// This function uses the FLOAT AMOUNT command to set the float amount. The validator will empty
// notes into the cashbox leaving the requested floating amount in the payout. The minimum payout
// is also setup so the validator will leave itself the ability to payout the minimum value requested.
public void SetFloat(int minPayout, int floatAmount, char[] currency, TextBox log = null)
{
cmd.CommandData[0] = CCommands.SMARTPayout.SSP_CMD_FLOAT_AMOUNT;
byte[] b = CHelpers.ConvertInt32ToBytes(minPayout);
cmd.CommandData[1] = b[0];
cmd.CommandData[2] = b[1];
cmd.CommandData[3] = b[2];
cmd.CommandData[4] = b[3];
b = CHelpers.ConvertInt32ToBytes(floatAmount);
cmd.CommandData[5] = b[0];
cmd.CommandData[6] = b[1];
cmd.CommandData[7] = b[2];
cmd.CommandData[8] = b[3];
// Add currency
cmd.CommandData[9] = (byte)currency[0];
cmd.CommandData[10] = (byte)currency[1];
cmd.CommandData[11] = (byte)currency[2];
cmd.CommandData[12] = 0x58; // real float (could use 0x19 for test)
cmd.CommandDataLength = 13;
if (!SendCommand(log) || !CheckGenericResponses(log))
{
return;
}
if (log != null)
{
log.AppendText("Floated amount successfully\r\n");
}
}
// This function calls the PAYOUT AMOUNT command to payout a specified value. This can be sent
// with the option byte 0x19 to test whether the payout is possible or 0x58 to actually do the payout.
public void PayoutAmount(int amount, char[] currency, bool test = false, TextBox log = null)
{
cmd.CommandData[0] = CCommands.SMARTPayout.SSP_CMD_PAYOUT_AMOUNT;
byte[] b = CHelpers.ConvertInt32ToBytes(amount);
cmd.CommandData[1] = b[0];
cmd.CommandData[2] = b[1];
cmd.CommandData[3] = b[2];
cmd.CommandData[4] = b[3];
cmd.CommandData[5] = (byte)currency[0];
cmd.CommandData[6] = (byte)currency[1];
cmd.CommandData[7] = (byte)currency[2];
if (!test)
{
cmd.CommandData[8] = 0x58; // real payout
}
else
{
cmd.CommandData[8] = 0x19; // test payout
}
cmd.CommandDataLength = 9;
if (!SendCommand(log) || !CheckGenericResponses(log))
{
return;
}
if (log != null)
{
log.AppendText("Paying out " + CHelpers.FormatToCurrency(amount) + " " +
new string(currency) + "\r\n");
}
}
// This function uses the GET ROUTING command to determine whether a particular note
// is recycling.
void IsNoteRecycling(int note, char[] currency, ref bool b, TextBox log = null)
{
cmd.CommandData[0] = CCommands.SSP_CMD_GET_ROUTING;
byte[] byteArr = CHelpers.ConvertIntToBytes(note);
cmd.CommandData[1] = byteArr[0];
cmd.CommandData[2] = byteArr[1];
cmd.CommandData[3] = byteArr[2];
cmd.CommandData[4] = byteArr[3];
cmd.CommandData[5] = (byte)currency[0];
cmd.CommandData[6] = (byte)currency[1];
cmd.CommandData[7] = (byte)currency[2];
cmd.CommandDataLength = 8;
if (!SendCommand(log))
{
return;
}
if (CheckGenericResponses(log))
{
if (cmd.ResponseData[1] == 0x00)
{
b = true;
}
else
{
b = false;
}
}
}
private void ReconnectNV11()
{
OutputMessage m = new OutputMessage(AppendToTextBox);
NV11Connecting = true;
while (!NV11Running)
{
if (textBox1.InvokeRequired)
{
textBox1.Invoke(m, new object[] { "Attempting to reconnect to NV11...\r\n" });
}
else
{
textBox1.AppendText("Attempting to reconnect to NV11...\r\n");
}
ConnectToNV11(null); // Have to pass null as can't update text box from a different thread without invoking
CHelpers.Pause(1000);
if (CHelpers.Shutdown)
{
return;
}
}
if (textBox1.InvokeRequired)
{
textBox1.Invoke(m, new object[] { "Reconnected to NV11\r\n" });
}
else
{
textBox1.AppendText("Reconnected to NV11\r\n");
}
NV11.EnableValidator();
NV11Connecting = false;
}
// This function gets the CASHBOX PAYOUT OPERATION DATA from the validator and returns it as a string
public void GetCashboxPayoutOpData(TextBox log = null)
{
// first send the command
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_CASHBOX_PAYOUT_OP_DATA;
m_cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return;
}
// now deal with the response data
if (CheckGenericResponses(log))
{
// number of different coins
int n = m_cmd.ResponseData[1];
string displayString = "Number of Total Coins: " + n.ToString() + "\r\n\r\n";
int i = 0;
for (i = 2; i < (9 * n); i += 9)
{
displayString += "Moved " + CHelpers.ConvertBytesToInt16(m_cmd.ResponseData, i) +
" x " + CHelpers.FormatToCurrency(CHelpers.ConvertBytesToInt32(m_cmd.ResponseData, i + 2)) +
" " + (char)m_cmd.ResponseData[i + 6] + (char)m_cmd.ResponseData[i + 7] + (char)m_cmd.ResponseData[i + 8]
+ " to cashbox\r\n";
}
displayString += CHelpers.ConvertBytesToInt32(m_cmd.ResponseData, i) + " coins not recognised\r\n";
if (log != null)
{
log.AppendText(displayString);
}
}
}
// This uses the PAYOUT AMOUNT command to payout a value specified by the param amountToPayout.
// Protocol 6+ - We can use an option byte to test whether the payout is possible (0x19), and if
// it is then we can resend with the option byte 0x58 to do the payout.
public bool PayoutAmount(int amountToPayout, char[] currency, TextBox log = null)
{
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_PAYOUT_AMOUNT;
// Value to payout
byte[] b = CHelpers.ConvertInt32ToBytes(amountToPayout);
m_cmd.CommandData[1] = b[0];
m_cmd.CommandData[2] = b[1];
m_cmd.CommandData[3] = b[2];
m_cmd.CommandData[4] = b[3];
// Country code
m_cmd.CommandData[5] = (byte)currency[0];
m_cmd.CommandData[6] = (byte)currency[1];
m_cmd.CommandData[7] = (byte)currency[2];
m_cmd.CommandData[8] = 0x58; // payout option (0x19 for test, 0x58 for real)
m_cmd.CommandDataLength = 9;
if (!SendCommand(log))
{
return(false);
}
if (CheckGenericResponses(log))
{
return(true);
}
return(false);
}
// This function uses the command GET NOTE AMOUNT to find out the number of
// a specified type of note stored in the payout. Returns the number of notes stored
// of that denomination.
public int CheckNoteLevel(int note, char[] currency, TextBox log = null)
{
cmd.CommandData[0] = CCommands.SSP_CMD_GET_NOTE_AMOUNT;
byte[] b = CHelpers.ConvertIntToBytes(note);
cmd.CommandData[1] = b[0];
cmd.CommandData[2] = b[1];
cmd.CommandData[3] = b[2];
cmd.CommandData[4] = b[3];
cmd.CommandData[5] = (byte)currency[0];
cmd.CommandData[6] = (byte)currency[1];
cmd.CommandData[7] = (byte)currency[2];
cmd.CommandDataLength = 8;
if (!SendCommand(log))
{
return(0);
}
if (CheckGenericResponses(log))
{
int i = (int)cmd.ResponseData[1];
return(i);
}
return(0);
}
// This is a one off function that is called the first time the MainLoop()
// function runs, it just sets up a few of the UI elements that only need
// updating once.
private void SetupFormLayout()
{
// need validator class instance
if (Payout == null)
{
MessageBox.Show("Validator class is null.", "ERROR");
return;
}
// Positioning
int x = 600, y = 40;
// Add label
Label lbl = new Label();
lbl.Location = new Point(x, y - 10);
lbl.Size = new Size(80, 30);
lbl.Text = "Recycle\nChannels:";
Controls.Add(lbl);
for (int i = 1; i <= Payout.NumberOfChannels; i++)
{
CheckBox c = new CheckBox();
c.Location = new Point(x, y + (i * 20));
c.Name = i.ToString();
ChannelData d = new ChannelData();
Payout.GetDataByChannel(i, ref d);
c.Text = CHelpers.FormatToCurrency(d.Value) + " " + new String(d.Currency);
c.Checked = d.Recycling;
c.CheckedChanged += new EventHandler(recycleBox_CheckedChange);
Controls.Add(c);
}
}
// This function is run in a seperate thread, it allows a reconnection to a validator to happen in the
// background.
private void ReconnectValidator()
{
OutputMessage m = new OutputMessage(AppendToTextBox); // setup delegate
while (!validatorRunning)
{
if (CHelpers.Shutdown)
{
return;
}
// Check for cross-thread access
if (textBox1.InvokeRequired)
{
textBox1.Invoke(m, new object[] { "Attempting to reconnect to note validator...\r\n" });
}
else
{
textBox1.AppendText("Attempting to reconnect to note validator...\r\n");
}
// Attempt reconnect (can't pass text box across for output as the class does not
// deal with threading issues).
