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 readl()/writel() (although it's now preferable to use the more explicit macros ioread32()/iowrite32(), for example), which accept __iomem addresses.

Also, the 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 __iomem pointer.

Edit: Here's a great LWN article about the inception of __iomem and functions using it.

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  • Beautiful explanation. That's to the point with some good references. – Adit Ya Feb 20 '19 at 6:21

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