Is "Out Of Memory" A Recoverable Error?
Asked Answered
R

24

79

I've been programming a long time, and the programs I see, when they run out of memory, attempt to clean up and exit, i.e. fail gracefully. I can't remember the last time I saw one actually attempt to recover and continue operating normally.

So much processing relies on being able to successfully allocate memory, especially in garbage collected languages, it seems that out of memory errors should be classified as non-recoverable. (Non-recoverable errors include things like stack overflows.)

What is the compelling argument for making it a recoverable error?

Rubber answered 2/12, 2008 at 11:55 Comment(4)
Sorry if the above comment was rude. But for example Java GUI apps handle OutOfMemoryError pretty well (I am not a big Java fan, just noting my experience) - terminated is e.g. only the request originated from single user action.Pico
Also sometimes it is good to let single thread die but let the rest of the program running - that sometimes occurs naturally.Pico
Also the failure sometimes can be contained to sabotage only handling of single event (like in e.g. GUI event dispatch loop/thread).Pico
here is further discussion by Walter Bright why OOM is non-recoverableBistre
N
39

It really depends on what you're building.

It's not entirely unreasonable for a webserver to fail one request/response pair but then keep on going for further requests. You'd have to be sure that the single failure didn't have detrimental effects on the global state, however - that would be the tricky bit. Given that a failure causes an exception in most managed environments (e.g. .NET and Java) I suspect that if the exception is handled in "user code" it would be recoverable for future requests - e.g. if one request tried to allocate 10GB of memory and failed, that shouldn't harm the rest of the system. If the system runs out of memory while trying to hand off the request to the user code, however - that kind of thing could be nastier.

Novara answered 2/12, 2008 at 12:4 Comment(0)
V
18

In a library, you want to efficiently copy a file. When you do that, you'll usually find that copying using a small number of big chunks is much more effective than copying a lot of smaller ones (say, it's faster to copy a 15MB file by copying 15 1MB chunks than copying 15'000 1K chunks).

But the code works with any chunk size. So while it may be faster with 1MB chunks, if you design for a system where a lot of files are copied, it may be wise to catch OutOfMemoryError and reduce the chunk size until you succeed.

Another place is a cache for Object stored in a database. You want to keep as many objects in the cache as possible but you don't want to interfere with the rest of the application. Since these objects can be recreated, it's a smart way to conserve memory to attach the cache to an out of memory handler to drop entries until the rest of the app has enough room to breathe, again.

Lastly, for image manipulation, you want to load as much of the image into memory as possible. Again, an OOM-handler allows you to implement that without knowing in advance how much memory the user or OS will grant your code.

[EDIT] Note that I work under the assumption here that you've given the application a fixed amount of memory and this amount is smaller than the total available memory excluding swap space. If you can allocate so much memory that part of it has to be swapped out, several of my comments don't make sense anymore.

Validity answered 2/12, 2008 at 12:16 Comment(2)
On a system with virtual memory, probing for how much you can allocate means you will be allocating memory that's paged to disk, which is a pessimization for a disk buffer.Rubber
Data point in your defense: uClibc has an internal static buffer of 8 bytes or so for file I/O when there is no more memory to be allocated dynamically.Acreage
T
11

Users of MATLAB run out of memory all the time when performing arithmetic with large arrays. For example if variable x fits in memory and they run "x+1" then MATLAB allocates space for the result and then fills it. If the allocation fails MATLAB errors and the user can try something else. It would be a disaster if MATLAB exited whenever this use case came up.

Thickhead answered 2/12, 2008 at 16:8 Comment(0)
L
8

OOM should be recoverable because shutdown isn't the only strategy to recovering from OOM.

There is actually a pretty standard solution to the OOM problem at the application level. As part of you application design determine a safe minimum amount of memory required to recover from an out of memory condition. (Eg. the memory required to auto save documents, bring up warning dialogs, log shutdown data).

At the start of your application or at the start of a critical block, pre-allocate that amount of memory. If you detect an out of memory condition release your guard memory and perform recovery. The strategy can still fail but on the whole gives great bang for the buck.

Note that the application need not shut down. It can display a modal dialog until the OOM condition has been resolved.

I'm not 100% certain but I'm pretty sure 'Code Complete' (required reading for any respectable software engineer) covers this.

