source: buchla-68k/orig/MT/MTROMP.C@ cbe2c15

/*
   ============================================================================
        mtromp.c -- ROMP multi-tasking debug monitor for the Buchla 700
        (c) Copyright 1988 -- D.N. Lynx Crowe

        See ROMPVER, below, for version number and date.

        CAUTION:  This code is designed to live in PROM, so initialized
        variables are PERMANENTLY initialized, since the compiler assigns
        initialized variables to the data segment, which ends up in PROM.

        Un-initialized variables go into the bss segment, which ends up in RAM.
   ============================================================================
*/

#define ROMPVER "24.04 -- 1988-04-17"

#include "ascii.h"
#include "biosdefs.h"
#include "ctype.h"
#include "errdefs.h"
#include "glcfns.h"
#include "glcdefs.h"
#include "hwdefs.h"
#include "memory.h"
#include "mtdefs.h"
#include "mtfuncs.h"
#include "rawio.h"
#include "regs.h"
#include "stddefs.h"
#include "strings.h"
#include "vsdd.h"
#include "graphdef.h"
#include "vsddsw.h"
#include "vsddvars.h"
#include "debug.h"

typedef unsigned short  UWORD16;        /* unsigned 16 bit word */

/* 

*/

#define BOOTKEY         39              /* Boot panel key */
#define ROMPKEY         40              /* ROMP panel key */

#define BOOTFILE        "midas.abs"     /* Boot file name */

#define BOOT_PRI        (MT_DfPri/2)    /* default boot priority */
#define DFRUNPRI        (MT_DfPri/2)    /* default 'run' priority */

#define KB_EI           2               /* Enable level for panel */
#define DEFIPL          2               /* Default internal processor level */
#define INITSR          0x2200          /* Default initial status register */

#define LED_TIME        100             /* LED scan timer value (loops) */
#define FIFOLIM         60000           /* FIFO clear limit */

#define NSTAX           5               /* Number of interrupt stacks */
#define STKLEN          256             /* Default / Int. stack size (words) */

#define USER_RAM        0x00010000L     /* Start of user RAM  (TPA) */
#define RAM_TOP         0x000FFFFEL     /* Default top word of memory */
#define ISTACK          0x000FFFFEL     /* Default initial stack */

#define ROMADDR         0x00100000L     /* Start of PROM */
#define PRM_DATE        0x00100008L     /* PROM date address */
#define PRM_VERS        0x00100002L     /* PROM version address */
#define PDATELN         14              /* PROM date length */

#define BARBASE         5120L           /* Base of bar display in VSDD RAM */
#define SWBASE          38400L          /* Base of switch display in VSDD RAM */

#define BAR_ON          P_WHT           /* color of bar when on */
#define BAR_OFF         P_BRN           /* color of bar when off */
#define SW_ON           P_DKGRN         /* color of switch when on */
#define SW_OFF          P_RED           /* color of switch when off */

/* 

*/

#define I_TABX          53              /* Tablet X */
#define I_TABY          54              /* Tablet Y */
#define I_CURX          55              /* Cursor X */
#define I_CURY          56              /* Cursor Y */
#define I_LONGL         57              /* LongPot Left */
#define I_LONGR         58              /* LongPot Right */
#define I_SCROLL        59              /* Scroll */
#define I_TEMPO         73              /* Tempo Multiplier */
#define I_TIME          74              /* Time Scaling */
#define I_TUNE          75              /* Fine Tuning */
#define I_LEVEL         76              /* Amplitude */

#define MARGIN          4               /* Offset from left edge of screen */

#define MAXFNLN         13              /* xxxxxxxx.xxx + CR */
#define MAXARGLN        80              /* maximum argument length */
#define MAXCMDLN        128             /* maximum command line length */
#define MAXHS           80              /* maximum help string length */
#define MAXID           90              /* maximum ID string length */

#define BPINST          0x4E4F          /* breakpoint instruction */

#define CRLF            "\r\n"          /* CR/LF constant */

#define TACK            "K\r"           /* good response from load command */
#define NACK            "?\r"           /* bad response from load command */
#define SREC9           "04000000FB"    /* tail of a type 9 Motorola S-Record */

#define MON_C           1               /* monitor code - character */
#define MON_S           2               /* monitor code - short */
#define MON_L           4               /* monitor code - long */

/* 

*/

/*
   ============================================================================
        Externals and forward references
   ============================================================================
*/

extern  UWORD16 setipl();

extern  short   _MTInt1(), _MTInt2(), _MTInt3(), _MTInt4(), _MTInt5();

extern  int     rjumpto(), halt(), getln(), sjumpto();
extern  int     trap15(), xtrap15();
extern  int     hdvini(), booter(), vsndpal();

extern  char    *MTPrFlg();

/* external variables */

extern  TCB     *MT_ITT[];              /* interrupt TCB pointer table */

extern  short   wzcrsh, *crshpc, *crshsp, *crshus;

extern  int     B_log_s, B_dbg_s, _bpbin;

extern  char    *B_buf_a;

extern  short   dfltpal[16][3], crshst[16];

extern  UWORD16 crshsr;
extern  long    crshrg[16];
extern  char    crshvc[4];

extern  MBOX    MSG_Vid;
extern  SEM     SemQuit;

/* forward references */

int     cp_dump(), cp_fill(), cp_copy(), cp_null(), cp_ilev(), cp_ldmp();
int     cp_go(),   cp_read(), cp_mset(), cp_rset(), cp_wset(), cp_mtst();
int     cp_wdmp(), cp_wfil(), cp_vrst(), cp_monc(), cp_mons(), cp_monl();
int     cp_chek(), cx_dini(), cx_mlod(), cp_boot(), cx_boot(), cx_adsp();
int     cx_mtsn(), cp_run(),  cx_run(),  cx_wait(), cx_copy(), cx_rset();
int     cx_dump(), cx_fill(), cx_load(), cx_go(),   cx_read(), cx_help();
int     cx_exit(), cx_writ(), cx_regs(), cx_mset(), cx_omap(), cx_chek();
int     cx_bpb(),  cx_wset(), cx_wdmp(), cx_wfil(), cx_rest(), cx_mtid();
int     cx_vrst(), cx_vreg(), cx_mon(),  cx_next(), cx_ilev(), cp_mtsd();
int     do_srec(), cx_crsh(), cx_mtst(), cx_zap(),  cx_ldmp(), cx_mtsd();
int     cx_mtcb(), cp_mstp(), cx_mstp(), cx_mzap(), cp_mpri(), cx_mpri();
int     cx_mtsk(), cx_mqry(), cx_mtcs(), cx_mtrq();

char    hs_mtst[];

/* 

*/

/*
   ============================================================================
        error message string definitions
   ============================================================================
*/

#define EMSG1   "\r\n** Command error **\r\n"
#define EMSG2   "\r\n** Invalid parameter **\r\n"
#define EMSG3   "\r\n** Unrecognized command **\r\n"

#define EMSG5   "\r\n** Command not repeatable **\r\n"
#define EMSG6   "\r\n** Invalid line terminator **\r\n"
#define EMSG7   "\r\n** do_cmd() switch failed **\r\n"

#define CANNED  "\r\n----- Cancelled -----\r\n"

/* 

*/

/*
   ============================================================================
        initialized variables  (These end up in the data segment in PROM)
   ============================================================================
*/

struct cmdent {                 /* command table entry */

        char    *cname;         /* command name pointer */
        int     (*cp)();        /* command parser function pointer */
        int     (*cx)();        /* command execution function pointer */
        char    *hstr;          /* help string pointer */
};

struct cmdent cmtab[] = {

        {"adisp",       cp_null,        cx_adsp,        ""},
        {"boot",        cp_boot,        cx_boot,        ""},
        {"bpb",         cp_null,        cx_bpb,         ""},
        {"check",       cp_chek,        cx_chek,        "start,end"},
        {"copy",        cp_copy,        cx_copy,        "from,to,len"},
        {"crash",       cp_null,        cx_crsh,        ""},
        {"dinit",       cp_null,        cx_dini,        ""},
        {"dump",        cp_dump,        cx_dump,        "from[,[to=from][,width=16]]"},
        {"fill",        cp_fill,        cx_fill,        "start,count,byte"},
        {"go",          cp_go,          cx_go,          "[addr][,[brk1][,brk2]]"},
        {"help",        cp_null,        cx_help,        ""},
        {"ipl",         cp_ilev,        cx_ilev,        "level"},
        {"ldump",       cp_ldmp,        cx_ldmp,        "from[,[to=from][,width=4]]"},
        {"load",        cp_null,        cx_load,        ""},    
        {"midas",       cp_null,        cx_mlod,        ""},
        {"monc",        cp_monc,        cx_mon,         "addr"},
        {"mons",        cp_mons,        cx_mon,         "addr"},
        {"monl",        cp_monl,        cx_mon,         "addr"},
        {"mset",        cp_mset,        cx_mset,        "addr,b1[,...,bn]"},
        {"mtidump",     cp_null,        cx_mtid,        ""},
        {"mtsetp",      cp_mpri,        cx_mpri,        "priority"},
        {"mtsnap",      cp_null,        cx_mtsn,        ""},
        {"mtstat",      cp_mstp,        cx_mqry,        "taskid"},
        {"mtstop",      cp_mstp,        cx_mstp,        "taskid"},
        {"mtzap",       cp_mstp,        cx_mzap,        "taskid"},
        {"next",        cp_null,        cx_next,        ""},
        {"obmap",       cp_null,        cx_omap,        ""},
        {"ramtest",     cp_mtst,        cx_mtst,        hs_mtst},
        {"read",        cp_read,        cx_read,        "sector,buffer,count"},
        {"readyq",      cp_null,        cx_mtrq,        ""},
        {"regs",        cp_null,        cx_regs,        ""},
        {"reset",       cp_null,        cx_rest,        ""},
        {"rset",        cp_rset,        cx_rset,        "register,value"},
        {"run",         cp_run,         cx_run,         "addr[,pri]"},
        {"sem",         cp_mtsd,        cx_mtsd,        "addr"},
        {"tasks",       cp_null,        cx_mtsk,        "",},
        {"tcb",         cp_mtsd,        cx_mtcb,        "addr"},
        {"tcbs",        cp_null,        cx_mtcs,        ""},
        {"vregs",       cp_null,        cx_vreg,        ""},
        {"vrset",       cp_vrst,        cx_vrst,        "register,value"},
        {"wait",        cp_null,        cx_wait,        ""},
        {"wdump",       cp_wdmp,        cx_wdmp,        "from[,[to=from][,width=8]]"},
        {"wfill",       cp_wfil,        cx_wfil,        "loc,count,word"},
        {"write",       cp_read,        cx_writ,        "sector,buffer,count"},
        {"wset",        cp_wset,        cx_wset,        "addr,w1[,...,wn]"},
        {"zap",         cp_null,        cx_zap,         ""}
};

