Modules#

Wi-Fi APIs#

This section describes the Wi-Fi APIs

Functions#

int32_t

rsi_driver_send_data(uint32_t sockID, uint8_t *buffer, uint32_t length, struct rsi_sockaddr *destAddr)

Send data packet. This is a blocking API.

int32_t

rsi_driver_process_recv_data(rsi_pkt_t *pkt)

This API processes received data packet. This is a non-blocking API.

int16_t

rsi_nwk_register_callbacks(uint32_t callback_id, void(*callback_handler_ptr)(uint8_t command_type, uint32_t status, const uint8_t *buffer, const uint32_t length))

int32_t

rsi_wlan_radio_init(void)

This API initializes wlan radio parameters and WLAN supplicant parameters. This API returns the WLAN MAC address of the module to the host.

int32_t

rsi_wlan_filter_broadcast(uint16_t beacon_drop_threshold, uint8_t filter_bcast_in_tim, uint8_t filter_bcast_tim_till_next_cmd)

Program the ignoring broad cast packet threshold levels when station is in powersave mode and is used to achieve low currents in standby associated mode. This is blocking API.

int32_t

rsi_check_state(int32_t type)

Check the WLAN state.

void

rsi_sort_scan_results_array_based_on_rssi(struct wpa_scan_results_arr *scan_results_array)

Sort the scan results in 'scan_results_array' in the order of RSSI. Application should call this API to get the scan result in sorted order.

int32_t

rsi_config_timeout(uint32_t timeout_type, uint16_t timeout_value)

This API is used to set timeouts. This is a blocking API.

int32_t

send_timeout(uint32_t timeout_bitmap, uint16_t timeout_value)

This API is used to set timeouts. This is a blocking API.

int32_t

rsi_wlan_scan_with_bitmap_options(int8_t *ssid, uint8_t chno, rsi_rsp_scan_t *result, uint32_t length, uint32_t scan_bitmap)

Scan available access points and post scan response to application. Application must call this API to get the scan results. This is a blocking API.

int32_t

rsi_wlan_scan_async_with_bitmap_options(int8_t *ssid, uint8_t chno, uint32_t bitmap, void(*scan_response_handler)(uint16_t status, const uint8_t *buffer, const uint16_t length))

Scan available access points and post scan response to application. Application must call this API to get the scan results. This is a non-blocking API.

int32_t

rsi_wlan_scan(int8_t *ssid, uint8_t chno, rsi_rsp_scan_t *result, uint32_t length)

Scan the surrounding Wi-Fi networks. This is a blocking API. Invoke rsi_wlan_scan_async(), which is an asynchronous call. Wait on WLAN command semaphore to get the status of the scan results. Return RSI_SUCCESS on success and optionally, a maximum of 11 scan results if rsi_rsp_scan_t parameter is configured. In case of failure, an appropriate error code is returned to the application.

int32_t

rsi_wlan_scan_async(int8_t *ssid, uint8_t chno, void(*scan_response_handler)(uint16_t status, const uint8_t *buffer, const uint16_t length))

Scan the surrounding Wi-Fi networks. A scan response handler is registered with it to get the response for scan.This is a non-blocking API.

int32_t

rsi_wlan_connect(int8_t *ssid, rsi_security_mode_t sec_type, void *secret_key)

Connect to the specified Wi-Fi network. This is a blocking API. Call asynch connect to trigger connect call to AP and return RSI_SUCCESS or error in case of failure.

int32_t

rsi_wlan_connect_async(int8_t *ssid, rsi_security_mode_t sec_type, void *secret_key, void(*join_response_handler)(uint16_t status, const uint8_t *buffer, const uint16_t length))

Connect to the specified Wi-Fi network.A join response handler is registered to get the response for join.. This is a non-blocking API.

int32_t

rsi_wlan_bgscan_profile(uint8_t cmd, rsi_rsp_scan_t *result, uint32_t length)

Get background scan results or stop bgscan. This is a blocking API.

int32_t

rsi_wlan_execute_post_connect_cmds(void)

Enable scan and roaming after connecting to the Access Point. This is a blocking API.

int32_t

rsi_wlan_wps_push_button_event(int8_t *ssid)

Start the WPS Push button in AP mode. Must be called after rsi_wlan_ap_start API once it has returned Success. This is a blocking API.

int32_t

rsi_send_freq_offset(int32_t freq_offset_in_khz)

Application to provide feedback of Frequency error in KHz. This is a blocking API.

int32_t

rsi_calib_write(uint8_t target, uint32_t flags, int8_t gain_offset, int32_t xo_ctune)

RF calibration process. This API will command the firmware to update the existing Flash/EFuse calibration data. This is a blocking API.

int16_t

rsi_parse(void *address, uint16_t length, uint8_t *value)

Parse and convert the given value in ASCII to the datatype of a given length.. This is a non-blocking API.

int32_t

rsi_wlan_wps_generate_pin(uint8_t *wps_pin, uint16_t length)

Generate WPS pin. This is a blocking API.

int32_t

rsi_wlan_wps_enter_pin(int8_t *wps_pin)

Validate WPS pin entered. This is a blocking API.

int32_t

rsi_get_random_bytes(uint8_t *result, uint32_t length)

Get random bytes from the device. This is a blocking API.

int32_t

rsi_wlan_disconnect(void)

Disconnect module from the connected access point. This is a blocking API.

int32_t

rsi_wlan_disconnect_stations(uint8_t *mac_address)

Disconnect the connected stations in AP mode. This is a blocking API.

int32_t

rsi_config_ipaddress(rsi_ip_version_t version, uint8_t mode, uint8_t *ip_addr, uint8_t *mask, uint8_t *gw, uint8_t *ipconfig_rsp, uint16_t length, uint8_t vap_id)

Configure the IP address to the module. This is a blocking API. Send IPconfig command to configure IP address with input parameters (like ipversion, static mode/dhcp mode,vap_id)and return error in case of invalid parameters.

int32_t

rsi_wlan_set_certificate_index(uint8_t certificate_type, uint8_t cert_inx, uint8_t *buffer, uint32_t certificate_length)

Write or erase certificate into module. This is a blocking API.

int32_t

rsi_wlan_get_status(void)

Check the status (specific error code) of errors encountered during a call to a WLAN API or BSD sockets functions. User can call this API to check the error code.This is a non-blocking API.

int32_t

rsi_wlan_get(rsi_wlan_query_cmd_t cmd_type, uint8_t *response, uint16_t length)

Get the required information based on the type of command. This is a blocking API.

int32_t

rsi_wlan_set(rsi_wlan_set_cmd_t cmd_type, uint8_t *request, uint16_t length)

Request configuration based on the command type. This is a blocking API.

int32_t

rsi_wlan_buffer_config(void)

Configure the TX ,RX global buffers ratio. This is a blocking API.

int32_t

rsi_wlan_ap_start(int8_t *ssid, uint8_t channel, rsi_security_mode_t security_type, rsi_encryption_mode_t encryption_mode, uint8_t *password, uint16_t beacon_interval, uint8_t dtim_period)

Start the module in access point mode with the given configuration. This is a blocking API.

int32_t

rsi_wlan_power_save_with_listen_interval(uint8_t psp_mode, uint8_t psp_type, uint16_t listen_interval)

Set the power save profile in WLAN mode with listen interval-based wakeup. This is a blocking API.

int32_t

rsi_wlan_power_save_profile(uint8_t psp_mode, uint8_t psp_type)

Set the power save profile in WLAN mode. This is a blocking API.

int32_t

rsi_wlan_power_save_disable_and_enable(uint8_t psp_mode, uint8_t psp_type)

Disable or enable the power save feature. This is a blocking API.

int32_t

rsi_transmit_test_start(uint16_t power, uint32_t rate, uint16_t length, uint16_t mode, uint16_t channel)

Start the transmit test. This is a blocking API. This API is relevant in PER mode.

int32_t

rsi_transmit_test_stop(void)

Stops the transmit test. This is a blocking API.

int32_t

rsi_wlan_receive_stats_start(uint16_t channel)

Get the Transmit (TX) & Receive (RX) packets statistics.When this API is called by the host with valid channel number, the module gives the statistics to the host for every 1 second asynchronously. If wlan_receive_stats_response_handler() is registered through rsi_wlan_register_callbacks(), it's a non blocking, otherwise, a blocking call.

int32_t

rsi_wlan_receive_stats_stop(void)

Stop the Transmit (TX) & Receive(RX) packets statistics. if wlan_receive_stats_response_handler() is registered through rsi_wlan_register_callbacks(), it's non blocking, otherwise, a blocking call.

int32_t

rsi_wlan_wfd_start_discovery(uint16_t go_intent, int8_t *device_name, uint16_t channel, int8_t *ssid_post_fix, uint8_t *psk, void(*wlan_wfd_discovery_notify_handler)(uint16_t status, uint8_t *buffer, const uint32_t length), void(*wlan_wfd_connection_request_notify_handler)(uint16_t status, uint8_t *buffer, const uint32_t length))

Start discovery in wi-fi direct mode.This is a non-blocking API. wlan_wfd_discovery_notify_handler() rsi_wlan_wfd_start_discovery() API is registered through rsi_wlan_register_callbacks(), its non blocking, otherwise blocking call.

int32_t

rsi_wlan_wfd_connect(int8_t *device_name, void(*join_response_handler)(uint16_t status, const uint8_t *buffer, const uint16_t length))

A join_response_handler() API that connects to the specified Wi-Fi-Direct device.This is a non-blocking API. if join_response_handler() is registered through rsi_wlan_register_callbacks(), it's non blocking, otherwise, a blocking call.

int32_t

rsi_wlan_send_data(uint8_t *buffer, uint32_t length)

Send the raw data in TCP/IP bypass mode. This is a blocking API.

int32_t

rsi_wlan_ping_async(uint8_t flags, uint8_t *ip_address, uint16_t size, void(*wlan_ping_response_handler)(uint16_t status, const uint8_t *buffer, const uint16_t length))

Send a ping request to the target IP address. If wlan_ping_response_handler() is registered through rsi_wlan_register_callbacks(), it's non blocking, otherwise, a blocking call.

void

rsi_register_auto_config_rsp_handler(void(*rsi_auto_config_rsp_handler)(uint16_t status, uint8_t state))

int32_t

rsi_wlan_add_profile(uint32_t type, uint8_t *profile)

Add profile for auto configuration. This is a blocking API.

uint8_t

rsi_wlan_get_state(void)

Get the current WLAN state.. This is a non-blocking API.

int32_t

rsi_wlan_get_profile(uint32_t type, rsi_config_profile_t *profile_rsp, uint16_t length)

Get the stored config profile. This is a blocking API.

uint8_t *

rsi_fill_config_profile(uint32_t type, uint8_t *profile_buffer)

Fill the config profile based on the profile type.. This is a non-blocking API.

int32_t

rsi_wlan_delete_profile(uint32_t type)

Delete stored configuration based on profile type. This is a blocking API.

int32_t

rsi_wlan_enable_auto_config(uint8_t enable, uint32_t type)

Enable or disable auto-config with respect to profile. This is a blocking API.

int32_t

rsi_wlan_pmk_generate(int8_t type, int8_t *psk, int8_t *ssid, uint8_t *pmk, uint16_t length)

Generate PMK if PSK and SSID are provided. This is a blocking API.

int16_t

rsi_wlan_set_sleep_timer(uint16_t sleep_time)

Configure the sleep timer mode of the module to go into sleep during power save operation. This is a blocking API.

uint16_t

rsi_wlan_register_callbacks(uint32_t callback_id, void(*callback_handler_ptr)(uint16_t status, uint8_t *buffer, const uint32_t length))

int32_t

rsi_wlan_update_gain_table(uint8_t band, uint8_t bandwidth, uint8_t *payload, uint16_t payload_len)

Assign the user configurable channel gain values in different regions to the module from user.This method is used for overwriting default gain tables that are present in firmware. Customer can load all the three gain tables (i.e., 2.4GHz-20Mhz, 5GHz-20Mhz, 5GHz-40Mhz) one after other by changing band and bandwidth values. This is a blocking API.

int32_t

rsi_wlan_csi_config_async(uint8_t enable, uint32_t periodicity, void(*wlan_csi_data_response_handler)(uint16_t status, uint8_t *buffer, const uint32_t length))

Enable or disable CSI data retrieval with configured periodicity.

Function Documentation#

rsi_driver_send_data#

int32_t rsi_driver_send_data (uint32_t sockID, uint8_t * buffer, uint32_t length, struct rsi_sockaddr * destAddr)

Send data packet. This is a blocking API.

Parameters

[in]	sockID	- socket descriptor on which data needs to be send
[in]	buffer	- pointer to data
[in]	length	- data length
[in]	destAddr	- pointer to destination socket details

Returns

0 - Success Negative Value - Failure

Definition at line 43 of file driver/rsi_nwk.c

rsi_driver_process_recv_data#

int32_t rsi_driver_process_recv_data (rsi_pkt_t * pkt)

This API processes received data packet. This is a non-blocking API.

Parameters

[in]

pkt

- pointer to data packet

Returns

0 - Success Negative Value - Failure

Definition at line 57 of file driver/rsi_nwk.c

rsi_nwk_register_callbacks#

int16_t rsi_nwk_register_callbacks (uint32_t callback_id, void(*)(uint8_t command_type, uint32_t status, const uint8_t *buffer, const uint32_t length) callback_handler_ptr, status, buffer, length)

Parameters

[in]	callback_id	- This is the Id of the call back function Following ids are supported: 0-RSI_NWK_ERROR_CB 1-RSI_WLAN_NWK_URL_REQ_CB 2-RSI_WLAN_NWK_JSON_UPDATE_CB 3-RSI_WLAN_NWK_FW_UPGRADE_CB 4-RSI_WLAN_NWK_JSON_EVENT_CB
[in]	callback_handler_ptr	- call back handler which needs to be registered for a given call back
[out]	status	- This is the response status. For success it returns 0 and for failure it returns negative value. For possible error codes from FW refer to Error Codes section for the description of the above error codes Error Codes.
[out]	buffer	- This is the response buffer.
[out]	length	- This is the length of the response buffer.

Returns

0 - Success Non-Zero Value - Failure -3 Command given in wrong state If call_back_id is greater than the maximum callbacks to register, returns 1

prototypes of the call back functions#


callback id	Prototype	Description	Parameters
RSI_NWK_ERROR_CB	void (nwk_error_call_back_handler)(uint8_t command_type, uint32_t status, const uint8_t buffer, const uint32_t length);	This callback is used to Register join fail	command_type => command_type of the response status => status of the response buffer => payload of the response length => length of the payload
RSI_WLAN_NWK_URL_REQ_CB	void (rsi_webpage_request_handler)(uint8_t type, uint8_t url_name,uint8_t *post_content_buffer, uint32_t post_content_length, uint32_t status);	This callback is used to Register webpage request	type => type of the handler url_name =>url name post_content_buffer => Webpage content post_content_lenght => length of webpage content status => status of the response
RSI_WLAN_NWK_JSON_UPDATE_CB	void (rsi_json_object_update_handler)(uint8_t file_name, uint8_t *json_object, uint32_t length, uint32_t status);	This callback is used to Register json update	file_name => File name json_object => Json object length: length of the json object status => status of the response
RSI_WLAN_NWK_FW_UPGRADE_CB	void (*rsi_wireless_fw_upgrade_handler)(uint8_t type, uint32_t status);	This callback is used to Register wireless firmware upgrade	type => type of the handler status => status of the response
RSI_WLAN_NWK_JSON_EVENT_CB	void (rsi_json_object_event_handler)(uint32_t status, uint8_t json_object_str, uint32_t length);	This callback is used to Register json update	status => status of the response json_object_str => json object string length => length of the string

Definition at line 92 of file driver/rsi_nwk.c

References SL_PRINTF , rsi_wlan_cb_non_rom_s::nwk_callbacks , rsi_nwk_callback_s::nwk_error_call_back_handler , and RSI_SUCCESS

rsi_wlan_radio_init#

int32_t rsi_wlan_radio_init (void )

This API initializes wlan radio parameters and WLAN supplicant parameters. This API returns the WLAN MAC address of the module to the host.

Parameters

[in]

rsi_wireless_init() API must be called before this rsi_wlan_radio_init() API.

Returns

0 - Success Non-Zero Value - Failure If return value is greater than 0 0x0021- Command given in wrong state

Note

rsi_wlan_radio_init() is used if user wants to configure any other parameters which are supposed to be given before rsi_wlan_scan() or rsi_wlan_scan_async() API

Definition at line 2351 of file driver/rsi_wlan.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , and rsi_wlan_cb_s::field_valid_bit_map

Referenced by rsi_config_ipaddress , rsi_transmit_test_start , and rsi_wlan_wfd_start_discovery

rsi_wlan_filter_broadcast#

int32_t rsi_wlan_filter_broadcast (uint16_t beacon_drop_threshold, uint8_t filter_bcast_in_tim, uint8_t filter_bcast_tim_till_next_cmd)

Program the ignoring broad cast packet threshold levels when station is in powersave mode and is used to achieve low currents in standby associated mode. This is blocking API.

Parameters

[in]	beacon_drop_threshold	- LMAC beacon drop threshold(ms): The amount of time that FW waits to receive full beacon.Default value is 5000ms.
[in]	filter_bcast_in_tim	- If this bit is set, then from the next dtim any broadcast data pending bit in TIM indicated will be ignored valid values: 0 - 1
[in]	filter_bcast_tim_till_next_cmd	- 0 - filter_bcast_in_tim is valid till disconnect of the STA 1 - filter_bcast_in_tim is valid till next update by giving the same command

Note

Validity of this bit is dependent on the filter_bcast_tim_till_next_cmd

Returns

0 - Success Non-Zero Value - If return value is less than 0 -2: Invalid parameters -3: Command given in wrong state -4: Buffer not available to serve the command return value is greater than 0 0x0021

Definition at line 2631 of file driver/rsi_wlan.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , and rsi_check_and_update_cmd_state

rsi_check_state#

int32_t rsi_check_state (int32_t type)

Check the WLAN state.

Parameters

[in]

type

- Socket family type

Returns

0 - If in IP config state -20 - If not in IP config state

Definition at line 1235 of file network/socket/rsi_socket.c

rsi_sort_scan_results_array_based_on_rssi#

void rsi_sort_scan_results_array_based_on_rssi (struct wpa_scan_results_arr * scan_results_array)

Sort the scan results in 'scan_results_array' in the order of RSSI. Application should call this API to get the scan result in sorted order.

Parameters

[in]

scan_results_array

- Contains the array of scan results that need to be sorted.

rsi_wlan_scan_with_bitmap_options() API needs to be called before this API.

Returns

Void

Definition at line 37 of file wlan/rsi_wlan_apis.c

References SL_PRINTF , wpa_scan_results_arr::num , wpa_scan_results_arr::res , wpa_scan_res::level , and memcpy

rsi_config_timeout#

int32_t rsi_config_timeout (uint32_t timeout_type, uint16_t timeout_value)

This API is used to set timeouts. This is a blocking API.

Parameters

[in]	timeout_type	- It is used to identify which timeout to be set. if timeout_type is 1 - set for association and authentication timeout request in ms. 2 - set for the each channel active scan time in ms 3 - is set for the WLAN keep alive time in seconds
[in]	timeout_value	- timeout value to be set.

rsi_wireless_init() API needs to be called before this API.

Note

Packet is sent as Wlan Keep alive before rsi_config_ipaddress() After rsi_config_ipaddress() it is sent as gratuitous ARP.

Returns

0 - Success Non-Zero Value - Failure

Definition at line 78 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , and send_timeout

send_timeout#

int32_t send_timeout (uint32_t timeout_bitmap, uint16_t timeout_value)

This API is used to set timeouts. This is a blocking API.

Parameters

[in]	timeout_bitmap	- It is used to identify which timeout to be set. if timeout_type is 1 - set for association and authentication timeout request in ms. 2 - set for the each channel active scan time in ms 3 - is set for the WLAN keep alive time in seconds
[in]	timeout_value	- timeout value to be set.

rsi_wireless_init() API needs to be called before this API.

Note

Packet is sent as Wlan Keep alive before rsi_config_ipaddress() After rsi_config_ipaddress() it is sent as gratuitous ARP.

Returns

0 - Success Non-Zero Value - Failure

Definition at line 135 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , and rsi_driver_cb_s::wlan_cb

rsi_wlan_scan_with_bitmap_options#

int32_t rsi_wlan_scan_with_bitmap_options (int8_t * ssid, uint8_t chno, rsi_rsp_scan_t * result, uint32_t length, uint32_t scan_bitmap)

Scan available access points and post scan response to application. Application must call this API to get the scan results. This is a blocking API.

Parameters

[in]	ssid	- SSID of an access point to connect. SSID should be less than or equal to 32 bytes. Note: SSID is a null terminated string.
[in]	chno	- Channel number of the access point.
[in]	result	- Buffer address provided by the application to fill the scan response.
[in]	length	- Length of the resulting buffer measured in bytes to hold scan results. Size of structure rsi_rsp_scan_t is 54 bytes. Length for storing one scan result is sizeof( rsi_scan_info_t), which is 44 bytes. Maximum of 11 scan results will be returned by the module, in this case, length should be configured as 8 + 11*sizeof( rsi_scan_info_t).
[in]	scan_bitmap	- Scan bitmap options

rsi_wireless_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure

Definition at line 202 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , rsi_wlan_cb_s::app_buffer , rsi_wlan_cb_s::app_buffer_length , rsi_wlan_scan_async_with_bitmap_options , wpa_scan_res::ssid , rsi_wait_on_wlan_semaphore , rsi_driver_cb_non_rom::wlan_cmd_sem , and rsi_wlan_get_status

rsi_wlan_scan_async_with_bitmap_options#

int32_t rsi_wlan_scan_async_with_bitmap_options (int8_t * ssid, uint8_t chno, uint32_t bitmap, void(*)(uint16_t status, const uint8_t *buffer, const uint16_t length) scan_response_handler, buffer, length, scan_bitmap)

Scan available access points and post scan response to application. Application must call this API to get the scan results. This is a non-blocking API.

Parameters

[in]	ssid	- SSID of an access point to connect. SSID should be less than or equal to 32 bytes.
[in]	chno	- Channel number of the access point.
[in]	bitmap	- Scan feature bitmap
[out]	scan_response_handler	- Response status
[out]	buffer	- Buffer address provided by the application to fill the scan response.
[out]	length	- Length of the response buffer measured in bytes to hold scan results. Size of structure rsi_rsp_scan_t is 54 bytes. Length for storing one scan result is sizeof( rsi_scan_info_t), which is 46 bytes. Maximum of 11 scan results will be returned by the module, in this case, length should be configured as 8 + 11*sizeof( rsi_scan_info_t).
[in]	scan_bitmap	- Scan feature bitmap

rsi_wireless_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure

Definition at line 280 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_non_rom_s::scan_results_to_host , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , and rsi_wlan_cb_s::field_valid_bit_map

rsi_wlan_scan#

int32_t rsi_wlan_scan (int8_t * ssid, uint8_t chno, rsi_rsp_scan_t * result, uint32_t length)

Parameters

[in]	ssid	- SSID size should be less than or equal to 32 bytes. Note: SSID is a null terminated string.
[in]	chno	- Channel number to perform scan. If 0, then the module will scan all the channels.
[in]	result	- Scanned Wi-Fi networks information. This is an output parameter. This output contains a maximum of 11 scan results The structure rsi_rsp_scan_t contains members scan_count, which specifies the number of scan results followed by an array of structure type rsi_scan_info_t, where each array element contains information about each network scanned.
[in]	length	- Size that should be allocated to buffer that will store scan results.

rsi_wireless_init() API needs to be called before this API.

Channels supported in 2.4 GHz Band#


Channel numbers	Ch no
All Channels	0
1	1
2	2
3	3
4	4
5	5
6	6
7	7
8	8
9	9
10	10
11	11
12	12
13	13
14	14

Channels supported in 5 GHz Band#


Channel numbers	Ch no
All Channels	0
36	36
40	40
44	44
48	48
149	149
153	153
157	157
161	161
165	165

DFS Channels supported in 5 GHz Band#


Channel numbers	Ch no
52(DFS)	52
56(DFS)	56
60(DFS)	60
64(DFS)	64
100(DFS)	100
104(DFS)	104
108(DFS)	108
112(DFS)	112
116(DFS)	116
120(DFS)	120
124(DFS)	124
128(DFS)	128
132(DFS)	132
136(DFS)	136
140(DFS)	140
144(DFS)	144

Channels supported in 4.9 GHz Band#


Channel numbers	Ch no
All Channels	0
184	184
188	188
192	192
196	196
8	8
12	12
16	16

Note

To set various timeouts, user should change the following macros in rsi_wlan_config.h #define RSI_TIMEOUT_SUPPORT RSI_ENABLE #define RSI_TIMEOUT_BIT_MAP 2 #define RSI_TIMEOUT_VALUE 150 (This macro can be configured based on user requirement)


timeout_bitmap	Description
timeout_bitmap[0]	Set timeout for association and authentication request.timeout_value : timeout value in ms(default 300ms).
timeout_bitmap[1]	Sets each channel active scan time in ms (default 100ms)
timeout_bitmap[2]	Used for WLAN keep alive timeout(default value is 30s)
timeout_bitmap[31-3]	Reserved

Scan structure#


Structure Fields	Description
rf_channel	Access point channel number
security_mode	Security modes
0 : Open
1 : WPA
2 : WPA2
3 : WEP
4 : WPA Enterprise
5 : WPA2 Enterprise
6 : WPA3
rssi_val	RSSI value of the Access Point
network_type	This is the type of the network
1 : Infrastructure mode
ssid	SSID of the access point
bssid	MAC address of the access point

Returns

Success - RSI_SUCCESS

Failure - Non-Zero values

     `If return value is less than 0` \n

             **RSI_ERROR_INVALID_PARAM**                 - Invalid parameters \n

         **RSI_ERROR_COMMAND_GIVEN_IN_WRONG_STATE**  - Command given in wrong state \n

         **RSI_ERROR_PKT_ALLOCATION_FAILURE**        - Buffer not available to serve the command \n

                 `Other expected error codes are :` \n

             **0x0002, 0x0003, 0x0005, 0x000A, 0x0014, 0x0015, 0x001A, 0x0021,0x0024,0x0025,0x0026,0x002C,0x003c**

Note

Refer to Error Codes section for above error codes description Error Codes.

Definition at line 747 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , rsi_wlan_cb_s::app_buffer , rsi_wlan_cb_s::app_buffer_length , rsi_wlan_scan_async , wpa_scan_res::ssid , rsi_wait_on_wlan_semaphore , rsi_driver_cb_non_rom::wlan_cmd_sem , and rsi_wlan_get_status

rsi_wlan_scan_async#

int32_t rsi_wlan_scan_async (int8_t * ssid, uint8_t chno, void(*)(uint16_t status, const uint8_t *buffer, const uint16_t length) scan_response_handler, Status, Buffer, Length)

Scan the surrounding Wi-Fi networks. A scan response handler is registered with it to get the response for scan.This is a non-blocking API.

Parameters

[in]	ssid	- SSID to scan. If this input parameter is present, module will scan for that particular SSID only. SSID size should be less than or equal to 32 bytes
[in]	chno	- Channel number to perform scan, if 0, then module will scan in all channels.
[in]	scan_response_handler	- Callback tht is called when the response for scan is received from the module. The parameters involved are status, buffer, & length.
[out]	Status	- Response status. RSI_SUCCESS - Scan response is stated as Success Negative -Failure
[out]	Buffer	- Response buffer
[out]	Length	- Length of the response buffer measured in bytes to hold scan results. Size of structure rsi_rsp_scan_t is 54 bytes. Length for storing one scan result is sizeof(rsi_scan_info_t) which is 44 bytes. Maximum of 11 scan results will be returned by the module, in this case, length must be configured as 8 + 11*sizeof(rsi_scan_info_t).

Note

If status is Success , the argument buffer passed to scan_response_handler holds scan results in rsi_rsp_scan_t structure format.

rsi_wireless_init() API needs to be called before this API.

Note

SSID is a null terminated string.

