fix: passage de Frame-omit-pointer à Stack Frame avec EBP, corrections multiple : exceptions ok et deboguage opérationnel

This commit is contained in:
Nicolas Hordé 2018-12-05 14:00:43 +01:00
parent 9041832823
commit 3129b5edcc
7 changed files with 303 additions and 204 deletions

View File

@ -20,74 +20,10 @@
#define popf() asm("popf"::) #define popf() asm("popf"::)
#define getESP() ({ \
u32 _v; \
asm volatile ("movl %%esp,%%eax;": "=a" (_v)); \
_v; \
})
#define dumpcpu() asm("\
pushal \n \
pushf \n \
pushl %%cs\n \
pushl $0x0\n \
pushl %%ds\n \
pushl %%es\n \
pushl %%fs\n \
pushl %%gs\n \
pushl %%ss\n \
pushl $0x0\n \
mov %%cr0, %%eax \n \
pushl %%eax\n \
mov %%cr2, %%eax \n \
pushl %%eax\n \
mov %%cr3, %%eax \n \
pushl %%eax\n \
mov %%cr4, %%eax \n \
pushl %%eax \n \
mov %%dr0, %%eax \n \
pushl %%eax\n \
mov %%dr1, %%eax \n \
pushl %%eax\n \
mov %%dr2, %%eax \n \
pushl %%eax\n \
mov %%dr3, %%eax \n \
pushl %%eax\n \
mov %%dr6, %%eax \n \
pushl %%eax\n \
mov %%dr7, %%eax \n \
pushl %%eax\n \
mov $0xC0000080, %%ecx \n \
rdmsr \n \
pushl %%edx \n \
pushl %%eax":::)
#define restcpu() asm("\
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%ss\n \
popl %%gs\n \
popl %%fs\n \
popl %%es\n \
popl %%ds\n \
popl %%eax \n \
popl %%eax \n \
popf \n \
popal":::)
#define iret() asm("iret"::) #define iret() asm("iret"::)
#define leave() asm("leave"::)
#define irqendmaster() asm("movb $0x20,%al; \ #define irqendmaster() asm("movb $0x20,%al; \
outb %al,$0x20;") outb %al,$0x20;")

View File

@ -46,13 +46,128 @@
#define TIMER_FREQ 1193180 /* fréquence pour timer dans un PC ou AT */ #define TIMER_FREQ 1193180 /* fréquence pour timer dans un PC ou AT */
#define HZ 100 /* Fréquence d'horloge (ajutste logiciellement sur IBM-PC) */ #define HZ 100 /* Fréquence d'horloge (ajutste logiciellement sur IBM-PC) */
#define getESP(mem) ({ \
asm volatile ("movl %%esp,%[tomem];":: [tomem] "m" (mem)); \
})
#define getEBP(mem) ({ \
asm volatile ("movl %%ebp,%[tomem];":: [tomem] "m" (mem)); \
})
#define setEBP(mem) ({ \
asm volatile ("movl %[tomem],%%ebp;":[tomem] "=m" (mem):); \
})
