| /* id_idc.c: Interdata MSM/IDC disk controller simulator | |
| Copyright (c) 2001-2008, 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. | |
| idc MSM/IDC disk controller | |
| 03-Apr-06 RMS Fixed WD/WH handling (Davis Johnson) | |
| 30-Mar-06 RMS Fixed bug, nop command should be ignored (Davis Johnson) | |
| 25-Apr-03 RMS Revised for extended file support | |
| 16-Feb-03 RMS Fixed read to test transfer ok before selch operation | |
| Note: define flag ID_IDC to enable the extra functions of the intelligent | |
| disk controller | |
| */ | |
| #include "id_defs.h" | |
| #define IDC_NUMBY 256 /* bytes/sector */ | |
| #define IDC_NUMSC 64 /* sectors/track */ | |
| #define UNIT_V_WLK (UNIT_V_UF + 0) /* write locked */ | |
| #define UNIT_V_DTYPE (UNIT_V_UF + 1) /* disk type */ | |
| #define UNIT_M_DTYPE 0x7 | |
| #define UNIT_V_AUTO (UNIT_V_UF + 4) /* autosize */ | |
| #define UNIT_WLK (1 << UNIT_V_WLK) | |
| #define UNIT_DTYPE (UNIT_M_DTYPE << UNIT_V_DTYPE) | |
| #define UNIT_AUTO (1 << UNIT_V_AUTO) | |
| #define GET_DTYPE(x) (((x) >> UNIT_V_DTYPE) & UNIT_M_DTYPE) | |
| #define CYL u3 /* current cylinder */ | |
| #define HD u4 /* current head */ | |
| #define STD buf /* drive status */ | |
| #define FNC wait /* function */ | |
| #define UNIT_WPRT (UNIT_WLK | UNIT_RO) /* write protect */ | |
| #define IDC_DRVMASK ((1 << ID_NUMDR) - 1) /* drive bit mask */ | |
| #define IDC_DIRMASK (IDC_DRVMASK << (i_IDC + 1)) /* drive irq mask */ | |
| /* Controller status */ | |
| #define STC_WRP 0x80 /* write protected */ | |
| #define STC_ACF 0x40 /* addr cmp fail */ | |
| #define STC_DEF 0x20 /* def track NI */ | |
| #define STC_CYO 0x10 /* cylinder ovflo */ | |
| #define STC_IDL 0x02 /* ctrl idle */ | |
| #define STC_DTE 0x01 /* xfer error */ | |
| #define SETC_EX (STC_WRP|STC_ACF|STC_DEF|STC_CYO) | |
| #define STC_MASK (STC_WRP|STC_ACF|STC_DEF|STC_CYO|STA_BSY|STC_IDL|STC_DTE) | |
| /* Controller command */ | |
| #define CMC_MASK 0x3F | |
| #define CMC_CLR 0x08 /* reset */ | |
| #define CMC_RD 0x01 /* read */ | |
| #define CMC_WR 0x02 /* write */ | |
| #define CMC_RCHK 0x03 /* read check */ | |
| #define CMC_FCHK 0x04 /* format check NI */ | |
| #define CMC_RFMT 0x05 /* read fmt NI */ | |
| #define CMC_WFMT 0x06 /* write fmt NI */ | |
| #define CMC_WFTK 0x07 /* write fmt track NI */ | |
| /* IDC only functions */ | |
| #define CMC_RRAM 0x10 /* read RAM */ | |
| #define CMC_WRAM 0x11 /* write RAM */ | |
| #define CMC_EXP0 0x12 /* read page 0 NI */ | |
| #define CMC_RUNC 0x21 /* read uncorr */ | |
| #define CMC_STST 0x30 /* self test */ | |
| #define CMC_WLNG 0x32 /* write long NI */ | |
| #define CMC_LAMP 0x37 /* lamp test */ | |
| #define CMC_DRV 0x100 /* drive func */ | |
| #define CMC_DRV1 0x200 /* drive func, part 2 */ | |
| /* Drive status, ^ = dynamic, * = in unit status */ | |
| #define STD_WRP 0x80 /* ^write prot */ | |
| /* 0x40 *//* unused */ | |
| #define STD_ACH 0x20 /* alt chan busy NI */ | |
| #define STD_UNS 0x10 /* *unsafe */ | |
| #define STD_NRDY 0x08 /* ^not ready */ | |
| #define STD_SKI 0x02 /* *seek incomplete */ | |
| #define STD_OFFL 0x01 /* ^offline */ | |
| #define STD_UST (STD_UNS | STD_SKI) /* set from unit */ | |
| #define SETD_EX (STD_WRP | STD_UNS) /* set examine */ | |
| /* Drive command */ | |
