Intel-Systems/common/iram8.c - emulators/simh - Rivoreo Source Code Repositories

 /*  iRAM8.c: Intel RAM simulator for 8-bit SBCs

     Copyright (c) 2011, 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:

         ?? ??? 11 - Original file.
         16 Dec 12 - Modified to use isbc_80_10.cfg file to set base and size.
         24 Apr 15 -- Modified to use simh_debug

     NOTES:

         These functions support a simulated RAM devices on an iSBC-80/XX SBCs.
         These functions also support bit 2 of 8255 number 1, port B, to enable/
         disable the onboard RAM.
 */

 #include "system_defs.h"

 #define DEBUG   0

 /* function prototypes */

 t_stat RAM_reset (DEVICE *dptr, uint16 base, uint16 size);
 uint8 RAM_get_mbyte(uint16 addr);
 void RAM_put_mbyte(uint16 addr, uint8 val);

 /* external function prototypes */

 extern uint8 i8255_B[4];                    //port B byte I/O
 extern uint8 xack;                          /* XACK signal */

 /* SIMH RAM Standard I/O Data Structures */

 UNIT RAM_unit = { UDATA (NULL, UNIT_BINK, 0), KBD_POLL_WAIT };

 DEBTAB RAM_debug[] = {
     { "ALL", DEBUG_all },
     { "FLOW", DEBUG_flow },
     { "READ", DEBUG_read },
     { "WRITE", DEBUG_write },
     { "XACK", DEBUG_xack },
     { "LEV1", DEBUG_level1 },
     { "LEV2", DEBUG_level2 },
     { NULL }
 };

 DEVICE RAM_dev = {
     "RAM",              //name
     &RAM_unit,          //units
     NULL,               //registers
     NULL,               //modifiers
     1,                  //numunits
     16,                 //aradix
     16,                 //awidth
     1,                  //aincr
     16,                 //dradix
     8,                  //dwidth
     NULL,               //examine
     NULL,               //deposit
 //    &RAM_reset,         //reset
     NULL,               //reset
     NULL,               //boot
     NULL,               //attach
     NULL,               //detach
     NULL,               //ctxt
     DEV_DEBUG,          //flags
     0,                  //dctrl
     RAM_debug,          //debflags
     NULL,               //msize
     NULL                //lname
 };

 /* RAM functions */

 /* RAM reset */

 t_stat RAM_reset (DEVICE *dptr, uint16 base, uint16 size)
 {
     sim_debug (DEBUG_flow, &RAM_dev, "      RAM_reset: base=%04X size=%04X\n", base, size-1);
     if (RAM_unit.capac == 0) {          /* if undefined */
         RAM_unit.capac = size;
         RAM_unit.u3 = base;
     }
     if (RAM_unit.filebuf == NULL) {     /* no buffer allocated */
         RAM_unit.filebuf = malloc(RAM_unit.capac);
         if (RAM_unit.filebuf == NULL) {
             sim_debug (DEBUG_flow, &RAM_dev, "RAM_set_size: Malloc error\n");
             return SCPE_MEM;
         }
     }
     if (DEBUG)
         sim_printf("      RAM: Available [%04X-%04XH]\n",
             RAM_unit.u3,
             RAM_unit.u3 + RAM_unit.capac - 1);
     sim_debug (DEBUG_flow, &RAM_dev, "RAM_reset: Done\n");
     return SCPE_OK;
 }

 /*  get a byte from memory */

 uint8 RAM_get_mbyte(uint16 addr)
 {
     uint8 val;

     sim_debug (DEBUG_read, &RAM_dev, "RAM_get_mbyte: addr=%04X\n", addr);
     if ((addr >= RAM_unit.u3) && ((uint32) addr < (RAM_unit.u3 + RAM_unit.capac))) {
         SET_XACK(1);                /* good memory address */
         sim_debug (DEBUG_xack, &RAM_dev, "RAM_get_mbyte: Set XACK for %04X\n", addr);
         val = *((uint8 *)RAM_unit.filebuf + (addr - RAM_unit.u3));
         sim_debug (DEBUG_read, &RAM_dev, " val=%04X\n", val);
         return (val & 0xFF);
     } else {
         sim_debug (DEBUG_read, &RAM_dev, " Out of range\n");
         return 0xFF;
     }
 }

 /*  put a byte to memory */

 void RAM_put_mbyte(uint16 addr, uint8 val)
 {
     sim_debug (DEBUG_write, &RAM_dev, "RAM_put_mbyte: addr=%04X, val=%02X\n", addr, val);
     if ((addr >= RAM_unit.u3) && ((uint32)addr < RAM_unit.u3 + RAM_unit.capac)) {
         SET_XACK(1);                /* good memory address */
         sim_debug (DEBUG_xack, &RAM_dev, "RAM_put_mbyte: Set XACK for %04X\n", addr);
         *((uint8 *)RAM_unit.filebuf + (addr - RAM_unit.u3)) = val & 0xFF;
         sim_debug (DEBUG_write, &RAM_dev, "\n");
         return;
     } else {
         sim_debug (DEBUG_write, &RAM_dev, " Out of range\n");
         return;
     }
 }

