examples/platform/silabs/SiWx917/SiWx917/wfx_rsi_host.c - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2022 Project CHIP Authors
  *
  *    Licensed under the Apache License, Version 2.0 (the "License");
  *    you may not use this file except in compliance with the License.
  *    You may obtain a copy of the License at
  *
  *    http://www.apache.org/licenses/LICENSE-2.0
  *
  *    Unless required by applicable law or agreed to in writing, software
  *    distributed under the License is distributed on an "AS IS" BASIS,
  *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  *    See the License for the specific language governing permissions and
  *    limitations under the License.
  */

 #include "stdbool.h"
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #include "sl_status.h"

 #include "FreeRTOS.h"
 #include "event_groups.h"
 #include "task.h"

 #include "wfx_host_events.h"
 #include "wfx_rsi.h"

 /* wfxRsi Task will use as its stack */
 StackType_t wfxRsiTaskStack[WFX_RSI_TASK_SZ] = { 0 };

 /* Structure that will hold the TCB of the wfxRsi Task being created. */
 StaticTask_t wfxRsiTaskBuffer;

 /*********************************************************************
  * @fn  sl_status_t wfx_wifi_start(void)
  * @brief
  * Called from ConnectivityManagerImpl.cpp - to enable the device
  * Create the RSI task and let it deal with life.
  * @param[in]  None
  * @return  Returns SL_STATUS_OK if successful,
  *          SL_STATUS_FAIL otherwise
  ***********************************************************************/
 sl_status_t wfx_wifi_start(void)
 {
     if (wfx_rsi.dev_state & WFX_RSI_ST_STARTED)
     {
         WFX_RSI_LOG("%s: already started.", __func__);
         return SL_STATUS_OK;
     }
     wfx_rsi.dev_state |= WFX_RSI_ST_STARTED;
     WFX_RSI_LOG("%s: starting..", __func__);
     /*
      * Create the Wifi driver task
      */
     wfx_rsi.wlan_task = xTaskCreateStatic(wfx_rsi_task, "wfx_rsi", WFX_RSI_TASK_SZ, NULL, WLAN_DRIVER_TASK_PRIORITY,
                                           wfxRsiTaskStack, &wfxRsiTaskBuffer);

     if (NULL == wfx_rsi.wlan_task)
     {
         WFX_RSI_LOG("%s: error: failed to create task.", __func__);
         return SL_STATUS_FAIL;
     }
     return SL_STATUS_OK;
 }

 int32_t wfx_rsi_platform()
 {
     return wfx_rsi_init_platform();
 }

 /*********************************************************************
  * @fn  void wfx_enable_sta_mode(void)
  * @brief
  *      driver enable the STA mode
  * @param[in]  None
  * @return   None
  ***********************************************************************/
 void wfx_enable_sta_mode(void)
 {
     wfx_rsi.dev_state |= WFX_RSI_ST_STA_MODE;
 }

 /*********************************************************************
  * @fn  bool wfx_is_sta_mode_enabled(void)
  * @brief
  *      driver enabled the STA mode
  * @param[in]  None
  * @return   mode
  ***********************************************************************/
 bool wfx_is_sta_mode_enabled(void)
 {
     bool mode;
     mode = !!(wfx_rsi.dev_state & WFX_RSI_ST_STA_MODE);
     // WFX_RSI_LOG("%s: %d", __func__, (mode ? "yes" : "no"));
     return mode;
 }

 /*********************************************************************
  * @fn  sl_wfx_state_t wfx_get_wifi_state(void)
  * @brief
  *      get the wifi state
  * @param[in]  None
  * @return   return SL_WFX_NOT_INIT if successful,
  *         SL_WFX_started otherwise
  ***********************************************************************/
 sl_wfx_state_t wfx_get_wifi_state(void)
 {
     if (wfx_rsi.dev_state & WFX_RSI_ST_STA_DHCP_DONE)
     {
         return SL_WFX_STA_INTERFACE_CONNECTED;
     }
     if (wfx_rsi.dev_state & WFX_RSI_ST_DEV_READY)
     {
         return SL_WFX_STARTED;
     }
     return SL_WFX_NOT_INIT;
 }

