blob: b2a697f351daede35ffc2d22738c506b99c97d13 [file] [log] [blame] [raw]
"use strict";
var HPET_ADDR = 0xFED00000,
HPET_PERIOD = 0x05F5E100, // in nano seconds
HPET_FREQ_MS = 1e12 / HPET_PERIOD, // in kHZ
HPET_SUPPORT_64 = 0,
HPET_COUNTER_CONFIG = 1 << 4 | HPET_SUPPORT_64 << 5,
HPET_COUNTER_CONFIG_MASK = 1 << 4 | 1 << 5 | 1 << 15,
HPET_NUM_COUNTERS = 4;
/**
* HPET - High Precision Event Timer
* http://wiki.osdev.org/HPET
*
* @constructor
* @param {CPU} cpu
*/
function HPET(cpu)
{
var me = this,
io = cpu.io,
hpet_enabled = false,
hpet_start = Date.now(),
hpet_offset_low = 0,
hpet_offset_high = 0,
counter_read_acc_next = false,
interrupt_status = 0,
counter_config = new Int32Array(HPET_NUM_COUNTERS << 1),
counter_comparator = new Int32Array(HPET_NUM_COUNTERS << 1),
counter_accumulator = new Int32Array(HPET_NUM_COUNTERS << 1),
counter_last_irq = new Int32Array(HPET_NUM_COUNTERS << 1);
var last_check = 0;
this.legacy_mode = false;
this.timer = function(now)
{
if(!hpet_enabled)
{
return;
}
var
counter_value = get_counter() >>> 0,
config,
last_irq,
comparator,
do_irq;
for(var i = 0; i < HPET_NUM_COUNTERS; i++)
{
config = counter_config[i << 1];
//last_irq = counter_last_irq[i << 1] >>> 0;
comparator = counter_comparator[i << 1] >>> 0;
if(last_check <= counter_value ?
comparator > last_check && comparator <= counter_value :
comparator > last_check || comparator <= counter_value
) {
do_irq = config & 4;
//counter_last_irq[i << 1] = comparator;
if(config & 2)
{
// level triggered
do_irq = do_irq && !(interrupt_status & 1 << i);
interrupt_status |= 1 << i;
}
else
{
// edge-triggered
interrupt_status &= ~(1 << i);
}
if(config & 1 << 3)
{
// periodic mode
counter_comparator[i << 1] += counter_accumulator[i << 1];
}
//dbg_log("do_irq=" + do_irq, LOG_HPET);
if(do_irq)
{
if(me.legacy_mode && i === 0)
{
cpu.device_raise_irq(0);
}
else if(me.legacy_mode && i === 1)
{
cpu.device_raise_irq(0);
}
else
{
// TODO
cpu.device_raise_irq(0);
}
}
}
}
last_check = counter_value;
};
function get_counter()
{
if(hpet_enabled)
{
return (Date.now() - hpet_start) * HPET_FREQ_MS + hpet_offset_low | 0;
}
else
{
return hpet_offset_low;
}
}
function get_counter_high()
{
if(HPET_SUPPORT_64)
{
if(hpet_enabled)
{
return (Date.now() - hpet_start) * (HPET_FREQ_MS / 0x100000000) + hpet_offset_high | 0;
}
else
{
return hpet_offset_high;
}
}
else
{
return 0;
}
}
cpu.io.mmap_register(HPET_ADDR, 0x4000, mmio_read, mmio_write);
function mmio_read(addr)
{
dbg_log("Read " + h(addr, 4) + " (ctr=" + h(get_counter() >>> 0) + ")", LOG_HPET);
switch(addr)
{
case 0:
return 1 << 16 | HPET_NUM_COUNTERS - 1 << 8 | 0x8000 | 0x01 | HPET_SUPPORT_64 << 13;
case 4:
return HPET_PERIOD;
case 0x10:
return me.legacy_mode << 1 | hpet_enabled;
case 0xF0:
return get_counter();
case 0xF4:
return get_counter_high();
}
// read from counter register
var register = addr >> 2 & 7,
counter = addr - 0x100 >> 5;
if(addr < 0x100 || counter >= HPET_NUM_COUNTERS || register > 5)
{
dbg_log("Read reserved address: " + h(addr), LOG_HPET);
return 0;
}
dbg_log("Read counter: addr=" + h(addr) + " counter=" + h(counter, 2) +
" reg=" + h(register), LOG_HPET);
switch(register)
{
case 0:
return counter_config[counter << 1] & ~HPET_COUNTER_CONFIG_MASK | HPET_COUNTER_CONFIG;
case 1:
return counter_config[counter << 1 | 1];
case 2:
return counter_comparator[counter << 1];
case 3:
return counter_comparator[counter << 1 | 1];
case 4:
case 5:
// TODO interrupt route register
return 0;
}
}
function mmio_write(addr, data)
{
dbg_log("Write " + h(addr, 4) + ": " + h(data, 2), LOG_HPET);
switch(addr)
{
case 0x10:
dbg_log("conf: enabled=" + (data & 1) + " legacy=" + (data >> 1 & 1), LOG_HPET);
if((hpet_enabled ^ data) & 1)
{
if(data & 1)
{
// counter is enabled now, start counting now
hpet_start = Date.now();
}
else
{
// counter is disabled now, save current count
hpet_offset_low = get_counter();
hpet_offset_high = get_counter_high();
}
}
hpet_enabled = (data & 1) === 1;
me.legacy_mode = (data & 2) === 2;
return;
case 0x20:
// writing a 1 clears bits
interrupt_status &= ~data;
return;
case 0xF0:
hpet_offset_low = data;
return;
case 0xF4:
hpet_offset_high = data;
return;
}
// read from counter register
var register = addr >> 2 & 7,
counter = addr - 0x100 >> 5;
if(addr < 0x100 || counter >= HPET_NUM_COUNTERS || register > 2)
{
dbg_log("Write reserved address: " + h(addr) + " data=" + h(data), LOG_HPET);
return;
}
dbg_log("Write counter: addr=" + h(addr) + " counter=" + h(counter, 2) +
" reg=" + h(register) + " data=" + h(data, 2), LOG_HPET);
switch(register)
{
case 0:
counter_config[counter << 1] = data;
break;
case 1:
//counter_config[counter << 1 | 1] = data;
break;
case 2:
if(counter_read_acc_next)
{
counter_accumulator[counter << 1] = data;
counter_read_acc_next = false;
dbg_log("Accumulator acc=" + h(data >>> 0, 8) + " ctr=" + h(counter, 2), LOG_HPET);
}
else
{
counter_comparator[counter << 1] = data;
if(counter_config[counter << 1] & 1 << 6)
{
counter_read_acc_next = true;
counter_config[counter << 1] &= ~(1 << 6);
}
}
break;
case 3:
counter_comparator[counter << 1 | 1] = data;
break;
case 4:
case 5:
// TODO interrupt route register
}
}
}