- 1 Task Manager Interface
- 2 Initial Configuration
- 3 Configuring the Tasks
- 4 Check Configuration
- 5 Task List and Data Channels
- 6 Port Options
- 7 Reference Information
Task Manager Interface
The task manager is your first stop for telling the IoTServer what you want it to do. There are 32 slots that may be occupied by some function, typically a protocol engine or other application. This means you could hypothetically have up to 30 different protocols all talking to each other via the IoTServer, if we actually had that many protocols to pick from.
Select the task you want to configure from the drop-down list, or select an empty slot to assign to a new function. An empty slot is simply denoted "Data Channel N". When assigned to a function, that slot will take on the name of the function.
Different protocols, applications, or task types will have different requirements for configuring the task. The specific configuration parameters for each available task function are given at the links below. Regardless of task type, each task will have certain attributes in common as described here.
Click the Refresh button to have the web UI query the actual task and obtain its present configuration parameters.
If you change any of the settings, click Save Settings to retain and register them. In some cases it may be necessary to stop the task first. In almost all cases, it is necessary to restart the task to cause the new settings to take effect.
The file selected from the drop-down list below will appear in the Configuration File box. If you want to configure the task from an XML file, select that file, and click the Load button. In the case of protocol engines, this will most often include loading all of its read/write maps, rules, etc.
To save configuration for the given task, select or enter a file name, and click the Save Config button. In the case of a protocol engine, this means saving its read/write maps, rules, etc.
IMPORTANT: The task manager configuration, i.e. settings registered by clicking Save Settings, are retained in the XML file for the task manager itself. To save these settings in an XML file, select Task Manager from the list at the top, and click Save Config there.
The file management provided here is most often mirrored on the Config File page of the given task. The drop-down list will show a list of all configuration files currently found in the device's configuration folder. When you select an XML file from this list, the name will be copied to the Configuration File window for pending load or save.
You may view the selected file by simply clicking View. You can delete the file by clicking Delete.
You may upload files to the IoTServer from your PC. Start by clicking Browse, and then use the browser's file dialog to locate the file on your PC. Once a file is selected on your PC, click the "Start upload" button to initiate the transfer.
You may also download files from the IoTServer to your PC. Click the Download button to transfer the selected file to your PC.
Stop Tasks - Stops all tasks except the task manager itself. If you want to selectively stop only one task, you can do that from the Task Status page.
Force Kill Tasks - The "stop task" is a request submitted to the task asking it to stop itself. However, if a task is hung in a manner that prevents it from responding to that task, this button will forcefully kill the tasks that remain in a state other than stopped after attempting to stop them.
Check Config - There are certain configuration restrictions such as you cannot have more than one SNMP Trap Receiver configured in the system, cannot have more than one Primary Modbus Server, etc. Clicking Check Config will check to see if you have configured anything that creates a conflict, and provide a message to that effect if so.
Restart Tasks - Restarts all configured tasks that have been stopped.
Force Reconfig - Will delete all internal configuration databases and force reconfiguration from XML configuration files. Tasks should first be stopped - this action will not be permitted if tasks are still running. USE WITH CAUTION. If you have made configuration changes that were saved to the database but not explicitly saved to an XML file, those changes will be lost with Force Reconfig.
Reboot Device - This will gracefully shut down the system and reboot. It will accomplish the same thing as a power cycle, but do so more gracefully.
The IoTServer (Babel Buster 4) will arrive with only the Data Engine configured to start on power-up. The configuration library provided will be a minimal configuration for each possible protocol. These serve as a starting point to bring up that protocol. Once running, you can proceed to edit or upload additional more extensive configurations.
Configuring the Tasks
IMPORTANT: If you are going to reconfigure a task that was previously running, STOP the task first, then restart it after reconfiguring. Do not suspend and resume. If just suspended, the resume will continue attempting to run whatever that task's old configuration was.
There is a Check Config button toward the bottom of the Task Configuration page. After you have configured your various tasks, click this button to check for conflicts. If there are conflicts in the configuration, you will see an error message displayed at the top of the Task Configuration page. An example looks like this:
There can be only one primary Modbus server (slave). All additional servers or slaves must be defined as secondary. If you try to configure multiple primary servers, this is the message you will get when you click Check Config.
Task List and Data Channels
An example of a set of configured tasks appears above. There are some restrictions on what can be configured where. The Data Engine (data object manager) will always be task 0. The SNMP Agent will always be task 1. The serial protocol for serial port 2 will always be task 2. The serial protocol for serial port 3 will always be task 3. After that, any number of protocol engines or other applications may be assigned as task 4 and up.
The task number and data channel number are always the same number. The "channel number" has significance in that a set of internal flags is maintained that allows each task to inform other tasks when new data is available in any given global data object.
The options currently available for serial port 2, assigned to task 2, is illustrated above.
The options currently available for serial port 3, assigned to task 3, is illustrated above.
The options currently available for Ethernet applications as tasks 4 and up are illustrated above.