I7000/i7000_cdr.c - emulators/simh - Rivoreo Source Code Repositories

 /* i7000_cdr.c: IBM 7000 Card reader.

    Copyright (c) 2005-2016, Richard Cornwell

    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
    RICHARD CORNWELL 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.

    This is the standard card reader.

    These units each buffer one record in local memory and signal
    ready when the buffer is full or empty. The channel must be
    ready to recieve/transmit data when they are activated since
    they will transfer their block during chan_cmd. All data is
    transmitted as BCD characters.

 */

 #include "i7000_defs.h"
 #include "sim_card.h"
 #include "sim_defs.h"
 #ifdef NUM_DEVS_CDR

 #define UNIT_CDR        UNIT_ATTABLE | UNIT_RO | UNIT_DISABLE | MODE_026

 /* Flags for punch and reader. */
 #define ATTENA          (1 << (UNIT_V_UF+7))
 #define ATTENB          (1 << (UNIT_V_UF+14))


 /* std devices. data structures

    cdr_dev      Card Reader device descriptor
    cdr_unit     Card Reader unit descriptor
    cdr_reg      Card Reader register list
    cdr_mod      Card Reader modifiers list
 */

 uint32              cdr_cmd(UNIT *, uint16, uint16);
 t_stat              cdr_boot(int32, DEVICE *);
 t_stat              cdr_srv(UNIT *);
 t_stat              cdr_reset(DEVICE *);
 t_stat              cdr_attach(UNIT *, CONST char *);
 t_stat              cdr_detach(UNIT *);
 extern t_stat       chan_boot(int32, DEVICE *);
 #ifdef I7070
 t_stat              cdr_setload(UNIT *, int32, CONST char *, void *);
 t_stat              cdr_getload(FILE *, UNIT *, int32, CONST void *);
 #endif
 t_stat              cdr_help(FILE *, DEVICE *, UNIT *, int32, const char *);
 const char         *cdr_description(DEVICE *dptr);

 UNIT                cdr_unit[] = {
    {UDATA(cdr_srv, UNIT_S_CHAN(CHAN_CHUREC) | UNIT_CDR, 0), 300},       /* A */
 #if NUM_DEVS_CDR > 1
    {UDATA(cdr_srv, UNIT_S_CHAN(CHAN_CHUREC+1) | UNIT_CDR, 0), 300},     /* B */
 #endif
 };

 MTAB                cdr_mod[] = {
     {MTAB_XTD | MTAB_VUN, 0, "FORMAT", "FORMAT",
                &sim_card_set_fmt, &sim_card_show_fmt, NULL, "Set card format"},
 #ifdef I7070
     {ATTENA|ATTENB, 0, NULL, "NOATTEN", NULL, NULL, NULL, "No attention signal"},
     {ATTENA|ATTENB, ATTENA, "ATTENA", "ATTENA", NULL, NULL, NULL, "Signal Attention A"},
     {ATTENA|ATTENB, ATTENB, "ATTENB", "ATTENB", NULL, NULL, NULL, "Signal Attention B"},
     {MTAB_XTD | MTAB_VUN | MTAB_VALR, 0, "LCOL", "LCOL", &cdr_setload,
         &cdr_getload, NULL, "Load card column indicator"},
 #endif
 #ifdef I7010
     {MTAB_XTD | MTAB_VUN | MTAB_VALR, 0, "CHAN", "CHAN", &set_chan,
         &get_chan, NULL, "Set device channel"},
 #endif
     {0}
 };

 DEVICE              cdr_dev = {
     "CDR", cdr_unit, NULL, cdr_mod,
     NUM_DEVS_CDR, 8, 15, 1, 8, 8,
     NULL, NULL, NULL, &cdr_boot, &cdr_attach, &sim_card_detach,
     &cdr_dib, DEV_DISABLE | DEV_DEBUG, 0, crd_debug,
     NULL, NULL, &cdr_help, NULL, NULL, &cdr_description
 };


 /*
  * Device entry points for card reader.
  */
 uint32 cdr_cmd(UNIT * uptr, uint16 cmd, uint16 dev)
 {
     int                 chan = UNIT_G_CHAN(uptr->flags);
     int                 u = (uptr - cdr_unit);
     int                 stk = dev & 017;