 /*********************************************************************
  * @fn  sl_wfx_state_t wfx_get_wifi_state(void)
  * @brief
  *      get the wifi mac address
  * @param[in]  Interface:
  * @param[in]  addr : address
  * @return
  *       None
  ***********************************************************************/
 void wfx_get_wifi_mac_addr(sl_wfx_interface_t interface, sl_wfx_mac_address_t * addr)
 {
     sl_wfx_mac_address_t * mac;

 #ifdef SL_WFX_CONFIG_SOFTAP
     mac = (interface == SL_WFX_SOFTAP_INTERFACE) ? &wfx_rsi.softap_mac : &wfx_rsi.sta_mac;
 #else
     mac = &wfx_rsi.sta_mac;
 #endif
     *addr = *mac;
     WFX_RSI_LOG("%s: %02x:%02x:%02x:%02x:%02x:%02x", __func__, mac->octet[0], mac->octet[1], mac->octet[2], mac->octet[3],
                 mac->octet[4], mac->octet[5]);
 }

 /*********************************************************************
  * @fn  void wfx_set_wifi_provision(wfx_wifi_provision_t *cfg)
  * @brief
  *      Driver set the wifi provision
  * @param[in]  cfg:  wifi configuration
  * @return
  *       None
  ***********************************************************************/
 void wfx_set_wifi_provision(wfx_wifi_provision_t * cfg)
 {
     WFX_RSI_LOG("%s: SSID: %s", __func__, &wfx_rsi.sec.ssid[0]);

     wfx_rsi.sec = *cfg;
     wfx_rsi.dev_state |= WFX_RSI_ST_STA_PROVISIONED;
 }

 /*********************************************************************
  * @fn  bool wfx_get_wifi_provision(wfx_wifi_provision_t *wifiConfig)
  * @brief
  *      Driver get the wifi provision
  * @param[in]  wifiConfig:  wifi configuration
  * @return  return false if successful,
  *        true otherwise
  ***********************************************************************/
 bool wfx_get_wifi_provision(wfx_wifi_provision_t * wifiConfig)
 {
     if (wifiConfig != NULL)
     {
         if (wfx_rsi.dev_state & WFX_RSI_ST_STA_PROVISIONED)
         {
             *wifiConfig = wfx_rsi.sec;
             return true;
         }
     }
     return false;
 }

 /*********************************************************************
  * @fn  bool wfx_is_sta_provisioned(void)
  * @brief
  *      Driver is STA provisioned
  * @param[in]  None
  * @return  None
  ***********************************************************************/
 bool wfx_is_sta_provisioned(void)
 {
     bool status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_PROVISIONED) ? true : false;
     WFX_RSI_LOG("%s: status: SSID -> %s: %s", __func__, &wfx_rsi.sec.ssid[0], (status ? "provisioned" : "not provisioned"));
     return status;
 }

 /*********************************************************************
  * @fn  void wfx_clear_wifi_provision(void)
  * @brief
  *      Driver is clear the wifi provision
  * @param[in]  None
  * @return  None
  ***********************************************************************/
 void wfx_clear_wifi_provision(void)
 {
     memset(&wfx_rsi.sec, 0, sizeof(wfx_rsi.sec));
     wfx_rsi.dev_state &= ~WFX_RSI_ST_STA_PROVISIONED;
     WFX_RSI_LOG("%s: completed.", __func__);
 }

 /*************************************************************************
  * @fn sl_status_t wfx_connect_to_ap(void)
  * @brief
  * Start a JOIN command to the AP - Done by the wfx_rsi task
  * @param[in]   None
  * @return  returns SL_STATUS_OK if successful,
  *         SL_STATUS_INVALID_CONFIGURATION otherwise
  ****************************************************************************/
 sl_status_t wfx_connect_to_ap(void)
 {
     if (wfx_rsi.dev_state & WFX_RSI_ST_STA_PROVISIONED)
     {
         WFX_RSI_LOG("%s: connecting to access point -> SSID: %s, PSK:%s", __func__, &wfx_rsi.sec.ssid[0], &wfx_rsi.sec.passkey[0]);
         xEventGroupSetBits(wfx_rsi.events, WFX_EVT_STA_START_JOIN);
     }
     else
     {
         WFX_RSI_LOG("%s: error: access point not provisioned", __func__);
         return SL_STATUS_INVALID_CONFIGURATION;
     }
     return SL_STATUS_OK;
 }

