I am making an application which runs on our every PC in random times. It works fine, however if the PC is currently shutting down, then I can't read the WMI and i get some errors. So I need to determinate if a PC is shutting down currently, and so i could avoid these errors. Does anyone has an idee?
Thanks!
Call GetSystemMetrics with index SM_SHUTTINGDOWN (0x2000).
Create a hidden top-level window and listen for WM_ENDSESSION messages. The value of wParam will tell you whether the entire system is going down, or whether the user is logging off.
If your app is a console app then use SetConsoleCtrlHandler to register to receive shutdown notifications.
Any attempt to detect this situation will have a race condition: the system shutdown might start immediately after you detect that it's not shutting down, but before you try to perform the operations that won't work during shutdown. Thus your approach to fixing the problem is wrong. Instead you just need to handle the WMI read failures and determine if they're cause by system shutdown, and in this case abort the operation or proceed in whatever alternate way makes sense.
It might be possible to use a sort of synchronous shutdown detection mechanism where you can actually lock/delay the shutdown for a brief interval before it proceeds, and do your processing in that interval. If so, that would also be a safe approach without race conditions.
Related
I'm trying to send incoming messages to multiple stateful functions but I couldn't fully understand how to do. For the sake of understandability let's say one of my stateful function getting some integers and sending them to couple of remote functions. These functions adds this integers to their state values and saves it as the new state.
When one of these 2 remote functions fails, the other should continue to work the same way.
When the failed function recovered, it should process messages that it cannot process during failure.
I thought about sending them one after another as below, but I don't think it will work
context.send(RemoteFuncType1,someID,someInteger);
context.send(RemoteFuncType2,someID,someInteger);
...
how can I do this in a fault tolerant way?
if possible how it works in the background?
The way you are suggesting to do it is the correct way!
StateFun would deliver the messages to the remote functions in a consistent manner. If one of the functions is experiencing a short downtime, StateFun would retry sending the message until:
It would successfully deliver it (with back off)
A maximum timeout for retries would be reached. When a timeout is reached the whole StateFun job would be rewind to a
previously consistent checkpoint.
Since StateFun is managing message delivery and the state of the functions (remote included) it would make sure that a consistent state and message would be delivered to each function.
In your example: the second remote function would receive someInteger with whatever state it had before, once recovered.
To get a deeper understanding of how checkpointing works in Flink and how it enables exactly once processing I’d recommend the following:
https://ci.apache.org/projects/flink/flink-docs-stable/internals/stream_checkpointing.html
I have a process wherein a program running in an application server must access a table in an Oracle database server whenever at least one row exists in this table. Each row of data relates to a client requesting some number crunching performed by the program. The program can only perform this number crunching serially (that is, for one client at a time rather than multiple clients in parallel).
Thus, the program needs to be informed of when data is available in the database for it to process. I could either
have the program poll the database, or
have the database trigger the program.
QUESTION 1: Is there any conventional wisdom why one approach might be better than the other?
QUESTION 2: I wonder if programs have any issues "running" for months at a time (would any processes in the server stop or disrupt the program from running? -- if so I don't know how I'd learn there was a problem unless from angry customers). Anyone have experience running programs on a server for a long time without issues? Or, if the server does crash, is there a way to auto-start a (i.e. C language executable) program on it after the server re-boots, thus not requiring a human to start it specifically?
Any advice appreciated.
UPDATE 1: Client is waiting for results, but a couple seconds additional delay (from polling) isn't a deal breaker.
I would like to give a more generic answer...
There is no right answer that applies every time. Some times you need a trigger, and some times is better to poll.
But… 9 out of 10 times, polling is much more efficient, safe and fast than triggering.
It's really simple. A trigger needs to instantiate a single program, of whatever nature, for every shot. That is just not efficient most of the time. Some people will argue that that is required when response time is a factor, but even then, half of the times polling is better because:
1) Resources: With triggers, and say 100 messages, you will need resources for 100 threads, with 1 thread processing a packet of 100 messages you need resources for 1 program.
2) Monitoring: A thread processing packets can report time consumed constantly on a defined packet size, clearly indicating how it is performing and when and how is performance being affected. Try that with a billion triggers jumping around…
3) Speed: Instantiating threads and allocating their resources is very expensive. And don’t get me started if you are opening a transaction for each trigger. A simple program processing a say 100 meessage packet will always be much faster that initiating 100 triggers…
3) Reaction time: With polling you can not react to things on line. So, the only exception allowed to use polling is when a user is waiting for the message to be processed. But then you need to be very careful, because if you have lots of clients doing the same thing at the same time, triggering might respond LATER, than if you where doing fast polling.
My 2cts. This has been learned the hard way ..
1) have the program poll the database, since you don't want your database to be able to start host programs (because you'd have to make sure that only "your" program can be started this way).
The classic (and most convenient IMO) way for doing this in Oracle would be through the DBMS_ALERT package.
