/* Copyright (C) 1994, 1997 Free Software Foundation, Inc. Contributed by Joel Sherrill (jsherril@redstone-emh2.army.mil), On-Line Applications Research Corporation. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ /* i386.h * * This file contains macros which are used to access i80386 * registers which are not addressable by C. This file contains * functions which are useful to those developing target * specific support routines. */ #ifndef i386_h__ #define i386_h__ typedef unsigned char unsigned8; typedef unsigned short unsigned16; typedef unsigned int unsigned32; #define disable_intr( isrlevel ) \ { (isrlevel) = 0; \ asm volatile ( "pushf ; \ pop %0 ; \ cli " \ : "=r" ((isrlevel)) : "0" ((isrlevel)) ); \ } #define enable_intr( isrlevel ) \ { asm volatile ( "push %0 ; \ popf " \ : "=r" ((isrlevel)) : "0" ((isrlevel)) ); \ } #define delay( _microseconds ) \ { \ unsigned32 _counter; \ \ _counter = (_microseconds); \ \ asm volatile ( "0: nop;" \ " mov %0,%0 ;" \ " loop 0" : "=c" (_counter) \ : "0" (_counter) \ ); \ \ } /* segment access functions */ static inline unsigned16 get_cs() { register unsigned16 segment = 0; asm volatile ( "movw %%cs,%0" : "=r" (segment) : "0" (segment) ); return segment; } static inline unsigned16 get_ds() { register unsigned16 segment = 0; asm volatile ( "movw %%ds,%0" : "=r" (segment) : "0" (segment) ); return segment; } static inline unsigned16 get_es() { register unsigned16 segment = 0; asm volatile ( "movw %%es,%0" : "=r" (segment) : "0" (segment) ); return segment; } static inline unsigned16 get_ss() { register unsigned16 segment = 0; asm volatile ( "movw %%ss,%0" : "=r" (segment) : "0" (segment) ); return segment; } static inline unsigned16 get_fs() { register unsigned16 segment = 0; asm volatile ( "movw %%fs,%0" : "=r" (segment) : "0" (segment) ); return segment; } static inline unsigned16 get_gs() { register unsigned16 segment = 0; asm volatile ( "movw %%gs,%0" : "=r" (segment) : "0" (segment) ); return segment; } /* i80x86 I/O instructions */ #define outport_byte( _port, _value ) \ { register unsigned16 __port = _port; \ register unsigned8 __value = _value; \ \ asm volatile ( "outb %0,%1" : "=a" (__value), "=d" (__port) \ : "0" (__value), "1" (__port) \ ); \ } #define outport_word( _port, _value ) \ { register unsigned16 __port = _port; \ register unsigned16 __value = _value; \ \ asm volatile ( "outw %0,%1" : "=a" (__value), "=d" (__port) \ : "0" (__value), "1" (__port) \ ); \ } #define outport_long( _port, _value ) \ { register unsigned16 __port = _port; \ register unsigned32 __value = _value; \ \ asm volatile ( "outl %0,%1" : "=a" (__value), "=d" (__port) \ : "0" (__value), "1" (__port) \ ); \ } #define inport_byte( _port, _value ) \ { register unsigned16 __port = _port; \ register unsigned8 __value = 0; \ \ asm volatile ( "inb %1,%0" : "=a" (__value), "=d" (__port) \ : "0" (__value), "1" (__port) \ ); \ _value = __value; \ } #define inport_word( _port, _value ) \ { register unsigned16 __port = _port; \ register unsigned16 __value = 0; \ \ asm volatile ( "inw %1,%0" : "=a" (__value), "=d" (__port) \ : "0" (__value), "1" (__port) \ ); \ _value = __value; \ } #define inport_long( _port, _value ) \ { register unsigned16 __port = _port; \ register unsigned32 __value = 0; \ \ asm volatile ( "inl %1,%0" : "=a" (__value), "=d" (__port) \ : "0" (__value), "1" (__port) \ ); \ _value = __value; \ } /* structures */ /* See Chapter 5 - Memory Management in i386 manual */ struct GDT_slot { unsigned16 limit_0_15; unsigned16 base_0_15; unsigned8 base_16_23; unsigned8 type_dt_dpl_p; unsigned8 limit_16_19_granularity; unsigned8 base_24_31; }; /* See Chapter 9 - Exceptions and Interrupts in i386 manual * * NOTE: This is the IDT entry for interrupt gates ONLY. */ struct IDT_slot { unsigned16 offset_0_15; unsigned16 segment_selector; unsigned8 reserved; unsigned8 p_dpl; unsigned16 offset_16_31; }; struct DTR_load_save_format { unsigned16 limit; unsigned32 physical_address; }; /* variables */ extern struct IDT_slot Interrupt_descriptor_table[ 256 ]; extern struct GDT_slot Global_descriptor_table[ 8192 ]; /* functions */ #ifdef CPU_INITIALIZE #define EXTERN #else #undef EXTERN #define EXTERN extern #endif void *Logical_to_physical( unsigned16 segment, void *address ); void *Physical_to_logical( unsigned16 segment, void *address ); /* complicated static inline functions */ #define get_GDTR( _gdtr_address ) \ { \ void *_gdtr = (_gdtr_address); \ \ asm volatile( "sgdt (%0)" : "=r" (_gdtr) : "0" (_gdtr) ); \ } #define get_GDT_slot( _gdtr_base, _segment, _slot_address ) \ { \ register unsigned32 _gdt_slot = (_gdtr_base) + (_segment); \ register volatile void *_slot = (_slot_address); \ register unsigned32 _temporary = 0; \ \ asm volatile( "movl %%gs:(%0),%1 ; \ movl %1,(%2) ; \ movl %%gs:4(%0),%1 ; \ movl %1,4(%2)" \ : "=r" (_gdt_slot), "=r" (_temporary), "=r" (_slot) \ : "0" (_gdt_slot), "1" (_temporary), "2" (_slot) \ ); \ } #define set_GDT_slot( _gdtr_base, _segment, _slot_address ) \ { \ register unsigned32 _gdt_slot = (_gdtr_base) + (_segment); \ register volatile void *_slot = (_slot_address); \ register unsigned32 _temporary = 0; \ \ asm volatile( "movl (%2),%1 ; \ movl %1,%%gs:(%0) ; \ movl 4(%2),%1 ; \ movl %1,%%gs:4(%0) \ " \ : "=r" (_gdt_slot), "=r" (_temporary), "=r" (_slot) \ : "0" (_gdt_slot), "1" (_temporary), "2" (_slot) \ ); \ } static inline void set_segment( unsigned16 segment, unsigned32 base, unsigned32 limit ) { struct DTR_load_save_format gdtr; volatile struct GDT_slot Gdt_slot; volatile struct GDT_slot *gdt_slot = &Gdt_slot; unsigned16 tmp_segment = 0; unsigned32 limit_adjusted; /* load physical address of the GDT */ get_GDTR( &gdtr ); gdt_slot->type_dt_dpl_p = 0x92; /* present, dpl=0, */ /* application=1, */ /* type=data read/write */ gdt_slot->limit_16_19_granularity = 0x40; /* 32 bit segment */ limit_adjusted = limit; if ( limit > 4095 ) { gdt_slot->limit_16_19_granularity |= 0x80; /* set granularity bit */ limit_adjusted /= 4096; } gdt_slot->limit_16_19_granularity |= (limit_adjusted >> 16) & 0xff; gdt_slot->limit_0_15 = limit_adjusted & 0xffff; gdt_slot->base_0_15 = base & 0xffff; gdt_slot->base_16_23 = (base >> 16) & 0xff; gdt_slot->base_24_31 = (base >> 24); set_GDT_slot( gdtr.physical_address, segment, gdt_slot ); /* Now, reload all segment registers so the limit takes effect. */ asm volatile( "movw %%ds,%0 ; movw %0,%%ds\n" "movw %%es,%0 ; movw %0,%%es\n" "movw %%fs,%0 ; movw %0,%%fs\n" "movw %%gs,%0 ; movw %0,%%gs\n" "movw %%ss,%0 ; movw %0,%%ss" : "=r" (tmp_segment) : "0" (tmp_segment) ); } #endif /* end of include file */