#define NCMDS   ((sizeof cmtab) / (sizeof cmtab[0]))

/* 

*/

char    ahex[] = "0123456789abcdefABCDEF";

char    *rlist[] = {            /* register name list */

        "d0", "d1", "d2", "d3", "d4", "d5", "d6", "d7",
        "a0", "a1", "a2", "a3", "a4", "a5", "a6", "a7",
        "sr", "pc", "sp",
        (char *)0
};

char    *vrlist[] = {           /* video register name list */

        "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7",
        "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15",
        "h0", "h1", "h2", "h3", "v0", "v1", "v2", "v3",
        (char *)0
};

int     sigadr[] = {            /* display offsets for signals */

         0,  0,  0,  0,  0,   1,  1,  1,  1,  1,        /* keys      */
         2,  2,  2,  2,  2,   3,  3,  3,  3,  3,
         4,  4,  4,  4,
         7,  7,  7,  7,  7,   8,  8,  8,  8,  8,        /* sliders   */
         9,  9,  9,  9,
        12, 12, 12, 12, 12,  13, 13, 13, 13, 13,        /* switches  */
        14, 14, 14, 14,
        17, 17,                                         /* tablet    */
        20, 20,                                         /* cursor    */
        23, 23,                                         /* longpot   */
        26,                                             /* scrollpot */
        29, 29, 29, 29, 29,  30, 30, 30, 30, 30,        /* digits    */
        32, 32, 32,                                     /* x, e, m   */
        35, 35, 35, 35,                                 /* pots      */
        37, 37,                                         /* pedals    */
        39, 39, 39, 39                                  /* analog in */
};

/* 

*/

char    *tsmsg[] = {

        /* -3 */        "stopped,  waiting on a semaphore",
        /* -2 */        "stopped,  not waiting",
        /* -1 */        "not found",
        /*  0 */        "running  (current task)",
        /*  1 */        "ready to run",
        /*  2 */        "waiting on a semaphore"
};

/* 

*/

/*
   ============================================================================
        un-initialized variables  (These end up in the bss segment in RAM)
   ============================================================================
*/

char            argsep;                 /* argument separator */

char            *aptr,                  /* argument pointer */
                *monptr,                /* monitored variable pointer */
                *d_cur,                 /* dump current from */
                *d_next,                /* dump next from */
                *d_last,                /* dump next to */
                *p_end,                 /* end parameter */
                *p_from,                /* from parameter */
                *p_goto,                /* goto parameter */
                *p_to,                  /* to parameter */
                *sptr;                  /* string scan pointer */

short           argln,                  /* argument length */
                b0flag,                 /* breakpoint 0 flag */
                b1flag,                 /* breakpoint 1 flag */
                cmdunit,                /* command unit */
                dflag,                  /* dump limit flag */
                exflag,                 /* exit do_cmd flag */
                first1,                 /* first time flag */
                goflag,                 /* pc set flag */
                ilast,                  /* index of last command */
                inext,                  /* command index for "next" command */
                iplev,                  /* ROMP IPL level */
                monsw,                  /* monitor switch */
                redo,                   /* re-doable command flag */
                rnum,                   /* register number */
                taskid,                 /* task ID */
                taskpri,                /* task priority */
                vrnum;                  /* video register number */

/* 

*/

short           asig,                   /* signal number */
                aval,                   /* signal value */
                astat,                  /* signal status */
                aflag,                  /* signal activity flag */
                baseled,                /* base LED for scan */
                ledcntr;                /* LED scan counter */

short           sigtab[128][2];         /* signal table */

long            afi,                    /* analog FIFO input */
                ftimer;                 /* analog FIFO clear timer */

unsigned        baron,                  /* bar 'on' color */
                baroff,                 /* bar 'off' color */
                swon,                   /* switch 'on' color */
                swoff,                  /* switch 'off' color */
                *obj0;                  /* object pointer */

UWORD16         *tba0,                  /* breakpoint 0 temporary */
                *tba1;                  /* breakpoint 1 temporary */

UWORD16         p_bv0,                  /* breakpoint 0 value */
                p_bv1;                  /* breakpoint 1 value */

UWORD16         *p_ba0,                 /* breakpoint 0 address */
                *p_ba1;                 /* breakpoint 1 address */

long            p_len,                  /* length parameter */
                p_value,                /* value parameter */
                p_width,                /* width parameter */
                p_pri,                  /* task priority */
                p_task;                 /* task ID */

struct  regs    *regptr;                /* register save area pointer */

char            argstr[MAXARGLN+1],     /* argument string */
                cmdline[MAXCMDLN+1],    /* command line */
                bfname[MAXFNLN+1],      /* boot file name */
                hs_mtst[MAXHS+1],       /* mtest help string */
                idbuf[MAXID+1],         /* ID string */
                promdate[PDATELN+1];    /* PROM date area */

unsigned        runstak[STKLEN],        /* initial 'run' stack */
                stax[NSTAX][STKLEN];    /* stacks for interrupt tasks */

struct _mt_def  *_MT_;                  /* pointer to MTStruct */

TCB             runtcb,                 /* 'run' TCB */
                ipltcb;                 /* MIDAS boot TCB */

/* 

*/

/*
   ============================================================================
        cx_rest -- execute the reset command
   ============================================================================
*/

int
cx_rest()
{
        setipl(7);
        rjumpto(ROMADDR);
}

/*
   ============================================================================
        cx_mtsn -- execute the mtsnap command
   ============================================================================
*/

int
cx_mtsn()
{
        MTSnap();
        return(TRUE);
}

/*
   ============================================================================
        cx_mtid -- execute the mtidump command
   ============================================================================
*/

int
cx_mtid()
{
        MTIDump();
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_mlod() -- execute the midas command
   ============================================================================
*/

int
cx_mlod()
{
        register short i;

        B_log_s = TRUE;
        B_dbg_s = FALSE;
        redo = FALSE;

        hdvini();
        _bpbin = FALSE;

        if (booter(BOOTFILE, 0L)) {

                return(FALSE);

        } else {

                for (i = 0; i < 8; i++)         /* clear d0..d7 */
                        regptr->d_reg[i] = 0L;

                for (i = 0; i < 7; i++)         /* clear a0..a6 */
                        regptr->a_reg[i] = (char *)0L;

                regptr->a_reg[7] = ISTACK;      /* setup initial stack */
                regptr->reg_sr = INITSR;        /* setup sr */
                regptr->reg_pc = B_buf_a;       /* setup pc */

                return(TRUE);
        }
}

/* 

*/

/*
   ============================================================================
        cp_boot() -- parse boot command
   ============================================================================
*/

int
cp_boot()
{
        register int i;
        register char endc;

        redo = FALSE;

        for (;;) {

                writeln(cmdunit, "File name: ");
                endc = getln(cmdunit, MAXFNLN+1, bfname);
                writeln(cmdunit, CRLF);

                if (endc EQ A_CR)
                        break;

                if (endc EQ CTL('X')) {

                        writeln(cmdunit, CANNED);
                        return(FALSE);
                }

                if (endc EQ ERR01)
                        writeln(cmdunit, EMSG2);
        }

        for (i = 0; i < MAXFNLN+1; i++)
                if (bfname[i] EQ A_CR)
                        bfname[i] = '\0';
        
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_boot() -- execute boot command
   ============================================================================
*/

int
cx_boot()
{
        register short i;

        B_log_s = TRUE;
        B_dbg_s = FALSE;

        hdvini();
        _bpbin = FALSE;

        if (booter(bfname, 0L)) {

                return(FALSE);

        } else {

                for (i = 0; i < 8; i++)         /* clear d0..d7 */
                        regptr->d_reg[i] = 0L;

                for (i = 0; i < 7; i++)         /* clear a0..a6 */
                        regptr->a_reg[i] = (char *)0L;

                regptr->a_reg[7] = ISTACK;      /* setup initial stack */

                regptr->reg_sr = INITSR;        /* setup sr */
                regptr->reg_pc = B_buf_a;       /* setup pc */

                return(TRUE);
        }
}

/* 

*/

/*
   =============================================================================
        dobar(nb, bv) -- draw bar 'nb' with value 'bv'
   =============================================================================
*/

dobar(nb, bv)
register int nb, bv;
{
        register unsigned *bp;
        register int i;

        if ((nb LT 1) OR (nb GT 82))
                return;

        --nb;
        bp = obj0 + BARBASE + (long)(sigadr[nb] + MARGIN + nb);

        for (i = 127; i GE 0; --i) {

                if (i GT bv) {

                        *bp = baroff;
                        bp += 128L;
                        *bp = baroff;

