toaruos/modules/serial.c
Kevin Lange 9a72bfc4cd Add half-assed support for IRQ chaining.
We only support 4 total chain entries at the moment, but that can be
"easily expanded"... We don't really have a lite dynamic vector, just
the big fat dynamic lists, so improving on this needs some extra effort.

This commit also drags in a bunch of random network work by necessity.
2015-05-18 21:07:06 -07:00

208 lines
5.1 KiB
C

/* vim: tabstop=4 shiftwidth=4 noexpandtab
* This file is part of ToaruOS and is released under the terms
* of the NCSA / University of Illinois License - see LICENSE.md
* Copyright (C) 2014 Kevin Lange
*
* Serial communication device
*
*/
#include <system.h>
#include <fs.h>
#include <pipe.h>
#include <logging.h>
#include <args.h>
#include <module.h>
#define SERIAL_PORT_A 0x3F8
#define SERIAL_PORT_B 0x2F8
#define SERIAL_PORT_C 0x3E8
#define SERIAL_PORT_D 0x2E8
#define SERIAL_IRQ_AC 4
#define SERIAL_IRQ_BD 3
static char serial_recv(int device);
static fs_node_t * _serial_port_a = NULL;
static fs_node_t * _serial_port_b = NULL;
static fs_node_t * _serial_port_c = NULL;
static fs_node_t * _serial_port_d = NULL;
static uint8_t convert(uint8_t in) {
switch (in) {
case 0x7F:
return 0x08;
case 0x0D:
return '\n';
default:
return in;
}
}
static fs_node_t ** pipe_for_port(int port) {
switch (port) {
case SERIAL_PORT_A: return &_serial_port_a;
case SERIAL_PORT_B: return &_serial_port_b;
case SERIAL_PORT_C: return &_serial_port_c;
case SERIAL_PORT_D: return &_serial_port_d;
}
return NULL;
}
static int serial_handler_ac(struct regs *r) {
char serial;
int port = 0;
if (inportb(SERIAL_PORT_A+1) & 0x01) {
port = SERIAL_PORT_A;
} else {
port = SERIAL_PORT_C;
}
serial = serial_recv(port);
irq_ack(SERIAL_IRQ_AC);
uint8_t buf[] = {convert(serial), 0};
write_fs(*pipe_for_port(port), 0, 1, buf);
return 1;
}
static int serial_handler_bd(struct regs *r) {
char serial;
int port = 0;
debug_print(NOTICE, "Received something on secondary port");
if (inportb(SERIAL_PORT_B+1) & 0x01) {
port = SERIAL_PORT_B;
} else {
port = SERIAL_PORT_D;
}
serial = serial_recv(port);
irq_ack(SERIAL_IRQ_BD);
uint8_t buf[] = {convert(serial), 0};
write_fs(*pipe_for_port(port), 0, 1, buf);
return 1;
}
static void serial_enable(int port) {
outportb(port + 1, 0x00); /* Disable interrupts */
outportb(port + 3, 0x80); /* Enable divisor mode */
outportb(port + 0, 0x01); /* Div Low: 01 Set the port to 115200 bps */
outportb(port + 1, 0x00); /* Div High: 00 */
outportb(port + 3, 0x03); /* Disable divisor mode, set parity */
outportb(port + 2, 0xC7); /* Enable FIFO and clear */
outportb(port + 4, 0x0B); /* Enable interrupts */
outportb(port + 1, 0x01); /* Enable interrupts */
}
static int serial_rcvd(int device) {
return inportb(device + 5) & 1;
}
static char serial_recv(int device) {
while (serial_rcvd(device) == 0) ;
return inportb(device);
}
static int serial_transmit_empty(int device) {
return inportb(device + 5) & 0x20;
}
static void serial_send(int device, char out) {
while (serial_transmit_empty(device) == 0);
outportb(device, out);
}
static void serial_string(char * out) {
for (uint32_t i = 0; i < strlen(out); ++i) {
serial_send(SERIAL_PORT_A, out[i]);
}
}
static uint32_t read_serial(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer);
static uint32_t write_serial(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer);
static void open_serial(fs_node_t *node, unsigned int flags);
static void close_serial(fs_node_t *node);
static uint32_t read_serial(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer) {
return read_fs(*pipe_for_port((int)node->device), offset, size, buffer);
}
static uint32_t write_serial(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer) {
uint32_t sent = 0;
while (sent < size) {
serial_send((int)node->device, buffer[sent]);
sent++;
}
return size;
}
static void open_serial(fs_node_t * node, unsigned int flags) {
return;
}
static void close_serial(fs_node_t * node) {
return;
}
static fs_node_t * serial_device_create(int device) {
fs_node_t * fnode = malloc(sizeof(fs_node_t));
memset(fnode, 0x00, sizeof(fs_node_t));
fnode->device= (void *)device;
strcpy(fnode->name, "serial");
fnode->uid = 0;
fnode->gid = 0;
fnode->flags = FS_CHARDEVICE;
fnode->read = read_serial;
fnode->write = write_serial;
fnode->open = open_serial;
fnode->close = close_serial;
fnode->readdir = NULL;
fnode->finddir = NULL;
fnode->ioctl = NULL; /* TODO ioctls for raw serial devices */
fnode->atime = now();
fnode->mtime = fnode->atime;
fnode->ctime = fnode->atime;
serial_enable(device);
if (device == SERIAL_PORT_A || device == SERIAL_PORT_C) {
irq_install_handler(SERIAL_IRQ_AC, serial_handler_ac);
} else {
irq_install_handler(SERIAL_IRQ_BD, serial_handler_bd);
}
*pipe_for_port(device) = make_pipe(128);
return fnode;
}
static int serial_mount_devices(void) {
fs_node_t * ttyS0 = serial_device_create(SERIAL_PORT_A);
vfs_mount("/dev/ttyS0", ttyS0);
fs_node_t * ttyS1 = serial_device_create(SERIAL_PORT_B);
vfs_mount("/dev/ttyS1", ttyS1);
fs_node_t * ttyS2 = serial_device_create(SERIAL_PORT_C);
vfs_mount("/dev/ttyS2", ttyS2);
fs_node_t * ttyS3 = serial_device_create(SERIAL_PORT_D);
vfs_mount("/dev/ttyS3", ttyS3);
char * c;
if ((c = args_value("logtoserial"))) {
debug_file = ttyS0;
debug_level = atoi(c);
debug_print(NOTICE, "Serial logging enabled at level %d.", debug_level);
}
return 0;
}
static int serial_finalize(void) {
return 0;
}
MODULE_DEF(serial, serial_mount_devices, serial_finalize);