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68knano.c
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68knano.c
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/*
* Emulator for Matt Sarnoff's 68Knano.
*
* We emulate at about 10MHz. The serial doesn't actually care
* about real baud rates.
*/
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <time.h>
#include <sys/time.h>
#include <signal.h>
#include <termios.h>
#include <sys/ioctl.h>
#include <fcntl.h>
#include <unistd.h>
#include <m68k.h>
#include "serialdevice.h"
#include "ttycon.h"
#include "16x50.h"
#include "ds3234.h"
#include "ide.h"
/* IDE controller */
static struct ide_controller *ide;
/* Serial */
static struct uart16x50 *uart;
/* RTC */
static struct ds3234 *ds3234;
/* 1MB RAM */
static uint8_t ram[0x100000];
/* 64K ROM */
static uint8_t rom[0x10000];
static int trace = 0;
#define TRACE_MEM 1
#define TRACE_CPU 2
#define TRACE_UART 4
#define TRACE_RTC 8
uint8_t fc;
/* Read/write macros */
#define READ_BYTE(BASE, ADDR) (BASE)[ADDR]
#define READ_WORD(BASE, ADDR) (((BASE)[ADDR]<<8) | \
(BASE)[(ADDR)+1])
#define READ_LONG(BASE, ADDR) (((BASE)[ADDR]<<24) | \
((BASE)[(ADDR)+1]<<16) | \
((BASE)[(ADDR)+2]<<8) | \
(BASE)[(ADDR)+3])
#define WRITE_BYTE(BASE, ADDR, VAL) (BASE)[ADDR] = (VAL)&0xff
#define WRITE_WORD(BASE, ADDR, VAL) (BASE)[ADDR] = ((VAL)>>8) & 0xff; \
(BASE)[(ADDR)+1] = (VAL)&0xff
#define WRITE_LONG(BASE, ADDR, VAL) (BASE)[ADDR] = ((VAL)>>24) & 0xff; \
(BASE)[(ADDR)+1] = ((VAL)>>16)&0xff; \
(BASE)[(ADDR)+2] = ((VAL)>>8)&0xff; \
(BASE)[(ADDR)+3] = (VAL)&0xff
static uint8_t msr_lines;
/* The output modem lines may have shifted */
void uart16x50_signal_change(struct uart16x50 *uart, uint8_t mcr)
{
static uint8_t last_mcr;
static uint8_t rxbyte, txbyte;
static uint8_t bitcount;
uint8_t delta = last_mcr ^ mcr;
last_mcr = mcr;
/* Work out what this did to the SPI */
/* DTR is MOSI - we don't care about it directly */
/* RTS is the LED - again we don't care until we add SD */
/* OUT2 is nSS - but inverted */
if (delta & MCR_OUT2)
ds3234_spi_cs(ds3234, !(mcr & MCR_OUT2));
/* OUT1 is the SPI clock */
if (delta & MCR_OUT1) {
if (mcr & MCR_OUT1) {
/* Falling edge as sen by SPI. Values change */
/* Load */
msr_lines &= ~MSR_DCD;
/* Inverted signal */
if (!(txbyte & 0x80))
msr_lines |= MSR_DCD;
txbyte <<= 1;
if (trace & TRACE_RTC)
fprintf(stderr, "spi: clock fall - MSR %02x\n", msr_lines);
uart16x50_signal_event(uart, msr_lines);
} else {
/* Rising edge: Values sample */
rxbyte <<= 1;
rxbyte |= !(mcr & MCR_DTR);
bitcount++;
if (trace & TRACE_RTC)
fprintf(stderr, "spi: clock rise - MCR %02x\n", mcr);
if (bitcount == 8) {
txbyte = ds3234_spi_rxtx(ds3234, rxbyte);
bitcount = 0;
}
}
}
}
/* We model this as if the clock is always on. Should really be checking
the DS3234 state etc */
static void sqw_toggle(void)
{
msr_lines ^= MSR_DSR;
uart16x50_signal_event(uart, msr_lines);
}
static unsigned int irq_pending;
void recalc_interrupts(void)
{
/* UART autovector 1 */
