/* pdp10_lp20.c: PDP-10 LP20 line printer simulator | |
Copyright (c) 1993-2009, Robert M Supnik | |
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 | |
ROBERT M SUPNIK 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 Robert M Supnik shall not be | |
used in advertising or otherwise to promote the sale, use or other dealings | |
in this Software without prior written authorization from Robert M Supnik. | |
lp20 line printer | |
23-Jun-13 TL Add optical VFU support and fix some inconsistencies | |
with the hardware. Add documentation. | |
29-May-13 TL Force append when an existing file is attached. | |
Previously over-wrote file from the top. | |
19-Jan-07 RMS Added UNIT_TEXT flag | |
04-Sep-05 RMS Fixed missing return (found by Peter Schorn) | |
07-Jul-05 RMS Removed extraneous externs | |
18-Mar-05 RMS Added attached test to detach routine | |
29-Dec-03 RMS Fixed bug in scheduling | |
25-Apr-03 RMS Revised for extended file support | |
29-Sep-02 RMS Added variable vector support | |
Modified to use common Unibus routines | |
New data structures | |
30-May-02 RMS Widened POS to 32b | |
06-Jan-02 RMS Added enable/disable support | |
30-Nov-01 RMS Added extended SET/SHOW support | |
References: | |
EK-LP20-TM-004 LP20 LINE PRINTER SYSTEM MANUAL | |
B-TC-LP20-0-1 MP0006 LP20 Field Maintenance Print Set | |
DpC255137D Dataproducts Corp Maintenance Guide Vol. I | |
300LPM/600 LPM Line Printers. | |
LP2SER.MAC TOPS-10 Device driver | |
LPKSDV.MAC TOPS-20 Device driver | |
LP20.MAC TOPS-10/20 VFU/RAM utility | |
LPTSPL/LPTSUB.MAC TOPS-10/20 GALAXY spooler | |
*/ | |
#include "pdp10_defs.h" | |
#include <ctype.h> | |
/* Time (seconds) of idleness before data flushed to attached file. */ | |
#ifndef LP20_IDLE_TIME | |
#define LP20_IDLE_TIME (10) | |
#endif | |
/* The LP20 has the following CSR assignments: | |
* Unit No. 1: 775400, Vector: 754 | |
* Unit No. 2: 775420, Vector: 750 | |
* | |
* Note that the KS only supported one LP20. | |
* Note also that the vector assigned to unit 2 is lower than unit 1's. | |
*/ | |
#define UNIT_DUMMY (1 << UNIT_V_UF) | |
#define LP_WIDTH 132 /* printer width */ | |
#define DEFAULT_LPI 6 /* default lines-per-inch of LPT */ | |
/* DAVFU RAM */ | |
#define DV_SIZE 143 /* DAVFU size */ | |
#define DV_DMASK 077 /* data mask per byte */ | |
#define DV_TOF 0 /* top of form channel */ | |
#define DV_BOF 11 /* bottom of form channel */ | |
#define DV_MAX 11 /* max channel number */ | |
#define MIN_VFU_LEN 2 /* minimum VFU length (in inches) */ | |
#define VFU_LEN_VALID(lines, lpi) ((lines) >= (lpi * MIN_VFU_LEN)) | |
/* Translation RAM */ | |
#define TX_SIZE 256 /* translation RAM */ | |
#define TX_AMASK (TX_SIZE - 1) | |
#define TX_DMASK 007777 | |
#define TX_PARITY 010000 /* Parity bit (emulated: 'valid'; unwritten has bad 'parity') */ | |
#define TX_V_FL 8 /* flags */ | |
#define TX_M_FL 017 | |
/* define TX_INTR 04000 *//* interrupt */ | |
#define TX_DELH 02000 /* delimiter */ | |
/* define TX_XLAT 01000 *//* translate */ | |
/* define TX_DVFU 00400 *//* DAVFU */ | |
#define TX_SLEW 00020 /* chan vs slew */ | |
#define TX_VMASK 00017 /* spacing mask */ | |
#define TX_CHR 0 /* states: pr char */ | |
#define TX_RAM 1 /* pr translation */ | |
#define TX_DVU 2 /* DAVFU action */ | |
#define TX_INT 3 /* interrupt */ | |
#define TX_GETFL(x) (((x) >> TX_V_FL) & TX_M_FL) | |
/* LPCSRA (765400) */ | |
#define CSA_GO 0000001 /* go */ | |
#define CSA_PAR 0000002 /* parity enable NI */ | |
#define CSA_V_FNC 2 /* function */ | |
#define CSA_M_FNC 03 | |
#define FNC_PR 0 /* print */ | |
#define FNC_TST 1 /* test */ | |
#define FNC_DVU 2 /* load DAVFU */ | |
#define FNC_RAM 3 /* load translation RAM */ | |
#define FNC_INTERNAL 1 /* internal function */ | |
#define CSA_FNC (CSA_M_FNC << CSA_V_FNC) | |
#define CSA_V_UAE 4 /* Unibus addr extension */ | |
#define CSA_UAE (03 << CSA_V_UAE) | |
#define CSA_IE 0000100 /* interrupt enable */ | |
#define CSA_DONE 0000200 /* done */ | |
#define CSA_INIT 0000400 /* init */ | |
#define CSA_ECLR 0001000 /* clear errors */ | |
#define CSA_DELH 0002000 /* delimiter hold */ | |
#define CSA_ONL 0004000 /* online */ | |
#define CSA_DVON 0010000 /* DAVFU online */ | |
#define CSA_UNDF 0020000 /* undefined char */ | |
#define CSA_PZRO 0040000 /* page counter zero */ | |
#define CSA_ERR 0100000 /* error */ | |
#define CSA_RW (CSA_DELH | CSA_IE | CSA_UAE | CSA_FNC | CSA_PAR | CSA_GO) | |
#define CSA_MBZ (CSA_ECLR | CSA_INIT) | |
#define CSA_GETUAE(x) (((x) & CSA_UAE) << (16 - CSA_V_UAE)) | |
#define CSA_GETFNC(x) (((x) >> CSA_V_FNC) & CSA_M_FNC) | |
/* LPCSRB (765402) */ | |
#define CSB_GOE 0000001 /* go error */ | |
#define CSB_DTE 0000002 /* DEM timing error NI */ | |
#define CSB_MTE 0000004 /* MSYN error (Ubus timeout) */ | |
#define CSB_RPE 0000010 /* RAM parity error */ | |
#define CSB_MPE 0000020 /* MEM parity error NI */ | |
#define CSB_LPE 0000040 /* LPT parity error NI */ | |
#define CSB_DVOF 0000100 /* DAVFU not ready */ | |
#define CSB_OFFL 0000200 /* offline */ | |
#define CSB_TEST 0003400 /* test mode */ | |
#define CSB_OVFU 0004000 /* optical VFU */ | |
#define CSB_PBIT 0010000 /* data parity bit NI */ | |
#define CSB_NRDY 0020000 /* printer error NI */ | |
#define CSB_LA180 0040000 /* LA180 printer NI */ | |
#define CSB_VLD 0100000 /* valid data NI */ | |
#define CSB_ECLR (CSB_GOE | CSB_DTE | CSB_MTE | CSB_RPE | CSB_MPE | CSB_LPE) | |
