open-ameba/RTL00_SDKV35a/component/common/api/wifi_api.c

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/*
* wifi_api.c
*
* Created on: 01/11/2017
* Author: pvvx
*/
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#include <platform_opts.h>
#include "rtl8195a.h"
#include "drv_types.h"
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#include <autoconf.h>
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#include "FreeRTOS.h"
#if 1
#include "drv_types.h" // or #include "wlan_lib.h"
#else
#include "wifi_constants.h"
#include "wifi_structures.h"
//#include "wlan_lib.h" // or #include "drv_types.h"
#endif
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#if CONFIG_EXAMPLE_WLAN_FAST_CONNECT
#error "Udnef CONFIG_EXAMPLE_WLAN_FAST_CONNECT!"
#endif
#ifndef USE_FLASH_EEP
#error "Define USE_FLASH_EEP!"
#endif
#include "task.h"
#include <platform/platform_stdlib.h>
#include <wifi/wifi_conf.h>
#include "flash_api.h"
#include <lwip_netconf.h>
#include "dhcp/dhcps.h"
#include "ethernetif.h"
#if CONFIG_ETHERNET
#include "ethernet_mii/ethernet_mii.h"
#endif
#include "flash_eep.h"
#include "feep_config.h"
#include "wifi_api.h"
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#include "main.h"
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#include "wifi_user_set.h"
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#if 0
#undef debug_printf
#define debug_printf(fmt, ...) rtl_printf(fmt, ##__VA_ARGS__)
#undef info_printf
#define info_printf(fmt, ...) rtl_printf(fmt, ##__VA_ARGS__)
#undef warning_printf
#define warning_printf(fmt, ...) rtl_printf(fmt, ##__VA_ARGS__)
#undef error_printf
#define error_printf(fmt, ...) rtl_printf(fmt, ##__VA_ARGS__)
#endif
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#if defined(CONFIG_ENABLE_WPS_AP) && CONFIG_ENABLE_WPS_AP
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extern void cmd_ap_wps(int argc, char **argv);
extern int wpas_wps_dev_config(u8 *dev_addr, u8 bregistrar);
#endif //CONFIG_WPS_AP
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//=========================================
//--- Wlan Config Init-------------------
WIFI_CONFIG wifi_cfg = {
.mode = DEF_WIFI_MODE, // rtw_mode_t
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.adaptivity = DEF_WIFI_ADAPTIVITY, // rtw_adaptivity_mode_t
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.country_code = DEF_WIFI_COUNTRY,// rtw_country_code_t
.tx_pwr = DEF_WIFI_TX_PWR, // rtw_tx_pwr_percentage_t
.bgn = DEF_WIFI_BGN, // rtw_network_mode_t
.load_flg = DEF_LOAD_CFG,
.save_flg = DEF_SAVE_CFG
};
//---- Interface 0 - wlan0 - AP - init ---
SOFTAP_CONFIG wifi_ap_cfg = {
.ssid = DEF_AP_SSID,
.password = DEF_AP_PASSWORD,
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.security = DEF_AP_SECURITY, // RTW_SECURITY_WPA2_AES_PSK or RTW_SECURITY_OPEN
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.beacon_interval = DEF_AP_BEACON,
.channel = DEF_AP_CHANNEL,
.ssid_hidden = 0,
.max_sta = DEF_WIFI_AP_STATIONS // Max number of STAs, should be 1..3, default is 3
};
DHCP_CONFIG wifi_ap_dhcp = {
.ip = DEF_AP_IP,
.mask = DEF_AP_MSK,
.gw = DEF_AP_GW,
.mode = 2
};
//---- Interface 1 - wlan1 - ST - init ---
STATION_CONFIG wifi_st_cfg = {
.ssid = DEF_ST_SSID,
.password = DEF_ST_PASSWORD,
.bssid = DEF_ST_BSSID,
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.flg = DEF_ST_BSSID,
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.security = DEF_ST_SECURITY,
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.autoreconnect = DEF_ST_AUTORECONNECT,
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.reconnect_pause = DEF_ST_RECONNECT_PAUSE,
.sleep = DEF_ST_SLEEP,
.dtim = DEF_ST_LPS_DTIM
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};
DHCP_CONFIG wifi_st_dhcp = {
.ip = DEF_ST_IP,
.mask = DEF_ST_MSK,
.gw = DEF_ST_GW,
.mode = 1
};
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unsigned char wifi_run_mode = RTW_MODE_NONE; // rtw_mode_t
unsigned char wifi_st_status;
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typedef int (*wlan_init_done_ptr)(void);
typedef int (*write_reconnect_ptr)(uint8_t *data, uint32_t len);
//Function
#if CONFIG_AUTO_RECONNECT
extern void (*p_wlan_autoreconnect_hdl)(rtw_security_t, char*, int, char*, int, int);
#endif
