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gfiber / uboot / mindspeed / bdacf6af8432376b12b01176246054fd1e46c7f0 / . / board / MAI / bios_emulator / scitech / src / v86bios / v86.c
blob: 4deed044cb3d8d3b064a6c519832158d0b93a199 [file] [log] [blame]
/*
* Copyright 1999 Egbert Eich
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
* the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of the authors not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. The authors makes no representations
* about the suitability of this software for any purpose. It is provided
* "as is" without express or implied warranty.
*
* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
#include "debug.h"
#include <sys/vm86.h>
#include <unistd.h>
#include <errno.h>
#include <asm/unistd.h>
#include <stdio.h>
#include <string.h>
#include <signal.h>
#include <setjmp.h>
#include "v86bios.h"
#include "AsmMacros.h"
struct vm86_struct vm86s;
static int vm86_GP_fault(void);
static int vm86_do_int(int num);
static void dump_code(void);
static void dump_registers(void);
static void stack_trace(void);
static int vm86_rep(struct vm86_struct *ptr);
#define CPU_REG(x) (vm86s.regs.##x)
#define CPU_REG_LW(reg) (*((CARD16 *)&CPU_REG(reg)))
#define CPU_REG_HW(reg) (*((CARD16 *)&CPU_REG(reg) + 1))
#define CPU_REG_LB(reg) (*(CARD8 *)&CPU_REG(e##reg))
#define SEG_ADR(type, seg, reg) type((CPU_REG_LW(seg) << 4) \
+ CPU_REG_LW(e##reg))
#define DF (1 << 10)
struct pio P;
void
setup_io(void)
{
if (!Config.PrintPort && !Config.IoStatistics) {
P.inb = (CARD8(*)(CARD16))inb;
P.inw = (CARD16(*)(CARD16))inw;
P.inl = (CARD32(*)(CARD16))inl;
P.outb = (void(*)(CARD16,CARD8))outb;
P.outw = (void(*)(CARD16,CARD16))outw;
P.outl = (void(*)(CARD16,CARD32))outl;
} else {
P.inb = p_inb;
P.inw = p_inw;
P.inl = p_inl;
P.outb = p_outb;
P.outw = p_outw;
P.outl = p_outl;
}
}
static void
setup_vm86(unsigned long bios_start, i86biosRegsPtr regs)
{
CARD32 eip;
CARD16 cs;
vm86s.flags = VM86_SCREEN_BITMAP;
vm86s.flags = 0;
vm86s.screen_bitmap = 0;
vm86s.cpu_type = CPU_586;
memset(&vm86s.int_revectored, 0xff,sizeof(vm86s.int_revectored)) ;
memset(&vm86s.int21_revectored, 0xff,sizeof(vm86s.int21_revectored)) ;
eip = bios_start & 0xFFFF;
cs = (bios_start & 0xFF0000) >> 4;
CPU_REG(eax) = regs->ax;
CPU_REG(ebx) = regs->bx;
CPU_REG(ecx) = regs->cx;
CPU_REG(edx) = regs->dx;
CPU_REG(esi) = 0;
CPU_REG(edi) = regs->di;
CPU_REG(ebp) = 0;
CPU_REG(eip) = eip;
CPU_REG(cs) = cs;
CPU_REG(esp) = 0x100;
CPU_REG(ss) = 0x30; /* This is the standard pc bios stack */
CPU_REG(es) = regs->es;
CPU_REG(ds) = 0x40; /* standard pc ds */
CPU_REG(fs) = 0;
CPU_REG(gs) = 0;
CPU_REG(eflags) |= (VIF_MASK | VIP_MASK);
}
void
collect_bios_regs(i86biosRegsPtr regs)
{
regs->ax = CPU_REG(eax);
regs->bx = CPU_REG(ebx);
regs->cx = CPU_REG(ecx);
regs->dx = CPU_REG(edx);
regs->es = CPU_REG(es);
regs->ds = CPU_REG(ds);
regs->di = CPU_REG(edi);
