b595076a18
"gadget", "through", "command", "maintain", "maintain", "controller", "address", "between", "initiali[zs]e", "instead", "function", "select", "already", "equal", "access", "management", "hierarchy", "registration", "interest", "relative", "memory", "offset", "already", Signed-off-by: Uwe Kleine-König <u.kleine-koenig@pengutronix.de> Signed-off-by: Jiri Kosina <jkosina@suse.cz>
167 lines
5.5 KiB
C
167 lines
5.5 KiB
C
/*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version
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* 2 of the License, or (at your option) any later version.
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*
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* Portions Copyright (C) Cisco Systems, Inc.
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*/
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#ifndef __ASM_MACH_POWERTV_IOREMAP_H
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#define __ASM_MACH_POWERTV_IOREMAP_H
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#include <linux/types.h>
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#include <linux/log2.h>
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#include <linux/compiler.h>
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#include <asm/pgtable-bits.h>
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#include <asm/addrspace.h>
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/* We're going to mess with bits, so get sizes */
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#define IOR_BPC 8 /* Bits per char */
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#define IOR_PHYS_BITS (IOR_BPC * sizeof(phys_addr_t))
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#define IOR_DMA_BITS (IOR_BPC * sizeof(dma_addr_t))
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/*
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* Define the granularity of physical/DMA mapping in terms of the number
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* of bits that defines the offset within a grain. These will be the
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* least significant bits of the address. The rest of a physical or DMA
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* address will be used to index into an appropriate table to find the
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* offset to add to the address to yield the corresponding DMA or physical
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* address, respectively.
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*/
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#define IOR_LSBITS 22 /* Bits in a grain */
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/*
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* Compute the number of most significant address bits after removing those
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* used for the offset within a grain and then compute the number of table
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* entries for the conversion.
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*/
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#define IOR_PHYS_MSBITS (IOR_PHYS_BITS - IOR_LSBITS)
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#define IOR_NUM_PHYS_TO_DMA ((phys_addr_t) 1 << IOR_PHYS_MSBITS)
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#define IOR_DMA_MSBITS (IOR_DMA_BITS - IOR_LSBITS)
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#define IOR_NUM_DMA_TO_PHYS ((dma_addr_t) 1 << IOR_DMA_MSBITS)
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/*
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* Define data structures used as elements in the arrays for the conversion
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* between physical and DMA addresses. We do some slightly fancy math to
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* compute the width of the offset element of the conversion tables so
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* that we can have the smallest conversion tables. Next, round up the
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* sizes to the next higher power of two, i.e. the offset element will have
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* 8, 16, 32, 64, etc. bits. This eliminates the need to mask off any
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* bits. Finally, we compute a shift value that puts the most significant
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* bits of the offset into the most significant bits of the offset element.
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* This makes it more efficient on processors without barrel shifters and
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* easier to see the values if the conversion table is dumped in binary.
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*/
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#define _IOR_OFFSET_WIDTH(n) (1 << order_base_2(n))
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#define IOR_OFFSET_WIDTH(n) \
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(_IOR_OFFSET_WIDTH(n) < 8 ? 8 : _IOR_OFFSET_WIDTH(n))
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#define IOR_PHYS_OFFSET_BITS IOR_OFFSET_WIDTH(IOR_PHYS_MSBITS)
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#define IOR_PHYS_SHIFT (IOR_PHYS_BITS - IOR_PHYS_OFFSET_BITS)
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#define IOR_DMA_OFFSET_BITS IOR_OFFSET_WIDTH(IOR_DMA_MSBITS)
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#define IOR_DMA_SHIFT (IOR_DMA_BITS - IOR_DMA_OFFSET_BITS)
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struct ior_phys_to_dma {
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dma_addr_t offset:IOR_DMA_OFFSET_BITS __packed
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__aligned((IOR_DMA_OFFSET_BITS / IOR_BPC));
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};
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struct ior_dma_to_phys {
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dma_addr_t offset:IOR_PHYS_OFFSET_BITS __packed
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__aligned((IOR_PHYS_OFFSET_BITS / IOR_BPC));
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};
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extern struct ior_phys_to_dma _ior_phys_to_dma[IOR_NUM_PHYS_TO_DMA];
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extern struct ior_dma_to_phys _ior_dma_to_phys[IOR_NUM_DMA_TO_PHYS];
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static inline dma_addr_t _phys_to_dma_offset_raw(phys_addr_t phys)
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{
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return (dma_addr_t)_ior_phys_to_dma[phys >> IOR_LSBITS].offset;
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}
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static inline dma_addr_t _dma_to_phys_offset_raw(dma_addr_t dma)
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{
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return (dma_addr_t)_ior_dma_to_phys[dma >> IOR_LSBITS].offset;
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}
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/* These are not portable and should not be used in drivers. Drivers should
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* be using ioremap() and friends to map physical addresses to virtual
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* addresses and dma_map*() and friends to map virtual addresses into DMA
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* addresses and back.
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*/
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static inline dma_addr_t phys_to_dma(phys_addr_t phys)
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{
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return phys + (_phys_to_dma_offset_raw(phys) << IOR_PHYS_SHIFT);
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}
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static inline phys_addr_t dma_to_phys(dma_addr_t dma)
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{
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return dma + (_dma_to_phys_offset_raw(dma) << IOR_DMA_SHIFT);
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}
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extern void ioremap_add_map(dma_addr_t phys, phys_addr_t alias,
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dma_addr_t size);
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/*
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* Allow physical addresses to be fixed up to help peripherals located
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* outside the low 32-bit range -- generic pass-through version.
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*/
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static inline phys_t fixup_bigphys_addr(phys_t phys_addr, phys_t size)
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{
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return phys_addr;
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}
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/*
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* Handle the special case of addresses the area aliased into the first
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* 512 MiB of the processor's physical address space. These turn into either
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* kseg0 or kseg1 addresses, depending on flags.
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*/
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static inline void __iomem *plat_ioremap(phys_t start, unsigned long size,
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unsigned long flags)
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{
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phys_addr_t start_offset;
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void __iomem *result = NULL;
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/* Start by checking to see whether this is an aliased address */
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start_offset = _dma_to_phys_offset_raw(start);
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/*
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* If:
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* o the memory is aliased into the first 512 MiB, and
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* o the start and end are in the same RAM bank, and
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* o we don't have a zero size or wrap around, and
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* o we are supposed to create an uncached mapping,
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* handle this is a kseg0 or kseg1 address
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*/
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if (start_offset != 0) {
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phys_addr_t last;
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dma_addr_t dma_to_phys_offset;
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last = start + size - 1;
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dma_to_phys_offset =
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_dma_to_phys_offset_raw(last) << IOR_DMA_SHIFT;
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if (dma_to_phys_offset == start_offset &&
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size != 0 && start <= last) {
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phys_t adjusted_start;
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adjusted_start = start + start_offset;
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if (flags == _CACHE_UNCACHED)
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result = (void __iomem *) (unsigned long)
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CKSEG1ADDR(adjusted_start);
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else
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result = (void __iomem *) (unsigned long)
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CKSEG0ADDR(adjusted_start);
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}
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}
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return result;
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}
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static inline int plat_iounmap(const volatile void __iomem *addr)
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{
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return 0;
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}
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#endif /* __ASM_MACH_POWERTV_IOREMAP_H */
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