#define setESP(mem) ({ \
asm volatile ("movl %[tomem],%%esp;":[tomem] "=m" (mem):); \
})
#define dumpcpu() asm("\
pushal \n \
pushf \n \
pushl %%cs\n \
pushl $0x0\n \
pushl %%ds\n \
pushl %%es\n \
pushl %%fs\n \
pushl %%gs\n \
pushl %%ss\n \
mov %%cr0, %%eax \n \
pushl %%eax\n \
mov %%cr2, %%eax \n \
pushl %%eax\n \
mov %%cr3, %%eax \n \
pushl %%eax\n \
mov %%cr4, %%eax \n \
pushl %%eax \n \
mov %%dr0, %%eax \n \
pushl %%eax\n \
mov %%dr1, %%eax \n \
pushl %%eax\n \
mov %%dr2, %%eax \n \
pushl %%eax\n \
mov %%dr3, %%eax \n \
pushl %%eax\n \
mov %%dr6, %%eax \n \
pushl %%eax\n \
mov %%dr7, %%eax \n \
pushl %%eax\n \
mov $0xC0000080, %%ecx \n \
rdmsr \n \
pushl %%edx \n \
pushl %%eax":::)
#define restcpu() asm("\
popl %%eax \n \
popl %%edx \n \
mov $0xC0000080, %%ecx \n \
wrmsr\n \
popl %%eax\n \
mov %%eax,%%dr7 \n \
popl %%eax \n \
mov %%eax,%%dr6 \n \
popl %%eax \n \
mov %%eax,%%dr3 \n \
popl %%eax \n \
mov %%eax,%%dr2 \n \
popl %%eax \n \
mov %%eax,%%dr1 \n \
popl %%eax \n \
mov %%eax,%%dr0 \n \
popl %%eax \n \
mov %%eax,%%cr4 \n \
popl %%eax \n \
mov %%eax,%%cr3 \n \
popl %%eax \n \
mov %%eax,%%cr2 \n \
popl %%eax \n \
mov %%eax,%%cr0 \n \
popl %%ss\n \
popl %%gs\n \
popl %%fs\n \
popl %%es\n \
popl %%ds\n \
popl %%eax \n \
popl %%eax \n \
popf \n \
popal":::)
#define restdebugcpu() asm("\
popl %%eax \n \
popl %%edx \n \
mov $0xC0000080, %%ecx \n \
wrmsr\n \
popl %%eax\n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
popl %%eax \n \
mov %%eax,%%cr4 \n \
popl %%eax \n \
mov %%eax,%%cr3 \n \
popl %%eax \n \
mov %%eax,%%cr2 \n \
popl %%eax \n \
mov %%eax,%%cr0 \n \
popl %%ss\n \
popl %%gs\n \
popl %%fs\n \
popl %%es\n \
popl %%ds\n \
popl %%eax \n \
popl %%eax \n \
popf \n \
popal":::)
/* save pile */ /* save pile */
typedef struct save_stack { typedef struct save_stack {
u64 efer; u64 efer;
u32 dr7; u32 dr7;
u32 dr6; u32 dr6;
u32 dr5;
u32 dr4;
u32 dr3; u32 dr3;
u32 dr2; u32 dr2;
u32 dr1; u32 dr1;
@ -61,7 +176,6 @@ typedef struct save_stack {
u32 cr3; u32 cr3;
u32 cr2; u32 cr2;
u32 cr0; u32 cr0;
u32 oldesp;
u32 ss; u32 ss;
u32 gs; u32 gs;
u32 fs; u32 fs;

