#ifndef __ALPHA_JENSEN_H #define __ALPHA_JENSEN_H /* * Defines for the AlphaPC EISA IO and memory address space. */ /* * NOTE! Currently it never uses the HAE register, so these work only * for the low 25 bits of EISA addressing. That covers all of the IO * address space (16 bits), and most of the "normal" EISA memory space. * I'll fix it eventually, but I'll need to come up with a clean way * to handle races with interrupt services wanting to change HAE... */ /* * NOTE 2! The memory operations do not set any memory barriers, as it's * not needed for cases like a frame buffer that is essentially memory-like. * You need to do them by hand if the operations depend on ordering. * * Similarly, the port IO operations do a "mb" only after a write operation: * if an mb is needed before (as in the case of doing memory mapped IO * first, and then a port IO operation to the same device), it needs to be * done by hand. * * After the above has bitten me 100 times, I'll give up and just do the * mb all the time, but right now I'm hoping this will work out. Avoiding * mb's may potentially be a noticeable speed improvement, but I can't * honestly say I've tested it. * * Handling interrupts that need to do mb's to synchronize to non-interrupts * is another fun race area. Don't do it (because if you do, I'll have to * do *everything* with interrupts disabled, ugh). */ /* * Virtual -> physical identity mapping starts at this offset */ #define IDENT_ADDR (0xfffffc0000000000UL) /* * EISA Interrupt Acknowledge address */ #define EISA_INTA (IDENT_ADDR + 0x100000000UL) /* * FEPROM addresses */ #define EISA_FEPROM0 (IDENT_ADDR + 0x180000000UL) #define EISA_FEPROM1 (IDENT_ADDR + 0x1A0000000UL) /* * VL82C106 base address */ #define EISA_VL82C106 (IDENT_ADDR + 0x1C0000000UL) /* * EISA "Host Address Extension" address (bits 25-31 of the EISA address) */ #define EISA_HAE (IDENT_ADDR + 0x1D0000000UL) /* * "SYSCTL" register address */ #define EISA_SYSCTL (IDENT_ADDR + 0x1E0000000UL) /* * "spare" register address */ #define EISA_SPARE (IDENT_ADDR + 0x1F0000000UL) /* * EISA memory address offset */ #define EISA_MEM (IDENT_ADDR + 0x200000000UL) /* * EISA IO address offset */ #define EISA_IO (IDENT_ADDR + 0x300000000UL) /* * IO functions * * The "local" functions are those that don't go out to the EISA bus, * but instead act on the VL82C106 chip directly.. This is mainly the * keyboard, RTC, printer and first two serial lines.. * * The local stuff makes for some complications, but it seems to be * gone in the PCI version. I hope I can get DEC suckered^H^H^H^H^H^H^H^H * convinced that I need one of the newer machines. */ extern inline unsigned int __local_inb(unsigned long addr) { long result = *(volatile int *) ((addr << 9) + EISA_VL82C106); return 0xffUL & result; } extern inline void __local_outb(unsigned char b, unsigned long addr) { *(volatile unsigned int *) ((addr << 9) + EISA_VL82C106) = b; mb(); } extern inline unsigned int __inb(unsigned long addr) { long result = *(volatile int *) ((addr << 7) + EISA_IO + 0x00); result >>= (addr & 3) * 8; return 0xffUL & result; } extern inline void __outb(unsigned char b, unsigned long addr) { *(volatile unsigned int *) ((addr << 7) + EISA_IO + 0x00) = b * 0x01010101; mb(); } /* * This is a stupid one: I'll make it a bitmap soon, promise.. * * On the other hand: this allows gcc to optimize. Hmm. I'll * have to use the __constant_p() stuff here. */ extern inline int __is_local(unsigned long addr) { /* keyboard */ if (addr == 0x60 || addr == 0x64) return 1; /* RTC */ if (addr == 0x170 || addr == 0x171) return 1; /* motherboard COM2 */ if (addr >= 0x2f8 && addr <= 0x2ff) return 1; /* motherboard LPT1 */ if (addr >= 0x3bc && addr <= 0x3be) return 1; /* motherboard COM2 */ if (addr >= 0x3f8 && addr <= 0x3ff) return 1; return 0; } extern inline unsigned int inb(unsigned long addr) { if (__is_local(addr)) return __local_inb(addr); return __inb(addr); } extern inline void outb(unsigned char b, unsigned long addr) { if (__is_local(addr)) __local_outb(b, addr); else __outb(b, addr); } extern inline unsigned int inw(unsigned long addr) { long result = *(volatile int *) ((addr << 7) + EISA_IO + 0x20); result >>= (addr & 3) * 8; return 0xffffUL & result; } extern inline unsigned int inl(unsigned long addr) { return *(volatile unsigned int *) ((addr << 7) + EISA_IO + 0x60); } extern inline void outw(unsigned short b, unsigned long addr) { *(volatile unsigned int *) ((addr << 7) + EISA_IO + 0x20) = b * 0x00010001; mb(); } extern inline void outl(unsigned int b, unsigned long addr) { *(volatile unsigned int *) ((addr << 7) + EISA_IO + 0x60) = b; mb(); } /* * Memory functions */ extern inline unsigned long readb(unsigned long addr) { long result = *(volatile int *) ((addr << 7) + EISA_MEM + 0x00); result >>= (addr & 3) * 8; return 0xffUL & result; } extern inline unsigned long readw(unsigned long addr) { long result = *(volatile int *) ((addr << 7) + EISA_MEM + 0x20); result >>= (addr & 3) * 8; return 0xffffUL & result; } extern inline unsigned long readl(unsigned long addr) { return *(volatile unsigned int *) ((addr << 7) + EISA_MEM + 0x60); } extern inline void writeb(unsigned short b, unsigned long addr) { *(volatile unsigned int *) ((addr << 7) + EISA_MEM + 0x00) = b * 0x01010101; } extern inline void writew(unsigned short b, unsigned long addr) { *(volatile unsigned int *) ((addr << 7) + EISA_MEM + 0x20) = b * 0x00010001; } extern inline void writel(unsigned int b, unsigned long addr) { *(volatile unsigned int *) ((addr << 7) + EISA_MEM + 0x60) = b; } #define inb_p inb #define outb_p outb /* * The Alpha Jensen hardware for some rather strange reason puts * the RTC clock at 0x170 instead of 0x70. Probably due to some * misguided idea about using 0x70 for NMI stuff. * * These defines will override the defaults when doing RTC queries */ #define RTC_PORT(x) (0x170+(x)) #define RTC_ADDR(x) (x) #define RTC_ALWAYS_BCD 0 #endif