regs->si = CPU_REG(esi);
}
static int
do_vm86(void)
{
int retval;
#ifdef V86BIOS_DEBUG
dump_registers();
#endif
/* retval = SYS_vm86old(&vm86s); */
/* retval = syscall(SYS_vm86old,&vm86s); */
retval = vm86_rep(&vm86s);
switch (VM86_TYPE(retval)) {
case VM86_UNKNOWN:
if (!vm86_GP_fault()) return 0;
break;
case VM86_STI:
fprintf(stderr,"vm86_sti :-((\n");
stack_trace();
dump_code();
return 0;
case VM86_INTx:
if (!vm86_do_int(VM86_ARG(retval))) {
fprintf(stderr,"\nUnknown vm86_int: %X\n\n",VM86_ARG(retval));
dump_registers();
return 0;
}
/* I'm not sure yet what to do if we can handle ints */
break;
case VM86_SIGNAL:
fprintf(stderr,"received signal\n");
return 0;
default:
fprintf(stderr,"unknown type(0x%x)=0x%x\n",
VM86_ARG(retval),VM86_TYPE(retval));
dump_registers();
dump_code();
stack_trace();
return 0;
}
return 1;
}
static jmp_buf x86_esc;
static void
vmexit(int unused)
{
longjmp(x86_esc,1);
}
void
do_x86(unsigned long bios_start, i86biosRegsPtr regs)
{
static void (*org_handler)(int);
setup_vm86(bios_start, regs);
if (setjmp(x86_esc) == 0) {
org_handler = signal(2,vmexit);
while(do_vm86()) {};
signal(2,org_handler);
collect_bios_regs(regs);
} else {
signal(2,org_handler);
printf("interrupted at 0x%x\n",((CARD16)CPU_REG(cs)) << 4
| (CARD16)CPU_REG(eip));
}
}
/* get the linear address */
#define LIN_PREF_SI ((pref_seg << 4) + CPU_REG_LW(esi))
#define LWECX (prefix66 ^ prefix67 ? CPU_REG(ecx) : CPU_REG_LW(ecx))
static int
vm86_GP_fault(void)
{
unsigned char *csp, *lina;
CARD32 org_eip;
int pref_seg;
int done,is_rep,prefix66,prefix67;
csp = lina = SEG_ADR((unsigned char *), cs, ip);
#ifdef V86BIOS_DEBUG
printf("exception: \n");
dump_code();
#endif
is_rep = 0;
prefix66 = prefix67 = 0;
pref_seg = -1;
/* eat up prefixes */
done = 0;
do {
switch (*(csp++)) {
case 0x66: /* operand prefix */ prefix66=1; break;
case 0x67: /* address prefix */ prefix67=1; break;
case 0x2e: /* CS */ pref_seg=CPU_REG(cs); break;
case 0x3e: /* DS */ pref_seg=CPU_REG(ds); break;
case 0x26: /* ES */ pref_seg=CPU_REG(es); break;
case 0x36: /* SS */ pref_seg=CPU_REG(ss); break;
case 0x65: /* GS */ pref_seg=CPU_REG(gs); break;
case 0x64: /* FS */ pref_seg=CPU_REG(fs); break;
case 0xf2: /* repnz */
case 0xf3: /* rep */ is_rep=1; break;
default: done=1;
}
} while (!done);
csp--; /* oops one too many */
org_eip = CPU_REG(eip);
CPU_REG_LW(eip) += (csp - lina);
switch (*csp) {
case 0x6c: /* insb */
/* NOTE: ES can't be overwritten; prefixes 66,67 should use esi,edi,ecx
* but is anyone using extended regs in real mode? */
/* WARNING: no test for DI wrapping! */
CPU_REG_LW(edi) += port_rep_inb(CPU_REG_LW(edx),
SEG_ADR((CARD8 *),es,di),
CPU_REG_LW(eflags)&DF,
(is_rep? LWECX:1));
if (is_rep) LWECX = 0;
CPU_REG_LW(eip)++;
break;
case 0x6d: /* (rep) insw / insd */
/* NOTE: ES can't be overwritten */
/* WARNING: no test for _DI wrapping! */
if (prefix66) {
