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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [arch/] [arm/] [mach-ebsa110/] [io.c] - Rev 1765
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/* * linux/arch/arm/mach-ebsa110/isamem.c * * Copyright (C) 2001 Russell King * * Perform "ISA" memory and IO accesses. The EBSA110 has some "peculiarities" * in the way it handles accesses to odd IO ports on 16-bit devices. These * devices have their D0-D15 lines connected to the processors D0-D15 lines. * Since they expect all byte IO operations to be performed on D0-D7, and the * StrongARM expects to transfer the byte to these odd addresses on D8-D15, * we must use a trick to get the required behaviour. * * The trick employed here is to use long word stores to odd address -1. The * glue logic picks this up as a "trick" access, and asserts the LSB of the * peripherals address bus, thereby accessing the odd IO port. Meanwhile, the * StrongARM transfers its data on D0-D7 as expected. * * Things get more interesting on the pass-1 EBSA110 - the PCMCIA controller * wiring was screwed in such a way that it had limited memory space access. * Luckily, the work-around for this is not too horrible. See * __isamem_convert_addr for the details. */ #include <linux/module.h> #include <linux/kernel.h> #include <linux/types.h> #include <asm/io.h> #include <asm/page.h> static u32 __isamem_convert_addr(void *addr) { u32 ret, a = (u32) addr; /* * The PCMCIA controller is wired up as follows: * +---------+---------+---------+---------+---------+---------+ * PCMCIA | 2 2 2 2 | 1 1 1 1 | 1 1 1 1 | 1 1 | | | * | 3 2 1 0 | 9 8 7 6 | 5 4 3 2 | 1 0 9 8 | 7 6 5 4 | 3 2 1 0 | * +---------+---------+---------+---------+---------+---------+ * CPU | 2 2 2 2 | 2 1 1 1 | 1 1 1 1 | 1 1 1 | | | * | 4 3 2 1 | 0 9 9 8 | 7 6 5 4 | 3 2 0 9 | 8 7 6 5 | 4 3 2 x | * +---------+---------+---------+---------+---------+---------+ * * This means that we can access PCMCIA regions as follows: * 0x*10000 -> 0x*1ffff * 0x*70000 -> 0x*7ffff * 0x*90000 -> 0x*9ffff * 0x*f0000 -> 0x*fffff */ ret = (a & 0xf803fe) << 1; ret |= (a & 0x03fc00) << 2; ret += 0xe8000000; if ((a & 0x20000) == (a & 0x40000) >> 1) return ret; BUG(); return 0; } /* * read[bwl] and write[bwl] */ u8 __readb(void *addr) { u32 ret, a = __isamem_convert_addr(addr); if ((int)addr & 1) ret = __arch_getl(a); else ret = __arch_getb(a); return ret; } u16 __readw(void *addr) { u32 a = __isamem_convert_addr(addr); if ((int)addr & 1) BUG(); return __arch_getw(a); } u32 __readl(void *addr) { u32 ret, a = __isamem_convert_addr(addr); if ((int)addr & 3) BUG(); ret = __arch_getw(a); ret |= __arch_getw(a + 4) << 16; return ret; } EXPORT_SYMBOL(__readb); EXPORT_SYMBOL(__readw); EXPORT_SYMBOL(__readl); void __writeb(u8 val, void *addr) { u32 a = __isamem_convert_addr(addr); if ((int)addr & 1) __arch_putl(val, a); else __arch_putb(val, a); } void __writew(u16 val, void *addr) { u32 a = __isamem_convert_addr(addr); if ((int)addr & 1) BUG(); __arch_putw(val, a); } void __writel(u32 val, void *addr) { u32 a = __isamem_convert_addr(addr); if ((int)addr & 3) BUG(); __arch_putw(val, a); __arch_putw(val >> 16, a + 4); } EXPORT_SYMBOL(__writeb); EXPORT_SYMBOL(__writew); EXPORT_SYMBOL(__writel); #define SUPERIO_PORT(p) \ (((p) >> 3) == (0x3f8 >> 3) || \ ((p) >> 3) == (0x2f8 >> 3) || \ ((p) >> 3) == (0x378 >> 3)) /* * We're addressing an 8 or 16-bit peripheral which tranfers * odd addresses on the low ISA byte lane. */ u8 __inb8(unsigned int port) { u32 ret; /* * The SuperIO registers use sane addressing techniques... */ if (SUPERIO_PORT(port)) ret = __arch_getb(ISAIO_BASE + (port << 2)); else { u32 a = ISAIO_BASE + ((port & ~1) << 1); /* * Shame nothing else does */ if (port & 1) ret = __arch_getl(a); else ret = __arch_getb(a); } return ret; } /* * We're