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docs: driver-api: device-io: Document I/O access functions
This adds more detailed descriptions of the various read/write primitives available for use with I/O memory/ports. Reviewed-by: Linus Walleij <linus.walleij@linaro.org> Signed-off-by: Arnd Bergmann <arnd@arndb.de> Signed-off-by: Hector Martin <marcan@marcan.st>
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@ -146,6 +146,144 @@ There are also equivalents to memcpy. The ins() and
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outs() functions copy bytes, words or longs to the given
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port.
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__iomem pointer tokens
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======================
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The data type for an MMIO address is an ``__iomem`` qualified pointer, such as
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``void __iomem *reg``. On most architectures it is a regular pointer that
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points to a virtual memory address and can be offset or dereferenced, but in
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portable code, it must only be passed from and to functions that explicitly
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operated on an ``__iomem`` token, in particular the ioremap() and
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readl()/writel() functions. The 'sparse' semantic code checker can be used to
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verify that this is done correctly.
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While on most architectures, ioremap() creates a page table entry for an
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uncached virtual address pointing to the physical MMIO address, some
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architectures require special instructions for MMIO, and the ``__iomem`` pointer
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just encodes the physical address or an offsettable cookie that is interpreted
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by readl()/writel().
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Differences between I/O access functions
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========================================
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readq(), readl(), readw(), readb(), writeq(), writel(), writew(), writeb()
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These are the most generic accessors, providing serialization against other
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MMIO accesses and DMA accesses as well as fixed endianness for accessing
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little-endian PCI devices and on-chip peripherals. Portable device drivers
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should generally use these for any access to ``__iomem`` pointers.
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Note that posted writes are not strictly ordered against a spinlock, see
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Documentation/driver-api/io_ordering.rst.
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readq_relaxed(), readl_relaxed(), readw_relaxed(), readb_relaxed(),
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writeq_relaxed(), writel_relaxed(), writew_relaxed(), writeb_relaxed()
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On architectures that require an expensive barrier for serializing against
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DMA, these "relaxed" versions of the MMIO accessors only serialize against
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each other, but contain a less expensive barrier operation. A device driver
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might use these in a particularly performance sensitive fast path, with a
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comment that explains why the usage in a specific location is safe without
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the extra barriers.
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See memory-barriers.txt for a more detailed discussion on the precise ordering
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guarantees of the non-relaxed and relaxed versions.
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ioread64(), ioread32(), ioread16(), ioread8(),
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iowrite64(), iowrite32(), iowrite16(), iowrite8()
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These are an alternative to the normal readl()/writel() functions, with almost
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identical behavior, but they can also operate on ``__iomem`` tokens returned
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for mapping PCI I/O space with pci_iomap() or ioport_map(). On architectures
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that require special instructions for I/O port access, this adds a small
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overhead for an indirect function call implemented in lib/iomap.c, while on
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other architectures, these are simply aliases.
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ioread64be(), ioread32be(), ioread16be()
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iowrite64be(), iowrite32be(), iowrite16be()
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These behave in the same way as the ioread32()/iowrite32() family, but with
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reversed byte order, for accessing devices with big-endian MMIO registers.
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Device drivers that can operate on either big-endian or little-endian
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registers may have to implement a custom wrapper function that picks one or
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the other depending on which device was found.
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Note: On some architectures, the normal readl()/writel() functions
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traditionally assume that devices are the same endianness as the CPU, while
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using a hardware byte-reverse on the PCI bus when running a big-endian kernel.
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Drivers that use readl()/writel() this way are generally not portable, but
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tend to be limited to a particular SoC.
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hi_lo_readq(), lo_hi_readq(), hi_lo_readq_relaxed(), lo_hi_readq_relaxed(),
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ioread64_lo_hi(), ioread64_hi_lo(), ioread64be_lo_hi(), ioread64be_hi_lo(),
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hi_lo_writeq(), lo_hi_writeq(), hi_lo_writeq_relaxed(), lo_hi_writeq_relaxed(),
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iowrite64_lo_hi(), iowrite64_hi_lo(), iowrite64be_lo_hi(), iowrite64be_hi_lo()
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Some device drivers have 64-bit registers that cannot be accessed atomically
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on 32-bit architectures but allow two consecutive 32-bit accesses instead.
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Since it depends on the particular device which of the two halves has to be
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accessed first, a helper is provided for each combination of 64-bit accessors
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with either low/high or high/low word ordering. A device driver must include
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either <linux/io-64-nonatomic-lo-hi.h> or <linux/io-64-nonatomic-hi-lo.h> to
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get the function definitions along with helpers that redirect the normal
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readq()/writeq() to them on architectures that do not provide 64-bit access
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natively.
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__raw_readq(), __raw_readl(), __raw_readw(), __raw_readb(),
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__raw_writeq(), __raw_writel(), __raw_writew(), __raw_writeb()
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These are low-level MMIO accessors without barriers or byteorder changes and
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architecture specific behavior. Accesses are usually atomic in the sense that
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a four-byte __raw_readl() does not get split into individual byte loads, but
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multiple consecutive accesses can be combined on the bus. In portable code, it
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is only safe to use these to access memory behind a device bus but not MMIO
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registers, as there are no ordering guarantees with regard to other MMIO
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accesses or even spinlocks. The byte order is generally the same as for normal
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memory, so unlike the other functions, these can be used to copy data between
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kernel memory and device memory.
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inl(), inw(), inb(), outl(), outw(), outb()
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PCI I/O port resources traditionally require separate helpers as they are
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implemented using special instructions on the x86 architecture. On most other
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architectures, these are mapped to readl()/writel() style accessors
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internally, usually pointing to a fixed area in virtual memory. Instead of an
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``__iomem`` pointer, the address is a 32-bit integer token to identify a port
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number. PCI requires I/O port access to be non-posted, meaning that an outb()
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must complete before the following code executes, while a normal writeb() may
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still be in progress. On architectures that correctly implement this, I/O port
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access is therefore ordered against spinlocks. Many non-x86 PCI host bridge
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implementations and CPU architectures however fail to implement non-posted I/O
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space on PCI, so they can end up being posted on such hardware.
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In some architectures, the I/O port number space has a 1:1 mapping to
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``__iomem`` pointers, but this is not recommended and device drivers should
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not rely on that for portability. Similarly, an I/O port number as described
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in a PCI base address register may not correspond to the port number as seen
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by a device driver. Portable drivers need to read the port number for the
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resource provided by the kernel.
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There are no direct 64-bit I/O port accessors, but pci_iomap() in combination
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with ioread64/iowrite64 can be used instead.
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inl_p(), inw_p(), inb_p(), outl_p(), outw_p(), outb_p()
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On ISA devices that require specific timing, the _p versions of the I/O
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accessors add a small delay. On architectures that do not have ISA buses,
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these are aliases to the normal inb/outb helpers.
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readsq, readsl, readsw, readsb
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writesq, writesl, writesw, writesb
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ioread64_rep, ioread32_rep, ioread16_rep, ioread8_rep
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iowrite64_rep, iowrite32_rep, iowrite16_rep, iowrite8_rep
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insl, insw, insb, outsl, outsw, outsb
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These are helpers that access the same address multiple times, usually to copy
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data between kernel memory byte stream and a FIFO buffer. Unlike the normal
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MMIO accessors, these do not perform a byteswap on big-endian kernels, so the
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first byte in the FIFO register corresponds to the first byte in the memory
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buffer regardless of the architecture.
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Public Functions Provided
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=========================
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