/* * Purple's oscar protocol plugin * This file is the legal property of its developers. * Please see the AUTHORS file distributed alongside this file. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111-1301 USA */ /* * Family 0x0001 - This is a very special group. All connections support * this group, as it does some particularly good things (like rate limiting). */ #include "oscar.h" #include "cipher.h" /* * Each time we make a FLAP connection to an oscar server the server gives * us a list of rate classes. Each rate class has different properties for * how frequently we can send SNACs in that rate class before we become * throttled or disconnected. * * The server also gives us a list of every available SNAC and tells us which * rate class it's in. There are a lot of different SNACs, so this list can be * fairly large. One important characteristic of these rate classes is that * currently (and since at least 2004) most SNACs are in the same rate class. * * One optimization we can do to save memory is to only keep track of SNACs * that are in classes other than this default rate class. So if we try to * look up a SNAC and it's not in our hash table then we can assume that it's * in the default rate class. */ #define OSCAR_DEFAULT_RATECLASS 1 /* Subtype 0x0002 - Client Online */ void aim_srv_clientready(OscarData *od, FlapConnection *conn) { ByteStream bs; aim_snacid_t snacid; GSList *cur; byte_stream_new(&bs, 1142); /* * Send only the tool versions that the server cares about (that it * marked as supporting in the server ready SNAC). */ for (cur = conn->groups; cur != NULL; cur = cur->next) { aim_module_t *mod; if ((mod = aim__findmodulebygroup(od, GPOINTER_TO_UINT(cur->data)))) { byte_stream_put16(&bs, mod->family); byte_stream_put16(&bs, mod->version); byte_stream_put16(&bs, mod->toolid); byte_stream_put16(&bs, mod->toolversion); } } snacid = aim_cachesnac(od, SNAC_FAMILY_OSERVICE, 0x0002, 0x0000, NULL, 0); flap_connection_send_snac(od, conn, SNAC_FAMILY_OSERVICE, 0x0002, snacid, &bs); byte_stream_destroy(&bs); } /* * Subtype 0x0003 - Host Online * * See comments in conn.c about how the group associations are supposed * to work, and how they really work. * * This info probably doesn't even need to make it to the client. * * We don't actually call the client here. This starts off the connection * initialization routine required by all AIM connections. The next time * the client is called is the CONNINITDONE callback, which should be * shortly after the rate information is acknowledged. * */ static int hostonline(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { int group; while (byte_stream_bytes_left(bs)) { group = byte_stream_get16(bs); conn->groups = g_slist_prepend(conn->groups, GUINT_TO_POINTER(group)); } /* * Next step is in the Host Versions handler. * * Note that we must send this before we request rates, since * the format of the rate information depends on the versions we * give it. * */ aim_srv_setversions(od, conn); return 1; } /* Subtype 0x0004 - Service request */ void aim_srv_requestnew(OscarData *od, guint16 serviceid) { FlapConnection *conn; ByteStream bs; aim_snacid_t snacid; GSList *tlvlist = NULL; conn = flap_connection_findbygroup(od, SNAC_FAMILY_BOS); if(!conn) return; byte_stream_new(&bs, 6); byte_stream_put16(&bs, serviceid); if (od->use_ssl) /* Request SSL Connection */ aim_tlvlist_add_noval(&tlvlist, 0x008c); aim_tlvlist_write(&bs, &tlvlist); aim_tlvlist_free(tlvlist); snacid = aim_cachesnac(od, SNAC_FAMILY_OSERVICE, 0x0004, 0x0000, NULL, 0); flap_connection_send_snac(od, conn, SNAC_FAMILY_OSERVICE, 0x0004, snacid, &bs); byte_stream_destroy(&bs); } /* * Join a room of name