| #define CMDF_SHD 0x20 /* set head */ | |
| #define CMDF_SCY 0x10 /* set cylinder */ | |
| #define CMD_SK 0x02 /* seek */ | |
| #define CMD_RST 0x01 /* restore */ | |
| #define CMDX_MASK 0x30 /* ext cmd bits */ | |
| #define CMDX_RLS 0x80 /* release */ | |
| #define CMDX_CLF 0x40 /* clear fault */ | |
| #define CMDX_SVP 0x08 /* servo + */ | |
| #define CMDX_SVM 0x04 /* servo - */ | |
| #define CMDX_DSP 0x02 /* strobe + */ | |
| #define CMDX_DSM 0x01 /* strobe - */ | |
| /* Geometry masks */ | |
| #define CY_MASK 0xFFF /* cylinder */ | |
| #define HD_MASK 0x1F /* head mask */ | |
| #define SC_MASK 0x3F /* sector mask */ | |
| #define HCYL_V_HD 10 /* head/cyl word */ | |
| #define HCYL_V_CYL 0 | |
| #define GET_SA(cy,sf,sc,t) \ | |
| (((((cy)*drv_tab[t].surf)+(sf))*IDC_NUMSC)+(sc)) | |
| /* The MSM (IDC) controller supports (two) six different disk drive types: | |
| type #sectors/ #surfaces/ #cylinders/ | |
| surface cylinder drive | |
| MCCDD16 64 1 823 IDC | |
| MCCDD48 64 3 823 IDC | |
| MCCDD80 64 5 823 IDC | |
| MSM80 64 5 823 MSM | |
| MSM300 64 19 823 MSM | |
| MSM330F 64 16 1024 IDC | |
| In theory, each drive can be a different type. The size field in | |
| each unit selects the drive capacity for each drive and thus the | |
| drive type. DISKS MUST BE DECLARED IN ASCENDING SIZE AND MUST HAVE | |
| THE SAME SECTORS/TRACK. | |
| */ | |
| #define TYPE_MCCDD16 0 | |
| #define SURF_MCCDD16 1 | |
| #define CYL_MCCDD16 823 | |
| #define SIZE_MCCDD16 (IDC_NUMSC * SURF_MCCDD16 * CYL_MCCDD16 * IDC_NUMBY) | |
| #define TYPE_MCCDD48 1 | |
| #define SURF_MCCDD48 3 | |
| #define CYL_MCCDD48 823 | |
| #define SIZE_MCCDD48 (IDC_NUMSC * SURF_MCCDD48 * CYL_MCCDD48 * IDC_NUMBY) | |
| #define TYPE_MCCDD80 2 | |
| #define SURF_MCCDD80 5 | |
| #define CYL_MCCDD80 823 | |
| #define SIZE_MCCDD80 (IDC_NUMSC * SURF_MCCDD80 * CYL_MCCDD80 * IDC_NUMBY) | |
| #define TYPE_MSM80 3 | |
| #define SURF_MSM80 5 | |
| #define CYL_MSM80 823 | |
| #define SIZE_MSM80 (IDC_NUMSC * SURF_MSM80 * CYL_MSM80 * IDC_NUMBY) | |
| #define TYPE_MSM300 4 | |
| #define SURF_MSM300 19 | |
| #define CYL_MSM300 823 | |
| #define SIZE_MSM300 (IDC_NUMSC * SURF_MSM300 * CYL_MSM300 * IDC_NUMBY) | |
| #define TYPE_MSM330F 5 | |
| #define SURF_MSM330F 16 | |
| #define CYL_MSM330F 1024 | |
| #define SIZE_MSM330F (IDC_NUMSC * SURF_MSM330F * CYL_MSM330F * IDC_NUMBY) | |
| struct drvtyp { | |
| uint32 surf; /* surfaces */ | |
| uint32 cyl; /* cylinders */ | |
| uint32 size; /* #blocks */ | |
| uint32 msmf; /* MSM drive */ | |
| }; | |
| static struct drvtyp drv_tab[] = { | |
| { SURF_MCCDD16, CYL_MCCDD16, SIZE_MCCDD16, 0 }, | |
| { SURF_MCCDD48, CYL_MCCDD48, SIZE_MCCDD48, 0 }, | |
| { SURF_MCCDD80, CYL_MCCDD80, SIZE_MCCDD80, 0 }, | |
| { SURF_MSM80, CYL_MSM80, SIZE_MSM80, 1 }, | |
| { SURF_MSM300, CYL_MSM300, SIZE_MSM300, 1 }, | |
| { SURF_MSM330F, CYL_MSM330F, SIZE_MSM330F, 0 }, | |
| { 0 } | |
| }; | |
| extern uint32 int_req[INTSZ], int_enb[INTSZ]; | |
| uint8 idcxb[IDC_NUMBY * 3]; /* xfer buffer */ | |
| uint32 idc_bptr = 0; /* buffer ptr */ | |
| uint32 idc_wdptr = 0; /* ctrl write data ptr */ | |
| uint32 idc_db = 0; /* ctrl buffer */ | |
| uint32 idc_sta = 0; /* ctrl status */ | |
| uint32 idc_sec = 0; /* sector */ | |
| uint32 idc_hcyl = 0; /* head/cyl */ | |
| uint32 idc_svun = 0; /* most recent unit */ | |
