wireshark/epan/dtd_grammar.lemon

%include {

/* dtd_parser.lemon
 * XML dissector for wireshark
 * XML's DTD grammar
 *
 * Copyright 2005, Luis E. Garcia Ontanon <luis@ontanon.org>
 *
 * Wireshark - Network traffic analyzer
 * By Gerald Combs <gerald@wireshark.org>
 * Copyright 1998 Gerald Combs
 *
 * SPDX-License-Identifier: GPL-2.0-or-later
 */

#include "config.h"

#include <stdio.h>
#include <glib.h>
#include <assert.h>
#include <ws_diag_control.h>
#include "dtd.h"
#include "dtd_parse.h"

static dtd_named_list_t* dtd_named_list_new(gchar* name, GPtrArray* list) {
	dtd_named_list_t* nl = g_new(dtd_named_list_t,1);

	nl->name = name;
	nl->list = list;

	return nl;
}

static GPtrArray* g_ptr_array_join(GPtrArray* a, GPtrArray* b){

	while(b->len > 0) {
		g_ptr_array_add(a,g_ptr_array_remove_index_fast(b,0));
	}

	g_ptr_array_free(b,TRUE);

	return a;
}

DIAG_OFF_LEMON()
} /* end of %include */

%code {
DIAG_ON_LEMON()
}

%name DtdParse

%extra_argument { dtd_build_data_t *bd }

%token_destructor {
	(void) bd; /* Mark unused, similar to Q_UNUSED */
	if ($$) {
		g_free($$->text);
		g_free($$->location);
		g_free($$);
	}
}

%syntax_error {
	if (!TOKEN)
		g_string_append_printf(bd->error,"syntax error at end of file");
	else
		g_string_append_printf(bd->error,"syntax error in %s at or before '%s': \n", TOKEN->location,TOKEN->text);
}

%parse_failure {
	g_string_append_printf(bd->error,"DTD parsing failure\n");
}

%token_prefix TOKEN_

%token_type { dtd_token_data_t* }

dtd ::= doctype.
dtd ::= dtd_parts.

doctype ::= TAG_START DOCTYPE_KW NAME(Name) OPEN_BRACKET dtd_parts CLOSE_BRACKET TAG_STOP. {
	dtd_named_list_t* root;
	GPtrArray* root_elems = g_ptr_array_new();
	guint i;
	gchar *name;

	if(! bd->proto_name) {
		bd->proto_name = Name->text;
	}

	g_free(bd->proto_root);

	bd->proto_root = Name->text;

	name = g_ascii_strdown(bd->proto_name, -1);
	g_free(bd->proto_name);
	bd->proto_name = name;

	for( i = 0; i< bd->elements->len; i++) {
		dtd_named_list_t* el = (dtd_named_list_t*)g_ptr_array_index(bd->elements,i);

		g_ptr_array_add(root_elems,g_strdup(el->name));
	}

	root = dtd_named_list_new(g_strdup(Name->text),root_elems);

	g_ptr_array_add(bd->elements,root);

	g_free(Name->location);
	g_free(Name);

}

dtd_parts ::= dtd_parts element(Element). { g_ptr_array_add(bd->elements,Element); }
dtd_parts ::= dtd_parts attlist(Attlist). { g_ptr_array_add(bd->attributes,Attlist); }
dtd_parts ::= element(Element). { g_ptr_array_add(bd->elements,Element); }
dtd_parts ::= attlist(Attlist). { g_ptr_array_add(bd->attributes,Attlist); }

%type   attlist				{ dtd_named_list_t* }
attlist(A) ::= TAG_START ATTLIST_KW NAME(B) attrib_list(TheList) TAG_STOP. {
	A = dtd_named_list_new(g_ascii_strdown(B->text, -1),TheList);
	g_free(B->text);
	g_free(B->location);
	g_free(B);
}

%type element { dtd_named_list_t* }
element(A) ::= TAG_START ELEMENT_KW NAME(B) sub_elements(C) TAG_STOP. {
	A = dtd_named_list_new(g_ascii_strdown(B->text, -1),C);
	g_free(B->text);
	g_free(B->location);
	g_free(B);
}

%type   attrib_list			{ GPtrArray* }
attrib_list(A) ::= attrib_list(B) attrib(C). { g_ptr_array_add(B,C); A = B; }
attrib_list(A) ::= attrib(B).  { A = g_ptr_array_new(); g_ptr_array_add(A,B);  }

%type   attrib				{ gchar* }
attrib(A) ::= NAME(B) att_type att_default. {
	A = g_ascii_strdown(B->text, -1);
	g_free(B->text);
	g_free(B->location);
	g_free(B);
}

att_type ::= ATT_TYPE.
att_type ::= enumeration.

att_default ::= ATT_DEF.
att_default ::= ATT_DEF_WITH_VALUE QUOTED.
att_default ::= QUOTED.
att_default ::= IMPLIED_KW.
att_default ::= REQUIRED_KW.

enumeration ::= OPEN_PARENS enum_list CLOSE_PARENS.

enum_list ::= enum_list PIPE enum_item.
enum_list ::= enum_item.
enum_list ::= enumeration.
enum_list ::= enum_list PIPE enumeration.

enum_item ::= NAME.
enum_item ::= QUOTED.


%type   sub_elements		{ GPtrArray* }
sub_elements(A) ::= sub_elements(B) STAR. {A=B;}
sub_elements(A) ::= sub_elements(B) PLUS. {A=B;}
sub_elements(A) ::= sub_elements(B) QUESTION. {A=B;}
sub_elements(A) ::= OPEN_PARENS ELEM_DATA CLOSE_PARENS. { A = g_ptr_array_new(); }
sub_elements(A) ::= OPEN_PARENS element_list(B) COMMA ELEM_DATA CLOSE_PARENS.	{ A = B; }
sub_elements(A) ::= OPEN_PARENS element_list(B) PIPE ELEM_DATA CLOSE_PARENS.	{ A = B; }
sub_elements(A) ::= OPEN_PARENS element_list(B) CLOSE_PARENS. { A = B; }
sub_elements(A) ::= EMPTY_KW. { A = g_ptr_array_new(); }

%type   element_list	{ GPtrArray* }
element_list(A)	::= element_list(B) COMMA element_child(C).	{ g_ptr_array_add(B,C); A = B; }
element_list(A)	::= element_list(B) PIPE element_child(C).	{ g_ptr_array_add(B,C); A = B; }
element_list(A)	::= element_child(B).						{ A = g_ptr_array_new(); g_ptr_array_add(A,B); }
element_list(A) ::= sub_elements(B).						{ A = B; }
element_list(A) ::= element_list(B) COMMA sub_elements(C).	{ A = g_ptr_array_join(B,C); }
element_list(A) ::= element_list(B) PIPE sub_elements(C).	{ A = g_ptr_array_join(B,C); }

%type   element_child		{ gchar* }
element_child(A) ::= NAME(B).			{
	A = g_ascii_strdown(B->text, -1);
	g_free(B->text);
	g_free(B->location);
	g_free(B);
}

element_child(A) ::= NAME(B) STAR.		{
	A = g_ascii_strdown(B->text, -1);
	g_free(B->text);
	g_free(B->location);
	g_free(B);
}

element_child(A) ::= NAME(B) QUESTION.	{
	A = g_ascii_strdown(B->text, -1);
	g_free(B->text);
	g_free(B->location);
	g_free(B);
}

element_child(A) ::= NAME(B) PLUS.		{
	A = g_ascii_strdown(B->text, -1);
	g_free(B->text);
	g_free(B->location);
	g_free(B);
}