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abd932aadeab3dc0617751c17c5d3da1a011b9f2
mist-devel.mist-firmware/tos.c
harbaum abd932aade ACSI harddisk support
2013-04-01 19:33:53 +00:00

688 lines
16 KiB
C
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#include "stdio.h"
#include "string.h"
#include "hardware.h"
#include "tos.h"
#include "fat.h"
#include "fpga.h"
#define TOS_BASE_ADDRESS_192k 0xfc0000
#define TOS_BASE_ADDRESS_256k 0xe00000
#define CART_BASE_ADDRESS 0xfa0000
#define VIDEO_BASE_ADDRESS 0x010000
unsigned long tos_system_ctrl = TOS_MEMCONFIG_4M;
static unsigned char font[2048]; // buffer for 8x16 atari font
// two floppies
static struct {
fileTYPE file;
unsigned char sides;
unsigned char spt;
} fdd_image[2];
// one harddisk
fileTYPE hdd_image;
static unsigned char dma_buffer[512];
static const char *acsi_cmd_name(int cmd) {
static const char *cmdname[] = {
"Test Drive Ready", "Restore to Zero", "Cmd $2", "Request Sense",
"Format Drive", "Read Block limits", "Reassign Blocks", "Cmd $7",
"Read Sector", "Cmd $9", "Write Sector", "Seek Block",
"Cmd $C", "Cmd $D", "Cmd $E", "Cmd $F",
"Cmd $10", "Cmd $11", "Inquiry", "Verify",
"Cmd $14", "Mode Select", "Cmd $16", "Cmd $17",
"Cmd $18", "Cmd $19", "Mode Sense", "Start/Stop Unit",
"Cmd $1C", "Cmd $1D", "Cmd $1E", "Cmd $1F"
};
return cmdname[cmd];
}
static void acsi_read_cmd() {
static int cnt = 0;
EnableFpga();
SPI(MIST_READ_ACSI);
unsigned char status = SPI(0);
while(status & 1) {
unsigned char data = SPI(0);
if(!(status & 0x02))
iprintf("ACSI: cmd \"%s\", target %d\n",
acsi_cmd_name(data & 0x1f), data>>5);
else
iprintf("ACSI: cont. data %x\n", data);
status = SPI(0);
}
DisableFpga();
}
static void mist_memory_set_address(unsigned long a) {
a >>= 1; // make word address
EnableFpga();
SPI(MIST_SET_ADDRESS);
SPI((a >> 24) & 0xff);
SPI((a >> 16) & 0xff);
SPI((a >> 8) & 0xff);
SPI((a >> 0) & 0xff);
DisableFpga();
}
static void mist_set_control(unsigned short ctrl) {
EnableFpga();
SPI(MIST_SET_CONTROL);
SPI((ctrl >> 8) & 0xff);
SPI((ctrl >> 0) & 0xff);
DisableFpga();
}
static void hexdump(void *data, unsigned long size, unsigned long offset) {
int i, b2c;
unsigned long n=0;
char *ptr = data;
if(!size) return;
while(size>0) {
iprintf("%08x: ", n + offset);
b2c = (size>16)?16:size;
for(i=0;i<b2c;i++) iprintf("%02x ", 0xff&ptr[i]);
iprintf(" ");
for(i=0;i<(16-b2c);i++) iprintf(" ");
for(i=0;i<b2c;i++) iprintf("%c", isprint(ptr[i])?ptr[i]:'.');
iprintf("\n");
ptr += b2c;
size -= b2c;
n += b2c;
}
}
static void mist_memory_read(char *data, unsigned long words) {
EnableFpga();
SPI(MIST_READ_MEMORY);
// transmitted bytes must be multiple of 2 (-> words)
while(words--) {
*data++ = SPI(0);
*data++ = SPI(0);
}
DisableFpga();
}
static void mist_memory_write(char *data, unsigned long words) {
EnableFpga();
SPI(MIST_WRITE_MEMORY);
while(words--) {
SPI(*data++);
SPI(*data++);
}
DisableFpga();
}
void mist_memory_set(char data, unsigned long words) {
EnableFpga();
SPI(MIST_WRITE_MEMORY);
while(words--) {
SPI(data);
SPI(data);