ConnectToNoteValidator();
CHelpers.Pause(1000);
}
if (textBox1.InvokeRequired)
{
textBox1.Invoke(m, new object[] { "Reconnected to note validator\r\n" });
}
else
{
textBox1.AppendText("Reconnected to note validator\r\n");
}
Validator.EnableValidator();
}
// This is a one off function that is called the first time the MainLoop()
// function runs, it just sets up a few of the UI elements that only need
// updating once.
private void SetupFormLayout()
{
// Basic Validator UI setup
// Get channel levels in hopper
tbCoinLevels.Text = Hopper.GetChannelLevelInfo();
// setup list of recyclable channel tick boxes based on OS type
System.OperatingSystem osInfo = System.Environment.OSVersion;
int x = 560, y = 47;
Label l = new Label();
l.Location = new Point(x, y);
l.Size = new Size(65, 38);
l.Name = "lblRecycleCheckBoxes";
l.Text = "Recycle\nChannels:";
Controls.Add(l);
for (int i = 1; i <= Hopper.NumberOfChannels; i++)
{
CheckBox c = new CheckBox();
c.Location = new Point(x, y + 15 + (i * 20));
c.Name = i.ToString();
c.Text = CHelpers.FormatToCurrency(Hopper.GetChannelValue(i)) +
" " + new String(Hopper.GetChannelCurrency(i));
c.Checked = Hopper.IsChannelRecycling(i);
c.CheckedChanged += new EventHandler(recycleBox_CheckedChange);
Controls.Add(c);
}
}
// This is a one off function that is called the first time the MainLoop()
// function runs, it just sets up a few of the UI elements that only need
// updating once.
private void SetupFormLayout()
{
// need validator class instance
if (Hopper == null)
{
MessageBox.Show("Validator class is null.", "ERROR");
return;
}
// Positioning
int x = 555, y = 30;
Label lbl = new Label();
lbl.Location = new Point(x, y);
lbl.Size = new Size(70, 35);
lbl.Name = "lbl";
lbl.Text = "Recycle\nChannels:";
Controls.Add(lbl);
y += 20;
for (int i = 1; i <= Hopper.NumberOfChannels; i++)
{
CheckBox c = new CheckBox();
c.Location = new Point(x, y + (i * 20));
c.Name = i.ToString();
c.Text = CHelpers.FormatToCurrency(Hopper.GetChannelValue(i)) + " " + new String(Hopper.GetChannelCurrency(i));
c.Checked = Hopper.IsChannelRecycling(i);
c.CheckedChanged += new EventHandler(recycleBox_CheckedChange);
Controls.Add(c);
}
}
// This function uses the GET ROUTING command to see if a specified note is recycling. The
// caller passes a bool across which is set by the function.
public void IsNoteRecycling(int noteValue, char[] currency, ref bool response, TextBox log = null)
{
// Determine if the note is currently being recycled
cmd.CommandData[0] = CCommands.SMARTPayout.SSP_CMD_GET_ROUTING;
byte[] b = CHelpers.ConvertInt32ToBytes(noteValue);
cmd.CommandData[1] = b[0];
cmd.CommandData[2] = b[1];
cmd.CommandData[3] = b[2];
cmd.CommandData[4] = b[3];
// Add currency
cmd.CommandData[5] = (byte)currency[0];
cmd.CommandData[6] = (byte)currency[1];
cmd.CommandData[7] = (byte)currency[2];
cmd.CommandDataLength = 8;
if (!SendCommand(log) || !CheckGenericResponses(log))
{
return;
}
// True if it is currently being recycled
if (cmd.ResponseData[1] == 0x00)
{
response = true;
}
// False if not
else if (cmd.ResponseData[1] == 0x01)
{
response = false;
}
}
// These functions are run in a seperate thread to allow the main loop to continue executing.
private void ReconnectHopper()
{
OutputMessage m = new OutputMessage(AppendToTextBox);
hopperConnecting = true;
while (!hopperRunning)
{
if (textBox1.InvokeRequired)
{
textBox1.Invoke(m, new object[] { "Attempting to reconnect to SMART Hopper...\r\n" });
}
else
{
textBox1.AppendText("Attempting to reconnect to SMART Hopper...\r\n");
}
ConnectToHopper();
CHelpers.Pause(1000);
if (CHelpers.Shutdown)
{
return;
}
}
if (textBox1.InvokeRequired)
{
textBox1.Invoke(m, new object[] { "Reconnected to SMART Hopper\r\n" });
}
else
{
textBox1.AppendText("Reconnected to SMART Hopper\r\n");
}
Hopper.EnableValidator();
hopperConnecting = false;
}
private void PayoutBtn_Click(object sender, EventArgs e)
{
bool payoutRequired = false;
byte[] data = new byte[9 * Hopper.NumberOfChannels]; // create to size of maximum possible
byte length = 0;
int dataIndex = 0;
byte denomsToPayout = 0;
// For each denomination
for (int i = 0; i < Hopper.NumberOfChannels; i++)
{
try
{
// Check if there is input in the box
if (AmountToPayout[i].Text != "" && AmountToPayout[i].Text != "0")
{
// If textbox isn't blank then this denom is being paid out
denomsToPayout++;
length += 9; // 9 bytes per denom to payout (2 amount, 4 value, 3 currency)
payoutRequired = true; // need to do a payout as there is now > 0 denoms
// Number of this denomination to payout
UInt16 numToPayout = UInt16.Parse(AmountToPayout[i].Text);
byte[] b = CHelpers.ConvertInt16ToBytes((short)numToPayout);
data[dataIndex++] = b[0];
data[dataIndex++] = b[1];
// Value of this denomination
ChannelData d = Hopper.UnitDataList[i];
b = CHelpers.ConvertInt32ToBytes(d.Value);
data[dataIndex++] = b[0];
data[dataIndex++] = b[1];
data[dataIndex++] = b[2];
data[dataIndex++] = b[3];
// Currency of this denomination
data[dataIndex++] = (Byte)d.Currency[0];
data[dataIndex++] = (Byte)d.Currency[1];
data[dataIndex++] = (Byte)d.Currency[2];
}
}
catch (Exception ex)
{
MessageBox.Show(ex.ToString());
payoutRequired = false; // don't payout on exception
}
}
if (payoutRequired)
{
// Send payout command and shut this form
Hopper.PayoutByDenomination(denomsToPayout, data, length, Output);
base.Dispose();
}
}
// Set a channel to route to storage, this sends the SET ROUTING command.
public void RouteChannelToStorage(int channelNumber, TextBox log = null)
{
// setup command
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_SET_ROUTING;
m_cmd.CommandData[1] = 0x00; // storage
// coin to route
// Get value of coin (4 byte protocol 6)
byte[] b = CHelpers.ConvertInt32ToBytes(GetChannelValue(channelNumber));
m_cmd.CommandData[2] = b[0];
m_cmd.CommandData[3] = b[1];
m_cmd.CommandData[4] = b[2];
m_cmd.CommandData[5] = b[3];
// Add country code, locate from dataset
foreach (ChannelData d in m_UnitDataList)
{
if (d.Channel == channelNumber)
{
m_cmd.CommandData[6] = (byte)d.Currency[0];
m_cmd.CommandData[7] = (byte)d.Currency[1];
m_cmd.CommandData[8] = (byte)d.Currency[2];
break;
}
}
m_cmd.CommandDataLength = 9;
// send command
if (!SendCommand(log))
{
return;
}
if (CheckGenericResponses(log))
{
// update list
foreach (ChannelData d in m_UnitDataList)
{
if (d.Channel == channelNumber)
{
d.Recycling = true;
break;
}
}
if (log != null)
{
log.AppendText("Successfully routed coin on channel " + channelNumber.ToString() + " to storage\r\n");
}
}
}
// This uses the SET COIN AMOUNT command to increase a channel level by passing over the channel and the amount to increment by
public void SetCoinLevelsByChannel(int channel, short amount, TextBox log = null)
{
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_SET_COIN_AMOUNT;
// Level to set
byte[] b = CHelpers.ConvertInt16ToBytes(amount);
m_cmd.CommandData[1] = b[0];
m_cmd.CommandData[2] = b[1];
// Coin(channel) to set
b = CHelpers.ConvertInt32ToBytes(GetChannelValue(channel));
m_cmd.CommandData[3] = b[0];
m_cmd.CommandData[4] = b[1];
m_cmd.CommandData[5] = b[2];
m_cmd.CommandData[6] = b[3];
// Add country code, locate from dataset
foreach (ChannelData d in m_UnitDataList)
{
if (d.Channel == channel)
{
m_cmd.CommandData[7] = (byte)d.Currency[0];
m_cmd.CommandData[8] = (byte)d.Currency[1];
m_cmd.CommandData[9] = (byte)d.Currency[2];
break;
}
}
m_cmd.CommandDataLength = 10;
if (!SendCommand(log))
{
return;
}
if (CheckGenericResponses(log))
{
// Update the level
foreach (ChannelData d in m_UnitDataList)
{
if (d.Channel == channel)
{
d.Level += amount;
break;
}
}
if (log != null)
{
log.AppendText("Changed coin value " + CHelpers.FormatToCurrency(GetChannelValue(channel)).ToString() +
"'s level to " + amount.ToString() + "\r\n");
}
}
}
// The set routing command changes the way the validator deals with a note, either it can send the note straight to the cashbox
// or it can store the note for payout. This is specified in the second byte (0x00 to store for payout, 0x01 for cashbox). The
// bytes after this represent the 4 bit value of the note.
