/* pdp10_dtc.c: 18b 551 DECtape simulator Copyright (c) 2017 Richard Cornwell Based on PDP18B/pdp18b_dt.c by: Copyright (c) 1993-2017, 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 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. 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. Except as contained in this notice, the name of Richard Cornwell shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from Richard Cornwell. dt (PDP-4, PDP-7) Type 550/555 DECtape (PDP-6) Type 551 Dectape (PDP-9) TC02/TU55 DECtape (PDP-10) TD10/TU55 DECtape (PDP-15) TC15/TU56 DECtape 18b DECtapes are represented in memory by fixed length buffer of 32b words. Three file formats are supported: 18b/36b 256 words per block [256 x 18b] 16b 256 words per block [256 x 16b] 12b 129 words per block [129 x 12b] When a 16b or 12b DECtape file is read in, it is converted to 18b/36b format. DECtape motion is measured in 3b lines. Time between lines is 33.33us. Tape density is nominally 300 lines per inch. The format of a DECtape (as taken from the PDP-7 formatter) is: reverse end zone 7144 reverse end zone codes ~ 12 feet reverse buffer 200 interblock codes block 0 : block n forward buffer 200 interblock codes forward end zone 7144 forward end zone codes ~ 12 feet A block consists of five 18b header words, a tape-specific number of data words, and five 18b trailer words. All systems except the PDP-8 use a standard block length of 256 words; the PDP-8 uses a standard block length of 86 words (x 18b = 129 words x 12b). PDP-4/7 DECtapes came in two formats. The first 5 controllers used a 4 word header/trailer (missing word 0/4). All later serial numbers used the standard header. The later, standard header/trailer is simulated here. Because a DECtape file only contains data, the simulator cannot support write timing and mark track and can only do a limited implementation of read all and write all. Read all assumes that the tape has been conventionally written forward: header word 0 0 header word 1 block number (for forward reads) header words 2,3 0 header word 4 checksum (for reverse reads) : trailer word 4 checksum (for forward reads) trailer words 3,2 0 trailer word 1 block number (for reverse reads) trailer word 0 0 Write all writes only the data words and dumps the interblock words in the bit bucket. */ #include "kx10_defs.h" #ifndef NUM_DEVS_DTC #define NUM_DEVS_DTC 0 #endif #if (NUM_DEVS_DTC > 0) #define DTC_DEVNUM 0210 #define DTC_NUMDR 8 /* #drives */ #define UNIT_V_8FMT (UNIT_V_UF + 0) /* 12b format */ #define UNIT_V_11FMT (UNIT_V_UF + 1) /* 16b format */ #define UNIT_8FMT (1 << UNIT_V_8FMT) #define UNIT_11FMT (1 << UNIT_V_11FMT) /* System independent DECtape constants */ #define DT_LPERMC 6 /* lines per mark track */ #define DT_BLKWD 1 /* blk no word in h/t */ #define DT_CSMWD 4 /* checksum word in h/t */ #define DT_HTWRD 5 /* header/trailer words */ #define DT_EZLIN (8192 * DT_LPERMC) /* end zone length */ #define DT_BFLIN (200 * DT_LPERMC) /* buffer length */ #define DT_BLKLN (DT_BLKWD * DT_LPERMC) /* blk no line in h/t */ #define DT_CSMLN (DT_CSMWD * DT_LPERMC) /* csum line in h/t */ #define DT_HTLIN (DT_HTWRD * DT_LPERMC) /* header/trailer lines */ /* 16b, 18b, 36b DECtape constants */ #define D18_WSIZE 6 /* word size in lines */ #define D18_BSIZE 256 /* block size in 18b */ #define D18_TSIZE 578 /* tape size */ #define D18_LPERB (DT_HTLIN + (D18_BSIZE * DT_WSIZE) + DT_HTLIN) #define D18_FWDEZ (DT_EZLIN + (D18_LPERB * D18_TSIZE)) #define D18_CAPAC (D18_TSIZE * D18_BSIZE) /* tape capacity */ #define D11_FILSIZ (D18_CAPAC * sizeof (int16)) /* 12b DECtape constants */ #define D8_WSIZE 4 /* word size in lines */ #define D8_BSIZE 86 /* block size in 18b */ #define D8_TSIZE 1474 /* tape size */ #define D8_LPERB (DT_HTLIN + (D8_BSIZE * DT_WSIZE) + DT_HTLIN) #define D8_FWDEZ (DT_EZLIN + (D8_LPERB * D8_TSIZE)) #define D8_CAPAC (D8_TSIZE * D8_BSIZE) /* tape capacity */ #define D8_NBSIZE ((D8_BSIZE * D18_WSIZE) / D8_WSIZE) #define D8_FILSIZ (D8_NBSIZE * D8_TSIZE * sizeof (int16)) /* This controller */ #define DT_CAPAC D18_CAPAC /* default */ #define