-- ---------------------------------------------------------------------------------------------------- -- openPG Data Structures for MySQL - Gbtc -- -- Copyright © 2011, Grid Protection Alliance. All Rights Reserved. -- -- Licensed to the Grid Protection Alliance (GPA) under one or more contributor license agreements. See -- the NOTICE file distributed with this work for additional information regarding copyright ownership. -- The GPA licenses this file to you under the Eclipse Public License -v 1.0 (the "License"); you may -- not use this file except in compliance with the License. You may obtain a copy of the License at: -- -- http://www.opensource.org/licenses/eclipse-1.0.php -- -- Unless agreed to in writing, the subject software distributed under the License is distributed on an -- "AS-IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. Refer to the -- License for the specific language governing permissions and limitations. -- -- Schema Modification History: -- ---------------------------------------------------------------------------------------------------- -- 05/07/2011 - J. Ritchie Carroll -- Generated original version of schema. -- ---------------------------------------------------------------------------------------------------- CREATE DATABASE openPG CHARACTER SET = UTF8; USE openPG; -- The following statements are used to create -- a user with access to the database. -- Be sure to change the username and password. -- CREATE USER NewUser IDENTIFIED BY 'MyPassword'; -- GRANT SELECT, UPDATE, INSERT, DELETE ON openPG.* TO NewUser; CREATE TABLE ErrorLog( ID INT AUTO_INCREMENT NOT NULL, Source VARCHAR(200) NOT NULL, Type VARCHAR(200) NULL, Message TEXT NOT NULL, Detail TEXT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CONSTRAINT PK_ErrorLog PRIMARY KEY (ID ASC) ); CREATE TABLE Runtime( ID INT AUTO_INCREMENT NOT NULL, SourceID INT NOT NULL, SourceTable VARCHAR(200) NOT NULL, CONSTRAINT PK_Runtime PRIMARY KEY (SourceID ASC, SourceTable ASC), CONSTRAINT IX_Runtime UNIQUE KEY (ID) ); CREATE TABLE AuditLog( ID INT NOT NULL AUTO_INCREMENT, TableName VARCHAR(200) NOT NULL, PrimaryKeyColumn VARCHAR(200) NOT NULL, PrimaryKeyValue TEXT NOT NULL, ColumnName VARCHAR(200) NOT NULL, OriginalValue TEXT, NewValue TEXT, Deleted TINYINT NOT NULL DEFAULT 0, UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', PRIMARY KEY (ID) ); CREATE TABLE Company( ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NOT NULL, MapAcronym NCHAR(10) NOT NULL, Name VARCHAR(200) NOT NULL, URL TEXT NULL, LoadOrder INT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Company PRIMARY KEY (ID ASC) ); CREATE TABLE ConfigurationEntity( SourceName VARCHAR(200) NOT NULL, RuntimeName VARCHAR(200) NOT NULL, Description TEXT NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0 ); CREATE TABLE Vendor( ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NULL, Name VARCHAR(200) NOT NULL, PhoneNumber VARCHAR(200) NULL, ContactEmail VARCHAR(200) NULL, URL TEXT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Vendor PRIMARY KEY (ID ASC) ); CREATE TABLE Protocol( ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NOT NULL, Type VARCHAR(200) NOT NULL DEFAULT N'Frame', Category VARCHAR(200) NOT NULL DEFAULT N'Phasor', AssemblyName VARCHAR(1024) NOT NULL DEFAULT N'TVA.PhasorProtocols.dll', TypeName VARCHAR(200) NOT NULL DEFAULT N'TVA.PhasorProtocols.PhasorMeasurementMapper', LoadOrder INT NOT NULL DEFAULT 0, CONSTRAINT PK_Protocol PRIMARY KEY (ID ASC) ); CREATE TABLE SignalType( ID INT AUTO_INCREMENT NOT NULL, Name VARCHAR(200) NOT NULL, Acronym VARCHAR(4) NOT NULL, Suffix VARCHAR(2) NOT NULL, Abbreviation VARCHAR(2) NOT NULL, Source VARCHAR(10) NOT NULL, EngineeringUnits VARCHAR(10) NULL, CONSTRAINT PK_SignalType PRIMARY KEY (ID ASC) ); CREATE TABLE Interconnection( ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NOT NULL, LoadOrder INT NULL DEFAULT 0, CONSTRAINT PK_Interconnection PRIMARY KEY (ID ASC) ); CREATE TABLE Node( ID NCHAR(36) NULL, Name VARCHAR(200) NOT NULL, CompanyID INT NULL, Longitude DECIMAL(9, 6) NULL, Latitude DECIMAL(9, 6) NULL, Description TEXT NULL, ImagePath TEXT NULL, Settings TEXT NULL, MenuType VARCHAR(200) NOT NULL DEFAULT 'File', MenuData TEXT NOT NULL, Master TINYINT NOT NULL DEFAULT 0, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Node PRIMARY KEY (ID ASC), CONSTRAINT IX_NodeID_Name UNIQUE KEY (Name ASC) ); CREATE TABLE DataOperation( NodeID NCHAR(36) NULL, Description TEXT NULL, AssemblyName TEXT NOT NULL, TypeName TEXT NOT NULL, MethodName VARCHAR(200) NOT NULL, Arguments TEXT NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0 ); CREATE TABLE OtherDevice( ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NULL, IsConcentrator TINYINT NOT NULL DEFAULT 0, CompanyID INT NULL, VendorDeviceID INT NULL, Longitude DECIMAL(9, 6) NULL, Latitude DECIMAL(9, 6) NULL, InterconnectionID INT NULL, Planned TINYINT NOT NULL DEFAULT 0, Desired TINYINT NOT NULL DEFAULT 0, InProgress TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_OtherDevice PRIMARY KEY (ID ASC) ); CREATE TABLE Device( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, ParentID INT NULL, UniqueID NCHAR(36) NULL, Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NULL, OriginalSource VARCHAR(200) NULL, IsConcentrator TINYINT NOT NULL DEFAULT 0, CompanyID INT NULL, HistorianID INT NULL, AccessID INT NOT NULL DEFAULT 0, VendorDeviceID INT NULL, ProtocolID INT NULL, Longitude DECIMAL(9, 6) NULL, Latitude DECIMAL(9, 6) NULL, InterconnectionID INT NULL, ConnectionString TEXT NULL, TimeZone VARCHAR(200) NULL, FramesPerSecond INT NULL DEFAULT 30, TimeAdjustmentTicks BIGINT NOT NULL DEFAULT 0, DataLossInterval DOUBLE NOT NULL DEFAULT 5, AllowedParsingExceptions INT NOT NULL DEFAULT 10, ParsingExceptionWindow DOUBLE NOT NULL DEFAULT 5, DelayedConnectionInterval DOUBLE NOT NULL DEFAULT 5, AllowUseOfCachedConfiguration TINYINT NOT NULL DEFAULT 1, AutoStartDataParsingSequence TINYINT NOT NULL DEFAULT 1, SkipDisableRealTimeData TINYINT NOT NULL DEFAULT 0, MeasurementReportingInterval INT NOT NULL DEFAULT 100000, ConnectOnDemand TINYINT NOT NULL DEFAULT 1, ContactList TEXT NULL, MeasuredLines INT NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Device PRIMARY KEY (ID ASC), CONSTRAINT IX_Device_UniqueID UNIQUE KEY (UniqueID ASC), CONSTRAINT IX_Device_NodeID_Acronym UNIQUE KEY (NodeID ASC, Acronym ASC) ); CREATE TABLE VendorDevice( ID INT AUTO_INCREMENT NOT NULL, VendorID INT NOT NULL DEFAULT 10, Name VARCHAR(200) NOT NULL, Description TEXT NULL, URL TEXT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_VendorDevice PRIMARY KEY (ID ASC) ); CREATE TABLE OutputStreamDeviceDigital( NodeID NCHAR(36) NOT NULL, OutputStreamDeviceID INT NOT NULL, ID INT AUTO_INCREMENT NOT NULL, Label TEXT NOT NULL, MaskValue INT NOT NULL DEFAULT 0, LoadOrder INT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_OutputStreamDeviceDigital PRIMARY KEY (ID ASC) ); CREATE TABLE OutputStreamDevicePhasor( NodeID NCHAR(36) NOT NULL, OutputStreamDeviceID INT NOT NULL, ID INT AUTO_INCREMENT NOT NULL, Label VARCHAR(200) NOT NULL, Type NCHAR(1) NOT NULL DEFAULT N'V', Phase NCHAR(1) NOT NULL DEFAULT N'+', ScalingValue INT NOT NULL DEFAULT 0, LoadOrder INT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_OutputStreamDevicePhasor PRIMARY KEY (ID ASC) ); CREATE TABLE OutputStreamDeviceAnalog( NodeID NCHAR(36) NOT NULL, OutputStreamDeviceID INT NOT NULL, ID INT AUTO_INCREMENT NOT NULL, Label VARCHAR(16) NOT NULL, Type INT NOT NULL DEFAULT 0, ScalingValue INT NOT NULL DEFAULT 0, LoadOrder INT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_OutputStreamDeviceAnalog PRIMARY KEY (ID ASC) ); CREATE TABLE Measurement( PointID INT AUTO_INCREMENT NOT NULL, SignalID NCHAR(36) NULL, HistorianID INT NULL, DeviceID INT NULL, PointTag VARCHAR(200) NOT NULL, AlternateTag TEXT NULL, SignalTypeID INT NOT NULL, PhasorSourceIndex INT NULL, SignalReference