283 lines
8.1 KiB
C
283 lines
8.1 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* Copyright (C) 2013-2014 Synopsys, Inc. All rights reserved.
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*/
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#ifndef __ASM_ARC_IO_H
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#define __ASM_ARC_IO_H
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#include <linux/types.h>
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#include <asm/byteorder.h>
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#ifdef __ARCHS__
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/*
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* ARCv2 based HS38 cores are in-order issue, but still weakly ordered
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* due to micro-arch buffering/queuing of load/store, cache hit vs. miss ...
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*
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* Explicit barrier provided by DMB instruction
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* - Operand supports fine grained load/store/load+store semantics
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* - Ensures that selected memory operation issued before it will complete
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* before any subsequent memory operation of same type
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* - DMB guarantees SMP as well as local barrier semantics
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* (asm-generic/barrier.h ensures sane smp_*mb if not defined here, i.e.
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* UP: barrier(), SMP: smp_*mb == *mb)
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* - DSYNC provides DMB+completion_of_cache_bpu_maintenance_ops hence not needed
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* in the general case. Plus it only provides full barrier.
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*/
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#define mb() asm volatile("dmb 3\n" : : : "memory")
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#define rmb() asm volatile("dmb 1\n" : : : "memory")
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#define wmb() asm volatile("dmb 2\n" : : : "memory")
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#else
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/*
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* ARCompact based cores (ARC700) only have SYNC instruction which is super
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* heavy weight as it flushes the pipeline as well.
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* There are no real SMP implementations of such cores.
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*/
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#define mb() asm volatile("sync\n" : : : "memory")
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#endif
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#ifdef __ARCHS__
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#define __iormb() rmb()
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#define __iowmb() wmb()
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#else
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#define __iormb() asm volatile("" : : : "memory")
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#define __iowmb() asm volatile("" : : : "memory")
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#endif
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static inline void sync(void)
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{
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/* Not yet implemented */
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}
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static inline u8 __raw_readb(const volatile void __iomem *addr)
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{
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u8 b;
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__asm__ __volatile__("ldb%U1 %0, %1\n"
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: "=r" (b)
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: "m" (*(volatile u8 __force *)addr)
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: "memory");
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return b;
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}
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static inline u16 __raw_readw(const volatile void __iomem *addr)
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{
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u16 s;
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__asm__ __volatile__("ldw%U1 %0, %1\n"
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: "=r" (s)
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: "m" (*(volatile u16 __force *)addr)
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: "memory");
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return s;
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}
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static inline u32 __raw_readl(const volatile void __iomem *addr)
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{
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u32 w;
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__asm__ __volatile__("ld%U1 %0, %1\n"
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: "=r" (w)
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: "m" (*(volatile u32 __force *)addr)
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: "memory");
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return w;
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}
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static inline void __raw_writeb(u8 b, volatile void __iomem *addr)
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{
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__asm__ __volatile__("stb%U1 %0, %1\n"
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:
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: "r" (b), "m" (*(volatile u8 __force *)addr)
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: "memory");
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}
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static inline void __raw_writew(u16 s, volatile void __iomem *addr)
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{
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__asm__ __volatile__("stw%U1 %0, %1\n"
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:
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: "r" (s), "m" (*(volatile u16 __force *)addr)
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: "memory");
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}
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static inline void __raw_writel(u32 w, volatile void __iomem *addr)
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{
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__asm__ __volatile__("st%U1 %0, %1\n"
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:
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: "r" (w), "m" (*(volatile u32 __force *)addr)
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: "memory");
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}
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static inline int __raw_readsb(unsigned int addr, void *data, int bytelen)
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{
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__asm__ __volatile__ ("1:ld.di r8, [r0]\n"
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"sub.f r2, r2, 1\n"
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"bnz.d 1b\n"
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"stb.ab r8, [r1, 1]\n"
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:
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: "r" (addr), "r" (data), "r" (bytelen)
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: "r8");
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return bytelen;
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}
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static inline int __raw_readsw(unsigned int addr, void *data, int wordlen)
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{
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__asm__ __volatile__ ("1:ld.di r8, [r0]\n"
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"sub.f r2, r2, 1\n"
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"bnz.d 1b\n"
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"stw.ab r8, [r1, 2]\n"
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:
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: "r" (addr), "r" (data), "r" (wordlen)
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: "r8");
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return wordlen;
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}
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static inline int __raw_readsl(unsigned int addr, void *data, int longlen)
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{
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__asm__ __volatile__ ("1:ld.di r8, [r0]\n"
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"sub.f r2, r2, 1\n"
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"bnz.d 1b\n"
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"st.ab r8, [r1, 4]\n"
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:
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: "r" (addr), "r" (data), "r" (longlen)
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: "r8");
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return longlen;
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}
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static inline int __raw_writesb(unsigned int addr, void *data, int bytelen)
