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This is probably more of a problem with my lack of C knowledge, but I'm hoping someone might be able to offer a possible solution. In a nutshell, I'm trying to read a struct that is stored in memory, and I have it's physical memory address. Also this is being done on a 64-bit Linux system (Debian (Wheezy) Kernel 3.6.6), and I'd like to use C as the language.

For example the current address of the struct in question is at physical address: 0x3f5e16000

Now I did initially try to access this address by using using a pointer to /dev/mem. However, I've since learned that access to any address > 1024MB is not allowed, and I get a nice error message in var/log/messages telling me all about it. At present access is being attempted from a userspace app, but I'm more than happy to look into writing a kernel module, if that is what is required.

Interesting, I've also discovered something known as 'kprobe', which supposedly allows the > 1024MB /dev/mem restriction to be bypassed. However, I don't really want to introduce any potential security issues into my system, and I'm sure there must be an easier way to accomplish this. The info on kprobe can be found here: http://www.libcrack.so/2012/09/02/bypassing-devmem_is_allowed-with-kprobes/

I've done some reading and I've found references to using mmap to map the physical address into userspace so that it can be read, but I must confess that I don't understand the implementation of this in C.

If anyone could provide some information on accessing physical memory, or either mapping data from a physical address to a userspace virtual address, I would be extremely grateful.

You'll have to forgive me if I'm a little bit vague as to exactly what I'm doing, but it's part of a project and I don't want to give too much information away, so please bear with me :) I'm not being obtuse or anything.

The structure in memory is a block of four ints and ten longs that is loaded into memory by a running kernel module.

The address that I'm using is definitely a physical address and it's set to non-paged, the kernel module performs the translations to physical and I'm not using the address-of operator.

I'm wondering if I should just rephrase the question as how to read an int from a physical location, as that is the first element of the struct. I hope that helps to clarify things!

EDIT - After doing some more reading, it appears that one possible solution to this problem is to construct a kernel module, and then use the mmap function to map the physical address to a virtual address the kernel module can then access. Can anyone offer any advice on achieving this using mmap?

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What exactly are you trying to do? That is, what structure of what device are you trying to access? – Griwes Jan 10 '13 at 18:32
The addresses you get from e.g. the address-of operator & are not physical addresses, they are virtual addresses and are valid only for the running process. Where they actually are in the real physical memory have no relation to the address you have in your program, it might even not be in physical memory, if it's been swapped to disk. – Joachim Pileborg Jan 10 '13 at 18:33
/dev/mem addresses physical memory, are you sure that's what you want, and not virtual memory? – netcoder Jan 10 '13 at 18:38
How do you know its physical address? Are you doing driver/kernel work? – phonetagger Jan 10 '13 at 19:17
Yes, at the moment I'm working with a kernel module that is using physical addresses to load certain data structures and variables into memory – Tony Jan 10 '13 at 19:34
up vote 4 down vote accepted

I'm only going to answer this question:

I'm wondering if I should just rephrase the question as how to read an int from a physical location, as that is the first element of the struct.

No. The problem is not int vs. struct, the problem is that C in and of itself has no notion of physical memory. The OS in conjunction with the MMU makes sure that every process, including every running C program, runs in a virtual memory sandbox. The OS might offer an escape hatch into physical memory.

If you're writing a kernel module that manages some object at physical address 0x3f5e16000, then you should offer some API to get to that memory, preferably one that uses a file descriptor or some other abstraction to hide the nitty-gritty of kernel memory management from the user program it communicates with.

If you're trying to communicate with a poorly designed kernel module that expects you to access a fixed physical memory address, then ugly hacks involving /dev/mem are your share.

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Thanks larsmans. I think I've been going about this the wrong way and I completely understand now why me trying to access a physical address isn't the right way to go about things. I shall try a different approach! – Tony Jan 11 '13 at 15:12

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