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git01.mediatek.com / filogic / uboot / df4262f7923cd08e0b3cb924afc17f8941c3da32 / . / include / asm-generic / io.h
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/* SPDX-License-Identifier: GPL-2.0+ */
/*
* Generic I/O functions.
*
* Copyright (c) 2016 Imagination Technologies Ltd.
*/
#ifndef __ASM_GENERIC_IO_H__
#define __ASM_GENERIC_IO_H__
/*
* This file should be included at the end of each architecture-specific
* asm/io.h such that we may provide generic implementations without
* conflicting with architecture-specific code.
*/
#ifndef __ASSEMBLY__
/**
* phys_to_virt() - Return a virtual address mapped to a given physical address
* @paddr: the physical address
*
* Returns a virtual address which the CPU can access that maps to the physical
* address @paddr. This should only be used where it is known that no dynamic
* mapping is required. In general, map_physmem should be used instead.
*
* Returns: a virtual address which maps to @paddr
*/
#ifndef phys_to_virt
static inline void *phys_to_virt(phys_addr_t paddr)
{
return (void *)(unsigned long)paddr;
}
#endif
/**
* virt_to_phys() - Return the physical address that a virtual address maps to
* @vaddr: the virtual address
*
* Returns the physical address which the CPU-accessible virtual address @vaddr
* maps to.
*
* Returns: the physical address which @vaddr maps to
*/
#ifndef virt_to_phys
static inline phys_addr_t virt_to_phys(void *vaddr)
{
return (phys_addr_t)((unsigned long)vaddr);
}
#endif
/*
* Flags for use with map_physmem() & unmap_physmem(). Architectures need not
* support all of these, in which case they will be defined as zero here &
* ignored. Callers that may run on multiple architectures should therefore
* treat them as hints rather than requirements.
*/
#ifndef MAP_NOCACHE
# define MAP_NOCACHE 0 /* Produce an uncached mapping */
#endif
#ifndef MAP_WRCOMBINE
# define MAP_WRCOMBINE 0 /* Allow write-combining on the mapping */
#endif
#ifndef MAP_WRBACK
# define MAP_WRBACK 0 /* Map using write-back caching */
#endif
#ifndef MAP_WRTHROUGH
# define MAP_WRTHROUGH 0 /* Map using write-through caching */
#endif
/**
* map_physmem() - Return a virtual address mapped to a given physical address
* @paddr: the physical address
* @len: the length of the required mapping
* @flags: flags affecting the type of mapping
*
* Return a virtual address through which the CPU may access the memory at
* physical address @paddr. The mapping will be valid for at least @len bytes,
* and may be affected by flags passed to the @flags argument. This function
* may create new mappings, so should generally be paired with a matching call
* to unmap_physmem once the caller is finished with the memory in question.
*
* Returns: a virtual address suitably mapped to @paddr
*/
#ifndef map_physmem
static inline void *map_physmem(phys_addr_t paddr, unsigned long len,
unsigned long flags)
{
return phys_to_virt(paddr);
}
#endif
/**
* unmap_physmem() - Remove mappings created by a prior call to map_physmem()
* @vaddr: the virtual address which map_physmem() previously returned
* @flags: flags matching those originally passed to map_physmem()
*
* Unmap memory which was previously mapped by a call to map_physmem(). If
* map_physmem() dynamically created a mapping for the memory in question then
* unmap_physmem() will remove that mapping.
*/
#ifndef unmap_physmem
static inline void unmap_physmem(void *vaddr, unsigned long flags)
{
}
#endif
/*
* __raw_{read,write}{b,w,l,q}() access memory in native endianness.
*
* On some architectures memory mapped IO needs to be accessed differently.
* On the simple architectures, we just read/write the memory location
* directly.