// This function allows the note to be specified as an int in the param note, the stack bool is true for cashbox, false for storage.
public void ChangeNoteRoute(int note, char[] currency, bool stack, TextBox log = null)
{
cmd.CommandData[0] = CCommands.SMARTPayout.SSP_CMD_SET_ROUTING;
// if this note is being changed to stack (cashbox)
if (stack)
{
cmd.CommandData[1] = 0x01;
}
// note being stored (payout)
else
{
cmd.CommandData[1] = 0x00;
}
// get the note as a byte array
byte[] b = BitConverter.GetBytes(note);
cmd.CommandData[2] = b[0];
cmd.CommandData[3] = b[1];
cmd.CommandData[4] = b[2];
cmd.CommandData[5] = b[3];
// send country code (protocol 6+)
cmd.CommandData[6] = (byte)currency[0];
cmd.CommandData[7] = (byte)currency[1];
cmd.CommandData[8] = (byte)currency[2];
cmd.CommandDataLength = 9;
if (!SendCommand(log) || !CheckGenericResponses(log))
{
return;
}
if (log != null)
{
string s = new string(currency);
if (stack)
{
s += " to cashbox)\r\n";
}
else
{
s += " to storage)\r\n";
}
log.AppendText("Note routing successful (" + CHelpers.FormatToCurrency(note) + " " + s);
}
}
// The get note positions command instructs the validator to return in the second byte the number of
// notes stored and then in the following bytes, the values/channel (see SetValueReportingType()) of the stored
// notes. The length of the response will vary based on the number of stored notes.
public void CheckForStoredNotes(TextBox log = null)
{
cmd.CommandData[0] = CCommands.SSP_CMD_GET_NOTE_POSITIONS;
cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return;
}
if (CheckGenericResponses(log))
{
int counter = 0;
Array.Clear(m_NotePositionValues, 0, m_NotePositionValues.Length);
// Work backwards for a more accurate display (LIFO)
for (int i = (cmd.ResponseData[1] * 4) + 1; i >= 2; i -= 4, counter++)
{
m_NotePositionValues[counter] = CHelpers.ConvertBytesToInt32(cmd.ResponseData, i - 3);
}
}
}
// This function uses the GET ROUTING command to see if a specified coin is recycling. The
// caller passes a bool across which is set by the function.
public void IsCoinRecycling(int coinValue, char[] currency, ref bool response, TextBox log = null)
{
// First determine if the coin is currently being recycled
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_GET_ROUTING;
byte[] b = CHelpers.ConvertInt32ToBytes(coinValue);
m_cmd.CommandData[1] = b[0];
m_cmd.CommandData[2] = b[1];
m_cmd.CommandData[3] = b[2];
m_cmd.CommandData[4] = b[3];
// Add currency
m_cmd.CommandData[5] = (byte)currency[0];
m_cmd.CommandData[6] = (byte)currency[1];
m_cmd.CommandData[7] = (byte)currency[2];
m_cmd.CommandDataLength = 8;
if (!SendCommand(log))
{
return;
}
if (CheckGenericResponses(log))
{
// True if it is currently being recycled
if (m_cmd.ResponseData[1] == 0x00)
{
response = true;
if (log != null)
{
log.AppendText(CHelpers.FormatToCurrency(coinValue) + " is recycling\r\n");
}
}
// False if not
else if (m_cmd.ResponseData[1] == 0x01)
{
response = false;
if (log != null)
{
log.AppendText(CHelpers.FormatToCurrency(coinValue) + " is not recycling\r\n");
}
}
}
}
// This is a one off function that is called the first time the MainLoop()
// function runs, it just sets up a few of the UI elements that only need
// updating once.
private void SetupFormLayout()
{
// Note float UI setup
// Find number and value of channels in NV11 and update combo box
cbRecycleChannelNV11.Items.Add("No recycling");
foreach (ChannelData d in NV11.UnitDataList)
{
cbRecycleChannelNV11.Items.Add(d.Value / 100 + " " + new String(d.Currency));
}
cbRecycleChannelNV11.SelectedIndex = 0;
// Get channel levels in hopper
tbCoinLevels.Text = Hopper.GetChannelLevelInfo();
// setup list of recyclable channel tick boxes
int x = 0, y = 0;
x = 465;
y = 30;
Label lbl = new Label();
lbl.Location = new Point(x, y);
lbl.Size = new Size(70, 35);
lbl.Name = "lbl";
lbl.Text = "Recycle\nChannels:";
Controls.Add(lbl);
y += 20;
for (int i = 1; i <= Hopper.NumberOfChannels; i++)
{
CheckBox c = new CheckBox();
c.Location = new Point(x, y + (i * 20));
c.Name = i.ToString();
c.Text = CHelpers.FormatToCurrency(Hopper.GetChannelValue(i)) + " " + new String(Hopper.GetChannelCurrency(i));
c.Checked = Hopper.IsChannelRecycling(i);
c.CheckedChanged += new EventHandler(recycleBox_CheckedChange);
Controls.Add(c);
}
}
// This uses the GET COIN AMOUNT command to query the validator on a specified coin it has stored, it returns
// the level as an int.
public short CheckCoinLevel(int coinValue, char[] currency, TextBox log = null)
{
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_GET_COIN_AMOUNT;
byte[] b = CHelpers.ConvertInt32ToBytes(coinValue);
m_cmd.CommandData[1] = b[0];
m_cmd.CommandData[2] = b[1];
m_cmd.CommandData[3] = b[2];
m_cmd.CommandData[4] = b[3];
m_cmd.CommandData[5] = (byte)currency[0];
m_cmd.CommandData[6] = (byte)currency[1];
m_cmd.CommandData[7] = (byte)currency[2];
m_cmd.CommandDataLength = 8;
if (!SendCommand(log) || !CheckGenericResponses(log))
{
return(0);
}
short ret = CHelpers.ConvertBytesToInt16(m_cmd.ResponseData, 1);
return(ret);
}
// This function uses the FLOAT AMOUNT command to set the float amount. The Hopper will empty
// coins into the cashbox leaving the requested floating amount in the payout. The minimum payout
// is also setup so the validator will leave itself the ability to payout the minimum value requested.
