AltairZ80/s100_if3.c - emulators/simh - Rivoreo Source Code Repositories

 /*************************************************************************
  *                                                                       *
  * $Id: s100_if3.c 1991 2008-07-10 16:06:12Z hharte $                    *
  *                                                                       *
  * Copyright (c) 2007-2008 Howard M. Harte.                              *
  * http://www.hartetec.com                                               *
  *                                                                       *
  * 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 HOWARD M. HARTE 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 Howard M. Harte shall *
  * not be used in advertising or otherwise to promote the sale, use or   *
  * other dealings in this Software without prior written authorization   *
  * Howard M. Harte.                                                      *
  *                                                                       *
  * SIMH Interface based on altairz80_hdsk.c, by Peter Schorn.            *
  *                                                                       *
  * Module Description:                                                   *
  *     CompuPro System Support 1 module for SIMH.                        *
  * Note this does not include the Boot ROM on the System Support 1 Card  *
  *                                                                       *
  * Environment:                                                          *
  *     User mode only                                                    *
  *                                                                       *
  *************************************************************************/

 /*#define DBG_MSG */

 #include "altairz80_defs.h"

 #if defined (_WIN32)
 #include <windows.h>
 #endif

 #include <time.h>

 #ifdef DBG_MSG
 #define DBG_PRINT(args) sim_printf args
 #else
 #define DBG_PRINT(args)
 #endif

 /* Debug flags */
 #define ERROR_MSG   (1 << 0)
 #define RXIRQ_MSG   (1 << 1)
 #define TXIRQ_MSG   (1 << 2)
 #define UART_MSG    (1 << 3)
 #define USER_MSG    (1 << 4)

 #define IF3_MAX_BOARDS    4

 #define UNIT_V_IF3_CONNECT     (UNIT_V_UF + 1) /* Connect/Disconnect IF3 unit */
 #define UNIT_IF3_CONNECT       (1 << UNIT_V_IF3_CONNECT)

 #define IF3_PORT_BASE   0x300

 typedef struct {
     PNP_INFO    pnp;    /* Plug and Play */
 } IF3_INFO;

 static IF3_INFO if3_info_data = { { 0x0, 0, 0x10, 8 } };

 extern t_stat set_iobase(UNIT *uptr, int32 val, CONST char *cptr, void *desc);
 extern t_stat show_iobase(FILE *st, UNIT *uptr, int32 val, CONST void *desc);
 extern uint32 sim_map_resource(uint32 baseaddr, uint32 size, uint32 resource_type,
         int32 (*routine)(const int32, const int32, const int32), uint8 unmap);
 extern uint32 PCX;

 extern int32 sio0d(const int32 port, const int32 io, const int32 data);
 extern int32 sio0s(const int32 port, const int32 io, const int32 data);

 static t_stat set_if3_connect(UNIT *uptr, int32 val, CONST char *cptr, void *desc);

 static t_stat if3_reset(DEVICE *if3_dev);
 static t_stat if3_svc (UNIT *uptr);
 static uint8 IF3_Read(const uint32 Addr);
 static uint8 IF3_Write(const uint32 Addr, uint8 cData);
 static int32 if3dev(const int32 port, const int32 io, const int32 data);
 static t_stat update_rx_tx_isr (UNIT *uptr);
 static const char* if3_description(DEVICE *dptr);

 static UNIT if3_unit[] = {
     { UDATA (&if3_svc, UNIT_FIX | UNIT_DISABLE | UNIT_ROABLE | UNIT_IF3_CONNECT, 0) },
     { UDATA (&if3_svc, UNIT_FIX | UNIT_DISABLE | UNIT_ROABLE, 0) },
     { UDATA (&if3_svc, UNIT_FIX | UNIT_DISABLE | UNIT_ROABLE, 0) },
     { UDATA (&if3_svc, UNIT_FIX | UNIT_DISABLE | UNIT_ROABLE, 0) }
 };