*/
#ifndef __raw_readb
#define __raw_readb __raw_readb
static inline u8 __raw_readb(const volatile void __iomem *addr)
{
return *(const volatile u8 __force *)addr;
}
#endif
#ifndef __raw_readw
#define __raw_readw __raw_readw
static inline u16 __raw_readw(const volatile void __iomem *addr)
{
return *(const volatile u16 __force *)addr;
}
#endif
#ifndef __raw_readl
#define __raw_readl __raw_readl
static inline u32 __raw_readl(const volatile void __iomem *addr)
{
return *(const volatile u32 __force *)addr;
}
#endif
#ifdef CONFIG_64BIT
#ifndef __raw_readq
#define __raw_readq __raw_readq
static inline u64 __raw_readq(const volatile void __iomem *addr)
{
return *(const volatile u64 __force *)addr;
}
#endif
#endif /* CONFIG_64BIT */
#ifndef __raw_writeb
#define __raw_writeb __raw_writeb
static inline void __raw_writeb(u8 value, volatile void __iomem *addr)
{
*(volatile u8 __force *)addr = value;
}
#endif
#ifndef __raw_writew
#define __raw_writew __raw_writew
static inline void __raw_writew(u16 value, volatile void __iomem *addr)
{
*(volatile u16 __force *)addr = value;
}
#endif
#ifndef __raw_writel
#define __raw_writel __raw_writel
static inline void __raw_writel(u32 value, volatile void __iomem *addr)
{
*(volatile u32 __force *)addr = value;
}
#endif
#ifdef CONFIG_64BIT
#ifndef __raw_writeq
#define __raw_writeq __raw_writeq
static inline void __raw_writeq(u64 value, volatile void __iomem *addr)
{
*(volatile u64 __force *)addr = value;
}
#endif
#endif /* CONFIG_64BIT */
/*
* {read,write}s{b,w,l,q}() repeatedly access the same memory address in
* native endianness in 8-, 16-, 32- or 64-bit chunks (@count times).
*/
#ifndef readsb
#define readsb readsb
static inline void readsb(const volatile void __iomem *addr, void *buffer,
unsigned int count)
{
if (count) {
u8 *buf = buffer;
do {
u8 x = __raw_readb(addr);
*buf++ = x;
} while (--count);
}
}
#endif
#ifndef readsw
#define readsw readsw
static inline void readsw(const volatile void __iomem *addr, void *buffer,
unsigned int count)
{
if (count) {
u16 *buf = buffer;
do {
u16 x = __raw_readw(addr);
*buf++ = x;
} while (--count);
}
}
#endif
#ifndef readsl
#define readsl readsl
static inline void readsl(const volatile void __iomem *addr, void *buffer,
unsigned int count)
{
if (count) {
u32 *buf = buffer;
do {
u32 x = __raw_readl(addr);
*buf++ = x;
} while (--count);
}
}
#endif
#ifdef CONFIG_64BIT
#ifndef readsq
#define readsq readsq
static inline void readsq(const volatile void __iomem *addr, void *buffer,
unsigned int count)
{
if (count) {
u64 *buf = buffer;
do {
u64 x = __raw_readq(addr);
*buf++ = x;
} while (--count);
}
}
#endif
#endif /* CONFIG_64BIT */
#ifndef writesb
#define writesb writesb
static inline void writesb(volatile void __iomem *addr, const void *buffer,
unsigned int count)
{
if (count) {
const u8 *buf = buffer;
do {
__raw_writeb(*buf++, addr);
} while (--count);
}
}
#endif
#ifndef writesw
#define writesw writesw
static inline void writesw(volatile void __iomem *addr, const void *buffer,
unsigned int count)
{
if (count) {
const u16 *buf = buffer;
do {
__raw_writew(*buf++, addr);
} while (--count);
}
}
#endif
#ifndef writesl
#define writesl writesl
static inline void writesl(volatile void __iomem *addr, const void *buffer,
unsigned int count)
{
if (count) {
const u32 *buf = buffer;
do {
__raw_writel(*buf++, addr);
} while (--count);
}
}
#endif
#ifdef CONFIG_64BIT
#ifndef writesq
#define writesq writesq
static inline void writesq(volatile void __iomem *addr, const void *buffer,
unsigned int count)
{
if (count) {
const u64 *buf = buffer;
do {
__raw_writeq(*buf++, addr);
} while (--count);
}
}
#endif
#endif /* CONFIG_64BIT */
#ifndef PCI_IOBASE
#define PCI_IOBASE ((void __iomem *)0)
#endif
/*
* {in,out}s{b,w,l}{,_p}() are variants of the above that repeatedly access a
* single I/O port multiple times.
