/// <summary> /// Sample code to hande a couple of different cards based on the identification process /// </summary> /// <returns>None</returns> private async Task HandleCard(SmartCard card) { try { // Clear the messages MainPage.Current.NotifyUser(String.Empty, NotifyType.StatusMessage, true); // Connect to the card using (SmartCardConnection connection = await card.ConnectAsync()) { // Try to identify what type of card it was IccDetection cardIdentification = new IccDetection(card, connection); await cardIdentification.DetectCardTypeAync(); LogMessage("Connected to card\r\nPC/SC device class: " + cardIdentification.PcscDeviceClass.ToString()); LogMessage("Card name: " + cardIdentification.PcscCardName.ToString()); LogMessage("ATR: " + BitConverter.ToString(cardIdentification.Atr)); if ((cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass) && (cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightC || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralight || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightEV1)) { // Handle MIFARE Ultralight MifareUltralight.AccessHandler mifareULAccess = new MifareUltralight.AccessHandler(connection); // Each read should get us 16 bytes/4 blocks, so doing // 4 reads will get us all 64 bytes/16 blocks on the card for (byte i = 0; i < 4; i++) { byte[] response = await mifareULAccess.ReadAsync((byte)(4 * i)); LogMessage("Block " + (4 * i).ToString() + " to Block " + (4 * i + 3).ToString() + " " + BitConverter.ToString(response)); } byte[] responseUid = await mifareULAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(responseUid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.MifareDesfire) { // Handle MIFARE DESfire Desfire.AccessHandler desfireAccess = new Desfire.AccessHandler(connection); Desfire.CardDetails desfire = await desfireAccess.ReadCardDetailsAsync(); LogMessage("DesFire Card Details: " + Environment.NewLine + desfire.ToString()); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && cardIdentification.PcscCardName == Pcsc.CardName.FeliCa) { // Handle Felica LogMessage("Felica card detected"); var felicaAccess = new Felica.AccessHandler(connection); var uid = await felicaAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard1K || cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard4K)) { // Handle MIFARE Standard/Classic LogMessage("MIFARE Standard/Classic card detected"); var mfStdAccess = new MifareStandard.AccessHandler(connection); var uid = await mfStdAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); ushort maxAddress = 0; switch (cardIdentification.PcscCardName) { case Pcsc.CardName.MifareStandard1K: maxAddress = 0x3f; break; case Pcsc.CardName.MifareStandard4K: maxAddress = 0xff; break; } await mfStdAccess.LoadKeyAsync(MifareStandard.DefaultKeys.FactoryDefault); for (ushort address = 0; address <= maxAddress; address++) { var response = await mfStdAccess.ReadAsync(address, Pcsc.GeneralAuthenticate.GeneralAuthenticateKeyType.MifareKeyA); LogMessage("Block " + address.ToString() + " " + BitConverter.ToString(response)); } } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.ICODE1 || cardIdentification.PcscCardName == Pcsc.CardName.ICODESLI || cardIdentification.PcscCardName == Pcsc.CardName.iCodeSL2)) { // Handle ISO15693 LogMessage("ISO15693 card detected"); var iso15693Access = new Iso15693.AccessHandler(connection); var uid = await iso15693Access.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); } else { // Unknown card type // Note that when using the XDE emulator the card's ATR and type is not passed through, so we'll // end up here even for known card types if using the XDE emulator // Some cards might still let us query their UID with the PC/SC command, so let's try: var apduRes = await connection.TransceiveAsync(new Pcsc.GetUid()); if (!apduRes.Succeeded) { LogMessage("Failure getting UID of card, " + apduRes.ToString()); } else { LogMessage("UID: " + BitConverter.ToString(apduRes.ResponseData)); } } } } catch (Exception ex) { LogMessage("Exception handling card: " + ex.ToString(), NotifyType.ErrorMessage); } }