Channels supported in 2.4 GHz Band#


Channel numbers	Ch no
All Channels	0
1	1
2	2
3	3
4	4
5	5
6	6
7	7
8	8
9	9
10	10
11	11
12	12
13	13
14	14

Channels supported in 5 GHz Band#


Channel numbers	Ch no
All Channels	0
36	36
40	40
44	44
48	48
100	100
104	104
108	108
116	116
132	132
136	136
140	140
149	149
153	153
157	157
161	161
165	165

Note

To set various timeouts, user should change the following macros in rsi_wlan_config.h #define RSI_TIMEOUT_SUPPORT RSI_ENABLE #define RSI_TIMEOUT_BIT_MAP 4 #define RSI_TIMEOUT_VALUE 300


timeout_bitmap	Description
timeout_bitmap[0]	Set timeout for association and authentication request.timeout_value : timeout value in ms(default 300ms).
timeout_bitmap[1]	Sets each channel active scan time in ms (default 100ms)
timeout_bitmap[2]	Used for WLAN keep alive timeout(default value is 30s)
timeout_bitmap[31-3]	Reserved

Scan Response structure format#


Structure Fields	Description
scan_count	Number of access points scanned.
scan_count[0] Contains the scan count.
scan_count[3-1] are reserved.
scan_info	Information about scanned Access points in rsi_scan_info_t structure.

Scan structure#


Structure Fields	Description
rf_channel	Access point channel number
security_mode	Security mode0 : Open
1 . WPA
2 . WPA2
3 . WEP
4 . WPA Enterprise
5 . WPA2 Enterprise
7 . WPA3
rssi_val	RSSI value of the Access Point
network_type	Type of network
1 . Infrastructure mode
ssid	SSID of the access point
bssid	MAC address of the access point

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -2 - Invalid parameters -3 - Command given in wrong state -4 - Buffer not available to serve the command If return value is greater than 0 0x0002, 0x0003, 0x0005, 0x000A, 0x0014, 0x0015, 0x001A, 0x0021,0x0024,0x0025,0x0026,0x002C,0x003c

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 899 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , and rsi_wlan_cb_s::field_valid_bit_map

rsi_wlan_connect#

int32_t rsi_wlan_connect (int8_t * ssid, rsi_security_mode_t sec_type, void * secret_key)

Connect to the specified Wi-Fi network. This is a blocking API. Call asynch connect to trigger connect call to AP and return RSI_SUCCESS or error in case of failure.

Parameters

[in]

ssid

- SSID of an access point to connect. SSID should be less than or equal to 32 bytes.

[in]

sec_type

- Security type of the access point to connect. 0: RSI_OPEN, 1: RSI_WPA, 2: RSI_WPA2, 3: RSI_WEP, 4: RSI_WPA_EAP, 5: RSI_WPA2_EAP, 6: RSI_WPA_WPA2_MIXED, 7: RSI_WPA_PMK, 8: RSI_WPA2_PMK, 9: RSI_WPS_PIN, 10: RSI_USE_GENERATED_WPSPIN, 11: RSI_WPS_PUSH_BUTTON, 12: RSI_WPA_WPA2_MIXED_PMK, 13: RSI_WPA3

[in]

secret_key

- Pointer to a buffer that contains security information based on sec_type.


Security type(sec_type)	Secret key structure format (secret_key)
RSI_OPEN	No secret key in open security mode.
RSI_WPA	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes.
RSI_WPA2	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes.
RSI_WEP	WEP keys should be in the following format:
typedef struct rsi_wep_keys_s
{
uint8_t index[2];
uint8_t key[4][32];
} rsi_wep_keys_t;
index: WEP key index to use for TX packet encryption.
key: 4 WEP keys, last three WEP keys are optional. If only first WEP key is valid then index should be 0.
RSI_WPA_EAP	Enterprise credentials should be in the following format:
typedef struct rsi_eap_credentials_s
{
uint8_t username[64];
uint8_t password[128];
} rsi_eap_credentials_t;
username: username to be used in enterprise
password: password for the given username
RSI_WPA2_EAP	Enterprise credentials should be in the following format:
typedef struct rsi_eap_credentials_s
{
uint8_t username[64];
uint8_t password[128];
} rsi_eap_credentials_t;
username: username to be used in enterprise
password: password for a given username.
RSI_WPA_WPA2_MIXED	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes
RSI_WPA_PMK	PMK string, should be 32 bytes in length
RSI_WPA2_PMK	PMK string, should be 32 bytes in length
RSI_WPS_PIN	8-byte WPS PIN
RSI_USE_GENERATED_WPSPIN	NULL string indicate to use PIN generated using rsi_wps_generate_pin API
RSI_WPS_PUSH_BUTTON	NULL string indicate to generate push button event
RSI_WPA3	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes.

rsi_wireless_init() API needs to be called before this API.

Note

To set various timeouts, user should change the following macros in rsi_wlan_config.h #define RSI_TIMEOUT_SUPPORT RSI_ENABLE #define RSI_TIMEOUT_BIT_MAP 4 #define RSI_TIMEOUT_VALUE 300 timeout_bitmap[0] - Set timeout for association and authentication request. timeout_value : timeout value in ms(default 300ms). timeout_bitmap[1] - Sets each channel active scan time in ms (default 100ms) timeout_bitmap[2] - Used for WLAN keep alive timeout(default value is 30s) timeout_bitmap[31-3] - reserved
To set Rejoin params, user should configure the following macros in rsi_wlan_config.h RSI_REJOIN_PARAMS_SUPPORT : Enable to send rejoin parameters command during Wi-Fi client connection RSI_REJOIN_MAX_RETRY : Number of maximum rejoin retries by module note : If Max retries is 0 , retries infinity times RSI_REJOIN_SCAN_INTERVAL : Periodicity of rejoin attempt RSI_REJOIN_BEACON_MISSED_COUNT : Number of consecutive beacon misses after which modules goes to unconnected state RSI_REJOIN_FIRST_TIME_RETRY : ENABLE - Try to rejoin in the first attempt after join failure. DISABLE - Try to rejoin based on maximum rejoin retries configured. When RSI_REJOIN_PARAMS_SUPPORT is enabled in the rsi_wlan_config.h, this rejoin frame will be sent to the firmware after scan done in the SAPI.
This API internally handles following commands based on wlan_cb state and sends the next command and finally sends the join command. • Set mac address • Band • Timeout • Init • Set region • WMM parameters • Scan • EAP config • WMM PS parameters • WPS method • Set WEP keys • Host PSK • Rejoin params • Join For example, After calling rsi_wireless_init(), wlan_cb state is updated to opermode done state. So when we call this API, it will execute band, init, scan and join commands. After calling rsi_wlan_disconnect() or else after rejoin failure, wlan_cb state is updated to band done state. So when we call this API, it will execute init, scan and join commands. After calling rsi_wlan_scan()/ rsi_wlan_scan_with_bitmap_options() API, wlan_cb state is updated to scan done state. So when we call this API, it will execute join command directly.

EAP configuration#

For EAP configuration below arguments are required and are congifured in rsi_wlan_config.h in enterprise_client applicaiton. • eap_method, inner_method, user_identity, password, okc, private_key_password • eap_method is 32 bytes and it can be any one of the following methods: TLS, TTLS, FAST, PEAP or LEAP, should be given as string in RSI_EAP_METHOD. • inner_method is 32 bytes, this field is valid only in TTLS/PEAP. In case of TTLS/PEAP supported inner methods are MSCHAP/MSCHAPV2. In case of TLS/FAST/LEAP this field is not valid and it should be fixed to MSCHAPV2. Here MSCHAP/MSCHAPV2 are given in RSI_EAP_INNER_METHOD. • user_identity is 64 bytes, this can be configured in USER_IDENTITY of rsi_eap_connectivity.c of enterprise_client application and this should be a string. • password is 128 bytes, this can be configured in PASSWORD of rsi_eap_connectivity.c of enterprise_client application and this should be a string. • okc is 4 bytes, This argument is used to enable or disable or select multiple features from user this value can be modified by OKC_VALUE macro.

BIT[0] of OKC is used to enable or disable opportunistic key caching (OKC), –0 – disable –1 – enable – When this is enabled, module will use cached PMKID to get MSK(Master Session Key) which is need for generating PMK which is needed for 4-way handshake.
BIT[1] of OKC is used to enable or disable CA certification for PEAP connection. –0 – CA certificate is not required. –1 – CA certificate is required.

BIT[2-12] of OKC argument are used for Cipher list selection for EAP connection. All possible ciphers are listed below


BIT position	Cipher selected
2	DHE-RSA-AES256-SHA256
3	DHE-RSA-AES128-SHA256
4	DHE-RSA-AES256-SHA
5	DHE-RSA-AES128-SHA
6	AES256-SHA256
7	AES128-SHA256
8	AES256-SHA
9	AES128-SHA
10	RC4-SHA
11	DES-CBC3-SHA
12	RC4-MD5

BIT[13-31] of OKC argument is reserved.
When user sets BIT[1] and does not provide the CA certificate for PEAP connection then error is thrown. If user provides invalid CA certificate then also error is thrown. User can set either one or multiple bits from BIT[2-12] to provide the cipher's list. When user does not provide any value in OKC's BIT[2-12] then by default all the ciphers are selected. • private_key_password is 82 bytes,This is password for encrypted private key given to the module. Module will use this password during decryption of encrypted private key. password length must be 80 bytes or less. Should be configured in RSI_PRIVATE_KEY_PASSWORD.

Returns

Success - RSI_SUCCESS Failure - Non-Zero Value

    `if return value is less than zero :\n

RSI_ERROR_INVALID_PARAM - Invalid parameters RSI_ERROR_COMMAND_GIVEN_IN_WRONG_STATE - Command given in wrong state RSI_ERROR_PKT_ALLOCATION_FAILURE - Buffer not available to serve the command `Other expected error code are : 0x0002,0x0003,0x0005,0x0008,0x0009,0x000A,0x000E,0x0014,0x0015,0x0016,0x0019,0x001A,0x001E,0x0020,0x0021,0x0024,0x0025,0x0026,0x0028,0x0039,0x003C,0x0044,0x0045,0x0046,0x0047,0x0048,0x0049,0xFFF8Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 1380 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_check_and_update_cmd_state , rsi_wlan_connect_async , wpa_scan_res::ssid , rsi_wait_on_wlan_semaphore , rsi_driver_cb_non_rom::wlan_cmd_sem , rsi_wlan_get_status , and rsi_wlan_execute_post_connect_cmds

rsi_wlan_connect_async#

int32_t rsi_wlan_connect_async (int8_t * ssid, rsi_security_mode_t sec_type, void * secret_key, void(*)(uint16_t status, const uint8_t *buffer, const uint16_t length) join_response_handler, Status, Buffer, length)

Connect to the specified Wi-Fi network.A join response handler is registered to get the response for join.. This is a non-blocking API.

Parameters

[in]

ssid

- SSID of an access point to connect. SSID should be less than or equal to 32 bytes.

[in]

sec_type

[in]

secret_key

- Pointer to a buffer that contains security information based on sec_type.


Security type(sec_type)	Secret key structure format (secret_key)
RSI_OPEN	No secret key in open security mode.
RSI_WPA	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes.
RSI_WPA2	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes.
RSI_WEP	WEP keys should be in the following format:
typedef struct rsi_wep_keys_s
{
uint8_t index[2];
uint8_t key[4][32];
} rsi_wep_keys_t;
index: WEP key index to use for TX packet encryption.
key: 4 WEP keys, last three WEP keys are optional. If only first WEP key is valid then index should be 0.
RSI_WPA_EAP	Enterprise credentials should be in the following format:
typedef struct rsi_eap_credentials_s
{
uint8_t username[64];
uint8_t password[128];
} rsi_eap_credentials_t;
username: username to be used in enterprise
password: password for the given username
RSI_WPA2_EAP	Enterprise credentials should be in the following format:
typedef struct rsi_eap_credentials_s
{
uint8_t username[64];
uint8_t password[128];
} rsi_eap_credentials_t;
username: username to be used in enterprise
password: password for a given username.
RSI_WPA_WPA2_MIXED	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes
RSI_WPA_PMK	PMK string, should be 32 bytes in length
RSI_WPA2_PMK	PMK string, should be 32 bytes in length
RSI_WPS_PIN	8-byte WPS PIN
RSI_USE_GENERATED_WPSPIN	NULL string indicate to use PIN generated using rsi_wps_generate_pin API
RSI_WPS_PUSH_BUTTON	NULL string indicate to generate push button event
RSI_WPA3	PSK string terminated with NULL. Length of PSK should be at least 8 and less than 64 bytes.

[in]

join_response_handler

- Called when the response for join has been received from the module Parameters involved are status, buffer, & length

[out]

Status

- Response status. If status is zero, then the join response is stated as Success

[out]

Buffer

- Response buffer. On successful execution of the command. GO_Status (1 byte, hex): 0x47 (ASCII "G") If the module becomes a Group Owner (GO) after the GO negotiation stage or becomes an Access Point. 0x43 (ASCII "C") If the module does not become a GO after the GO negotiation stage or becomes a client (or station).

[out]

length

- Length of the response buffer.

rsi_wireless_init() API needs to be called before this API.

Note

The module gets a default IP of 192.168.100.76 if it becomes a Group Owner or Access Point in case of IPv4. and gets a default IP of 2001:db8:0:1:0:0:0:120 in case of IPv6.
To set Rejoin params, user should configure the following macros in rsi_wlan_config.h RSI_REJOIN_PARAMS_SUPPORT : Enable to send rejoin parameters command during Wi-Fi client connection RSI_REJOIN_MAX_RETRY : Number of maximum rejoin retries by module note : If Max retries is 0 , retries infinity times RSI_REJOIN_SCAN_INTERVAL : Periodicity of rejoin attempt RSI_REJOIN_BEACON_MISSED_COUNT : Number of consecutive beacon misses after which modules goes to unconnected state RSI_REJOIN_FIRST_TIME_RETRY : ENABLE - Try to rejoin in the first attempt after join failure. DISABLE - Try to rejoin based on maximum rejoin retries configured. When RSI_REJOIN_PARAMS_SUPPORT is enabled in the rsi_wlan_config.h, this rejoin frame will be sent to the firmware after scan done in the SAPI.
This API internally handles following commands based on wlan_cb state and sends the next command and finally sends the join command. • Set mac address • Band • Timeout • Init • Set region • WMM parameters • Scan • EAP config • WMM PS parameters • WPS method • Set WEP keys • Host PSK • Rejoin params • Join For example, After calling rsi_wireless_init(), wlan_cb state is updated to opermode done state. So when we call this API, it will execute band, init, scan and join commands. After calling rsi_wlan_disconnect() or else after rejoin failure, wlan_cb state is updated to band done state. So when we call this API, it will execute init, scan and join commands. After calling rsi_wlan_scan()/ rsi_wlan_scan_with_bitmap_options() API, wlan_cb state is updated to scan done state. So when we call this API, it will execute join command directly.