     /* Are we currently tranfering? */
     if (uptr->u5 & URCSTA_READ)
         return SCPE_BUSY;

     /* Test ready */
     if (cmd == IO_TRS && uptr->flags & UNIT_ATT) {
         sim_debug(DEBUG_CMD, &cdr_dev, "%d: Test Rdy\n", u);
         return SCPE_OK;
     }

     if (stk == 10)
         stk = 0;

 #ifdef STACK_DEV
     uptr->u5 &= ~0xF0000;
     uptr->u5 |= stk << 16;
 #endif
     if (uptr->u5 & (URCSTA_EOF|URCSTA_ERR))
         return SCPE_IOERR;

     /* Process commands */
     switch(cmd) {
     case IO_RDS:
         sim_debug(DEBUG_CMD, &cdr_dev, "%d: Cmd RDS %02o\n", u, dev & 077);
 #ifdef I7010
         if (stk!= 9)
 #endif
         uptr->u5 &= ~(URCSTA_CARD|URCSTA_ERR);
         break;
     case IO_CTL:
         sim_debug(DEBUG_CMD, &cdr_dev, "%d: Cmd CTL %02o\n", u, dev & 077);
 #ifdef I7010
         uptr->u5 |= URCSTA_NOXFER;
 #endif
         break;
     default:
         chan_set_attn(chan);
         return SCPE_IOERR;
     }

     /* If at eof, just return EOF */
     if (uptr->u5 & URCSTA_EOF) {
         chan_set_eof(chan);
         chan_set_attn(chan);
         return SCPE_OK;
     }

     uptr->u5 |= URCSTA_READ;
     uptr->u4 = 0;

     if ((uptr->u5 & URCSTA_NOXFER) == 0)
         chan_set_sel(chan, 0);
     /* Wake it up if not busy */
     if ((uptr->u5 & URCSTA_BUSY) == 0)
         sim_activate(uptr, 50);
     return SCPE_OK;
 }

 /* Handle transfer of data for card reader */
 t_stat
 cdr_srv(UNIT *uptr) {
     int                 chan = UNIT_G_CHAN(uptr->flags);
     int                 u = (uptr - cdr_unit);
     struct _card_data   *data;

     data = (struct _card_data *)uptr->up7;

     /* Waiting for disconnect */
     if (uptr->u5 & URCSTA_WDISCO) {
         if (chan_stat(chan, DEV_DISCO)) {
             chan_clear(chan, DEV_SEL|DEV_WEOR);
             uptr->u5 &= ~ URCSTA_WDISCO;
         } else {
             /* No disco yet, try again in a bit */
             sim_activate(uptr, 50);
             return SCPE_OK;
         }
         /* If still busy, schedule another wait */
         if (uptr->u5 & URCSTA_BUSY)
              sim_activate(uptr, uptr->wait);
     }

     if (uptr->u5 & URCSTA_BUSY) {
         uptr->u5 &= ~URCSTA_BUSY;
 #ifdef I7070
         switch(uptr->flags & (ATTENA|ATTENB)) {
         case ATTENA: chan_set_attn_a(chan); break;
         case ATTENB: chan_set_attn_b(chan); break;
         }
 #endif
     }

     /* Check if new card requested. */
     if (uptr->u4 == 0 && uptr->u5 & URCSTA_READ &&
                 (uptr->u5 & URCSTA_CARD) == 0) {
         switch(sim_read_card(uptr)) {
         case SCPE_EOF:
              sim_debug(DEBUG_DETAIL, &cdr_dev, "%d: EOF\n", u);
              /* Fall through */