| uint32 idc_1st = 0; /* first byte */ | |
| uint32 idc_arm = 0; /* ctrl armed */ | |
| uint32 idd_db = 0; /* drive buffer */ | |
| uint32 idd_wdptr = 0; /* drive write data ptr */ | |
| uint32 idd_arm[ID_NUMDR] = { 0 }; /* drives armed */ | |
| uint16 idd_dcy[ID_NUMDR] = { 0 }; /* desired cyl */ | |
| uint32 idd_sirq = 0; /* drive saved irq */ | |
| int32 idc_stime = 100; /* seek latency */ | |
| int32 idc_rtime = 100; /* rotate latency */ | |
| int32 idc_ctime = 5; /* command latency */ | |
| uint8 idc_tplte[] = { 0, 1, 2, 3, 4, TPL_END }; /* ctrl + drive */ | |
| DEVICE idc_dev; | |
| uint32 id (uint32 dev, uint32 op, uint32 dat); | |
| t_stat idc_svc (UNIT *uptr); | |
| t_stat idc_reset (DEVICE *dptr); | |
| t_stat idc_attach (UNIT *uptr, char *cptr); | |
| t_stat idc_set_size (UNIT *uptr, int32 val, char *cptr, void *desc); | |
| void idc_wd_byte (uint32 dat); | |
| t_stat idc_rds (UNIT *uptr); | |
| t_stat idc_wds (UNIT *uptr); | |
| t_bool idc_dter (UNIT *uptr, uint32 first); | |
| void idc_done (uint32 flg); | |
| extern t_stat id_dboot (int32 u, DEVICE *dptr); | |
| /* DP data structures | |
| idc_dev DP device descriptor | |
| idc_unit DP unit list | |
| idc_reg DP register list | |
| idc_mod DP modifier list | |
| */ | |
| DIB idc_dib = { d_IDC, 0, v_IDC, idc_tplte, &id, NULL }; | |
| UNIT idc_unit[] = { | |
| { UDATA (&idc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
| UNIT_ROABLE+(TYPE_MSM80 << UNIT_V_DTYPE), SIZE_MSM80) }, | |
| { UDATA (&idc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
| UNIT_ROABLE+(TYPE_MSM80 << UNIT_V_DTYPE), SIZE_MSM80) }, | |
| { UDATA (&idc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
| UNIT_ROABLE+(TYPE_MSM80 << UNIT_V_DTYPE), SIZE_MSM80) }, | |
| { UDATA (&idc_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+ | |
| UNIT_ROABLE+(TYPE_MSM80 << UNIT_V_DTYPE), SIZE_MSM80) } | |
| }; | |
| REG idc_reg[] = { | |
| { HRDATA (STA, idc_sta, 8) }, | |
| { HRDATA (BUF, idc_db, 8) }, | |
| { HRDATA (SEC, idc_sec, 8) }, | |
| { HRDATA (HCYL, idc_hcyl, 16) }, | |
| { HRDATA (BUF, idd_db, 8) }, | |
| { HRDATA (SVUN, idc_svun, 2), REG_HIDDEN }, | |
| { BRDATA (DBUF, idcxb, 16, 8, IDC_NUMBY * 3) }, | |
| { HRDATA (DBPTR, idc_bptr, 10), REG_RO }, | |
| { FLDATA (FIRST, idc_1st, 0) }, | |
| { HRDATA (CWDPTR, idc_wdptr, 2) }, | |
| { HRDATA (DWDPTR, idc_wdptr, 1) }, | |
| { GRDATA (IREQ, int_req[l_IDC], 16, ID_NUMDR + 1, i_IDC) }, | |
| { GRDATA (IENB, int_enb[l_IDC], 16, ID_NUMDR + 1, i_IDC) }, | |
| { GRDATA (SIREQ, idd_sirq, 16, ID_NUMDR, i_IDC + 1), REG_RO }, | |
| { FLDATA (ICARM, idc_arm, 0) }, | |
| { BRDATA (IDARM, idd_arm, 16, 1, ID_NUMDR) }, | |
| { DRDATA (RTIME, idc_rtime, 24), PV_LEFT | REG_NZ }, | |
| { DRDATA (STIME, idc_stime, 24), PV_LEFT | REG_NZ }, | |
| { DRDATA (CTIME, idc_ctime, 24), PV_LEFT | REG_NZ }, | |
| { BRDATA (CYL, idd_dcy, 16, 16, ID_NUMDR) }, | |
| { URDATA (UCYL, idc_unit[0].CYL, 16, 12, 0, | |
| ID_NUMDR, REG_RO) }, | |
| { URDATA (UHD, idc_unit[0].HD, 16, 5, 0, | |
| ID_NUMDR, REG_RO) }, | |
| { URDATA (UFNC, idc_unit[0].FNC, 16, 10, 0, | |
| ID_NUMDR, REG_HRO) }, | |
| { URDATA (UST, idc_unit[0].STD, 16, 8, 0, | |
| ID_NUMDR, REG_RO) }, | |
| { URDATA (CAPAC, idc_unit[0].capac, 10, T_ADDR_W, 0, | |
| ID_NUMDR, PV_LEFT | REG_HRO) }, | |