VARCHAR(200) NOT NULL, Adder DOUBLE NOT NULL DEFAULT 0.0, Multiplier DOUBLE NOT NULL DEFAULT 1.0, Description TEXT NULL, Subscribed TINYINT NOT NULL DEFAULT 0, Internal TINYINT NOT NULL DEFAULT 1, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Measurement PRIMARY KEY (SignalID ASC), CONSTRAINT IX_Measurement UNIQUE KEY (PointID ASC) ); CREATE TABLE ImportedMeasurement( NodeID NCHAR(36) NULL, SourceNodeID NCHAR(36) NULL, SignalID NCHAR(36) NULL, Source VARCHAR(200) NOT NULL, PointID INT NOT NULL, PointTag VARCHAR(200) NOT NULL, AlternateTag VARCHAR(200) NULL, SignalTypeAcronym VARCHAR(4) NULL, SignalReference TEXT NOT NULL, FramesPerSecond INT NULL, ProtocolAcronym VARCHAR(200) NULL, ProtocolType VARCHAR(200) NOT NULL DEFAULT 'Frame', PhasorID INT NULL, PhasorType NCHAR(1) NULL, Phase NCHAR(1) NULL, Adder DOUBLE NOT NULL DEFAULT 0.0, Multiplier DOUBLE NOT NULL DEFAULT 1.0, CompanyAcronym VARCHAR(200) NULL, Longitude DECIMAL(9, 6) NULL, Latitude DECIMAL(9, 6) NULL, Description TEXT NULL, Enabled TINYINT NOT NULL DEFAULT 0 ); CREATE TABLE Statistic( ID INT AUTO_INCREMENT NOT NULL, Source VARCHAR(20) NOT NULL, SignalIndex INT NOT NULL, Name VARCHAR(200) NOT NULL, Description TEXT NULL, AssemblyName TEXT NOT NULL, TypeName TEXT NOT NULL, MethodName VARCHAR(200) NOT NULL, Arguments TEXT NULL, Enabled TINYINT NOT NULL DEFAULT 0, DataType VARCHAR(200) NULL, DisplayFormat VARCHAR(200) NULL, IsConnectedState TINYINT NOT NULL DEFAULT 0, LoadOrder INT NOT NULL DEFAULT 0, CONSTRAINT PK_Statistic PRIMARY KEY (ID ASC), CONSTRAINT IX_Statistic_Source_SignalIndex UNIQUE KEY (Source ASC, SignalIndex ASC) ); CREATE TABLE OutputStreamMeasurement( NodeID NCHAR(36) NOT NULL, AdapterID INT NOT NULL, ID INT AUTO_INCREMENT NOT NULL, HistorianID INT NULL, PointID INT NOT NULL, SignalReference VARCHAR(200) NOT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_OutputStreamMeasurement PRIMARY KEY (ID ASC) ); CREATE TABLE OutputStreamDevice( NodeID NCHAR(36) NOT NULL, AdapterID INT NOT NULL, ID INT AUTO_INCREMENT NOT NULL, IDCode INT NOT NULL DEFAULT 0, Acronym VARCHAR(200) NOT NULL, BpaAcronym VARCHAR(4) NULL, Name VARCHAR(200) NOT NULL, PhasorDataFormat VARCHAR(15) NULL, FrequencyDataFormat VARCHAR(15) NULL, AnalogDataFormat VARCHAR(15) NULL, CoordinateFormat VARCHAR(15) NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_OutputStreamDevice PRIMARY KEY (ID ASC) ); CREATE TABLE Phasor( ID INT AUTO_INCREMENT NOT NULL, DeviceID INT NOT NULL, Label VARCHAR(200) NOT NULL, Type NCHAR(1) NOT NULL DEFAULT N'V', Phase NCHAR(1) NOT NULL DEFAULT N'+', DestinationPhasorID INT NULL, SourceIndex INT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Phasor PRIMARY KEY (ID ASC) ); CREATE TABLE CalculatedMeasurement( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NULL, AssemblyName TEXT NOT NULL, TypeName TEXT NOT NULL, ConnectionString TEXT NULL, ConfigSection VARCHAR(200) NULL, InputMeasurements TEXT NULL, OutputMeasurements TEXT NULL, MinimumMeasurementsToUse INT NOT NULL DEFAULT -1, FramesPerSecond INT NOT NULL DEFAULT 30, LagTime DOUBLE NOT NULL DEFAULT 3.0, LeadTime DOUBLE NOT NULL DEFAULT 1.0, UseLocalClockAsRealTime TINYINT NOT NULL DEFAULT 0, AllowSortsByArrival TINYINT NOT NULL DEFAULT 1, IgnoreBadTimeStamps TINYINT NOT NULL DEFAULT 0, TimeResolution INT NOT NULL DEFAULT 10000, AllowPreemptivePublishing TINYINT NOT NULL DEFAULT 1, PerformTimeReasonabilityCheck TINYINT NOT NULL DEFAULT 1, DownsamplingMethod VARCHAR(15) NOT NULL DEFAULT N'LastReceived', LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_CalculatedMeasurement PRIMARY KEY (ID ASC) ); CREATE TABLE CustomActionAdapter( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, AdapterName VARCHAR(200) NOT NULL, AssemblyName TEXT NOT NULL, TypeName TEXT NOT NULL, ConnectionString TEXT NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_CustomActionAdapter PRIMARY KEY (ID ASC) ); CREATE TABLE Historian( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NULL, AssemblyName TEXT NULL, TypeName TEXT NULL, ConnectionString TEXT NULL, IsLocal TINYINT NOT NULL DEFAULT 1, MeasurementReportingInterval INT NOT NULL DEFAULT 100000, Description TEXT NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Historian PRIMARY KEY (ID ASC) ); CREATE TABLE CustomInputAdapter( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, AdapterName VARCHAR(200) NOT NULL, AssemblyName TEXT NOT NULL, TypeName TEXT NOT NULL, ConnectionString TEXT NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_CustomInputAdapter PRIMARY KEY (ID ASC) ); CREATE TABLE OutputStream( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NULL, Type INT NOT NULL DEFAULT 0, ConnectionString TEXT NULL, DataChannel TEXT NULL, CommandChannel TEXT NULL, IDCode INT NOT NULL DEFAULT 0, AutoPublishConfigFrame TINYINT NOT NULL DEFAULT 0, AutoStartDataChannel TINYINT NOT NULL DEFAULT 1, NominalFrequency INT NOT NULL DEFAULT 60, FramesPerSecond INT NOT NULL DEFAULT 30, LagTime DOUBLE NOT NULL DEFAULT 3.0, LeadTime DOUBLE NOT NULL DEFAULT 1.0, UseLocalClockAsRealTime TINYINT NOT NULL DEFAULT 0, AllowSortsByArrival TINYINT NOT NULL DEFAULT 1, IgnoreBadTimeStamps TINYINT NOT NULL DEFAULT 0, TimeResolution INT NOT NULL DEFAULT 330000, AllowPreemptivePublishing TINYINT NOT NULL DEFAULT 1, PerformTimeReasonabilityCheck TINYINT NOT NULL DEFAULT 1, DownsamplingMethod VARCHAR(15) NOT NULL DEFAULT N'LastReceived', DataFormat VARCHAR(15) NOT NULL DEFAULT N'FloatingPoint', CoordinateFormat VARCHAR(15) NOT NULL DEFAULT N'Polar', CurrentScalingValue INT NOT NULL DEFAULT 2423, VoltageScalingValue INT NOT NULL DEFAULT 2725785, AnalogScalingValue INT NOT NULL DEFAULT 1373291, DigitalMaskValue INT NOT NULL DEFAULT -65536, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_OutputStream PRIMARY KEY (ID ASC), CONSTRAINT IX_OutputStream_NodeID_Acronym UNIQUE KEY (NodeID ASC, Acronym ASC) ); CREATE TABLE Alarm( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, TagName VARCHAR(200) NOT NULL, SignalID NCHAR(36) NOT NULL, AssociatedMeasurementID NCHAR(36) NULL, Description TEXT NULL, Severity INT NOT NULL, Operation INT NOT NULL, SetPoint DOUBLE NULL, Tolerance DOUBLE NULL, Delay DOUBLE NULL, Hysteresis DOUBLE NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Alarm PRIMARY KEY (ID ASC), CONSTRAINT IX_Alarm_TagName UNIQUE KEY (TagName ASC) ); CREATE TABLE CustomOutputAdapter( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, AdapterName VARCHAR(200) NOT NULL, AssemblyName TEXT NOT NULL, TypeName TEXT NOT NULL, ConnectionString TEXT NULL, LoadOrder INT NOT NULL DEFAULT 0, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_CustomOutputAdapter PRIMARY KEY (ID ASC) ); CREATE TABLE AccessLog ( ID INT(11) NOT NULL AUTO_INCREMENT, UserName VARCHAR(200) NOT NULL, AccessGranted TINYINT NOT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CONSTRAINT PK_AccessLog PRIMARY KEY (ID ASC) ); CREATE TABLE UserAccount ( ID NCHAR(36) NOT NULL DEFAULT N'', Name VARCHAR(200) NOT NULL, Password VARCHAR(200) DEFAULT NULL, FirstName VARCHAR(200) DEFAULT NULL, LastName VARCHAR(200) DEFAULT NULL, DefaultNodeID NCHAR(36) NOT NULL, Phone VARCHAR(200) DEFAULT NULL, Email VARCHAR(200) DEFAULT NULL, LockedOut TINYINT NOT NULL DEFAULT 0, UseADAuthentication TINYINT NOT NULL DEFAULT 1, ChangePasswordOn DATETIME DEFAULT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_UserAccount PRIMARY KEY (ID ASC) ); CREATE TABLE SecurityGroup ( ID NCHAR(36) NOT NULL DEFAULT N'', Name VARCHAR(200) NOT NULL, Description TEXT, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_SecurityGroup PRIMARY KEY (ID ASC) ); CREATE TABLE ApplicationRole ( ID NCHAR(36) NOT NULL DEFAULT N'', Name VARCHAR(200) NOT NULL, Description TEXT, NodeID NCHAR(36) NOT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_ApplicationRole PRIMARY KEY (ID ASC) ); CREATE TABLE ApplicationRoleSecurityGroup ( ApplicationRoleID NCHAR(36) NOT NULL, SecurityGroupID NCHAR(36) NOT NULL ); CREATE