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Out of curiosity, I was looking for an article/documentation on "how windows hibernate option work", i.e. when one selects "Hibernate" option in windows shutdown dialog. The reply I got from some sources was that, its mere serialization of memory and registers.

Pardon me if I am wrong here. If windows could serialize any applications, process or objects regardless of whether its serializable or non-serializable, how come .NET limits serializable objects to those with [Serializable] attribute or ISerializable interface?

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I don't see how serialization in the .NET framework is related to hibernating. The Windows core wasn't written using the .NET framework. Serialization in this case is not the same as serializing objects. –  Geo Mar 6 '11 at 10:29
Something a little more level that not involves .NET at all :) –  Felice Pollano Mar 6 '11 at 10:31
AFAIK binary serialization is possible on any .NET object. Unrelated to your question though. –  jishi Mar 6 '11 at 10:37
@jishi - depends what you mean... BinaryFormatter insists on either [Serializable] or ISerializable; other binary serializers have different requirements. But in many cases (a file handle, for example), it makes no sense to serialize it. It has no way of recreating a file handle (by itself). –  Marc Gravell Mar 6 '11 at 10:42
What made me to ask this was, though .NET is said to be managed it still had to rely upon umanaged APIs to execute tasks like System. Diagnostics.process.Start(), so if thats the case, could the serialization functionality too be shared. –  AbrahamJP Mar 6 '11 at 10:49

3 Answers 3

up vote 6 down vote accepted

Inside a process address-space, everything is just bytes; some stack, some managed heap, etc. Bytes are inherently serializable - they are just bytes. All hibernate has to do is suspend the threads and write the entire address space to disk.

With objects, you want to save them to some out-of-memory structure. Unfortunately, it makes no sense to store addresses etc, as it is exceptionally unlikely to rehydrate into exactly the same point in memory. Additionally, many things like unmanaged object handles will make no sense when rehydrated. It is also extremely likely that you want to save just a small block of objects, not an entire process space. And even in a small graph, those objects could be scattered all over the place - so you can't just copy out a few pages of memory.

Also keep in mind that a common use of serialization is to deep-clone objects; if you relied on the in-memory representation of objects, you would have to deserialize to exactly the same place in memory - so you can't have cloned anything. And that is *before you touch on concepts such as compacting garbage collectors, which move objects around in memory while you aren't looking.

Also consider that you might be loading the data into a different platform / architecture, or want to write a specific format (xml, json, etc).

So instead of just copying raw memory, serialization code must look at individual objects, traversing references and writing an object graph in a way that allows rehydration from a source that has nothing at all to do with raw memory. Much harder.

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@Marc, What do you mean by (re)Hydrate? –  Sanjeevakumar Hiremath Mar 6 '11 at 10:37
So Serialization is more complex than the hibernation stuff. The platform\architecture agnostic point which you had mentioned is a valid point. –  AbrahamJP Mar 6 '11 at 10:39
@Sanjeevakumar in this context, synonymous with "deserialize" or "materialize"; get an object graph back from the persisted stream –  Marc Gravell Mar 6 '11 at 10:39
@AbrahamJP - but just loading that data into a different process on the same machine, or back into the same process space at a later point in time - all of these things would die horribly if it relied on just raw memory. –  Marc Gravell Mar 6 '11 at 10:40
@Marc Thanks. I was trying to read between the lines because of this word. –  Sanjeevakumar Hiremath Mar 6 '11 at 10:40

These are two very different things. Windows has control of what is in memory at any given time, and has direct access to the hardware. "Serialization" is one word to describe what it does to support hibernation I suppose, but it's not the same concept as in the CLR.

In .NET serialization is an explicit operation generally initiated by the developer; the attribute tells the framework that your type marked with it can be streamed out and back in without worrying about state or variance in behavior.

Technically the CLR can serialize anything I suppose, after all it has access to the underlying representation of each type, and keeps track of each object instance. So I guess you could "hibernate" an entire app domain at any given point; that would be closer to what Windows does.

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Strictly speaking, windows doesn't have direct access to the hardware; it runs inside a hardware-abstraction-layer, and even that could be inside a virtual-machine, which could be either a hypervisor or supervisor mode. Lots of layers between the OS and the hardware. –  Marc Gravell Mar 6 '11 at 10:44
Yes as you said, if an application is entirely depending on .NET classes and opting for binary serialization, then I believe there could be something API or functionality that could be shared between windows and .NET (only on windows platforms) for serializing the objects without the address space information. –  AbrahamJP Mar 6 '11 at 10:45
@Marc - ultimately though, the kernel has all the access it needs or wants. –  kprobst Mar 6 '11 at 11:00
that I can agree with ;p –  Marc Gravell Mar 6 '11 at 11:07

that, its mere serialization of memory and registers

"Serialization" was probably the wrong term to use; whoever told you that probably simply meant "copying".

Let's look at how these two concepts differ.

Basically, serialization means that an object is converted into a stream of consecutive bytes, and in such a way that it can later be exactly reconstructed from that stream. Why did I emphasise "consecutive"? Here's why: If an object references another object that resides in another memory location (ie. is not "adjacent" to the object being serialized), then serialization would also bring that other object into the byte stream, so that there are no dependencies to objects at a particular memory location. You end up with one single byte array that might include a complete object graph, without any further references to outside objects.

Now, all this would probably not be necessary with hibernation. You create a complete snapshot of the computer's RAM, CPU registers, and I/O registers by simply copying it all to hard disk (without any modifications or re-orderings). (A somewhat smarter hibernation process might only include memory that's actually been allocated by the operating system, ie. only memory that is in use.)

But I dare say that hibernation is slightly more complicated than that: For example, when it comes to I/O registers, it's very quickly possible that you cannot just copy back saved register values; you might also have to take care to write I/O registers in the correct order in order to get some I/O device back into its previous state. I could imagine that the PCI/AGP standard(s) have special treatment for power-saving states, such that you can ask a device for a snapshot of its current state through dedicated I/O registers. (But that's just guessing.)

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"Serialization" is perhaps the right term, context might differ. conceptually this question makes sense. –  Sanjeevakumar Hiremath Mar 6 '11 at 10:39
@Sanjeevakumar, that's correct. The reason why I wanted to point out the difference is because hibernation really doesn't work at the same level as .NET serialization; the OS likely won't care whether some chunk of memory represents an object that would be "serialized" à la .NET, or not: It would probably suffice for the OS to simply copy the whole chunk of memory. As long as it saves and restores it all, nothing can go wrong with one thing in memory referencing another at a particular address. –  stakx Mar 6 '11 at 10:50

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