I\'ve ported my library x86Lib to mbed. It fully emulates the 8086 processor, but a few things I\'m still working on. Notable missing things are interrupts. Previously I used exceptions for interrupts, but exceptions aren\'t supported with the mbed compiler. It is also quite slow
x86Lib.cpp
- Committer:
- earlz
- Date:
- 2012-03-04
- Revision:
- 0:217a7931b41f
File content as of revision 0:217a7931b41f:
/** Copyright (c) 2007 - 2010 Jordan "Earlz/hckr83" Earls <http://www.Earlz.biz.tm> All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. This file is part of the x86Lib project. **/ #define X86LIB_BUILD #include <iostream> #include "include/x86Lib.h" namespace x86Lib{ //The lack of indentation for namespaces is intentional... using namespace std; x86CPU::x86CPU(uint32_t cpu_level_,uint32_t flags){ if(cpu_level_==0){ cpu_level=CPU286_REAL; //The default CPU right now.. }else{ cpu_level=cpu_level_; } Init(); } x86CPU::x86CPU(x86SaveData &load_data,uint32_t flags){ Init(); LoadState(load_data); } void x86CPU::Init(){ //ports=new x86Ports(); #ifdef ENABLE_OPCODE_CALLBACK EachOpcodeCallback=NULL; #endif Reset(); } void Onx86LibError() { Serial pc(USBTX, USBRX); // tx, rx pc.printf("x86lib error\n"); exit(1); } void x86CPU::Reset(){ /**Initialize register pointers**/ regs16[0]=&((volatile uint16_t*)reg32)[0]; regs16[1]=&((volatile uint16_t*)reg32)[2]; regs16[2]=&((volatile uint16_t*)reg32)[4]; regs16[3]=&((volatile uint16_t*)reg32)[6]; regs16[4]=&((volatile uint16_t*)reg32)[8]; regs16[5]=&((volatile uint16_t*)reg32)[10]; regs16[6]=&((volatile uint16_t*)reg32)[12]; regs16[7]=&((volatile uint16_t*)reg32)[14]; regs8[0]=&((volatile uint8_t*)reg32)[0]; regs8[1]=&((volatile uint8_t*)reg32)[4]; regs8[2]=&((volatile uint8_t*)reg32)[8]; regs8[3]=&((volatile uint8_t*)reg32)[12], //now do all the highs regs8[4]=&((volatile uint8_t*)reg32)[1]; regs8[5]=&((volatile uint8_t*)reg32)[5]; regs8[6]=&((volatile uint8_t*)reg32)[9]; regs8[7]=&((volatile uint8_t*)reg32)[13]; busmaster=0; //assumes pmem and ports are still the same... InitOpcodes(); uint32_t i; for(i=0;i<8;i++){ reg32[i]=0; } for(i=0;i<7;i++){ seg[i]=0; } ResetSegments(); //eip=0xFFFE; eip=0x0; seg[cCS]=0xF000; *(uint16_t*)&freg=0; string_compares=0; int_pending=0; cli_count=0; } void x86CPU::SaveState(x86SaveData *save){ uint32_t i; for(i=0;i<8;i++){ save->reg32[i]=reg32[i]; } for(i=0;i<7;i++){ save->seg[i]=seg[i]; } save->freg=*(uint16_t*)&freg; save->eip=eip; save->seg_route[cES]=ES; save->seg_route[cCS]=CS; save->seg_route[cDS]=DS; save->seg_route[cSS]=SS; save->seg_route[cFS]=FS; save->seg_route[cGS]=GS; save->cpu_level=cpu_level; if(Opcodes==opcodes_16bit){ save->opcode_mode=OPCODE_REAL_16; }else{ Onx86LibError(); //throw Default_excp(__FILE__,__FUNCTION__,__LINE__); } } void