// Module for interfacing with WIFI // FIXME: sprintf->snprintf everywhere. #include "module.h" #include "lauxlib.h" #include "platform.h" #include #include #include "ctype.h" #include #include "user_interface.h" #include "wifi_common.h" #ifdef WIFI_SMART_ENABLE #include "smart/smart.h" #include "smartconfig.h" static int wifi_smart_succeed = LUA_NOREF; #endif static uint8 getap_output_format=0; #define INVALID_MAC_STR "MAC:FF:FF:FF:FF:FF:FF" #ifdef WIFI_SMART_ENABLE static void wifi_smart_succeed_cb(sc_status status, void *pdata){ NODE_DBG("wifi_smart_succeed_cb is called.\n"); lua_State* L = lua_getstate(); if (status == SC_STATUS_LINK_OVER) { smartconfig_stop(); return; } #if defined( NODE_SMART_OLDSTYLE ) if (status != SC_STATUS_LINK || !pdata) return; if(wifi_smart_succeed == LUA_NOREF) return; lua_State* L = (lua_State *)arg; lua_rawgeti(L, LUA_REGISTRYINDEX, wifi_smart_succeed); lua_call(L, 0, 0); #else if (status != SC_STATUS_LINK || !pdata) return; struct station_config *sta_conf = pdata; wifi_station_set_config(sta_conf); wifi_station_disconnect(); wifi_station_connect(); if(wifi_smart_succeed != LUA_NOREF) { lua_rawgeti(L, LUA_REGISTRYINDEX, wifi_smart_succeed); lua_pushstring(L, sta_conf->ssid); lua_pushstring(L, sta_conf->password); lua_call(L, 2, 0); unregister_lua_cb(L, &wifi_smart_succeed); } #endif // defined( NODE_SMART_OLDSTYLE ) } #endif // WIFI_SMART_ENABLE static int wifi_scan_succeed = LUA_NOREF; // callback for wifi_station_listap static void wifi_scan_done(void *arg, STATUS status) { lua_State* L = lua_getstate(); uint8 ssid[33]; char temp[sizeof("11:22:33:44:55:66")]; if(wifi_scan_succeed == LUA_NOREF) return; if(arg == NULL) return; lua_rawgeti(L, LUA_REGISTRYINDEX, wifi_scan_succeed); if (status == OK) { struct bss_info *bss_link = (struct bss_info *)arg; lua_newtable( L ); while (bss_link != NULL) { memset(ssid, 0, 33); if (strlen(bss_link->ssid) <= 32) { memcpy(ssid, bss_link->ssid, strlen(bss_link->ssid)); } else { memcpy(ssid, bss_link->ssid, 32); } if(getap_output_format==1) //use new format(BSSID : SSID, RSSI, Authmode, Channel) { sprintf(temp,MACSTR, MAC2STR(bss_link->bssid)); wifi_add_sprintf_field(L, temp, "%s,%d,%d,%d", ssid, bss_link->rssi, bss_link->authmode, bss_link->channel); NODE_DBG(MACSTR" : %s\n",MAC2STR(bss_link->bssid) , temp);//00 00 00 00 00 00 } else //use old format(SSID : Authmode, RSSI, BSSID, Channel) { wifi_add_sprintf_field(L, ssid, "%d,%d,"MACSTR",%d", bss_link->authmode, bss_link->rssi, MAC2STR(bss_link->bssid),bss_link->channel); NODE_DBG("%s : %s\n", ssid, temp); } bss_link = bss_link->next.stqe_next; } } else { lua_newtable( L ); } lua_call(L, 1, 0); unregister_lua_cb(L, &wifi_scan_succeed); } #ifdef WIFI_SMART_ENABLE // Lua: smart(channel, function succeed_cb) // Lua: smart(type, function succeed_cb) static int wifi_start_smart( lua_State* L ) { #if defined( NODE_SMART_OLDSTYLE ) unsigned channel; int stack = 1; if ( lua_isnumber(L, stack) ) { channel = lua_tointeger(L, stack); stack++; } else { channel = 6; } // luaL_checkanyfunction(L, stack); if (lua_type(L, stack) == LUA_TFUNCTION || lua_type(L, stack) == LUA_TLIGHTFUNCTION) { lua_pushvalue(L, stack); // copy argument (func) to the top of stack if(wifi_smart_succeed != LUA_NOREF) luaL_unref(L, LUA_REGISTRYINDEX, wifi_smart_succeed); wifi_smart_succeed = luaL_ref(L, LUA_REGISTRYINDEX); } if ( channel > 14 || channel < 1 ) return luaL_error( L, "wrong arg range" ); if(wifi_smart_succeed == LUA_NOREF){ smart_begin(channel, NULL, NULL); } else { smart_begin(channel, (smart_succeed )wifi_smart_succeed_cb, L); } #else if(wifi_get_opmode() != STATION_MODE) { return luaL_error( L, "Smart link only in STATION mode" ); } uint8_t smart_type = 0; int stack = 1; if ( lua_isnumber(L, stack) ) { smart_type = lua_tointeger(L, stack); stack++; } if (lua_type(L, stack) == LUA_TFUNCTION || lua_type(L, stack) == LUA_TLIGHTFUNCTION) { lua_pushvalue(L, stack); // copy argument (func) to the top of stack register_lua_cb(L, &wifi_smart_succeed); } if ( smart_type > 1 ) return luaL_error( L, "wrong arg range" ); smartconfig_set_type(smart_type); smartconfig_start(wifi_smart_succeed_cb); #endif // defined( NODE_SMART_OLDSTYLE ) return 0; } // Lua: exit_smart() static int wifi_exit_smart( lua_State* L ) { #if defined( NODE_SMART_OLDSTYLE ) smart_end(); #else smartconfig_stop(); #endif // defined( NODE_SMART_OLDSTYLE ) unregister_lua_cb(L, &wifi_smart_succeed); return 0; } #endif // WIFI_SMART_ENABLE // Lua: wifi.getcountry() static int wifi_getcountry( lua_State* L ){ wifi_country_t cfg = {0}; if(wifi_get_country(&cfg)){ lua_newtable(L); lua_pushstring(L, "country"); lua_pushstring(L, cfg.cc); lua_rawset(L, -3); lua_pushstring(L, "start_ch"); lua_pushnumber(L, cfg.schan); lua_rawset(L, -3); lua_pushstring(L, "end_ch"); lua_pushnumber(L, (cfg.schan + cfg.nchan)-1); lua_rawset(L, -3); lua_pushstring(L, "policy"); lua_pushnumber(L, cfg.policy); lua_rawset(L, -3); return 1; } else{ return luaL_error(L, "Unable to get country info"); } } // Lua: wifi.setcountry() static