int runtime_config_qtn(int unit, int subunit) { int ret; if (!rpc_qtn_ready()) { dbG("qcsapi error\n"); return -1; } if ( unit == 1 && subunit == -1 ){ dbG("Global QTN settings\n"); if(nvram_get_int("wl1_itxbf") == 1 || nvram_get_int("wl1_txbf") == 1){ dbG("[bf] set_bf_on\n"); qcsapi_wifi_run_script("router_command.sh", "set_bf_on"); ret = qcsapi_config_update_parameter(WIFINAME, "bf", "1"); if (ret < 0) dbG("qcsapi error\n"); }else{ dbG("[bf] set_bf_off\n"); qcsapi_wifi_run_script("router_command.sh", "set_bf_off"); ret = qcsapi_config_update_parameter(WIFINAME, "bf", "0"); if (ret < 0) dbG("qcsapi error\n"); } gen_stateless_conf(); } rpc_parse_nvram_from_httpd(unit, subunit); return 1; }
int qtn_monitor_main(int argc, char *argv[]) { FILE *fp; sigset_t sigs_to_catch; int ret, retval = 0; time_t start_time = uptime(); /* write pid */ if ((fp = fopen("/var/run/qtn_monitor.pid", "w")) != NULL) { fprintf(fp, "%d", getpid()); fclose(fp); } /* set the signal handler */ sigemptyset(&sigs_to_catch); sigaddset(&sigs_to_catch, SIGTERM); sigprocmask(SIG_UNBLOCK, &sigs_to_catch, NULL); signal(SIGTERM, qtn_monitor_exit); QTN_RESET: ret = rpc_qcsapi_init(1); if (ret < 0) { dbG("rpc_qcsapi_init error, return: %d\n", ret); retval = -1; goto ERROR; } #if 0 /* replaced by STATELESS, send configuration from brcm to qtn */ else if (nvram_get_int("qtn_restore_defaults")) { nvram_unset("qtn_restore_defaults"); rpc_qcsapi_restore_default_config(0); dbG("Restaring Qcsapi init...\n"); sleep(15); goto QTN_RESET; } #endif #if 0 if(nvram_get_int("sw_mode") == SW_MODE_AP && nvram_get_int("wlc_psta") == 1 && nvram_get_int("wlc_band") == 1){ dbG("[sw_mode] start QTN PSTA mode\n"); start_psta_qtn(); } #endif ret = qcsapi_init(); if (ret < 0) { dbG("Qcsapi qcsapi_init error, return: %d\n", ret); retval = -1; goto ERROR; } else dbG("Qcsapi qcsapi init takes %ld seconds\n", uptime() - start_time); dbG("defer lanport_ctrl(1)\n"); lanport_ctrl(1); eval("ifconfig", "br0:1", "down"); #if defined(RTCONFIG_JFFS2ND_BACKUP) check_2nd_jffs(); #endif nvram_set("qtn_ready", "1"); if(nvram_get_int("AllLED") == 0) setAllLedOff(); // dbG("[QTN] update router_command.sh from brcm to qtn\n"); // qcsapi_wifi_run_script("set_test_mode", "update_router_command"); #if 1 /* STATELESS */ if(nvram_get_int("sw_mode") == SW_MODE_AP && nvram_get_int("wlc_psta") == 1 && nvram_get_int("wlc_band") == 1){ dbG("[sw_mode] skip start_psta_qtn, QTN will run scripts automatically\n"); // start_psta_qtn(); }else{ dbG("[***] rpc_parse_nvram_from_httpd\n"); rpc_parse_nvram_from_httpd(1,-1); /* wifi0 */ rpc_parse_nvram_from_httpd(1,1); /* wifi1 */ rpc_parse_nvram_from_httpd(1,2); /* wifi2 */ rpc_parse_nvram_from_httpd(1,3); /* wifi3 */ dbG("[sw_mode] skip start_ap_qtn, QTN will run scripts automatically\n"); // start_ap_qtn(); qcsapi_mac_addr wl_mac_addr; ret = rpc_qcsapi_interface_get_mac_addr(WIFINAME, &wl_mac_addr); if (ret < 0) dbG("rpc_qcsapi_interface_get_mac_addr, return: %d\n", ret); else { nvram_set("1:macaddr", wl_ether_etoa((struct ether_addr *) &wl_mac_addr)); nvram_set("wl1_hwaddr", wl_ether_etoa((struct ether_addr *) &wl_mac_addr)); } rpc_update_wdslist(); if(nvram_get_int("wps_enable") == 1){ ret = rpc_qcsapi_wifi_disable_wps(WIFINAME, 0); if (ret < 0) dbG("rpc_qcsapi_wifi_disable_wps %s error, return: %d\n", WIFINAME, ret); ret = qcsapi_wps_set_ap_pin(WIFINAME, nvram_safe_get("wps_device_pin")); if (ret < 0) dbG("qcsapi_wps_set_ap_pin %s error, return: %d\n", WIFINAME, ret); ret = qcsapi_wps_registrar_set_pp_devname(WIFINAME, 0, (const char *) get_productid()); if (ret < 0) dbG("qcsapi_wps_registrar_set_pp_devname %s error, return: %d\n", WIFINAME, ret); }else{ ret = rpc_qcsapi_wifi_disable_wps(WIFINAME, 1); if (ret < 0) dbG("rpc_qcsapi_wifi_disable_wps %s error, return: %d\n", WIFINAME, ret); } rpc_set_radio(1, 0, nvram_get_int("wl1_radio")); } #endif if(nvram_get_int("wl1_80211h") == 1){ dbG("[80211h] set_80211h_on\n"); qcsapi_wifi_run_script("router_command.sh", "80211h_on"); }else{ dbG("[80211h] set_80211h_off\n"); qcsapi_wifi_run_script("router_command.sh", "80211h_off"); } if(nvram_get_int("sw_mode") == SW_MODE_ROUTER || (nvram_get_int("sw_mode") == SW_MODE_AP && nvram_get_int("wlc_psta") == 0)){ if(nvram_get_int("wl1_chanspec") == 0){ if (nvram_match("1:ccode", "EU")){ if(nvram_get_int("acs_dfs") != 1){ dbG("[dfs] start nodfs scanning and selection\n"); start_nodfs_scan_qtn(); } }else{ /* all country except EU */ dbG("[dfs] start nodfs scanning and selection\n"); start_nodfs_scan_qtn(); } } } if(nvram_get_int("sw_mode") == SW_MODE_AP && nvram_get_int("wlc_psta") == 1 && nvram_get_int("wlc_band") == 0){ ret = qcsapi_wifi_reload_in_mode(WIFINAME, qcsapi_station); if (ret < 0) dbG("qtn reload_in_mode STA fail\n"); } if(nvram_get_int("QTNTELNETSRV") == 1 && nvram_get_int("sw_mode") == SW_MODE_ROUTER){ dbG("[QTNT] enable telnet server\n"); qcsapi_wifi_run_script("router_command.sh", "enable_telnet_srv 1"); } dbG("[dbg] qtn_monitor startup\n"); ERROR: remove("/var/run/qtn_monitor.pid"); if (nvram_get_int("led_disable") == 1) { setAllLedOff_qtn(); // qcsapi_wifi_run_script("router_command.sh", "wifi_led_off"); // qcsapi_led_set(1, 0); } return retval; }