/* h316_dp.c: Honeywell 4623, 4651, 4720 disk simulator | |
Copyright (c) 2003-2008, 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. | |
dp 4623 disk subsystem | |
4651 disk subsystem | |
4720 disk subsystem | |
04-Sep-05 RMS Fixed missing return (found by Peter Schorn) | |
15-Jul-05 RMS Fixed bug in attach routine | |
01-Dec-04 RMS Fixed bug in skip on !seeking | |
The Honeywell disks have the unique characteristic of supporting variable | |
formatting, on a per track basis. To accomodate this, each track is | |
simulated as 2048 words, divided into records. (2048 words accomodates | |
the largest record of 1891 + 8 overhead words.) A record is structured | |
as follows: | |
word 0 record length n (0 = end of track) | |
word 1 record address (16b, uninterpreted by the simulator) | |
word 2 record extension (0 to 4 words of permitted 'overwrite') | |
word 3 first data word | |
: | |
word 3+n-1 last data word | |
word 3+n checksum word | |
word 4+n first extension word | |
: | |
word 7+n fourth extension word | |
word 8+n start of next record | |
Formatting is done in two ways. The SET DPn FORMAT=k command formats | |
unit n with k records per track, each record having the maximum allowable | |
record size and a standard record address; or with k words per record. | |
Alternately, the simulator allows programmatic formating. When a track | |
is formated, the program supplies record parameters as follows: | |
word 0 record address | |
words 1-n data words | |
word n+1 gap size in bits | |
To make this work, the simulator tracks the consumption of bits in the | |
track, against the track capacity in bits. Bit consumption is: | |
16.5 * 16 for overhead (including address and checksum) | |
n * 16 for data | |
'gap' for gap, which must be at least 5% of the record length | |
*/ | |
#include "h316_defs.h" | |
#include <math.h> | |
#define UNIT_V_WLK (UNIT_V_UF + 0) /* write locked */ | |
#define UNIT_WLK (1 << UNIT_V_WLK) | |
#define FNC u3 /* saved function */ | |
#define CYL u4 /* actual cylinder */ | |
#define UNIT_WPRT (UNIT_WLK | UNIT_RO) /* write prot */ | |
#define DP_TRKLEN 2048 /* track length, words */ | |
#define DP_NUMDRV 8 /* max # drives */ | |
#define DP_NUMTYP 3 /* # controller types */ | |
/* Record format */ | |
#define REC_LNT 0 /* length (unextended) */ | |
#define REC_ADDR 1 /* address */ | |
#define REC_EXT 2 /* extension (0-4) */ | |
#define REC_DATA 3 /* start of data */ | |
#define REC_OVHD 8 /* overhead words */ | |
#define REC_MAXEXT 4 /* maximum extension */ | |
#define REC_OVHD_WRDS 16.5 /* 16.5 words */ | |
#define REC_OVHD_BITS ((16 * 16) + 8) | |
/* Status word, ^ = dynamic */ | |
#define STA_BUSY 0100000 /* busy */ | |
#define STA_RDY 0040000 /* ready */ | |
#define STA_ADRER 0020000 /* address error */ | |
#define STA_FMTER 0010000 /* format error */ | |
#define STA_HNLER 0004000 /* heads not loaded (NI) */ | |
#define STA_OFLER 0002000 /* offline */ | |
#define STA_SEKER 0001000 /* seek error */ | |
#define STA_MBZ 0000700 | |
#define STA_WPRER 0000040 /* write prot error */ | |
#define STA_UNSER 0000020 /* unsafe */ | |
#define STA_CSMER 0000010 /* checksum error */ | |
#define STA_DTRER 0000004 /* transfer rate error */ | |
#define STA_ANYER 0000002 /* any error^ */ | |
#define STA_EOR 0000001 /* end of record */ | |
#define STA_ALLERR (STA_ADRER|STA_FMTER|STA_HNLER|STA_OFLER|STA_SEKER|\ | |
STA_WPRER|STA_UNSER|STA_DTRER) | |
/* Functions */ | |
#define FNC_SK0 0000 /* recalibrate */ | |
#define FNC_SEEK 0001 /* seek */ | |
#define FNC_RCA 0002 /* read current */ | |
#define FNC_UNL 0004 /* unload */ | |
#define FNC_FMT 0005 /* format */ | |
#define FNC_RW 0006 /* read/write */ | |
#define FNC_STOP 0010 /* stop format */ | |
#define FNC_RDS 0011 /* read status */ | |
#define FNC_DMA 0013 /* DMA/DMC */ | |
#define FNC_AKI 0014 /* acknowledge intr */ | |
#define FNC_IOBUS 0017 /* IO bus */ | |
#define FNC_2ND 0020 /* second state */ | |
#define FNC_3RD 0040 /* third state */ | |
#define FNC_4TH 0060 /* fourth state */ | |
#define FNC_5TH 0100 /* fifth state */ | |
/* Command word 1 */ | |
#define CW1_RW 0100000 /* read/write */ | |
#define CW1_DIR 0000400 /* seek direction */ | |
#define CW1_V_UNIT 11 /* unit select */ | |
#define CW1_V_HEAD 6 /* head select */ | |
#define CW1_V_OFFS 0 /* seek offset */ | |
#define CW1_GETUNIT(x) (((x) >> CW1_V_UNIT) & dp_tab[dp_ctype].umsk) | |
#define CW1_GETHEAD(x) (((x) >> CW1_V_HEAD) & dp_tab[dp_ctype].hmsk) | |
#define CW1_GETOFFS(x) (((x) >> CW1_V_OFFS) & dp_tab[dp_ctype].cmsk) | |
/* OTA states */ | |
#define OTA_NOP 0 /* normal */ | |
#define OTA_CW1 1 /* expecting CW1 */ | |
#define OTA_CW2 2 /* expecting CW2 */ | |
/* Transfer state */ | |
#define XIP_UMSK 007 /* unit mask */ | |
#define XIP_SCHED 010 /* scheduled */ | |
#define XIP_WRT 020 /* write */ | |
#define XIP_FMT 040 /* format */ | |
/* The H316/516 disk emulator supports three disk controllers: | |
controller units cylinders surfaces data words per track | |
4651 4 203 2 1908.25 | |
4623 8 203 10 1816.5 | |
4720 8 203 20 1908.25 | |
Disk types may not be intermixed on the same controller. | |
*/ | |
#define TYPE_4651 0 | |
#define UNIT_4651 4 | |
#define CYL_4651 203 | |
#define SURF_4651 2 | |
#define WRDS_4651 1908.25 | |
#define UMSK_4651 0003 | |
#define HMSK_4651 0001 | |
#define CMSK_4651 0377 | |
#define CAP_4651 (CYL_4651*SURF_4651*DP_TRKLEN) | |
#define TYPE_4623 1 | |
#define UNIT_4623 8 | |
#define CYL_4623 203 | |
#define SURF_4623 10 | |
#define WRDS_4623 1816.5 | |
#define UMSK_4623 0007 | |
#define HMSK_4623 0017 | |
#define CMSK_4623 0377 | |
#define CAP_4623 (CYL_4623*SURF_4623*DP_TRKLEN) | |
#define TYPE_4720 2 | |
#define UNIT_4720 8 | |
#define CYL_4720 203 | |
#define SURF_4720 20 | |
#define WRDS_4720 1908.25 | |
#define UMSK_4720 0007 | |
#define HMSK_4720 0037 | |
#define CMSK_4720 0377 | |
#define CAP_4720 (CYL_4720*SURF_4720*DP_TRKLEN) | |
struct drvtyp { | |
char *name; | |
uint32 numu; | |
uint32 cyl; | |
uint32 surf; | |
uint32 cap; | |
uint32 umsk; | |
uint32 hmsk; | |
uint32 cmsk; | |
float wrds; | |
}; | |
#define DP_DRV(d) \ | |
#d, \ | |
UNIT_##d, CYL_##d, SURF_##d, CAP_##d, \ | |
UMSK_##d, HMSK_##d, CMSK_##d, WRDS_##d | |
static struct drvtyp dp_tab[] = { | |
{ DP_DRV (4651) }, | |
{ DP_DRV (4623) }, | |
{ DP_DRV (4720) } | |
}; | |
extern int32 dev_int, dev_enb, chan_req; | |
extern int32 stop_inst; | |
extern uint32 dma_ad[DMA_MAX]; | |
extern int32 sim_switches; | |
uint32 dp_cw1 = 0; /* cmd word 1 */ | |
uint32 dp_cw2 = 0; /* cmd word 2 */ | |
uint32 dp_fnc = 0; /* saved function */ | |
uint32 dp_buf = 0; /* buffer */ | |
uint32 dp_otas = 0; /* state */ | |
uint32 dp_sta = 0; /* status */ | |
uint32 dp_defint = 0; /* deferred seek int */ | |
uint32 dp_ctype = TYPE_4651; /* controller type */ | |
uint32 dp_dma = 0; /* DMA/DMC */ | |
uint32 dp_eor = 0; /* end of range */ | |
uint32 dp_xip = 0; /* transfer in prog */ | |
uint32 dp_csum = 0; /* parity checksum */ | |
uint32 dp_rptr = 0; /* start of record */ | |
uint32 dp_wptr = 0; /* word ptr in record */ | |
uint32 dp_bctr = 0; /* format bit cntr */ | |
uint32 dp_gap = 0; /* format gap size */ | |
uint32 dp_stopioe = 1; /* stop on error */ | |
int32 dp_stime = 1000; /* seek per cylinder */ | |
int32 dp_xtime = 10; /* xfer per word */ | |
int32 dp_btime = 30; /* busy time */ | |
uint16 dpxb[DP_TRKLEN]; /* track buffer */ | |
int32 dpio (int32 inst, int32 fnc, int32 dat, int32 dev); | |
t_stat dp_svc (UNIT *uptr); | |
t_stat dp_reset (DEVICE *dptr); | |
t_stat dp_attach (UNIT *uptr, char *cptr); | |
t_stat dp_settype (UNIT *uptr, int32 val, char *cptr, void *desc); | |
t_stat dp_showtype (FILE *st, UNIT *uptr, int32 val, void *desc); | |
t_stat dp_go (uint32 dma); | |
t_stat dp_go1 (uint32 dat); | |
t_stat dp_go2 (uint32 dat); | |
t_stat dp_rdtrk (UNIT *uptr, uint16 *buf, uint32 cyl, uint32 hd); | |
t_stat dp_wrtrk (UNIT *uptr, uint16 *buf, uint32 cyl, uint32 hd); | |
t_bool dp_findrec (uint32 addr); | |
t_stat dp_wrwd (UNIT *uptr, uint32 dat); | |
t_stat dp_wrdone (UNIT *uptr, uint32 flg); | |
t_stat dp_done (uint32 req, uint32 f); | |
t_stat dp_setformat (UNIT *uptr, int32 val, char *cptr, void *desc); | |
t_stat dp_showformat (FILE *st, UNIT *uptr, int32 val, void *desc); | |
/* DP data structures | |
dp_dev DP device descriptor | |
dp_unit DP unit list | |
dp_reg DP register list | |
dp_mod DP modifier list | |
*/ | |
DIB dp_dib = { DP, DMC1, 1, &dpio }; | |
UNIT dp_unit[] = { | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) }, | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) }, | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) }, | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) }, | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) }, | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) }, | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) }, | |
{ UDATA (&dp_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
UNIT_ROABLE, CAP_4651) } | |
}; | |
REG dp_reg[] = { | |
{ ORDATA (STA, dp_sta, 16) }, | |
{ ORDATA (BUF, dp_buf, 16) }, | |
{ ORDATA (FNC, dp_fnc, 4) }, | |
{ ORDATA (CW1, dp_cw1, 16) }, | |
{ ORDATA (CW2, dp_cw2, 16) }, | |
{ ORDATA (CSUM, dp_csum, 16) }, | |
{ FLDATA (BUSY, dp_sta, 15) }, | |
{ FLDATA (RDY, dp_sta, 14) }, | |
{ FLDATA (EOR, dp_eor, 0) }, | |
{ FLDATA (DEFINT, dp_defint, 0) }, | |
{ FLDATA (INTREQ, dev_int, INT_V_DP) }, | |
{ FLDATA (ENABLE, dev_enb, INT_V_DP) }, | |
{ BRDATA (TBUF, dpxb, 8, 16, DP_TRKLEN) }, | |
{ ORDATA (RPTR, dp_rptr, 11), REG_RO }, | |
{ ORDATA (WPTR, dp_wptr, 11), REG_RO }, | |
{ ORDATA (BCTR, dp_bctr, 15), REG_RO }, | |
{ ORDATA (GAP, dp_gap, 16), REG_RO }, | |
{ DRDATA (STIME, dp_stime, 24), REG_NZ + PV_LEFT }, | |
{ DRDATA (XTIME, dp_xtime, 24), REG_NZ + PV_LEFT }, | |
{ DRDATA (BTIME, dp_btime, 24), REG_NZ + PV_LEFT }, | |
{ FLDATA (CTYPE, dp_ctype, 0), REG_HRO }, | |
{ URDATA (UCYL, dp_unit[0].CYL, 10, 8, 0, | |
DP_NUMDRV, PV_LEFT | REG_HRO) }, | |
{ URDATA (UFNC, dp_unit[0].FNC, 8, 7, 0, | |
DP_NUMDRV, REG_HRO) }, | |
{ URDATA (CAPAC, dp_unit[0].capac, 10, T_ADDR_W, 0, | |
DP_NUMDRV, PV_LEFT | REG_HRO) }, | |
{ ORDATA (OTAS, dp_otas, 2), REG_HRO }, | |
{ ORDATA (XIP, dp_xip, 6), REG_HRO }, | |
{ ORDATA (CHAN, dp_dib.chan, 5), REG_HRO }, | |
{ FLDATA (STOP_IOE, dp_stopioe, 0) }, | |
{ NULL } | |
}; | |
MTAB dp_mod[] = { | |
{ UNIT_WLK, 0, "write enabled", "WRITEENABLED", NULL }, | |
{ UNIT_WLK, UNIT_WLK, "write locked", "LOCKED", NULL }, | |
{ MTAB_XTD | MTAB_VDV, TYPE_4623, NULL, "4623", | |
&dp_settype, NULL, NULL }, | |
{ MTAB_XTD | MTAB_VDV, TYPE_4651, NULL, "4651", | |
&dp_settype, NULL, NULL }, | |
{ MTAB_XTD | MTAB_VDV, TYPE_4720, NULL, "4720", | |
&dp_settype, NULL, NULL }, | |
{ MTAB_XTD | MTAB_VDV, 0, "TYPE", NULL, | |
NULL, &dp_showtype, NULL }, | |
{ MTAB_XTD|MTAB_VDV, 0, NULL, "DMC", | |
&io_set_dmc, NULL, NULL }, | |
{ MTAB_XTD|MTAB_VDV, 0, NULL, "DMA", | |
&io_set_dma, NULL, NULL }, | |
{ MTAB_XTD|MTAB_VDV, 0, "CHANNEL", NULL, | |
NULL, &io_show_chan, NULL }, | |
{ MTAB_XTD|MTAB_VUN|MTAB_NMO, 0, "FORMAT", "FORMAT", | |
&dp_setformat, &dp_showformat, NULL }, | |
{ 0 } | |
}; | |
DEVICE dp_dev = { | |
"DP", dp_unit, dp_reg, dp_mod, | |
DP_NUMDRV, 8, 24, 1, 8, 16, | |
NULL, NULL, &dp_reset, | |
NULL, &dp_attach, NULL, | |
&dp_dib, DEV_DISABLE | |
}; | |
/* IOT routines */ | |
int32 dpio (int32 inst, int32 fnc, int32 dat, int32 dev) | |
{ | |
int32 ch = dp_dib.chan - 1; /* DMA/DMC chan */ | |
int32 u; | |
UNIT *uptr; | |
switch (inst) { /* case on opcode */ | |
case ioOCP: /* OCP */ | |
switch (fnc) { /* case on function */ | |
case FNC_SK0: case FNC_SEEK: case FNC_RCA: /* data transfer */ | |
case FNC_UNL: case FNC_FMT: case FNC_RW: | |
dp_go (fnc); /* if !busy, start */ | |
break; | |
case FNC_STOP: /* stop transfer */ | |
if (dp_xip) { /* transfer in prog? */ | |
uptr = dp_dev.units + (dp_xip & XIP_UMSK); /* get unit */ | |
sim_cancel (uptr); /* stop operation */ | |
if (dp_xip & (XIP_WRT|XIP_FMT)) /* write or format? */ | |
dp_wrdone (uptr, /* write track */ | |
((dp_xip & XIP_FMT) && /* check fmt state */ | |
(uptr->FNC != (FNC_FMT|FNC_2ND)))? | |
STA_DTRER: 0); | |
else dp_done (1, dp_csum? STA_CSMER: 0);/* no, just clr busy */ | |
dp_xip = 0; /* clear flag */ | |
} | |
dp_otas = OTA_NOP; /* clear state */ | |
dp_sta = dp_sta & ~STA_BUSY; /* clear busy */ | |
break; | |
case FNC_RDS: /* read status */ | |
if (dp_sta & STA_BUSY) /* ignore if busy */ | |
return dat; | |
dp_sta = (dp_sta | STA_RDY) & ~(STA_MBZ | STA_ANYER); | |
if (dp_sta & STA_ALLERR) dp_sta = dp_sta | STA_ANYER; | |
dp_buf = dp_sta; | |
if (dp_dma && Q_DMA (ch)) /* DMA? set chan req */ | |
SET_CH_REQ (ch); | |
break; | |
case FNC_DMA: /* set DMA/DMC */ | |
dp_dma = 1; | |
break; | |
case FNC_IOBUS: /* set IO bus */ | |
dp_dma = 0; | |
break; | |
case FNC_AKI: /* ack intr */ | |
CLR_INT (INT_DP); | |
break; | |
default: /* undefined */ | |
return IOBADFNC (dat); | |
} | |
break; | |
case ioINA: /* INA */ | |
if (fnc) /* fnc 0 only */ | |
return IOBADFNC (dat); | |
if (dp_sta & STA_RDY) { /* ready? */ | |
dp_sta = dp_sta & ~STA_RDY; /* clear ready */ | |
return IOSKIP (dat | dp_buf); /* ret buf, skip */ | |
} | |
break; | |
case ioOTA: /* OTA */ | |
if (fnc) /* fnc 0 only */ | |
return IOBADFNC (dat); | |
if (dp_sta & STA_RDY) { /* ready? */ | |
dp_sta = dp_sta & ~STA_RDY; /* clear ready */ | |
dp_buf = dat; /* store buf */ | |
if (dp_otas == OTA_CW1) /* expecting CW1? */ | |
dp_go1 (dat); | |
else if (dp_otas == OTA_CW2) /* expecting CW2? */ | |
dp_go2 (dat); | |
return IOSKIP (dat); | |
} | |
break; | |
case ioSKS: /* SKS */ | |
u = 7; /* assume unit 7 */ | |
switch (fnc) { | |
case 000: /* ready */ | |
if (dp_sta & STA_RDY) | |
return IOSKIP (dat); | |
break; | |
case 001: /* !interrupting */ | |
if (!TST_INTREQ (INT_DP)) | |
return IOSKIP (dat); | |
break; | |
case 002: /* operational */ | |
if (!(dp_sta & (STA_BUSY | STA_ALLERR))) | |
return IOSKIP (dat); | |
break; | |
case 003: /* !error */ | |
if (!(dp_sta & STA_ALLERR)) | |
return IOSKIP (dat); | |
break; | |
case 004: /* !busy */ | |
if (!(dp_sta & STA_BUSY)) | |
return IOSKIP (dat); | |
break; | |
case 011: case 012: case 013: /* !not seeking 0-6 */ | |
case 014: case 015: case 016: case 017: | |
u = fnc - 011; | |
case 007: /* !not seeking 7 */ | |
if (!sim_is_active (&dp_unit[u]) || /* quiescent? */ | |
(dp_unit[u].FNC != (FNC_SEEK | FNC_2ND))) | |
return IOSKIP (dat); /* seeking sets late */ | |
break; | |
} | |
break; | |
case ioEND: /* end of range */ | |
dp_eor = 1; /* transfer done */ | |
break; | |
} | |
return dat; | |
} | |
/* Start new operation - recal, seek, read address, format, read/write */ | |
t_stat dp_go (uint32 fnc) | |
{ | |
int32 ch = dp_dib.chan - 1; /* DMA/DMC chan */ | |
if (dp_sta & STA_BUSY) /* ignore if busy */ | |
return SCPE_OK; | |
dp_fnc = fnc; /* save function */ | |
dp_xip = 0; /* transfer not started */ | |
dp_eor = 0; /* not end of range */ | |
dp_csum = 0; /* init checksum */ | |
dp_otas = OTA_CW1; /* expect CW1 */ | |
dp_sta = (dp_sta | STA_BUSY | STA_RDY) & ~(STA_ALLERR | STA_EOR); | |
if (dp_dma && Q_DMA (ch)) { /* DMA and DMA channel? */ | |
SET_CH_REQ (ch); /* set channel request */ | |
dma_ad[ch] = dma_ad[ch] & ~DMA_IN; /* force output */ | |
} | |
return SCPE_OK; | |
} | |
/* Process command word 1 - recal, seek, read address, format, read/write */ | |
t_stat dp_go1 (uint32 dat) | |
{ | |
int32 ch = dp_dib.chan - 1; /* DMA/DMC chan */ | |
uint32 u = CW1_GETUNIT (dat); | |
UNIT *uptr = dp_dev.units + u; | |
dp_cw1 = dat; /* store CW1 */ | |
dp_otas = OTA_NOP; /* assume no CW2 */ | |
uptr->FNC = dp_fnc; | |
if (sim_is_active (uptr)) /* still seeking? */ | |
return dp_done (1, STA_UNSER); /* unsafe */ | |
if (!(uptr->flags & UNIT_ATT)) /* not attached? */ | |
return dp_done (1, STA_OFLER); /* offline */ | |
switch (dp_fnc) { /* case on function */ | |
case FNC_SEEK: /* seek */ | |
case FNC_SK0: /* recalibrate */ | |
case FNC_UNL: /* unload */ | |
sim_activate (uptr, dp_btime); /* quick timeout */ | |
break; | |
case FNC_FMT: /* format */ | |
if (uptr->flags & UNIT_WPRT) /* write protect? */ | |
return dp_done (1, STA_WPRER); /* stop now */ | |
case FNC_RCA: /* read current addr */ | |
dp_xip = u | XIP_SCHED; /* operation started */ | |
sim_activate (uptr, dp_xtime * 10); /* rotation timeout */ | |
break; | |
case FNC_RW: /* read/write */ | |
dp_otas = OTA_CW2; /* expect CW2 */ | |
dp_sta = dp_sta | STA_RDY; /* set ready */ | |
if (dp_dma && Q_DMA (ch)) /* DMA? set chan request */ | |
SET_CH_REQ (ch); | |
break; | |
} | |
return SCPE_OK; | |
} | |
/* Process command word 2 - read/write only */ | |
t_stat dp_go2 (uint32 dat) | |
{ | |
uint32 u = CW1_GETUNIT (dp_cw1); | |
UNIT *uptr = dp_dev.units + u; | |
dp_cw2 = dat; /* store CW2 */ | |
dp_otas = OTA_NOP; /* normal state */ | |
sim_activate (uptr, dp_xtime * 10); /* rotation timeout */ | |
dp_xip = u | XIP_SCHED; /* operation started */ | |
return SCPE_OK; | |
} | |
/* Unit service */ | |
t_stat dp_svc (UNIT *uptr) | |
{ | |
int32 dcyl = 0; /* assume recalibrate */ | |
int32 ch = dp_dib.chan - 1; /* DMA/DMC chan */ | |
uint32 h = CW1_GETHEAD (dp_cw1); /* head */ | |
int32 st; | |
uint32 i, offs, lnt, ming, tpos; | |
t_stat r; | |
if (!(uptr->flags & UNIT_ATT)) { /* not attached? */ | |
dp_done (1, STA_OFLER); /* offline */ | |
return IORETURN (dp_stopioe, SCPE_UNATT); | |
} | |
switch (uptr->FNC) { /* case on function */ | |
case FNC_SEEK: /* seek, need cyl */ | |
offs = CW1_GETOFFS (dp_cw1); /* get offset */ | |
if (dp_cw1 & CW1_DIR) /* get desired cyl */ | |
dcyl = uptr->CYL - offs; | |
else dcyl = uptr->CYL + offs; | |
if ((offs == 0) || | |
(dcyl < 0) || | |
(dcyl >= (int32) dp_tab[dp_ctype].cyl)) | |
return dp_done (1, STA_SEKER); /* bad seek? */ | |
case FNC_SK0: /* recalibrate */ | |
dp_sta = dp_sta & ~STA_BUSY; /* clear busy */ | |
uptr->FNC = FNC_SEEK | FNC_2ND; /* next state */ | |
st = (abs (dcyl - uptr->CYL)) * dp_stime; /* schedule seek */ | |
if (st == 0) | |
st = dp_stime; | |
uptr->CYL = dcyl; /* put on cylinder */ | |
sim_activate (uptr, st); | |
return SCPE_OK; | |
case FNC_SEEK | FNC_2ND: /* seek, 2nd state */ | |
if (dp_sta & STA_BUSY) /* busy? queue intr */ | |
dp_defint = 1; | |
else SET_INT (INT_DP); /* no, req intr */ | |
return SCPE_OK; | |
case FNC_UNL: /* unload */ | |
detach_unit (uptr); /* detach unit */ | |
return dp_done (0, 0); /* clear busy, no intr */ | |
case FNC_RCA: /* read current addr */ | |
if (h >= dp_tab[dp_ctype].surf) /* invalid head? */ | |
return dp_done (1, STA_ADRER); /* error */ | |
if (r = dp_rdtrk (uptr, dpxb, uptr->CYL, h)) /* get track; error? */ | |
return r; | |
dp_rptr = 0; /* init rec ptr */ | |
if (dpxb[dp_rptr + REC_LNT] == 0) /* unformated? */ | |
return dp_done (1, STA_ADRER); /* error */ | |
tpos = (uint32) (fmod (sim_gtime () / (double) dp_xtime, DP_TRKLEN)); | |
do { /* scan down track */ | |
dp_buf = dpxb[dp_rptr + REC_ADDR]; /* get rec addr */ | |
dp_rptr = dp_rptr + dpxb[dp_rptr + REC_LNT] + REC_OVHD; | |
} while ((dp_rptr < tpos) && (dpxb[dp_rptr + REC_LNT] != 0)); | |
if (dp_dma) { /* DMA/DMC? */ | |
if (Q_DMA (ch)) /* DMA? */ | |
dma_ad[ch] = dma_ad[ch] | DMA_IN; /* force input */ | |
SET_CH_REQ (ch); /* request chan */ | |
} | |
return dp_done (1, STA_RDY); /* clr busy, set rdy */ | |
/* Formating takes place in five states: | |
init - clear track buffer, start at first record | |
address - store address word | |
data - store data word(s) until end of range | |
pause - wait for gap word or stop command | |
gap - validate gap word, advance to next record | |
Note that formating is stopped externally by an OCP command; the | |
track buffer is flushed at that point. If the stop does not occur | |
in the proper state (gap word received), a format error occurs. | |
*/ | |
case FNC_FMT: /* format */ | |
for (i = 0; i < DP_TRKLEN; i++) /* clear track */ | |
dpxb[i] = 0; | |
dp_xip = dp_xip | XIP_FMT; /* format in progress */ | |
dp_rptr = 0; /* init record ptr */ | |
dp_gap = 0; /* no gap before first */ | |
dp_bctr = (uint32) (16.0 * dp_tab[dp_ctype].wrds); /* init bit cntr */ | |
uptr->FNC = uptr->FNC | FNC_2ND; /* address state */ | |
break; /* set up next word */ | |
case FNC_FMT | FNC_2ND: /* format, address word */ | |
dp_wptr = 0; /* clear word ptr */ | |
if (dp_bctr < (dp_gap + REC_OVHD_BITS + 16)) /* room for gap, record? */ | |
return dp_wrdone (uptr, STA_FMTER); /* no, format error */ | |
dp_bctr = dp_bctr - dp_gap - REC_OVHD_BITS; /* charge for gap, ovhd */ | |
dpxb[dp_rptr + REC_ADDR] = dp_buf; /* store address */ | |
uptr->FNC = FNC_FMT | FNC_3RD; /* data state */ | |
if (dp_eor) { /* record done? */ | |
dp_eor = 0; /* clear for restart */ | |
if (dp_dma) /* DMA/DMC? intr */ | |
SET_INT (INT_DP); | |
} | |
break; /* set up next word */ | |
case FNC_FMT | FNC_3RD: /* format, data word */ | |
if (dp_sta & STA_RDY) /* timing failure? */ | |
return dp_wrdone (uptr, STA_DTRER); /* write trk, err */ | |
else { /* no, have word */ | |
if (dp_bctr < 16) /* room for it? */ | |
return dp_wrdone (uptr, STA_FMTER); /* no, error */ | |
dp_bctr = dp_bctr - 16; /* charge for word */ | |
dp_csum = dp_csum ^ dp_buf; /* update checksum */ | |
dpxb[dp_rptr + REC_DATA + dp_wptr] = dp_buf;/* store word */ | |
dpxb[dp_rptr + REC_LNT]++; /* incr rec lnt */ | |
dp_wptr++; /* incr word ptr */ | |
} | |
if (dp_eor) { /* record done? */ | |
dp_eor = 0; /* clear for restart */ | |
if (dp_dma) /* DMA/DMC? intr */ | |
SET_INT (INT_DP); | |
dpxb[dp_rptr + REC_DATA + dp_wptr] = dp_csum; /* store checksum */ | |
uptr->FNC = uptr->FNC | FNC_4TH; /* pause state */ | |
sim_activate (uptr, 5 * dp_xtime); /* schedule pause */ | |
return SCPE_OK; /* don't request word */ | |
} | |
break; /* set up next word */ | |
case FNC_FMT | FNC_4TH: /* format, pause */ | |
uptr->FNC = FNC_FMT | FNC_5TH; /* gap state */ | |
break; /* request word */ | |
case FNC_FMT | FNC_5TH: /* format, gap word */ | |
ming = ((16 * dp_wptr) + REC_OVHD_BITS) / 20; /* min 5% gap */ | |
if (dp_buf < ming) /* too small? */ | |
return dp_wrdone (uptr, STA_FMTER); /* yes, format error */ | |
dp_rptr = dp_rptr + dp_wptr + REC_OVHD; /* next record */ | |
uptr->FNC = FNC_FMT | FNC_2ND; /* address state */ | |
if (dp_eor) { /* record done? */ | |
dp_eor = 0; /* clear for restart */ | |
if (dp_dma) SET_INT (INT_DP); /* DMA/DMC? intr */ | |
} | |
dp_gap = dp_buf; /* save gap */ | |
dp_csum = 0; /* clear checksum */ | |
break; /* set up next word */ | |
/* Read and write take place in two states: | |
init - read track into buffer, find record, validate parameters | |
data - (read) fetch data from buffer, stop on end of range | |
- (write) write data into buffer, flush on end of range | |
*/ | |
case FNC_RW: /* read/write */ | |
if (h >= dp_tab[dp_ctype].surf) /* invalid head? */ | |
return dp_done (1, STA_ADRER); /* error */ | |
if (r = dp_rdtrk (uptr, dpxb, uptr->CYL, h)) /* get track; error? */ | |
return r; | |
if (!dp_findrec (dp_cw2)) /* find rec; error? */ | |
return dp_done (1, STA_ADRER); /* address error */ | |
if ((dpxb[dp_rptr + REC_LNT] >= (DP_TRKLEN - dp_rptr - REC_OVHD)) || | |
(dpxb[dp_rptr + REC_EXT] >= REC_MAXEXT)) { /* bad lnt or ext? */ | |
dp_done (1, STA_UNSER); /* stop simulation */ | |
return STOP_DPFMT; /* bad format */ | |
} | |
uptr->FNC = uptr->FNC | FNC_2ND; /* next state */ | |
if (dp_cw1 & CW1_RW) { /* write? */ | |
if (uptr->flags & UNIT_WPRT) /* write protect? */ | |
return dp_done (1, STA_WPRER); /* error */ | |
dp_xip = dp_xip | XIP_WRT; /* write in progress */ | |
dp_sta = dp_sta | STA_RDY; /* set ready */ | |
if (dp_dma) /* if DMA/DMC, req chan */ | |
SET_CH_REQ (ch); | |
} | |
else if (Q_DMA (ch)) /* read; DMA? */ | |
dma_ad[ch] = dma_ad[ch] | DMA_IN; /* force input */ | |
sim_activate (uptr, dp_xtime); /* schedule word */ | |
dp_wptr = 0; /* init word pointer */ | |
return SCPE_OK; | |
case FNC_RW | FNC_2ND: /* read/write, word */ | |
if (dp_cw1 & CW1_RW) { /* write? */ | |
if (dp_sta & STA_RDY) /* timing failure? */ | |
return dp_wrdone (uptr, STA_DTRER); /* yes, error */ | |
if (r = dp_wrwd (uptr, dp_buf)) /* wr word, error? */ | |
return r; | |
if (dp_eor) { /* transfer done? */ | |
dpxb[dp_rptr + REC_DATA + dp_wptr] = dp_csum; | |
return dp_wrdone (uptr, 0); /* clear busy, intr req */ | |
} | |
} | |
else { /* read? */ | |
lnt = dpxb[dp_rptr + REC_LNT] + dpxb[dp_rptr + REC_EXT]; | |
dp_buf = dpxb[dp_rptr + REC_DATA + dp_wptr];/* current word */ | |
dp_csum = dp_csum ^ dp_buf; /* xor to csum */ | |
if ((dp_wptr > lnt) || dp_eor) /* transfer done? */ | |
return dp_done (1, | |
(dp_csum? STA_CSMER: 0) | ((dp_wptr >= lnt)? STA_EOR: 0)); | |
if (dp_sta & STA_RDY) /* data buf full? */ | |
return dp_done (1, STA_DTRER); /* no, underrun */ | |
dp_wptr++; /* next word */ | |
} | |
break; | |
default: | |
return SCPE_IERR; | |
} /* end case */ | |
dp_sta = dp_sta | STA_RDY; /* set ready */ | |
if (dp_dma) /* if DMA/DMC, req chan */ | |
SET_CH_REQ (ch); | |
sim_activate (uptr, dp_xtime); /* schedule word */ | |
return SCPE_OK; | |
} | |
/* Read track */ | |
t_stat dp_rdtrk (UNIT *uptr, uint16 *buf, uint32 c, uint32 h) | |
{ | |
uint32 da = ((c * dp_tab[dp_ctype].surf) + h) * DP_TRKLEN; | |
int32 l; | |
fseek (uptr->fileref, da * sizeof (uint16), SEEK_SET); | |
l = fxread (buf, sizeof (uint16), DP_TRKLEN, uptr->fileref); | |
for ( ; l < DP_TRKLEN; l++) | |
buf[l] = 0; | |
if (ferror (uptr->fileref)) { | |
perror ("DP I/O error"); | |
clearerr (uptr->fileref); | |
dp_done (1, STA_UNSER); | |
return SCPE_IOERR; | |
} | |
return SCPE_OK; | |
} | |
/* Write track */ | |
t_stat dp_wrtrk (UNIT *uptr, uint16 *buf, uint32 c, uint32 h) | |
{ | |
uint32 da = ((c * dp_tab[dp_ctype].surf) + h) * DP_TRKLEN; | |
fseek (uptr->fileref, da * sizeof (uint16), SEEK_SET); | |
fxwrite (buf, sizeof (uint16), DP_TRKLEN, uptr->fileref); | |
if (ferror (uptr->fileref)) { | |
perror ("DP I/O error"); | |
clearerr (uptr->fileref); | |
dp_done (1, STA_UNSER); | |
return SCPE_IOERR; | |
} | |
return SCPE_OK; | |
} | |
/* Find record; true if found, false if not found */ | |
t_bool dp_findrec (uint32 addr) | |
{ | |
dp_rptr = 0; | |
do { | |
if (dpxb[dp_rptr + REC_LNT] == 0) | |
return FALSE; | |
if (dpxb[dp_rptr + REC_LNT] >= DP_TRKLEN) | |
return TRUE; | |
if (dpxb[dp_rptr + REC_ADDR] == addr) | |
return TRUE; | |
dp_rptr = dp_rptr + dpxb[dp_rptr + REC_LNT] + REC_OVHD; | |
} while (dp_rptr < DP_TRKLEN); | |
return FALSE; | |
} | |
/* Write next word to track buffer; return TRUE if ok, FALSE if next record trashed */ | |
t_stat dp_wrwd (UNIT *uptr, uint32 dat) | |
{ | |
uint32 lnt = dpxb[dp_rptr + REC_LNT]; | |
t_stat r; | |
dp_csum = dp_csum ^ dat; | |
if (dp_wptr < lnt) { | |
dpxb[dp_rptr + REC_DATA + dp_wptr++] = dat; | |
return SCPE_OK; | |
} | |
if (dp_wptr < (lnt + REC_MAXEXT)) { | |
dpxb[dp_rptr + REC_EXT]++; | |
dpxb[dp_rptr + REC_DATA + dp_wptr++] = dat; | |
return SCPE_OK; | |
} | |
dpxb[dp_rptr + REC_DATA + dp_wptr] = dp_csum; /* write csum */ | |
dpxb[dp_rptr + lnt + REC_OVHD] = 0; /* zap rest of track */ | |
if (r = dp_wrdone (uptr, STA_UNSER)) /* dump track */ | |
return r; | |
return STOP_DPOVR; | |
} | |
/* Write done, dump track, clear busy */ | |
t_stat dp_wrdone (UNIT *uptr, uint32 flg) | |
{ | |
dp_done (1, flg); | |
return dp_wrtrk (uptr, dpxb, uptr->CYL, CW1_GETHEAD (dp_cw1)); | |
} | |
/* Clear busy, set errors, request interrupt if required */ | |
t_stat dp_done (uint32 req, uint32 flg) | |
{ | |
dp_xip = 0; /* clear xfr in prog */ | |
dp_sta = (dp_sta | flg) & ~(STA_BUSY | STA_MBZ); /* clear busy */ | |
if (req || dp_defint) /* if req, set intr */ | |
SET_INT (INT_DP); | |
dp_defint = 0; /* clr def intr */ | |
return SCPE_OK; | |
} | |
/* Reset routine */ | |
t_stat dp_reset (DEVICE *dptr) | |
{ | |
int32 i; | |
dp_fnc = 0; | |
dp_cw1 = 0; | |
dp_cw2 = 0; | |
dp_sta = 0; | |
dp_buf = 0; | |
dp_xip = 0; | |
dp_eor = 0; | |
dp_dma = 0; | |
dp_csum = 0; | |
dp_rptr = 0; | |
dp_wptr = 0; | |
dp_bctr = 0; | |
dp_gap = 0; | |
dp_defint = 0; | |
for (i = 0; i < DP_NUMDRV; i++) { /* loop thru drives */ | |
sim_cancel (&dp_unit[i]); /* cancel activity */ | |
dp_unit[i].FNC = 0; /* clear function */ | |
dp_unit[i].CYL = 0; | |
} | |
CLR_INT (INT_DP); /* clear int, enb */ | |
CLR_ENB (INT_DP); | |
return SCPE_OK; | |
} | |
/* Attach routine, test formating */ | |
t_stat dp_attach (UNIT *uptr, char *cptr) | |
{ | |
t_stat r; | |
r = attach_unit (uptr, cptr); | |
if (r != SCPE_OK) | |
return r; | |
return dp_showformat (stdout, uptr, 0, NULL); | |
} | |
/* Set controller type */ | |
t_stat dp_settype (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
int32 i; | |
if ((val < 0) || (val >= DP_NUMTYP) || (cptr != NULL)) | |
return SCPE_ARG; | |
for (i = 0; i < DP_NUMDRV; i++) { | |
if (dp_unit[i].flags & UNIT_ATT) return SCPE_ALATT; | |
} | |
for (i = 0; i < DP_NUMDRV; i++) | |
dp_unit[i].capac = dp_tab[val].cap; | |
dp_ctype = val; | |
return SCPE_OK; | |
} | |
/* Show controller type */ | |
t_stat dp_showtype (FILE *st, UNIT *uptr, int32 val, void *desc) | |
{ | |
if (dp_ctype >= DP_NUMTYP) | |
return SCPE_IERR; | |
fprintf (st, "%s", dp_tab[dp_ctype].name); | |
return SCPE_OK; | |
} | |
/* Set drive format | |
There is no standard format for record addresses. This routine | |