/// <summary> /// Sample code to hande a couple of different cards based on the identification process /// </summary> /// <returns>None</returns> private async Task HandleCard(SmartCard card) { try { // Clear the messages //MainPage.Current.NotifyUser(String.Empty, NotifyType.StatusMessage, true); // Connect to the card using (SmartCardConnection connection = await card.ConnectAsync()) { // Try to identify what type of card it was IccDetection cardIdentification = new IccDetection(card, connection); await cardIdentification.DetectCardTypeAync(); LogMessage("Connected to card\r\nPC/SC device class: " + cardIdentification.PcscDeviceClass.ToString()); LogMessage("Card name: " + cardIdentification.PcscCardName.ToString()); LogMessage("ATR: " + BitConverter.ToString(cardIdentification.Atr)); if ((cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass) && (cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightC || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralight || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightEV1)) { // Handle MIFARE Ultralight MifareUltralight.AccessHandler mifareULAccess = new MifareUltralight.AccessHandler(connection); // Each read should get us 16 bytes/4 blocks, so doing // 4 reads will get us all 64 bytes/16 blocks on the card for (byte i = 0; i < 4; i++) { byte[] response = await mifareULAccess.ReadAsync((byte)(4 * i)); LogMessage("Block " + (4 * i).ToString() + " to Block " + (4 * i + 3).ToString() + " " + BitConverter.ToString(response)); } byte[] responseUid = await mifareULAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(responseUid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.MifareDesfire) { // Handle MIFARE DESfire Desfire.AccessHandler desfireAccess = new Desfire.AccessHandler(connection); Desfire.CardDetails desfire = await desfireAccess.ReadCardDetailsAsync(); LogMessage("DesFire Card Details: " + Environment.NewLine + desfire.ToString()); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && cardIdentification.PcscCardName == Pcsc.CardName.FeliCa) { // Handle Felica LogMessage("Felica card detected"); var cyberneticsAccess = new Cybernetics.AccessHandler(connection); var cardinfo = null as Cybernetics.CardInfo; var histories = new List <Cybernetics.HistoryInfo>(); var gateHistories = new List <Cybernetics.GateHistoryInfo>(); var sfHistory = null as Cybernetics.SFEntryInfo; var IDm = await cyberneticsAccess.GetUidAsync(); // ok LogMessage("IDm: " + BitConverter.ToString(IDm)); await cyberneticsAccess.SelectFileAsync(new byte[] { 0x8B, 0x00 }); var block008B = await cyberneticsAccess.ReadBinaryAsync(0x00); LogMessage("Card Type: " + BitConverter.ToString(block008B)); cardinfo = Cybernetics.CardInfo.FromBytes(block008B); await cyberneticsAccess.SelectFileAsync(new byte[] { 0x0F, 0x09 }); for (byte block = 0; block < 20; ++block) { var block090F = await cyberneticsAccess.ReadBinaryAsync(block); LogMessage("History: " + BitConverter.ToString(block090F)); histories.Add(Cybernetics.HistoryInfo.FromBytes(block090F)); } var histList = new List <ICHistoryReader.Core.Cybernetics.HistoryInfo>(); var prevHist = null as ICHistoryReader.Core.Cybernetics.HistoryInfo; foreach (var hist in histories) { var h = ICHistoryReader.Core.Cybernetics.HistoryInfo.From(hist, m_stationCodeList); histList.Add(h); if (prevHist != null) { // 前の履歴から精算額を計算 prevHist.Amount = h.Balance - prevHist.Balance; } prevHist = h; } histList = histList.SkipLast(1).ToList(); await cyberneticsAccess.SelectFileAsync(new byte[] { 0x8F, 0x10 }); for (byte block = 0; block < 3; ++block) { var block108F = await cyberneticsAccess.ReadBinaryAsync(block); LogMessage("Gate: " + BitConverter.ToString(block108F)); gateHistories.Add(Cybernetics.GateHistoryInfo.FromBytes(block108F)); } await cyberneticsAccess.SelectFileAsync(new byte[] { 0xCB, 0x10 }); var temp = new List <byte>(); for (byte block = 0; block < 2; ++block) { var block10CB = await cyberneticsAccess.ReadBinaryAsync(block); LogMessage("SF: " + BitConverter.ToString(block10CB)); temp.AddRange(block10CB); } sfHistory = Cybernetics.SFEntryInfo.FromBytes(temp.ToArray()); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard1K || cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard4K)) { // Handle MIFARE Standard/Classic LogMessage("MIFARE Standard/Classic card