// WiFi Event Monitor #include "module.h" #include "lauxlib.h" #include "platform.h" #include "c_string.h" #include "c_stdlib.h" #include "c_types.h" #include "user_interface.h" #include "smart.h" #include "smartconfig.h" #include "user_config.h" #include "wifi_common.h" #if defined(LUA_USE_MODULES_WIFI) #ifdef WIFI_STATION_STATUS_MONITOR_ENABLE //variables for wifi event monitor static int wifi_station_status_cb_ref[6] = {[0 ... 6-1] = LUA_NOREF}; static os_timer_t wifi_sta_status_timer; static uint8 prev_wifi_status=0; // wifi.sta.eventMonStop() void wifi_station_event_mon_stop(lua_State* L) { os_timer_disarm(&wifi_sta_status_timer); if(lua_isstring(L,1)) { int i; for (i=0; i<6; i++) { unregister_lua_cb(L, &wifi_station_status_cb_ref[i]); } } return; } static void wifi_status_cb(int arg) { lua_State* L = lua_getstate(); if (wifi_get_opmode() == SOFTAP_MODE) { os_timer_disarm(&wifi_sta_status_timer); return; } int wifi_status = wifi_station_get_connect_status(); if (wifi_status != prev_wifi_status) { if(wifi_station_status_cb_ref[wifi_status] != LUA_NOREF) { lua_rawgeti(L, LUA_REGISTRYINDEX, wifi_station_status_cb_ref[wifi_status]); lua_pushnumber(L, prev_wifi_status); lua_call(L, 1, 0); } } prev_wifi_status = wifi_status; } // wifi.sta.eventMonReg() int wifi_station_event_mon_reg(lua_State* L) { platform_print_deprecation_note("wifi.sta.eventmonreg() is replaced by wifi.eventmon.register()", "in the next version"); uint8 id=(uint8)luaL_checknumber(L, 1); if ((id > 5)) // verify user specified a valid wifi status { return luaL_error( L, "valid wifi status:0-5" ); } if (lua_type(L, 2) == LUA_TFUNCTION || lua_type(L, 2) == LUA_TLIGHTFUNCTION) //check if 2nd item on stack is a function { lua_pushvalue(L, 2); //push function to top of stack register_lua_cb(L, &wifi_station_status_cb_ref[id]);//pop function from top of the stack, register it in the LUA_REGISTRY, then assign returned lua_ref to wifi_station_status_cb_ref[id] } else { unregister_lua_cb(L, &wifi_station_status_cb_ref[id]); // unregister user's callback } return 0; } // wifi.sta.eventMonStart() int wifi_station_event_mon_start(lua_State* L) { if(wifi_get_opmode() == SOFTAP_MODE) //Verify ESP is in either Station mode or StationAP mode { return luaL_error( L, "Can't monitor in SOFTAP mode" ); } if (wifi_station_status_cb_ref[0] == LUA_NOREF && wifi_station_status_cb_ref[1] == LUA_NOREF && wifi_station_status_cb_ref[2] == LUA_NOREF && wifi_station_status_cb_ref[3] == LUA_NOREF && wifi_station_status_cb_ref[4] == LUA_NOREF && wifi_station_status_cb_ref[5] == LUA_NOREF ) { //verify user has registered callbacks return luaL_error( L, "No callbacks defined" ); } uint32 ms = 150; //set default timer interval if(lua_isnumber(L, 1)) // check if user has specified a different timer interval { ms=luaL_checknumber(L, 1); // retrieve user-defined interval } os_timer_disarm(&wifi_sta_status_timer); os_timer_setfn(&wifi_sta_status_timer, (os_timer_func_t *)wifi_status_cb, NULL); os_timer_arm(&wifi_sta_status_timer, ms, 1); return 0; } #endif #ifdef WIFI_SDK_EVENT_MONITOR_ENABLE //variables for wifi event monitor static task_handle_t wifi_event_monitor_task_id; //variable to hold task id for task handler(process_event_queue) typedef struct evt_queue{ System_Event_t *evt; struct evt_queue * next; }evt_queue_t; //structure to hold pointers to event info and next item in queue static evt_queue_t *wifi_event_queue_head; //pointer to beginning of queue static evt_queue_t *wifi_event_queue_tail; //pointer to end of queue static int wifi_event_cb_ref[EVENT_MAX+1] = { [0 ... EVENT_MAX] = LUA_NOREF}; //holds references to registered Lua callbacks // wifi.eventmon.register() static int wifi_event_monitor_register(lua_State* L) { uint8 id = (uint8)luaL_checknumber(L, 1); if ( id > EVENT_MAX ) //Check if user is trying to register a callback for a valid event. { return luaL_error( L, "valid wifi events:0-%d", EVENT_MAX ); } else { if (lua_type(L, 2) == LUA_TFUNCTION || lua_type(L, 2) == LUA_TLIGHTFUNCTION) //check if 2nd item on stack is a function { lua_pushvalue(L, 2); // copy argument (func) to the top of stack register_lua_cb(L, &wifi_event_cb_ref[id]); //pop function from top of the stack, register it in the LUA_REGISTRY, then assign lua_ref to wifi_event_cb_ref[id] } else // unregister user's callback { unregister_lua_cb(L, &wifi_event_cb_ref[id]); } return 0; } } static void wifi_event_monitor_handle_event_cb(System_Event_t *evt) { EVENT_DBG("\n\twifi_event_monitor_handle_event_cb is called\n"); if((wifi_event_cb_ref[evt->event] != LUA_NOREF) || ((wifi_event_cb_ref[EVENT_MAX] != LUA_NOREF) && !(evt->event == EVENT_STAMODE_CONNECTED || evt->event == EVENT_STAMODE_DISCONNECTED || evt->event == EVENT_STAMODE_AUTHMODE_CHANGE||evt->event==EVENT_STAMODE_GOT_IP || evt->event == EVENT_STAMODE_DHCP_TIMEOUT||evt->event==EVENT_SOFTAPMODE_STACONNECTED || evt->event == EVENT_SOFTAPMODE_STADISCONNECTED||evt->event==EVENT_SOFTAPMODE_PROBEREQRECVED))) { evt_queue_t *temp = (evt_queue_t*)c_malloc(sizeof(evt_queue_t)); //allocate memory for new queue item temp->evt = (System_Event_t*)c_malloc(sizeof(System_Event_t)); //allocate memory to hold event structure if(!temp || !temp->evt) { luaL_error(lua_getstate(), "wifi.eventmon malloc: out of memory"); return; } c_memcpy(temp->evt, evt, sizeof(System_Event_t)); //copy event data to new struct if(wifi_event_queue_head == NULL && wifi_event_queue_tail == NULL)// if queue is empty add item to queue { wifi_event_queue_head = wifi_event_queue_tail = temp; EVENT_DBG("\n\tqueue empty, adding event and posting