 /*********************************************************************
  * @fn  void wfx_setup_ip6_link_local(sl_wfx_interface_t whichif)
  * @brief
  *      Implement the ipv6 setup
  * @param[in]  whichif:
  * @return  None
  ***********************************************************************/
 void wfx_setup_ip6_link_local(sl_wfx_interface_t whichif)
 {
     /*
      * TODO: Implement IPV6 setup, currently in wfx_rsi_task()
      * This is hooked with MATTER code.
      */
     WFX_RSI_LOG("%s: warning: not implemented.", __func__);
 }

 /*********************************************************************
  * @fn  bool wfx_is_sta_connected(void)
  * @brief
  *      called fuction when driver is connected to STA
  * @param[in]  None
  * @return  returns ture if successful,
  *          false otherwise
  ***********************************************************************/
 bool wfx_is_sta_connected(void)
 {
     bool status;
     status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_CONNECTED) ? true : false;
     WFX_RSI_LOG("%s: status: %s", __func__, (status ? "connected" : "not connected"));
     return status;
 }

 /*********************************************************************
  * @fn  wifi_mode_t wfx_get_wifi_mode()
  * @brief
  *      get the wifi mode
  * @param[in]  None
  * @return  return WIFI_MODE_NULL if successful,
  *          WIFI_MODE_STA otherwise
  ***********************************************************************/
 wifi_mode_t wfx_get_wifi_mode()
 {
     if (wfx_rsi.dev_state & WFX_RSI_ST_DEV_READY)
         return WIFI_MODE_STA;
     return WIFI_MODE_NULL;
 }

 /*********************************************************************
  * @fn  sl_status_t wfx_sta_discon(void)
  * @brief
  *      called fuction when STA disconnected
  * @param[in]  None
  * @return  return SL_STATUS_OK if successful,
  *          SL_STATUS_FAIL otherwise
  ***********************************************************************/
 sl_status_t wfx_sta_discon(void)
 {
     WFX_RSI_LOG("%s: started.", __func__);
     int32_t status;
     status = wfx_rsi_disconnect();
     wfx_rsi.dev_state &= ~WFX_RSI_ST_STA_CONNECTED;
     WFX_RSI_LOG("%s: completed.", __func__);
     return status;
 }
 #if CHIP_DEVICE_CONFIG_ENABLE_IPV4
 /*********************************************************************
  * @fn  bool wfx_have_ipv4_addr(sl_wfx_interface_t which_if)
  * @brief
  *      called fuction when driver have ipv4 address
  * @param[in]  which_if:
  * @return  returns ture if successful,
  *          false otherwise
  ***********************************************************************/
 bool wfx_have_ipv4_addr(sl_wfx_interface_t which_if)
 {
     bool status = false;
     if (which_if == SL_WFX_STA_INTERFACE)
     {
         status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_DHCP_DONE) ? true : false;
     }
     else
     {
         status = false; /* TODO */
     }
     WFX_RSI_LOG("%s: status: %d", __func__, status);
     return status;
 }
 #endif /* CHIP_DEVICE_CONFIG_ENABLE_IPV4 */

 /*********************************************************************
  * @fn  bool wfx_have_ipv6_addr(sl_wfx_interface_t which_if)
  * @brief
  *      called fuction when driver have ipv6 address
  * @param[in]  which_if:
  * @return  returns ture if successful,
  *          false otherwise
  ***********************************************************************/
 bool wfx_have_ipv6_addr(sl_wfx_interface_t which_if)
 {
     bool status = false;
     if (which_if == SL_WFX_STA_INTERFACE)
     {
         status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_CONNECTED) ? true : false;
     }
     else
     {
         status = false; /* TODO */
     }
     WFX_RSI_LOG("%s: status: %d", __func__, status);
     return status;
 }

 /*********************************************************************
  * @fn  bool wfx_hw_ready(void)
  * @brief
  *      called fuction when driver ready
  * @param[in]  None
  * @return  returns ture if successful,
  *          false otherwise
  ***********************************************************************/
 bool wfx_hw_ready(void)
 {
     return (wfx_rsi.dev_state & WFX_RSI_ST_DEV_READY) ? true : false;
 }