 static uint8 if3_user = 0;
 static uint8 if3_board = 0;
 static uint8 if3_rimr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };
 static uint8 if3_timr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };
 static uint8 if3_risr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };
 static uint8 if3_tisr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };

 static REG if3_reg[] = {
     { HRDATAD (USER,     if3_user,       3, "IF3 user register"), },
     { HRDATAD (BOARD,    if3_board,      2, "IF3 board register"), },
     { BRDATAD (RIMR,     &if3_rimr[0],   16, 8, 4, "IF3 RIMR register array"), },
     { BRDATAD (RISR,     &if3_risr[0],   16, 8, 4, "IF3 RISR register array"), },
     { BRDATAD (TIMR,     &if3_timr[0],   16, 8, 4, "IF3 TIMR register array"), },
     { BRDATAD (TISR,     &if3_tisr[0],   16, 8, 4, "IF3 TISR register array"), },
     { NULL }
 };

 #define IF3_NAME    "Compupro Interfacer 3"

 static const char* if3_description(DEVICE *dptr) {
     return IF3_NAME;
 }

 static MTAB if3_mod[] = {
     { MTAB_XTD|MTAB_VDV,    0,               "IOBASE",   "IOBASE",
         &set_iobase, &show_iobase, NULL, "Sets disk controller I/O base address"    },
     { UNIT_IF3_CONNECT,     UNIT_IF3_CONNECT,"INSTALLED",  "INSTALLED",
         &set_if3_connect, NULL, NULL, "Installs board for unit " IF3_NAME "n"       },
     { UNIT_IF3_CONNECT,     0,               "UNINSTALLED","UNINSTALLED",
         &set_if3_connect, NULL, NULL, "Uninstalls board for unit " IF3_NAME "n"     },
     { 0 }
 };

 /* Debug Flags */
 static DEBTAB if3_dt[] = {
     { "ERROR",  ERROR_MSG,      "Error messages"    },
     { "RXIRQ",  RXIRQ_MSG,      "RX IRQ messages"   },
     { "TXIRQ",  TXIRQ_MSG,      "TX IRQ messages"   },
     { "UART",   UART_MSG,       "UART messages"     },
     { "USER",   USER_MSG,       "User messages"     },
     { NULL,     0                                   }
 };

 DEVICE if3_dev = {
     "IF3", if3_unit, if3_reg, if3_mod,
     IF3_MAX_BOARDS, 10, 31, 1, IF3_MAX_BOARDS, IF3_MAX_BOARDS,
     NULL, NULL, &if3_reset,
     NULL, NULL, NULL,
     &if3_info_data, (DEV_DISABLE | DEV_DIS | DEV_DEBUG), 0,
     if3_dt, NULL, NULL, NULL, NULL, NULL, &if3_description
 };

 static t_stat set_if3_connect(UNIT *uptr, int32 val, CONST char *cptr, void *desc)
 {
     if(uptr->flags & UNIT_DISABLE) {
         sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: not enabled.\n", uptr->u3);
         return SCPE_OK;
     }

     if(val & UNIT_IF3_CONNECT) {
         sim_debug((RXIRQ_MSG|TXIRQ_MSG), &if3_dev, "IF3[%d]: IRQ polling started...\n", uptr->u3);
         sim_activate(uptr, 100000);
     } else {
         sim_debug((RXIRQ_MSG|TXIRQ_MSG), &if3_dev, "IF3[%d]: IRQ polling stopped.\n", uptr->u3);
         sim_cancel(uptr);
     }
     return (SCPE_OK);
 }

 /* Reset routine */
 static t_stat if3_reset(DEVICE *dptr)
 {
     uint8 i;