P.S. You can extend your application framework to help with this strategy but please don't implement such a policy in a library (good libraries do not make global decisions without an applications consent)

Liking answered 3/1, 2009 at 22:37 Comment(2)
This is mentioned in Code Complete. The technique is called a "parachute" if I recall correctly.Brevier
Unfortunately that can not be done reliably in Java, because the JVM is permitted to throw OOM at any time, not just where you have a new. Therefore if you catch an OOM it could have been thrown at a point that has left your program in an inconsistent state. See #8729366Brazier
I
5

I think that like many things, it's a cost/benefit analysis. You can program in attempted recovery from a malloc() failure - although it may be difficult (your handler had better not fall foul of the same memory shortage it's meant to deal with).

You've already noted that the commonest case is to clean up and fail gracefully. In that case it's been decided that the cost of aborting gracefully is lower than the combination of development cost and performance cost in recovering.

I'm sure you can think of your own examples of situations where terminating the program is a very expensive option (life support machine, spaceship control, long-running and time-critical financial calculation etc.) - although the first line of defence is of course to ensure that the program has predictable memory usage and that the environment can supply that.

Immoderate answered 2/12, 2008 at 12:8 Comment(3)
If terminating the program due to out of memory errors is unthinkable, then you've got a very serious design problem in your hands, probably needing a custom solution (such as statically allocating all data, or preallocating it).Rubber
Well yes, but there are degrees of unthinkable, and there are degrees of effort you can put into recovery strategies. I'm sure this is a very common consideration when developing for games consoles, for example.Immoderate
One trivial strategy that might be sufficient for some applications: void *my_malloc(size_t nbytes) { for(int i=0;i<MALLOC_RETRIES) { void *p = malloc(nbytes); if(null != p) return p; sleep(5); } }Immoderate
N
5

I'm working on a system that allocates memory for IO cache to increase performance. Then, on detecting OOM, it takes some of it back, so that the business logic could proceed, even if that means less IO cache and slightly lower write performance.

I also worked with an embedded Java applications that attempted to manage OOM by forcing garbage collection, optionally releasing some of non-critical objects, like pre-fetched or cached data.

The main problems with OOM handling are:

1) being able to re-try in the place where it happened or being able to roll back and re-try from a higher point. Most contemporary programs rely too much on the language to throw and don't really manage where they end up and how to re-try the operation. Usually the context of the operation will be lost, if it wasn't designed to be preserved

2) being able to actually release some memory. This means a kind of resource manager that knows what objects are critical and what are not, and the system be able to re-request the released objects when and if they later become critical

Another important issue is to be able to roll back without triggering yet another OOM situation. This is something that is hard to control in higher level languages.

Also, the underlying OS must behave predictably with regard to OOM. Linux, for example, will not, if memory overcommit is enabled. Many swap-enabled systems will die sooner than reporting the OOM to the offending application.

And, there's the case when it is not your process that created the situation, so releasing memory does not help if the offending process continues to leak.

Because of all this, it's often the big and embedded systems that employ this techniques, for they have the control over OS and memory to enable them, and the discipline/motivation to implement them.

Nochur answered 2/12, 2008 at 12:18 Comment(2)
So you see recovering from OOM as being something you'd do with a custom memory allocation method, not a standard library one?Rubber
you can do it with the standard method as well, if you know what to release and can do so without requiring new memory. We did it with the standard Java memory manager with some success.Nochur
S
4

It is recoverable only if you catch it and handle it correctly.

In same cases, for example, a request tried to allocate a lot memory. It is quite predictable and you can handle it very very well.

However, in many cases in multi-thread application, OOE may also happen on background thread (including created by system/3rd-party library). It is almost imposable to predict and you may unable to recover the state of all your threads.

Solis answered 2/12, 2008 at 12:38 Comment(0)
S
3

No. An out of memory error from the GC is should not generally be recoverable inside of the current thread. (Recoverable thread (user or kernel) creation and termination should be supported though)

Regarding the counter examples: I'm currently working on a D programming language project which uses NVIDIA's CUDA platform for GPU computing. Instead of manually managing GPU memory, I've created proxy objects to leverage the D's GC. So when the GPU returns an out of memory error, I run a full collect and only raise an exception if it fails a second time. But, this isn't really an example of out of memory recovery, it's more one of GC integration. The other examples of recovery (caches, free-lists, stacks/hashes without auto-shrinking, etc) are all structures that have their own methods of collecting/compacting memory which are separate from the GC and tend not to be local to the allocating function. So people might implement something like the following:

T new2(T)( lazy T old_new ) {
    T obj;
    try{
        obj = old_new;
    }catch(OutOfMemoryException oome) {
        foreach(compact; Global_List_Of_Delegates_From_Compatible_Objects)
            compact();
        obj = old_new;
    }
    return obj;
}

Which is a decent argument for adding support for registering/unregistering self-collecting/compacting objects to garbage collectors in general.