TABLE ApplicationRoleUserAccount ( ApplicationRoleID NCHAR(36) NOT NULL, UserAccountID NCHAR(36) NOT NULL ); CREATE TABLE SecurityGroupUserAccount ( SecurityGroupID NCHAR(36) NOT NULL, UserAccountID NCHAR(36) NOT NULL ); -- ---------------------------------------------------------------------------- CREATE TABLE Subscriber ( NodeID NCHAR(36) NOT NULL, ID NCHAR(36) NOT NULL DEFAULT N'', Acronym VARCHAR(200) NOT NULL, Name VARCHAR(200) NULL, SharedSecret VARCHAR(200) NOT NULL, AuthKey TEXT NOT NULL, ValidIPAddresses TEXT NOT NULL, Enabled TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_Subscriber PRIMARY KEY (NodeID ASC, ID ASC), CONSTRAINT IX_Subscriber_NodeID_Acronym UNIQUE KEY (NodeID ASC, Acronym ASC) ); CREATE TABLE SubscriberMeasurement( NodeID NCHAR(36) NOT NULL, SubscriberID NCHAR(36) NOT NULL, SignalID NCHAR(36) NOT NULL, Allowed TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_SubscriberMeasurement PRIMARY KEY (NodeID ASC, SubscriberID ASC, SignalID ASC) ); CREATE TABLE SubscriberMeasurementGroup ( NodeID NCHAR(36) NOT NULL, SubscriberID NCHAR(36) NOT NULL, MeasurementGroupID INT NOT NULL, Allowed TINYINT NOT NULL DEFAULT 0, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_SubscriberMeasurementGroup PRIMARY KEY (NodeID ASC, SubscriberID ASC, MeasurementGroupID ASC) ); CREATE TABLE MeasurementGroup ( NodeID NCHAR(36) NOT NULL, ID INT AUTO_INCREMENT NOT NULL, Name VARCHAR(200) NOT NULL, Description TEXT, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_MeasurementGroup PRIMARY KEY (ID ASC) ); CREATE TABLE MeasurementGroupMeasurement ( NodeID NCHAR(36) NOT NULL, MeasurementGroupID INT NOT NULL, SignalID NCHAR(36) NOT NULL, CreatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', CreatedBy VARCHAR(200) NOT NULL DEFAULT N'', UpdatedOn DATETIME NOT NULL DEFAULT N'0000-00-00 00:00:00', UpdatedBy VARCHAR(200) NOT NULL DEFAULT N'', CONSTRAINT PK_MeasurementGroupMeasurement PRIMARY KEY (NodeID ASC, MeasurementGroupID ASC, SignalID ASC) ); ALTER TABLE Subscriber ADD CONSTRAINT FK_Subscriber_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE SubscriberMeasurement ADD CONSTRAINT FK_SubscriberMeasurement_Node FOREIGN KEY(NodeID) REFERENCES Node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE SubscriberMeasurement ADD CONSTRAINT FK_SubscriberMeasurement_Measurement FOREIGN KEY(SignalID) REFERENCES Measurement (SignalID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE SubscriberMeasurement ADD CONSTRAINT FK_SubscriberMeasurement_Subscriber FOREIGN KEY(NodeID, SubscriberID) REFERENCES Subscriber (NodeID, ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE SubscriberMeasurementGroup ADD CONSTRAINT FK_SubscriberMeasurementGroup_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE SubscriberMeasurementGroup ADD CONSTRAINT FK_SubscriberMeasurementGroup_Subscriber FOREIGN KEY(NodeID, SubscriberID) REFERENCES Subscriber (NodeID, ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE SubscriberMeasurementGroup ADD CONSTRAINT FK_SubscriberMeasurementGroup_MeasurementGroup FOREIGN KEY(MeasurementGroupID) REFERENCES MeasurementGroup (ID); ALTER TABLE MeasurementGroup ADD CONSTRAINT FK_MeasurementGroup_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE MeasurementGroupMeasurement ADD CONSTRAINT FK_MeasurementGroupMeasurement_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE MeasurementGroupMeasurement ADD CONSTRAINT FK_MeasurementGroupMeasurement_Measurement FOREIGN KEY(SignalID) REFERENCES Measurement (SignalID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE MeasurementGroupMeasurement ADD CONSTRAINT FK_MeasurementGroupMeasurement_MeasurementGroup FOREIGN KEY(MeasurementGroupID) REFERENCES MeasurementGroup (ID) ON DELETE CASCADE ON UPDATE CASCADE; -- ---------------------------------------------------------------------------- ALTER TABLE Node ADD CONSTRAINT FK_Node_Company FOREIGN KEY(CompanyID) REFERENCES Company (ID); ALTER TABLE DataOperation ADD CONSTRAINT FK_DataOperation_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE OtherDevice ADD CONSTRAINT FK_OtherDevice_Company FOREIGN KEY(CompanyID) REFERENCES Company (ID); ALTER TABLE OtherDevice ADD CONSTRAINT FK_OtherDevice_Interconnection FOREIGN KEY(InterconnectionID) REFERENCES Interconnection (ID); ALTER TABLE OtherDevice ADD CONSTRAINT FK_OtherDevice_VendorDevice FOREIGN KEY(VendorDeviceID) REFERENCES VendorDevice (ID); ALTER TABLE Device ADD CONSTRAINT FK_Device_Company FOREIGN KEY(CompanyID) REFERENCES Company (ID); ALTER TABLE Device ADD CONSTRAINT FK_Device_Device FOREIGN KEY(ParentID) REFERENCES Device (ID); ALTER TABLE Device ADD CONSTRAINT FK_Device_Interconnection FOREIGN KEY(InterconnectionID) REFERENCES Interconnection (ID); ALTER TABLE Device ADD CONSTRAINT FK_Device_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE Device ADD CONSTRAINT FK_Device_Protocol FOREIGN KEY(ProtocolID) REFERENCES Protocol (ID); ALTER TABLE Device ADD CONSTRAINT FK_Device_VendorDevice FOREIGN KEY(VendorDeviceID) REFERENCES VendorDevice (ID); ALTER TABLE VendorDevice ADD CONSTRAINT FK_VendorDevice_Vendor FOREIGN KEY(VendorID) REFERENCES Vendor (ID); ALTER TABLE OutputStreamDeviceDigital ADD CONSTRAINT FK_OutputStreamDeviceDigital_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE OutputStreamDeviceDigital ADD CONSTRAINT FK_OutputStreamDeviceDigital_OutputStreamDevice FOREIGN KEY(OutputStreamDeviceID) REFERENCES OutputStreamDevice (ID) ON DELETE CASCADE; ALTER TABLE OutputStreamDevicePhasor ADD CONSTRAINT FK_OutputStreamDevicePhasor_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE OutputStreamDevicePhasor ADD CONSTRAINT FK_OutputStreamDevicePhasor_OutputStreamDevice FOREIGN KEY(OutputStreamDeviceID) REFERENCES OutputStreamDevice (ID) ON DELETE CASCADE; ALTER TABLE OutputStreamDeviceAnalog ADD CONSTRAINT FK_OutputStreamDeviceAnalog_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE OutputStreamDeviceAnalog ADD CONSTRAINT FK_OutputStreamDeviceAnalog_OutputStreamDevice FOREIGN KEY(OutputStreamDeviceID) REFERENCES OutputStreamDevice (ID) ON DELETE CASCADE; ALTER TABLE Measurement ADD CONSTRAINT FK_Measurement_Device FOREIGN KEY(DeviceID) REFERENCES Device (ID) ON DELETE CASCADE; ALTER TABLE Measurement ADD CONSTRAINT FK_Measurement_SignalType FOREIGN KEY(SignalTypeID) REFERENCES SignalType (ID); ALTER TABLE ImportedMeasurement ADD CONSTRAINT FK_ImportedMeasurement_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE OutputStreamMeasurement ADD CONSTRAINT FK_OutputStreamMeasurement_Historian FOREIGN KEY(HistorianID) REFERENCES Historian (ID); ALTER TABLE OutputStreamMeasurement ADD CONSTRAINT FK_OutputStreamMeasurement_Measurement FOREIGN KEY(PointID) REFERENCES Measurement (PointID) ON DELETE CASCADE; ALTER TABLE OutputStreamMeasurement ADD CONSTRAINT FK_OutputStreamMeasurement_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE OutputStreamMeasurement ADD CONSTRAINT FK_OutputStreamMeasurement_OutputStream FOREIGN KEY(AdapterID) REFERENCES OutputStream (ID) ON DELETE CASCADE; ALTER TABLE OutputStreamDevice ADD CONSTRAINT FK_OutputStreamDevice_Node FOREIGN KEY(NodeID) REFERENCES Node (ID); ALTER TABLE OutputStreamDevice ADD CONSTRAINT FK_OutputStreamDevice_OutputStream FOREIGN KEY(AdapterID) REFERENCES OutputStream (ID) ON DELETE CASCADE; ALTER TABLE Phasor ADD CONSTRAINT FK_Phasor_Device FOREIGN KEY(DeviceID) REFERENCES Device (ID) ON DELETE CASCADE; ALTER TABLE Phasor ADD CONSTRAINT FK_Phasor_Phasor FOREIGN KEY(DestinationPhasorID) REFERENCES Phasor (ID); ALTER TABLE CalculatedMeasurement ADD CONSTRAINT FK_CalculatedMeasurement_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE CustomActionAdapter ADD CONSTRAINT FK_CustomActionAdapter_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE Historian ADD CONSTRAINT FK_Historian_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE CustomInputAdapter ADD CONSTRAINT FK_CustomInputAdapter_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE OutputStream ADD CONSTRAINT FK_OutputStream_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE Alarm ADD CONSTRAINT FK_Alarm_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE Alarm ADD CONSTRAINT FK_Alarm_Measurement_SignalID FOREIGN KEY(SignalID) REFERENCES Measurement (SignalID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE Alarm ADD CONSTRAINT FK_Alarm_Measurement_AssociatedMeasurementID FOREIGN KEY(AssociatedMeasurementID) REFERENCES Measurement (SignalID); ALTER TABLE CustomOutputAdapter ADD CONSTRAINT FK_CustomOutputAdapter_Node FOREIGN KEY(NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE ApplicationRoleSecurityGroup ADD CONSTRAINT FK_applicationrolesecuritygroup_applicationrole FOREIGN KEY (ApplicationRoleID) REFERENCES applicationrole (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE ApplicationRoleSecurityGroup ADD CONSTRAINT FK_applicationrolesecuritygroup_securitygroup FOREIGN KEY (SecurityGroupID) REFERENCES securitygroup (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE UserAccount ADD CONSTRAINT FK_useraccount FOREIGN KEY (DefaultNodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE ApplicationRole ADD CONSTRAINT FK_applicationrole FOREIGN KEY (NodeID) REFERENCES node (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE ApplicationRoleUserAccount ADD CONSTRAINT FK_applicationroleuseraccount_useraccount FOREIGN KEY (UserAccountID) REFERENCES useraccount (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE ApplicationRoleUserAccount ADD CONSTRAINT FK_applicationroleuseraccount_applicationrole FOREIGN KEY (ApplicationRoleID) REFERENCES applicationrole (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE SecurityGroupUserAccount ADD CONSTRAINT FK_securitygroupuseraccount_useraccount FOREIGN KEY (UserAccountID) REFERENCES useraccount (ID) ON DELETE CASCADE ON UPDATE CASCADE; ALTER TABLE SecurityGroupUserAccount ADD CONSTRAINT FK_securitygroupuseraccount_securitygroup FOREIGN KEY (SecurityGroupID) REFERENCES securitygroup (ID) ON DELETE CASCADE ON UPDATE CASCADE; CREATE VIEW NodeInfo AS SELECT Node.ID AS NodeID, Node.Name, Company.Name AS CompanyName, Node.Longitude, Node.Latitude, Node.Description, Node.ImagePath, Node.Settings, Node.MenuType, Node.MenuData, Node.Master, Node.Enabled FROM Node LEFT OUTER JOIN Company ON Node.CompanyID = Company.ID; CREATE VIEW RuntimeOutputStreamMeasurement AS SELECT OutputStreamMeasurement.NodeID, Runtime.ID AS AdapterID, Historian.Acronym AS Historian, OutputStreamMeasurement.PointID, OutputStreamMeasurement.SignalReference FROM OutputStreamMeasurement LEFT OUTER JOIN Historian ON OutputStreamMeasurement.HistorianID = Historian.ID LEFT OUTER JOIN Runtime ON OutputStreamMeasurement.AdapterID = Runtime.SourceID AND Runtime.SourceTable = N'OutputStream' ORDER BY OutputStreamMeasurement.HistorianID, OutputStreamMeasurement.PointID; CREATE VIEW RuntimeHistorian AS SELECT Historian.NodeID, Runtime.ID, Historian.Acronym AS AdapterName, COALESCE(NULLIF(TRIM(Historian.AssemblyName), ''), N'HistorianAdapters.dll') AS AssemblyName, COALESCE(NULLIF(TRIM(Historian.TypeName), ''), IF(IsLocal = 1, N'HistorianAdapters.LocalOutputAdapter', N'HistorianAdapters.RemoteOutputAdapter')) AS TypeName, CONCAT_WS(';', Historian.ConnectionString, CONCAT(N'instanceName=', Historian.Acronym), CONCAT(N'sourceids=', Historian.Acronym), CONCAT(N'measurementReportingInterval=', CAST(Historian.MeasurementReportingInterval AS CHAR))) AS ConnectionString FROM Historian LEFT OUTER JOIN Runtime ON Historian.ID = Runtime.SourceID AND Runtime.SourceTable = N'Historian' WHERE (Historian.Enabled <> 0) ORDER BY Historian.LoadOrder; CREATE VIEW RuntimeDevice AS SELECT Device.NodeID, Runtime.ID, Device.Acronym AS AdapterName, Protocol.AssemblyName, Protocol.TypeName, CONCAT_WS(';', Device.ConnectionString, CONCAT(N'isConcentrator=', CAST(Device.IsConcentrator AS CHAR)), CONCAT(N'accessID=', CAST(Device.AccessID AS CHAR)), IF(Device.TimeZone IS NULL, N'', CONCAT(N'timeZone=', Device.TimeZone)), CONCAT(N'timeAdjustmentTicks=', CAST(Device.TimeAdjustmentTicks AS CHAR)), IF(Protocol.Acronym IS NULL, N'', CONCAT(N'phasorProtocol=', Protocol.Acronym)), CONCAT(N'dataLossInterval=', CAST(Device.DataLossInterval AS CHAR)), CONCAT(N'allowedParsingExceptions=', CAST(Device.AllowedParsingExceptions AS CHAR)), CONCAT(N'parsingExceptionWindow=', CAST(Device.ParsingExceptionWindow AS CHAR)), CONCAT(N'delayedConnectionInterval=', CAST(Device.DelayedConnectionInterval AS CHAR)), CONCAT(N'allowUseOfCachedConfiguration=', CAST(Device.AllowUseOfCachedConfiguration AS CHAR)), CONCAT(N'autoStartDataParsingSequence=', CAST(Device.AutoStartDataParsingSequence AS CHAR)), CONCAT(N'skipDisableRealTimeData=', CAST(Device.SkipDisableRealTimeData AS CHAR)), CONCAT(N'measurementReportingInterval=', CAST(Device.MeasurementReportingInterval AS CHAR)), CONCAT(N'connectOnDemand=', CAST(Device.ConnectOnDemand AS CHAR))) AS ConnectionString FROM Device LEFT OUTER JOIN Protocol ON Device.ProtocolID = Protocol.ID LEFT OUTER JOIN Runtime ON Device.ID = Runtime.SourceID AND Runtime.SourceTable = N'Device' WHERE (Device.Enabled <> 0 AND Device.ParentID IS NULL) ORDER BY Device.LoadOrder; CREATE VIEW RuntimeCustomOutputAdapter AS SELECT CustomOutputAdapter.NodeID, Runtime.ID, CustomOutputAdapter.AdapterName, TRIM(CustomOutputAdapter.AssemblyName) AS AssemblyName, TRIM(CustomOutputAdapter.TypeName) AS TypeName, CustomOutputAdapter.ConnectionString FROM CustomOutputAdapter LEFT OUTER JOIN Runtime ON CustomOutputAdapter.ID = Runtime.SourceID AND Runtime.SourceTable = N'CustomOutputAdapter' WHERE (CustomOutputAdapter.Enabled <> 0) ORDER BY CustomOutputAdapter.LoadOrder; CREATE VIEW RuntimeInputStreamDevice AS SELECT Device.NodeID, Runtime_P.ID AS ParentID, Runtime.ID, Device.Acronym, Device.Name, Device.AccessID FROM Device LEFT OUTER JOIN Runtime ON Device.ID = Runtime.SourceID AND Runtime.SourceTable = N'Device' LEFT OUTER JOIN Runtime AS Runtime_P ON Device.ParentID = Runtime_P.SourceID AND Runtime_P.SourceTable = N'Device' WHERE (Device.IsConcentrator = 0) AND (Device.Enabled <> 0) AND (Device.ParentID IS NOT NULL) ORDER BY Device.LoadOrder; CREATE VIEW RuntimeCustomInputAdapter AS SELECT CustomInputAdapter.NodeID, Runtime.ID, CustomInputAdapter.AdapterName, TRIM(CustomInputAdapter.AssemblyName) AS AssemblyName, TRIM(CustomInputAdapter.TypeName) AS TypeName, CustomInputAdapter.ConnectionString FROM CustomInputAdapter LEFT OUTER JOIN Runtime ON CustomInputAdapter.ID = Runtime.SourceID AND Runtime.SourceTable = N'CustomInputAdapter' WHERE (CustomInputAdapter.Enabled <> 0) ORDER BY CustomInputAdapter.LoadOrder; CREATE VIEW RuntimeOutputStreamDevice AS SELECT OutputStreamDevice.NodeID, Runtime.ID AS ParentID, OutputStreamDevice.ID, OutputStreamDevice.IDCode, OutputStreamDevice.Acronym, OutputStreamDevice.BpaAcronym, OutputStreamDevice.Name, NULLIF(OutputStreamDevice.PhasorDataFormat, '') AS PhasorDataFormat, NULLIF(OutputStreamDevice.FrequencyDataFormat, '') AS FrequencyDataFormat, NULLIF(OutputStreamDevice.AnalogDataFormat, '') AS AnalogDataFormat, NULLIF(OutputStreamDevice.CoordinateFormat, '') AS CoordinateFormat, OutputStreamDevice.LoadOrder FROM OutputStreamDevice LEFT OUTER JOIN Runtime ON OutputStreamDevice.AdapterID = Runtime.SourceID AND Runtime.SourceTable = N'OutputStream' WHERE (OutputStreamDevice.Enabled <> 0) ORDER BY OutputStreamDevice.LoadOrder; CREATE VIEW RuntimeOutputStream AS SELECT OutputStream.NodeID, Runtime.ID, OutputStream.Acronym AS AdapterName, N'TVA.PhasorProtocols.dll' AS AssemblyName, IF(Type = 1, N'TVA.PhasorProtocols.BpaPdcStream.Concentrator', N'TVA.PhasorProtocols.IeeeC37_118.Concentrator') AS TypeName, CONCAT_WS(';', OutputStream.ConnectionString, IF(OutputStream.DataChannel IS NULL, N'', CONCAT(N'dataChannel={', OutputStream.DataChannel, N'}')), IF(OutputStream.CommandChannel IS NULL, N'', CONCAT(N'commandChannel={', OutputStream.CommandChannel, N'}')), CONCAT(N'idCode=', CAST(OutputStream.IDCode