blob: c7d5771ffcdbef51c9d4be6e9d5b25ad5e6ba33a [file] [log] [blame] [raw]
"use strict";
CPU.prototype.debug_init = function()
{
var cpu = this;
var debug = {};
this.debug = debug;
/**
* wheter or not in step mode
* used for debugging
* @type {boolean}
*/
debug.step_mode = false;
debug.ops = undefined;
debug.all_ops = [];
debug.trace_all = false;
// "log" some information visually to the user.
// Also in non-DEBUG modes
debug.show = function(x)
{
if(typeof document !== "undefined")
{
var el = document.getElementById("log");
if(el)
{
el.textContent += x + "\n";
el.style.display = "block";
el.scrollTop = 1e9;
return;
}
}
console.log(x);
};
debug.init = function()
{
if(!DEBUG) return;
// used for debugging
debug.ops = new CircularQueue(200000);
if(cpu.io)
{
// write seabios debug output to console
var seabios_debug = "";
cpu.io.register_write(0x402, this, handle); // seabios
cpu.io.register_write(0x500, this, handle); // vgabios
}
function handle(out_byte)
{
if(out_byte === 10)
{
dbg_log(seabios_debug, LOG_BIOS);
seabios_debug = "";
}
else
{
seabios_debug += String.fromCharCode(out_byte);
}
}
};
debug.get_regs_short = get_regs_short;
debug.dump_regs = dump_regs_short;
debug.dump_instructions = dump_instructions;
debug.get_instructions = get_instructions;
debug.get_state = get_state;
debug.dump_state = dump_state;
debug.dump_stack = dump_stack;
debug.dump_page_directory = dump_page_directory;
debug.dump_gdt_ldt = dump_gdt_ldt;
debug.dump_idt = dump_idt;
debug.get_memory_dump = get_memory_dump;
debug.memory_hex_dump = memory_hex_dump;
debug.used_memory_dump = used_memory_dump;
debug.step = step;
debug.run_until = run_until;
/**
* @param {string=} msg
*/
debug.unimpl = function(msg)
{
var s = "Unimplemented" + (msg ? ": " + msg : "");
debug.show(s);
if(DEBUG)
{
console.trace();
return s;
}
else
{
debug.show("Execution stopped");
return s;
}
//this.name = "Unimplemented";
};
function step()
{
if(!DEBUG) return;
if(!cpu.running)
{
cpu.cycle();
}
dump_regs_short();
var now = Date.now();
cpu.running = false;
dump_instructions();
}
function run_until()
{
if(!DEBUG) return;
cpu.running = false;
var a = parseInt(prompt("input hex", ""), 16);
if(a) while(cpu.instruction_pointer != a) step();
}
// http://ref.x86asm.net/x86reference.xml
// for debuggin" purposes
var opcode_map = [
"ADD", "ADD", "ADD", "ADD", "ADD", "ADD", "PUSH", "POP",
"OR", "OR", "OR", "OR", "OR", "OR", "PUSH", "0F:",
"ADC", "ADC", "ADC", "ADC", "ADC", "ADC", "PUSH", "POP",
"SBB", "SBB", "SBB", "SBB", "SBB", "SBB", "PUSH", "POP",
"AND", "AND", "AND", "AND", "AND", "AND", "ES", "DAA",
"SUB", "SUB", "SUB", "SUB", "SUB", "SUB", "CS", "DAS",
"XOR", "XOR", "XOR", "XOR", "XOR", "XOR", "SS", "AAA",
"CMP", "CMP", "CMP", "CMP", "CMP", "CMP", "DS", "AAS",
"INC", "INC", "INC", "INC", "INC", "INC", "INC", "INC",
