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author | Tijl Coosemans <tijl@FreeBSD.org> | 2018-10-22 20:55:35 +0000 |
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committer | Tijl Coosemans <tijl@FreeBSD.org> | 2018-10-22 20:55:35 +0000 |
commit | 642909fdfb1f3530ed095a870209ba308f949dcd (patch) | |
tree | f8c0acd483b3584c24c4b99236115aa6f19ffee2 | |
parent | b61f31429050a1769cd01ca74a6136691f81eebb (diff) | |
download | src-642909fdfb1f3530ed095a870209ba308f949dcd.tar.gz src-642909fdfb1f3530ed095a870209ba308f949dcd.zip |
Define linuxkpi readq for 64-bit architectures. It is used by drm-kmod.
Currently the compiler picks up the definition in machine/cpufunc.h.
Add compiler memory barriers to read* and write*. The Linux x86
implementation of these functions uses inline asm with "memory" clobber.
The Linux x86 implementation of read_relaxed* and write_relaxed* uses the
same inline asm without "memory" clobber.
Implement ioread* and iowrite* in terms of read* and write* so they also
have memory barriers.
Qualify the addr parameter in write* as volatile.
Like Linux, define macros with the same name as the inline functions.
Only define 64-bit versions on 64-bit architectures because generally
32-bit architectures can't do atomic 64-bit loads and stores.
Regroup the functions a bit and add brief comments explaining what they do:
- __raw_read*, __raw_write*: atomic, no barriers, no byte swapping
- read_relaxed*, write_relaxed*: atomic, no barriers, little-endian
- read*, write*: atomic, with barriers, little-endian
Add a comment that says our implementation of ioread* and iowrite*
only handles MMIO and does not support port IO.
Reviewed by: hselasky
MFC after: 3 days
Notes
Notes:
svn path=/head/; revision=339618
-rw-r--r-- | sys/compat/linuxkpi/common/include/linux/io.h | 262 |
1 files changed, 209 insertions, 53 deletions
diff --git a/sys/compat/linuxkpi/common/include/linux/io.h b/sys/compat/linuxkpi/common/include/linux/io.h index df038c5893f1..3c75e86b1a17 100644 --- a/sys/compat/linuxkpi/common/include/linux/io.h +++ b/sys/compat/linuxkpi/common/include/linux/io.h @@ -38,153 +38,309 @@ #include <linux/compiler.h> #include <linux/types.h> +/* + * XXX This is all x86 specific. It should be bus space access. + */ + +/* Access MMIO registers atomically without barriers and byte swapping. */ + +static inline uint8_t +__raw_readb(const volatile void *addr) +{ + return (*(const volatile uint8_t *)addr); +} +#define __raw_readb(addr) __raw_readb(addr) + +static inline void +__raw_writeb(uint8_t v, volatile void *addr) +{ + *(volatile uint8_t *)addr = v; +} +#define __raw_writeb(v, addr) __raw_writeb(v, addr) + +static inline uint16_t +__raw_readw(const volatile void *addr) +{ + return (*(const volatile uint16_t *)addr); +} +#define __raw_readw(addr) __raw_readw(addr) + +static inline void +__raw_writew(uint16_t v, volatile void *addr) +{ + *(volatile uint16_t *)addr = v; +} +#define __raw_writew(v, addr) __raw_writew(v, addr) + static inline uint32_t __raw_readl(const volatile void *addr) { - return *(const volatile uint32_t *)addr; + return (*(const volatile uint32_t *)addr); } +#define __raw_readl(addr) __raw_readl(addr) static inline void -__raw_writel(uint32_t b, volatile void *addr) +__raw_writel(uint32_t v, volatile void *addr) { - *(volatile uint32_t *)addr = b; + *(volatile uint32_t *)addr = v; } +#define __raw_writel(v, addr) __raw_writel(v, addr) +#ifdef __LP64__ static inline uint64_t __raw_readq(const volatile void *addr) { - return *(const volatile uint64_t *)addr; + return (*(const volatile uint64_t *)addr); } +#define __raw_readq(addr) __raw_readq(addr) static inline void -__raw_writeq(uint64_t b, volatile void *addr) +__raw_writeq(uint64_t v, volatile void *addr) { - *(volatile uint64_t *)addr = b; + *(volatile uint64_t *)addr = v; } +#define __raw_writeq(v, addr) __raw_writeq(v, addr) +#endif -/* - * XXX This is all x86 specific. It should be bus space access. - */ #define mmiowb() barrier() -#undef writel +/* Access little-endian MMIO registers atomically with memory barriers. */ + +#undef readb +static inline uint8_t +readb(const volatile void *addr) +{ + uint8_t v; + + __compiler_membar(); + v = *(const volatile uint8_t *)addr; + __compiler_membar(); + return (v); +} +#define readb(addr) readb(addr) + +#undef writeb static inline void -writel(uint32_t b, void *addr) +writeb(uint8_t v, volatile void *addr) +{ + __compiler_membar(); + *(volatile uint8_t *)addr = v; + __compiler_membar(); +} +#define writeb(v, addr) writeb(v, addr) + +#undef readw +static inline uint16_t +readw(const volatile void *addr) { - *(volatile uint32_t *)addr = b; + uint16_t v; + + __compiler_membar(); + v = *(const volatile uint16_t *)addr; + __compiler_membar(); + return (v); } +#define readw(addr) readw(addr) -#undef writel_relaxed +#undef writew static inline void -writel_relaxed(uint32_t b, void *addr) +writew(uint16_t v, volatile void *addr) +{ + __compiler_membar(); + *(volatile uint16_t *)addr = v; + __compiler_membar(); +} +#define