if (uart16x50_irq_pending(uart))
m68k_set_irq(M68K_IRQ_1);
else
m68k_set_irq(0);
}
int cpu_irq_ack(int level)
{
return M68K_INT_ACK_AUTOVECTOR;
}
/* Read data from RAM, ROM, or a device */
unsigned int do_cpu_read_byte(unsigned int address, unsigned int trap)
{
address &= 0xFFFFFF;
uint16_t r;
switch(address >> 20 ) {
case 0x00: /* ROM */
case 0x02:
return rom[address & 0xFFFF];
case 0x08: /* Open bus */
return 0xFF;
case 0x09:
r = ide_read16(ide, (address & 0x0E) >> 1);
if (!(address & 1))
r >>= 8;
return r;
case 0x0A:
return uart16x50_read(uart, (address & 0x1E) >> 1);
case 0x0C:
case 0x0E:
return ram[address & 0xFFFFF];
default:
if (trap) {
fprintf(stderr, "0x%06X address conflict.\n", address);
exit(1);
}
return 0xFF; /* For disassembly */
}
return 0xFF;
}
unsigned int cpu_read_byte(unsigned int address)
{
unsigned int v = do_cpu_read_byte(address, 1);
if (trace & TRACE_MEM)
fprintf(stderr, "RB %06X -> %02X\n", address, v);
return v;
}
unsigned int do_cpu_read_word(unsigned int address, unsigned int trap)
{
/* Special case the ide as it matters */
if ((address & 0xF00000) == 0x900000) {
return ide_read16(ide, (address & 0x0E) >> 1);
}
return (do_cpu_read_byte(address, trap) << 8) | do_cpu_read_byte(address + 1, trap);
}
unsigned int cpu_read_word(unsigned int address)
{
unsigned int v = do_cpu_read_word(address, 1);
if (trace & TRACE_MEM)
fprintf(stderr, "RW %06X -> %04X\n", address, v);
return v;
}
unsigned int cpu_read_word_dasm(unsigned int address)
{
return do_cpu_read_word(address, 0);
}
unsigned int cpu_read_long(unsigned int address)
{
return (cpu_read_word(address) << 16) | cpu_read_word(address + 2);
}
unsigned int cpu_read_long_dasm(unsigned int address)
{
return (cpu_read_word_dasm(address) << 16) | cpu_read_word_dasm(address + 2);
}
void cpu_write_byte(unsigned int address, unsigned int value)
{
address &= 0xFFFFFF;
switch(address >> 20) {
case 0x00: /* ROM */
case 0x02:
if (trace & TRACE_MEM)
fprintf(stderr, "%06x: write to ROM.\n", address);
return;
case 0x08: /* Open bus */
return;
case 0x09:
if (!(address & 1))
value >>= 8;
ide_write16(ide, (address & 0x0E) >> 1, value);
return;
case 0x0A:
uart16x50_write(uart, (address & 0x1E) >> 1, value);
return;
case 0x0C:
case 0x0E:
ram[address & 0xFFFFF] = value;
return;
default:
fprintf(stderr, "0x%06X address conflict.\n", address);
exit(1);
}
}
void cpu_write_word(unsigned int address, unsigned int value)
{
address &= 0xFFFFFF;
if (trace & TRACE_MEM)
fprintf(stderr, "WW %06X <- %04X\n", address, value);
/* Special case the ide as it matters */
if ((address & 0xF00000) == 0x900000) {
ide_write16(ide, (address & 0x0E) >> 1, value);
return;
}
cpu_write_byte(address, value >> 8);
cpu_write_byte(address + 1, value & 0xFF);
}
void cpu_write_long(unsigned int address, unsigned int value)
{
address &= 0xFFFFFF;
cpu_write_word(address, value >> 16);
cpu_write_word(address + 2, value & 0xFFFF);
}
void cpu_write_pd(unsigned int address, unsigned int value)
{
address &= 0xFFFFFF;