     PNP_INFO *pnp = (PNP_INFO *)dptr->ctxt;

     if(dptr->flags & DEV_DIS) { /* Disconnect I/O Ports */
         for(i=0;i<IF3_MAX_BOARDS;i++)
             sim_cancel(&if3_unit[i]);

         sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &if3dev, TRUE);
     } else {
         /* Connect IF3 at base address */
         if(sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &if3dev, FALSE) != 0) {
             sim_printf("%s: error mapping I/O resource at 0x%04x\n", __FUNCTION__, pnp->io_base);
             return SCPE_ARG;
         }

         for(i=0;i<IF3_MAX_BOARDS;i++) {
             if3_unit[i].u3 = i; /* Store unit board ID in u3. Also guarantees that u3 < IF3_MAX_BOARDS */
             if(if3_unit[i].flags & UNIT_IF3_CONNECT) {
                 sim_debug((RXIRQ_MSG|TXIRQ_MSG), &if3_dev, "IF3[%d]: IRQ polling started...\n", i);
                 sim_activate(&if3_unit[i], 200000); /* start Rx/Tx interrupt polling routine */

             }
         }
     }
     return SCPE_OK;
 }

 static int32 if3dev(const int32 port, const int32 io, const int32 data)
 {
     DBG_PRINT(("IF3: IO %s, Port %02x\n", io ? "WR" : "RD", port));
     if(io) {
         IF3_Write(port, data);
         return 0;
     } else {
         return(IF3_Read(port));
     }
 }

 #define IF3_UART_DATA   0x00
 #define IF3_UART_STAT   0x01
 #define IF3_UART_MODE   0x02
 #define IF3_UART_CMD    0x03
 #define IF3_TISR        0x04
 #define IF3_RISR        0x05
 #define IF3_RESERVED    0x06
 #define IF3_USER_SEL    0x07

 static uint8 IF3_Read(const uint32 Addr)
 {
     uint8 cData = 0xFF;

     /* Check if board is connected */
     if(!(if3_unit[if3_board].flags & UNIT_IF3_CONNECT)) {
         sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART[%d] Board not connected DATA=0x%02x\n", if3_board, PCX, if3_user, cData);
         return cData;
     }

     switch(Addr & 0x07) {
         case IF3_UART_DATA:
             cData = sio0d(IF3_PORT_BASE+(if3_board*0x10)+(if3_user*2), 0, 0);
             sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART[%d] DATA=0x%02x Port=0x%03x\n", if3_board, PCX, if3_user, cData, IF3_PORT_BASE+(if3_board*0x10)+(if3_user*2));
             break;
         case IF3_UART_STAT:
             cData = sio0s(IF3_PORT_BASE+(if3_board*0x10)+1+(if3_user*2), 0, 0);
             sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART[%d] STAT=0x%02x Port=0x%03x\n", if3_board, PCX, if3_user, cData, IF3_PORT_BASE+(if3_board*0x10)+1+(if3_user*2));
             break;
         case IF3_UART_MODE:
             sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART MODE cannot read 0x%02x\n", if3_board, PCX, Addr);
             break;
         case IF3_UART_CMD:
             sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART CMD cannot read 0x%02x\n", if3_board, PCX, Addr);
             break;
         case IF3_TISR:
             update_rx_tx_isr (&if3_unit[if3_board]);
             cData = if3_tisr[if3_board];
             sim_debug(TXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART TISR=0x%02x\n", if3_board, PCX, cData);
             break;
         case IF3_RISR:
             update_rx_tx_isr (&if3_unit[if3_board]);
             cData = if3_risr[if3_board];
             sim_debug(RXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART RISR=0x%02x\n", if3_board,  PCX, cData);
             break;
         case IF3_RESERVED:
             sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART RESERVED cannot read 0x%02x\n", if3_board, PCX, Addr);
             break;
         case IF3_USER_SEL:
             sim_debug(USER_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " Cannot read UART_SEL\n", if3_board, PCX);
             break;
     }

     return (cData);

