I am trying to find a way to reserve physical memory for a proprietary memory type hardware as early as possible after system boots up (Linux CentOs with Intel Xeon server platform).

I did the following at setup_arch() in arch/x86/kernel/setup.c and it works, but found out that I am not allowed to patch the kernel. The requirement is no BIOS and kernel mod.

  // Calls a proprietary function that returns custom proprietary memory module's starting address and size. 

  memblock_reserve(mem_start_addr, mem_size);  

I cannot use memmap=xx/xx either at Grub, because the start and size of the device is unknown (it has to be "discovered" by software)

Is there any way to do this?

  • I've been writing linux kernel/drivers for 20+ and, IMO, the "no patch" requirement is, well, silly ... in this context [specialized hardware]. Okay, so no patch to setup_arch, but what about adding a driver/module that is a "built in" (i.e. compiled directly into the kernel--not dynamically loadable). Plenty of modules/drivers are built that way. If you [still] can't, I seriously question the sanity of the requirement unless there is a really good reason [and I'd love to hear it]. – Craig Estey Jan 16 '16 at 5:22
  • There is kernel parameter called mem which could be used to specify the memory size kernel can use. You could reserve some phisical memory by giving a smaller mem. – Chris Tsui Jan 16 '16 at 6:30
  • Craig, "driver/module that is a "built in" is what I also had in mind, but the driver usually will get loaded much later in the boot process. We are required to protect/reserve the hardware memory space before linux touches it, because it may yield undefined behavior in the hardware. In between, kernel boots to the driver, there is a chance that linux does something to that memory space. Is this right? – electro Feb 10 '16 at 3:31
  • @electro Did you ever find an answer to this question? I'm trying to achieve the same thing as you. We have a device that we need explicit control over, and do not want the Linux kernel to be loaded into this memory space at any point in time. What do you recommend? – Jonathan Jun 12 '17 at 17:21

One idea is to write a custom grub module and set memmap=xx using it. The following is how to do it.

Note that following method only works above CentOS 7 since CentOS 6.x or below uses grub 0.9x . In that case, you may have to modify code of grub 0.9x and replace /boot/grub/stage1 or /boot/grub/stage2

$ git clone git://git.savannah.gnu.org/grub.git
$ cd grub
$ git checkout grub-2.02-beta2 # CentOS 7 currently uses grub-2.02-beta
$ vim grub-core/Makefile.core.def # add following row
module = {
    name = my_custom_module;
    common = lib/my_custom_module.c;

$ vim grub-core/lib/my_custom_module.c # create following file
#include <grub/dl.h>
#include <grub/env.h>


    // Calls a proprietary function that returns custom proprietary memory module's starting address and size.
    const char *mem_size = "123";
$ ./autogen.sh
$ ./configure
$ make

Now you can find that grub-core/my_custom_module.mod is created. so copy it to /boot/grub2/i386-pc/ (or whatever your *.mod file exists)

Edit the grub.conf and add something like

insmod my_custom_module
linux /boot/vmlinuz-3.10.el7.x86_64 root=UUID=1a3b5c7d9 ro memmap=${my_memsize}
  • memmap is usually used like memmap=4G/$2G which means reserving 4G memory at address=2G. So, do I need to create a string of "4G/$2G" and at the grub.cfg, memmap={string} ? What is the right way to do this? – electro Feb 10 '16 at 3:27
  • @electro I think you can just generate char *the_string="4G/$2G" inside GRUB_MOD_INIT and call grub_env_set("my_memsize",the_string). With that module, ${my_memsize} in grub.conf will be replaced with the_string – ymonad Feb 10 '16 at 3:52

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