Careful with this one. Yes it works, but you only need it, if there is no Windows service. Windows services are collected by the agent by default, you just need to tell checkmk, that it should monitor a specific service as outlined by @jan.filo.
An enforced service is only necessary, if you want to monitor a process that might vanish, or the other way around: A service that should not be there.
Microsoft Windows services, formerly known as NT services, enable you to create long-running executable applications that run in their own Windows sessions. These services can be automatically started when the computer boots, can be paused and restarted, and do not show any user interface. These features make services ideal for use on a server or whenever you need long-running functionality that does not interfere with other users who are working on the same computer. You can also run services in the security context of a specific user account that is different from the logged-on user or the default computer account. For more information about services and Windows sessions, see the Windows SDK documentation.
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You can easily create services by creating an application that is installed as a service. For example, suppose you want to monitor performance counter data and react to threshold values. You could write a Windows Service application that listens to the performance counter data, deploy the application, and begin collecting and analyzing data.
You create your service as a Microsoft Visual Studio project, defining code within it that controls what commands can be sent to the service and what actions should be taken when those commands are received. Commands that can be sent to a service include starting, pausing, resuming, and stopping the service; you can also execute custom commands.
After you create and build the application, you can install it by running the command-line utility InstallUtil.exe and passing the path to the service's executable file. You can then use the Services Control Manager to start, stop, pause, resume, and configure your service. You can also accomplish many of these same tasks in the Services node in Server Explorer or by using the ServiceController class.
The compiled executable file that a service application project creates must be installed on the server before the project can function in a meaningful way. You cannot debug or run a service application by pressing F5 or F11; you cannot immediately run a service or step into its code. Instead, you must install and start your service, and then attach a debugger to the service's process. For more information, see How to: Debug Windows Service Applications.
Unlike some types of projects, you must create installation components for service applications. The installation components install and register the service on the server and create an entry for your service with the Windows Services Control Manager. For more information, see How to: Add Installers to Your Service Application.
The Main method for your service application must issue the Run command for the services your project contains. The Run method loads the services into the Services Control Manager on the appropriate server. If you use the Windows Services project template, this method is written for you automatically. Note that loading a service is not the same thing as starting the service. See "Service Lifetime" below for more information.
Windows Service applications run in a different window station than the interactive station of the logged-on user. A window station is a secure object that contains a Clipboard, a set of global atoms, and a group of desktop objects. Because the station of the Windows service is not an interactive station, dialog boxes raised from within a Windows service application will not be seen and may cause your program to stop responding. Similarly, error messages should be logged in the Windows event log rather than raised in the user interface.
The Windows service classes supported by the .NET Framework do not support interaction with interactive stations, that is, the logged-on user. The .NET Framework also does not include classes that represent stations and desktops. If your Windows service must interact with other stations, you will need to access the unmanaged Windows API. For more information, see the Windows SDK documentation.
The interaction of the Windows service with the user or other stations must be carefully designed to include scenarios such as there being no logged on user, or the user having an unexpected set of desktop objects. In some cases, it may be more appropriate to write a Windows application that runs under the control of the user.
Windows service applications run in their own security context and are started before the user logs into the Windows computer on which they are installed. You should plan carefully what user account to run the service within; a service running under the system account has more permissions and privileges than a user account.
A service goes through several internal states in its lifetime. First, the service is installed onto the system on which it will run. This process executes the installers for the service project and loads the service into the Services Control Manager for that computer. The Services Control Manager is the central utility provided by Windows to administer services.
After the service has been loaded, it must be started. Starting the service allows it to begin functioning. You can start a service from the Services Control Manager, from Server Explorer, or from code by calling the Start method. The Start method passes processing to the application's OnStart method and processes any code you have defined there.
A running service can exist in this state indefinitely until it is either stopped or paused or until the computer shuts down. A service can exist in one of three basic states: Running, Paused, or Stopped. The service can also report the state of a pending command: ContinuePending, PausePending, StartPending, or StopPending. These statuses indicate that a command has been issued, such as a command to pause a running service, but has not been carried out yet. You can query the Status to determine what state a service is in, or use the WaitForStatus to carry out an action when any of these states occurs.
You can pause, stop, or resume a service from the Services Control Manager, from Server Explorer, or by calling methods in code. Each of these actions can call an associated procedure in the service (OnStop, OnPause, or OnContinue), in which you can define additional processing to be performed when the service changes state.
There are two types of services you can create in Visual Studio using the .NET Framework. Services that are the only service in a process are assigned the type Win32OwnProcess. Services that share a process with another service are assigned the type Win32ShareProcess. You can retrieve the service type by querying the ServiceType property.
The ServiceController component is used to connect to an installed service and manipulate its state; using a ServiceController component, you can start and stop a service, pause and continue its functioning, and send custom commands to a service. However, you do not need to use a ServiceController component when you create a service application. In fact, in most cases your ServiceController component should exist in a separate application from the Windows service application that defines your service.
Projects containing Windows services must have installation components for the project and its services. This can be easily accomplished from the Properties window. For more information, see How to: Add Installers to Your Service Application.
Not at the moment. There is feature request since quite some time now:
github.com/owncloud/client Issue: Desktop Client: Run as a Windows Serviceopened by MTRichardson 2014-03-17As an administrator, I would like to run ownCloud as a Windows service so that I can sync between a server... Enhancement blue-ticket
Installing walk-up service windows at your business can be a great idea for a number of reasons. These function in much the same way as drive-up windows, only for foot traffic. Although quick-service restaurants are the most common application for these products, there are a wide range of businesses that can take advantage of them. These include pharmacies, banks, coffee shops and more. Adding pick-up windows to your location means you can enjoy advantages such as:
How do I uninstall a Windows Service when there is no executable for it left on the system? I can not run installutil -u since there is not executable left on the system. I can still see an entry for the service in the Services console.
Alternatively, you can directly call the DeleteService() api. That way is a little more complex, since you need to get a handle to the service control manager via OpenSCManager() and so on, but on the other hand it gives you more control over what is happening.
I've dug into this a little more.
During the black screen, if I kill the App Readiness service then the black screen instantly disappears.
Given that App Readiness should only run during the first log on of a new user, I think that it's kicking in before the FSLogix profile has fully mounted, i.e. :
Windows 10 thinks it's a new user
AppReadiness triggers
Profile container fully mounts
Appreadiness clashes with the now mounted profile.
@OffColour1972 Using Windows 10, Version 2004, Multi-Session, WVD, FSlogix, and Azure files... all users started getting this after a few weeks use of WVD. True, if I disable app readiness service and reboot the login is quick and works as expected. However, Outlook and Office issues start arising and it has to be enabled again. All updates are installed but no fix found at present. Anyone else found a fix? 589ccfa754
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