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#include <stdint.h>
#include <hardware/clocks.h>
#include <hardware/flash.h>
#include <hardware/gpio.h>
#include <hardware/timer.h>
#include <pico/multicore.h>
#include <bsp/board_api.h>
#include <tusb.h>
#include "ff/ff.h"
#include "ff/diskio.h"
#include "6502.h"
#include "6522.h"
#include "drive.h"
const uint32_t GPIO_CLK = 2;
const uint32_t GPIO_DATA = 3;
const uint32_t GPIO_DATA2 = 5;
const uint32_t GPIO_ATN = 4;
const uint32_t GPIO_LED = 25;
const uint8_t DEVICE = 8;
#define FS_BYTES 1572864
static uint8_t __in_flash("fs") __attribute__((aligned(4096))) FS[FS_BYTES];
static FATFS FAT_FS;
static uint8_t ram[2048];
static uint8_t dos1541[16384];
static uint8_t disk[174848];
uint32_t ts;
cpu_t cpu;
static via_t via1;
static via_t via2;
drive_t drive;
int8_t track_step;
void via_pa_read(via_t *via, uint8_t cycle) {
if (via == &via2) {
via->ira = drive.latched[(drive.current_idx + cycle) & (DRIVE_LOOKAHEAD - 1)];
} else {
via->ira = via->ora;
}
}
void via_pb_read(via_t *via, uint8_t cycle) {
if (via == &via1) {
while (ts + cycle > time_us_32()) {}
uint8_t clk = gpio_get(GPIO_CLK) ? 0 : 0b00000100;
uint8_t data = gpio_get(GPIO_DATA) ? 0 : 0b00000001;
uint8_t atn = gpio_get(GPIO_ATN) ? 0 : 0b10000000;
uint8_t dev = (DEVICE - 8) << 5;
uint8_t atna = via->orb & 0b00010000;
via->irb = clk | data | atn | dev | atna;
} else {
uint8_t low = via->orb & 0b00001111;
uint8_t sync = drive.sync[(drive.current_idx + cycle) & (DRIVE_LOOKAHEAD - 1)] ? 0 : 0b10000000;
via->irb = low | sync | 0b00010000;
}
}
void via_pa_write(via_t *via, uint8_t cycle) {
}
void via_pb_write(via_t *via, uint8_t cycle) {
if (via == &via1) {
while (ts + cycle > time_us_32()) {}
gpio_set_dir(GPIO_CLK, (via->orb & 0b00001000) > 0 && (via->ddrb & 0b00001000) > 0);
gpio_set_dir(GPIO_DATA, (via->orb & 0b00000010) > 0 && (via->ddrb & 0b00000010) > 0);
if ((via->orb & 0b00010000) && (via->ddrb & 0b00010000)) {
gpio_set_dir(GPIO_DATA2, gpio_get(GPIO_ATN));
} else {
gpio_set_dir(GPIO_DATA2, !gpio_get(GPIO_ATN));
}
} else if (via == &via2) {
if ((via->ddrb & 3) == 3) {
int8_t step = via->orb & 3;
int8_t r = (step - track_step) % 4;
uint8_t mod = r < 0 ? r + 4 : r;
if (mod == 1) {
drive_step_up(&drive);
} else if (mod == 3) {
drive_step_down(&drive);
}
track_step = step;
}
drive.spinning = ((via->ddrb & via->orb) & 4) > 0;
gpio_put(GPIO_LED, (via->orb & 0b00001000) > 0 && (via->ddrb & 0b00001000) > 0);
}
}
uint8_t bus_read(uint16_t addr, uint8_t cycle) {
if (addr < 2048) {
return ram[addr];
} else if (addr >= 0xc000) {
return dos1541[addr - 0xc000];
} else if (addr >= 0x1800 && addr < 0x1810) {
uint8_t v = 0;
via_read(&via1, addr - 0x1800, &v, cycle);
return v;
} else if (addr >= 0x1c00 && addr < 0x1c10) {
uint8_t v = 0;
via_read(&via2, addr - 0x1c00, &v, cycle);
