/* * aim_login.c * * This contains all the functions needed to actually login. * */ #include #include "md5.h" static int aim_encode_password_md5(const char *password, const char *key, md5_byte_t *digest); /* * FIXME: Reimplement the TIS stuff. */ #ifdef TIS_TELNET_PROXY #include "tis_telnet_proxy.h" #endif faim_export int aim_sendconnack(struct aim_session_t *sess, struct aim_conn_t *conn) { int curbyte=0; struct command_tx_struct *newpacket; if (!(newpacket = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0001, conn, 4))) return -1; newpacket->lock = 1; curbyte += aimutil_put16(newpacket->data+curbyte, 0x0000); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0001); newpacket->lock = 0; return aim_tx_enqueue(sess, newpacket); } /* * In AIM 3.5 protocol, the first stage of login is to request * login from the Authorizer, passing it the screen name * for verification. If the name is invalid, a 0017/0003 * is spit back, with the standard error contents. If valid, * a 0017/0007 comes back, which is the signal to send * it the main login command (0017/0002). */ faim_export int aim_request_login(struct aim_session_t *sess, struct aim_conn_t *conn, char *sn) { int curbyte=0; struct command_tx_struct *newpacket; if (!(newpacket = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0002, conn, 10+2+2+strlen(sn)))) return -1; newpacket->lock = 1; curbyte += aim_putsnac(newpacket->data+curbyte, 0x0017, 0x0006, 0x0000, 0x00010000); curbyte += aim_puttlv_str(newpacket->data+curbyte, 0x0001, strlen(sn), sn); newpacket->lock = 0; return aim_tx_enqueue(sess, newpacket); } /* * send_login(int socket, char *sn, char *password) * * This is the initial login request packet. * * The password is encoded before transmition, as per * encode_password(). See that function for their * stupid method of doing it. * */ faim_export int aim_send_login (struct aim_session_t *sess, struct aim_conn_t *conn, char *sn, char *password, struct client_info_s *clientinfo, char *key) { int curbyte=0; md5_byte_t digest[16]; struct command_tx_struct *newpacket; if (!clientinfo || !sn || !password) return -1; if (!(newpacket = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0002, conn, 1152))) return -1; newpacket->lock = 1; newpacket->hdr.oscar.type = 0x02; curbyte = aim_putsnac(newpacket->data+curbyte, 0x0017, 0x0002, 0x0000, 0x00010000); curbyte+= aim_puttlv_str(newpacket->data+curbyte, 0x0001, strlen(sn), sn); aim_encode_password_md5(password, key, digest); curbyte+= aim_puttlv_str(newpacket->data+curbyte, 0x0025, 16, (char *)digest); /* XXX is clientstring required by oscar? */ if (strlen(clientinfo->clientstring)) curbyte += aim_puttlv_str(newpacket->data+curbyte, 0x0003, strlen(clientinfo->clientstring), clientinfo->clientstring); curbyte += aim_puttlv_16(newpacket->data+curbyte, 0x0016, (unsigned short)clientinfo->major2); curbyte += aim_puttlv_16(newpacket->data+curbyte, 0x0017, (unsigned short)clientinfo->major); curbyte += aim_puttlv_16(newpacket->data+curbyte, 0x0018, (unsigned short)clientinfo->minor); curbyte += aim_puttlv_16(newpacket->data+curbyte, 0x0019, (unsigned short)clientinfo->minor2); curbyte += aim_puttlv_16(newpacket->data+curbyte, 0x001a, (unsigned short)clientinfo->build); curbyte += aim_puttlv_32(newpacket->data+curbyte, 0x0014, clientinfo->unknown); curbyte += aim_puttlv_16(newpacket->data+curbyte, 0x0009, 0x0015); if (strlen(clientinfo->country)) curbyte += aim_puttlv_str(newpacket->data+curbyte, 0x000e, strlen(clientinfo->country), clientinfo->country); else curbyte += aim_puttlv_str(newpacket->data+curbyte, 0x000e, 2, "us"); if (strlen(clientinfo->lang)) curbyte += aim_puttlv_str(newpacket->data+curbyte, 0x000f, strlen(clientinfo->lang), clientinfo->lang); else curbyte += aim_puttlv_str(newpacket->data+curbyte, 0x000f, 2, "en"); newpacket->commandlen = curbyte; newpacket->lock = 0; return aim_tx_enqueue(sess, newpacket); } static int aim_encode_password_md5(const char *password, const char *key, md5_byte_t *digest) { md5_state_t state; md5_init(&state); md5_append(&state, (const md5_byte_t *)key, strlen(key)); md5_append(&state, (const md5_byte_t *)password, strlen(password)); md5_append(&state, (const md5_byte_t *)AIM_MD5_STRING, strlen(AIM_MD5_STRING)); md5_finish(&state, (md5_byte_t *)digest); return 0; } /* * int encode_password( * const char *password, * char *encoded * ); * * This takes a const pointer to a (null terminated) string * containing the unencoded password. It also gets passed * an already allocated buffer to store the encoded password. * This buffer should be the exact length of the password without * the null. The encoded password buffer IS NOT NULL TERMINATED. * * The encoding_table seems to be a fixed set of values. We'll * hope it doesn't change over time! * * NOTE: This is no longer used. Its here for historical reference. * */ #if 0 static int aim_encode_password(const char *password, unsigned char *encoded) { u_char encoding_table[] = { #if 0 /* old v1 table */ 0xf3, 0xb3, 0x6c, 0x99, 0x95, 0x3f, 0xac, 0xb6, 0xc5, 0xfa, 0x6b, 0x63, 0x69, 0x6c, 0xc3, 0x9f #else /* v2.1 table, also works for ICQ */ 0xf3, 0x26, 0x81, 0xc4, 0x39, 0x86, 0xdb, 0x92, 0x71, 0xa3, 0xb9, 0xe6, 0x53, 0x7a, 0x95, 0x7c #endif }; int i; for (i = 0; i < strlen(password); i++) encoded[i] = (password[i] ^ encoding_table[i]); return 0; } #endif /* * This is sent back as a general response to the login command. * It can be either an error or a success, depending on the * precense of certain TLVs. * * The client should check the value of logininfo->errorcode. If * its nonzero, there was an error. * */ faim_internal int aim_authparse(struct aim_session_t *sess, struct command_rx_struct *command) { struct aim_tlvlist_t *tlvlist; int ret = 1; char *sn; rxcallback_t userfunc = NULL; memset(&sess->logininfo, 0x00, sizeof(sess->logininfo)); /* * Read block of TLVs. All further data is derived * from what is parsed here. * * For SNAC login, there's a 17/3 SNAC header in front. * */ tlvlist = aim_readtlvchain(command->data+10, command->commandlen-10); /* * No matter what, we should have a screen name. */ sn = aim_gettlv_str(tlvlist, 0x0001, 1); strncpy(sess->logininfo.screen_name, sn, strlen(sn)); free(sn); /* * Check for an error code. If so, we should also * have an error url. */ if (aim_gettlv(tlvlist, 0x0008, 1)) { struct aim_tlv_t *errtlv; errtlv = aim_gettlv(tlvlist, 0x0008, 1); sess->logininfo.errorcode = aimutil_get16(errtlv->value); sess->logininfo.errorurl = aim_gettlv_str(tlvlist, 0x0004, 1); } /* * If we have both an IP number (0x0005) and a cookie (0x0006), * then the login was successful. */ else if (aim_gettlv(tlvlist, 0x0005, 1) && aim_gettlv(tlvlist, 0x0006, 1) /*aim_gettlv(tlvlist, 0x0006, 1)->length*/) { struct aim_tlv_t *tmptlv; /* * IP address of BOS server. */ sess->logininfo.BOSIP = aim_gettlv_str(tlvlist, 0x0005, 1); /* * Authorization Cookie */ tmptlv = aim_gettlv(tlvlist, 0x0006, 1); memcpy(sess->logininfo.cookie, tmptlv->value, AIM_COOKIELEN); /* * The email address attached to this account * Not available for ICQ logins. */ if (aim_gettlv(tlvlist, 0x0011, 1)) sess->logininfo.email = aim_gettlv_str(tlvlist, 0x0011, 1); /* * The registration status. (Not real sure what it means.) * Not available for ICQ logins. */ if ((tmptlv = aim_gettlv(tlvlist, 0x0013, 1))) sess->logininfo.regstatus = aimutil_get16(tmptlv->value); } userfunc = aim_callhandler(command->conn, 0x0017, 0x0003); if (userfunc) ret = userfunc(sess, command); aim_freetlvchain(&tlvlist); if (sess->logininfo.BOSIP) { free(sess->logininfo.BOSIP); sess->logininfo.BOSIP = NULL; } if (sess->logininfo.email) { free(sess->logininfo.email); sess->logininfo.email = NULL; } if (sess->logininfo.errorurl) { free(sess->logininfo.errorurl); sess->logininfo.errorurl = NULL; } return ret; } /* * Middle handler for 0017/0007 SNACs. Contains the auth key prefixed * by only its length in a two byte word. * * Calls the client, which should then use the value to call aim_send_login. * */ faim_internal int aim_authkeyparse(struct aim_session_t *sess, struct command_rx_struct *command) { unsigned char *key; int keylen; int ret = 1; rxcallback_t userfunc; keylen = aimutil_get16(command->data+10); if (!