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On a Windows 32-bit and 64-bit machine, I have to allocate memory to store large amounts of data that are streaming live, a total of around 1GB. If I use malloc(), I am going to obtain a virtual memory address, and this address could be actually causing some paging to the hard drive depending on the amount of memory I have. Unfortunately I'm afraid that the HD will impact performance and cause data to be missing.

Is there a way to force memory to allocate only in RAM, even if it means that I get an error when not enough memory is available (so the user needs to close other things or use another machine)? I want to guarantee that all operations will be done in memory. If this fails, forcing the application to exit is acceptable.

I know that another process may come in and itself take some memory, but I am not worried because in this machine that is not happening (it'll be the only application on the machine to be doing this large allocation).

[Edit:] My attempt so far has been to try use VirtualLock as follows:

if(!SetProcessWorkingSetSize(this, 300000, 300008))
    printf("Error Changing Working Set Size\n");

// Allocate 1GB space
unsigned long sz = sizeof(unsigned char)*1000000000;
unsigned char * m_buffer = (unsigned char *) malloc(sz);

if(m_buffer == NULL)
{
    printf("Memory Allocation failed\n");
}
else
{
    // Protect memory from being swapped
    if(!VirtualLock(m_buffer , sz))
    {
           printf("Memory swap protection failed\n");
    }           
}

But the change in Working set fails, and so does the VirtualLock. Malloc does return non-null.

[Edit2] I have tried also:

 unsigned long sz = sizeof(unsigned char)*1000000000;
 LPVOID lpvResult;
 lpvResult = VirtualAlloc(NULL,sz, MEM_PHYSICAL|MEM_RESERVE, PAGE_NOCACHE);

But lpvResult is 0, so no luck there either.

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I assume you want Windows, not Window as your tag. I changed for you. –  selbie Jan 11 '13 at 20:04
    
Yes sorry. Didn't see the typo. It's Windows using Visual Studio. –  Gustavo Litovsky Jan 11 '13 at 20:04
    
Disable the swap? –  Marc Glisse Jan 11 '13 at 20:05
    
Is it possible to disable the swap on a per application basis? –  Gustavo Litovsky Jan 11 '13 at 20:05
1  
@ScottChamberlain: That question is good as a pointer, but after reading some more, there's more to it (its tags might need an adjustment though). It seems I also need to call SetProcessWorkingSetSize and increase the min and max to ensure I can get the pages I need. –  Gustavo Litovsky Jan 11 '13 at 20:11

5 Answers 5

You can use mlock, mlockall, munlock, munlockall functions in order to prevent pages from being swapped (part of POSIX, also available in MinGW). Unfortunately, I have no experience with Windows but it looks like VirtualLock does the same thing.

Hope it helps. Good Luck!

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Thanks. I'm using Visual Studio for this particular application but I'll keep these in mind just in case I every try to do the same in MingW or linux. –  Gustavo Litovsky Jan 11 '13 at 21:01
    
My understanding is that VirtualLock doesn't quite do what you want. It does "lock the pages in memory", but I remember reading somewhere that that's only for when your process is actually running, not when the threads are paused. When the threads are paused, they may very well be paged out, and paged back in when a thread needs to run again. (I'm not 100% sure about this; it isn't documented in the MSDN documentation, but I'm pretty sure I read it somewhere. Apparently using option 2 as I stated in my answer gets around it, but again, no guarantees.) –  Mehrdad Jan 11 '13 at 21:37

I think VirtualAlloc might get you some of what you want.

This problem really boils down to just writing your own memory manager instead of using CRT function.

share|improve this answer
    
In my case I'm lucky because these are data frames of fixed size and I want to put them all contiguously, so it should be simple to manage. Just need to make sure that memory is allocated and doesn't get moved around. –  Gustavo Litovsky Jan 11 '13 at 20:14
    
I think that you can get away from writing your own memory manager by using malloc + VirtualLock. –  user405725 Jan 11 '13 at 20:14
    
Which option in VirtualAlloc guarantees that the memory won't be paged out? –  pepsi Jan 11 '13 at 20:17
    
Yes, it seems like VirtualLock will do it. I am looking at whether I also need to use SetProcessWorkingSetSize to increase the Working Set. Do you know whether I need to do this? –  Gustavo Litovsky Jan 11 '13 at 20:17
2  
I do not see an option in VirtualAlloc to lock the pages. The answer from Vlad with VirtualLock seems the right one. SetProcessWorkingSetSize does also work although it does not guarantee that all pages of the process will never be paged out. –  Alois Kraus Jan 11 '13 at 20:17

You need to use the undocumented NtLockVirtualMemory function with lock option 2 (LOCK_VM_IN_RAM); make sure you request and obtain SE_LOCK_MEMORY_NAME privilege first, and be aware that it might not be granted (I'm sure what the group policy defaults the privilege to, but it might very well be granted to nobody).

I suggest using VirtualLock as a fallback, and if that fails too, to use SetProcessWorkingSetSize. If that fails then just let it fail I guess...

See this link for some nice discussion about this. One person says:

When you specify LOCK_VM_IN_WSL flag, you just tell the Balance Set Manager that you don't want some particular page to get swapped to the disk, and ask it to leave this page alone when trimming the working set of the target process. This is just an indication, so that the target page may still get swapped if the system is low on RAM. However, when you specify LOCK_VM_IN_RAM flag, you issue a directive to the Memory Manager to treat this page as non-pageable (i.e. do something the driver does when it calls MmProbeAndLockPages() in order to lock pages, described by MDL) , so that the page is question is guaranteed to be loaded in RAM all the time.


Edit:

Read this.

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One option would be to create a RAM Disk out of your host's memory. While there is no longer native support for this in the distributed Windows code, you can still find the drivers necessary for free or made available through commercial products. For instance, DRDataRam provides a free driver for personal use and a commercially licensed product for business use at: http://memory.dataram.com/products-and-services/software/ramdisk

There is also ImDisk Virtual Driver available at: http://www.ltr-data.se/opencode.html/#ImDisk It is open sourced and free for commercial use. It is digitally signed with a trusted certificate from Microsoft.

For more information concerning RAM Drives on Windows, check out ServerFault.com.

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You should take a look at Address Windowing Extensions (AWE). It sounds like it matches the memory constraints you have (emphasis mine):

AWE uses physical nonpaged memory and window views of various portions of this physical memory within a 32-bit virtual address space.

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