I've inherited supporting some linux kernel drivers (in which my experience is very limited). My question is as follows. It's an embedded environment and the hardware has 512MB of physical memory. However, the boot parameters that are passed to the kernel limits the memory to 256MB by using the variable linuxMem=mem=256M. In my research of this environment variable, I am of the understanding that this limits the amount of memory that the kernel can manage to 256MB. Yet in some application code that runs on my target, I see an open of /dev/mem and a subsequent mmap of the returned file descriptor and the offset parameter of the mmap call is in the upper 256MB of physical memory. And things seem to be working fine. So my question is "why does it work if the kernel supposedly does not know about the upper 256MB?"
Strictly speaking, mem=256M is a kernel parameter, not an environment variable. This parameter only tells the kernel to use so much memory, but it does not make the system completely blind to the physical chip installed in the machine. It can be used to simulate a system with less physical memory than is actually available, but it is not fully equivalent to opening up your box and pulling out one of the memory chips.
Looking at the docs for this parameter, you can explicitly see that addresses outside of limited range can be used in some situations, that's why they recommend also using
memmap= in some cases. So, you can't allocate memory for your app above the limit, but you can look at what is found at some physical address, and it seems some device drivers make use of this possibility.
mmap() returns virtual addresses, not physical ones.
It's perfectly possible for a device to only have 64MB of memory and for
mmap() to map something around 1GB.