         case SCPE_UNATT:
              chan_set_eof(chan);
              chan_set_attn(chan);
              chan_clear(chan, DEV_SEL);
              uptr->u5 |= URCSTA_EOF;
              uptr->u5 &= ~(URCSTA_BUSY|URCSTA_READ);
              return SCPE_OK;
         case SCPE_IOERR:
              sim_debug(DEBUG_DETAIL, &cdr_dev, "%d: ERF\n", u);
              uptr->u5 |= URCSTA_ERR;
              uptr->u5 &= ~(URCSTA_BUSY|URCSTA_READ);
              chan_set_attn(chan);
              chan_clear(chan, DEV_SEL);
              return SCPE_OK;
         case SCPE_OK:
              uptr->u5 |= URCSTA_CARD;
 #ifdef I7010
              chan_set_attn_urec(chan, cdr_dib.addr);
 #endif
              break;
         }
 #ifdef I7070
         /* Check if load card. */
         if (uptr->capac && (data->image[uptr->capac-1] & 0x800)) {
              uptr->u5 |= URCSTA_LOAD;
              chan_set_load_mode(chan);
         } else {
              uptr->u5 &= ~URCSTA_LOAD;
         }
 #endif
     }

     if (uptr->u5 & URCSTA_NOXFER) {
         uptr->u5 &= ~(URCSTA_NOXFER|URCSTA_READ);
         return SCPE_OK;
     }

     /* Copy next column over */
     if (uptr->u5 & URCSTA_READ && uptr->u4 < 80) {
         uint8                ch = 0;

 #ifdef I7080
         /* Detect RSU */
         if (data->image[uptr->u4] == 0x924) {
              uptr->u5 &= ~URCSTA_READ;
              uptr->u5 |= URCSTA_WDISCO;
              chan_set(chan, DEV_REOR);
              sim_activate(uptr, 10);
              return SCPE_OK;
         }
 #endif

         ch = sim_hol_to_bcd(data->image[uptr->u4]);

         /* Handle invalid punch */
         if (ch == 0x7f) {
 #ifdef I7080
              uptr->u5 &= ~(URCSTA_READ|URCSTA_BUSY);
              sim_debug(DEBUG_DETAIL, &cdr_dev, "%d: bad punch %d\n", u,
                        uptr->u4);
              chan_set_attn(chan);
              chan_set_error(chan);
              chan_clear(chan, DEV_SEL);
 #else
              uptr->u5 |= URCSTA_ERR;
              ch = 017;
 #endif
         }

 #ifdef I7070
         /* During load, only sign on every 10 columns */
         if (uptr->u5 & URCSTA_LOAD && (uptr->u4 % 10) != 9)
             ch &= 0xf;
 #endif

         switch(chan_write_char(chan, &ch, (uptr->u4 == 79)? DEV_REOR: 0)) {
         case TIME_ERROR:
         case END_RECORD:
             uptr->u5 |= URCSTA_WDISCO|URCSTA_BUSY;
             uptr->u5 &= ~URCSTA_READ;
             break;
         case DATA_OK:
             uptr->u4++;
             break;
         }
         sim_debug(DEBUG_DATA, &cdr_dev, "%d: Char > %02o\n", u, ch);
         sim_activate(uptr, 10);
     }
     return SCPE_OK;
 }

 /* Boot from given device */
 t_stat
 cdr_boot(int32 unit_num, DEVICE * dptr)
 {
     UNIT               *uptr = &dptr->units[unit_num];
     t_stat              r;

     if ((uptr->flags & UNIT_ATT) == 0)
         return SCPE_UNATT;      /* attached? */
     /* Read in one record */
     r = cdr_cmd(uptr, IO_RDS, cdr_dib.addr);
     if (r != SCPE_OK)
         return r;
     r = chan_boot(unit_num, dptr);
     return r;
 }

 t_stat
 cdr_attach(UNIT * uptr, CONST char *file)
 {
     t_stat              r;

     if ((r = sim_card_attach(uptr, file)) != SCPE_OK)
         return r;
     uptr->u5 &= URCSTA_BUSY|URCSTA_WDISCO;
     uptr->u4 = 0;
     uptr->u6 = 0;
 #ifdef I7010
     chan_set_attn_urec(UNIT_G_CHAN(uptr->flags), cdr_dib.addr);
 #endif
     return SCPE_OK;
 }
 #ifdef I7070
 t_stat
 cdr_setload(UNIT *uptr, int32 val, CONST char *cptr, void *desc)
 {
     int i;
     if (cptr == NULL)
         return SCPE_ARG;
     if (uptr == NULL)
         return SCPE_IERR;
     i = 0;
     while(*cptr != '\0') {
         if (*cptr < '0' || *cptr > '9')
            return SCPE_ARG;
         i = (i * 10) + (*cptr++) - '0';
     }
     if (i > 80)
         return SCPE_ARG;
     uptr->capac = i;
     return SCPE_OK;
 }