*/
#ifndef insb
#define insb insb
static inline void insb(unsigned long addr, void *buffer, unsigned int count)
{
readsb(PCI_IOBASE + addr, buffer, count);
}
#endif
#ifndef insw
#define insw insw
static inline void insw(unsigned long addr, void *buffer, unsigned int count)
{
readsw(PCI_IOBASE + addr, buffer, count);
}
#endif
#ifndef insl
#define insl insl
static inline void insl(unsigned long addr, void *buffer, unsigned int count)
{
readsl(PCI_IOBASE + addr, buffer, count);
}
#endif
#ifndef outsb
#define outsb outsb
static inline void outsb(unsigned long addr, const void *buffer,
unsigned int count)
{
writesb(PCI_IOBASE + addr, buffer, count);
}
#endif
#ifndef outsw
#define outsw outsw
static inline void outsw(unsigned long addr, const void *buffer,
unsigned int count)
{
writesw(PCI_IOBASE + addr, buffer, count);
}
#endif
#ifndef outsl
#define outsl outsl
static inline void outsl(unsigned long addr, const void *buffer,
unsigned int count)
{
writesl(PCI_IOBASE + addr, buffer, count);
}
#endif
#ifndef ioread8_rep
#define ioread8_rep ioread8_rep
static inline void ioread8_rep(const volatile void __iomem *addr, void *buffer,
unsigned int count)
{
readsb(addr, buffer, count);
}
#endif
#ifndef ioread16_rep
#define ioread16_rep ioread16_rep
static inline void ioread16_rep(const volatile void __iomem *addr,
void *buffer, unsigned int count)
{
readsw(addr, buffer, count);
}
#endif
#ifndef ioread32_rep
#define ioread32_rep ioread32_rep
static inline void ioread32_rep(const volatile void __iomem *addr,
void *buffer, unsigned int count)
{
readsl(addr, buffer, count);
}
#endif
#ifdef CONFIG_64BIT
#ifndef ioread64_rep
#define ioread64_rep ioread64_rep
static inline void ioread64_rep(const volatile void __iomem *addr,
void *buffer, unsigned int count)
{
readsq(addr, buffer, count);
}
#endif
#endif /* CONFIG_64BIT */
#ifndef iowrite8_rep
#define iowrite8_rep iowrite8_rep
static inline void iowrite8_rep(volatile void __iomem *addr,
const void *buffer,
unsigned int count)
{
writesb(addr, buffer, count);
}
#endif
#ifndef iowrite16_rep
#define iowrite16_rep iowrite16_rep
static inline void iowrite16_rep(volatile void __iomem *addr,
const void *buffer,
unsigned int count)
{
writesw(addr, buffer, count);
}
#endif
#ifndef iowrite32_rep
#define iowrite32_rep iowrite32_rep
static inline void iowrite32_rep(volatile void __iomem *addr,
const void *buffer,
unsigned int count)
{
writesl(addr, buffer, count);
}
#endif
#ifdef CONFIG_64BIT
#ifndef iowrite64_rep
#define iowrite64_rep iowrite64_rep
static inline void iowrite64_rep(volatile void __iomem *addr,
const void *buffer,
unsigned int count)
{
writesq(addr, buffer, count);
}
#endif
#endif /* CONFIG_64BIT */
#endif /* !__ASSEMBLY__ */
#endif /* __ASM_GENERIC_IO_H__ */