View File

@ -117,7 +117,7 @@ u8 getcpuinfos(cpuinfo * proc)
} }
boolean = &proc->mmx; boolean = &proc->mmx;
i = 0; i = 0;
proc->techs[0]='\000';
for (i = 0; i < sizeof(msg); i++) for (i = 0; i < sizeof(msg); i++)
if (*(boolean++) == 1) { if (*(boolean++) == 1) {
strcat(msg[i], &proc->techs); strcat(msg[i], &proc->techs);
@ -133,7 +133,7 @@ void show_lightcpu(save_stack *stack)
{ {
u32 i; u32 i;
printf("\33[0mEAX=%Y EBX=%Y ECX=%Y EDX=%Y\r\n", stack->eax, stack->ebx, stack->ecx, stack->edx); printf("\33[0mEAX=%Y EBX=%Y ECX=%Y EDX=%Y\r\n", stack->eax, stack->ebx, stack->ecx, stack->edx);
printf("ESI=%Y EDI=%Y ESP=%Y EBP=%Y\r\n", stack->esi, stack->edi, stack->oldesp, stack->ebp); printf("ESI=%Y EDI=%Y ESP=%Y EBP=%Y\r\n", stack->esi, stack->edi, stack->esp, stack->ebp);
printf("EIP=%Y EFL=%Y [%c%c%c%c%c%c%c%c%c]\r\n", stack->eip, stack->eflags, printf("EIP=%Y EFL=%Y [%c%c%c%c%c%c%c%c%c]\r\n", stack->eip, stack->eflags,
(stack->eflags & (1 <<11)) ? 'O':'-', (stack->eflags & (1 <<11)) ? 'O':'-',
(stack->eflags & (1 <<10)) ? 'D':'-', (stack->eflags & (1 <<10)) ? 'D':'-',
@ -175,12 +175,12 @@ void show_lightcpu(save_stack *stack)
} }
printf("\33[0m\r\n\r\n\r\nSTACK\r\n"); printf("\33[0m\r\n\r\n\r\nSTACK\r\n");
if (abs(KERNEL_STACK_ADDR-stack->oldesp)>0x10000) if (abs(KERNEL_STACK_ADDR-stack->esp)>0x10000)
printf("Pile invalide !"); printf("Pile invalide !");
else else
{ {
i=0; i=0;
for (u32 *pointer = stack->oldesp; pointer < KERNEL_STACK_ADDR; pointer ++) { for (u32 *pointer = stack->esp; pointer < KERNEL_STACK_ADDR; pointer ++) {
if (i>0 && i % 10 == 0) print("\033[10A"); if (i>0 && i % 10 == 0) print("\033[10A");
if (i>=10) if (i>=10)
print("\033[25C"); print("\033[25C");
@ -197,7 +197,7 @@ void show_lightcpu(save_stack *stack)
void show_cpu(save_stack *stack) void show_cpu(save_stack *stack)
{ {
printf("EAX=%Y EBX=%Y ECX=%Y EDX=%Y\r\n", stack->eax, stack->ebx, stack->ecx, stack->edx); printf("EAX=%Y EBX=%Y ECX=%Y EDX=%Y\r\n", stack->eax, stack->ebx, stack->ecx, stack->edx);
printf("ESI=%Y EDI=%Y ESP=%Y EBP=%Y\r\n", stack->esi, stack->edi, stack->oldesp, stack->ebp); printf("ESI=%Y EDI=%Y ESP=%Y EBP=%Y\r\n", stack->esi, stack->edi, stack->esp, stack->ebp);
printf("EIP=%Y EFL=%Y [%c%c%c%c%c%c%c%c%c]\r\n", stack->eip, stack->eflags, printf("EIP=%Y EFL=%Y [%c%c%c%c%c%c%c%c%c]\r\n", stack->eip, stack->eflags,
(stack->eflags & (1 <<11)) ? 'O':'-', (stack->eflags & (1 <<11)) ? 'O':'-',
(stack->eflags & (1 <<10)) ? 'D':'-', (stack->eflags & (1 <<10)) ? 'D':'-',
@ -225,15 +225,15 @@ void show_cpu(save_stack *stack)
printf("IDT= %Y %Y\r\n",idtreg.base,idtreg.limite); printf("IDT= %Y %Y\r\n",idtreg.base,idtreg.limite);
printf("CR0=%Y CR2=%Y CR3=%Y CR4=%Y\r\n",stack->cr0,stack->cr2,stack->cr3,stack->cr4); printf("CR0=%Y CR2=%Y CR3=%Y CR4=%Y\r\n",stack->cr0,stack->cr2,stack->cr3,stack->cr4);
printf("DR0=%Y DR1=%Y DR2=%Y DR3=%Y\r\n",stack->dr0,stack->dr1,stack->dr2,stack->dr3); printf("DR0=%Y DR1=%Y DR2=%Y DR3=%Y\r\n",stack->dr0,stack->dr1,stack->dr2,stack->dr3);
printf("DR4=%Y DR5=%Y DR6=%Y DR7=%Y\r\n",stack->dr4,stack->dr5,stack->dr6,stack->dr7); printf("DR6=%Y DR7=%Y\r\n",stack->dr6,stack->dr7);
printf("EFER=%lY\r\n",stack->efer); printf("EFER=%lY\r\n",stack->efer);
printf("STACK\r\n"); printf("STACK\r\n");
if (abs(KERNEL_STACK_ADDR-stack->oldesp)>0x10000) if (abs(KERNEL_STACK_ADDR-stack->esp)>0x10000)
printf("Pile invalide !"); printf("Pile invalide !");
else else
{ {
u32 i=0; u32 i=0;
for (u32 *pointer = stack->oldesp; pointer < KERNEL_STACK_ADDR; pointer ++) { for (u32 *pointer = stack->esp; pointer < KERNEL_STACK_ADDR; pointer ++) {
if (i>0 && i % 10 == 0) print("\033[10A"); if (i>0 && i % 10 == 0) print("\033[10A");
if (i>=10) if (i>=10)
print("\033[25C"); print("\033[25C");