task\n"); task_post_low(wifi_event_monitor_task_id, false); } else //if queue is not empty append item to end of queue { wifi_event_queue_tail->next=temp; wifi_event_queue_tail=temp; EVENT_DBG("\n\tqueue not empty, appending queue\n"); } } } static void wifi_event_monitor_process_event_queue(task_param_t param, uint8 priority) { lua_State* L = lua_getstate(); evt_queue_t *temp = wifi_event_queue_head; //copy event_queue_head pointer to temporary pointer System_Event_t *evt = temp->evt; //copy event data pointer to temporary pointer EVENT_DBG("\t\tevent %u\n", evt->event); if(wifi_event_cb_ref[evt->event] != LUA_NOREF) // check if user has registered a callback { lua_rawgeti(L, LUA_REGISTRYINDEX, wifi_event_cb_ref[evt->event]); //get user's callback } else if((wifi_event_cb_ref[EVENT_MAX]!=LUA_NOREF) && !(evt->event==EVENT_STAMODE_CONNECTED||evt->event==EVENT_STAMODE_DISCONNECTED|| evt->event==EVENT_STAMODE_AUTHMODE_CHANGE||evt->event==EVENT_STAMODE_GOT_IP|| evt->event==EVENT_STAMODE_DHCP_TIMEOUT||evt->event==EVENT_SOFTAPMODE_STACONNECTED|| evt->event==EVENT_SOFTAPMODE_STADISCONNECTED||evt->event==EVENT_SOFTAPMODE_PROBEREQRECVED)) { //if user has registered an EVENT_MAX(default) callback and event is not implemented... lua_rawgeti(L, LUA_REGISTRYINDEX, wifi_event_cb_ref[EVENT_MAX]); //get user's callback } lua_newtable( L ); switch (evt->event) { case EVENT_STAMODE_CONNECTED: EVENT_DBG("\n\tSTAMODE_CONNECTED\n"); wifi_add_sprintf_field(L, "SSID", (char*)evt->event_info.connected.ssid); wifi_add_sprintf_field(L, "BSSID", MACSTR, MAC2STR(evt->event_info.connected.bssid)); wifi_add_int_field(L, "channel", evt->event_info.connected.channel); EVENT_DBG("\tConnected to SSID %s, Channel %d\n", evt->event_info.connected.ssid, evt->event_info.connected.channel); break; case EVENT_STAMODE_DISCONNECTED: EVENT_DBG("\n\tSTAMODE_DISCONNECTED\n"); wifi_add_sprintf_field(L, "SSID", (char*)evt->event_info.disconnected.ssid); wifi_add_int_field(L, "reason", evt->event_info.disconnected.reason); wifi_add_sprintf_field(L, "BSSID", MACSTR, MAC2STR(evt->event_info.disconnected.bssid)); EVENT_DBG("\tDisconnect from SSID %s, reason %d\n", evt->event_info.disconnected.ssid, evt->event_info.disconnected.reason); break; case EVENT_STAMODE_AUTHMODE_CHANGE: EVENT_DBG("\n\tSTAMODE_AUTHMODE_CHANGE\n"); wifi_add_int_field(L, "old_auth_mode", evt->event_info.auth_change.old_mode); wifi_add_int_field(L, "new_auth_mode", evt->event_info.auth_change.new_mode); EVENT_DBG("\tAuthmode: %u -> %u\n", evt->event_info.auth_change.old_mode, evt->event_info.auth_change.new_mode); break; case EVENT_STAMODE_GOT_IP: EVENT_DBG("\n\tGOT_IP\n"); wifi_add_sprintf_field(L, "IP", IPSTR, IP2STR(&evt->event_info.got_ip.ip)); wifi_add_sprintf_field(L, "netmask", IPSTR, IP2STR(&evt->event_info.got_ip.mask)); wifi_add_sprintf_field(L, "gateway", IPSTR, IP2STR(&evt->event_info.got_ip.gw)); EVENT_DBG("\tIP:" IPSTR ",Mask:" IPSTR ",GW:" IPSTR "\n", IP2STR(&evt->event_info.got_ip.ip), IP2STR(&evt->event_info.got_ip.mask), IP2STR(&evt->event_info.got_ip.gw)); break; case EVENT_STAMODE_DHCP_TIMEOUT: EVENT_DBG("\n\tSTAMODE_DHCP_TIMEOUT\n"); break; case EVENT_SOFTAPMODE_STACONNECTED: EVENT_DBG("\n\tSOFTAPMODE_STACONNECTED\n"); wifi_add_sprintf_field(L, "MAC", MACSTR, MAC2STR(evt->event_info.sta_connected.mac)); wifi_add_int_field(L, "AID", evt->event_info.sta_connected.aid); EVENT_DBG("\tStation: " MACSTR "join, AID = %d\n", MAC2STR(evt->event_info.sta_connected.mac), evt->event_info.sta_connected.aid); break; case EVENT_SOFTAPMODE_STADISCONNECTED: EVENT_DBG("\n\tSOFTAPMODE_STADISCONNECTED\n"); wifi_add_sprintf_field(L, "MAC", MACSTR, MAC2STR(evt->event_info.sta_disconnected.mac)); wifi_add_int_field(L, "AID", evt->event_info.sta_disconnected.aid); EVENT_DBG("\tstation: " MACSTR "leave, AID = %d\n", MAC2STR(evt->event_info.sta_disconnected.mac), evt->event_info.sta_disconnected.aid); break; case EVENT_SOFTAPMODE_PROBEREQRECVED: EVENT_DBG("\n\tSOFTAPMODE_PROBEREQRECVED\n"); wifi_add_sprintf_field(L, "MAC", MACSTR, MAC2STR(evt->event_info.ap_probereqrecved.mac)); wifi_add_int_field(L, "RSSI", evt->event_info.ap_probereqrecved.rssi); EVENT_DBG("Station PROBEREQ: " MACSTR " RSSI = %d\n", MAC2STR(evt->event_info.ap_probereqrecved.mac), evt->event_info.ap_probereqrecved.rssi); break; default://if event is not implemented, push table with userdata containing event data EVENT_DBG("\n\tswitch/case default\n"); wifi_add_sprintf_field(L, "info", "event %u not implemented", evt->event); break; } lua_call(L, 1, 0); //execute user's callback and pass Lua table if (wifi_event_queue_head == wifi_event_queue_tail) //if queue is empty.. { wifi_event_queue_head = wifi_event_queue_tail = NULL; //set queue pointers to NULL EVENT_DBG("\n\tQueue empty\n"); } else //if queue is not empty... { wifi_event_queue_head = wifi_event_queue_head->next; //append item to end of queue EVENT_DBG("\n\tmore in queue, posting task...\n"); task_post_low(wifi_event_monitor_task_id, false); //post task to process next item in queue } c_free(evt); //free memory used by event structure c_free(temp); //free memory used by queue structure } #ifdef WIFI_EVENT_MONITOR_DISCONNECT_REASON_LIST_ENABLE static const LUA_REG_TYPE wifi_event_monitor_reason_map[] = { { LSTRKEY( "UNSPECIFIED" ), LNUMVAL( REASON_UNSPECIFIED ) }, { LSTRKEY( "AUTH_EXPIRE" ), LNUMVAL( REASON_AUTH_EXPIRE ) }, { LSTRKEY( "AUTH_LEAVE" ), LNUMVAL( REASON_AUTH_LEAVE ) }, { LSTRKEY( "ASSOC_EXPIRE" ), LNUMVAL( REASON_ASSOC_EXPIRE ) }, { LSTRKEY( "ASSOC_TOOMANY" ), LNUMVAL( REASON_ASSOC_TOOMANY ) }, { LSTRKEY( "NOT_AUTHED" ), LNUMVAL( REASON_NOT_AUTHED ) }, { LSTRKEY( "NOT_ASSOCED" ), LNUMVAL( REASON_NOT_ASSOCED ) }, { LSTRKEY( "ASSOC_LEAVE" ), LNUMVAL( REASON_ASSOC_LEAVE ) }, { LSTRKEY( "ASSOC_NOT_AUTHED" ), LNUMVAL( REASON_ASSOC_NOT_AUTHED ) }, { LSTRKEY( "DISASSOC_PWRCAP_BAD" ), LNUMVAL( REASON_DISASSOC_PWRCAP_BAD ) }, { LSTRKEY( "DISASSOC_SUPCHAN_BAD" ), LNUMVAL( REASON_DISASSOC_SUPCHAN_BAD ) }, { LSTRKEY( "IE_INVALID" ), LNUMVAL( REASON_IE_INVALID ) }, { LSTRKEY( "MIC_FAILURE" ), LNUMVAL( REASON_MIC_FAILURE ) }, { LSTRKEY( "4WAY_HANDSHAKE_TIMEOUT" ), LNUMVAL( REASON_4WAY_HANDSHAKE_TIMEOUT ) }, { LSTRKEY( "GROUP_KEY_UPDATE_TIMEOUT" ), LNUMVAL( REASON_GROUP_KEY_UPDATE_TIMEOUT ) }, { LSTRKEY( "IE_IN_4WAY_DIFFERS" ), LNUMVAL( REASON_IE_IN_4WAY_DIFFERS ) }, { LSTRKEY( "GROUP_CIPHER_INVALID" ), LNUMVAL( REASON_GROUP_CIPHER_INVALID ) }, { LSTRKEY( "PAIRWISE_CIPHER_INVALID" ), LNUMVAL( REASON_PAIRWISE_CIPHER_INVALID ) }, { LSTRKEY( "AKMP_INVALID" ), LNUMVAL( REASON_AKMP_INVALID ) }, { LSTRKEY( "UNSUPP_RSN_IE_VERSION" ), LNUMVAL( REASON_UNSUPP_RSN_IE_VERSION ) }, { LSTRKEY( "INVALID_RSN_IE_CAP" ), LNUMVAL( REASON_INVALID_RSN_IE_CAP ) }, { LSTRKEY( "802_1X_AUTH_FAILED" ), LNUMVAL( REASON_802_1X_AUTH_FAILED ) }, { LSTRKEY( "CIPHER_SUITE_REJECTED" ), LNUMVAL( REASON_CIPHER_SUITE_REJECTED ) }, { LSTRKEY( "BEACON_TIMEOUT" ), LNUMVAL( REASON_BEACON_TIMEOUT ) }, { LSTRKEY( "NO_AP_FOUND" ), LNUMVAL( REASON_NO_AP_FOUND ) }, { LSTRKEY( "AUTH_FAIL" ), LNUMVAL( REASON_AUTH_FAIL ) }, { LSTRKEY( "ASSOC_FAIL" ), LNUMVAL( REASON_ASSOC_FAIL ) }, { LSTRKEY( "HANDSHAKE_TIMEOUT" ), LNUMVAL( REASON_HANDSHAKE_TIMEOUT ) }, { LNILKEY, LNILVAL } }; #endif const LUA_REG_TYPE wifi_event_monitor_map[] = { { LSTRKEY( "register" ), LFUNCVAL( wifi_event_monitor_register ) }, { LSTRKEY( "unregister" ), LFUNCVAL( wifi_event_monitor_register ) }, { LSTRKEY( "STA_CONNECTED" ), LNUMVAL( EVENT_STAMODE_CONNECTED ) }, { LSTRKEY( "STA_DISCONNECTED" ), LNUMVAL( EVENT_STAMODE_DISCONNECTED ) }, { LSTRKEY( "STA_AUTHMODE_CHANGE" ), LNUMVAL( EVENT_STAMODE_AUTHMODE_CHANGE ) }, { LSTRKEY( "STA_GOT_IP" ), LNUMVAL( EVENT_STAMODE_GOT_IP ) }, { LSTRKEY( "STA_DHCP_TIMEOUT" ), LNUMVAL( EVENT_STAMODE_DHCP_TIMEOUT ) }, { LSTRKEY( "AP_STACONNECTED" ), LNUMVAL( EVENT_SOFTAPMODE_STACONNECTED ) }, { LSTRKEY( "AP_STADISCONNECTED" ), LNUMVAL( EVENT_SOFTAPMODE_STADISCONNECTED ) }, { LSTRKEY( "AP_PROBEREQRECVED" ), LNUMVAL( EVENT_SOFTAPMODE_PROBEREQRECVED ) }, { LSTRKEY( "EVENT_MAX" ), LNUMVAL( EVENT_MAX ) }, #ifdef WIFI_EVENT_MONITOR_DISCONNECT_REASON_LIST_ENABLE { LSTRKEY( "reason" ), LROVAL( wifi_event_monitor_reason_map ) }, #endif { LNILKEY, LNILVAL } }; void wifi_eventmon_init() { wifi_event_monitor_task_id = task_get_id(wifi_event_monitor_process_event_queue);//get task id from task interface wifi_set_event_handler_cb(wifi_event_monitor_handle_event_cb); return; } #endif #endif