}
DisableFpga();
}
static void handle_acsi(unsigned char *buffer) {
unsigned char target = buffer[9] >> 5;
unsigned char cmd = buffer[9] & 0x1f;
unsigned int dma_address = 256 * 256 * buffer[0] +
256 * buffer[1] + buffer[2];
unsigned char scnt = buffer[3];
unsigned long lba = 256 * 256 * (buffer[10] & 0x1f) +
256 * buffer[11] + buffer[12];
unsigned short length = buffer[13];
if(length == 0) length = 256;
iprintf("ACSI: target %d, \"%s\"\n", target, acsi_cmd_name(cmd));
// iprintf("ACSI: %02x %02x %02x %02x %02x\n", buffer[10], buffer[11],
// buffer[12], buffer[13], buffer[14]);
iprintf("ACSI: lba %lu, length %u\n", lba, length);
iprintf("DMA: scnt %u, addr %p\n", scnt, dma_address);
mist_memory_set_address(dma_address);
switch(cmd) {
case 0x08: // read sector
DISKLED_ON;
while(length) {
FileSeek(&hdd_image, lba++, SEEK_SET);
FileRead(&hdd_image, dma_buffer);
mist_memory_write(dma_buffer, 256);
length--;
}
DISKLED_OFF;
break;
case 0x0a: // write sector
DISKLED_ON;
while(length) {
mist_memory_read(dma_buffer, 256);
FileSeek(&hdd_image, lba++, SEEK_SET);
FileWrite(&hdd_image, dma_buffer);
length--;
}
DISKLED_OFF;
break;
case 0x12: // inquiry
memset(dma_buffer, 0, 512);
dma_buffer[2] = 1; // ANSI version
dma_buffer[4] = length-8; // len
memcpy(dma_buffer+8, "MIST ", 8); // Vendor
memcpy(dma_buffer+16, " ", 16); // Clear device entry
memcpy(dma_buffer+16, hdd_image.name, 11); // Device
mist_memory_write(dma_buffer, length/2);
break;
case 0x1a: // mode sense
{ unsigned int blocks = hdd_image.size / 512;
iprintf("ACSI: mode sense, blocks = %u\n", blocks);
memset(dma_buffer, 0, 512);
dma_buffer[3] = 8; // size of extent descriptor list
dma_buffer[5] = blocks >> 16;
dma_buffer[6] = blocks >> 8;
dma_buffer[7] = blocks;
dma_buffer[10] = 2; // byte 1 of block size in bytes (512)
mist_memory_write(dma_buffer, length/2);
}
break;
default:
iprintf("ACSI: Unsupported command\n");
break;
}
EnableFpga();
SPI(MIST_ACK_DMA);
DisableFpga();
}
static void handle_fdc(unsigned char *buffer) {
// extract contents
unsigned int dma_address = 256 * 256 * buffer[0] +
256 * buffer[1] + buffer[2];
unsigned char scnt = buffer[3];
unsigned char fdc_cmd = buffer[4];
unsigned char fdc_track = buffer[5];
unsigned char fdc_sector = buffer[6];
unsigned char fdc_data = buffer[7];
unsigned char drv_sel = 3-((buffer[8]>>2)&3);
unsigned char drv_side = 1-((buffer[8]>>1)&1);
// check if a matching disk image has been inserted
if(drv_sel && fdd_image[drv_sel-1].file.size) {
// if the fdc has been asked to write protect the disks, then
// write sector commands should never reach the oi controller
// read/write sector command
if((fdc_cmd & 0xc0) == 0x80) {
// convert track/sector/side into disk offset
unsigned int offset = drv_side;
offset += fdc_track * fdd_image[drv_sel-1].sides;
offset *= fdd_image[drv_sel-1].spt;
offset += fdc_sector-1;
while(scnt) {
DISKLED_ON;
FileSeek(&fdd_image[drv_sel-1].file, offset, SEEK_SET);
mist_memory_set_address(dma_address);
if((fdc_cmd & 0xe0) == 0x80) {
// read from disk ...