"DEC", "DEC", "DEC", "DEC", "DEC", "DEC", "DEC", "DEC",
"PUSH", "PUSH", "PUSH", "PUSH", "PUSH", "PUSH", "PUSH", "PUSH",
"POP", "POP", "POP", "POP", "POP", "POP", "POP", "POP",
"PUSHA", "POPA", "BOUND", "ARPL", "FS", "GS", "none", "none",
"PUSH", "IMUL", "PUSH", "IMUL", "INS", "INS", "OUTS", "OUTS",
"JO", "JNO", "JB", "JNB", "JZ", "JNZ", "JBE", "JNBE",
"JS", "JNS", "JP", "JNP", "JL", "JNL", "JLE", "JNLE",
"ADD", "ADD", "ADD", "ADD", "TEST", "TEST", "XCHG", "XCHG",
"MOV", "MOV", "MOV", "MOV", "MOV", "LEA", "MOV", "POP",
"NOP", "XCHG", "XCHG", "XCHG", "XCHG", "XCHG", "XCHG", "XCHG",
"CBW", "CWD", "CALLF", "FWAIT", "PUSHF", "POPF", "SAHF", "LAHF",
"MOV", "MOV", "MOV", "MOV", "MOVS", "MOVS", "CMPS", "CMPS",
"TEST", "TEST", "STOS", "STOS", "LODS", "LODS", "SCAS", "SCAS",
"MOV", "MOV", "MOV", "MOV", "MOV", "MOV", "MOV", "MOV",
"MOV", "MOV", "MOV", "MOV", "MOV", "MOV", "MOV", "MOV",
"ROL", "ROL", "RETN", "RETN", "LES", "LDS", "MOV", "MOV",
"ENTER", "LEAVE", "RETF", "RETF", "INT", "INT", "INTO", "IRET",
"ROL", "ROL", "ROL", "ROL", "AAM", "AAD", "none", "XLAT",
"FADD", "FLD", "FIADD", "FILD", "FADD", "FLD", "FIADD", "FILD",
"LOOPNZ", "LOOPZ", "LOOP", "JCXZ", "IN", "IN", "OUT", "OUT",
"CALL", "JMP", "JMPF", "JMP", "IN", "IN", "OUT", "OUT",
"LOCK", "none", "REPNZ", "REPZ", "HLT", "CMC", "TEST", "TEST",
"CLC", "STC", "CLI", "STI", "CLD", "STD", "INC", "INC"
];
debug.logop = function(_ip, op)
{
if(!DEBUG || !debug.step_mode)
{
return;
}
if(debug.trace_all && debug.all_ops)
{
debug.all_ops.push(_ip, op);
}
else if(debug.ops)
{
debug.ops.add(_ip);
debug.ops.add(op);
}
};
function dump_stack(start, end)
{
if(!DEBUG) return;
var esp = cpu.reg32[reg_esp];
dbg_log("========= STACK ==========");
if(end >= start || end === undefined)
{
start = 5;
end = -5;
}
for(var i = start; i > end; i--)
{
var line = " ";
if(!i) line = "=> ";
line += h(i, 2) + " | ";
dbg_log(line + h(esp + 4 * i, 8) + " | " + h(cpu.read32s(esp + 4 * i) >>> 0));
}
}
function get_state(where)
{
var vm = (cpu.flags & flag_vm) ? 1 : 0;
var mode = cpu.protected_mode ? vm ? "vm86" : "prot" : "real";
var flags = cpu.get_eflags();
var iopl = cpu.getiopl();
var cpl = cpu.cpl;
var cs_eip = h(cpu.sreg[reg_cs], 4) + ":" + h(cpu.get_real_eip() >>> 0, 8);
var ss_esp = h(cpu.sreg[reg_ss], 4) + ":" + h(cpu.get_stack_reg() >>> 0, 8);
var op_size = cpu.is_32 ? "32" : "16";
var if_ = (cpu.flags & flag_interrupt) ? 1 : 0;
var flag_names = {
[flag_carry]: "c",
[flag_parity]: "p",
[flag_adjust]: "a",
[flag_zero]: "z",
[flag_sign]: "s",
[flag_trap]: "t",
[flag_interrupt]: "i",
[flag_direction]: "d",
[flag_overflow]: "o",
};
var flag_string = "";
for(var i = 0; i < 16; i++)
{
if(flag_names[1 << i])
{
if(flags & 1 << i)
{
flag_string += flag_names[1 << i];
}
else
{
flag_string += " ";
}
}
}