| { HRDATA (DEVNO, idc_dib.dno, 8), REG_HRO }, | |
| { HRDATA (SELCH, idc_dib.sch, 2), REG_HRO }, | |
| { BRDATA (TPLTE, idc_tplte, 16, 8, ID_NUMDR + 1), REG_HRO }, | |
| { NULL } | |
| }; | |
| MTAB idc_mod[] = { | |
| { UNIT_WLK, 0, "write enabled", "WRITEENABLED", NULL }, | |
| { UNIT_WLK, UNIT_WLK, "write locked", "LOCKED", NULL }, | |
| { (UNIT_DTYPE+UNIT_ATT), (TYPE_MCCDD16 << UNIT_V_DTYPE) + UNIT_ATT, | |
| "MCCDD16", NULL, NULL }, | |
| { (UNIT_DTYPE+UNIT_ATT), (TYPE_MCCDD48 << UNIT_V_DTYPE) + UNIT_ATT, | |
| "MCCDD48", NULL, NULL }, | |
| { (UNIT_DTYPE+UNIT_ATT), (TYPE_MCCDD80 << UNIT_V_DTYPE) + UNIT_ATT, | |
| "MCCDD80", NULL, NULL }, | |
| { (UNIT_DTYPE+UNIT_ATT), (TYPE_MSM330F << UNIT_V_DTYPE) + UNIT_ATT, | |
| "MSM330F", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE+UNIT_ATT), (TYPE_MCCDD16 << UNIT_V_DTYPE), | |
| "MCCDD16", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE+UNIT_ATT), (TYPE_MCCDD48 << UNIT_V_DTYPE), | |
| "MCCDD48", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE+UNIT_ATT), (TYPE_MCCDD80 << UNIT_V_DTYPE), | |
| "MCCDD80", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE+UNIT_ATT), (TYPE_MSM330F << UNIT_V_DTYPE), | |
| "MSM330F", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE), (TYPE_MCCDD16 << UNIT_V_DTYPE), | |
| NULL, "MCCDD16", &idc_set_size }, | |
| { (UNIT_AUTO+UNIT_DTYPE), (TYPE_MCCDD48 << UNIT_V_DTYPE), | |
| NULL, "MCCDD48", &idc_set_size }, | |
| { (UNIT_AUTO+UNIT_DTYPE), (TYPE_MCCDD80 << UNIT_V_DTYPE), | |
| NULL, "MCCDD80", &idc_set_size }, | |
| { (UNIT_AUTO+UNIT_DTYPE), (TYPE_MSM330F << UNIT_V_DTYPE), | |
| NULL, "MSM330F", &idc_set_size }, | |
| { (UNIT_DTYPE+UNIT_ATT), (TYPE_MSM80 << UNIT_V_DTYPE) + UNIT_ATT, | |
| "MSM80", NULL, NULL }, | |
| { (UNIT_DTYPE+UNIT_ATT), (TYPE_MSM300 << UNIT_V_DTYPE) + UNIT_ATT, | |
| "MSM300", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE+UNIT_ATT), (TYPE_MSM80 << UNIT_V_DTYPE), | |
| "MSM80", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE+UNIT_ATT), (TYPE_MSM300 << UNIT_V_DTYPE), | |
| "MSM300", NULL, NULL }, | |
| { (UNIT_AUTO+UNIT_DTYPE), (TYPE_MSM80 << UNIT_V_DTYPE), | |
| NULL, "MSM80", &idc_set_size }, | |
| { (UNIT_AUTO+UNIT_DTYPE), (TYPE_MSM300 << UNIT_V_DTYPE), | |
| NULL, "MSM300", &idc_set_size }, | |
| { (UNIT_AUTO+UNIT_ATT), UNIT_AUTO, "autosize", NULL, NULL }, | |
| { UNIT_AUTO, UNIT_AUTO, NULL, "AUTOSIZE", NULL }, | |
| { MTAB_XTD|MTAB_VDV, 0, "DEVNO", "DEVNO", | |
| &set_dev, &show_dev, NULL }, | |
| { MTAB_XTD|MTAB_VDV, 0, "SELCH", "SELCH", | |
| &set_sch, &show_sch, NULL }, | |
| { 0 } | |
| }; | |
| DEVICE idc_dev = { | |
| "DM", idc_unit, idc_reg, idc_mod, | |
| ID_NUMDR, 16, 29, 1, 16, 8, | |
| NULL, NULL, &idc_reset, | |
| &id_dboot, &idc_attach, NULL, | |
| &idc_dib, DEV_DISABLE | |
| }; | |
| /* Controller: IO routine */ | |
| uint32 idc (uint32 dev, uint32 op, uint32 dat) | |
| { | |
| uint32 f, t; | |
| UNIT *uptr; | |
| switch (op) { /* case IO op */ | |
| case IO_ADR: /* select */ | |
| sch_adr (idc_dib.sch, dev); /* inform sel ch */ | |
| return HW; /* halfwords */ | |
| case IO_RD: /* read data */ | |
| case IO_RH: /* read halfword */ | |
| return 0; /* return data */ | |
| case IO_WD: /* write data */ | |
| idc_wd_byte (dat); /* one byte only */ | |
| break; | |
| case IO_WH: /* write halfword */ | |