public bool SetFloat(short minPayout, int floatAmount, char[] currency, TextBox log = null)
{
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_FLOAT_AMOUNT;
// Min payout
byte[] b = CHelpers.ConvertInt16ToBytes(minPayout);
m_cmd.CommandData[1] = b[0];
m_cmd.CommandData[2] = b[1];
// Amount to payout
b = CHelpers.ConvertInt32ToBytes(floatAmount);
m_cmd.CommandData[3] = b[0];
m_cmd.CommandData[4] = b[1];
m_cmd.CommandData[5] = b[2];
m_cmd.CommandData[6] = b[3];
// Country code
m_cmd.CommandData[7] = (byte)currency[0];
m_cmd.CommandData[8] = (byte)currency[1];
m_cmd.CommandData[9] = (byte)currency[2];
m_cmd.CommandData[10] = 0x58; // real float
m_cmd.CommandDataLength = 11;
if (!SendCommand(log))
{
return(false);
}
if (CheckGenericResponses(log))
{
if (log != null)
{
log.AppendText("Set float successfully\r\n");
}
return(true);
}
return(false);
}
// This uses the SET COIN AMOUNT command to increase a channel level by passing over the coin value and the amount to increment by
public void SetCoinLevelsByCoin(int coin, char[] currency, short amount, TextBox log = null)
{
m_cmd.CommandData[0] = CCommands.Hopper.SSP_CMD_SET_COIN_AMOUNT;
byte[] b = CHelpers.ConvertInt16ToBytes(amount);
m_cmd.CommandData[1] = b[0];
m_cmd.CommandData[2] = b[1];
b = CHelpers.ConvertInt32ToBytes(coin);
m_cmd.CommandData[3] = b[0];
m_cmd.CommandData[4] = b[1];
m_cmd.CommandData[5] = b[2];
m_cmd.CommandData[6] = b[3];
m_cmd.CommandData[7] = (byte)currency[0];
m_cmd.CommandData[8] = (byte)currency[1];
m_cmd.CommandData[9] = (byte)currency[2];
m_cmd.CommandDataLength = 10;
if (!SendCommand(log))
{
return;
}
if (CheckGenericResponses(log))
{
// Update the level
foreach (ChannelData d in m_UnitDataList)
{
if (d.Value == coin)
{
d.Level += amount;
break;
}
}
if (log != null)
{
log.AppendText("Increased coin value " + CHelpers.FormatToCurrency(coin).ToString() + "'s level by " + amount.ToString() + "\r\n");
}
}
}
// The poll function is called repeatedly to poll to validator for information, it returns as
// a response in the command structure what events are currently happening.
public bool DoPoll(TextBox log)
{
byte i;
//send poll
cmd.CommandData[0] = CCommands.Generic.SSP_CMD_POLL;
cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return(false);
}
if (cmd.ResponseData[0] == 0xFA)
{
return(false);
}
// store response locally so data can't get corrupted by other use of the cmd variable
byte[] response = new byte[255];
cmd.ResponseData.CopyTo(response, 0);
byte responseLength = cmd.ResponseDataLength;
//parse poll response
ChannelData data = new ChannelData();
for (i = 1; i < responseLength; ++i)
{
switch (response[i])
{
// This response indicates that the unit was reset and this is the first time a poll
// has been called since the reset.
case CCommands.SMARTPayout.SSP_POLL_RESET:
log.AppendText("Unit reset\r\n");
UpdateData();
break;
// This response indicates the unit is disabled.
case CCommands.SMARTPayout.SSP_POLL_DISABLED:
log.AppendText("Unit disabled...\r\n");
break;
// A note is currently being read by the validator sensors. The second byte of this response
// is zero until the note's type has been determined, it then changes to the channel of the
// scanned note.
case CCommands.SMARTPayout.SSP_POLL_NOTE_READ:
if (cmd.ResponseData[i + 1] > 0)
{
GetDataByChannel(response[i + 1], ref data);
log.AppendText("Note in escrow, amount: " + CHelpers.FormatToCurrency(data.Value) + "\r\n");
}
else
{
log.AppendText("Reading note\r\n");
}
i++;
break;
// A credit event has been detected, this is when the validator has accepted a note as legal currency.
case CCommands.SMARTPayout.SSP_POLL_CREDIT:
GetDataByChannel(response[i + 1], ref data);
log.AppendText("Credit " + CHelpers.FormatToCurrency(data.Value) + "\r\n");
UpdateData();
i++;
break;
// A note is being rejected from the validator. This will carry on polling while the note is in transit.
case CCommands.SMARTPayout.SSP_POLL_REJECTING:
log.AppendText("Rejecting note\r\n");
break;
// A note has been rejected from the validator, the note will be resting in the bezel. This response only
// appears once.
case CCommands.SMARTPayout.SSP_POLL_REJECTED:
log.AppendText("Note rejected\r\n");
QueryRejection(log);
break;
// A note is in transit to the cashbox.
case CCommands.SMARTPayout.SSP_POLL_STACKING:
log.AppendText("Stacking note\r\n");
break;
// The payout device is 'floating' a specified amount of notes. It will transfer some to the cashbox and
// leave the specified amount in the payout device.
case CCommands.SMARTPayout.SSP_POLL_FLOATING:
log.AppendText("Floating notes\r\n");
// Now the index needs to be moved on to skip over the data provided by this response so it
// is not parsed as a normal poll response.
// In this response, the data includes the number of countries being floated (1 byte), then a 4 byte value
// and 3 byte currency code for each country.
i += (byte)((response[i + 1] * 7) + 1);
break;
// A note has reached the cashbox.
case CCommands.SMARTPayout.SSP_POLL_STACKED:
log.AppendText("Note stacked\r\n");
break;
// The float operation has been completed.
case CCommands.SMARTPayout.SSP_POLL_FLOATED:
log.AppendText("Completed floating\r\n");
UpdateData();
EnableValidator();
i += (byte)((response[i + 1] * 7) + 1);
break;
// A note has been stored in the payout device to be paid out instead of going into the cashbox.
case CCommands.SMARTPayout.SSP_POLL_NOTE_STORED:
log.AppendText("Note stored\r\n");
UpdateData();
break;
// A safe jam has been detected. This is where the user has inserted a note and the note
// is jammed somewhere that the user cannot reach.
case CCommands.SMARTPayout.SSP_POLL_SAFE_JAM:
log.AppendText("Safe jam\r\n");
break;
// An unsafe jam has been detected. This is where a user has inserted a note and the note
// is jammed somewhere that the user can potentially recover the note from.
case CCommands.SMARTPayout.SSP_POLL_UNSAFE_JAM:
log.AppendText("Unsafe jam\r\n");
break;
// An error has been detected by the payout unit.
case CCommands.SMARTPayout.SSP_POLL_PAYOUT_ERROR: // Note: Will be reported only when Protocol version >= 7
log.AppendText("Detected error with payout device\r\n");
i += (byte)((response[i + 1] * 7) + 2);
break;
// A fraud attempt has been detected.
case CCommands.SMARTPayout.SSP_POLL_FRAUD_ATTEMPT:
log.AppendText("Fraud attempt\r\n");
i += (byte)((response[i + 1] * 7) + 1);
break;
// The stacker (cashbox) is full.
case CCommands.SMARTPayout.SSP_POLL_STACKER_FULL:
log.AppendText("Stacker full\r\n");
break;
// A note was detected somewhere inside the validator on startup and was rejected from the front of the
// unit.
case CCommands.SMARTPayout.SSP_POLL_NOTE_CLEARED_FROM_FRONT:
log.AppendText("Note cleared from front of validator\r\n");
i++;
break;
// A note was detected somewhere inside the validator on startup and was cleared into the cashbox.
case CCommands.SMARTPayout.SSP_POLL_NOTE_CLEARED_TO_CASHBOX:
log.AppendText("Note cleared to cashbox\r\n");
i++;
break;
// A note has been detected in the validator on startup and moved to the payout device
case CCommands.SMARTPayout.SSP_POLL_NOTE_PAID_INTO_STORE_ON_POWERUP:
log.AppendText("Note paid into payout device on startup\r\n");
i += 7;
break;
// A note has been detected in the validator on startup and moved to the cashbox
case CCommands.SMARTPayout.SSP_POLL_NOTE_PAID_INTO_STACKER_ON_POWERUP:
log.AppendText("Note paid into cashbox on startup\r\n");
i += 7;
break;
// The cashbox has been removed from the unit. This will continue to poll until the cashbox is replaced.
case CCommands.SMARTPayout.SSP_POLL_CASHBOX_REMOVED:
log.AppendText("Cashbox removed\r\n");
break;
// The cashbox has been replaced, this will only display on a poll once.
case CCommands.SMARTPayout.SSP_POLL_CASHBOX_REPLACED:
log.AppendText("Cashbox replaced\r\n");
break;
// The validator is in the process of paying out a note, this will continue to poll until the note has
// been fully dispensed and removed from the front of the validator by the user.
case CCommands.SMARTPayout.SSP_POLL_NOTE_DISPENSING:
log.AppendText("Dispensing note(s)\r\n");
i += (byte)((response[i + 1] * 7) + 1);
break;
// The note has been dispensed and removed from the bezel by the user.
case CCommands.SMARTPayout.SSP_POLL_NOTE_DISPENSED:
log.AppendText("Dispensed note(s)\r\n");
UpdateData();
EnableValidator();
i += (byte)((response[i + 1] * 7) + 1);
break;
// The payout device is in the process of emptying all its stored notes to the cashbox. This
// will continue to poll until the device is empty.
case CCommands.SMARTPayout.SSP_POLL_EMPTYING:
log.AppendText("Emptying\r\n");
break;
// This single poll response indicates that the payout device has finished emptying.
