#include #include #include #include "Arduino.h" #include "spi_drv.h" #include "wifi_drv.h" #define _DEBUG_ extern "C" { #include "wifi_spi.h" #include "wl_types.h" #include "debug.h" } // Array of data to cache the information related to the networks discovered char WiFiDrv::_networkSsid[][WL_SSID_MAX_LENGTH] = {{"1"},{"2"},{"3"},{"4"},{"5"}}; int32_t WiFiDrv::_networkRssi[WL_NETWORKS_LIST_MAXNUM] = { 0 }; uint8_t WiFiDrv::_networkEncr[WL_NETWORKS_LIST_MAXNUM] = { 0 }; // Cached values of retrieved data char WiFiDrv::_ssid[] = {0}; uint8_t WiFiDrv::_bssid[] = {0}; uint8_t WiFiDrv::_mac[] = {0}; uint8_t WiFiDrv::_localIp[] = {0}; uint8_t WiFiDrv::_subnetMask[] = {0}; uint8_t WiFiDrv::_gatewayIp[] = {0}; // Firmware version char WiFiDrv::fwVersion[] = {0}; // Private Methods void WiFiDrv::getNetworkData(uint8_t *ip, uint8_t *mask, uint8_t *gwip) { tParam params[PARAM_NUMS_3] = { {0, (char*)ip}, {0, (char*)mask}, {0, (char*)gwip}}; WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_IPADDR_CMD, PARAM_NUMS_1); uint8_t _dummy = DUMMY_DATA; SpiDrv::sendParam(&_dummy, sizeof(_dummy), LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply SpiDrv::waitResponseParams(GET_IPADDR_CMD, PARAM_NUMS_3, params); SpiDrv::spiSlaveDeselect(); } void WiFiDrv::getRemoteData(uint8_t sock, uint8_t *ip, uint8_t *port) { tParam params[PARAM_NUMS_2] = { {0, (char*)ip}, {0, (char*)port} }; WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_REMOTE_DATA_CMD, PARAM_NUMS_1); SpiDrv::sendParam(&sock, sizeof(sock), LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply SpiDrv::waitResponseParams(GET_REMOTE_DATA_CMD, PARAM_NUMS_2, params); SpiDrv::spiSlaveDeselect(); } // Public Methods void WiFiDrv::wifiDriverInit() { SpiDrv::begin(); } int8_t WiFiDrv::wifiSetNetwork(char* ssid, uint8_t ssid_len) { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(SET_NET_CMD, PARAM_NUMS_1); SpiDrv::sendParam((uint8_t*)ssid, ssid_len, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(SET_NET_CMD, PARAM_NUMS_1, &_data, &_dataLen)) { WARN("error waitResponse"); _data = WL_FAILURE; } SpiDrv::spiSlaveDeselect(); return(_data == WIFI_SPI_ACK) ? WL_SUCCESS : WL_FAILURE; } int8_t WiFiDrv::wifiSetPassphrase(char* ssid, uint8_t ssid_len, const char *passphrase, const uint8_t len) { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(SET_PASSPHRASE_CMD, PARAM_NUMS_2); SpiDrv::sendParam((uint8_t*)ssid, ssid_len, NO_LAST_PARAM); SpiDrv::sendParam((uint8_t*)passphrase, len, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(SET_PASSPHRASE_CMD, PARAM_NUMS_1, &_data, &_dataLen)) { WARN("error waitResponse"); _data = WL_FAILURE; } SpiDrv::spiSlaveDeselect(); return _data; } int8_t WiFiDrv::wifiSetKey(char* ssid, uint8_t ssid_len, uint8_t key_idx, const void *key, const uint8_t len) { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(SET_KEY_CMD, PARAM_NUMS_3); SpiDrv::sendParam((uint8_t*)ssid, ssid_len, NO_LAST_PARAM); SpiDrv::sendParam(&key_idx, KEY_IDX_LEN, NO_LAST_PARAM); SpiDrv::sendParam((uint8_t*)key, len, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(SET_KEY_CMD, PARAM_NUMS_1, &_data, &_dataLen)) { WARN("error waitResponse"); _data = WL_FAILURE; } SpiDrv::spiSlaveDeselect(); return _data; } void WiFiDrv::config(uint8_t validParams, uint32_t local_ip, uint32_t gateway, uint32_t subnet) { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(SET_IP_CONFIG_CMD, PARAM_NUMS_4); SpiDrv::sendParam((uint8_t*)&validParams, 1, NO_LAST_PARAM); SpiDrv::sendParam((uint8_t*)&local_ip, 