Returns

0 - Success Non-Zero - Failure -2 - Invalid parameters -3 - Command given in wrong state -4 - Buffer not availableto serve the command

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 1523 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_check_and_update_cmd_state , rsi_wlan_cb_s::opermode , rsi_wlan_cb_s::state , rsi_wlan_cb_s::sta_state , and rsi_wlan_cb_s::field_valid_bit_map

rsi_wlan_bgscan_profile#

int32_t rsi_wlan_bgscan_profile (uint8_t cmd, rsi_rsp_scan_t * result, uint32_t length)

Get background scan results or stop bgscan. This is a blocking API.

Parameters

[in]	cmd	- Command given by user, to enable or disable bgscan 0 - disable bgscan 1 - enable bgscan
[out]	result	- buffer to store bgscan results
[in]	length	- Length of bgscan result buffer

rsi_wlan_connect() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure -3 - Command given in wrong state -4 - Buffer not availableto serve the command.

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 2216 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , rsi_wlan_cb_s::app_buffer , and rsi_wlan_cb_s::app_buffer_length

rsi_wlan_execute_post_connect_cmds#

int32_t rsi_wlan_execute_post_connect_cmds (void )

Enable scan and roaming after connecting to the Access Point. This is a blocking API.

Parameters

[in]

rsi_wlan_connect() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -3 - Command given in wrong state -4 - Buffer not available to serve the command If return value is greater than 0 0x0006,0x0021,0x002C,0x004A,0x0025,0x0026

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 2302 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_wps_push_button_event#

int32_t rsi_wlan_wps_push_button_event (int8_t * ssid)

Start the WPS Push button in AP mode. Must be called after rsi_wlan_ap_start API once it has returned Success. This is a blocking API.

Parameters

[in]

ssid

-SSID of the Access Point. SSID should be same as that of given in AP start API. Length of the SSID should be less than or equal to 32 bytes.

rsi_wlan_ap_start() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4 - Buffer not available to serve the command If return value is greater than 0 0x0021

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 2415 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_send_freq_offset#

int32_t rsi_send_freq_offset (int32_t freq_offset_in_khz)

Application to provide feedback of Frequency error in KHz. This is a blocking API.

Parameters

[in]

freq_offset_in_khz

- Frequency deviation observed in KHz

Returns

0 - Success Non zero Value - Failure 0xFC - Frequency offset sent is zero 0xFB - Frequency offset specified goes beyond the upper limit or lower limit and indicates that frequency offset cannot be changed further.

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 2496 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_calib_write#

int32_t rsi_calib_write (uint8_t target, uint32_t flags, int8_t gain_offset, int32_t xo_ctune)

RF calibration process. This API will command the firmware to update the existing Flash/EFuse calibration data. This is a blocking API.

Parameters

[in]

target

0 - BURN_INTO_EFUSE (Burns calibration data to EFuse) 1 - BURN_INTO_FLASH (Burns calibration data to Flash)

[in]

flags

- Validate information


Bit	MACRO	Description
0	BURN_GAIN_OFFSET	1 - Update gain offset to calibration data 0 - Skip gain offset update
1	BURN_FREQ_OFFSET	1 - Update XO Ctune to calibration data 0 - Skip XO Ctune update
2	SW_XO_CTUNE_VALID	1 - Use XO Ctune provided as argument to update calibration data 0 - Use XO Ctune value as read from hardware register
3	BURN_XO_FAST_DISABLE	Used to apply patch for cold temperature issue(host interface detection) observed on CC0/CC1 modules. appendix
7-4		Reserved

[in]

gain_offset

- gain_offset as observed in dBm

[in]

xo_ctune

- Allow user to directly update xo_ctune value to calibration data bypassing the freq offset loop, valid only when BURN_FREQ_OFFSET & SW_XO_CTUNE_VALID of flags is set. The range of xo_ctune is [0, 255], and the typical value is 80

rsi_transmit_test_start(), rsi_send_freq_offset() API needs to be called before this API.This API is relevant in PER mode only.

Note

To recalibrate gain offset after it has been burnt to flash, the user is required to first reset gain offset and then follow the calibration flow. e.g.: rsi_calib_write(BURN_INTO_FLASH,BURN_GAIN_OFFSET,0,0); // which resets gain offset Recalibration is not possible if EFuse is being used instead of flash as calibration data storage

Returns

0 - Success Non-Zero Value - Failure

Definition at line 2580 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_parse#

int16_t rsi_parse (void * address, uint16_t length, uint8_t * value)

Parse and convert the given value in ASCII to the datatype of a given length.. This is a non-blocking API.

Parameters

[in]	address	- Address
[in]	length	- Length
[in]	value	- Value

Returns

0 - Success Non-Zero Value - Failure

Definition at line 2658 of file wlan/rsi_wlan_apis.c

rsi_wlan_wps_generate_pin#

int32_t rsi_wlan_wps_generate_pin (uint8_t * wps_pin, uint16_t length, 8-byte)

Generate WPS pin. This is a blocking API.

Parameters

[in]	wps_pin	- 8-byte WPS pin generated by the device. This is the output parameter.
[in]	length	- This is the length of the resulted buffer measured in bytes to hold WPS pin.
[out]	8-byte	WPS pin

rsi_wireless_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4 - Buffer not available to serve the command If return value is greater than 0 0x0021,0x002C,0x0025,0x0037,0x0038

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 2704 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_wps_enter_pin#

int32_t rsi_wlan_wps_enter_pin (int8_t * wps_pin, Same)

Validate WPS pin entered. This is a blocking API.

Parameters

[in]	wps_pin	- 8-byte valid wps pin
[out]	Same	WPS pin if command is successful

rsi_wlan_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure

Definition at line 2784 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_get_random_bytes#

int32_t rsi_get_random_bytes (uint8_t * result, uint32_t length)

Get random bytes from the device. This is a blocking API.

Parameters

[in]	result	- Pointer to the buffer in which random data are copied from
[in]	length	- Length of the random data required

Returns

0 - Success Non-Zero Value - Failure

Definition at line 2861 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , rsi_wlan_cb_s::app_buffer , and rsi_wlan_cb_s::app_buffer_length

rsi_wlan_disconnect#

int32_t rsi_wlan_disconnect (void )

Disconnect module from the connected access point. This is a blocking API.

Parameters

N/A

rsi_wlan_connect() API needs to be called before this API.

Returns

Non-Zero Value - Failure 0 - Success If return value is less than 0 -3 - Command given in wrong state -4 - Buffer not availableto serve the command If return value is greater than 0 0x0006,0x0021,0x002C,0x004A,0x0025,0x0026

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 2937 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_disconnect_stations#

int32_t rsi_wlan_disconnect_stations (uint8_t * mac_address)

Disconnect the connected stations in AP mode. This is a blocking API.

Parameters

[in]

mac_address

- Mac address (6 bytes) of the station to be disconnected.

rsi_wlan_ap_start() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4 - Buffer not available to serve the command If return value is greater than 0 0x0013, 0x0021, 0x002C, 0x0015

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 3008 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_config_ipaddress#

int32_t rsi_config_ipaddress (rsi_ip_version_t version, uint8_t mode, uint8_t * ip_addr, uint8_t * mask, uint8_t * gw, uint8_t * ipconfig_rsp, uint16_t length, uint8_t vap_id)

Parameters

[in]	version	- IP version to be used. RSI_IP_VERSION_4 (4) – to select IPv4,RSI_IP_VERSION_6 (6) – to select IPv6
[in]	mode	- 1 - DHCP mode ; 0 - static mode
[in]	ip_addr	- Pointer to IP address
[in]	mask	- Pointer to network mask
[in]	gw	- Pointer to gateway address
[in]	ipconfig_rsp	- Hold the IP configuration received using DHCP.
[in]	length	- Length of ipconfig_rsp buffer
[in]	vap_id	- VAP id to differentiate between AP and station in concurrent mode. 0 – for station, 1 – for Access point

rsi_wlan_connect() API needs to be called before this API.

Returns

Success - RSI_SUCCESS Failure - Non-Zero Value RSI_ERROR_INVALID_PARAM - Invalid parametersRSI_ERROR_COMMAND_GIVEN_IN_WRONG_STATE - Command given in wrong state RSI_ERROR_PKT_ALLOCATION_FAILURE - Buffer not available to serve the command

Note

Refer to Error Codes section for the description of other error codes Error Codes.

Definition at line 3106 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , rsi_driver_cb_s::wlan_cb , rsi_wlan_radio_init , SL_PRINTF , and rsi_check_and_update_cmd_state

rsi_wlan_set_certificate_index#

int32_t rsi_wlan_set_certificate_index (uint8_t certificate_type, uint8_t cert_inx, uint8_t * buffer, uint32_t certificate_length)

Write or erase certificate into module. This is a blocking API.

Parameters

[in]	certificate_type	- Type of certificate
[in]	cert_inx	- Index of certificate
[in]	buffer	- Certificate content
[in]	certificate_length	- Certificate length

rsi_wireless_init() API must be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -2 Invalid Parameters -3 Command given in wrong state -4 Buffer not available to serve the command If return value is greater than 0 0x0015,0x0021,0x0025,0x0026,0x002C

Note

Index-based certificate loading is valid only for storing certificates on to RAM or flash but not both at the same time. Enable BIT(27) in tcp_ip_feature_bit_map to load SSl certificate into RAM. Enable BIT(31) in tcp_ip_feature_bit_map and BIT (29) in ext_tcp_ip_feature_bit_map to open 3 SSL client sockets. Three SSL client sockets feature supported only in WLAN mode.

Definition at line 3273 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , and rsi_cert_info_s::certificate_length

rsi_wlan_get_status#

int32_t rsi_wlan_get_status (void )

Check the status (specific error code) of errors encountered during a call to a WLAN API or BSD sockets functions. User can call this API to check the error code.This is a non-blocking API.

Parameters

[in]

Returns

Return the error code that previously occurred. If no error occurred, return 0.

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 3538 of file wlan/rsi_wlan_apis.c

References SL_PRINTF , rsi_driver_cb_s::wlan_cb , and rsi_wlan_cb_s::status

Referenced by rsi_wireless_init , rsi_wlan_scan_with_bitmap_options , rsi_wlan_scan , and rsi_wlan_connect

rsi_wlan_get#

int32_t rsi_wlan_get (rsi_wlan_query_cmd_t cmd_type, uint8_t * response, uint16_t length)

Get the required information based on the type of command. This is a blocking API.

Parameters

[in]	cmd_type	- Query command type: 1 : RSI_FW_VERSION 2 : RSI_MAC_ADDRESS 3 : RSI_RSSI 4 : RSI_WLAN_INFO 5 : RSI_CONNECTION_STATUS 6 : RSI_STATIONS_INFO 7 : RSI_SOCKETS_INFO 8 : RSI_CFG_GET 9 : RSI_GET_WLAN_STAT
[in]	response	- Response of the requested command. This is an output parameter.
[in]	length	- Length of the response buffer in bytes to hold result.

rsi_wireless_init () API needs to be called before this API. Return WLAN status

Note

RSI_WLAN_INFO is relevant in both station and AP mode. RSI_SOCKETS_INFO is relevant in both station mode and AP mode. RSI_STATIONS_INFO is relevant in AP mode RSI_GET_WLAN_STATS is relevant in AP and Station mode

Returns

Non-Zero Value - Failure 0 - Success -3 - Command given in wrong state -4 - Buffer not availableto serve the command -6 - Insufficient input buffer given

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 3574 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_driver_cb_s::common_cb , rsi_common_cb_s::state , rsi_scheduler , rsi_driver_cb_s::scheduler_cb , rsi_get_fw_version , rsi_check_and_update_cmd_state , rsi_wlan_cb_s::query_cmd , rsi_wlan_cb_s::app_buffer , and rsi_wlan_cb_s::app_buffer_length

rsi_wlan_set#

int32_t rsi_wlan_set (rsi_wlan_set_cmd_t cmd_type, uint8_t * request, uint16_t length)

Request configuration based on the command type. This is a blocking API.

Parameters

[in]

cmd_type

- Set command type: : 1 : RSI_SET_MAC_ADDRESS 2 : RSI_MULTICAST_FILTER 3 : RSI_JOIN_BSSID 4 : RSI_CFG_SAVE 5 : RSI_CFG_STORE

[in]

request

- Request buffer

[in]

length

- Length of the request buffer in bytes


cmd type	Request structure
RSI_SET_MAC_ADDRESS	uint8_t mac_address[6]
RSI_MULTICAST_FILTER	typedef struct rsi_req_multicast_filter_info_s
{ uint8_t cmd_type;
uint8_t mac_address[6];
}rsi_req_multicast_filter_info_t;
cmd_type are :
2 . RSI_MULTICAST_MAC_CLEAR_ALL (To clear all the bits in multicast bitmap)
3 . RSI_MULTICAST_MAC_SET_ALL (To set all the bits in multicast bitmap)
RSI_JOIN_BSSID	uint8_t join_bssid[6]
RSI_CFG_SAVE	This cmd_type is used to save the parameters into non-volatile memory which are used either to join to an Access point (auto-join mode) or to create an Access point(auto-create mode).
RSI_CFG_STORE	This cmd_type is used to give the configuration values which are supposed to be stored in the module's non-volatile memory and that are used in auto-join or auto-create modes.
User configurations are stored in rsi_user_store_config_t structure.

rsi_wireless_init() API needs to be called before this API. For setting MAC address, call this API immediately after rsi_wireless_init() and before calling any other API. rsi_config_ipaddress() needs to be call for RSI_CFG_SAVE and RSI_CFG_STORE.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -2 - Invalid parameters -3 - Command given in wrong state -4 - Buffer not available to serve the command If return value is greater than 0 0x0002, 0x0003, 0x0005, 0x000A, 0x0014, 0x0015, 0x001A, 0x0021,0x0024,0x0025,0x0026,0x002C,0x003c

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 3959 of file wlan/rsi_wlan_apis.c

References UNUSED_PARAMETER , RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_driver_cb_s::common_cb , rsi_common_cb_s::state , rsi_check_and_update_cmd_state , rsi_wlan_cb_s::field_valid_bit_map , memcpy , and rsi_wlan_cb_s::mac_address

rsi_wlan_buffer_config#

int32_t rsi_wlan_buffer_config (void , dynamic_rx_pool, dynamic_global_pool)

Configure the TX ,RX global buffers ratio. This is a blocking API.