 /*********************************************************************
  * @fn  int32_t wfx_get_ap_info(wfx_wifi_scan_result_t *ap)
  * @brief
  *      get the access point information
  * @param[in]  ap: access point
  * @return
  *      access point information
  ***********************************************************************/
 int32_t wfx_get_ap_info(wfx_wifi_scan_result_t * ap)
 {
     return wfx_rsi_get_ap_info(ap);
 }

 /*********************************************************************
  * @fn   int32_t wfx_get_ap_ext(wfx_wifi_scan_ext_t *extra_info)
  * @brief
  *      get the access point extra information
  * @param[in]  extra_info:access point extra information
  * @return
  *      access point extra information
  ***********************************************************************/
 int32_t wfx_get_ap_ext(wfx_wifi_scan_ext_t * extra_info)
 {
     return wfx_rsi_get_ap_ext(extra_info);
 }

 /***************************************************************************
  * @fn   int32_t wfx_reset_counts(){
  * @brief
  *      get the driver reset count
  * @param[in]  None
  * @return
  *      reset count
  *****************************************************************************/
 int32_t wfx_reset_counts()
 {
     return wfx_rsi_reset_count();
 }

 #ifdef SL_WFX_CONFIG_SCAN
 /*******************************************************************************
  * @fn   bool wfx_start_scan(char *ssid, void (*callback)(wfx_wifi_scan_result_t *))
  * @brief
  *       called fuction when driver start scaning
  * @param[in]  ssid:
  * @return returns ture if successful,
  *          false otherwise
  *******************************************************************************/
 bool wfx_start_scan(char * ssid, void (*callback)(wfx_wifi_scan_result_t *))
 {
     int sz;

     if (wfx_rsi.scan_cb)
         return false; /* Already in progress */
     if (ssid)
     {
         sz = strlen(ssid);
         if ((wfx_rsi.scan_ssid = (char *) pvPortMalloc(sz + 1)) == (char *) 0)
         {
             return false;
         }
         strcpy(wfx_rsi.scan_ssid, ssid);
     }
     wfx_rsi.scan_cb = callback;
     xEventGroupSetBits(wfx_rsi.events, WFX_EVT_SCAN);

     return true;
 }

 /***************************************************************************
  * @fn   void wfx_cancel_scan(void)
  * @brief
  *      called function when driver cancel scaning
  * @param[in]  None
  * @return
  *      None
  *****************************************************************************/
 void wfx_cancel_scan(void)
 {
     /* Not possible */
     WFX_RSI_LOG("%s: cannot cancel scan", __func__);
 }
 #endif /* SL_WFX_CONFIG_SCAN */
	/*
	*
	* Copyright (c) 2022 Project CHIP Authors
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "stdbool.h"
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#include "sl_status.h"

	#include "FreeRTOS.h"
	#include "event_groups.h"
	#include "task.h"

	#include "wfx_host_events.h"
	#include "wfx_rsi.h"

	/* wfxRsi Task will use as its stack */
	StackType_t wfxRsiTaskStack[WFX_RSI_TASK_SZ] = { 0 };

	/* Structure that will hold the TCB of the wfxRsi Task being created. */
	StaticTask_t wfxRsiTaskBuffer;

	/*********************************************************************
	* @fn sl_status_t wfx_wifi_start(void)
	* @brief
	* Called from ConnectivityManagerImpl.cpp - to enable the device
	* Create the RSI task and let it deal with life.
	* @param[in] None
	* @return Returns SL_STATUS_OK if successful,
	* SL_STATUS_FAIL otherwise
	***********************************************************************/
	sl_status_t wfx_wifi_start(void)
	{
	if (wfx_rsi.dev_state & WFX_RSI_ST_STARTED)
	{
	WFX_RSI_LOG("%s: already started.", __func__);
	return SL_STATUS_OK;
	}
	wfx_rsi.dev_state \|= WFX_RSI_ST_STARTED;
	WFX_RSI_LOG("%s: starting..", __func__);
	/*
	* Create the Wifi driver task
	*/
	wfx_rsi.wlan_task = xTaskCreateStatic(wfx_rsi_task, "wfx_rsi", WFX_RSI_TASK_SZ, NULL, WLAN_DRIVER_TASK_PRIORITY,
	wfxRsiTaskStack, &wfxRsiTaskBuffer);

	if (NULL == wfx_rsi.wlan_task)
	{
	WFX_RSI_LOG("%s: error: failed to create task.", __func__);
	return SL_STATUS_FAIL;
	}
	return SL_STATUS_OK;
	}

	int32_t wfx_rsi_platform()
	{
	return wfx_rsi_init_platform();
	}

	/*********************************************************************
	* @fn void wfx_enable_sta_mode(void)
	* @brief
	* driver enable the STA mode
	* @param[in] None
	* @return None
	***********************************************************************/
	void wfx_enable_sta_mode(void)
	{
	wfx_rsi.dev_state \|= WFX_RSI_ST_STA_MODE;
	}