4, NO_LAST_PARAM); SpiDrv::sendParam((uint8_t*)&gateway, 4, NO_LAST_PARAM); SpiDrv::sendParam((uint8_t*)&subnet, 4, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(SET_IP_CONFIG_CMD, PARAM_NUMS_1, &_data, &_dataLen)) { WARN("error waitResponse"); _data = WL_FAILURE; } SpiDrv::spiSlaveDeselect(); } void WiFiDrv::setDNS(uint8_t validParams, uint32_t dns_server1, uint32_t dns_server2) { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(SET_DNS_CONFIG_CMD, PARAM_NUMS_3); SpiDrv::sendParam((uint8_t*)&validParams, 1, NO_LAST_PARAM); SpiDrv::sendParam((uint8_t*)&dns_server1, 4, NO_LAST_PARAM); SpiDrv::sendParam((uint8_t*)&dns_server2, 4, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(SET_DNS_CONFIG_CMD, PARAM_NUMS_1, &_data, &_dataLen)) { WARN("error waitResponse"); _data = WL_FAILURE; } SpiDrv::spiSlaveDeselect(); } int8_t WiFiDrv::disconnect() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(DISCONNECT_CMD, PARAM_NUMS_1); uint8_t _dummy = DUMMY_DATA; SpiDrv::sendParam(&_dummy, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; int8_t result = SpiDrv::waitResponseCmd(DISCONNECT_CMD, PARAM_NUMS_1, &_data, &_dataLen); SpiDrv::spiSlaveDeselect(); return result; } uint8_t WiFiDrv::getConnectionStatus() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_CONN_STATUS_CMD, PARAM_NUMS_0); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = -1; uint8_t _dataLen = 0; SpiDrv::waitResponseCmd(GET_CONN_STATUS_CMD, PARAM_NUMS_1, &_data, &_dataLen); SpiDrv::spiSlaveDeselect(); return _data; } uint8_t* WiFiDrv::getMacAddress() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_MACADDR_CMD, PARAM_NUMS_1); uint8_t _dummy = DUMMY_DATA; SpiDrv::sendParam(&_dummy, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _dataLen = 0; SpiDrv::waitResponseCmd(GET_MACADDR_CMD, PARAM_NUMS_1, _mac, &_dataLen); SpiDrv::spiSlaveDeselect(); return _mac; } void WiFiDrv::getIpAddress(IPAddress& ip) { getNetworkData(_localIp, _subnetMask, _gatewayIp); ip = _localIp; } void WiFiDrv::getSubnetMask(IPAddress& mask) { getNetworkData(_localIp, _subnetMask, _gatewayIp); mask = _subnetMask; } void WiFiDrv::getGatewayIP(IPAddress& ip) { getNetworkData(_localIp, _subnetMask, _gatewayIp); ip = _gatewayIp; } char* WiFiDrv::getCurrentSSID() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_CURR_SSID_CMD, PARAM_NUMS_1); uint8_t _dummy = DUMMY_DATA; SpiDrv::sendParam(&_dummy, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _dataLen = 0; SpiDrv::waitResponseCmd(GET_CURR_SSID_CMD, PARAM_NUMS_1, (uint8_t*)_ssid, &_dataLen); SpiDrv::spiSlaveDeselect(); return _ssid; } uint8_t* WiFiDrv::getCurrentBSSID() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_CURR_BSSID_CMD, PARAM_NUMS_1); uint8_t _dummy = DUMMY_DATA; SpiDrv::sendParam(&_dummy, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _dataLen = 0; SpiDrv::waitResponseCmd(GET_CURR_BSSID_CMD, PARAM_NUMS_1, _bssid, &_dataLen); SpiDrv::spiSlaveDeselect(); return _bssid; } int32_t WiFiDrv::getCurrentRSSI() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_CURR_RSSI_CMD, PARAM_NUMS_1); uint8_t _dummy = DUMMY_DATA; SpiDrv::sendParam(&_dummy, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _dataLen = 0; int32_t rssi = 0; SpiDrv::waitResponseCmd(GET_CURR_RSSI_CMD, PARAM_NUMS_1, (uint8_t*)&rssi, &_dataLen); SpiDrv::spiSlaveDeselect(); return rssi; } uint8_t WiFiDrv::getCurrentEncryptionType() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_CURR_ENCT_CMD, PARAM_NUMS_1); uint8_t _dummy = DUMMY_DATA; SpiDrv::sendParam(&_dummy, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t