case CCommands.SMARTPayout.SSP_POLL_EMPTIED:
log.AppendText("Emptied\r\n");
UpdateData();
EnableValidator();
break;
// The payout device is in the process of SMART emptying all its stored notes to the cashbox, keeping
// a count of the notes emptied. This will continue to poll until the device is empty.
case CCommands.SMARTPayout.SSP_POLL_SMART_EMPTYING:
log.AppendText("SMART Emptying...\r\n");
i += (byte)((response[i + 1] * 7) + 1);
break;
// The payout device has finished SMART emptying, the information of what was emptied can now be displayed
// using the CASHBOX PAYOUT OPERATION DATA command.
case CCommands.SMARTPayout.SSP_POLL_SMART_EMPTIED:
log.AppendText("SMART Emptied, getting info...\r\n");
UpdateData();
GetCashboxPayoutOpData(log);
EnableValidator();
i += (byte)((response[i + 1] * 7) + 1);
break;
// The payout device has encountered a jam. This will not clear until the jam has been removed and the unit
// reset.
case CCommands.SMARTPayout.SSP_POLL_JAMMED:
log.AppendText("Unit jammed...\r\n");
i += (byte)((response[i + 1] * 7) + 1);
break;
// This is reported when the payout has been halted by a host command. This will report the value of
// currency dispensed upto the point it was halted.
case CCommands.SMARTPayout.SSP_POLL_HALTED:
log.AppendText("Halted...\r\n");
i += (byte)((response[i + 1] * 7) + 1);
break;
// This is reported when the payout was powered down during a payout operation. It reports the original amount
// requested and the amount paid out up to this point for each currency.
case CCommands.SMARTPayout.SSP_POLL_INCOMPLETE_PAYOUT:
log.AppendText("Incomplete payout\r\n");
i += (byte)((response[i + 1] * 11) + 1);
break;
// This is reported when the payout was powered down during a float operation. It reports the original amount
// requested and the amount paid out up to this point for each currency.
case CCommands.SMARTPayout.SSP_POLL_INCOMPLETE_FLOAT:
log.AppendText("Incomplete float\r\n");
i += (byte)((response[i + 1] * 11) + 1);
break;
// A note has been transferred from the payout unit to the stacker.
case CCommands.SMARTPayout.SSP_POLL_NOTE_TRANSFERRED_TO_STACKER:
log.AppendText("Note transferred to stacker\r\n");
i += 7;
break;
// A note is resting in the bezel waiting to be removed by the user.
case CCommands.SMARTPayout.SSP_POLL_NOTE_HELD_IN_BEZEL:
log.AppendText("Note in bezel...\r\n");
i += 7;
break;
// The payout has gone out of service, the host can attempt to re-enable the payout by sending the enable payout
// command.
case CCommands.SMARTPayout.SSP_POLL_PAYOUT_OUT_OF_SERVICE:
log.AppendText("Payout out of service...\r\n");
break;
// The unit has timed out while searching for a note to payout. It reports the value dispensed before the timeout
// event.
case CCommands.SMARTPayout.SSP_POLL_TIMEOUT:
log.AppendText("Timed out searching for a note\r\n");
i += (byte)((response[i + 1] * 7) + 1);
break;
default:
log.AppendText("Unsupported poll response received: " + (int)cmd.ResponseData[i] + "\r\n");
break;
}
}
return(true);
}
// This is a one off function that is called the first time the MainLoop()
// function runs, it just sets up a few of the UI elements that only need
// updating once.
private void SetupFormLayout()
{
// Get channel levels in hopper
tbCoinLevels.Text = Hopper.GetChannelLevelInfo();
// setup list of recyclable channel tick boxes based on OS type
System.OperatingSystem osInfo = System.Environment.OSVersion;
int x1 = 0, y1 = 0, x2 = 0, y2 = 0;
// XP, 2000, Server 2003
if (osInfo.Platform == PlatformID.Win32NT && osInfo.Version.Major == 5)
{
x1 = this.Location.X + 455;
y1 = this.Location.Y + 10;
x2 = this.Location.X + 780;
y2 = this.Location.Y + 10;
}
// Vista, 7
else if (osInfo.Platform == PlatformID.Win32NT && osInfo.Version.Major == 6)
{
x1 = this.Location.X + 458;
y1 = this.Location.Y + 12;
x2 = this.Location.X + 780;
y2 = this.Location.Y + 12;
}
GroupBox g1 = new GroupBox();
g1.Size = new Size(100, 380);
g1.Location = new Point(x1, y1);
g1.Text = "Hopper Recycling";
GroupBox g2 = new GroupBox();
g2.Size = new Size(100, 380);
g2.Location = new Point(x2, y2);
g2.Text = "Payout Recycling";
// Hopper checkboxes
for (int i = 1; i <= Hopper.NumberOfChannels; i++)
{
CheckBox c = new CheckBox();
c.Location = new Point(5, 20 + (i * 20));
c.Name = i.ToString();
c.Text = CHelpers.FormatToCurrency(Hopper.GetChannelValue(i)) + " " + new String(Hopper.GetChannelCurrency(i));
c.Checked = Hopper.IsChannelRecycling(i);
c.CheckedChanged += new EventHandler(recycleBoxHopper_CheckedChange);
g1.Controls.Add(c);
}
// Payout checkboxes
for (int i = 1; i <= Payout.NumberOfChannels; i++)
{
CheckBox c = new CheckBox();
c.Location = new Point(5, 20 + (i * 20));
c.Name = i.ToString();
ChannelData d = new ChannelData();
Payout.GetDataByChannel(i, ref d);
c.Text = CHelpers.FormatToCurrency(d.Value) + " " + new String(d.Currency);
c.Checked = d.Recycling;
c.CheckedChanged += new EventHandler(recycleBoxPayout_CheckedChange);
g2.Controls.Add(c);
}
Controls.Add(g1);
Controls.Add(g2);
}
// The poll function is called repeatedly to poll to validator for information, it returns as
// a response in the command structure what events are currently happening.
public bool DoPoll(TextBox log)
{
byte i;
//send poll
cmd.CommandData[0] = CCommands.Generic.SSP_CMD_POLL;
cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return(false);
}
// Check unit hasn't lost key (could be due to power loss or reset)
if (cmd.ResponseData[0] == 0xFA)
{
return(false);
}
// Store poll response to avoid corruption if the cmd structure is accessed whilst polling
cmd.ResponseData.CopyTo(m_CurrentPollResponse, 0);
m_CurrentPollResponseLength = cmd.ResponseDataLength;
//parse poll m_CurrentPollResponse
int noteVal = 0;
for (i = 1; i < m_CurrentPollResponseLength; i++)
{
switch (m_CurrentPollResponse[i])
{
// This m_CurrentPollResponse indicates that the unit was reset and this is the first time a poll
// has been called since the reset.
case CCommands.NV11.SSP_POLL_RESET:
log.AppendText("Unit reset\r\n");
UpdateData();
break;
// A note is currently being read by the validator sensors. The second byte of this response
// is zero until the note's type has been determined, it then changes to the channel of the
// scanned note.
case CCommands.NV11.SSP_POLL_NOTE_READ:
if (m_CurrentPollResponse[i + 1] > 0)
{
noteVal = GetChannelValue(m_CurrentPollResponse[i + 1]);
log.AppendText("Note in escrow, amount: " + CHelpers.FormatToCurrency(noteVal) + "\r\n");
}
else
{
log.AppendText("Reading note\r\n");
}
i++;
break;
// A credit event has been detected, this is when the validator has accepted a note as legal currency.
case CCommands.NV11.SSP_POLL_CREDIT:
noteVal = GetChannelValue(m_CurrentPollResponse[i + 1]);
log.AppendText("Credit " + CHelpers.FormatToCurrency(noteVal) + "\r\n");
NotesAccepted++;
UpdateData();
i++;
break;
// A note is being rejected from the validator. This will carry on polling while the note is in transit.
case CCommands.NV11.SSP_POLL_REJECTING:
break;
// A note has been rejected from the validator. This response only appears once.
case CCommands.NV11.SSP_POLL_REJECTED:
log.AppendText("Note rejected\r\n");
QueryRejection(log);
UpdateData();
break;
// A note is in transit to the cashbox.
case CCommands.NV11.SSP_POLL_STACKING:
log.AppendText("Stacking note\r\n");
break;
// A note has reached the cashbox.
case CCommands.NV11.SSP_POLL_STACKED:
log.AppendText("Note stacked\r\n");
break;
// A safe jam has been detected. This is where the user has inserted a note and the note
// is jammed somewhere that the user cannot reach.