return v;
} else {
return 0;
}
}
void bus_write(uint16_t addr, uint8_t v, uint8_t cycle) {
if (addr < 2048) {
ram[addr] = v;
} else if (addr >= 0x1800 && addr < 0x1810) {
via_write(&via1, addr - 0x1800, v, cycle);
} else if (addr >= 0x1c00 && addr < 0x1c10) {
via_write(&via2, addr - 0x1c00, v, cycle);
}
}
void atn_irq_callback(uint pin, uint32_t flags) {
if (flags & GPIO_IRQ_EDGE_RISE) {
if (!(via1.pcr & 1)) {
via1.ifr |= 0b10000010;
}
if ((via1.orb & 0b00010000) && (via1.ddrb & 0b00010000)) {
gpio_set_dir(GPIO_DATA2, 1);
} else {
gpio_set_dir(GPIO_DATA2, 0);
}
} else {
if (via1.pcr & 1) {
via1.ifr |= 0b10000010;
}
if ((via1.orb & 0b00010000) && (via1.ddrb & 0b00010000)) {
gpio_set_dir(GPIO_DATA2, 0);
} else {
gpio_set_dir(GPIO_DATA2, 1);
}
}
}
static bool ejected = false;
void tud_msc_inquiry_cb(uint8_t lun, uint8_t vid[8], uint8_t pid[16], uint8_t rev[4]) {
const char v[] = "TinyUSB";
const char p[] = "pico1541";
const char r[] = "1.0";
memcpy(vid, v, strlen(v));
memcpy(pid, p, strlen(p));
memcpy(rev, r, strlen(r));
}
bool tud_msc_test_unit_ready_cb(uint8_t lun) {
if (ejected) {
tud_msc_set_sense(lun, SCSI_SENSE_NOT_READY, 0x3a, 0x00);
return false;
}
return true;
}
void tud_msc_capacity_cb(uint8_t lun, uint32_t *block_count, uint16_t *block_size) {
*block_count = FS_BYTES / 4096;
*block_size = 4096;
}
bool tud_msc_start_stop_cb(uint8_t lun, uint8_t power_condition, bool start, bool load_eject) {
if (load_eject && !start) {
ejected = true;
}
return true;
}
int32_t tud_msc_read10_cb(uint8_t lun, uint32_t lba, uint32_t offset, void *buffer, uint32_t bufsize) {
if (lba >= FS_BYTES / 4096) {
return -1;
}
if (offset > 0) {
return -1;
}
uint8_t *addr = FS + 4096 * lba;
memcpy(buffer, addr, bufsize);
return (int32_t)bufsize;
}
int32_t tud_msc_write10_cb(uint8_t lun, uint32_t lba, uint32_t offset, uint8_t *buffer, uint32_t bufsize) {
if (lba >= FS_BYTES / 4096) {
return -1;
}
if (offset > 0) {
return -1;
}
uint32_t flash_sect = ((lba * 512 + offset) / 4096) * 4096;
uint32_t sect_ofs = lba * 512 + offset - flash_sect;
for (uint32_t i = 0; i < bufsize; i += 4096) {
uint8_t flash_buf[4096];
if (bufsize - i < 4096) {
memcpy(flash_buf, FS + lba * 4096 + i, 4096);
memcpy(flash_buf, buffer + i, bufsize - i);
} else {
memcpy(flash_buf, buffer + i, 4096);
}
flash_range_erase((uint32_t)FS + lba * 4096 - 0x10000000, 4096);
flash_range_program((uint32_t)FS + lba * 4096 - 0x10000000, flash_buf, 4096);
}
return (int32_t)bufsize;
}
bool tud_msc_is_writable_cb(uint8_t lun) {
return true;
}
int32_t tud_msc_scsi_cb(uint8_t lun, const uint8_t *scsi_cmd, void *buffer, uint16_t bufsize) {
tud_msc_set_sense(lun, SCSI_SENSE_ILLEGAL_REQUEST, 0x20, 0x00);
return -1;
}
DSTATUS disk_status(BYTE pdrv) {
return 0;
}
DSTATUS disk_initialize(BYTE pdrv) {
return 0;
}
