I have seen that
__iomem is used to store the return type of
ioremap(), but I have used
u32 in ARM architecture for it and it works well.
So what difference does
__iomem make here? And in which circumstances should I use it exactly?
Lots of type casts are going to just "work well". However, this is not very strict. Nothing stops you from casting a
u32 to a
u32 * and dereference it, but this is not following the kernel API and is prone to errors.
__iomem is a cookie used by Sparse, a tool used to find possible coding faults in the kernel. If you don't compile your kernel code with Sparse enabled,
__iomem will be ignored anyway.
Use Sparse by first installing it, and then adding
C=1 to your
make call. For example, when building a module, use:
make -C $KPATH M=$PWD C=1 modules
__iomem is defined like this:
# define __iomem __attribute__((noderef, address_space(2)))
Adding (and requiring) a cookie like
__iomem for all I/O accesses is a way to be stricter and avoid programming errors. You don't want to read/write from/to I/O memory regions with absolute addresses because you're usually using virtual memory. Thus,
void __iomem *ioremap(phys_addr_t offset, unsigned long size);
is usually called to get the virtual address of an I/O physical address
offset, for a specified length
size in bytes.
ioremap() returns a pointer with an
__iomem cookie, so this may now be used with inline functions like
writel() (although it's now preferable to use the more explicit macros
iowrite32(), for example), which accept
noderef attribute is used by Sparse to make sure you don't dereference an
__iomem pointer. Dereferencing should work on some architecture where the I/O is really memory-mapped, but other architectures use special instructions for accessing I/Os and in this case, dereferencing won't work.
Let's look at an example:
void *io = ioremap(42, 4);
Sparse is not happy:
warning: incorrect type in initializer (different address spaces) expected void *io got void [noderef] <asn:2>*
u32 __iomem* io = ioremap(42, 4); pr_info("%x\n", *io);
Sparse is not happy either:
warning: dereference of noderef expression
In the last example, the first line is correct, because
ioremap() returns its value to an
__iomem variable. But then, we deference it, and we're not supposed to.
This makes Sparse happy:
void __iomem* io = ioremap(42, 4); pr_info("%x\n", ioread32(io));
Bottom line: always use
__iomem where it's required (as a return type or as a parameter type), and use Sparse to make sure you did so. Also: do not dereference an
Edit: Here's a great LWN article about the inception of
__iomem and functions using it.