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/* 3b2_cpu.h: AT&T 3B2 Model 400 Floppy (TMS2797NL) Implementation
Copyright (c) 2017, Seth J. Morabito
Permission is hereby granted, free of charge, to any person
obtaining a copy of this software and associated documentation
files (the "Software"), to deal in the Software without
restriction, including without limitation the rights to use, copy,
modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
Except as contained in this notice, the name of the author shall
not be used in advertising or otherwise to promote the sale, use or
other dealings in this Software without prior written authorization
from the author.
*/
#include "3b2_if.h"
/*
* TODO: Macros used for debugging timers. Remove when debugging is complete.
*/
double if_start_time;
#ifndef MAX
#define MAX(x,y) ((x) > (y) ? (x) : (y))
#endif
#ifndef MIN
#define MIN(x,y) ((x) < (y) ? (x) : (y))
#endif
/*
* Disk Format:
* ------------
*
* - 80 Tracks
* - 9 Sectors per track
* - 2 heads
* - 512 bytes per sector
*
* 80 * 9 * 2 * 512 = 720KB
*
*/
#define IF_STEP_DELAY 3000 /* us */
#define IF_R_DELAY 65000 /* us */
#define IF_W_DELAY 70000 /* us */
#define IF_VERIFY_DELAY 20000 /* us */
#define IF_HLD_DELAY 60000 /* us */
#define IF_HSW_DELAY 40000 /* us */
UNIT if_unit = {
UDATA (&if_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_BUFABLE+
UNIT_MUSTBUF+UNIT_BINK, IF_DSK_SIZE)
};
REG if_reg[] = {
{ NULL }
};
DEVICE if_dev = {
"IF", &if_unit, if_reg, NULL,
1, 16, 8, 1, 16, 8,
NULL, NULL, &if_reset,
NULL, NULL, NULL, NULL,
DEV_DEBUG, 0, sys_deb_tab
};
IF_STATE if_state;
uint32 if_sec_ptr = 0;
t_bool if_irq = FALSE;
/* Function implementation */
static SIM_INLINE void if_set_irq()
{
if_irq = TRUE;
csr_data |= CSRDISK;
}
static SIM_INLINE void if_clear_irq()
{
if_irq = FALSE;
csr_data &= ~CSRDISK;
}
static SIM_INLINE void if_activate(uint32 delay)
{
sim_activate_abs(&if_unit, delay);
}
static SIM_INLINE void if_cancel_pending_irq()
{
sim_cancel(&if_unit);
}
t_stat if_svc(UNIT *uptr)
{
if_state.status &= ~(IF_BUSY);
switch(if_state.cmd & 0xf0) {
case IF_RESTORE:
if_state.status = (IF_TK_0|IF_HEAD_LOADED);
break;
case IF_SEEK:
if_state.status = IF_HEAD_LOADED;
if (if_state.track == 0) {
if_state.status |= IF_TK_0;
}
break;
}
if_state.cmd = 0;
/* Request an interrupt */
sim_debug(IRQ_MSG, &if_dev, "\tINTR\n");
if_set_irq();
return SCPE_OK;
}
t_stat if_reset(DEVICE *dptr)
{
if_state.status = IF_TK_0;
if_state.track = 0;
if_state.sector = 1;
if_sec_ptr = 0;
return SCPE_OK;
}
uint32 if_read(uint32 pa, size_t size) {
uint8 reg, data;
uint32 pos, pc;
UNIT *uptr;
uint8 *fbuf;
uptr = &(if_dev.units[0]);
reg = (uint8)(pa - IFBASE);
pc = R[NUM_PC];
fbuf = (uint8 *)uptr->filebuf;
switch (reg) {
case IF_STATUS_REG:
data = if_state.status;
/* If there's no image attached, we're not ready */
if ((uptr->flags & (UNIT_ATT|UNIT_BUF)) == 0) {
data |= IF_NRDY;
}
/* Reading the status register always de-asserts the IRQ line */
if_clear_irq();
sim_debug(READ_MSG, &if_dev, "\tSTATUS\t%02x\n", data);
break;
case IF_TRACK_REG:
data = if_state.track;
sim_debug(READ_MSG, &if_dev, "\tTRACK\t%02x\n", data);
break;
case IF_SECTOR_REG:
data = if_state.sector;
sim_debug(READ_MSG, &if_dev, "\tSECTOR\t%02x\n", data);
break;
case IF_DATA_REG:
if_state.status &= ~IF_DRQ;
if (((uptr->flags & (UNIT_ATT|UNIT_BUF)) == 0) ||
((if_state.cmd & 0xf0) != IF_READ_SEC &&
(if_state.cmd & 0xf0) != IF_READ_SEC_M)) {
/* Not attached, or not a read command */
switch (if_state.cmd & 0xf0) {
case IF_READ_ADDR:
/* Special state machine. */
switch (if_state.read_addr_ptr++) {
case 0:
if_state.data = if_state.track;
break;
case 1:
if_state.data = if_state.side;
break;
case 2:
if_state.data = if_state.sector;
break;
case 3:
if_state.data = 2; /* 512 byte */
break;
case 4:
/* TODO: Checksum */
if_state.data = 0;
break;
case 5:
/* TODO: Checksum */
if_state.data = 0;
if_state.read_addr_ptr = 0;
break;
}
}
sim_debug(READ_MSG, &if_dev, "\tDATA\t%02x\n", if_state.data);
return if_state.data;
}
pos = if_buf_offset();
data = fbuf[pos + if_sec_ptr++];
sim_debug(READ_MSG, &if_dev, "\tDATA\t%02x\n", data);
if (if_sec_ptr >= IF_SECTOR_SIZE) {
if_sec_ptr = 0;
}
break;
default:
data = 0xffu; // Compiler warning
break;
}
return data;
}
/* Handle the most recently received command */
void if_handle_command()
{
uint32 delay_ms = 0;
uint32 head_switch_delay = 0;
uint32 head_load_delay = 0;
if_sec_ptr = 0;
/* We're starting a new command. */
if_state.status = IF_BUSY;
/* Clear read addr state */
if_state.read_addr_ptr = 0;
switch(if_state.cmd & 0xf0) {
case IF_RESTORE:
case IF_SEEK:
case IF_STEP:
case IF_STEP_T:
case IF_STEP_IN:
case IF_STEP_IN_T:
case IF_STEP_OUT:
case IF_STEP_OUT_T:
if_state.cmd_type = 1;
if (if_state.cmd & IF_H_FLAG) {
head_load_delay = IF_HLD_DELAY;
}
break;
case IF_READ_SEC:
case IF_READ_SEC_M:
case IF_WRITE_SEC:
case IF_WRITE_SEC_M:
if_state.cmd_type = 2;
if (((if_state.cmd & IF_U_FLAG) >> 1) != if_state.side) {
head_switch_delay = IF_HSW_DELAY;
if_state.side = (if_state.cmd & IF_U_FLAG) >> 1;
}
break;
case IF_READ_ADDR:
case IF_READ_TRACK:
case IF_WRITE_TRACK:
if_state.cmd_type = 3;
if (((if_state.cmd & IF_U_FLAG) >> 1) != if_state.side) {
head_switch_delay = IF_HSW_DELAY;
if_state.side = (if_state.cmd & IF_U_FLAG) >> 1;
}
break;
case IF_FORCE_INT:
if_state.cmd_type = 4;
break;
}
switch(if_state.cmd & 0xf0) {
case IF_RESTORE:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tRestore\n", if_state.cmd);
/* Reset HLT */
if_state.status &= ~IF_HEAD_LOADED;
/* If head should be loaded immediately, do so now */
if (if_state.cmd & IF_H_FLAG) {
if_state.status |= IF_HEAD_LOADED;
}
if (if_state.track == 0) {
if_state.status |= IF_TK_0;
if_state.track = 1; /* Kind of a gross hack */
}
if (if_state.cmd & IF_V_FLAG) {
delay_ms = (IF_STEP_DELAY * if_state.track) + IF_VERIFY_DELAY;
} else {
delay_ms = IF_STEP_DELAY * if_state.track;
}
if_activate(delay_ms);
if_state.data = 0;
if_state.track = 0;
break;
case IF_STEP:
case IF_STEP_T:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tStep\n", if_state.cmd);
if_activate(IF_STEP_DELAY);
if_state.track = (uint8) MIN(MAX((int) if_state.track + if_state.step_dir, 0), 0x4f);
break;
case IF_STEP_IN:
case IF_STEP_IN_T:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tStep In\n", if_state.cmd);
if_state.step_dir = IF_STEP_IN_DIR;
if_state.track = (uint8) MAX((int) if_state.track + if_state.step_dir, 0);
if_activate(IF_STEP_DELAY);
break;
case IF_STEP_OUT:
case IF_STEP_OUT_T:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tStep Out\n", if_state.cmd);
if_state.step_dir = IF_STEP_OUT_DIR;
if_state.track = (uint8) MIN((int) if_state.track + if_state.step_dir, 0x4f);
if_activate(IF_STEP_DELAY);
break;
case IF_SEEK:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tSeek\n", if_state.cmd);
/* Reset HLT */
if_state.status &= ~IF_HEAD_LOADED;
/* If head should be loaded immediately, do so now */
if (if_state.cmd & IF_H_FLAG) {
if_state.status |= IF_HEAD_LOADED;
}
/* Save the direction for stepping */
if (if_state.data > if_state.track) {
if_state.step_dir = IF_STEP_IN_DIR;
} else if (if_state.data < if_state.track) {
if_state.step_dir = IF_STEP_OUT_DIR;
}
/* The new track is in the data register */
if (if_state.data > IF_TRACK_COUNT-1) {
if_state.data = IF_TRACK_COUNT-1;
}
if (if_state.data == 0) {
if_state.status |= IF_TK_0;
} else {
if_state.status &= ~(IF_TK_0);
}
delay_ms = (uint32) abs(if_state.data - if_state.track);
if (delay_ms == 0) {
delay_ms++;
}
if (if_state.cmd & IF_V_FLAG) {
if_activate((IF_STEP_DELAY * delay_ms) + IF_VERIFY_DELAY + head_load_delay);
} else {
if_activate((IF_STEP_DELAY * delay_ms) + head_load_delay);
}
if_state.track = if_state.data;
break;
case IF_READ_SEC:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tRead Sector %d/%d/%d\n",
if_state.cmd, if_state.track, if_state.side, if_state.sector);
/* We set DRQ right away to request the transfer. */
if_state.drq = TRUE;
if_state.status |= IF_DRQ;
if (if_state.cmd & IF_E_FLAG) {
if_activate(IF_R_DELAY + IF_VERIFY_DELAY + head_switch_delay);
} else {
if_activate(IF_R_DELAY + head_switch_delay);
}
break;
case IF_READ_SEC_M:
/* Not yet implemented. Halt the emulator. */
sim_debug(EXECUTE_MSG, &if_dev,
"\tCOMMAND\t%02x\tRead Sector (Multi) - NOT IMPLEMENTED\n",
if_state.cmd);
stop_reason = STOP_ERR;
break;
case IF_WRITE_SEC:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tWrite Sector %d/%d/%d\n",
if_state.cmd, if_state.track, if_state.side, if_state.sector);
/* We set DRQ right away to request the transfer. */
if_state.drq = TRUE;
if_state.status |= IF_DRQ;
if (if_state.cmd & IF_E_FLAG) {
if_activate(IF_W_DELAY + IF_VERIFY_DELAY + head_switch_delay);
} else {
if_activate(IF_W_DELAY + head_switch_delay);
