Scenario
I've created a windows service, but whenever I start it, it stops immediately. The service was concieved from a console application that used to subscribe to an event and watch processes on a server. If anything happened to process (i.e. It was killed), then the event would trigger the process to be restarted. The reason I'm telling you this is because the original code used to look like this:
Original Console App Code:
static void Main(string[] args)
{
StartProcess sp = new StartProcess();
//Note the readline that means the application sits here waiting for an event!
Console.ReadLine();
}
Now that this code has been turned into a Windows Service, it is essentially EXACTLY THE SAME. However, the service does not sit there waiting, even with the readline, it just ends.....
New Windows Service Code:
protected override void OnStart(string[] args)
{
ProcessMonitor pm = new ProcessMonitor();
Console.ReadLine();
}
Thoughts
Since the functionality is entirely encapsulated within this single class (It quite literally starts, sets up some events and waits) - How can I get the service to actually sit there and just wait? It seems to be ignoring the readline. However this works perfectly as a console application, it is just far more convenient to have it as a service.
Typically you would want something like this. As Joe mentioned in the comments you want Start to initialize and release control to another thread to make sure that you return within 30 seconds.
private readonly ProcessMonitor processMonitor = new ProcessMonitor();
protected override void OnStart(string[] args)
{
processMonitor.Start();
}
protected override void OnStop()
{
processMonitor.Stop();
}
In a Service there is no concept of a readline - there's no keyboard. I wouldn't be surprised if this is throwing an exception at that call. Have you checked your Application Log?
Well... A service doesn't have a console input/output. So the ReadLine won't stop it from executing.
What does ProcessMonitor do?
Typically, for services your code lives in a thread that monitors whether the service has been stopped or paused.
OnStart() must complete and end successfully for the service to be considered "Started"
Move your Console.ReadLine(); into your ProcessMonitor() constructor, and create your ProcessMonitor inside the constructor for the service. Your OnStart method can be empty. Despite what people are saying the Console methods will NOT crash your service, however it is probably not best practice. I guess the proper way to keep a service running (after your timers are started) is to use a while loop with a Thread.Sleep(60000) inside it.
When I am writing a service I put all the functionality in a Class Library project, then I create a Console Application project to test the service functionality, and then a Windows Service project. Both the Console Application and Windows Service project call one method in the Class Library to start the service functionality. If you use this technique you can call Console.WriteLine in the Class Library which can be viewed when running the Console Application. PS Topshelf is overrated, writing a windows service is not that difficult.
public partial class ProcessMonitor_Service : ServiceBase
{
public ProcessMonitor_Service()
{
InitializeComponent();
ProcessMonitor pm = new ProcessMonitor();
}
protected override void OnStart(string[] args)
{
}
protected override void OnStop()
{
}
}
public class ProcessMonitor
{
public ProcessMonitor()
{
// start timers
Console.ReadLine();
}
}
Is there an easier way to step through the code than to start the service through the Windows Service Control Manager and then attaching the debugger to the thread? It's kind of cumbersome and I'm wondering if there is a more straightforward approach.
If I want to quickly debug the service, I just drop in a Debugger.Break() in there. When that line is reached, it will drop me back to VS. Don't forget to remove that line when you are done.
UPDATE: As an alternative to #if DEBUG pragmas, you can also use Conditional("DEBUG_SERVICE") attribute.
[Conditional("DEBUG_SERVICE")]
private static void DebugMode()
{
Debugger.Break();
}
On your OnStart, just call this method:
public override void OnStart()
{
DebugMode();
/* ... do the rest */
}
There, the code will only be enabled during Debug builds. While you're at it, it might be useful to create a separate Build Configuration for service debugging.
I also think having a separate "version" for normal execution and as a service is the way to go, but is it really required to dedicate a separate command line switch for that purpose?
Couldn't you just do:
public static int Main(string[] args)
{
if (!Environment.UserInteractive)
{
// Startup as service.
}
else
{
// Startup as application
}
}
That would have the "benefit", that you can just start your app via doubleclick (OK, if you really need that) and that you can just hit F5 in Visual Studio (without the need to modify the project settings to include that /console Option).
Technically, the Environment.UserInteractive checks if the WSF_VISIBLE Flag is set for the current window station, but is there any other reason where it would return false, apart from being run as a (non-interactive) service?
When I set up a new service project a few weeks ago I found this post. While there are many great suggestions, I still didn't find the solution I wanted: The possibility to call the service classes' OnStart and OnStop methods without any modification to the service classes.
