System information
Table Of Contents
- Table of Contents
- 1 Introduction to the SmartServer SOAP/XML Interface
- 2 SOAP Messages and the SmartServer WSDL File
- 2.1 SmartServer Naming Structure
- 2.2 SmartServer WSDL File
- 2.3 Security
- 2.4 SOAP Request and Response Message Structure
- 2.5 SOAP Messages Formats
- 2.6 Data Point References
- 2.7 UCPTcurrentConfig
- 2.8 Fault Structure
- 2.9 LonString type
- 2.10 SOAP Message Examples
- 3 SmartServer Applications and the SOAP/XML Interface
- 3.1 Overview of SmartServer Applications
- 3.2 SmartServer XML Configuration Files
- 3.3 SmartServer Resource Files
- 3.3.1 Standard Network Variable Type (SNVT) Device Resource Files
- 3.3.2 Standard Configuration Property Type (SCPT) Device Resource Files
- 3.3.3 User Defined Network Variable Type (UNVT) Device Resource Files
- 3.3.4 User Defined Configuration Property Type (UCPT) Device Resource Files
- 3.3.5 Data Point Templates
- 3.3.6 Data Formatting
- 3.4 SOAP Functions
- 3.5 Performance Issues
- 4 Using the SmartServer Data Server
- 4.1 Creating and Modifying the Data Point XML Files
- 4.2 Overview of the Data Point XML File
- 4.3 Data Server SOAP Interface
- 4.3.1 Using the List Function on the Data Server
- 4.3.2 Using the Get Function on the Data Server
- 4.3.3 Using the Set Function on the Data Server
- 4.3.4 Using the Read Function on the Data Server
- 4.3.5 Using the Write Function on the Data Server
- 4.3.6 Using the Invoke Function to Reset Data Point Priorities
- 4.3.7 Data Point Values and Priority Levels
- 4.3.8 Using the Delete Function on the Data Server
- 4.4 Using the Web Binder Application
- 5 Data Loggers
- 5.1 Overview of the Data Logger XML File
- 5.2 Creating and Modifying the Data Logger XML File
- 5.3 Data Logger SOAP Interface
- 6 Alarm Generator
- 6.1 Overview of the Alarm Generator XML File
- 6.2 Creating and Modifying the Alarm Generator XML File
- 6.3 Alarm Generator SOAP Interface
- 7 Alarm Notifier
- 7.1 Overview of the AlarmNotifier XML File
- 7.2 Creating and Modifying the Alarm Notifier XML File
- 7.3 Alarm Notifier SOAP Interface
- 7.3.1 Using the List Function on an Alarm Notifier
- 7.3.2 Using the Get Function on an Alarm Notifier
- 7.3.3 Using the Set Function on an Alarm Notifier
- 7.3.4 Using the Read Function on an Alarm Notifier
- 7.3.5 Using the Write Function on an Alarm Notifier Log File
- 7.3.6 Using the Clear Function on an Alarm Notifier Log File
- 7.3.7 Using the Delete Function on an Alarm Notifier
- 8 Analog Function Block
- 9 Scheduler
- 9.1 Overview of the Scheduler XML File
- 9.2 Creating and Modifying the Scheduler XML File
- 9.3 Scheduler SOAP Interface
- 10 Calendar
- 10.1 Overview of the Calendar XML File
- 10.2 Creating and Modifying the Calendar XML File
- 10.3 Calendar SOAP Interface
- 11 Real Time Clock
- 12 Type Translator
- 12.1 Overview of the Type Translator XML File
- 12.2 Creating and Modifying the Type Translator XML File
- 12.3 Type Translator SOAP Interface
- 12.3.1 Using the List Function on a Type Translator
- 12.3.2 Using the Get Function on a Type Translator
- 12.3.3 Using the Set Function on a Type Translator
- 12.3.4 Pre Defined Type Translator Rules
- 12.3.4.1 16xSNVT_switch_TO_SNVT_state
- 12.3.4.2 SNVT_lev_disc_TO_SNVT_occupancy
- 12.3.4.3 SNVT_lev_disc_TO_SNVT_switch
- 12.3.4.4 SNVT_occupancy_TO_SNVT_setting
- 12.3.4.5 SNVT_scene_TO_SNVT_setting
- 12.3.4.6 SNVT_scene_TO_SNVT_switch
- 12.3.4.7 SNVT_setting_TO_SNVT_switch
- 12.3.4.8 SNVT_state_TO_16xSNVT_switch
- 12.3.4.9 SNVT_switch_TO_SNVT_lev_disc
- 13 Type Translator Rules
- 14 LonWorks Driver
- 14.1 LonWorks Networks
- 14.2 LonWorks Channels
- 14.3 LonWorks Devices
- 14.4 Routers
- 14.5 Remote Network Interface
- 14.6 LonWorks Functional Blocks
- 14.7 Network Variables (LonWorks Data Points)
- 14.8 Configuration Properties (LonWorks Data Points)
- 14.9 LonWorks Connections
- 15 Modbus Driver
- 16 M Bus Driver
