In our system we use mmap() on the /dev/mem file to access a memory mapped hardware device. However, using this device file requires running the application in superuser mode (sudo) in order to write to the physical device. We are looking for a way to get rid of this limitation.

Supposedly, one can change the access permissions on the device file. However, this is not a recommended solution.

One suggestion we had is, instead of writing a new, full kernel mode device driver for the hardware, we can duplicate the /dev/mem device, changing its write permission, and use mmap() on the new device.

Reading a few manual pages, I found the mknod command. So I used it to create a special file, emem, with similar attributes to the /dev/mem file (esp., the major and Minor versions of the device) . Using the new file in my program, I still needed the duso. So, I changed its attributes to full r/w permissions, but it did not change the need for sudo.

Next, I tried changing the permissions of dev/mem itself to 0777, but it did not help either.

Which leads to the following questions:

  1. Is the need for sudo privilege comes from using mmap() or from the specific devices it maps?

  2. If the former, how to eliminate this?

  3. If the latter, how can I duplicate the /dev/mem functionality, with full permissions?

  • 1
    The right way to do this is to either make a kernel stub driver which allows access only to the specific resources needed, or to run a userspace daemon as root which proxies requests filtered with the same limitation. – Chris Stratton May 7 '13 at 14:38
  • @ChrisStratton - thanks. In the long term, writing a proper driver is my intention. Right now, due to lack of time (and experience in kernel mode programming), I am looking for a convenient workaround. – ysap May 7 '13 at 17:46
  • Duplicating the device node is pointless, since it would have all of the same issues and consequences as modifying the permissions of the existing node. – Chris Stratton Sep 8 '13 at 14:57

According to http://www.raspberrypi.org/phpBB3/viewtopic.php?f=29&t=22515

To open /dev/mem you need both regular access permissions on the device file and the security capability CAP_SYS_RAWIO, or to be root. There is no getting around this, because full access to memory allows a lot more than just GPIO. It has huge security implications.

This is presumably checked inside the mem device driver.

The solution is to give the users that need to be able to access /dev/mem the CAP_SYS_RAWIO capability, and also put them in the kmem user group (which has read access to the device).

  • Correct: in current kernels, the open call on /dev/mem is checked with: return capable(CAP_SYS_RAWIO) ? 0 : -EPERM;. See drivers/char/mem.c. – duskwuff May 6 '13 at 19:52
  • Thanks. so, this means that I cannot use /dev/mem for this purpose. Then, how can I duplicate the device driver itself, and set it to my needs? – ysap May 6 '13 at 20:16
  • .. wait - according to @duskwuff, if I understand correctly, this protection is assimilated in the driver code itself, right? – ysap May 6 '13 at 20:17
  • You could recompile your kernel with that line modified. But see my updated answer. – Barmar May 6 '13 at 20:20
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    Allowing LD_LIBRARY_PATH through setuid/sudo is a huge security hole, since it would allow you to replace the standard C library with a version that does whatever you want. You should encapsulate what you need inside programs, and make them setuid. – Barmar May 6 '13 at 23:23

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