#define CSB_ERR (CSB_ECLR | CSB_DVOF | CSB_OFFL) | |
#define CSB_RW CSB_TEST | |
#define CSB_MBZ (CSB_DTE | CSB_RPE | CSB_MPE | CSB_LPE | \ | |
CSB_PBIT | CSB_NRDY | CSB_LA180 | CSB_VLD) | |
/* LPBA (765404) */ | |
/* LPBC (765506) */ | |
#define BC_MASK 0007777 /* <15:12> MBZ */ | |
/* LPPAGC (765510) */ | |
#define PAGC_MASK 0007777 /* <15:12> MBZ */ | |
/* LPRDAT (765512) */ | |
#define RDAT_MASK 0007777 /* <15:12> MBZ */ | |
/* LPCOLC/LPCBUF (765514) */ | |
/* LPCSUM/LPPDAT (765516) */ | |
extern int32 int_req; | |
static int32 lpcsa = 0; /* control/status A */ | |
static int32 lpcsb = CSB_DVOF; /* control/status B */ | |
static int32 lpba = 0; /* bus address */ | |
static int32 lpbc = 0; /* byte count */ | |
static int32 lppagc = 0; /* page count */ | |
static int32 lprdat = 0; /* RAM data */ | |
static int32 lpcbuf = 0; /* character buffer */ | |
static int32 lpcolc = 0; /* column count */ | |
static int32 lppdat = 0; /* printer data */ | |
static int32 lpcsum = 0; /* checksum */ | |
static int32 dvptr = 0; /* davfu pointer */ | |
static int32 dvlnt = 0; /* davfu length */ | |
static int32 lp20_irq = 0; /* int request */ | |
static int32 lp20_stopioe = 0; /* stop on error */ | |
static int32 dvld = 0; | |
static int32 dvld_hold = 0; | |
static int32 lpi = DEFAULT_LPI; /* Printer's LPI. */ | |
static int16 txram[TX_SIZE] = { 0 }; /* translation RAM */ | |
static int16 davfu[DV_SIZE] = { 0 }; /* DAVFU */ | |
static t_stat lp20_rd (int32 *data, int32 pa, int32 access); | |
static t_stat lp20_wr (int32 data, int32 pa, int32 access); | |
static int32 lp20_inta (void); | |
static t_stat lp20_svc (UNIT *uptr); | |
static t_stat idle_svc (UNIT *uptr); | |
static void set_flush_timer (UNIT *uptr); | |
static t_stat lp20_reset (DEVICE *dptr); | |
static t_stat lp20_init (DEVICE *dptr); | |
static t_stat lp20_attach (UNIT *uptr, CONST char *ptr); | |
static t_stat lp20_detach (UNIT *uptr); | |
static t_stat lp20_set_lpi (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_stat lp20_show_lpi (FILE *st, UNIT *up, int32 v, CONST void *dp); | |
static t_stat lp20_set_vfu_type (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_stat lp20_show_vfu_type (FILE *st, UNIT *up, int32 v, CONST void *dp); | |
static t_stat lp20_show_vfu (FILE *st, UNIT *up, int32 v, CONST void *dp); | |
static t_stat lp20_set_tof (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_stat lp20_clear_vfu (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_bool lp20_print (int32 c); | |
static t_bool lp20_adv (int32 c, t_bool advdvu); | |
static t_bool lp20_davfu (int32 c); | |
static void update_lpcs (int32 flg); | |
static void change_rdy (int32 setrdy, int32 clrrdy); | |
static int16 evenbits (int16 value); | |
static t_stat lp20_help (FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, const char *cptr); | |
static const char *lp20_description (DEVICE *dptr); | |
/* DEC standard VFU tape for 'optical' VFU default. | |
* Note that this must be <= DV_SIZE as we copy it into the DAVFU. | |
*/ | |
static const int16 defaultvfu[] = { /* Generated by vfu.pl per DEC HRM */ | |
/* 66 line page with 6 line margin */ | |
00377, /* Line 0 8 7 6 5 4 3 2 1 */ | |
00220, /* Line 1 8 5 */ | |
00224, /* Line 2 8 5 3 */ | |
00230, /* Line 3 8 5 4 */ | |
00224, /* Line 4 8 5 3 */ | |
00220, /* Line 5 8 5 */ | |
00234, /* Line 6 8 5 4 3 */ | |
00220, /* Line 7 8 5 */ | |
00224, /* Line 8 8 5 3 */ | |
00230, /* Line 9 8 5 4 */ | |
00264, /* Line 10 8 6 5 3 */ | |
00220, /* Line 11 8 5 */ | |
00234, /* Line 12 8 5 4 3 */ | |
00220, /* Line 13 8 5 */ | |
00224, /* Line 14 8 5 3 */ | |
00230, /* Line 15 8 5 4 */ | |
00224, /* Line 16 8 5 3 */ | |
00220, /* Line 17 8 5 */ | |
00234, /* Line 18 8 5 4 3 */ | |
00220, /* Line 19 8 5 */ | |
00364, /* Line 20 8 7 6 5 3 */ | |
00230, /* Line 21 8 5 4 */ | |
00224, /* Line 22 8 5 3 */ | |
00220, /* Line 23 8 5 */ | |
00234, /* Line 24 8 5 4 3 */ | |
00220, /* Line 25 8 5 */ | |
00224, /* Line 26 8 5 3 */ | |
00230, /* Line 27 8 5 4 */ | |
00224, /* Line 28 8 5 3 */ | |
00220, /* Line 29 8 5 */ | |
00276, /* Line 30 8 6 5 4 3 2 */ | |
00220, /* Line 31 8 5 */ | |
00224, /* Line 32 8 5 3 */ | |
00230, /* Line 33 8 5 4 */ | |
00224, /* Line 34 8 5 3 */ | |
00220, /* Line 35 8 5 */ | |
00234, /* Line 36 8 5 4 3 */ | |
00220, /* Line 37 8 5 */ | |
00224, /* Line 38 8 5 3 */ | |
00230, /* Line 39 8 5 4 */ | |
00364, /* Line 40 8 7 6 5 3 */ | |
00220, /* Line 41 8 5 */ | |
00234, /* Line 42 8 5 4 3 */ | |
00220, /* Line 43 8 5 */ | |
00224, /* Line 44 8 5 3 */ | |
00230, /* Line 45 8 5 4 */ | |
00224, /* Line 46 8 5 3 */ | |
00220, /* Line 47 8 5 */ | |
00234, /* Line 48 8 5 4 3 */ | |
00220, /* Line 49 8 5 */ | |
00264, /* Line 50 8 6 5 3 */ | |
00230, /* Line 51 8 5 4 */ | |
00224, /* Line 52 8 5 3 */ | |
00220, /* Line 53 8 5 */ | |
00234, /* Line 54 8 5 4 3 */ | |
00220, /* Line 55 8 5 */ | |
00224, /* Line 56 8 5 3 */ | |
00230, /* Line 57 8 5 4 */ | |
00224, /* Line 58 8 5 3 */ | |
00220, /* Line 59 8 5 */ | |
00020, /* Line 60 5 */ | |
00020, /* Line 61 5 */ | |
00020, /* Line 62 5 */ | |
00020, /* Line 63 5 */ | |
00020, /* Line 64 5 */ | |
04020, /* Line 65 12 5 */ | |
}; | |
/* LP data structures | |
lp20_dev LPT device descriptor | |
lp20_unit LPT unit descriptor | |
lp20_reg LPT register list | |
*/ | |
static DIB lp20_dib = { | |
IOBA_LP20, IOLN_LP20, &lp20_rd, &lp20_wr, | |
1, IVCL (LP20), VEC_LP20, { &lp20_inta } | |