 t_stat
 cdr_getload(FILE *st, UNIT *uptr, int32 v, CONST void *desc)
 {
     if (uptr == NULL)
         return SCPE_IERR;
     fprintf(st, "loadcolumn=%d", uptr->capac);
     return SCPE_OK;
 }
 #endif

 t_stat
 cdr_help(FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr)
 {
    fprintf (st, "%s\n\n", cdr_description(dptr));
 #if NUM_DEVS_CDR > 1
    fprintf (st, "The system supports up to two card readers.\n");
 #else
    fprintf (st, "The system supports one card reader.\n");
 #endif
 #ifdef I7070
    fprintf (st, "Unit record devices can be configured to interrupt the CPU on\n");
    fprintf (st, "one of two priority channels A or B, to set this\n\n");
    fprintf (st, "   sim> SET %s ATTENA     To set device to raise Atten A\n\n", dptr->name);
    fprintf (st, "The 7500 Card reader supported a load mode, this was\n");
    fprintf (st, "selected by use of a 12 punch in a given column. When this\n");
    fprintf (st, "was seen the card was read into 8 words. Normal read is\n");
    fprintf (st, "text only\n\n");
    fprintf (st, "   sim> SET %s LCOL=72    Sets column to select load mode\n\n", dptr->name);
 #endif
 #if NUM_DEVS_CDR > 1
 #ifdef I7010
    help_set_chan_type(st, dptr, "Card reader");
 #endif
 #endif
    sim_card_attach_help(st, dptr, uptr, flag, cptr);
    fprint_set_help(st, dptr);
    fprint_show_help(st, dptr);
    return SCPE_OK;
 }

 const char *
 cdr_description(DEVICE *dptr)
 {
 #ifdef I7010
    return "1402 Card Reader";
 #endif
 #ifdef I7070
    return "7500 Card Reader";
 #endif
 #ifdef I7080
    return "711 Card Reader";
 #endif
 }

 #endif
	/* i7000_cdr.c: IBM 7000 Card reader.

	Copyright (c) 2005-2016, Richard Cornwell

	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
	RICHARD CORNWELL 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.

	This is the standard card reader.

	These units each buffer one record in local memory and signal
	ready when the buffer is full or empty. The channel must be
	ready to recieve/transmit data when they are activated since
	they will transfer their block during chan_cmd. All data is
	transmitted as BCD characters.

	*/

	#include "i7000_defs.h"
	#include "sim_card.h"
	#include "sim_defs.h"
	#ifdef NUM_DEVS_CDR

	#define UNIT_CDR UNIT_ATTABLE \| UNIT_RO \| UNIT_DISABLE \| MODE_026

	/* Flags for punch and reader. */
	#define ATTENA (1 << (UNIT_V_UF+7))
	#define ATTENB (1 << (UNIT_V_UF+14))


	/* std devices. data structures

	cdr_dev Card Reader device descriptor
	cdr_unit Card Reader unit descriptor
	cdr_reg Card Reader register list
	cdr_mod Card Reader modifiers list
	*/

	uint32 cdr_cmd(UNIT *, uint16, uint16);
	t_stat cdr_boot(int32, DEVICE *);
	t_stat cdr_srv(UNIT *);
	t_stat cdr_reset(DEVICE *);
	t_stat cdr_attach(UNIT , CONST char );
	t_stat cdr_detach(UNIT *);
	extern t_stat chan_boot(int32, DEVICE *);
	#ifdef I7070
	t_stat cdr_setload(UNIT , int32, CONST char , void *);
	t_stat cdr_getload(FILE , UNIT , int32, CONST void *);
	#endif
	t_stat cdr_help(FILE , DEVICE , UNIT , int32, const char );
	const char cdr_description(DEVICE dptr);

	UNIT cdr_unit[] = {
	{UDATA(cdr_srv, UNIT_S_CHAN(CHAN_CHUREC) \| UNIT_CDR, 0), 300}, /* A */
	#if NUM_DEVS_CDR > 1
	{UDATA(cdr_srv, UNIT_S_CHAN(CHAN_CHUREC+1) \| UNIT_CDR, 0), 300}, /* B */
	#endif
	};