Parameters

[in]		- Configure the dynamic tx ratio
[in]	dynamic_rx_pool	- Configure the dynamic rx ratio
[in]	dynamic_global_pool	- Configure the dynamic global ratio

rsi_wlan_buffer_config() API needs to be called after opermode command only

Returns

Non-Zero Value - Failure 0 - Success -2 - Invalid parameters -3 - Command given in wrong state -4 - Buffer not availableto serve the command If return value is greater than zero : 0x0021

Note

Refer to Error Codes section for the description of the above error codes Error Codes Parameters given here are used internally by the API

Definition at line 4127 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_ap_start#

int32_t rsi_wlan_ap_start (int8_t * ssid, uint8_t channel, rsi_security_mode_t security_type, rsi_encryption_mode_t encryption_mode, uint8_t * password, uint16_t beacon_interval, uint8_t dtim_period)

Start the module in access point mode with the given configuration. This is a blocking API.

Parameters

[in]	ssid	- Type of the security modes on which an access point needs to be operated: 1 : RSI_OPEN 2 : RSI_WPA 3 : RSI_WPA2 4 : RSI_WPA_WPA2_MIXED 5 : RSI_WPS_PUSH_BUTTON
[in]	channel	- Type of the encryption mode: 0 : RSI_NONE 1 : RSI_TKIP 2 : RSI_CCMP
[in]	security_type	- PSK to be used in security mode. Minimum and maximum length of PSK is 8 bytes and 63 bytes respectively
[in]	encryption_mode	- Beacon interval in ms. Allowed values are integers from 100 to 1000 which are multiples of 100.
[in]	password	- DTIM period. Allowed values are integers between 1 and 255.
N/A	beacon_interval
N/A	dtim_period

rsi_wireless_init() API needs to be called before this API.

The following table maps the channel number to the actual radio frequency in the 2.4 GHz spectrum#


Channel numbers (2.4GHz)	Center frequencies for 20MHz channel width
1	2412
2	2417
3	2422
4	2427
5	2432
6	2437
7	2442
8	2447
9	2452
10	2457
11	2462
12	2467
13	2472
14	2484

The following table maps the channel number to the actual radio frequency in the 5 GHz spectrum#


Channel Numbers(5GHz)	Center frequencies for 20MHz channel width
36	5180
40	5200
44	5220
48	5240
144	5700
149	5745
153	5765
157	5785
161	5805
165	5825

Note

DFS channels are not supported in AP mode.

Returns

Non-Zero Value - Failure 0 - Success -2 - Invalid parameters -3 - Command given in wrong state -4 - Buffer not availableto serve the command

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 4256 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , rsi_check_and_update_cmd_state , and rsi_wlan_cb_s::field_valid_bit_map

rsi_wlan_power_save_with_listen_interval#

int32_t rsi_wlan_power_save_with_listen_interval (uint8_t psp_mode, uint8_t psp_type, uint16_t listen_interval)

Set the power save profile in WLAN mode with listen interval-based wakeup. This is a blocking API.

Parameters

[in] psp_mode

[in]

psp_type


parameter	Description
psp_mode	Following psp_mode is defined.
Active(0) : In this mode, module is active and power save is disabled.
RSI_SLEEP_MODE_1 (1): Connected sleep mode.
In this sleep mode, SoC will never turn off, therefore no handshake is required before sending data to the module.
RSI_SLEEP_MODE_2 (2): In this sleep mode, SoC will go to LP/ULP (with/without RAM RETENTION) sleep based on the selected value set for RSI_SELECT_LP_OR_ULP_MODE in rsi_wlan_config.h.
Therefore handshake is required before sending data to the module.
RSI_SLEEP_MODE_8 (8): Deep sleep mode with ULP RAM RETENTION.
RSI_SLEEP_MODE_10 (10): Deep sleep mode without ULP RAM RETENTION.
In deep sleep mode, module will turn off the SoC and a GPIO or Message based handshake is required before sending commands to the module.
psp_type	Follwing psp_type is defined.
RSI_MAX_PSP (0): This psp_type will be used for max power saving.
RSI_FAST_PSP (1): This psp_type allows module to disable power save for any Tx / Rx packet for monitor interval of time
(monitor interval can be set by RSI_MONITOR_INTERVAL in rsi_wlan_config.h file, default value is 50 ms).
If there is no data for monitor interval of time then module will again enable power save.
RSI_UAPSD (2): This psp_type is used to enable WMM power save.
listen interval	Used to configure sleep duration in power save.

N/A listen_interval

rsi_wireless_init() API needs to be called before this API.

Note

Valid only if BIT (7) in join_feature_bit_map is set. This value is given in time units (1024 microsecond). Used to configure sleep duration in power save and should be less than the listen interval configured by RSI_LISTEN_INTERVAL Macro in join command parameters in rsi_wlan_config.h file.
1. psp_type is only valid in psp_mode 1 and 2.
2. psp_type UAPSD is applicable only if WMM_PS is enabled in rsi_wlan_config.h file.
3. In RSI_MAX_PSP mode, Few access points will not aggregate the packets, when power save is enabled from STA. This may cause the drop in throughputs.
4. For the power save mode 3, select RSI_SLEEP_MODE_2 in psp_mode and RSI_HAND_SHAKE_TYPE as MSG_BASED in rsi_wlan_config.h file.
5. For the power save mode 9, select RSI_SLEEP_MODE_8 in psp_mode and RSI_HAND_SHAKE_TYPE as MSG_BASED in rsi_wlan_config.h file.
6. For the deep sleep without ram retention case, select RSI_SLEEP_MODE_10 in psp_mode and RSI_HAND_SHAKE_TYPE as MSG_BASED for msg_based or GPIO_BASED for gpio_based.
7. For LP sleep, select RSI_SLEEP_MODE_2 in psp_mode, select RSI_SELECT_LP_OR_ULP_MODE as RSI_LP_MODE and RSI_HAND_SHAKE_TYPE as MSG_BASED/GPIO_BASED in rsi_wlan_config.h file.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -2 - Invalid parameters -3 - Command given in wrong state -4 - Buffer not available to serve the command

Definition at line 4680 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::common_cb , rsi_common_cb_s::power_save , rsi_power_save_s::wlan_psp_type , rsi_power_save_s::wlan_psp_mode , rsi_wlan_cb_non_rom_s::ps_listen_interval , and rsi_sleep_mode_decision

rsi_wlan_power_save_profile#

int32_t rsi_wlan_power_save_profile (uint8_t psp_mode, uint8_t psp_type)

Set the power save profile in WLAN mode. This is a blocking API.

Parameters

[in] psp_mode

[in]

psp_type


parameter	Description
psp_mode	Following psp_mode is defined.
Active(0) : In this mode, module is active and power save is disabled.
RSI_SLEEP_MODE_1 (1): Connected sleep mode.
In this sleep mode, SoC will never turn off, therefore no handshake is required before sending data to the module.
RSI_SLEEP_MODE_2 (2): In this sleep mode, SoC will go to LP/ULP (with/without RAM RETENTION) sleep based on the selected value set for RSI_SELECT_LP_OR_ULP_MODE in rsi_wlan_config.h.
Therefore handshake is required before sending data to the module
RSI_SLEEP_MODE_8 (8): Deep sleep mode with ULP RAM RETENTION.
RSI_SLEEP_MODE_10 (10): Deep sleep mode without ULP RAM RETENTION.
In deep sleep mode, module will turn off the SoC and a GPIO or Message based handshake is required before sending commands to the module.
psp_type	Follwing psp_type is defined.
RSI_MAX_PSP (0): This psp_type will be used for max power saving.
RSI_FAST_PSP (1): This psp_type allows module to disable power save for any Tx / Rx packet for monitor interval of time
(monitor interval can be set by RSI_MONITOR_INTERVAL in rsi_wlan_config.h file, default value is 50 ms).
If there is no data for monitor interval of time then module will again enable power save.
RSI_UAPSD (2): This psp_type is used to enable WMM power save.

rsi_wireless_init() API needs to be called before this API.

Enhanced max psp#

Enhanced max PSP is recommended. This essentially a MAX PSP mode but switches to Fast PSP mode if AP does not deliver data within 20ms for PS-Poll. To enable this mode, follow procedure below: Add ENABLE_ENHANCED_MAX_PSP (BIT(26)) in RSI_CONFIG_FEATURE_BITMAP Set psp_type to RSI_FAST_PSP (1) Configure Monitor interval by RSI_MONITOR_INTERVAL in rsi_wlan_config.h file. (default value is 50 ms) Note

1. psp_type is only valid in psp_mode 1 and 2.
2. psp_type UAPSD is applicable only if WMM_PS is enabled in rsi_wlan_config.h file.
3. In RSI_MAX_PSP mode, Few Access points won't aggregate the packets, when power save is enabled from STA. This may cause the drop in throughputs.
4. For the power save mode 3, select RSI_SLEEP_MODE_2 in psp_mode and RSI_HAND_SHAKE_TYPE as MSG_BASED in rsi_wlan_config.h file.
5. For the power save mode 9, select RSI_SLEEP_MODE_8 in psp_mode and RSI_HAND_SHAKE_TYPE as MSG_BASED in rsi_wlan_config.h file.
6. For the deep sleep without ram retention case, select RSI_SLEEP_MODE_10 in psp_mode and RSI_HAND_SHAKE_TYPE as MSG_BASED for msg_based or GPIO_BASED for gpio_based.
7. For LP sleep, select RSI_SLEEP_MODE_2 in psp_mode, select RSI_SELECT_LP_OR_ULP_MODE as RSI_LP_MODE and RSI_HAND_SHAKE_TYPE as MSG_BASED/GPIO_BASED in rsi_wlan_config.h file.
Powersave handshake option:
- When sleep clock source is configured to '32KHz bypass clock on UULP_VBAT_GPIO_3', use UULP_VBAT_GPIO_0 for SLEEP_IND_FROM_DEV set RS9116_SILICON_CHIP_VER in 'RS9116.NB0.WC.GENR.OSI.X.X.X\host\sapis.h' to 'CHIP_VER_1P4_AND_ABOVE'
- If not using external clock on UULP_VBAT_GPIO_3' as sleep clock source, use UULP_VBAT_GPIO_3 for SLEEP_IND_FROM_DEV set RS9116_SILICON_CHIP_VER in 'RS9116.NB0.WC.GENR.OSI.X.X.X\host\sapis.h' to 'CHIP_VER_1P3'. EXT_FEAT_LOW_POWER_MODE is not supported for 1.3 version chipset(CHIP_VER_1P3).

Power save modes description#

Power Save Mode 0 In this mode, module is active and power save is disabled. It can be configured any time, while the module is configured in Power Save mode 2 or 8.
Power save Mode 1 Once the module is configured to power save mode 1, it wakes up periodically based upon the DTIM interval configured in connected AP. In power mode 1, only the RF of the module is in power save while SOC continues to work normally. This command has to be given only when module is in connected state (with the AP). After having configured the module to power save mode, the Host can issue subsequent commands. In power save mode 1 the module can receive data from host at any point of time but it can send/receive the data to/from remote terminal only when it is awake at DTIM intervals.
Power Save Mode 2 Once the module is configured to power save mode 2, it can be woken up either by the Host or periodically during its sleep-wakeup cycle. Power Save mode 2 is GPIO based. In case of GPIO based mode, whenever host wants to send data to module, it gives wakeup request by asserting UULP GPIO #2. After wakeup, if the module is ready for data transfer, it sends wakeup indication to host by asserting UULP GPIO #3 or UULP GPIO #0. Host is required to wait until module gives wakeup indication before sending any data to the module. After the completion of data transfer, host can give sleep permission to module by de-asserting UULP GPIO #2. After recognizing sleep permission from host, module gives confirmation to host by de-asserting UULP GPIO #3 or UULP GPIO #0 and again goes back to its sleep-wakeup cycle. Module can send received packets or responses to host at any instant of time. No handshake is required on Rx path.
Power Save mode 3 Power Mode 3 is message based power save. In Power Mode 3, both radio and SOC of RS9116-WiSeConnect are in power save mode. This mode is significant when module is in associated state with AP. Module wakes up periodically upon every DTIM and gives wakeup message ("WKP") to host. Module can not be woken up asynchronously. Every time module intends to go to sleep it sends a sleep request message ("SLP") to the host and expects host to send the acknowledgement message ("ACK"). Host either send acknowledgement ("ACK") or any other pending message. But once ACK is sent, Host should not send any other message unless next wakeup message from module is received. Module shall not go into complete power-save state, if ACK is not received from host for given sleep message. Module can send received packets or responses to host at any instant of time. No handshake is required on Rx path.
Power Save mode 8 In Power save mode 8, both RF and SOC of the module are in complete power save mode. This mode is significant only when module is in un-connected state. Power Save mode 8 can be GPIO based. In case of GPIO based, host can wakeup the module from power save by asserting UULP GPIO #2. After wakeup, if the module is ready for data transfer, it sends wakeup indication to host by asserting UULP GPIO #3 or UULP GPIO #0. Host is required to wait until module gives wakeup indication before sending any data to the module. After the completion of data transfer, host can give sleep permission to module by de-asserting UULP GPIO #2. After recognizing sleep permission from host, module gives confirmation to host by de-asserting UULP GPIO #3 or UULP GPIO #0 and again goes back to its sleep-wakeup cycle. Module can send received packets or responses to host at any instant of time. No handshake is required on Rx path.
Power save mode 9 In Power Mode 9 both Radio and SOC of RS9116-WiSeConnect are in complete power save mode. This mode is significant when module is not connected with any AP. Once power mode 9 command is given, the module sends ("SLP") request to host and wait for the ("ACK") from host and goes to sleep when ACK is given by host. Timer starts when power save command is issued and it can be configured by host using rsi_wlan_set_sleep_timer API. If host does not set any sleep time, then the timer is configured for 3sec by default. Upon wakeup module sends a wakeup message to the host and expects host to give ACK before it goes into next sleep cycle. Host either send ACK or any other messages but once ACK is sent no other packet should be sent before receiving next wakeup message. When ulp_mode_enable is set to '2', after waking up from sleep, the module sends WKP FRM SLEEP message to host when RAM retention is not enabled. After receiving WKP FRM SLEEP message, host needs to start giving commands from beginning (opermode) as module's state is not retained. Returns
- 0 - Success Non-Zero Value - Failure If return value is less than 0 -2 - Invalid parameters -3 - Command given in wrong state -4 - Buffer not available to serve the command If return value is greater than 0 0x0021,0x0025,0x002C,0xFFF8,0x0015,0x0026,0x0052
Note
- If the user wants to enable power save in CoEx mode (WLAN + BT LE) mode - It is mandatory to enable WLAN power save along with BT LE power save.
- The device will enter into power save if and only if both protocol (WLAN, BLE) power save modes are enabled.
- Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 4798 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , rsi_wlan_power_save_with_listen_interval , and SL_PRINTF

rsi_wlan_power_save_disable_and_enable#

int32_t rsi_wlan_power_save_disable_and_enable (uint8_t psp_mode, uint8_t psp_type)

Disable or enable the power save feature. This is a blocking API.