- 17 Virtual Driver
- 18 File System Data
- 19 System Information Methods
- 20 Using the SOAP Interface as a Web Service
- 21 Programming Examples
- 21.1 Visual C#.NET Examples
- 21.1.1 Reading and Writing Data Point Values in Visual C# .NET
- 21.1.2 Creating and Reading a Data Logger in Visual C# .NET
- 21.1.3 Creating a Scheduler and Calendar in Visual C# .NET
- 21.1.4 Creating and Installing a LonWorks Device in Visual C# .NET
- 21.1.5 Commissioning External Devices in Visual C# .NET
- 21.1.6 Discovering and Installing External Devices in Visual C# .NET
- 21.1.7 Configuring the SmartServer in Visual C# .NET
- 21.2 Visual Basic.NET Examples
- 21.2.1 Reading and Writing Data Point Values in Visual Basic.NET
- 21.2.2 Creating and Reading a Data Logger in Visual Basic. NET
- 21.2.3 Creating a Scheduler and Calendar in Visual Basic.NET
- 21.2.4 Creating and Installing a LonWorks Device in Visual Basic.NET
- 21.2.5 Commissioning External Devices in Visual Basic.NET
- 21.2.6 Discovering and Installing External Devices in Visual Basic.NET
- 21.2.7 Configuring the SmartServer in Visual Basic.NET
- 21.1 Visual C#.NET Examples
- 22 Programming the SmartServer with Java
- Appendix A: SOAP Tester Example
i.LON SmartServer 2.0 Programmer’s Reference
9-12
9.3.3
Using the Read Function on a Scheduler
You can use the Read function to retrieve the events scheduled in any Scheduler that you have added
to the SmartServer. You can filter events using an xSelect statement and specifying one or more
Scheduler items. You can use the following filters in an xSelect statement when using the Read
function on a Scheduler:
UCPTlastUpdate
When an event occurs. You can compare the specified start and stop
times using equal, less (or equal), great (or equal). UCPTstop is set
to time of last shown event. You need to check whether UCPTstop
differs from UCPTlastUpdate to make the next request start from the
UCPTstop time.
UCPTeventFilter This property may have one of following values:
• EF_NUL: Show all events. This is the same as not specifying
and UCPTeventFilter.
• EF_DAY: Show only first event scheduled for each day.
• EF_SCHEDULE: Show only one event for each scheduler.
position() Position of the event in previously selected list. You can use this
filter to limit the number of events in a result. You can compare the
number of events to be returned using equal, less (or equal), or great
(or equal). You can request a maximum of 2,500 events; however,
more than 2,500 events may be returned.
Note: The last instance of an event before the specified start date is
always returned (if it exists), and it is not counted by the position()
constraint.
You can include one item of type UFPTscheduler_Calendar_Request_Data, which causes a Read
function on a Calendar item. This information is used to calculate date-based events. You can also
include an item of type UFPTscheduler_RealTimeClock_Request_Data, which defines start point for
relative times for each day. By default, all relative times are calculated from 0:00:00. If calendar
and/or real time clock data is specified, the data in the response is bound to given start and stop dates.
Request
<Read xmlns="http://wsdl.echelon.com/web_services_ns/ilon100/v4.0/message/">
<iLonItem>
<xSelect> //Item[@xsi:type="UFPTscheduler_Data"]
[UCPTlastUpdate>= "2008-03-01T00:00:00.000" and
UCPTlastUpdate<= "2008-04-01T00:00:00.000"]
[UCPTeventFilter="EF_NUL"]
[position()<500]
</xSelect>
<Item xsi:type="UFPTscheduler_Calendar_Request_Data">
<UCPTname>Net/LON/iLON App/Calendar</UCPTname>
</Item>
<Item xsi:type="UFPTscheduler_RealTimeClock_Request_Data">
<UCPTname>Net/LON/iLON App/Real Time Clock</UCPTname>
</Item>
<Item>
<UCPTname>Net/LON/iLON App/Scheduler[0]__TEMP_OBJECT</UCPTname>
</Item>
</iLonItem>
</Read>
Response
<ReadResponse xmlns="http://wsdl.echelon.com/web_services_ns/ilon100/v4.0/message/">
<iLonItem >
<UCPTfaultCount>0</UCPTfaultCount>