                } else {

                        *bp = baron;
                        bp += 128L;
                        *bp = baron;
                }

                bp += 128L;
        }
}

/* 

*/

/*
   =============================================================================
        dosw(nb, sv) -- display value 'sv' of switch 'nb'
   =============================================================================
*/

dosw(nb, sv)
register int nb, sv;
{
        register unsigned *bp;
        register int i, j;

        if ((nb LT 1) OR (nb GT 82))
                return;

        --nb;
        bp = obj0 + SWBASE + (long)(sigadr[nb] + MARGIN + nb);

        if (sv)
                j = swon;
        else
                j = swoff;

        for (i = 0; i < 8; i++) {

                *bp = j;
                bp += 128L;
        }
}

/* 

*/

/*
   =============================================================================
        exp_c() -- expand a 4 bit color into a 16 bit word
   =============================================================================
*/

unsigned
exp_c(c)
unsigned c;
{
        c &= 0x000F;
        c |= c << 4;
        c |= c << 8;

        return(c);
}

/* 

*/

/*
   =============================================================================
        cx_adsp() -- display values of analog processor variables as a bar graph
   =============================================================================
*/

cx_adsp()
{
        register int xasig, xastat, xaval;
        register long xafi;
        register long lc;
        register unsigned *bp;
        int     i, j, k;
        int     oldi;

        memsetw(sigtab, 0, sizeof sigtab / 2);

        VHinit();
        VSinit();
        vsndpal(dfltpal);

        obj0 = 0x200400L;

        SetObj(0, 0, 0, obj0, 512, 350, 0, 0, (V_RES3| V_TDE), -1);

        bp = obj0;
        
        for (lc = 0; lc < 44800; lc++)
                *bp++ = 0x0000;

        baron  = 0x0FFF & exp_c(BAR_ON);
        baroff = 0x0FFF & exp_c(BAR_OFF);
        swon   = 0x0FFF & exp_c(SW_ON);
        swoff  = 0x0FFF & exp_c(SW_OFF);

        SetPri(0, 7);

        for (i = 1; i < 83; i++) {

                dobar(i, 0);
                dosw(i, 0);
        }

        oldi = setipl(2);

/* 

*/

        while (0L EQ BIOS(B_RDAV, CON_DEV)) {

                if (-1L NE (xafi = XBIOS(X_ANALOG))) {

                        xasig  = 0x007F & (xafi >> 8);
                        xastat = 0x0001 & (xafi >> 7);
                        xaval  = 0x007F & xafi;

                        if (xasig) {

                                sigtab[xasig][0] = xaval;
                                sigtab[xasig][1] = xastat;

                                if (xasig LT 83) {

                                        dobar(xasig, xaval);
                                        dosw(xasig, xastat);
                                }

                        } else {

                                for (i = 0; i < 83; i++)
                                        sigtab[i][1] = 0;
                        }
                }
        }

/* 

*/

        BIOS(B_GETC, CON_DEV);

        for (j = 1; j < 83; j++) {

                dobar(j, sigtab[j][0]);
                dosw(j, sigtab[j][1]);
        }

        k = 0;

        printf("\n");
        printf("       x0     x1     x2     x3     x4     x5     x6     x7     x8     x9\r\n");
        printf("     -----  -----  -----  -----  -----  -----  -----  -----  -----  -----\r\n");
                        
        for (i = 0; i < 9; i++ ) {

                printf("%01dx   ", k/10);

                for (j = 0; j < 10; j++) {

                        if (k)
                                printf("%1d:%3d  ", sigtab[k][1], sigtab[k][0]);
                        else
                                printf("       ");

                        if (++k EQ 83)
                                goto outofit;
                }

                printf("\n");
        }

outofit:

        printf("\nTempo     = %3d,  Time      = %3d,  Tuning = %3d,  Level = %3d\n",
                sigtab[I_TEMPO][0], sigtab[I_TIME][0],
                sigtab[I_TUNE][0], sigtab[I_LEVEL][0]);

        printf("LongPot L = %3d,  LongPot R = %3d,  Scroll = %3d\n",
                sigtab[I_LONGL][0], sigtab[I_LONGR][0],
                sigtab[I_SCROLL][0]);

        printf("Tablet X  = %3d,  Tablet Y  = %3d\n",
                sigtab[I_TABX][0], sigtab[I_TABY][0]);

        printf("Cursor X  = %3d,  Cursor Y  = %3d\n",
                sigtab[I_CURX][0], sigtab[I_CURY][0]);

        setipl(oldi);
        return(TRUE);
}

/* 

*/

/*
   =============================================================================
        waitcr() -- wait for a CR from CON_DEV
                Returns:        0 = continue
                                1 = ^G hit - abort
   =============================================================================
*/

int
waitcr()
{
        char    c;

        BIOS(B_PUTC, CON_DEV, '\007');

        while ('\r' NE (c = (0x7F & BIOS(B_GETC, CON_DEV)))) {

                if (c EQ '\007')
                        return(1);
        }

        return(0);
}

/* 

*/

/*
   ============================================================================
        xdtoi -- convert hex ASCII to an int digit
   ============================================================================
*/

int
xdtoi(c)
register int c;
{
        register int i;
        register char *ap = &ahex[0];

        for (i = 0; i < 22; i++)
                if (c EQ *ap++)
                        if (i >15)
                                return(i - 6);
                        else
                                return(i);

        return(-1);
}

/* 

*/

/*
   ============================================================================
        getcmd -- parse command from input line
   ============================================================================
*/

int
getcmd()
{
        register int c;

        sptr = cmdline;
        argln = 0;
        aptr = argstr;
        memset(argstr, 0, MAXARGLN+1);

        do {

                switch (c = 0x00FF & *sptr) {

                case '\0':
                case A_CR:
                case A_LF:

                        argsep = c;
                        return(argln);

                case ' ':

                        ++sptr;

                        while (*sptr EQ ' ')
                                ++sptr;

                        if (*sptr EQ A_CR OR *sptr EQ A_LF OR *sptr EQ '\0')
                                c = 0x00FF & *sptr;

                        argsep = c;
                        return(argln);

/* 

*/

                default:

                        if (isupper(c))
                                c = _tolower(c);

                        *aptr++ = c;
                        ++sptr;
                        ++argln;
                }

        } while (*sptr);

        argsep = 0;
        return(argln);
}

/* 

*/

/*
   ============================================================================
        getarg -- parse out an argument to analyze

        Parses the string at sptr for the next argument, if any.

        Returns the length of the parsed argument as the function value.

        Leaves the character that stopped the scan in argsep,
        argstr points at the parsed argument.

        Leaves sptr updated.
   ============================================================================
*/

int
getarg()
{
        register int c;

        argln = 0;
        aptr = argstr;
        memset(argstr, 0, MAXARGLN+1);

        do {

                switch (c = 0x00FF & *sptr) {

                case '\0':
                case A_CR:
                case A_LF:

                        argsep = c;
                        return(argln);

                case ' ':

                        ++sptr;

                        while (*sptr EQ ' ')
                                ++sptr;

                        if (*sptr EQ A_CR OR *sptr EQ A_LF OR *sptr EQ '\0')
                                c = 0x00FF & *sptr;

                        argsep = c;
                        return(argln);

                case ',':

                        ++sptr;
                        argsep = c;
                        return(argln);

/* 

*/

                default:

                        *aptr++ = c;
                        ++sptr;
                        ++argln;
                }

        } while (*sptr);

        argsep = 0;
        return(argln);
}

/* 

*/

/*
   ============================================================================
        getlong -- get a long integer (either hex or decimal)

        Stops on first non-digit  (past leading $ if present).
        Returns the character that stopped the scan.
   ============================================================================
*/

int
getlong(var)
long *var;
{
        register long   temp = 0L;
        register int    csw = FALSE,
                        c;

        if (*aptr EQ '$') {             /* leading $ makes it HEX */

                ++aptr;

                while (isxdigit(c = *aptr++)) {

                        temp = (temp << 4) + xdtoi(c);
                        csw = TRUE;
                }

        } else {                        /* otherwise, it's decimal */

                while (isdigit(c = *aptr++)) {

                        temp = (temp * 10) + (c - '0');
                        csw = TRUE;
                }
        }

        if (csw)                /* set the new value if we got one */
                *var = temp;

        return(c);              /* return character that stopped us */
}

/* 

*/

/*
   ============================================================================
        setvar -- parse an expression and set a long variable
   ============================================================================
*/

int
setvar(var, deflt)
long *var, deflt;
{
        int rc;
        long temp;

        *var = deflt;           /* initialize with default value */
        aptr = argstr;

        rc = getlong(var);      /* get first number in expression */

        if (rc) {

                do {

                        switch (rc) {

                        case '+':               /* var + num */

                                temp = 0L;
                                rc = getlong(&temp);
                                *var = *var + temp;
                                continue;

                        case '-':               /* var - num */

                                temp = 0L;
                                rc = getlong(&temp);
                                *var = *var - temp;
                                continue;

                        default:                /* something else is an error */

                                *var = deflt;
                                return(FALSE);
                        }

                } while (rc);

                return(TRUE);
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        putn -- output a decimal number
   ============================================================================
*/

putn(num, cw, unit)
long num;
int cw, unit;
{
        register int    d;

        if (!cw)
                return;

        putn(num/10, cw-1, unit);

        d =  num % 10;

        BIOS(B_PUTC, unit, (d + '0'));  

        return;
}

/* 

*/

/*
   ============================================================================
        puthn -- output a hex number
   ============================================================================
*/

puthn(num, cw, unit)
long num;
int cw, unit;
{
        register int    d;

        if (!cw)
                return;

        puthn(num >> 4, cw-1, unit);

        d = 0x0F & num;

        if (d > 9)
                BIOS(B_PUTC, unit, (d - 10 + 'A'));
        else
                BIOS(B_PUTC, unit, (d + '0'));  

        return;
}

/* 

*/

/*
   ============================================================================
        ddump -- do the hex portion of a dump
   ============================================================================
*/

int
ddump(loc, lastloc, nwide, unit)
register char *loc, *lastloc;
register int nwide, unit;
{
        while (nwide--) {

                puthn((long)(0xFF & *loc), 2, unit);
                BIOS(B_PUTC, unit, ' ');

                if (BIOS(B_RDAV, unit)) {

                        BIOS(B_GETC, unit);
                        return(TRUE);
                }

                if (loc EQ lastloc) {

                        dflag = TRUE;
                        return(FALSE);
                }

                ++loc;
        }


        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        padr -- print dump address
   ============================================================================
*/

padr(adr, unit)
long adr;
int unit;
{
        puthn(adr, 8, unit);
        BIOS(B_PUTC, unit, ' ');
        BIOS(B_PUTC, unit, '-');
        BIOS(B_PUTC, unit, ' ');
}

/* 

*/

/*
   ============================================================================
        dtext -- do the text portion of a dump
   ============================================================================
*/

int
dtext(loc, lastloc, nwide, unit)
register char *loc, *lastloc;
register int nwide, unit;
{
        register int c;

        BIOS(B_PUTC, unit, ' ');
        BIOS(B_PUTC, unit, '|');

        while (nwide--) {

                c = 0xFF & *loc;

                if (isascii(c) AND isprint(c))
                        BIOS(B_PUTC, unit, c);
                else
                        BIOS(B_PUTC, unit, '.');

                if (BIOS(B_RDAV, unit)) {

                        BIOS(B_GETC, unit);
                        BIOS(B_PUTC, unit, '|');
                        return(TRUE);
                }

                if (loc EQ lastloc) {

                        BIOS(B_PUTC, unit, '|');
                        return(FALSE);
                }

                ++loc;
        }

        BIOS(B_PUTC, unit, '|');
        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        cp_mset -- parse parameters for mset command
   ============================================================================
*/

int
cp_mset()
{
        redo = FALSE;

        if (0 EQ getarg())
                return(FALSE);

        if (argsep NE ',')
                return(FALSE);

        if (setvar(&p_from, p_from) EQ FALSE)
                return(FALSE);

        return(TRUE);
}

/*
   ============================================================================
        cx_mset -- execute the mset command
   ============================================================================
*/

int
cx_mset()
{
        while (TRUE) {

                if (getarg())
                        if (setvar(&p_value, p_value) EQ FALSE)
                                return(FALSE);

                if (p_value & ~0xFFL)
                        return(FALSE);

                *p_from++ = 0xFF & p_value;

                if (argsep EQ A_CR)
                        return(TRUE);
        }
}
/* 

*/

/*
   ============================================================================
        cp_wset -- parse parameters for wset command
   ============================================================================
*/

int
cp_wset()
{
        redo = FALSE;

        if (0 EQ getarg())
                return(FALSE);

        if (argsep NE ',')
                return(FALSE);

        if (setvar(&p_from, p_from) EQ FALSE)
                return(FALSE);

        if ((long)p_from & 1L)
                return(FALSE);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_wset -- execute the wset command
   ============================================================================
*/

int
cx_wset()
{
        UWORD16 *p_uint;

        p_uint = (UWORD16 *)p_from;

        while (TRUE) {

                if (getarg())
                        if (setvar(&p_value, p_value) EQ FALSE)
                                return(FALSE);

                if (p_value & ~0xFFFFL)
                        return(FALSE);

                *p_uint++ = 0xFFFF & p_value;

                if (argsep EQ A_CR)
                        return(TRUE);
        }
}

/* 

*/

/*
   ============================================================================
        cp_mtst -- parse mtest command arguments
   ============================================================================
*/

int
cp_mtst()
{
        inext = ilast;

        if (argsep EQ A_CR OR argsep EQ '\0') {

                p_from = (char *)0x00000008L;
                p_to   = (char *)USER_RAM - 2L;
                return(TRUE);
        }

        if (getarg())
                if (setvar(&p_from, USER_RAM) EQ FALSE)
                        return(FALSE);

        if (argsep NE ',')
                return(FALSE);

        if (getarg())
                if (setvar(&p_to, RAM_TOP) EQ FALSE)
                        return(FALSE);

        if ((long)p_from & 1L)
                return(FALSE);

        if ((long)p_to & 1L)
                return(FALSE);

        if (p_from GT p_to)
                return(FALSE);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_mtst -- execute the mtest command
   ============================================================================
*/

int
cx_mtst()
{
        register short  mask, was, *loc, *eloc, *oldloc;

        mask = 0x0001;
        loc = (short *)p_from;
        eloc = (short *)p_to;
        oldloc = loc;

        if (p_from LT (char *)USER_RAM)
                setipl(7);

        do {

                while (mask) {

                        *loc = mask;

                        if (mask NE (was = *loc))
                                if (p_from LT (char *)USER_RAM)
                                        halt();
                                else
                                        printf("%08lX was %04X, expected %04X\r\n",
                                                loc, was, mask);

                        *loc = ~mask;

                        if (~mask NE (was = *loc))
                                if (p_from LT (char *)USER_RAM)
                                        halt();
                                else
                                        printf("%08lX was %04X, expected %04X\r\n",
                                                loc, was, ~mask);

                        mask <<= 1;
                }

                mask = 0x0001;
                loc++;

        } while (loc LE eloc);

        if (oldloc LT (short *)USER_RAM)
                rjumpto((long)ROMADDR);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_go -- parse parameters for go command
   ============================================================================
*/

int
cp_go()
{
        redo = FALSE;
        b0flag = FALSE;
        b1flag = FALSE;
        goflag = FALSE;

        if (getarg()) {

                if (setvar(&p_goto, p_goto) EQ FALSE)
                        return(FALSE);

                if (1L & (long)p_goto)
                        return(FALSE);

                goflag = TRUE;

        }

        if (getarg()) {

                if (setvar(&tba0, 0L) EQ FALSE)
                        return(FALSE);

                if (1L & (long)tba0)
                        return(FALSE);

                b0flag = TRUE;
        }

        if (getarg()) {

                if (setvar(&tba1, 0L) EQ FALSE)
                        return(FALSE);

                if (1L & (long)tba1)
                        return(FALSE);

                b1flag = TRUE;
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_mtsd -- parse parameters for mtsdump command
   ============================================================================
*/

int
cp_mtsd()
{
        redo = TRUE;

        if (getarg()) {

                if (setvar(&p_from, p_from) EQ FALSE)
                        return(FALSE);

                if (1L & (long)p_from)
                        return(FALSE);
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_mpri -- parse parameters for mtsetp command
   ============================================================================
*/

int
cp_mpri()
{
        redo = FALSE;

        if (getarg()) {

                if (setvar(&p_pri, p_pri) EQ FALSE)
                        return(FALSE);

                taskpri = (unsigned)p_pri;
                return(TRUE);
        }

        return(FALSE);
}

/*
   ============================================================================
        cp_mstp -- parse parameters for mtstop command
   ============================================================================
*/

int
cp_mstp()
{
        redo = FALSE;

        if (getarg()) {

                if (setvar(&p_task, p_task) EQ FALSE)
                        return(FALSE);

                taskid = (unsigned)p_task;
                return(TRUE);
        }

        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        cx_mpri -- execute the mtsetp command
   ============================================================================
*/

int
cx_mpri()
{
        MTSetP(taskpri);
        return(TRUE);
}

/*
   ============================================================================
        cx_mqry -- execute the mtstat command
   ============================================================================
*/

int
cx_mqry()
{
        short rc;

        rc = MTStat(taskid);

        if ((rc < -3) OR (rc > 2)) {

                printf("unrecognized return code from MTStat:  %d\n", rc);
                return(TRUE);
        }

        printf("task %d status:  %s\n", taskid, tsmsg[rc + 3]); 
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_mzap -- execute the mtzap command
   ============================================================================
*/

int
cx_mzap()
{
        short rc;

        rc = MTZap(taskid);

        switch (rc) {

        case -1:

                printf("task %d not deleted:  active or waiting\n", taskid);
                break;

        case 0:

                printf("task %d deleted\n", taskid);
                break;

        case 1:

                printf("task %d not found\n", taskid);
                break;

        default:

                printf("unrecognized return code from MTZap:  %d\n", rc);
                break;
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_mstp -- execute the mtstop command
   ============================================================================
*/

int
cx_mstp()
{
        short rc;

        rc = MTStop(taskid);

        switch (rc) {

        case -3:

                printf("task %d not stopped:  current task\n", taskid);
                break;

        case -2:

                printf("task %d not stopped:  can't find it on the ready queue\n",
                        taskid);
                break;

        case -1:

                printf("task %d not stopped:  can't find its TCB\n", taskid);
                break;

        case 0:

                printf("task %d stopped\n", taskid);
                break;

        case 1:

                printf("task %d already stopped\n", taskid);
                break;

        case 2:

                printf("task %d flagged to stop\n", taskid);
                break;

        default:

                printf("unrecognized return code from MTStop:  %d\n", rc);
                break;
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_mtsk -- execute the tasks command
   ============================================================================
*/

int
cx_mtsk()
{
        MTPrTS();
        return(TRUE);
}

/*
   ============================================================================
        cx_mtcs -- execute the tcbs command
   ============================================================================
*/

int
cx_mtcs()
{
        MTPrTL();
        return(TRUE);
}

/*
   ============================================================================
        cx_mtrq -- execute the readyq command
   ============================================================================
*/

int
cx_mtrq()
{
        MTPrRq();
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_mtsd -- execute the sem command
   ============================================================================
*/

int
cx_mtsd()
{
        MTSDump(p_from, (char *)0L);
        return(TRUE);
}

/*
   ============================================================================
        cx_mtcb -- execute the tcb command
   ============================================================================
*/

int
cx_mtcb()
{
        MTPrTCB(p_from, (char *)0L);
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_run -- parse parameters for run command
   ============================================================================
*/

int
cp_run()
{
        redo = FALSE;

        if (getarg()) {

                if (setvar(&p_goto, p_goto) EQ FALSE)
                        return(FALSE);

                if (1L & (long)p_goto)
                        return(FALSE);
        }

        if (getarg()) {

                if (setvar(&p_pri, (long)DFRUNPRI) EQ FALSE)
                        return(FALSE);

                if (0xFFFF0000L & (long)p_pri)
                        return(FALSE);
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_run() -- execute the run command
   ============================================================================
*/

int
cx_run()
{
        register unsigned task;

        if ((struct _mt_def *)NIL EQ _MT_)
                _MT_ = (struct _mt_def *)XBIOS(X_MTDEFS);

        task = MTID();

        MTSetT(&runtcb, task, (unsigned)(0x0000FFFFL & p_pri), 0x2200, -1L,
                &runstak[STKLEN], p_goto, _MT_);

        printf("TCB setup - TID = %d ... Swapping ...\n", task);

        MTSwap();

        printf("Task %d initiated\n", task);
        return(TRUE);
}


/*
   ============================================================================
        cx_wait() -- execute the wait command
   ============================================================================
*/

int
cx_wait()
{
        printf("Waiting on \"SemQuit\" ...\n");
        SMWait(&SemQuit);
        printf("Task signalled \"SemQuit\"\n");
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_dini() -- execute the dinit command
   ============================================================================
*/

int
cx_dini()
{
        redo = TRUE;
        hdvini();
        return(TRUE);
}

/*
   ============================================================================
        cx_zap -- execute the zap command
   ============================================================================
*/

int
cx_zap()
{
        register short *p, *q;

        p = (short *)USER_RAM;
        q = (short *)RAM_TOP;

        setipl(7);

        while (p LE q)
                *p++ = 0;

        rjumpto(ROMADDR);
}

/* 

*/

/*
   ============================================================================
        cx_omap() -- execute the omap command
   ============================================================================
*/

int
cx_omap()
{
        register short i, width, xloc;

        printf("Pr B/C Locn      Wd Xloc Flags\r\n");

        for (i = 0; i < 16; i++) {

                xloc = v_odtab[i][1] & 0x03FF;

                if (xloc & 0x0200)              /* sign extend xloc */
                        xloc |= 0xFC00;

                width = (v_odtab[i][1] >> 10) & 0x003F;

                printf("%2d %s ",
                        i, ((v_odtab[i][0] & V_CBS) ? "Chr" : "Bit"));

                printf("$%08lX %2d %4d ",
                        ((long)v_odtab[i][2] << 1), width, xloc);

                printf("$%04X\r\n", v_odtab[i][0]);
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_help -- execute the help command
   ============================================================================
*/

int
cx_help()
{
        int     i, j;

        j = 0;

        writeln(cmdunit, CRLF);

        for (i = 0; i < NCMDS; i++) {

                if (j++ EQ 22) {

                        j = 0;

                        if (waitcr())
                                return(TRUE);
                }

                writeln(cmdunit, "     ");
                writeln(cmdunit, cmtab[i].cname);
                writeln(cmdunit, "  ");
                writeln(cmdunit, cmtab[i].hstr);
                writeln(cmdunit, CRLF);
        }

        writeln(cmdunit, CRLF);
        return(TRUE);
}

/* 

* /

/*
   ============================================================================
        cx_bpb -- execute bpb command
   ============================================================================
*/

int
cx_bpb()
{
        register struct bpb *bpp;

        if (0L EQ (bpp = (struct bpb *)BIOS(B_GBPB, 0) ) ) {

                writeln(cmdunit, "\r\n\nERROR -- Unable to read BPB\r\n\n");
                return(FALSE);

        } else {

                writeln(cmdunit, "\r\n\nBPB values:\r\n");
                writeln(cmdunit, "\r\n   recsiz   ");
                putn((long)bpp->recsiz, 5, cmdunit);
                writeln(cmdunit, "\r\n   clsiz     ");
                putn((long)bpp->clsiz, 4, cmdunit);
                writeln(cmdunit, "\r\n   clsizb   ");
                putn((long)bpp->clsizb, 5, cmdunit);
                writeln(cmdunit, "\r\n   rdlen     ");
                putn((long)bpp->rdlen, 4, cmdunit);
                writeln(cmdunit, "\r\n   fsiz      ");
                putn((long)bpp->fsiz, 4, cmdunit);
                writeln(cmdunit, "\r\n   fatrec   ");
                putn((long)bpp->fatrec, 5, cmdunit);
                writeln(cmdunit, "\r\n   datrec   ");
                putn((long)bpp->datrec, 5, cmdunit);
                writeln(cmdunit, "\r\n   numcl    ");
                putn((long)bpp->numcl, 5, cmdunit);
                writeln(cmdunit, "\r\n   bflags    ");
                puthn((long)bpp->bflags, 4, cmdunit);
                writeln(cmdunit, "\r\n   ntracks   ");
                putn((long)bpp->ntracks, 4, cmdunit);
                writeln(cmdunit, "\r\n   nsides    ");
                putn((long)bpp->nsides, 4, cmdunit);
                writeln(cmdunit, "\r\n   sec/cyl  ");
                putn((long)bpp->dspc, 5, cmdunit);
                writeln(cmdunit, "\r\n   sec/trk  ");
                putn((long)bpp->dspt, 5, cmdunit);
                writeln(cmdunit, "\r\n   hidden    ");
                putn((long)bpp->hidden, 4, cmdunit);
                writeln(cmdunit, "\r\n\n");
                return(TRUE);
        }
}

/* 

*/

/*
   ============================================================================
        cx_go -- execute the go command
   ============================================================================
*/

int
cx_go()
{
        redo = FALSE;
        exflag = TRUE;
        wzcrsh = FALSE;

        if (goflag)
                regptr->reg_pc = p_goto;

        if (b0flag ) {

                if (p_ba0) {

                        if (*p_ba0 NE (UWORD16)BPINST) {

                                writeln(cmdunit, "\r\n\n** Breakpoint 0 at ");
                                puthn((long)p_ba0, 8, cmdunit);
                                writeln(cmdunit, " was ");
                                puthn(0xFFFFL & (long)(*p_ba0), 4, cmdunit);
                                writeln(cmdunit, " instead of ");
                                puthn(0xFFFFL & (long)BPINST, 4, cmdunit);
                                writeln(cmdunit, " **\r\n\n");
                        }

                        *p_ba0 = p_bv0;
                }

                p_ba0 = tba0;
                p_bv0 = *p_ba0;
                *p_ba0 = (UWORD16)BPINST;
        }

/* 

*/

        if (b1flag ) {

                if (p_ba1) {

                        if (*p_ba1 NE (UWORD16)BPINST) {

                                writeln(cmdunit, "\r\n\n** Breakpoint 1 at ");
                                puthn((long)p_ba1, 8, cmdunit);
                                writeln(cmdunit, " was ");
                                puthn(0xFFFFL & (long)(*p_ba1), 4, cmdunit);
                                writeln(cmdunit, " instead of ");
                                puthn(0xFFFFL & (long)BPINST, 4, cmdunit);
                                writeln(cmdunit, " **\r\n\n");
                        }

                        *p_ba1 = p_bv1;
                }

                p_ba1 = tba1;
                p_bv1 = *p_ba1;
                *p_ba1 = (UWORD16)BPINST;
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_dump -- parse dump parameters
   ============================================================================
*/

int
cp_dump()
{
        inext = ilast;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
                }

        if (argsep EQ A_CR OR argsep EQ '\0') {

                p_to = p_from;
                p_width = 16L;
                redo = TRUE;
                return(TRUE);
        }

        if (getarg())
                if (setvar(&p_to, p_to) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
        }

        if (argsep EQ A_CR OR argsep EQ '\0') {

                p_width = 16L;
                redo = TRUE;
                return(TRUE);
        }

        if (getarg())
                if (setvar(&p_width, p_width) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
        }

        if ((p_width LE 0L) OR (p_width GT 16L)) {

                p_width = 16L;
                redo = FALSE;
                return(FALSE);
        }

        redo = TRUE;
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_fill -- parse parameters for fill command
   ============================================================================
*/

int
cp_fill()
{
        redo = FALSE;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_len, p_len) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_value, p_value) EQ FALSE)
                        return(FALSE);

        if (p_value & ~0xFFL)
                return(FALSE);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_wfil -- parse parameters for wfill command
   ============================================================================
*/

int
cp_wfil()
{
        redo = FALSE;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_len, p_len) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_value, p_value) EQ FALSE)
                        return(FALSE);

        if ((long)p_from & 1L)
                return(FALSE);

        if (p_value & ~0xFFFFL)
                return(FALSE);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_copy -- parse parameters for copy command
   ============================================================================
*/

int
cp_copy()
{
        redo = FALSE;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_to, p_to) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_len, p_len) EQ FALSE)
                        return(FALSE);

        return(TRUE);
}
/* 

*/

/*
   ============================================================================
        cp_chek -- parse parameters for chek command
   ============================================================================
*/

int
cp_chek()
{
        redo = FALSE;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_to, p_to) EQ FALSE)
                        return(FALSE);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_read -- parse parameters for read command
   ============================================================================
*/

int
cp_read()
{
        redo = FALSE;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_to, p_to) EQ FALSE)
                        return(FALSE);

        if (getarg())
                if (setvar(&p_len, p_len) EQ FALSE)
                        return(FALSE);

        if ((~0x7FFFL) & p_len)
                return(FALSE);

        if ((~0xFFFFL) & (long)p_from)
                return(FALSE);

        return(TRUE);
}

/*
   ============================================================================
        cp_null -- parse null parameter line
   ============================================================================
*/

int
cp_null()
{
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_rset -- parse rset command parameters
   ============================================================================
*/

int
cp_rset()
{
        int     rc;

        rc = 0;
        redo = FALSE;

        if (0 EQ getarg())
                return(FALSE);

        str2lc(argstr);

        if (0 EQ (rc = strlcmp(argstr, rlist)))
                return(FALSE);

        if (0 EQ getarg())
                return(FALSE);

        if (FALSE EQ setvar(&p_value, 0L))
                return(FALSE);

        rnum = rc;
        return(TRUE);
}

/* 

*/
/*
   ============================================================================
        cx_chek -- process chek command
   ============================================================================
*/

int
cx_chek()
{
        register long csum;
        register char *cp;

        redo = FALSE;
        csum = 0L;

        for (cp = p_from; cp LE p_to; cp++)
                csum += 0x000000FFL & *cp;

        printf("Checksum = 0x%08lX\r\n", csum);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_rset -- process rset command
   ============================================================================
*/

int
cx_rset()
{
        redo = FALSE;

        if (rnum < 1)
                return(FALSE);

        if (rnum < 9) {         /* d0..d7 -- data register */

                regptr->d_reg[rnum-1] = p_value;
                return(TRUE);
        }

        if (rnum < 17) {        /* a0..a7 -- address register */

                regptr->a_reg[rnum-9] = (char *)p_value;
                return(TRUE);
        }

/* 

*/

        if (rnum EQ 17) {       /* sr -- status register */

                if ((~0xFFFFL) & p_value)
                        return(FALSE);

                regptr->reg_sr = (UWORD16)p_value;
                return(TRUE);
        }

        if (rnum EQ 18) {       /* pc -- program counter */

                if (1L & p_value)
                        return(FALSE);

                regptr->reg_pc = (char *)p_value;
                return(TRUE);
        }

        if (rnum EQ 19) {       /* sp -- stack pointer */

                if (1L & p_value)
                        return(FALSE);

                regptr->a_reg[7] = (char *)p_value;
                return(TRUE);
        }

        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        cp_vrst -- parse vrset command parameters
   ============================================================================
*/

int
cp_vrst()
{
        int     rc;

        rc = 0;
        redo = FALSE;

        if (0 EQ getarg())
                return(FALSE);

        str2lc(argstr);

        if (0 EQ (rc = strlcmp(argstr, vrlist)))
                return(FALSE);

        if (0 EQ getarg())
                return(FALSE);

        if (FALSE EQ setvar(&p_value, 0L))
                return(FALSE);

        if (vrnum < 17) {       /* complete register */

                vrnum = rc;
                return(TRUE);
        }

        if (vrnum < 21) {       /* horizontal register */

                if (p_value & ~0x003F)
                        return(FALSE);

                vrnum = rc;
                return(TRUE);
        }

        if (vrnum < 25) {       /* vertical register */

                if (p_value & ~0x03FF)
                        return(FALSE);

                vrnum = rc;
                return(TRUE);
        }

        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        cx_vrst -- process vrset command
   ============================================================================
*/

int
cx_vrst()
{
        redo = FALSE;

        if (vrnum < 1)
                return(FALSE);

        if (vrnum < 17) {       /* 1..16 -- r0..r15 -- complete register */

                v_regs[vrnum-1] = p_value;
                return(TRUE);
        }

        if (vrnum < 21) {       /* 17..20 -- h0..h3 -- horizontal register */

                v_regs[vrnum-5] = (v_regs[vrnum-5] & 0x03FF) |
                        ((p_value << 10) & 0xFC00);
                return(TRUE);
        }

        if (vrnum < 25) {       /* 21..24 -- v0..v3 -- vertical register */

                v_regs[vrnum-9] = (v_regs[vrnum-9] & 0xFC00) | p_value;
                return(TRUE);
        }

        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        cx_vreg -- process vregs command
   ============================================================================
*/

int
cx_vreg()
{
        register int    i, j, k, l;
        register unsigned *rp;

        rp = &v_regs[0];
        l = 0;

        for (i = 0; i  < 2; i++) {

                for (j = 0; j < 2; j++) {

                        for (k = 0; k < 4; k++) {

                                writeln(cmdunit, "  ");
                                putn((long)l++, 2, cmdunit);
                                writeln(cmdunit, ":");
                                puthn((long)*rp++, 4, cmdunit);
                        }

                        writeln(cmdunit, "  ");
                }

                writeln(cmdunit, "\r\n");
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        do_srec -- load a Motorola S record
   ============================================================================
*/

int
do_srec(line)
register char *line;
{
        register char *ldadr;
        register int c, csum, i, len;
        register unsigned val;

        if ('S' NE (c = *line++))
                return(-1);             /* error 1 = missing initial S */

        switch (c = *line++) {

        case '2':

                csum = 0;

                if (isxdigit(c = *line++))
                        len = xdtoi(c);
                else
                        return(-2);     /* error 2 = bad length byte */

                if (isxdigit(c = *line++))
                        len = (len << 4) + xdtoi(c);
                else
                        return(-2);

                csum += (len & 0xFF);
                ldadr = (char *)0;
                len -= 4;

                for (i = 0; i < 3; i++) {

                        if (isxdigit(c = *line++))
                                val = xdtoi(c);
                        else
                                return(-3);     /* error 3 = bad address byte */

                        if (isxdigit(c = *line++))
                                val = (val << 4) + xdtoi(c);
                        else
                                return(-3);

                        ldadr = (char *)(((long)ldadr << 8) + (long)val);
                        csum += (val & 0xFF);
                }

                for (i = 0; i < len; i++) {

                        if (isxdigit(c = *line++))
                                val = xdtoi(c);
                        else
                                return(-4);     /* error 4 = bad data byte */

                        if (isxdigit(c = *line++))
                                val = (val << 4) + xdtoi(c);
                        else
                                return(-4);

                        csum += (val & 0xFF);
                        *ldadr = val & 0xFF;

                        if ((*ldadr & 0xFF) NE (val & 0xFF))
                                return(-5);     /* error 5 = store failed */

                        ldadr++;
                }

                csum = 0xFF & ~csum;

                if (isxdigit(c = *line++))
                        val = xdtoi(c);
                else
                        return(-6);             /* error 6 = bad checksum byte */

                if (isxdigit(c = *line++))
                        val = (val << 4) + xdtoi(c);
                else
                        return(-6);

                if (csum NE (val & 0xFF))
                        return(-7);             /* error 7 = bad checksum */

                return(1);

        case '9':

                if (memcmpu(line, SREC9, 10) EQ 0)
                        return(0);
                else
                        return(-8);             /* error 8 = bad end record */

        default:

                return(-9);                     /* error 9 = unknown s type */
        }

        return(-10);                    /* error 10 = switch failed */
}

/* 

*/

/*
   ============================================================================
        cx_load -- process load command
   ============================================================================
*/

int
cx_load()
{
        register int rc;

        do {

                rc = getrln(cmdunit, MAXCMDLN, cmdline);

                switch (rc) {

                case A_CR:

                        rc = do_srec(cmdline);

                        if (rc LT 0) {

                                rc =  -rc;
                                writeln(cmdunit, NACK);
                                writeln(cmdunit, "** Load error ");
                                putn((long)rc, 3, cmdunit);
                                writeln(cmdunit, " **\r\n\n");
                                return(FALSE);

                        } else {

                                writeln(cmdunit, TACK);
                        }

                        continue;

                case CTL('X'):

                        rc = 1;
                        writeln(cmdunit, TACK);
                        continue;

/* 

*/

                default:

                        writeln(cmdunit, NACK);
                        writeln(cmdunit, "** Load aborted on ");
                        puthn(rc, 2, cmdunit);
                        writeln(cmdunit, " **\r\n\n");
                        return(FALSE);
                }

        } while (rc);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_fill -- execute the fill command
   ============================================================================
*/

int
cx_fill()
{
        register char *cp = p_from;
        register long count;

        redo = FALSE;

        for (count = p_len; count > 0L; count--) {

                *cp = (char)(0xFFL & p_value);

                if (*cp NE (char)(0xFFL & p_value)) {

                        writeln(cmdunit, "\r\n** FILL failed at ");
                        puthn((long)cp, 8, cmdunit);
                        writeln(cmdunit, " **\r\n");
                        return(FALSE);
                }

                ++cp;
        }

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_wfill -- execute the wfill command
   ============================================================================
*/

int
cx_wfil()
{
        register UWORD16 *cp = (UWORD16 *)p_from;
        register long count;

        redo = FALSE;

        for (count = p_len; count > 0L; count--)
                *cp++ = (UWORD16)(0xFFFFL & p_value);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_copy -- execute the copy command
   ============================================================================
*/

int
cx_copy()
{
        register char   *from = p_from,
                        *to = p_to;
        register long   count = p_len;

        redo = FALSE;

        if (to GT from) {

                from = from + count;
                to = to + count;

                while (count--) {

                        --from;
                        --to;
                        *to = *from;

                        if (*from NE *to) {

                                writeln(cmdunit, "\r\n** COPY failed from ");
                                puthn((long)from, 8, cmdunit);
                                writeln(cmdunit, " to ");
                                puthn((long)to, 8, cmdunit);
                                writeln(cmdunit, " with (from) = ");
                                puthn((long)(*from), 2, cmdunit);
                                writeln(cmdunit, " and (to) = ");
                                puthn((long)(*to), 2, cmdunit);
                                writeln(cmdunit, " **\r\n");
                                return(FALSE);
                        }
                }

/* 

*/

        } else {

                while (count--) {

                        *to = *from;

                        if (*from NE *to) {

                                writeln(cmdunit, "\r\n** COPY failed from ");
                                puthn((long)from, 8, cmdunit);
                                writeln(cmdunit, " to ");
                                puthn((long)to, 8, cmdunit);
                                writeln(cmdunit, " with (from) = ");
                                puthn((long)(*from), 2, cmdunit);
                                writeln(cmdunit, " and (to) = ");
                                puthn((long)(*to), 2, cmdunit);
                                writeln(cmdunit, " **\r\n");
                                return(FALSE);
                        }

                        ++from;
                        ++to;
                }
        }

        return(TRUE);
}
                        
/* 

*/

/*
   ============================================================================
        cx_dump -- execute the dump command
   ============================================================================
*/

int
cx_dump()
{
        register int    nw, rc;

        redo= TRUE;
        d_cur = p_from;
        d_next = p_to + 1;
        d_last = ((long)p_to - (long)p_from) + d_next;
        nw = p_width;
        rc = TRUE;

        do {

                writeln(cmdunit, CRLF);
                padr(p_from, cmdunit);

                dflag = FALSE;

                if (ddump(p_from, p_to, nw, cmdunit))
                        rc = FALSE;

                if (rc)
                        if (dtext(p_from, p_to, nw, cmdunit))
                                rc = FALSE;

                p_from = p_from + p_width;

                if (dflag)
                        rc = FALSE;

        } while (rc);

        p_from = d_cur;

        writeln(cmdunit, CRLF);
        writeln(cmdunit, CRLF);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        wdump -- dump words in hex  (no ASCII)
   ============================================================================
*/

int
wdump(loc, lastloc, nwide, unit)
register UWORD16 *loc, *lastloc;
int nwide, unit;
{
        while (nwide--) {

                puthn((long)(0xFFFFL & *loc), 4, unit);
                BIOS(B_PUTC,unit, ' ');

                if (BIOS(B_RDAV, unit))
                        return(TRUE);

                if (loc EQ lastloc) {

                        dflag = TRUE;
                        return(FALSE);
                }

                ++loc;
        }

        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        ldump -- dump longs in hex  (no ASCII)
   ============================================================================
*/

int
ldump(loc, lastloc, nwide, unit)
register long *loc, *lastloc;
int nwide, unit;
{
        while (nwide--) {

                puthn(*loc, 8, unit);
                BIOS(B_PUTC,unit, ' ');

                if (BIOS(B_RDAV, unit))
                        return(TRUE);

                if (loc EQ lastloc) {

                        dflag = TRUE;
                        return(FALSE);
                }

                ++loc;
        }

        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        cp_wdmp -- process parameters for wdump command
   ============================================================================
*/

int
cp_wdmp()
{
        inext = ilast;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
                }

        if ((long)p_from & 1L) {

                redo = FALSE;
                return(FALSE);
        }

        if (argsep EQ A_CR OR argsep EQ '\0') {

                p_to = p_from;
                p_width = 8;
                redo = TRUE;
                return(TRUE);
        }

        if (getarg())
                if (setvar(&p_to, p_to) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
                }

        if ((long)p_to & 1L) {

                redo = FALSE;
                return(FALSE);
        }

        if (argsep EQ A_CR OR argsep EQ '\0') {

                p_width = 8;
                redo = TRUE;
                return(TRUE);
        }

        if (getarg())
                if (setvar(&p_width, p_width) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
                }

        redo = TRUE;
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_ldmp -- process parameters for ldump command
   ============================================================================
*/

int
cp_ldmp()
{
        inext = ilast;

        if (getarg())
                if (setvar(&p_from, p_from) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
                }

        if ((long)p_from & 1L) {

                redo = FALSE;
                return(FALSE);
        }

        if (argsep EQ A_CR OR argsep EQ '\0') {

                p_to = p_from;
                p_width = 4;
                redo = TRUE;
                return(TRUE);
        }

        if (getarg())
                if (setvar(&p_to, p_to) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
                }

        if ((long)p_to & 1L) {

                redo = FALSE;
                return(FALSE);
        }

        if (argsep EQ A_CR OR argsep EQ '\0') {

                p_width = 4;
                redo = TRUE;
                return(TRUE);
        }

        if (getarg())
                if (setvar(&p_width, p_width) EQ FALSE) {

                        redo = FALSE;
                        return(FALSE);
                }

        redo = TRUE;
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_ilev -- parse the ipl command
   ============================================================================
*/

int
cp_ilev()
{
        long    iplevl;

        if (argsep EQ A_CR OR argsep EQ '\0')
                return(TRUE);

        if (getarg())
                if (setvar(&iplevl, iplevl) EQ FALSE)
                        return(FALSE);

        if (iplevl GT 7)
                return(FALSE);

        iplev = iplevl;

        return(TRUE);
}

/*
   ============================================================================
        cx_ilev -- execute ipl command
   ============================================================================
*/

int
cx_ilev()
{
        if (-1 EQ setipl(iplev)) {

                printf("ERROR -- Could not set IPL to %d\r\n", iplev);
                return(FALSE);
        } else
                printf("ROMP IPL now set to %d\r\n", iplev);

        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_monc() -- parse the monc command
   ============================================================================
*/

int
cp_monc()
{
        if (getarg())
                if (setvar(&monptr, monptr) EQ FALSE)
                        return(FALSE);

        monsw = MON_C;
        redo = TRUE;
        return(TRUE);
}

/*
   ============================================================================
        cp_mons() -- parse the mons command
   ============================================================================
*/

int
cp_mons()
{
        if (getarg())
                if (setvar(&monptr, monptr) EQ FALSE)
                        return(FALSE);

        monsw = MON_S;
        redo = TRUE;
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cp_monl() -- parse the monl command
   ============================================================================
*/

int
cp_monl()
{
        if (getarg())
                if (setvar(&monptr, monptr) EQ FALSE)
                        return(FALSE);

        monsw = MON_L;
        redo = TRUE;
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_mon() -- process the mon commands
   ============================================================================
*/

int
cx_mon()
{
        register char vc, vcc;
        register short vs, vss, *vsp;
        register long vl, vll, *vlp;

        switch (monsw) {

        case MON_C:

                vc = *monptr & 0x0FF;
                puthn((long)vc, 2, cmdunit);
                writeln(cmdunit, "\r\n");

                while (!(0xFFFFL & BIOS(B_RDAV, CON_DEV))) {

                        vcc = *monptr & 0x0FF;

                        if (vc NE vcc) {

                                vc = vcc;
                                puthn((long)vc, 2, cmdunit);
                                writeln(cmdunit, "\r\n");
                        }
                }

                BIOS(B_GETC, CON_DEV);
                return(TRUE);

        case MON_S:

                vsp = (short *)monptr;
                vs = *vsp;
                puthn((long)vs, 4, cmdunit);
                writeln(cmdunit, "\r\n");

                while (!(0xFFFFL & BIOS(B_RDAV, CON_DEV))) {

                        vss = *vsp;

                        if (vs NE vss) {

                                vs = vss;
                                puthn((long)vs, 4, cmdunit);
                                writeln(cmdunit, "\r\n");
                        }
                }

                BIOS(B_GETC, CON_DEV);
                return(TRUE);

/* 

*/
        case MON_L:

                vlp = (long *)monptr;
                vl = *vlp;
                puthn(vl, 8, cmdunit);
                writeln(cmdunit, "\r\n");

                while (!(0xFFFFL & BIOS(B_RDAV, CON_DEV))) {

                        vll = *vlp;

                        if (vl NE vll) {

                                vl = vll;
                                puthn(vl, 8, cmdunit);
                                writeln(cmdunit, "\r\n");
                        }
                }

                BIOS(B_GETC, CON_DEV);
                return(TRUE);

        default:
                return(FALSE);
        }
}
                
/* 

*/

/*
   ============================================================================
        cx_wdmp -- process wdump command
   ============================================================================
*/

int
cx_wdmp()
{
        int     nw, rc;

        d_cur = p_from;
        d_next = p_to + 2;
        d_last = ((long)p_to - (long)p_from) + d_next;
        nw = p_width;
        rc = TRUE;

        do {

                writeln(cmdunit, CRLF);
                padr(p_from, cmdunit);
                dflag = FALSE;

                if (wdump(p_from, p_to, nw, cmdunit))
                        rc = FALSE;

                p_from = p_from + (p_width << 1);

                if (dflag)
                        rc = FALSE;

        } while (rc);

        p_from = d_cur;

        writeln(cmdunit, CRLF);
        writeln(cmdunit, CRLF);
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        cx_ldmp -- process ldump command
   ============================================================================
*/

int
cx_ldmp()
{
        int     nw, rc;

        d_cur = p_from;
        d_next = p_to + 4;
        d_last = ((long)p_to - (long)p_from) + d_next;
        nw = p_width;
        rc = TRUE;

        do {

                writeln(cmdunit, CRLF);
                padr(p_from, cmdunit);
                dflag = FALSE;

                if (ldump(p_from, p_to, nw, cmdunit))
                        rc = FALSE;

                p_from = p_from + (p_width << 2);

                if (dflag)
                        rc = FALSE;

        } while (rc);

        p_from = d_cur;

        writeln(cmdunit, CRLF);
        writeln(cmdunit, CRLF);
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        do_cmd -- process a command line
   ============================================================================
*/

do_cmd()
{
        int     rc, i;