| idc_wd_byte (dat >> 8); /* high byte */ | |
| idc_wd_byte (dat); /* low byte */ | |
| break; | |
| case IO_SS: /* status */ | |
| t = idc_sta & STC_MASK; /* get status */ | |
| if (t & SETC_EX) /* test for EX */ | |
| t = t | STA_EX; | |
| return t; | |
| case IO_OC: /* command */ | |
| idc_arm = int_chg (v_IDC, dat, idc_arm); /* upd int ctrl */ | |
| idc_wdptr = 0; /* init ptr */ | |
| f = dat & CMC_MASK; /* get cmd */ | |
| uptr = idc_dev.units + idc_svun; /* get unit */ | |
| if (f & CMC_CLR) { /* clear? */ | |
| idc_reset (&idc_dev); /* reset world */ | |
| break; | |
| } | |
| if ((f == 0) || /* if nop, */ | |
| (f == CMC_EXP0) || /* expg, */ | |
| !(idc_sta & STC_IDL) || /* !idle, */ | |
| sim_is_active (uptr)) break; /* unit busy, ignore */ | |
| idc_sta = STA_BSY; /* bsy=1,idl,err=0 */ | |
| idc_1st = 1; /* xfr not started */ | |
| idc_bptr = 0; /* buffer empty */ | |
| uptr->FNC = f; /* save cmd */ | |
| sim_activate (uptr, idc_rtime); /* schedule */ | |
| idd_sirq = int_req[l_IDC] & IDC_DIRMASK; /* save drv ints */ | |
| int_req[l_IDC] = int_req[l_IDC] & ~IDC_DIRMASK; /* clr drv ints */ | |
| break; | |
| } | |
| return 0; | |
| } | |
| /* Process WD/WH data */ | |
| void idc_wd_byte (uint32 dat) | |
| { | |
| dat = dat & 0xFF; | |
| switch (idc_wdptr) { | |
| case 0: /* byte 0 = sector */ | |
| idc_sec = dat; | |
| idc_wdptr++; | |
| break; | |
| case 1: /* byte 1 = high hd/cyl */ | |
| idc_hcyl = (idc_hcyl & 0xFF) | (dat << 8); | |
| idc_wdptr++; | |
| break; | |
| case 2: /* byte 2 = low hd/cyl */ | |
| idc_hcyl = (idc_hcyl & 0xFF00) | dat; | |
| idc_wdptr = 0; | |
| break; | |
| } | |
| return; | |
| } | |
| /* Drives: IO routine */ | |
| uint32 id (uint32 dev, uint32 op, uint32 dat) | |
| { | |
| uint32 t, u, f; | |
| UNIT *uptr; | |
| if (dev == idc_dib.dno) /* controller? */ | |
| return idc (dev, op, dat); | |
| u = (dev - idc_dib.dno - o_ID0) / o_ID0; /* get unit num */ | |
| uptr = idc_dev.units + u; /* get unit ptr */ | |
| switch (op) { /* case IO op */ | |
| case IO_ADR: /* select */ | |
| if (idc_sta & STC_IDL) /* idle? save unit */ | |
| idc_svun = u; | |
| return BY; /* byte only */ | |
| case IO_RD: /* read data */ | |
| case IO_RH: | |
| return 0; | |
| case IO_WD: /* write data */ | |
| if (idd_wdptr & 1) /* low byte? */ | |
| idd_db = (idd_db & 0xFF00) | dat; | |
| else idd_db = (idd_db & 0xFF) | (dat << 8); /* no, high */ | |
| idd_wdptr = idd_wdptr ^ 1; /* other byte */ | |
| break; | |
| case IO_SS: /* status */ | |
| if (uptr->flags & UNIT_ATT) t = | |
| ((uptr->flags & UNIT_WPRT)? STD_WRP: 0) | | |
| (sim_is_active (uptr)? STD_NRDY: 0) | | |
| (uptr->STD & STD_UST); | |
| else t = STD_NRDY | STD_OFFL; /* off = X'09' */ | |
| if (t & SETD_EX) /* test for ex */ | |
| t = t | STA_EX; | |
| return t; | |
| case IO_OC: /* command */ | |
| idd_arm[u] = int_chg (v_IDC + u + 1, dat, idd_arm[u]); | |
| idd_wdptr = 0; /* init ptr */ | |
| if (idd_arm[u] == 0) /* disarmed? */ | |
| idd_sirq &= ~(1 << (v_IDC + u + 1)); /* clr saved req */ | |
| f = dat & CMC_MASK; /* get cmd */ | |
| if ((f == 0) || /* if nop, */ | |
| (f == CMDX_MASK) || /* 0x30, */ | |
| !(idc_sta & STC_IDL) || /* !idle, */ | |
| sim_is_active (uptr)) /* unit busy, ignore */ | |
| break; | |
| uptr->FNC = f | CMC_DRV; /* save cmd */ | |
| idc_sta = idc_sta & ~STC_IDL; /* clr idle */ | |
| sim_activate (uptr, idc_ctime); /* schedule */ | |
| break; | |
| } | |
| return 0; | |
| } | |
| /* Unit service | |
| If drive command, process; if an interrupt is needed (positioning | |
| command), schedule second part | |
| If data transfer command, process; must use selector channel | |
| */ | |
| t_stat idc_svc (UNIT *uptr) | |
| { | |
| int32 diff; | |
| uint32 f, u = uptr - idc_dev.units; /* get unit number */ | |
| uint32 dtype = GET_DTYPE (uptr->flags); /* get drive type */ | |
| uint32 t; | |
| t_stat r; | |
| if (uptr->FNC & CMC_DRV) { /* drive cmd? */ | |
| f = uptr->FNC & CMC_MASK; /* get cmd */ | |
| if (uptr->FNC & CMC_DRV1) { /* part 2? */ | |
| if (idd_arm[u]) { /* drv int armed? */ | |
| if (idc_sta & STC_IDL) /* ctrl idle? */ | |
| SET_INT (v_IDC + u + 1); /* req intr */ | |
| else idd_sirq |= (1 << (v_IDC + u + 1)); /* def intr */ | |
| } | |
| if ((uptr->flags & UNIT_ATT) == 0) | |
| return SCPE_OK; | |
| if (((f & CMDX_MASK) == 0) && /* seek? */ | |
| (f & (CMD_SK | CMD_RST))) { | |
| if (idd_dcy[u] >= drv_tab[dtype].cyl) /* bad cylinder? */ | |
| uptr->STD = uptr->STD | STD_SKI; /* error */ | |
| uptr->CYL = idd_dcy[u]; /* put on cyl */ | |
| } | |
| } /* end if p2 */ | |
| else { /* part 1 */ | |
| idc_sta = idc_sta | STC_IDL; /* set idle */ | |
| uptr->FNC = uptr->FNC | CMC_DRV1; /* set part 2 */ | |
| if (f >= CMDX_MASK) { /* extended? */ | |
| if (f & CMDX_CLF) /* clr fault? */ | |
| uptr->STD = uptr->STD & ~STD_UNS; /* clr unsafe */ | |
| if (f & (CMDX_RLS | CMDX_SVP | CMDX_SVM)) /* intr expected? */ | |
| sim_activate (uptr, idc_ctime); | |
| } | |
| else if (f >= CMDF_SCY) { /* tag? */ | |
| if (f & CMDF_SHD) | |
| uptr->HD = idd_db & HD_MASK; | |
| else if (f & CMDF_SCY) { | |
| if (idd_db >= drv_tab[dtype].cyl) /* bad cylinder? */ | |
| uptr->STD = uptr->STD | STD_SKI; /* set seek inc */ | |
| idd_dcy[u] = idd_db & CY_MASK; | |
| } | |
| } | |
| else if (f & (CMD_SK | CMD_RST)) { /* seek? */ | |
| if (f == CMD_RST) /* restore? */ | |
| idd_dcy[u] = 0; | |
| if (idd_dcy[u] >= drv_tab[dtype].cyl) { /* bad cylinder? */ | |
| uptr->STD = uptr->STD | STD_SKI; /* set seek inc */ | |
| idd_dcy[u] = uptr->CYL; /* no motion */ | |
| sim_activate (uptr, 0); /* finish asap */ | |
| } | |
| else { /* cylinder ok */ | |
| uptr->STD = uptr->STD & ~STD_SKI; /* clr seek inc */ | |
| diff = idd_dcy[u] - uptr->CYL; | |
| if (diff < 0) /* ABS cyl diff */ | |
| diff = -diff; | |
| else if (diff == 0) /* must be nz */ | |
| diff = 1; | |
| sim_activate (uptr, diff * idc_stime); | |
| } | |
| } | |
| } /* end else p1 */ | |
| return SCPE_OK; /* end if drv */ | |
| } | |
| switch (uptr->FNC & CMC_MASK) { /* case on func */ | |
| case CMC_RCHK: /* read check */ | |
| idc_dter (uptr, 1); /* check xfr err */ | |
| break; | |
| #if defined (ID_IDC) | |
| case CMC_RUNC: /* read uncorr */ | |
| #endif | |
| case CMC_RD: /* read */ | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* sch transfer? */ | |
| if (idc_dter (uptr, idc_1st)) /* dte? done */ | |
| return SCPE_OK; | |
| if ((r = idc_rds (uptr))) /* read sec, err? */ | |
| return r; | |
| idc_1st = 0; | |
| t = sch_wrmem (idc_dib.sch, idcxb, IDC_NUMBY); /* write mem */ | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* more to do? */ | |
