da3d26d7f4
Fixed fetchModeMask for load32bitOsStack
363 lines
14 KiB
C++
363 lines
14 KiB
C++
/////////////////////////////////////////////////////////////////////////
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// $Id: vm8086.cc,v 1.26 2006-03-27 18:02:07 sshwarts Exp $
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/////////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 2001 MandrakeSoft S.A.
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//
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// MandrakeSoft S.A.
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// 43, rue d'Aboukir
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// 75002 Paris - France
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// http://www.linux-mandrake.com/
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// http://www.mandrakesoft.com/
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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#define NEED_CPU_REG_SHORTCUTS 1
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#include "bochs.h"
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#include "cpu.h"
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#define LOG_THIS BX_CPU_THIS_PTR
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#if BX_SUPPORT_X86_64==0
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// Make life easier for merging 64&32-bit code.
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#define RIP EIP
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#define RSP ESP
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#endif
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// Notes:
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//
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// The high bits of the 32bit eip image are ignored by
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// the IRET to VM. The high bits of the 32bit esp image
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// are loaded into ESP. A subsequent push uses
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// only the low 16bits since it's in VM. In neither case
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// did a protection fault occur during actual tests. This
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// is contrary to the Intel docs which claim a #GP for
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// eIP out of code limits.
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//
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// IRET to VM does affect IOPL, IF, VM, and RF
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#if BX_SUPPORT_V8086_MODE
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#if BX_CPU_LEVEL >= 3
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void BX_CPU_C::stack_return_to_v86(Bit32u new_eip, Bit32u raw_cs_selector,
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Bit32u flags32)
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{
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Bit32u temp_ESP, new_esp, esp_laddr;
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Bit16u raw_es_selector, raw_ds_selector, raw_fs_selector,
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raw_gs_selector, raw_ss_selector;
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// Must be 32bit effective opsize, VM is set in upper 16bits of eFLAGS
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// and CPL = 0 to get here
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// ----------------
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// | | OLD GS | eSP+32
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// | | OLD FS | eSP+28
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// | | OLD DS | eSP+24
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// | | OLD ES | eSP+20
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// | | OLD SS | eSP+16
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// | OLD ESP | eSP+12
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// | OLD EFLAGS | eSP+8
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// | | OLD CS | eSP+4
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// | OLD EIP | eSP+0
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// ----------------
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if (BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.d_b)
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temp_ESP = ESP;
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else
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temp_ESP = SP;
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// top 36 bytes of stack must be within stack limits, else #SS(0)
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if ( !can_pop(36) ) {
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BX_INFO(("iret: VM: top 36 bytes not within limits"));
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exception(BX_SS_EXCEPTION, 0, 0);
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}
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esp_laddr = BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.base + temp_ESP;
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// load SS:ESP from stack
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access_linear(esp_laddr + 12, 4, 0, BX_READ, &new_esp);
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access_linear(esp_laddr + 16, 2, 0, BX_READ, &raw_ss_selector);
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// load ES,DS,FS,GS from stack
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access_linear(esp_laddr + 20, 2, 0, BX_READ, &raw_es_selector);
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access_linear(esp_laddr + 24, 2, 0, BX_READ, &raw_ds_selector);
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access_linear(esp_laddr + 28, 2, 0, BX_READ, &raw_fs_selector);
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access_linear(esp_laddr + 32, 2, 0, BX_READ, &raw_gs_selector);
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writeEFlags(flags32, EFlagsValidMask);
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// load CS:IP from stack; already read and passed as args
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].selector.value = raw_cs_selector;
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EIP = new_eip & 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].selector.value = raw_es_selector;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].selector.value = raw_ds_selector;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].selector.value = raw_fs_selector;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].selector.value = raw_gs_selector;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].selector.value = raw_ss_selector;
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RSP = new_esp; // full 32 bit are loaded
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init_v8086_mode();
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}
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void BX_CPU_C::iret16_stack_return_from_v86(bxInstruction_c *i)
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{
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if ((BX_CPU_THIS_PTR get_IOPL() < 3) && (CR4_VME_ENABLED == 0)) {
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// trap to virtual 8086 monitor
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BX_DEBUG(("IRET in vm86 with IOPL != 3, VME = 0"));
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exception(BX_GP_EXCEPTION, 0, 0);
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}
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Bit16u ip, cs_raw, flags16;
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if( !can_pop(6) )
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{
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exception(BX_SS_EXCEPTION, 0, 0);
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return;
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}
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pop_16(&ip);
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pop_16(&cs_raw);
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pop_16(&flags16);
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#if BX_SUPPORT_VME
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if (CR4_VME_ENABLED && BX_CPU_THIS_PTR get_IOPL() < 3)
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{
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if (((flags16 & EFlagsIFMask) && BX_CPU_THIS_PTR get_VIP()) ||
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(flags16 & EFlagsTFMask))
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{
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BX_DEBUG(("iret16_stack_return_from_v86: #GP(0) in VME mode"));
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exception(BX_GP_EXCEPTION, 0, 0);
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}
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load_seg_reg(&BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS], cs_raw);
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RIP = (Bit32u) ip;
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// IF, IOPL unchanged, EFLAGS.VIF = TMP_FLAGS.IF
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Bit32u changeMask = EFlagsOSZAPCMask | EFlagsTFMask |
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EFlagsDFMask | EFlagsNTMask | EFlagsVIFMask;
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Bit32u flags32 = (Bit32u) flags16;
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if (BX_CPU_THIS_PTR get_IF()) flags32 |= EFlagsVIFMask;
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writeEFlags(flags32, changeMask);
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return;
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}
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#endif
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load_seg_reg(&BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS], cs_raw);
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RIP = (Bit32u) ip;
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write_flags(flags16, /*IOPL*/ 0, /*IF*/ 1);
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}
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void BX_CPU_C::iret32_stack_return_from_v86(bxInstruction_c *i)
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{
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if (BX_CPU_THIS_PTR get_IOPL() < 3) {
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// trap to virtual 8086 monitor
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BX_DEBUG(("IRET in vm86 with IOPL != 3, VME = 0"));
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exception(BX_GP_EXCEPTION, 0, 0);
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}
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Bit32u eip, cs_raw, flags32;
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// Build a mask of the following bits:
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// ID,VIP,VIF,AC,VM,RF,x,NT,IOPL,OF,DF,IF,TF,SF,ZF,x,AF,x,PF,x,CF
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Bit32u change_mask = EFlagsOSZAPCMask | EFlagsTFMask | EFlagsIFMask