(key = malloc(keylen+1))) return ret; memcpy(key, command->data+12, keylen); key[keylen] = '\0'; if ((userfunc = aim_callhandler(command->conn, 0x0017, 0x0007))) ret = userfunc(sess, command, (char *)key); free(key); return ret; } /* * Generate an authorization response. * * You probably don't want this unless you're writing an AIM server. * */ faim_export unsigned long aim_sendauthresp(struct aim_session_t *sess, struct aim_conn_t *conn, char *sn, char *bosip, char *cookie, char *email, int regstatus) { struct command_tx_struct *tx; struct aim_tlvlist_t *tlvlist = NULL; if (!(tx = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0004, conn, 1152))) return -1; tx->lock = 1; if (sn) aim_addtlvtochain_str(&tlvlist, 0x0001, sn, strlen(sn)); else aim_addtlvtochain_str(&tlvlist, 0x0001, sess->logininfo.screen_name, strlen(sess->logininfo.screen_name)); if (sess->logininfo.errorcode) { aim_addtlvtochain16(&tlvlist, 0x0008, sess->logininfo.errorcode); aim_addtlvtochain_str(&tlvlist, 0x0004, sess->logininfo.errorurl, strlen(sess->logininfo.errorurl)); } else { aim_addtlvtochain_str(&tlvlist, 0x0005, bosip, strlen(bosip)); aim_addtlvtochain_str(&tlvlist, 0x0006, cookie, AIM_COOKIELEN); aim_addtlvtochain_str(&tlvlist, 0x0011, email, strlen(email)); aim_addtlvtochain16(&tlvlist, 0x0013, (unsigned short)regstatus); } tx->commandlen = aim_writetlvchain(tx->data, tx->commandlen, &tlvlist); tx->lock = 0; return aim_tx_enqueue(sess, tx); } /* * Generate a random cookie. (Non-client use only) */ faim_export int aim_gencookie(unsigned char *buf) { int i; srand(time(NULL)); for (i=0; i < AIM_COOKIELEN; i++) buf[i] = 1+(int) (256.0*rand()/(RAND_MAX+0.0)); return i; } /* * Send Server Ready. (Non-client) */ faim_export int aim_sendserverready(struct aim_session_t *sess, struct aim_conn_t *conn) { struct command_tx_struct *tx; int i = 0; if (!(tx = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0002, conn, 10+0x22))) return -1; tx->lock = 1; i += aim_putsnac(tx->data, 0x0001, 0x0003, 0x0000, sess->snac_nextid++); i += aimutil_put16(tx->data+i, 0x0001); i += aimutil_put16(tx->data+i, 0x0002); i += aimutil_put16(tx->data+i, 0x0003); i += aimutil_put16(tx->data+i, 0x0004); i += aimutil_put16(tx->data+i, 0x0006); i += aimutil_put16(tx->data+i, 0x0008); i += aimutil_put16(tx->data+i, 0x0009); i += aimutil_put16(tx->data+i, 0x000a); i += aimutil_put16(tx->data+i, 0x000b); i += aimutil_put16(tx->data+i, 0x000c); i += aimutil_put16(tx->data+i, 0x0013); i += aimutil_put16(tx->data+i, 0x0015); tx->commandlen = i; tx->lock = 0; return aim_tx_enqueue(sess, tx); } /* * Send service redirect. (Non-Client) */ faim_export unsigned long aim_sendredirect(struct aim_session_t *sess, struct aim_conn_t *conn, unsigned short servid, char *ip, char *cookie) { struct command_tx_struct *tx; struct aim_tlvlist_t *tlvlist = NULL; int i = 0; if (!(tx = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0002, conn, 1152))) return -1; tx->lock = 1; i += aim_putsnac(tx->data+i, 0x0001, 0x0005, 0x0000, 0x00000000); aim_addtlvtochain16(&tlvlist, 0x000d, servid); aim_addtlvtochain_str(&tlvlist, 0x0005, ip, strlen(ip)); aim_addtlvtochain_str(&tlvlist, 0x0006, cookie, AIM_COOKIELEN); tx->commandlen = aim_writetlvchain(tx->data+i, tx->commandlen-i, &tlvlist)+i; aim_freetlvchain(&tlvlist); tx->lock = 0; return aim_tx_enqueue(sess, tx); }