AS CHAR)), CONCAT(N'autoPublishConfigFrame=', CAST(OutputStream.AutoPublishConfigFrame AS CHAR)), CONCAT(N'autoStartDataChannel=', CAST(OutputStream.AutoStartDataChannel AS CHAR)), CONCAT(N'nominalFrequency=', CAST(OutputStream.NominalFrequency AS CHAR)), CONCAT(N'lagTime=', CAST(OutputStream.LagTime AS CHAR)), CONCAT(N'leadTime=', CAST(OutputStream.LeadTime AS CHAR)), CONCAT(N'framesPerSecond=', CAST(OutputStream.FramesPerSecond AS CHAR)), CONCAT(N'useLocalClockAsRealTime=', CAST(OutputStream.UseLocalClockAsRealTime AS CHAR)), CONCAT(N'allowSortsByArrival=', CAST(OutputStream.AllowSortsByArrival AS CHAR)), CONCAT(N'ignoreBadTimestamps=', CAST(OutputStream.IgnoreBadTimeStamps AS CHAR)), CONCAT(N'timeResolution=', CAST(OutputStream.TimeResolution AS CHAR)), CONCAT(N'allowPreemptivePublishing=', CAST(OutputStream.AllowPreemptivePublishing AS CHAR)), CONCAT(N'downsamplingMethod=', OutputStream.DownsamplingMethod), CONCAT(N'dataFormat=', OutputStream.DataFormat), CONCAT(N'coordinateFormat=', OutputStream.CoordinateFormat), CONCAT(N'currentScalingValue=', CAST(OutputStream.CurrentScalingValue AS CHAR)), CONCAT(N'voltageScalingValue=', CAST(OutputStream.VoltageScalingValue AS CHAR)), CONCAT(N'analogScalingValue=', CAST(OutputStream.AnalogScalingValue AS CHAR)), CONCAT(N'performTimestampReasonabilityCheck=', CAST(OutputStream.PerformTimeReasonabilityCheck AS CHAR)), CONCAT(N'digitalMaskValue=', CAST(OutputStream.DigitalMaskValue AS CHAR))) AS ConnectionString FROM OutputStream LEFT OUTER JOIN Runtime ON OutputStream.ID = Runtime.SourceID AND Runtime.SourceTable = N'OutputStream' WHERE (OutputStream.Enabled <> 0) ORDER BY OutputStream.LoadOrder; CREATE VIEW RuntimeCustomActionAdapter AS SELECT CustomActionAdapter.NodeID, Runtime.ID, CustomActionAdapter.AdapterName, TRIM(CustomActionAdapter.AssemblyName) AS AssemblyName, TRIM(CustomActionAdapter.TypeName) AS TypeName, CustomActionAdapter.ConnectionString FROM CustomActionAdapter LEFT OUTER JOIN Runtime ON CustomActionAdapter.ID = Runtime.SourceID AND Runtime.SourceTable = N'CustomActionAdapter' WHERE (CustomActionAdapter.Enabled <> 0) ORDER BY CustomActionAdapter.LoadOrder; CREATE VIEW RuntimeCalculatedMeasurement AS SELECT CalculatedMeasurement.NodeID, Runtime.ID, CalculatedMeasurement.Acronym AS AdapterName, TRIM(CalculatedMeasurement.AssemblyName) AS AssemblyName, TRIM(CalculatedMeasurement.TypeName) AS TypeName, CONCAT_WS(';', IF (CalculatedMeasurement.ConnectionString IS NULL, N'', CalculatedMeasurement.ConnectionString), IF(ConfigSection IS NULL, N'', CONCAT(N'configurationSection=', ConfigSection)), CONCAT(N'minimumMeasurementsToUse=', CAST(CalculatedMeasurement.MinimumMeasurementsToUse AS CHAR)), CONCAT(N'framesPerSecond=', CAST(CalculatedMeasurement.FramesPerSecond AS CHAR)), CONCAT(N'lagTime=', CAST(CalculatedMeasurement.LagTime AS CHAR)), CONCAT(N'leadTime=', CAST(CalculatedMeasurement.LeadTime AS CHAR)), IF(InputMeasurements IS NULL, N'', CONCAT(N'inputMeasurementKeys={', InputMeasurements, N'}')), IF(OutputMeasurements IS NULL, N'', CONCAT(N'outputMeasurements={', OutputMeasurements, N'}')), CONCAT(N'ignoreBadTimestamps=', CAST(CalculatedMeasurement.IgnoreBadTimeStamps AS CHAR)), CONCAT(N'timeResolution=', CAST(CalculatedMeasurement.TimeResolution AS CHAR)), CONCAT(N'allowPreemptivePublishing=', CAST(CalculatedMeasurement.AllowPreemptivePublishing AS CHAR)), CONCAT(N'performTimestampReasonabilityCheck=', CAST(CalculatedMeasurement.PerformTimeReasonabilityCheck AS CHAR)), CONCAT(N'downsamplingMethod=', CalculatedMeasurement.DownsamplingMethod), CONCAT(N'useLocalClockAsRealTime=', CAST(CalculatedMeasurement.UseLocalClockAsRealTime AS CHAR))) AS ConnectionString FROM CalculatedMeasurement LEFT OUTER JOIN Runtime ON CalculatedMeasurement.ID = Runtime.SourceID AND Runtime.SourceTable = N'CalculatedMeasurement' WHERE (CalculatedMeasurement.Enabled <> 0) ORDER BY CalculatedMeasurement.LoadOrder; CREATE VIEW ActiveMeasurement AS SELECT Node.ID AS NodeID, COALESCE(Device.NodeID, Historian.NodeID) AS SourceNodeID, CONCAT_WS(':', COALESCE(Historian.Acronym, Device.Acronym, '__'), CAST(Measurement.PointID AS CHAR)) AS ID, Measurement.SignalID, Measurement.PointTag, Measurement.AlternateTag, Measurement.SignalReference, Measurement.Internal, Measurement.Subscribed, Device.Acronym AS Device, CASE WHEN Device.IsConcentrator = 0 AND Device.ParentID IS NOT NULL THEN RuntimeP.ID ELSE Runtime.ID END AS DeviceID, COALESCE(Device.FramesPerSecond, 30) AS FramesPerSecond, Protocol.Acronym AS Protocol, Protocol.Type AS ProtocolType, SignalType.Acronym AS SignalType, Phasor.ID AS PhasorID, Phasor.Type AS PhasorType, Phasor.Phase, Measurement.Adder, Measurement.Multiplier, Company.Acronym AS Company, Device.Longitude, Device.Latitude, Measurement.Description FROM Company RIGHT OUTER JOIN Device ON Company.ID = Device.CompanyID RIGHT OUTER JOIN Measurement LEFT OUTER JOIN SignalType ON Measurement.SignalTypeID = SignalType.ID ON Device.ID = Measurement.DeviceID LEFT OUTER JOIN Phasor ON Measurement.DeviceID = Phasor.DeviceID AND Measurement.PhasorSourceIndex = Phasor.SourceIndex LEFT OUTER JOIN Protocol ON Device.ProtocolID = Protocol.ID LEFT OUTER JOIN Historian ON Measurement.HistorianID = Historian.ID LEFT OUTER JOIN Runtime ON Device.ID = Runtime.SourceID AND Runtime.SourceTable = N'Device' LEFT OUTER JOIN Runtime AS RuntimeP ON RuntimeP.SourceID = Device.ParentID AND RuntimeP.SourceTable = N'Device' CROSS JOIN Node WHERE (Device.Enabled <> 0 OR Device.Enabled IS NULL) AND (Measurement.Enabled <> 0) UNION ALL SELECT NodeID, SourceNodeID, CONCAT_WS(':', Source, CAST(PointID AS CHAR)) AS ID, SignalID, PointTag, AlternateTag, SignalReference, 0 AS Internal, 1 AS Subscribed, NULL AS Device, NULL AS DeviceID, FramesPerSecond, ProtocolAcronym AS Protocol, ProtocolType, SignalTypeAcronym AS SignalType, PhasorID, PhasorType, Phase, Adder, Multiplier, CompanyAcronym AS Company, Longitude, Latitude, Description FROM ImportedMeasurement WHERE ImportedMeasurement.Enabled <> 0; CREATE VIEW RuntimeStatistic AS SELECT Node.ID AS NodeID, Statistic.ID AS ID, Statistic.Source, Statistic.SignalIndex, Statistic.Name, Statistic.Description, Statistic.AssemblyName, Statistic.TypeName, Statistic.MethodName, Statistic.Arguments, Statistic.IsConnectedState, Statistic.DataType, Statistic.DisplayFormat, Statistic.Enabled FROM Statistic, Node; CREATE VIEW IaonOutputAdapter AS SELECT NodeID, ID, AdapterName, AssemblyName, TypeName, ConnectionString FROM RuntimeHistorian UNION SELECT NodeID, ID, AdapterName, AssemblyName, TypeName, ConnectionString FROM RuntimeCustomOutputAdapter; CREATE VIEW IaonInputAdapter AS SELECT NodeID, ID, AdapterName, AssemblyName, TypeName, ConnectionString FROM RuntimeDevice UNION SELECT NodeID, ID, AdapterName, AssemblyName, TypeName, ConnectionString FROM RuntimeCustomInputAdapter; CREATE VIEW IaonActionAdapter AS SELECT Node.ID AS NodeID, 0 AS ID, N'PHASOR!SERVICES' AS AdapterName, N'TVA.PhasorProtocols.dll' AS AssemblyName, N'TVA.PhasorProtocols.CommonPhasorServices' AS TypeName, N'' AS ConnectionString FROM Node UNION SELECT NodeID, ID, AdapterName, AssemblyName, TypeName, ConnectionString FROM RuntimeOutputStream UNION SELECT NodeID, ID, AdapterName, AssemblyName, TypeName, ConnectionString FROM RuntimeCalculatedMeasurement UNION SELECT NodeID, ID, AdapterName, AssemblyName, TypeName, ConnectionString FROM RuntimeCustomActionAdapter; CREATE VIEW MeasurementDetail AS SELECT Device.CompanyID, Company.Acronym AS CompanyAcronym, Company.Name AS CompanyName, Measurement.SignalID, Measurement.HistorianID, Historian.Acronym AS HistorianAcronym, Historian.ConnectionString AS HistorianConnectionString, Measurement.PointID, Measurement.PointTag, Measurement.AlternateTag, Measurement.DeviceID, COALESCE (Device.NodeID, Historian.NodeID) AS NodeID, Device.Acronym AS DeviceAcronym, Device.Name AS