}; | |
/* Actual device timing varies depending on the printer. | |
* Printers used with the LP20 include both drum and band printers. | |
* Nominal speeds ranged from 200 LPM to 1250 LPM. Besides speed, | |
* the major variants were: Optical vs DAVFU, 64 vs. 96 character | |
* band/drum, and scientific vs. EDP fonts. Scientific used slashed | |
* Z and 0; EDP did not. All supported 132 colum output at a pitch | |
* of 10 CPI. Some had operator switch-selectable vertical pitches | |
* for either 6 or 8 LPI. Paper and ribbon are hit by a hammer onto | |
* the rotating drum when the desired character is in front of the | |
* hammer. Thus, a line that contains all the characters on a drum | |
* would take one full revolution to print, plus paper motion time. | |
* (Assuming no overstrikes.) At 100 RPM, this translates to 16.7 ms | |
* printing + 41 ms motion for the LP05. The math works out to 1,040 | |
* LPM, but the rated speeds account for slew in the margins and some | |
* overstrikes (most commonly underline.) One could construct data | |
* patterns that overlapped some paper motion with unused character | |
* time on the drum. So the LP10, with 14 ms line advance could | |
* print the alphabet using 1/2 a rotation and move the paper in the | |
* other half - about 50% faster than rated speed. Bands move the | |
* characters horizontally (similar to chain/train printers), but | |
* the basic timing constraints are similar. | |
* | |
* Timing for several printers: a/b is 64/96 character set value. | |
* LP05 LP07 LP10 LP14 | |
* Line advance: 41 ms 12.5 ms 14 ms 20 ms | |
* Slew: 20 ips 60 ips 35 ips 22.5 @8LPi/30 @6 | |
* Drum Rotation: 1000/600 RPM band 1800/1200 1280/857 | |
* Rated LPM: 230/300 1220/905 1250/925 890/650 | |
* Weight lb/kg 340/154 800/363 800/363 420/191 | |
* | |
* There is a variant that was designed to drive an LA180 with either | |
* a 7 or 8 bit parallel interface. The prints label it 'not a standard | |
* product'. It's not implemented in this emulation. | |
*/ | |
static UNIT lp20_unit[] = { | |
{UDATA (&lp20_svc, UNIT_SEQ+UNIT_ATTABLE+UNIT_TEXT, 0), SERIAL_OUT_WAIT}, | |
{UDATA (&idle_svc, UNIT_DIS, 0), 1000000, LP20_IDLE_TIME} | |
}; | |
static REG lp20_reg[] = { | |
{ ORDATAD (LPCSA, lpcsa, 16, "control/status register A") }, | |
{ ORDATAD (LPCSB, lpcsb, 16, "control/status register B") }, | |
{ ORDATAD (LPBA, lpba, 16, "bus address register") }, | |
{ ORDATAD (LPBC, lpbc, 12, "byte count register") }, | |
{ ORDATAD (LPPAGC, lppagc, 12, "page count register") }, | |
{ ORDATAD (LPRDAT, lprdat, 13, "RAM data register") }, | |
{ ORDATAD (LPCBUF, lpcbuf, 8, "character buffer register") }, | |
{ ORDATAD (LPCOLC, lpcolc, 8, "column counter register") }, | |
{ ORDATAD (LPPDAT, lppdat, 8, "printer data register") }, | |
{ ORDATAD (LPCSUM, lpcsum, 8, "checksum register") }, | |
{ ORDATAD (DVPTR, dvptr, 7, "vertical forms unit pointer") }, | |
{ ORDATAD (DVLNT, dvlnt, 7, "vertical forms unit length"), REG_RO + REG_NZ }, | |
{ ORDATA (DVLD, dvld, 2), REG_RO | REG_HIDDEN }, | |
{ ORDATA (DVLDH, dvld_hold, 6), REG_RO | REG_HIDDEN }, | |
{ FLDATAD (INT, int_req, INT_V_LP20, "interrupt request") }, | |
{ FLDATAD (IRQ, lp20_irq, 0, "clear interrupt request") }, | |
{ FLDATAD (ERR, lpcsa, CSR_V_ERR, "error flag") }, | |
{ FLDATAD (DONE, lpcsa, CSR_V_DONE, "done flag") }, | |
{ FLDATAD (IE, lpcsa, CSR_V_IE, "interrupt enable flag") }, | |
{ DRDATAD (POS, lp20_unit[0].pos, T_ADDR_W, "position in output file"), PV_LEFT }, | |
{ DRDATAD (TIME, lp20_unit[0].wait, 24, "response time"), PV_LEFT }, | |
{ FLDATAD (STOP_IOE, lp20_stopioe, 0, "stop on I/O error") }, | |
{ BRDATAD (TXRAM, txram, 8, 13, TX_SIZE, "translation RAM") }, | |
{ BRDATAD (DAVFU, davfu, 8, 12, DV_SIZE, "vertical forms unit array") }, | |
{ DRDATA (LPI, lpi, 8), REG_RO | REG_HIDDEN }, | |
{ ORDATA (DEVADDR, lp20_dib.ba, 32), REG_HRO }, | |
{ ORDATA (DEVVEC, lp20_dib.vec, 16), REG_HRO }, | |
{ NULL } | |
}; | |
static MTAB lp20_mod[] = { | |
{ MTAB_XTD|MTAB_VDV, 004, "ADDRESS", "ADDRESS", | |
&set_addr, &show_addr, NULL }, | |
{ MTAB_XTD|MTAB_VDV, 0, "VECTOR", "VECTOR", | |
&set_vec, &show_vec, NULL }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, "VFU", NULL, NULL, &lp20_show_vfu, | |
NULL, "Display VFU tape/contents" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR|MTAB_NC, 0, "VFUTYPE", "VFUTYPE={DAVFU|OPTICAL{=tapefile}}", | |
&lp20_set_vfu_type, &lp20_show_vfu_type, NULL, NULL }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALO, 0, "LPI", "LPI={6-LPI|8-LPI}", &lp20_set_lpi, &lp20_show_lpi, | |
NULL, "Printer vertical lines per inch" }, | |
{ UNIT_DUMMY, 0, NULL, "TOPOFFORM", &lp20_set_tof, NULL, | |
NULL, "Advance to top-of-form" }, | |
{ UNIT_DUMMY, 0, NULL, "VFUCLEAR", &lp20_clear_vfu, NULL, | |
NULL, "Clear the VFU & Translation RAM" }, | |
{ 0 } | |
}; | |
DEVICE lp20_dev = { | |
"LP20", lp20_unit, lp20_reg, lp20_mod, | |
2, 10, 31, 1, 8, 8, | |
NULL, NULL, &lp20_reset, | |
NULL, &lp20_attach, &lp20_detach, | |
&lp20_dib, DEV_DISABLE | DEV_UBUS, 0, | |
NULL, NULL, NULL, &lp20_help, NULL, NULL, &lp20_description, | |
}; | |
/* Line printer routines | |
lp20_rd I/O page read | |
lp20_wr I/O page write | |
lp20_svc process event (printer ready) | |
lp20_reset process reset | |
lp20_attach process attach | |
lp20_detach process detach | |
*/ | |
static t_stat lp20_rd (int32 *data, int32 pa, int32 access) | |