Snorter answered 2/12, 2008 at 15:26 Comment(0)
N
2

The question is tagged "language-agnostic", but it's difficult to answer without considering the language and/or the underlying system.

If memory allocation is implicit, with no mechanism to detect whether a given allocation succeeded or not, then recovering from an out-of-memory condition may be difficult or impossible.

For example, if you call a function that attempts to allocate a huge array, most languages just don't define the behavior if the array can't be allocated. (In Ada this raises a Storage_Error exception, at least in principle, and it should be possible to handle that.)

On the other hand, if you have a mechanism that attempts to allocate memory and is able to report a failure to do so (like C's malloc() or C++'s new), then yes, it's certainly possible to recover from that failure. In at least the cases of malloc() and new, a failed allocation doesn't do anything other than report failure (it doesn't corrupt any internal data structures, for example).

Whether it makes sense to try to recover depends on the application. If the application just can't succeed after an allocation failure, then it should do whatever cleanup it can and terminate. But if the allocation failure merely means that one particular task cannot be performed, or if the task can still be performed more slowly with less memory, then it makes sense to continue operating.

A concrete example: Suppose I'm using a text editor. If I try to perform some operation within the editor that requires a lot of memory, and that operation can't be performed, I want the editor to tell me it can't do what I asked and let me keep editing. Terminating without saving my work would be an unacceptable response. Saving my work and terminating would be better, but is still unnecessarily user-hostile.

Norri answered 5/8, 2013 at 19:2 Comment(0)
R
1

In the general case, it's not recoverable.

However, if your system includes some form of dynamic caching, an out-of-memory handler can often dump the oldest elements in the cache (or even the whole cache).

Of course, you have to make sure that the "dumping" process requires no new memory allocations :) Also, it can be tricky to recover the specific allocation that failed, unless you're able to plug your cache dumping code directly at the allocator level, so that the failure isn't propagated up to the caller.

Ronnaronnholm answered 2/12, 2008 at 12:3 Comment(2)
Wouldn't this be more generally and better handled by being able to mark some allocations as "weak" meaning that the allocator can free them if it needs more memory?Rubber
possibly, although you'd likely need another name, since usually "weak" is used for references rather than allocations, and overloading it this way would likely lead to confusion. And going with your approach couldn't be as selective as cache cleanup (or other oom handlers)Ronnaronnholm
R
1

It depends on what you mean by running out of memory.

When malloc() fails on most systems, it's because you've run out of address-space.

If most of that memory is taken by cacheing, or by mmap'd regions, you might be able to reclaim some of it by freeing your cache or unmmaping. However this really requires that you know what you're using that memory for- and as you've noticed either most programs don't, or it doesn't make a difference.

If you used setrlimit() on yourself (to protect against unforseen attacks, perhaps, or maybe root did it to you), you can relax the limit in your error handler. I do this very frequently- after prompting the user if possible, and logging the event.

On the other hand, catching stack overflow is a bit more difficult, and isn't portable. I wrote a posixish solution for ECL, and described a Windows implementation, if you're going this route. It was checked into ECL a few months ago, but I can dig up the original patches if you're interested.

Roseliaroselin answered 2/12, 2008 at 13:5 Comment(0)
D
1

Especially in garbage collected environments, it's quote likely that if you catch the OutOfMemory error at a high level of the application, lots of stuff has gone out of scope and can be reclaimed to give you back memory.

In the case of single excessive allocations, the app may be able to continue working flawlessly. Of course, if you have a gradual memory leak, you'll just run into the problem again (more likely sooner than later), but it's still a good idea to give the app a chance to go down gracefully, save unsaved changes in the case of a GUI app, etc.

Dispermous answered 3/1, 2009 at 23:28 Comment(0)
S
1

Yes, OOM is recoverable. As an extreme example, the Unix and Windows operating systems recover quite nicely from OOM conditions, most of the time. The applications fail, but the OS survives (assuming there is enough memory for the OS to properly start up in the first place).

