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source: protocols/jabber/xmltree.c @ fe7a554

Last change on this file since fe7a554 was 4a0614e, checked in by Wilmer van der Gaast <wilmer@…>, at 2006-09-21T09:37:03Z
Added simple parsing of incoming <presence> tags, a nice </stream:stream> at the end of sessions, support for sending messages, and restored the old (and leaking) xt_print(), which I'll only use for debugging.
Property mode set to `100644`
File size: 12.1 KB

Rev	Line
[8f243ad]	1	/***************************************************************************\
	2	* *
	3	* BitlBee - An IRC to IM gateway *
	4	* Simple XML (stream) parse tree handling code (Jabber/XMPP, mainly) *
	5	* *
	6	* Copyright 2006 Wilmer van der Gaast <wilmer@gaast.net> *
	7	* *
	8	* This library is free software; you can redistribute it and/or *
	9	* modify it under the terms of the GNU Lesser General Public *
	10	* License as published by the Free Software Foundation, version *
	11	* 2.1. *
	12	* *
	13	* This library is distributed in the hope that it will be useful, *
	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of *
	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
	16	* Lesser General Public License for more details. *
	17	* *
	18	* You should have received a copy of the GNU Lesser General Public License *
	19	* along with this library; if not, write to the Free Software Foundation, *
	20	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA *
	21	* *
	22	****************************************************************************/
	23
	24	#include <glib.h>
	25	#include <string.h>
	26	#include <unistd.h>
	27	#include <ctype.h>
	28	#include <stdio.h>
	29
	30	#include "xmltree.h"
	31
	32	static void xt_start_element( GMarkupParseContext ctx, const gchar element_name, const gchar attr_names, const gchar attr_values, gpointer data, GError **error )
	33	{
	34	struct xt_parser *xt = data;
	35	struct xt_node node = g_new0( struct xt_node, 1 ), nt;
	36	int i;
	37
	38	node->parent = xt->cur;
	39	node->name = g_strdup( element_name );
	40
	41	/* First count the number of attributes */
	42	for( i = 0; attr_names[i]; i ++ );
	43
	44	/* Then allocate a NULL-terminated array. */
	45	node->attr = g_new0( struct xt_attr, i + 1 );
	46
	47	/* And fill it, saving one variable by starting at the end. */
	48	for( i --; i >= 0; i -- )
	49	{
	50	node->attr[i].key = g_strdup( attr_names[i] );
	51	node->attr[i].value = g_strdup( attr_values[i] );
	52	}
	53
	54	/* Add it to the linked list of children nodes, if we have a current
	55	node yet. */
	56	if( xt->cur )
	57	{
	58	if( xt->cur->children )
	59	{
	60	for( nt = xt->cur->children; nt->next; nt = nt->next );
	61	nt->next = node;
	62	}
	63	else
	64	{
	65	xt->cur->children = node;
	66	}
	67	}
	68	else if( xt->root )
	69	{
	70	/* ERROR situation: A second root-element??? */
	71	}
	72
	73	/* Now this node will be the new current node. */
	74	xt->cur = node;
	75	/* And maybe this is the root? */
	76	if( xt->root == NULL )
	77	xt->root = node;
	78	}
	79
	80	static void xt_text( GMarkupParseContext ctx, const gchar text, gsize text_len, gpointer data, GError **error )
	81	{
	82	struct xt_parser *xt = data;
	83	struct xt_node *node = xt->cur;
	84
	85	if( node == NULL )
	86	return;
	87
	88	/* FIXME: Does g_renew also OFFICIALLY accept NULL arguments? */
	89	node->text = g_renew( char, node->text, node->text_len + text_len + 1 );
	90	memcpy( node->text + node->text_len, text, text_len );
	91	node->text_len += text_len;
	92	/* Zero termination is always nice to have. */
	93	node->text[node->text_len] = 0;
	94	}
	95
