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I'm developping a linux device driver, and I need to understand how to access a memory area allocated by the user. In details, for a 32-bytes buffer, the user calls:

void *UserAddr;
posix_memalign(&UserAddr, getpagesize(), 32); //allocation of the page-alligned buffer
memset(UserAddr, 0x55, 32); //just to see if the data in the buffer is correct 
ioctl(fd, MAP_BUFFER, UserAddr); //call kernel module

now, in the kernel module ioctl, I need the phys address to pass it to a pci device for a DMA operation. what i'm currently doing is (this example is just for 1 page, to understand if it's correct):

if(!access_ok(VERIFY_READ,(char *)user_address,32*sizeof(u32)))
   goto error1;

if(get_user_pages(current, current->mm,(unsigned long)user_address,1,1,0,pages_list,NULL)<1)                                                     
   goto error2;


the code works correctly, but my questions are:

  • who is "pinning" the page? or I must call explicitly SetPageReserved(pages_list[0])?
  • how it works for the release when I finish using the buffer? pci_unmap and that's all? even if I called SetPageReserved?
  • is it safe, in general, to call a virt_to_phys on a user-space address (if the page is pinned)? (or the virt_to_bus in case of a DMA)
  • is this the "best practice" to access a user-space buffer?
share|improve this question
You have to call SetPageReserved, then later call SetPageUnReserved. Otherwise the kernel mmap-ed memory could be confused with user space and swapped out. I have not done drivers for a long time, but I do not see a mention of calling remap_pfn_range() in your code/question... maybe there is another newer call. – jim mcnamara Dec 6 '13 at 12:09
if I'm not mistaken, the remap_pfn_range is used for remap kernel-memory into user-space, which is the opposite of what I'm doing – Michele Dec 6 '13 at 12:21
This doesn't look like particularly good design for a driver. The usual practice is to allocate memory in kernel space, and then to provide a device file that a userspace process can open and mmap to. Is there some reason that you need to do the reverse? – Jonathan Ben-Avraham Dec 6 '13 at 12:46
I'm reverse-engineering the driver for the pci device, starting from a testcode/library released by the the vendor, so given the kernel call I'm building the module... I don't know why they decided to take this approach, but I would like to use the library without write it again too. – Michele Dec 6 '13 at 15:10

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