View File

@ -170,34 +170,32 @@ void interruption()
void exception0() void exception0()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#DE Divide error",dump); cpuerror("#DE Divide error",dump);
} }
void exception1() void exception1()
{ {
cli(); cli();
dumpcpu(); save_stack *dump;
save_stack *dump = getESP();
exception_stack_noerror *current; exception_stack_noerror *current;
dump->eip=getdebugreg(0); u32 *oldesp;
for(u32 *addr=dump;addr<KERNEL_STACK_ADDR;addr++) getEBP(oldesp);
{ dumpcpu();
if (*addr==dump->eip && *(addr+1)==SEL_KERNEL_CODE) getESP(dump);
{ current=(exception_stack *) (oldesp+1);
current = addr; dump->esp=*oldesp;
break; dump->ebp=*((u32 *) dump->esp);
}
}
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
changevc(6); changevc(6);
clearscreen(); clearscreen();
show_lightcpu(dump); show_lightcpu(dump);
@ -207,7 +205,7 @@ void exception1()
cli(); cli();
if (ascii=='P' || ascii=='p') if (ascii=='P' || ascii=='p')
setdebugreg(0,current->eip+disasm(current->eip, NULL, false), DBG_EXEC); setdebugreg(0,current->eip+disasm(current->eip, NULL, false), DBG_EXEC);
if (ascii=='D' || ascii=='d') else if (ascii=='D' || ascii=='d')
setdebugreg(0,0, DBG_CLEAR); setdebugreg(0,0, DBG_CLEAR);
else if (ascii=='C' || ascii=='c') else if (ascii=='C' || ascii=='c')
setdebugreg(0,0, DBG_CLEAR); setdebugreg(0,0, DBG_CLEAR);
@ -218,164 +216,205 @@ void exception1()
initselectors(retry_address); initselectors(retry_address);
} }
changevc(0); changevc(0);
restcpu(); dump->ebp=oldesp;
asm("addl $0x028, %esp;popl %ebx;"); restdebugcpu();
leave();
sti();
iret(); iret();
} }
void exception2() void exception2()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("NMI Non-maskable hardware interrupt",dump); cpuerror("NMI Non-maskable hardware interrupt",dump);
} }
void exception3() void exception3()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#BP INT3 instruction",dump); cpuerror("#BP INT3 instruction",dump);
} }
void exception4() void exception4()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#OF INTO instruction detected overflow",dump); cpuerror("#OF INTO instruction detected overflow",dump);
} }
void exception5() void exception5()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#BR BOUND instruction detected overrange",dump); cpuerror("#BR BOUND instruction detected overrange",dump);
} }
void exception6() void exception6()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#UD Invalid instruction opcode",dump); cpuerror("#UD Invalid instruction opcode",dump);
} }
void exception7() void exception7()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#NM No coprocessor",dump); cpuerror("#NM No coprocessor",dump);
} }
void exception8() void exception8()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#DF Double fault",dump); cpuerror("#DF Double fault",dump);
} }
void exception9() void exception9()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("Coprocessor segment overrun",dump); cpuerror("Coprocessor segment overrun",dump);
} }
void exception10() void exception10()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#TS Invalid task state segment (TSS)",dump); cpuerror("#TS Invalid task state segment (TSS)",dump);
} }
void exception11() void exception11()
{ {
cli(); save_stack *dump;
exception_stack *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#NP Segment not present",dump); cpuerror("#NP Segment not present",dump);
} }
void exception12() void exception12()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#SS Stack fault",dump); cpuerror("#SS Stack fault",dump);
} }
void exception13() void exception13()
{ {
cli(); save_stack *dump;
exception_stack *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#GP General protection fault (GPF)",dump); cpuerror("#GP General protection fault (GPF)",dump);
} }
void exception14() void exception14()
{ {
cli(); save_stack *dump;
exception_stack *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack *current = getESP()+sizeof(save_stack)+100; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
u8* errorstring; u8* errorstring;
u8 completeerrorstring[255]; u8 completeerrorstring[255];
switch (current->error_code & 0xF) { switch (current->error_code & 0xF) {
@ -411,49 +450,61 @@ void exception14()
void exception15() void exception15()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("(reserved)",dump); cpuerror("(reserved)",dump);
} }
void exception16() void exception16()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#MF Coprocessor error",dump); cpuerror("#MF Coprocessor error",dump);
} }
void exception17() void exception17()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#AC Alignment check",dump); cpuerror("#AC Alignment check",dump);
} }
void exception18() void exception18()
{ {
cli(); save_stack *dump;
exception_stack_noerror *current;
u32 *oldesp;
getEBP(oldesp);
dumpcpu(); dumpcpu();
save_stack *dump = getESP(); getESP(dump);
exception_stack_noerror *current = getESP()+36; current=(exception_stack *) (oldesp+1);
dump->esp=*oldesp;
dump->ebp=*((u32 *) dump->esp);
dump->eip=current->eip; dump->eip=current->eip;
dump->cs=current->cs;
dump->oldesp=(current+1);
cpuerror("#MC Machine check",dump); cpuerror("#MC Machine check",dump);
} }
@ -470,7 +521,7 @@ void irq0()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -486,7 +537,7 @@ void irq1()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x01C, %esp;"); leave();
iret(); iret();
} }
@ -500,7 +551,7 @@ void irq2()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -514,7 +565,7 @@ void irq3()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -528,7 +579,7 @@ void irq4()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -542,7 +593,7 @@ void irq5()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -556,7 +607,7 @@ void irq6()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -570,7 +621,7 @@ void irq7()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -585,7 +636,7 @@ void irq8()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -600,7 +651,7 @@ void irq9()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -615,7 +666,7 @@ void irq10()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -630,7 +681,7 @@ void irq11()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -647,7 +698,7 @@ void irq12()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x1C, %esp;"); leave();
iret(); iret();
} }
@ -662,7 +713,7 @@ void irq13()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -677,7 +728,7 @@ void irq14()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }
@ -690,7 +741,7 @@ void irq15()
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }

View File

@ -342,7 +342,7 @@ void keyboard(void)
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x01C, %esp;"); leave();
iret(); iret();
} }

View File

@ -133,9 +133,7 @@ void mouse(void)
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x18,%esp;\ leave();
popl %bx;\
iret;");
iret(); iret();
} }

View File

@ -37,7 +37,7 @@ void timer(void)
popad(); popad();
popf(); popf();
sti(); sti();
asm("addl $0x0C, %esp;"); leave();
iret(); iret();
} }