CPU_REG_LW(edi) += port_rep_inl(CPU_REG_LW(edx),
SEG_ADR((CARD32 *),es,di),
CPU_REG_LW(eflags)&DF,
(is_rep? LWECX:1));
}
else {
CPU_REG_LW(edi) += port_rep_inw(CPU_REG_LW(edx),
SEG_ADR((CARD16 *),es,di),
CPU_REG_LW(eflags)&DF,
(is_rep? LWECX:1));
}
if (is_rep) LWECX = 0;
CPU_REG_LW(eip)++;
break;
case 0x6e: /* (rep) outsb */
if (pref_seg < 0) pref_seg = CPU_REG_LW(ds);
/* WARNING: no test for _SI wrapping! */
CPU_REG_LW(esi) += port_rep_outb(CPU_REG_LW(edx),(CARD8*)LIN_PREF_SI,
CPU_REG_LW(eflags)&DF,
(is_rep? LWECX:1));
if (is_rep) LWECX = 0;
CPU_REG_LW(eip)++;
break;
case 0x6f: /* (rep) outsw / outsd */
if (pref_seg < 0) pref_seg = CPU_REG_LW(ds);
/* WARNING: no test for _SI wrapping! */
if (prefix66) {
CPU_REG_LW(esi) += port_rep_outl(CPU_REG_LW(edx),
(CARD32 *)LIN_PREF_SI,
CPU_REG_LW(eflags)&DF,
(is_rep? LWECX:1));
}
else {
CPU_REG_LW(esi) += port_rep_outw(CPU_REG_LW(edx),
(CARD16 *)LIN_PREF_SI,
CPU_REG_LW(eflags)&DF,
(is_rep? LWECX:1));
}
if (is_rep) LWECX = 0;
CPU_REG_LW(eip)++;
break;
case 0xe5: /* inw xx, inl xx */
if (prefix66) CPU_REG(eax) = P.inl((int) csp[1]);
else CPU_REG_LW(eax) = P.inw((int) csp[1]);
CPU_REG_LW(eip) += 2;
break;
case 0xe4: /* inb xx */
CPU_REG_LW(eax) &= ~(CARD32)0xff;
CPU_REG_LB(ax) |= P.inb((int) csp[1]);
CPU_REG_LW(eip) += 2;
break;
case 0xed: /* inw dx, inl dx */
if (prefix66) CPU_REG(eax) = P.inl(CPU_REG_LW(edx));
else CPU_REG_LW(eax) = P.inw(CPU_REG_LW(edx));
CPU_REG_LW(eip) += 1;
break;
case 0xec: /* inb dx */
CPU_REG_LW(eax) &= ~(CARD32)0xff;
CPU_REG_LB(ax) |= P.inb(CPU_REG_LW(edx));
CPU_REG_LW(eip) += 1;
break;
case 0xe7: /* outw xx */
if (prefix66) P.outl((int)csp[1], CPU_REG(eax));
else P.outw((int)csp[1], CPU_REG_LW(eax));
CPU_REG_LW(eip) += 2;
break;
case 0xe6: /* outb xx */
P.outb((int) csp[1], CPU_REG_LB(ax));
CPU_REG_LW(eip) += 2;
break;
case 0xef: /* outw dx */
if (prefix66) P.outl(CPU_REG_LW(edx), CPU_REG(eax));
else P.outw(CPU_REG_LW(edx), CPU_REG_LW(eax));
CPU_REG_LW(eip) += 1;
break;
case 0xee: /* outb dx */
P.outb(CPU_REG_LW(edx), CPU_REG_LB(ax));
CPU_REG_LW(eip) += 1;
break;
case 0xf4:
#ifdef V86BIOS_DEBUG
printf("hlt at %p\n", lina);
#endif
return 0;
case 0x0f:
fprintf(stderr,"CPU 0x0f Trap at eip=0x%lx\n",CPU_REG(eip));
goto op0ferr;
break;
case 0xf0: /* lock */
default:
fprintf(stderr,"unknown reason for exception\n");
dump_registers();
stack_trace();
op0ferr:
dump_code();
fprintf(stderr,"cannot continue\n");
return 0;
} /* end of switch() */
return 1;
}
static int
vm86_do_int(int num)
{
int val;
struct regs86 regs;
i_printf("int 0x%x received: ax:0x%lx",num,CPU_REG(eax));
if (Config.PrintIp)
i_printf(" at: 0x%x\n",getIP());
else
i_printf("\n");
/* try to run bios interrupt */
/* if not installed fall back */
#define COPY(x) regs.##x = CPU_REG(x)
#define COPY_R(x) CPU_REG(x) = regs.##x
COPY(eax);
COPY(ebx);
COPY(ecx);
COPY(edx);
COPY(esi);
COPY(edi);
COPY(ebp);
COPY(eip);
COPY(esp);
COPY(cs);