DRESULT disk_read(BYTE pdrv, BYTE *buff, LBA_t sector, UINT count) {
memcpy(buff, FS + 4096 * sector, 4096 * count);
return RES_OK;
}
DRESULT disk_write(BYTE pdrv, const BYTE *buff, LBA_t sector, UINT count) {
// FIXME implement
return RES_ERROR;
}
DRESULT disk_ioctl(BYTE pdrv, BYTE cmd, void *buff) {
switch (cmd) {
case CTRL_SYNC:
return RES_OK;
case GET_SECTOR_COUNT:
*(LBA_t *)buff = (FS_BYTES / 4096);
return RES_OK;
case GET_SECTOR_SIZE:
*(WORD *)buff = 4096;
return RES_OK;
case GET_BLOCK_SIZE:
*(DWORD *)buff = 4096;
return RES_OK;
case CTRL_TRIM:
return RES_OK;
}
return RES_PARERR;
}
void drive_thread() {
drive_init(&drive);
drive.image = disk;
multicore_fifo_push_blocking(1);
while (multicore_fifo_pop_blocking_inline()) {
drive_cycle(&drive);
}
}
int main() {
board_init();
tud_init(BOARD_TUD_RHPORT);
if (board_init_after_tusb) {
board_init_after_tusb();
}
while (!ejected) {
tud_task();
}
tud_disconnect();
f_mount(&FAT_FS, "0:", 0);
FIL file;
FRESULT res;
uint32_t btr;
uint32_t br;
res = f_open(&file, "0:dos1541.bin", FA_READ);
if (res) {
return 0;
}
btr = 16384;
br = 0;
while (btr > 0) {
UINT brr;
if (btr < 4096) {
f_read(&file, dos1541 + br, btr, &brr);
} else {
f_read(&file, dos1541 + br, 4096, &brr);
}
br += brr;
btr -= brr;
}
f_close(&file);
res = f_open(&file, "0:image.d64", FA_READ);
if (res) {
return 0;
}
btr = 174848;
br = 0;
while (btr > 0) {
UINT brr;
if (btr < 4096) {
f_read(&file, disk + br, btr, &brr);
} else {
f_read(&file, disk + br, 4096, &brr);
}
br += brr;
btr -= brr;
}
f_close(&file);
f_unmount("0:");
set_sys_clock_khz(250000, true);
multicore_launch_core1(drive_thread);
gpio_init(GPIO_CLK);
gpio_init(GPIO_DATA);
gpio_init(GPIO_ATN);
gpio_init(GPIO_DATA2);
gpio_init(25);
gpio_put(GPIO_CLK, 0);
gpio_put(GPIO_DATA, 0);
gpio_put(GPIO_LED, 0);
gpio_put(GPIO_DATA2, 0);
gpio_set_dir(GPIO_CLK, GPIO_IN);
gpio_set_dir(GPIO_DATA, GPIO_IN);
gpio_set_dir(GPIO_ATN, GPIO_IN);
gpio_set_dir(GPIO_LED, GPIO_OUT);
gpio_set_dir(GPIO_DATA2, GPIO_IN);
gpio_set_pulls(GPIO_CLK, true, false);
gpio_set_pulls(GPIO_DATA, true, false);
gpio_set_pulls(GPIO_DATA2, true, false);
gpio_set_pulls(GPIO_ATN, true, false);
gpio_set_irq_enabled_with_callback(GPIO_ATN, GPIO_IRQ_EDGE_RISE | GPIO_IRQ_EDGE_FALL, true, &atn_irq_callback);
track_step = 0;
multicore_fifo_pop_blocking();
cpu_reset(&cpu);
via_init(&via1);
via_init(&via2);
ts = time_us_32();
uint16_t osc2 = 0xffff;
while (!cpu.jammed) {
if (ts + 100 < time_us_32()) {
break;
}
uint8_t cycles = cpu_step(&cpu);
if (drive_advance(&drive, cycles) && (via2.pcr & 0b1110) == 0b1110) {
cpu.flags |= 1 << FLAG_V_BIT;
}
multicore_fifo_push_blocking_inline(1);
via_cycle(&via1, cycles);
via_cycle(&via2, cycles);
cpu.irq = via_irq(&via1) | via_irq(&via2);
ts += cycles;
while (ts > time_us_32()) {}
}
return 0;
}
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