 }

 static uint8 IF3_Write(const uint32 Addr, uint8 cData)
 {
     /* Check if board is connected for all ports except "user select" */
     if((Addr & 0x7) != IF3_USER_SEL) {
         if(!(if3_unit[if3_board].flags & UNIT_IF3_CONNECT)) {
             sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] Board not connected DATA=0x%02x\n", if3_board, PCX, if3_user, cData);
             return cData;
         }
     }

     switch(Addr & 0x07) {
         case IF3_UART_DATA:
             sio0d(IF3_PORT_BASE+(if3_board*0x10)+(if3_user*2), 1, cData);
             sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] DATA=0x%02x Port=0x%03x\n", if3_board, PCX, if3_user, cData, IF3_PORT_BASE+(if3_board*0x10)+(if3_user*2));
             break;
         case IF3_UART_STAT:
             sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] STAT=0x%02x\n", if3_board, PCX, if3_user, cData);
             break;
         case IF3_UART_MODE:
             sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] MODE=0x%02x\n", if3_board, PCX, if3_user, cData);
             break;
         case IF3_UART_CMD:
             sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] CMD=0x%02x\n", if3_board, PCX, if3_user, cData);
             break;
         case IF3_TISR:
             sim_debug(TXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART TIMR=0x%02x\n", if3_board, PCX, cData);
             if3_timr[if3_board] = cData;
             break;
         case IF3_RISR:
             sim_debug(RXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART RIMR=0x%02x\n", if3_board, PCX, cData);
             if3_rimr[if3_board] = cData;
             break;
         case IF3_RESERVED:
             sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] RESERVED=0x%02x\n", if3_board, PCX, if3_user, cData);
             break;
         case IF3_USER_SEL:
             if3_board = (cData & 0x18) >> 3; /* guarantees that if3_board < IF3_MAX_BOARDS */
             if3_user = cData & 0x7;
             sim_debug(USER_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART_SEL=0x%02x (Board=%d, Rel_User=%d, User=%d)\n", if3_board, PCX, cData, if3_board, if3_user, cData);
             break;
     }

     return(0);
 }

 #define SS1_VI2_INT         2   /* IF3 Rx interrupts tied to VI2 */
 #define SS1_VI3_INT         3   /* IF3 Tx interrupts tied to VI3 */

 #define IF3_NUM_PORTS       8   /* Number of ports per IF3 board */

 extern void raise_ss1_interrupt(uint8 isr_index);

 /* Unit service routine */
 static t_stat if3_svc (UNIT *uptr)
 {
     uint8 pending_rx_irqs;
     uint8 pending_tx_irqs;
     uint8 board = uptr->u3;

     update_rx_tx_isr(uptr);

     pending_rx_irqs = if3_risr[board] & if3_rimr[board];
     if(pending_rx_irqs) {
         sim_debug(RXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " Rx IRQ Pending: 0x%02x\n", board, PCX, pending_rx_irqs);
         raise_ss1_interrupt(SS1_VI2_INT);
     }

     pending_tx_irqs = if3_tisr[board] & if3_timr[board];
     if(pending_tx_irqs) {
         sim_debug(TXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " Tx IRQ Pending: 0x%02x\n", board, PCX, pending_tx_irqs);
         raise_ss1_interrupt(SS1_VI3_INT);
     }

     sim_activate(&if3_unit[board], 200000);
     return SCPE_OK;
 }


 static t_stat update_rx_tx_isr (UNIT *uptr)
 {
     uint8 i;
     uint8 cData;
     uint8 board = uptr->u3;

     if3_risr[board] = 0;
     if3_tisr[board] = 0;