FileRead(&fdd_image[drv_sel-1].file, dma_buffer);
// ... and copy to ram
mist_memory_write(dma_buffer, 256);
} else {
// read from ram ...
mist_memory_read(dma_buffer, 256);
// ... and write to disk
FileWrite(&(fdd_image[drv_sel-1].file), dma_buffer);
}
DISKLED_OFF;
scnt--;
dma_address += 512;
offset += 1;
}
EnableFpga();
SPI(MIST_ACK_DMA);
DisableFpga();
}
}
}
static void mist_get_dmastate() {
static unsigned char buffer[16];
int i;
// acsi_read_cmd();
EnableFpga();
SPI(MIST_GET_DMASTATE);
for(i=0;i<16;i++)
buffer[i] = SPI(0);
DisableFpga();
// check if acsi is busy
if(buffer[8] & 0x10)
handle_acsi(buffer);
// check if fdc is busy
if(buffer[8] & 0x01)
handle_fdc(buffer);
}
static void tos_clr() {
mist_memory_set_address(VIDEO_BASE_ADDRESS);
mist_memory_set(0, 16000);
}
// color test, used to test the shifter without CPU/TOS
#define COLORS 20
#define PLANES 4
static void tos_color_test() {
unsigned short buffer[COLORS][PLANES];
int y;
for(y=0;y<13;y++) {
int i, j;
for(i=0;i<COLORS;i++)
for(j=0;j<PLANES;j++)
buffer[i][j] = ((y+i) & (1<<j))?0xffff:0x0000;
for(i=0;i<16;i++) {
mist_memory_set_address(VIDEO_BASE_ADDRESS + (16*y+i)*160);
mist_memory_write((char*)buffer, COLORS*PLANES);
}
}
}
static void tos_write(char *str) {
static int y = 0;
int l;
int c = strlen(str);
{
char buffer[c];
// 16 pixel lines
for(l=0;l<16;l++) {
char *p = str, *f=buffer;
while(*p)
*f++ = font[16 * *p++ + l];
mist_memory_set_address(VIDEO_BASE_ADDRESS + 80*(y+l));
mist_memory_write(buffer, c/2);
}
}
y+=16;
}
static void tos_font_load() {
fileTYPE file;
if(FileOpen(&file,"SYSTEM FNT")) {
if(file.size == 4096) {
int i;
for(i=0;i<4;i++) {
FileRead(&file, font+i*512);
FileNextSector(&file);
}
tos_clr();
// tos_color_test();
tos_write("\016\017 MIST core \016\017 ");
} else
iprintf("SYSTEM.FNT has wrong size\n");
} else
iprintf("SYSTEM.FNT not found\n");
}
void tos_upload() {
// put cpu into reset
mist_set_control(tos_system_ctrl | TOS_CONTROL_CPU_RESET);
tos_font_load();
// do the MiST core handling
tos_write("Uploading TOS ... ");
iprintf("Uploading TOS ...\n");
DISKLED_ON;
// upload and verify tos image
fileTYPE file;
if(FileOpen(&file,"TOS IMG")) {
int i;
char buffer[512];
unsigned long time;
unsigned long tos_base = TOS_BASE_ADDRESS_192k;
iprintf("TOS.IMG:\n size = %d\n", file.size);
if(file.size == 256*1024)
tos_base = TOS_BASE_ADDRESS_256k;
else if(file.size != 192*1024)
iprintf("WARNING: Unexpected TOS size!\n");
int blocks = file.size / 512;
iprintf(" blocks = %d\n", blocks);
iprintf(" address = $%08x\n", tos_base);
// extract base address
FileRead(&file, buffer);
// clear first 16k
mist_memory_set_address(0);
mist_memory_set(0x00, 8192);
#if 0
iprintf("Erasing: ");
// clear memory to increase chances of catching write problems
mist_memory_set_address(tos_base);
mist_memory_set(0x00, file.size/2);
iprintf("done\n");
#endif
time = GetTimer(0);
iprintf("Uploading: [");
for(i=0;i<blocks;i++) {