	/*********************************************************************
	* @fn bool wfx_is_sta_mode_enabled(void)
	* @brief
	* driver enabled the STA mode
	* @param[in] None
	* @return mode
	***********************************************************************/
	bool wfx_is_sta_mode_enabled(void)
	{
	bool mode;
	mode = !!(wfx_rsi.dev_state & WFX_RSI_ST_STA_MODE);
	// WFX_RSI_LOG("%s: %d", __func__, (mode ? "yes" : "no"));
	return mode;
	}

	/*********************************************************************
	* @fn sl_wfx_state_t wfx_get_wifi_state(void)
	* @brief
	* get the wifi state
	* @param[in] None
	* @return return SL_WFX_NOT_INIT if successful,
	* SL_WFX_started otherwise
	***********************************************************************/
	sl_wfx_state_t wfx_get_wifi_state(void)
	{
	if (wfx_rsi.dev_state & WFX_RSI_ST_STA_DHCP_DONE)
	{
	return SL_WFX_STA_INTERFACE_CONNECTED;
	}
	if (wfx_rsi.dev_state & WFX_RSI_ST_DEV_READY)
	{
	return SL_WFX_STARTED;
	}
	return SL_WFX_NOT_INIT;
	}

	/*********************************************************************
	* @fn sl_wfx_state_t wfx_get_wifi_state(void)
	* @brief
	* get the wifi mac address
	* @param[in] Interface:
	* @param[in] addr : address
	* @return
	* None
	***********************************************************************/
	void wfx_get_wifi_mac_addr(sl_wfx_interface_t interface, sl_wfx_mac_address_t * addr)
	{
	sl_wfx_mac_address_t * mac;

	#ifdef SL_WFX_CONFIG_SOFTAP
	mac = (interface == SL_WFX_SOFTAP_INTERFACE) ? &wfx_rsi.softap_mac : &wfx_rsi.sta_mac;
	#else
	mac = &wfx_rsi.sta_mac;
	#endif
	addr = mac;
	WFX_RSI_LOG("%s: %02x:%02x:%02x:%02x:%02x:%02x", __func__, mac->octet[0], mac->octet[1], mac->octet[2], mac->octet[3],
	mac->octet[4], mac->octet[5]);
	}

	/*********************************************************************
	* @fn void wfx_set_wifi_provision(wfx_wifi_provision_t *cfg)
	* @brief
	* Driver set the wifi provision
	* @param[in] cfg: wifi configuration
	* @return
	* None
	***********************************************************************/
	void wfx_set_wifi_provision(wfx_wifi_provision_t * cfg)
	{
	WFX_RSI_LOG("%s: SSID: %s", __func__, &wfx_rsi.sec.ssid[0]);

	wfx_rsi.sec = *cfg;
	wfx_rsi.dev_state \|= WFX_RSI_ST_STA_PROVISIONED;
	}

	/*********************************************************************
	* @fn bool wfx_get_wifi_provision(wfx_wifi_provision_t *wifiConfig)
	* @brief
	* Driver get the wifi provision
	* @param[in] wifiConfig: wifi configuration
	* @return return false if successful,
	* true otherwise
	***********************************************************************/
	bool wfx_get_wifi_provision(wfx_wifi_provision_t * wifiConfig)
	{
	if (wifiConfig != NULL)
	{
	if (wfx_rsi.dev_state & WFX_RSI_ST_STA_PROVISIONED)
	{
	*wifiConfig = wfx_rsi.sec;
	return true;
	}
	}
	return false;
	}

