void
CALL32_Ap(void)
{
descriptor_t sd;
UINT32 new_ip;
UINT16 new_cs;
UINT16 sreg;
CPU_WORKCLOCK(13);
GET_PCDWORD(new_ip);
GET_PCWORD(new_cs);
if (!CPU_STAT_PM || CPU_STAT_VM86) {
/* Real mode or VM86 mode */
CPU_SET_PREV_ESP();
load_segreg(CPU_CS_INDEX, new_cs, &sreg, &sd, GP_EXCEPTION);
if (new_ip > sd.u.seg.limit) {
EXCEPTION(GP_EXCEPTION, 0);
}
PUSH0_32(CPU_CS);
PUSH0_32(CPU_EIP);
LOAD_SEGREG(CPU_CS_INDEX, new_cs);
CPU_EIP = new_ip;
CPU_CLEAR_PREV_ESP();
} else {
/* Protected mode */
CALLfar_pm(new_cs, new_ip);
}
}
void
RETfar32(void)
{
descriptor_t sd;
UINT32 new_ip;
UINT32 new_cs;
UINT16 sreg;
CPU_WORKCLOCK(15);
if (!CPU_STAT_PM || CPU_STAT_VM86) {
/* Real mode or VM86 mode */
CPU_SET_PREV_ESP();
POP0_32(new_ip);
POP0_32(new_cs);
/* check new instrunction pointer with new code segment */
load_segreg(CPU_CS_INDEX, new_cs, &sreg, &sd, GP_EXCEPTION);
if (new_ip > sd.u.seg.limit) {
EXCEPTION(GP_EXCEPTION, 0);
}
LOAD_SEGREG(CPU_CS_INDEX, (UINT16)new_cs);
CPU_EIP = new_ip;
CPU_CLEAR_PREV_ESP();
} else {
/* Protected mode */
RETfar_pm(0);
}
}
void
RETnear32(void)
{
UINT32 new_ip;
CPU_WORKCLOCK(11);
CPU_SET_PREV_ESP();
POP0_32(new_ip);
if (new_ip > CPU_STAT_CS_LIMIT) {
EXCEPTION(GP_EXCEPTION, 0);
}
CPU_EIP = new_ip;
CPU_CLEAR_PREV_ESP();
}
void
CALL_Ad(void)
{
UINT32 new_ip;
UINT32 dest;
CPU_WORKCLOCK(7);
CPU_SET_PREV_ESP();
GET_PCDWORD(dest);
new_ip = CPU_EIP + dest;
if (new_ip > CPU_STAT_CS_LIMIT) {
EXCEPTION(GP_EXCEPTION, 0);
}
PUSH0_32(CPU_EIP);
CPU_EIP = new_ip;
CPU_CLEAR_PREV_ESP();
}
/*
* CALL
*/
void
CALL_Aw(void)
{
UINT16 new_ip;
SINT16 dest;
CPU_WORKCLOCK(7);
CPU_SET_PREV_ESP();
GET_PCWORDS(dest);
new_ip = CPU_EIP + dest;
if (new_ip > CPU_STAT_CS_LIMIT) {
EXCEPTION(GP_EXCEPTION, 0);
}
PUSH0_16(CPU_IP);
CPU_EIP = new_ip;
CPU_CLEAR_PREV_ESP();
}
void
LEAVE(void)
{
CPU_WORKCLOCK(4);
CPU_SET_PREV_ESP();
if (!CPU_STAT_SS32) {
CPU_SP = CPU_BP;
} else {
CPU_ESP = CPU_EBP;
}
if (!CPU_INST_OP32) {
POP0_16(CPU_BP);
} else {
POP0_32(CPU_EBP);
}
CPU_CLEAR_PREV_ESP();
}
void
IRET(void)
{
descriptor_t sd;
UINT32 new_ip;
UINT32 new_flags;
UINT32 new_cs;
UINT32 mask;
UINT16 sreg;
CPU_WORKCLOCK(22);
if (!CPU_STAT_PM) {
/* Real mode */
CPU_SET_PREV_ESP();
mask = I_FLAG|IOPL_FLAG;
if (!CPU_INST_OP32) {
POP0_16(new_ip);
POP0_16(new_cs);
POP0_16(new_flags);
} else {
POP0_32(new_ip);
POP0_32(new_cs);
POP0_32(new_flags);
mask |= RF_FLAG;
}
/* check new instrunction pointer with new code segment */
load_segreg(CPU_CS_INDEX, new_cs, &sreg, &sd, GP_EXCEPTION);
if (new_ip > sd.u.seg.limit) {
EXCEPTION(GP_EXCEPTION, 0);
}
LOAD_SEGREG(CPU_CS_INDEX, (UINT16)new_cs);
CPU_EIP = new_ip;
set_eflags(new_flags, mask);
CPU_CLEAR_PREV_ESP();
} else {
/* Protected mode */
IRET_pm();
}
IRQCHECKTERM();
}
void
RETnear32_Iw(void)
{
UINT32 new_ip;
UINT16 size;
CPU_WORKCLOCK(11);
CPU_SET_PREV_ESP();
GET_PCWORD(size);
POP0_32(new_ip);
if (new_ip > CPU_STAT_CS_LIMIT) {
EXCEPTION(GP_EXCEPTION, 0);