DeviceName, COALESCE(Device.FramesPerSecond, 30) AS FramesPerSecond, Device.Enabled AS DeviceEnabled, Device.ContactList, Device.VendorDeviceID, VendorDevice.Name AS VendorDeviceName, VendorDevice.Description AS VendorDeviceDescription, Device.ProtocolID, Protocol.Acronym AS ProtocolAcronym, Protocol.Name AS ProtocolName, Measurement.SignalTypeID, Measurement.PhasorSourceIndex, Phasor.Label AS PhasorLabel, Phasor.Type AS PhasorType, Phasor.Phase, Measurement.SignalReference, Measurement.Adder, Measurement.Multiplier, Measurement.Description, Measurement.Subscribed, Measurement.Internal, Measurement.Enabled, COALESCE (SignalType.EngineeringUnits, N'') AS EngineeringUnits, SignalType.Source, SignalType.Acronym AS SignalAcronym, SignalType.Name AS SignalName, SignalType.Suffix AS SignalTypeSuffix, Device.Longitude, Device.Latitude, CONCAT_WS(':', COALESCE(Historian.Acronym, Device.Acronym, '__'), CAST(Measurement.PointID AS CHAR)) AS ID FROM Company RIGHT OUTER JOIN Device ON Company.ID = Device.CompanyID RIGHT OUTER JOIN Measurement LEFT OUTER JOIN SignalType ON Measurement.SignalTypeID = SignalType.ID ON Device.ID = Measurement.DeviceID LEFT OUTER JOIN Phasor ON Measurement.DeviceID = Phasor.DeviceID AND Measurement.PhasorSourceIndex = Phasor.SourceIndex LEFT OUTER JOIN VendorDevice ON Device.VendorDeviceID = VendorDevice.ID LEFT OUTER JOIN Protocol ON Device.ProtocolID = Protocol.ID LEFT OUTER JOIN Historian ON Measurement.HistorianID = Historian.ID; CREATE VIEW HistorianMetadata AS SELECT PointID AS HistorianID, IF(SignalAcronym = N'DIGI', 1, 0) AS DataType, PointTag AS Name, SignalReference AS Synonym1, SignalAcronym AS Synonym2, AlternateTag AS Synonym3, Description, VendorDeviceDescription AS HardwareInfo, N'' AS Remarks, HistorianAcronym AS PlantCode, 1 AS UnitNumber, DeviceAcronym AS SystemName, ProtocolID AS SourceID, Enabled, 1 / FramesPerSecond AS ScanRate, 0 AS CompressionMinTime, 0 AS CompressionMaxTime, EngineeringUnits, CASE SignalAcronym WHEN N'FREQ' THEN 59.95 WHEN N'VPHM' THEN 475000 WHEN N'IPHM' THEN 0 WHEN N'VPHA' THEN -181 WHEN N'IPHA' THEN -181 ELSE 0 END AS LowWarning, CASE SignalAcronym WHEN N'FREQ' THEN 60.05 WHEN N'VPHM' THEN 525000 WHEN N'IPHM' THEN 3150 WHEN N'VPHA' THEN 181 WHEN N'IPHA' THEN 181 ELSE 0 END AS HighWarning, CASE SignalAcronym WHEN N'FREQ' THEN 59.90 WHEN N'VPHM' THEN 450000 WHEN N'IPHM' THEN 0 WHEN N'VPHA' THEN -181 WHEN N'IPHA' THEN -181 ELSE 0 END AS LowAlarm, CASE SignalAcronym WHEN N'FREQ' THEN 60.10 WHEN N'VPHM' THEN 550000 WHEN N'IPHM' THEN 3300 WHEN N'VPHA' THEN 181 WHEN N'IPHA' THEN 181 ELSE 0 END AS HighAlarm, CASE SignalAcronym WHEN N'FREQ' THEN 59.95 WHEN N'VPHM' THEN 475000 WHEN N'IPHM' THEN 0 WHEN N'VPHA' THEN -180 WHEN N'IPHA' THEN -180 ELSE 0 END AS LowRange, CASE SignalAcronym WHEN N'FREQ' THEN 60.05 WHEN N'VPHM' THEN 525000 WHEN N'IPHM' THEN 3000 WHEN N'VPHA' THEN 180 WHEN N'IPHA' THEN 180 ELSE 0 END AS HighRange, 0.0 AS CompressionLimit, 0.0 AS ExceptionLimit, CASE SignalAcronym WHEN N'DIGI' THEN 0 ELSE 7 END AS DisplayDigits, N'' AS SetDescription, '' AS ClearDescription, 0 AS AlarmState, 5 AS ChangeSecurity, 0 AS AccessSecurity, 0 AS StepCheck, 0 AS AlarmEnabled, 0 AS AlarmFlags, 0 AS AlarmDelay, 0 AS AlarmToFile, 0 AS AlarmByEmail, 0 AS AlarmByPager, 0 AS AlarmByPhone, ContactList AS AlarmEmails, N'' AS AlarmPagers, N'' AS AlarmPhones FROM MeasurementDetail; CREATE VIEW CalculatedMeasurementDetail AS SELECT CM.NodeID, CM.ID, CM.Acronym, COALESCE(CM.Name, '') AS Name, CM.AssemblyName, CM.TypeName, COALESCE(CM.ConnectionString, '') AS ConnectionString, COALESCE(CM.ConfigSection, '') AS ConfigSection, COALESCE(CM.InputMeasurements, '') AS InputMeasurements, COALESCE(CM.OutputMeasurements, '') AS OutputMeasurements, CM.MinimumMeasurementsToUse, CM.FramesPerSecond, CM.LagTime, CM.LeadTime, CM.UseLocalClockAsRealTime, CM.AllowSortsByArrival, CM.LoadOrder, CM.Enabled, N.Name AS NodeName, CM.IgnoreBadTimeStamps, CM.TimeResolution, CM.AllowPreemptivePublishing, COALESCE(CM.DownsamplingMethod, '') AS DownsamplingMethod, CM.PerformTimeReasonabilityCheck FROM CalculatedMeasurement CM, Node N WHERE CM.NodeID = N.ID; CREATE VIEW HistorianDetail AS SELECT H.NodeID, H.ID, H.Acronym, COALESCE(H.Name, '') AS Name, COALESCE(H.AssemblyName, '') AS AssemblyName, COALESCE(H.TypeName, '') AS TypeName, COALESCE(H.ConnectionString, '') AS ConnectionString, H.IsLocal, COALESCE(H.Description, '') AS Description, H.LoadOrder, H.Enabled, N.Name AS NodeName, H.MeasurementReportingInterval FROM Historian AS H INNER JOIN Node AS N ON H.NodeID = N.ID; CREATE VIEW NodeDetail AS SELECT N.ID, N.Name, N.CompanyID AS CompanyID, COALESCE(N.Longitude, 0) AS Longitude, COALESCE(N.Latitude, 0) AS Latitude, COALESCE(N.Description, '') AS Description, COALESCE(N.ImagePath, '') AS ImagePath, COALESCE(N.Settings, '') AS Settings, N.MenuType, N.MenuData, N.Master, N.LoadOrder, N.Enabled, COALESCE(C.Name, '') AS CompanyName FROM Node N LEFT JOIN Company C ON N.CompanyID = C.ID; CREATE VIEW VendorDetail AS SELECT ID, COALESCE(Acronym, '') AS Acronym, Name, COALESCE(PhoneNumber, '') AS PhoneNumber, COALESCE(ContactEmail, '') AS ContactEmail, COALESCE(URL, '') AS URL FROM Vendor; CREATE VIEW CustomActionAdapterDetail AS SELECT CA.NodeID, CA.ID, CA.AdapterName, CA.AssemblyName, CA.TypeName, COALESCE(CA.ConnectionString, '') AS ConnectionString, CA.LoadOrder, CA.Enabled, N.Name AS NodeName FROM CustomActionAdapter AS CA INNER JOIN Node AS N ON CA.NodeID = N.ID; CREATE VIEW CustomInputAdapterDetail AS SELECT CA.NodeID, CA.ID, CA.AdapterName, CA.AssemblyName, CA.TypeName, COALESCE(CA.ConnectionString, '') AS ConnectionString, CA.LoadOrder, CA.Enabled, N.Name AS NodeName FROM CustomInputAdapter AS CA INNER JOIN Node AS N ON CA.NodeID = N.ID; CREATE VIEW CustomOutputAdapterDetail AS SELECT CA.NodeID, CA.ID, CA.AdapterName, CA.AssemblyName, CA.TypeName, COALESCE(CA.ConnectionString, '') AS ConnectionString, CA.LoadOrder, CA.Enabled, N.Name AS NodeName FROM CustomOutputAdapter AS CA INNER JOIN Node AS N ON CA.NodeID = N.ID; CREATE VIEW IaonTreeView AS SELECT 'Action Adapters' AS AdapterType, NodeID, ID, AdapterName, AssemblyName, TypeName, COALESCE(ConnectionString, '') AS ConnectionString FROM IaonActionAdapter UNION ALL SELECT 'Input Adapters' AS AdapterType, NodeID, ID, AdapterName, AssemblyName, TypeName, COALESCE(ConnectionString, '') AS ConnectionString FROM IaonInputAdapter UNION ALL SELECT 'Output Adapters' AS AdapterType, NodeID, ID, AdapterName, AssemblyName, TypeName, COALESCE(ConnectionString, '') AS ConnectionString FROM IaonOutputAdapter; CREATE VIEW OtherDeviceDetail AS SELECT OD.ID, OD.Acronym, COALESCE(OD.Name, '') AS Name, OD.IsConcentrator, OD.CompanyID, OD.VendorDeviceID, OD.Longitude, OD.Latitude, OD.InterconnectionID, OD.Planned, OD.Desired, OD.InProgress, COALESCE(C.Name, '') AS CompanyName, COALESCE(C.Acronym, '') AS CompanyAcronym, COALESCE(C.MapAcronym, '') AS CompanyMapAcronym, COALESCE(VD.Name, '') AS VendorDeviceName, COALESCE(I.Name, '') AS InterconnectionName FROM OtherDevice AS OD LEFT OUTER JOIN Company AS C ON OD.CompanyID = C.ID LEFT OUTER JOIN VendorDevice AS VD ON OD.VendorDeviceID = VD.ID LEFT OUTER JOIN Interconnection AS I ON OD.InterconnectionID = I.ID; CREATE VIEW VendorDeviceDistribution AS SELECT Device.NodeID, Vendor.Name AS VendorName, COUNT(*) AS DeviceCount FROM Device LEFT OUTER JOIN VendorDevice ON Device.VendorDeviceID = VendorDevice.ID INNER JOIN Vendor ON VendorDevice.VendorID = Vendor.ID GROUP BY Device.NodeID, Vendor.Name; CREATE VIEW VendorDeviceDetail AS SELECT VD.ID, VD.VendorID, VD.Name, COALESCE(VD.Description, '') AS Description, COALESCE(VD.URL, '') AS URL, V.Name AS VendorName, V.Acronym AS VendorAcronym FROM VendorDevice AS VD INNER JOIN Vendor AS V ON VD.VendorID = V.ID; CREATE VIEW DeviceDetail AS SELECT D.NodeID, D.ID, D.ParentID, D.UniqueID, D.Acronym, COALESCE(D.Name, '') AS