     for(i=0;i<IF3_NUM_PORTS;i++) {
         cData = sio0s(IF3_PORT_BASE+1+(board*0x10)+(i*2), 0, 0);
         if(cData & 2) { /* RX char available? */
             if3_risr[board] |= (1 << i);
         }
         if(cData & 1) { /* TX Buffer empty? */
             if3_tisr[board] |= (1 << i);
         }
     }
     return (SCPE_OK);
 }
	/*************************************************************************
	* *
	* $Id: s100_if3.c 1991 2008-07-10 16:06:12Z hharte $ *
	* *
	* Copyright (c) 2007-2008 Howard M. Harte. *
	* http://www.hartetec.com *
	* *
	* 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 HOWARD M. HARTE 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 Howard M. Harte shall *
	* not be used in advertising or otherwise to promote the sale, use or *
	* other dealings in this Software without prior written authorization *
	* Howard M. Harte. *
	* *
	* SIMH Interface based on altairz80_hdsk.c, by Peter Schorn. *
	* *
	* Module Description: *
	* CompuPro System Support 1 module for SIMH. *
	* Note this does not include the Boot ROM on the System Support 1 Card *
	* *
	* Environment: *
	* User mode only *
	* *
	*************************************************************************/

	/#define DBG_MSG /

	#include "altairz80_defs.h"

	#if defined (_WIN32)
	#include <windows.h>
	#endif

	#include <time.h>

	#ifdef DBG_MSG
	#define DBG_PRINT(args) sim_printf args
	#else
	#define DBG_PRINT(args)
	#endif

	/* Debug flags */
	#define ERROR_MSG (1 << 0)
	#define RXIRQ_MSG (1 << 1)
	#define TXIRQ_MSG (1 << 2)
	#define UART_MSG (1 << 3)
	#define USER_MSG (1 << 4)

	#define IF3_MAX_BOARDS 4

	#define UNIT_V_IF3_CONNECT (UNIT_V_UF + 1) /* Connect/Disconnect IF3 unit */
	#define UNIT_IF3_CONNECT (1 << UNIT_V_IF3_CONNECT)

	#define IF3_PORT_BASE 0x300

	typedef struct {
	PNP_INFO pnp; /* Plug and Play */
	} IF3_INFO;

	static IF3_INFO if3_info_data = { { 0x0, 0, 0x10, 8 } };

	extern t_stat set_iobase(UNIT uptr, int32 val, CONST char cptr, void *desc);
	extern t_stat show_iobase(FILE st, UNIT uptr, int32 val, CONST void *desc);
	extern uint32 sim_map_resource(uint32 baseaddr, uint32 size, uint32 resource_type,
	int32 (*routine)(const int32, const int32, const int32), uint8 unmap);
	extern uint32 PCX;

	extern int32 sio0d(const int32 port, const int32 io, const int32 data);
	extern int32 sio0s(const int32 port, const int32 io, const int32 data);

	static t_stat set_if3_connect(UNIT uptr, int32 val, CONST char cptr, void *desc);

	static t_stat if3_reset(DEVICE *if3_dev);
	static t_stat if3_svc (UNIT *uptr);
	static uint8 IF3_Read(const uint32 Addr);
	static uint8 IF3_Write(const uint32 Addr, uint8 cData);
	static int32 if3dev(const int32 port, const int32 io, const int32 data);
	static t_stat update_rx_tx_isr (UNIT *uptr);
	static const char* if3_description(DEVICE *dptr);

	static UNIT if3_unit[] = {
	{ UDATA (&if3_svc, UNIT_FIX \| UNIT_DISABLE \| UNIT_ROABLE \| UNIT_IF3_CONNECT, 0) },
	{ UDATA (&if3_svc, UNIT_FIX \| UNIT_DISABLE \| UNIT_ROABLE, 0) },
	{ UDATA (&if3_svc, UNIT_FIX \| UNIT_DISABLE \| UNIT_ROABLE, 0) },
	{ UDATA (&if3_svc, UNIT_FIX \| UNIT_DISABLE \| UNIT_ROABLE, 0) }
	};

	static uint8 if3_user = 0;
	static uint8 if3_board = 0;
	static uint8 if3_rimr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };
	static uint8 if3_timr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };
	static uint8 if3_risr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };
	static uint8 if3_tisr[IF3_MAX_BOARDS] = { 0, 0, 0, 0 };