{ | |
update_lpcs (0); /* update csr's */ | |
switch ((pa >> 1) & 07) { /* case on PA<3:1> */ | |
case 00: /* LPCSA */ | |
*data = lpcsa = lpcsa & ~CSA_MBZ; | |
if (lpcsb & CSB_OVFU) /* Optical: no DAVFU present */ | |
*data &= ~CSA_DVON; | |
break; | |
case 01: /* LPCSB */ | |
*data = lpcsb = lpcsb & ~CSB_MBZ; | |
if (lpcsb & CSB_OVFU) | |
*data &= ~CSB_DVOF; | |
break; | |
case 02: /* LPBA */ | |
*data = lpba; | |
break; | |
case 03: /* LPBC */ | |
*data = lpbc = lpbc & BC_MASK; | |
break; | |
case 04: /* LPPAGC */ | |
*data = lppagc = lppagc & PAGC_MASK; | |
break; | |
case 05: /* LPRDAT */ | |
*data = lprdat & RDAT_MASK; | |
if (evenbits((int16)*data)) | |
*data |= TX_PARITY; | |
if (((lprdat & TX_PARITY) == 0) && (lpcsa & CSA_PAR)) /* Data invalid & parity checked? */ | |
*data ^= TX_PARITY; /* Invalid: Provide bad parity */ | |
break; | |
case 06: /* LPCOLC/LPCBUF */ | |
*data = (lpcolc << 8) | lpcbuf; | |
break; | |
case 07: /* LPCSUM/LPPDAT */ | |
*data = (lpcsum << 8) | lppdat; | |
break; | |
} /* end case PA */ | |
return SCPE_OK; | |
} | |
static t_stat lp20_wr (int32 data, int32 pa, int32 access) | |
{ | |
update_lpcs (0); /* update csr's */ | |
switch ((pa >> 1) & 07) { /* case on PA<3:1> */ | |
case 00: /* LPCSA */ | |
if (access == WRITEB) | |
data = (pa & 1)? (lpcsa & 0377) | (data << 8): (lpcsa & ~0377) | data; | |
/* In hardware, a write that sets GO must not change any other | |
* bits in CSRA due to timing restrictions. Modifying any bits in | |
* CSRA while GO is set "may destroy the contents of the checksum register | |
* and produce other undesirable effects." | |
*/ | |
if (data & CSA_ECLR) { /* error clear? */ | |
lpcsa = (lpcsa | CSA_DONE) & ~CSA_GO; /* set done, clr go */ | |
lpcsb = lpcsb & ~CSB_ECLR; /* clear err */ | |
sim_cancel (lp20_unit); /* cancel I/O */ | |
} | |
if (data & CSA_INIT) /* init? */ | |
lp20_init (&lp20_dev); | |
if (data & CSA_GO) { /* go set? */ | |
if ((lpcsa & CSA_GO) == 0) { /* not set before? */ | |
if (lpcsb & CSB_ERR) | |
lpcsb = lpcsb | CSB_GOE; | |
lpcsum = 0; /* clear checksum */ | |
sim_activate (lp20_unit, lp20_unit->wait); | |
} | |
} | |
else sim_cancel (lp20_unit); /* go clr, stop DMA */ | |
lpcsa = (lpcsa & ~CSA_RW) | (data & CSA_RW); | |
if (dvld && (CSA_GETFNC (lpcsa) != FNC_DVU)) { /* DVU load aborted */ | |
change_rdy (0, CSA_DVON); /* Mark DVU off-line and empty */ | |
dvlnt = 0; | |
} | |
break; | |
case 01: /* LPCSB */ | |
break; /* ignore writes to TEST */ | |
case 02: /* LPBA */ | |
if (access == WRITEB) | |
data = (pa & 1)? (lpba & 0377) | (data << 8): (lpba & ~0377) | data; | |
lpba = data; | |
break; | |
case 03: /* LPBC */ | |
if (access == WRITEB) | |
data = (pa & 1)? (lpbc & 0377) | (data << 8): (lpbc & ~0377) | data; | |
lpbc = data & BC_MASK; | |
lpcsa = lpcsa & ~CSA_DONE; | |
break; | |
case 04: /* LPPAGC */ | |
if (access == WRITEB) | |
data = (pa & 1)? (lppagc & 0377) | (data << 8): (lppagc & ~0377) | data; | |
lppagc = data & PAGC_MASK; | |
lpcsa &= ~CSA_PZRO; /* Note that even if at TOF, PZRO does not set */ | |
break; | |
case 05: /* LPRDAT */ | |
if (access == WRITEB) | |
data = (pa & 1)? (lprdat & 0377) | (data << 8): (lprdat & ~0377) | data; | |
lprdat = data & RDAT_MASK; | |
txram[lpcbuf & TX_AMASK] = (int16)(lprdat | TX_PARITY);/* load RAM and mark valid */ | |
break; | |
case 06: /* LPCOLC/LPCBUF */ | |
if ((access == WRITEB) && (pa & 1)) /* odd byte */ | |
lpcolc = data & 0377; | |
else { | |
lpcbuf = data & 0377; /* even byte, word */ | |
if (access == WRITE) | |
lpcolc = (data >> 8) & 0377; | |
} | |
break; | |
case 07: /* LPCSUM/LPPDAT */ | |
break; /* read only */ | |
} /* end case PA */ | |
update_lpcs (0); | |
return SCPE_OK; | |
} | |
/* Line printer service | |
The translation RAM case table is derived from the LP20 spec and | |
verified against the LP20 RAM simulator in TOPS10 7.04 LPTSPL. | |
The equations are: | |
flags := inter, delim, xlate, paper, delim_hold (from CSRA) | |
actions : = print_input, print_xlate, davfu_action, interrupt | |
if (inter) { | |
if (!xlate || delim || delim_hold) | |
interrupt; | |
else if (paper) | |
davfu_action; | |
else print_xlate; | |
} | |
else if (paper) { | |
if (xlate || delim || delim_hold) | |
davfu_action; | |
else print_input; | |
} | |
else { | |
if (xlate || delim || delim_hold) | |
print_xlate; | |
else print_input; | |
} | |
*/ | |
static t_stat lp20_svc (UNIT *uptr) | |
{ | |
int32 fnc, i, tbc, txst; | |
uint16 wd10; | |
t_bool cont; | |
a10 ba; | |
static const uint32 txcase[32] = { | |
TX_CHR, TX_RAM, TX_CHR, TX_DVU, TX_RAM, TX_RAM, TX_DVU, TX_DVU, | |
TX_RAM, TX_RAM, TX_DVU, TX_DVU, TX_RAM, TX_RAM, TX_DVU, TX_DVU, | |
TX_INT, TX_INT, TX_INT, TX_INT, TX_RAM, TX_INT, TX_DVU, TX_INT, | |
TX_INT, TX_INT, TX_INT, TX_INT, TX_INT, TX_INT, TX_INT, TX_INT | |
}; | |
lpcsa = lpcsa & ~CSA_GO; | |
ba = CSA_GETUAE (lpcsa) | lpba; | |
fnc = CSA_GETFNC (lpcsa); | |
tbc = 010000 - lpbc; | |
if (((fnc & FNC_INTERNAL) == 0) && ((uptr->flags & UNIT_ATT) == 0)) { | |
update_lpcs (CSA_ERR); | |
return IORETURN (lp20_stopioe, SCPE_UNATT); | |
} | |
if ((fnc == FNC_PR) && (lpcsb & CSB_DVOF)) { | |
update_lpcs (CSA_ERR); | |
return SCPE_OK; | |
} | |
for (i = 0, cont = TRUE; (i < tbc) && cont; ba++, i++) { | |
if (Map_ReadW (ba, 2, &wd10)) { /* get word, err? */ | |
lpcsb = lpcsb | CSB_MTE; /* set NXM error */ | |
update_lpcs (CSA_ERR); /* set done */ | |