Parameters

[in]	psp_mode	- Power save mode
[in]	psp_type	- Power save type

rsi_wlan_power_save_profile() API needs to be called before this API.

Returns

Non-Zero Value - Failure 0 - Success

Definition at line 4816 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , and rsi_wlan_power_save_profile

rsi_transmit_test_start#

int32_t rsi_transmit_test_start (uint16_t power, uint32_t rate, uint16_t length, uint16_t mode, uint16_t channel)

Start the transmit test. This is a blocking API. This API is relevant in PER mode.

Parameters

[in]	power	- Set transmit data rate
[in]	rate	- Configure length of the TX packet. The valid values are in the range of 24 to 1500 bytes in the burst mode and range of 24 to 260 bytes in the continuous mode.
[in]	length	- 0- Burst Mode 1- Continuous Mode 2- Continuous wave Mode (non modulation) in DC mode 3- Continuous wave Mode (non modulation) in single tone mode (center frequency -2.5MHz) 4- Continuous wave Mode (non modulation) in single tone mode (center frequency +5MHz) Burst mode: DUT transmits a burst of packets with the given power, rate, length in the channel configured. The burst size will be determined by the <number of packets> and if its zero, then DUT keeps transmitting till a rsi_transmit_test_stop API is called. Continuous Mode: The DUT transmits a unmodulated waveform continuously Continuous Wave Mode (Non-Modulation) in DC Mode: The DUT transmits a spectrum only at the center frequency of the channel. A basic signal with no modulation is that of a sine wave and is usually referred to as a continuous wave (CW) signal. A basic signal source produces sine waves. Ideally, the sine wave is perfect. In the frequency domain, it is viewed as a single line at some specified frequency. Continuous Wave Mode (Non-Modulation) in single tone Mode (Center frequency -2.5MHz): The DUT transmits a spectrum that is generated at -2.5MHz from the center frequency of the channel selected. Some amount of carrier leakage will be seen at Center Frequency. Eg: for 2412MHz, the output will be seen at 2409.5MHz Continuous Wave Mode (Non-Modulation) in single tone Mode (Center frequency +5MHz): The DUT transmits a spectrum that is generated at 5MHz from the center frequency of the channel selected. Some amount of carrier leakage will be seen at Center Frequency. Eg: for 2412MHz, the output will be seen at 2417MHz.
[in]	mode	- Set the channel number in 2.4 GHz / 5GHz.
N/A	channel

rsi_wlan_radio_init() API needs to be called before this API.

Note

1. User can configure the maximum power level allowed for the given frequncey in the configured region by providing 127 as power level
2. User should configure a minimum delay (approx. 10 milliseconds) before and after rsi_transmit_test_start API to observe a stable output at requested dBm level.

Note

1. Rate flags can be added in rsi_wlan_common_config.h file i. BIT(6) - Immediate Transfer, set this bit to transfer packets immediately ignoring energy/traffic in channel
2. Before starting Continuous Wave mode, user must start Continuous mode with power and channel values that are intended to be used in Continuous Wave mode i.e. i. Start Continuous mode with intended power value and channel values - Pass any valid values for rate and length. ii. Stop Continuous mode iii Start Continuous Wave mode
3. If user wants to switch continuous wave mode, first need to stop the per mode and again need to give continous wave mode which user wants to switch.

Data Rates#


Data rate(Mbps)	Value of rate
1	0
2	2
5.5	4
11	6
6	139
9	143
12	138
18	142
24	137
36	141
48	136
54	140
MCS0	256
MCS1	257
MCS2	258
MCS3	259
MCS4	260
MCS5	261
MCS6	262
MCS7	263

The following table maps the channel number to the actual radio frequency in the 2.4 GHz spectrum.#


Channel numbers (2.4GHz)	Center frequencies for 20MHz channel width
1	2412
2	2417
3	2422
4	2427
5	2432
6	2437
7	2442
8	2447
9	2452
10	2457
11	2462
12	2467
13	2472
14	2484

Note

To start transmit test in 12,13,14 channels, configure set region parameters in rsi_wlan_config.h

The following table maps the channel number to the actual radio frequency in the 5 GHz spectrum for 20MHz channel bandwidth. The channel numbers in 5 GHz range is from 36 to 165.#


Channel Numbers(5GHz)	Center frequencies for 20MHz channel width
36	5180
40	5200
44	5220
48	5240
52	5260
56	5280
60	5300
64	5320
149	5745
153	5765
157	5785
161	5805
165	5825

Returns

0 - Success Non-Zero Value - Failure If less than zero -4 - Buffer not available to serve the command If greater than zero 0x000A, 0x0021, 0x0025, 0x002C

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 4941 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::opermode , rsi_wlan_radio_init , and rsi_check_and_update_cmd_state

rsi_transmit_test_stop#

int32_t rsi_transmit_test_stop (void )

Stops the transmit test. This is a blocking API.

Parameters

[in]

Note

This API is relevant in PER mode.

rsi_wlan_radio_init() API needs to be called before this API.

Returns

0 Successful execution of the command Non Zero Value Failure if return value is less than 0 -4: Buffer not available to serve the command If return value is greater than 0 0x0021, 0x0025, 0x002C

Note

1. User should configure a minimum delay (approx. 10 milliseconds) before and after rsi_transmit_test_start API to observe a stable output at requested dBm level.
2. Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 5076 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_receive_stats_start#

int32_t rsi_wlan_receive_stats_start (uint16_t channel)

Parameters

[in]

channel

- Valid channel number 2.4GHz or 5GHz

rsi_wlan_radio_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4: Buffer not available to serve the command If return value is greater than 0 0x0021, 0x0025, 0x002c, 0x000A

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 5156 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_receive_stats_stop#

int32_t rsi_wlan_receive_stats_stop (void )

Stop the Transmit (TX) & Receive(RX) packets statistics. if wlan_receive_stats_response_handler() is registered through rsi_wlan_register_callbacks(), it's non blocking, otherwise, a blocking call.

Parameters

[in]

rsi_wireless_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4: Buffer not available to serve the command If return value is greater than 0 0x0021, 0x0025, 0x002c

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 5239 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_wfd_start_discovery#

int32_t rsi_wlan_wfd_start_discovery (uint16_t go_intent, int8_t * device_name, uint16_t channel, int8_t * ssid_post_fix, uint8_t * psk, void(*)(uint16_t status, uint8_t *buffer, const uint32_t length) wlan_wfd_discovery_notify_handler, void(*)(uint16_t status, uint8_t *buffer, const uint32_t length) wlan_wfd_connection_request_notify_handler)

Parameters

N/A	go_intent
N/A	device_name
N/A	channel
N/A	ssid_post_fix
N/A	psk
N/A	wlan_wfd_discovery_notify_handler
N/A	wlan_wfd_connection_request_notify_handler

rsi_wireless_init() API needs to be called before this API.


Parameter	Description
go_intent	Determine whether the device is intended to form a GO (group owner) or work as a Wi-Fi Direct Peer node.
Value used in the GO negotiation process, when the module negotiates with another Wi-Fi Direct Node on who would become the Group Owner.
Valid range of values for this parameter is: 0 to 16. Higher the number, higher is the willingness of the module to become a GO.
After the module becomes a GO in Wi-Fi Direct mode, it appears as an Access Point to the client devices.
If the number is between 0 and 15, a GO negotiation takes place. If the value is 16, the module forms an Autonomous GO without negotiating with any other device.
device_name	Device name for the module. The maximum length of this field is 32 characters and the remaining bytes are filled with 0x00.
Another Wi-Fi Direct device would see this name when it scans for Wi-Fi Direct nodes.
channel	Operating channel number. The specified channel is used if the device becomes a GO or Autonomous GO
ssid_post_fix	Used to add a postfix to the SSID in Wi-Fi Direct GO mode and Autonomous GO mode.
psk	Passphrase of a maximum length of 63 characters (a null character should be supplied to make it 64 bytes in the structure).
PSK used if the module becomes a GO owner.
wlan_wfd_discovery_notify_handler	Asynchronous message sent from module to the host when module finds any Wi-Fi Direct node.
Parameters involved are status, buffer. & length
status	Response status. If status is zero, it means that the wfd device response has some device information
buffer	Response buffer.
Length	Response buffer length
wlan_wfd_connection_request_notify_handler	Asynchronous message sent from module to the host when module receives a connection request from any remote Wi-Fi Direct node.
Parameters involved are status, buffer, & length
status	Response status. If status is zero, it means that the connection request has come from some device.
buffer	Response buffer
length	Response buffer length

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -3 - Command given in wrong state -4 - Buffer not available to serve the command If return value is greater than 0 0x001D, 0x0021, 0x002C, 0x0015

Definition at line 5344 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::opermode , rsi_wlan_radio_init , and rsi_check_and_update_cmd_state

rsi_wlan_wfd_connect#

int32_t rsi_wlan_wfd_connect (int8_t * device_name, void(*)(uint16_t status, const uint8_t *buffer, const uint16_t length) join_response_handler, device_name, join_response_handler, status, buffer, length, <nodetype>)

Parameters

[in]	device_name	- Device name of the Wi-Fi Direct node to connect.
[in]	join_response_handler	- Called when the response for join has come from the module
[in]	device_name	- Device name of the Wi-Fi Direct node to connect.
[in]	join_response_handler	- Called when the response for join has come from the module Parameters involved are status, buffer, & length.
[out]	status	- Response status If status is zero, join response is stated as success
[out]	buffer	- Response buffer. On successful execution of the command. GO_Status (1 byte, hex): 0x47 (ASCII "G") � If the module becomes a Group Owner (GO) after the GO negotiation stage, or becomes an Access Point. 0x43 (ASCII "C") � If the module does not become a GO after the GO negotiation stage, or becomes a client (or station).
[out]	length	- Response buffer length
[out]	<nodetype>	'G' - GO 'C' - Client

rsi_wlan_wfd_start_discovery() API needs to be called before this API.

Note

The module gets a default IP of 192.168.100.76 if it becomes a Group Owner or Access Point in case of IPv4. and gets a default IP of 2001:db8:0:1:0:0:0:120 in case of IPv6.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4 - Buffer not available to serve the command If return value is greater than 0 0x0014, 0x0009, 0x0003, 0x0021, 0x0012c 0x0015

Definition at line 5483 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_send_data#

int32_t rsi_wlan_send_data (uint8_t * buffer, uint32_t length)

Send the raw data in TCP/IP bypass mode. This is a blocking API.

Parameters

[in]	buffer	- Pointer to the buffer to send
[in]	length	- Length of the buffer to send

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -2 - Invalid Parameters -4 - Buffer not available to serve the command If return value is greater than 0 0x0021,0x002C,0x0025

Definition at line 5577 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_ping_async#

int32_t rsi_wlan_ping_async (uint8_t flags, uint8_t * ip_address, uint16_t size, void(*)(uint16_t status, const uint8_t *buffer, const uint16_t length) wlan_ping_response_handler, status, buffer, length)

Send a ping request to the target IP address. If wlan_ping_response_handler() is registered through rsi_wlan_register_callbacks(), it's non blocking, otherwise, a blocking call.

Parameters

[in]	flags	- BIT(0) RSI_IPV6 Set this bit to enable IPv6; by default, it is configured to IPv4
[in]	ip_address	- Target IP address IPv4 address 4 Bytes hexa-decimal, IPv6 address 16 Bytes hexa-decimal
[in]	size	- Ping data size to send. Maximum supported is 300 bytes.
[in]	wlan_ping_response_handler	- Called when ping response has been received from the module. Parameters involved are status, buffer, & length.
[out]	status	- Response status
[out]	buffer	- Response buffer
[out]	length	- Length of the response buffer

rsi_config_ipaddress() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -2 - Invalid parameters -4 - Buffer not available to serve the command If return value is greater than 0 0x0015,0xBB21,0xBB4B,0xBB55

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 5791 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_register_auto_config_rsp_handler#

void rsi_register_auto_config_rsp_handler (void(*)(uint16_t status, uint8_t state) rsi_auto_config_rsp_handler, status, state)

Parameters

[in]	rsi_auto_config_rsp_handler	- Pointer to rsi_auto_config_rsp_handler
[out]	status	- Response status, 0 if success else failure.
[out]	state	- BIT(1) RSI_AUTO_CONFIG_FAILED BIT(2) RSI_AUTO_CONFIG_GOING_ON BIT(3) RSI_AUTO_CONFIG_DONE

Returns

Void

Definition at line 5900 of file wlan/rsi_wlan_apis.c

References SL_PRINTF , rsi_wlan_cb_non_rom_s::callback_list , and rsi_callback_cb_s::auto_config_rsp_handler

rsi_wlan_add_profile#

int32_t rsi_wlan_add_profile (uint32_t type, uint8_t * profile)

Add profile for auto configuration. This is a blocking API.