case CCommands.NV11.SSP_POLL_SAFE_JAM:
log.AppendText("Safe jam\r\n");
break;
// An unsafe jam has been detected. This is where a user has inserted a note and the note
// is jammed somewhere that the user can potentially recover the note from.
case CCommands.NV11.SSP_POLL_UNSAFE_JAM:
log.AppendText("Unsafe jam\r\n");
break;
// The validator is disabled, it will not execute any commands or do any actions until enabled.
case CCommands.NV11.SSP_POLL_DISABLED:
log.AppendText("Unit disabled...\r\n");
break;
// A fraud attempt has been detected. The second byte indicates the channel of the note that a fraud
// has been attempted on.
case CCommands.NV11.SSP_POLL_FRAUD_ATTEMPT:
log.AppendText("Fraud attempt, note type: " + GetChannelValue(m_CurrentPollResponse[i + 1]) + "\r\n");
i++;
break;
// The stacker (cashbox) is full.
case CCommands.NV11.SSP_POLL_STACKER_FULL:
log.AppendText("Stacker full\r\n");
break;
// A note was detected somewhere inside the validator on startup and was rejected from the front of the
// unit.
case CCommands.NV11.SSP_POLL_NOTE_CLEARED_FROM_FRONT:
log.AppendText(GetChannelValue(m_CurrentPollResponse[i + 1]) + " note cleared from front at reset." + "\r\n");
i++;
break;
// A note was detected somewhere inside the validator on startup and was cleared into the cashbox.
case CCommands.NV11.SSP_POLL_NOTE_CLEARED_TO_CASHBOX:
log.AppendText(GetChannelValue(m_CurrentPollResponse[i + 1]) + " note cleared to stacker at reset." + "\r\n");
i++;
break;
// The cashbox has been removed from the unit. This will continue to poll until the cashbox is replaced.
case CCommands.NV11.SSP_POLL_CASHBOX_REMOVED:
log.AppendText("Cashbox removed\r\n");
break;
// The cashbox has been replaced, this will only display on a poll once.
case CCommands.NV11.SSP_POLL_CASHBOX_REPLACED:
log.AppendText("Cashbox replaced\r\n");
break;
// A note has been stored in the payout device to be paid out instead of going into the cashbox.
case CCommands.NV11.SSP_POLL_NOTE_STORED:
log.AppendText("Note stored\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
UpdateData();
break;
// The validator is in the process of paying out a note, this will continue to poll until the note has
// been fully dispensed and removed from the front of the validator by the user.
case CCommands.NV11.SSP_POLL_NOTE_DISPENSING:
log.AppendText("Dispensing note\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// The note has been dispensed and removed from the bezel by the user.
case CCommands.NV11.SSP_POLL_NOTE_DISPENSED:
for (int j = 0; j < m_CurrentPollResponse[i + 1]; j += 7)
{
log.AppendText("Dispensed " + (CHelpers.ConvertBytesToInt32(m_CurrentPollResponse, j + i + 2) / 100).ToString() +
" " + (char)m_CurrentPollResponse[j + i + 6] + (char)m_CurrentPollResponse[j + i + 7] +
(char)m_CurrentPollResponse[j + i + 8] + "\r\n");
}
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
NotesDispensed++;
UpdateData();
EnableValidator(log);
break;
// A note has been transferred from the payout storage to the cashbox
case CCommands.NV11.SSP_POLL_NOTE_TRANSFERRED_TO_STACKER:
log.AppendText("Note stacked\r\n");
UpdateData();
EnableValidator(log);
break;
// This single poll response indicates that the payout device has finished emptying.
case CCommands.NV11.SSP_POLL_EMPTIED:
log.AppendText("Device emptied\r\n");
UpdateData();
EnableValidator(log);
break;
// This response indicates a note is being dispensed and is resting in the bezel waiting to be removed
// before the validator can continue
case CCommands.NV11.SSP_POLL_NOTE_HELD_IN_BEZEL:
for (int j = 0; j < m_CurrentPollResponse[i + 1]; j += 7)
{
log.AppendText((CHelpers.ConvertBytesToInt32(m_CurrentPollResponse, j + i + 2) / 100).ToString() +
" " + (char)m_CurrentPollResponse[j + i + 6] + (char)m_CurrentPollResponse[j + i + 7] +
(char)m_CurrentPollResponse[j + i + 8] + " held in bezel...\r\n");
}
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
default:
break;
}
}
return(true);
}
// The poll function is called repeatedly to poll to validator for information, it returns as
// a response in the command structure what events are currently happening.
public bool DoPoll(TextBox log)
{
byte i;
//send poll
cmd.CommandData[0] = CCommands.SSP_CMD_POLL;
cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return(false);
}
//parse poll response
int noteVal = 0;
for (i = 1; i < cmd.ResponseDataLength; i++)
{
switch (cmd.ResponseData[i])
{
// This response indicates that the unit was reset and this is the first time a poll
// has been called since the reset.
case CCommands.SSP_POLL_RESET:
log.AppendText("Unit reset\r\n");
break;
// A note is currently being read by the validator sensors. The second byte of this response
// is zero until the note's type has been determined, it then changes to the channel of the
// scanned note.
case CCommands.SSP_POLL_NOTE_READ:
if (cmd.ResponseData[i + 1] > 0)
{
noteVal = GetChannelValue(cmd.ResponseData[i + 1]);
log.AppendText("Note in escrow, amount: " + CHelpers.FormatToCurrency(noteVal) + "\r\n");
}
else
{
log.AppendText("Reading note...\r\n");
}
i++;
break;
// A credit event has been detected, this is when the validator has accepted a note as legal currency.
case CCommands.SSP_POLL_CREDIT:
noteVal = GetChannelValue(cmd.ResponseData[i + 1]);
log.AppendText("Credit " + CHelpers.FormatToCurrency(noteVal) + "\r\n");
m_NumStackedNotes++;
i++;
break;
// A note is being rejected from the validator. This will carry on polling while the note is in transit.
case CCommands.SSP_POLL_REJECTING:
log.AppendText("Rejecting note...\r\n");
break;
// A note has been rejected from the validator, the note will be resting in the bezel. This response only
// appears once.
case CCommands.SSP_POLL_REJECTED:
log.AppendText("Note rejected\r\n");
QueryRejection(log);
break;
// A note is in transit to the cashbox.
case CCommands.SSP_POLL_STACKING:
log.AppendText("Stacking note...\r\n");
break;
// A note has reached the cashbox.
case CCommands.SSP_POLL_STACKED:
log.AppendText("Note stacked\r\n");
break;
// A safe jam has been detected. This is where the user has inserted a note and the note
// is jammed somewhere that the user cannot reach.
case CCommands.SSP_POLL_SAFE_JAM:
log.AppendText("Safe jam\r\n");
break;
// An unsafe jam has been detected. This is where a user has inserted a note and the note
// is jammed somewhere that the user can potentially recover the note from.
case CCommands.SSP_POLL_UNSAFE_JAM:
log.AppendText("Unsafe jam\r\n");
break;
// The validator is disabled, it will not execute any commands or do any actions until enabled.
case CCommands.SSP_POLL_DISABLED:
break;
// A fraud attempt has been detected. The second byte indicates the channel of the note that a fraud
// has been attempted on.
case CCommands.SSP_POLL_FRAUD_ATTEMPT:
log.AppendText("Fraud attempt, note type: " + GetChannelValue(cmd.ResponseData[i + 1]) + "\r\n");
i++;
break;
// The stacker (cashbox) is full.
case CCommands.SSP_POLL_STACKER_FULL:
log.AppendText("Stacker full\r\n");
break;
// A note was detected somewhere inside the validator on startup and was rejected from the front of the
// unit.
case CCommands.SSP_POLL_NOTE_CLEARED_FROM_FRONT:
log.AppendText(GetChannelValue(cmd.ResponseData[i + 1]) + " note cleared from front at reset." + "\r\n");
i++;
break;
// A note was detected somewhere inside the validator on startup and was cleared into the cashbox.
case CCommands.SSP_POLL_NOTE_CLEARED_TO_CASHBOX:
log.AppendText(GetChannelValue(cmd.ResponseData[i + 1]) + " note cleared to stacker at reset." + "\r\n");
i++;
break;
// The cashbox has been removed from the unit. This will continue to poll until the cashbox is replaced.
case CCommands.SSP_POLL_CASHBOX_REMOVED:
log.AppendText("Cashbox removed...\r\n");
break;
// The cashbox has been replaced, this will only display on a poll once.
case CCommands.SSP_POLL_CASHBOX_REPLACED:
log.AppendText("Cashbox replaced\r\n");
break;
// A bar code ticket has been detected and validated. The ticket is in escrow, continuing to poll will accept
// the ticket, sending a reject command will reject the ticket.
case CCommands.SSP_POLL_BAR_CODE_VALIDATED:
log.AppendText("Bar code ticket validated\r\n");
break;
// A bar code ticket has been accepted (equivalent to note credit).
case CCommands.SSP_POLL_BAR_CODE_ACK:
log.AppendText("Bar code ticket accepted\r\n");
break;
// The validator has detected its note path is open. The unit is disabled while the note path is open.
