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RTL8710_SDK_GCC_VERSION/component/common/api/wifi/wifi_ind.c
RtlduinoMan 905d81784e GCC SDK RTL8710 basic version (including the window platform cygwin installation and Ubuntu platform Linux Installation routines), 
including cross compilation of the installation, compile, link, run, debug, and so on.
SDK implementation of the function:
1, WiFi connection settings (including AP mode and STA mode).
2, peripheral resource control (including GPIO, SPI, UART, IIC, etc.).
3, the user uses the sample method.
2016-09-08 18:11:26 +08:00

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//----------------------------------------------------------------------------//
#include "wifi/wifi_ind.h"
#include "wifi/wifi_conf.h"
#include "osdep_service.h"
#include "platform_stdlib.h"
/******************************************************
* Constants
******************************************************/
#define WIFI_INDICATE_MSG 0
#define WIFI_MANAGER_STACKSIZE 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);
//printf("\n!!!!!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){
printf("\r\nrtw_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
void wifi_indication( WIFI_EVENT_INDICATE event, 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(event)
{
case WIFI_EVENT_DISCONNECT:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r %s():Disconnection indication received", __FUNCTION__);
#endif
break;
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
#if(WIFI_INDICATE_MSG==1)
// Sample: return mac address
if(buf != NULL && buf_len == 6)
{
printf("\n\r%s():Connect indication received: %02x:%02x:%02x:%02x:%02x:%02x", __FUNCTION__,
buf[0],buf[1],buf[2],buf[3],buf[4],buf[5]);
}
#endif
break;
case WIFI_EVENT_FOURWAY_HANDSHAKE_DONE:
#if(WIFI_INDICATE_MSG==1)
if(buf != NULL)
{
if(buf_len == strlen(IW_EXT_STR_FOURWAY_DONE))
printf("\n\r%s():%s", __FUNCTION__, buf);
}
#endif
break;
case WIFI_EVENT_SCAN_RESULT_REPORT:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_SCAN_RESULT_REPORT\n", __func__);
#endif
break;
case WIFI_EVENT_SCAN_DONE:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_SCAN_DONE\n", __func__);
#endif
break;
case WIFI_EVENT_RECONNECTION_FAIL:
#if(WIFI_INDICATE_MSG==1)
if(buf != NULL){
if(buf_len == strlen(IW_EXT_STR_RECONNECTION_FAIL))
printf("\n\r%s", buf);
}
#endif
break;
case WIFI_EVENT_NO_NETWORK:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_NO_NETWORK\n", __func__);
#endif
break;
#if CONFIG_ENABLE_P2P
case WIFI_EVENT_SEND_ACTION_DONE:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_SEND_ACTION_DONE\n", __func__);
#endif
break;
case WIFI_EVENT_RX_MGNT:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_RX_MGNT\n", __func__);
#endif
break;
#endif //CONFIG_ENABLE_P2P
case WIFI_EVENT_STA_ASSOC:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_STA_ASSOC\n", __func__);
#endif
break;
case WIFI_EVENT_STA_DISASSOC:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_STA_DISASSOC\n", __func__);
#endif
break;
#ifdef CONFIG_WPS
case WIFI_EVENT_STA_WPS_START:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_STA_WPS_START\n", __func__);
#endif
break;
case WIFI_EVENT_WPS_FINISH:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_WPS_FINISH\n", __func__);
#endif
break;
case WIFI_EVENT_EAPOL_RECVD:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_EAPOL_RECVD\n", __func__);
#endif
break;
#endif
case WIFI_EVENT_BEACON_AFTER_DHCP:
#if(WIFI_INDICATE_MSG==1)
printf("\n\r%s(): WIFI_EVENT_BEACON_AFTER_DHCP\n", __func__);
#endif
break;
}
#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
}
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