break; | |
} | |
lpcbuf = (wd10 >> ((ba & 1)? 8: 0)) & 0377; /* get character */ | |
lpcsum = (lpcsum + lpcbuf) & 0377; /* add into checksum */ | |
switch (fnc) { /* switch on function */ | |
/* Translation RAM load */ | |
case FNC_RAM: /* RAM load */ | |
txram[(i >> 1) & TX_AMASK] = (wd10 & TX_DMASK) | TX_PARITY; | |
break; | |
/* DAVFU RAM load. The DAVFU RAM is actually loaded in bytes, delimited by | |
a start (354 to 356) and stop (357) byte pair. If the number of bytes | |
loaded is odd, or no bytes are loaded, the DAVFU is invalid. | |
Thus, with DVU load mode set in CSRA, there are three states: | |
0) Inactive 2) Start code seen,even byte 3) Start code seen, odd byte. | |
Normally, only a start or a stop code should be seen in (0), but any other | |
code that is received is ignored. A stop without a corresponding start is | |
legal, and specified to reset the current line pointer to 0 without | |
modifying the content of the RAM. | |
The DAVFU is physically in the printer, so printers with an optical | |
VFU see load data as normal data to be printed. The LP20 logic inhibits | |
the translation RAM in this mode, so any translation will not occur. | |
This is an unexpected condition; the OS/User should check the optical | |
VFU bit before attempting to load a DAVFU. | |
*/ | |
case FNC_DVU: /* DVU load */ | |
if (lpcsb & CSB_OVFU) { | |
/* OS should not attempt to load VFU if printer has Optical VFU. | |
* The DAVFU is in the printer, so it will see the attempted load | |
* as print data. The LP20 inhibits translation. | |
*/ | |
cont = lp20_print (lpcbuf); | |
break; | |
} | |
if ((lpcbuf >= 0354) && (lpcbuf <= 0356)) { /* start DVU load? */ | |
dvlnt = 0; /* reset lnt */ | |
dvld = 2; /* Load is active, even */ | |
if (lpcbuf == 0354) | |
lpi = 6; | |
else if (lpcbuf == 0355) | |
lpi = 8; | |
} | |
else if (lpcbuf == 0357) { /* stop DVU load? */ | |
dvptr = 0; /* reset ptr */ | |
dvld = 0; | |
if ((dvld & 1) || !VFU_LEN_VALID(dvlnt, lpi)) { /* if odd or invalid length */ | |
dvlnt = 0; | |
change_rdy (0, CSA_DVON); | |
} | |
else change_rdy(CSA_DVON, 0); | |
} | |
else if (dvld == 2) { /* even state? */ | |
dvld_hold = lpcbuf & DV_DMASK; | |
dvld = 3; | |
} | |
else if (dvld == 3) { /* odd state? */ | |
if (dvlnt < DV_SIZE) { | |
davfu[dvlnt++] = (int16)(dvld_hold | ((lpcbuf & DV_DMASK) << 6)); | |
dvld = 2; | |
} | |
else { | |
change_rdy (0, CSA_DVON); | |
dvlnt = dvld = 0; | |
} | |
} | |
break; | |
/* Print characters through the translation RAM */ | |
case FNC_PR: /* print */ | |
lprdat = txram[lpcbuf]; /* get RAM char */ | |
if (((lprdat & TX_PARITY) == 0) && (lpcsa & CSA_PAR)) { /* Check for valid */ | |
lpcsb |= CSB_RPE; /* Declare RAM parity error */ | |
cont = FALSE; | |
break; | |
} | |
txst = (TX_GETFL (lprdat) << 1) | /* get state */ | |
((lpcsa & CSA_DELH)? 1: 0); /* plus delim hold */ | |
if (lprdat & TX_DELH) | |
lpcsa = lpcsa | CSA_DELH; | |
else lpcsa = lpcsa & ~CSA_DELH; | |
lpcsa = lpcsa & ~CSA_UNDF; /* assume char ok */ | |
switch (txcase[txst]) { /* case on state */ | |
case TX_CHR: /* take char */ | |
cont = lp20_print (lpcbuf); | |
break; | |
case TX_RAM: /* take translation */ | |
cont = lp20_print (lprdat); | |
break; | |
case TX_DVU: /* DAVFU action */ | |
if (lprdat & TX_SLEW) | |
cont = lp20_adv (lprdat & TX_VMASK, TRUE); | |
else cont = lp20_davfu (lprdat & TX_VMASK); | |
break; | |
case TX_INT: /* interrupt */ | |
lpcsa = lpcsa | CSA_UNDF; /* set flag */ | |
cont = FALSE; /* force stop */ | |
break; | |
} /* end case char state */ | |
break; | |
case FNC_TST: /* test */ | |
break; | |
} /* end case function */ | |
} /* end for */ | |
if (lpcolc == 0) | |
set_flush_timer (uptr); | |
else | |
sim_cancel (uptr+1); | |
lpba = ba & 0177777; | |
lpcsa = (lpcsa & ~CSA_UAE) | ((ba >> (16 - CSA_V_UAE)) & CSA_UAE); | |
lpbc = (lpbc + i) & BC_MASK; | |
if (lpbc) /* intr, but not done */ | |
update_lpcs (CSA_MBZ); | |
else update_lpcs (CSA_DONE); /* intr and done */ | |
if ((fnc == FNC_PR) && ferror (uptr->fileref)) { | |
sim_perror ("LP I/O error"); | |
clearerr (uptr->fileref); | |
return SCPE_IOERR; | |
} | |
return SCPE_OK; | |
} | |
/* Print routines | |
lp20_print print a character | |
lp20_adv advance n lines | |
lp20_davfu advance to channel on VFU | |
Return TRUE to continue printing, FALSE to stop | |
*/ | |
static t_bool lp20_print (int32 c) | |
{ | |
t_bool r = TRUE; | |
int32 i, rpt = 1; | |
lppdat = c & 0177; /* mask char to 7b */ | |
if (lppdat == 000) /* NUL? no op */ | |
return TRUE; | |
if (lppdat == 012) /* LF? adv carriage */ | |
return lp20_adv (1, TRUE); | |
if (lppdat == 014) /* FF? top of form */ | |
return lp20_davfu (DV_TOF); | |
if (lppdat == 015) /* CR? reset col cntr */ | |
lpcolc = -1; | |
else if (lppdat == 011) { /* TAB? simulate */ | |
lppdat = ' '; /* with spaces */ | |
if (lpcolc >= 128) { | |
r = lp20_adv (1, TRUE); /* eol? adv carriage */ | |
rpt = 8; /* adv to col 9 */ | |
} | |
else rpt = 8 - (lpcolc & 07); /* else adv 1 to 8 */ | |
} | |
else { | |
if (lppdat < 040) /* cvt non-prnt to spc */ | |
lppdat = ' '; | |
if (lpcolc >= LP_WIDTH) /* line full? */ | |
r = lp20_adv (1, TRUE); /* adv carriage */ | |
} | |
for (i = 0; i < rpt; i++) | |
fputc (lppdat, lp20_unit->fileref); | |
lp20_unit->pos = (t_addr)sim_ftell (lp20_unit->fileref); | |
lpcolc = lpcolc + rpt; | |
return r; | |
} | |
static t_bool lp20_adv (int32 cnt, t_bool dvuadv) | |