extern wlan_init_done_ptr p_wlan_init_done_callback;
//extern write_reconnect_ptr p_write_reconnect_ptr;
extern struct netif xnetif[NET_IF_NUM];
extern uint8_t rtw_power_percentage_idx;
extern Rltk_wlan_t rltk_wlan_info[2]; // in wrapper.h
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#define PARM_RECONNECT 1
struct wifi_autoreconnect_param {
#if PARM_RECONNECT
rtw_security_t security_type;
int key_id;
#else
rtw_security_t security_type;
char *ssid;
int ssid_len;
char *password;
int password_len;
int key_id;
#endif
};
struct wifi_autoreconnect_param wifi_autoreconnect;
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typedef struct _feep_element {
uint16 id;
uint16 size;
void * obj;
} FEEP_ELEMENT, *PFEEP_ELEMENT;
FEEP_ELEMENT feep_tab[] = {
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{ FEEP_ID_WIFI_AP_CFG, sizeof(wifi_ap_cfg), &wifi_ap_cfg }, // Bit0 BID_WIFI_AP_CFG
{ FEEP_ID_WIFI_ST_CFG, sizeof(wifi_st_cfg), &wifi_st_cfg }, // Bit1 BID_WIFI_ST_CFG
{ FEEP_ID_AP_DHCP_CFG, sizeof(wifi_ap_dhcp), &wifi_ap_dhcp }, // Bit2 BID_AP_DHCP_CFG
{ FEEP_ID_ST_DHCP_CFG, sizeof(wifi_st_dhcp), &wifi_st_dhcp }, // Bit3 BID_ST_DHCP_CFG
{ FEEP_ID_WIFI_CFG, sizeof(wifi_cfg), &wifi_cfg }, // Bit4 BID_WIFI_CFG
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{ FEEP_ID_AP_HOSTNAME, LWIP_NETIF_HOSTNAME_SIZE, &lwip_host_name[1] }, // Bit5 BID_AP_HOSTNAME
{ FEEP_ID_ST_HOSTNAME, LWIP_NETIF_HOSTNAME_SIZE, &lwip_host_name[0] }, // Bit5 BID_ST_HOSTNAME
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{ 0, 0, NULL }
};
uint32 read_wifi_cfg(uint32 flg)
{
uint32 ret = 0;
PFEEP_ELEMENT p = feep_tab;
for(int m = 1; m && p->id != 0; m <<= 1, p++) {
if((flg & m)
&& flash_read_cfg(p->obj, p->id, p->size) < p->size) {
ret |= m;
};
};
return ret;
}
uint32 write_wifi_cfg(uint32 flg)
{
uint32 ret = 0;
PFEEP_ELEMENT p = feep_tab;
for(int m = 1; m && p->id != 0; m <<= 1, p++) {
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if(flg & m) {
if(!flash_write_cfg(p->obj, p->id, p->size)) {
ret |= m;
};
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};
};
return ret;
}
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#if CONFIG_WLAN_CONNECT_CB
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_WEAK void connect_start(void)
{
info_printf("\%s: Time at start %d ms.\n", __func__, xTaskGetTickCount());
}
_WEAK void connect_close(void)
{
info_printf("\%s: Time at start %d ms.\n", __func__, xTaskGetTickCount());
}
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#endif
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#ifdef NOT_USE_CALLS
LOCAL int wlan_init_done_callback(void) {
printf("WiFi Init after %d ms\n", xTaskGetTickCount());
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return 0;
}
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#endif // #ifdef NOT_USE_CALLS
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//char wlan_st_name[] = WLAN0_NAME;
char wlan_st_name[] = WLAN0_NAME;
char wlan_ap_name[] = WLAN1_NAME;
char wlan_st_netifn = 0;
char wlan_ap_netifn = 1;
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uint32 get_new_ip(void)
{
if(!(wifi_cfg.mode ^ wifi_run_mode)) {
return current_netif->ip_addr.addr;
} else if(wifi_cfg.mode == RTW_MODE_AP) {
return wifi_ap_dhcp.ip;
} else if(wifi_st_dhcp.mode == 2) {
return wifi_st_dhcp.ip;
}
return 0;
}
uint8 * get_new_hostname(void)
{
if(!(wifi_cfg.mode ^ wifi_run_mode)) {
return current_netif->hostname;
} else if(wifi_cfg.mode == RTW_MODE_AP) {
return lwip_host_name[1];
};
return lwip_host_name[0];
}
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LOCAL uint8 chk_ap_netif_num(void)
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{
if (wifi_mode == RTW_MODE_AP) {
wlan_st_name[4] = '1';
wlan_ap_name[4] = '0';
wlan_st_netifn = 1;
wlan_ap_netifn = 0;
}
else { // if (wifi_mode == RTW_MODE_STA) {
wlan_st_name[4] = '0';
wlan_ap_name[4] = '1';
wlan_st_netifn = 0;
wlan_ap_netifn = 1;
}
return wlan_ap_netifn;
}
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extern Rltk_wlan_t rltk_wlan_info[2]; // in wrapper.h
/*LOCAL _adapter * get_padapter(int num) {
if(rltk_wlan_info[num].enable) {
return *(_adapter **)((rltk_wlan_info[0].dev)->priv);
}
return NULL;
};*/
#define get_padapter(num) (*(_adapter **)((rltk_wlan_info[num].dev)->priv));
