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Arduino/WiFi/WiFi.cpp

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#include "wifi_drv.h"
#include "WiFi.h"
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#define _DEBUG_
extern "C" {
#include "utility/wl_definitions.h"
#include "utility/wl_types.h"
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#include "debug.h"
}
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// XXX: don't make assumptions about the value of MAX_SOCK_NUM.
int16_t WiFiClass::_state[MAX_SOCK_NUM] = { 0, 0, 0, 0 };
uint16_t WiFiClass::_server_port[MAX_SOCK_NUM] = { 0, 0, 0, 0 };
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char WiFiClass::_ssid[] = { 0 };
char WiFiClass::_key[] = { 0 };
char WiFiClass::_passph[] = { 0 };
wl_status_t WiFiClass::_status;
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WiFiClass::WiFiClass()
{
}
void WiFiClass::init()
{
WiFiDrv::wifiDriverInit();
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}
uint8_t WiFiClass::getSocket()
{
for (uint8_t i = 0; i < MAX_SOCK_NUM; ++i)
{
if (WiFiClass::_server_port[i] == 0)
{
return i;
}
}
return NO_SOCKET_AVAIL;
}
int WiFiClass::begin()
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{
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init();
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}
int WiFiClass::begin(char* ssid)
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{
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uint8_t status = WL_IDLE_STATUS;
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uint8_t attempts = WL_MAX_ATTEMPT_CONNECTION;
begin();
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if (WiFiDrv::wifiSetNetwork(ssid, strlen(ssid)) != WL_FAILURE)
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{
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do
{
delay(WL_DELAY_START_CONNECTION);
status = WiFiDrv::getConnectionStatus();
}
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while ((( status == WL_IDLE_STATUS)||(status == WL_SCAN_COMPLETED))&&(--attempts>0));
}else
{
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status = WL_CONNECT_FAILED;
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}
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return status;
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}
int WiFiClass::begin(char* ssid, uint8_t key_idx, const char *key)
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{
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uint8_t status = WL_IDLE_STATUS;
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uint8_t attempts = WL_MAX_ATTEMPT_CONNECTION;
begin();
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// set encryption key
if (WiFiDrv::wifiSetKey(ssid, strlen(ssid), key_idx, key, strlen(key)) != WL_FAILURE)
{
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do
{
delay(WL_DELAY_START_CONNECTION);
status = WiFiDrv::getConnectionStatus();
}
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while ((( status == WL_IDLE_STATUS)||(status == WL_SCAN_COMPLETED))&&(--attempts>0));
}else{
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status = WL_CONNECT_FAILED;
}
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return status;
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}
int WiFiClass::begin(char* ssid, const char *passphrase)
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{
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uint8_t status = WL_IDLE_STATUS;
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uint8_t attempts = WL_MAX_ATTEMPT_CONNECTION;
begin();
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// set passphrase
if (WiFiDrv::wifiSetPassphrase(ssid, strlen(ssid), passphrase, strlen(passphrase))!= WL_FAILURE)
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{
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do
{
delay(WL_DELAY_START_CONNECTION);
status = WiFiDrv::getConnectionStatus();
}
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while ((( status == WL_IDLE_STATUS)||(status == WL_SCAN_COMPLETED))&&(--attempts>0));
}else{
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status = WL_CONNECT_FAILED;
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}
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return status;
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}
int WiFiClass::disconnect()
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{
return WiFiDrv::disconnect();
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}
uint8_t* WiFiClass::macAddress(uint8_t* mac)
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{
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uint8_t* _mac = WiFiDrv::getMacAddress();
memcpy(mac, _mac, WL_MAC_ADDR_LENGTH);
return mac;
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}
IPAddress WiFiClass::localIp()
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{
IPAddress ret;
WiFiDrv::getIpAddress(ret);
return ret;
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}
IPAddress WiFiClass::subnetMask()
{
IPAddress ret;
WiFiDrv::getSubnetMask(ret);
return ret;
}
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IPAddress WiFiClass::gatewayIP()
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{
IPAddress ret;
WiFiDrv::getGatewayIP(ret);
return ret;
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}
char* WiFiClass::SSID()
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{
return WiFiDrv::getCurrentSSID();
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}
uint8_t* WiFiClass::BSSID(uint8_t* bssid)
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{
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uint8_t* _bssid = WiFiDrv::getCurrentBSSID();
memcpy(bssid, _bssid, WL_MAC_ADDR_LENGTH);
return bssid;
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}
int32_t WiFiClass::RSSI()
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{
return WiFiDrv::getCurrentRSSI();
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}
uint8_t WiFiClass::encryptionType()
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{
return WiFiDrv::getCurrentEncryptionType();
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}
uint8_t WiFiClass::scanNetworks()
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{
return WiFiDrv::scanNetworks();
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}
char* WiFiClass::SSID(uint8_t networkItem)
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{
return WiFiDrv::getSSIDNetoworks(networkItem);
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}
int32_t WiFiClass::RSSI(uint8_t networkItem)
{
return WiFiDrv::getRSSINetoworks(networkItem);
}
uint8_t WiFiClass::encryptionType(uint8_t networkItem)
{
return WiFiDrv::getEncTypeNetowrks(networkItem);
}
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uint8_t WiFiClass::status()
{
return WiFiDrv::getConnectionStatus();
}
uint8_t WiFiClass::test()
{
return WiFiDrv::testCmd();
}
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WiFiClass WiFi;