roomname. This is the first step to joining an * already created room. It's basically a Service Request for * family 0x000e, with a little added on to specify the exchange and room * name. */ int aim_chat_join(OscarData *od, guint16 exchange, const char *roomname, guint16 instance) { FlapConnection *conn; ByteStream bs; aim_snacid_t snacid; GSList *tlvlist = NULL; struct chatsnacinfo csi; conn = flap_connection_findbygroup(od, SNAC_FAMILY_BOS); if (!conn || !roomname || roomname[0] == '\0') return -EINVAL; byte_stream_new(&bs, 506); memset(&csi, 0, sizeof(csi)); csi.exchange = exchange; g_strlcpy(csi.name, roomname, sizeof(csi.name)); csi.instance = instance; /* * Requesting service chat (0x000e) */ byte_stream_put16(&bs, 0x000e); aim_tlvlist_add_chatroom(&tlvlist, 0x0001, exchange, roomname, instance); if (od->use_ssl) /* Request SSL Connection */ aim_tlvlist_add_noval(&tlvlist, 0x008c); aim_tlvlist_write(&bs, &tlvlist); aim_tlvlist_free(tlvlist); snacid = aim_cachesnac(od, SNAC_FAMILY_OSERVICE, 0x0004, 0x0000, &csi, sizeof(csi)); flap_connection_send_snac(od, conn, SNAC_FAMILY_OSERVICE, 0x0004, snacid, &bs); byte_stream_destroy(&bs); return 0; } /* Subtype 0x0005 - Redirect */ static int redirect(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { struct aim_redirect_data redir; aim_rxcallback_t userfunc; GSList *tlvlist; aim_snac_t *origsnac = NULL; int ret = 0; memset(&redir, 0, sizeof(redir)); tlvlist = aim_tlvlist_read(bs); if (!aim_tlv_gettlv(tlvlist, 0x000d, 1) || !aim_tlv_gettlv(tlvlist, 0x0005, 1) || !aim_tlv_gettlv(tlvlist, 0x0006, 1)) { aim_tlvlist_free(tlvlist); return 0; } redir.group = aim_tlv_get16(tlvlist, 0x000d, 1); redir.ip = aim_tlv_getstr(tlvlist, 0x0005, 1); redir.cookielen = aim_tlv_gettlv(tlvlist, 0x0006, 1)->length; redir.cookie = (guchar *)aim_tlv_getstr(tlvlist, 0x0006, 1); redir.ssl_cert_cn = aim_tlv_getstr(tlvlist, 0x008d, 1); redir.use_ssl = aim_tlv_get8(tlvlist, 0x008e, 1); /* Fetch original SNAC so we can get csi if needed */ origsnac = aim_remsnac(od, snac->id); if ((redir.group == SNAC_FAMILY_CHAT) && origsnac) { struct chatsnacinfo *csi = (struct chatsnacinfo *)origsnac->data; redir.chat.exchange = csi->exchange; redir.chat.room = csi->name; redir.chat.instance = csi->instance; } if ((userfunc = aim_callhandler(od, snac->family, snac->subtype))) ret = userfunc(od, conn, frame, &redir); g_free((void *)redir.ip); g_free((void *)redir.cookie); g_free((void *)redir.ssl_cert_cn); if (origsnac) g_free(origsnac->data); g_free(origsnac); aim_tlvlist_free(tlvlist); return ret; } /* Subtype 0x0006 - Request Rate Information. */ void aim_srv_reqrates(OscarData *od, FlapConnection *conn) { aim_genericreq_n_snacid(od, conn, SNAC_FAMILY_OSERVICE, 0x0006); } /* * OSCAR defines several 'rate classes'. Each class has separate * rate limiting properties (limit level, alert level, disconnect * level, etc), and a set of SNAC family/type pairs associated with * it. The rate classes, their limiting properties, and the definitions * of which SNACs belong to which class are defined in the * Rate Response packet at login to each host. * * Logically, all rate offenses within one class count against further * offenses for other SNACs in the same class (ie, sending messages * too fast will limit the number of user info requests you can send, * since those two SNACs are in the same rate class). * * Since the rate classes are defined dynamically at login, the values * below may change. But they seem to be fairly constant. * * Currently, BOS defines five rate classes, with the commonly used * members as follows... * * Rate class 0x0001: * - Everything thats not in any of the other classes * * Rate class 0x0002: * - Buddy list add/remove * - Permit list add/remove * - Deny list add/remove * * Rate class 0x0003: * - User information requests * - Outgoing ICBMs * * Rate class 0x0004: * - A few unknowns: 2/9, 2/b, and f/2 * * Rate class 0x0005: * - Chat room create * - Outgoing chat ICBMs * * The only other thing of note is that class 5 (chat) has slightly looser * limiting properties than class 3 (normal messages). But thats just a * small bit of trivia for you. * * The last thing that needs to be learned about the rate limiting * system is how the actual numbers relate to the passing of time. This * seems to be a big mystery. * * See joscar's javadoc for the RateClassInfo class for a great * explanation. You might be able to find it at * http://dscoder.com/RateClassInfo.html */ static struct rateclass * rateclass_find(GSList *rateclasses, guint16 id) { GSList *tmp; for (tmp = rateclasses; tmp != NULL; tmp = tmp->next) { struct rateclass *rateclass; rateclass = tmp->data; if (rateclass->classid == id) return rateclass; } return NULL; } /* Subtype 0x0007 - Rate Parameters */ static int rateresp(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { guint16 numclasses, i; aim_rxcallback_t userfunc; /* * First are the parameters for each rate class. */ numclasses = byte_stream_get16(bs); for (i = 0; i < numclasses; i++) { struct rateclass *rateclass; guint32 delta; struct timeval now; gettimeofday(&now, NULL); rateclass = g_new(struct rateclass, 1); rateclass->classid = byte_stream_get16(bs); rateclass->windowsize = byte_stream_get32(bs); rateclass->clear = byte_stream_get32(bs); rateclass->alert = byte_stream_get32(bs); rateclass->limit = byte_stream_get32(bs); rateclass->disconnect = byte_stream_get32(bs); rateclass->current = byte_stream_get32(bs); rateclass->max = byte_stream_get32(bs); if (mod->version >= 3) { delta = byte_stream_get32(bs); rateclass->dropping_snacs = byte_stream_get8(bs); } else { delta = 0; rateclass->dropping_snacs = 0; } rateclass->last.tv_sec = now.tv_sec - delta / 1000; rateclass->last.tv_usec = now.tv_usec - (delta % 1000) * 1000; conn->rateclasses = g_slist_prepend(conn->rateclasses, rateclass); if (rateclass->classid == OSCAR_DEFAULT_RATECLASS) conn->default_rateclass = rateclass; } conn->rateclasses = g_slist_reverse(conn->rateclasses); /* * Then the members of each class. */ for (i = 0; i < numclasses; i++) { guint16 classid, count; struct rateclass *rateclass; int j; classid = byte_stream_get16(bs); count = byte_stream_get16(bs); if (classid == OSCAR_DEFAULT_RATECLASS) { /* * Don't bother adding these SNACs to the hash table. See the * comment for OSCAR_DEFAULT_RATECLASS at the top of this file. */ byte_stream_advance(bs, 4 * count); continue; } rateclass = rateclass_find(conn->rateclasses, classid); for (j = 0; j < count; j++) { guint16 group, subtype; group = byte_stream_get16(bs); subtype = byte_stream_get16(bs); if (rateclass != NULL) g_hash_table_insert(conn->rateclass_members, GUINT_TO_POINTER((group << 16) + subtype), rateclass); } } /* * We don't pass the rate information up to the client, as it really * doesn't care. The information is stored in the connection, however * so that we can do rate limiting management when sending SNACs. */ /* * Subscribe to rate change information for all rate classes. */ aim_srv_rates_addparam(od, conn); /* * Finally, tell the client it's ready to go... */ if ((userfunc = aim_callhandler(od, AIM_CB_FAM_SPECIAL, AIM_CB_SPECIAL_CONNINITDONE))) userfunc(od, conn, frame); return 1; } /* Subtype 0x0008 - Add Rate Parameter */ void aim_srv_rates_addparam(OscarData *od, FlapConnection *conn) { ByteStream bs; aim_snacid_t snacid; GSList *tmp; byte_stream_new(&bs, 