Parameters

[in]	type	- profile type. Supported profile types are: 1.RSI_WLAN_PROFILE_AP, 2.RSI_WLAN_PROFILE_CLIENT, 3.RSI_WLAN_PROFILE_EAP, 4.RSI_WLAN_PROFILE_P2P, 5.RSI_WLAN_PROFILE_ALL
[in]	profile	- Pointer to config profile and profile structure ap_profile, eap_client_profile_t, client_profile_t, p2p_profile_t, rsi_config_profile_t

Note

This API is not supported in current release.

rsi_wireless_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure -4 - Buffer not availableto serve the command

Definition at line 5931 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_get_state#

uint8_t rsi_wlan_get_state (void )

Get the current WLAN state.. This is a non-blocking API.

Parameters

[in]

Returns

Return the current WLAN state. WLAN states are as follows: RSI_WLAN_STATE_NONE = 0, RSI_WLAN_STATE_OPERMODE_DONE, RSI_WLAN_STATE_BAND_DONE, RSI_WLAN_STATE_INIT_DONE, RSI_WLAN_STATE_SCAN_DONE, RSI_WLAN_STATE_CONNECTED, RSI_WLAN_STATE_IP_CONFIG_DONE, RSI_WLAN_STATE_IPV6_CONFIG_DONE, RSI_WLAN_STATE_AUTO_CONFIG_GOING_ON, RSI_WLAN_STATE_AUTO_CONFIG_DONE, RSI_WLAN_STATE_AUTO_CONFIG_FAILED

Definition at line 6037 of file wlan/rsi_wlan_apis.c

References SL_PRINTF , rsi_driver_cb_s::wlan_cb , and rsi_wlan_cb_s::state

rsi_wlan_get_profile#

int32_t rsi_wlan_get_profile (uint32_t type, rsi_config_profile_t * profile_rsp, uint16_t length)

Get the stored config profile. This is a blocking API.

Parameters

[in]	type	- Config profile type. Supported profile types are as follows: RSI_WLAN_PROFILE_AP, RSI_WLAN_PROFILE_CLIENT, RSI_WLAN_PROFILE_EAP, RSI_WLAN_PROFILE_P2P, RSI_WLAN_PROFILE_ALL
[in]	profile_rsp	- Config profile response in the form of below structure: ap_profile - eap_client_profile_t, client_profile_t, p2p_profile_t, rsi_config_profile_t
[in]	length	- Length of the config profile response

Note

This API is not supported in current release.

rsi_wireless_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4 - Buffer not available to serve the command

Definition at line 6066 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_fill_config_profile#

uint8_t* rsi_fill_config_profile (uint32_t type, uint8_t * profile_buffer)

Fill the config profile based on the profile type.. This is a non-blocking API.

Parameters

[in]	type	- Profile type
[in]	profile_buffer	- Pointer to profile buffer

rsi_wireless_init() API needs to be called before this API.

Returns

profile_buffer

Definition at line 6145 of file wlan/rsi_wlan_apis.c

rsi_wlan_delete_profile#

int32_t rsi_wlan_delete_profile (uint32_t type)

Delete stored configuration based on profile type. This is a blocking API.

Parameters

[in]

type

- Profile type

Note

This API is not supported in current release.

rsi_wireless_init() API needs to be called before this API.

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -4 - Buffer not available to serve the command

Definition at line 6534 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_enable_auto_config#

int32_t rsi_wlan_enable_auto_config (uint8_t enable, uint32_t type)

Enable or disable auto-config with respect to profile. This is a blocking API.

Parameters

[in]	enable	- 0
N/A	type

rsi_wlan_set() API needs to be called before this API.

Note

Currently Profile based feature is not supported.

Returns

0 - Success Non-Zero Value - Failure -4 - Buffer not available to serve the command

Note

If user tries to give any other command during autojoin, then user gets error 0x002C. To avoid this, user have to disable auto_join feature and give other commands.
The parameters of the following APIs are saved when rsi_wlan_enable_auto_config() is called: rsi_wireless_init(), rsi_wlan_scan(), rsi_wlan_scan_with_bitmap_options(), rsi_wlan_connect(), rsi_config_ipaddress(), rsi_wireless_antenna(), rsi_wlan_bgscan_profile(), rsi_radio_caps(), rsi_wlan_ap_start

Definition at line 6629 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_pmk_generate#

int32_t rsi_wlan_pmk_generate (int8_t type, int8_t * psk, int8_t * ssid, uint8_t * pmk, uint16_t length, 32-byte)

Generate PMK if PSK and SSID are provided. This is a blocking API.

Parameters

[in]	type	- Possible values of this field are 1, 2, and 3, but we only pass 3 for generation of PMK.
[in]	psk	- Expected parameters are pre-shared key(PSK) of the access point
[in]	ssid	- Contain the SSID of the access point, this field will be valid only if TYPE value is 3.
[in]	pmk	- PMK array
[in]	length	- Length of PMK array
[out]	32-byte	PMK

rsi_wlan_connect() API needs to be called before this API.

Returns

0 - Successful execution of the command. If TYPE value is 3. Non-Zero Value - Failure If return value is greater than 0 0x0021, 0x0025,0x0026,0x0028,0x002C,0x0039,0x003a, 0x003b

Note

Refer to Error Codes section for the description of the above error codes Error Codes.

Definition at line 6710 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_set_sleep_timer#

int16_t rsi_wlan_set_sleep_timer (uint16_t sleep_time)

Configure the sleep timer mode of the module to go into sleep during power save operation. This is a blocking API.

Parameters

[in]

sleep_time

- Sleep Time value in seconds. Minimum value is 1, and maximum value is 2100

Can be issued any time in case of power save mode 9 (MSG_BASED).

Returns

0 - Success Non-Zero Value - Failure

Definition at line 6864 of file wlan/rsi_wlan_apis.c

References RSI_SUCCESS , SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_wlan_cb_s::state , and rsi_check_and_update_cmd_state

rsi_wlan_register_callbacks#

uint16_t rsi_wlan_register_callbacks (uint32_t callback_id, void(*)(uint16_t status, uint8_t *buffer, const uint32_t length) callback_handler_ptr, status, buffer, length, (void*)callback_handler_ptr)

Parameters

N/A

callback_id

NULL

N/A

callback_handler_ptr

Assert Value

N/A

status

[in]

buffer

- Payload of the asynchronous response

[in]

length

- Length of the payload


parameter callback ID	Value
RSI_JOIN_FAIL_CB	0
RSI_IP_FAIL_CB	1
RSI_REMOTE_SOCKET_TERMINATE_CB	2
RSI_IP_CHANGE_NOTIFY_CB	3
RSI_STATIONS_DISCONNECT_NOTIFY_CB	4
RSI_STATIONS_CONNECT_NOTIFY_CB	5
RSI_WLAN_DATA_RECEIVE_NOTIFY_CB	6
RSI_WLAN_WFD_DISCOVERY_NOTIFY_CB	7
RSI_WLAN_RECEIVE_STATS_RESPONSE_CB	8
RSI_WLAN_WFD_CONNECTION_REQUEST_NOTIFY_CB	9
RSI_WLAN_SCAN_RESPONSE_HANDLER	10
RSI_WLAN_JOIN_RESPONSE_HANDLER	11
RSI_WLAN_RAW_DATA_RECEIVE_HANDLER	12
RSI_WLAN_SOCKET_CONNECT_NOTIFY_CB	13
RSI_WLAN_SERVER_CERT_RECEIVE_NOTIFY_CB	14
RSI_WLAN_ASYNC_STATS	15
RSI_FLASH_WRITE_RESPONSE	16
RSI_WLAN_ASSERT_NOTIFY_CB	17
RSI_WLAN_MAX_TCP_WINDOW_NOTIFY_CB	18

[in]

(void*)callback_handler_ptr

(uint16_t status,uint8_t *buffer, const uint32_t length) – Application callback handler to be registered [param] status - Status of the asynchronous response [param] buffer - Payload of the asynchronous response [param] length - Length of the payload

Note

Refer to Error Codes section for the description of the above error codes Error Codes

Prototypes of the callback functions with given callback id#


Callback id	Function Description
RSI_JOIN_FAIL_CB	Called when asynchronous rejoin failure is received from the FW. Application should try to re-join to the AP. This is valid in both AP and STA mode This call back is triggered when module fails to connect to AP in STA mode or when AP creation fails. Need to call rsi_scan() API in STA mode, rsi_wlan_ap_start() API in AP mode.
RSI_IP_FAIL_CB	Called when asynchronous DHCP renewal failure is received from the FW. Application should retry IP configuration. This is valid in both AP and STA mode This call back is triggered when module fails to renew the DHCP. Need to call rsi_wlan_connect() API.
RSI_REMOTE_SOCKET_TERMINATE_CB	Called when asynchronous remote TCP socket closed is received from the FW. It is an indication given to application that the socket is terminated from remote. This is valid in both STA and AP mode This call back is triggered when remote socket is terminated or closed Need to connect to socket.
RSI_IP_CHANGE_NOTIFY_CB	Called when asynchronous IP change notification is received from the FW. It is an indication given to application that the IP has been modified. This is valid only in STA mode This call back is triggered when AP changes the ip address. Need to call rsi_wlan_connect(),rsi_config_ipaddress() API.
RSI_STATIONS_DISCONNECT_NOTIFY_CB	Called when asynchronous station disconnect notification is received from the FW in AP mode. It is an indication that the AP is disconnect. Application should retry to connect to the AP. This is valid when module acts as AP This call back is triggered when STA's are disconnected STA need to connect to the Accesspoint 9916.
RSI_STATIONS_CONNECT_NOTIFY_CB	Called when asynchronous station connect notification is received from the FW in AP mode. It is an indication that the application is connected to the AP This is valid when 9116 module acts as AP This call back is triggered when STA's are connected STA need to connect to the accesspoint 9116.
RSI_WLAN_DATA_RECEIVE_NOTIFY_CB	Called when asynchronous data is received from the FW in TCP/IP bypass mode. This is valid in both AP and STA mode This call back is triggered when data is received in TCP/IP bypass mode Need to connect to socket.
RSI_WLAN_WFD_DISCOVERY_NOTIFY_CB	Called when wifi direct device discovery notification received from the FW. This is valid in WFD Mode only This call back is triggered when a PEER is discovered by the device Need to call rsi_wireless_init() ,rsi_wlan_wfd_start_discovery API.
RSI_WLAN_RECEIVE_STATS_RESPONSE_CB	Called when asynchronous receive statistics from the FW in per or end to end mode. This is valid in PER Mode only This call back is triggered when module wants to receive stats Need to call rsi_wlan_radio_init() API.
RSI_WLAN_WFD_CONNECTION_REQUEST_NOTIFY_CB	Called when wi-fi direct connection request from the FW. This is valid in WFD Mode only This call back is triggered when there is a connection request from other Peer device Need to rsi_wireless_init() ,rsi_wlan_wfd_start_discovery() API.
RSI_WLAN_SCAN_RESPONSE_HANDLER	Called when a response for scan request is received from the FW. It is an indication to host that the scan is success or failed. This is valid only STA mode This call back is triggered when module try to scan and receive response of all the available AP's Need to call rsi_scan() API.
RSI_WLAN_JOIN_RESPONSE_HANDLER	Called when a response for join request is received from the FW. It is an indication to application that the Join to AP is success or failed. This is valid in STA mode This call back is triggered when STA is sucessfully connected Need to call rsi_scan API.
RSI_WLAN_RAW_DATA_RECEIVE_HANDLER	Called when raw data packets are received from the FW. This is valid in both AP and STA mode This call back is triggered when raw data is received in TCP/IP bypass mode Need to connect to socket.
RSI_WLAN_SOCKET_CONNECT_NOTIFY_CB	Called when a socket connection response comes to the host This is valid in both STA and AP mode This call back is registerd and triggered when socket connects Need to create socket.
RSI_WLAN_SERVER_CERT_RECEIVE_NOTIFY_CB	Reserved
RSI_WLAN_ASYNC_STATS	Called when async response come from the FW to the host. Host can register this callback to get all the information regarding AP connectivity.
RSI_WLAN_ASSERT_NOTIFY_CB	Called when WLAN assertion is triggered from FW. It returns the assert value to the application
RSI_WLAN_MAX_TCP_WINDOW_NOTIFY_CB	Reserved

RSI_WLAN_ASYNC_STATS#

• Asychronous messages are used to indicate module state to host. Asynchronous message are enabled by setting bit 10 of the custom feature bitmap in opermode. • In async messages time_stamp, state_code, reason_code, rsi_channel, rsi_rssi and rsi_bssid are logged.

time_stamp (4 bytes)
- This is the value of the time stamp counter at the time of message; timestamps increment at intervals of 100ms.

state_code (1 byte)

This field indicates the state of the module. state_code contains two parts, the upper nibble and lower nibble.

The upper nibble indicates the state of the rejoin process. The following table documents the possible values of the upper nibble of state_code.


State	Upper Nibble	Indication
Scan Trigger (State I)	`0x00`	Startup. Initial Roam
`0x10`	Beacon Loss. Failover Roam
`0x20`	De-authentication. AP induced roam / Disconnect from supplicant
Scan Result/Decision (State II)	`0x50`	Current AP is best
`0x60`	Better AP found
`0x70`	No AP found
Final Connection (State III)	`0x80`	Associated
`0x90`	Unassociated

The lower nibble of state_code indicates the reason for a state change. The following table documents the possible values of the lower nibble of state_code.


Lower Nibble	Reason for State Change
`0x00`	No reason specified
`0x01`	No response from AP for authentication request(Authentication denial)
`0x02`	Association denial
`0x03`	User configured AP is not present
`0x05`	EAPOL TX failure
`0x06`	Deauthentication from user
`0x07`	PSK not configured
`0x08`	key-handshake failure during rejoin/roaming/after connection(Disconnection from supplicant)
`0x09`	Roaming not enabled

reason_code (1 byte)

Indicates the reason for a failure.
These failures also include EAP connection errors for certificate parsing.

