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Let's say the buffer is allocated using a page based scheme. One way to implement mmap would be to use remap_pfn_range but LDD3 says this does not work for conventional memory. It appears we can work around this by marking the page(s) reserved using SetPageReserved so that it gets locked in memory. But isn't all kernel memory already non-swappable i.e. already reserved? Why the need to set the reserved bit explicitly?

Does this have something to do with pages allocated from HIGH_MEM?

Thanks.

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Not sure if this helps but as far as I know, Perf subsystem in the kernel provides a set of pages from the kernel memory (a ring buffer, actually) that can be mmap'ed by user-space applications. Its implementation could possibly give some hints concerning your question, may be it is worth it to look at its source code. –  Eugene May 26 '12 at 18:40

2 Answers 2

up vote 6 down vote accepted

The simplest way to map a set of pages from the kernel in your mmap method is to use the fault handler to map the pages. Basically you end up with something like:

static int my_mmap(struct file *filp, struct vm_area_struct *vma)
{
    vma->vm_ops = &my_vm_ops;
    return 0;
}

static const struct file_operations my_fops = {
    .owner  = THIS_MODULE,
    .open   = nonseekable_open,
    .mmap   = my_mmap,
    .llseek = no_llseek,
};

(where the other file operations are whatever your module needs). Also in my_mmap you do whatever range checking etc. is needed to validate the mmap parameters.

Then the vm_ops look like:

static int my_fault(struct vm_area_struct *vma, struct vm_fault *vmf)
{
    vmf->page = my_page_at_index(vmf->pgoff);
    get_page(vmf->page);

    return 0;
} 

static const struct vm_operations_struct my_vm_ops = {
    .fault      = my_fault
}

where you just need to figure out for a given vma / vmf passed to your fault function which page to map into userspace. This depends on exactly how your module works. For example, if you did

my_buf = vmalloc_user(MY_BUF_SIZE);

then the page you use would be something like

vmalloc_to_page(my_buf + (vmf->pgoff << PAGE_SHIFT));

But you could easily create an array and allocate a page for each entry, use kmalloc, whatever.

[just noticed that my_fault is a slightly amusing name for a function]

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Thank you. This is quite helpful. Don't we however need to call vm_insert_page in the fault handler? Also, who will undo the get_page to allow page to be freed later? I suppose once user-space does munmap, we can get some code exercised from vma_close in which we could put_page for all pages that fault-ed. Is this the right approach? –  ravi May 28 '12 at 6:11
2  
No, you don't need to do vm_insert_page if you set vmf->page. If you're doing fancier stuff around mapping non-page-backed device memory, then you might need vm_insert_pfn() but really you probably don't want to worry about that. The put_page() is handled by the core vm code when the mapping is torn down. Really, for a simple driver that maps kernel memory into userspace, I showed you pretty much everything you need. –  Roland May 29 '12 at 2:57
    
Hello. What would be the body of my_fault() method if it would be impossible to vmalloc()-ate the my_buf buffer? (because too large). Imean a page-by-page allocation, on demand. –  axeoth Jun 29 '13 at 6:31
    
If you want to allocate a page on demand, then your fault routine should allocate that page and set vmf->page to the page you allocated. –  Roland Jul 1 '13 at 17:14

Though the pages are reserved via a kernel driver, it is meant to be accessed via user space. As a result, the PTE (page table entries) do not know if the pfn belongs to user space or kernel space (even though they are allocated via kernel driver).

This is why they are marked with SetPageReserved.

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