}
break;
case IF_WRITE_SEC_M:
/* Not yet implemented. Halt the emulator. */
sim_debug(EXECUTE_MSG, &if_dev,
"\tCOMMAND\t%02x\tWrite Sector (Multi) - NOT IMPLEMENTED\n",
if_state.cmd);
stop_reason = STOP_ERR;
break;
case IF_READ_ADDR:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tRead Address\n", if_state.cmd);
if_state.drq = TRUE;
if_state.status |= IF_DRQ;
if_activate(IF_R_DELAY);
break;
case IF_READ_TRACK:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tRead Track\n", if_state.cmd);
/* Not yet implemented. Halt the emulator. */
stop_reason = STOP_ERR;
break;
case IF_WRITE_TRACK:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tWrite Track\n", if_state.cmd);
/* Set DRQ */
if_state.drq = TRUE;
if_state.status |= IF_DRQ;
if (if_state.cmd & IF_E_FLAG) {
if_activate(IF_W_DELAY + IF_VERIFY_DELAY + head_switch_delay);
} else {
if_activate(IF_W_DELAY + head_switch_delay);
}
break;
case IF_FORCE_INT:
sim_debug(EXECUTE_MSG, &if_dev, "\tCOMMAND\t%02x\tForce Interrupt\n", if_state.cmd);
if_state.status = 0;
if (if_state.track == 0) {
if_state.status |= (IF_TK_0|IF_HEAD_LOADED);
}
if ((if_state.cmd & 0xf) == 0) {
if_cancel_pending_irq();
if_clear_irq(); /* TODO: Confirm this is right */
} else if ((if_state.cmd & 0x8) == 0x8) {
if_state.status |= IF_DRQ;
if_set_irq();
}
break;
}
}
void if_write(uint32 pa, uint32 val, size_t size)
{
UNIT *uptr;
uint8 reg;
uint32 pos;
uint8 *fbuf;
val = val & 0xff;
uptr = &(if_dev.units[0]);
reg = (uint8) (pa - IFBASE);
fbuf = (uint8 *)uptr->filebuf;
switch (reg) {
case IF_CMD_REG:
if_state.cmd = (uint8) val;
/* Writing to the command register always de-asserts the IRQ line */
if_clear_irq();
if_handle_command();
break;
case IF_TRACK_REG:
if_state.track = (uint8) val;
sim_debug(WRITE_MSG, &if_dev, "\tTRACK\t%02x\n", val);
break;
case IF_SECTOR_REG:
if_state.sector = (uint8) val;
sim_debug(WRITE_MSG, &if_dev, "\tSECTOR\t%02x\n", val);
break;
case IF_DATA_REG:
if_state.data = (uint8) val;
sim_debug(WRITE_MSG, &if_dev, "\tDATA\t%02x\n", val);
if ((uptr->flags & UNIT_ATT) == 0) {
/* Not attached */
break;
}
if ((if_state.cmd & 0xf0) == IF_WRITE_TRACK) {
/* We intentionally ignore WRITE TRACK data, because
* This is only used for low-level MFM formatting,
* which we do not emulate. */
} else if ((if_state.cmd & 0xf0) == IF_WRITE_SEC ||
(if_state.cmd & 0xf0) == IF_WRITE_SEC_M) {
/* Find the right offset, and update the value. */
pos = if_buf_offset();
fbuf[pos + if_sec_ptr++] = (uint8) val;
if (if_sec_ptr >= IF_SECTOR_SIZE) {
if_sec_ptr = 0;
}
}
break;
default:
break;
}
}
/*
* Compute the offset of the currently selected C/H/S
*/
static SIM_INLINE uint32 if_buf_offset()
{
uint32 pos;
pos = IF_TRACK_SIZE * if_state.track * 2;
if (if_state.side == 1) {
pos += IF_TRACK_SIZE;
}
pos += IF_SECTOR_SIZE * (if_state.sector - 1);
return pos;
}
void if_after_dma()
{
if_state.drq = FALSE;
if_state.status &= ~IF_DRQ;
}