The first program would signal an alert with a certain name, passing an optional message. A second program which registered for the alert would wait and receive it immediatly after the first program commits. A rollback of the first program would cancel the alert.
Of cause you can have many sessions signaling and waiting for alerts. However, an alert is a serialization device, so if one program signaled an alert, other programs signaling the same alert name will be blocked until the first one commits or rolls back.
Table DBMS_ALERT_INFO contains all the sessions which have registered for an alert. You can use this to check if the alert-processing is alive.
2) autostarting or background execution depends on your host platform and OS. In Windows you can use SRVANY.EXE to run any executable as a service.
I recommend using a C program to poll the database and a utility such as monit to restart the C program if there are any problems. Your C program can touch a file once in a while to indicate that it is still functioning properly, and monit can monitor the file. Monit can also check the process directly and make sure it isn't using too much memory.
For more information you could see my answer of this other question:
When a new row in database is added, an external command line program must be invoked
Alternatively, if people aren't sitting around waiting for the computation to finish, you could use a cron job to run the C program on a regular basis (e.g. every minute). Then monit would be less needed because your C program will start and stop all the time.
You might want to look into Oracle's "Change Notification":
http://docs.oracle.com/cd/E11882_01/appdev.112/e25518/adfns_cqn.htm
I don't know how well this integrates with a "regular" C program though.
It's also available through .Net and Java/JDBC
http://docs.oracle.com/cd/E11882_01/win.112/e23174/featChange.htm
http://docs.oracle.com/cd/E11882_01/java.112/e16548/dbchgnf.htm
There are simple job managers like gearman that you can use to send a job message from the database to a worker. Gearman has among others a MySQL user defined function interface, so it is probably easy to build one for oracle as well.
I have a WPF program that communicates with a specialized USB stick that is collecting data (in fact an ANT USB dongle). I noticed that the data collection simply stopped after a few hours. The reason was evident in the windows logs (system) where at the exact time the program stopped getting data, I see:
The system is entering sleep
Sleep Reason: System Idle
Questions
How do I programmatically prevent Windows from going to sleep so that I can continue to gather data?
2. Stepping backwards for the big picuture view... What's going on? Why does the computer going to sleep affect my program? Or is it just affecting the USB stick? Is it necessary to prevent sleep or should I do something else instead?
Einstein's answer is tantalizingly close. I just can't seem to get SetThreadExecutionState working in my C#/WPF program and can't find a lot of examples or discussions of it. Does it need to be called more than once? If so how? Is there a event that I receive that tell me to call it or should I call it every so often (5 minutes?) as suggested in:http://stackoverflow.com/questions/5870280/setthreadexecutionstate-is-not-working-when-called-from-windows-service
For now, I'm just going into ctrl panel -> power options and preventing sleep but it would sure be nice to have an elegant solution. Even on my own computer, I don't want to mess with the sleep settings. It's too hard to remember to set them back again!
You can prevent the computer from entering low power modes (sleep/suspend) by using the SetThreadExecutionState function.
As far as why going into low power mode is interrupting your data collection - well Windows suspends all processes in these modes and USB ports enter low power mode which likely means your USB device will not have power either. It's by design. After all, the whole reason we want our computers to go to sleep is so that the battery is not drained.
You can apply the above responses, o simply you can go in Control Panel -> Power Options and modify the settings, so your system never goes to sleep.
To 1): You can use SystemParametersInfo with one of the power related values on Windows versions less than Vista to turn on/off power savings settings. Starting with Vista, you should register for one of the power events instead, and the OS will notify you when it needs to for the event you request.
To 2): If the OS shuts down, the hardware it's managing shuts down. What else would you expect to happen? If the OS runs the USB device driver, which runs the USB device, what would you think would happen if the OS goes to sleep? The USB device begins running itself instead without the driver?
I have an system running embedded linux and it is critical that it runs continuously. Basically it is a process for communicating to sensors and relaying that data to database and web client.
If a crash occurs, how do I restart the application automatically?
Also, there are several threads doing polling(eg sockets & uart communications). How do I ensure none of the threads get hung up or exit unexpectedly? Is there an easy to use watchdog that is threading friendly?
You can seamlessly restart your process as it dies with fork and waitpid as described in this answer. It does not cost any significant resources, since the OS will share the memory pages.
Which leaves only the problem of detecting a hung process. You can use any of the solutions pointed out by Michael Aaron Safyan for this, but a yet easier solution would be to use the alarm syscall repeatedly, having the signal terminate the process (use sigaction accordingly). As long as you keep calling alarm (i.e. as long as your program is running) it will keep running. Once you don't, the signal will fire.
That way, no extra programs needed, and only portable POSIX stuff used.
The gist of it is:
You need to detect if the program is still running and not hung.
You need to (re)start the program if the program is not running or is hung.
There are a number of different ways to do #1, but two that come to mind are:
Listening on a UNIX domain socket, to handle status requests. An external application can then inquire as to whether the application is still ok. If it gets no response within some timeout period, then it can be assumed that the application being queried has deadlocked or is dead.