x86CPU::LoadState(x86SaveData &load){ uint32_t i; cpu_level=load.cpu_level; Reset(); for(i=0;i<8;i++){ reg32[i]=load.reg32[i]; } for(i=0;i<7;i++){ seg[i]=load.seg[i]; } *(uint16_t*)&freg=load.freg; eip=load.eip; ES=load.seg_route[cES]; CS=load.seg_route[cCS]; DS=load.seg_route[cDS]; SS=load.seg_route[cSS]; GS=load.seg_route[cGS]; FS=load.seg_route[cFS]; if(load.opcode_mode==OPCODE_REAL_16){ Opcodes=opcodes_16bit; }else{ Onx86LibError(); //throw Default_excp(__FILE__,__FUNCTION__,__LINE__); } } void x86CPU::DumpState(ostream &output){ output << "EAX: "<< hex << reg32[EAX] <<endl; output << "ECX: "<< hex << reg32[ECX] <<endl; output << "EDX: "<< hex << reg32[EDX] <<endl; output << "EBX: "<< hex << reg32[EBX] <<endl; output << "ESP: "<< hex << reg32[ESP] <<endl; output << "EBP: "<< hex << reg32[EBP] <<endl; output << "ESI: "<< hex << reg32[ESI] <<endl; output << "EDI: "<< hex << reg32[EDI] <<endl; output << "CS: " << hex << seg[cCS] << endl; output << "SS: " << hex << seg[cSS] << endl; output << "DS: " << hex << seg[cDS] << endl; output << "ES: " << hex << seg[cES] << endl; output << "FS: " << hex << seg[cFS] << endl; output << "GS: " << hex << seg[cGS] << endl; output << "EIP: " << hex << eip << endl; output << "--Flags:" <<hex << *(uint16_t*)&freg<< endl; output << "CF: " << (int)freg.cf << endl; output << "PF: " << (int)freg.pf << endl; output << "AF: " << (int)freg.af << endl; output << "ZF: " << (int)freg.zf << endl; output << "SF: " << (int)freg.sf << endl; output << "TF: " << (int)freg.tf << endl; output << "IF: " << (int)freg._if << endl; output << "DF: " << (int)freg.df << endl; output << "OF: " << (int)freg.of << endl; } void x86CPU::Int(uint8_t num){ //external interrupt int_pending=1; int_number=num; } bool x86CPU::IntPending(){ return int_pending; } int x86CPU::CheckInterrupts(){ //possible bug here. What if we have a pop SS without an interrupt waiting? Won't interrupts be forever ignored? if(int_pending==0){return 0;} //quickly get out of this, this is in the main Cycle loop, so needs to be very speedy... if((int_pending==1) && (int_number==2)){ //NMI eip--; Int16(2); eip++; int_pending=0; return 1; } if(freg._if==0){ if(cli_count>1){ cli_count--; }else{ if(cli_count!=0){ freg._if=1; } } }else{ if(int_pending==1){ eip--; Int16(int_number); eip++; int_pending=0; return 1; } } return 0; } void x86CPU::Exec(int cyclecount){ int i=0; bool done=false; while(!done){ //try{ for(;i<cyclecount;i++){ Cycle(); } //} /*catch(CpuInt_excp err){ err.code&=0x00FF; switch(err.code){ case 0: //division by zero case 1: //debug exception case 2: //NMI case 3: //breakpoint case 4: //overflow case 7: //device unavailable Int16(err.code); eip++; //undo the decrement by Int break; case 5: //(186+ bounds check) if(cpu_level >= CPU186){ Int16(err.code); eip++; break; } default: throw CpuPanic_excp("16bit Faults",(err.code|0xF000)|TRIPLE_FAULT_EXCP); break; } } catch(Mem_excp err){ throw CpuPanic_excp("Mem Error--16bit Faults",TRIPLE_FAULT_EXCP); } */ if(i>=cyclecount){ done=true; } } } void x86CPU::Cycle(){ #ifdef ENABLE_OPCODE_CALLBACK if(EachOpcodeCallback!