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I modified my kernel and walked the page table myself to get the physical address of one process's code section. I passed (current->mm)->start_code as the parameter to my function. The code for said function is listed below:

 unsigned long user_va_to_pa(unsigned long v) {

 pgd_t *pgd = pgd_offset(current->mm, v);
 printk("process id is %d\n",current->pid); 

 if (!pgd_none(*pgd)) {
    pud_t *pud = pud_offset(pgd, v);
    if (!pud_none(*pud)) {
        pmd_t *pmd = pmd_offset(pud, v);
        if (!pmd_none(*pmd)) {
            pte_t *pte;
            pte = pte_offset_map(pmd, v);
            if (pte_present(*pte)){
               unsigned long pa=pte_val(*pte) & PTE_PFN_MASK;
               printk(KERN_ALERT "pte value is (in vatopa) %lx\n", pte_val(*pte));
               pte_unmap(pte);
               return pa;   //return the real physical address(page aligned)           
            }
            else {
                printk(KERN_ALERT "cannot find pte\n");
            }

        }
        else{
            printk(KERN_ALERT "cannot find pmd\n");

        }
    }
    else {

        printk(KERN_ALERT "cannot find pud\n");
    }
 }
 else {
    printk(KERN_ALERT "cannot find PGD\n");         
 }
return 1;
}

However, it seems that very frequently the physical address is in a PCI memory hole. I called my function as a syscall from a user application. Note that my function can printout the address like so:

pte value is (in vatopa) efe2d025

Then I opened iomem by $ cat /proc/iomem.

I could see (show part):

   20000000-201fffff : reserved
20200000-40003fff : System RAM
40004000-40004fff : reserved
40005000-ced2ffff : System RAM
ced30000-dae9efff : reserved
dae9f000-daf9efff : ACPI Non-volatile Storage
daf9f000-daffefff : ACPI Tables
dafff000-df9fffff : reserved
dfa00000-febfffff : PCI Bus 0000:00
  e0000000-efffffff : 0000:00:02.0
  f0000000-f03fffff : 0000:00:02.0
  f0400000-f0bfffff : PCI Bus 0000:02
  f0c00000-f13fffff : PCI Bus 0000:04
  f1400000-f1bfffff : PCI Bus 0000:04
  f1c00000-f1cfffff : PCI Bus 0000:03
    f1c00000-f1c01fff : 0000:03:00.0

You can see that the address efxxxxxx is totally in the PCI memory hole. However, it is supposed to be residing in system RAM, right?

This has made me unable to reserve a page attribute for that page since it's in a memory hole which has another attribute. It is very weird.

As for my system, I use a 32 bit 12.04 Ubuntu kernel on an Intel i5 Core machine with 8GB of memory.

share|improve this question
1  
I figure out something. I use unsigned long (32bit) to get all the address. However, a PAE enabled kernel use 64bit in PTE and PDE right? So I need to use unsigned long long or something to make it correct. I will try it this afternoon –  user1532708 Feb 9 '13 at 14:39

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