The solution I came up with uses the Environment.Interactive the select running mode, as suggested by other answers to this post.
static void Main()
{
ServiceBase[] servicesToRun;
servicesToRun = new ServiceBase[]
{
new MyService()
};
if (Environment.UserInteractive)
{
RunInteractive(servicesToRun);
}
else
{
ServiceBase.Run(servicesToRun);
}
}
The RunInteractive helper uses reflection to call the protected OnStart and OnStop methods:
static void RunInteractive(ServiceBase[] servicesToRun)
{
Console.WriteLine("Services running in interactive mode.");
Console.WriteLine();
MethodInfo onStartMethod = typeof(ServiceBase).GetMethod("OnStart",
BindingFlags.Instance | BindingFlags.NonPublic);
foreach (ServiceBase service in servicesToRun)
{
Console.Write("Starting {0}...", service.ServiceName);
onStartMethod.Invoke(service, new object[] { new string[] { } });
Console.Write("Started");
}
Console.WriteLine();
Console.WriteLine();
Console.WriteLine(
"Press any key to stop the services and end the process...");
Console.ReadKey();
Console.WriteLine();
MethodInfo onStopMethod = typeof(ServiceBase).GetMethod("OnStop",
BindingFlags.Instance | BindingFlags.NonPublic);
foreach (ServiceBase service in servicesToRun)
{
Console.Write("Stopping {0}...", service.ServiceName);
onStopMethod.Invoke(service, null);
Console.WriteLine("Stopped");
}
Console.WriteLine("All services stopped.");
// Keep the console alive for a second to allow the user to see the message.
Thread.Sleep(1000);
}
This is all the code required, but I also wrote walkthrough with explanations.
Sometimes it is important to analyze what's going on during the start up of the service. Attaching to the process does not help here, because you are not quick enough to attach the debugger while the service is starting up.
The short answer is, I am using the following 4 lines of code to do this:
#if DEBUG
base.RequestAdditionalTime(600000); // 600*1000ms = 10 minutes timeout
Debugger.Launch(); // launch and attach debugger
#endif
These are inserted into the OnStart method of the service as follows:
protected override void OnStart(string[] args)
{
#if DEBUG
base.RequestAdditionalTime(600000); // 10 minutes timeout for startup
Debugger.Launch(); // launch and attach debugger
#endif
MyInitOnstart(); // my individual initialization code for the service
// allow the base class to perform any work it needs to do
base.OnStart(args);
}
For those who haven't done it before, I have included detailed hints below, because you can easily get stuck. The following hints refer to Windows 7x64 and Visual Studio 2010 Team Edition, but should be valid for other (newer) environments, too.
Important: Deploy the service in "manual" mode (using either the InstallUtil utility from the VS command prompt or run a service installer project you have prepared). Open Visual Studio before you start the service and load the solution containing the service's source code - set up additional breakpoints as you require them in Visual Studio - then start the service via the Service Control Panel.
Because of the Debugger.Launch code, this will cause a dialog "An unhandled Microsoft .NET Framework exception occured in Servicename.exe." to appear. Click Yes, debug Servicename.exe as shown in the screenshot:
Afterwards, Windows UAC might prompt you to enter admin credentials. Enter them and proceed with Yes:
After that, the well known Visual Studio Just-In-Time Debugger window appears. It asks you if you want to debug using the delected debugger. Before you click Yes, select that you don't want to open a new instance (2nd option) - a new instance would not be helpful here, because the source code wouldn't be displayed. So you select the Visual Studio instance you've opened earlier instead:
After you have clicked Yes, after a while Visual Studio will show the yellow arrow right in the line where the Debugger.Launch statement is and you are able to debug your code (method MyInitOnStart, which contains your initialization).
Pressing F5 continues execution immediately, until the next breakpoint you have prepared is reached.
Hint: To keep the service running, select Debug -> Detach all. This allows you to run a client communicating with the service after it started up correctly and you're finished debugging the startup code. If you press Shift+F5 (stop debugging), this will terminate the service. Instead of doing this, you should use the Service Control Panel to stop it.
Note that
If you build a Release, then the debug code is automatically removed and the service runs normally.
I am using Debugger.Launch(), which starts and attaches a debugger. I have tested Debugger.Break() as well, which did not work, because there is no debugger attached on start up of the service yet (causing the "Error 1067: The process terminated unexpectedly.").