	MTAB cdr_mod[] = {
	{MTAB_XTD \| MTAB_VUN, 0, "FORMAT", "FORMAT",
	&sim_card_set_fmt, &sim_card_show_fmt, NULL, "Set card format"},
	#ifdef I7070
	{ATTENA\|ATTENB, 0, NULL, "NOATTEN", NULL, NULL, NULL, "No attention signal"},
	{ATTENA\|ATTENB, ATTENA, "ATTENA", "ATTENA", NULL, NULL, NULL, "Signal Attention A"},
	{ATTENA\|ATTENB, ATTENB, "ATTENB", "ATTENB", NULL, NULL, NULL, "Signal Attention B"},
	{MTAB_XTD \| MTAB_VUN \| MTAB_VALR, 0, "LCOL", "LCOL", &cdr_setload,
	&cdr_getload, NULL, "Load card column indicator"},
	#endif
	#ifdef I7010
	{MTAB_XTD \| MTAB_VUN \| MTAB_VALR, 0, "CHAN", "CHAN", &set_chan,
	&get_chan, NULL, "Set device channel"},
	#endif
	{0}
	};

	DEVICE cdr_dev = {
	"CDR", cdr_unit, NULL, cdr_mod,
	NUM_DEVS_CDR, 8, 15, 1, 8, 8,
	NULL, NULL, NULL, &cdr_boot, &cdr_attach, &sim_card_detach,
	&cdr_dib, DEV_DISABLE \| DEV_DEBUG, 0, crd_debug,
	NULL, NULL, &cdr_help, NULL, NULL, &cdr_description
	};


	/*
	* Device entry points for card reader.
	*/
	uint32 cdr_cmd(UNIT * uptr, uint16 cmd, uint16 dev)
	{
	int chan = UNIT_G_CHAN(uptr->flags);
	int u = (uptr - cdr_unit);
	int stk = dev & 017;

	/* Are we currently tranfering? */
	if (uptr->u5 & URCSTA_READ)
	return SCPE_BUSY;

	/* Test ready */
	if (cmd == IO_TRS && uptr->flags & UNIT_ATT) {
	sim_debug(DEBUG_CMD, &cdr_dev, "%d: Test Rdy\n", u);
	return SCPE_OK;
	}

	if (stk == 10)
	stk = 0;

	#ifdef STACK_DEV
	uptr->u5 &= ~0xF0000;
	uptr->u5 \|= stk << 16;
	#endif
	if (uptr->u5 & (URCSTA_EOF\|URCSTA_ERR))
	return SCPE_IOERR;

	/* Process commands */
	switch(cmd) {
	case IO_RDS:
	sim_debug(DEBUG_CMD, &cdr_dev, "%d: Cmd RDS %02o\n", u, dev & 077);
	#ifdef I7010
	if (stk!= 9)
	#endif
	uptr->u5 &= ~(URCSTA_CARD\|URCSTA_ERR);
	break;
	case IO_CTL:
	sim_debug(DEBUG_CMD, &cdr_dev, "%d: Cmd CTL %02o\n", u, dev & 077);
	#ifdef I7010
	uptr->u5 \|= URCSTA_NOXFER;
	#endif
	break;
	default:
	chan_set_attn(chan);
	return SCPE_IOERR;
	}

	/* If at eof, just return EOF */
	if (uptr->u5 & URCSTA_EOF) {
	chan_set_eof(chan);
	chan_set_attn(chan);
	return SCPE_OK;
	}

	uptr->u5 \|= URCSTA_READ;
	uptr->u4 = 0;

	if ((uptr->u5 & URCSTA_NOXFER) == 0)
	chan_set_sel(chan, 0);
	/* Wake it up if not busy */
	if ((uptr->u5 & URCSTA_BUSY) == 0)
	sim_activate(uptr, 50);
	return SCPE_OK;
	}

	/* Handle transfer of data for card reader */
	t_stat
	cdr_srv(UNIT *uptr) {
	int chan = UNIT_G_CHAN(uptr->flags);
	int u = (uptr - cdr_unit);
	struct _card_data *data;

	data = (struct _card_data *)uptr->up7;

