%{ /* * zyparser.y -- yacc grammar for (DNS) zone files * * Copyright (c) 2001-2011, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #include "config.h" #include #include #include #include "dname.h" #include "namedb.h" #include "zonec.h" /* these need to be global, otherwise they cannot be used inside yacc */ zparser_type *parser; #ifdef __cplusplus extern "C" #endif /* __cplusplus */ int yywrap(void); /* this hold the nxt bits */ static uint8_t nxtbits[16]; static int dlv_warn = 1; /* 256 windows of 256 bits (32 bytes) */ /* still need to reset the bastard somewhere */ static uint8_t nsecbits[NSEC_WINDOW_COUNT][NSEC_WINDOW_BITS_SIZE]; /* hold the highest rcode seen in a NSEC rdata , BUG #106 */ uint16_t nsec_highest_rcode; void yyerror(const char *message); #ifdef NSEC3 /* parse nsec3 parameters and add the (first) rdata elements */ static void nsec3_add_params(const char* hash_algo_str, const char* flag_str, const char* iter_str, const char* salt_str, int salt_len); #endif /* NSEC3 */ %} %union { domain_type *domain; const dname_type *dname; struct lex_data data; uint32_t ttl; uint16_t klass; uint16_t type; uint16_t *unknown; } /* * Tokens to represent the known RR types of DNS. */ %token T_A T_NS T_MX T_TXT T_CNAME T_AAAA T_PTR T_NXT T_KEY T_SOA T_SIG %token T_SRV T_CERT T_LOC T_MD T_MF T_MB T_MG T_MR T_NULL T_WKS T_HINFO %token T_MINFO T_RP T_AFSDB T_X25 T_ISDN T_RT T_NSAP T_NSAP_PTR T_PX %token T_GPOS T_EID T_NIMLOC T_ATMA T_NAPTR T_KX T_A6 T_DNAME T_SINK %token T_OPT T_APL T_UINFO T_UID T_GID T_UNSPEC T_TKEY T_TSIG T_IXFR %token T_AXFR T_MAILB T_MAILA T_DS T_DLV T_SSHFP T_RRSIG T_NSEC T_DNSKEY %token T_SPF T_NSEC3 T_IPSECKEY T_DHCID T_NSEC3PARAM T_TLSA %token T_NID T_L32 T_L64 T_LP T_EUI48 T_EUI64 /* other tokens */ %token DOLLAR_TTL DOLLAR_ORIGIN NL SP %token STR PREV BITLAB %token T_TTL %token T_RRCLASS /* unknown RRs */ %token URR %token T_UTYPE %type type_and_rdata %type owner dname abs_dname %type rel_dname label %type wire_dname wire_abs_dname wire_rel_dname wire_label %type concatenated_str_seq str_sp_seq str_dot_seq dotted_str %type nxt_seq nsec_more %type rdata_unknown %% lines: /* empty file */ | lines line ; line: NL | sp NL | PREV NL {} /* Lines containing only whitespace. */ | ttl_directive { parser->error_occurred = 0; } | origin_directive { parser->error_occurred = 0; } | rr { /* rr should be fully parsed */ if (!parser->error_occurred) { parser->current_rr.rdatas = (rdata_atom_type *) region_alloc_init( parser->region, parser->current_rr.rdatas, (parser->current_rr.rdata_count * sizeof(rdata_atom_type))); process_rr(); } region_free_all(parser->rr_region); parser->current_rr.type = 0; parser->current_rr.rdata_count = 0; parser->current_rr.rdatas = parser->temporary_rdatas; parser->error_occurred = 0; } | error NL ; /* needed to cope with ( and ) in arbitary places */ sp: SP | sp SP ; trail: NL | sp NL ; ttl_directive: DOLLAR_TTL sp STR trail { parser->default_ttl = zparser_ttl2int($3.str, &(parser->error_occurred)); if (parser->error_occurred == 1) { parser->default_ttl = DEFAULT_TTL; parser->error_occurred = 0; } } ; origin_directive: DOLLAR_ORIGIN sp abs_dname trail { parser->origin = $3; } | DOLLAR_ORIGIN sp rel_dname trail { zc_error_prev_line("$ORIGIN directive requires absolute domain name"); } ; rr: owner classttl type_and_rdata { parser->current_rr.owner = $1; parser->current_rr.type = $3; } ; owner: dname sp { parser->prev_dname = $1; $$ = $1; } | PREV { $$ = parser->prev_dname; } ; classttl: /* empty - fill in the default, def. ttl and IN class */ { parser->current_rr.ttl = parser->default_ttl; parser->current_rr.klass = parser->default_class; } | T_RRCLASS