-#include "serial.h"
-#include "16550a.h"
-#include "debug.h"
-#include "io.h"
-#include "timer.h"
+#include "devices/serial.h"
+#include <debug.h>
+#include "devices/intq.h"
+#include "devices/timer.h"
+#include "threads/io.h"
+#include "threads/interrupt.h"
+#include "threads/synch.h"
+#include "threads/thread.h"
+\f
+/* Register definitions for the 16550A UART used in PCs.
+ The 16550A has a lot more going on than shown here, but this
+ is all we need.
-static void set_serial (int bps, int bits, enum parity_type parity, int stop);
+ Refer to [PC16650D] for hardware information. */
-/* Initializes the serial port device. */
+/* I/O port base address for the first serial port. */
+#define IO_BASE 0x3f8
+
+/* DLAB=0 registers. */
+#define RBR_REG (IO_BASE + 0) /* Receiver Buffer Reg. (read-only). */
+#define THR_REG (IO_BASE + 0) /* Transmitter Holding Reg. (write-only). */
+#define IER_REG (IO_BASE + 1) /* Interrupt Enable Reg. (read-only). */
+#define FCR_REG (IO_BASE + 2) /* FIFO Control Reg. (write-only). */
+#define LCR_REG (IO_BASE + 3) /* Line Control Register. */
+#define MCR_REG (IO_BASE + 4) /* MODEM Control Register. */
+#define LSR_REG (IO_BASE + 5) /* Line Status Register (read-only). */
+
+/* DLAB=1 registers. */
+#define LS_REG (IO_BASE + 0) /* Divisor Latch (LSB). */
+#define MS_REG (IO_BASE + 1) /* Divisor Latch (MSB). */
+
+/* Interrupt Enable Register bits. */
+#define IER_XMIT 0x02 /* Interrupt when transmit finishes. */
+
+/* Line Control Register bits. */
+#define LCR_N81 0x03 /* No parity, 8 data bits, 1 stop bit. */
+#define LCR_DLAB 0x80 /* Divisor Latch Access Bit (DLAB). */
+
+/* MODEM Control Register. */
+#define MCR_OUT2 0x08 /* Output line 2. */
+
+/* Line Status Register. */
+#define LSR_THRE 0x20 /* THR Empty. */
+\f
+/* Transmission mode. */
+static enum { UNINIT, POLL, QUEUE } mode;
+
+/* Data to be transmitted. */
+static struct intq txq;
+
+static void set_serial (int bps);
+static void putc_poll (uint8_t);
+static void write_ier (void);
+static intr_handler_func serial_interrupt;
+
+/* Initializes the serial port device for polling mode.
+ Polling mode busy-waits for the serial port to become free
+ before writing to it. It's slow, but until interrupts have
+ been initialized it's all we can do. */
+void
+serial_init_poll (void)
+{
+ ASSERT (mode == UNINIT);
+ outb (IER_REG, 0); /* Turn off all interrupts. */
+ outb (FCR_REG, 0); /* Disable FIFO. */
+ set_serial (115200); /* 115.2 kbps, N-8-1. */
+ outb (MCR_REG, MCR_OUT2); /* Required to enable interrupts. */
+ intq_init (&txq);
+ mode = POLL;
+}
+
+/* Initializes the serial port device for queued interrupt-driven
+ I/O. With interrupt-driven I/O we don't waste CPU time
+ waiting for the serial device to become ready. */
void
-serial_init (void)
+serial_init_queue (void)
{
- outb (IER_REG, 0); /* Turn off all interrupts. */
- outb (FCR_REG, 0); /* Disable FIFO. */
- set_serial (9600, 8, NONE, 1);
- outb (MCR_REG, 0); /* Turn off output lines. */
+ ASSERT (mode == POLL);
+ intr_register_ext (0x20 + 4, serial_interrupt, "serial");
+ mode = QUEUE;
}
/* Sends BYTE to the serial port. */
void
-serial_outb (uint8_t byte)
+serial_putc (uint8_t byte)
{
- while ((inb (LSR_REG) & LSR_THRE) == 0)
- continue;
- outb (THR_REG, byte);
+ enum intr_level old_level = intr_disable ();
+
+ if (mode == POLL)
+ {
+ /* If we're not set up for interrupt-driven I/O yet,
+ use dumb polling to transmit a byte. */
+ putc_poll (byte);
+ }
+ else
+ {
+ /* Otherwise, queue a byte and update the interrupt enable
+ register. */
+ if (old_level == INTR_OFF && intq_full (&txq))
+ {
+ /* Interrupts are off and the transmit queue is full.
+ If we wanted to wait for the queue to empty,
+ we'd have to reenable interrupts.
+ That's impolite, so we'll send a character via
+ polling instead. */
+ putc_poll (intq_getc (&txq));
+ }
+
+ intq_putc (&txq, byte);
+ write_ier ();
+ }
+
+ intr_set_level (old_level);
}
-/* Configures the first serial port for BPS bits per second,
- BITS bits per byte, the given PARITY, and STOP stop bits. */
+/* Flushes anything in the serial buffer out the port in polling
+ mode. */
+void
+serial_flush (void)
+{
+ enum intr_level old_level = intr_disable ();
+ while (!intq_empty (&txq))
+ putc_poll (intq_getc (&txq));
+ intr_set_level (old_level);
+}
+\f
+/* Configures the serial port for BPS bits per second. */
static void
-set_serial (int bps, int bits, enum parity_type parity, int stop)
+set_serial (int bps)
{
int baud_base = 1843200 / 16; /* Base rate of 16550A. */
uint16_t divisor = baud_base / bps; /* Clock rate divisor. */
-
+
+ ASSERT (bps >= 300 && bps <= 115200);
+
/* Enable DLAB. */
- outb (LCR_REG, make_lcr (bits, parity, stop, false, true));
+ outb (LCR_REG, LCR_N81 | LCR_DLAB);
/* Set baud rate. */
outb (LS_REG, divisor & 0xff);
outb (MS_REG, divisor >> 8);
/* Reset DLAB. */
- outb (LCR_REG, make_lcr (bits, parity, stop, false, false));
+ outb (LCR_REG, LCR_N81);
+}
+
+/* Update interrupt enable register.
+ If our transmit queue is empty, turn off transmit interrupt. */
+static void
+write_ier (void)
+{
+ outb (IER_REG, intq_empty (&txq) ? 0 : IER_XMIT);
+}
+
+/* Polls the serial port until it's ready,
+ and then transmits BYTE. */
+static void
+putc_poll (uint8_t byte)
+{
+ ASSERT (intr_get_level () == INTR_OFF);
+
+ while ((inb (LSR_REG) & LSR_THRE) == 0)
+ continue;
+ outb (THR_REG, byte);
+}
+
+/* Serial interrupt handler.
+ As long as we have a byte to transmit,
+ and the hardware is ready to accept a byte for transmission,
+ transmit a byte.
+ Then update interrupt enable register based on queue
+ status. */
+static void
+serial_interrupt (struct intr_frame *f UNUSED)
+{
+ while (!intq_empty (&txq) && (inb (LSR_REG) & LSR_THRE) != 0)
+ outb (THR_REG, intq_getc (&txq));
+ write_ier ();
}