cpu_write_word(address + 2, value & 0xFFFF);
cpu_write_word(address, value >> 16);
}
void cpu_instr_callback(void)
{
if (trace & TRACE_CPU) {
char buf[128];
unsigned int pc = m68k_get_reg(NULL, M68K_REG_PC);
m68k_disassemble(buf, pc, M68K_CPU_TYPE_68000);
fprintf(stderr, ">%06X %s\n", pc, buf);
}
}
static void device_init(void)
{
irq_pending = 0;
ide_reset_begin(ide);
uart16x50_reset(uart);
uart16x50_attach(uart, &console);
}
static struct termios saved_term, term;
static void cleanup(int sig)
{
tcsetattr(0, 0, &saved_term);
exit(1);
}
static void exit_cleanup(void)
{
tcsetattr(0, 0, &saved_term);
}
static void take_a_nap(void)
{
struct timespec t;
t.tv_sec = 0;
t.tv_nsec = 100000;
if (nanosleep(&t, NULL))
perror("nanosleep");
}
void cpu_pulse_reset(void)
{
device_init();
}
void cpu_set_fc(int fc)
{
}
void usage(void)
{
fprintf(stderr, "68knano: [-0][-1][-2][-e][-r rompath][-i idepath][-d debug].\n");
exit(1);
}
int main(int argc, char *argv[])
{
int fd;
int cputype = M68K_CPU_TYPE_68000;
int fast = 0;
int opt;
const char *romname = "68knano.rom";
const char *diskname = "68knano.ide";
while((opt = getopt(argc, argv, "012efd:i:r:")) != -1) {
switch(opt) {
case '0':
cputype = M68K_CPU_TYPE_68000;
break;
case '1':
cputype = M68K_CPU_TYPE_68010;
break;
case '2':
cputype = M68K_CPU_TYPE_68020;
break;
case 'e':
cputype = M68K_CPU_TYPE_68EC020;
break;
case 'f':
fast = 1;
break;
case 'd':
trace = atoi(optarg);
break;
case 'i':
diskname = optarg;
break;
case 'r':
romname = optarg;
break;
default:
usage();
}
}
if (tcgetattr(0, &term) == 0) {
saved_term = term;
atexit(exit_cleanup);
signal(SIGINT, SIG_IGN);
signal(SIGQUIT, cleanup);
signal(SIGTSTP, SIG_IGN);
term.c_lflag &= ~ICANON;
term.c_iflag &= ~(ICRNL | IGNCR);
term.c_cc[VMIN] = 1;
term.c_cc[VTIME] = 0;
term.c_cc[VINTR] = 0;
term.c_cc[VSUSP] = 0;
term.c_cc[VEOF] = 0;
term.c_lflag &= ~(ECHO | ECHOE | ECHOK);
tcsetattr(0, 0, &term);
}
if (optind < argc)
usage();
memset(ram, 0xA7, sizeof(ram));
fd = open(romname, O_RDONLY);
if (fd == -1) {
perror(romname);
exit(1);
}
if (read(fd, rom, 0x10000) < 0x10000) {
fprintf(stderr, "%s: too short.\n", romname);
exit(1);
}
close(fd);
fd = open(diskname, O_RDWR);
if (fd == -1) {
perror(diskname);
exit(1);
}
ide = ide_allocate("hd0");
if (ide == NULL)
exit(1);
if (ide_attach(ide, 0, fd))
exit(1);
uart = uart16x50_create();
if (trace & TRACE_UART)
uart16x50_trace(uart, 1);
uart16x50_set_clock(uart, 12000000);
ds3234 = ds3234_create();
ds3234_trace(ds3234, trace & TRACE_RTC);
m68k_init();
m68k_set_cpu_type(cputype);
m68k_pulse_reset();
/* Init devices */
device_init();
while (1) {
unsigned n = 0;
while(n++ < 5000) {
/* A 12MHz 68000 should do 1200 cycles per 0.1ms
We do a blind 0.01ns second sleep so we are actually
emulating a bit under 12Mhz - which will do fine for
testing this stuff */
m68k_execute(1200);
uart16x50_event(uart);
recalc_interrupts();
if (!fast)
take_a_nap();
}
/* Toggle SQW at 1Hz (so two toggles a second) */
sqw_toggle();
}
}