detected"); var mfStdAccess = new MifareStandard.AccessHandler(connection); var uid = await mfStdAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); ushort maxAddress = 0; switch (cardIdentification.PcscCardName) { case Pcsc.CardName.MifareStandard1K: maxAddress = 0x3f; break; case Pcsc.CardName.MifareStandard4K: maxAddress = 0xff; break; } await mfStdAccess.LoadKeyAsync(MifareStandard.DefaultKeys.FactoryDefault); for (ushort address = 0; address <= maxAddress; address++) { var response = await mfStdAccess.ReadAsync(address, Pcsc.GeneralAuthenticate.GeneralAuthenticateKeyType.MifareKeyA); LogMessage("Block " + address.ToString() + " " + BitConverter.ToString(response)); } } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.ICODE1 || cardIdentification.PcscCardName == Pcsc.CardName.ICODESLI || cardIdentification.PcscCardName == Pcsc.CardName.iCodeSL2)) { // Handle ISO15693 LogMessage("ISO15693 card detected"); var iso15693Access = new Iso15693.AccessHandler(connection); var uid = await iso15693Access.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); } else { // Unknown card type // Note that when using the XDE emulator the card's ATR and type is not passed through, so we'll // end up here even for known card types if using the XDE emulator // Some cards might still let us query their UID with the PC/SC command, so let's try: var apduRes = await connection.TransceiveAsync(new Pcsc.GetUid()); if (!apduRes.Succeeded) { LogMessage("Failure getting UID of card, " + apduRes.ToString()); } else { LogMessage("UID: " + BitConverter.ToString(apduRes.ResponseData)); } } } } catch (Exception ex) { LogMessage("Exception handling card: " + ex.ToString(), NotifyType.ErrorMessage); } }
/// <summary> /// Sample code to hande a couple of different cards based on the identification process /// </summary> /// <returns>None</returns> private async Task HandleCard(SmartCard card) { try { // Clear the messages MainPage.Current.NotifyUser(String.Empty, NotifyType.StatusMessage, true); // Connect to the card var connection = await card.ConnectAsync(); // Try to identify what type of card it was IccDetection cardIdentification = new IccDetection(card, connection); await cardIdentification.DetectCardTypeAync(); LogMessage("Connected to card\r\nPC/SC device class: " + cardIdentification.PcscDeviceClass.ToString()); LogMessage("Card name: " + cardIdentification.PcscCardName.ToString()); if ((cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass) && (cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightC || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralight || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightEV1)) { // Handle MIFARE Ultralight MifareUltralight.AccessHandler mifareULAccess = new MifareUltralight.AccessHandler(connection); // Each read should get us 16 bytes/4 blocks, so doing // 4 reads will get us all 64 bytes/16 blocks on the card for (byte i = 0; i < 4; i++) { byte[] response = await mifareULAccess.ReadAsync((byte)(4 * i)); LogMessage("Block " + (4 * i).ToString() + " to Block " + (4 * i + 3).ToString() + " " + BitConverter.ToString(response)); } byte[] responseUid = await mifareULAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(responseUid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.MifareDesfire) { // Handle MIFARE DESfire Desfire.AccessHandler desfireAccess = new Desfire.AccessHandler(connection); Desfire.CardDetails desfire = await desfireAccess.ReadCardDetailsAsync(); LogMessage("DesFire Card Details: " + Environment.NewLine + desfire.ToString()); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && cardIdentification.PcscCardName == Pcsc.CardName.FeliCa) { // Handle Felica LogMessage("Felica card detected"); var felicaAccess = new Felica.AccessHandler(connection); var uid = await felicaAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard1K || cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard4K)) { // Handle MIFARE Standard/Classic LogMessage("MIFARE Standard/Classic card detected"); var mfStdAccess = new MifareStandard.AccessHandler(connection); var uid = await mfStdAccess.