RequestAdditionalTime sets a longer timeout for the startup of the service (it is not delaying the code itself, but will immediately continue with the Debugger.Launch statement). Otherwise the default timeout for starting the service is too short and starting the service fails if you don't call base.Onstart(args) quickly enough from the debugger. Practically, a timeout of 10 minutes avoids that you see the message "the service did not respond..." immediately after the debugger is started.
Once you get used to it, this method is very easy because it just requires you to add 4 lines to an existing service code, allowing you quickly to gain control and debug.
What I usually do is encapsulate the logic of the service in a separate class and start that from a 'runner' class. This runner class can be the actual service or just a console application. So your solution has (atleast) 3 projects:
/ConsoleRunner
/....
/ServiceRunner
/....
/ApplicationLogic
/....
This YouTube video by Fabio Scopel explains how to debug a Windows service quite nicely... the actual method of doing it starts at 4:45 in the video...
Here is the code explained in the video... in your Program.cs file, add the stuff for the Debug section...
namespace YourNamespace
{
static class Program
{
/// <summary>
/// The main entry point for the application.
/// </summary>
static void Main()
{
#if DEBUG
Service1 myService = new Service1();
myService.OnDebug();
System.Threading.Thread.Sleep(System.Threading.Timeout.Infinite);
#else
ServiceBase[] ServicesToRun;
ServicesToRun = new ServiceBase[]
{
new Service1()
};
ServiceBase.Run(ServicesToRun);
#endif
}
}
}
In your Service1.cs file, add the OnDebug() method...
public Service1()
{
InitializeComponent();
}
public void OnDebug()
{
OnStart(null);
}
protected override void OnStart(string[] args)
{
// your code to do something
}
protected override void OnStop()
{
}
How it works
Basically you have to create a public void OnDebug() that calls the OnStart(string[] args) as it's protected and not accessible outside. The void Main() program is added with #if preprocessor with #DEBUG.
Visual Studio defines DEBUG if project is compiled in Debug mode.This will allow the debug section(below) to execute when the condition is true
Service1 myService = new Service1();
myService.OnDebug();
System.Threading.Thread.Sleep(System.Threading.Timeout.Infinite);
And it will run just like a console application, once things go OK you can change the mode Release and the regular else section will trigger the logic
UPDATE
This approach is by far the easiest:
http://www.codeproject.com/KB/dotnet/DebugWinServices.aspx
I leave my original answer below for posterity.
My services tend to have a class that encapsulates a Timer as I want the service to check at regular intervals whether there is any work for it to do.
We new up the class and call StartEventLoop() during the service start-up. (This class could easily be used from a console app too.)
The nice side-effect of this design is that the arguments with which you set up the Timer can be used to have a delay before the service actually starts working, so that you have time to attach a debugger manually.
p.s. How to attach the debugger manually to a running process...?
using System;
using System.Threading;
using System.Configuration;
public class ServiceEventHandler
{
Timer _timer;
public ServiceEventHandler()
{
// get configuration etc.
_timer = new Timer(
new TimerCallback(EventTimerCallback)
, null
, Timeout.Infinite
, Timeout.Infinite);
}
private void EventTimerCallback(object state)
{
// do something
}
public void StartEventLoop()
{
// wait a minute, then run every 30 minutes
_timer.Change(TimeSpan.Parse("00:01:00"), TimeSpan.Parse("00:30:00");
}
}
Also I used to do the following (already mentioned in previous answers but with the conditional compiler [#if] flags to help avoid it firing in a Release build).
I stopped doing it this way because sometimes we'd forget to build in Release and have a debugger break in an app running on a client demo (embarrasing!).
#if DEBUG
if (!System.Diagnostics.Debugger.IsAttached)
{
System.Diagnostics.Debugger.Break();
}
#endif
static void Main()
{
#if DEBUG
// Run as interactive exe in debug mode to allow easy
// debugging.
var service = new MyService();
service.OnStart(null);
// Sleep the main thread indefinitely while the service code
// runs in .OnStart
Thread.Sleep(Timeout.Infinite);
#else
// Run normally as service in release mode.
ServiceBase[] ServicesToRun;
ServicesToRun = new ServiceBase[]{ new MyService() };
ServiceBase.Run(ServicesToRun);
#endif
}
You can also start the service through the command prompt (sc.exe).
Personally, I'd run the code as a stand-alone program in the debugging phase, and when most bugs are ironed out, change to running as service.
