/***************************************************************************\ * * * BitlBee - An IRC to IM gateway * * Jabber module - Misc. stuff * * * * Copyright 2006 Wilmer van der Gaast * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License along * * with this program; if not, write to the Free Software Foundation, Inc., * * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * * \***************************************************************************/ #include "jabber.h" static unsigned int next_id = 1; char *set_eval_priority( set_t *set, char *value ) { account_t *acc = set->data; int i; if( sscanf( value, "%d", &i ) == 1 ) { /* Priority is a signed 8-bit integer, according to RFC 3921. */ if( i < -128 || i > 127 ) return NULL; } else return NULL; /* Only run this stuff if the account is online ATM, and if the setting seems to be acceptable. */ if( acc->ic ) { /* Although set_eval functions usually are very nice and convenient, they have one disadvantage: If I would just call p_s_u() now to send the new prio setting, it would send the old setting because the set->value gets changed after the (this) eval returns a non-NULL value. So now I can choose between implementing post-set functions next to evals, or just do this little hack: */ g_free( set->value ); set->value = g_strdup( value ); /* (Yes, sorry, I prefer the hack. :-P) */ presence_send_update( acc->ic ); } return value; } char *set_eval_tls( set_t *set, char *value ) { if( g_strcasecmp( value, "try" ) == 0 ) return value; else return set_eval_bool( set, value ); } struct xt_node *jabber_make_packet( char *name, char *type, char *to, struct xt_node *children ) { struct xt_node *node; node = xt_new_node( name, NULL, children ); if( type ) xt_add_attr( node, "type", type ); if( to ) xt_add_attr( node, "to", to ); /* IQ packets should always have an ID, so let's generate one. It might get overwritten by jabber_cache_add() if this packet has to be saved until we receive a response. Cached packets get slightly different IDs so we can recognize them. */ if( strcmp( name, "iq" ) == 0 ) { char *id = g_strdup_printf( "%s%05x", JABBER_PACKET_ID, ( next_id++ ) & 0xfffff ); xt_add_attr( node, "id", id ); g_free( id ); } return node; } struct xt_node *jabber_make_error_packet( struct xt_node *orig, char *err_cond, char *err_type ) { struct xt_node *node, *c; char *to; /* Create the "defined-condition" tag. */ c = xt_new_node( err_cond, NULL, NULL ); xt_add_attr( c, "xmlns", XMLNS_STANZA_ERROR ); /* Put it in an tag. */ c = xt_new_node( "error", NULL, c ); xt_add_attr( c, "type", err_type ); /* To make the actual error packet, we copy the original packet and add our /type="error" tag. Including the original packet is recommended, so let's just do it. */ node = xt_dup( orig ); xt_add_child( node, c ); xt_add_attr( node, "type", "error" ); /* Return to sender. */ if( ( to = xt_find_attr( node, "from" ) ) ) { xt_add_attr( node, "to", to ); xt_remove_attr( node, "from" ); } return node; } /* Cache a node/packet for later use. Mainly useful for IQ packets if you need them when you receive the response. Use this BEFORE sending the packet so it'll get a new id= tag, and do NOT free() the packet after sending it! */ void jabber_cache_add( struct im_connection *ic, struct xt_node *node, jabber_cache_event func ) { struct jabber_data *jd = ic->proto_data; char *id = g_strdup_printf( "%s%05x", JABBER_CACHED_ID, ( next_id++ ) & 0xfffff ); struct jabber_cache_entry *entry = g_new0( struct jabber_cache_entry, 1 ); xt_add_attr( node, "id", id ); g_free( id ); entry->node = node; entry->func = func; g_hash_table_insert( jd->node_cache, xt_find_attr( node, "id" ), entry ); } void jabber_cache_entry_free( gpointer data ) { struct jabber_cache_entry *entry = data; xt_free_node( entry->node ); g_free( entry ); } gboolean jabber_cache_clean_entry( gpointer key, gpointer entry, gpointer nullpointer ); /* This one should be called from time to time (from keepalive, in this case) to make sure things don't stay in the node cache forever. By marking nodes during the first run and deleting marked nodes during a next run, every node should be available in the cache for at least a minute (assuming the function is indeed called every minute). */ void jabber_cache_clean( struct im_connection *ic ) { struct jabber_data *jd = ic->proto_data; g_hash_table_foreach_remove( jd->node_cache, jabber_cache_clean_entry, NULL ); } gboolean jabber_cache_clean_entry( gpointer key, gpointer entry_, gpointer nullpointer ) { struct jabber_cache_entry *entry = entry_; struct xt_node *node = entry->node; if( node->flags & XT_SEEN ) return TRUE; else { node->flags |= XT_SEEN; return FALSE; } } const struct jabber_away_state jabber_away_state_list[] = { { "away", "Away" }, { "chat", "Free for Chat" }, { "dnd", "Do not Disturb" }, { "xa", "Extended Away" }, { "", "Online" }, { "", NULL } }; const struct jabber_away_state *jabber_away_state_by_code( char *code ) { int i; for( i = 0; jabber_away_state_list[i].full_name; i ++ ) if( g_strcasecmp( jabber_away_state_list[i].code, code ) == 0 ) return jabber_away_state_list + i; return NULL; } const struct jabber_away_state *jabber_away_state_by_name( char *name ) { int i; for( i = 0; jabber_away_state_list[i].full_name; i ++ ) if( g_strcasecmp( jabber_away_state_list[i].full_name, name ) == 0 ) return jabber_away_state_list + i; return NULL; } struct jabber_buddy_ask_data { struct im_connection *ic; char *handle; char *realname; }; static void jabber_buddy_ask_yes( gpointer w, struct jabber_buddy_ask_data *bla ) { presence_send_request( bla->ic, bla->handle, "subscribed" ); if( imcb_find_buddy( bla->ic, bla->handle ) == NULL ) imcb_ask_add( bla->ic, bla->handle, NULL ); g_free( bla->handle ); g_free( bla ); } static void jabber_buddy_ask_no( gpointer w, struct jabber_buddy_ask_data *bla ) { presence_send_request( bla->ic, bla->handle, "subscribed" ); g_free( bla->handle ); g_free( bla ); } void jabber_buddy_ask( struct im_connection *ic, char *handle ) { struct jabber_buddy_ask_data *bla = g_new0( struct jabber_buddy_ask_data, 1 ); char *buf; bla->ic = ic; bla->handle = g_strdup( handle ); buf = g_strdup_printf( "The user %s wants to add you to his/her buddy list.", handle ); imcb_ask( ic, buf, bla, jabber_buddy_ask_yes, jabber_buddy_ask_no ); g_free( buf ); } /* Returns a new string. Don't leak it! */ char *jabber_normalize( const char *orig ) { int len, i; char *new; len = strlen( orig ); new = g_new( char, len + 1 ); for( i = 0; i < len; i ++ ) new[i] = tolower( orig[i] ); new[i] = 0; return new; } /* Adds a buddy/resource to our list. Returns NULL if full_jid is not really a FULL jid or if we already have this buddy/resource. XXX: No, great, actually buddies from transports don't (usually) have resources. So we'll really have to deal with that properly. Set their ->resource property to NULL. Do *NOT* allow to mix this stuff, though... */ struct jabber_buddy *jabber_buddy_add( struct im_connection *ic, char *full_jid_ ) { struct jabber_data *jd = ic->proto_data; struct jabber_buddy *bud, *new, *bi; char *s, *full_jid; full_jid = jabber_normalize( full_jid_ ); if( ( s = strchr( full_jid, '/' ) ) ) *s = 0; new = g_new0( struct jabber_buddy, 1 ); if( ( bud = g_hash_table_lookup( jd->buddies, full_jid ) ) ) { /* If this is a transport buddy or whatever, it can't have more than one instance, so this is always wrong: */ if( s == NULL || bud->resource == NULL ) { if( s ) *s = '/'; g_free( new ); g_free( full_jid ); return NULL; } new->bare_jid = bud->bare_jid; /* We already have another resource for this buddy, add the new one to the list. */ for( bi = bud; bi; bi = bi->next ) { /* Check for dupes. */ if( g_strcasecmp( bi->resource, s + 1 ) == 0 ) { *s = '/'; g_free( new ); g_free( full_jid ); return NULL; } /* Append the new