2012-05-24 18:44:48 +02:00
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#include "../src/hammer.h"
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#include "dns_common.h"
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2013-01-17 19:13:06 +01:00
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#include "dns.h"
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2012-05-24 18:44:48 +02:00
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#include "rr.h"
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#define false 0
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#define true 1
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2013-01-17 21:58:17 +01:00
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///
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// Validations and Semantic Actions
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///
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2013-01-17 01:17:37 +01:00
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bool validate_null(HParseResult *p) {
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if (TT_SEQUENCE != p->ast->token_type)
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return false;
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return (65536 > p->ast->seq->used);
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}
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2013-01-17 21:58:17 +01:00
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const HParsedToken *act_null(const HParseResult *p) {
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dns_rr_null_t *null = H_MAKE(dns_rr_null_t);
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size_t len = p->ast->seq->used;
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uint8_t *buf = h_arena_malloc(p->arena, sizeof(uint8_t)*len);
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for (size_t i=0; i<len; ++i)
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buf[i] = p->ast->seq->elements[i]->uint;
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return H_MAKE_TOKEN(dns_rr_null_t, null);
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}
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2013-01-17 19:13:06 +01:00
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const HParsedToken *act_txt(const HParseResult *p) {
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dns_rr_txt_t *txt = H_MAKE(dns_rr_txt_t);
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2013-01-17 20:43:29 +01:00
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const HCountedArray *arr = p->ast->seq;
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2013-01-17 19:13:06 +01:00
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uint8_t **ret = h_arena_malloc(arr->arena, sizeof(uint8_t*)*arr->used);
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for (size_t i=0; i<arr->used; ++i) {
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uint8_t *tmp = h_arena_malloc(arr->arena, sizeof(uint8_t)*arr->elements[i]->seq->used);
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for (size_t j=0; j<arr->elements[i]->seq->used; ++j)
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tmp[j] = arr->elements[i]->seq->elements[j]->uint;
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ret[i] = tmp;
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}
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txt->count = p->ast->seq->elements[0]->seq->used;
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txt->txt_data = ret;
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return H_MAKE_TOKEN(dns_rr_txt_t, txt);
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}
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2013-01-17 20:43:29 +01:00
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const HParsedToken* act_cstr(const HParseResult *p) {
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dns_cstr_t *cs = H_MAKE(dns_cstr_t);
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const HCountedArray *arr = p->ast->seq;
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uint8_t *ret = h_arena_malloc(arr->arena, sizeof(uint8_t)*arr->used);
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for (size_t i=0; i<arr->used; ++i)
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ret[i] = arr->elements[i]->uint;
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assert(ret[arr->used-1] == '\0'); // XXX Is this right?! If so, shouldn't it be a validation?
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*cs = ret;
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return H_MAKE_TOKEN(dns_cstr_t, cs);
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}
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2013-01-17 21:35:33 +01:00
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const HParsedToken* act_soa(const HParseResult *p) {
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dns_rr_soa_t *soa = H_MAKE(dns_rr_soa_t);
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soa->mname = *H_FIELD(dns_domain_t, 0);
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soa->rname = *H_FIELD(dns_domain_t, 1);
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soa->serial = p->ast->seq->elements[2]->uint;
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soa->refresh = p->ast->seq->elements[3]->uint;
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soa->retry = p->ast->seq->elements[4]->uint;
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soa->expire = p->ast->seq->elements[5]->uint;
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soa->minimum = p->ast->seq->elements[6]->uint;
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return H_MAKE_TOKEN(dns_rr_soa_t, soa);
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}
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2013-01-17 21:39:32 +01:00
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const HParsedToken* act_wks(const HParseResult *p) {
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dns_rr_wks_t *wks = H_MAKE(dns_rr_wks_t);
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wks->address = p->ast->seq->elements[0]->uint;
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wks->protocol = p->ast->seq->elements[1]->uint;
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wks->len = p->ast->seq->elements[2]->seq->used;
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wks->bit_map = h_arena_malloc(p->arena, sizeof(uint8_t)*wks->len);
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for (size_t i=0; i<wks->len; ++i)
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wks->bit_map[i] = p->ast->seq->elements[2]->seq->elements[i]->uint;
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return H_MAKE_TOKEN(dns_rr_wks_t, wks);
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}
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2013-01-17 21:58:17 +01:00
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const HParsedToken* act_hinfo(const HParseResult *p) {
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dns_rr_hinfo_t *hinfo = H_MAKE(dns_rr_hinfo_t);
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hinfo->cpu = *H_FIELD(dns_cstr_t, 0);
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hinfo->os = *H_FIELD(dns_cstr_t, 1);
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return H_MAKE_TOKEN(dns_rr_hinfo_t, hinfo);
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}
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const HParsedToken* act_minfo(const HParseResult *p) {
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dns_rr_minfo_t *minfo = H_MAKE(dns_rr_minfo_t);