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{
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__asm__ __volatile__ ("1:ldb.ab r8, [r1, 1]\n"
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"sub.f r2, r2, 1\n"
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"bnz.d 1b\n"
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"st.di r8, [r0, 0]\n"
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:
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: "r" (addr), "r" (data), "r" (bytelen)
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: "r8");
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return bytelen;
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}
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static inline int __raw_writesw(unsigned int addr, void *data, int wordlen)
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{
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__asm__ __volatile__ ("1:ldw.ab r8, [r1, 2]\n"
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"sub.f r2, r2, 1\n"
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"bnz.d 1b\n"
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"st.ab.di r8, [r0, 0]\n"
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:
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: "r" (addr), "r" (data), "r" (wordlen)
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: "r8");
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return wordlen;
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}
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static inline int __raw_writesl(unsigned int addr, void *data, int longlen)
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{
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__asm__ __volatile__ ("1:ld.ab r8, [r1, 4]\n"
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"sub.f r2, r2, 1\n"
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"bnz.d 1b\n"
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"st.ab.di r8, [r0, 0]\n"
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:
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: "r" (addr), "r" (data), "r" (longlen)
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: "r8");
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return longlen;
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}
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/*
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* MMIO can also get buffered/optimized in micro-arch, so barriers needed
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* Based on ARM model for the typical use case
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*
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* <ST [DMA buffer]>
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* <writel MMIO "go" reg>
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* or:
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* <readl MMIO "status" reg>
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* <LD [DMA buffer]>
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*
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* http://lkml.kernel.org/r/20150622133656.GG1583@arm.com
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*/
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#define readb(c) ({ u8 __v = readb_relaxed(c); __iormb(); __v; })
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#define readw(c) ({ u16 __v = readw_relaxed(c); __iormb(); __v; })
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#define readl(c) ({ u32 __v = readl_relaxed(c); __iormb(); __v; })
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#define writeb(v,c) ({ __iowmb(); writeb_relaxed(v,c); })
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#define writew(v,c) ({ __iowmb(); writew_relaxed(v,c); })
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#define writel(v,c) ({ __iowmb(); writel_relaxed(v,c); })
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/*
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* Relaxed API for drivers which can handle barrier ordering themselves
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*
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* Also these are defined to perform little endian accesses.
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* To provide the typical device register semantics of fixed endian,
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* swap the byte order for Big Endian
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*
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* http://lkml.kernel.org/r/201603100845.30602.arnd@arndb.de
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*/
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#define readb_relaxed(c) __raw_readb(c)
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#define readw_relaxed(c) ({ u16 __r = le16_to_cpu((__force __le16) \
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__raw_readw(c)); __r; })
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#define readl_relaxed(c) ({ u32 __r = le32_to_cpu((__force __le32) \
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__raw_readl(c)); __r; })
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#define writeb_relaxed(v,c) __raw_writeb(v,c)
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#define writew_relaxed(v,c) __raw_writew((__force u16) cpu_to_le16(v),c)
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#define writel_relaxed(v,c) __raw_writel((__force u32) cpu_to_le32(v),c)
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#define out_arch(type, endian, a, v) __raw_write##type(cpu_to_##endian(v), a)
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#define in_arch(type, endian, a) endian##_to_cpu(__raw_read##type(a))
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#define out_le32(a, v) out_arch(l, le32, a, v)
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#define out_le16(a, v) out_arch(w, le16, a, v)
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#define in_le32(a) in_arch(l, le32, a)
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#define in_le16(a) in_arch(w, le16, a)
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#define out_be32(a, v) out_arch(l, be32, a, v)
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#define out_be16(a, v) out_arch(w, be16, a, v)
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#define in_be32(a) in_arch(l, be32, a)
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#define in_be16(a) in_arch(w, be16, a)
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#define out_8(a, v) __raw_writeb(v, a)
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#define in_8(a) __raw_readb(a)
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/*
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* Clear and set bits in one shot. These macros can be used to clear and
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* set multiple bits in a register using a single call. These macros can
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* also be used to set a multiple-bit bit pattern using a mask, by
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* specifying the mask in the 'clear' parameter and the new bit pattern
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* in the 'set' parameter.
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*/
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#define clrbits(type, addr, clear) \
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out_##type((addr), in_##type(addr) & ~(clear))
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#define setbits(type, addr, set) \
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out_##type((addr), in_##type(addr) | (set))
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#define clrsetbits(type, addr, clear, set) \
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out_##type((addr), (in_##type(addr) & ~(clear)) | (set))
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#define clrbits_be32(addr, clear) clrbits(be32, addr, clear)
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#define setbits_be32(addr, set) setbits(be32, addr, set)
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#define clrsetbits_be32(addr, clear, set) clrsetbits(be32, addr, clear, set)
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#define clrbits_le32(addr, clear) clrbits(le32, addr, clear)
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#define setbits_le32(addr, set) setbits(le32, addr, set)
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#define clrsetbits_le32(addr, clear, set) clrsetbits(le32, addr, clear, set)
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#define clrbits_be16(addr, clear) clrbits(be16, addr, clear)
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#define setbits_be16(addr, set) setbits(be16, addr, set)
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#define clrsetbits_be16(addr, clear, set) clrsetbits(be16, addr, clear, set)
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#define clrbits_le16(addr, clear) clrbits(le16, addr, clear)
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#define setbits_le16(addr, set) setbits(le16, addr, set)
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#define clrsetbits_le16(addr, clear, set) clrsetbits(le16, addr, clear, set)
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#define clrbits_8(addr, clear) clrbits(8, addr, clear)
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#define setbits_8(addr, set) setbits(8, addr, set)
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#define clrsetbits_8(addr, clear, set) clrsetbits(8, addr, clear, set)
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#include <asm-generic/io.h>
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#endif /* __ASM_ARC_IO_H */
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