DT_WSIZE D18_WSIZE /* Calculated constants, per unit */ #define DTU_BSIZE(u) (((u)->flags & UNIT_8FMT)? D8_BSIZE: D18_BSIZE) #define DTU_TSIZE(u) (((u)->flags & UNIT_8FMT)? D8_TSIZE: D18_TSIZE) #define DTU_LPERB(u) (((u)->flags & UNIT_8FMT)? D8_LPERB: D18_LPERB) #define DTU_FWDEZ(u) (((u)->flags & UNIT_8FMT)? D8_FWDEZ: D18_FWDEZ) #define DTU_CAPAC(u) (((u)->flags & UNIT_8FMT)? D8_CAPAC: D18_CAPAC) #define DT_LIN2BL(p,u) (((p) - DT_EZLIN) / DTU_LPERB (u)) #define DT_LIN2OF(p,u) (((p) - DT_EZLIN) % DTU_LPERB (u)) #define DT_LIN2WD(p,u) ((DT_LIN2OF (p,u) - DT_HTLIN) / DT_WSIZE) #define DT_BLK2LN(p,u) (((p) * DTU_LPERB (u)) + DT_EZLIN) #define DT_QREZ(u) (((u)->pos) < DT_EZLIN) #define DT_QFEZ(u) (((u)->pos) >= ((uint32) DTU_FWDEZ (u))) #define DT_QEZ(u) (DT_QREZ (u) || DT_QFEZ (u)) /* Command register, status A */ #define CMD u3 #define DTC_FLAG_PIA 07 /* PI Channel */ #define DTC_V_UNIT 3 /* unit select */ #define DTC_M_UNIT 07 #define DTC_V_FNC 6 #define DTC_M_FNC 07 #define FNC_MOVE 00 /* move */ #define FNC_RALL 01 /* read all */ #define FNC_SRCH 02 /* search */ #define FNC_READ 03 /* read */ #define FNC_WMRK 04 /* write timing */ #define FNC_WALL 05 /* write All */ #define FNC_WBLK 06 /* Write Block */ #define FNC_WRIT 07 /* write data */ #define DTC_DELAY 0003000 /* Initial delay time */ #define DTC_TIME 0004000 /* Delay */ #define DTC_RVDRV 0010000 /* Move unit reverse */ #define DTC_START 0020000 /* Start unit */ #define DTC_JDONE 0040000 /* Enable Job done */ #define DTC_ETF 0100000 /* Enable End of tape flag */ #define DTC_SEL 0200000 /* Select unit */ /* Flags in lower bits of u3 (unit position) */ #define DTC_FNC_STOP 010 /* Unit stopping */ #define DTC_FNC_START DTC_START /* Start unit motion */ #define DTC_FNC_REV DTC_RVDRV /* Unit to change direction */ #define DTC_GETFNC(x) (((x) >> DTC_V_FNC) & DTC_M_FNC) #define DTC_GETUNI(x) (((x) >> DTC_V_UNIT) & DTC_M_UNIT) /* Status register B */ #define DTB_DONE 0000001 #define DTB_EOT 0000002 #define DTB_ILL 0000004 #define DTB_PAR 0000010 #define DTB_TIME 0000020 #define DTB_WR 0000040 #define DTB_INCBLK 0000100 #define DTB_NULL 0000200 #define DTB_ACT 0000400 #define DTB_REQ 0001000 #define DTB_DLY 0002000 #define DSTATE u5 /* Dectape current state */ /* Current Dectape state in u5 */ #define DTC_FEND 0 /* Tape in endzone */ #define DTC_FBLK 1 /* In forward block number */ #define DTC_FCHK 2 /* In forward checksum */ #define DTC_BLOCK 3 /* In block */ #define DTC_RCHK 4 /* In reverse checksum */ #define DTC_RBLK 5 /* In reverse block number */ #define DTC_REND 7 /* In final endzone */ #define DTC_MOTMASK 0370 #define DTC_MOT 0010 /* Tape in motion */ #define DTC_REV 0020 /* Tape in reverse */ #define DTC_XFR 0040 /* Tranfer block */ #define DTC_STOP 0100 /* Tape to stop */ #define DTC_ACCL 0200 /* Tape accel or decl */ #define DTC_V_WORD 8 /* Shift for word count */ #define DTC_M_WORD 0177 /* 128 words per block */ #define DTC_V_BLK 16 /* Shift for Block number */ #define DTC_M_BLK 01777 /* Block mask */ #define DELAY u4 /* Hold delay time in DT WORDS */ /* Logging */ #define LOG_MS 00200 /* move, search */ #define LOG_RW 00400 /* read, write */ #define LOG_RA 01000 /* read all */ #define LOG_BL 02000 /* block # lblk */ #define ABS(x) (((x) < 0)? (-(x)): (x)) #define DT_WRDTIM 15000 #define WRITTEN u6 int32 dtc_dtsa = 0; /* status A */ int32 dtc_dtsb = 0; /* status B */ int dtc_dct = 0; t_stat dtc_devio(uint32 dev, uint64 *data); t_stat dtc_svc (UNIT *uptr); t_stat dtc_boot(int32 unit_num, DEVICE * dptr); t_stat dtc_set_dct (UNIT *, int32, CONST char *, void *); t_stat dtc_show_dct (FILE *, UNIT *, int32, CONST void *); t_stat dtc_reset (DEVICE *dptr); t_stat dtc_attach (UNIT *uptr, CONST char *cptr); void dtc_flush (UNIT *uptr); t_stat dtc_detach (UNIT *uptr); /* DT data structures dtc_dev DTC device descriptor dtc_unit DTC unit list dtc_reg DTC register list dtc_mod DTC modifier list */ #if !PDP6 #define D DEV_DIS #else #define D 0 #endif DIB dtc_dib = { DTC_DEVNUM, 2, &dtc_devio, NULL}; UNIT dtc_unit[] = { { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) }, { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) }, { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) }, { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) }, { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) }, { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) }, { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) }, { UDATA (&dtc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ UNIT_ROABLE, DT_CAPAC) } }; REG dtc_reg[] = { { ORDATA (DTSA, dtc_dtsa, 18) }, { URDATA (POS, dtc_unit[0].pos, 10, T_ADDR_W, 0, DTC_NUMDR, PV_LEFT | REG_RO) }, { NULL } }; MTAB dtc_mod[] = { { MTAB_XTD|MTAB_VUN, 0, "write enabled", "WRITEENABLED", &set_writelock, &show_writelock, NULL, "Write enable tape drive" }, { MTAB_XTD|MTAB_VUN, 1, NULL, "LOCKED", &set_writelock, NULL, NULL, "Write lock tape drive" }, { UNIT_8FMT + UNIT_11FMT, 0, "18b", NULL, NULL }, { UNIT_8FMT + UNIT_11FMT, UNIT_8FMT, "12b", NULL, NULL }, { UNIT_8FMT + UNIT_11FMT, UNIT_11FMT, "16b", NULL, NULL }, { MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "DCT", "DCT", &dtc_set_dct, &dtc_show_dct, NULL}, { 0 } }; DEBTAB dtc_deb[] = { { "CMD", DEBUG_CMD, "Show command execution to devices"}, { "DATA", DEBUG_DATA, "Show data transfers"}, { "DETAIL", DEBUG_DETAIL, "Show details about device"}, { "EXP", DEBUG_EXP, "Show exception information"}, { "CONI", DEBUG_CONI, "Show coni instructions"}, { "CONO", DEBUG_CONO, "Show cono instructions"}, { "DATAIO", DEBUG_DATAIO, "Show datai and datao instructions"}, { "MOTION", LOG_MS }, { "DATA", LOG_RW }, { "READALL", LOG_RA }, { "BLOCK", LOG_BL }, { NULL, 0 } }; DEVICE dtc_dev = { "DTC", dtc_unit, dtc_reg, dtc_mod, DTC_NUMDR, 8, 24, 1, 8, 18, NULL, NULL, &dtc_reset, &dtc_boot, &dtc_attach, &dtc_detach, &dtc_dib, DEV_DISABLE | DEV_DEBUG | D, 0, dtc_deb, NULL, NULL }; int delay[] = { 0, 50, 100, 500 }; /* IOT routines */ t_stat dtc_devio(uint32 dev, uint64 *data) { int i; switch(dev & 07) { case CONI: *data = (uint64)dtc_dtsa; sim_debug(DEBUG_CONI, &dtc_dev, "DTC %03o CONI %06o PC=%o\n", dev, (uint32)*data, PC); break; case CONO: clr_interrupt(dev); /* Copy over command and priority */ dtc_dtsa = *data & (DTC_FLAG_PIA|(DTC_M_FNC << DTC_V_FNC)|DTC_TIME|DTC_RVDRV| \ DTC_START|DTC_JDONE|DTC_ETF|DTC_SEL); dtc_dtsb = 0; sim_debug(DEBUG_CONO, &dtc_dev, "DTC %03o CONO %06o PC=%o\n", dev, (uint32)*data, PC); i = DTC_GETUNI(*data); #if DTC_NUMDR < 8 if (i >= DTC_NUMDR) { dtc_dtsb |= DTB_ILL; set_interrupt(DTC_DEVNUM, dtc_dtsa); return SCPE_OK; } #endif if (*data & DTC_DELAY) { dtc_dtsb |= DTB_DLY; dtc_unit[i].DELAY = delay[(*data >> 9) & 3]; } /* Check if we are selecting a drive or not */ if (*data & DTC_SEL) { if ((dtc_unit[i].flags & UNIT_ATT) == 0) { dtc_dtsb |= DTB_ILL; set_interrupt(DTC_DEVNUM, dtc_dtsa); return SCPE_OK; } if ((*data & DTC_START) != 0) { /* Start the unit if not already running */ dtc_unit[i].CMD = (dtc_dtsa & 0377707); if ((dtc_unit[i].DSTATE & DTC_MOT) == 0) { if (!sim_is_active(&dtc_unit[i])) { sim_activate(&dtc_unit[i], 10000); } } } else { dtc_unit[i].CMD |= DTC_FNC_STOP; } dtc_dtsb |= DTB_REQ; } else { /* If not selecting, but delaying, give it to a unit to handle */ if (dtc_dtsb & DTB_DLY) { dtc_unit[i].CMD = (dtc_dtsa & 0007007); if ((dtc_unit[i].DSTATE & DTC_MOT) == 0) { if (!sim_is_active(&dtc_unit[i])) { sim_activate(&dtc_unit[i], 10000); } } } /* Not selecting any, stop all */ for (i = 0; i < DTC_NUMDR; i++) dtc_unit[i].CMD = DTC_FNC_STOP; dtc_dtsb |= DTB_NULL; } break; case DATAI: break; case DATAO: break; case CONI|04: *data = dtc_dtsb; sim_debug(DEBUG_CONI, &dtc_dev, "DTB %03o CONI %012llo PC=%o\n", dev, *data, PC); break; case CONO|04: break; case DATAI|4: break; case DATAO|4: break; } return SCPE_OK; } /* Unit service Unit must be attached, detach cancels operation */ t_stat dtc_svc (UNIT *uptr) { int word; uint64 data = 0; uint32 *fbuf = (uint32 *) uptr->filebuf; /* file buffer */ int u = uptr-dtc_unit; int blk; int off; /* * Check if in motion or stopping. */ if (uptr->DSTATE & DTC_MOT) { /* Check if stoping */ if ((uptr->CMD & DTC_FNC_STOP) != 0) { /* Stop delay */ sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o stopping\n", u); sim_activate(uptr, DT_WRDTIM*10); uptr->DSTATE &= ~(DTC_MOT); blk = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; uptr->DSTATE = (0100 << DTC_V_WORD) | DTC_BLOCK | (uptr->DSTATE & DTC_MOTMASK); if (uptr->DSTATE & DTC_REV) { if (blk <= 0) { blk = 0; uptr->DSTATE = DTC_FEND | (uptr->DSTATE & DTC_MOTMASK); } else { blk--; } } else { if (blk <= 01100) blk++; } dtc_dtsb |= DTB_DONE; if ((uptr->CMD & DTC_JDONE) != 0) set_interrupt(DTC_DEVNUM, dtc_dtsa); /* If we were delaying, all done, notify CPU if it asked to know */ if ((dtc_dtsb & DTB_DLY) != 0) { uptr->DELAY = 0; dtc_dtsb |= DTB_TIME; dtc_dtsb &= ~DTB_DLY; if(uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } dtc_dtsb &= ~(DTB_REQ|DTB_ACT); dtc_dtsb |= DTB_NULL; uptr->CMD &= 077077; uptr->DSTATE |= (blk << DTC_V_BLK); return SCPE_OK; } /* Set tape to move in correct direction */ if (uptr->CMD & DTC_RVDRV) { if ((uptr->DSTATE & DTC_REV) == 0) { sim_activate(uptr, DT_WRDTIM*10); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o reversing\n", u); uptr->DSTATE |= DTC_REV; uptr->DELAY -= 10; return SCPE_OK; } } else { if ((uptr->DSTATE & DTC_REV) != 0) { sim_activate(uptr, DT_WRDTIM*10); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o reversing\n", u); uptr->DSTATE &= ~DTC_REV; uptr->DELAY -= 10; return SCPE_OK; } } /* Moving in reverse direction */ if (uptr->DSTATE & DTC_REV) { switch (uptr->DSTATE & 7) { case DTC_FEND: /* Tape in endzone */ /* Set stop */ sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o rev forward end\n", u); dtc_dtsb |= DTB_EOT|DTB_NULL; dtc_dtsb &= ~(DTB_REQ|DTB_ACT); if (uptr->CMD & DTC_ETF) set_interrupt(DTC_DEVNUM, dtc_dtsa); uptr->CMD |= DTC_FNC_STOP; sim_activate(uptr, DT_WRDTIM*10); if ((dtc_dtsb & DTB_DLY) != 0) { uptr->DELAY = 0; dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; case DTC_FBLK: /* In forward block number */ sim_activate(uptr,DT_WRDTIM); uptr->DELAY --; word = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; word--; if (word <= 0) uptr->DSTATE = DTC_FEND | (uptr->DSTATE & DTC_MOTMASK); else uptr->DSTATE = DTC_RBLK|(word << DTC_V_BLK) | (uptr->DSTATE & DTC_MOTMASK); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o rev forward block\n", u); switch (DTC_GETFNC(uptr->CMD)) { case FNC_RALL: if (dtc_dtsb & DTB_ACT) { if (dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; } break; case FNC_READ: case FNC_WRIT: if (dtc_dtsb & DTB_REQ) { dtc_dtsb &= ~DTB_REQ; dtc_dtsb |= DTB_ACT; } break; case FNC_SRCH: case FNC_MOVE: break; case FNC_WALL: case FNC_WBLK: (void)dct_read(dtc_dct, &data, 6); break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; } break; case DTC_FCHK: /* In forward checksum */ sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o rev forward check\n", u); sim_activate(uptr,DT_WRDTIM*2); /* Disconnect if DCT no longer attached */ if ((dtc_dtsb & DTB_ACT) != 0 && dct_is_connect(dtc_dct) == 0) dtc_dtsb |= DTB_DONE; uptr->DELAY -= 2; word = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; uptr->DSTATE = DTC_FBLK|(word << DTC_V_BLK) | (uptr->DSTATE & DTC_MOTMASK); if ((dtc_dtsb & DTB_DLY) != 0) { if (uptr->DELAY < 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; } switch (DTC_GETFNC(uptr->CMD)) { case FNC_RALL: if (dtc_dtsb & DTB_ACT) { blk = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; if (blk < 075) data = 0721200220107LL; else if (blk > 075) data = 0721200233107LL; else data = 0577777777777LL; if (dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; } break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; case FNC_SRCH: case FNC_WRIT: case FNC_WALL: case FNC_READ: case FNC_WBLK: case FNC_MOVE: break; } break; case DTC_BLOCK: /* In block */ uptr->DELAY --; sim_activate(uptr,DT_WRDTIM); blk = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; word = (uptr->DSTATE >> DTC_V_WORD) & DTC_M_WORD; off = ((blk << 7) + word) << 1; /* Check if at end of block */ if (word == 0) { uptr->DSTATE &= ~((DTC_M_WORD << DTC_V_WORD) | 7); uptr->DSTATE |= DTC_FCHK; /* Move to Checksum */ } else { uptr->DSTATE &= ~(DTC_M_WORD << DTC_V_WORD); uptr->DSTATE |= (word - 1) << DTC_V_WORD; } if ((dtc_dtsb & DTB_DLY) || (dtc_dtsb & DTB_ACT) == 0) break; switch (DTC_GETFNC(uptr->CMD)) { case FNC_MOVE: case FNC_SRCH: case FNC_WBLK: break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; case FNC_RALL: case FNC_READ: data = ((uint64)fbuf[off]) << 18; data |= ((uint64)fbuf[off+1]); if (dct_write(dtc_dct, &data, 6) == 0) { dtc_dtsb &= ~DTB_ACT; dtc_dtsb |= DTB_INCBLK|DTB_DONE; } break; case FNC_WRIT: case FNC_WALL: if (dct_read(dtc_dct, &data, 6) == 0) { dtc_dtsb &= ~DTB_ACT; dtc_dtsb |= DTB_INCBLK|DTB_DONE; } fbuf[off] = (data >> 18) & RMASK; fbuf[off+1] = data & RMASK; uptr->WRITTEN = 1; uptr->hwmark = uptr->capac; break; } sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o rev data word %o:%o %012llo %d %06o %06o\n", u, blk, word, data, off, fbuf[off], fbuf[off+1]); break; case DTC_RCHK: /* In reverse checksum */ sim_activate(uptr,DT_WRDTIM*2); uptr->DELAY -= 2; sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o rev reverse check %06o %06o\n", u, uptr->CMD, dtc_dtsb); word = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; uptr->DSTATE = DTC_BLOCK|(word << DTC_V_BLK)|(DTC_M_WORD << DTC_V_WORD) | (uptr->DSTATE & DTC_MOTMASK); if ((dtc_dtsb & DTB_ACT) != 0 && dct_is_connect(dtc_dct) == 0) dtc_dtsb |= DTB_DONE; if ((dtc_dtsb & DTB_DLY) != 0) { if (uptr->DELAY < 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; } switch (DTC_GETFNC(uptr->CMD)) { case FNC_WRIT: case FNC_WALL: case FNC_SRCH: case FNC_RALL: case FNC_MOVE: case FNC_READ: case FNC_WBLK: if (dtc_dtsb & DTB_REQ) { dtc_dtsb |= DTB_ACT; dtc_dtsb &= ~(DTB_REQ|DTB_NULL); } break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; } break; case DTC_RBLK: /* In reverse block number */ sim_activate(uptr,DT_WRDTIM*2); uptr->DELAY -= 2; word = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; data = (uint64)word; uptr->DSTATE = DTC_RCHK|(word << DTC_V_BLK)|(DTC_M_WORD << DTC_V_WORD) | (uptr->DSTATE & DTC_MOTMASK); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o rev reverse block %04o\n", u, word); dtc_dtsb &= ~DTB_EOT; if ((dtc_dtsb & DTB_DLY) != 0) { if (uptr->DELAY < 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; } switch (DTC_GETFNC(uptr->CMD)) { case FNC_MOVE: case FNC_READ: case FNC_WMRK: case FNC_WRIT: break; case FNC_RALL: if (dtc_dtsb & DTB_ACT && dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; break; case FNC_SRCH: if (dtc_dtsb & DTB_ACT) { (void)dct_write(dtc_dct, &data, 6); dtc_dtsb |= DTB_DONE; } break; case FNC_WALL: case FNC_WBLK: if (dtc_dtsb & DTB_ACT) { (void)dct_read(dtc_dct, &data, 6); dtc_dtsb |= DTB_DONE; } break; } if (dtc_dtsb & DTB_REQ) { sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o activate\n", u); dtc_dtsb &= ~(DTB_REQ|DTB_NULL); dtc_dtsb |= DTB_ACT; } break; case DTC_REND: /* In final endzone */ sim_activate(uptr, DT_WRDTIM*10); uptr->DELAY -= 10; word = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; word--; uptr->DSTATE = DTC_RBLK|(word << DTC_V_BLK) | (uptr->DSTATE & DTC_MOTMASK); dtc_dtsb &= ~DTB_EOT; break; } } else { /* Moving in forward direction */ switch (uptr->DSTATE & 7) { case DTC_FEND: /* Tape in endzone */ sim_activate(uptr, DT_WRDTIM*10); uptr->DELAY -= 10; sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o forward end\n", u); /* Move to first block */ uptr->DSTATE = DTC_FBLK | (uptr->DSTATE & DTC_MOTMASK); break; case DTC_FBLK: /* In forward block number */ uptr->DELAY -= 2; sim_activate(uptr,DT_WRDTIM*2); dtc_dtsb &= ~DTB_EOT; word = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; uptr->DSTATE = DTC_FCHK|(word << DTC_V_BLK) | (uptr->DSTATE & DTC_MOTMASK); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o forward block %04o %06o\n", u, word, dtc_dtsb); data = (uint64)word; if ((dtc_dtsb & DTB_DLY) != 0) { if (uptr->DELAY < 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; } if ((dtc_dtsb & DTB_ACT) != 0 && dct_is_connect(dtc_dct) == 0) dtc_dtsb |= DTB_DONE; switch (DTC_GETFNC(uptr->CMD)) { case FNC_SRCH: if (dtc_dtsb & DTB_ACT) { (void)dct_write(dtc_dct, &data, 6); dtc_dtsb |= DTB_DONE; } break; case FNC_RALL: if ((dtc_dtsb & DTB_ACT) != 0 && dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; break; case FNC_READ: case FNC_WRIT: if (dtc_dtsb & DTB_REQ) { dtc_dtsb &= ~(DTB_REQ|DTB_NULL); dtc_dtsb |= DTB_ACT; } break; case FNC_MOVE: break; case FNC_WALL: case FNC_WBLK: (void)dct_read(dtc_dct, &data, 6); break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; } break; case DTC_FCHK: /* In forward checksum */ uptr->DELAY -= 2; sim_activate(uptr,DT_WRDTIM*2); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o forward check %06o\n", u, dtc_dtsb); uptr->DSTATE &= ~7; uptr->DSTATE |= DTC_BLOCK; /* Move to datablock */ if ((dtc_dtsb & DTB_ACT) != 0 && dct_is_connect(dtc_dct) == 0) dtc_dtsb |= DTB_DONE; if ((dtc_dtsb & DTB_DLY) != 0) { if (uptr->DELAY < 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; } switch (DTC_GETFNC(uptr->CMD)) { case FNC_RALL: if (dtc_dtsb & DTB_ACT) { blk = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; if (blk < 075) data = 0721200220107LL; else if (blk > 075) data = 0721200233107LL; else data = 0577777777777LL; if (dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; } break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; case FNC_SRCH: case FNC_WRIT: case FNC_WALL: case FNC_READ: case FNC_WBLK: if (dtc_dtsb & DTB_REQ) { dtc_dtsb &= ~(DTB_REQ|DTB_NULL); dtc_dtsb |= DTB_ACT; } break; case FNC_MOVE: break; } break; case DTC_BLOCK: /* In block */ uptr->DELAY --; sim_activate(uptr,DT_WRDTIM); blk = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; word = (uptr->DSTATE >> DTC_V_WORD) & DTC_M_WORD; off = ((blk << 7) + word) << 1; /* Check if at end of block */ if (word == DTC_M_WORD) { uptr->DSTATE &= ~7; uptr->DSTATE |= DTC_RCHK; /* Move to checksum */ } else { uptr->DSTATE &= ~(DTC_M_WORD << DTC_V_WORD); uptr->DSTATE |= (word + 1) << DTC_V_WORD; } if (dtc_dtsb & DTB_DLY) break; if ((dtc_dtsb & DTB_ACT) == 0) break; switch (DTC_GETFNC(uptr->CMD)) { case FNC_MOVE: case FNC_SRCH: case FNC_WALL: case FNC_WBLK: break; case FNC_RALL: case FNC_READ: data = ((uint64)fbuf[off]) << 18; data |= (uint64)fbuf[off+1]; if (dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; break; case FNC_WRIT: if (dct_read(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; fbuf[off] = (data >> 18) & RMASK; fbuf[off+1] = data & RMASK; uptr->WRITTEN = 1; uptr->hwmark = uptr->capac; break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; } sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o data word %o:%o %012llo %d %06o %06o\n", u, blk, word, data, off, fbuf[off], fbuf[off+1]); break; case DTC_RCHK: /* In reverse checksum */ uptr->DELAY -=2; sim_activate(uptr,DT_WRDTIM*2); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o reverse check\n", u); uptr->DSTATE &= ~(DTC_M_WORD << DTC_V_WORD) | 7; uptr->DSTATE |= DTC_RBLK; /* Move to end of block */ if ((dtc_dtsb & DTB_ACT) != 0 && dct_is_connect(dtc_dct) == 0) dtc_dtsb |= DTB_DONE; if ((dtc_dtsb & DTB_DLY) != 0) { if (uptr->DELAY < 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; } switch (DTC_GETFNC(uptr->CMD)) { case FNC_RALL: if (dtc_dtsb & DTB_ACT) { blk = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; if (blk < 073) data = 0721200220107LL; else data = 0721200233107LL; if (dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; } break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; break; case FNC_SRCH: case FNC_WRIT: case FNC_WALL: case FNC_READ: case FNC_WBLK: case FNC_MOVE: break; } break; case DTC_RBLK: /* In reverse block number */ uptr->DELAY -=2; sim_activate(uptr,DT_WRDTIM*2); word = (uptr->DSTATE >> DTC_V_BLK) & DTC_M_BLK; word++; if (word > 01101) { uptr->DSTATE = DTC_REND|(word << DTC_V_BLK)|(DTC_M_WORD << DTC_V_WORD) | (uptr->DSTATE & DTC_MOTMASK); } else { uptr->DSTATE = DTC_FBLK|(word << DTC_V_BLK)|(uptr->DSTATE & DTC_MOTMASK); } sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o reverse block %o\n", u, word); if ((dtc_dtsb & DTB_DLY) != 0) { if (uptr->DELAY < 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } break; } /* Check if DCC has disconnected */ if ((dtc_dtsb & DTB_ACT) != 0 && dct_is_connect(dtc_dct) == 0) dtc_dtsb |= DTB_DONE; /* Check if request pending */ if (dtc_dtsb & DTB_REQ) { dtc_dtsb &= ~(DTB_REQ|DTB_NULL); dtc_dtsb |= DTB_ACT; } switch (DTC_GETFNC(uptr->CMD)) { case FNC_RALL: if ((dtc_dtsb & DTB_ACT) != 0 && dct_write(dtc_dct, &data, 6) == 0) dtc_dtsb |= DTB_DONE; break; case FNC_SRCH: case FNC_MOVE: case FNC_READ: case FNC_WRIT: case FNC_WALL: case FNC_WBLK: break; case FNC_WMRK: dtc_dtsb |= DTB_ILL; set_interrupt(DTC_DEVNUM, dtc_dtsa); break; } if (dtc_dtsb & DTB_REQ) { dtc_dtsb &= ~(DTB_REQ|DTB_NULL); dtc_dtsb |= DTB_ACT; } break; case DTC_REND: /* In final endzone */ /* Set stop */ uptr->CMD |= DTC_FNC_STOP; sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o reverse end\n", u); dtc_dtsb |= DTB_EOT; if (dtc_dtsa & DTC_ETF) set_interrupt(DTC_DEVNUM, dtc_dtsa); if ((dtc_dtsb & DTB_DLY) != 0) { dtc_dtsb &= ~DTB_DLY; dtc_dtsb |= DTB_TIME; if (uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } sim_activate(uptr, DT_WRDTIM*10); break; } } if ((dtc_dtsb & DTB_DONE) != 0) { if ((uptr->CMD & DTC_JDONE) != 0) { set_interrupt(DTC_DEVNUM, dtc_dtsa); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o post done\n", u); } dtc_dtsb &= ~(DTB_REQ|DTB_ACT); dtc_dtsb |= DTB_NULL; uptr->CMD &= 077077; } if ((dtc_dtsb & (DTB_ILL|DTB_PAR|DTB_EOT)) != 0) { set_interrupt(DTC_DEVNUM, dtc_dtsa); uptr->CMD = DTC_FNC_STOP; } /* Check if starting */ } else if (uptr->CMD & DTC_START) { /* Start up delay */ sim_activate(uptr, DT_WRDTIM*10); if ((dtc_dtsb & DTB_DLY) != 0) { uptr->DELAY = 0; dtc_dtsb |= DTB_TIME; dtc_dtsb &= ~DTB_DLY; if(uptr->CMD & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); } uptr->DSTATE |= DTC_MOT; if (uptr->CMD & DTC_RVDRV) { uptr->DSTATE |= DTC_REV; } else { uptr->DSTATE &= ~DTC_REV; } sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o start %06o\n", u, uptr->CMD); return SCPE_OK; } else if ((dtc_dtsb & DTB_DLY) != 0) { uptr->DELAY = 0; dtc_dtsb |= DTB_TIME; dtc_dtsb &= ~DTB_DLY; if(dtc_dtsa & DTC_TIME) set_interrupt(DTC_DEVNUM, dtc_dtsa); sim_debug(DEBUG_DETAIL, &dtc_dev, "DTC %o delay over %06o\n", u, dtc_dtsa); } return SCPE_OK; } /* Boot from given device */ t_stat dtc_boot(int32 unit_num, DEVICE * dptr) { UNIT *uptr = &dptr->units[unit_num]; uint32 *fbuf = (uint32 *) uptr->filebuf; /* file buffer */ uint64 word = 0; int off; int wc, addr; if ((uptr->flags & UNIT_ATT) == 0) return SCPE_UNATT; /* attached? */ off = 0; wc = fbuf[off++]+1; addr = fbuf[off++]; while (wc != 0777777) { wc = (wc + 1) & RMASK; addr = (addr + 1) & RMASK; word = ((uint64)fbuf[off++]) << 18; word |= (uint64)fbuf[off++]; if (addr < 020) FM[addr] = word; else M[addr] = word; } if (addr < 020) FM[addr] = word; else M[addr] = word; uptr->DSTATE = (1 << DTC_V_BLK) | DTC_BLOCK | DTC_MOT; sim_activate(uptr,30000); PC = word & RMASK; return SCPE_OK; } /* set DCT channel and unit. */ t_stat dtc_set_dct (UNIT *uptr, int32 val, CONST char *cptr, void *desc) { int32 dct; t_stat r; if (cptr == NULL) return SCPE_ARG; dct = (int32) get_uint (cptr, 8, 20, &r); if (r != SCPE_OK) return r; dtc_dct = dct; return SCPE_OK; } t_stat dtc_show_dct (FILE *st, UNIT *uptr, int32 val, CONST void *desc) { if (uptr == NULL) return SCPE_IERR; fprintf (st, "DCT=%02o", dtc_dct); return SCPE_OK; } /* Reset routine */ t_stat dtc_reset (DEVICE *dptr) { int i; dtc_dtsb = dtc_dtsa = 0; /* clear status */ for (i = 0; i < DTC_NUMDR; i++) { if ((dtc_unit[i].DSTATE & DTC_MOT) != 0) dtc_unit[i].CMD |= DTC_FNC_STOP; } clr_interrupt(DTC_DEVNUM); clr_interrupt(DTC_DEVNUM|4); return SCPE_OK; } /* Attach routine Determine 12b, 16b, or 18b/36b format Allocate buffer If 12b, read 12b format and convert to 18b in buffer If 16b, read 16b format and convert to 18b in buffer If 18b/36b, read data into buffer */ t_stat dtc_attach (UNIT *uptr, CONST char *cptr) { uint16 pdp8b[D8_NBSIZE]; uint16 pdp11b[D18_BSIZE]; uint32 ba, sz, k, *fbuf; int32 u = uptr - dtc_dev.units; t_stat r; r = attach_unit (uptr, cptr); /* attach */ if (r != SCPE_OK) /* error? */ return r; if ((sim_switches & SIM_SW_REST) == 0) { /* not from rest? */ uptr->flags = uptr->flags & ~(UNIT_8FMT | UNIT_11FMT); /* default 18b */ if (sim_switches & SWMASK ('T')) /* att 12b? */ uptr->flags = uptr->flags | UNIT_8FMT; else if (sim_switches & SWMASK ('S')) /* att 16b? */ uptr->flags = uptr->flags | UNIT_11FMT; else if (!