writew(v, addr) writew(v, addr) + +#undef readl +static inline uint32_t +readl(const volatile void *addr) { - *(volatile uint32_t *)addr = b; + uint32_t v; + + __compiler_membar(); + v = *(const volatile uint32_t *)addr; + __compiler_membar(); + return (v); +} +#define readl(addr) readl(addr) + +#undef writel +static inline void +writel(uint32_t v, volatile void *addr) +{ + __compiler_membar(); + *(volatile uint32_t *)addr = v; + __compiler_membar(); } +#define writel(v, addr) writel(v, addr) +#undef readq #undef writeq +#ifdef __LP64__ +static inline uint64_t +readq(const volatile void *addr) +{ + uint64_t v; + + __compiler_membar(); + v = *(const volatile uint64_t *)addr; + __compiler_membar(); + return (v); +} +#define readq(addr) readq(addr) + static inline void -writeq(uint64_t b, void *addr) +writeq(uint64_t v, volatile void *addr) { - *(volatile uint64_t *)addr = b; + __compiler_membar(); + *(volatile uint64_t *)addr = v; + __compiler_membar(); } +#define writeq(v, addr) writeq(v, addr) +#endif -#undef writeb +/* Access little-endian MMIO registers atomically without memory barriers. */ + +#undef readb_relaxed +static inline uint8_t +readb_relaxed(const volatile void *addr) +{ + return (*(const volatile uint8_t *)addr); +} +#define readb_relaxed(addr) readb_relaxed(addr) + +#undef writeb_relaxed static inline void -writeb(uint8_t b, void *addr) +writeb_relaxed(uint8_t v, volatile void *addr) { - *(volatile uint8_t *)addr = b; + *(volatile uint8_t *)addr = v; } +#define writeb_relaxed(v, addr) writeb_relaxed(v, addr) + +#undef readw_relaxed +static inline uint16_t +readw_relaxed(const volatile void *addr) +{ + return (*(const volatile uint16_t *)addr); +} +#define readw_relaxed(addr) readw_relaxed(addr) + +#undef writew_relaxed +static inline void +writew_relaxed(uint16_t v, volatile void *addr) +{ + *(volatile uint16_t *)addr = v; +} +#define writew_relaxed(v, addr) writew_relaxed(v, addr) + +#undef readl_relaxed +static inline uint32_t +readl_relaxed(const volatile void *addr) +{ + return (*(const volatile uint32_t *)addr); +} +#define readl_relaxed(addr) readl_relaxed(addr) + +#undef writel_relaxed +static inline void +writel_relaxed(uint32_t v, volatile void *addr) +{ + *(volatile uint32_t *)addr = v; +} +#define writel_relaxed(v, addr) writel_relaxed(v, addr) + +#undef readq_relaxed +#undef writeq_relaxed +#ifdef __LP64__ +static inline uint64_t +readq_relaxed(const volatile void *addr) +{ + return (*(const volatile uint64_t *)addr); +} +#define readq_relaxed(addr) readq_relaxed(addr) -#undef writew static inline void -writew(uint16_t b, void *addr) +writeq_relaxed(uint64_t v, volatile void *addr) { - *(volatile uint16_t *)addr = b; + *(volatile uint64_t *)addr = v; } +#define writeq_relaxed(v, addr) writeq_relaxed(v, addr) +#endif + +/* XXX On Linux ioread and iowrite handle both MMIO and port IO. */ #undef ioread8 static inline uint8_t ioread8(const volatile void *addr) { - return *(const volatile uint8_t *)addr; + return (readb(addr)); } +#define ioread8(addr) ioread8(addr) #undef ioread16 static inline uint16_t ioread16(const volatile void *addr) { - return *(const volatile uint16_t *)addr; + return (readw(addr)); } +#define ioread16(addr) ioread16(addr) #undef ioread16be static inline uint16_t ioread16be(const volatile void *addr) { - return be16toh(*(const volatile uint16_t *)addr); + return (bswap16(readw(addr))); } +#define ioread16be(addr) ioread16be(addr) #undef ioread32 static inline uint32_t ioread32(const volatile void *addr) { - return *(const volatile uint32_t *)addr; + return (readl(addr)); } +#define ioread32(addr) ioread32(addr) #undef ioread32be static inline uint32_t ioread32be(const volatile void *addr) { - return be32toh(*(const volatile uint32_t *)addr); + return (bswap32(readl(addr))); } +#define ioread32be(addr) ioread32be(addr) #undef iowrite8 static inline void iowrite8(uint8_t v, volatile void *addr) { - *(volatile uint8_t *)addr = v; + writeb(v, addr); } +#define iowrite8(v, addr) iowrite8(v, addr) #undef iowrite16 static inline void iowrite16(uint16_t v, volatile void *addr) { - *(volatile uint16_t *)addr = v; + writew(v, addr); } +#define iowrite16 iowrite16 #undef iowrite32 static inline void iowrite32(uint32_t v, volatile void *addr) { - *(volatile uint32_t *)addr = v; + writel(v, addr); } +#define iowrite32(v, addr) iowrite32(v, addr) #undef iowrite32be static inline void iowrite32be(uint32_t v, volatile void *addr) { - *(volatile uint32_t *)addr = htobe32(v); -} - -#undef readb -static inline uint8_t -readb(const volatile void *addr) -{ - return *(const volatile uint8_t *)addr; -} - -#undef readw -static inline uint16_t -readw(const volatile void *addr) -{ - return *(const volatile uint16_t *)addr; -} - -#undef readl -static inline uint32_t -readl(const volatile void *addr) -{ - return *(const volatile uint32_t *)addr; + writel(bswap32(v), addr); } +#define iowrite32be(v, addr) iowrite32be(v, addr) #if defined(__i386__) || defined(__amd64__) static inline void |