502); for (tmp = conn->rateclasses; tmp != NULL; tmp = tmp->next) { struct rateclass *rateclass; rateclass = tmp->data; byte_stream_put16(&bs, rateclass->classid); } snacid = aim_cachesnac(od, SNAC_FAMILY_OSERVICE, 0x0008, 0x0000, NULL, 0); flap_connection_send_snac(od, conn, SNAC_FAMILY_OSERVICE, 0x0008, snacid, &bs); byte_stream_destroy(&bs); } /* Subtype 0x000a - Rate Change */ static int ratechange(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { guint16 code, classid; struct rateclass *rateclass; guint32 delta; struct timeval now; static const char *codes[5] = { "invalid", "change", "warning", "limit", "limit cleared", }; gettimeofday(&now, NULL); code = byte_stream_get16(bs); classid = byte_stream_get16(bs); rateclass = rateclass_find(conn->rateclasses, classid); if (rateclass == NULL) /* This should never really happen */ return 0; rateclass->windowsize = byte_stream_get32(bs); rateclass->clear = byte_stream_get32(bs); rateclass->alert = byte_stream_get32(bs); rateclass->limit = byte_stream_get32(bs); rateclass->disconnect = byte_stream_get32(bs); rateclass->current = byte_stream_get32(bs); rateclass->max = byte_stream_get32(bs); if (mod->version >= 3) { delta = byte_stream_get32(bs); rateclass->dropping_snacs = byte_stream_get8(bs); } else { delta = 0; rateclass->dropping_snacs = 0; } rateclass->last.tv_sec = now.tv_sec - delta / 1000; rateclass->last.tv_usec = now.tv_usec - (delta % 1000) * 1000; purple_debug_misc("oscar", "rate %s (param ID 0x%04hx): curavg = %u, " "maxavg = %u, alert at %u, clear warning at %u, limit at %u, " "disconnect at %u, delta is %u, dropping is %u (window size = %u)\n", (code < 5) ? codes[code] : codes[0], rateclass->classid, rateclass->current, rateclass->max, rateclass->alert, rateclass->clear, rateclass->limit, rateclass->disconnect, delta, rateclass->dropping_snacs, rateclass->windowsize); if (code == AIM_RATE_CODE_LIMIT) { purple_debug_warning("oscar", "The last action you attempted " "could not be performed because you are over the rate " "limit. Please wait 10 seconds and try again.\n"); } return 1; } /* * How Migrations work. * * The server sends a Server Pause message, which the client should respond to * with a Server Pause Ack, which contains the families it needs on this * connection. The server will send a Migration Notice with an IP address, and * then disconnect. Next the client should open the connection and send the * cookie. Repeat the normal login process and pretend this never happened. * * The Server Pause contains no data. * */ /* Subtype 0x000b - Service Pause */ static int serverpause(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { int ret = 0; aim_rxcallback_t userfunc; if ((userfunc = aim_callhandler(od, snac->family, snac->subtype))) ret = userfunc(od, conn, frame); return ret; } /* Subtype 0x000d - Service Resume */ static int serverresume(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { int ret = 0; aim_rxcallback_t userfunc; if ((userfunc = aim_callhandler(od, snac->family, snac->subtype))) ret = userfunc(od, conn, frame); return ret; } /* Subtype 0x000e - Request self-info */ void aim_srv_reqpersonalinfo(OscarData *od, FlapConnection *conn) { aim_genericreq_n_snacid(od, conn, SNAC_FAMILY_OSERVICE, 0x000e); } /* Subtype 0x000f - Self User Info */ static int selfinfo(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { int ret = 0; aim_rxcallback_t userfunc; aim_userinfo_t userinfo; aim_info_extract(od, bs, &userinfo); if ((userfunc = aim_callhandler(od, snac->family, snac->subtype))) ret = userfunc(od, conn, frame, &userinfo); aim_info_free(&userinfo); return ret; } /* Subtype 0x0010 - Evil Notification */ static int