	/*********************************************************************
	* @fn bool wfx_is_sta_provisioned(void)
	* @brief
	* Driver is STA provisioned
	* @param[in] None
	* @return None
	***********************************************************************/
	bool wfx_is_sta_provisioned(void)
	{
	bool status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_PROVISIONED) ? true : false;
	WFX_RSI_LOG("%s: status: SSID -> %s: %s", __func__, &wfx_rsi.sec.ssid[0], (status ? "provisioned" : "not provisioned"));
	return status;
	}

	/*********************************************************************
	* @fn void wfx_clear_wifi_provision(void)
	* @brief
	* Driver is clear the wifi provision
	* @param[in] None
	* @return None
	***********************************************************************/
	void wfx_clear_wifi_provision(void)
	{
	memset(&wfx_rsi.sec, 0, sizeof(wfx_rsi.sec));
	wfx_rsi.dev_state &= ~WFX_RSI_ST_STA_PROVISIONED;
	WFX_RSI_LOG("%s: completed.", __func__);
	}

	/*************************************************************************
	* @fn sl_status_t wfx_connect_to_ap(void)
	* @brief
	* Start a JOIN command to the AP - Done by the wfx_rsi task
	* @param[in] None
	* @return returns SL_STATUS_OK if successful,
	* SL_STATUS_INVALID_CONFIGURATION otherwise
	****************************************************************************/
	sl_status_t wfx_connect_to_ap(void)
	{
	if (wfx_rsi.dev_state & WFX_RSI_ST_STA_PROVISIONED)
	{
	WFX_RSI_LOG("%s: connecting to access point -> SSID: %s, PSK:%s", __func__, &wfx_rsi.sec.ssid[0], &wfx_rsi.sec.passkey[0]);
	xEventGroupSetBits(wfx_rsi.events, WFX_EVT_STA_START_JOIN);
	}
	else
	{
	WFX_RSI_LOG("%s: error: access point not provisioned", __func__);
	return SL_STATUS_INVALID_CONFIGURATION;
	}
	return SL_STATUS_OK;
	}

	/*********************************************************************
	* @fn void wfx_setup_ip6_link_local(sl_wfx_interface_t whichif)
	* @brief
	* Implement the ipv6 setup
	* @param[in] whichif:
	* @return None
	***********************************************************************/
	void wfx_setup_ip6_link_local(sl_wfx_interface_t whichif)
	{
	/*
	* TODO: Implement IPV6 setup, currently in wfx_rsi_task()
	* This is hooked with MATTER code.
	*/
	WFX_RSI_LOG("%s: warning: not implemented.", __func__);
	}

	/*********************************************************************
	* @fn bool wfx_is_sta_connected(void)
	* @brief
	* called fuction when driver is connected to STA
	* @param[in] None
	* @return returns ture if successful,
	* false otherwise
	***********************************************************************/
	bool wfx_is_sta_connected(void)
	{
	bool status;
	status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_CONNECTED) ? true : false;
	WFX_RSI_LOG("%s: status: %s", __func__, (status ? "connected" : "not connected"));
	return status;
	}

	/*********************************************************************
	* @fn wifi_mode_t wfx_get_wifi_mode()
	* @brief
	* get the wifi mode
	* @param[in] None
	* @return return WIFI_MODE_NULL if successful,
	* WIFI_MODE_STA otherwise
	***********************************************************************/
	wifi_mode_t wfx_get_wifi_mode()
	{
	if (wfx_rsi.dev_state & WFX_RSI_ST_DEV_READY)
	return WIFI_MODE_STA;
	return WIFI_MODE_NULL;
	}

	/*********************************************************************
	* @fn sl_status_t wfx_sta_discon(void)
	* @brief
	* called fuction when STA disconnected
	* @param[in] None
	* @return return SL_STATUS_OK if successful,
	* SL_STATUS_FAIL otherwise
	***********************************************************************/
	sl_status_t wfx_sta_discon(void)
	{
	WFX_RSI_LOG("%s: started.", __func__);
	int32_t status;
	status = wfx_rsi_disconnect();
	wfx_rsi.dev_state &= ~WFX_RSI_ST_STA_CONNECTED;
	WFX_RSI_LOG("%s: completed.", __func__);
	return status;
	}
	#if CHIP_DEVICE_CONFIG_ENABLE_IPV4
	/*********************************************************************
	* @fn bool wfx_have_ipv4_addr(sl_wfx_interface_t which_if)
	* @brief
	* called fuction when driver have ipv4 address
	* @param[in] which_if:
	* @return returns ture if successful,
	* false otherwise
	***********************************************************************/
	bool wfx_have_ipv4_addr(sl_wfx_interface_t which_if)
	{
	bool status = false;
	if (which_if == SL_WFX_STA_INTERFACE)
	{
	status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_DHCP_DONE) ? true : false;
	}
	else
	{
	status = false; /* TODO */
	}
	WFX_RSI_LOG("%s: status: %d", __func__, status);
	return status;
	}
	#endif /* CHIP_DEVICE_CONFIG_ENABLE_IPV4 */