{ | |
int32 i; | |
int stoppc = FALSE; | |
if (cnt == 0) | |
return TRUE; | |
if (lpcsb & CSB_DVOF) | |
return FALSE; | |
/* This logic has changed because it did not account for the case of more than one TOF | |
* occuring in the advance. Consider a tape with odd/even pages, and a slew channel that | |
* stops on the even. If we slew from the bottom of the even, we will pass the TOF of the | |
* odd page and stop on the odd; seeing a second TOF. | |
*/ | |
lpcolc = 0; /* reset col cntr */ | |
for (i = 0; i < cnt; i++) { /* print 'n' newlines; each can complete a page */ | |
fputc ('\n', lp20_unit->fileref); | |
if (dvuadv) { /* update DAVFU ptr */ | |
dvptr = (dvptr + cnt) % dvlnt; | |
if (davfu[dvptr] & (1 << DV_TOF)) { /* at top of form? */ | |
lppagc = (lppagc - 1) & PAGC_MASK; /* decr page cntr */ | |
if (lppagc == 0) { | |
lpcsa = lpcsa | CSA_PZRO; /* stop if zero */ | |
stoppc = TRUE; | |
} | |
} /* At TOF */ | |
} /* update pointer */ | |
} | |
lp20_unit->pos = (t_addr)sim_ftell (lp20_unit->fileref); | |
if (stoppc) /* Crossed one or more TOFs? */ | |
return FALSE; | |
return TRUE; | |
} | |
static t_bool lp20_davfu (int32 cnt) | |
{ | |
int i; | |
if (lpcsb & CSB_DVOF) | |
return FALSE; | |
if (cnt > DV_MAX) /* inval chan? */ | |
cnt = 7; | |
for (i = 0; i < dvlnt; i++) { /* search DAVFU */ | |
dvptr = dvptr + 1; /* adv DAVFU ptr */ | |
if (dvptr >= dvlnt) /* wrap at end */ | |
dvptr = 0; | |
if (davfu[dvptr] & (1 << cnt)) { /* channel stop set? */ | |
if (cnt) /* ~TOF, adv */ | |
return lp20_adv (i + 1, FALSE); | |
if (lpcolc) /* TOF, need newline? */ | |
lp20_adv (1, FALSE); | |
fputc ('\f', lp20_unit->fileref); /* print form feed */ | |
lp20_unit->pos = (t_addr)sim_ftell (lp20_unit->fileref); | |
lppagc = (lppagc - 1) & PAGC_MASK; /* decr page cntr */ | |
if (lppagc != 0) | |
return TRUE; | |
else { | |
lpcsa = lpcsa | CSA_PZRO; /* stop if zero */ | |
return FALSE; | |
} | |
} | |
} /* end for */ | |
change_rdy (0,CSA_DVON); /* Code to channel with no channel stop */ | |
return FALSE; | |
} | |
/* Update LPCSA, optionally request interrupt */ | |
static void update_lpcs (int32 flg) | |
{ | |
if (flg) /* set int req */ | |
lp20_irq = 1; | |
lpcsa = (lpcsa | flg) & ~(CSA_MBZ | CSA_ERR | CSA_ONL); | |
lpcsb = (lpcsb | CSB_OFFL) & ~CSB_MBZ; | |
if (lp20_unit->flags & UNIT_ATT) { | |
lpcsa = lpcsa | CSA_ONL; | |
lpcsb = lpcsb & ~CSB_OFFL; | |
} | |
else lpcsa = lpcsa & ~CSA_DONE; | |
if (lpcsb & CSB_ERR) | |
lpcsa = lpcsa | CSA_ERR; | |
if ((lpcsa & CSA_IE) && lp20_irq) | |
SET_INT (LP20); | |
else CLR_INT (LP20); | |
return; | |
} | |
/* Set and clear READY bits in csa. | |
* used for bits where a transition should cause an interrupt. | |
* also updates corresponding bits in csb. | |
*/ | |
static void change_rdy (int32 setrdy, int32 clrrdy) | |
{ | |
int32 newcsa = (lpcsa | setrdy) & ~clrrdy; | |
if ((newcsa ^ lpcsa) & (CSA_ONL | CSA_DVON) && !sim_is_active (lp20_unit)) { | |
lp20_irq |= 1; | |
if (newcsa & CSA_IE) | |
SET_INT(LP20); | |
} | |
/* CSA_ERR is handled in update_csa */ | |
if (newcsa & CSA_DVON) | |
lpcsb &= ~CSB_DVOF; | |
else | |
lpcsb |= CSB_DVOF; | |
if (newcsa & CSA_ONL) | |
lpcsb &= ~CSB_OFFL; | |
else | |
lpcsb |= CSB_OFFL; | |
lpcsa = newcsa; | |
} | |
/* Acknowledge interrupt (clear internal request) */ | |
static int32 lp20_inta (void) | |
{ | |
lp20_irq = 0; /* clear int req */ | |
return lp20_dib.vec; | |
} | |
/* Simulator RESET | |
* Note that this does not reset the printer's DAVFU or the | |
* translation RAM, which survive system bootstraps. | |
* (SET VFUCLEAR will do that.) | |
* | |
*/ | |
t_stat lp20_reset (DEVICE *dptr) | |
{ | |
/* On power-up reset, clear DAVFU & RAM. Set DAVFU off-line. */ | |
if (sim_switches & SWMASK ('P')) { | |
memset (davfu, 0, sizeof(davfu)); | |
memset (txram, 0, sizeof(txram)); | |
dvlnt = dvptr = dvld= 0; | |
lpcsa &= ~CSA_DVON; | |
lpcsb |= CSB_DVOF; | |
lpi = DEFAULT_LPI; | |
} | |
return lp20_init (dptr); | |
} | |
/* Local init does NOT initialize the DAVFU/TRANSLATION RAMs. | |
* They are in the printer, which reset does not reach. | |
*/ | |
t_stat lp20_init (DEVICE *dptr) | |
{ | |
lpcsa = (lpcsa & CSA_DVON) | CSA_DONE; | |
lpcsb = lpcsb & (CSB_OVFU | CSB_DVOF); | |
lpba = lpbc = lppagc = lpcolc = 0; /* clear registers */ | |
lprdat = lppdat = lpcbuf = lpcsum = 0; | |
lp20_irq = 0; /* clear int req */ | |
sim_cancel (lp20_unit); /* deactivate unit */ | |
if (sim_is_active (lp20_unit+1)) { | |
fflush (lp20_unit->fileref); | |
sim_cancel (lp20_unit+1); | |
} | |
update_lpcs (0); /* update status */ | |
return SCPE_OK; | |
} | |
static t_stat lp20_attach (UNIT *uptr, CONST char *cptr) | |
{ | |
t_stat reason; | |
reason = attach_unit (uptr, cptr); /* attach file */ | |
if (reason == SCPE_OK) { | |
sim_fseek (uptr->fileref, 0, SEEK_END); | |
uptr->pos = (t_addr)sim_ftell (uptr->fileref); | |
} | |
if (lpcsa & CSA_DVON) { | |
int i; | |
for (i = 0; i < dvlnt; i++) { /* Align VFU with new file */ | |
if (davfu[dvptr] & (1 << DV_TOF)) | |
break; | |
dvptr = (dvptr +1) % dvlnt; | |
} | |
if (!(davfu[dvptr] & (1 << DV_TOF))) /* No TOP channel -> bad VFU */ | |
change_rdy (0, CSA_DVON); | |
} | |
if (lpcsa & CSA_ONL) /* just file chg? */ | |
return reason; | |
if (sim_is_active (lp20_unit)) /* busy? no int */ | |
update_lpcs (0); | |
else update_lpcs (CSA_MBZ); /* interrupt */ | |
return reason; | |
} | |
static t_stat lp20_detach (UNIT *uptr) | |