dataLen = 0; uint8_t encType = 0; SpiDrv::waitResponseCmd(GET_CURR_ENCT_CMD, PARAM_NUMS_1, (uint8_t*)&encType, &dataLen); SpiDrv::spiSlaveDeselect(); return encType; } int8_t WiFiDrv::startScanNetworks() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(START_SCAN_NETWORKS, PARAM_NUMS_0); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(START_SCAN_NETWORKS, PARAM_NUMS_1, &_data, &_dataLen)) { WARN("error waitResponse"); _data = WL_FAILURE; } SpiDrv::spiSlaveDeselect(); return (_data == WL_FAILURE)? _data : WL_SUCCESS; } uint8_t WiFiDrv::getScanNetworks() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(SCAN_NETWORKS, PARAM_NUMS_0); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t ssidListNum = 0; SpiDrv::waitResponse(SCAN_NETWORKS, &ssidListNum, (uint8_t**)_networkSsid, WL_NETWORKS_LIST_MAXNUM); SpiDrv::spiSlaveDeselect(); return ssidListNum; } char* WiFiDrv::getSSIDNetoworks(uint8_t networkItem) { if (networkItem >= WL_NETWORKS_LIST_MAXNUM) return NULL; return _networkSsid[networkItem]; } uint8_t WiFiDrv::getEncTypeNetowrks(uint8_t networkItem) { if (networkItem >= WL_NETWORKS_LIST_MAXNUM) return NULL; WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_IDX_ENCT_CMD, PARAM_NUMS_1); SpiDrv::sendParam(&networkItem, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t dataLen = 0; uint8_t encType = 0; SpiDrv::waitResponseCmd(GET_IDX_ENCT_CMD, PARAM_NUMS_1, (uint8_t*)&encType, &dataLen); SpiDrv::spiSlaveDeselect(); return encType; } int32_t WiFiDrv::getRSSINetoworks(uint8_t networkItem) { if (networkItem >= WL_NETWORKS_LIST_MAXNUM) return NULL; int32_t networkRssi = 0; WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_IDX_RSSI_CMD, PARAM_NUMS_1); SpiDrv::sendParam(&networkItem, 1, LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t dataLen = 0; SpiDrv::waitResponseCmd(GET_IDX_RSSI_CMD, PARAM_NUMS_1, (uint8_t*)&networkRssi, &dataLen); SpiDrv::spiSlaveDeselect(); return networkRssi; } uint8_t WiFiDrv::reqHostByName(const char* aHostname) { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(REQ_HOST_BY_NAME_CMD, PARAM_NUMS_1); SpiDrv::sendParam((uint8_t*)aHostname, strlen(aHostname), LAST_PARAM); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _data = 0; uint8_t _dataLen = 0; uint8_t result = SpiDrv::waitResponseCmd(REQ_HOST_BY_NAME_CMD, PARAM_NUMS_1, &_data, &_dataLen); SpiDrv::spiSlaveDeselect(); return result; } int WiFiDrv::getHostByName(IPAddress& aResult) { uint8_t _ipAddr[WL_IPV4_LENGTH]; IPAddress dummy(0xFF,0xFF,0xFF,0xFF); int result = 0; WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_HOST_BY_NAME_CMD, PARAM_NUMS_0); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(GET_HOST_BY_NAME_CMD, PARAM_NUMS_1, _ipAddr, &_dataLen)) { WARN("error waitResponse"); }else{ aResult = _ipAddr; result = (aResult != dummy); } SpiDrv::spiSlaveDeselect(); return result; } int WiFiDrv::getHostByName(const char* aHostname, IPAddress& aResult) { uint8_t retry = 10; if (reqHostByName(aHostname)) { while(!getHostByName(aResult) && --retry > 0) { delay(1000); } }else{ return 0; } return (retry>0); } char* WiFiDrv::getFwVersion() { WAIT_FOR_SLAVE_SELECT(); // Send Command SpiDrv::sendCmd(GET_FW_VERSION_CMD, PARAM_NUMS_0); //Wait the reply elaboration SpiDrv::waitForSlaveReady(); // Wait for reply uint8_t _dataLen = 0; if (!SpiDrv::waitResponseCmd(GET_FW_VERSION_CMD, PARAM_NUMS_1, (uint8_t*)fwVersion, &_dataLen)) { WARN("error waitResponse"); } SpiDrv::spiSlaveDeselect(); return fwVersion; } WiFiDrv wiFiDrv;