	static REG if3_reg[] = {
	{ HRDATAD (USER, if3_user, 3, "IF3 user register"), },
	{ HRDATAD (BOARD, if3_board, 2, "IF3 board register"), },
	{ BRDATAD (RIMR, &if3_rimr[0], 16, 8, 4, "IF3 RIMR register array"), },
	{ BRDATAD (RISR, &if3_risr[0], 16, 8, 4, "IF3 RISR register array"), },
	{ BRDATAD (TIMR, &if3_timr[0], 16, 8, 4, "IF3 TIMR register array"), },
	{ BRDATAD (TISR, &if3_tisr[0], 16, 8, 4, "IF3 TISR register array"), },
	{ NULL }
	};

	#define IF3_NAME "Compupro Interfacer 3"

	static const char* if3_description(DEVICE *dptr) {
	return IF3_NAME;
	}

	static MTAB if3_mod[] = {
	{ MTAB_XTD\|MTAB_VDV, 0, "IOBASE", "IOBASE",
	&set_iobase, &show_iobase, NULL, "Sets disk controller I/O base address" },
	{ UNIT_IF3_CONNECT, UNIT_IF3_CONNECT,"INSTALLED", "INSTALLED",
	&set_if3_connect, NULL, NULL, "Installs board for unit " IF3_NAME "n" },
	{ UNIT_IF3_CONNECT, 0, "UNINSTALLED","UNINSTALLED",
	&set_if3_connect, NULL, NULL, "Uninstalls board for unit " IF3_NAME "n" },
	{ 0 }
	};

	/* Debug Flags */
	static DEBTAB if3_dt[] = {
	{ "ERROR", ERROR_MSG, "Error messages" },
	{ "RXIRQ", RXIRQ_MSG, "RX IRQ messages" },
	{ "TXIRQ", TXIRQ_MSG, "TX IRQ messages" },
	{ "UART", UART_MSG, "UART messages" },
	{ "USER", USER_MSG, "User messages" },
	{ NULL, 0 }
	};

	DEVICE if3_dev = {
	"IF3", if3_unit, if3_reg, if3_mod,
	IF3_MAX_BOARDS, 10, 31, 1, IF3_MAX_BOARDS, IF3_MAX_BOARDS,
	NULL, NULL, &if3_reset,
	NULL, NULL, NULL,
	&if3_info_data, (DEV_DISABLE \| DEV_DIS \| DEV_DEBUG), 0,
	if3_dt, NULL, NULL, NULL, NULL, NULL, &if3_description
	};

	static t_stat set_if3_connect(UNIT uptr, int32 val, CONST char cptr, void *desc)
	{
	if(uptr->flags & UNIT_DISABLE) {
	sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: not enabled.\n", uptr->u3);
	return SCPE_OK;
	}

	if(val & UNIT_IF3_CONNECT) {
	sim_debug((RXIRQ_MSG\|TXIRQ_MSG), &if3_dev, "IF3[%d]: IRQ polling started...\n", uptr->u3);
	sim_activate(uptr, 100000);
	} else {
	sim_debug((RXIRQ_MSG\|TXIRQ_MSG), &if3_dev, "IF3[%d]: IRQ polling stopped.\n", uptr->u3);
	sim_cancel(uptr);
	}
	return (SCPE_OK);
	}

	/* Reset routine */
	static t_stat if3_reset(DEVICE *dptr)
	{
	uint8 i;