| sim_activate (uptr, idc_rtime); /* reschedule */ | |
| return SCPE_OK; | |
| } | |
| break; /* no, set done */ | |
| } | |
| idc_sta = idc_sta | STC_DTE; /* cant work */ | |
| break; | |
| case CMC_WR: /* write */ | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* sch transfer? */ | |
| if (idc_dter (uptr, idc_1st)) /* dte? done */ | |
| return SCPE_OK; | |
| idc_bptr = sch_rdmem (idc_dib.sch, idcxb, IDC_NUMBY); /* read mem */ | |
| idc_db = idcxb[idc_bptr - 1]; /* last byte */ | |
| if ((r = idc_wds (uptr))) /* write sec, err? */ | |
| return r; | |
| idc_1st = 0; | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* more to do? */ | |
| sim_activate (uptr, idc_rtime); /* reschedule */ | |
| return SCPE_OK; | |
| } | |
| break; /* no, set done */ | |
| } | |
| idc_sta = idc_sta | STC_DTE; /* cant work */ | |
| break; | |
| case CMC_FCHK: case CMC_RFMT: case CMC_WFMT: case CMC_WFTK: | |
| idc_dter (uptr, 1); | |
| idc_sta = idc_sta | STC_WRP; | |
| break; | |
| #if defined (ID_IDC) | |
| case CMC_RRAM: /* read RAM */ | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* sch transfer? */ | |
| sch_wrmem (idc_dib.sch, idcxb, IDC_NUMBY * 3); | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* more to do? */ | |
| sim_activate (uptr, idc_rtime); /* reschedule */ | |
| return SCPE_OK; | |
| } | |
| break; /* no, set done */ | |
| } | |
| idc_sta = idc_sta | STC_DTE; /* cant work */ | |
| break; | |
| case CMC_WRAM: /* write RAM */ | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* sch transfer? */ | |
| sch_rdmem (idc_dib.sch, idcxb, IDC_NUMBY * 3); /* read from mem */ | |
| if (sch_actv (idc_dib.sch, idc_dib.dno)) { /* more to do? */ | |
| sim_activate (uptr, idc_rtime); /* reschedule */ | |
| return SCPE_OK; | |
| } | |
| break; /* no, set done */ | |
| } | |
| idc_sta = idc_sta | STC_DTE; /* cant work */ | |
| break; | |
| case CMC_STST: case CMC_LAMP: /* tests */ | |
| break; | |
| #endif | |
| default: | |
| idc_sta = idc_sta | STC_DTE; | |
| break; | |
| } | |
| idc_done (0); /* done */ | |
| return SCPE_OK; | |
| } | |
| /* Read data sector */ | |
| t_stat idc_rds (UNIT *uptr) | |
| { | |
| uint32 i; | |
| i = fxread (idcxb, sizeof (uint8), IDC_NUMBY, uptr->fileref); | |
| if (ferror (uptr->fileref)) { /* error? */ | |
| perror ("IDC I/O error"); | |
| clearerr (uptr->fileref); | |
| idc_done (STC_DTE); | |
| return SCPE_IOERR; | |
| } | |
| for ( ; i < IDC_NUMBY; i++) /* fill with 0's */ | |
| idcxb[i] = 0; | |
| return SCPE_OK; | |
| } | |
| /* Write data sector */ | |
| t_bool idc_wds (UNIT *uptr) | |
| { | |
| for ( ; idc_bptr < IDC_NUMBY; idc_bptr++) | |
| idcxb[idc_bptr] = idc_db; /* fill with last */ | |
| fxwrite (idcxb, sizeof (uint8), IDC_NUMBY, uptr->fileref); | |
| if (ferror (uptr->fileref)) { /* error? */ | |
| perror ("IDC I/O error"); | |
| clearerr (uptr->fileref); | |
| idc_done (STC_DTE); | |
| return SCPE_IOERR; | |
| } | |
| return FALSE; | |
| } | |
| /* Data transfer error test routine */ | |
| t_bool idc_dter (UNIT *uptr, uint32 first) | |
| { | |
| uint32 cy; | |
| uint32 hd, sc, sa; | |
| uint32 dtype = GET_DTYPE (uptr->flags); /* get drive type */ | |
| if ((uptr->flags & UNIT_ATT) == 0) { /* not attached? */ | |
| idc_done (STC_DTE); /* error, done */ | |
| return TRUE; | |