return ("mode=" + mode + "/" + op_size + " paging=" + (+cpu.paging) +
" iopl=" + iopl + " cpl=" + cpl + " if=" + if_ + " cs:eip=" + cs_eip +
" cs_off=" + h(cpu.get_seg(reg_cs) >>> 0, 8) +
" flgs=" + h(cpu.get_eflags() >>> 0, 6) + " (" + flag_string + ")" +
" ss:esp=" + ss_esp +
" ssize=" + (+cpu.stack_size_32) +
(where ? " in " + where : ""));
}
function dump_state(where)
{
if(!DEBUG) return;
dbg_log(get_state(where), LOG_CPU);
}
function get_regs_short()
{
var
r32 = { "eax": reg_eax, "ecx": reg_ecx, "edx": reg_edx, "ebx": reg_ebx,
"esp": reg_esp, "ebp": reg_ebp, "esi": reg_esi, "edi": reg_edi },
r32_names = ["eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi"],
s = { "cs": reg_cs, "ds": reg_ds, "es": reg_es, "fs": reg_fs, "gs": reg_gs, "ss": reg_ss },
line1 = "",
line2 = "";
for(var i = 0; i < 4; i++)
{
line1 += r32_names[i] + "=" + h(cpu.reg32[r32[r32_names[i]]], 8) + " ";
line2 += r32_names[i+4] + "=" + h(cpu.reg32[r32[r32_names[i+4]]], 8) + " ";
}
//line1 += " eip=" + h(cpu.get_real_eip() >>> 0, 8);
//line2 += " flg=" + h(cpu.get_eflags(), 8);
line1 += " ds=" + h(cpu.sreg[reg_ds], 4) + " es=" + h(cpu.sreg[reg_es], 4) + " fs=" + h(cpu.sreg[reg_fs], 4);
line2 += " gs=" + h(cpu.sreg[reg_gs], 4) + " cs=" + h(cpu.sreg[reg_cs], 4) + " ss=" + h(cpu.sreg[reg_ss], 4);
return [line1, line2];
}
function dump_regs_short()
{
if(!DEBUG) return;
var lines = get_regs_short();
dbg_log(lines[0], LOG_CPU);
dbg_log(lines[1], LOG_CPU);
}
function get_instructions()
{
if(!DEBUG) return;
debug.step_mode = true;
function add(ip, op)
{
out += h(ip, 8) + ": " +
v86util.pads(opcode_map[op] || "unkown", 20) + h(op, 2) + "\n";
}
var opcodes;
var out = "";
if(debug.trace_all && debug.all_ops)
{
opcodes = debug.all_ops;
}
else if(debug.ops)
{
opcodes = debug.ops.toArray();
}
if(!opcodes)
{
return "";
}
for(var i = 0; i < opcodes.length; i += 2)
{
add(opcodes[i], opcodes[i + 1]);
}
debug.ops.clear();
debug.all_ops = [];
return out;
}
function dump_instructions()
{
if(!DEBUG) return;
debug.show(get_instructions());
}
function dump_gdt_ldt()
{
if(!DEBUG) return;
dbg_log("gdt: (len = " + h(cpu.gdtr_size) + ")");
dump_table(cpu.translate_address_system_read(cpu.gdtr_offset), cpu.gdtr_size);
dbg_log("\nldt: (len = " + h(cpu.segment_limits[reg_ldtr]) + ")");
dump_table(cpu.translate_address_system_read(cpu.segment_offsets[reg_ldtr]), cpu.segment_limits[reg_ldtr]);
function dump_table(addr, size)
{
for(var i = 0; i < size; i += 8, addr += 8)
{
var base = cpu.read16(addr + 2) |
cpu.read8(addr + 4) << 16 |
cpu.read8(addr + 7) << 24,
limit = cpu.read16(addr) | (cpu.read8(addr + 6) & 0xF) << 16,
access = cpu.read8(addr + 5),
flags = cpu.read8(addr + 6) >> 4,
flags_str = "",
dpl = access >> 5 & 3;
if(!(access & 128))
{
// present bit not set
//continue;
flags_str += "NP ";
