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527581b9cf
Historically a lot of these existed because we did not have a distinction between what was modular code and what was providing support to modules via EXPORT_SYMBOL and friends. That changed when we forked out support for the latter into the export.h file. This means we should be able to reduce the usage of module.h in code that is obj-y Makefile or bool Kconfig. The advantage in doing so is that module.h itself sources about 15 other headers; adding significantly to what we feed cpp, and it can obscure what headers we are effectively using. Since module.h was the source for init.h (for __init) and for export.h (for EXPORT_SYMBOL) we consider each obj-y/bool instance for the presence of either and replace as needed. The compiler.h additions are for an implict presence of the "notrace" which module.h brought in but export.h does not. Signed-off-by: Paul Gortmaker <paul.gortmaker@windriver.com> Cc: linux-mips@linux-mips.org Patchwork: https://patchwork.linux-mips.org/patch/14034/ Signed-off-by: Ralf Baechle <ralf@linux-mips.org>
227 lines
4.5 KiB
C
227 lines
4.5 KiB
C
/*
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* Implement the default iomap interfaces
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*
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* (C) Copyright 2004 Linus Torvalds
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* (C) Copyright 2006 Ralf Baechle <ralf@linux-mips.org>
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* (C) Copyright 2007 MIPS Technologies, Inc.
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* written by Ralf Baechle <ralf@linux-mips.org>
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*/
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#include <linux/export.h>
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#include <asm/io.h>
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/*
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* Read/write from/to an (offsettable) iomem cookie. It might be a PIO
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* access or a MMIO access, these functions don't care. The info is
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* encoded in the hardware mapping set up by the mapping functions
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* (or the cookie itself, depending on implementation and hw).
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*
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* The generic routines don't assume any hardware mappings, and just
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* encode the PIO/MMIO as part of the cookie. They coldly assume that
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* the MMIO IO mappings are not in the low address range.
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*
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* Architectures for which this is not true can't use this generic
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* implementation and should do their own copy.
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*/
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#define PIO_MASK 0x0ffffUL
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unsigned int ioread8(void __iomem *addr)
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{
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return readb(addr);
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}
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EXPORT_SYMBOL(ioread8);
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unsigned int ioread16(void __iomem *addr)
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{
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return readw(addr);
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}
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EXPORT_SYMBOL(ioread16);
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unsigned int ioread16be(void __iomem *addr)
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{
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return be16_to_cpu(__raw_readw(addr));
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}
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EXPORT_SYMBOL(ioread16be);
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unsigned int ioread32(void __iomem *addr)
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{
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return readl(addr);
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}
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EXPORT_SYMBOL(ioread32);
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unsigned int ioread32be(void __iomem *addr)
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{
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return be32_to_cpu(__raw_readl(addr));
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}
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EXPORT_SYMBOL(ioread32be);
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void iowrite8(u8 val, void __iomem *addr)
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{
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writeb(val, addr);
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}
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EXPORT_SYMBOL(iowrite8);
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void iowrite16(u16 val, void __iomem *addr)
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{
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writew(val, addr);
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}
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EXPORT_SYMBOL(iowrite16);
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void iowrite16be(u16 val, void __iomem *addr)
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{
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__raw_writew(cpu_to_be16(val), addr);
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}
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EXPORT_SYMBOL(iowrite16be);
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void iowrite32(u32 val, void __iomem *addr)
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{
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writel(val, addr);
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}
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EXPORT_SYMBOL(iowrite32);
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void iowrite32be(u32 val, void __iomem *addr)
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{
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__raw_writel(cpu_to_be32(val), addr);
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}
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EXPORT_SYMBOL(iowrite32be);
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/*
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* These are the "repeat MMIO read/write" functions.
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* Note the "__mem" accesses, since we want to convert
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* to CPU byte order if the host bus happens to not match the
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* endianness of PCI/ISA (see mach-generic/mangle-port.h).
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*/
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static inline void mmio_insb(void __iomem *addr, u8 *dst, int count)
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{
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while (--count >= 0) {
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u8 data = __mem_readb(addr);
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*dst = data;
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dst++;
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}
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}
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static inline void mmio_insw(void __iomem *addr, u16 *dst, int count)
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{
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while (--count >= 0) {
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u16 data = __mem_readw(addr);
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*dst = data;
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dst++;
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}
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}
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static inline void mmio_insl(void __iomem *addr, u32 *dst, int count)
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{
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while (--count >= 0) {
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u32 data = __mem_readl(addr);
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*dst = data;
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dst++;
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}
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}
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static inline void mmio_outsb(void __iomem *addr, const u8 *src, int count)
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{
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while (--count >= 0) {
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__mem_writeb(*src, addr);
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src++;
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}
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}
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static inline void mmio_outsw(void __iomem *addr, const u16 *src, int count)
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{
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while (--count >= 0) {
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__mem_writew(*src, addr);
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src++;
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}
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}
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static inline void mmio_outsl(void __iomem *addr, const u32 *src, int count)
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{
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while (--count >= 0) {
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__mem_writel(*src, addr);
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src++;
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}
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}
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void ioread8_rep(void __iomem *addr, void *dst, unsigned long count)
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{
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mmio_insb(addr, dst, count);
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}
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EXPORT_SYMBOL(ioread8_rep);
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void ioread16_rep(void __iomem *addr, void *dst, unsigned long count)
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{
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mmio_insw(addr, dst, count);
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}
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EXPORT_SYMBOL(ioread16_rep);
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void ioread32_rep(void __iomem *addr, void *dst, unsigned long count)
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{
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mmio_insl(addr, dst, count);
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}
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EXPORT_SYMBOL(ioread32_rep);
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void iowrite8_rep(void __iomem *addr, const void *src, unsigned long count)
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{
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mmio_outsb(addr, src, count);
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}
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EXPORT_SYMBOL(iowrite8_rep);
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void iowrite16_rep(void __iomem *addr, const void *src, unsigned long count)
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{
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mmio_outsw(addr, src, count);
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}
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EXPORT_SYMBOL(iowrite16_rep);
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void iowrite32_rep(void __iomem *addr, const void *src, unsigned long count)
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{
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mmio_outsl(addr, src, count);
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}
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EXPORT_SYMBOL(iowrite32_rep);
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/*
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* Create a virtual mapping cookie for an IO port range
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*
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* This uses the same mapping are as the in/out family which has to be setup
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* by the platform initialization code.
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*
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* Just to make matters somewhat more interesting on MIPS systems with
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* multiple host bridge each will have it's own ioport address space.
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*/
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static void __iomem *ioport_map_legacy(unsigned long port, unsigned int nr)
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{
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return (void __iomem *) (mips_io_port_base + port);
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}
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void __iomem *ioport_map(unsigned long port, unsigned int nr)
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{
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if (port > PIO_MASK)
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return NULL;
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return ioport_map_legacy(port, nr);
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}
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EXPORT_SYMBOL(ioport_map);
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void ioport_unmap(void __iomem *addr)
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{
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/* Nothing to do */
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}
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EXPORT_SYMBOL(ioport_unmap);
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