/// <summary>
/// Saves <see cref="OutputStream"/> information to database.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="outputStream">Information about <see cref="OutputStream"/>.</param>
/// <param name="mirrorMode">Boolean value to use mirror mode when saving output stream.</param>
/// <returns>String, for display use, indicating success.</returns>
public static string Save(AdoDataConnection database, OutputStream outputStream, bool mirrorMode)
{
bool createdConnection = false;
string query;
try
{
OutputStream oldOutputStream;
createdConnection = CreateConnection(ref database);
if (outputStream.ID == 0)
{
query = database.ParameterizedQueryString("INSERT INTO OutputStream (NodeID, Acronym, Name, Type, ConnectionString, IDCode, CommandChannel, DataChannel, " +
"AutoPublishConfigFrame, AutoStartDataChannel, NominalFrequency, FramesPerSecond, LagTime, LeadTime, UseLocalClockAsRealTime, AllowSortsByArrival, " +
"LoadOrder, Enabled, IgnoreBadTimeStamps, TimeResolution, AllowPreemptivePublishing, DownSamplingMethod, DataFormat, CoordinateFormat, " +
"CurrentScalingValue, VoltageScalingValue, AnalogScalingValue, DigitalMaskValue, PerformTimeReasonabilityCheck, UpdatedBy, UpdatedOn, " +
"CreatedBy, CreatedOn) VALUES ({0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}, {11}, {12}, {13}, {14}, {15}, {16}, {17}, {18}, {19}, {20}, " +
"{21}, {22}, {23}, {24}, {25}, {26}, {27}, {28}, {29}, {30}, {31}, {32})", "nodeID", "acronym", "name", "type", "connectionString", "idCode",
"commandChannel", "dataChannel", "autoPublishConfigFrame", "autoStartDataChannel", "nominalFrequency", "framesPerSecond", "lagTime", "leadTime",
"useLocalClockAsRealTime", "allowSortsByArrival", "loadOrder", "enabled", "ignoreBadTimeStamps", "timeResolution", "allowPreemptivePublishing",
"downSamplingMethod", "dataFormat", "coordinateFormat", "currentScalingValue", "voltageScalingValue", "analogScalingValue", "digitalMaskValue",
"performTimeReasonabilityCheck", "updatedBy", "updatedOn", "createdBy", "createdOn");
database.Connection.ExecuteNonQuery(query,
database.CurrentNodeID(), outputStream.Acronym.Replace(" ", "").ToUpper(), outputStream.Name.ToNotNull(), outputStream.Type - 1, outputStream.ConnectionString.ToNotNull(),
outputStream.IDCode, outputStream.CommandChannel.ToNotNull(), outputStream.DataChannel.ToNotNull(), database.Bool(outputStream.AutoPublishConfigFrame), database.Bool(outputStream.AutoStartDataChannel),
outputStream.NominalFrequency, outputStream.FramesPerSecond, outputStream.LagTime, outputStream.LeadTime, database.Bool(outputStream.UseLocalClockAsRealTime), database.Bool(outputStream.AllowSortsByArrival),
outputStream.LoadOrder, database.Bool(outputStream.Enabled), database.Bool(outputStream.IgnoreBadTimeStamps), outputStream.TimeResolution, database.Bool(outputStream.AllowPreemptivePublishing),
outputStream.DownSamplingMethod.ToNotNull(), outputStream.DataFormat.ToNotNull(), outputStream.CoordinateFormat.ToNotNull(), outputStream.CurrentScalingValue,
outputStream.VoltageScalingValue, outputStream.AnalogScalingValue, outputStream.DigitalMaskValue, database.Bool(outputStream.PerformTimestampReasonabilityCheck),
CommonFunctions.CurrentUser, database.UtcNow, CommonFunctions.CurrentUser, database.UtcNow);
}
else
{
oldOutputStream = GetOutputStream(database, " WHERE ID = " + outputStream.ID);
query = database.ParameterizedQueryString("UPDATE OutputStream SET NodeID = {0}, Acronym = {1}, Name = {2}, Type = {3}, ConnectionString = {4}, " +
"IDCode = {5}, CommandChannel = {6}, DataChannel = {7}, AutoPublishConfigFrame = {8}, AutoStartDataChannel = {9}, NominalFrequency = {10}, " +
"FramesPerSecond = {11}, LagTime = {12}, LeadTime = {13}, UseLocalClockAsRealTime = {14}, AllowSortsByArrival = {15}, LoadOrder = {16}, " +
"Enabled = {17}, IgnoreBadTimeStamps = {18}, TimeResolution = {19}, AllowPreemptivePublishing = {20}, DownSamplingMethod = {21}, " +