LOCAL rtw_result_t _wext_set_lps_dtim(int adapter_num, uint8 lps_dtim ) {
_adapter * pad = get_padapter(adapter_num);
rtw_result_t ret = RTW_ERROR;
if(pad) {
ret = rtw_pm_set_lps_dtim(pad, lps_dtim);
}
return ret;
}
LOCAL rtw_result_t _wext_enable_powersave(int adapter_num, uint8 ips_mode, uint8 lps_mode) {
_adapter * pad = get_padapter(adapter_num);
rtw_result_t ret = RTW_ERROR;
if(pad) {
ret = rtw_pm_set_ips(pad, ips_mode); // 2 режима 1,2 !
if(ret == RTW_SUCCESS) {
LeaveAllPowerSaveMode(pad);
ret = rtw_pm_set_lps(pad, lps_mode);
}
}
return ret;
}
LOCAL int _wext_cmp_ssid(int adapter_num, uint8 *ssid)
{
_adapter * pad = get_padapter(adapter_num);
int ret = 0;
if((pad != NULL) && (pad->mlmepriv.fw_state & 0x41) != 0) {
int len = pad->mlmepriv.cur_network.network.Ssid.SsidLength;
if(len < 32) len++;
else len = 32;
ret = (rtl_memcmp(ssid, &pad->mlmepriv.cur_network.network.Ssid.Ssid, len) == 0);
debug_printf("%d s[%d]'%s'\n", pad->mlmepriv.fw_state, len, ssid);
}
return ret;
}
#ifdef NOT_USE_CALLS
LOCAL rtw_result_t _wext_get_mode(int adapter_num, int *mode) {
_adapter * pad = get_padapter(adapter_num);
rtw_result_t ret = RTW_ERROR;
if(pad) {
uint16 f = pad->mlmepriv.fw_state;
if(f & 8) *mode = 2;
else if(f & 0x60) *mode = 1;
else if(!(f & 0x10)) *mode = 0;
else *mode = 3;
ret = RTW_SUCCESS;
}
return ret;
}
LOCAL rtw_result_t _wext_get_channel(int adapter_num, uint8 *ch)
{
_adapter * pad = get_padapter(adapter_num);
rtw_result_t ret = RTW_ERROR;
if(pad) {
if(pad->mlmepriv.fw_state & 1) {
*ch = pad->mlmepriv.htpriv.ch_offset;
}
else {
*ch = pad->mlmeextpriv.cur_channel;
}
ret = RTW_SUCCESS;
}
return ret;
}
#endif // #ifdef NOT_USE_CALLS
LOCAL rtw_result_t wifi_run_ap(void) {
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rtw_result_t ret = RTW_NOTAP;
if( (wifi_mode == RTW_MODE_AP) || (wifi_mode == RTW_MODE_STA_AP) ){
info_printf("Starting AP (%s, netif%d)...\n", wlan_ap_name, wlan_ap_netifn);
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/*
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netif_set_addr(&xnetif[WLAN_AP_NETIF_NUM], &wifi_ap_dhcp.ip,
&wifi_ap_dhcp.mask, &wifi_ap_dhcp.gw);
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*/
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if(wext_set_sta_num(wifi_ap_cfg.max_sta) != 0) { // Max number of STAs, should be 1..3, default is 3
error_printf("AP not set max connections %d!\n", wifi_ap_cfg.max_sta);
};
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#if defined(CONFIG_ENABLE_WPS_AP) && CONFIG_ENABLE_WPS_AP
// todo: ветка не доделана
wpas_wps_dev_config(xnetif[WLAN_AP_NETIF_NUM].hwaddr, 1);
#endif //CONFIG_WPS_AP
if(wifi_ap_cfg.channel == 0 || wifi_ap_cfg.channel > 14) {
wifi_ap_cfg.channel = 1;
}
ret = wifi_start_ap(wifi_ap_cfg.ssid, //char *ssid,
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wifi_ap_cfg.security, //rtw_security_t ecurity_type,
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wifi_ap_cfg.password, //char *password,
wifi_ap_cfg.channel, //int channel
wifi_ap_cfg.ssid_hidden); //
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// wifi_run_mode |= RTW_MODE_AP;
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if (ret != RTW_SUCCESS) {
error_printf("Error(%d): Start AP failed!\n\n", ret);;
} else {
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int timeout = wifi_test_timeout_ms / wifi_test_timeout_step_ms;
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while (1) {
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#if 1
if (_wext_cmp_ssid(WLAN_AP_NETIF_NUM, &wifi_ap_cfg.ssid )) {
#else
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char essid[33];
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if ((wext_get_ssid(wlan_ap_name, (unsigned char *) essid) > 0)
&&(strcmp((const char * ) essid, (const char * )wifi_ap_cfg.ssid) == 0)) {
#endif
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#ifdef CONFIG_DONT_CARE_TP
pnetiff->flags |= NETIF_FLAG_IPSWITCH;
#endif
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if(wifi_ap_dhcp.mode) {
#if defined(DEF_AP_DHCP_START) && defined(DEF_AP_DHCP_STOP)
dhcps_ip4addr_pool_start = DEF_AP_DHCP_START;
dhcps_ip4addr_pool_end = DEF_AP_DHCP_STOP;
#endif
dhcps_init(&xnetif[WLAN_AP_NETIF_NUM]);