{ | |
t_stat reason; | |
if (!(uptr->flags & UNIT_ATT)) /* attached? */ | |
return SCPE_OK; | |
if (sim_is_active (lp20_unit+1)) { | |
fflush (lp20_unit->fileref); | |
sim_cancel (lp20_unit+1); | |
} | |
reason = detach_unit (uptr); | |
sim_cancel (lp20_unit); | |
lpcsa = lpcsa & ~CSA_GO; | |
update_lpcs (CSA_MBZ); | |
return reason; | |
} | |
/* Set a timer after which, if idle, the IO buffer will be flushed. | |
* This allows simulator users to see their output. | |
* The timeout is in seconds; this is problematic with sim_activate timers. | |
* So u3 contains the number of seconds desired, and u4 the number to go. | |
*/ | |
static void set_flush_timer (UNIT *uptr) { | |
uptr = lp20_unit+1; | |
uptr->u4 = uptr->u3; | |
uptr->u5 = (int32)time(NULL); | |
sim_cancel(uptr); | |
sim_activate_after (uptr, uptr->wait); | |
} | |
static t_stat idle_svc (UNIT *uptr) | |
{ | |
if (--uptr->u4 > 0) { | |
sim_activate_after (uptr, uptr->wait); | |
return SCPE_OK; | |
} | |
uptr = lp20_unit+1; | |
fflush (uptr->fileref); | |
return SCPE_OK; | |
} | |
static t_stat lp20_set_vfu_type (UNIT *uptr, int32 val, CONST char *gptr, void *desc) | |
{ | |
char gbuf[CBUFSIZE], *cptr; | |
char *fname, *cp; | |
FILE *vfile; | |
int sum = 0; | |
if (!gptr || !*gptr) | |
return SCPE_ARG; | |
gbuf[sizeof(gbuf)-1] = '\0'; | |
strncpy (gbuf, gptr, sizeof(gbuf)-1); | |
cptr = gbuf; | |
fname = strchr (cptr, '='); | |
if (fname) | |
*fname++ = '\0'; | |
for (cp = cptr; *cp; cp++) | |
*cp = (char)toupper (*cp); | |
if (strncmp (cptr, "DAVFU", strlen(cptr)) == 0) { /* set lp20 vfutype=davfu: Switch to DAVFU, empty */ | |
if (fname && *fname) | |
return SCPE_ARG; | |
if (!(lpcsb & CSB_OVFU)) /* No change */ | |
return SCPE_OK; | |
if (uptr->flags & UNIT_ATT) | |
return SCPE_NOATT; | |
lpcsb &= ~CSB_OVFU; | |
change_rdy (0, CSA_DVON); | |
dvptr = 0; | |
dvlnt = 0; | |
return SCPE_OK; | |
} | |
if (strncmp (cptr, "OPTICAL", strlen(cptr)) != 0) | |
return SCPE_ARG; | |
if (!fname || !*fname) { /* set lp20 vfutype=optical */ | |
if ((uptr->flags & UNIT_ATT) && !(lpcsb & CSB_OVFU)) | |
return SCPE_NOATT; | |
lpcsb |= CSB_OVFU; | |
change_rdy (CSA_DVON, 0); | |
memcpy (davfu, defaultvfu, sizeof defaultvfu); | |
dvlnt = sizeof (defaultvfu) / sizeof (defaultvfu[0]); | |
dvptr = 0; | |
return SCPE_OK; | |
} | |
/* set lp20 vfutype=optical=file | |
* This is OK when attached, so long as not changing from DAVFU. | |
* Read an optical tape file. These are line-oriented ASCII files: | |
* # ! ; comment | |
* lno: [ch [ch]...] Define line lno (0-length-1 with punches in | |
* channel(s) ch (1-12) | |
* Not required to be in order, if a lno appears more than once, the entries | |
* are ORed. (You can't unpunch a tape.) | |
* The highest lno defines the VFU length. Note that there is confusion about | |
* whether line numbers start at one or at zero. The HRM uses 0. Some of the | |
* utilitites use 1. We stick with 0 here.. | |
*/ | |
if (!(lpcsb & CSB_OVFU) && (uptr->flags & UNIT_ATT)) /* Changing device out from under OS */ | |
return SCPE_NOATT; | |
vfile = sim_fopen( fname, "r" ); | |
if (vfile == NULL) { | |
return SCPE_OPENERR; | |
} | |
memset (davfu, 0, sizeof davfu); | |
dvptr = dvlnt = 0; | |
while (!feof(vfile)) { | |
int32 line, hole; | |
int c; | |
/* Discard comments */ | |
c = fgetc(vfile); | |
if (c == EOF) | |
break; | |
if ((c == '#') || (c == ';') || (c == '!')) { | |
while (!feof(vfile) && (c != '\n')) | |
c = fgetc(vfile); | |
continue; | |
} | |
ungetc(c, vfile); | |
/* Read a line number */ | |
c = fscanf (vfile, " %u:", &line); | |
if (c == EOF) | |
break; | |
if ((c < 1) || (line < 0) || (((size_t)line) >= (sizeof (davfu)/sizeof davfu[0]))) | |
goto fmt_err; | |
if (line+1 > dvlnt) | |
dvlnt = line+1; | |
/* Read channel numbers for current line */ | |
while (!feof(vfile)) { | |
do { | |
c = fgetc (vfile); | |
} while (isspace(c) && (c != '\n')); | |
if ((c == '\n') || (c == EOF)) | |
break; | |
ungetc(c, vfile); | |
c = fscanf (vfile, "%u", &hole); | |
if ((c == EOF) || (c < 1) || (c > 12)) | |
goto fmt_err; | |
sum |= (davfu[line] |= 1 << (hole -1)); | |
} /* End of line */ | |
} /* EOF */ | |
/* Validate VFU content */ | |
if (!(sum & (1 << DV_TOF))) /* Verify that at least one punch is in the TOF channel. */ | |
goto fmt_err; | |
if (!VFU_LEN_VALID(dvlnt, lpi)) /* Verify VFU has minimum number of lines */ | |
goto fmt_err; | |
fclose(vfile); | |
lpcsb |= CSB_OVFU; | |
change_rdy (CSA_DVON, 0); | |
return SCPE_OK; | |
fmt_err: | |
dvlnt = 0; | |
change_rdy (0, CSA_DVON); | |
fclose(vfile); | |
return SCPE_FMT; | |
} | |
static t_stat lp20_show_vfu_type (FILE *st, UNIT *up, int32 v, CONST void *dp) | |
{ | |
if (lpcsb & CSB_OVFU) | |
fprintf (st, "optical VFU"); | |
else | |
fprintf (st, "DAVFU"); | |
if (lpcsa & CSA_DVON) | |
fprintf (st, " loaded: %u lines, %.1f in", dvlnt, (((double)dvlnt)/lpi)); | |
else | |
fprintf (st, " not ready"); | |
return SCPE_OK; | |
} | |
static t_stat lp20_set_lpi (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
int32 newlpi; | |
if (uptr->flags & UNIT_ATT) | |
return SCPE_NOATT; | |
if (!cptr || !*cptr) | |
newlpi = DEFAULT_LPI; | |
else if (!strcmp (cptr, "6") || !strcmp (cptr, "6-LPI")) | |
newlpi = 6; | |
else if (!strcmp (cptr, "8") || !strcmp (cptr, "8-LPI")) | |
newlpi = 8; | |
else | |
return SCPE_ARG; | |
if ((lpcsa & CSA_DVON) && !VFU_LEN_VALID(dvlnt, newlpi)) | |