I only cite this example to show that it can be done.

The problem of dealing with OOM is really dependent on your program and environment.

For example, in many cases the place where the OOM happens most likely is NOT the best place to actually recover from an OOM state.

Now, a custom allocator could possibly work as a central point within the code that can handle an OOM. The Java allocator will perform a full GC before is actually throws a OOM exception.

The more "application aware" that your allocator is, the better suited it would be as a central handler and recovery agent for OOM. Using Java again, it's allocator isn't particularly application aware.

This is where something like Java is readily frustrating. You can't override the allocator. So, while you could trap OOM exceptions in your own code, there's nothing saying that some library you're using is properly trapping, or even properly THROWING an OOM exception. It's trivial to create a class that is forever ruined by a OOM exception, as some object gets set to null and "that never happen", and it's never recoverable.

So, yes, OOM is recoverable, but it can be VERY hard, particularly in modern environments like Java and it's plethora of 3rd party libraries of various quality.

Surf answered 3/1, 2009 at 23:33 Comment(0)
F
0

This is a difficult question. On first sight it seems having no more memory means "out of luck" but, you must also see that one can get rid of many memory related stuff if one really insist. Let's just take the in other ways broken function strtok which on one hand has no problems with memory stuff. Then take as counterpart g_string_split from the Glib library, which heavily depends on allocation of memory as nearly everything in glib or GObject based programs. One can definitly say in more dynamic languages memory allocation is much more used as in more inflexible languages, especially C. But let us see the alternatives. If you just end the program if you run out of memory, even careful developed code may stop working. But if you have a recoverable error, you can do something about it. So the argument, making it recoverable means that one can choose to "handle" that situation differently (e.g putting aside a memory block for emergencies, or degradation to a less memory extensive program).

So the most compelling reason is. If you provide a way of recovering one can try the recoverying, if you do not have the choice all depends on always getting enough memory...

Regards

Frumenty answered 2/12, 2008 at 12:5 Comment(0)
W
0

It's just puzzling me now.

At work, we have a bundle of applications working together, and memory is running low. While the problem is either make the application bundle go 64-bit (and so, be able to work beyond the 2 Go limits we have on a normal Win32 OS), and/or reduce our use of memory, this problem of "How to recover from a OOM" won't quit my head.

Of course, I have no solution, but still play at searching for one for C++ (because of RAII and exceptions, mainly).

Perhaps a process supposed to recover gracefully should break down its processing in atomic/rollback-able tasks (i.e. using only functions/methods giving strong/nothrow exception guarantee), with a "buffer/pool of memory" reserved for recovering purposes.

Should one of the task fails, the C++ bad_alloc would unwind the stack, free some stack/heap memory through RAII. The recovering feature would then salvage as much as possible (saving the initial data of the task on the disk, to use on a later try), and perhaps register the task data for later try.

I do believe the use of C++ strong/nothrow guanrantees can help a process to survive in low-available-memory conditions, even if it would be akin memory swapping (i.e. slow, somewhat unresponding, etc.), but of course, this is only theory. I just need to get smarter on the subject before trying to simulate this (i.e. creating a C++ program, with a custom new/delete allocator with limited memory, and then try to do some work under those stressful condition).

Well...

Westbound answered 11/12, 2008 at 21:35 Comment(0)
U
0

Out of memory normally means you have to quit whatever you were doing. If you are careful about cleanup, though, it can leave the program itself operational and able to respond to other requests. It's better to have a program say "Sorry, not enough memory to do " than say "Sorry, out of memory, shutting down."

Undying answered 3/1, 2009 at 23:35 Comment(0)
R
0

Out of memory can be caused either by free memory depletion or by trying to allocate an unreasonably big block (like one gig). In "depletion" cases memory shortage is global to the system and usually affects other applications and system services and the whole system might become unstable so it's wise to forget and reboot. In "unreasonably big block" cases no shortage actually occurs and it's safe to continue. The problem is you can't automatically detect which case you're in. So it's safer to make the error non-recoverable and find a workaround for each case you encounter this error - make your program use less memory or in some cases just fix bugs in code that invokes memory allocation.

Refuel answered 3/2, 2009 at 8:6 Comment(0)
S
0

There are already many good answers here. But I'd like to contribute with another perspective.