Name, D.OriginalSource, D.IsConcentrator, D.CompanyID, D.HistorianID, D.AccessID, D.VendorDeviceID, D.ProtocolID, D.Longitude, D.Latitude, D.InterconnectionID, COALESCE(D.ConnectionString, '') AS ConnectionString, COALESCE(D.TimeZone, '') AS TimeZone, COALESCE(D.FramesPerSecond, 30) AS FramesPerSecond, D.TimeAdjustmentTicks, D.DataLossInterval, D.ConnectOnDemand, COALESCE(D.ContactList, '') AS ContactList, D.MeasuredLines, D.LoadOrder, D.Enabled, COALESCE(C.Name, '') AS CompanyName, COALESCE(C.Acronym, '') AS CompanyAcronym, COALESCE(C.MapAcronym, '') AS CompanyMapAcronym, COALESCE(H.Acronym, '') AS HistorianAcronym, COALESCE(VD.VendorAcronym, '') AS VendorAcronym, COALESCE(VD.Name, '') AS VendorDeviceName, COALESCE(P.Name, '') AS ProtocolName, P.Type AS ProtocolType, P.Category, COALESCE(I.Name, '') AS InterconnectionName, N.Name AS NodeName, COALESCE(PD.Acronym, '') AS ParentAcronym, D.CreatedOn, D.AllowedParsingExceptions, D.ParsingExceptionWindow, D.DelayedConnectionInterval, D.AllowUseOfCachedConfiguration, D.AutoStartDataParsingSequence, D.SkipDisableRealTimeData, D.MeasurementReportingInterval FROM Device AS D LEFT OUTER JOIN Company AS C ON C.ID = D.CompanyID LEFT OUTER JOIN Historian AS H ON H.ID = D.HistorianID LEFT OUTER JOIN VendorDeviceDetail AS VD ON VD.ID = D.VendorDeviceID LEFT OUTER JOIN Protocol AS P ON P.ID = D.ProtocolID LEFT OUTER JOIN Interconnection AS I ON I.ID = D.InterconnectionID LEFT OUTER JOIN Node AS N ON N.ID = D.NodeID LEFT OUTER JOIN Device AS PD ON PD.ID = D.ParentID; CREATE VIEW MapData AS SELECT 'Device' AS DeviceType, NodeID, ID, Acronym, COALESCE(Name, '') AS Name, CompanyMapAcronym, CompanyName, VendorDeviceName, Longitude, Latitude, true AS Reporting, false AS Inprogress, false AS Planned, false AS Desired FROM DeviceDetail AS D UNION ALL SELECT 'OtherDevice' AS DeviceType, NULL AS NodeID, ID, Acronym, COALESCE(Name, '') AS Name, CompanyMapAcronym, CompanyName, VendorDeviceName, Longitude, Latitude, false AS Reporting, true AS Inprogress, true AS Planned, true AS Desired FROM OtherDeviceDetail AS OD; CREATE VIEW OutputStreamDetail AS SELECT OS.NodeID, OS.ID, OS.Acronym, COALESCE(OS.Name, '') AS Name, OS.Type, COALESCE(OS.ConnectionString, '') AS ConnectionString, OS.IDCode, COALESCE(OS.CommandChannel, '') AS CommandChannel, COALESCE(OS.DataChannel, '') AS DataChannel, OS.AutoPublishConfigFrame, OS.AutoStartDataChannel, OS.NominalFrequency, OS.FramesPerSecond, OS.LagTime, OS.LeadTime, OS.UseLocalClockAsRealTime, OS.AllowSortsByArrival, OS.LoadOrder, OS.Enabled, N.Name AS NodeName, OS.DigitalMaskValue, OS.AnalogScalingValue, OS.VoltageScalingValue, OS.CurrentScalingValue, OS.CoordinateFormat, OS.DataFormat, OS.DownsamplingMethod, OS.AllowPreemptivePublishing, OS.TimeResolution, OS.IgnoreBadTimeStamps, OS.PerformTimeReasonabilityCheck FROM OutputStream AS OS INNER JOIN Node AS N ON OS.NodeID = N.ID; CREATE VIEW OutputStreamMeasurementDetail AS SELECT OSM.NodeID, OSM.AdapterID, OSM.ID, OSM.HistorianID, OSM.PointID, OSM.SignalReference, M.PointTag AS SourcePointTag, COALESCE(H.Acronym, '') AS HistorianAcronym FROM OutputStreamMeasurement AS OSM INNER JOIN Measurement AS M ON M.PointID = OSM.PointID LEFT OUTER JOIN Historian AS H ON H.ID = OSM.HistorianID; CREATE VIEW OutputStreamDeviceDetail AS SELECT OSD.NodeID, OSD.AdapterID, OSD.ID, OSD.Acronym, COALESCE(OSD.BpaAcronym, '') AS BpaAcronym, OSD.Name, OSD.LoadOrder, OSD.Enabled, COALESCE(PhasorDataFormat, '') AS PhasorDataFormat, COALESCE(FrequencyDataFormat, '') AS FrequencyDataFormat, COALESCE(AnalogDataFormat, '') AS AnalogDataFormat, COALESCE(CoordinateFormat, '') AS CoordinateFormat, IDCode, CASE WHEN EXISTS (Select Acronym From Device Where Acronym = OSD.Acronym) THEN FALSE ELSE TRUE END AS Virtual FROM OutputStreamDevice OSD; CREATE VIEW PhasorDetail AS SELECT P.*, COALESCE(DP.Label, '') AS DestinationPhasorLabel, D.Acronym AS DeviceAcronym FROM Phasor P LEFT OUTER JOIN Phasor DP ON P.DestinationPhasorID = DP.ID LEFT OUTER JOIN Device D ON P.DeviceID = D.ID; CREATE VIEW StatisticMeasurement AS SELECT MeasurementDetail.* FROM MeasurementDetail WHERE MeasurementDetail.SignalAcronym = 'STAT'; CREATE VIEW AppRoleSecurityGroupDetail AS SELECT ApplicationRoleSecurityGroup.ApplicationRoleID AS ApplicationRoleID,ApplicationRoleSecurityGroup.SecurityGroupID AS SecurityGroupID,ApplicationRole.Name AS ApplicationRoleName,ApplicationRole.Description AS ApplicationRoleDescription,SecurityGroup.Name AS SecurityGroupName,SecurityGroup.Description AS SecurityGroupDescription FROM ((ApplicationRoleSecurityGroup JOIN ApplicationRole ON((ApplicationRoleSecurityGroup.ApplicationRoleID = ApplicationRole.ID))) JOIN SecurityGroup ON((ApplicationRoleSecurityGroup.SecurityGroupID = SecurityGroup.ID))); CREATE VIEW AppRoleUserAccountDetail AS SELECT ApplicationRoleUserAccount.ApplicationRoleID AS ApplicationRoleID,ApplicationRoleUserAccount.UserAccountID AS UserAccountID,UserAccount.Name AS UserName,UserAccount.FirstName AS FirstName,UserAccount.LastName AS LastName,UserAccount.Email AS Email,ApplicationRole.Name AS ApplicationRoleName,ApplicationRole.Description AS ApplicationRoleDescription FROM ((ApplicationRoleUserAccount JOIN ApplicationRole ON((ApplicationRoleUserAccount.ApplicationRoleID = ApplicationRole.ID))) JOIN UserAccount ON((ApplicationRoleUserAccount.UserAccountID = UserAccount.ID))); CREATE VIEW SecurityGroupUserAccountDetail AS SELECT SecurityGroupUserAccount.SecurityGroupID AS SecurityGroupID,SecurityGroupUserAccount.UserAccountID AS UserAccountID,UserAccount.Name AS UserName,UserAccount.FirstName AS FirstName,UserAccount.LastName AS LastName,UserAccount.Email AS Email,SecurityGroup.Name AS SecurityGroupName,SecurityGroup.Description AS SecurityGroupDescription FROM ((SecurityGroupUserAccount JOIN SecurityGroup ON((SecurityGroupUserAccount.SecurityGroupID = SecurityGroup.ID))) JOIN UserAccount ON((SecurityGroupUserAccount.UserAccountID = UserAccount.ID))); CREATE VIEW SubscriberMeasurementDetail AS SELECT SubscriberMeasurement.NodeID AS NodeID, SubscriberMeasurement.SubscriberID AS SubscriberID, Subscriber.Acronym AS SubscriberAcronym, COALESCE(Subscriber.Name, '') AS SubscriberName, SubscriberMeasurement.SignalID AS SignalID, SubscriberMeasurement.Allowed AS Allowed, Measurement.PointID AS PointID, Measurement.PointTag AS PointTag, Measurement.SignalReference AS SignalReference FROM ((SubscriberMeasurement JOIN Subscriber ON (SubscriberMeasurement.SubscriberID = Subscriber.ID)) JOIN Measurement ON (SubscriberMeasurement.SignalID = Measurement.SignalID)); CREATE VIEW SubscriberMeasGroupDetail AS SELECT SubscriberMeasurementGroup.NodeID AS NodeID, SubscriberMeasurementGroup.SubscriberID AS SubscriberID, Subscriber.Acronym AS SubscriberAcronym, COALESCE(Subscriber.Name, '') AS SubscriberName, SubscriberMeasurementGroup.MeasurementGroupID AS MeasurementGroupID, SubscriberMeasurementGroup.Allowed AS Allowed, MeasurementGroup.Name AS MeasurementGroupName FROM ((SubscriberMeasurementGroup JOIN Subscriber ON (SubscriberMeasurementGroup.SubscriberID = Subscriber.ID)) JOIN MeasurementGroup ON (SubscriberMeasurementGroup.MeasurementGroupID = MeasurementGroup.ID)); CREATE VIEW MeasurementGroupMeasDetail AS SELECT MeasurementGroupMeasurement.MeasurementGroupID AS MeasurementGroupID, MeasurementGroup.Name AS MeasurementGroupName, MeasurementGroupMeasurement.SignalID AS SignalID, Measurement.PointID AS PointID, Measurement.PointTag AS PointTag, Measurement.SignalReference AS SignalReference FROM ((MeasurementGroupMeasurement JOIN MeasurementGroup ON (MeasurementGroupMeasurement.MeasurementGroupID = MeasurementGroup.ID)) JOIN Measurement ON (MeasurementGroupMeasurement.SignalID = Measurement.SignalID)); CREATE TRIGGER CustomActionAdapter_RuntimeSync_Insert AFTER INSERT ON CustomActionAdapter FOR EACH ROW INSERT INTO Runtime (SourceID, SourceTable) VALUES(NEW.ID, N'CustomActionAdapter'); CREATE TRIGGER CustomActionAdapter_RuntimeSync_Delete BEFORE DELETE ON CustomActionAdapter FOR