What I used to do was to have a command line switch which would start the program either as a service or as a regular application. Then, in my IDE I would set the switch so that I could step through my code.
With some languages you can actually detect if it's running in an IDE, and perform this switch automatically.
What language are you using?
Use the TopShelf library.
Create a console application then configure setup in your Main
class Program
{
static void Main(string[] args)
{
HostFactory.Run(x =>
{
// setup service start and stop.
x.Service<Controller>(s =>
{
s.ConstructUsing(name => new Controller());
s.WhenStarted(controller => controller.Start());
s.WhenStopped(controller => controller.Stop());
});
// setup recovery here
x.EnableServiceRecovery(rc =>
{
rc.RestartService(delayInMinutes: 0);
rc.SetResetPeriod(days: 0);
});
x.RunAsLocalSystem();
});
}
}
public class Controller
{
public void Start()
{
}
public void Stop()
{
}
}
To debug your service, just hit F5 in visual studio.
To install service, type in cmd "console.exe install"
You can then start and stop service in the windows service manager.
I think it depends on what OS you are using, Vista is much harder to attach to Services, because of the separation between sessions.
The two options I've used in the past are:
Use GFlags (in the Debugging Tools for Windows) to setup a permanent debugger for a process. This exists in the "Image File Execution Options" registry key and is incredibly useful. I think you'll need to tweak the Service settings to enable "Interact with Desktop". I use this for all types of debugging, not just services.
The other option, is to separate the code a bit, so that the service part is interchangable with a normal app startup. That way, you can use a simple command line flag, and launch as a process (rather than a Service), which makes it much easier to debug.
Hope this helps.
I like to be able to debug every aspect of my service, including any initialization in OnStart(), while still executing it with full service behavior within the framework of the SCM... no "console" or "app" mode.
I do this by creating a second service, in the same project, to use for debugging. The debug service, when started as usual (i.e. in the services MMC plugin), creates the service host process. This gives you a process to attach the debugger to even though you haven't started your real service yet. After attaching the debugger to the process, start your real service and you can break into it anywhere in the service lifecycle, including OnStart().
Because it requires very minimal code intrusion, the debug service can easily be included in your service setup project, and is easily removed from your production release by commenting out a single line of code and deleting a single project installer.
Details:
1) Assuming you are implementing MyService, also create MyServiceDebug. Add both to the ServiceBase array in Program.cs like so:
/// <summary>
/// The main entry point for the application.
/// </summary>
static void Main()
{
ServiceBase[] ServicesToRun;
ServicesToRun = new ServiceBase[]
{
new MyService(),
new MyServiceDebug()
};
ServiceBase.Run(ServicesToRun);
}
2) Add the real service AND the debug service to the project installer for the service project:
Both services (real and debug) get included when you add the service project output to the setup project for the service. After installation, both services will appear in the service.msc MMC plugin.
3) Start the debug service in MMC.
4) In Visual Studio, attach the debugger to the process started by the debug service.
5) Start the real service and enjoy debugging.
When I write a service I put all the service logic in a dll project and create two "hosts" that call into this dll, one is a Windows service and the other is a command line application.
I use the command line application for debugging and attach the debugger to the real service only for bugs I can't reproduce in the command line application.
I you use this approach just remember that you have to test all the code while running in a real service, while the command line tool is a nice debugging aid it's a different environment and it doesn't behave exactly like a real service.
When developing and debugging a Windows service I typically run it as a console application by adding a /console startup parameter and checking this. Makes life much easier.
static void Main(string[] args) {
if (Console.In != StreamReader.Null) {
if (args.Length > 0 && args[0] == "/console") {
// Start your service work.
}
}
}
How about Debugger.Break() in the first line?
To debug Windows Services I combine GFlags and a .reg file created by regedit.
Run GFlags, specifying the exe-name and vsjitdebugger
Run regedit and go to the location where GFlags sets his options
Choose "Export Key" from the file-menu
Save that file somewhere with the .reg extension
Anytime you want to debug the service: doubleclick on the .reg file
If you want to stop debugging, doubleclick on the second .reg file
Or save the following snippets and replace servicename.exe with the desired executable name.
debugon.reg:
Windows Registry Editor Version 5.00
[HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\servicename.exe]
"GlobalFlag"="0x00000000"
"Debugger"="vsjitdebugger.exe"
debugoff.reg:
Windows Registry Editor Version 5.00
[HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\servicename.exe]
"GlobalFlag"="0x00000000"
Use Windows Service Template C# project to create a new service app https://github.com/HarpyWar/windows-service-template
There are console/service mode automatically detected, auto installer/deinstaller of your service and several most used features are included.