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| EFlagsDFMask | EFlagsNTMask | EFlagsRFMask;
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#if BX_CPU_LEVEL >= 4
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change_mask |= (EFlagsIDMask | EFlagsACMask); // ID/AC
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#endif
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if( !can_pop(12) )
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{
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exception(BX_SS_EXCEPTION, 0, 0);
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return;
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}
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pop_32(&eip);
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pop_32(&cs_raw);
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pop_32(&flags32);
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load_seg_reg(&BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS], (Bit16u) cs_raw);
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RIP = eip;
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// VIF, VIP, VM, IOPL unchanged
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writeEFlags(flags32, change_mask);
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}
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#if BX_SUPPORT_VME
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void BX_CPU_C::v86_redirect_interrupt(Bit32u vector)
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{
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Bit16u temp_IP, temp_CS, temp_flags = read_flags();
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access_linear(vector*4, 2, 0, BX_READ, &temp_IP);
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access_linear(vector*4 + 2, 2, 0, BX_READ, &temp_CS);
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if (BX_CPU_THIS_PTR get_IOPL() < 3) {
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temp_flags |= EFlagsIOPLMask;
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if (BX_CPU_THIS_PTR get_VIF())
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temp_flags |= EFlagsIFMask;
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else
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temp_flags &= ~EFlagsIFMask;
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}
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Bit16u old_IP = IP;
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Bit16u old_CS = BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].selector.value;
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push_16(temp_flags);
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// push return address onto new stack
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push_16(old_CS);
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push_16(old_IP);
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load_seg_reg(&BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS], (Bit16u) temp_CS);
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RIP = temp_IP;
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BX_CPU_THIS_PTR clear_TF ();
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BX_CPU_THIS_PTR clear_RF ();
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if (BX_CPU_THIS_PTR get_IOPL() == 3)
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BX_CPU_THIS_PTR clear_IF ();
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else
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BX_CPU_THIS_PTR clear_VIF();
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}
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#endif
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void BX_CPU_C::init_v8086_mode(void)
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{
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.valid = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.p = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.dpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.segment = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.executable = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.c_ed = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.r_w = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.a = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.base =
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].selector.value << 4;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.limit = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.limit_scaled = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.g = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.d_b = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.avl = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].selector.rpl = 3;
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#if BX_SUPPORT_ICACHE // update instruction cache
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BX_CPU_THIS_PTR updateFetchModeMask();
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#endif
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.valid = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.p = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.dpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.segment = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.executable = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.c_ed = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.r_w = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.a = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.base =
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].selector.value << 4;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.limit = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.limit_scaled = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.g = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.d_b = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.avl = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].selector.rpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.valid = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.p = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.dpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.segment = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.executable = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.c_ed = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.r_w = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.a = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.base =
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].selector.value << 4;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.limit = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.limit_scaled = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.g = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.d_b = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].cache.u.segment.avl = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_ES].selector.rpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.valid = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.p = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.dpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.segment = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.executable = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.c_ed = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.r_w = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.a = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.base =
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].selector.value << 4;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.limit = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.limit_scaled = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.g = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.d_b = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].cache.u.segment.avl = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_DS].selector.rpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.valid = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.p = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.dpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.segment = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.executable = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.c_ed = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.r_w = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.a = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.base =
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].selector.value << 4;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.limit = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.limit_scaled = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.g = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.d_b = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].cache.u.segment.avl = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_FS].selector.rpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.valid = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.p = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.dpl = 3;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.segment = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.executable = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.c_ed = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.r_w = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.a = 1;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.base =
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].selector.value << 4;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.limit = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.limit_scaled = 0xffff;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.g = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.d_b = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].cache.u.segment.avl = 0;
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BX_CPU_THIS_PTR sregs[BX_SEG_REG_GS].selector.rpl = 3;
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}
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#endif /* BX_CPU_LEVEL >= 3 */
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#else // BX_SUPPORT_V8086_MODE
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// compiled without v8086 mode support
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void BX_CPU_C::stack_return_to_v86(Bit32u new_eip, Bit32u raw_cs_selector, Bit32u flags32)
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{
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BX_PANIC(("stack_return_to_v86: virtual 8086 mode not supported !"));
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}
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void BX_CPU_C::stack_return_from_v86(void)
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{
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BX_PANIC(("stack_return_from_v86: virtual 8086 mode not supported !"));
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}
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#endif // BX_SUPPORT_V8086_MODE
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