COPY(ss);
COPY(ds);
COPY(es);
COPY(fs);
COPY(gs);
COPY(eflags);
if (!(val = int_handler(num,&regs)))
if (!(val = run_bios_int(num,&regs)))
return val;
COPY_R(eax);
COPY_R(ebx);
COPY_R(ecx);
COPY_R(edx);
COPY_R(esi);
COPY_R(edi);
COPY_R(ebp);
COPY_R(eip);
COPY_R(esp);
COPY_R(cs);
COPY_R(ss);
COPY_R(ds);
COPY_R(es);
COPY_R(fs);
COPY_R(gs);
COPY_R(eflags);
return val;
#undef COPY
#undef COPY_R
}
static void
dump_code(void)
{
int i;
unsigned char *lina = SEG_ADR((unsigned char *), cs, ip);
fprintf(stderr,"code at 0x%8.8x: ",(CARD32)lina);
for (i=0; i<0x10; i++)
fprintf(stderr,"%2.2x ",*(lina + i));
fprintf(stderr,"\n ");
for (; i<0x20; i++)
fprintf(stderr,"%2.2x ",*(lina + i));
fprintf(stderr,"\n");
}
#define PRINT(x) fprintf(stderr,#x":%4.4x ",CPU_REG_LW(x))
#define PRINT_FLAGS(x) fprintf(stderr,#x":%8.8x ",CPU_REG_LW(x))
static void
dump_registers(void)
{
PRINT(eip);
PRINT(eax);
PRINT(ebx);
PRINT(ecx);
PRINT(edx);
PRINT(esi);
PRINT(edi);
PRINT(ebp);
fprintf(stderr,"\n");
PRINT(esp);
PRINT(cs);
PRINT(ss);
PRINT(es);
PRINT(ds);
PRINT(fs);
PRINT(gs);
PRINT_FLAGS(eflags);
fprintf(stderr,"\n");
}
static void
stack_trace(void)
{
int i;
unsigned char *stack = SEG_ADR((unsigned char *), ss, sp);
fprintf(stderr,"stack at 0x%8.8lx:\n",(unsigned long)stack);
for (i=0; i < 0x10; i++)
fprintf(stderr,"%2.2x ",*(stack + i));
fprintf(stderr,"\n");
}
static int
vm86_rep(struct vm86_struct *ptr)
{
int __res;
__asm__ __volatile__("int $0x80\n"
:"=a" (__res):"a" ((int)113),
"b" ((struct vm86_struct *)ptr));
if ((__res) < 0) {
errno = -__res;
__res=-1;
}
else errno = 0;
return __res;
}
#define pushw(base, ptr, val) \
__asm__ __volatile__( \
"decw %w0\n\t" \
"movb %h2,(%1,%0)\n\t" \
"decw %w0\n\t" \
"movb %b2,(%1,%0)" \
: "=r" (ptr) \
: "r" (base), "q" (val), "0" (ptr))
int
run_bios_int(int num, struct regs86 *regs)
{
CARD16 *ssp;
CARD32 sp;
CARD32 eflags;
#ifdef V86BIOS_DEBUG
static int firsttime = 1;
#endif
/* check if bios vector is initialized */
if (((CARD16*)0)[(num<<1)+1] == 0x0000) { /* SYS_BIOS_SEG ?*/
#ifdef V86BIOS_DEBUG
i_printf("card BIOS not loaded\n");
#endif
return 0;
}
#ifdef V86BIOS_DEBUG
if (firsttime) {
dprint(0,0x3D0);
firsttime = 0;
}
#endif
i_printf("calling card BIOS at: ");
ssp = (CARD16*)(CPU_REG(ss)<<4);
sp = (CARD32) CPU_REG_LW(esp);
eflags = regs->eflags;
eflags = ((eflags & VIF_MASK) != 0)
? (eflags | IF_MASK) : (eflags & ~(CARD32) IF_MASK);
pushw(ssp, sp, eflags);
pushw(ssp, sp, regs->cs);
pushw(ssp, sp, (CARD16)regs->eip);
regs->esp -= 6;
regs->cs = ((CARD16 *) 0)[(num << 1) + 1];
regs->eip = (regs->eip & 0xFFFF0000) | ((CARD16 *) 0)[num << 1];
i_printf("0x%x:%lx\n",regs->cs,regs->eip);
#ifdef V86BIOS_DEBUG
dump_code();
#endif
regs->eflags = regs->eflags
& ~(VIF_MASK | TF_MASK | IF_MASK | NT_MASK);
return 1;
}
CARD32
getIntVect(int num)
{
return ((CARD32*)0)[num];
}
CARD32
getIP(void)
{
return (CPU_REG(cs) << 4) + CPU_REG(eip);
}