}
CPU_EIP = new_ip;
if (!CPU_STAT_SS32) {
CPU_SP += size;
} else {
CPU_ESP += size;
}
CPU_CLEAR_PREV_ESP();
}
void CPUCALL
CALL_Ed(UINT32 op)
{
UINT32 madr;
UINT32 new_ip;
CPU_SET_PREV_ESP();
if (op >= 0xc0) {
CPU_WORKCLOCK(7);
new_ip = *(reg32_b20[op]);
} else {
CPU_WORKCLOCK(11);
madr = calc_ea_dst(op);
new_ip = cpu_vmemoryread_d(CPU_INST_SEGREG_INDEX, madr);
}
if (new_ip > CPU_STAT_CS_LIMIT) {
EXCEPTION(GP_EXCEPTION, 0);
}
PUSH0_32(CPU_EIP);
CPU_EIP = new_ip;
CPU_CLEAR_PREV_ESP();
}
void CPUCALL
CALL32_Ep(UINT32 op)
{
descriptor_t sd;
UINT32 madr;
UINT32 new_ip;
UINT16 new_cs;
UINT16 sreg;
CPU_WORKCLOCK(16);
if (op < 0xc0) {
madr = calc_ea_dst(op);
new_ip = cpu_vmemoryread_d(CPU_INST_SEGREG_INDEX, madr);
new_cs = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, madr + 4);
if (!CPU_STAT_PM || CPU_STAT_VM86) {
/* Real mode or VM86 mode */
CPU_SET_PREV_ESP();
load_segreg(CPU_CS_INDEX, new_cs, &sreg, &sd, GP_EXCEPTION);
if (new_ip > sd.u.seg.limit) {
EXCEPTION(GP_EXCEPTION, 0);
}
PUSH0_32(CPU_CS);
PUSH0_32(CPU_EIP);
LOAD_SEGREG(CPU_CS_INDEX, new_cs);
CPU_EIP = new_ip;
CPU_CLEAR_PREV_ESP();
} else {
/* Protected mode */
CALLfar_pm(new_cs, new_ip);
}
return;
}
EXCEPTION(UD_EXCEPTION, 0);
}
void
ENTER32_IwIb(void)
{
UINT32 sp, bp;
UINT32 new_bp;
UINT32 val;
UINT16 dimsize;
UINT8 level;
GET_PCWORD(dimsize);
GET_PCBYTE(level);
level &= 0x1f;
CPU_SET_PREV_ESP();
PUSH0_32(CPU_EBP);
if (level == 0) { /* enter level=0 */
CPU_WORKCLOCK(11);
CPU_EBP = CPU_ESP;
if (!CPU_STAT_SS32) {
CPU_SP -= dimsize;
} else {
CPU_ESP -= dimsize;
}
} else {
--level;
if (level == 0) { /* enter level=1 */
CPU_WORKCLOCK(15);
sp = CPU_ESP;
PUSH0_32(sp);
CPU_EBP = sp;
if (CPU_STAT_SS32) {
CPU_ESP -= dimsize;
} else {
CPU_SP -= dimsize;
}
} else { /* enter level=2-31 */
CPU_WORKCLOCK(12 + level * 4);
if (CPU_STAT_SS32) {
bp = CPU_EBP;
new_bp = CPU_ESP;
while (level--) {
bp -= 4;
CPU_ESP -= 4;
val = cpu_vmemoryread_d(CPU_SS_INDEX, bp);
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, val);
}
REGPUSH0_32(new_bp);
CPU_EBP = new_bp;
CPU_ESP -= dimsize;
} else {
bp = CPU_BP;
new_bp = CPU_ESP;
while (level--) {
bp -= 4;
CPU_SP -= 4;
val = cpu_vmemoryread_d(CPU_SS_INDEX, bp);
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_SP, val);
}
REGPUSH0_32_16(new_bp);
CPU_EBP = new_bp;
CPU_SP -= dimsize;
}
}
}
CPU_CLEAR_PREV_ESP();
}
void CPUCALL
interrupt(int num, int intrtype, int errorp, int error_code)
{
descriptor_t gsd;
UINT idt_idx;
UINT32 new_ip;
UINT16 new_cs;
int exc_errcode;
VERBOSE(("interrupt: num = 0x%02x, intrtype = %s, errorp = %s, error_code = %08x", num, (intrtype == INTR_TYPE_EXTINTR) ? "external" : (intrtype == INTR_TYPE_EXCEPTION ? "exception" : "softint"), errorp ? "on" : "off", error_code));
if(num == 0x21 && md_int21()) {
return;
}
CPU_SET_PREV_ESP();
if (!CPU_STAT_PM) {
/* real mode */
CPU_WORKCLOCK(20);
idt_idx = num * 4;
if (idt_idx + 3 > CPU_IDTR_LIMIT) {