"DataFormat = {22}, CoordinateFormat = {23}, CurrentScalingValue = {24}, VoltageScalingValue = {25}, AnalogScalingValue = {26}, " +
"DigitalMaskValue = {27}, PerformTimeReasonabilityCheck = {28}, UpdatedBy = {29}, UpdatedOn = {30} WHERE ID = {31}", "nodeID", "acronym", "name",
"type", "connectionString", "idCode", "commandChannel", "dataChannel", "autoPublishConfigFrame", "autoStartDataChannel", "nominalFrequency",
"framesPerSecond", "lagTime", "leadTime", "useLocalClockAsRealTime", "allowSortsByArrival", "loadOrder", "enabled", "ignoreBadTimeStamps",
"timeResolution", "allowPreemptivePublishing", "downsamplingMethod", "dataFormat", "coordinateFormat", "currentScalingValue", "voltageScalingValue",
"analogScalingValue", "digitalMaskValue", "performTimeReasonabilityCheck", "updatedBy", "updatedOn", "id");
database.Connection.ExecuteNonQuery(query, DefaultTimeout,
database.Guid(outputStream.NodeID), outputStream.Acronym.Replace(" ", "").ToUpper(), outputStream.Name.ToNotNull(), outputStream.Type - 1, outputStream.ConnectionString.ToNotNull(),
outputStream.IDCode, outputStream.CommandChannel.ToNotNull(), outputStream.DataChannel.ToNotNull(), database.Bool(outputStream.AutoPublishConfigFrame), database.Bool(outputStream.AutoStartDataChannel),
outputStream.NominalFrequency, outputStream.FramesPerSecond, outputStream.LagTime, outputStream.LeadTime, database.Bool(outputStream.UseLocalClockAsRealTime),
database.Bool(outputStream.AllowSortsByArrival), outputStream.LoadOrder, database.Bool(outputStream.Enabled), database.Bool(outputStream.IgnoreBadTimeStamps), outputStream.TimeResolution,
database.Bool(outputStream.AllowPreemptivePublishing), outputStream.DownSamplingMethod.ToNotNull(), outputStream.DataFormat.ToNotNull(), outputStream.CoordinateFormat.ToNotNull(),
outputStream.CurrentScalingValue, outputStream.VoltageScalingValue, outputStream.AnalogScalingValue, outputStream.DigitalMaskValue, database.Bool(outputStream.PerformTimestampReasonabilityCheck),
CommonFunctions.CurrentUser, database.UtcNow, outputStream.ID);
if (oldOutputStream != null && oldOutputStream.Acronym != outputStream.Acronym.Replace(" ", "").ToUpper())
{
ObservableCollection<Measurement> measurementList = Measurement.GetOutputStatisticMeasurements(database, oldOutputStream.Acronym);
foreach (Measurement measurement in measurementList)
{
measurement.SignalReference = measurement.SignalReference.Replace(oldOutputStream.Acronym, outputStream.Acronym.Replace(" ", "").ToUpper());
measurement.PointTag = measurement.PointTag.Replace(oldOutputStream.Acronym, outputStream.Acronym.Replace(" ", "").ToUpper());
measurement.Description = Regex.Replace(measurement.Description, oldOutputStream.Name, outputStream.Name ?? outputStream.Acronym.Replace(" ", "").ToUpper(), RegexOptions.IgnoreCase);
Measurement.Save(database, measurement);
}
SignalType qualityType = SignalType.Load(database).FirstOrDefault(type => type.Acronym == "QUAL");
if ((object)qualityType != null)
{
IList<int> keys = database.Connection.RetrieveData(database.AdapterType, string.Format("SELECT ID FROM OutputStreamMeasurement WHERE AdapterID = {0}", outputStream.ID))
.Select().Select(row => row.ConvertField<int>("ID")).ToList();
foreach (OutputStreamMeasurement measurement in OutputStreamMeasurement.Load(database, keys))
{
if (Regex.IsMatch(measurement.SignalReference, string.Format("{0}-{1}", oldOutputStream.Acronym, qualityType.Suffix)))
{
measurement.SignalReference = measurement.SignalReference.Replace(oldOutputStream.Acronym, outputStream.Acronym.Replace(" ", "").ToUpper());
OutputStreamMeasurement.Save(database, measurement);
}
}
}
}
}
if (mirrorMode)
{
// Get ID of the output stream if a new one was inserted above.
if (outputStream.ID == 0)
outputStream.ID = GetOutputStream(database, " WHERE Acronym = '" + outputStream.Acronym.Replace(" ", "").ToUpper() + "'").ID;
IList<int> keys = OutputStreamDevice.LoadKeys(database, outputStream.ID);
// Get all existing devices associated with output stream and delete them.