// Only available in protocol versions 6 and above.
case CCommands.SSP_POLL_NOTE_PATH_OPEN:
log.AppendText("Note path open\r\n");
break;
// All channels on the validator have been inhibited so the validator is disabled. Only available on protocol
// versions 7 and above.
case CCommands.SSP_POLL_CHANNEL_DISABLE:
log.AppendText("All channels inhibited, unit disabled\r\n");
break;
default:
log.AppendText("Unrecognised poll response detected " + (int)cmd.ResponseData[i] + "\r\n");
break;
}
}
return(true);
}
// This function uses the setup request command to get all the information about the validator.
public void SetupRequest(TextBox log = null)
{
// send setup request
cmd.CommandData[0] = CCommands.Generic.SSP_CMD_SETUP_REQUEST;
cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return;
}
// display setup request
string displayString = "Validator Type: ";
int index = 1;
// unit type (table 0-1)
m_UnitType = (char)cmd.ResponseData[index++];
switch (m_UnitType)
{
case (char)0x00: displayString += "Validator"; break;
case (char)0x03: displayString += "SMART Hopper"; break;
case (char)0x06: displayString += "SMART Payout"; break;
case (char)0x07: displayString += "NV11"; break;
default: displayString += "Unknown Type"; break;
}
displayString += "\r\nFirmware: ";
// firmware (table 2-5)
while (index <= 5)
{
displayString += (char)cmd.ResponseData[index++];
if (index == 4)
{
displayString += ".";
}
}
// country code (table 6-8)
// this is legacy code, in protocol version 6+ each channel has a seperate currency
index = 9; // to skip country code
// value multiplier (table 9-11)
// also legacy code, a real value multiplier appears later in the response
index = 12; // to skip value multiplier
displayString += "\r\nNumber of Channels: ";
int numChannels = cmd.ResponseData[index++];
m_NumberOfChannels = numChannels;
displayString += numChannels + "\r\n";
// channel values (table 13 to 13+n)
// the channel values located here in the table are legacy, protocol 6+ provides a set of expanded
// channel values.
index = 13 + m_NumberOfChannels; // Skip channel values
// channel security (table 13+n to 13+(n*2))
// channel security values are also legacy code
index = 13 + (m_NumberOfChannels * 2); // Skip channel security
displayString += "Real Value Multiplier: ";
// real value multiplier (table 13+(n*2) to 15+(n*2))
// (big endian)
m_ValueMultiplier = cmd.ResponseData[index + 2];
m_ValueMultiplier += cmd.ResponseData[index + 1] << 8;
m_ValueMultiplier += cmd.ResponseData[index] << 16;
displayString += m_ValueMultiplier + "\r\nProtocol Version: ";
index += 3;
// protocol version (table 16+(n*2))
index = 16 + (m_NumberOfChannels * 2);
int protocol = cmd.ResponseData[index++];
displayString += protocol + "\r\n";
// protocol 6+ only
// channel currency country code (table 17+(n*2) to 17+(n*5))
index = 17 + (m_NumberOfChannels * 2);
int sectionEnd = 17 + (m_NumberOfChannels * 5);
int count = 0;
byte[] channelCurrencyTemp = new byte[3 * m_NumberOfChannels];
while (index < sectionEnd)
{
displayString += "Channel " + ((count / 3) + 1) + ", currency: ";
channelCurrencyTemp[count] = cmd.ResponseData[index++];
displayString += (char)channelCurrencyTemp[count++];
channelCurrencyTemp[count] = cmd.ResponseData[index++];
displayString += (char)channelCurrencyTemp[count++];
channelCurrencyTemp[count] = cmd.ResponseData[index++];
displayString += (char)channelCurrencyTemp[count++];
displayString += "\r\n";
}
// expanded channel values (table 17+(n*5) to 17+(n*9))
index = sectionEnd;
displayString += "Expanded channel values:\r\n";
sectionEnd = 17 + (m_NumberOfChannels * 9);
int n = 0;
count = 0;
int[] channelValuesTemp = new int[m_NumberOfChannels];
while (index < sectionEnd)
{
n = CHelpers.ConvertBytesToInt32(cmd.ResponseData, index);
channelValuesTemp[count] = n;
index += 4;
displayString += "Channel " + ++count + ", value = " + n + "\r\n";
}
// Create list entry for each channel
m_UnitDataList.Clear(); // clear old table
for (byte i = 0; i < m_NumberOfChannels; i++)
{
ChannelData d = new ChannelData();
d.Channel = i;
d.Channel++; // Offset from array index by 1
d.Value = channelValuesTemp[i] * Multiplier;
d.Currency[0] = (char)channelCurrencyTemp[0 + (i * 3)];
d.Currency[1] = (char)channelCurrencyTemp[1 + (i * 3)];
d.Currency[2] = (char)channelCurrencyTemp[2 + (i * 3)];
d.Level = 0; // Can't store notes
d.Recycling = false; // Can't recycle notes
m_UnitDataList.Add(d);
}
// Sort the list of data by the value.
m_UnitDataList.Sort(delegate(ChannelData d1, ChannelData d2) { return(d1.Value.CompareTo(d2.Value)); });
if (log != null)
{
log.AppendText(displayString);
}
}
// The poll function is called repeatedly to poll to validator for information, it returns as
// a response in the command structure what events are currently happening.
public bool DoPoll(TextBox log)
{
byte i;
//send poll
cmd.CommandData[0] = CCommands.Generic.SSP_CMD_POLL;
cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return(false);
}
// if 0xFA received the key has been lost, possibly by power down so return false
if (cmd.ResponseData[0] == 0xFA)
{
return(false);
}
// Store poll response
cmd.ResponseData.CopyTo(m_CurrentPollResponse, 0);
m_CurrentPollResponseLength = cmd.ResponseDataLength;
//parse poll response
int noteVal = 0;
for (i = 1; i < m_CurrentPollResponseLength; i++)
{
switch (m_CurrentPollResponse[i])
{
// This response indicates that the unit was reset and this is the first time a poll
// has been called since the reset.
case CCommands.Validator.SSP_POLL_RESET:
log.AppendText("Validator reset\r\n");
break;
// A note is currently being read by the validator sensors. The second byte of this response
// is zero until the note's type has been determined, it then changes to the channel of the
// scanned note.
case CCommands.Validator.SSP_POLL_NOTE_READ:
if (m_CurrentPollResponse[i + 1] > 0)
{
noteVal = GetChannelValue(m_CurrentPollResponse[i + 1]);
log.AppendText("Note in escrow, amount: " + CHelpers.FormatToCurrency(noteVal) + "\r\n");
}
else
{
log.AppendText("Reading note...\r\n");
}
i++;
break;
// A credit event has been detected, this is when the validator has accepted a note as legal currency.
case CCommands.Validator.SSP_POLL_CREDIT:
noteVal = GetChannelValue(m_CurrentPollResponse[i + 1]);
log.AppendText("Credit " + CHelpers.FormatToCurrency(noteVal) + "\r\n");
m_NumStackedNotes++;
i++;
break;
// A note is being rejected from the validator. This will carry on polling while the note is in transit.
case CCommands.Validator.SSP_POLL_REJECTING:
log.AppendText("Rejecting note...\r\n");
break;
// A note has been rejected from the validator, the note will be resting in the bezel. This response only
// appears once.
case CCommands.Validator.SSP_POLL_REJECTED:
log.AppendText("Note rejected\r\n");
QueryRejection(log);
break;
// A note is in transit to the cashbox.
case CCommands.Validator.SSP_POLL_STACKING:
log.AppendText("Stacking note...\r\n");
break;
// A note has reached the cashbox.
case CCommands.Validator.SSP_POLL_STACKED:
log.AppendText("Note stacked\r\n");
break;
// A safe jam has been detected. This is where the user has inserted a note and the note
// is jammed somewhere that the user cannot reach.
case CCommands.Validator.SSP_POLL_SAFE_JAM:
log.AppendText("Safe jam\r\n");
break;
// An unsafe jam has been detected. This is where a user has inserted a note and the note
// is jammed somewhere that the user can potentially recover the note from.
case CCommands.Validator.SSP_POLL_UNSAFE_JAM:
log.AppendText("Unsafe jam\r\n");
break;
// The validator is disabled, it will not execute any commands or do any actions until enabled.