VERBOSE(("interrupt: real-mode IDTR limit check failure (idx = 0x%04x, limit = 0x%08x", idt_idx, CPU_IDTR_LIMIT));
EXCEPTION(GP_EXCEPTION, idt_idx + 2);
}
if ((intrtype == INTR_TYPE_EXTINTR) && CPU_STAT_HLT) {
VERBOSE(("interrupt: reset HTL in real mode"));
CPU_EIP++;
CPU_STAT_HLT = 0;
}
REGPUSH0(REAL_FLAGREG);
REGPUSH0(CPU_CS);
REGPUSH0(CPU_IP);
CPU_EFLAG &= ~(T_FLAG | I_FLAG | AC_FLAG | RF_FLAG);
CPU_TRAP = 0;
new_ip = cpu_memoryread_w(CPU_IDTR_BASE + idt_idx);
new_cs = cpu_memoryread_w(CPU_IDTR_BASE + idt_idx + 2);
LOAD_SEGREG(CPU_CS_INDEX, new_cs);
CPU_EIP = new_ip;
} else {
/* protected mode */
CPU_WORKCLOCK(200);
VERBOSE(("interrupt: -------------------------------------------------------------- start"));
VERBOSE(("interrupt: old EIP = %04x:%08x, ESP = %04x:%08x", CPU_CS, CPU_EIP, CPU_SS, CPU_ESP));
#if defined(DEBUG)
if (num == 0x80) {
/* Linux, FreeBSD, NetBSD, OpenBSD system call */
VERBOSE(("interrupt: syscall# = %d\n%s", CPU_EAX, cpu_reg2str()));
}
#endif
idt_idx = num * 8;
exc_errcode = idt_idx + 2;
if (intrtype == INTR_TYPE_EXTINTR)
exc_errcode++;
if (idt_idx + 7 > CPU_IDTR_LIMIT) {
VERBOSE(("interrupt: IDTR limit check failure (idx = 0x%04x, limit = 0x%08x", idt_idx, CPU_IDTR_LIMIT));
EXCEPTION(GP_EXCEPTION, exc_errcode);
}
/* load a gate descriptor from interrupt descriptor table */
memset(&gsd, 0, sizeof(gsd));
load_descriptor(&gsd, CPU_IDTR_BASE + idt_idx);
if (!SEG_IS_VALID(&gsd)) {
VERBOSE(("interrupt: gate descripter is invalid."));
EXCEPTION(GP_EXCEPTION, exc_errcode);
}
if (!SEG_IS_SYSTEM(&gsd)) {
VERBOSE(("interrupt: gate descriptor is not system segment."));
EXCEPTION(GP_EXCEPTION, exc_errcode);
}
switch (gsd.type) {
case CPU_SYSDESC_TYPE_TASK:
case CPU_SYSDESC_TYPE_INTR_16:
case CPU_SYSDESC_TYPE_INTR_32:
case CPU_SYSDESC_TYPE_TRAP_16:
case CPU_SYSDESC_TYPE_TRAP_32:
break;
default:
VERBOSE(("interrupt: invalid gate type (%d)", gsd.type));
EXCEPTION(GP_EXCEPTION, exc_errcode);
break;
}
/* 5.10.1.1. 例外/割り込みハンドラ・プロシージャの保護 */
if ((intrtype == INTR_TYPE_SOFTINTR) && (gsd.dpl < CPU_STAT_CPL)) {
VERBOSE(("interrupt: intrtype(softint) && DPL(%d) < CPL(%d)", gsd.dpl, CPU_STAT_CPL));
EXCEPTION(GP_EXCEPTION, exc_errcode);
}
if (!SEG_IS_PRESENT(&gsd)) {
VERBOSE(("interrupt: gate descriptor is not present."));
EXCEPTION(NP_EXCEPTION, exc_errcode);
}
if ((intrtype == INTR_TYPE_EXTINTR) && CPU_STAT_HLT) {
VERBOSE(("interrupt: reset HTL in protected mode"));
CPU_EIP++;
CPU_STAT_HLT = 0;
}
switch (gsd.type) {
case CPU_SYSDESC_TYPE_TASK:
interrupt_task_gate(&gsd, intrtype, errorp, error_code);
break;
case CPU_SYSDESC_TYPE_INTR_16:
case CPU_SYSDESC_TYPE_INTR_32:
case CPU_SYSDESC_TYPE_TRAP_16:
case CPU_SYSDESC_TYPE_TRAP_32:
interrupt_intr_or_trap(&gsd, intrtype, errorp, error_code);
break;
default:
EXCEPTION(GP_EXCEPTION, exc_errcode);
break;
}
VERBOSE(("interrupt: ---------------------------------------------------------------- end"));
}
CPU_CLEAR_PREV_ESP();
}