sp /* no ttl */ { parser->current_rr.ttl = parser->default_ttl; parser->current_rr.klass = $1; } | T_TTL sp /* no class */ { parser->current_rr.ttl = $1; parser->current_rr.klass = parser->default_class; } | T_TTL sp T_RRCLASS sp /* the lot */ { parser->current_rr.ttl = $1; parser->current_rr.klass = $3; } | T_RRCLASS sp T_TTL sp /* the lot - reversed */ { parser->current_rr.ttl = $3; parser->current_rr.klass = $1; } ; dname: abs_dname | rel_dname { if ($1 == error_dname) { $$ = error_domain; } else if ($1->name_size + domain_dname(parser->origin)->name_size - 1 > MAXDOMAINLEN) { zc_error("domain name exceeds %d character limit", MAXDOMAINLEN); $$ = error_domain; } else { $$ = domain_table_insert( parser->db->domains, dname_concatenate( parser->rr_region, $1, domain_dname(parser->origin))); } } ; abs_dname: '.' { $$ = parser->db->domains->root; } | '@' { $$ = parser->origin; } | rel_dname '.' { if ($1 != error_dname) { $$ = domain_table_insert(parser->db->domains, $1); } else { $$ = error_domain; } } ; label: STR { if ($1.len > MAXLABELLEN) { zc_error("label exceeds %d character limit", MAXLABELLEN); $$ = error_dname; } else if ($1.len <= 0) { zc_error("zero label length"); $$ = error_dname; } else { $$ = dname_make_from_label(parser->rr_region, (uint8_t *) $1.str, $1.len); } } | BITLAB { zc_error("bitlabels are now deprecated. RFC2673 is obsoleted."); $$ = error_dname; } ; rel_dname: label | rel_dname '.' label { if ($1 == error_dname || $3 == error_dname) { $$ = error_dname; } else if ($1->name_size + $3->name_size - 1 > MAXDOMAINLEN) { zc_error("domain name exceeds %d character limit", MAXDOMAINLEN); $$ = error_dname; } else { $$ = dname_concatenate(parser->rr_region, $1, $3); } } ; /* * Some dnames in rdata are handled as opaque blobs */ wire_dname: wire_abs_dname | wire_rel_dname ; wire_abs_dname: '.' { char *result = (char *) region_alloc(parser->rr_region, 2); result[0] = 0; result[1] = '\0'; $$.str = result; $$.len = 1; } | wire_rel_dname '.' { char *result = (char *) region_alloc(parser->rr_region, $1.len + 2); memcpy(result, $1.str, $1.len); result[$1.len] = 0; result[$1.len+1] = '\0'; $$.str = result; $$.len = $1.len + 1; } ; wire_label: STR { char *result = (char *) region_alloc(parser->rr_region, $1.len + 1); if ($1.len > MAXLABELLEN) zc_error("label exceeds %d character limit", MAXLABELLEN); /* make label anyway */ result[0] = $1.len; memcpy(result+1, $1.str, $1.len); $$.str = result; $$.len = $1.len + 1; } ; wire_rel_dname: wire_label | wire_rel_dname '.' wire_label { if ($1.len + $3.len - 3 > MAXDOMAINLEN) zc_error("domain name exceeds %d character limit", MAXDOMAINLEN); /* make dname anyway */ $$.len = $1.len + $3.len; $$.str = (char *) region_alloc(parser->rr_region, $$.len + 1); memcpy($$.str, $1.str, $1.len); memcpy($$.str + $1.len, $3.str, $3.len); $$.str[$$.len] = '\0'; } ; str_seq: STR { zadd_rdata_txt_wireformat(zparser_conv_text(parser->rr_region, $1.str, $1.len), 1); } | str_seq sp STR { zadd_rdata_txt_wireformat(zparser_conv_text(parser->rr_region, $3.str, $3.len), 0); } ; /* * Generate a single string from multiple STR tokens, separated by * spaces or dots. */ concatenated_str_seq: STR | '.' { $$.len = 1; $$.str = region_strdup(parser->rr_region, "."); } | concatenated_str_seq sp STR { $$.len = $1.len + $3.len + 1; $$.str = (char *) region_alloc(parser->rr_region, $$.len + 1); memcpy($$.str, $1.str, $1.len); memcpy($$.str + $1.len, " ", 1); memcpy($$.str + $1.len + 1, $3.str, $3.len); $$.str[$$.len] = '\0'; } | concatenated_str_seq '.' STR { $$.len = $1.len + $3.len + 1; $$.str = (char *) region_alloc(parser->rr_region, $$.len + 