};
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info_printf("AP '%s' started after %d ms\n",
wifi_ap_cfg.ssid, xTaskGetTickCount());
show_wifi_ap_ip();
if(wifi_cfg.save_flg & (BID_WIFI_AP_CFG | BID_AP_DHCP_CFG))
write_wifi_cfg(wifi_cfg.save_flg & (BID_WIFI_AP_CFG | BID_AP_DHCP_CFG));
ret = RTW_SUCCESS;
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#if CONFIG_WLAN_CONNECT_CB
// extern void connect_start(void);
connect_start();
#endif
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break;
}
if (timeout == 0) {
error_printf("Start AP timeout!\n");
ret = RTW_TIMEOUT;
break;
}
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vTaskDelay(wifi_test_timeout_step_ms / portTICK_RATE_MS);
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timeout--;
}
}
}
return ret;
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}
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LOCAL rtw_result_t StartStDHCPClient(void)
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{
debug_printf("Start DHCPClient...\n");
int ret = RTW_SUCCESS;
struct netif * pnetif = &xnetif[WLAN_ST_NETIF_NUM];
DHCP_CONFIG *p = (dhcp_cfg *)&wifi_st_dhcp;
unsigned char mode = p->mode;
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if((mode == 3) // Auto fix
&& p->ip != IP4ADDR(255,255,255,255)
&& p->ip != IP4ADDR(0,0,0,0)) {
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}
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else mode = 1; // DHCP On
if(mode == 2) { // fixed ip
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netif_set_addr(pnetif, (ip_addr_t *)&p->ip, (ip_addr_t *)&p->mask, (ip_addr_t *)&p->gw);
}
else if(mode) {
UBaseType_t savePriority = uxTaskPriorityGet(NULL);
/* If not rise priority, LwIP DHCP may timeout */
vTaskPrioritySet(NULL, tskIDLE_PRIORITY + 3);
/* Start DHCP Client */
ret = LwIP_DHCP(WLAN_ST_NETIF_NUM, DHCP_START);
vTaskPrioritySet(NULL, savePriority);
if (ret == DHCP_ADDRESS_ASSIGNED) {
p->ip = pnetif->ip_addr.addr;
p->gw = pnetif->gw.addr;
p->mask = pnetif->netmask.addr;
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if(p->mode == 3) { // Auto fix
p->mode = 2; // fixed ip
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write_wifi_cfg(BID_ST_DHCP_CFG);
}
ret = RTW_SUCCESS;
}
else {
debug_printf("LwIP_DHCP ret=%d\n", ret);
ret = RTW_ERROR;
}
}
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if(ret == RTW_SUCCESS) {
show_wifi_st_ip();
wifi_st_status = WIFI_STA_CONNECTED;
#if CONFIG_WLAN_CONNECT_CB
// extern void connect_start(void);
connect_start();
#endif
}
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return ret;
}
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LOCAL void wifi_autoreconnect_thread_(void *param) {
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int ret = RTW_ERROR;
struct wifi_autoreconnect_param *reconnect_param =
(struct wifi_autoreconnect_param *) param;
printf("auto reconnect ...\n");
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wifi_st_status = WIFI_STA_RECONNECT;
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ret = wifi_connect(
wifi_st_cfg.bssid,
wifi_st_cfg.flg,
#if PARM_RECONNECT
wifi_st_cfg.ssid,
reconnect_param->security_type,
wifi_st_cfg.password,
#else
reconnect_param->ssid,
reconnect_param->security_type,
reconnect_param->password,
#endif
reconnect_param->key_id,
NULL);
if (ret == RTW_SUCCESS) {
if(wifi_cfg.save_flg & BID_WIFI_ST_CFG)
write_wifi_cfg(BID_WIFI_ST_CFG);
// Start DHCPClient
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StartStDHCPClient();
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}
vTaskDelete(NULL);
}
LOCAL void wifi_autoreconnect_hdl_(rtw_security_t security_type, char *ssid,
int ssid_len, char *password, int password_len, int key_id) {
wifi_autoreconnect.security_type = security_type;
wifi_autoreconnect.key_id = key_id;
#if PARM_RECONNECT==0
wifi_autoreconnect.ssid = ssid;
wifi_autoreconnect.password = password;
#endif
_adapter * ad = *(_adapter **)((rltk_wlan_info[0].dev)->priv);
if(ad->mlmeextpriv.reconnect_cnt == 255) {
ad->mlmeextpriv.reconnect_cnt = 0;
};
xTaskCreate(wifi_autoreconnect_thread_, (const char * )"st_recon", 400,
&wifi_autoreconnect, tskIDLE_PRIORITY + 1, NULL);
}
LOCAL void st_set_autoreconnect(uint8 mode, uint8 count, uint16 timeout) {