int wifi_setcountry( lua_State* L ){ size_t len; uint8 start_ch; uint8 end_ch; wifi_country_t cfg = {0}; if(lua_istable(L, 1)){ lua_getfield(L, 1, "country"); if (!lua_isnil(L, -1)){ if( lua_isstring(L, -1) ){ const char *country_code = luaL_checklstring( L, -1, &len ); luaL_argcheck(L, (len==2 && isalpha(country_code[0]) && isalpha(country_code[1])), 1, "country: country code must be 2 chars"); memcpy(cfg.cc, country_code, len); if(cfg.cc[0] >= 0x61) cfg.cc[0]=cfg.cc[0]-32; //if lowercase change to uppercase if(cfg.cc[1] >= 0x61) cfg.cc[1]=cfg.cc[1]-32; //if lowercase change to uppercase } else return luaL_argerror( L, 1, "country: must be string" ); } else{ cfg.cc[0]='C'; cfg.cc[1]='N'; cfg.cc[2]=0x00; } lua_pop(L, 1); lua_getfield(L, 1, "start_ch"); if (!lua_isnil(L, -1)){ if(lua_isnumber(L, -1)){ start_ch = (uint8)luaL_checknumber(L, -1); luaL_argcheck(L, (start_ch >= 1 && start_ch <= 14), 1, "start_ch: Range:1-14"); cfg.schan = start_ch; } else luaL_argerror(L, 1, "start_ch: must be a number"); } else cfg.schan = 1; lua_pop(L, 1); lua_getfield(L, 1, "end_ch"); if (!lua_isnil(L, -1)){ if(lua_isnumber(L, -1)){ end_ch = (uint8)luaL_checknumber(L, -1); luaL_argcheck(L, (end_ch >= 1 && end_ch <= 14), 1, "end_ch: Range:1-14"); luaL_argcheck(L, (end_ch >= cfg.schan), 1, "end_ch: can't be less than start_ch"); cfg.nchan = (end_ch-cfg.schan)+1; //cfg.nchan must equal total number of channels } else luaL_argerror(L, 1, "end_ch: must be a number"); } else cfg.nchan = (13-cfg.schan)+1; lua_pop(L, 1); lua_getfield(L, 1, "policy"); if (!lua_isnil(L, -1)){ if(lua_isnumber(L, -1)){ uint8 policy = (uint8)luaL_checknumber(L, -1); luaL_argcheck(L, (policy == WIFI_COUNTRY_POLICY_AUTO || policy == WIFI_COUNTRY_POLICY_MANUAL), 1, "policy: must be 0 or 1"); cfg.policy = policy; } else luaL_argerror(L, 1, "policy: must be a number"); } else cfg.policy = WIFI_COUNTRY_POLICY_AUTO; lua_pop(L, 1); lua_pop(L, 1); //pop table from stack bool retval = wifi_set_country(&cfg); WIFI_DBG("\n country_cfg:\tcc:\"%s\"\tschan:%d\tnchan:%d\tpolicy:%d\n", cfg.cc, cfg.schan, cfg.nchan, cfg.policy); if (retval==1) lua_pushboolean(L, true); else return luaL_error(L, "Unable to set country info"); } else return luaL_argerror(L, 1, "Table not found!"); return 1; } // Lua: wifi.setmode(mode, save_to_flash) static int wifi_setmode( lua_State* L ) { unsigned mode; bool save_to_flash=true; mode = luaL_checkinteger( L, 1 ); luaL_argcheck(L, mode == STATION_MODE || mode == SOFTAP_MODE || mode == STATIONAP_MODE || mode == NULL_MODE, 1, "Invalid mode"); if(!lua_isnoneornil(L, 2)) { if(!lua_isboolean(L, 2)) { luaL_typerror(L, 2, lua_typename(L, LUA_TBOOLEAN)); } save_to_flash=lua_toboolean(L, 2); } if(save_to_flash) { wifi_set_opmode( (uint8_t)mode); } else { wifi_set_opmode_current( (uint8_t)mode); } mode = (unsigned)wifi_get_opmode(); lua_pushinteger( L, mode ); return 1; } // Lua: wifi.getmode() static int wifi_getmode( lua_State* L ) { unsigned mode; mode = (unsigned)wifi_get_opmode(); lua_pushinteger( L, mode ); return 1; } // Lua: wifi.getdefaultmode() static int wifi_getdefaultmode( lua_State* L ) { unsigned mode; mode = (unsigned)wifi_get_opmode_default(); lua_pushinteger( L, mode ); return 1; } // Lua: wifi.getchannel() static int wifi_getchannel( lua_State* L ) { unsigned channel; channel = (unsigned)wifi_get_channel(); lua_pushinteger( L, channel ); return 1; } // Lua: wifi.setphymode() static int wifi_setphymode( lua_State* L ) { unsigned mode; mode = luaL_checkinteger( L, 1 ); if ( mode != PHY_MODE_11B && mode != PHY_MODE_11G && mode != PHY_MODE_11N ) return luaL_error( L, "wrong arg type" ); wifi_set_phy_mode( (uint8_t)mode); mode = (unsigned)wifi_get_phy_mode(); lua_pushinteger( L, mode ); return 1; } // Lua: wifi.getphymode() static int wifi_getphymode( lua_State* L ) { unsigned mode; mode = (unsigned)wifi_get_phy_mode(); lua_pushinteger( L, mode ); return 1; } // Lua: wifi.setmaxtxpower() static int wifi_setmaxtxpower( lua_State* L ) { unsigned power; power = luaL_checkinteger( L, 1 ); luaL_argcheck(L, (power > 0 && power < 83), 1, "tx power out of range (0->82)"); system_phy_set_max_tpw( (uint8_t) power); return 1; } #ifdef PMSLEEP_ENABLE /* Begin WiFi suspend functions*/ #include static int wifi_resume_cb_ref = LUA_NOREF; // Holds resume callback reference static int wifi_suspend_cb_ref = LUA_NOREF; // Holds suspend callback reference void wifi_pmSleep_suspend_CB(void) { PMSLEEP_DBG("\n\tDBG: %s start\n", __func__); if (wifi_suspend_cb_ref != LUA_NOREF) { lua_State* L = lua_getstate(); // Get main Lua thread pointer lua_rawgeti(L, LUA_REGISTRYINDEX, wifi_suspend_cb_ref); // Push suspend callback onto stack lua_unref(L, wifi_suspend_cb_ref); // remove suspend callback from LUA_REGISTRY wifi_suspend_cb_ref = LUA_NOREF; // Update variable since reference is no longer valid lua_call(L, 0, 0); // Execute suspend callback } else { PMSLEEP_DBG("\n\tDBG: lua cb unavailable\n"); } PMSLEEP_DBG("\n\tDBG: %s end\n", __func__); return; } void wifi_pmSleep_resume_CB(void) { PMSLEEP_DBG("\n\tDBG: %s start\n", __func__); // If resume callback was defined pmSleep_execute_lua_cb(&wifi_resume_cb_ref); PMSLEEP_DBG("\n\tDBG: %s end\n", __func__); return; } // Lua: wifi.suspend({duration, suspend_cb, resume_cb, preserve_mode}) static int wifi_suspend(lua_State* L) { // If no parameters were provided if (lua_isnone(L, 1)) { // Return current WiFi suspension state lua_pushnumber(L, pmSleep_get_state()); return 1; // Return WiFi suspension state } pmSleep_INIT_CFG(cfg); cfg.sleep_mode = MODEM_SLEEP_T; if(lua_istable(L, 1)) { pmSleep_parse_table_lua(L, 1, &cfg, &wifi_suspend_cb_ref, &wifi_resume_cb_ref); } else return luaL_argerror(L, 1, "must be table"); cfg.resume_cb_ptr = &wifi_pmSleep_resume_CB; cfg.suspend_cb_ptr = &wifi_pmSleep_suspend_CB; pmSleep_suspend(&cfg); return 0; } // Lua: wifi.resume([Resume_CB]) static int wifi_resume(lua_State* L) { PMSLEEP_DBG("\n\tDBG: %s start\n", __func__); uint8 fpm_state = pmSleep_get_state(); // If forced sleep api is not enabled, return error if (fpm_state == 0) { return luaL_error(L, "WIFi not suspended"); } // If a resume callback was provided if (lua_isfunction(L, 1)) { // If there is already a resume callback reference lua_pushvalue(L, 1); //Push resume callback to the top of the stack register_lua_cb(L, &wifi_resume_cb_ref); PMSLEEP_DBG("\n\tDBG: Resume CB registered\n"); } pmSleep_resume(NULL); PMSLEEP_DBG("\n\tDBG: %s end\n", __func__); return 0; } /* End WiFi suspend functions*/ #else static char *susp_note_str = "\n The option \"PMSLEEP_ENABLE\" in \"app/include/user_config.h\" was disabled during FW build!\n"; static char *susp_unavailable_str = "wifi.suspend is unavailable"; static int wifi_suspend(lua_State* L){ dbg_printf("%s", susp_note_str); return luaL_error(L, susp_unavailable_str); } static int wifi_resume(lua_State* L){ dbg_printf("%s", susp_note_str); return luaL_error(L, susp_unavailable_str); } #endif // Lua: wifi.nullmodesleep() static int wifi_null_mode_auto_sleep(lua_State* L) { if (!lua_isnone(L, 1)) { bool auto_sleep_setting=lua_toboolean(L, 1); if (auto_sleep_setting!=(bool) get_fpm_auto_sleep_flag()) { wifi_fpm_auto_sleep_set_in_null_mode((uint8)auto_sleep_setting); //if esp is already in NULL_MODE, auto sleep setting won't take effect until next wifi_set_opmode(NULL_MODE) call. if(wifi_get_opmode()==NULL_MODE) { wifi_set_opmode_current(NULL_MODE); } } } lua_pushboolean(L, (bool) get_fpm_auto_sleep_flag()); return 1; } // Lua: mac = wifi.xx.getmac() static int wifi_getmac( lua_State* L, uint8_t mode ) { char temp[64]; uint8_t mac[6]; wifi_get_macaddr(mode, mac); sprintf(temp, MACSTR, MAC2STR(mac)); lua_pushstring( L, temp ); return 1; } // Lua: mac = wifi.xx.setmac() static int wifi_setmac( lua_State* L, uint8_t mode ) { uint8_t mac[6]; unsigned len = 0; const char *macaddr = luaL_checklstring( L, 1, &len ); luaL_argcheck(L, len==17, 1, INVALID_MAC_STR); ets_str2macaddr(mac, macaddr); lua_pushboolean(L,wifi_set_macaddr(mode, (uint8 *)mac)); return 1; } // Lua: ip = wifi.xx.getip() static int wifi_getip( lua_State* L, uint8_t mode ) { struct ip_info pTempIp; char temp[64]; wifi_get_ip_info(mode, &pTempIp); if(pTempIp.ip.addr==0){ lua_pushnil(L); return 1; } else { sprintf(temp, "%d.%d.%d.%d", IP2STR(&pTempIp.ip) ); lua_pushstring( L, temp ); sprintf(temp, "%d.%d.%d.%d", IP2STR(&pTempIp.netmask) ); lua_pushstring( L, temp ); sprintf(temp, "%d.%d.%d.%d", IP2STR(&pTempIp.gw) ); lua_pushstring( L, temp ); return 3; } } // Lua: broadcast = wifi.xx.getbroadcast() static int wifi_getbroadcast( lua_State* L, uint8_t mode ) { struct ip_info pTempIp; char temp[64]; wifi_get_ip_info(mode, &pTempIp); if(pTempIp.ip.addr==0){ lua_pushnil(L); return 1; } else { struct ip_addr broadcast_address; uint32 subnet_mask32 = pTempIp.netmask.addr & pTempIp.ip.addr; uint32 broadcast_address32 = ~pTempIp.netmask.addr | subnet_mask32; broadcast_address.addr = broadcast_address32; sprintf(temp, "%d.%d.%d.%d", IP2STR(&broadcast_address) ); lua_pushstring( L, temp ); return 1; } } // Used by wifi_setip static uint32_t parse_key(lua_State* L, const char * key){ lua_getfield(L, 1, key); if( lua_isstring(L, -1) ) // deal with the ip/netmask/gw string { const char *ip = luaL_checkstring( L, -1 ); return ipaddr_addr(ip); } lua_pop(L, 1); return 0; } // Lua: ip = wifi.xx.setip() static int wifi_setip( lua_State* L, uint8_t mode ) { struct ip_info pTempIp; wifi_get_ip_info(mode, &pTempIp); if (!lua_istable(L, 1)) return luaL_error( L, "wrong arg type" ); uint32_t ip = parse_key(L, "ip"); if(ip!=0) pTempIp.ip.addr = ip; ip = parse_key(L, "netmask"); if(ip!=0) pTempIp.netmask.addr = ip; ip = parse_key(L, "gateway"); if(mode==SOFTAP_IF || ip!