dnsiz, int *isabs) { dnsc_t *dp; /* current position in dn (len byte first) */ dnsc_t *const de /* end of dn: last byte that can be filled up */ = dn + (dnsiz >= DNS_MAXDN ? DNS_MAXDN : dnsiz) - 1; dnscc_t *np = (dnscc_t *)name; dnscc_t *ne = np + (namelen ? namelen : strlen((char*)np)); dnsc_t *llab; /* start of last label (llab[-1] will be length) */ unsigned c; /* next input character, or length of last label */ if (!dnsiz) return 0; dp = llab = dn + 1; while(np < ne) { if (*np == '.') { /* label delimiter */ c = (unsigned)(dp - llab); /* length of the label */ if (!c) { /* empty label */ if (np == (dnscc_t *)name && np + 1 == ne) { /* special case for root dn, aka `.' */ ++np; break; } return -1; /* zero label */ } if (c > DNS_MAXLABEL) return -1; /* label too long */ llab[-1] = (dnsc_t)c; /* update len of last label */ llab = ++dp; /* start new label, llab[-1] will be len of it */ ++np; continue; } /* check whenever we may put out one more byte */ if (dp >= de) /* too long? */ return dnsiz >= DNS_MAXDN ? -1 : 0; if (*np != '\\') { /* non-escape, simple case */ *dp++ = *np++; continue; } /* handle \-style escape */ /* note that traditionally, domain names (gethostbyname etc) * used decimal \dd notation, not octal \ooo (RFC1035), so * we're following this tradition here. */ if (++np == ne) return -1; /* bad escape */ else if (*np >= '0' && *np <= '9') { /* decimal number */ /* we allow not only exactly 3 digits as per RFC1035, * but also 2 or 1, for better usability. */ c = *np++ - '0'; if (np < ne && *np >= '0' && *np <= '9') { /* 2digits */ c = c * 10 + *np++ - '0'; if (np < ne && *np >= '0' && *np <= '9') { c = c * 10 + *np++ - '0'; if (c > 255) return -1; /* bad escape */ } } } else c = *np++; *dp++ = (dnsc_t)c; /* place next out byte */ } if ((c = (unsigned)(dp - llab)) > DNS_MAXLABEL) return -1; /* label too long */ if ((llab[-1] = (dnsc_t)c) != 0) { *dp++ = 0; if (isabs) *isabs = 0; } else if (isabs) *isabs = 1; return (int)(dp - dn); } dnscc_t dns_inaddr_arpa_dn[14] = "\07in-addr\04arpa"; dnsc_t * dns_a4todn_(const struct in_addr *addr, dnsc_t *dn, dnsc_t *dne) { dnsc_t *p; unsigned n; dnscc_t *s = ((dnscc_t *)addr) + 4; while(--s >= (dnscc_t *)addr) { n = *s; p = dn + 1; if (n > 99) { if (p + 2 > dne) return 0; *p++ = n / 100 + '0'; *p++ = (n % 100 / 10) + '0'; *p = n % 10 + '0'; } else if (n > 9) { if (p + 1 > dne) return 0; *p++ = n / 10 + '0'; *p = n % 10 + '0'; } else { if (p > dne) return 0; *p = n + '0'; } *dn = (dnsc_t)(p - dn); dn = p + 1; } return dn; } int dns_a4todn(const struct in_addr *addr, dnscc_t *tdn, dnsc_t *dn, unsigned dnsiz) { dnsc_t *dne = dn + (dnsiz > DNS_MAXDN ? DNS_MAXDN : dnsiz); dnsc_t *p; unsigned l; p = dns_a4todn_(addr, dn, dne); if (!p) return 0; if (!tdn) tdn = dns_inaddr_arpa_dn; l = dns_dnlen(tdn); if (p + l > dne) return dnsiz >= DNS_MAXDN ? -1 : 0; memcpy(p, tdn, l); return (int)((p + l) - dn); } int dns_a4ptodn(const struct in_addr *addr, const char *tname, dnsc_t *dn, unsigned dnsiz) { dnsc_t *p; int r; if (!tname) return dns_a4todn(addr, NULL, dn, dnsiz); p = dns_a4todn_(addr, dn, dn + dnsiz); if (!p) return 0; r = dns_sptodn(tname, p, dnsiz - (p - dn)); return r != 0 ? r : dnsiz >= DNS_MAXDN ? -1 : 0; } dnscc_t dns_ip6_arpa_dn[10] = "\03ip6\04arpa"; dnsc_t * dns_a6todn_(const struct in6_addr *addr, dnsc_t *dn, dnsc_t *dne) { unsigned n; dnscc_t *s = ((dnscc_t *)addr) + 16; if (dn + 64 > dne) return 0; while(--s >= (dnscc_t *)addr) { *dn++ = 1; n = *s & 0x0f; *dn++ = n > 9 ? n + 'a' - 10 : n + '0'; *dn++ = 1; n = *s >> 4; *dn++ = n > 9 ? n + 'a' - 10 : n + '0'; } return dn; } int dns_a6todn(const struct in6_addr *addr, dnscc_t *tdn, dnsc_t *dn, unsigned dnsiz) { dnsc_t *dne = dn + (dnsiz > DNS_MAXDN ? DNS_MAXDN : dnsiz); dnsc_t *p; unsigned l; p = dns_a6todn_(addr, dn, dne); if (!p) return 0; if (!tdn) tdn = dns_ip6_arpa_dn; l = dns_dnlen(tdn); if (p + l > dne) return dnsiz >= DNS_MAXDN ? -1 : 0; memcpy(p, tdn, l); return (int)((p + l) - dn); } int dns_a6ptodn(const struct in6_addr *addr, const char *tname, dnsc_t *dn, unsigned dnsiz) { dnsc_t *p; int r; if (!tname) return dns_a6todn(addr, NULL, dn, dnsiz); p = dns_a6todn_(addr, dn, dn + dnsiz); if (!p) return 0; r = dns_sptodn(tname, p, dnsiz - (p - dn)); return r != 0 ? r : dnsiz >= DNS_MAXDN ? -1 : 0; } /* return size of buffer required to convert the dn into asciiz string. * Keep in sync with dns_dntop() below. */ unsigned dns_dntop_size(dnscc_t *dn) { unsigned size = 0; /* the size reqd */ dnscc_t *le; /* label end */ while(*dn) { /* *dn is the length of the next label, non-zero */ if (size) ++size; /* for the dot */ le = dn + *dn + 1; ++dn; do { switch(*dn) { case '.': case '\\': /* Special modifiers in zone files. */ case '"': case ';': case '@': case '$': size += 2; break; default: if (*dn <= 0x20 || *dn >= 0x7f) /* \ddd decimal notation */ size += 4; else size += 1; } } while(++dn < le); } size += 1; /* zero byte at the end - string terminator */ return size > DNS_MAXNAME ? 0 : size; } /* Convert the dn into asciiz string. * Keep in sync with dns_dntop_size() above. */ int dns_dntop(dnscc_t *dn, char *name, unsigned namesiz) { char *np = name; /* current name ptr */ char *const ne = name + namesiz; /* end of name */ dnscc_t *le; /* label end */ while(*dn) { /* *dn is the length of the next label, non-zero */ if (np != name) { if (np >= ne) goto toolong; *np++ = '.'; } le = dn + *dn + 1; ++dn; do { switch(*dn) { case '.': case '\\': /* Special modifiers in zone files. */ case '"': case ';': case '@': case '$': if (np + 2 > ne) goto toolong; *np++ = '\\'; *np++ = *dn; break; default: if (*dn <= 0x20 || *dn >= 0x7f) { /* \ddd decimal notation */ if (np + 4 >= ne) goto toolong; *np++ = '\\'; *np++ = '0' + (*dn / 100); *np++ = '0' + ((*dn % 100) / 10); *np++ = '0' + (*dn % 10); } else { if (np >= ne) goto toolong; *np++ = *dn; } } } while(++dn < le); } if (np >= ne) goto toolong; *np++ = '\0'; return (int)(np - name); toolong: return namesiz >= DNS_MAXNAME ? -1 : 0; } #ifdef TEST #include #include int main(int argc, char **argv) { int i; int sz; dnsc_t dn[DNS_MAXDN+10]; dnsc_t *dl, *dp; int isabs; sz = (argc > 1) ? atoi(argv[1]) : 0; for(i = 2; i < argc; ++i) { int r = dns_ptodn(argv[i], 0, dn, sz, &isabs); printf("%s: ", argv[i]); if (r < 0) printf("error\n"); else if (!r) printf("buffer too small\n"); else { printf("len=%d dnlen=%d size=%d name:", r, dns_dnlen(dn), dns_dntop_size(dn)); dl = dn; while(*dl) { printf(" %d=", *dl); dp = dl + 1; dl = dp + *dl; while(dp < dl) { if (*dp <= ' ' || *dp >= 0x7f) printf("\\%03d", *dp); else if (*dp == '.' || *dp == '\\') printf("\\%c", *dp); else putchar(*dp); ++dp; } } if (isabs) putchar('.'); putchar('\n'); } } return 0; } #endif /* TEST */