evilnotify(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { int ret = 0; aim_rxcallback_t userfunc; guint16 newevil; aim_userinfo_t userinfo; memset(&userinfo, 0, sizeof(aim_userinfo_t)); newevil = byte_stream_get16(bs); if (byte_stream_bytes_left(bs)) aim_info_extract(od, bs, &userinfo); if ((userfunc = aim_callhandler(od, snac->family, snac->subtype))) ret = userfunc(od, conn, frame, newevil, &userinfo); aim_info_free(&userinfo); return ret; } /* * Subtype 0x0011 - Idle Notification * * Should set your current idle time in seconds. Note that this should * never be called consecutively with a non-zero idle time. That makes * OSCAR do funny things. Instead, just set it once you go idle, and then * call it again with zero when you're back. * */ void aim_srv_setidle(OscarData *od, guint32 idletime) { FlapConnection *conn; conn = flap_connection_findbygroup(od, SNAC_FAMILY_BOS); if(!conn) return; aim_genericreq_l(od, conn, SNAC_FAMILY_OSERVICE, 0x0011, &idletime); } /* * Subtype 0x0012 - Service Migrate * * This is the final SNAC sent on the original connection during a migration. * It contains the IP and cookie used to connect to the new server, and * optionally a list of the SNAC groups being migrated. * */ static int migrate(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { aim_rxcallback_t userfunc; int ret = 0; guint16 groupcount, i; GSList *tlvlist; char *ip = NULL; aim_tlv_t *cktlv; /* * Apparently there's some fun stuff that can happen right here. The * migration can actually be quite selective about what groups it * moves to the new server. When not all the groups for a connection * are migrated, or they are all migrated but some groups are moved * to a different server than others, it is called a bifurcated * migration. * * Let's play dumb and not support that. * */ groupcount = byte_stream_get16(bs); for (i = 0; i < groupcount; i++) { guint16 group; group = byte_stream_get16(bs); purple_debug_misc("oscar", "bifurcated migration unsupported -- group 0x%04x\n", group); } tlvlist = aim_tlvlist_read(bs); if (aim_tlv_gettlv(tlvlist, 0x0005, 1)) ip = aim_tlv_getstr(tlvlist, 0x0005, 1); cktlv = aim_tlv_gettlv(tlvlist, 0x0006, 1); if ((userfunc = aim_callhandler(od, snac->family, snac->subtype))) ret = userfunc(od, conn, frame, ip, cktlv ? cktlv->value : NULL); aim_tlvlist_free(tlvlist); g_free(ip); return ret; } /* Subtype 0x0013 - Message of the Day */ static int motd(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { aim_rxcallback_t userfunc; char *msg = NULL; int ret = 0; GSList *tlvlist; guint16 id; /* * Code. * * Valid values: * 1 Mandatory upgrade * 2 Advisory upgrade * 3 System bulletin * 4 Nothing's wrong ("top o the world" -- normal) * 5 Lets-break-something. * */ id = byte_stream_get16(bs); /* * TLVs follow */ tlvlist = aim_tlvlist_read(bs); msg = aim_tlv_getstr(tlvlist, 0x000b, 1); if ((userfunc = aim_callhandler(od, snac->family, snac->subtype))) ret = userfunc(od, conn, frame, id, msg); g_free(msg); aim_tlvlist_free(tlvlist); return ret; } /* * Subtype 0x0017 - Set client versions * * If you've seen the clientonline/clientready SNAC you're probably * wondering what the point of this one is. And that point seems to be * that the versions in the client online SNAC are sent too late for the * server to be able to use them to change the protocol for the earlier * login packets (client versions are sent right after Host Online is * received, but client online versions aren't sent until quite a bit later). * We can see them already making use of this by changing the format of * the rate information based on what version of group 1 we advertise here. * */ void aim_srv_setversions(OscarData *od, FlapConnection *conn) { ByteStream bs; aim_snacid_t snacid; GSList *cur; byte_stream_new(&bs, 1142); /* * Send only the versions that the server cares about (that it * marked as supporting in the server ready SNAC). */ for (cur = conn->groups; cur != NULL; cur = cur->next) { aim_module_t *mod; if ((mod = aim__findmodulebygroup(od, GPOINTER_TO_UINT(cur->data)))) { byte_stream_put16(&bs, mod->family); byte_stream_put16(&bs, mod->version); } } snacid = aim_cachesnac(od, SNAC_FAMILY_OSERVICE, 0x0017, 0x0000, NULL, 0); flap_connection_send_snac(od, conn, SNAC_FAMILY_OSERVICE, 0x0017, snacid, &bs); byte_stream_destroy(&bs); } /* Subtype 0x0018 - Host versions */ static int hostversions(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { int vercount; guint8 *versions; /* This is frivolous. (Thank you SmarterChild.) */ vercount = byte_stream_bytes_left(bs)/4; /* XXX: vercount probably should be used for reading versions. */ (void)vercount; versions = byte_stream_getraw(bs, byte_stream_bytes_left(bs)); g_free(versions); /* * Now request rates. */ aim_srv_reqrates(od, conn); return 1; } /** * Subtype 0x001e - Extended Status/Extra Info. * * These settings are transient, not server-stored (i.e. they only * apply to this session, and must be re-set the next time you sign * on). * * You can set your ICQ status (available, away, do not disturb, * etc.), or whether your IP address should be hidden or not, or * if your status is visible on ICQ web sites, and you can set * your IP address info and what not. * * You can also set your "available" message. This is currently * only supported by iChat, Purple and other 3rd party clients. * * These are the same TLVs seen in user info. You can * also set 0x0008 and 0x000c. */ int aim_srv_setextrainfo(OscarData *od, gboolean seticqstatus, guint32 icqstatus, gboolean setstatusmsg, const char *statusmsg, const char *itmsurl) { FlapConnection *conn; ByteStream bs; aim_snacid_t snacid; GSList *tlvlist = NULL; if (!od || !(conn = flap_connection_findbygroup(od, SNAC_FAMILY_ICBM))) return -EINVAL; if (seticqstatus) { aim_tlvlist_add_32(&tlvlist, 0x0006, icqstatus | AIM_ICQ_STATE_HIDEIP | AIM_ICQ_STATE_DIRECTREQUIREAUTH); } if (setstatusmsg) { size_t statusmsglen, itmsurllen; ByteStream tmpbs; statusmsglen = (statusmsg != NULL) ? strlen(statusmsg) : 0; itmsurllen = (itmsurl != NULL) ? strlen(itmsurl) : 0; byte_stream_new(&tmpbs, statusmsglen + 8 + itmsurllen + 8); byte_stream_put_bart_asset_str(&tmpbs, 0x0002, statusmsg); byte_stream_put_bart_asset_str(&tmpbs, 0x0009, itmsurl); aim_tlvlist_add_raw(&tlvlist, 0x001d, byte_stream_curpos(&tmpbs), tmpbs.data); byte_stream_destroy(&tmpbs); } byte_stream_new(&bs, aim_tlvlist_size(tlvlist)); aim_tlvlist_write(&bs, &tlvlist); aim_tlvlist_free(tlvlist); snacid = aim_cachesnac(od, SNAC_FAMILY_OSERVICE, 0x001e, 0x0000, NULL, 0); flap_connection_send_snac(od, conn, SNAC_FAMILY_OSERVICE, 0x001e, snacid, &bs); byte_stream_destroy(&bs); return 0; } /* Send dummy DC (direct connect) information to the server. * Direct connect is ICQ's counterpart for AIM's DirectIM, * as far as I can tell. Anyway, we don't support it; * the reason to send this packet is that some clients * (Miranda, QIP) won't send us channel 2 ICBM messages * unless we specify DC version >= 8. * * See #12044 for more information. */ void aim_srv_set_dc_info(OscarData *od) { ByteStream bs, tlv0c; aim_snacid_t snacid; GSList *tlvlist = NULL; /* http://iserverd.khstu.ru/oscar/snac_01_1e.html has a nice analysis of what goes in 0xc tlv. * Kopete sends a dummy DC info, too, so I just copied the values from them. */ byte_stream_new(&tlv0c, 4*2 + 1 + 2 + 4*6 + 2); byte_stream_put32(&tlv0c, 0x0); byte_stream_put32(&tlv0c, 