=0) pTempIp.gw.addr = ip; if(STATION_IF == mode) { wifi_station_dhcpc_stop(); lua_pushboolean(L,wifi_set_ip_info(mode, &pTempIp)); } else { wifi_softap_dhcps_stop(); lua_pushboolean(L,wifi_set_ip_info(mode, &pTempIp)); wifi_softap_dhcps_start(); } return 1; } // Lua: wifi.sta.getapinfo static int wifi_station_get_ap_info4lua( lua_State* L ) { struct station_config config[5]; char temp[sizeof(config[0].password)+1]; //max password length + '\0' uint8 number_of_aps = wifi_station_get_ap_info(config); #if defined(WIFI_DEBUG) char debug_temp[128]; #endif lua_newtable(L); lua_pushnumber(L, number_of_aps); lua_setfield(L, -2, "qty"); WIFI_DBG("\n\t# of APs stored in flash:%d\n", number_of_aps); WIFI_DBG(" %-6s %-32s %-64s %-17s\n", "index:", "ssid:", "password:", "bssid:"); for(int i=0;i 0) /* WPA = min 8, WEP = min 5 ASCII characters for a 40-bit key */ { memcpy(temp, config[i].password, sizeof(config[i].password)); lua_pushstring(L, temp); lua_setfield(L, -2, "pwd"); } #if defined(WIFI_DEBUG) sprintf(debug_temp + strlen(debug_temp), "%-64s ", temp); #endif memset(temp, 0, sizeof(temp)); if (config[i].bssid_set) { sprintf(temp, MACSTR, MAC2STR(config[i].bssid)); lua_pushstring(L, temp); lua_setfield(L, -2, "bssid"); } #if defined(WIFI_DEBUG) WIFI_DBG("%s%-17s \n", debug_temp, temp); #endif lua_pushnumber(L, i+1); //Add one, so that AP index follows Lua Conventions lua_insert(L, -2); lua_settable(L, -3); } return 1; } // Lua: wifi.setapnumber(number_of_aps_to_save) static int wifi_station_ap_number_set4lua( lua_State* L ) { unsigned limit=luaL_checkinteger(L, 1); luaL_argcheck(L, (limit >= 1 && limit <= 5), 1, "Valid range: 1-5"); lua_pushboolean(L, wifi_station_ap_number_set((uint8)limit)); return 1; } // Lua: wifi.setapnumber(number_of_aps_to_save) static int wifi_station_change_ap( lua_State* L ) { uint8 ap_index=luaL_checkinteger(L, 1); luaL_argcheck(L, (ap_index >= 1 && ap_index <= 5), 1, "Valid range: 1-5"); lua_pushboolean(L, wifi_station_ap_change(ap_index-1)); return 1; } // Lua: wifi.setapnumber(number_of_aps_to_save) static int wifi_station_get_ap_index( lua_State* L ) { lua_pushnumber(L, wifi_station_get_current_ap_id()+1); return 1; } // Lua: wifi.sta.getmac() static int wifi_station_getmac( lua_State* L ){ return wifi_getmac(L, STATION_IF); } // Lua: wifi.sta.setmac() static int wifi_station_setmac( lua_State* L ){ return wifi_setmac(L, STATION_IF); } // Lua: wifi.sta.getip() static int wifi_station_getip( lua_State* L ){ return wifi_getip(L, STATION_IF); } // Lua: wifi.sta.setip() static int wifi_station_setip( lua_State* L ){ return wifi_setip(L, STATION_IF); } // Lua: wifi.sta.getbroadcast() static int wifi_station_getbroadcast( lua_State* L ){ return wifi_getbroadcast(L, STATION_IF); } // Used by wifi_station_getconfig_xxx static int wifi_station_getconfig( lua_State* L, bool get_flash_cfg) { struct station_config sta_conf; char temp[sizeof(sta_conf.password)+1]; //max password length + '\0' if(get_flash_cfg) { wifi_station_get_config_default(&sta_conf); } else { wifi_station_get_config(&sta_conf); } if(sta_conf.ssid==0) { lua_pushnil(L); return 1; } else { if(lua_isboolean(L, 1) && lua_toboolean(L, 1)==true) { lua_newtable(L); memset(temp, 0, sizeof(temp)); memcpy(temp, sta_conf.ssid, sizeof(sta_conf.ssid)); lua_pushstring(L, temp); lua_setfield(L, -2, "ssid"); if(strlen(sta_conf.password) > 0) /* WPA = min 8, WEP = min 5 ASCII characters for a 40-bit key */ { memset(temp, 0, sizeof(temp)); memcpy(temp, sta_conf.password, sizeof(sta_conf.password)); lua_pushstring(L, temp); lua_setfield(L, -2, "pwd"); } lua_pushboolean(L, sta_conf.bssid_set); lua_setfield(L, -2, "bssid_set"); memset(temp, 0, sizeof(temp)); sprintf(temp, MACSTR, MAC2STR(sta_conf.bssid)); lua_pushstring( L, temp); lua_setfield(L, -2, "bssid"); return 1; } else { memset(temp, 0, sizeof(temp)); memcpy(temp, sta_conf.ssid, sizeof(sta_conf.ssid)); lua_pushstring(L, temp); memset(temp, 0, sizeof(temp)); memcpy(temp, sta_conf.password, sizeof(sta_conf.password)); lua_pushstring(L, temp); lua_pushinteger( L, sta_conf.bssid_set); sprintf(temp, MACSTR, MAC2STR(sta_conf.bssid)); lua_pushstring( L, temp); return 4; } } } // Lua: wifi.sta.getconfig() static int wifi_station_getconfig_current(lua_State *L) { return wifi_station_getconfig(L, false); } // Lua: wifi.sta.getdefaultconfig() static int wifi_station_getconfig_default(lua_State *L) { return wifi_station_getconfig(L, true); } // Lua: wifi.sta.clearconfig() static int wifi_station_clear_config ( lua_State* L ) { struct station_config sta_conf; bool auto_connect=true; bool save_to_flash=true; memset(&sta_conf, 0, sizeof(sta_conf)); wifi_station_disconnect(); bool config_success; if(save_to_flash) { config_success = wifi_station_set_config(&sta_conf); } else { config_success = wifi_station_set_config_current(&sta_conf); } wifi_station_set_auto_connect((uint8)0); lua_pushboolean(L, config_success); return 1; } // Lua: wifi.sta.config() static int wifi_station_config( lua_State* L ) { struct station_config sta_conf; bool auto_connect=true; bool save_to_flash=true; size_t sl, pl, ml; memset(&sta_conf, 0, sizeof(sta_conf)); sta_conf.threshold.rssi = -127; sta_conf.threshold.authmode = AUTH_OPEN; if(lua_istable(L, 1)) { lua_getfield(L, 1, "ssid"); if (!lua_isnil(L, -1)) { if( lua_isstring(L, -1) ) { const char *ssid = luaL_checklstring( L, -1, &sl ); luaL_argcheck(L, ((sl>=0 && sl<=sizeof(sta_conf.ssid)) ), 1, "ssid: length:0-32"); /* Zero-length SSID is valid as a way to clear config */ memcpy(sta_conf.ssid, ssid, sl); } else { return luaL_argerror( L, 1, "ssid:not string" ); } } else { return luaL_argerror( L, 1, "ssid required" ); } lua_pop(L, 1); lua_getfield(L, 1, "pwd"); if (!lua_isnil(L, -1)) { if( lua_isstring(L, -1) ) { const char *pwd = luaL_checklstring( L, -1, &pl ); luaL_argcheck(L, ((pl>=0 && pl<=sizeof(sta_conf.password)) ), 1, "pwd: length:0-64"); /* WPA = min 8, WEP = min 5 ASCII characters for a 40-bit key */ memcpy(sta_conf.password, pwd, pl); } else { return luaL_argerror( L, 1, "pwd:not string" ); } } lua_pop(L, 1); lua_getfield(L, 1, "bssid"); if (!lua_isnil(L, -1)) { if (lua_isstring(L, -1)) { const char *macaddr = luaL_checklstring( L, -1, &ml ); luaL_argcheck(L, ((ml==sizeof("AA:BB:CC:DD:EE:FF")-1) ), 1, "bssid: FF:FF:FF:FF:FF:FF"); ets_str2macaddr(sta_conf.bssid, macaddr); sta_conf.bssid_set = 1; } else { return luaL_argerror(L, 1, "bssid:not string"); } } lua_pop(L, 1); lua_getfield(L, 1, "auto"); if (!lua_isnil(L, -1)) { if (lua_isboolean(L, -1)) { auto_connect=lua_toboolean(L, -1); } else { return luaL_argerror(L, 1, "auto:not boolean"); } } lua_pop(L, 1); lua_getfield(L, 1, "save"); if (!lua_isnil(L, -1)) { if (lua_isboolean(L, -1)) { save_to_flash=lua_toboolean(L, -1); } else { return luaL_argerror(L, 1, "save:not boolean"); } } else { save_to_flash=true; } lua_pop(L, 1); #ifdef WIFI_SDK_EVENT_MONITOR_ENABLE lua_State* L_temp = NULL; lua_getfield(L, 1, "connect_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_STAMODE_CONNECTED); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "connect_cb:not function"); } } lua_pop(L, 1); lua_getfield(L, 1, "disconnect_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_STAMODE_DISCONNECTED); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "disconnect_cb:not function"); } } lua_pop(L, 1); lua_getfield(L, 1, "authmode_change_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_STAMODE_AUTHMODE_CHANGE); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "authmode_change_cb:not function"); } } lua_pop(L, 1); lua_getfield(L, 1, "got_ip_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_STAMODE_GOT_IP); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "gotip_cb:not function"); } } lua_pop(L, 1); lua_getfield(L, 1, "dhcp_timeout_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_STAMODE_DHCP_TIMEOUT); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "dhcp_timeout_cb:not function"); } } lua_pop(L, 1); #endif } else { return luaL_argerror(L, 1, "config table not found!"); } #if defined(WIFI_DEBUG) char debug_temp[sizeof(sta_conf.password)+1]; //max password length + '\0' memset(debug_temp, 0, sizeof(debug_temp)); memcpy(debug_temp, sta_conf.ssid, sizeof(sta_conf.ssid)); WIFI_DBG("\n\tsta_conf.ssid=\"%s\" len=%d\n", debug_temp, sl); memset(debug_temp, 0, sizeof(debug_temp)); memcpy(debug_temp, sta_conf.password, sizeof(sta_conf.password)); WIFI_DBG("\tsta_conf.password=\"%s\" len=%d\n", debug_temp, pl); WIFI_DBG("\tsta_conf.bssid=\""MACSTR"\"\tbssid_set=%d\n", MAC2STR(sta_conf.bssid), sta_conf.bssid_set); WIFI_DBG("\tsave_to_flash=%s\n", save_to_flash ? "true":"false"); #endif wifi_station_disconnect(); bool config_success; if(save_to_flash) { config_success = wifi_station_set_config(&sta_conf); } else { config_success = wifi_station_set_config_current(&sta_conf); } wifi_station_set_auto_connect((uint8)auto_connect); if(auto_connect) { wifi_station_connect(); } lua_pushboolean(L, config_success); return 1; } // Lua: wifi.sta.connect() static int wifi_station_connect4lua( lua_State* L ) { #ifdef WIFI_SDK_EVENT_MONITOR_ENABLE if(lua_isfunction(L, 1)){ lua_pushnumber(L, EVENT_STAMODE_CONNECTED); lua_pushvalue(L, 1); lua_remove(L, 1); wifi_event_monitor_register(L); } #endif wifi_station_connect(); return 0; } // Lua: wifi.sta.disconnect() static int wifi_station_disconnect4lua( lua_State* L ) { #ifdef WIFI_SDK_EVENT_MONITOR_ENABLE if(lua_isfunction(L, 1)){ lua_pushnumber(L, EVENT_STAMODE_DISCONNECTED); lua_pushvalue(L, 1); lua_remove(L, 1); wifi_event_monitor_register(L); } #endif wifi_station_disconnect(); return 0; } // Lua: wifi.sta.auto(true/false) static int wifi_station_setauto( lua_State* L ) { unsigned a; a = luaL_checkinteger( L, 1 ); luaL_argcheck(L, ( a == 0 || a == 1 ), 1, "0 or 1"); wifi_station_set_auto_connect(a); return 0; } // Lua: wifi.sta.listap() static int wifi_station_listap( lua_State* L ) { if(wifi_get_opmode() == SOFTAP_MODE) { return luaL_error( L, "Can't list ap in SOFTAP mode" ); } // set safe defaults for scan time, all other members are initialized with 0 // source: https://github.com/espressif/ESP8266_NONOS_SDK/issues/103 struct scan_config scan_cfg = {.scan_time = {.passive=120, .active = {.max=120, .min=60}}}; getap_output_format=0; if (lua_type(L, 1)==LUA_TTABLE) { char ssid[32]; char bssid[6]; uint8 channel=0; uint8 show_hidden=0; size_t len; lua_getfield(L, 1, "ssid"); if (!lua_isnil(L, -1)) /* found? */ { if( lua_isstring(L, -1) ) // deal with the ssid string { const char *ssidstr = luaL_checklstring( L, -1, &len ); if(len>32) return luaL_error( L, "ssid:<32" ); memset(ssid, 0, 32); memcpy(ssid, ssidstr, len); scan_cfg.ssid=ssid; NODE_DBG(scan_cfg.ssid); NODE_DBG("\n"); } else { return luaL_error( L, "wrong arg type" ); } } lua_getfield(L, 1, "bssid"); if (!lua_isnil(L, -1)) /* found? */ { if( lua_isstring(L, -1) ) // deal with the ssid string { const char *macaddr = luaL_checklstring( L, -1, &len ); luaL_argcheck(L, len==17, 1, INVALID_MAC_STR); memset(bssid, 0, 6); ets_str2macaddr(bssid, macaddr); scan_cfg.bssid=bssid; NODE_DBG(MACSTR, MAC2STR(scan_cfg.bssid)); NODE_DBG("\n"); } else { return luaL_error( L, "wrong arg type" ); } } lua_getfield(L, 1, "channel"); if (!lua_isnil(L, -1)) /* found? */ { if( lua_isnumber(L, -1) ) // deal with the ssid string { channel = luaL_checknumber( L, -1); if(!(channel>=0 && channel<=13)) return luaL_error( L, "channel: 0 or 1-13" ); scan_cfg.channel=channel; NODE_DBG("%d\n", scan_cfg.channel); } else { return luaL_error( L, "wrong arg type" ); } } lua_getfield(L, 1, "show_hidden"); if (!lua_isnil(L, -1)) /* found? */ { if( lua_isnumber(L, -1) ) // deal with the ssid string { show_hidden = luaL_checknumber( L, -1); if(show_hidden!=0 && show_hidden!=1) return luaL_error( L, "show_hidden: 0 or 1" ); scan_cfg.show_hidden=show_hidden; NODE_DBG("%d\n", scan_cfg.show_hidden); } else { return luaL_error( L, "wrong arg type" ); } } if (lua_type(L, 2) == LUA_TFUNCTION || lua_type(L, 2) == LUA_TLIGHTFUNCTION) { lua_pushnil(L); lua_insert(L, 2); } lua_pop(L, -4); } else if (lua_type(L, 1) == LUA_TNUMBER) { lua_pushnil(L); lua_insert(L, 1); } else if (lua_type(L, 1) == LUA_TFUNCTION || lua_type(L, 1) == LUA_TLIGHTFUNCTION) { lua_pushnil(L); lua_insert(L, 1); lua_pushnil(L); lua_insert(L, 1); } else if(lua_isnil(L, 1)) { if (lua_type(L, 2) == LUA_TFUNCTION || lua_type(L, 2) == LUA_TLIGHTFUNCTION) { lua_pushnil(L); lua_insert(L, 2); } } else { return luaL_error( L, "wrong arg type" ); } if (lua_type(L, 2) == LUA_TNUMBER) //this section changes the output format { getap_output_format=luaL_checkinteger( L, 2 ); if (getap_output_format != 0 && getap_output_format != 1) return luaL_error( L, "wrong arg type" ); } NODE_DBG("Use alternate output format: %d\n", getap_output_format); if (lua_type(L, 3) == LUA_TFUNCTION || lua_type(L, 3) == LUA_TLIGHTFUNCTION) { lua_pushvalue(L, 3); // copy argument (func) to the top of stack register_lua_cb(L, &wifi_scan_succeed); if (lua_type(L, 1)==LUA_TTABLE) { wifi_station_scan(&scan_cfg,wifi_scan_done); } else { wifi_station_scan(NULL,wifi_scan_done); } } else { unregister_lua_cb(L, &wifi_scan_succeed); } return 0; } // Lua: wifi.sta.gethostname() static int wifi_sta_gethostname( lua_State* L ) { char* hostname = wifi_station_get_hostname(); lua_pushstring(L, hostname); return 1; } // Used by wifi_sta_sethostname_lua and wifi_change_default_hostname // This function checks host name to ensure that it follows RFC 952 & RFC 1123 host name standards. static bool wifi_sta_checkhostname(const char *hostname, size_t len) { //the hostname must be 32 chars or less and first and last char must be alphanumeric if (len == 0 || len > 32 || !isalnum(hostname[0]) || !isalnum(hostname[len-1])){ return false; } //characters in the middle of the host name must be alphanumeric or a hyphen(-) only for (int i=1; i=1 && sl<=sizeof(config.ssid)) ), 1, "ssid: length:1-32"); memcpy(config.ssid, ssid, sl); config.ssid_len = sl; config.ssid_hidden = 0; } else { return luaL_argerror( L, 1, "ssid: not string" ); } } else { return luaL_argerror( L, 1, "ssid: required" ); } lua_pop(L, 1); lua_getfield(L, 1, "pwd"); if (!lua_isnil(L, -1)) /* found? */ { if( lua_isstring(L, -1) ) // deal with the password string { const char *pwd = luaL_checklstring( L, -1, &pl ); luaL_argcheck(L, (pl>=8 && pl<=sizeof(config.password)), 1, "pwd: length:0 or 8-64"); memcpy(config.password, pwd, pl); config.authmode = AUTH_WPA_WPA2_PSK; } else { return luaL_argerror( L, 1, "pwd: not string" ); } } else { config.authmode = AUTH_OPEN; } lua_pop(L, 1); lua_getfield(L, 1, "auth"); if (!lua_isnil(L, -1)) { if(lua_isnumber(L, -1)) { lint=luaL_checkinteger(L, -1); luaL_argcheck(L, (lint >= 0 && lint < AUTH_MAX), 1, "auth: Range:0-4"); config.authmode = (uint8_t)luaL_checkinteger(L, -1); } else { return luaL_argerror(L, 1, "auth: not number"); } } lua_pop(L, 1); lua_getfield(L, 1, "channel"); if (!lua_isnil(L, -1)) { if(lua_isnumber(L, -1)) { lint=luaL_checkinteger(L, -1); luaL_argcheck(L, (lint >= 1 && lint <= 13), 1, "channel: Range:1-13"); config.channel = (uint8_t)lint; } else { luaL_argerror(L, 1, "channel: not number"); } } else { config.channel = 6; } lua_pop(L, 1); lua_getfield(L, 1, "hidden"); if (!lua_isnil(L, -1)) { Ltype_tmp=lua_type(L, -1); if(Ltype_tmp==LUA_TNUMBER||Ltype_tmp==LUA_TBOOLEAN) { if(Ltype_tmp==LUA_TNUMBER) { lint=luaL_checkinteger(L, -1); } if(Ltype_tmp==LUA_TBOOLEAN) { lint=(lua_Number)lua_toboolean(L, -1); } luaL_argcheck(L, (lint == 