blob: fd7f9c3f0405aa3e0c70c0b3e961144e19339a66 [file] [log] [blame] [raw]
"use strict";
/**
* @const
* In kHz
*/
var OSCILLATOR_FREQ = 1193.1816666; // 1.193182 MHz
/**
* @constructor
*
* Programmable Interval Timer
*/
function PIT(cpu, bus)
{
/** @const @type {CPU} */
this.cpu = cpu;
this.bus = bus;
this.counter_start_time = new Float64Array(3);
this.counter_start_value = new Uint16Array(3);
this.counter_next_low = new Uint8Array(4);
this.counter_enabled = new Uint8Array(4);
this.counter_mode = new Uint8Array(4);
this.counter_read_mode = new Uint8Array(4);
// 2 = latch low, 1 = latch high, 0 = no latch
this.counter_latch = new Uint8Array(4);
this.counter_latch_value = new Uint16Array(3);
this.counter_reload = new Uint16Array(3);
// TODO:
// - counter2 can be controlled by an input
cpu.io.register_read(0x61, this, function()
{
var now = v86.microtick();
var ref_toggle = (now * (1000 * 1000 / 15000)) & 1;
var counter2_out = this.did_rollover(2, now);
return ref_toggle << 4 | counter2_out << 5;
});
cpu.io.register_write(0x61, this, function(data)
{
if(data & 1)
{
this.bus.send("pcspeaker-enable");
}
else
{
this.bus.send("pcspeaker-disable");
}
});
cpu.io.register_read(0x40, this, function() { return this.counter_read(0); });
cpu.io.register_read(0x41, this, function() { return this.counter_read(1); });
cpu.io.register_read(0x42, this, function() { return this.counter_read(2); });
cpu.io.register_write(0x40, this, function(data) { this.counter_write(0, data); });
cpu.io.register_write(0x41, this, function(data) { this.counter_write(1, data); });
cpu.io.register_write(0x42, this, function(data) { this.counter_write(2, data); });
cpu.io.register_write(0x43, this, this.port43_write);
}
PIT.prototype.get_state = function()
{
var state = [];
state[0] = this.counter_next_low;
state[1] = this.counter_enabled;
state[2] = this.counter_mode;
state[3] = this.counter_read_mode;
state[4] = this.counter_latch;
state[5] = this.counter_latch_value;
state[6] = this.counter_reload;
state[7] = this.counter_start_time;
state[8] = this.counter_start_value;
return state;
};
PIT.prototype.set_state = function(state)
{
this.counter_next_low = state[0];
this.counter_enabled = state[1];
this.counter_mode = state[2];
this.counter_read_mode = state[3];
this.counter_latch = state[4];
this.counter_latch_value = state[5];
this.counter_reload = state[6];
this.counter_start_time = state[7];
this.counter_start_value = state[8];
};
PIT.prototype.timer = function(now, no_irq)
{
var time_to_next_interrupt = 100;
// counter 0 produces interrupts
if(!no_irq)
{
if(this.counter_enabled[0] && this.did_rollover(0, now))
{
time_to_next_interrupt = 0;
this.counter_start_value[0] = this.get_counter_value(0, now);
this.counter_start_time[0] = now;
dbg_log("pit interrupt. new value: " + this.counter_start_value[0], LOG_PIT);
this.cpu.device_raise_irq(0);
var mode = this.counter_mode[0];
if(mode === 0)
{
this.counter_enabled[0] = 0;
}
}
else
{
this.cpu.device_lower_irq(0);
}
}
time_to_next_interrupt = 0;
return time_to_next_interrupt;
};
PIT.prototype.get_counter_value = function(i, now)
{
if(!this.counter_enabled[i])
{
return 0;
}
var diff = now - this.counter_start_time[i];
var diff_in_ticks = Math.floor(diff * OSCILLATOR_FREQ);
var value = this.counter_start_value[i] - diff_in_ticks;
dbg_log("diff=" + diff + " dticks=" + diff_in_ticks + " value=" + value + " reload=" + this.counter_reload[i], LOG_PIT);
