kolibrios-fun/programs/cmm/ARM/emul.c

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// version 0.02
// Author: Pavel Iakovlev
// http://shell-storm.org/online/Online-Assembler-and-Disassembler/?inst=&arch=arm#assembly - online compiler (Little endian:)
#pragma option OST
#pragma option ON
#pragma option cri-
#pragma option -CPA
#initallvar 0
#jumptomain FALSE
#startaddress 0x10000
#code32 TRUE
char os_name[8] = {'M','E','N','U','E','T','0','1'};
dword os_version = 0x00000001;
dword start_addr = #main;
dword final_addr = #______STOP______+32;
dword alloc_mem = 20000;
dword x86esp_reg = 20000;
dword I_Param = #param;
dword I_Path = #program_path;
char param[4096] ={0};
char program_path[4096] = {0};
// test opcode arm, compiler (http://shell-storm.org/online/Online-Assembler-and-Disassembler/?inst=mov+r0%2C1%0D%0Amov+r5%2C2%0D%0Amov+r2%2C+r0%2C+lsl+r5&arch=arm#assembly) (Little endian:)
dword test_bytecode = "\x01\x00\xa0\xe3\x02\x50\xa0\xe3\x10\x25\xa0\xe1";
// --------------------
struct _reg // registers arm
{
dword r0;
dword r1;
dword r2;
dword r3;
dword r4;
dword r5;
dword r6;
dword r7;
dword r8;
dword r9;
dword r10;
dword r11;
dword r12; // (Intra-Procedure-call scratch register)
dword r13; // (Stack Pointer)
dword r14; // (Link Register)
dword r15; // PC (Program Counter)
};
_reg reg = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; // clear and init registers
dword REG = #reg;
struct _flags
{
byte negative;
byte zero;
byte carry;
byte overflow;
};
_flags flags = {0,0,0,0}; // clear and init flags
struct _mode
{
byte User;
byte FastInterrupt;
byte Interrupt;
byte Supervisor;
};
_mode mode = {0,0,0,0}; // processor mode
struct _mask
{
byte IRQ;
byte FIRQ;
};
_mask mask = {0,0}; // processor mask
void main()
{
callOpcode(#test_bytecode,3);
EAX = -1;
$int 0x40;
}
dword callOpcode(dword binary, lengthInstruction)
{
dword command = 0;
dword PC = 0;
byte flag = 0;
byte pMask = 0;
byte pMode = 0;
while(lengthInstruction)
{
//PC = reg.r15 >> 2 & 0xFFFFFF;
flag = reg.r15 >> 28;
pMask = reg.r15 >> 26;
flags.negative = flag & 0x8;
flags.zero = flag & 0x4;
flags.carry = flag & 0x2;
flags.overflow = flag & 0x1;
mask.IRQ = pMask & 0x2;
mask.FIRQ = pMask & 0x1;
switch(reg.r15 & 3)
{
case 0:
DSDWORD[#mode] = 0x000000FF;
break;
case 1:
DSDWORD[#mode] = 0x0000FF00;
break;
case 2:
DSDWORD[#mode] = 0x00FF0000;
break;
case 3:
DSDWORD[#mode] = 0xFF000000;
break;
}
command = DSDWORD[binary + PC]; // generation PC instruction
//EAX = DSDWORD[command >> 28 << 2 + #opcodeExec]; // get opcodeExecition call instruction
//EAX(command); // call opcodeExecition
//IF (command & 0xC000000 == 0) opcodeExec0(command);
IF (command & 0x0FFFFFF0 == 0x12FFF10) BranchExchange(command);
ELSE IF (command & 0x0FF00FF0 == 0x1000090) SingleDataSwap(command);
ELSE IF (command & 0x0FC000F0 == 0x0000090) Multiply(command);
ELSE IF (command & 0x0FC000F0 == 0x0800090) MultiplyLong(command);
ELSE IF (command & 0x0C000000 == 0x0000000) DataProcessing(command);
PC += 4; // addition 4 for reg15 or PC instruction
//PC <<= 2;
flag = 0;
IF (flags.negative) flag |= 0x8;
IF (flags.zero) flag |= 0x4;
IF (flags.carry) flag |= 0x2;
IF (flags.overflow) flag |= 0x1;
pMask = 0;
IF (mask.IRQ) pMask |= 0x2;
IF (mask.FIRQ) pMask |= 0x1;
IF (mode.User) pMode = 0;
ELSE IF (mode.FastInterrupt) pMode = 1;
ELSE IF (mode.Interrupt) pMode = 2;
ELSE IF (mode.Supervisor) pMode = 3;
//reg.r15 = flag << 28 | PC | pMode;
lengthInstruction--;
}
}
dword Multiply(dword command)
{
}
dword MultiplyLong(dword command)
{
}
dword SingleDataSwap(dword command)
{
}
dword BranchExchange(dword command)
{
}
dword DataProcessing(dword command) // Data Processing / PSR Transfer
{
dword opcode = 0;
dword Rd = #reg;
dword Rn = #reg;
dword operand = 0;
word sdvig = 0;
word context = 0;
byte typeSdvig = 0;
opcode = command >> 21 & 0xF;
Rd += command >> 12 & 0xF << 2;
Rn += command >> 16 & 0xF << 2;
context = command & 0xFFF;
IF (command & 0x2000000) operand = context;
ELSE operand = DSDWORD[context & 1111b << 2 + #reg];
typeSdvig = context >> 5 & 11b;
IF (context & 10000b) sdvig = DSBYTE[context >> 8 & 1111b << 2 + #reg];
ELSE sdvig = context >> 7 & 11111b;
switch (typeSdvig) // type sdvig
{
case 0: // logic left
operand <<= sdvig;
if(sdvig == 2) while(1);
break;
case 1: // logic right
operand >>= sdvig;
break;
case 2: // arifmetic left
break;
case 3: // arifmetic right
break;
}
switch (opcode)
{
case 0: // and
DSDWORD[Rd] = DSDWORD[Rn] & operand;
break;
case 1: // eor
DSDWORD[Rd] = DSDWORD[Rn] | operand;
break;
case 2: // sub
DSDWORD[Rd] = DSDWORD[Rn] - operand;
break;
case 3: // rsb
DSDWORD[Rd] = operand - DSDWORD[Rn];
break;
case 4: // add
DSDWORD[Rd] = DSDWORD[Rn] + operand;
break;
case 5: // adc
DSDWORD[Rd] = DSDWORD[Rn] + operand;
break;
case 6: // sbc
break;
case 7: // rsc
break;
case 8: // tst
break;
case 9: // teq
break;
case 10: // cmp
break;
case 11: // cmn
break;
case 12: // orr
DSDWORD[Rd] = DSDWORD[Rn] | operand;
break;
case 13: // mov
DSDWORD[Rd] = operand;
break;
case 14: // bic
$not operand;
DSDWORD[Rd] = DSDWORD[Rn] & operand;
break;
case 15: // mvn
DSDWORD[Rd] = DSDWORD[Rn] + operand;
break;
}
IF(reg.r2 == 4) while(1);
}
______STOP______: