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v86 / src /uart.js
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 import { LOG_SERIAL } from "./const.js";
import { h } from "./lib.js";
import { dbg_log } from "./log.js";
// For Types Only
import { CPU } from "./cpu.js";
import { BusConnector } from "./bus.js";
/*
* Serial ports
* http://wiki.osdev.org/UART
* https://github.com/s-macke/jor1k/blob/master/js/worker/dev/uart.js
* https://www.freebsd.org/doc/en/articles/serial-uart/
*/
const DLAB = 0x80;
const UART_IER_MSI = 0x08; /* Modem Status Changed int. */
const UART_IER_THRI = 0x02; /* Enable Transmitter holding register int. */
const UART_IER_RDI = 0x01; /* Enable receiver data interrupt */
const UART_IIR_MSI = 0x00; /* Modem status interrupt (Low priority) */
const UART_IIR_NO_INT = 0x01;
const UART_IIR_THRI = 0x02; /* Transmitter holding register empty */
const UART_IIR_RDI = 0x04; /* Receiver data interrupt */
const UART_IIR_RLSI = 0x06; /* Receiver line status interrupt (High p.) */
const UART_IIR_CTI = 0x0c; /* Character timeout */
const UART_LSR_DATA_READY = 0x1; // data available
const UART_LSR_TX_EMPTY = 0x20; // TX (THR) buffer is empty
const UART_LSR_TRANSMITTER_EMPTY = 0x40; // TX empty and line is idle
// Modem status register
const UART_MSR_DCD = 0x7; // Data Carrier Detect
const UART_MSR_RI = 0x6; // Ring Indicator
const UART_MSR_DSR = 0x5; // Data Set Ready
const UART_MSR_CTS = 0x4; // Clear To Send
// Delta bits
const UART_MSR_DDCD = 0x3; // Delta DCD
const UART_MSR_TERI = 0x2; // Trailing Edge RI
const UART_MSR_DDSR = 0x1; // Delta DSR
const UART_MSR_DCTS = 0x0; // Delta CTS
/**
* @constructor
* @param {CPU} cpu
* @param {number} port
* @param {BusConnector} bus
*/
export function UART(cpu, port, bus)
{
/** @const @type {BusConnector} */
this.bus = bus;
/** @const @type {CPU} */
this.cpu = cpu;
this.ints = 1 << UART_IIR_THRI;
this.baud_rate = 0;
this.line_control = 0;
// line status register
this.lsr = UART_LSR_TRANSMITTER_EMPTY | UART_LSR_TX_EMPTY;
this.fifo_control = 0;
// interrupts enable
this.ier = 0;
// interrupt identification register
this.iir = UART_IIR_NO_INT;
this.modem_control = 0;
this.modem_status = 0;
this.scratch_register = 0;
this.irq = 0;
this.input = [];
this.current_line = "";
switch(port)
{
case 0x3F8:
this.com = 0;
this.irq = 4;
break;
case 0x2F8:
this.com = 1;
this.irq = 3;
break;
case 0x3E8:
this.com = 2;
this.irq = 4;
break;
case 0x2E8:
this.com = 3;
this.irq = 3;
break;
default:
dbg_log("Invalid serial port: " + h(port), LOG_SERIAL);
this.com = 0;
this.irq = 4;
}
this.bus.register("serial" + this.com + "-input", function(data)
{
this.data_received(data);
}, this);
this.bus.register("serial" + this.com + "-modem-status-input", function(data)
{
this.set_modem_status(data);
}, this);
// Set individual modem status bits
this.bus.register("serial" + this.com + "-carrier-detect-input", function(data)
{
const status = data ?
this.modem_status | (1 << UART_MSR_DCD) | (1 << UART_MSR_DDCD) :
this.modem_status & ~(1 << UART_MSR_DCD) & ~(1 << UART_MSR_DDCD);
this.set_modem_status(status);
}, this);
this.bus.register("serial" + this.com + "-ring-indicator-input", function(data)
{
const status = data ?
this.modem_status | (1 << UART_MSR_RI) | (1 << UART_MSR_TERI) :
this.modem_status & ~(1 << UART_MSR_RI) & ~(1 << UART_MSR_TERI);
this.set_modem_status(status);
}, this);
this.bus.register("serial" + this.com + "-data-set-ready-input", function(data)
{
const status = data ?
this.modem_status | (1 << UART_MSR_DSR) | (1 << UART_MSR_DDSR) :
this.modem_status & ~(1 << UART_MSR_DSR) & ~(1 << UART_MSR_DDSR);
this.set_modem_status(status);
}, this);
this.bus.register("serial" + this.com + "-clear-to-send-input", function(data)
{
const status = data ?
this.modem_status | (1 << UART_MSR_CTS) | (1 << UART_MSR_DCTS) :
this.modem_status & ~(1 << UART_MSR_CTS) & ~(1 << UART_MSR_DCTS);
this.set_modem_status(status);
}, this);
var io = cpu.io;
io.register_write(port, this, function(out_byte)
{
this.write_data(out_byte);
}, function(out_word)
{
this.write_data(out_word & 0xFF);
this.write_data(out_word >> 8);
});
io.register_write(port | 1, this, function(out_byte)
{
if(this.line_control & DLAB)
{
this.baud_rate = this.baud_rate & 0xFF | out_byte << 8;
dbg_log("baud rate: " + h(this.baud_rate), LOG_SERIAL);
}
else
{
if((this.ier & UART_IIR_THRI) === 0 && (out_byte & UART_IIR_THRI))
{
// re-throw THRI if it was masked
this.ThrowInterrupt(UART_IIR_THRI);
}
this.ier = out_byte & 0xF;
dbg_log("interrupt enable: " + h(out_byte), LOG_SERIAL);
this.CheckInterrupt();
}
});
io.register_read(port, this, function()
{
if(this.line_control & DLAB)
{
return this.baud_rate & 0xFF;
}
else
{
let data = 0;
if(this.input.length === 0)
{
dbg_log("Read input empty", LOG_SERIAL);
}
else
{
data = this.input.shift();
dbg_log("Read input: " + h(data), LOG_SERIAL);
}
if(this.input.length === 0)
{
this.lsr &= ~UART_LSR_DATA_READY;
this.ClearInterrupt(UART_IIR_CTI);
this.ClearInterrupt(UART_IIR_RDI);
}
return data;
}
});
io.register_read(port | 1, this, function()
{
if(this.line_control & DLAB)
{
return this.baud_rate >> 8;
}
else
{
return this.ier & 0xF;
}
});
io.register_read(port | 2, this, function()
{
var ret = this.iir & 0xF;
dbg_log("read interrupt identification: " + h(this.iir), LOG_SERIAL);
if(this.iir === UART_IIR_THRI) {
this.ClearInterrupt(UART_IIR_THRI);
}
if(this.fifo_control & 1) ret |= 0xC0;
return ret;
});
io.register_write(port | 2, this, function(out_byte)
{
dbg_log("fifo control: " + h(out_byte), LOG_SERIAL);
this.fifo_control = out_byte;
});
io.register_read(port | 3, this, function()
{
dbg_log("read line control: " + h(this.line_control), LOG_SERIAL);
return this.line_control;
});
io.register_write(port | 3, this, function(out_byte)
{
dbg_log("line control: " + h(out_byte), LOG_SERIAL);
this.line_control = out_byte;
});
io.register_read(port | 4, this, function()
{
return this.modem_control;
});
io.register_write(port | 4, this, function(out_byte)
{
dbg_log("modem control: " + h(out_byte), LOG_SERIAL);
this.modem_control = out_byte;
});
io.register_read(port | 5, this, function()
{
dbg_log("read line status: " + h(this.lsr), LOG_SERIAL);
return this.lsr;
});
io.register_write(port | 5, this, function(out_byte)
{
dbg_log("Factory test write", LOG_SERIAL);
});
io.register_read(port | 6, this, function()
{
dbg_log("read modem status: " + h(this.modem_status), LOG_SERIAL);
// Clear delta bits
this.modem_status &= 0xF0;
return this.modem_status;
});
io.register_write(port | 6, this, function(out_byte)
{
dbg_log("write modem status: " + h(out_byte), LOG_SERIAL);
this.set_modem_status(out_byte);
});
io.register_read(port | 7, this, function()
{
return this.scratch_register;
});
io.register_write(port | 7, this, function(out_byte)
{
this.scratch_register = out_byte;
});
}
UART.prototype.get_state = function()
{
var state = [];
state[0] = this.ints;
state[1] = this.baud_rate;
state[2] = this.line_control;
state[3] = this.lsr;
state[4] = this.fifo_control;
state[5] = this.ier;
state[6] = this.iir;
state[7] = this.modem_control;
state[8] = this.modem_status;
state[9] = this.scratch_register;
state[10] = this.irq;
return state;
};
UART.prototype.set_state = function(state)
{
this.ints = state[0];
this.baud_rate = state[1];
this.line_control = state[2];
this.lsr = state[3];
this.fifo_control = state[4];
this.ier = state[5];
this.iir = state[6];
this.modem_control = state[7];
this.modem_status = state[8];
this.scratch_register = state[9];
this.irq = state[10];
};
UART.prototype.CheckInterrupt = function() {
if((this.ints & (1 << UART_IIR_CTI)) && (this.ier & UART_IER_RDI)) {
this.iir = UART_IIR_CTI;
this.cpu.device_raise_irq(this.irq);
} else
if((this.ints & (1 << UART_IIR_RDI)) && (this.ier & UART_IER_RDI)) {
this.iir = UART_IIR_RDI;
this.cpu.device_raise_irq(this.irq);
} else
if((this.ints & (1 << UART_IIR_THRI)) && (this.ier & UART_IER_THRI)) {
this.iir = UART_IIR_THRI;
this.cpu.device_raise_irq(this.irq);
} else
if((this.ints & (1 << UART_IIR_MSI)) && (this.ier & UART_IER_MSI)) {
this.iir = UART_IIR_MSI;
this.cpu.device_raise_irq(this.irq);
} else {
this.iir = UART_IIR_NO_INT;
this.cpu.device_lower_irq(this.irq);
}
};
UART.prototype.ThrowInterrupt = function(line) {
this.ints |= (1 << line);
this.CheckInterrupt();
};
UART.prototype.ClearInterrupt = function(line) {
this.ints &= ~(1 << line);
this.CheckInterrupt();
};
/**
* @param {number} data
*/
UART.prototype.data_received = function(data)
{
dbg_log("input: " + h(data), LOG_SERIAL);
this.input.push(data);
this.lsr |= UART_LSR_DATA_READY;
if(this.fifo_control & 1)
{
this.ThrowInterrupt(UART_IIR_CTI);
}
else
{
this.ThrowInterrupt(UART_IIR_RDI);
}
};
UART.prototype.write_data = function(out_byte)
{
if(this.line_control & DLAB)
{
this.baud_rate = this.baud_rate & ~0xFF | out_byte;
return;
}
dbg_log("data: " + h(out_byte), LOG_SERIAL);
this.ThrowInterrupt(UART_IIR_THRI);
this.bus.send("serial" + this.com + "-output-byte", out_byte);
if(DEBUG)
{
var char = String.fromCharCode(out_byte);
this.current_line += char;
if(char === "\n")
{
const line = this.current_line.trimRight().replace(/[\x00-\x08\x0b-\x1f\x7f\x80-\xff]/g, "");
dbg_log("SERIAL: " + line);
this.current_line = "";
}
}
};
UART.prototype.set_modem_status = function(status)
{
dbg_log("modem status: " + h(status), LOG_SERIAL);
const prev_delta_bits = this.modem_status & 0x0F;
// compare the bits that have changed and shift them into the delta bits
let delta = (this.modem_status ^ status) >> 4;
// The delta should stay set if they were previously set
delta |= prev_delta_bits;
// update the current modem status
this.modem_status = status;
// update the delta bits based on the changes and previous
// values, but also leave the delta bits set if they were
// passed in as part of the status
this.modem_status |= delta;
};