provides two schemes: | |
-S sequential addressing (starting from 0) | |
default geometric addressing (8b: cylinder, 5b: head, 3b: sector) | |
This routine also supports formatting by record count or word count: | |
-R argument is records per track | |
default argument is words per record | |
The relationship between words per record (W), bits per track (B), | |
and records per track (R), is as follows: | |
W = (B / (R + ((R - 1) / 20))) - 16.5 | |
where (R - 1) / 20 is the "5% gap" and 16.5 is the overhead, in words, | |
per record. | |
*/ | |
t_stat dp_setformat (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
uint32 h, c, cntr, rptr; | |
int32 i, nr, nw, inp; | |
uint16 tbuf[DP_TRKLEN]; | |
float finp; | |
t_stat r; | |
if (uptr == NULL) | |
return SCPE_IERR; | |
if (cptr == NULL) | |
return SCPE_ARG; | |
if (!(uptr->flags & UNIT_ATT)) | |
return SCPE_UNATT; | |
inp = (int32) get_uint (cptr, 10, 2048, &r); | |
if (r != SCPE_OK) | |
return r; | |
if (inp == 0) | |
return SCPE_ARG; | |
finp = (float) inp; | |
if (sim_switches & SWMASK ('R')) { /* format records? */ | |
nr = inp; | |
nw = (int32) ((dp_tab[dp_ctype].wrds / (finp + ((finp - 1.0) / 20.0))) - REC_OVHD_WRDS); | |
if (nw <= 0) | |
return SCPE_ARG; | |
} | |
else { | |
nw = inp; /* format words */ | |
nr = (int32) ((((20.0 * dp_tab[dp_ctype].wrds) / (finp + REC_OVHD_WRDS)) + 1.0) / 21.0); | |
if (nr <= 0) | |
return SCPE_ARG; | |
} | |
printf ("Proposed format: records/track = %d, record size = %d\n", nr, nw); | |
if (!get_yn ("Formatting will destroy all data on this disk; proceed? [N]", FALSE)) | |
return SCPE_OK; | |
for (c = cntr = 0; c < dp_tab[dp_ctype].cyl; c++) { | |
for (h = 0; h < dp_tab[dp_ctype].surf; h++) { | |
for (i = 0; i < DP_TRKLEN; i++) | |
tbuf[i] = 0; | |
rptr = 0; | |
for (i = 0; i < nr; i++) { | |
tbuf[rptr + REC_LNT] = nw & DMASK; | |
if (sim_switches & SWMASK ('S')) | |
tbuf[rptr + REC_ADDR] = cntr++; | |
else tbuf[rptr + REC_ADDR] = (c << 8) + (h << 3) + i; | |
rptr = rptr + nw + REC_OVHD; | |
} | |
if (r = dp_wrtrk (uptr, tbuf, c, h)) | |
return r; | |
} | |
} | |
printf ("Formatting complete\n"); | |
return SCPE_OK; | |
} | |
/* Show format */ | |
t_stat dp_showformat (FILE *st, UNIT *uptr, int32 val, void *desc) | |
{ | |
uint32 c, h, rptr, rlnt, sec; | |
uint32 minrec = DP_TRKLEN; | |
uint32 maxrec = 0; | |
uint32 minsec = DP_TRKLEN; | |
uint32 maxsec = 0; | |
uint16 tbuf[DP_TRKLEN]; | |
t_stat r; | |
if (uptr == NULL) | |
return SCPE_IERR; | |
if ((uptr->flags & UNIT_ATT) == 0) | |
return SCPE_UNATT; | |
for (c = 0; c < dp_tab[dp_ctype].cyl; c++) { | |
for (h = 0; h < dp_tab[dp_ctype].surf; h++) { | |
if (r = dp_rdtrk (uptr, tbuf, c, h)) | |
return r; | |
rptr = 0; | |
rlnt = tbuf[rptr + REC_LNT]; | |
if (rlnt == 0) { | |
if (c || h) | |
fprintf (st, "Unformatted track, cyl = %d, head = %d\n", c, h); | |
else fprintf (st, "Disk is unformatted\n"); | |
return SCPE_OK; | |
} | |
for (sec = 0; rlnt != 0; sec++) { | |
if ((rptr + rlnt + REC_OVHD) >= DP_TRKLEN) { | |
fprintf (st, "Invalid record length %d, cyl = %d, head = %d, sect = %d\n", | |
rlnt, c, h, sec); | |
return SCPE_OK; | |
} | |
if (tbuf[rptr + REC_EXT] >= REC_MAXEXT) { | |
fprintf (st, "Invalid record extension %d, cyl = %d, head = %d, sect = %d\n", | |
tbuf[rptr + REC_EXT], c, h, sec); | |
return SCPE_OK; | |
} | |
if (rlnt > maxrec) | |
maxrec = rlnt; | |
if (rlnt < minrec) | |
minrec = rlnt; | |
rptr = rptr + rlnt + REC_OVHD; | |
rlnt = tbuf[rptr + REC_LNT]; | |
} | |
if (sec > maxsec) | |
maxsec = sec; | |
if (sec < minsec) | |
minsec = sec; | |
} | |
} | |
if ((minrec == maxrec) && (minsec == maxsec)) | |
fprintf (st, "Valid fixed format, records/track = %d, record size = %d\n", | |
minsec, minrec); | |
else if (minrec == maxrec) | |
fprintf (st, "Valid variable format, records/track = %d-%d, record size = %d\n", | |
minsec, maxsec, minrec); | |
else if (minsec == maxsec) | |
fprintf (st, "Valid variable format, records/track = %d, record sizes = %d-%d\n", | |
minsec, minrec, maxrec); | |
else fprintf (st, "Valid variable format, records/track = %d-%d, record sizes = %d-%d\n", | |
minsec, maxsec, minrec, maxrec); | |
return SCPE_OK; | |
} |