1); memcpy($$.str, $1.str, $1.len); memcpy($$.str + $1.len, ".", 1); memcpy($$.str + $1.len + 1, $3.str, $3.len); $$.str[$$.len] = '\0'; } ; /* used to convert a nxt list of types */ nxt_seq: STR { uint16_t type = rrtype_from_string($1.str); if (type != 0 && type < 128) { set_bit(nxtbits, type); } else { zc_error("bad type %d in NXT record", (int) type); } } | nxt_seq sp STR { uint16_t type = rrtype_from_string($3.str); if (type != 0 && type < 128) { set_bit(nxtbits, type); } else { zc_error("bad type %d in NXT record", (int) type); } } ; nsec_more: SP nsec_more { } | NL { } | STR nsec_seq { uint16_t type = rrtype_from_string($1.str); if (type != 0) { if (type > nsec_highest_rcode) { nsec_highest_rcode = type; } set_bitnsec(nsecbits, type); } else { zc_error("bad type %d in NSEC record", (int) type); } } ; nsec_seq: NL | SP nsec_more ; /* * Sequence of STR tokens separated by spaces. The spaces are not * preserved during concatenation. */ str_sp_seq: STR | str_sp_seq sp STR { char *result = (char *) region_alloc(parser->rr_region, $1.len + $3.len + 1); memcpy(result, $1.str, $1.len); memcpy(result + $1.len, $3.str, $3.len); $$.str = result; $$.len = $1.len + $3.len; $$.str[$$.len] = '\0'; } ; /* * Sequence of STR tokens separated by dots. The dots are not * preserved during concatenation. */ str_dot_seq: STR | str_dot_seq '.' STR { char *result = (char *) region_alloc(parser->rr_region, $1.len + $3.len + 1); memcpy(result, $1.str, $1.len); memcpy(result + $1.len, $3.str, $3.len); $$.str = result; $$.len = $1.len + $3.len; $$.str[$$.len] = '\0'; } ; /* * A string that can contain dots. */ dotted_str: STR | '.' { $$.str = "."; $$.len = 1; } | dotted_str '.' { char *result = (char *) region_alloc(parser->rr_region, $1.len + 2); memcpy(result, $1.str, $1.len); result[$1.len] = '.'; $$.str = result; $$.len = $1.len + 1; $$.str[$$.len] = '\0'; } | dotted_str '.' STR { char *result = (char *) region_alloc(parser->rr_region, $1.len + $3.len + 2); memcpy(result, $1.str, $1.len); result[$1.len] = '.'; memcpy(result + $1.len + 1, $3.str, $3.len); $$.str = result; $$.len = $1.len + $3.len + 1; $$.str[$$.len] = '\0'; } ; /* define what we can parse */ type_and_rdata: /* * All supported RR types. We don't support NULL and types marked obsolete. */ T_A sp rdata_a | T_A sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NS sp rdata_domain_name | T_NS sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_MD sp rdata_domain_name { zc_warning_prev_line("MD is obsolete"); } | T_MD sp rdata_unknown { zc_warning_prev_line("MD is obsolete"); $$ = $1; parse_unknown_rdata($1, $3); } | T_MF sp rdata_domain_name { zc_warning_prev_line("MF is obsolete"); } | T_MF sp rdata_unknown { zc_warning_prev_line("MF is obsolete"); $$ = $1; parse_unknown_rdata($1, $3); } | T_CNAME sp rdata_domain_name | T_CNAME sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_SOA sp rdata_soa | T_SOA sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_MB sp rdata_domain_name { zc_warning_prev_line("MB is obsolete"); } | T_MB sp rdata_unknown { zc_warning_prev_line("MB is obsolete"); $$ = $1; parse_unknown_rdata($1, $3); } | T_MG sp rdata_domain_name | T_MG sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_MR sp rdata_domain_name | T_MR sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } /* NULL */ | T_WKS sp rdata_wks | T_WKS sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_PTR sp rdata_domain_name | T_PTR sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_HINFO sp rdata_hinfo | T_HINFO sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_MINFO sp rdata_minfo /* Experimental */ | T_MINFO sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_MX sp rdata_mx | T_MX sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_TXT sp rdata_txt | T_TXT sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_SPF sp rdata_txt | T_SPF sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_RP sp rdata_rp /* RFC 1183 */ | T_RP sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_AFSDB sp rdata_afsdb /* RFC 1183 */ | T_AFSDB sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_X25 sp rdata_x25 /* RFC 1183 */ | T_X25 sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_ISDN sp rdata_isdn /* RFC 1183 */ | T_ISDN sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_IPSECKEY sp rdata_ipseckey /* RFC 4025 */ | T_IPSECKEY sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_DHCID sp rdata_dhcid | T_DHCID sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_RT sp rdata_rt /* RFC 1183 */ | T_RT sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NSAP sp rdata_nsap /* RFC 1706 */ | T_NSAP sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_SIG sp rdata_rrsig | T_SIG sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_KEY sp rdata_dnskey | T_KEY sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_PX sp rdata_px /* RFC 2163 */ | T_PX sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_AAAA sp rdata_aaaa | T_AAAA sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_LOC sp rdata_loc | T_LOC sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NXT sp rdata_nxt | T_NXT sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_SRV sp rdata_srv | T_SRV sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NAPTR sp rdata_naptr /* RFC 2915 */ | T_NAPTR sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_KX sp rdata_kx /* RFC 2230 */ | T_KX sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_CERT sp rdata_cert /* RFC 2538 */ | T_CERT sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_DNAME sp rdata_domain_name /* RFC 2672 */ | T_DNAME sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_APL trail /* RFC 3123 */ | T_APL sp rdata_apl /* RFC 3123 */ | T_APL sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_DS sp rdata_ds | T_DS sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_DLV sp rdata_dlv { if (dlv_warn) { dlv_warn = 0; zc_warning_prev_line("DLV is experimental"); } } | T_DLV sp rdata_unknown { if (dlv_warn) { dlv_warn = 0; zc_warning_prev_line("DLV is experimental"); } $$ = $1; parse_unknown_rdata($1, $3); } | T_SSHFP sp rdata_sshfp | T_SSHFP sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_RRSIG sp rdata_rrsig | T_RRSIG sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NSEC sp rdata_nsec | T_NSEC sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NSEC3 sp rdata_nsec3 | T_NSEC3 sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NSEC3PARAM sp rdata_nsec3_param | T_NSEC3PARAM sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_DNSKEY sp rdata_dnskey | T_DNSKEY sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_TLSA sp rdata_tlsa | T_TLSA sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_NID sp rdata_nid | T_NID sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_L32 sp rdata_l32 | T_L32 sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_L64 sp rdata_l64 | T_L64 sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_LP sp rdata_lp | T_LP sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_EUI48 sp rdata_eui48 | T_EUI48 sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_EUI64 sp rdata_eui64 | T_EUI64 sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | T_UTYPE sp rdata_unknown { $$ = $1; parse_unknown_rdata($1, $3); } | STR