p_wlan_autoreconnect_hdl = wifi_autoreconnect_hdl_;
_adapter * ad = *(_adapter **)((rltk_wlan_info[0].dev)->priv);
ad->mlmeextpriv.reconnect_times = count;
ad->mlmeextpriv.reconnect_timeout = timeout;
ad->mlmeextpriv.reconnect_cnt = 0;
ad->mlmeextpriv.auto_reconnect = (mode != 0);
}
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LOCAL rtw_result_t wifi_run_st(void) {
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rtw_result_t ret = RTW_SUCCESS;
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// chk_ap_netif_num();
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if((wifi_mode == RTW_MODE_STA) || (wifi_mode == RTW_MODE_STA_AP)) {
#if CONFIG_AUTO_RECONNECT
// p_wlan_autoreconnect_hdl = NULL;
if (wifi_st_cfg.autoreconnect) {
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st_set_autoreconnect(1, wifi_st_cfg.autoreconnect, wifi_st_cfg.reconnect_pause);
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ret = wext_set_autoreconnect(WLAN0_NAME, 1, wifi_st_cfg.autoreconnect, wifi_st_cfg.reconnect_pause);
if (ret != RTW_SUCCESS)
warning_printf("ERROR: Operation failed! Error=%d\n", ret);
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}
#endif
info_printf("Connected to AP (%s, netif%d)...\n", wlan_st_name, wlan_st_netifn);
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ret = wifi_connect(
wifi_st_cfg.bssid,
wifi_st_cfg.flg,
wifi_st_cfg.ssid,
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idx_to_rtw_security(wifi_st_cfg.security),
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wifi_st_cfg.password,
-1,
NULL);
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wifi_st_status = WIFI_STA_START;
// wifi_run_mode |= RTW_MODE_STA;
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if (ret != RTW_SUCCESS) {
error_printf("%s: Operation failed! Error(%d)\n", __func__, ret);
} else {
if(wifi_cfg.save_flg & BID_WIFI_ST_CFG)
write_wifi_cfg(BID_WIFI_ST_CFG);
// Start DHCPClient
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StartStDHCPClient();
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}
};
return ret;
}
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LOCAL int _wifi_on(rtw_mode_t mode) {
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int ret = 0;
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/*
if (!((rltk_wlan_running(WLAN0_IDX) == 0) && (rltk_wlan_running(WLAN1_IDX) == 0))) {
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warning_printf("WIFI is already running\n");
return 0;
}
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*/
info_printf("Initializing WIFI...\n");
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uint8 devnum = (mode == RTW_MODE_STA_AP); // flag = 1 -> 2 netif
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wifi_mode = mode;
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chk_ap_netif_num();
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// set wifi mib
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wext_set_adaptivity(wifi_cfg.adaptivity & 3); // rtw_adaptivity_mode_t
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ret = rltk_wlan_init(WLAN0_IDX, mode); // rtw_mode_t
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netif_set_up(&xnetif[0]);
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if (ret < 0) return ret;
if(devnum) {
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ret = rltk_wlan_init(WLAN1_IDX, mode);
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if (ret < 0) return ret;
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netif_set_up(&xnetif[1]);
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}
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else {
netif_set_down(&xnetif[1]);
}
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uint32 timeout = xTaskGetTickCount();
rltk_wlan_start(WLAN0_IDX);
if(devnum) rltk_wlan_start(WLAN1_IDX);
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while (1) {
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if (rltk_wlan_running(WLAN0_IDX)
&& rltk_wlan_running(devnum) ) {
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#if CONFIG_DEBUG_LOG > 2
printf("WIFI initialized (%d ms)\n", xTaskGetTickCount() - timeout);
#endif
break;
}