	96	static void xt_end_element( GMarkupParseContext ctx, const gchar element_name, gpointer data, GError **error )
	97	{
	98	struct xt_parser *xt = data;
	99
	100	xt->cur->flags \|= XT_COMPLETE;
	101	xt->cur = xt->cur->parent;
	102	}
	103
	104	GMarkupParser xt_parser_funcs =
	105	{
	106	xt_start_element,
	107	xt_end_element,
	108	xt_text,
	109	NULL,
	110	NULL
	111	};
	112
	113	struct xt_parser *xt_new( gpointer data )
	114	{
	115	struct xt_parser *xt = g_new0( struct xt_parser, 1 );
	116
	117	xt->data = data;
	118	xt_reset( xt );
	119
	120	return xt;
	121	}
	122
	123	/* Reset the parser, flush everything we have so far. For example, we need
	124	this for XMPP when doing TLS/SASL to restart the stream. */
	125	void xt_reset( struct xt_parser *xt )
	126	{
	127	if( xt->parser )
	128	g_markup_parse_context_free( xt->parser );
	129
	130	xt->parser = g_markup_parse_context_new( &xt_parser_funcs, 0, xt, NULL );
	131
	132	if( xt->root )
	133	{
	134	xt_free_node( xt->root );
	135	xt->root = NULL;
	136	xt->cur = NULL;
	137	}
	138	}
	139
	140	/* Feed the parser, don't execute any handler. Returns -1 on errors, 0 on
	141	end-of-stream and 1 otherwise. */
	142	int xt_feed( struct xt_parser xt, char text, int text_len )
	143	{
	144	if( !g_markup_parse_context_parse( xt->parser, text, text_len, &xt->gerr ) )
	145	{
	146	return -1;
	147	}
	148
	149	return !( xt->root && xt->root->flags & XT_COMPLETE );
	150	}
	151
	152	/* Find completed nodes and see if a handler has to be called. Passing
	153	a node isn't necessary if you want to start at the root, just pass
	154	NULL. This second argument is needed for recursive calls. FIXME: Retval? */
	155	int xt_handle( struct xt_parser xt, struct xt_node node )
	156	{
	157	struct xt_node *c;
	158	xt_status st;
	159	int i;
	160
	161	/* Let's just hope xt->root isn't NULL! */
	162	if( node == NULL )
	163	return xt_handle( xt, xt->root );
	164
	165	for( c = node->children; c; c = c->next )
	166	if( !xt_handle( xt, c ) )
	167	return 0;
	168
	169	if( node->flags & XT_COMPLETE && !( node->flags & XT_SEEN ) )
	170	{
	171	for( i = 0; xt->handlers[i].func; i ++ )
	172	{
	173	/* This one is fun! \o/ */
	174
	175	/* If handler.name == NULL it means it should always match. */
	176	if( ( xt->handlers[i].name == NULL \|\|
	177	/* If it's not, compare. There should always be a name. */
	178	g_strcasecmp( xt->handlers[i].name, node->name ) == 0 ) &&
	179	/* If handler.parent == NULL, it's a match. */
	180	( xt->handlers[i].parent == NULL \|\|
	181	/* If there's a parent node, see if the name matches. */
	182	( node->parent ? g_strcasecmp( xt->handlers[i].parent, node->parent->name ) == 0 :
	183	/* If there's no parent, the handler should mention <root> as a parent. */
	184	g_strcasecmp( xt->handlers[i].parent, "<root>" ) == 0 ) ) )
	185	{
	186	st = xt->handlers[i].func( node, xt->data );
	187
	188	if( st == XT_ABORT )
	189	return 0;
	190	else if( st != XT_NEXT )
	191	break;
	192	}
	193	}
	194
	195	node->flags \|= XT_SEEN;
	196	}
	197
	198	return 1;
	199	}
	200
	201	/* Garbage collection: Cleans up all nodes that are handled. Useful for
	202	streams because there's no reason to keep a complete packet history
	203	in memory. */
	204	void xt_cleanup( struct xt_parser xt, struct xt_node node )
	205	{
	206	struct xt_node c, prev;
	207
[21167d2]	208	if( !xt \|\| !xt->root )
	209	return;
	210
[8f243ad]	211	if( node == NULL )
	212	return xt_cleanup( xt, xt->root );
	213
	214	if( node->flags & XT_SEEN && node == xt->root )
	215	{
	216	xt_free_node( xt->root );
	217	xt->root = xt->cur = NULL;
	218	/* xt->cur should be NULL already, BTW... */
	219
	220	return;
	221	}
	222
	223	/* c contains the current node, prev the previous node (or NULL).