case CCommands.Validator.SSP_POLL_DISABLED:
break;
// A fraud attempt has been detected. The second byte indicates the channel of the note that a fraud
// has been attempted on.
case CCommands.Validator.SSP_POLL_FRAUD_ATTEMPT:
log.AppendText("Fraud attempt, note type: " + GetChannelValue(m_CurrentPollResponse[i + 1]) + "\r\n");
i++;
break;
// The stacker (cashbox) is full.
case CCommands.Validator.SSP_POLL_STACKER_FULL:
log.AppendText("Stacker full\r\n");
break;
// A note was detected somewhere inside the validator on startup and was rejected from the front of the
// unit.
case CCommands.Validator.SSP_POLL_NOTE_CLEARED_FROM_FRONT:
log.AppendText(GetChannelValue(m_CurrentPollResponse[i + 1]) + " note cleared from front at reset." + "\r\n");
i++;
break;
// A note was detected somewhere inside the validator on startup and was cleared into the cashbox.
case CCommands.Validator.SSP_POLL_NOTE_CLEARED_TO_CASHBOX:
log.AppendText(GetChannelValue(m_CurrentPollResponse[i + 1]) + " note cleared to stacker at reset." + "\r\n");
i++;
break;
// The cashbox has been removed from the unit. This will continue to poll until the cashbox is replaced.
case CCommands.Validator.SSP_POLL_CASHBOX_REMOVED:
log.AppendText("Cashbox removed...\r\n");
break;
// The cashbox has been replaced, this will only display on a poll once.
case CCommands.Validator.SSP_POLL_CASHBOX_REPLACED:
log.AppendText("Cashbox replaced\r\n");
break;
default:
break;
}
}
return(true);
}
// This function is called repeatedly to poll the validator about what events are happening. It
// can optionally output these events to a textbox.
public bool DoPoll(TextBox log)
{
byte i;
//send poll
m_cmd.CommandData[0] = CCommands.Generic.SSP_CMD_POLL;
m_cmd.CommandDataLength = 1;
if (!SendCommand(log))
{
return(false);
}
// Check unit hasn't lost key (could be due to power loss or reset)
if (m_cmd.ResponseData[0] == 0xFA)
{
return(false);
}
// isolate poll response to allow reuse of the SSP_COMMAND structure
m_CurrentPollResponseLength = m_cmd.ResponseDataLength;
m_cmd.ResponseData.CopyTo(m_CurrentPollResponse, 0);
//parse poll response
int coin = 0;
string currency = "";
for (i = 1; i < m_CurrentPollResponseLength; i++)
{
switch (m_CurrentPollResponse[i])
{
// This response indicates that the unit was reset and this is the first time a poll
// has been called since the reset.
case CCommands.Hopper.SSP_POLL_RESET:
UpdateData();
break;
// This response is given when the unit is disabled.
case CCommands.Hopper.SSP_POLL_DISABLED:
log.AppendText("Unit disabled...\r\n");
break;
// The unit is in the process of paying out a coin or series of coins, this will continue to poll
// until the coins have been fully dispensed
case CCommands.Hopper.SSP_POLL_DISPENSING:
log.AppendText("Dispensing coin(s)...\r\n");
// Now the index needs to be moved on to skip over the data provided by this response so it
// is not parsed as a normal poll response.
// In this response, the data includes the number of countries being dispensed (1 byte), then a 4 byte value
// and 3 byte currency code for each country.
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// This is polled when a unit has finished a dispense operation. The following 4 bytes give the
// value of the coin(s) dispensed.
case CCommands.Hopper.SSP_POLL_DISPENSED:
for (int j = 0; j < m_CurrentPollResponse[i + 1] * 7; j += 7)
{
coin = CHelpers.ConvertBytesToInt32(m_cmd.ResponseData, i + j + 2); // get coin data from response
// get currency from response
currency = "";
currency += (char)m_CurrentPollResponse[i + j + 6];
currency += (char)m_CurrentPollResponse[i + j + 7];
currency += (char)m_CurrentPollResponse[i + j + 8];
log.AppendText(CHelpers.FormatToCurrency(coin) + " " + currency + " coin(s) dispensed\r\n");
}
UpdateData();
EnableValidator();
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// The coins being recycled inside the unit are running low.
case CCommands.Hopper.SSP_POLL_COINS_LOW:
log.AppendText("Coins low\r\n");
break;
// There are no coins left in the unit.
case CCommands.Hopper.SSP_POLL_EMPTY:
log.AppendText("Unit empty\r\n");
break;
// The mechanism inside the unit is jammed.
case CCommands.Hopper.SSP_POLL_JAMMED:
log.AppendText("Jammed\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// A dispense, SMART empty or float operation has been halted.
case CCommands.Hopper.SSP_POLL_HALTED:
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// The device is 'floating' a specified amount of coins. It will transfer some to the cashbox and
// leave the specified amount in the device.
case CCommands.Hopper.SSP_POLL_FLOATING:
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// The float operation has completed.
case CCommands.Hopper.SSP_POLL_FLOATED:
UpdateData();
EnableValidator();
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// This poll appears when the SMART Hopper has been searching for a coin but cannot find it within
// the timeout period.
case CCommands.Hopper.SSP_POLL_TIME_OUT:
log.AppendText("Search for suitable coins failed\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// A payout was interrupted in some way. The amount paid out does not match what was requested. The value
// of the dispensed and requested amount is contained in the response.
case CCommands.Hopper.SSP_POLL_INCOMPLETE_PAYOUT:
log.AppendText("Incomplete payout detected...\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 11) + 1);
break;
// A float was interrupted in some way. The amount floated does not match what was requested. The value
// of the dispensed and requested amount is contained in the response.
case CCommands.Hopper.SSP_POLL_INCOMPLETE_FLOAT:
log.AppendText("Incomplete float detected...\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 11) + 1);
break;
// This poll appears when coins have been dropped to the cashbox whilst making a payout. The value of
// coins and the currency is reported in the response.
case CCommands.Hopper.SSP_POLL_CASHBOX_PAID:
log.AppendText("Cashbox paid\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// A credit event has been detected, this is when the coin mech has accepted a coin as legal currency.
case CCommands.Hopper.SSP_POLL_COIN_CREDIT:
coin = CHelpers.ConvertBytesToInt16(m_cmd.ResponseData, i + 1);
currency = "";
currency += (char)m_CurrentPollResponse[i + 5];
currency += (char)m_CurrentPollResponse[i + 6];
currency += (char)m_CurrentPollResponse[i + 7];
log.AppendText(CHelpers.FormatToCurrency(coin) + " " + currency + " credited\r\n");
UpdateData();
i += 7;
break;
// The coin mech has become jammed.
case CCommands.Hopper.SSP_POLL_COIN_MECH_JAMMED:
log.AppendText("Coin mech jammed\r\n");
break;
// The return button on the coin mech has been pressed.
case CCommands.Hopper.SSP_POLL_COIN_MECH_RETURN_PRESSED:
log.AppendText("Return button pressed\r\n");
break;
// The unit is in the process of dumping all the coins stored inside it into the cashbox.
case CCommands.Hopper.SSP_POLL_EMPTYING:
log.AppendText("Emptying...\r\n");
break;
// The unit has finished dumping coins to the cashbox.
case CCommands.Hopper.SSP_POLL_EMPTIED:
log.AppendText("Emptied\r\n");
UpdateData();
EnableValidator();
break;
// A fraud attempt has been detected.
case CCommands.Hopper.SSP_POLL_FRAUD_ATTEMPT:
log.AppendText("Fraud attempted\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// The unit is in the process of dumping all the coins stored inside it into the cashbox.
// This poll means that the unit is keeping track of what it empties.
case CCommands.Hopper.SSP_POLL_SMART_EMPTYING:
log.AppendText("SMART emptying...\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// The unit has finished SMART emptying. The info on what has been dumped can be obtained
// by sending the CASHBOX PAYOUT OPERATION DATA command.
case CCommands.Hopper.SSP_POLL_SMART_EMPTIED:
GetCashboxPayoutOpData(log);
UpdateData();
EnableValidator();
log.AppendText("SMART emptied\r\n");
i += (byte)((m_CurrentPollResponse[i + 1] * 7) + 1);
break;
// A coin has had its routing changed to either cashbox or recycling.
case CCommands.Hopper.SSP_POLL_COIN_ROUTED:
log.AppendText("Routed coin\r\n");
UpdateData();
break;
default:
log.AppendText("Unsupported poll response received: " + (int)m_CurrentPollResponse[i] + "\r\n");
break;
}
}
return(true);
}
