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/* mp-b2.c: SWTP SS-50/SS-30 MP-B2 Mother Board
Copyright (c) 2011-2012, William A. Beech
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
WILLIAM A. BEECH 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 William A. Beech shall not be
used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from William A. Beech.
MODIFICATIONS:
24 Apr 15 -- Modified to use simh_debug
NOTES:
*/
#include <stdio.h>
#include "swtp_defs.h"
#define UNIT_V_RAM_0000 (UNIT_V_UF) /* MP-8M board 0 enable */
#define UNIT_RAM_0000 (1 << UNIT_V_RAM_0000)
#define UNIT_V_RAM_2000 (UNIT_V_UF+1) /* MP-8M board 1 enable */
#define UNIT_RAM_2000 (1 << UNIT_V_RAM_2000)
#define UNIT_V_RAM_4000 (UNIT_V_UF+2) /* MP-8M board 2 enable */
#define UNIT_RAM_4000 (1 << UNIT_V_RAM_4000)
#define UNIT_V_RAM_6000 (UNIT_V_UF+3) /* MP-8M board 3 enable */
#define UNIT_RAM_6000 (1 << UNIT_V_RAM_6000)
#define UNIT_V_RAM_A000 (UNIT_V_UF+4) /* MP-8M board 4 enable */
#define UNIT_RAM_A000 (1 << UNIT_V_RAM_A000)
#define UNIT_V_RAM_C000 (UNIT_V_UF+5) /* MP-8M board 5 enable */
#define UNIT_RAM_C000 (1 << UNIT_V_RAM_C000)
/* function prototypes */
/* empty I/O device routine */
int32 nulldev(int32 io, int32 data);
/* SS-50 bus routines */
int32 MB_get_mbyte(int32 addr);
int32 MB_get_mword(int32 addr);
void MB_put_mbyte(int32 addr, int32 val);
void MB_put_mword(int32 addr, int32 val);
/* MP-8M bus routines */
extern int32 mp_8m_get_mbyte(int32 addr);
extern void mp_8m_put_mbyte(int32 addr, int32 val);
/* SS-50 I/O address space functions */
/* MP-S serial I/O routines */
extern int32 sio0s(int32 io, int32 data);
extern int32 sio0d(int32 io, int32 data);
extern int32 sio1s(int32 io, int32 data);
extern int32 sio1d(int32 io, int32 data);
/* DC-4 FDC I/O routines */
extern int32 fdcdrv(int32 io, int32 data);
extern int32 fdccmd(int32 io, int32 data);
extern int32 fdctrk(int32 io, int32 data);
extern int32 fdcsec(int32 io, int32 data);
extern int32 fdcdata(int32 io, int32 data);
/* This is the I/O configuration table. There are 32 possible
device addresses, if a device is plugged into a port it's routine
address is here, 'nulldev' means no device is available
*/
struct idev {
int32 (*routine)(int32, int32);
};
struct idev dev_table[32] = {
{&nulldev}, {&nulldev}, {&nulldev}, {&nulldev}, /*Port 0 8000-8003 */
{&sio0s}, {&sio0d}, {&sio1s}, {&sio1d}, /*Port 1 8004-8007 */
/* sio1x routines just return the last value read on the matching
sio0x routine. SWTBUG tests for the MP-C with most port reads! */
{&nulldev}, {&nulldev}, {&nulldev}, {&nulldev}, /*Port 2 8008-800B*/
{&nulldev}, {&nulldev}, {&nulldev}, {&nulldev}, /*Port 3 800C-800F*/
{&nulldev}, {&nulldev}, {&nulldev}, {&nulldev}, /*Port 4 8010-8013*/
{&fdcdrv}, {&nulldev}, {&nulldev}, {&nulldev}, /*Port 5 8014-8017*/
{&fdccmd}, {&fdctrk}, {&fdcsec}, {&fdcdata}, /*Port 6 8018-801B*/
{&nulldev}, {&nulldev}, {&nulldev}, {&nulldev} /*Port 7 801C-801F*/
};
/* dummy i/o device */
int32 nulldev(int32 io, int32 data)
{
if (io == 0)
return (0xFF);
return 0;
}
/* Mother Board data structures
MB_dev Mother Board device descriptor
MB_unit Mother Board unit descriptor
MB_reg Mother Board register list
MB_mod Mother Board modifiers list
*/
UNIT MB_unit = {
UDATA (NULL, 0, 0)
};
REG MB_reg[] = {
{ NULL }
};
MTAB MB_mod[] = {
{ UNIT_RAM_0000, UNIT_RAM_0000, "BD0 On", "BD0", NULL },
{ UNIT_RAM_0000, 0, "BD0 Off", "NOBD0", NULL },
{ UNIT_RAM_2000, UNIT_RAM_2000, "BD1 On", "BD1", NULL },
{ UNIT_RAM_2000, 0, "BD1 Off", "NOBD1", NULL },
{ UNIT_RAM_4000, UNIT_RAM_4000, "BD2 On", "BD2", NULL },
{ UNIT_RAM_4000, 0, "BD2 Off", "NOBD2", NULL },
{ UNIT_RAM_6000, UNIT_RAM_6000, "BD3 On", "BD3", NULL },
{ UNIT_RAM_6000, 0, "BD3 Off", "NOBD3", NULL },
{ UNIT_RAM_A000, UNIT_RAM_A000, "BD4 On", "BD4", NULL },
{ UNIT_RAM_A000, 0, "BD4 Off", "NOBD4", NULL },
{ UNIT_RAM_C000, UNIT_RAM_C000, "BD5 On", "BD5", NULL },
{ UNIT_RAM_C000, 0, "BD5 Off", "NOBD5", NULL },