error NL { zc_error_prev_line("unrecognized RR type '%s'", $1.str); } ; /* * * below are all the definition for all the different rdata * */ rdata_a: dotted_str trail { zadd_rdata_wireformat(zparser_conv_a(parser->region, $1.str)); } ; rdata_domain_name: dname trail { /* convert a single dname record */ zadd_rdata_domain($1); } ; rdata_soa: dname sp dname sp STR sp STR sp STR sp STR sp STR trail { /* convert the soa data */ zadd_rdata_domain($1); /* prim. ns */ zadd_rdata_domain($3); /* email */ zadd_rdata_wireformat(zparser_conv_serial(parser->region, $5.str)); /* serial */ zadd_rdata_wireformat(zparser_conv_period(parser->region, $7.str)); /* refresh */ zadd_rdata_wireformat(zparser_conv_period(parser->region, $9.str)); /* retry */ zadd_rdata_wireformat(zparser_conv_period(parser->region, $11.str)); /* expire */ zadd_rdata_wireformat(zparser_conv_period(parser->region, $13.str)); /* minimum */ } ; rdata_wks: dotted_str sp STR sp concatenated_str_seq trail { zadd_rdata_wireformat(zparser_conv_a(parser->region, $1.str)); /* address */ zadd_rdata_wireformat(zparser_conv_services(parser->region, $3.str, $5.str)); /* protocol and services */ } ; rdata_hinfo: STR sp STR trail { zadd_rdata_wireformat(zparser_conv_text(parser->region, $1.str, $1.len)); /* CPU */ zadd_rdata_wireformat(zparser_conv_text(parser->region, $3.str, $3.len)); /* OS*/ } ; rdata_minfo: dname sp dname trail { /* convert a single dname record */ zadd_rdata_domain($1); zadd_rdata_domain($3); } ; rdata_mx: STR sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* priority */ zadd_rdata_domain($3); /* MX host */ } ; rdata_txt: str_seq trail { zadd_rdata_txt_clean_wireformat(); } ; /* RFC 1183 */ rdata_rp: dname sp dname trail { zadd_rdata_domain($1); /* mbox d-name */ zadd_rdata_domain($3); /* txt d-name */ } ; /* RFC 1183 */ rdata_afsdb: STR sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* subtype */ zadd_rdata_domain($3); /* domain name */ } ; /* RFC 1183 */ rdata_x25: STR trail { zadd_rdata_wireformat(zparser_conv_text(parser->region, $1.str, $1.len)); /* X.25 address. */ } ; /* RFC 1183 */ rdata_isdn: STR trail { zadd_rdata_wireformat(zparser_conv_text(parser->region, $1.str, $1.len)); /* address */ } | STR sp STR trail { zadd_rdata_wireformat(zparser_conv_text(parser->region, $1.str, $1.len)); /* address */ zadd_rdata_wireformat(zparser_conv_text(parser->region, $3.str, $3.len)); /* sub-address */ } ; /* RFC 1183 */ rdata_rt: STR sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* preference */ zadd_rdata_domain($3); /* intermediate host */ } ; /* RFC 1706 */ rdata_nsap: str_dot_seq trail { /* String must start with "0x" or "0X". */ if (strncasecmp($1.str, "0x", 2) != 0) { zc_error_prev_line("NSAP rdata must start with '0x'"); } else { zadd_rdata_wireformat(zparser_conv_hex(parser->region, $1.str + 2, $1.len - 2)); /* NSAP */ } } ; /* RFC 2163 */ rdata_px: STR sp dname sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* preference */ zadd_rdata_domain($3); /* MAP822 */ zadd_rdata_domain($5); /* MAPX400 */ } ; rdata_aaaa: dotted_str trail { zadd_rdata_wireformat(zparser_conv_aaaa(parser->region, $1.str)); /* IPv6 address */ } ; rdata_loc: concatenated_str_seq trail { zadd_rdata_wireformat(zparser_conv_loc(parser->region, $1.str)); /* Location */ } ; rdata_nxt: dname sp nxt_seq trail { zadd_rdata_domain($1); /* nxt name */ zadd_rdata_wireformat(zparser_conv_nxt(parser->region, nxtbits)); /* nxt bitlist */ memset(nxtbits, 0, sizeof(nxtbits)); } ; rdata_srv: STR sp STR sp STR sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* prio */ zadd_rdata_wireformat(zparser_conv_short(parser->region, $3.str)); /* weight */ zadd_rdata_wireformat(zparser_conv_short(parser->region, $5.str)); /* port */ zadd_rdata_domain($7); /* target name */ } ; /* RFC 2915 */ rdata_naptr: STR sp STR sp STR sp STR sp STR sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* order */ zadd_rdata_wireformat(zparser_conv_short(parser->region, $3.str)); /* preference */ zadd_rdata_wireformat(zparser_conv_text(parser->region, $5.str, $5.len)); /* flags */ zadd_rdata_wireformat(zparser_conv_text(parser->region, $7.str, $7.len)); /* service */ zadd_rdata_wireformat(zparser_conv_text(parser->region, $9.str, $9.len)); /* regexp */ zadd_rdata_domain($11); /* target name */ } ; /* RFC 2230 */ rdata_kx: STR sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* preference */ zadd_rdata_domain($3); /* exchanger */ } ; /* RFC 2538 */ rdata_cert: STR sp STR sp STR sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_certificate_type(parser->region, $1.str)); /* type */ zadd_rdata_wireformat(zparser_conv_short(parser->region, $3.str)); /* key tag */ zadd_rdata_wireformat(zparser_conv_algorithm(parser->region, $5.str)); /* algorithm */ zadd_rdata_wireformat(zparser_conv_b64(parser->region, $7.str)); /* certificate or CRL */ } ; /* RFC 3123 */ rdata_apl: rdata_apl_seq trail ; rdata_apl_seq: dotted_str { zadd_rdata_wireformat(zparser_conv_apl_rdata(parser->region, $1.str)); } | rdata_apl_seq sp dotted_str { zadd_rdata_wireformat(zparser_conv_apl_rdata(parser->region, $3.str)); } ; rdata_ds: STR sp STR sp STR sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* keytag */ zadd_rdata_wireformat(zparser_conv_algorithm(parser->region, $3.str)); /* alg */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $5.str)); /* type */ zadd_rdata_wireformat(zparser_conv_hex(parser->region, $7.str, $7.len)); /* hash */ } ; rdata_dlv: STR sp STR sp STR sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* keytag */ zadd_rdata_wireformat(zparser_conv_algorithm(parser->region, $3.str)); /* alg */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $5.str)); /* type */ zadd_rdata_wireformat(zparser_conv_hex(parser->region, $7.str, $7.len)); /* hash */ } ; rdata_sshfp: STR sp STR sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_byte(parser->region, $1.str)); /* alg */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $3.str)); /* fp type */ zadd_rdata_wireformat(zparser_conv_hex(parser->region, $5.str, $5.len)); /* hash */ } ; rdata_dhcid: str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_b64(parser->region, $1.str)); /* data blob */ } ; rdata_rrsig: STR sp STR sp STR sp STR sp STR sp STR sp STR sp wire_dname sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_rrtype(parser->region, $1.str)); /* rr covered */ zadd_rdata_wireformat(zparser_conv_algorithm(parser->region, $3.str)); /* alg */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $5.str)); /* # labels */ zadd_rdata_wireformat(zparser_conv_period(parser->region, $7.str)); /* # orig TTL */ zadd_rdata_wireformat(zparser_conv_time(parser->region, $9.str)); /* sig exp */ zadd_rdata_wireformat(zparser_conv_time(parser->region, $11.str)); /* sig inc */ zadd_rdata_wireformat(zparser_conv_short(parser->region, $13.str)); /* key id */ zadd_rdata_wireformat(zparser_conv_dns_name(parser->region, (const uint8_t*) $15.str,$15.len)); /* sig name */ zadd_rdata_wireformat(zparser_conv_b64(parser->region, $17.str)); /* sig data */ } ; rdata_nsec: wire_dname nsec_seq { zadd_rdata_wireformat(zparser_conv_dns_name(parser->region, (const uint8_t*) $1.str, $1.len)); /* nsec name */ zadd_rdata_wireformat(zparser_conv_nsec(parser->region, nsecbits)); /* nsec bitlist */ memset(nsecbits, 0, sizeof(nsecbits)); nsec_highest_rcode = 0; } ; rdata_nsec3: STR sp STR sp STR sp STR sp STR nsec_seq { #ifdef NSEC3 nsec3_add_params($1.str, $3.str, $5.str, $7.str, $7.len); zadd_rdata_wireformat(zparser_conv_b32(parser->region, $9.str)); /* next hashed name */ zadd_rdata_wireformat(zparser_conv_nsec(parser->region, nsecbits)); /* nsec bitlist */ memset(nsecbits, 0, sizeof(nsecbits)); nsec_highest_rcode = 0; #else zc_error_prev_line("nsec3 not supported"); #endif /* NSEC3 */ } ; rdata_nsec3_param: STR sp STR sp STR sp STR trail { #ifdef NSEC3 nsec3_add_params($1.str, $3.str, $5.str, $7.str, $7.len); #else zc_error_prev_line("nsec3 not supported"); #endif /* NSEC3 */ } ; rdata_tlsa: STR sp STR sp STR sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_byte(parser->region, $1.str)); /* usage */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $3.str)); /* selector */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $5.str)); /* matching type */ zadd_rdata_wireformat(zparser_conv_hex(parser->region, $7.str, $7.len)); /* ca data */ } ; rdata_dnskey: STR sp STR sp STR sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* flags */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $3.str)); /* proto */ zadd_rdata_wireformat(zparser_conv_algorithm(parser->region, $5.str)); /* alg */ zadd_rdata_wireformat(zparser_conv_b64(parser->region, $7.str)); /* hash */ } ; rdata_ipsec_base: STR sp STR sp STR sp dotted_str { const dname_type* name = 0; zadd_rdata_wireformat(zparser_conv_byte(parser->region, $1.str)); /* precedence */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $3.str)); /* gateway type */ zadd_rdata_wireformat(zparser_conv_byte(parser->region, $5.str)); /* algorithm */ switch(atoi($3.str)) { case IPSECKEY_NOGATEWAY: zadd_rdata_wireformat(alloc_rdata_init(parser->region, "", 0)); break; case IPSECKEY_IP4: zadd_rdata_wireformat(zparser_conv_a(parser->region, $7.str)); break; case IPSECKEY_IP6: zadd_rdata_wireformat(zparser_conv_aaaa(parser->region, $7.str)); break; case IPSECKEY_DNAME: /* convert and insert the dname */ if(strlen($7.str) == 0) zc_error_prev_line("IPSECKEY must specify gateway name"); if(!(name = dname_parse(parser->region, $7.str))) zc_error_prev_line("IPSECKEY bad gateway dname %s", $7.str); if($7.str[strlen($7.str)-1] != '.') name = dname_concatenate(parser->rr_region, name, domain_dname(parser->origin)); zadd_rdata_wireformat(alloc_rdata_init(parser->region, dname_name(name), name->name_size)); break; default: zc_error_prev_line("unknown IPSECKEY gateway type"); } } ; rdata_ipseckey: rdata_ipsec_base sp str_sp_seq trail { zadd_rdata_wireformat(zparser_conv_b64(parser->region, $3.str)); /* public key */ } | rdata_ipsec_base trail ; /* RFC 6742 */ rdata_nid: STR sp dotted_str trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* preference */ zadd_rdata_wireformat(zparser_conv_ilnp64(parser->region, $3.str)); /* NodeID */ } ; rdata_l32: STR sp dotted_str trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* preference */ zadd_rdata_wireformat(zparser_conv_a(parser->region, $3.str)); /* Locator32 */ } ; rdata_l64: STR sp dotted_str trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* preference */ zadd_rdata_wireformat(zparser_conv_ilnp64(parser->region, $3.str)); /* Locator64 */ } ; rdata_lp: STR sp dname trail { zadd_rdata_wireformat(zparser_conv_short(parser->region, $1.str)); /* preference */ zadd_rdata_domain($3); /* FQDN */ } ; rdata_eui48: STR trail { #ifdef DRAFT_RRTYPES zadd_rdata_wireformat(zparser_conv_eui(parser->region, $1.str, 48)); #else zc_error_prev_line("EUI48 not supported, enable with --enable-draft-rrtypes."); #endif } ; rdata_eui64: STR trail { #ifdef DRAFT_RRTYPES zadd_rdata_wireformat(zparser_conv_eui(parser->region, $1.str, 64)); #else zc_error_prev_line("EUI64 not supported, enable with --enable-draft-rrtypes."); #endif } ; rdata_unknown: URR sp STR sp str_sp_seq trail { /* $2 is the number of octects, currently ignored */ $$ = zparser_conv_hex(parser->region, $5.str, $5.len); } | URR sp STR trail { $$ = zparser_conv_hex(parser->region, "", 0); } | URR error NL { $$ = zparser_conv_hex(parser->region, "", 0); } ; %% int yywrap(void) { return 1; } /* * Create the parser. */ zparser_type * zparser_create(region_type *region, region_type *rr_region, namedb_type *db) { zparser_type *result; result = (zparser_type *) region_alloc(region, sizeof(zparser_type)); result->region = region; result->rr_region = rr_region; result->db = db; result->filename = NULL; result->current_zone = NULL; result->origin = NULL; result->prev_dname = NULL; result->default_apex = NULL; result->temporary_rdatas = (rdata_atom_type *) region_alloc( result->region, MAXRDATALEN * sizeof(rdata_atom_type)); return result; } /* * Initialize the parser for a new zone file. */ void zparser_init(const char *filename, uint32_t ttl, uint16_t klass, const dname_type *origin) { memset(nxtbits, 0, sizeof(nxtbits)); memset(nsecbits, 0, sizeof(nsecbits)); nsec_highest_rcode = 0; parser->default_ttl = ttl; parser->default_class = klass; parser->current_zone = NULL; parser->origin = domain_table_insert(parser->db->domains, origin); parser->prev_dname = parser->origin; parser->default_apex = parser->origin; parser->error_occurred = 0; parser->errors = 0; parser->line = 1; parser->filename = filename; parser->current_rr.rdata_count = 0; parser->current_rr.rdatas = parser->temporary_rdatas; } void yyerror(const char *message) { zc_error("%s", message); } static void error_va_list(unsigned line, const char *fmt, va_list args) { if (parser->filename) { fprintf(stderr, "%s:%u: ", parser->filename, line); } fprintf(stderr, "error: "); vfprintf(stderr, fmt, args); fprintf(stderr, "\n"); ++parser->errors; parser->error_occurred = 1; } /* the line counting sux, to say the least * with this grose hack we try do give sane * numbers back */ void zc_error_prev_line(const char *fmt, ...) { va_list args; va_start(args, fmt); error_va_list(parser->line - 1, fmt, args); va_end(args); } void zc_error(const char *fmt, ...) { /* send an error message to stderr */ va_list args; va_start(args, fmt); error_va_list(parser->line, fmt, args); va_end(args); } static void warning_va_list(unsigned line, const char *fmt, va_list args) { if (parser->filename) { fprintf(stderr, "%s:%u: ", parser->filename, line); } fprintf(stderr, "warning: "); vfprintf(stderr, fmt, args); fprintf(stderr, "\n"); } void zc_warning_prev_line(const char *fmt, ...) { va_list args; va_start(args, fmt); warning_va_list(parser->line - 1, fmt, args); va_end(args); } void zc_warning(const char *fmt, ... ) { va_list args; va_start(args, fmt); warning_va_list(parser->line, fmt, args); va_end(args); } #ifdef NSEC3 static void nsec3_add_params(const char* hashalgo_str, const char* flag_str, const char* iter_str, const char* salt_str, int salt_len) { zadd_rdata_wireformat(zparser_conv_byte(parser->region, hashalgo_str)); zadd_rdata_wireformat(zparser_conv_byte(parser->region, flag_str)); zadd_rdata_wireformat(zparser_conv_short(parser->region, iter_str)); /* salt */ if(strcmp(salt_str, "-") != 0) zadd_rdata_wireformat(zparser_conv_hex_length(parser->region, salt_str, salt_len)); else zadd_rdata_wireformat(alloc_rdata_init(parser->region, "", 1)); } #endif /* NSEC3 */