public ReadTags(NotifyIcon notifyIcon) { try { InitializeComponent(); dgTagResult.DataSource = tagdb.TagList; //Set the column width of datagrid AddGridStyles(); properties = Utilities.GetProperties(); playBeep.SoundLocation = properties["decodewavefile"]; playBeep.LoadAsync(); playStopAudio.SoundLocation = properties["endscanwavefile"]; playStopAudio.LoadAsync(); playStartAudio.SoundLocation = properties["startscanwavefile"]; playStartAudio.LoadAsync(); setStatus(Status.READY); pvtNotifyIcon = notifyIcon; //For battery level status = new CoreDLL.SYSTEM_POWER_STATUS_EX(); tmrBackLightControl = new System.Windows.Forms.Timer(); tmrBackLightControl.Interval = 1000 * 30;// Timer will tick every 30 seconds tmrBackLightControl.Tick += new EventHandler(tmrBackLightControl_Tick); //Pistol grip read handler pistolTriggerEvent = new SystemState(SystemProperty.HeadsetPresent); pistolTriggerEvent.Changed += new ChangeEventHandler(pistolTriggerEvent_Changed); pistolTriggerEvent.DisableApplicationLauncher(); } catch (Exception ex) { logger.Error("In ReadTags: " + ex.ToString()); MessageBox.Show(ex.Message); } }
// TODO: Merge common functionality between KeyboardWedgeRead and ReadTags.ReadtheTags private void KeyboardWedgeRead() { List<SendInputWrapper.INPUT> inputList = new List<SendInputWrapper.INPUT>(); string startIndicator = "."; // Signal start of read inputList.Clear(); AddKeypresses(inputList, startIndicator); SendInput(inputList); properties = Utilities.GetProperties(); SoundPlayer startSound = new SoundPlayer(properties["startscanwavefile"]); if (properties["audiblealert"].ToLower() == "yes") { startSound.Play(); } SoundPlayer stopSound = new SoundPlayer(properties["endscanwavefile"]); stopSound.LoadAsync(); CoreDLL.SYSTEM_POWER_STATUS_EX status = new CoreDLL.SYSTEM_POWER_STATUS_EX(); //Check the battery power level if (CoreDLL.GetSystemPowerStatusEx(status, false) == 1) { if (status.BatteryLifePercent <= 5) { if (status.ACLineStatus == 0) { MessageBox.Show("Battery level is low to read tags"); return; } } } try { TagReadData[] reads; //Utilities.PowerManager.PowerNotify += new PowerManager.PowerEventHandler(PowerManager_PowerNotify); using (ThingMagic.RFIDSearchLight.ReadMgr.Session rsess = ThingMagic.RFIDSearchLight.ReadMgr.GetSession()) { #if DEBUG if (properties["audiblealert"].ToLower() == "yes") { startSound.Play(); } #endif int radioPower = 0; if (properties["readpower"].ToString() == "") { radioPower = 2300;//While reading read power should be max } else { radioPower = Convert.ToInt32(properties["readpower"].ToString()); } //Set the region string region = properties["region"]; try { Utilities.SwitchRegion(region); } catch (ArgumentException) { MessageBox.Show( "Unknown Region: " + region + "\r\n" + "Please run RFIDSearchLight to initialize the region." ); } rsess.Reader.ParamSet("/reader/powerMode", Reader.PowerMode.FULL); rsess.Reader.ParamSet("/reader/radio/readPower", radioPower); rsess.Reader.ParamSet("/reader/antenna/txRxMap", new int[][] { new int[] { 1, 1, 1 } }); List<int> ant = new List<int>(); ant.Add(1); //set the tag population settings rsess.Reader.ParamSet("/reader/gen2/target", Gen2.Target.A);//default target string tagPopulation = properties["tagpopulation"]; switch (tagPopulation) { case "small": rsess.Reader.ParamSet("/reader/gen2/q", new Gen2.StaticQ(2)); rsess.Reader.ParamSet("/reader/gen2/session", Gen2.Session.S0); rsess.Reader.ParamSet("/reader/gen2/tagEncoding", Gen2.TagEncoding.M4); break; case "medium": rsess.Reader.ParamSet("/reader/gen2/q", new Gen2.StaticQ(4)); rsess.Reader.ParamSet("/reader/gen2/session", Gen2.Session.S1); rsess.Reader.ParamSet("/reader/gen2/tagEncoding", Gen2.TagEncoding.M4); break; case "large": rsess.Reader.ParamSet("/reader/gen2/q", new Gen2.StaticQ(6)); rsess.Reader.ParamSet("/reader/gen2/session", Gen2.Session.S2); rsess.Reader.ParamSet("/reader/gen2/tagEncoding", Gen2.TagEncoding.M2); break; default: break; } //set the read plan and filter TagFilter filter; int addressToRead = int.Parse(properties["selectionaddress"]); Gen2.Bank bank = Gen2.Bank.EPC; switch (properties["tagselection"].ToLower()) { case "None": case "epc": bank = Gen2.Bank.EPC; break; case "tid": bank = Gen2.Bank.TID; break; case "user": bank = Gen2.Bank.USER; break; case "reserved": bank = Gen2.Bank.RESERVED; break; default: break; } if ("yes" == properties["ismaskselected"]) { filter = new Gen2.Select(true, bank, (uint)addressToRead * 8, (ushort)(properties["selectionmask"].Length * 4), ByteFormat.FromHex(properties["selectionmask"])); } else { filter = new Gen2.Select(false, bank, (uint)addressToRead * 8, (ushort)(properties["selectionmask"].Length * 4), ByteFormat.FromHex(properties["selectionmask"])); } //set the read plan SimpleReadPlan srp; if (properties["tagselection"].ToLower() == "none") { srp = new SimpleReadPlan(new int[] { 1 }, TagProtocol.GEN2, null, 0); } else { srp = new SimpleReadPlan(new int[] { 1 }, TagProtocol.GEN2, filter, 0); } rsess.Reader.ParamSet("/reader/read/plan", srp); double readDuration = Convert.ToDouble(properties["scanduration"].ToString()) * 1000; int readTimeout = Convert.ToInt32(readDuration); //Do a sync read for the readduration #if DEBUG if (properties["audiblealert"].ToLower() == "yes") { startSound.Play(); } #endif reads = rsess.Reader.Read(readTimeout); rsess.Reader.ParamSet("/reader/powerMode", Reader.PowerMode.MINSAVE); if (properties["audiblealert"].ToLower() == "yes") { stopSound.Play(); } // Clear start indicator inputList.Clear(); for (int i = 0; i < startIndicator.Length; i++) { AddKeypresses(inputList, new byte[] { // Don't send Backspace -- that's one of our hotkeys, // so it'll put us in an infinite loop. (byte)Keys.Left, (byte)Keys.Delete, }); } SendInput(inputList); } inputList.Clear(); //HideWindow(); bool timestamp = false, rssi = false, position = false; string[] metadata = properties["metadatatodisplay"].Split(','); //Metadata boolean variables foreach (string mdata in metadata) { switch (mdata.ToLower()) { case "timestamp": timestamp = true; break; case "rssi": rssi = true; break; case "position": position = true; break; default: break; } } string metadataseparator = properties["metadataseparator"]; byte metadataseparatorInByte = 0x00; switch (metadataseparator.ToLower()) { //The byte representation of special characters can be found here - http://msdn.microsoft.com/en-us/library/windows/desktop/dd375731(v=vs.85).aspx case "comma": metadataseparatorInByte = 0xBC; break; case "space": metadataseparatorInByte = 0x20; break; case "enter": metadataseparatorInByte = 0x0D; break; case "tab": metadataseparatorInByte = 0x09; break; default: break; } //Print the epc in caps AddKeypress(inputList, (byte)Keys.Capital); // Toggle Caps Lock //Print the tag reads foreach (TagReadData dat in reads) { string tagData = string.Empty; string epc = string.Empty; if (properties["displayformat"] == "base36") { epc = ConvertEPC.ConvertHexToBase36(dat.EpcString); } else { epc = dat.EpcString; } AddKeypresses(inputList, properties["prefix"].ToUpper()); AddKeypresses(inputList, epc.ToUpper()); AddKeypresses(inputList, properties["suffix"].ToUpper()); if (timestamp) { AddKeypress(inputList, metadataseparatorInByte); AddKeypresses(inputList, dat.Time.ToString("yyyy-MM-dd-HH-mm-ss")); } if (rssi) { AddKeypress(inputList, metadataseparatorInByte); AddKeypresses(inputList, dat.Rssi.ToString()); } if (position) { AddKeypress(inputList, metadataseparatorInByte); AddKeypresses(inputList, GpsMgr.LatLonString); } switch (properties["multipletagseparator"].ToLower()) { case "comma": AddKeypress(inputList, 0xBC); break; case "space": AddKeypress(inputList, 0x20); break; case "enter": AddKeypress(inputList, 0x0D); break; case "tab": AddKeypress(inputList, 0x09); break; case "pipe": AddInput(inputList, SHIFT_DOWN); AddKeypress(inputList, 0xDC); AddInput(inputList, SHIFT_UP); break; default: break; } // Send keystrokes after each tag read record -- input buffer // isn't big enough to hold more than a few lines SendInput(inputList); inputList.Clear(); } //Turn caps lock back off AddKeypress(inputList, (byte)Keys.Capital); // Toggle Caps Lock SendInput(inputList); } catch (Exception ex) { logger.Error("In KeyboardWedgeRead(): " + ex.ToString()); //MessageBox.Show(ex.Message); //Debug.Log(ex.ToString()); } }