addressing a 16-bit peripheral which transfers odd * addresses on the high ISA byte lane. */ u8 __inb16(unsigned int port) { u32 ret; /* * The SuperIO registers use sane addressing techniques... */ if (SUPERIO_PORT(port)) ret = __arch_getb(ISAIO_BASE + (port << 2)); else { u32 a = ISAIO_BASE + ((port & ~1) << 1); /* * Shame nothing else does */ ret = __arch_getb(a + (port & 1)); } return ret; } u16 __inw(unsigned int port) { u32 ret; /* * The SuperIO registers use sane addressing techniques... */ if (SUPERIO_PORT(port) || port & 1) ret = __arch_getw(ISAIO_BASE + (port << 2)); else { u32 a = ISAIO_BASE + (port << 1); /* * Shame nothing else does */ if (port & 1) BUG(); ret = __arch_getw(a); } return ret; } /* * Fake a 32-bit read with two 16-bit reads. Needed for 3c589. */ u32 __inl(unsigned int port) { u32 a; if (SUPERIO_PORT(port) || port & 3) BUG(); a = ISAIO_BASE + (port << 1); return __arch_getw(a) | __arch_getw(a + 4) << 16; } EXPORT_SYMBOL(__inb8); EXPORT_SYMBOL(__inb16); EXPORT_SYMBOL(__inw); EXPORT_SYMBOL(__inl); void __outb8(u8 val, unsigned int port) { /* * The SuperIO registers use sane addressing techniques... */ if (SUPERIO_PORT(port)) __arch_putb(val, ISAIO_BASE + (port << 2)); else { u32 a = ISAIO_BASE + ((port & ~1) << 1); /* * Shame nothing else does */ if (port & 1) __arch_putl(val, a); else __arch_putb(val, a); } } void __outb16(u8 val, unsigned int port) { /* * The SuperIO registers use sane addressing techniques... */ if (SUPERIO_PORT(port)) __arch_putb(val, ISAIO_BASE + (port << 2)); else { u32 a = ISAIO_BASE + ((port & ~1) << 1); /* * Shame nothing else does */ __arch_putb(val, a + (port & 1)); } } void __outw(u16 val, unsigned int port) { u32 off; /* * The SuperIO registers use sane addressing techniques... */ if (SUPERIO_PORT(port)) off = port << 2; else { off = port << 1; if (port & 1) BUG(); } __arch_putw(val, ISAIO_BASE + off); } void __outl(u32 val, unsigned int port) { BUG(); } EXPORT_SYMBOL(__outb8); EXPORT_SYMBOL(__outb16); EXPORT_SYMBOL(__outw); EXPORT_SYMBOL(__outl); extern void __arch_writesb(unsigned long virt, const void *from, int len); extern void __arch_writesw(unsigned long virt, const void *from, int len); extern void __arch_writesl(unsigned long virt, const void *from, int len); extern void __arch_readsb(unsigned long virt, void *from, int len); extern void __arch_readsw(unsigned long virt, void *from, int len); extern void __arch_readsl(unsigned long virt, void *from, int len); void outsb(unsigned int port, const void *from, int len) { u32 off; if (SUPERIO_PORT(port)) off = port << 2; else { off = (port & ~1) << 1; if (port & 1) BUG(); } __raw_writesb(ISAIO_BASE + off, from, len); } void insb(unsigned int port, void *from, int len) { u32 off; if (SUPERIO_PORT(port)) off = port << 2; else { off = (port & ~1) << 1; if (port & 1) BUG(); } __raw_readsb(ISAIO_BASE + off, from, len); } EXPORT_SYMBOL(outsb); EXPORT_SYMBOL(insb); void outsw(unsigned int port, const void *from, int len) { u32 off; if (SUPERIO_PORT(port)) off = port << 2; else { off = (port & ~1) << 1; if (port & 1) BUG(); } __raw_writesw(ISAIO_BASE + off, from, len); } void insw(unsigned int port, void *from, int len) { u32 off; if (SUPERIO_PORT(port)) off = port << 2; else { off = (port & ~1) << 1; if (port & 1) BUG(); } __raw_readsw(ISAIO_BASE + off, from, len); } EXPORT_SYMBOL(outsw); EXPORT_SYMBOL(insw); /* * We implement these as 16-bit insw/outsw, mainly for * 3c589 cards. */ void outsl(unsigned int port, const void *from, int len) { u32 off = port << 1; if (SUPERIO_PORT(port) || port & 3) BUG(); __raw_writesw(ISAIO_BASE + off, from, len << 1); } void insl(unsigned int port, void *from, int len) { u32 off = port << 1; if (SUPERIO_PORT(port) || port & 3) BUG(); __raw_readsw(ISAIO_BASE + off, from, len << 1); } EXPORT_SYMBOL(outsl); EXPORT_SYMBOL(insl);