FileRead(&file, buffer);
// copy first 8 bytes to address 0 as well
if(i == 0) {
mist_memory_set_address(0);
// write first 4 words
mist_memory_write(buffer, 4);
// set real tos base address
mist_memory_set_address(tos_base);
}
mist_memory_write(buffer, 256);
if(!(i & 7)) iprintf(".");
if(i != blocks-1)
FileNextSector(&file);
}
iprintf("]\n");
time = GetTimer(0) - time;
iprintf("TOS.IMG uploaded in %lu ms\r", time >> 20);
} else
iprintf("Unable to find tos.img\n");
#if 0
{
char rx[512], buffer[512];
int i,j;
int blocks = file.size / 512;
FileSeek(&file, 0, SEEK_SET);
mist_memory_set_address(TOS_BASE_ADDRESS);
iprintf("Verifying: [");
for(i=0;i<blocks;i++) {
FileRead(&file, buffer);
mist_memory_read(rx, 256);
if(!(i & 7)) iprintf("+");
for(j=0;j<512;j++) {
if(buffer[j] != rx[j]) {
iprintf("Verify error block %d, byte %x\n", i, j);
iprintf("should be:\n");
hexdump(buffer, 512, 0);
iprintf("is:\n");
hexdump(rx, 512, 0);
// try to re-read to check whether read or write failed
mist_memory_set_address(TOS_BASE_ADDRESS+i*512);
mist_memory_read(rx, 256);
iprintf("re-read: %s\n", (buffer[j] != rx[j])?"failed":"ok");
hexdump(rx, 512, 0);
while(1);
}
}
if(i != blocks-1)
FileNextSector(&file);
}
iprintf("]\n");
}
#endif
DISKLED_OFF;
// upload cartridge
if(FileOpen(&file,"CART IMG")) {
int i;
char buffer[512];
iprintf("CART.IMG:\n size = %d\n", file.size);
int blocks = file.size / 512;
iprintf(" blocks = %d\n", blocks);
iprintf("Uploading: [");
mist_memory_set_address(CART_BASE_ADDRESS);
DISKLED_ON;
for(i=0;i<blocks;i++) {
FileRead(&file, buffer);
mist_memory_write(buffer, 256);
if(!(i & 7)) iprintf(".");
if(i != blocks-1)
FileNextSector(&file);
}
DISKLED_OFF;
iprintf("]\n");
iprintf("CART.IMG uploaded\r");
} else {
iprintf("Unable to find cart.img\n");
// erase that ram area to remove any previously uploaded
// image
mist_memory_set_address(CART_BASE_ADDRESS);
mist_memory_set(0, 128*1024/2);
}
// try to open both floppies
int i;
for(i=0;i<2;i++) {
char msg[] = "Found floppy disk image for drive X: ";
char name[] = "DISK_A ST ";
msg[34] = name[5] = 'A'+i;
fileTYPE file;
if(FileOpen(&file, name)) {
tos_write(msg);
tos_insert_disk(i, &file);
}
}
// try to open harddisk image
hdd_image.size = 0;
if(FileOpen(&hdd_image, "HARDDISKHD "))
tos_write("Found harddisk image ");
tos_write("Booting ... ");
// let cpu run (release reset)
mist_set_control(tos_system_ctrl);
}
static unsigned long get_long(char *buffer, int offset) {
unsigned long retval = 0;
int i;
for(i=0;i<4;i++)
retval = (retval << 8) + *(unsigned char*)(buffer+offset+i);
return retval;
}
void tos_show_state() {
static unsigned long mtimer = 0;
mist_get_dmastate();
#if 0
if(CheckTimer(mtimer)) {
mtimer = GetTimer(2000);
int i;
char buffer[1024];
mist_memory_set_address(0);
mist_memory_read(buffer, 64);
hexdump(buffer, 128, 0);
// tos system varables are from $400
mist_memory_set_address(0x400);