	224	I admit, this one's pretty horrible. */
	225	for( c = node->children, prev = NULL; c; prev = c, c = c ? c->next : node->children )
	226	{
	227	if( c->flags & XT_SEEN )
	228	{
	229	/* Remove the node from the linked list. */
	230	if( prev )
	231	prev->next = c->next;
	232	else
	233	node->children = c->next;
	234
	235	xt_free_node( c );
	236
	237	/* Since the for loop wants to get c->next, make sure
	238	c points at something that exists (and that c->next
	239	will actually be the next item we should check). c
	240	can be NULL now, if we just removed the first item.
	241	That explains the ? thing in for(). */
	242	c = prev;
	243	}
	244	else
	245	{
	246	/* This node can't be cleaned up yet, but maybe a
	247	subnode can. */
	248	xt_cleanup( xt, c );
	249	}
	250	}
	251	}
	252
	253	static void xt_to_string_real( struct xt_node node, GString str )
	254	{
	255	char *buf;
	256	struct xt_node *c;
	257	int i;
	258
	259	g_string_append_printf( str, "<%s", node->name );
	260
	261	for( i = 0; node->attr[i].key; i ++ )
	262	{
	263	buf = g_markup_printf_escaped( " %s=\"%s\"", node->attr[i].key, node->attr[i].value );
	264	g_string_append( str, buf );
	265	g_free( buf );
	266	}
	267
	268	if( node->text == NULL && node->children == NULL )
	269	{
	270	g_string_append( str, "/>" );
	271	return;
	272	}
	273
	274	g_string_append( str, ">" );
	275	if( node->text_len > 0 )
	276	{
	277	buf = g_markup_escape_text( node->text, node->text_len );
	278	g_string_append( str, buf );
	279	g_free( buf );
	280	}
	281
	282	for( c = node->children; c; c = c->next )
	283	xt_to_string_real( c, str );
	284
	285	g_string_append_printf( str, "</%s>", node->name );
	286	}
	287
	288	char xt_to_string( struct xt_node node )
	289	{
	290	GString *ret;
	291	char *real;
	292
	293	ret = g_string_new( "" );
	294	xt_to_string_real( node, ret );
	295
	296	real = ret->str;
	297	g_string_free( ret, FALSE );
	298
	299	return real;
	300	}
	301
	302	void xt_print( struct xt_node *node )
	303	{
	304	int i;
	305	struct xt_node *c;
	306
	307	/* Indentation */
	308	for( c = node; c->parent; c = c->parent )
	309	printf( "\t" );
	310
	311	/* Start the tag */
	312	printf( "<%s", node->name );
	313
	314	/* Print the attributes */
	315	for( i = 0; node->attr[i].key; i ++ )
	316	printf( " %s=\"%s\"", node->attr[i].key, g_markup_escape_text( node->attr[i].value, -1 ) );
	317
	318	/* /> in case there's really nothing inside this tag, otherwise
	319	just >. */
	320	/* If this tag doesn't have any content at all... */
	321	if( node->text == NULL && node->children == NULL )
	322	{
	323	printf( "/>\n" );
	324	return;
	325	/* Then we're finished! */
	326	}
	327
	328	/* Otherwise... */
	329	printf( ">" );
	330
	331	/* Only print the text if it contains more than whitespace (TEST). */
	332	if( node->text_len > 0 )
	333	{
	334	for( i = 0; node->text[i] && isspace( node->text[i] ); i ++ );
	335	if( node->text[i] )
	336	printf( "%s", g_markup_escape_text( node->text, -1 ) );
	337	}
	338
	339	if( node->children )
	340	printf( "\n" );
	341
	342	for( c = node->children; c; c = c->next )
	343	xt_print( c );
	344
	345	if( node->children )
	346	for( c = node; c->parent; c = c->parent )
	347	printf( "\t" );
	348
	349	/* Non-empty tag is now finished. */
	350	printf( "</%s>\n", node->name );
	351	}