0 || lint==1), 1, "hidden: 0 or 1"); config.ssid_hidden = (uint8_t)lint; } else { return luaL_argerror(L, 1, "hidden: not boolean"); } } else { config.ssid_hidden = 0; } lua_pop(L, 1); lua_getfield(L, 1, "max"); if (!lua_isnil(L, -1)) { if(lua_isnumber(L, -1)) { lint=luaL_checkinteger(L, -1); luaL_argcheck(L, (lint >= 1 && lint <= 4), 1, "max: 1-4"); config.max_connection = (uint8_t)lint; } else { return luaL_argerror(L, 1, "max: not number"); } } else { config.max_connection = 4; } lua_pop(L, 1); lua_getfield(L, 1, "beacon"); if (!lua_isnil(L, -1)) { if(lua_isnumber(L, -1)) { lint=luaL_checkinteger(L, -1); luaL_argcheck(L, (lint >= 100 && lint <= 60000), 1, "beacon: 100-60000"); config.beacon_interval = (uint16_t)lint; } else { return luaL_argerror(L, 1, "beacon: not number"); } } else { config.beacon_interval = 100; } lua_pop(L, 1); lua_getfield(L, 1, "save"); if (!lua_isnil(L, -1)) { if (lua_isboolean(L, -1)) { save_to_flash=lua_toboolean(L, -1); } else { return luaL_argerror(L, 1, "save: not boolean"); } } lua_pop(L, 1); #ifdef WIFI_SDK_EVENT_MONITOR_ENABLE lua_State* L_temp = NULL; lua_getfield(L, 1, "staconnected_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_SOFTAPMODE_STACONNECTED); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "staconnected_cb:not function"); } } lua_pop(L, 1); lua_getfield(L, 1, "stadisconnected_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_SOFTAPMODE_STADISCONNECTED); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "stadisconnected_cb:not function"); } } lua_pop(L, 1); lua_getfield(L, 1, "probereq_cb"); if (!lua_isnil(L, -1)) { if (lua_isfunction(L, -1)) { L_temp = lua_newthread(L); lua_pushnumber(L, EVENT_SOFTAPMODE_PROBEREQRECVED); lua_pushvalue(L, -3); lua_xmove(L, L_temp, 2); wifi_event_monitor_register(L_temp); } else { return luaL_argerror(L, 1, "probereq_cb:not function"); } } lua_pop(L, 1); #endif #if defined(WIFI_DEBUG) char debug_temp[sizeof(config.password)+1]; memset(debug_temp, 0, sizeof(debug_temp)); memcpy(debug_temp, config.ssid, sizeof(config.ssid)); WIFI_DBG("\n\tconfig.ssid=\"%s\" len=%d\n", debug_temp, sl); memset(debug_temp, 0, sizeof(debug_temp)); memcpy(debug_temp, config.password, sizeof(config.password)); WIFI_DBG("\tconfig.password=\"%s\" len=%d\n", debug_temp, pl); WIFI_DBG("\tconfig.authmode=%d\n", config.authmode); WIFI_DBG("\tconfig.channel=%d\n", config.channel); WIFI_DBG("\tconfig.ssid_hidden=%d\n", config.ssid_hidden); WIFI_DBG("\tconfig.max_connection=%d\n", config.max_connection); WIFI_DBG("\tconfig.beacon_interval=%d\n", config.beacon_interval); WIFI_DBG("\tsave_to_flash=%s\n", save_to_flash ? "true":"false"); #endif bool config_success; if(save_to_flash) { config_success = wifi_softap_set_config(&config); } else { config_success = wifi_softap_set_config_current(&config); } lua_pushboolean(L, config_success); return 1; } // Lua: table = wifi.ap.getclient() static int wifi_ap_listclient( lua_State* L ) { if (wifi_get_opmode() == STATION_MODE) { return luaL_error( L, "Can't list clients in STATION mode" ); } char temp[64]; lua_newtable(L); struct station_info * station = wifi_softap_get_station_info(); struct station_info * next_station; while (station != NULL) { sprintf(temp, MACSTR, MAC2STR(station->bssid)); wifi_add_sprintf_field(L, temp, IPSTR, IP2STR(&station->ip)); station = STAILQ_NEXT(station, next); } wifi_softap_free_station_info(); return 1; } // Lua: ip = wifi.ap.dhcp.config() static int wifi_ap_dhcp_config( lua_State* L ) { if (!lua_istable(L, 1)) return luaL_error( L, "wrong arg type" ); struct dhcps_lease lease; uint32_t ip; ip = parse_key(L, "start"); if (ip == 0) return luaL_error( L, "wrong arg type" ); lease.start_ip.addr = ip; NODE_DBG(IPSTR, IP2STR(&lease.start_ip)); NODE_DBG("\n"); // use configured max_connection to determine end struct softap_config config; wifi_softap_get_config(&config); lease.end_ip = lease.start_ip; ip4_addr4(&lease.end_ip) += config.max_connection - 1; char temp[64]; sprintf(temp, IPSTR, IP2STR(&lease.start_ip)); lua_pushstring(L, temp); sprintf(temp, IPSTR, IP2STR(&lease.end_ip)); lua_pushstring(L, temp); // note: DHCP max range = 101 from start_ip to end_ip wifi_softap_dhcps_stop(); wifi_softap_set_dhcps_lease(&lease); wifi_softap_dhcps_start(); return 2; } // Lua: wifi.ap.dhcp.start() static int wifi_ap_dhcp_start( lua_State* L ) { lua_pushboolean(L, wifi_softap_dhcps_start()); return 1; } // Lua: wifi.ap.dhcp.stop() static int wifi_ap_dhcp_stop( lua_State* L ) { lua_pushboolean(L, wifi_softap_dhcps_stop()); return 1; } // Module function map LROT_BEGIN(wifi_station) LROT_FUNCENTRY( autoconnect, wifi_station_setauto ) LROT_FUNCENTRY( changeap, wifi_station_change_ap ) LROT_FUNCENTRY( clearconfig, wifi_station_clear_config ) LROT_FUNCENTRY( config, wifi_station_config ) LROT_FUNCENTRY( connect, wifi_station_connect4lua ) LROT_FUNCENTRY( disconnect, wifi_station_disconnect4lua ) LROT_FUNCENTRY( getap, wifi_station_listap ) LROT_FUNCENTRY( getapindex, wifi_station_get_ap_index ) LROT_FUNCENTRY( getapinfo, wifi_station_get_ap_info4lua ) LROT_FUNCENTRY( getbroadcast, wifi_station_getbroadcast ) LROT_FUNCENTRY( getconfig, wifi_station_getconfig_current ) LROT_FUNCENTRY( getdefaultconfig, wifi_station_getconfig_default ) LROT_FUNCENTRY( gethostname, wifi_sta_gethostname ) LROT_FUNCENTRY( getip, wifi_station_getip ) LROT_FUNCENTRY( getmac, wifi_station_getmac ) LROT_FUNCENTRY( getrssi, wifi_station_getrssi ) LROT_FUNCENTRY( setaplimit, wifi_station_ap_number_set4lua ) LROT_FUNCENTRY( sethostname, wifi_sta_sethostname_lua ) LROT_FUNCENTRY( setip, wifi_station_setip ) LROT_FUNCENTRY( setmac, wifi_station_setmac ) LROT_FUNCENTRY( sleeptype, wifi_station_sleeptype ) LROT_FUNCENTRY( status, wifi_station_status ) LROT_END( wifi_station, wifi_station, 0 ) LROT_BEGIN(wifi_ap_dhcp) LROT_FUNCENTRY( config, wifi_ap_dhcp_config ) LROT_FUNCENTRY( start, wifi_ap_dhcp_start ) LROT_FUNCENTRY( stop, wifi_ap_dhcp_stop ) LROT_END( wifi_ap_dhcp, wifi_ap_dhcp, 0 ) LROT_BEGIN(wifi_ap) LROT_FUNCENTRY( config, wifi_ap_config ) LROT_FUNCENTRY( deauth, wifi_ap_deauth ) LROT_FUNCENTRY( getip, wifi_ap_getip ) LROT_FUNCENTRY( setip, wifi_ap_setip ) LROT_FUNCENTRY( getbroadcast, wifi_ap_getbroadcast ) LROT_FUNCENTRY( getmac, wifi_ap_getmac ) LROT_FUNCENTRY( setmac, wifi_ap_setmac ) LROT_FUNCENTRY( getclient, wifi_ap_listclient ) LROT_FUNCENTRY( getconfig, wifi_ap_getconfig_current ) LROT_FUNCENTRY( getdefaultconfig, wifi_ap_getconfig_default ) LROT_TABENTRY( dhcp, wifi_ap_dhcp ) LROT_END( wifi_ap, wifi_ap, 0 ) LROT_BEGIN(wifi) LROT_FUNCENTRY( setmode, wifi_setmode ) LROT_FUNCENTRY( getmode, wifi_getmode ) LROT_FUNCENTRY( getdefaultmode, wifi_getdefaultmode ) LROT_FUNCENTRY( getchannel, wifi_getchannel ) LROT_FUNCENTRY( getcountry, wifi_getcountry ) LROT_FUNCENTRY( setcountry, wifi_setcountry ) LROT_FUNCENTRY( setphymode, wifi_setphymode ) LROT_FUNCENTRY( getphymode, wifi_getphymode ) LROT_FUNCENTRY( setmaxtxpower, wifi_setmaxtxpower ) LROT_FUNCENTRY( suspend, wifi_suspend ) LROT_FUNCENTRY( resume, wifi_resume ) LROT_FUNCENTRY( nullmodesleep, wifi_null_mode_auto_sleep ) #ifdef WIFI_SMART_ENABLE LROT_FUNCENTRY( startsmart, wifi_start_smart ) LROT_FUNCENTRY( stopsmart, wifi_exit_smart ) #endif LROT_FUNCENTRY( sleeptype, wifi_station_sleeptype ) LROT_TABENTRY( sta, wifi_station ) LROT_TABENTRY( ap, wifi_ap ) #if defined(WIFI_SDK_EVENT_MONITOR_ENABLE) LROT_TABENTRY( eventmon, wifi_event_monitor ) #endif #if defined(LUA_USE_MODULES_WIFI_MONITOR) LROT_TABENTRY( monitor, wifi_monitor ) #endif LROT_NUMENTRY( NULLMODE, NULL_MODE ) LROT_NUMENTRY( STATION, STATION_MODE ) LROT_NUMENTRY( SOFTAP, SOFTAP_MODE ) LROT_NUMENTRY( STATIONAP, STATIONAP_MODE ) LROT_NUMENTRY( PHYMODE_B, PHY_MODE_11B ) LROT_NUMENTRY( PHYMODE_G, PHY_MODE_11G ) LROT_NUMENTRY( PHYMODE_N, PHY_MODE_11N ) LROT_NUMENTRY( NONE_SLEEP, NONE_SLEEP_T ) LROT_NUMENTRY( LIGHT_SLEEP, LIGHT_SLEEP_T ) LROT_NUMENTRY( MODEM_SLEEP, MODEM_SLEEP_T ) LROT_NUMENTRY( OPEN, AUTH_OPEN ) // LROT_NUMENTRY( WEP, AUTH_WEP ) LROT_NUMENTRY( WPA_PSK, AUTH_WPA_PSK ) LROT_NUMENTRY( WPA2_PSK, AUTH_WPA2_PSK ) LROT_NUMENTRY( WPA_WPA2_PSK, AUTH_WPA_WPA2_PSK ) LROT_NUMENTRY( STA_IDLE, STATION_IDLE ) LROT_NUMENTRY( STA_CONNECTING, STATION_CONNECTING ) LROT_NUMENTRY( STA_WRONGPWD, STATION_WRONG_PASSWORD ) LROT_NUMENTRY( STA_APNOTFOUND, STATION_NO_AP_FOUND ) LROT_NUMENTRY( STA_FAIL, STATION_CONNECT_FAIL ) LROT_NUMENTRY( STA_GOTIP, STATION_GOT_IP ) LROT_NUMENTRY( COUNTRY_AUTO, WIFI_COUNTRY_POLICY_AUTO ) LROT_NUMENTRY( COUNTRY_MANUAL, WIFI_COUNTRY_POLICY_MANUAL ) LROT_END( wifi, wifi, 0 ) // Used by user_rf_pre_init(user_main.c) void wifi_change_default_host_name(void) { uint8 opmode_temp=wifi_get_opmode(); wifi_set_opmode_current(STATION_MODE); char temp[33] = {0};//32 chars + NULL uint8_t mac[6]; wifi_get_macaddr(STATION_IF, mac); #ifndef WIFI_STA_HOSTNAME sprintf(temp, "NODE-%X%X%X", (mac)[3], (mac)[4], (mac)[5]); #elif defined(WIFI_STA_HOSTNAME) && !defined(WIFI_STA_HOSTNAME_APPEND_MAC) if(wifi_sta_checkhostname(WIFI_STA_HOSTNAME, strlen(WIFI_STA_HOSTNAME))){ sprintf(temp, "%s", WIFI_STA_HOSTNAME); } else{ sprintf(temp, "NODE-%X%X%X", (mac)[3], (mac)[4], (mac)[5]); } #elif defined(WIFI_STA_HOSTNAME) && defined(WIFI_STA_HOSTNAME_APPEND_MAC) if(strlen(WIFI_STA_HOSTNAME) <= 26 && wifi_sta_checkhostname(WIFI_STA_HOSTNAME, strlen(WIFI_STA_HOSTNAME))){ sprintf(temp, "%s%X%X%X", WIFI_STA_HOSTNAME, (mac)[3], (mac)[4], (mac)[5]); } else{ sprintf(temp, "NODE-%X%X%X", (mac)[3], (mac)[4], (mac)[5]); } #endif wifi_station_set_hostname((char*)temp); if(opmode_temp != wifi_get_opmode()){ wifi_set_opmode_current(opmode_temp); } } int luaopen_wifi( lua_State *L ) { wifi_fpm_auto_sleep_set_in_null_mode(1); //if esp is already in NULL_MODE, auto sleep setting won't take effect until next wifi_set_opmode(NULL_MODE) call. if(wifi_get_opmode()==NULL_MODE) { wifi_set_opmode_current(NULL_MODE); } #if defined(WIFI_SDK_EVENT_MONITOR_ENABLE) wifi_eventmon_init(); #endif #if defined(LUA_USE_MODULES_WIFI_MONITOR) wifi_monitor_init(L); #endif return 0; } NODEMCU_MODULE(WIFI, "wifi", wifi, luaopen_wifi);