	/* Waiting for disconnect */
	if (uptr->u5 & URCSTA_WDISCO) {
	if (chan_stat(chan, DEV_DISCO)) {
	chan_clear(chan, DEV_SEL\|DEV_WEOR);
	uptr->u5 &= ~ URCSTA_WDISCO;
	} else {
	/* No disco yet, try again in a bit */
	sim_activate(uptr, 50);
	return SCPE_OK;
	}
	/* If still busy, schedule another wait */
	if (uptr->u5 & URCSTA_BUSY)
	sim_activate(uptr, uptr->wait);
	}

	if (uptr->u5 & URCSTA_BUSY) {
	uptr->u5 &= ~URCSTA_BUSY;
	#ifdef I7070
	switch(uptr->flags & (ATTENA\|ATTENB)) {
	case ATTENA: chan_set_attn_a(chan); break;
	case ATTENB: chan_set_attn_b(chan); break;
	}
	#endif
	}

	/* Check if new card requested. */
	if (uptr->u4 == 0 && uptr->u5 & URCSTA_READ &&
	(uptr->u5 & URCSTA_CARD) == 0) {
	switch(sim_read_card(uptr)) {
	case SCPE_EOF:
	sim_debug(DEBUG_DETAIL, &cdr_dev, "%d: EOF\n", u);
	/* Fall through */

	case SCPE_UNATT:
	chan_set_eof(chan);
	chan_set_attn(chan);
	chan_clear(chan, DEV_SEL);
	uptr->u5 \|= URCSTA_EOF;
	uptr->u5 &= ~(URCSTA_BUSY\|URCSTA_READ);
	return SCPE_OK;
	case SCPE_IOERR:
	sim_debug(DEBUG_DETAIL, &cdr_dev, "%d: ERF\n", u);
	uptr->u5 \|= URCSTA_ERR;
	uptr->u5 &= ~(URCSTA_BUSY\|URCSTA_READ);
	chan_set_attn(chan);
	chan_clear(chan, DEV_SEL);
	return SCPE_OK;
	case SCPE_OK:
	uptr->u5 \|= URCSTA_CARD;
	#ifdef I7010
	chan_set_attn_urec(chan, cdr_dib.addr);
	#endif
	break;
	}
	#ifdef I7070
	/* Check if load card. */
	if (uptr->capac && (data->image[uptr->capac-1] & 0x800)) {
	uptr->u5 \|= URCSTA_LOAD;
	chan_set_load_mode(chan);
	} else {
	uptr->u5 &= ~URCSTA_LOAD;
	}
	#endif
	}

	if (uptr->u5 & URCSTA_NOXFER) {
	uptr->u5 &= ~(URCSTA_NOXFER\|URCSTA_READ);
	return SCPE_OK;
	}

	/* Copy next column over */
	if (uptr->u5 & URCSTA_READ && uptr->u4 < 80) {
	uint8 ch = 0;

	#ifdef I7080
	/* Detect RSU */
	if (data->image[uptr->u4] == 0x924) {
	uptr->u5 &= ~URCSTA_READ;
	uptr->u5 \|= URCSTA_WDISCO;
	chan_set(chan, DEV_REOR);
	sim_activate(uptr, 10);
	return SCPE_OK;
	}
	#endif

	ch = sim_hol_to_bcd(data->image[uptr->u4]);

	/* Handle invalid punch */
	if (ch == 0x7f) {
	#ifdef I7080
	uptr->u5 &= ~(URCSTA_READ\|URCSTA_BUSY);
	sim_debug(DEBUG_DETAIL, &cdr_dev, "%d: bad punch %d\n", u,
	uptr->u4);
	chan_set_attn(chan);
	chan_set_error(chan);
	chan_clear(chan, DEV_SEL);
	#else
	uptr->u5 \|= URCSTA_ERR;
	ch = 017;
	#endif
	}

