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I am working on a Linux module for IA64. My current problem is that the driver uses the PAGE_SIZE and PAGE_SHIFT macros for dma page allocation. The problem I am having is that the machine compiling the driver is not the ones that needed to run the driver. So, if the PAGE_SIZE on the compiling machine is 2^14K and the destination machine is 2^16K then the driver fails.

I don't want to turn this question into a 'best practice' issue about compiling modules on machines which are not the ones running the modules. I understand the issues about that. What I found is that people mostly uses getpagesize() or sysconf(_SC_PAGE_SIZE). These two options are out of the ia64 kernel headers so I can't use them. Is there another way that I could get the runtime PAGE_SIZE?

Options I am looking at:

  • Reading some file in /proc?
  • syscall?
  • Other function that let me calculate the PAGE_SIZE by inference (e.g ORDER, getpageshift, etc)?
  • Other??

Thanks in advance,

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Are you saying the PAGE_SIZE is configurable for the IA64 architecture, and not fixed? I thought PAGE_SIZE was fixed for a given architecture (e.g. always 4096 for x86). – Craig McQueen Apr 10 '13 at 0:54
    
IA64 does indeed support multiple page sizes: informit.com/articles/article.aspx?p=29961&seqNum=3 – mdiener Mar 24 '15 at 1:59

Try using the getconf utily, which will allow you to retrieve the page size easily.

getconf PAGESIZE
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I don't think this answers the OP's question, but it's helpful info since sysconf(_SC_PAGESIZE) appears to return 4K on linuxia64 (while mprotect fails on a page not aligned on a 16K boundary). – Peeter Joot Nov 28 '14 at 23:56

One approximate method is to read /proc/meminfo and check Mapped size ( on mine its 52544 kB as of now ) and then check nr_mapped in /proc/vmstat ( on mine its 131136 as of now ). Finally PAGE_SIZE = Mapped/nr_mapped. Sometimes this gives you an accurate value ( as in the current example I've quoted ) and sometimes its approximate but very close. Hope this helps!

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If you are trying to build a kernel module, you will need to have at least the kernel headers that are configured for the kernel the module will run on. Those will define the page size macros you need. If you don't have the correctly configured headers, the kernel will refuse to load your module.

And there is nothing wrong with compiling a module on one machine to run on another, even if it's a different architecture. You just need to build against the correct kernel source.

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It is not an issue about kernel sources. It is about loading a module compiled on a machine, to run into another machine (Both have the same kernel version but configured differently). I don't want to re-compile against the new configuration because PAGE_SIZE changed. I am looking to get that parameter from the kernel as an API, not as a MACRO (which is solved at compile time). – Freddy Mar 17 '11 at 20:01
    
<<And there is nothing wrong with compiling a module on one machine to run on another, even if it's a different architecture. You just need to build against the correct kernel source. ...........EXACTLY THE POINT – kumar May 10 '11 at 5:44
    
PAGE_SIZE is very fundamental and required for a module while building the module itself.. – kumar May 10 '11 at 5:45
up vote 3 down vote accepted

This is what I finally did:

  • Re-work my current module to take a new module parameter called page_shift and used that to calculate the PAGE_SIZE (PAGE_SIZE = 1 << PAGE_SHIFT)
  • Created a module loader wrapper which gets the current system PAGE_SHIFT using getconf API from libc. This wrapper gets the current system page shift and pass it as a module parameter.

Right now the module is being loaded on different architectures with different PAGE_SIZE without any problems.

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I fear that it is impossible to do as page size is something defined as part of the kernel. page size knowledge is required in case of toolchain also which you use to compile the kernel module.

So atleast with current kernel architecture, it is impossible to do so.

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You could just run a test, just mmap a file with different offsets and see which fail. Might be annoying in a kernel module though, but maybe there is some other test like that you could use.

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