	/*********************************************************************
	* @fn bool wfx_have_ipv6_addr(sl_wfx_interface_t which_if)
	* @brief
	* called fuction when driver have ipv6 address
	* @param[in] which_if:
	* @return returns ture if successful,
	* false otherwise
	***********************************************************************/
	bool wfx_have_ipv6_addr(sl_wfx_interface_t which_if)
	{
	bool status = false;
	if (which_if == SL_WFX_STA_INTERFACE)
	{
	status = (wfx_rsi.dev_state & WFX_RSI_ST_STA_CONNECTED) ? true : false;
	}
	else
	{
	status = false; /* TODO */
	}
	WFX_RSI_LOG("%s: status: %d", __func__, status);
	return status;
	}

	/*********************************************************************
	* @fn bool wfx_hw_ready(void)
	* @brief
	* called fuction when driver ready
	* @param[in] None
	* @return returns ture if successful,
	* false otherwise
	***********************************************************************/
	bool wfx_hw_ready(void)
	{
	return (wfx_rsi.dev_state & WFX_RSI_ST_DEV_READY) ? true : false;
	}

	/*********************************************************************
	* @fn int32_t wfx_get_ap_info(wfx_wifi_scan_result_t *ap)
	* @brief
	* get the access point information
	* @param[in] ap: access point
	* @return
	* access point information
	***********************************************************************/
	int32_t wfx_get_ap_info(wfx_wifi_scan_result_t * ap)
	{
	return wfx_rsi_get_ap_info(ap);
	}

	/*********************************************************************
	* @fn int32_t wfx_get_ap_ext(wfx_wifi_scan_ext_t *extra_info)
	* @brief
	* get the access point extra information
	* @param[in] extra_info:access point extra information
	* @return
	* access point extra information
	***********************************************************************/
	int32_t wfx_get_ap_ext(wfx_wifi_scan_ext_t * extra_info)
	{
	return wfx_rsi_get_ap_ext(extra_info);
	}

	/***************************************************************************
	* @fn int32_t wfx_reset_counts(){
	* @brief
	* get the driver reset count
	* @param[in] None
	* @return
	* reset count
	*****************************************************************************/
	int32_t wfx_reset_counts()
	{
	return wfx_rsi_reset_count();
	}

	#ifdef SL_WFX_CONFIG_SCAN
	/*******************************************************************************
	* @fn bool wfx_start_scan(char ssid, void (callback)(wfx_wifi_scan_result_t *))
	* @brief
	* called fuction when driver start scaning
	* @param[in] ssid:
	* @return returns ture if successful,
	* false otherwise
	*******************************************************************************/
	bool wfx_start_scan(char * ssid, void (callback)(wfx_wifi_scan_result_t ))
	{
	int sz;

	if (wfx_rsi.scan_cb)
	return false; /* Already in progress */
	if (ssid)
	{
	sz = strlen(ssid);
	if ((wfx_rsi.scan_ssid = (char ) pvPortMalloc(sz + 1)) == (char ) 0)
	{
	return false;
	}
	strcpy(wfx_rsi.scan_ssid, ssid);
	}
	wfx_rsi.scan_cb = callback;
	xEventGroupSetBits(wfx_rsi.events, WFX_EVT_SCAN);

	return true;
	}

	/***************************************************************************
	* @fn void wfx_cancel_scan(void)
	* @brief
	* called function when driver cancel scaning
	* @param[in] None
	* @return
	* None
	*****************************************************************************/
	void wfx_cancel_scan(void)
	{
	/* Not possible */
	WFX_RSI_LOG("%s: cannot cancel scan", __func__);
	}
	#endif /* SL_WFX_CONFIG_SCAN */