(sim_switches & SWMASK ('A')) && /* autosize? */ (sz = sim_fsize (uptr->fileref))) { if (sz == D8_FILSIZ) uptr->flags = uptr->flags | UNIT_8FMT; else if (sz == D11_FILSIZ) uptr->flags = uptr->flags | UNIT_11FMT; } } uptr->capac = DTU_CAPAC (uptr); /* set capacity */ uptr->filebuf = calloc (uptr->capac, sizeof (uint32)); if (uptr->filebuf == NULL) { /* can't alloc? */ detach_unit (uptr); return SCPE_MEM; } fbuf = (uint32 *) uptr->filebuf; /* file buffer */ sim_printf ("%s%d: ", sim_dname (&dtc_dev), u); if (uptr->flags & UNIT_8FMT) sim_printf ("12b format"); else if (uptr->flags & UNIT_11FMT) sim_printf ("16b format"); else sim_printf ("18b/36b format"); sim_printf (", buffering file in memory\n"); uptr->WRITTEN = 0; uptr->io_flush = dtc_flush; if (uptr->flags & UNIT_8FMT) { /* 12b? */ for (ba = 0; ba < uptr->capac; ) { /* loop thru file */ k = fxread (pdp8b, sizeof (uint16), D8_NBSIZE, uptr->fileref); if (k == 0) break; for ( ; k < D8_NBSIZE; k++) pdp8b[k] = 0; for (k = 0; k < D8_NBSIZE; k = k + 3) { /* loop thru blk */ fbuf[ba] = ((uint32) (pdp8b[k] & 07777) << 6) | ((uint32) (pdp8b[k + 1] >> 6) & 077); fbuf[ba + 1] = ((uint32) (pdp8b[k + 1] & 077) << 12) | ((uint32) pdp8b[k + 2] & 07777); ba = ba + 2; /* end blk loop */ } } /* end file loop */ uptr->hwmark = ba; } else if (uptr->flags & UNIT_11FMT) { /* 16b? */ for (ba = 0; ba < uptr->capac; ) { /* loop thru file */ k = fxread (pdp11b, sizeof (uint16), D18_BSIZE, uptr->fileref); if (k == 0) break; for ( ; k < D18_BSIZE; k++) pdp11b[k] = 0; for (k = 0; k < D18_BSIZE; k++) fbuf[ba++] = pdp11b[k]; } uptr->hwmark = ba; } else uptr->hwmark = fxread (uptr->filebuf, sizeof (uint32), uptr->capac, uptr->fileref); uptr->flags = uptr->flags | UNIT_BUF; /* set buf flag */ uptr->pos = DT_EZLIN; /* beyond leader */ return SCPE_OK; } /* Detach routine Cancel in progress operation If 12b, convert 18b buffer to 12b and write to file If 16b, convert 18b buffer to 16b and write to file If 18b/36b, write buffer to file Deallocate buffer */ void dtc_flush (UNIT* uptr) { uint16 pdp8b[D8_NBSIZE]; uint16 pdp11b[D18_BSIZE]; uint32 ba, k, *fbuf; if (uptr->WRITTEN && uptr->hwmark && ((uptr->flags & UNIT_RO) == 0)) { /* any data? */ sim_printf ("%s: writing buffer to file: %s\n", sim_uname (uptr), uptr->filename); fbuf = (uint32 *) uptr->filebuf; /* file buffer */ rewind (uptr->fileref); /* start of file */ if (uptr->flags & UNIT_8FMT) { /* 12b? */ for (ba = 0; ba < uptr->hwmark; ) { /* loop thru file */ for (k = 0; k < D8_NBSIZE; k = k + 3) { /* loop blk */ pdp8b[k] = (fbuf[ba] >> 6) & 07777; pdp8b[k + 1] = ((fbuf[ba] & 077) << 6) | ((fbuf[ba + 1] >> 12) & 077); pdp8b[k + 2] = fbuf[ba + 1] & 07777; ba = ba + 2; } /* end loop blk */ fxwrite (pdp8b, sizeof (uint16), D8_NBSIZE, uptr->fileref); if (ferror (uptr->fileref)) break; } /* end loop file */ } else if (uptr->flags & UNIT_11FMT) { /* 16b? */ for (ba = 0; ba < uptr->hwmark; ) { /* loop thru file */ for (k = 0; k < D18_BSIZE; k++) /* loop blk */ pdp11b[k] = fbuf[ba++] & 0177777; fxwrite (pdp11b, sizeof (uint16), D18_BSIZE, uptr->fileref); if (ferror (uptr->fileref)) break; } /* end loop file */ } else fxwrite (uptr->filebuf, sizeof (uint32), /* write file */ uptr->hwmark, uptr->fileref); if (ferror (uptr->fileref)) sim_perror ("I/O error"); uptr->WRITTEN = 0; } /* end if hwmark */ } t_stat dtc_detach (UNIT* uptr) { if (!(uptr->flags & UNIT_ATT)) return SCPE_OK; if (sim_is_active (uptr)) { sim_cancel (uptr); uptr->CMD = uptr->pos = 0; } if (uptr->hwmark && ((uptr->flags & UNIT_RO) == 0)) /* any data? */ dtc_flush (uptr); /* end if hwmark */ free (uptr->filebuf); /* release buf */ uptr->flags = uptr->flags & ~UNIT_BUF; /* clear buf flag */ uptr->filebuf = NULL; /* clear buf ptr */ uptr->flags = uptr->flags & ~(UNIT_8FMT | UNIT_11FMT); /* default fmt */ uptr->capac = DT_CAPAC; /* default size */ return detach_unit (uptr); } #endif