	#ifdef I7070
	/* During load, only sign on every 10 columns */
	if (uptr->u5 & URCSTA_LOAD && (uptr->u4 % 10) != 9)
	ch &= 0xf;
	#endif

	switch(chan_write_char(chan, &ch, (uptr->u4 == 79)? DEV_REOR: 0)) {
	case TIME_ERROR:
	case END_RECORD:
	uptr->u5 \|= URCSTA_WDISCO\|URCSTA_BUSY;
	uptr->u5 &= ~URCSTA_READ;
	break;
	case DATA_OK:
	uptr->u4++;
	break;
	}
	sim_debug(DEBUG_DATA, &cdr_dev, "%d: Char > %02o\n", u, ch);
	sim_activate(uptr, 10);
	}
	return SCPE_OK;
	}

	/* Boot from given device */
	t_stat
	cdr_boot(int32 unit_num, DEVICE * dptr)
	{
	UNIT *uptr = &dptr->units[unit_num];
	t_stat r;

	if ((uptr->flags & UNIT_ATT) == 0)
	return SCPE_UNATT; /* attached? */
	/* Read in one record */
	r = cdr_cmd(uptr, IO_RDS, cdr_dib.addr);
	if (r != SCPE_OK)
	return r;
	r = chan_boot(unit_num, dptr);
	return r;
	}

	t_stat
	cdr_attach(UNIT * uptr, CONST char *file)
	{
	t_stat r;

	if ((r = sim_card_attach(uptr, file)) != SCPE_OK)
	return r;
	uptr->u5 &= URCSTA_BUSY\|URCSTA_WDISCO;
	uptr->u4 = 0;
	uptr->u6 = 0;
	#ifdef I7010
	chan_set_attn_urec(UNIT_G_CHAN(uptr->flags), cdr_dib.addr);
	#endif
	return SCPE_OK;
	}
	#ifdef I7070
	t_stat
	cdr_setload(UNIT uptr, int32 val, CONST char cptr, void *desc)
	{
	int i;
	if (cptr == NULL)
	return SCPE_ARG;
	if (uptr == NULL)
	return SCPE_IERR;
	i = 0;
	while(*cptr != '\0') {
	if (cptr < '0' \|\| cptr > '9')
	return SCPE_ARG;
	i = (i * 10) + (*cptr++) - '0';
	}
	if (i > 80)
	return SCPE_ARG;
	uptr->capac = i;
	return SCPE_OK;
	}

	t_stat
	cdr_getload(FILE st, UNIT uptr, int32 v, CONST void *desc)
	{
	if (uptr == NULL)
	return SCPE_IERR;
	fprintf(st, "loadcolumn=%d", uptr->capac);
	return SCPE_OK;
	}
	#endif

	t_stat
	cdr_help(FILE st, DEVICE dptr, UNIT uptr, int32 flag, const char cptr)
	{
	fprintf (st, "%s\n\n", cdr_description(dptr));
	#if NUM_DEVS_CDR > 1
	fprintf (st, "The system supports up to two card readers.\n");
	#else
	fprintf (st, "The system supports one card reader.\n");
	#endif
	#ifdef I7070
	fprintf (st, "Unit record devices can be configured to interrupt the CPU on\n");
	fprintf (st, "one of two priority channels A or B, to set this\n\n");
	fprintf (st, " sim> SET %s ATTENA To set device to raise Atten A\n\n", dptr->name);
	fprintf (st, "The 7500 Card reader supported a load mode, this was\n");
	fprintf (st, "selected by use of a 12 punch in a given column. When this\n");
	fprintf (st, "was seen the card was read into 8 words. Normal read is\n");
	fprintf (st, "text only\n\n");
	fprintf (st, " sim> SET %s LCOL=72 Sets column to select load mode\n\n", dptr->name);
	#endif
	#if NUM_DEVS_CDR > 1
	#ifdef I7010
	help_set_chan_type(st, dptr, "Card reader");
	#endif
	#endif
	sim_card_attach_help(st, dptr, uptr, flag, cptr);
	fprint_set_help(st, dptr);
	fprint_show_help(st, dptr);
	return SCPE_OK;
	}

	const char *
	cdr_description(DEVICE *dptr)
	{
	#ifdef I7010
	return "1402 Card Reader";
	#endif
	#ifdef I7070
	return "7500 Card Reader";
	#endif
	#ifdef I7080
	return "711 Card Reader";
	#endif
	}

	#endif