I am changing the linux kernel scheduler to print the pid of the next process in a known physical memory location. mmap is used for userspace programs while i read that ioremap marks the page as non-cacheable which would slowdown the execution of the program. I would like a fast way to write to a known physical memory. phys_to_virt is the option that i think is feasible. Any idea for a different technique.
PS: i am running this linux kernel on top of qemu. the physical address will be used by qemu to read information sent by guest kernel. writing to a known io-port is not feasible since the device code backing this io-device will be called every time there is an access to the device.
EDIT : I want the physical address location of the pid to be safe. How can I make sure that a physical address that the kernel is using is not being assigned to any process. As far as my knowledge goes, ioremap would mark the page as cacheable and would hence not be of great use.
The simplest way to do this would be to do
kmalloc()to get some memory in the kernel. Then you can get the physical address of the pointer that returns by passing it tovirt_to_phys(). This is a total hack but for your case of debugging / tracing under qemu, it should work fine.EDIT: I misunderstood the question. If you want to use a specific physical address, there are a couple of things you could do. Maybe the cleanest thing to do would be to modify the e820 map that qemu passes in to mark the RAM page as reserved, and then the kernel won’t use it. (ie the same way that ACPI tables are passed in).
If you don’t want to modify qemu, you could also modify the early kernel startup (around
arch/x86/kernel/setup.cprobably) to doreserve_bootmem()on the specific physical page you want to protect from being used.To actually use the specified physical address, you can just use
ioremap_cache()the same way the ACPI drivers access their tables.