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); ushort maxAddress = 0; switch (cardIdentification.PcscCardName) { case Pcsc.CardName.MifareStandard1K: maxAddress = 0x3f; break; case Pcsc.CardName.MifareStandard4K: maxAddress = 0xff; break; } await mfStdAccess.LoadKeyAsync(MifareStandard.DefaultKeys.FactoryDefault); for (ushort address = 0; address <= maxAddress; address++) { var response = await mfStdAccess.ReadAsync(address, Pcsc.GeneralAuthenticate.GeneralAuthenticateKeyType.MifareKeyA); LogMessage("Block " + address.ToString() + " " + BitConverter.ToString(response)); } } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.ICODE1 || cardIdentification.PcscCardName == Pcsc.CardName.ICODESLI || cardIdentification.PcscCardName == Pcsc.CardName.iCodeSL2)) { // Handle ISO15693 LogMessage("ISO15693 card detected"); var iso15693Access = new Iso15693.AccessHandler(connection); var uid = await iso15693Access.GetUidAsync(); LogMessage("UID: " + BitConverter.ToString(uid)); } connection.Dispose(); } catch (Exception ex) { LogMessage("Exception handling card: " + ex.ToString(), NotifyType.ErrorMessage); } }
/// <summary> /// Sample code to hande a couple of different cards based on the identification process /// </summary> /// <returns>None</returns> private async Task HandleCard(SmartCard card, SmartCardReader sender) { string UID = ""; Int64 id = 0; try { // Connect to the card using (SmartCardConnection connection = await card.ConnectAsync()) { // Try to identify what type of card it was IccDetection cardIdentification = new IccDetection(card, connection); await cardIdentification.DetectCardTypeAync(); LogMessage("Connected to card\r\nPC/SC device class: " + cardIdentification.PcscDeviceClass.ToString()); LogMessage("Card name: " + cardIdentification.PcscCardName.ToString()); LogMessage("ATR: " + BitConverter.ToString(cardIdentification.Atr)); if ((cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass) && (cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightC || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralight || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightEV1)) { // Handle MIFARE Ultralight MifareUltralight.AccessHandler mifareULAccess = new MifareUltralight.AccessHandler(connection); // Each read should get us 16 bytes/4 blocks, so doing // 4 reads will get us all 64 bytes/16 blocks on the card for (byte i = 0; i < 4; i++) { byte[] response = await mifareULAccess.ReadAsync((byte)(4 * i)); LogMessage("Block " + (4 * i).ToString() + " to Block " + (4 * i + 3).ToString() + " " + BitConverter.ToString(response)); } byte[] responseUid = await mifareULAccess.GetUidAsync(); UID = BitConverter.ToString(responseUid); //await Notify("UID: " + BitConverter.ToString(responseUid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.MifareDesfire) { // Handle MIFARE DESfire Desfire.AccessHandler desfireAccess = new Desfire.AccessHandler(connection); Desfire.CardDetails desfire = await desfireAccess.ReadCardDetailsAsync(); LogMessage("DesFire Card Details: " + Environment.NewLine + desfire.ToString()); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && cardIdentification.PcscCardName == Pcsc.CardName.FeliCa) { // Handle Felica LogMessage("Felica card detected"); var felicaAccess = new Felica.AccessHandler(connection); var uid = await felicaAccess.GetUidAsync(); UID = BitConverter.ToString(uid); //await Notify("UID: " + BitConverter.ToString(uid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard1K || cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard4K)) { // Handle MIFARE Standard/Classic LogMessage("MIFARE Standard/Classic card detected"); var mfStdAccess = new MifareStandard.AccessHandler(connection); var uid = await mfStdAccess.GetUidAsync(); UID = BitConverter.ToString(uid);; //await Notify("UID: " + BitConverter.ToString(uid)); ushort maxAddress = 0; switch (cardIdentification.PcscCardName) { case Pcsc.CardName.MifareStandard1K: maxAddress = 0x3f; break; case Pcsc.CardName.MifareStandard4K: maxAddress = 0xff; break; } await mfStdAccess.LoadKeyAsync(MifareStandard.DefaultKeys.FactoryDefault); for (ushort address = 0; address <= maxAddress; address++) { var response = await mfStdAccess.ReadAsync(address, Pcsc.GeneralAuthenticate.GeneralAuthenticateKeyType.MifareKeyA); LogMessage("Block " + address.ToString() + " " + BitConverter.ToString(response)); } } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.ICODE1 || cardIdentification.PcscCardName == Pcsc.CardName.ICODESLI || cardIdentification.PcscCardName == Pcsc.CardName.iCodeSL2)) { // Handle ISO15693 LogMessage("ISO15693 card detected"); var iso15693Access = new Iso15693.AccessHandler(connection); var uid = await iso15693Access.GetUidAsync(); UID = BitConverter.ToString(uid); //await Notify("UID: " + BitConverter.ToString(uid)); } else { // Unknown card type // Note that when using the XDE emulator the card's ATR and type is not passed through, so we'll // end up here even for known card types if using the XDE emulator // Some cards might still let us query their UID with the PC/SC command, so let's try: var apduRes = await connection.TransceiveAsync(new Pcsc.GetUid()); if (!apduRes.Succeeded) { LogMessage("Failure getting UID of card, " + apduRes.ToString()); } else { LogMessage("UID: " + BitConverter.ToString(apduRes.ResponseData)); UID = BitConverter.ToString(apduRes.ResponseData); } } // START MANAGING SUP STOCK // UID if (UID != "") { id = ToUID(UID); bool found = false; int i = 0; // check if ID is in left list foreach (var it in AwaySUP) { i++; if (it.IsSameID(id)) { found = true; // set price according to dT int Price = it.GetPrice(); //wait for validation, then move from left to stock await Notify("! Arrivé, durée = " + it.strTime + " Prix: " + Price + " CHF"); //move from Left to Stock try { await Windows.ApplicationModel.Core.CoreApplication.MainView.CoreWindow.Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { // Your UI update code goes here StockSUP.Add(it); AwaySUP.Remove(it); StockShow.UpdateLayout(); LeftShow.UpdateLayout(); } ); } catch (Exception ex) { await Notify("Error swapping from away to stock" + ex.ToString()); } } } i = 0; // check if ID is in stock list if (!found) { foreach (var it in StockSUP) { i++; if (it.IsSameID(id)) { found = true; // start time await Notify("! Valide, près à partir !", "Départ"); i = 0; it.StartTimer(); //move from stock to left list try { await Windows.ApplicationModel.Core.CoreApplication.MainView.CoreWindow.Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { // Your UI update code goes here! AwaySUP.Add(it); StockSUP.Remove(it); StockShow.UpdateLayout(); LeftShow.UpdateLayout(); } ); } catch (Exception ex) { await Notify("Error swapping from stock to away" + ex.ToString()); } } } } // else, adding to stock list if (!found) { if (isNewTagNewSUP) { await Notify("! Nouvelle planche ajoutée."); isNewTagNewSUP = false; try { await Windows.ApplicationModel.Core.CoreApplication.MainView.CoreWindow.Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { // Your UI update code goes here! StockSUP.Add(new SUP(id, SUPCategory[selN])); } ); } catch (Exception ex) { await Notify("Error adding to stock" + ex.ToString()); } showNbStock.Text = StockSUP.Count.ToString(); StockShow.UpdateLayout(); LeftShow.UpdateLayout(); } else { await Notify("! Cette planche n'est pas répértoriée !"); } } } } } catch (Exception ex) { LogMessage("Exception handling card: " + ex.ToString(), NotifyType.ErrorMessage); } }
/// <summary> /// Sample code to hande a couple of different cards based on the identification process /// </summary> /// <returns>None</returns> private async Task HandleCard(SmartCard card) { try { // Clear the messages //MainPage.Current.NotifyUser(String.Empty, NotifyType.StatusMessage, true); // Connect to the card using (SmartCardConnection connection = await card.ConnectAsync()) { // Try to identify what type of card it was IccDetection cardIdentification = new IccDetection(card, connection); await cardIdentification.DetectCardTypeAync(); //Connected to card //LogMessage("Connected to card\r\nPC/SC device class: " + cardIdentification.PcscDeviceClass.ToString()); //Card name //LogMessage("Card name: " + cardIdentification.PcscCardName.ToString()); //If card is "MIFARE DEFIRE" (our case) if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.MifareDesfire) { // Handle MIFARE DESfire Desfire.AccessHandler desfireAccess = new Desfire.AccessHandler(connection); // Get all data from card Desfire.CardDetails desfire = await desfireAccess.ReadCardDetailsAsync(); // Get UID from object desfire var UID = BitConverter.ToString(desfire.UID); //LogMessage(UID, NotifyType.StatusMessage); ShowToastNotification(UID); PerformAuthentication(); //LogMessage("DesFire Card Details: " + Environment.NewLine + desfire.ToString()); } else { // Unknown card type // Note that when using the XDE emulator the card's ATR and type is not passed through, so we'll // end up here even for known card types if using the XDE emulator // Some cards might still let us query their UID with the PC/SC command, so let's try: var apduRes = await connection.TransceiveAsync(new Pcsc.GetUid()); if (!apduRes.Succeeded) { ShowToastNotification("Failure getting UID of card, " + apduRes.ToString()); } else { ShowToastNotification("UID: " + BitConverter.ToString(apduRes.ResponseData)); } } } } catch (Exception ex) { ShowToastNotification("Exception handling card: " + ex.ToString()); } }
/// <summary> /// Sample code to hande a couple of different cards based on the identification process /// </summary> /// <returns>None</returns> private async Task HandleCard(CardAddedEventArgs args) { try { var newConnection = await args.SmartCard.ConnectAsync(); lock (CardConnectionLock) { if (CardConnection != null) { CardConnection.Dispose(); } CardConnection = newConnection; } IccDetection cardIdentification = new IccDetection(args.SmartCard, CardConnection); await cardIdentification.DetectCardTypeAync(); DisplayText("Connected to card\r\nPC/SC device class: " + cardIdentification.PcscDeviceClass.ToString() + "\r\nCard name: " + cardIdentification.PcscCardName.ToString()); if ((cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass) && (cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightC || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralight || cardIdentification.PcscCardName == Pcsc.CardName.MifareUltralightEV1)) { // Handle MIFARE Ultralight MifareUltralight.AccessHandler mifareULAccess = new MifareUltralight.AccessHandler(CardConnection); // Each read should get us 16 bytes/4 blocks, so doing // 4 reads will get us all 64 bytes/16 blocks on the card for (byte i = 0; i < 4; i++) { byte[] response = await mifareULAccess.ReadAsync((byte)(4 * i)); DisplayText("Block " + (4 * i).ToString() + " to Block " + (4 * i + 3).ToString() + " " + BitConverter.ToString(response)); } byte[] responseUid = await mifareULAccess.GetUidAsync(); DisplayText("UID: " + BitConverter.ToString(responseUid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.MifareDesfire) { // Handle MIFARE DESfire Desfire.AccessHandler desfireAccess = new Desfire.AccessHandler(CardConnection); Desfire.CardDetails card = await desfireAccess.ReadCardDetailsAsync(); DisplayText("DesFire Card Details: " + Environment.NewLine + card.ToString()); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && cardIdentification.PcscCardName == Pcsc.CardName.FeliCa) { // Handle Felica DisplayText("Felica card detected"); var felicaAccess = new Felica.AccessHandler(CardConnection); var uid = await felicaAccess.GetUidAsync(); DisplayText("UID: " + BitConverter.ToString(uid)); } else if (cardIdentification.PcscDeviceClass == Pcsc.Common.DeviceClass.StorageClass && (cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard1K || cardIdentification.PcscCardName == Pcsc.CardName.MifareStandard4K)) { // Handle MIFARE Standard/Classic DisplayText("MIFARE Standard/Classic card detected"); var mfStdAccess = new MifareStandard.AccessHandler(CardConnection); var uid = await mfStdAccess.GetUidAsync(); DisplayText("UID: " + BitConverter.ToString(uid)); ushort maxAddress = 0; switch (cardIdentification.PcscCardName) { case Pcsc.CardName.MifareStandard1K: maxAddress = 0x3f; break; case Pcsc.CardName.MifareStandard4K: maxAddress = 0xff; break; } await mfStdAccess.LoadKeyAsync(MifareStandard.DefaultKeys.FactoryDefault); for (ushort address = 0; address <= maxAddress; address++) { var response = await mfStdAccess.ReadAsync(address, Pcsc.GeneralAuthenticate.GeneralAuthenticateKeyType.MifareKeyA); DisplayText("Block " + address.ToString() + " " + BitConverter.ToString(response)); } } } catch (Exception e) { PopupMessage("HandleCard Exception: " + e.Message); } }