ObservableCollection<OutputStreamDevice> outputStreamDevices = OutputStreamDevice.Load(database, keys);
foreach (OutputStreamDevice outputStreamDevice in outputStreamDevices)
OutputStreamDevice.Delete(database, outputStream.ID, outputStreamDevice.Acronym);
if (!string.IsNullOrEmpty(outputStream.MirroringSourceDevice))
{
// Get list of input devices, filter by original source = outputstream.MirrorSourceDevice.
ObservableCollection<Device> devices = Device.GetDevices(database, "WHERE OriginalSource = '" + outputStream.MirroringSourceDevice + "'");
// Add these above input devices as output stream devices.
OutputStreamDevice.AddDevices(database, outputStream.ID, devices, true, true);
}
}
return "Output Stream Information Saved Successfully";
}
finally
{
if (createdConnection && database != null)
database.Dispose();
}
}
/// <summary>
/// Gets output stream.
/// </summary>
/// <param name="database">Source database connection.</param>
/// <param name="whereClause">Where filter clause.</param>
/// <returns>Output stream.</returns>
public static OutputStream GetOutputStream(AdoDataConnection database, string whereClause)
{
bool createdConnection = false;
try
{
createdConnection = CreateConnection(ref database);
DataTable outputStreamTable = database.Connection.RetrieveData(database.AdapterType, "SELECT * FROM OutputStreamDetail " + whereClause);
if (outputStreamTable.Rows.Count == 0)
return null;
DataRow row = outputStreamTable.Rows[0];
int type = Convert.ToInt32(row.Field<object>("Type"));
OutputStream outputStream = new OutputStream
{
NodeID = database.Guid(row, "NodeID"),
ID = Convert.ToInt32(row.Field<object>("ID")),
Acronym = row.Field<string>("Acronym"),
Name = row.Field<string>("Name"),
Type = type,
ConnectionString = row.Field<string>("ConnectionString"),
IDCode = Convert.ToInt32(row.Field<object>("IDCode")),
CommandChannel = row.Field<string>("CommandChannel"),
DataChannel = row.Field<string>("DataChannel"),
AutoPublishConfigFrame = Convert.ToBoolean(row.Field<object>("AutoPublishConfigFrame")),
AutoStartDataChannel = Convert.ToBoolean(row.Field<object>("AutoStartDataChannel")),
NominalFrequency = Convert.ToInt32(row.Field<object>("NominalFrequency")),
FramesPerSecond = Convert.ToInt32(row.Field<object>("FramesPerSecond") ?? 30),
LagTime = row.ConvertField<double>("LagTime"),
LeadTime = row.ConvertField<double>("LeadTime"),
UseLocalClockAsRealTime = Convert.ToBoolean(row.Field<object>("UseLocalClockAsRealTime")),
AllowSortsByArrival = Convert.ToBoolean(row.Field<object>("AllowSortsByArrival")),
LoadOrder = Convert.ToInt32(row.Field<object>("LoadOrder")),
Enabled = Convert.ToBoolean(row.Field<object>("Enabled")),
m_nodeName = row.Field<string>("NodeName"),
m_typeName = (type == 1) ? "IEEE C37.118" : (type == 2) ? "BPA" : "IEC 61850-90-5",
IgnoreBadTimeStamps = Convert.ToBoolean(row.Field<object>("IgnoreBadTimeStamps")),
TimeResolution = Convert.ToInt32(row.Field<object>("TimeResolution")),
AllowPreemptivePublishing = Convert.ToBoolean(row.Field<object>("AllowPreemptivePublishing")),
DownSamplingMethod = row.Field<string>("DownsamplingMethod"),
DataFormat = row.Field<string>("DataFormat"),
CoordinateFormat = row.Field<string>("CoordinateFormat"),
CurrentScalingValue = Convert.ToInt32(row.Field<object>("CurrentScalingValue")),
VoltageScalingValue = Convert.ToInt32(row.Field<object>("VoltageScalingValue")),
AnalogScalingValue = Convert.ToInt32(row.Field<object>("AnalogScalingValue")),
DigitalMaskValue = Convert.ToInt32(row.Field<object>("DigitalMaskValue")),
PerformTimestampReasonabilityCheck = Convert.ToBoolean(row.Field<object>("PerformTimeReasonabilityCheck"))
};
return outputStream;
}
finally
{
if (createdConnection && database != null)
database.Dispose();
}
}