if(xTaskGetTickCount() - timeout > wifi_test_timeout_ms/portTICK_RATE_MS) {
error_printf("WIFI init timeout!\n");
break;
}
vTaskDelay(wifi_test_timeout_step_ms / portTICK_RATE_MS);
}
return ret;
}
extern int lwip_init_done;
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LOCAL void _LwIP_Init(void)
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{
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if(!lwip_init_done) {
int idx;
debug_printf("LwIP Init (%d)\n", wifi_mode);
/* Create tcp_ip stack thread */
tcpip_init( NULL, NULL );
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// chk_ap_netif_num(); // Исполняется после _wifi_on()
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for(idx = 0; idx < NET_IF_NUM; idx++) {
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xnetif[idx].name[0] = 'r';
xnetif[idx].name[1] = '0' + idx;
}
netif_add(&xnetif[WLAN_ST_NETIF_NUM], (struct netif *)&wifi_st_dhcp.ip, (struct netif *)&wifi_st_dhcp.mask, (struct netif *)&wifi_st_dhcp.gw, NULL, &ethernetif_init, &tcpip_input);
netif_add(&xnetif[WLAN_AP_NETIF_NUM], (struct netif *)&wifi_ap_dhcp.ip, (struct netif *)&wifi_ap_dhcp.mask, (struct netif *)&wifi_ap_dhcp.gw, NULL, &ethernetif_init, &tcpip_input);
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#if CONFIG_ETHERNET // && NET_IF_NUM > 2
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{
struct ip_addr ipaddr;
struct ip_addr netmask;
struct ip_addr gw;
ipaddr.addr = DEF_EH_IP;
netmask.addr = DEF_EH_MSK;
gw.addr = DEF_EH_GW;
netif_add(&xnetif[2], &ipaddr, &netmask, &gw, NULL, &ethernetif_mii_init, &tcpip_input);
}
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#endif
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/* Registers the default network interface. */
netif_set_default(&xnetif[0]);
/* When the netif is fully configured this function must be called.*/
for(idx = 0; idx < NET_IF_NUM; idx++) {
netif_set_up(&xnetif[idx]);
}
info_printf("interface %d is initialized\n", idx);
lwip_init_done = 1;
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init_event_callback_list();
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}
}
int wifi_run(rtw_mode_t mode) {
int ret = 0;
#if CONFIG_DEBUG_LOG > 4
debug_printf("\n%s(%d), %d\n", __func__, mode, wifi_run_mode);
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debug_printf("old mode = %d, new mode = %d\n", wifi_run_mode, mode);
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#endif
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if(wifi_mode) { // != mode) {
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info_printf("Deinitializing WIFI ...\n");
wifi_off();
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wifi_st_status = WIFI_STA_OFF;
// wifi_run_mode = RTW_MODE_NONE;
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vTaskDelay(30);
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}
if (mode != RTW_MODE_NONE) {
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if (_wifi_on(mode) < 0) {
error_printf("Wifi On failed!\n");
goto error_end;
};
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if(wifi_set_country(wifi_cfg.country_code) != RTW_SUCCESS) {
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error_printf("WiFi: Error set tx country_code (%d)!", wifi_cfg.country_code);
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};
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if(rtw_power_percentage_idx != wifi_cfg.tx_pwr) {
if(rltk_set_tx_power_percentage(wifi_cfg.tx_pwr) != RTW_SUCCESS) {
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error_printf("WiFi: Error set tx power (%d)!", wifi_cfg.tx_pwr);
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};
}
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if(wifi_set_network_mode(wifi_cfg.bgn) != RTW_SUCCESS) {
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error_printf("WiFi: Error set network mode (%d)!", wifi_cfg.bgn);
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}
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debug_printf("mode=%d, wifi_mode=%d, old_mоde=%d\n", mode, wifi_mode, wifi_run_mode);
if(mode <= RTW_MODE_STA_AP) {
struct netif * pnif = &xnetif[WLAN_ST_NETIF_NUM];
#if LWIP_NETIF_HOSTNAME
// @todo ethernetif_init()...