return SCPE_ARG; | |
lpi = newlpi; | |
return SCPE_OK; | |
} | |
static t_stat lp20_show_lpi (FILE *st, UNIT *up, int32 v, CONST void *dp) | |
{ | |
fprintf (st, "%u LPI", lpi); | |
return SCPE_OK; | |
} | |
static t_stat lp20_show_vfu (FILE *st, UNIT *up, int32 v, CONST void *dp) | |
{ | |
int l, c, sum; | |
if (lpcsb & CSB_OVFU) | |
fprintf (st, "Tape"); | |
else | |
fprintf (st, "DAFVU"); | |
if (lpcsb & CSB_DVOF) { | |
fprintf (st, " is not loaded\n"); | |
return SCPE_OK; | |
} | |
fprintf (st, " contains:\n" | |
" 1 1 1\n" | |
"line 2 1 0 9 8 7 6 5 4 3 2 1\n" | |
"---- - - - - - - - - - - - -\n"); | |
sum = 0; | |
for (l = 0; l < dvlnt; l++) { | |
if ( l && !(l % 5) ) | |
fputc ('\n', st); | |
fprintf (st, "%4u", l); | |
for (c = DV_MAX; c >= 0; c--) | |
fprintf (st, " %c", (davfu[l] & (1 << c))? ((c >= 9)? 'X': '1'+c) : ' '); | |
fputc ('\n', st); | |
sum |= davfu[l]; | |
} | |
if (!(sum & (1 << DV_TOF))) { | |
fprintf (st, "? No stop in channel %u (Top-of-Form)\n", DV_TOF+1); | |
} | |
if (!(sum & (1 << DV_BOF))) { | |
fprintf (st, "%% No stop in channel %u (Bottom-of-Form)\n", DV_BOF+1); | |
} | |
return SCPE_OK; | |
} | |
static t_stat lp20_set_tof (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
int32 s_lpcsa = lpcsa; | |
int32 s_lppagc = lppagc; | |
if (cptr && *cptr) | |
return SCPE_ARG; | |
if (!(uptr->flags & UNIT_ATT)) | |
return SCPE_NOATT; | |
if (lpcsb & CSB_DVOF) | |
return SCPE_INCOMP; | |
lp20_davfu (DV_TOF); | |
lppagc = s_lppagc; | |
lpcsa = s_lpcsa; | |
return SCPE_OK; | |
} | |
static int16 evenbits (int16 value) | |
{ | |
int16 even = 1; | |
while (value) { | |
even ^= 1; | |
value &= value-1; | |
} | |
return even; | |
} | |
static t_stat lp20_clear_vfu (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
int i; | |
if (!get_yn ("Clear DAVFU & RAM? [N]", FALSE)) | |
return SCPE_OK; | |
for (i = 0; i < DV_SIZE; i++) | |
davfu[i] = 0; | |
for (i = 0; i < TX_SIZE; i++) | |
txram[i] = 0; | |
dvlnt = dvptr = dvld= 0; | |
change_rdy (0, CSA_DVON); | |
update_lpcs (0); | |
return SCPE_OK; | |
} | |
static t_stat lp20_help (FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, const char *cptr) | |
{ | |
fprintf (st, | |
"The LP20 DMA line printer controller is a UNIBUS device developed by the 36-bit product line.\n" | |
"The controller is used in the KS10, in PDP-11 based remote stations and in the KL10 console.\n" | |
"Several models of line printer can be (and were) attached to the LP20; with the long lines\n" | |
"option, up to 100 feet from the controller. Each LP20 controls one line printer.\n\n" | |
"Besides DMA, the LP20 incorporates a translation RAM that can handle case translation and more\n" | |
"sophisticated processing, such as representing control characters as ^x and FORTRAN carriage\n" | |
"control. In the former case, special characters are flagged for OS attention with an interrupt.\n" | |
"But FORTRAN carriage control can be handled entirely by the hardware. The RAM is loaded by\n" | |
"the host procesor. The LP20 supports printers with the traditional paper tape VFU, which is \n" | |
"used to define vertical motion. It also suports the DAVFU, (direct access) which is the electronic\n" | |
"equivalent of the optical tape. The DAVFU is more convenient for operators, as the print spooler\n" | |
"changes it automatically to match the forms. The traditional paper tape was read for every line\n" | |
"printed. Later printers read the tape at power-up (or change) and cached the data in on-board RAM.\n" | |
"This reduced wear on the tape (and the operator), and provides an example of hardware emulating hardware.\n\n" | |
"Emulator specifics:\n" | |
"The emulator can be configured with either a optical or a DAVFU. When the optical VFU is configured\n" | |
"a default tape is provided, which is setup for a 66 line page with a 60 line printable area, and\n" | |
"the DEC standard channels punched. (These correspond to FORTRAN carriage control.)\n\n" | |
"A custom optical tape can be configured with the SET lp20 VFUTYPE=OPTICAL=filename command. This will\n" | |
"load an ASCII file into the VFU, which has the following format:\n" | |
" #. ; ! at the beginning of a line are comments, and ignored.\n" | |
" line: n,m,o\n" | |
" These lines indicate the channels to be punched in each line. That is, that the paper\n" | |
" motion will stop when a \"move to channel n\" command is received.\n" | |
" The line number is decimal, between 0 and the page length -1.\n" | |
" The channel number can be between 1 and 12 - although most printers supported only 1-8\n" | |
" Channel 0 is the TOP OF FORM channel, and must be punched in at least one line.\n\n" | |
" Channel 12 is the BOTTOM OF FORM channel. Some printers use this to allow completion of the\n" | |
" last page when PAPER OUT is detected. Paper out sensors tended to alert early.\n" | |
" SET LP20 VFUTYPE=DAVFU (the default) configures the LP20 for a printer with a DAVFU.\n" | |
"\n" | |
"SET LP20 TOPOFFORM advances the paper to the top of the next page by slewing to VFU channel 0, as\n" | |
"does the TOP OF FORM button on a physical printer.\n" | |
"The DAVFU and translation RAMs survive RESET unless RESET -P is used. SET LP20 CLEARVFU is\n" | |
"provided to clear them independently.\n"); | |
return SCPE_OK; | |
} | |
static const char *lp20_description (DEVICE *dptr) | |
{ | |
return "DMA Line Printer controller"; | |
} |