Ejemplo n.º 1
0
int32 ptrio (int32 inst, int32 fnc, int32 dat, int32 dev)
{
switch (inst) {                                         /* case on opcode */

    case ioOCP:                                         /* OCP */
        if (fnc & 016)                                  /* only fnc 0,1 */
            return IOBADFNC (dat);
        ptr_motion = fnc ^ 1;
        if (fnc)                                        /* fnc 1? stop */
            sim_cancel (&ptr_unit);
        else sim_activate (&ptr_unit, ptr_unit.wait);   /* fnc 0? start */
        break;

    case ioSKS:                                         /* SKS */
        if (fnc & 013)                                  /* only fnc 0,4 */
            return IOBADFNC (dat);
        if (((fnc == 000) && TST_INT (INT_PTR)) ||      /* fnc 0? skip rdy */
            ((fnc == 004) && !TST_INTREQ (INT_PTR)))    /* fnc 4? skip !int */
            return IOSKIP (dat);
        break;

    case ioINA:                                         /* INA */
        if (fnc)                                        /* only fnc 0 */
            return IOBADFNC (dat);
        if (TST_INT (INT_PTR)) {                        /* ready? */
            CLR_INT (INT_PTR);                          /* clear ready */
            if (ptr_motion)                             /* if motion, restart */
                sim_activate (&ptr_unit, ptr_unit.wait);
            return IOSKIP (ptr_unit.buf | dat);         /* ret buf, skip */
            }
        break;
        }                                               /* end case op */

return dat;
}
Ejemplo n.º 2
0
int32 clkio (int32 inst, int32 fnc, int32 dat, int32 dev)
{
switch (inst) {                                         /* case on opcode */

    case ioOCP:                                         /* OCP */
        if (fnc & 015)                                  /* only fnc 0,2 */
            return IOBADFNC (dat);
        CLR_INT (INT_CLK);                              /* reset ready */
        if (fnc)                                        /* fnc = 2? stop */
            sim_cancel (&clk_unit);
        else {                                          /* fnc = 0? */
            if (!sim_is_active (&clk_unit))
                sim_activate (&clk_unit,                /* activate */
            sim_rtc_init (clk_unit.wait));              /* init calibr */
            }
        break;

    case ioSKS:                                         /* SKS */
        if (fnc == 000) {                               /* clock skip !int */
            if (!TST_INTREQ (INT_CLK))
                return IOSKIP (dat);
			}
        else if ((fnc & 007) == 002) {                  /* mem parity? */
            if (((fnc == 002) && !TST_INT (INT_MPE)) ||
                ((fnc == 012) && TST_INT (INT_MPE)))
                return IOSKIP (dat);
            }
        else return IOBADFNC (dat);                     /* invalid fnc */
        break;

    case ioOTA:                                         /* OTA */
        if (fnc == 000)                                 /* SMK */
            dev_enb = dat;
        else if (fnc == 010) {                          /* OTK */
            C = (dat >> 15) & 1;                        /* set C */
            if (cpu_unit.flags & UNIT_HSA)              /* HSA included? */
                dp = (dat >> 14) & 1;                   /* set dp */
            if (cpu_unit.flags & UNIT_EXT) {            /* ext opt? */
                if (dat & 020000) {                     /* ext set? */
                    ext = 1;                            /* yes, set */
                    extoff_pending = 0;
                    }
                else extoff_pending = 1;                /* no, clr later */
                }
            sc = dat & 037;                             /* set sc */
            }
        else return IOBADFNC (dat);
Ejemplo n.º 3
0
int32 ptpio (int32 inst, int32 fnc, int32 dat, int32 dev)
{
switch (inst) {                                         /* case on opcode */

    case ioOCP:                                         /* OCP */
        if (fnc & 016)                                  /* only fnc 0,1 */
            return IOBADFNC (dat);
        if (fnc) {                                      /* fnc 1? pwr off */
            CLR_INT (INT_PTP);                          /* not ready */
            ptp_power = 0;                              /* turn off power */
            sim_cancel (&ptp_unit);                     /* stop punch */
            }
        else if (ptp_power == 0)                        /* fnc 0? start */
            sim_activate (&ptp_unit, ptp_ptime);
        break;