Periodically touching a file with a preselected path. An external application can look a the timestamp for the file, and if it is stale, then it can assume that the appliation is dead or deadlocked.
With respect to #2, killing the previous PID and using fork+exec to launch a new process is typical. You might also consider making your application that runs "continuously", into an application that runs once, but then use "cron" or some other application to continuously rerun that single-run application.
Unfortunately, watchdog timers and getting out of deadlock are non-trivial issues. I don't know of any generic way to do it, and the few that I've seen are pretty ugly and not 100% bug-free. However, tsan can help detect potential deadlock scenarios and other threading issues with static analysis.
You could create a CRON job to check if the process is running with start-stop-daemon from time to time.
use this script for running your application
#!/bin/bash
while ! /path/to/program #This will wait for the program to exit successfully.
do
echo “restarting” # Else it will restart.
done
you can also put this script on your /etc/init.d/ in other to start as daemon
While implementing an applicative server and its client-side libraries in C++, I am having trouble finding a clean and reliable way to stop client processes on server shutdown on Windows.
Assuming the server and its clients run under the same user, the requirements are:
the solution should work in the following cases:
clients may each feature either a console or a gui.
user may be unprivileged.
clients may be or become unresponsive (infinite loop, deadlock).
clients may or may not be children of the server (direct or indirect).
unless prevented by a client-side defect, clients shall be allowed the opportunity to exit cleanly (free their ressources, sync some data to disk...) and some reasonable time to do so.
all client return codes shall be made available (if possible) to the server during the shutdown procedure.
server shall wait until all clients are gone.
As of this edit, the majority of the answers below advocate the use of a shared memory (or another IPC mechanism) between the server and its clients to convey shutdown orders and client status. These solutions would work, but require that clients successfully initialize the library.
What I did not say, is that the server is also used to start the clients and in some cases other programs/scripts which don't use the client library at all. A solution that did not rely on a graceful communication between server and clients would be nicer (if possible).
Some time ago, I stumbled upon a C snippet (in the MSDN I believe) that did the following:
start a thread via CreateRemoteThread in the process to shutdown.
had that thread directly call ExitProcess.
Unfortunately now that I'm looking for it, I'm unable to find it and the search results seem to imply that this trick does not work anymore on Vista. Any expert input on this ?
If you use thread, a simple solution is to use a named system event, the thread sleeps on the event waiting for it to be signaled, the control application can signal the event when it wants the client applications to quit.
For the UI application it (the thread) can post a message to the main window, WM_ CLOSE or QUIT I forget which, in the console application it can issue a CTRL-C or if the main console code loops it can check some exit condition set by the thread.
Either way rather than finding the client applications an telling them to quit, use the OS to signal they should quit. The sleeping thread will use virtually no CPU footprint provided it uses WaitForSingleObject to sleep on.
You want some sort of IPC between clients and servers. If all clients were children, I think pipes would have been easiest; since they're not, I guess a server-operated shared-memory segment can be used to register clients, issue the shutdown command, and collect return codes posted there by clients successfully shutting down.
In this shared-memory area, clients put their process IDs, so that the server can forcefully kill any unresponsive clients (modulo server privileges), using TerminateProcess().
If you are willing to go the IPC route, make the normal communication between client and server bi-directional to let the server ask the clients to shut down. Or, failing that, have the clients poll. Or as the last resort, the clients should be instructed to exit when the make a request to server. You can let the library user register an exit callback, but the best way I know of is to simply call "exit" in the client library when the client is told to shut down. If the client gets stuck in shutdown code, the server needs to be able to work around it by ignoring that client's data structures and connection.
Use PostMessage or a named event.
Re: PostMessage -- applications other than GUIs, as well as threads other than the GUI thread, can have message loops and it's very useful for stuff like this. (In fact COM uses message loops under the hood.) I've done it before with ATL but am a little rusty with that.
If you want to be robust to malicious attacks from "bad" processes, include a private key shared by client/server as one of the parameters in the message.
The named event approach is probably simpler; use CreateEvent with a name that is a secret shared by the client/server, and have the appropriate app check the status of the event (e.g. WaitForSingleObject with a timeout of 0) within its main loop to determine whether to shut down.
That's a very general question, and there are some inconsistencies.
While it is a not 100% rule, most console applications run to completion, whereas GUI applications run until the user terminates them (And services run until stopped via the SCM). Hence, it's easier to request a GUI to close. You send them the equivalent of Alt-F4. But for a console program, you have to send them the equivalent of Ctrl-C and hope they handle it. In both cases, you simply wait. If the process sticks around, you then shoot it down (TerminateProcess) and pray that the damage is limited. But your HDD can fill up with temporary files.
GUI application in general do not have exit codes - where would they go? And a console process that is forcefully terminated by definition does not exit, so it has no exit code. So, in a server shutdown scenario, don't expect exit codes.
If you've got a debugger attached, you generally can't shutdown the process from another application. That would make it impossible for debuggers to debug exit code!