	PNP_INFO pnp = (PNP_INFO )dptr->ctxt;

	if(dptr->flags & DEV_DIS) { /* Disconnect I/O Ports */
	for(i=0;i<IF3_MAX_BOARDS;i++)
	sim_cancel(&if3_unit[i]);

	sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &if3dev, TRUE);
	} else {
	/* Connect IF3 at base address */
	if(sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &if3dev, FALSE) != 0) {
	sim_printf("%s: error mapping I/O resource at 0x%04x\n", __FUNCTION__, pnp->io_base);
	return SCPE_ARG;
	}

	for(i=0;i<IF3_MAX_BOARDS;i++) {
	if3_unit[i].u3 = i; /* Store unit board ID in u3. Also guarantees that u3 < IF3_MAX_BOARDS */
	if(if3_unit[i].flags & UNIT_IF3_CONNECT) {
	sim_debug((RXIRQ_MSG\|TXIRQ_MSG), &if3_dev, "IF3[%d]: IRQ polling started...\n", i);
	sim_activate(&if3_unit[i], 200000); /* start Rx/Tx interrupt polling routine */

	}
	}
	}
	return SCPE_OK;
	}

	static int32 if3dev(const int32 port, const int32 io, const int32 data)
	{
	DBG_PRINT(("IF3: IO %s, Port %02x\n", io ? "WR" : "RD", port));
	if(io) {
	IF3_Write(port, data);
	return 0;
	} else {
	return(IF3_Read(port));
	}
	}

	#define IF3_UART_DATA 0x00
	#define IF3_UART_STAT 0x01
	#define IF3_UART_MODE 0x02
	#define IF3_UART_CMD 0x03
	#define IF3_TISR 0x04
	#define IF3_RISR 0x05
	#define IF3_RESERVED 0x06
	#define IF3_USER_SEL 0x07

	static uint8 IF3_Read(const uint32 Addr)
	{
	uint8 cData = 0xFF;

	/* Check if board is connected */
	if(!(if3_unit[if3_board].flags & UNIT_IF3_CONNECT)) {
	sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART[%d] Board not connected DATA=0x%02x\n", if3_board, PCX, if3_user, cData);
	return cData;
	}

	switch(Addr & 0x07) {
	case IF3_UART_DATA:
	cData = sio0d(IF3_PORT_BASE+(if3_board0x10)+(if3_user2), 0, 0);
	sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART[%d] DATA=0x%02x Port=0x%03x\n", if3_board, PCX, if3_user, cData, IF3_PORT_BASE+(if3_board0x10)+(if3_user2));
	break;
	case IF3_UART_STAT:
	cData = sio0s(IF3_PORT_BASE+(if3_board0x10)+1+(if3_user2), 0, 0);
	sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART[%d] STAT=0x%02x Port=0x%03x\n", if3_board, PCX, if3_user, cData, IF3_PORT_BASE+(if3_board0x10)+1+(if3_user2));
	break;
	case IF3_UART_MODE:
	sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART MODE cannot read 0x%02x\n", if3_board, PCX, Addr);
	break;
	case IF3_UART_CMD:
	sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART CMD cannot read 0x%02x\n", if3_board, PCX, Addr);
	break;
	case IF3_TISR:
	update_rx_tx_isr (&if3_unit[if3_board]);
	cData = if3_tisr[if3_board];
	sim_debug(TXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART TISR=0x%02x\n", if3_board, PCX, cData);
	break;
	case IF3_RISR:
	update_rx_tx_isr (&if3_unit[if3_board]);
	cData = if3_risr[if3_board];
	sim_debug(RXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART RISR=0x%02x\n", if3_board, PCX, cData);
	break;
	case IF3_RESERVED:
	sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " RD UART RESERVED cannot read 0x%02x\n", if3_board, PCX, Addr);
	break;
	case IF3_USER_SEL:
	sim_debug(USER_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " Cannot read UART_SEL\n", if3_board, PCX);
	break;
	}

	return (cData);