=NULL){ (*EachOpcodeCallback)(this); } #endif CheckInterrupts(); *(uint32_t*)&op_cache=ReadDword(cCS,eip); (this->*Opcodes[op_cache[0]])(); //operate on the this class with the opcode functions in this class eip=(uint16_t)eip+1; } void x86CPU::InstallOp(uint8_t num,opcode func,uint32_t level){ if((cpu_level&level)>0){ Opcodes[num]=func; } } void x86CPU::InitOpcodes(){ Opcodes=opcodes_16bit; int i; for(i=0;i<256;i++){ InstallOp(i,&x86CPU::op16_unknown); } for(i=0;i<=7;i++){ InstallOp(0xB0+i,&x86CPU::op16_mov_r8_imm8); InstallOp(0x58+i,&x86CPU::op16_pop_r16); InstallOp(0x50+i,&x86CPU::op16_push_r16); InstallOp(0x40+i,&x86CPU::op16_inc_r16); InstallOp(0x48+i,&x86CPU::op16_dec_r16); InstallOp(0xD8+i,&x86CPU::op16_escape); InstallOp(0x90+i,&x86CPU::op16_xchg_ax_r16); InstallOp(0xB8+i,&x86CPU::op16_mov_r16_imm16); } InstallOp(0xF4,&x86CPU::op16_hlt); InstallOp(0x90,&x86CPU::op16_nop); InstallOp(0xEB,&x86CPU::op16_jmp_rel8); InstallOp(0x2C,&x86CPU::op16_sub_al_imm8); InstallOp(0x2D,&x86CPU::op16_sub_ax_imm16); InstallOp(0x77,&x86CPU::op16_ja_rel8); InstallOp(0x70,&x86CPU::op16_jo_rel8); InstallOp(0x71,&x86CPU::op16_jno_rel8); InstallOp(0x72,&x86CPU::op16_jc_rel8); InstallOp(0x73,&x86CPU::op16_jnc_rel8); InstallOp(0x74,&x86CPU::op16_jz_rel8); InstallOp(0x75,&x86CPU::op16_jnz_rel8); InstallOp(0x77,&x86CPU::op16_jbe_rel8); InstallOp(0x78,&x86CPU::op16_js_rel8); InstallOp(0x79,&x86CPU::op16_jns_rel8); InstallOp(0x7A,&x86CPU::op16_jp_rel8); InstallOp(0x7B,&x86CPU::op16_jnp_rel8); InstallOp(0x7C,&x86CPU::op16_jl_rel8); InstallOp(0x7D,&x86CPU::op16_jge_rel8); InstallOp(0x7E,&x86CPU::op16_jle_rel8); InstallOp(0x7F,&x86CPU::op16_jg_rel8); InstallOp(0x8E,&x86CPU::op16_mov_sr_rm16); InstallOp(0x8C,&x86CPU::op16_mov_rm16_sr); InstallOp(0x68,&x86CPU::op16_push_imm16,CPU286_REAL); InstallOp(0x07,&x86CPU::op16_pop_es); InstallOp(0x17,&x86CPU::op16_pop_ss); InstallOp(0x1F,&x86CPU::op16_pop_ds); InstallOp(0x06,&x86CPU::op16_push_es); InstallOp(0x0E,&x86CPU::op16_push_cs); InstallOp(0x16,&x86CPU::op16_push_ss); InstallOp(0x1E,&x86CPU::op16_push_ds); InstallOp(0x89,&x86CPU::op16_mov_rm16_r16); InstallOp(0x8B,&x86CPU::op16_mov_r16_rm16); InstallOp(0xE8,&x86CPU::op16_call_rel16); InstallOp(0xC3,&x86CPU::op16_retn); InstallOp(0xE2,&x86CPU::op16_loop_rel8); InstallOp(0x26,&x86CPU::op16_pre_es_override); InstallOp(0x3E,&x86CPU::op16_pre_ds_override); InstallOp(0x36,&x86CPU::op16_pre_ss_override); InstallOp(0x2E,&x86CPU::op16_pre_cs_override); InstallOp(0xA5,&x86CPU::op16_movsw); InstallOp(0xA4,&x86CPU::op16_movsb); InstallOp(0xF8,&x86CPU::op16_clc); InstallOp(0xFC,&x86CPU::op16_cld); InstallOp(0xFA,&x86CPU::op16_cli); InstallOp(0xF9,&x86CPU::op16_stc); InstallOp(0xFD,&x86CPU::op16_std); InstallOp(0xFB,&x86CPU::op16_sti); InstallOp(0xF2,&x86CPU::op16_rep); InstallOp(0xF3,&x86CPU::op16_rep); //different, but