Depletion of just about any reusable resource should be recoverable in general. The reasoning is that each and every part of a program is basically a sub program. Just because one sub cannot complete to it's end at this very point in time, does not mean that the entire state of the program is garbage. Just because the parking lot is full of cars does not mean that you trash your car. Either you wait a while for a booth to be free, or you drive to a store further away to buy your cookies.

In most cases there is an alternative way. Making an out of error unrecoverable, effectively removes a lot of options, and none of us like to have anyone decide for us what we can and cannot do.

The same applies to disk space. It's really the same reasoning. And contrary to your insinuation about stack overflow is unrecoverable, i would say that it's and arbitrary limitation. There is no good reason that you should not be able to throw an exception (popping a lot of frames) and then use another less efficient approach to get the job done.

My two cents :-)

Sphenic answered 21/2, 2009 at 19:26 Comment(0)
A
0

If you are really out of memory you are doomed, since you can not free anything anymore.

If you are out of memory, but something like a garbage collector can kick in and free up some memory you are non dead yet.

The other problem is fragmentation. Although you might not be out of memory (fragmented), you might still not be able to allocate the huge chunk you wanna have.

Almsgiver answered 18/5, 2009 at 19:50 Comment(0)
T
0

I know you asked for arguments for, but I can only see arguments against.

I don't see anyway to achieve this in a multi-threaded application. How do you know which thread is actually responsible for the out-of-memory error? One thread could allocating new memory constantly and have gc-roots to 99% of the heap, but the first allocation that fails occurs in another thread.

A practical example: whenever I have occurred an OutOfMemoryError in our Java application (running on a JBoss server), it's not like one thread dies and the rest of the server continues to run: no, there are several OOMEs, killing several threads (some of which are JBoss' internal threads). I don't see what I as a programmer could do to recover from that - or even what JBoss could do to recover from it. In fact, I am not even sure you CAN: the javadoc for VirtualMachineError suggests that the JVM may be "broken" after such an error is thrown. But maybe the question was more targeted at language design.

Tracietracing answered 9/11, 2009 at 21:33 Comment(0)
A
0

uClibc has an internal static buffer of 8 bytes or so for file I/O when there is no more memory to be allocated dynamically.

Acreage answered 13/1, 2010 at 15:31 Comment(0)
B
0

What is the compelling argument for making it a recoverable error?

In Java, a compelling argument for not making it a recoverable error is because Java allows OOM to be signalled at any time, including at times where the result could be your program entering an inconsistent state. Reliable recoery from an OOM is therefore impossible; if you catch the OOM exception, you can not rely on any of your program state. See No-throw VirtualMachineError guarantees

Brazier answered 4/1, 2012 at 18:24 Comment(0)
H
0

I'm working on SpiderMonkey, the JavaScript VM used in Firefox (and gnome and a few others). When you're out of memory, you may want to do any of the following things:

  1. Run the garbage-collector. We don't run the garbage-collector all the time, as it would kill performance and battery, so by the time you're reaching out of memory error, some garbage may have accumulated.
  2. Free memory. For instance, get rid of some of the in-memory cache.
  3. Kill or postpone non-essential tasks. For instance, unload some tabs that haven't be used in a long time from memory.
  4. Log things to help the developer troubleshoot the out-of-memory error.
  5. Display a semi-nice error message to let the user know what's going on.
  6. ...

So yes, there are many reasons to handle out-of-memory errors manually!

Homemaking answered 19/11, 2019 at 13:10 Comment(0)
O
-1

I have this:

void *smalloc(size_t size) {
  void *mem = null; 
  for(;;) {
   mem = malloc(size);
   if(mem == NULL) {
    sleep(1);
   } else 
     break;
  }
  return mem;
}

Which has saved a system a few times already. Just because you're out of memory now, doesn't mean some other part of the system or other processes running on the system have some memory they'll give back soon. You better be very very careful before attempting such tricks, and have all control over every memory you do allocate in your program though.

Onto answered 7/8, 2009 at 13:40 Comment(2)
What if another process is using up all the memory and not giving it back to the OS? then you'll be sitting in the loop forever, none the wiser about what's going on. Would it not be better if something could be logged?Millar
Sure. The above is just an example, you could log something, you could try just 20 times instead of an infinite loop, etc.Onto

© 2022 - 2024 — McMap. All rights reserved.