mist_memory_read(buffer, 512);
iprintf("\n--- SYSTEM VARIABLES ---\n");
iprintf("memvalid: $%lx (should be $752019F3)\n", get_long(buffer,0x20));
iprintf("memcntrl: $%x (memory controller low nibble)\n", buffer[0x24]);
iprintf("phystop: $%lx (Physical RAM top)\n", get_long(buffer,0x2e));
iprintf("memval2: $%lx (should be $237698AA)\n", get_long(buffer,0x3a));
iprintf("sshiftmd: $%x (Shadow shiftmd, LMH/012)\n", buffer[0x4c]);
iprintf("_v_bas_ad: $%lx (Screen memory base)\n", get_long(buffer,0x4e));
iprintf("_vbclock: $%lx (vbl counter)\n", get_long(buffer,0x62));
iprintf("_dskbufp: $%lx (1k disk buffer)\n", get_long(buffer,0xc6));
iprintf("_frclock: $%lx (frame counter)\n", get_long(buffer,0x66));
iprintf("_hz_200: $%lx (Raw 200Hz timer)\n", get_long(buffer,0xba));
iprintf("_sysbase: $%lx (begin of tos)\n", get_long(buffer,0xf2));
}
#endif
}
void tos_update_sysctrl(unsigned long n) {
tos_system_ctrl = n;
mist_set_control(tos_system_ctrl);
}
char *tos_get_disk_name(char index) {
static char buffer[13]; // local buffer to assemble file name (8+3+2)
char *c;
if(!fdd_image[index].file.size) {
strcpy(buffer, "* no disk *");
return buffer;
}
// copy and append nul
strncpy(buffer, fdd_image[index].file.name, 8);
for(c=buffer+7;*c==' ';c--); c++;
*c++ = '.';
strncpy(c, fdd_image[index].file.name+8, 3);
for(c+=2;*c==' ';c--); c++;
*c++='\0';
return buffer;
}
char tos_disk_is_inserted(char index) {
return (fdd_image[index].file.size != 0);
}
void tos_insert_disk(char i, fileTYPE *file) {
iprintf("%c: eject\n", i+'A');
// toggle write protect bit to help tos detect a media change
int wp_bit = (!i)?TOS_CONTROL_FDC_WR_PROT_A:TOS_CONTROL_FDC_WR_PROT_B;
// any disk ejected is "write protected" (as nothing covers the write protect mechanism)
mist_set_control(tos_system_ctrl | wp_bit);
// first "eject" disk
fdd_image[i].file.size = 0;
fdd_image[i].sides = 1;
fdd_image[i].spt = 0;
// no new disk given?
if(!file) return;
// open floppy
fdd_image[i].file = *file;
iprintf("%c: insert %.11s\n", i+'A', fdd_image[i].file.name);
// check image size and parameters
// check if image size suggests it's a two sided disk
if(fdd_image[i].file.size > 80*9*512)
fdd_image[i].sides = 2;
// try common sector/track values
int m, s, t;
for(m=0;m<=2;m++) // multiplier for hd/ed disks
for(s=9;s<=12;s++)
for(t=80;t<=85;t++)
if(512*(1<<m)*s*t*fdd_image[i].sides == fdd_image[i].file.size)
fdd_image[i].spt = s*(1<<m);
if(!fdd_image[i].spt) {
// read first sector from disk
if(MMC_Read(0, dma_buffer)) {
fdd_image[i].spt = dma_buffer[24] + 256 * dma_buffer[25];
fdd_image[i].sides = dma_buffer[26] + 256 * dma_buffer[27];
} else
fdd_image[i].file.size = 0;
}
if(fdd_image[i].file.size) {
// restore state of write protect bit
tos_update_sysctrl(tos_system_ctrl);
iprintf("%c: detected %d sides with %d sectors per track\n",
i+'A', fdd_image[i].sides, fdd_image[i].spt);
}
}
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