var reload = this.counter_reload[i];
if(value >= reload)
{
dbg_log("Warning: Counter" + i + " value " + value + " is larger than reload " + reload, LOG_PIT);
value %= reload;
}
else if(value < 0)
{
value = value % reload + reload;
}
return value;
};
PIT.prototype.did_rollover = function(i, now)
{
var diff = now - this.counter_start_time[i];
if(diff < 0)
{
// should only happen after restore_state
dbg_log("Warning: PIT timer difference is negative, resetting");
return true;
}
var diff_in_ticks = Math.floor(diff * OSCILLATOR_FREQ);
//dbg_log(i + ": diff=" + diff + " start_time=" + this.counter_start_time[i] + " diff_in_ticks=" + diff_in_ticks + " (" + diff * OSCILLATOR_FREQ + ") start_value=" + this.counter_start_value[i] + " did_rollover=" + (this.counter_start_value[i] < diff_in_ticks), LOG_PIT);
return this.counter_start_value[i] < diff_in_ticks;
};
PIT.prototype.counter_read = function(i)
{
var latch = this.counter_latch[i];
if(latch)
{
this.counter_latch[i]--;
if(latch === 2)
{
return this.counter_latch_value[i] & 0xFF;
}
else
{
return this.counter_latch_value[i] >> 8;
}
}
else
{
var next_low = this.counter_next_low[i];
if(this.counter_mode[i] === 3)
{
this.counter_next_low[i] ^= 1;
}
var value = this.get_counter_value(i, v86.microtick());
if(next_low)
{
return value & 0xFF;
}
else
{
return value >> 8;
}
}
};
PIT.prototype.counter_write = function(i, value)
{
if(this.counter_next_low[i])
{
this.counter_reload[i] = this.counter_reload[i] & ~0xFF | value;
}
else
{
this.counter_reload[i] = this.counter_reload[i] & 0xFF | value << 8;
}
if(this.counter_read_mode[i] !== 3 || !this.counter_next_low[i])
{
if(!this.counter_reload[i])
{
this.counter_reload[i] = 0xFFFF;
}
// depends on the mode, should actually
// happen on the first tick
this.counter_start_value[i] = this.counter_reload[i];
this.counter_enabled[i] = true;
this.counter_start_time[i] = v86.microtick();
dbg_log("counter" + i + " reload=" + h(this.counter_reload[i]) +
" tick=" + (this.counter_reload[i] || 0x10000) / OSCILLATOR_FREQ + "ms", LOG_PIT);
}
if(this.counter_read_mode[i] === 3)
{
this.counter_next_low[i] ^= 1;
}
this.bus.send("pcspeaker-update", [this.counter_mode[2], this.counter_reload[2]]);
};
PIT.prototype.port43_write = function(reg_byte)
{
var mode = reg_byte >> 1 & 7,
binary_mode = reg_byte & 1,
i = reg_byte >> 6 & 3,
read_mode = reg_byte >> 4 & 3;
if(i === 1)
{
dbg_log("Unimplemented timer1", LOG_PIT);
}
if(i === 3)
{
dbg_log("Unimplemented read back", LOG_PIT);
return;
}
if(read_mode === 0)
{
// latch
this.counter_latch[i] = 2;
var value = this.get_counter_value(i, v86.microtick());
dbg_log("latch: " + value, LOG_PIT);
this.counter_latch_value[i] = value ? value - 1 : 0
return;
}
if(mode >= 6)
{
// 6 and 7 are aliased to 2 and 3
mode &= ~4;
}
dbg_log("Control: mode=" + mode + " ctr=" + i +
" read_mode=" + read_mode + " bcd=" + binary_mode, LOG_PIT);
if(read_mode === 1)
{
// msb
this.counter_next_low[i] = 0;
}
else if(read_mode === 2)
{
// lsb
this.counter_next_low[i] = 1;
}
else
{
// first lsb then msb
this.counter_next_low[i] = 1;
}
if(i === 0)
{
this.cpu.device_lower_irq(0);
}
if(mode === 0)
{
}
else if(mode === 3 || mode === 2)
{
// what is the difference
}
else
{
dbg_log("Unimplemented counter mode: " + h(mode), LOG_PIT);
}
this.counter_mode[i] = mode;
this.counter_read_mode[i] = read_mode;
this.bus.send("pcspeaker-update", [this.counter_mode[2], this.counter_reload[2]]);
};