handled by the same function... InstallOp(0xE6,&x86CPU::op16_out_imm8_al); InstallOp(0xE7,&x86CPU::op16_out_imm8_ax); InstallOp(0x9A,&x86CPU::op16_call_imm16_imm16); InstallOp(0xCB,&x86CPU::op16_retf); //lol...CB...<inside joke> InstallOp(0xCD,&x86CPU::op16_int_imm8); InstallOp(0xCF,&x86CPU::op16_iret); InstallOp(0xCC,&x86CPU::op16_int3); InstallOp(0xCE,&x86CPU::op16_into); InstallOp(0xE4,&x86CPU::op16_in_al_imm8); InstallOp(0xE5,&x86CPU::op16_in_ax_imm8); InstallOp(0x04,&x86CPU::op16_add_al_imm8); InstallOp(0x05,&x86CPU::op16_add_ax_imm8); InstallOp(0x28,&x86CPU::op16_sub_rm8_r8); InstallOp(0x80,&x86CPU::op16_group_80); InstallOp(0x29,&x86CPU::op16_sub_rm16_r16); InstallOp(0x2A,&x86CPU::op16_sub_r8_rm8); InstallOp(0x2B,&x86CPU::op16_sub_r16_rm16); InstallOp(0x81,&x86CPU::op16_group_81); InstallOp(0x00,&x86CPU::op16_add_rm8_r8); InstallOp(0x01,&x86CPU::op16_add_rm16_r16); InstallOp(0x02,&x86CPU::op16_add_r8_rm8); InstallOp(0x03,&x86CPU::op16_add_r16_rm16); InstallOp(0xA0,&x86CPU::op16_mov_al_off8); InstallOp(0xA1,&x86CPU::op16_mov_ax_off16); InstallOp(0x88,&x86CPU::op16_mov_rm8_r8); InstallOp(0x8A,&x86CPU::op16_mov_r8_rm8); InstallOp(0xA2,&x86CPU::op16_mov_off8_al); InstallOp(0xA3,&x86CPU::op16_mov_off16_ax); InstallOp(0xC6,&x86CPU::op16_mov_m8_imm8); InstallOp(0xC7,&x86CPU::op16_mov_m16_imm16); InstallOp(0x38,&x86CPU::op16_cmp_rm8_r8); InstallOp(0x39,&x86CPU::op16_cmp_rm16_r16); InstallOp(0x3A,&x86CPU::op16_cmp_r8_rm8); InstallOp(0x3B,&x86CPU::op16_cmp_r16_rm16); InstallOp(0x3C,&x86CPU::op16_cmp_al_imm8); InstallOp(0x3D,&x86CPU::op16_cmp_ax_imm16); //3D TimD Tim Vision TV!!! Yay!!! InstallOp(0x83,&x86CPU::op16_group_83); //83 is my lucky number btw... InstallOp(0xFF,&x86CPU::op16_group_FF); InstallOp(0xE9,&x86CPU::op16_jmp_rel16); InstallOp(0xEA,&x86CPU::op16_jmp_imm16_imm16); InstallOp(0x6A,&x86CPU::op16_push_imm8); InstallOp(0x8F,&x86CPU::op16_group_8F); InstallOp(0xD6,&x86CPU::op16_salc); InstallOp(0xF5,&x86CPU::op16_cmc); InstallOp(0x98,&x86CPU::op16_cbw); InstallOp(0x37,&x86CPU::op16_aaa); InstallOp(0x27,&x86CPU::op16_daa); InstallOp(0x2F,&x86CPU::op16_das); InstallOp(0x3F,&x86CPU::op16_aas); InstallOp(0xD5,&x86CPU::op16_aad); InstallOp(0xD4,&x86CPU::op16_aam); InstallOp(0xFE,&x86CPU::op16_group_FE); InstallOp(0xF6,&x86CPU::op16_group_F6); InstallOp(0xF7,&x86CPU::op16_group_F7); InstallOp(0x99,&x86CPU::op16_cwd); InstallOp(0x20,&x86CPU::op16