	}

	static uint8 IF3_Write(const uint32 Addr, uint8 cData)
	{
	/* Check if board is connected for all ports except "user select" */
	if((Addr & 0x7) != IF3_USER_SEL) {
	if(!(if3_unit[if3_board].flags & UNIT_IF3_CONNECT)) {
	sim_debug(ERROR_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] Board not connected DATA=0x%02x\n", if3_board, PCX, if3_user, cData);
	return cData;
	}
	}

	switch(Addr & 0x07) {
	case IF3_UART_DATA:
	sio0d(IF3_PORT_BASE+(if3_board0x10)+(if3_user2), 1, cData);
	sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] DATA=0x%02x Port=0x%03x\n", if3_board, PCX, if3_user, cData, IF3_PORT_BASE+(if3_board0x10)+(if3_user2));
	break;
	case IF3_UART_STAT:
	sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] STAT=0x%02x\n", if3_board, PCX, if3_user, cData);
	break;
	case IF3_UART_MODE:
	sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] MODE=0x%02x\n", if3_board, PCX, if3_user, cData);
	break;
	case IF3_UART_CMD:
	sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] CMD=0x%02x\n", if3_board, PCX, if3_user, cData);
	break;
	case IF3_TISR:
	sim_debug(TXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART TIMR=0x%02x\n", if3_board, PCX, cData);
	if3_timr[if3_board] = cData;
	break;
	case IF3_RISR:
	sim_debug(RXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART RIMR=0x%02x\n", if3_board, PCX, cData);
	if3_rimr[if3_board] = cData;
	break;
	case IF3_RESERVED:
	sim_debug(UART_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART[%d] RESERVED=0x%02x\n", if3_board, PCX, if3_user, cData);
	break;
	case IF3_USER_SEL:
	if3_board = (cData & 0x18) >> 3; /* guarantees that if3_board < IF3_MAX_BOARDS */
	if3_user = cData & 0x7;
	sim_debug(USER_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " WR UART_SEL=0x%02x (Board=%d, Rel_User=%d, User=%d)\n", if3_board, PCX, cData, if3_board, if3_user, cData);
	break;
	}

	return(0);
	}

	#define SS1_VI2_INT 2 /* IF3 Rx interrupts tied to VI2 */
	#define SS1_VI3_INT 3 /* IF3 Tx interrupts tied to VI3 */

	#define IF3_NUM_PORTS 8 /* Number of ports per IF3 board */

	extern void raise_ss1_interrupt(uint8 isr_index);

	/* Unit service routine */
	static t_stat if3_svc (UNIT *uptr)
	{
	uint8 pending_rx_irqs;
	uint8 pending_tx_irqs;
	uint8 board = uptr->u3;

	update_rx_tx_isr(uptr);

	pending_rx_irqs = if3_risr[board] & if3_rimr[board];
	if(pending_rx_irqs) {
	sim_debug(RXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " Rx IRQ Pending: 0x%02x\n", board, PCX, pending_rx_irqs);
	raise_ss1_interrupt(SS1_VI2_INT);
	}

	pending_tx_irqs = if3_tisr[board] & if3_timr[board];
	if(pending_tx_irqs) {
	sim_debug(TXIRQ_MSG, &if3_dev, "IF3[%d]: " ADDRESS_FORMAT " Tx IRQ Pending: 0x%02x\n", board, PCX, pending_tx_irqs);
	raise_ss1_interrupt(SS1_VI3_INT);
	}

	sim_activate(&if3_unit[board], 200000);
	return SCPE_OK;
	}


	static t_stat update_rx_tx_isr (UNIT *uptr)
	{
	uint8 i;
	uint8 cData;
	uint8 board = uptr->u3;

	if3_risr[board] = 0;
	if3_tisr[board] = 0;

	for(i=0;i<IF3_NUM_PORTS;i++) {
	cData = sio0s(IF3_PORT_BASE+1+(board0x10)+(i2), 0, 0);
	if(cData & 2) { /* RX char available? */
	if3_risr[board] \|= (1 << i);
	}
	if(cData & 1) { /* TX Buffer empty? */
	if3_tisr[board] \|= (1 << i);
	}
	}
	return (SCPE_OK);
	}