%include { /* mate_grammar.lemon * MATE's configuration language grammar * * Copyright 2005, Luis E. Garcia Ontanon * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * SPDX-License-Identifier: GPL-2.0-or-later */ /* * XXX - there's a Lemon bug where this grammar produces a parser that * fails assertions; to work around it, we disable assert() failures. */ #ifndef NDEBUG #define NDEBUG #endif #include "config.h" #include #include "mate.h" #include "mate_grammar.h" #include #include #define DUMMY void* typedef struct _extraction { char* as; header_field_info* hfi; struct _extraction* next; struct _extraction* last; } extraction_t; typedef struct _pdu_criteria_t { AVPL* criterium_avpl; avpl_match_mode criterium_match_mode; accept_mode_t criterium_accept_mode; } pdu_criteria_t; typedef struct _gop_options { gop_tree_mode_t pdu_tree_mode; bool drop_unassigned; bool show_times; double expiration; double idle_timeout; double lifetime; AVPL* start; AVPL* stop; AVPL* extras; } gop_options_t; typedef struct _gog_statements { double expiration; gop_tree_mode_t gop_tree_mode; GPtrArray* transform_list; AVPL* extras; LoAL* current_gogkeys; } gog_statement_t; typedef struct _transf_match_t { avpl_match_mode match_mode; AVPL* avpl; } transf_match_t; typedef struct _transf_action_t { avpl_replace_mode replace_mode; AVPL* avpl; } transf_action_t; static void configuration_error(mate_config* mc, const char* fmt, ...) { static char error_buffer[256]; const char* incl; int i; mate_config_frame* current_frame; va_list list; va_start( list, fmt ); vsnprintf(error_buffer,sizeof(error_buffer),fmt,list); va_end( list ); i = (int) mc->config_stack->len; while (i--) { if (i>0) { incl = "\n included from: "; } else { incl = " "; } current_frame = (mate_config_frame *)g_ptr_array_index(mc->config_stack,(unsigned)i); g_string_append_printf(mc->config_error,"%s%s at line %u",incl, current_frame->filename, current_frame->linenum); } g_string_append_printf(mc->config_error,": %s\n",error_buffer); THROW(MateConfigError); } static AVPL_Transf* new_transform_elem(AVPL* match, AVPL* replace, avpl_match_mode match_mode, avpl_replace_mode replace_mode) { AVPL_Transf* t = (AVPL_Transf *)g_malloc(sizeof(AVPL_Transf)); t->name = NULL; t->match = match; t->replace = replace; t->match_mode = match_mode; t->replace_mode = replace_mode; t->map = NULL; t->next = NULL; return t; } static char* recolonize(mate_config* mc, char* s) { GString* str = g_string_new(""); char** vec; char* r; unsigned i,v; char c; vec = g_strsplit(s,":",0); for (i = 0; vec[i]; i++) { ascii_strdown_inplace(vec[i]); v = 0; switch ( strlen(vec[i]) ) { case 2: c = vec[i][1]; vec[i][1] = vec[i][0]; vec[i][0] = c; if (vec[i][0] >= '0' && vec[i][0] <= '9') { v += (vec[i][1] - '0' )*16; } else { v += (vec[i][1] - 'a' + 10)*16; } /* FALL THROUGH */ case 1: if (vec[i][0] >= '0' && vec[i][0] <= '9') { v += (vec[i][0] - '0' ); } else { v += (vec[i][0] - 'a' + 10); } case 0: break; default: configuration_error(mc,"bad token %s",s); } g_string_append_printf(str,":%.2X",v); } g_strfreev(vec); g_string_erase(str,0,1); r = str->str; g_string_free(str,FALSE); return r; } DIAG_OFF_LEMON() } /* end of %include */ %code { DIAG_ON_LEMON() } %name MateParser %token_prefix TOKEN_ %token_type { char* } %token_destructor { (void) mc; /* Mark unused, similar to Q_UNUSED */ g_free($$); } %extra_argument { mate_config* mc } %syntax_error { if(yyminor == NULL) { configuration_error(mc,"Syntax error detected before end of file."); } else { configuration_error(mc,"Syntax error at or before \"%s\"",yyminor); } } %parse_failure { configuration_error(mc,"Parse error"); } %type transform_decl { AVPL_Transf* } %type transform_body { AVPL_Transf* } %type transform_statements { AVPL_Transf* } %type transform_statement { AVPL_Transf* } %type transform_match { transf_match_t* } %type transform_action { transf_action_t* } %type match_mode { avpl_match_mode } %type action_mode { avpl_replace_mode } %type gop_name { char* } %type time_value { double } %type pdu_name { char* } %type gop_tree_mode { gop_tree_mode_t } %type true_false { bool } %type criteria_statement { pdu_criteria_t* } %type accept_mode { accept_mode_t } %type pdu_drop_unassigned_statement { bool } %type discard_pdu_data_statement { bool } %type last_extracted_statement { bool } %type extraction_statement {extraction_t*} %type extraction_statements {extraction_t*} %type gop_options { gop_options_t* } %type gop_start_statement { AVPL* } %type gop_stop_statement { AVPL* } %type extra_statement { AVPL* } %type gop_drop_unassigned_statement { bool } %type show_goptree_statement { gop_tree_mode_t } %type show_times_statement { bool } %type gop_expiration_statement { double } %type idle_timeout_statement { double } %type lifetime_statement { double } %type gog_statements { gog_statement_t* } %type gog_expiration_statement { double } %type gog_goptree_statement { gop_tree_mode_t } %type gog_key_statements { LoAL* } %type gog_key_statement { AVPL* } %type transform_list_statement { GPtrArray* } %type transform { AVPL_Transf* } %type gop_tree_type { gop_tree_mode_t } %type payload_statement { GPtrArray* } %type proto_stack { GPtrArray* } %type field { header_field_info* } %type transform_list { GPtrArray* } %type avpl { AVPL* } %type avps { AVPL* } %type avp { AVP* } %type value { char* } %type avp_oneoff { char* } mate_config ::= decls. decls ::= decls decl. decls ::= . decl ::= pdu_decl. decl ::= gop_decl. decl ::= gog_decl. decl ::= transform_decl. decl ::= defaults_decl. decl ::= debug_decl. decl ::= DONE_KW SEMICOLON. /************* DEBUG */ debug_decl ::= DEBUG_KW OPEN_BRACE dbgfile_default dbglevel_default pdu_dbglevel_default gop_dbglevel_default gog_dbglevel_default CLOSE_BRACE SEMICOLON. dbgfile_default ::= FILENAME_KW QUOTED(Filename) SEMICOLON. { mc->dbg_facility = ws_fopen(Filename,"w"); if (mc->dbg_facility == NULL) report_open_failure(Filename,errno,true); } dbgfile_default ::= FILENAME_KW NAME(Filename) SEMICOLON. { mc->dbg_facility = ws_fopen(Filename,"w"); if (mc->dbg_facility == NULL) report_open_failure(Filename,errno,true); } dbgfile_default ::= . dbglevel_default ::= LEVEL_KW INTEGER(LevelString) SEMICOLON. { mc->dbg_lvl = (int) strtol(LevelString,NULL,10); } dbglevel_default ::= . pdu_dbglevel_default ::= PDU_KW LEVEL_KW INTEGER(LevelString) SEMICOLON. { mc->dbg_pdu_lvl = (int) strtol(LevelString,NULL,10); } pdu_dbglevel_default ::= . gop_dbglevel_default ::= GOP_KW LEVEL_KW INTEGER(LevelString) SEMICOLON. { mc->dbg_gop_lvl = (int) strtol(LevelString,NULL,10); } gop_dbglevel_default ::= . gog_dbglevel_default ::= GOG_KW LEVEL_KW INTEGER(LevelString) SEMICOLON. { mc->dbg_gog_lvl = (int) strtol(LevelString,NULL,10); } gog_dbglevel_default ::= . /************* DEFAULTS */ defaults_decl ::= DEFAULT_KW OPEN_BRACE pdu_defaults gop_defaults gog_defaults