EACH ROW DELETE FROM Runtime WHERE SourceID = OLD.ID AND SourceTable = N'CustomActionAdapter'; CREATE TRIGGER CustomInputAdapter_RuntimeSync_Insert AFTER INSERT ON CustomInputAdapter FOR EACH ROW INSERT INTO Runtime (SourceID, SourceTable) VALUES(NEW.ID, N'CustomInputAdapter'); CREATE TRIGGER CustomInputAdapter_RuntimeSync_Delete BEFORE DELETE ON CustomInputAdapter FOR EACH ROW DELETE FROM Runtime WHERE SourceID = OLD.ID AND SourceTable = N'CustomInputAdapter'; CREATE TRIGGER CustomOutputAdapter_RuntimeSync_Insert AFTER INSERT ON CustomOutputAdapter FOR EACH ROW INSERT INTO Runtime (SourceID, SourceTable) VALUES(NEW.ID, N'CustomOutputAdapter'); CREATE TRIGGER CustomOutputAdapter_RuntimeSync_Delete BEFORE DELETE ON CustomOutputAdapter FOR EACH ROW DELETE FROM Runtime WHERE SourceID = OLD.ID AND SourceTable = N'CustomOutputAdapter'; CREATE TRIGGER Device_RuntimeSync_Insert AFTER INSERT ON Device FOR EACH ROW INSERT INTO Runtime (SourceID, SourceTable) VALUES(NEW.ID, N'Device'); CREATE TRIGGER Device_RuntimeSync_Delete BEFORE DELETE ON Device FOR EACH ROW DELETE FROM Runtime WHERE SourceID = OLD.ID AND SourceTable = N'Device'; CREATE TRIGGER CalculatedMeasurement_RuntimeSync_Insert AFTER INSERT ON CalculatedMeasurement FOR EACH ROW INSERT INTO Runtime (SourceID, SourceTable) VALUES(NEW.ID, N'CalculatedMeasurement'); CREATE TRIGGER CalculatedMeasurement_RuntimeSync_Delete BEFORE DELETE ON CalculatedMeasurement FOR EACH ROW DELETE FROM Runtime WHERE SourceID = OLD.ID AND SourceTable = N'CalculatedMeasurement'; CREATE TRIGGER OutputStream_RuntimeSync_Insert AFTER INSERT ON OutputStream FOR EACH ROW INSERT INTO Runtime (SourceID, SourceTable) VALUES(NEW.ID, N'OutputStream'); CREATE TRIGGER OutputStream_RuntimeSync_Delete BEFORE DELETE ON OutputStream FOR EACH ROW DELETE FROM Runtime WHERE SourceID = OLD.ID AND SourceTable = N'OutputStream'; CREATE TRIGGER Historian_RuntimeSync_Insert AFTER INSERT ON Historian FOR EACH ROW INSERT INTO Runtime (SourceID, SourceTable) VALUES(NEW.ID, N'Historian'); CREATE TRIGGER Historian_RuntimeSync_Delete BEFORE DELETE ON Historian FOR EACH ROW DELETE FROM Runtime WHERE SourceID = OLD.ID AND SourceTable = N'Historian'; CREATE TRIGGER AccessLog_InsertDefault BEFORE INSERT ON AccessLog FOR EACH ROW SET NEW.CreatedOn = UTC_TIMESTAMP(); CREATE TRIGGER ApplicationRole_InsertDefault BEFORE INSERT ON ApplicationRole FOR EACH ROW SET NEW.ID = UUID(), NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER SecurityGroup_InsertDefault BEFORE INSERT ON SecurityGroup FOR EACH ROW SET NEW.ID = UUID(), NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER UserAccount_InsertDefault BEFORE INSERT ON UserAccount FOR EACH ROW SET NEW.ID = UUID(), NEW.ChangePasswordOn = ADDDATE(UTC_TIMESTAMP(), 90), NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER CalculatedMeasurement_InsertDefault BEFORE INSERT ON CalculatedMeasurement FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Company_InsertDefault BEFORE INSERT ON Company FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER CustomActionAdapter_InsertDefault BEFORE INSERT ON CustomActionAdapter FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER CustomInputAdapter_InsertDefault BEFORE INSERT ON CustomInputAdapter FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER CustomOutputAdapter_InsertDefault BEFORE INSERT ON CustomOutputAdapter FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Device_InsertDefault BEFORE INSERT ON Device FOR EACH ROW SET NEW.UniqueID = COALESCE(NEW.UniqueID, UUID()), NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Historian_InsertDefault BEFORE INSERT ON Historian FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Subscriber_InsertDefault BEFORE INSERT ON Subscriber FOR EACH ROW SET NEW.ID = UUID(), NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Measurement_InsertDefault BEFORE INSERT ON Measurement FOR EACH ROW SET NEW.SignalID = UUID(), NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Node_InsertDefault BEFORE INSERT ON Node FOR EACH ROW SET NEW.ID = UUID(), NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER OtherDevice_InsertDefault BEFORE INSERT ON OtherDevice FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER OutputStream_InsertDefault BEFORE INSERT ON OutputStream FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER OutputStreamDevice_InsertDefault BEFORE INSERT ON OutputStreamDevice FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER OutputStreamDeviceAnalog_InsertDefault BEFORE INSERT ON OutputStreamDeviceAnalog FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER OutputStreamDeviceDigital_InsertDefault BEFORE INSERT ON OutputStreamDeviceDigital FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER OutputStreamDevicePhasor_InsertDefault BEFORE INSERT ON OutputStreamDevicePhasor FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER OutputStreamMeasurement_InsertDefault BEFORE INSERT ON OutputStreamMeasurement FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Phasor_InsertDefault BEFORE INSERT ON Phasor FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Alarm_InsertDefault BEFORE INSERT ON Alarm FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER Vendor_InsertDefault BEFORE INSERT ON Vendor FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER VendorDevice_InsertDefault BEFORE INSERT ON VendorDevice FOR EACH ROW SET NEW.CreatedBy = USER(), NEW.CreatedOn = UTC_TIMESTAMP(), NEW.UpdatedBy = USER(), NEW.UpdatedOn = UTC_TIMESTAMP(); CREATE TRIGGER ErrorLog_InsertDefault BEFORE INSERT ON ErrorLog FOR EACH ROW SET NEW.CreatedOn = UTC_TIMESTAMP(); CREATE TRIGGER AuditLog_InsertDefault BEFORE INSERT ON AuditLog FOR EACH ROW SET NEW.UpdatedOn = UTC_TIMESTAMP(); /* CREATE FUNCTION StringToGuid(str CHAR(36)) RETURNS BINARY(16) RETURN CONCAT(UNHEX(LEFT(str, 8)), UNHEX(MID(str, 10, 4)), UNHEX(MID(str, 15, 4)), UNHEX(MID(str, 20, 4)), UNHEX(RIGHT(str, 12))); CREATE FUNCTION GuidToString(guid BINARY(16)) RETURNS CHAR(36) RETURN CONCAT(HEX(LEFT(guid, 4)), '-', HEX(MID(guid, 5, 2)), '-', HEX(MID(guid, 7, 2)), '-', HEX(MID(guid, 9, 2)), '-', HEX(RIGHT(guid, 6))); CREATE FUNCTION NewGuid() RETURNS BINARY(16) RETURN StringToGuid(UUID()); DELIMITER $$ CREATE PROCEDURE GetFormattedMeasurements(measurementSql TEXT, includeAdjustments TINYINT, OUT measurements TEXT) BEGIN DECLARE done INT DEFAULT 0; DECLARE measurementID INT; DECLARE archiveSource VARCHAR(50); DECLARE adder FLOAT DEFAULT 0.0; DECLARE multiplier FLOAT DEFAULT 1.1; DECLARE selectedMeasurements CURSOR FOR SELECT * FROM temp; DECLARE CONTINUE HANDLER FOR NOT FOUND SET done = 1; CREATE TEMPORARY TABLE temp ( MeasurementID INT, ArchiveSource VARCHAR(50), Adder FLOAT, Multiplier FLOAT ) TABLESPACE MEMORY; SET @insertSQL = CONCAT('INSERT INTO temp ', measurementSql); PREPARE stmt FROM @insertSQL; EXECUTE stmt; DEALLOCATE PREPARE stmt; OPEN selectedMeasurements; SET measurements = ''; -- Step through selected measurements REPEAT -- Get next row from measurements SQL FETCH selectedMeasurements INTO measurementID, archiveSource, adder, multiplier; IF NOT done THEN IF LENGTH(measurements) > 0 THEN SET measurements = CONCAT(measurements, ';'); END IF; IF includeAdjustments <> 0 AND (adder <> 0.0 OR multiplier <> 1.0) THEN SET measurements = CONCAT(measurements, archiveSource, ':', measurementID, ',', adder, ',', multiplier); ELSE SET measurements = CONCAT(measurements, archiveSource, ':', measurementID); END IF; END IF; UNTIL done END REPEAT; CLOSE selectedMeasurements; DROP TABLE temp; END$$ DELIMITER ; DELIMITER $$ CREATE FUNCTION FormatMeasurements(measurementSql TEXT, includeAdjustments TINYINT) RETURNS TEXT BEGIN DECLARE measurements TEXT; CALL GetFormattedMeasurements(measurementSql, includeAdjustments, measurements); IF LENGTH(measurements) > 0 THEN SET measurements = CONCAT('{', measurements, '}'); ELSE SET measurements = NULL; END IF; RETURN measurements; END$$ DELIMITER ; */