{ 0 }
};
DEBTAB MB_debug[] = {
{ "ALL", DEBUG_all },
{ "FLOW", DEBUG_flow },
{ "READ", DEBUG_read },
{ "WRITE", DEBUG_write },
{ "LEV1", DEBUG_level1 },
{ "LEV2", DEBUG_level2 },
{ NULL }
};
DEVICE MB_dev = {
"MP-B2", //name
&MB_unit, //units
MB_reg, //registers
MB_mod, //modifiers
1, //numunits
16, //aradix
16, //awidth
1, //aincr
16, //dradix
8, //dwidth
NULL, //examine
NULL, //deposit
NULL, //reset
NULL, //boot
NULL, //attach
NULL, //detach
NULL, //ctxt
DEV_DEBUG, //flags
0, //dctrl
MB_debug, /* debflags */
NULL, //msize
NULL //lname
};
/* get a byte from memory */
int32 MB_get_mbyte(int32 addr)
{
int32 val;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: addr=%04X\n", addr);
switch(addr & 0xF000) {
case 0x0000:
case 0x1000:
if (MB_unit.flags & UNIT_RAM_0000) {
val = mp_8m_get_mbyte(addr) & 0xFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: addr=%04X\n", addr);
if (MB_dev.dctrl & DEBUG_read)
printf("MB_get_mbyte: mp_8m val=%02X\n", val);
return val;
} else
return 0xFF;
/* fall through */
case 0x2000:
case 0x3000:
if (MB_unit.flags & UNIT_RAM_2000) {
val = mp_8m_get_mbyte(addr) & 0xFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: mp_8m val=%02X\n", val);
return val;
} else
return 0xFF;
/* fall through */
case 0x4000:
case 0x5000:
if (MB_unit.flags & UNIT_RAM_4000) {
val = mp_8m_get_mbyte(addr) & 0xFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: addr=%04X\n", addr);
if (MB_dev.dctrl & DEBUG_read)
printf("MB_get_mbyte: mp_8m val=%02X\n", val);
return val;
} else
return 0xFF;
/* fall through */
case 0x6000:
case 0x7000:
if (MB_unit.flags & UNIT_RAM_6000) {
val = mp_8m_get_mbyte(addr) & 0xFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: mp_8m val=%02X\n", val);
return val;
} else
return 0xFF;
/* fall through */
case 0x8000:
if (addr < 0x8020)
val = (dev_table[addr - 0x8000].routine(0, 0)) & 0xFF;
else
val = 0xFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: I/O addr=%04X val=%02X\n",
addr, val);
return val;
/* fall through */
case 0xA000:
case 0xB000:
if (MB_unit.flags & UNIT_RAM_A000) {
val = mp_8m_get_mbyte(addr) & 0xFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: mp_8m val=%02X\n", val);
return val;
} else
return 0xFF;
/* fall through */
case 0xC000:
case 0xD000:
if (MB_unit.flags & UNIT_RAM_C000) {
val = mp_8m_get_mbyte(addr) & 0xFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mbyte: mp_8m val=%02X\n", val);
return val;
} else
return 0xFF;
/* fall through */
default:
return 0xFF;
}
}
/* get a word from memory */
int32 MB_get_mword(int32 addr)
{
int32 val;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mword: addr=%04X\n", addr);
val = (MB_get_mbyte(addr) << 8);
val |= MB_get_mbyte(addr+1);
val &= 0xFFFF;
sim_debug (DEBUG_read, &MB_dev, "MB_get_mword: val=%04X\n", val);
return val;
}
/* put a byte to memory */
void MB_put_mbyte(int32 addr, int32 val)
{
sim_debug (DEBUG_write, &MB_dev, "MB_put_mbyte: addr=%04X, val=%02X\n",
addr, val);
switch(addr & 0xF000) {
case 0x0000:
case 0x1000:
if (MB_unit.flags & UNIT_RAM_0000) {
mp_8m_put_mbyte(addr, val);
return;
}
case 0x2000:
case 0x3000:
if (MB_unit.flags & UNIT_RAM_2000) {
mp_8m_put_mbyte(addr, val);
return;
}
case 0x4000:
case 0x5000:
if (MB_unit.flags & UNIT_RAM_4000) {
mp_8m_put_mbyte(addr, val);
return;
}
case 0x6000:
case 0x7000:
if (MB_unit.flags & UNIT_RAM_6000) {
mp_8m_put_mbyte(addr, val);
return;
}
case 0x8000:
if (addr < 0x8020)
dev_table[addr - 0x8000].routine(1, val);
return;
case 0xA000:
case 0xB000:
if (MB_unit.flags & UNIT_RAM_A000) {
mp_8m_put_mbyte(addr, val);
return;
}
case 0xC000:
case 0xD000:
if (MB_unit.flags & UNIT_RAM_C000) {
mp_8m_put_mbyte(addr, val);
return;
}
default:
return;
}
}
/* put a word to memory */
void MB_put_mword(int32 addr, int32 val)
{
sim_debug (DEBUG_write, &MB_dev, "MB_ptt_mword: addr=%04X, val=%04X\n", addr, val);
MB_put_mbyte(addr, val >> 8);
MB_put_mbyte(addr+1, val);
}
/* end of mp-b2.c */