	352
	353	/* Frees a node. This doesn't clean up references to itself from parents! */
	354	void xt_free_node( struct xt_node *node )
	355	{
	356	int i;
	357
[21167d2]	358	if( !node )
	359	return;
	360
[8f243ad]	361	g_free( node->name );
	362	g_free( node->text );
	363
	364	for( i = 0; node->attr[i].key; i ++ )
	365	{
	366	g_free( node->attr[i].key );
	367	g_free( node->attr[i].value );
	368	}
	369	g_free( node->attr );
	370
	371	while( node->children )
	372	{
	373	struct xt_node *next = node->children->next;
	374
	375	xt_free_node( node->children );
	376	node->children = next;
	377	}
	378
	379	g_free( node );
	380	}
	381
	382	void xt_free( struct xt_parser *xt )
	383	{
[21167d2]	384	if( !xt )
	385	return;
	386
[8f243ad]	387	if( xt->root )
	388	xt_free_node( xt->root );
	389
	390	g_markup_parse_context_free( xt->parser );
	391
	392	g_free( xt );
	393	}
	394
	395	/* To find a node's child with a specific name, pass the node's children
	396	list, not the node itself! The reason you have to do this by hand: So
	397	that you can also use this function as a find-next. */
	398	struct xt_node xt_find_node( struct xt_node node, char *name )
	399	{
	400	while( node )
	401	{
	402	if( g_strcasecmp( node->name, name ) == 0 )
	403	break;
	404
	405	node = node->next;
	406	}
	407
	408	return node;
	409	}
	410
	411	char xt_find_attr( struct xt_node node, char *key )
	412	{
	413	int i;
	414
[21167d2]	415	if( !node )
	416	return NULL;
	417
[8f243ad]	418	for( i = 0; node->attr[i].key; i ++ )
	419	if( g_strcasecmp( node->attr[i].key, key ) == 0 )
	420	break;
	421
	422	return node->attr[i].value;
	423	}
	424
	425	struct xt_node xt_new_node( char name, char text, struct xt_node children )
	426	{
	427	struct xt_node node, c;
	428
	429	node = g_new0( struct xt_node, 1 );
	430	node->name = g_strdup( name );
	431	node->children = children;
	432	node->attr = g_new0( struct xt_attr, 1 );
	433
	434	if( text )
	435	{
	436	node->text_len = strlen( text );
	437	node->text = g_memdup( text, node->text_len );
	438	}
	439
	440	for( c = children; c; c = c->next )
	441	{
	442	if( c->parent != NULL )
	443	{
	444	/* ERROR CONDITION: They seem to have a parent already??? */
	445	}
	446
	447	c->parent = node;
	448	}
	449
	450	return node;
	451	}
	452
	453	void xt_add_child( struct xt_node parent, struct xt_node child )
	454	{
	455	struct xt_node *node;
	456
	457	/* This function can actually be used to add more than one child, so
	458	do handle this properly. */
	459	for( node = child; node; node = node->next )
	460	{
	461	if( node->parent != NULL )
	462	{
	463	/* ERROR CONDITION: They seem to have a parent already??? */
	464	}
	465
	466	node->parent = parent;
	467	}
	468
	469	if( parent->children == NULL )
	470	{
	471	parent->children = child;
	472	}
	473	else
	474	{
	475	for( node = parent->children; node->next; node = node->next );
	476	node->next = child;
	477	}
	478	}
	479
	480	void xt_add_attr( struct xt_node node, char key, char *value )
	481	{
	482	int i;
	483
	484	for( i = 0; node->attr[i].key; i ++ );
	485	node->attr = g_renew( struct xt_attr, node->attr, i + 2 );
	486	node->attr[i].key = g_strdup( key );
	487	node->attr[i].value = g_strdup( value );
	488	node->attr[i+1].key = NULL;
	489	}

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