_and_rm8_r8); InstallOp(0x21,&x86CPU::op16_and_rm16_r16); InstallOp(0x22,&x86CPU::op16_and_r8_rm8); InstallOp(0x23,&x86CPU::op16_and_r16_rm16); InstallOp(0x24,&x86CPU::op16_and_al_imm8); InstallOp(0x25,&x86CPU::op16_and_ax_imm16); InstallOp(0x08,&x86CPU::op16_or_rm8_r8); InstallOp(0x09,&x86CPU::op16_or_rm16_r16); InstallOp(0x0A,&x86CPU::op16_or_r8_rm8); InstallOp(0x0B,&x86CPU::op16_or_r16_rm16); InstallOp(0x0C,&x86CPU::op16_or_al_imm8); InstallOp(0x0D,&x86CPU::op16_or_ax_imm16); InstallOp(0xA6,&x86CPU::op16_cmpsb); InstallOp(0xA7,&x86CPU::op16_cmpsw); InstallOp(0xE3,&x86CPU::op16_jcxz_rel8); InstallOp(0x14,&x86CPU::op16_adc_al_imm8); InstallOp(0x15,&x86CPU::op16_adc_ax_imm8); InstallOp(0x10,&x86CPU::op16_adc_rm8_r8); InstallOp(0x11,&x86CPU::op16_adc_rm16_r16); InstallOp(0x12,&x86CPU::op16_adc_r8_rm8); InstallOp(0x13,&x86CPU::op16_adc_r16_rm16); InstallOp(0x9E,&x86CPU::op16_sahf); InstallOp(0x9F,&x86CPU::op16_lahf); InstallOp(0xE1,&x86CPU::op16_loope_rel8); InstallOp(0xE0,&x86CPU::op16_loopne_rel8); InstallOp(0xC5,&x86CPU::op16_lds); InstallOp(0xC4,&x86CPU::op16_les); InstallOp(0x8D,&x86CPU::op16_lea); InstallOp(0xF0,&x86CPU::op16_lock); InstallOp(0x30,&x86CPU::op16_xor_rm8_r8); InstallOp(0x31,&x86CPU::op16_xor_rm16_r16); InstallOp(0x32,&x86CPU::op16_xor_r8_rm8); InstallOp(0x33,&x86CPU::op16_xor_r16_rm16); InstallOp(0x34,&x86CPU::op16_xor_al_imm8); InstallOp(0x35,&x86CPU::op16_xor_ax_imm16); InstallOp(0x1C,&x86CPU::op16_sbb_al_imm8); InstallOp(0x1D,&x86CPU::op16_sbb_ax_imm16); InstallOp(0x19,&x86CPU::op16_sbb_rm16_r16); InstallOp(0x1A,&x86CPU::op16_sbb_r8_rm8); InstallOp(0x1B,&x86CPU::op16_sbb_r16_rm16); InstallOp(0x18,&x86CPU::op16_sub_rm8_r8); InstallOp(0x84,&x86CPU::op16_test_rm8_r8); InstallOp(0x85,&x86CPU::op16_test_rm16_r16); InstallOp(0xA8,&x86CPU::op16_test_al_imm8); InstallOp(0xA9,&x86CPU::op16_test_ax_imm16); InstallOp(0x86,&x86CPU::op16_xchg_rm8_r8); InstallOp(0x87,&x86CPU::op16_xchg_rm16_r16); InstallOp(0xD2,&x86CPU::op16_group_D2); InstallOp(0xD3,&x86CPU::op16_group_D3); InstallOp(0xD0,&x86CPU::op16_group_D0); InstallOp(0xD1,&x86CPU::op16_group_D1); InstallOp(0xAC,&x86CPU::op16_lodsb); InstallOp(0xAD,&x86CPU::op16_lodsw); InstallOp(0xAE,&x86CPU::op16_scasb); InstallOp(0xAF,&x86CPU::op16_scasw); InstallOp(0x9B,&x86CPU::op16_wait); InstallOp(0xD7,&x86CPU::op16_xlatb); InstallOp(0xEC,&x86CPU::op16_in_al_dx); InstallOp(0xED,&x86CPU::op16_in_ax_dx); InstallOp(0xEE,&x86CPU::op16_out_dx_al); InstallOp(0xEF,&x86CPU::op16_out_dx_ax); InstallOp(0xAA,&x86CPU::op16_stosb); InstallOp(0xAB,&x86CPU::op16_stosw); } //void unknown(); bool x86CPU::IsLocked(){ return Memory->IsLocked(); } void x86CPU::Lock(){ //nothing... Memory->Lock(); busmaster=1; } void x86CPU::Unlock(){ //still nothing... Memory->Unlock(); busmaster=0; } };