    case ioSKS:                                         /* SKS */
        if ((fnc & 012) || (fnc == 005))                /* only 0, 1, 4 */
            return IOBADFNC (dat);
        if (((fnc == 000) && TST_INT (INT_PTP)) ||      /* fnc 0? skip rdy */
            ((fnc == 001) &&                            /* fnc 1? skip ptp on */
                (ptp_power || sim_is_active (&ptp_unit))) ||
            ((fnc == 004) && !TST_INTREQ (INT_PTP)))    /* fnc 4? skip !int */
            return IOSKIP (dat);
        break;

    case ioOTA:                                         /* OTA */
        if (fnc)                                        /* only fnc 0 */
            return IOBADFNC (dat);
        if (TST_INT (INT_PTP)) {                        /* if ptp ready */
            CLR_INT (INT_PTP);                          /* clear ready */
            ptp_unit.buf = dat & 0377;                  /* store byte */
            sim_activate (&ptp_unit, ptp_unit.wait);
            return IOSKIP (dat);                        /* skip return */
            }
        break;
        }

return dat;
}
Ejemplo n.º 4
0
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;
}
Ejemplo n.º 5
0
int32 ttyio (int32 inst, int32 fnc, int32 dat, int32 dev)
{
switch (inst) {                                         /* case on opcode */

    case ioOCP:                                         /* OCP */
        if (fnc & 016)                                  /* only fnc 0,1 */
            return IOBADFNC (dat);
        if (fnc && (tty_mode == 0)) {                   /* input to output? */
            if (!sim_is_active (&tty_unit[TTO]))        /* set ready */
                SET_INT (INT_TTY);
            tty_mode = 1;                               /* mode is output */
            }
        else if ((fnc == 0) && tty_mode) {              /* output to input? */
            CLR_INT (INT_TTY);                          /* clear ready */
            tty_mode = 0;                               /* mode is input */
            }
        break;

    case ioSKS:                                         /* SKS */
        if (fnc & 012)                                  /* fnc 0,1,4,5 */
            return IOBADFNC (dat);
        if (((fnc == 000) && TST_INT (INT_TTY)) ||      /* fnc 0? skip rdy */
            ((fnc == 001) &&                            /* fnc 1? skip !busy */
                (!tty_mode || !sim_is_active (&tty_unit[TTO]))) ||
            ((fnc == 004) && !TST_INTREQ (INT_TTY)) ||  /* fnc 4? skip !int */
            ((fnc == 005) && (tty_mode ||               /* fnc 5? skip !xoff */
                ((tty_buf & 0177) != XOFF))))           /* input & XOFF char */
            return IOSKIP (dat);
        break;

    case ioINA:                                         /* INA */
        if (fnc & 005)                                  /* only 0,2 */
            return IOBADFNC (dat);
        if (TST_INT (INT_TTY)) {                        /* ready? */
            if (tty_mode == 0)                          /* inp? clear rdy */
                CLR_INT (INT_TTY);
            return IOSKIP (dat |
                (tty_buf & ((fnc & 002)? 077: 0377)));
            }
        break;

    case ioOTA:
        if (fnc & 015)                                  /* only 0,2 */
            return IOBADFNC (dat);
        if (TST_INT (INT_TTY)) {                        /* ready? */
            tty_buf = dat & 0377;                       /* store char */
            if (fnc & 002) {                            /* binary mode? */
                tty_buf = tty_buf | 0100;               /* set ch 7 */
                if (tty_buf & 040)
                    tty_buf = tty_buf & 0277;
                }
            if (tty_mode) {
                sim_activate (&tty_unit[TTO], tty_unit[TTO].wait);
                CLR_INT (INT_TTY);
                }
            return IOSKIP (dat);
            }
        break;
        }                                               /* end case op */

return dat;
}