}
else
{
flags_str += " P ";
}
if(access & 16)
{
if(flags & 4)
{
flags_str += "32b ";
}
else
{
flags_str += "16b ";
}
if(access & 8)
{
// executable
flags_str += "X ";
if(access & 4)
{
flags_str += "C ";
}
}
else
{
// data
flags_str += "R ";
}
flags_str += "RW ";
}
else
{
// system
flags_str += "sys: " + h(access & 15);
}
if(flags & 8)
{
limit = limit << 12 | 0xFFF;
}
dbg_log(h(i & ~7, 4) + " " + h(base >>> 0, 8) + " (" + h(limit >>> 0, 8) + " bytes) " +
flags_str + "; dpl = " + dpl + ", a = " + access.toString(2) +
", f = " + flags.toString(2));
}
}
}
function dump_idt()
{
if(!DEBUG) return;
for(var i = 0; i < cpu.idtr_size; i += 8)
{
var addr = cpu.translate_address_system_read(cpu.idtr_offset + i),
base = cpu.read16(addr) | cpu.read16(addr + 6) << 16,
selector = cpu.read16(addr + 2),
type = cpu.read8(addr + 5),
line,
dpl = type >> 5 & 3;
if((type & 31) === 5)
{
line = "task gate ";
}
else if((type & 31) === 14)
{
line = "intr gate ";
}
else if((type & 31) === 15)
{
line = "trap gate ";
}
else
{
line = "invalid ";
}
if(type & 128)
{
line += " P";
}
else
{
// present bit not set
//continue;
line += "NP";
}
dbg_log(h(i >> 3, 4) + " " + h(base >>> 0, 8) + ", " +
h(selector, 4) + "; " + line + "; dpl = " + dpl + ", t = " + type.toString(2));
}
}
function load_page_entry(dword_entry, is_directory)
{
if(!DEBUG) return;
if(!(dword_entry & 1))
{
// present bit not set
return false;
}
var size = (dword_entry & 128) === 128,
address;
if(size && !is_directory)
{
address = dword_entry & 0xFFC00000;
}
else
{
address = dword_entry & 0xFFFFF000;
}
return {
size: size,
global: (dword_entry & 256) === 256,
accessed: (dword_entry & 0x20) === 0x20,
dirty: (dword_entry & 0x40) === 0x40,
cache_disable : (dword_entry & 16) === 16,
user : (dword_entry & 4) === 4,
read_write : (dword_entry & 2) === 2,
address : address >>> 0
};
}
function dump_page_directory()
{
if(!DEBUG) return;
for(var i = 0; i < 1024; i++)
{
var addr = cpu.cr[3] + 4 * i;
var dword = cpu.read32s(addr),
entry = load_page_entry(dword, true);
if(!entry)
{
continue;
}
var flags = "";
flags += entry.size ? "S " : " ";
flags += entry.accessed ? "A " : " ";
flags += entry.cache_disable ? "Cd " : " ";
flags += entry.user ? "U " : " ";
flags += entry.read_write ? "Rw " : " ";
if(entry.size)
{
dbg_log("=== " + h((i << 22) >>> 0, 8) + " -> " + h(entry.address >>> 0, 8) + " | " + flags);
continue;
}
else
{
dbg_log("=== " + h((i << 22) >>> 0, 8) + " | " + flags);
}
for(var j = 0; j < 1024; j++)
{
var sub_addr = entry.address + 4 * j;
dword = cpu.read32s(sub_addr);
var subentry = load_page_entry(dword, false);
if(subentry)
{
flags = "";
flags += subentry.cache_disable ? "Cd " : " ";
flags += subentry.user ? "U " : " ";
flags += subentry.read_write ? "Rw " : " ";
flags += subentry.global ? "G " : " ";