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minfo->rmailbx = *H_FIELD(dns_domain_t, 0);
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minfo->emailbx = *H_FIELD(dns_domain_t, 1);
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return H_MAKE_TOKEN(dns_rr_minfo_t, minfo);
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}
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const HParsedToken* act_mx(const HParseResult *p) {
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dns_rr_mx_t *mx = H_MAKE(dns_rr_mx_t);
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mx->preference = p->ast->seq->elements[0]->uint;
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mx->exchange = *H_FIELD(dns_domain_t, 1);
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return H_MAKE_TOKEN(dns_rr_mx_t, mx);
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}
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///
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// Parsers for all types of RDATA
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///
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2013-01-17 00:50:15 +01:00
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#define RDATA_TYPE_MAX 16
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const HParser* init_rdata(uint16_t type) {
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static const HParser *parsers[RDATA_TYPE_MAX+1];
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static int inited = 0;
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2013-01-17 01:17:37 +01:00
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if (type >= sizeof(parsers))
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2013-01-17 00:50:15 +01:00
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return NULL;
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if (inited)
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return parsers[type];
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2012-05-24 18:44:48 +02:00
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2013-01-17 01:17:37 +01:00
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H_RULE (domain, init_domain());
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2013-01-17 20:43:29 +01:00
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H_ARULE(cstr, init_character_string());
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2013-01-17 01:17:37 +01:00
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H_RULE (a, h_uint32());
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H_RULE (ns, domain);
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H_RULE (md, domain);
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H_RULE (mf, domain);
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H_RULE (cname, domain);
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2013-01-17 21:35:33 +01:00
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H_ARULE(soa, h_sequence(domain, // MNAME
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2013-01-17 01:17:37 +01:00
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domain, // RNAME
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h_uint32(), // SERIAL
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h_uint32(), // REFRESH
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h_uint32(), // RETRY
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h_uint32(), // EXPIRE
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h_uint32(), // MINIMUM
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NULL));
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H_RULE (mb, domain);
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H_RULE (mg, domain);
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H_RULE (mr, domain);
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2013-01-17 18:34:11 +01:00
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H_VRULE(null, h_many(h_uint8()));
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2013-01-17 01:17:37 +01:00
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H_RULE (wks, h_sequence(h_uint32(),
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h_uint8(),
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h_many(h_uint8()),
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NULL));
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H_RULE (ptr, domain);
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H_RULE (hinfo, h_sequence(cstr, cstr, NULL));
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H_RULE (minfo, h_sequence(domain, domain, NULL));
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H_RULE (mx, h_sequence(h_uint16(), domain, NULL));
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2013-01-17 19:13:06 +01:00
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H_ARULE(txt, h_many1(cstr));
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2012-05-24 18:44:48 +02:00
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2013-01-17 01:17:37 +01:00
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parsers[ 0] = NULL; // there is no type 0
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parsers[ 1] = a;
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parsers[ 2] = ns;
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parsers[ 3] = md;
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parsers[ 4] = mf;
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parsers[ 5] = cname;
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parsers[ 6] = soa;
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parsers[ 7] = mb;
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parsers[ 8] = mg;
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parsers[ 9] = mr;
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2013-01-17 18:34:11 +01:00
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parsers[10] = null;
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2013-01-17 01:17:37 +01:00
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parsers[11] = wks;
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parsers[12] = ptr;
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parsers[13] = hinfo;
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parsers[14] = minfo;
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parsers[15] = mx;
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parsers[16] = txt;
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// All parsers must consume their input exactly.
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for(uint16_t i; i<sizeof(parsers); i++) {
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2013-01-23 16:55:26 +01:00
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if(parsers[i]) {
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parsers[i] = h_action(h_sequence(parsers[i], h_end_p(), NULL),
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act_index0);
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}
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2013-01-17 01:17:37 +01:00
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}
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2012-05-24 18:44:48 +02:00
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2013-01-17 01:17:37 +01:00
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inited = 1;
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return parsers[type];
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2012-05-24 18:44:48 +02:00
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}
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