0x0); byte_stream_put8(&tlv0c, 0x0); /* We don't support DC */ byte_stream_put16(&tlv0c, 8); /* DC version */ byte_stream_put32(&tlv0c, 0x0); byte_stream_put32(&tlv0c, 0x50); byte_stream_put32(&tlv0c, 0x3); byte_stream_put32(&tlv0c, 0x0); byte_stream_put32(&tlv0c, 0x0); byte_stream_put32(&tlv0c, 0x0); byte_stream_put16(&tlv0c, 0x0); aim_tlvlist_add_raw(&tlvlist, 0x000c, byte_stream_curpos(&tlv0c), tlv0c.data); byte_stream_destroy(&tlv0c); byte_stream_new(&bs, aim_tlvlist_size(tlvlist)); aim_tlvlist_write(&bs, &tlvlist); aim_tlvlist_free(tlvlist); snacid = aim_cachesnac(od, SNAC_FAMILY_OSERVICE, 0x001e, 0x0000, NULL, 0); flap_connection_send_snac(od, flap_connection_findbygroup(od, SNAC_FAMILY_ICBM), SNAC_FAMILY_OSERVICE, 0x001e, snacid, &bs); byte_stream_destroy(&bs); } /* * Subtype 0x0021 - Receive our extended status * * This is used for iChat's "available" messages, and maybe ICQ extended * status messages? It's also used to tell the client whether or not it * needs to upload an SSI buddy icon... who engineers this stuff, anyway? */ static int aim_parse_extstatus(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { guint16 type = byte_stream_get16(bs); if (type == 0x0000 || type == 0x0001) { /* buddy icon checksum */ /* not sure what the difference between 1 and 0 is */ guint8 flags = byte_stream_get8(bs); guint8 length = byte_stream_get8(bs); guint8 *md5 = byte_stream_getraw(bs, length); if ((flags == 0x00) || (flags == 0x41)) { if (!flap_connection_getbytype(od, SNAC_FAMILY_BART) && !od->iconconnecting) { od->iconconnecting = TRUE; od->set_icon = TRUE; aim_srv_requestnew(od, SNAC_FAMILY_BART); } else { PurpleAccount *account = purple_connection_get_account(od->gc); PurpleStoredImage *img = purple_buddy_icons_find_account_icon(account); if (img == NULL) { aim_ssi_delicon(od); } else { purple_debug_info("oscar", "Uploading icon to icon server\n"); aim_bart_upload(od, purple_imgstore_get_data(img), purple_imgstore_get_size(img)); purple_imgstore_unref(img); } } } else if (flags == 0x81) { PurpleAccount *account = purple_connection_get_account(od->gc); PurpleStoredImage *img = purple_buddy_icons_find_account_icon(account); if (img == NULL) aim_ssi_delicon(od); else { aim_ssi_seticon(od, md5, length); purple_imgstore_unref(img); } } g_free(md5); } return 0; } static int snachandler(OscarData *od, FlapConnection *conn, aim_module_t *mod, FlapFrame *frame, aim_modsnac_t *snac, ByteStream *bs) { if (snac->subtype == 0x0003) return hostonline(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x0005) return redirect(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x0007) return rateresp(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x000a) return ratechange(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x000b) return serverpause(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x000d) return serverresume(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x000f) return selfinfo(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x0010) return evilnotify(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x0012) return migrate(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x0013) return motd(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x0018) return hostversions(od, conn, mod, frame, snac, bs); else if (snac->subtype == 0x0021) return aim_parse_extstatus(od, conn, mod, frame, snac, bs); return 0; } int service_modfirst(OscarData *od, aim_module_t *mod) { mod->family = SNAC_FAMILY_OSERVICE; mod->version = 0x0003; mod->toolid = 0x0110; mod->toolversion = 0x0629; mod->flags = 0; strncpy(mod->name, "oservice", sizeof(mod->name)); mod->snachandler = snachandler; return 0; }