flags += subentry.accessed ? "A " : " ";
flags += subentry.dirty ? "Di " : " ";
dbg_log("# " + h((i << 22 | j << 12) >>> 0, 8) + " -> " +
h(subentry.address, 8) + " | " + flags + " (at " + h(sub_addr, 8) + ")");
}
}
}
}
function get_memory_dump(start, count)
{
if(!DEBUG) return;
if(start === undefined)
{
start = 0;
count = cpu.memory_size;
}
else if(count === undefined)
{
count = start;
start = 0;
}
return cpu.mem8.slice(start, start + count).buffer;
}
function memory_hex_dump(addr, length)
{
if(!DEBUG) return;
length = length || 4 * 0x10;
var line, byt;
for(var i = 0; i < length >> 4; i++)
{
line = h(addr + (i << 4), 5) + " ";
for(var j = 0; j < 0x10; j++)
{
byt = cpu.read8(addr + (i << 4) + j);
line += h(byt, 2) + " ";
}
line += " ";
for(j = 0; j < 0x10; j++)
{
byt = cpu.read8(addr + (i << 4) + j);
line += (byt < 33 || byt > 126) ? "." : String.fromCharCode(byt);
}
dbg_log(line);
}
}
function used_memory_dump()
{
if(!DEBUG) return;
var width = 0x80,
height = 0x10,
block_size = cpu.memory_size / width / height | 0,
row;
for(var i = 0; i < height; i++)
{
row = h(i * width * block_size, 8) + " | ";
for(var j = 0; j < width; j++)
{
var used = cpu.mem32s[(i * width + j) * block_size] > 0;
row += used ? "X" : " ";
}
dbg_log(row);
}
}
debug.debug_interrupt = function(interrupt_nr)
{
//if(interrupt_nr === 0x20)
//{
// //var vxd_device = cpu.safe_read16(cpu.instruction_pointer + 2);
// //var vxd_sub = cpu.safe_read16(cpu.instruction_pointer + 0);
// //var service = "";
// //if(vxd_device === 1)
// //{
// // service = vxd_table1[vxd_sub];
// //}
// //dbg_log("vxd: " + h(vxd_device, 4) + " " + h(vxd_sub, 4) + " " + service);
//}
//if(interrupt_nr >= 0x21 && interrupt_nr < 0x30)
//{
// dbg_log("dos: " + h(interrupt_nr, 2) + " ah=" + h(this.reg8[reg_ah], 2) + " ax=" + h(this.reg16[reg_ax], 4));
//}
//if(interrupt_nr === 0x13 && (this.reg8[reg_ah] | 1) === 0x43)
//{
// this.debug.memory_hex_dump(this.get_seg(reg_ds) + this.reg16[reg_si], 0x18);
//}
//if(interrupt_nr == 0x10)
//{
// dbg_log("int10 ax=" + h(this.reg16[reg_ax], 4) + " '" + String.fromCharCode(this.reg8[reg_al]) + "'");
// this.debug.dump_regs_short();
// if(this.reg8[reg_ah] == 0xe) vga.tt_write(this.reg8[reg_al]);
//}
//if(interrupt_nr === 0x13)
//{
// this.debug.dump_regs_short();
//}
//if(interrupt_nr === 6)
//{
// this.instruction_pointer += 2;
// dbg_log("BUG()", LOG_CPU);
// dbg_log("line=" + this.read_imm16() + " " +
// "file=" + this.read_string(this.translate_address_read(this.read_imm32s())), LOG_CPU);
// this.instruction_pointer -= 8;
// this.debug.dump_regs_short();
//}
//if(interrupt_nr === 0x80)
//{
// dbg_log("linux syscall");
// this.debug.dump_regs_short();
//}
//if(interrupt_nr === 0x40)
//{
// dbg_log("kolibri syscall");
// this.debug.dump_regs_short();
//}
};
};