// TODO: Merge common functionality between KeyboardWedgeRead and ReadTags.ReadtheTags private void KeyboardWedgeRead() { List <SendInputWrapper.INPUT> inputList = new List <SendInputWrapper.INPUT>(); string startIndicator = "."; // Signal start of read inputList.Clear(); AddKeypresses(inputList, startIndicator); SendInput(inputList); properties = Utilities.GetProperties(); SoundPlayer startSound = new SoundPlayer(properties["startscanwavefile"]); if (properties["audiblealert"].ToLower() == "yes") { startSound.Play(); } SoundPlayer stopSound = new SoundPlayer(properties["endscanwavefile"]); stopSound.LoadAsync(); CoreDLL.SYSTEM_POWER_STATUS_EX status = new CoreDLL.SYSTEM_POWER_STATUS_EX(); //Check the battery power level if (CoreDLL.GetSystemPowerStatusEx(status, false) == 1) { if (status.BatteryLifePercent <= 5) { if (status.ACLineStatus == 0) { MessageBox.Show("Battery level is low to read tags"); return; } } } try { TagReadData[] reads; //Utilities.PowerManager.PowerNotify += new PowerManager.PowerEventHandler(PowerManager_PowerNotify); using (ThingMagic.RFIDSearchLight.ReadMgr.Session rsess = ThingMagic.RFIDSearchLight.ReadMgr.GetSession()) { #if DEBUG if (properties["audiblealert"].ToLower() == "yes") { startSound.Play(); } #endif int radioPower = 0; if (properties["readpower"].ToString() == "") { radioPower = 2300;//While reading read power should be max } else { radioPower = Convert.ToInt32(properties["readpower"].ToString()); } //Set the region string region = properties["region"]; try { Utilities.SwitchRegion(region); } catch (ArgumentException) { MessageBox.Show( "Unknown Region: " + region + "\r\n" + "Please run RFIDSearchLight to initialize the region." ); } rsess.Reader.ParamSet("/reader/powerMode", Reader.PowerMode.FULL); rsess.Reader.ParamSet("/reader/radio/readPower", radioPower); rsess.Reader.ParamSet("/reader/antenna/txRxMap", new int[][] { new int[] { 1, 1, 1 } }); List <int> ant = new List <int>(); ant.Add(1); //set the tag population settings rsess.Reader.ParamSet("/reader/gen2/target", Gen2.Target.A);//default target string tagPopulation = properties["tagpopulation"]; switch (tagPopulation) { case "small": rsess.Reader.ParamSet("/reader/gen2/q", new Gen2.StaticQ(2)); rsess.Reader.ParamSet("/reader/gen2/session", Gen2.Session.S0); rsess.Reader.ParamSet("/reader/gen2/tagEncoding", Gen2.TagEncoding.M4); break; case "medium": rsess.Reader.ParamSet("/reader/gen2/q", new Gen2.StaticQ(4)); rsess.Reader.ParamSet("/reader/gen2/session", Gen2.Session.S1); rsess.Reader.ParamSet("/reader/gen2/tagEncoding", Gen2.TagEncoding.M4); break; case "large": rsess.Reader.ParamSet("/reader/gen2/q", new Gen2.StaticQ(6)); rsess.Reader.ParamSet("/reader/gen2/session", Gen2.Session.S2); rsess.Reader.ParamSet("/reader/gen2/tagEncoding", Gen2.TagEncoding.M2); break; default: break; } //set the read plan and filter TagFilter filter; int addressToRead = int.Parse(properties["selectionaddress"]); Gen2.Bank bank = Gen2.Bank.EPC; switch (properties["tagselection"].ToLower()) { case "None": case "epc": bank = Gen2.Bank.EPC; break; case "tid": bank = Gen2.Bank.TID; break; case "user": bank = Gen2.Bank.USER; break; case "reserved": bank = Gen2.Bank.RESERVED; break; default: break; } if ("yes" == properties["ismaskselected"]) { filter = new Gen2.Select(true, bank, (uint)addressToRead * 8, (ushort)(properties["selectionmask"].Length * 4), ByteFormat.FromHex(properties["selectionmask"])); } else { filter = new Gen2.Select(false, bank, (uint)addressToRead * 8, (ushort)(properties["selectionmask"].Length * 4), ByteFormat.FromHex(properties["selectionmask"])); } //set the read plan SimpleReadPlan srp; if (properties["tagselection"].ToLower() == "none") { srp = new SimpleReadPlan(new int[] { 1 }, TagProtocol.GEN2, null, 0); } else { srp = new SimpleReadPlan(new int[] { 1 }, TagProtocol.GEN2, filter, 0); } rsess.Reader.ParamSet("/reader/read/plan", srp); double readDuration = Convert.ToDouble(properties["scanduration"].ToString()) * 1000; int readTimeout = Convert.ToInt32(readDuration); //Do a sync read for the readduration #if DEBUG if (properties["audiblealert"].ToLower() == "yes") { startSound.Play(); } #endif reads = rsess.Reader.Read(readTimeout); rsess.Reader.ParamSet("/reader/powerMode", Reader.PowerMode.MINSAVE); if (properties["audiblealert"].ToLower() == "yes") { stopSound.Play(); } // Clear start indicator inputList.Clear(); for (int i = 0; i < startIndicator.Length; i++) { AddKeypresses(inputList, new byte[] { // Don't send Backspace -- that's one of our hotkeys, // so it'll put us in an infinite loop. (byte)Keys.Left, (byte)Keys.Delete, }); } SendInput(inputList); } inputList.Clear(); //HideWindow(); bool timestamp = false, rssi = false, position = false; string[] metadata = properties["metadatatodisplay"].Split(','); //Metadata boolean variables foreach (string mdata in metadata) { switch (mdata.ToLower()) { case "timestamp": timestamp = true; break; case "rssi": rssi = true; break; case "position": position = true; break; default: break; } } string metadataseparator = properties["metadataseparator"]; byte metadataseparatorInByte = 0x00; switch (metadataseparator.ToLower()) { //The byte representation of special characters can be found here - http://msdn.microsoft.com/en-us/library/windows/desktop/dd375731(v=vs.85).aspx case "comma": metadataseparatorInByte = 0xBC; break; case "space": metadataseparatorInByte = 0x20; break; case "enter": metadataseparatorInByte = 0x0D; break; case "tab": metadataseparatorInByte = 0x09; break; default: break; } //Print the epc in caps AddKeypress(inputList, (byte)Keys.Capital); // Toggle Caps Lock //Print the tag reads foreach (TagReadData dat in reads) { string tagData = string.Empty; string epc = string.Empty; if (properties["displayformat"] == "base36") { epc = ConvertEPC.ConvertHexToBase36(dat.EpcString); } else { epc = dat.EpcString; } AddKeypresses(inputList, properties["prefix"].ToUpper()); AddKeypresses(inputList, epc.ToUpper()); AddKeypresses(inputList, properties["suffix"].ToUpper()); if (timestamp) { AddKeypress(inputList, metadataseparatorInByte); AddKeypresses(inputList, dat.Time.ToString("yyyy-MM-dd-HH-mm-ss")); } if (rssi) { AddKeypress(inputList, metadataseparatorInByte); AddKeypresses(inputList, dat.Rssi.ToString()); } if (position) { AddKeypress(inputList, metadataseparatorInByte); AddKeypresses(inputList, GpsMgr.LatLonString); } switch (properties["multipletagseparator"].ToLower()) { case "comma": AddKeypress(inputList, 0xBC); break; case "space": AddKeypress(inputList, 0x20); break; case "enter": AddKeypress(inputList, 0x0D); break; case "tab": AddKeypress(inputList, 0x09); break; case "pipe": AddInput(inputList, SHIFT_DOWN); AddKeypress(inputList, 0xDC); AddInput(inputList, SHIFT_UP); break; default: break; } // Send keystrokes after each tag read record -- input buffer // isn't big enough to hold more than a few lines SendInput(inputList); inputList.Clear(); } //Turn caps lock back off AddKeypress(inputList, (byte)Keys.Capital); // Toggle Caps Lock SendInput(inputList); } catch (Exception ex) { logger.Error("In KeyboardWedgeRead(): " + ex.ToString()); //MessageBox.Show(ex.Message); //Debug.Log(ex.ToString()); } }