CLOSE_BRACE SEMICOLON. pdu_defaults ::= PDU_KW OPEN_BRACE pdu_last_extracted_default pdu_drop_unassigned_default pdu_discard_default CLOSE_BRACE SEMICOLON. pdu_defaults ::= . pdu_last_extracted_default ::= LAST_EXTRACTED_KW true_false(Flag) SEMICOLON. { mc->defaults.pdu.last_extracted = Flag; } pdu_last_extracted_default ::= . pdu_drop_unassigned_default ::= DROP_UNASSIGNED_KW true_false(Flag) SEMICOLON. { mc->defaults.pdu.drop_unassigned = Flag; } pdu_drop_unassigned_default ::= . pdu_discard_default ::= DISCARD_PDU_DATA_KW true_false(Flag) SEMICOLON. { mc->defaults.pdu.discard = Flag; } pdu_discard_default ::= . gop_defaults ::= GOP_KW OPEN_BRACE gop_expiration_default gop_idle_timeout_default gop_lifetime_default gop_drop_unassigned_default gop_tree_mode_default gop_show_times_default CLOSE_BRACE SEMICOLON. gop_defaults ::= . gop_expiration_default ::= EXPIRATION_KW time_value(B) SEMICOLON. { mc->defaults.gop.expiration = B; } gop_expiration_default ::= . gop_idle_timeout_default ::= IDLE_TIMEOUT_KW time_value(B) SEMICOLON. { mc->defaults.gop.idle_timeout = B; } gop_idle_timeout_default ::= . gop_lifetime_default ::= LIFETIME_KW time_value(B) SEMICOLON. { mc->defaults.gop.lifetime = B; } gop_lifetime_default ::= . gop_drop_unassigned_default ::= DROP_UNASSIGNED_KW true_false(B) SEMICOLON. { mc->defaults.gop.drop_unassigned = B; } gop_drop_unassigned_default ::= . gop_tree_mode_default ::= SHOW_TREE_KW gop_tree_mode(B) SEMICOLON. { mc->defaults.gop.pdu_tree_mode = (gop_pdu_tree_t)B; } gop_tree_mode_default ::= . gop_show_times_default ::= SHOW_TIMES_KW true_false(B) SEMICOLON. { mc->defaults.gop.show_times = B; } gop_show_times_default ::= . gog_defaults ::= GOG_KW OPEN_BRACE gog_expiration_default gop_tree_mode_default gog_goptree_default gog_show_times_default CLOSE_BRACE SEMICOLON. gog_defaults ::= . gog_expiration_default ::= EXPIRATION_KW time_value(B) SEMICOLON. { mc->defaults.gop.expiration = B; } gog_expiration_default ::= . gog_goptree_default ::= GOP_TREE_KW gop_tree_type(B) SEMICOLON. { mc->defaults.gog.gop_tree_mode = B; } gog_goptree_default ::= . gog_show_times_default ::= SHOW_TIMES_KW true_false(B) SEMICOLON. { mc->defaults.gog.show_times = B; } gog_show_times_default ::= . /******************************************* TRANSFORM */ transform_decl(A) ::= TRANSFORM_KW NAME(B) transform_body(C) SEMICOLON. { AVPL_Transf* c; if ( g_hash_table_lookup(mc->transfs,B) ) { configuration_error(mc,"A transformation called '%s' exists already",B); } for ( c = C; c; c = c->next ) c->name = g_strdup(B); g_hash_table_insert(mc->transfs,C->name,C); A = NULL; } transform_body(A) ::= OPEN_BRACE transform_statements(B) CLOSE_BRACE. { A = B; } transform_statements(A) ::= transform_statements(C) transform_statement(B). { AVPL_Transf* c; for ( c = C; c->next; c = c->next ) ; c->next = B; A = C; } transform_statements(A) ::= transform_statement(B). { A = B; } transform_statement(A) ::= transform_match(Match) transform_action(Action) SEMICOLON. { A = new_transform_elem(Match->avpl,Action->avpl,Match->match_mode,Action->replace_mode); } transform_match(A) ::= MATCH_KW match_mode(Mode) avpl(Avpl). { A = (transf_match_t *)g_malloc(sizeof(transf_match_t)); A->match_mode = Mode; A->avpl = Avpl; } transform_match(A) ::= . { A = (transf_match_t *)g_malloc(sizeof(transf_match_t)); A->match_mode = AVPL_STRICT; A->avpl = new_avpl(""); } transform_action(A) ::= . { A = (transf_action_t *)g_malloc(sizeof(transf_action_t)); A->replace_mode = AVPL_INSERT; A->avpl = new_avpl(""); } transform_action(A) ::= action_mode(Mode) avpl(Avpl). { A = (transf_action_t *)g_malloc(sizeof(transf_action_t)); A->replace_mode = Mode; A->avpl = Avpl; } match_mode(A) ::= . { A = AVPL_STRICT; } match_mode(A) ::= STRICT_KW. { A = AVPL_STRICT; } match_mode(A) ::= EVERY_KW. { A = AVPL_EVERY; } match_mode(A) ::= LOOSE_KW. { A = AVPL_LOOSE; } action_mode(A) ::= REPLACE_KW. { A = AVPL_REPLACE; } action_mode(A) ::= INSERT_KW. { A = AVPL_INSERT; } action_mode(A) ::= . { A = AVPL_INSERT; } /******************************************* PDU */ pdu_decl ::= PDU_KW NAME(Name) PROTO_KW field(Field) TRANSPORT_KW proto_stack(Stack) OPEN_BRACE payload_statement(Payload) extraction_statements(Extraction) transform_list_statement(Transform) criteria_statement(Criteria) pdu_drop_unassigned_statement(DropUnassigned) discard_pdu_data_statement(DistcardPduData) last_extracted_statement(LastExtracted) CLOSE_BRACE SEMICOLON. { mate_cfg_pdu* cfg = new_pducfg(mc, Name); extraction_t *extraction, *next_extraction; GPtrArray* transport_stack = g_ptr_array_new(); int i; if (! cfg ) configuration_error(mc,"could not create Pdu %s.",Name); cfg->hfid_proto = Field->id; cfg->last_extracted = LastExtracted; cfg->discard = DistcardPduData; cfg->drop_unassigned = DropUnassigned; /* * Add this protocol to our table of wanted hfids. */ mc->wanted_hfids = g_array_append_val(mc->wanted_hfids, Field->id); /* flip the transport_stack */ for (i = Stack->len - 1; Stack->len; i--) { g_ptr_array_add(transport_stack,g_ptr_array_remove_index(Stack,i)); } g_ptr_array_free(Stack, true); cfg->transport_ranges = transport_stack; cfg->payload_ranges = Payload; if (Criteria) { cfg->criterium = Criteria->criterium_avpl; cfg->criterium_match_mode = Criteria->criterium_match_mode; cfg->criterium_accept_mode = Criteria->criterium_accept_mode; } cfg->transforms = Transform; for (extraction = Extraction; extraction; extraction = next_extraction) { next_extraction = extraction->next; if ( ! add_hfid(mc, extraction->hfi, extraction->as, cfg->hfids_attr) ) { configuration_error(mc,"MATE: failed to create extraction rule '%s'",extraction->as); } g_free(extraction); } } payload_statement(A) ::= . { A = NULL; } payload_statement(A) ::= PAYLOAD_KW proto_stack(B) SEMICOLON. { A = B; } criteria_statement(A) ::= . { A = NULL; } criteria_statement(A) ::= CRITERIA_KW accept_mode(B) match_mode(C) avpl(D) SEMICOLON. { A = g_new(pdu_criteria_t, 1); A->criterium_avpl = D; A->criterium_match_mode = C; A->criterium_accept_mode = B; } accept_mode(A) ::= . { A = ACCEPT_MODE; } accept_mode(A) ::= ACCEPT_KW. { A = ACCEPT_MODE; } accept_mode(A) ::= REJECT_KW. { A = REJECT_MODE; } extraction_statements(A) ::= extraction_statements(B) extraction_statement(C). { A = B; A->last = A->last->next = C; } extraction_statements(A) ::= extraction_statement(B). { A = B; A->last = A; } extraction_statement(A) ::= EXTRACT_KW NAME(NAME) FROM_KW field(FIELD) SEMICOLON. { A = g_new(extraction_t, 1); A->as = NAME; A->hfi = FIELD; A->next = A->last = NULL; } pdu_drop_unassigned_statement(A) ::= DROP_UNASSIGNED_KW true_false(B) SEMICOLON. { A = B; } pdu_drop_unassigned_statement(A) ::= . { A = mc->defaults.pdu.drop_unassigned; } discard_pdu_data_statement(A) ::= DISCARD_PDU_DATA_KW true_false(B) SEMICOLON. { A = B; } discard_pdu_data_statement(A) ::= . { A = mc->defaults.pdu.discard; } last_extracted_statement(A) ::= LAST_PDU_KW true_false(B) SEMICOLON. { A = B; } last_extracted_statement(A) ::= . { A = mc->defaults.pdu.last_extracted; } proto_stack(A) ::= proto_stack(B) SLASH field(C). { int* hfidp = g_new(int, 1); *hfidp = C->id; g_ptr_array_add(B,hfidp); A = B; } proto_stack(A) ::= field(B). { int* hfidp = g_new(int, 1); *hfidp = B->id; A = g_ptr_array_new(); g_ptr_array_add(A,hfidp); } field(A) ::= NAME(B). { A = proto_registrar_get_byname(B); if (A == NULL) { configuration_error(mc,"\nUnknown Proto/Transport/field: %s\n",B); }; } /******************************************* GOP */ gop_decl(A) ::= GOP_KW NAME(Name) ON_KW pdu_name(PduName) MATCH_KW avpl(Key) OPEN_BRACE gop_start_statement(Start) gop_stop_statement(Stop) extra_statement(Extra) transform_list_statement(Transform) gop_expiration_statement(Expiration) idle_timeout_statement(IdleTimeout) lifetime_statement(Lifetime) gop_drop_unassigned_statement(DropUnassigned) show_goptree_statement(TreeMode) show_times_statement(ShowTimes) CLOSE_BRACE SEMICOLON. { mate_cfg_gop* cfg; if (g_hash_table_lookup(mc->gopcfgs,Name)) configuration_error(mc,"A Gop Named '%s' exists already.",Name); if (g_hash_table_lookup(mc->gops_by_pduname,PduName) ) configuration_error(mc,"Gop for Pdu '%s' exists already",PduName); cfg = new_gopcfg(mc, Name); g_hash_table_insert(mc->gops_by_pduname,PduName,cfg); g_hash_table_insert(mc->gopcfgs,cfg->name,cfg); cfg->on_pdu = PduName; cfg->key = Key; cfg->drop_unassigned = DropUnassigned; cfg->show_times = ShowTimes; cfg->pdu_tree_mode = (gop_pdu_tree_t)TreeMode; cfg->expiration = Expiration; cfg->idle_timeout = IdleTimeout; cfg->lifetime = Lifetime; cfg->start = Start; cfg->stop = Stop; cfg->transforms = Transform; merge_avpl(cfg->extra,Extra,true); delete_avpl(Extra,true); } gop_drop_unassigned_statement(A) ::= DROP_UNASSIGNED_KW true_false(B) SEMICOLON. { A = B; } gop_drop_unassigned_statement(A) ::= . { A = mc->defaults.gop.drop_unassigned; } gop_start_statement(A) ::= START_KW avpl(B) SEMICOLON. { A = B; } gop_start_statement(A) ::= . { A = NULL; } gop_stop_statement(A) ::= STOP_KW avpl(B) SEMICOLON. { A = B; } gop_stop_statement(A) ::= . { A = NULL; } show_goptree_statement(A) ::= SHOW_TREE_KW gop_tree_mode(B) SEMICOLON. { A = B; } show_goptree_statement(A) ::= . { A = (gop_tree_mode_t)mc->defaults.gop.pdu_tree_mode; } show_times_statement(A) ::= SHOW_TIMES_KW true_false(B) SEMICOLON. { A = B; } show_times_statement(A) ::= . { A = mc->defaults.gop.show_times; } gop_expiration_statement(A) ::= EXPIRATION_KW time_value(B) SEMICOLON. { A = B; } gop_expiration_statement(A) ::= . { A = mc->defaults.gop.lifetime; } idle_timeout_statement(A) ::= IDLE_TIMEOUT_KW time_value(B) SEMICOLON. { A = B; } idle_timeout_statement(A) ::= . { A = mc->defaults.gop.lifetime; } lifetime_statement(A) ::= LIFETIME_KW time_value(B) SEMICOLON. { A = B; } lifetime_statement(A) ::= . { A = mc->defaults.gop.lifetime; } gop_tree_mode(A) ::= NO_TREE_KW. { A = (gop_tree_mode_t)GOP_NO_TREE; } gop_tree_mode(A) ::= PDU_TREE_KW. { A = (gop_tree_mode_t)GOP_PDU_TREE; } gop_tree_mode(A) ::= FRAME_TREE_KW. { A = (gop_tree_mode_t)GOP_FRAME_TREE; } gop_tree_mode(A) ::= BASIC_TREE_KW. { A = (gop_tree_mode_t)GOP_BASIC_PDU_TREE; } true_false(A) ::= TRUE_KW. { A = true; } true_false(A) ::= FALSE_KW. { A = false; } pdu_name(A) ::= NAME(B). { mate_cfg_pdu* c; if (( c = (mate_cfg_pdu *)g_hash_table_lookup(mc->pducfgs,B) )) { A = c->name; } else { configuration_error(mc,"No such Pdu: '%s'",B); } } time_value(A) ::= FLOATING(B). { A = g_ascii_strtod(B,NULL); } time_value(A) ::= INTEGER(B). { A = g_ascii_strtod(B,NULL); } /************* GOG */ gog_decl ::= GOG_KW NAME(Name) OPEN_BRACE gog_key_statements(Keys) extra_statement(Extra) transform_list_statement(Transforms) gog_expiration_statement(Expiration) gog_goptree_statement(Tree) show_times_statement(ShowTimes) CLOSE_BRACE SEMICOLON. { mate_cfg_gog* cfg = NULL; if ( g_hash_table_lookup(mc->gogcfgs,Name) ) { configuration_error(mc,"Gog '%s' exists already ",Name); } cfg = new_gogcfg(mc, Name); cfg->expiration = Expiration; cfg->gop_tree_mode = Tree; cfg->transforms = Transforms; cfg->keys = Keys; cfg->show_times = ShowTimes; merge_avpl(cfg->extra,Extra,true); delete_avpl(Extra,true); } gog_goptree_statement(A) ::= GOP_TREE_KW gop_tree_type(B) SEMICOLON. { A = B; } gog_goptree_statement(A) ::= . { A = mc->defaults.gog.gop_tree_mode; } gog_expiration_statement(A) ::= EXPIRATION_KW time_value(B) SEMICOLON. { A = B; } gog_expiration_statement(A) ::= . { A = mc->defaults.gog.expiration; } gop_tree_type(A) ::= NULL_TREE_KW. { A = GOP_NULL_TREE; } gop_tree_type(A) ::= FULL_TREE_KW. { A = GOP_FULL_TREE; } gop_tree_type(A) ::= BASIC_TREE_KW. { A = GOP_BASIC_TREE; } gog_key_statements(A) ::= gog_key_statements(B) gog_key_statement(C). { loal_append(B,C); A = B; } gog_key_statements(A) ::= gog_key_statement(B). { A = new_loal(""); loal_append(A,B); } gog_key_statement(A) ::= MEMBER_KW gop_name(B) avpl(C) SEMICOLON. { rename_avpl(C,B); A = C; } gop_name(A) ::= NAME(B). { mate_cfg_gop* c; if (( c = (mate_cfg_gop *)g_hash_table_lookup(mc->gopcfgs,B) )) { A = c->name; } else { configuration_error(mc,"No Gop called '%s' has been already declared",B); } } /******************************************** GENERAL */ extra_statement(A) ::= EXTRA_KW avpl(B) SEMICOLON. { A = B; } extra_statement(A) ::= . { A = new_avpl(""); } transform_list_statement(A) ::= TRANSFORM_KW transform_list(B) SEMICOLON. { A = B; } transform_list_statement(A) ::= . { A = g_ptr_array_new(); } transform_list(A) ::= transform_list(B) COMMA transform(C). { A = B; g_ptr_array_add(B,C); } transform_list(A) ::= transform(B). { A = g_ptr_array_new(); g_ptr_array_add(A,B); } transform(A) ::= NAME(B). { AVPL_Transf* t; if (( t = (AVPL_Transf *)g_hash_table_lookup(mc->transfs,B) )) { A = t; } else { configuration_error(mc,"There's no such Transformation: %s",B); } } avpl(A) ::= OPEN_PARENS avps(B) CLOSE_PARENS. { A = B; } avpl(A) ::= OPEN_PARENS CLOSE_PARENS. { A = new_avpl(""); } avps(A) ::= avps(B) COMMA avp(C). { A = B; if ( ! insert_avp(B,C) ) delete_avp(C); } avps(A) ::= avp(B). { A = new_avpl(""); if ( ! insert_avp(A,B) ) delete_avp(B); } avp(A) ::= NAME(B) AVP_OPERATOR(C) value(D). { A = new_avp(B,D,*C); } avp(A) ::= NAME(B). { A = new_avp(B,"",'?'); } avp(A) ::= NAME(B) OPEN_BRACE avp_oneoff(C) CLOSE_BRACE. { A = new_avp(B,C,'|'); } avp_oneoff(A) ::= avp_oneoff(B) PIPE value(C). { A = ws_strdup_printf("%s|%s",B,C); } avp_oneoff(A) ::= value(B). { A = g_strdup(B); } value(A) ::= QUOTED(B). { A = g_strdup(B); } value(A) ::= NAME(B). { A = g_strdup(B); } value(A) ::= FLOATING(B). { A = g_strdup(B); } value(A) ::= INTEGER(B). { A = g_strdup(B); } value(A) ::= DOTED_IP(B). { A = g_strdup(B); } value(A) ::= COLONIZED(B). { A = recolonize(mc,B); }