item to the list. */ else if( bi->next == NULL ) { bi->next = new; break; } } } else { /* Keep in mind that full_jid currently isn't really a full JID... */ new->bare_jid = g_strdup( full_jid ); g_hash_table_insert( jd->buddies, new->bare_jid, new ); } if( s ) { *s = '/'; new->full_jid = full_jid; new->resource = strchr( new->full_jid, '/' ) + 1; } else { /* Let's waste some more bytes of RAM instead of to make memory management a total disaster here. And it saves me one g_free() call in this function. :-P */ new->full_jid = full_jid; } return new; } /* Finds a buddy from our structures. Can find both full- and bare JIDs. When asked for a bare JID, it uses the "resource_select" setting to see which resource to pick. */ struct jabber_buddy *jabber_buddy_by_jid( struct im_connection *ic, char *jid_, get_buddy_flags_t flags ) { struct jabber_data *jd = ic->proto_data; struct jabber_buddy *bud; char *s, *jid; jid = jabber_normalize( jid_ ); if( ( s = strchr( jid, '/' ) ) ) { int none_found = 0; *s = 0; if( ( bud = g_hash_table_lookup( jd->buddies, jid ) ) ) { /* Is this one of those no-resource buddies? */ if( bud->resource == NULL ) { g_free( jid ); return NULL; } else { /* See if there's an exact match. */ for( ; bud; bud = bud->next ) if( g_strcasecmp( bud->resource, s + 1 ) == 0 ) break; } } else { /* This hack is there to make sure that O_CREAT will work if there's already another resouce present for this JID, even if it's an unknown buddy. This is done to handle conferences properly. */ none_found = 1; } if( bud == NULL && ( flags & GET_BUDDY_CREAT ) && ( imcb_find_buddy( ic, jid ) || !none_found ) ) { *s = '/'; bud = jabber_buddy_add( ic, jid ); } g_free( jid ); return bud; } else { struct jabber_buddy *best_prio, *best_time; char *set; bud = g_hash_table_lookup( jd->buddies, jid ); g_free( jid ); if( bud == NULL ) /* No match. Create it now? */ return ( ( flags & GET_BUDDY_CREAT ) && imcb_find_buddy( ic, jid_ ) ) ? jabber_buddy_add( ic, jid_ ) : NULL; else if( bud->resource && ( flags & GET_BUDDY_EXACT ) ) /* We want an exact match, so in thise case there shouldn't be a /resource. */ return NULL; else if( ( bud->resource == NULL || bud->next == NULL ) ) /* No need for selection if there's only one option. */ return bud; best_prio = best_time = bud; for( ; bud; bud = bud->next ) { if( bud->priority > best_prio->priority ) best_prio = bud; if( bud->last_act > best_time->last_act ) best_time = bud; } if( ( set = set_getstr( &ic->acc->set, "resource_select" ) ) == NULL ) return NULL; else if( strcmp( set, "activity" ) == 0 ) return best_time; else /* if( strcmp( set, "priority" ) == 0 ) */ return best_prio; } } /* I'm keeping a separate ext_jid attribute to save a JID that makes sense to export to BitlBee. This is mainly for groupchats right now. It's a bit of a hack, but I just think having the user nickname in the hostname part of the hostmask doesn't look nice on IRC. Normally you can convert a normal JID to ext_jid by swapping the part before and after the / and replacing the / with a =. But there should be some stripping (@s are allowed in Jabber nicks...). */ struct jabber_buddy *jabber_buddy_by_ext_jid( struct im_connection *ic, char *jid_, get_buddy_flags_t flags ) { struct jabber_buddy *bud; char *s, *jid; jid = jabber_normalize( jid_ ); if( ( s = strchr( jid, '=' ) ) == NULL ) return NULL; for( bud = jabber_buddy_by_jid( ic, s + 1, GET_BUDDY_FIRST ); bud; bud = bud->next ) { /* Hmmm, could happen if not all people in the chat are anonymized? */ if( bud->ext_jid == NULL ) continue; if( strcmp( bud->ext_jid, jid ) == 0 ) break; } g_free( jid ); return bud; } /* Remove one specific full JID from our list. Use this when a buddy goes off-line (because (s)he can still be online from a different location. XXX: See above, we should accept bare JIDs too... */ int jabber_buddy_remove( struct im_connection *ic, char *full_jid_ ) { struct