 /* end of iRAM8.c */
	/* iRAM8.c: Intel RAM simulator for 8-bit SBCs

	Copyright (c) 2011, 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:

	?? ??? 11 - Original file.
	16 Dec 12 - Modified to use isbc_80_10.cfg file to set base and size.
	24 Apr 15 -- Modified to use simh_debug

	NOTES:

	These functions support a simulated RAM devices on an iSBC-80/XX SBCs.
	These functions also support bit 2 of 8255 number 1, port B, to enable/
	disable the onboard RAM.
	*/

	#include "system_defs.h"

	#define DEBUG 0

	/* function prototypes */

	t_stat RAM_reset (DEVICE *dptr, uint16 base, uint16 size);
	uint8 RAM_get_mbyte(uint16 addr);
	void RAM_put_mbyte(uint16 addr, uint8 val);

	/* external function prototypes */

	extern uint8 i8255_B[4]; //port B byte I/O
	extern uint8 xack; /* XACK signal */

	/* SIMH RAM Standard I/O Data Structures */

	UNIT RAM_unit = { UDATA (NULL, UNIT_BINK, 0), KBD_POLL_WAIT };

	DEBTAB RAM_debug[] = {
	{ "ALL", DEBUG_all },
	{ "FLOW", DEBUG_flow },
	{ "READ", DEBUG_read },
	{ "WRITE", DEBUG_write },
	{ "XACK", DEBUG_xack },
	{ "LEV1", DEBUG_level1 },
	{ "LEV2", DEBUG_level2 },
	{ NULL }
	};

	DEVICE RAM_dev = {
	"RAM", //name
	&RAM_unit, //units
	NULL, //registers
	NULL, //modifiers
	1, //numunits
	16, //aradix
	16, //awidth
	1, //aincr
	16, //dradix
	8, //dwidth
	NULL, //examine
	NULL, //deposit
	// &RAM_reset, //reset
	NULL, //reset
	NULL, //boot
	NULL, //attach
	NULL, //detach
	NULL, //ctxt
	DEV_DEBUG, //flags
	0, //dctrl
	RAM_debug, //debflags
	NULL, //msize
	NULL //lname
	};

	/* RAM functions */

	/* RAM reset */

	t_stat RAM_reset (DEVICE *dptr, uint16 base, uint16 size)
	{
	sim_debug (DEBUG_flow, &RAM_dev, " RAM_reset: base=%04X size=%04X\n", base, size-1);
	if (RAM_unit.capac == 0) { /* if undefined */
	RAM_unit.capac = size;
	RAM_unit.u3 = base;
	}
	if (RAM_unit.filebuf == NULL) { /* no buffer allocated */
	RAM_unit.filebuf = malloc(RAM_unit.capac);
	if (RAM_unit.filebuf == NULL) {
	sim_debug (DEBUG_flow, &RAM_dev, "RAM_set_size: Malloc error\n");
	return SCPE_MEM;
	}
	}
	if (DEBUG)
	sim_printf(" RAM: Available [%04X-%04XH]\n",
	RAM_unit.u3,
	RAM_unit.u3 + RAM_unit.capac - 1);
	sim_debug (DEBUG_flow, &RAM_dev, "RAM_reset: Done\n");
	return SCPE_OK;
	}

	/* get a byte from memory */

	uint8 RAM_get_mbyte(uint16 addr)
	{
	uint8 val;

	sim_debug (DEBUG_read, &RAM_dev, "RAM_get_mbyte: addr=%04X\n", addr);
	if ((addr >= RAM_unit.u3) && ((uint32) addr < (RAM_unit.u3 + RAM_unit.capac))) {
	SET_XACK(1); /* good memory address */
	sim_debug (DEBUG_xack, &RAM_dev, "RAM_get_mbyte: Set XACK for %04X\n", addr);
	val = ((uint8 )RAM_unit.filebuf + (addr - RAM_unit.u3));
	sim_debug (DEBUG_read, &RAM_dev, " val=%04X\n", val);
	return (val & 0xFF);
	} else {
	sim_debug (DEBUG_read, &RAM_dev, " Out of range\n");
	return 0xFF;
	}
	}

	/* put a byte to memory */

	void RAM_put_mbyte(uint16 addr, uint8 val)
	{
	sim_debug (DEBUG_write, &RAM_dev, "RAM_put_mbyte: addr=%04X, val=%02X\n", addr, val);
	if ((addr >= RAM_unit.u3) && ((uint32)addr < RAM_unit.u3 + RAM_unit.capac)) {
	SET_XACK(1); /* good memory address */
	sim_debug (DEBUG_xack, &RAM_dev, "RAM_put_mbyte: Set XACK for %04X\n", addr);
	((uint8 )RAM_unit.filebuf + (addr - RAM_unit.u3)) = val & 0xFF;
	sim_debug (DEBUG_write, &RAM_dev, "\n");
	return;
	} else {
	sim_debug (DEBUG_write, &RAM_dev, " Out of range\n");
	return;
	}
	}

	/* end of iRAM8.c */