| } | |
| if ((uptr->flags & UNIT_WPRT) && (uptr->FNC == CMC_WR)) { | |
| idc_done (STC_WRP); /* error, done */ | |
| return TRUE; | |
| } | |
| cy = uptr->CYL; /* get cylinder */ | |
| hd = uptr->HD; /* get head */ | |
| sc = idc_sec & SC_MASK; /* get sector */ | |
| if (cy >= drv_tab[dtype].cyl) { /* bad cylinder? */ | |
| uptr->STD = uptr->STD | STD_SKI; /* error */ | |
| idc_done (STC_DTE); /* error, done */ | |
| return TRUE; | |
| } | |
| if (hd >= drv_tab[dtype].surf) { /* bad head? */ | |
| if (first) { /* 1st xfer? */ | |
| uptr->STD = uptr->STD | STD_UNS; /* drive unsafe */ | |
| idc_done (STC_ACF); | |
| } | |
| else idc_done (STC_CYO); /* no, cyl ovf */ | |
| return TRUE; | |
| } | |
| sa = GET_SA (cy, hd, sc, dtype); /* curr disk addr */ | |
| fseek (uptr->fileref, sa * IDC_NUMBY, SEEK_SET); /* seek to pos */ | |
| idc_sec = (idc_sec + 1) & SC_MASK; /* incr disk addr */ | |
| if (idc_sec == 0) | |
| uptr->HD = uptr->HD + 1; | |
| return FALSE; | |
| } | |
| /* Data transfer done routine */ | |
| void idc_done (uint32 flg) | |
| { | |
| idc_sta = (idc_sta | STC_IDL | flg) & ~STA_BSY; /* set flag, idle */ | |
| if (idc_arm) /* if armed, intr */ | |
| SET_INT (v_IDC); | |
| int_req[l_IDC] = int_req[l_IDC] | idd_sirq; /* restore drv ints */ | |
| idd_sirq = 0; /* clear saved */ | |
| if (flg) /* if err, stop sch */ | |
| sch_stop (idc_dib.sch); | |
| return; | |
| } | |
| /* Reset routine */ | |
| t_stat idc_reset (DEVICE *dptr) | |
| { | |
| uint32 u; | |
| UNIT *uptr; | |
| idc_sta = STC_IDL | STA_BSY; /* idle, busy */ | |
| idc_wdptr = 0; | |
| idd_wdptr = 0; | |
| idc_1st = 0; /* clear flag */ | |
| idc_svun = idc_db = 0; /* clear unit, buf */ | |
| idc_sec = 0; /* clear addr */ | |
| idc_hcyl = 0; | |
| CLR_INT (v_IDC); /* clear ctrl int */ | |
| CLR_ENB (v_IDC); /* clear ctrl enb */ | |
| idc_arm = 0; /* clear ctrl arm */ | |
| idd_sirq = 0; | |
| for (u = 0; u < ID_NUMDR; u++) { /* loop thru units */ | |
| uptr = idc_dev.units + u; | |
| uptr->CYL = uptr->STD = 0; | |
| uptr->HD = uptr->FNC = 0; | |
| idd_dcy[u] = 0; | |
| CLR_INT (v_IDC + u + 1); /* clear intr */ | |
| CLR_ENB (v_IDC + u + 1); /* clear enable */ | |
| idd_arm[u] = 0; /* clear arm */ | |
| sim_cancel (uptr); /* cancel activity */ | |
| } | |
| return SCPE_OK; | |
| } | |
| /* Attach routine (with optional autosizing) */ | |
| t_stat idc_attach (UNIT *uptr, char *cptr) | |
| { | |
| uint32 i, p; | |
| t_stat r; | |
| uptr->capac = drv_tab[GET_DTYPE (uptr->flags)].size; | |
| r = attach_unit (uptr, cptr); /* attach unit */ | |
| if (r != SCPE_OK) /* error? */ | |
| return r; | |
| uptr->CYL = 0; | |
| if ((uptr->flags & UNIT_AUTO) == 0) /* autosize? */ | |
| return SCPE_OK; | |
| if ((p = ftell (uptr->fileref)) == 0) | |
| return SCPE_OK; | |
| for (i = 0; drv_tab[i].surf != 0; i++) { | |
| if (p <= drv_tab[i].size) { | |
| uptr->flags = (uptr->flags & ~UNIT_DTYPE) | (i << UNIT_V_DTYPE); | |
| uptr->capac = drv_tab[i].size; | |
| return SCPE_OK; | |
| } | |
| } | |
| return SCPE_OK; | |
| } | |
| /* Set size command validation routine */ | |
| t_stat idc_set_size (UNIT *uptr, int32 val, char *cptr, void *desc) | |
| { | |
| if (uptr->flags & UNIT_ATT) | |
| return SCPE_ALATT; | |
| uptr->capac = drv_tab[GET_DTYPE (val)].size; | |
| return SCPE_OK; | |
| } |