pnif->hostname = lwip_host_name[0];
#ifdef USE_NETBIOS
netbios_set_name(WLAN_ST_NETIF_NUM, lwip_host_name[0]);
#endif
#endif
netif_set_addr(&xnetif[WLAN_ST_NETIF_NUM], &wifi_st_dhcp.ip,
&wifi_st_dhcp.mask, &wifi_st_dhcp.gw);
pnif = &xnetif[WLAN_AP_NETIF_NUM];
#if LWIP_NETIF_HOSTNAME
// @todo ethernetif_init()...
pnif->hostname = lwip_host_name[1];
#ifdef USE_NETBIOS
netbios_set_name(WLAN_AP_NETIF_NUM, lwip_host_name[1]);
#endif
#endif
netif_set_addr(&xnetif[WLAN_AP_NETIF_NUM], &wifi_ap_dhcp.ip,
&wifi_ap_dhcp.mask, &wifi_ap_dhcp.gw);
}
switch(mode) {
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case RTW_MODE_STA_AP:
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ret = wifi_run_ap() | wifi_run_st();
// _wext_enable_powersave(0, 0, 0);
// _wext_set_lps_dtim(0, 0);
break;
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case RTW_MODE_STA:
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ret = wifi_run_st();
if(_wext_set_lps_dtim(0, wifi_st_cfg.dtim)!= RTW_SUCCESS) {
error_printf("WiFi: Error set DTIM(%d)!", wifi_st_cfg.dtim);
};
if(_wext_enable_powersave(0, wifi_st_cfg.sleep & 1, (wifi_st_cfg.sleep >> 1) & 1) != RTW_SUCCESS) {
error_printf("WiFi: Error set powersave mode!");
};
break;
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case RTW_MODE_AP:
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ret = wifi_run_ap();
// _wext_enable_powersave(WLAN0_NAME, 0, 0);
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break;
#if 0// CONFIG_ENABLE_??
case RTW_MODE_PROMISC:
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// @todo
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break;
#endif
#if CONFIG_ENABLE_P2P
case RTW_MODE_P2P:
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// @todo
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break;
#endif
default:
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ret = 1;
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error_printf("WiFi: Error mode(%d)\n", wifi_mode);
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};
wifi_run_mode = mode;
if(ret == 0 && (wifi_cfg.save_flg & BID_WIFI_CFG)) {
wifi_cfg.mode = mode;
write_wifi_cfg(BID_WIFI_CFG);
};
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} else {
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ret = 0;
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error_end:
#if CONFIG_WLAN_CONNECT_CB
connect_close();
#endif
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if(wifi_run_mode) {
wifi_disconnect();
};
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wifi_off();
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wifi_st_status = WIFI_STA_OFF;
wifi_run_mode = RTW_MODE_NONE;
chk_ap_netif_num();
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};
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return ret;
}
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/* Load cfg, init WiFi + LwIP init, WiFi start if wifi_cfg.mode != RTW_MODE_NONE */
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void wifi_init(void) {
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debug_printf("\nLoad Config\n");
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read_wifi_cfg(wifi_cfg.load_flg); // DEF_LOAD_CFG
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// Call back from wlan driver after wlan init done
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// p_wlan_init_done_callback = wlan_init_done_callback;
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// Call back from application layer after wifi_connection success
// p_write_reconnect_ptr = wlan_write_reconnect_data_to_flash;
p_wlan_autoreconnect_hdl = NULL;
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_LwIP_Init();
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#if CONFIG_WIFI_IND_USE_THREAD
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wifi_manager_init();
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#endif
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// wifi_cfg.mode = RTW_MODE_PROMISC; //RTW_MODE_P2P;
wifi_run(wifi_cfg.mode);
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}
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unsigned char *tab_txt_rtw_secyrity[] = {
"OPEN", //0 Open security
"WEP", //1 WEP Security with open authentication
"WEP SHARED", //2 WEP Security with shared authentication
"WPA TKIP", //3 WPA Security with TKIP
"WPA AES", //4 WPA Security with AES
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"WPA2 TKIP", //5 WPA2 Security with TKIP
"WPA2 AES", //6 WPA2 Security with AES