jabber_data *jd = ic->proto_data; struct jabber_buddy *bud, *prev, *bi; char *s, *full_jid; full_jid = jabber_normalize( full_jid_ ); if( ( s = strchr( full_jid, '/' ) ) ) *s = 0; if( ( bud = g_hash_table_lookup( jd->buddies, full_jid ) ) ) { /* If there's only one item in the list (and if the resource matches), removing it is simple. (And the hash reference should be removed too!) */ if( bud->next == NULL && ( ( s == NULL || bud->resource == NULL ) || g_strcasecmp( bud->resource, s + 1 ) == 0 ) ) { g_hash_table_remove( jd->buddies, bud->bare_jid ); g_free( bud->bare_jid ); g_free( bud->ext_jid ); g_free( bud->full_jid ); g_free( bud->away_message ); g_free( bud ); g_free( full_jid ); return 1; } else if( s == NULL || bud->resource == NULL ) { /* Tried to remove a bare JID while this JID does seem to have resources... (Or the opposite.) *sigh* */ g_free( full_jid ); return 0; } else { for( bi = bud, prev = NULL; bi; bi = (prev=bi)->next ) if( g_strcasecmp( bi->resource, s + 1 ) == 0 ) break; g_free( full_jid ); if( bi ) { if( prev ) prev->next = bi->next; else /* The hash table should point at the second item, because we're removing the first. */ g_hash_table_replace( jd->buddies, bi->bare_jid, bi->next ); g_free( bi->ext_jid ); g_free( bi->full_jid ); g_free( bi->away_message ); g_free( bi ); return 1; } else { return 0; } } } else { g_free( full_jid ); return 0; } } /* Remove a buddy completely; removes all resources that belong to the specified bare JID. Use this when removing someone from the contact list, for example. */ int jabber_buddy_remove_bare( struct im_connection *ic, char *bare_jid_ ) { struct jabber_data *jd = ic->proto_data; struct jabber_buddy *bud, *next; char *bare_jid; if( strchr( bare_jid_, '/' ) ) return 0; bare_jid = jabber_normalize( bare_jid_ ); if( ( bud = g_hash_table_lookup( jd->buddies, bare_jid ) ) ) { /* Most important: Remove the hash reference. We don't know this buddy anymore. */ g_hash_table_remove( jd->buddies, bud->bare_jid ); /* Deallocate the linked list of resources. */ while( bud ) { next = bud->next; g_free( bud->ext_jid ); g_free( bud->full_jid ); g_free( bud->away_message ); g_free( bud ); bud = next; } g_free( bare_jid ); return 1; } else { g_free( bare_jid ); return 0; } } struct groupchat *jabber_chat_by_name( struct im_connection *ic, const char *name ) { char *normalized = jabber_normalize( name ); struct groupchat *ret; struct jabber_chat *jc; for( ret = ic->groupchats; ret; ret = ret->next ) { jc = ret->data; if( strcmp( normalized, jc->name ) == 0 ) break; } g_free( normalized ); return ret; } time_t jabber_get_timestamp( struct xt_node *xt ) { struct tm tp, utc; struct xt_node *c; time_t res, tres; char *s = NULL; for( c = xt->children; ( c = xt_find_node( c, "x" ) ); c = c->next ) { if( ( s = xt_find_attr( c, "xmlns" ) ) && strcmp( s, XMLNS_DELAY ) == 0 ) break; } if( !c || !( s = xt_find_attr( c, "stamp" ) ) ) return 0; memset( &tp, 0, sizeof( tp ) ); if( sscanf( s, "%4d%2d%2dT%2d:%2d:%2d", &tp.tm_year, &tp.tm_mon, &tp.tm_mday, &tp.tm_hour, &tp.tm_min, &tp.tm_sec ) != 6 ) return 0; tp.tm_year -= 1900; tp.tm_mon --; tp.tm_isdst = -1; /* GRRRRRRRRRRR */ res = mktime( &tp ); /* Problem is, mktime() just gave us the GMT timestamp for the given local time... While the given time WAS NOT local. So we should fix this now. Now I could choose between messing with environment variables (kludgy) or using timegm() (not portable)... Or doing the following, which I actually prefer... */ gmtime_r( &res, &utc ); utc.tm_isdst = -1; /* Once more: GRRRRRRRRRRRRRRRRRR!!! */ if( utc.tm_hour == tp.tm_hour && utc.tm_min == tp.tm_min ) /* Sweet! We're in UTC right now... */ return res; tres = mktime( &utc ); res += res - tres; /* Yes, this is a hack. And it will go wrong around DST changes. BUT this is more likely to be threadsafe than messing with environment variables, and possibly more portable... */ return res; }