//----------------------------------------------------------------------------// #include "wifi/wifi_ind.h" #include "wifi/wifi_conf.h" #include "osdep_service.h" #include "platform_stdlib.h" /****************************************************** * Constants ******************************************************/ #if CONFIG_DEBUG_LOG > 3 #define WIFI_INDICATE_MSG 1 #else #define WIFI_INDICATE_MSG 0 #endif #define WIFI_MANAGER_STACKSIZE 400 // 1300 #define WIFI_MANAGER_PRIORITY (0) //Actual priority is 4 since calling rtw_create_task #define WIFI_MANAGER_Q_SZ 8 #define WIFI_EVENT_MAX_ROW 3 /****************************************************** * Globals ******************************************************/ static event_list_elem_t event_callback_list[WIFI_EVENT_MAX][WIFI_EVENT_MAX_ROW]; #if CONFIG_WIFI_IND_USE_THREAD static rtw_worker_thread_t wifi_worker_thread; #endif //----------------------------------------------------------------------------// #if CONFIG_WIFI_IND_USE_THREAD static rtw_result_t rtw_send_event_to_worker(int event_cmd, char *buf, int buf_len, int flags) { rtw_event_message_t message; int i; rtw_result_t ret = RTW_SUCCESS; char *local_buf = NULL; if (event_cmd >= WIFI_EVENT_MAX) return RTW_BADARG; for (i = 0; i < WIFI_EVENT_MAX_ROW; i++) { if (event_callback_list[event_cmd][i].handler == NULL) continue; message.function = (event_handler_t) event_callback_list[event_cmd][i].handler; message.buf_len = buf_len; if (buf_len) { local_buf = (char*) pvPortMalloc(buf_len); if (local_buf == NULL) return RTW_NOMEM; memcpy(local_buf, buf, buf_len); //debug_printf("Allocate %p(%d) for evcmd %d\n", local_buf, buf_len, event_cmd); } message.buf = local_buf; message.flags = flags; message.user_data = event_callback_list[event_cmd][i].handler_user_data; ret = rtw_push_to_xqueue(&wifi_worker_thread.event_queue, &message, 0); if (ret != RTW_SUCCESS) { if (local_buf) { warning_printf( "rtw_send_event_to_worker: enqueue cmd %d failed and free %p(%d)\n", event_cmd, local_buf, buf_len); vPortFree(local_buf); } break; } } return ret; } #else static rtw_result_t rtw_indicate_event_handle(int event_cmd, char *buf, int buf_len, int flags) { rtw_event_handler_t handle = NULL; int i; if(event_cmd >= WIFI_EVENT_MAX) return RTW_BADARG; for(i = 0; i < WIFI_EVENT_MAX_ROW; i++) { handle = event_callback_list[event_cmd][i].handler; if(handle == NULL) continue; handle(buf, buf_len, flags, event_callback_list[event_cmd][i].handler_user_data); } return RTW_SUCCESS; } #endif #if 0 // test beacon #include "gpio_api.h" // mbed extern gpio_t gpio_led; #endif void wifi_indication(WIFI_EVENT_INDICATE event, unsigned char *buf, int buf_len, int flags) { // // If upper layer application triggers additional operations on receiving of wext_wlan_indicate, // please strictly check current stack size usage (by using uxTaskGetStackHighWaterMark() ) // , and tries not to share the same stack with wlan driver if remaining stack space is // not available for the following operations. // ex: using semaphore to notice another thread. switch ((u32)event) { case WIFI_EVENT_DISCONNECT: #if(WIFI_INDICATE_MSG>0) info_printf("%s(%d): Disconnection indication received\n", __func__, event); #endif break; #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_CONNECT: // For WPA/WPA2 mode, indication of connection does not mean data can be // correctly transmitted or received. Data can be correctly transmitted or // received only when 4-way handshake is done. // Please check WIFI_EVENT_FOURWAY_HANDSHAKE_DONE event // Sample: return mac address if (buf != NULL && buf_len == 6) { info_printf( "%s(%d): Connect indication received: %02x:%02x:%02x:%02x:%02x:%02x\n", __func__, event, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5]); } break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_FOURWAY_HANDSHAKE_DONE: if (buf != NULL) info_printf("%s(%d): %s\n", __func__, event, buf); break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_SCAN_RESULT_REPORT: info_printf("%s(%d): WIFI_EVENT_SCAN_RESULT_REPORT\n", __func__, event); break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_SCAN_DONE: info_printf("%s(%d): WIFI_EVENT_SCAN_DONE\n", __func__, event); //#if CONFIG_DEBUG_LOG > 3 // debug_printf("Time at start %d ms.\n", xTaskGetTickCount()); //#endif break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_RECONNECTION_FAIL: info_printf("%s(%d): %s\n", __func__, event, buf); break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_NO_NETWORK: info_printf("%s(%d): %s\n", __func__, event, buf); break; #endif #if CONFIG_ENABLE_P2P #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_SEND_ACTION_DONE: info_printf("%s(%d): %s\n", __func__, event, buf); break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_RX_MGNT: info_printf("%s(%d): WIFI_EVENT_RX_MGNT\n", __func__, event); break; #endif #endif //CONFIG_ENABLE_P2P #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_STA_ASSOC: info_printf("%s(%d): WIFI_EVENT_STA_ASSOC\n", __func__, event); break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_STA_DISASSOC: info_printf("%s(%d): WIFI_EVENT_STA_DISASSOC\n", __func__, event); break; #endif #ifdef CONFIG_WPS #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_STA_WPS_START: info_printf("%s(%d): WIFI_EVENT_STA_WPS_START\n", __func__, event); break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_WPS_FINISH: info_printf("%s(%d): WIFI_EVENT_WPS_FINISH\n", __func__, event); break; #endif #if(WIFI_INDICATE_MSG>0) case WIFI_EVENT_EAPOL_RECVD: info_printf("%s(%d): WIFI_EVENT_EAPOL_RECVD\n", __func__, event); break; #endif #endif #if(WIFI_INDICATE_MSG>1) case WIFI_EVENT_BEACON_AFTER_DHCP: info_printf("%s(%d): WIFI_EVENT_BEACON_AFTER_DHCP\n", __func__, event); #if 0 // test beacon gpio_write(&gpio_led, 1); gpio_write(&gpio_led, 0); #endif break; #endif } #if CONFIG_INIC_EN inic_indicate_event(event, buf, buf_len, flags); #endif//CONFIG_INIC_EN #if CONFIG_WIFI_IND_USE_THREAD rtw_send_event_to_worker(event, buf, buf_len, flags); #else rtw_indicate_event_handle(event, buf, buf_len, flags); #endif } void wifi_reg_event_handler(unsigned int event_cmds, rtw_event_handler_t handler_func, void *handler_user_data) { int i = 0, j = 0; if (event_cmds < WIFI_EVENT_MAX) { for (i = 0; i < WIFI_EVENT_MAX_ROW; i++) { if (event_callback_list[event_cmds][i].handler == NULL) { for (j = 0; j < WIFI_EVENT_MAX_ROW; j++) { if (event_callback_list[event_cmds][j].handler == handler_func) { return; } } event_callback_list[event_cmds][i].handler = handler_func; event_callback_list[event_cmds][i].handler_user_data = handler_user_data; return; } } } } void wifi_unreg_event_handler(unsigned int event_cmds, rtw_event_handler_t handler_func) { int i; if (event_cmds < WIFI_EVENT_MAX) { for (i = 0; i < WIFI_EVENT_MAX_ROW; i++) { if (event_callback_list[event_cmds][i].handler == handler_func) { event_callback_list[event_cmds][i].handler = NULL; event_callback_list[event_cmds][i].handler_user_data = NULL; return; } } } } void init_event_callback_list() { memset(event_callback_list, 0, sizeof(event_callback_list)); } int wifi_manager_init() { #if CONFIG_WIFI_IND_USE_THREAD rtw_create_worker_thread(&wifi_worker_thread, WIFI_MANAGER_PRIORITY, WIFI_MANAGER_STACKSIZE, WIFI_MANAGER_Q_SZ); #endif return 0; } void rtw_wifi_manager_deinit() { #if CONFIG_WIFI_IND_USE_THREAD rtw_delete_worker_thread(&wifi_worker_thread); #endif }