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"WPA2 Mixed", //7 WPA2 Security with AES & TKIP
"WPA/WPA2 AES", //8 WPA/WPA2 Security
"Unknown" //9
};
unsigned int tab_code_rtw_secyrity[] = {
RTW_SECURITY_OPEN, //0 Open security
RTW_SECURITY_WEP_PSK, //1 WEP Security with open authentication
RTW_SECURITY_WEP_SHARED, //2 WEP Security with shared authentication
RTW_SECURITY_WPA_TKIP_PSK, //3 WPA Security with TKIP
RTW_SECURITY_WPA_AES_PSK, //4 WPA Security with AES
RTW_SECURITY_WPA2_TKIP_PSK, //5 WPA2 Security with TKIP
RTW_SECURITY_WPA2_AES_PSK, //6 WPA2 Security with AES
RTW_SECURITY_WPA2_MIXED_PSK, //7 WPA2 Security with AES & TKIP
RTW_SECURITY_WPA_WPA2_MIXED, //8 WPA/WPA2 Security
RTW_SECURITY_UNKNOWN //9
};
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/*
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unsigned char *tab_txt_rtw_eccryption[] = {
"Unknown",
"OPEN",
"WEP40",
"WPA_TKIP",
"WPA_AES",
"WPA2_TKIP",
"WPA2_AES",
"WPA2_MIXED",
"???",
"WEP104",
"Udef" // 0xff
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};
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*/
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rtw_security_t idx_to_rtw_security(unsigned char idx)
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{
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if(idx > IDX_SECURITY_UNKNOWN - 1) idx = IDX_SECURITY_WPA2_AES_PSK;
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return (rtw_security_t)tab_code_rtw_secyrity[idx];
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}
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unsigned char rtw_security_to_idx(rtw_security_t rtw_sec_type)
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{
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unsigned char i = 0;
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while(rtw_sec_type != tab_code_rtw_secyrity[i] && tab_code_rtw_secyrity[i] != RTW_SECURITY_UNKNOWN) i++;
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return i;
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}
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unsigned char * idx_security_to_str(unsigned char idx)
{
if(idx > IDX_SECURITY_UNKNOWN) idx = IDX_SECURITY_UNKNOWN;
return tab_txt_rtw_secyrity[idx];
}
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unsigned char * rtw_security_to_str(rtw_security_t rtw_sec_type)
{
return tab_txt_rtw_secyrity[rtw_security_to_idx(rtw_sec_type)];
}
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void show_wifi_ap_ip(void) {
printf("SoftAP ip: " IPSTR "\n", IP2STR(&xnetif[WLAN_AP_NETIF_NUM].ip_addr));
}
void show_wifi_st_ip(void) {
printf("Station ip: " IPSTR "\n", IP2STR(&xnetif[WLAN_ST_NETIF_NUM].ip_addr));
}
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void show_wifi_MAC(void) {
printf("MAC: " IPSTR "\n", IP2STR(&xnetif[WLAN_ST_NETIF_NUM].ip_addr));
}
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void show_wifi_st_cfg(void) {
printf("\tSSID: '%s'\n", wifi_st_cfg.ssid);
printf("\tPassword: '%s'\n", wifi_st_cfg.password);
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printf("\tSecurity type: %s\n", idx_security_to_str(wifi_st_cfg.security));
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printf("\tAuto-reconnect: %d\n", wifi_st_cfg.autoreconnect);
printf("\tReconnect pause: %d\n", wifi_st_cfg.reconnect_pause);
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printf("\tSleep mode: %p\n", wifi_st_cfg.sleep);
printf("\tDTIM: %d\n", wifi_st_cfg.dtim);
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}
void show_wifi_ap_cfg(void) {
printf("\tSSID: '%s'\n", wifi_ap_cfg.ssid);
printf("\tSSID hidden: %d\n", wifi_ap_cfg.ssid_hidden);
printf("\tPassword: '%s'\n", wifi_ap_cfg.password);
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printf("\tSecurity type: %s\n", (wifi_ap_cfg.security)? tab_txt_rtw_secyrity[IDX_SECURITY_WPA2_AES_PSK] : tab_txt_rtw_secyrity[IDX_SECURITY_OPEN]);
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printf("\tChannel: %d\n", wifi_ap_cfg.channel);
printf("\tBeacon interval: %d ms\n", wifi_ap_cfg.beacon_interval);
printf("\tMax connections: %d\n", wifi_ap_cfg.max_sta);
}
void show_wifi_cfg(void) {
printf("\tStart mode: %p\n", wifi_cfg.mode);
printf("\tCountry code: %d\n", wifi_cfg.country_code);
printf("\tNetwork mode: %d\n", wifi_cfg.bgn);
printf("\tTx power: %d\n", wifi_cfg.tx_pwr);
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printf("\tAdaptivity: %d\n", wifi_cfg.adaptivity);
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printf("\tLoad flags: %p\n", wifi_cfg.load_flg);
printf("\tSave flags: %p\n", wifi_cfg.save_flg);
}