All supported reason codes are listed below


reason_code	Reason codes
0x00	No reason specified
0x01	No response from AP for authentication request(Authentication denial)
0x02	Association denial
0x03	User configured AP is not present
0x05	EAPOL TX failure
0x06	Deauthentication from user
0x07	PSK not configured
0x08	key-handshake failure during rejoin/roaming/after connection(Disconnection from supplicant)
0x09	Roaming not enabled
0x10	Beacon Loss (failover Roam)
0x20	De-authentication (AP induced Roam/Deauth from supplicant)
0x28	TLS CA Cert not present
0x29	TLS PRIVATE key not present
0x2A	TLS Client Cert not present
0x2B	TLS no Cert present
0x2C	PEAP CA Cert not present
0x2D	Server Cert Invalid Key Type
0x2E	Server Intermediate CA Invalid Key Type
0x2F	Server Root CA Invalid Key Type
0x30	Client Cert Invalid Key Type
0x31	Client Root CA Invalid Key Type
0x32	FIPS Server Cert Invalid Length
0x33	FIPS Server Intermediate CA Invalid Length
0x34	FIPS Server Root CA Invalid Length
0x35	FIPS Client Cert Invlaid Length
0x36	FIPS Client Root CA Invalid Length
0x37	Server Cert Invalid Length
0x38	Server Intermediate CA Invalid Length
0x39	Server Root CA Invalid Length
0x3A	Client Cert Invalid Lenght
0x3B	Client Root CA Invalid Length
0x3C	Server Cert Invalid Sign Alg
0x3D	Server Intermediate CA Invalid Sign Alg
0x3E	Server Root CA Invalid Sign Length
0x3F	Client Cert Invalid Sign Alg
0x40	Client Root CA Invalid Sign Length
0x41	Server Intermediate CA not Present
0x42	Server Root CA Parse Error
0x43	Server Intermediate Root CA Parse Error
0x44	Sever Cert Parse Error
0x45	Client Cert Parse Error
0x46	Incorrect Private Key Password
0x47	EAP Failure Received
0x48	Client Cert Bad Date Error
0x49	Server Cert Bad Date Error
0x4A	Server Root CA Bad Date Error
0x4B	Client Root CA Bad Date Error
0x4C	Server Intermediate Root CA Bad Date Error
0x4D	Pem Header Error
0x4E	Pem Footer Error
0x4F	Client Intermediate CA Invalid Sign Length
0x50	Client Intermediate CA Invalid Length
0x51	FIPS Client Intermediate CA Invalid Length
0x52	Client Intermediate CA invalid Key Type
0x53	Pem Error

In addition to the above, reason code received in Deauthentication/Disassociation frame from AP is added. This will set the MSB bit of reason_code.
If MSB bit is set in reason code, then mask it with 0x7f to get the acutal reason code received in Deauthentication/Disassociation frame.

Definition at line 7076 of file wlan/rsi_wlan_apis.c

rsi_wlan_update_gain_table#

int32_t rsi_wlan_update_gain_table (uint8_t band, uint8_t bandwidth, uint8_t * payload, uint16_t payload_len)

Parameters

[in]	band	- 0 ? 2.4GHz 1 ? 5GHz 2 ? Dual band (2.4 Ghz and 5 Ghz)
[in]	bandwidth	- 0 ? 20 MHz 1 ? 40 MHz
[in]	payload	- Pass channel gain values for different regions in an given array format.
[in]	payload_len	- Max payload length (table size) in 2.4GHz is 128 bytes Max payload length (table size) in 5GHz is 64 bytes

Note

1. This frame has to be used by customers who has done FCC/ETSI/TELEC/KCC certification with their own antenna. All other customers should not use this. Inappropriate use of this frame may result in violation of FCC/ETSI/TELEC/KCC or any certifications and Silicon labs is not liable for that
Internally firmware maintains two tables : Worldwide table & Region based table. Worldwide table is populated by firmware with Max power values that chip can transmit that meets target specs like EVM. Region based table has default gain value set.
1. When certifying with user antenna, Region has to be set to Worldwide and sweep the power from 0 to 21dBm. Arrive at max power level that is passing certification especially band-edge.
2. These FCC/ETSI/TELEC/KCC Max power level should be loaded in end-to-end mode via WLAN User Gain table. This has to be called done every boot-up since this information is not saved inside flash. Region based user gain table sent by application is copied onto Region based table .SoC uses this table in FCC/ETSI/TELEC/KCC to limit power and not to violate allowed limits. For Worldwide region firmware uses Worldwide table for Tx. For other regions(FCC/ETSI/TELEC/KCC), Firmware uses min value out of Worldwide & Region based table for Tx. Also there will be part to part variation across chips and offsets are estimated during manufacturing flow which will be applied as correction factor during normal mode of operation.

rsi_radio_init() API needs to be called before this API

Gain Table Payload Format#

           1. Gain table Format for 2.4G Band: (Each entry of the table is 1 byte)
              In 2Ghz, Max Gain/Power obtained from certification should be doubled and loaded.
           <TABLE NAME[]>= {
           <NO.of Regions>,
           <REGION NAME 1>, <CHANNEL_CODE_2G>,
           <CHANNEL NUMBER 1>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>, 
           <CHANNEL NUMBER 2>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>, 
           . 
           . 
           .
           .
           .       
           <CHANNEL NUMBER m-1>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>,
           <CHANNEL NUMBER m>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>, 
           <REGION NAME 2>, <CHANNEL_CODE_2G>,
           <CHANNEL NUMBER 1>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>,
           <CHANNEL NUMBER 2>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>,
           . 
           . 
           . 
           . 
           <CHANNEL NUMBER m-1>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>,
           <CHANNEL NUMBER m>, <2 * MAX POWER FOR b RATE>, <2 * MAX POWER FOR g RATE>, <2 * MAX POWER FOR n RATE>, 
           }; 

           Gain table Format for 5G Band: (Each entry of the table is 1 byte)
             In 5Ghz, Max Gain/Power obtained from certification should be loaded.
            <TABLE NAME[]>= { 
                              <NO.of Regions>, 
                              <REGION NAME 1>, <CHANNEL_CODE_5G>, 
                              <CHANNEL NUMBER IN BAND 1 IF ANY>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                               <BAND_NUMBER 1>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                              <CHANNEL NUMBER IN BAND 2 IF ANY>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                              <BAND_NUMBER 2>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                              <CHANNEL NUMBER IN BAND 3 IF ANY>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                              <BAND_NUMBER 3>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                              <CHANNEL NUMBER IN BAND 4 IF ANY>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                              <BAND_NUMBER 4>, <MAX POWER FOR 11a RATE>, <MAX POWER FOR n RATE>, 
                              . 
                              . 
                              . 
                              . 
                              . 
                              <REGION NAME y>, <CHANNEL_CODE_5G>, 
                              }; 
           2. Supported Region names:
                                   FCC, ETSI,TELEC, KCC 
                                  The following are the regions and the values to be passed instead of macros in the example.
                                  Region      |          Macro Value
                                  ------------|--------------------
                                  FCC         |            0
                                  ETSI        |            1
                                  TELEC       |            2
                                  KCC         |            4
           3. <CHANNEL_CODE_2G> is a 8 bit value which is encoded as:
              If TX powers of all the channels are same, then use CHANNEL_CODE_2G as 17. In this case, mention channel number as 255.
              Tf TX power is not same for all channels, then indicate CHANNEL_CODE_2G as no-of channels. And specify tx power values for all the channels indicated.
           4. <CHANNEL_CODE_5G> is a 8 bit value encoded as number of rows in a region for 5G band.
               a. 5G is divided into 4 sub bands: 
                     band 1: channel number <= 48 
                     band 2: channel number > 48 and channel number <= 64 
                     band 3: channel number > 64 and channel number <= 144 
                     band 4: channel number > 144 
               b. If any channel in a band has different set of power values, specify the channel number followed by power values. 
               c. If all the channels in a band 1 has same power values, specify the band number as 1 followed by power value. 
               d. If all the channels in a band 2 has same power values, specify the band number as 2 followed by power value. 
               e. If all the channels in a band 3 has same power values, specify the band number as 3 followed by power value. 
               f. If all the channels in a band 4 has same power values, specify the band number as 4 followed by power value.

Example payload formats#

                       Examples: 
                     For 2.4Ghz Band in 20Mhz bandwidth
                       {3, //NUM_OF_REGIONS 
                           FCC, 13, //NUM_OF_CHANNELS 
                       //   rate,  11b, 11g, 11n   
                               1,  34,  20,  20,  
                               2,  34,  28,  28,  
                               3,  34,  32,  32,  
                               4,  34,  36,  36,  
                               5,  34,  38,  38,  
                               6,  34,  40,  40,  
                               7,  34,  38,  38,  
                               8,  34,  36,  36,  
                               9,  34,  32,  32,  
                               10, 34,  32,  32,  
                               11, 34,  24,  24,  
                               12, 34,  16,  24,  
                               13, 34,  12,  12,  
                           TELEC, 17, 
                                255, 20,  16, 16, 
                           KCC, 17, 
                                255, 26,  20, 20, 
                       }; //}}} 

                     For 5Ghz band in 20Mhz bandwidth
                        {2, 
                        FCC, 6, 
                            1,  9, 10, //band 1 
                            2,  8,  9, //band 2 
                          100,  4,  4, //band 3 
                            3,  6,  8, //band 3 
                          149,  3,  3, //band 4 
                        TELEC, 4, 
                          1, 9, 10, //band 1 
                          2, 8, 10, //band 2   
                          3, 6,  8, //band 3   
                          4, 6,  7, //band 4 
                        };


                     For 5Ghz band in 40Mhz bandwidth
                        {2, 
                        FCC, 8, 
                            1,  9, 10, //band 1 
                           62,  8,  9, //band 2 
                            2,  8,  9, //band 2 
                          102,  4,  4, //band 3 
                          134,  6,  8, //band 3 
                            3,  6,  8, //band 3 
                          151,  3,  3, //band 4    
                            4,  6,  7, //band 4    
                        TELEC, 4, 
                           1, 9, 10, //band 1 
                           2, 8, 10, //band 2  
                           3, 6,  8, //band 3  
                           4, 6,  7, //band 4 
                        };

Customers using Certified MARS antenna should use the gain table structures below:#

                     For 2.4Ghz Band in 20Mhz bandwidth
                      {3,//NUM_OF_REGIONS
                          FCC, 0xD,//NUM_OF_CHANNELS
                      //   rate,  11b, 11g, 11n
                              1,  28,  32,  30,
                              2,  28,  32,  30,
                              3,  28,  32,  30,
                              4,  30,  28,  34,
                              5,  30,  28,  34,
                              6,  30,  28,  34,
                              7,  30,  28,  34,
                              8,  30,  28,  34,
                              9,  28,  30,  30,
                              10, 28,  30,  30,
                              11, 28,  30,  30,
                              12, 28,  30,  30,
                              13, 28,  30,  30,
                          TELEC,0x11, //NA
                               255, 20,  16, 16,
                          KCC, 0x11   //NA,
                               255, 26,  20, 20
                      };

                     For 5Ghz band in 20Mhz bandwidth
                      {2,
                      FCC, 0x6,
                          1, 12, 12, //band 1
                          2, 11, 11, //band 2   
                        100, 10, 12, //band 3   
                          3, 13, 13, //band 3   
                        140, 10, 11, //band 4   
                          4, 13, 13, //band 4   
                      TELEC, 0x4, //NA
                        1, 9, 10, //band 1
                        2, 8, 10, //band 2   
                        3, 6,  8, //band 3   
                        4, 6,  7, //band 4
                      };


                     For 5Ghz band in 40Mhz bandwidth
                      {2,
                      FCC, 0x8,   
                          1,  9,  9, //band 1
                         62,  8,  8, //band 2   
                          2,  9,  9, //band 2   
                        102,  9,  9, //band 3   
                        134, 12, 12, //band 3   
                          3, 10, 10, //band 3   
                        151, 11, 11, //band 4       
                          4, 11, 11, //band 4       
                      TELEC, 0x4, //NA  
                         1, 9, 10, //band 1
                         2, 8, 10, //band 2   
                         3, 6,  8, //band 3   
                         4, 6,  7, //band 4
                      };

Note

1. Length of the payload should match with payload_len parameter value.
2. In 2.4Ghz band, 40Mhz is not supported

Returns

0 - Success Non-Zero Value - Failure If return value is less than 0 -2 - Invalid parameters -3 - Command given in wrong state If return value is greater than 0 0x0021, 0x003E

Note

Refer to Error Codes section for above error codes Error Codes.

Definition at line 7706 of file wlan/rsi_wlan_apis.c

References SL_PRINTF , rsi_driver_cb_s::wlan_cb , rsi_check_and_update_cmd_state , and RSI_SUCCESS

rsi_wlan_csi_config_async#

int32_t rsi_wlan_csi_config_async (uint8_t enable, uint32_t periodicity, void(*)(uint16_t status, uint8_t *buffer, const uint32_t length) wlan_csi_data_response_handler)

Enable or disable CSI data retrieval with configured periodicity.

Parameters

[out]	enable	- Response status: 0 - Success, 0x21 - rsi_wlan_csi_config_async() called in wrong state
[out]	periodicity	- Response buffer
[out]	wlan_csi_data_response_handler	- Length of the response buffer. Payload length will be 224 bytes.

rsi_wlan_scan() API needs to be called before this API.

Note

Callback implementation example - void rsi_wlan_csi_data_response_handler(uint16_t status, rsi_rsp_csi_data_t *payload, const uint32_t payload_length)

Note

rsi_rsp_csi_data_s : Structure type supposed to hold incoming CSI data

Returns

0 - Success Non-Zero Value - Failure -1 - Callback not registered -4 - Buffer unavailable to serve the command

Note

Refer to Error Codes section for the description of the above error codes Error Codes

Definition at line 7801 of file wlan/rsi_wlan_apis.c

References SL_PRINTF , rsi_wlan_cb_non_rom_s::callback_list , rsi_callback_cb_s::wlan_receive_csi_data_response_handler , rsi_driver_cb_s::wlan_cb , rsi_check_and_update_cmd_state , and RSI_SUCCESS