Here is the simple method which I used to test the service, without any additional "Debug" methods and with integrated VS Unit Tests.
[TestMethod]
public void TestMyService()
{
MyService fs = new MyService();
var OnStart = fs.GetType().BaseType.GetMethod("OnStart", BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Instance | BindingFlags.Static);
OnStart.Invoke(fs, new object[] { null });
}
// As an extension method
public static void Start(this ServiceBase service, List<string> parameters)
{
string[] par = parameters == null ? null : parameters.ToArray();
var OnStart = service.GetType().GetMethod("OnStart", BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Instance | BindingFlags.Static);
OnStart.Invoke(service, new object[] { par });
}
Just put your debugger launch anywhere and attach Visualstudio on startup
#if DEBUG
Debugger.Launch();
#endif
Also you need to start VS as Administatrator and you need to allow, that a process can automatically be debugged by a different user (as explained here):
reg add "HKCR\AppID{E62A7A31-6025-408E-87F6-81AEB0DC9347}" /v AppIDFlags /t REG_DWORD /d 8 /f
For routine small-stuff programming I've done a very simple trick to easily debug my service:
On start of the service, I check for a command line parameter "/debug". If the service is called with this parameter, I don't do the usual service startup, but instead start all the listeners and just display a messagebox "Debug in progress, press ok to end".
So if my service is started the usual way, it will start as service, if it is started with the command line parameter /debug it will act like a normal program.
In VS I'll just add /debug as debugging parameter and start the service program directly.
This way I can easily debug for most small kind problems. Of course, some stuff still will need to be debugged as service, but for 99% this is good enough.
#if DEBUG
System.Diagnostics.Debugger.Break();
#endif
I use a variation on JOP's answer. Using command line parameters you can set the debugging mode in the IDE with project properties or through the Windows service manager.
protected override void OnStart(string[] args)
{
if (args.Contains<string>("DEBUG_SERVICE"))
{
Debugger.Break();
}
...
}
For trouble-shooting on existing Windows Service program, use 'Debugger.Break()' as other guys suggested.
For new Windows Service program, I would suggest using James Michael Hare's method http://geekswithblogs.net/BlackRabbitCoder/archive/2011/03/01/c-toolbox-debug-able-self-installable-windows-service-template-redux.aspx
static class Program
{
static void Main()
{
#if DEBUG
// TODO: Add code to start application here
// //If the mode is in debugging
// //create a new service instance
Service1 myService = new Service1();
// //call the start method - this will start the Timer.
myService.Start();
// //Set the Thread to sleep
Thread.Sleep(300000);
// //Call the Stop method-this will stop the Timer.
myService.Stop();
#else
ServiceBase[] ServicesToRun;
ServicesToRun = new ServiceBase[]
{
new Service1()
};
ServiceBase.Run(ServicesToRun);
#endif
}
}
Just paste
Debugger.Break();
any where in you code.
For Example ,
internal static class Program
{
/// <summary>
/// The main entry point for the application.
/// </summary>
private static void Main()
{
Debugger.Break();
ServiceBase[] ServicesToRun;
ServicesToRun = new ServiceBase[]
{
new Service1()
};
ServiceBase.Run(ServicesToRun);
}
}
It will hit Debugger.Break(); when you run your program.
You have two options to do the debugging.
create a log file : Personally i prefer a separate log file like text file rather using the application log or event log.But this will cost you a lot on behalf of time, because its still hard to figure our where the exact error location is
Convert the application to console application : this will enable you, all the debugging tools which we can use in VS.
Please refer THIS blog post that i created for the topic.
The best option is to use the 'System.Diagnostics' namespace.
Enclose your code in if else block for debug mode and release mode as shown below to switch between debug and release mode in visual studio,
#if DEBUG // for debug mode
**Debugger.Launch();** //debugger will hit here
foreach (var job in JobFactory.GetJobs())
{
//do something
}
#else // for release mode
**Debugger.Launch();** //debugger will hit here
// write code here to do something in Release mode.
#endif
I was able to debug a windows service easily following this official documentation from Microsoft - https://learn.microsoft.com/en-us/dotnet/framework/windows-services/how-to-debug-windows-service-applications#how-to-run-a-windows-service-as-a-console-application.
It tells to run the windows service as a console app for debugging.