/* $Id: io_se.c,v 1.12 2001/08/11 01:23:28 jzs Exp $ * * linux/arch/sh/kernel/io_se.c * * Copyright (C) 2000 Kazumoto Kojima * * I/O routine for Hitachi SolutionEngine. * */ #include #include #include #include /* SH pcmcia io window base, start and end. */ int sh_pcic_io_wbase = 0xb8400000; int sh_pcic_io_start; int sh_pcic_io_stop; int sh_pcic_io_type; int sh_pcic_io_dummy; static inline void delay(void) { ctrl_inw(0xa0000000); } /* MS7750 requires special versions of in*, out* routines, since PC-like io ports are located at upper half byte of 16-bit word which can be accessed only with 16-bit wide. */ static inline volatile __u16 * port2adr(unsigned int port) { if (port >= 0x2000) return (volatile __u16 *) (PA_MRSHPC + (port - 0x2000)); else if (port >= 0x1000) return (volatile __u16 *) (PA_83902 + (port << 1)); else if (sh_pcic_io_start <= port && port <= sh_pcic_io_stop) return (volatile __u16 *) (sh_pcic_io_wbase + (port &~ 1)); else return (volatile __u16 *) (PA_SUPERIO + (port << 1)); } static inline int shifted_port(unsigned long port) { /* For IDE registers, value is not shifted */ if ((0x1f0 <= port && port < 0x1f8) || port == 0x3f6) return 0; else return 1; } #define maybebadio(name,port) \ printk("bad PC-like io %s for port 0x%lx at 0x%08x\n", \ #name, (port), (__u32) __builtin_return_address(0)) unsigned char se_inb(unsigned long port) { if (sh_pcic_io_start <= port && port <= sh_pcic_io_stop) return *(__u8 *) (sh_pcic_io_wbase + 0x40000 + port); else if (shifted_port(port)) return (*port2adr(port) >> 8); else return (*port2adr(port))&0xff; } unsigned char se_inb_p(unsigned long port) { unsigned long v; if (sh_pcic_io_start <= port && port <= sh_pcic_io_stop) v = *(__u8 *) (sh_pcic_io_wbase + 0x40000 + port); else if (shifted_port(port)) v = (*port2adr(port) >> 8); else v = (*port2adr(port))&0xff; delay(); return v; } unsigned short se_inw(unsigned long port) { if (port >= 0x2000 || (sh_pcic_io_start <= port && port <= sh_pcic_io_stop)) return *port2adr(port); else maybebadio(inw, port); return 0; } unsigned int se_inl(unsigned long port) { maybebadio(inl, port); return 0; } void se_outb(unsigned char value, unsigned long port) { if (sh_pcic_io_start <= port && port <= sh_pcic_io_stop) *(__u8 *)(sh_pcic_io_wbase + port) = value; else if (shifted_port(port)) *(port2adr(port)) = value << 8; else *(port2adr(port)) = value; } void se_outb_p(unsigned char value, unsigned long port) { if (sh_pcic_io_start <= port && port <= sh_pcic_io_stop) *(__u8 *)(sh_pcic_io_wbase + port) = value; else if (shifted_port(port)) *(port2adr(port)) = value << 8; else *(port2adr(port)) = value; delay(); } void se_outw(unsigned short value, unsigned long port) { if (port >= 0x2000 || (sh_pcic_io_start <= port && port <= sh_pcic_io_stop)) *port2adr(port) = value; else maybebadio(outw, port); } void se_outl(unsigned int value, unsigned long port) { maybebadio(outl, port); } void se_insb(unsigned long port, void *addr, unsigned long count) { volatile __u16 *p = port2adr(port); if (sh_pcic_io_start <= port && port <= sh_pcic_io_stop) { volatile __u8 *bp = (__u8 *) (sh_pcic_io_wbase + 0x40000 + port); while (count--) *((__u8 *) addr)++ = *bp; } else if (shifted_port(port)) { while (count--) *((__u8 *) addr)++ = *p >> 8; } else { while (count--) *((__u8 *) addr)++ = *p; } } void se_insw(unsigned long port, void *addr, unsigned long count) { volatile __u16 *p = port2adr(port); while (count--) *((__u16 *) addr)++ = *p; } void se_insl(unsigned long port, void *addr, unsigned long count) { maybebadio(insl, port); } void se_outsb(unsigned long port, const void *addr, unsigned long count) { volatile __u16 *p = port2adr(port); if (sh_pcic_io_start <= port && port <= sh_pcic_io_stop) { volatile __u8 *bp = (__u8 *) (sh_pcic_io_wbase + port); while (count--) *bp = *((__u8 *) addr)++; } else if (shifted_port(port)) { while (count--) *p = *((__u8 *) addr)++ << 8; } else { while (count--) *p = *((__u8 *) addr)++; } } void se_outsw(unsigned long port, const void *addr, unsigned long count) { volatile __u16 *p = port2adr(port); while (count--) *p = *((__u16 *) addr)++; } void se_outsl(unsigned long port, const void *addr, unsigned long count) { maybebadio(outsw, port); } unsigned char se_readb(unsigned long addr) { return *(volatile unsigned char*)addr; } unsigned short se_readw(unsigned long addr) { return *(volatile unsigned short*)addr; } unsigned int se_readl(unsigned long addr) { return *(volatile unsigned long*)addr; } void se_writeb(unsigned char b, unsigned long addr) { *(volatile unsigned char*)addr = b; } void se_writew(unsigned short b, unsigned long addr) { *(volatile unsigned short*)addr = b; } void se_writel(unsigned int b, unsigned long addr) { *(volatile unsigned long*)addr = b; } /* Map ISA bus address to the real address. Only for PCMCIA. */ /* ISA page descriptor. */ static __u32 sh_isa_memmap[256]; static int sh_isa_mmap(__u32 start, __u32 length, __u32 offset) { int idx; if (start >= 0x100000 || (start & 0xfff) || (length != 0x1000)) return -1; idx = start >> 12; sh_isa_memmap[idx] = 0xb8000000 + (offset &~ 0xfff); #if 0 printk("sh_isa_mmap: start %x len %x offset %x (idx %x paddr %x)\n", start, length, offset, idx, sh_isa_memmap[idx]); #endif return 0; } unsigned long se_isa_port2addr(unsigned long offset) { int idx; idx = (offset >> 12) & 0xff; offset &= 0xfff; return sh_isa_memmap[idx] + offset; }