        /* prompt for a command line */

        writeln(cmdunit, "ROMP: ");

        /*  get a command line */

        rc = getln(cmdunit, MAXCMDLN, cmdline);

/* 

*/

        /* dispatch based on rc */

        switch (rc) {

        case A_CR:

                writeln(cmdunit, CRLF);

                if (getcmd()) {

                        for (i = 0; i < NCMDS; i++) {

                                if (0 EQ strcmp(argstr, cmtab[i].cname)) {

                                        ilast = i;

                                        if ((*cmtab[i].cp)()) {

                                                if (FALSE EQ (*cmtab[i].cx)())
                                                        writeln(cmdunit, EMSG1);

                                        } else {

                                                writeln(cmdunit, EMSG2);
                                        }

                                        return;
                                }
                        }

                        writeln(cmdunit, EMSG3);
                        return;

                } else {

/* 

*/

                        if (redo) {

                                if (FALSE EQ (*cmtab[ilast].cx)())
                                        writeln(cmdunit, EMSG1);

                        } else {

                                writeln(cmdunit, EMSG5);
                        }

                        return;
                }

        case CTL('X'):

                writeln(cmdunit, CANNED);
                return;

        default:

                writeln(cmdunit, EMSG6);
                return;
        }

        writeln(cmdunit, EMSG7);
        return;
}

/* 

*/

/*
   ============================================================================
        cx_next -- process the next command
   ============================================================================
*/

int
cx_next()
{
        p_to = d_last;  
        p_from = d_next;
        return((*cmtab[inext].cx)());
}

/* 

*/

/*
   ============================================================================
        cx_read() -- process the read command
   ============================================================================
*/

int
cx_read()
{
        long    rc;
        int     ns, recno;

        ns = p_len & 0x7FFFL;
        recno = (long)p_from & 0xFFFFL;

        rc = BIOS(B_RDWR, 2, p_to, ns, recno, 0);

        if (rc & 0xFFFFL) {

                writeln(cmdunit, "\r\nERROR reading disk:  ");
                puthn(rc, 8, cmdunit);
                writeln(cmdunit, "\r\n\n");
                return(FALSE);

        } else {

                return(TRUE);
        }
}

/* 

*/

/*
   ============================================================================
        cx_writ() -- process the write command
   ============================================================================
*/

int
cx_writ()
{
        long    rc;
        int     ns, recno;

        ns = p_len & 0x7FFFL;
        recno = (long)p_from & 0xFFFFL;

        rc = BIOS(B_RDWR, 3, p_to, ns, recno, 0);

        if (rc & 0xFFFFL) {

                writeln(cmdunit, "\r\nERROR writing disk:  ");
                puthn(rc, 8, cmdunit);
                writeln(cmdunit, "\r\n\n");
                return(FALSE);

        } else {

                return(TRUE);
        }
}

/* 

*/

/*
   ============================================================================
        showrs() -- show registers
   ============================================================================
*/

showrs(rp)
struct regs *rp;
{
        int     i;
        UWORD16 srtemp;

        writeln(cmdunit, "       ");

        for (i = 0; i < 8; i++) {

                BIOS(B_PUTC, cmdunit, ' ');
                BIOS(B_PUTC, cmdunit, '0'+i);
                writeln(cmdunit, "_______");
        }

        writeln(cmdunit, "\r\nd0..d7 ");

        for (i = 0; i < 8; i++) {

                BIOS(B_PUTC, cmdunit, ' ');
                puthn(rp->d_reg[i], 8, cmdunit);
        }

        writeln(cmdunit, "\r\na0..a7 ");

        for (i = 0; i < 8; i++) {

                BIOS(B_PUTC, cmdunit, ' ');
                puthn(rp->a_reg[i], 8, cmdunit);
        }

        writeln(cmdunit, "\r\nPC =  ");
        puthn((long)rp->reg_pc, 8, cmdunit);

        srtemp = rp->reg_sr;
        writeln(cmdunit, ",    SR = ");
        puthn( (long)srtemp & 0xFFFFL, 4, cmdunit);

/* 

*/

        writeln(cmdunit, "  (IPL = ");
        puthn( (long)(srtemp >> 8) & 0x7L, 1, cmdunit);
        writeln(cmdunit, ", ");

        if (srtemp & 0x8000)
                BIOS(B_PUTC, cmdunit, 'T');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x2000)
                BIOS(B_PUTC, cmdunit, 'S');
        else
                BIOS(B_PUTC, cmdunit, '-');

        BIOS(B_PUTC, cmdunit, ' ');

        if (srtemp & 0x10)
                BIOS(B_PUTC, cmdunit, 'X');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x8)
                BIOS(B_PUTC, cmdunit, 'N');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x4)
                BIOS(B_PUTC, cmdunit, 'Z');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x2)
                BIOS(B_PUTC, cmdunit, 'V');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x1)
                BIOS(B_PUTC, cmdunit, 'C');
        else
                BIOS(B_PUTC, cmdunit, '-');

        writeln(cmdunit, " )\r\n");
}

/* 

*/

/*
   ============================================================================
        showcr() -- show crash registers
   ============================================================================
*/

showcr()
{
        register int    i;
        register char   *cause;
        register UWORD16        srtemp;

        writeln(cmdunit, "BIOS Crash Area Dump\r\n");
        writeln(cmdunit, "       ");

        for (i = 0; i < 8; i++) {

                BIOS(B_PUTC, cmdunit, ' ');
                BIOS(B_PUTC, cmdunit, '0'+i);
                writeln(cmdunit, "_______");
        }

        writeln(cmdunit, "\r\nd0..d7 ");

        for (i = 0; i < 8; i++) {

                BIOS(B_PUTC, cmdunit, ' ');
                puthn(crshrg[i], 8, cmdunit);
        }

        writeln(cmdunit, "\r\na0..a7 ");

        for (i = 8; i < 16; i++) {

                BIOS(B_PUTC, cmdunit, ' ');
                puthn(crshrg[i], 8, cmdunit);
        }

        writeln(cmdunit, "\r\n\nPC =  ");
        puthn((long)crshpc, 8, cmdunit);

        srtemp = crshsr;
        writeln(cmdunit, ",    SR = ");
        puthn((long)srtemp & 0xFFFFL, 4, cmdunit);

/* 

*/

        writeln(cmdunit, "  (IPL = ");
        puthn((long)(srtemp >> 8) & 0x7L, 1, cmdunit);
        writeln(cmdunit, ", ");

        if (srtemp & 0x8000)
                BIOS(B_PUTC, cmdunit, 'T');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x2000)
                BIOS(B_PUTC, cmdunit, 'S');
        else
                BIOS(B_PUTC, cmdunit, '-');

        BIOS(B_PUTC, cmdunit, ' ');

        if (srtemp & 0x10)
                BIOS(B_PUTC, cmdunit, 'X');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x8)
                BIOS(B_PUTC, cmdunit, 'N');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x4)
                BIOS(B_PUTC, cmdunit, 'Z');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x2)
                BIOS(B_PUTC, cmdunit, 'V');
        else
                BIOS(B_PUTC, cmdunit, '-');

        if (srtemp & 0x1)
                BIOS(B_PUTC, cmdunit, 'C');
        else
                BIOS(B_PUTC, cmdunit, '-');

        writeln(cmdunit, " )\r\n");

/* 

*/
        writeln(cmdunit, "TRAP vector number = ");
        putn((long)crshvc[0], 2, cmdunit);

        cause = "  (no handler for interrupt)";

        switch (crshvc[0] & 0xFF) {

        case 2:         /* 2:  bus error */

                cause = "  (Bus error)";
                break;

        case 3:         /* 3:  address error */

                cause = "  (Address error)";
                break;

        case 4:         /* 4:  illegal instruction */

                cause = "  (Illegal instruction)";
                break;

        case 5:         /* 5:  zero divide */

                cause = "  (Zero divide)";
                break;

        case 6:         /* 6:  CHK instruction */

                cause = "  (CHK instruction)";
                break;

        case 7:         /* 7:  TRAPV instruction */

                cause = "  (TRAPV instruction)";
                break;

        case 8:         /* 8:  privilege violation */

                cause = "  (Privilege violation)";
                break;

        case 9:         /* 9:  trace */

                cause = "  (Trace -- not implemented)";
                break;

        case 10:        /* 10:  line 1010 emulator */

                cause = "  (Line 1010 Emulator -- not implemented)";
                break;

        case 11:        /* 11:  line 1111 emulator */

                cause = "  (Line 1111 Emulator -- not implemented";
                break;

        case 15:        /* 15:  uninitialized interrupt vector */

                cause = "  (Uninitialized interrupt)";
                break;

        case 24:        /* 24:  spurious interrupt */

                cause = "  (Spurious interrupt)";
                break;

        case 25:        /* 25:  Autovector Level 1*/

                cause = "  (Level 1 Interrupt -- unimplmented)";
                break;

        case 26:        /* 26:  Autovector Level 2 */

                cause = "  (Level 2 Interrupt -- unimplmented)";
                break;

        case 27:        /* 27:  Autovector Level 3 */

                cause = "  (Level 3 Interrupt -- unimplmented)";
                break;

        case 28:        /* 28:  Autovector Level 4 */

                cause = "  (Level 4 Interrupt -- unimplmented)";
                break;

        case 29:        /* 29:  Autovector Level 5 */

                cause = "  (Level 5 Interrupt -- unimplmented)";
                break;

        case 30:        /* 30:  Autovector Level 6 */

                cause = "  (Level 6 Interrupt -- unimplmented)";
                break;

        case 31:        /* 31:  Autovector Level 7 */

                cause = "  (Level 7 Interrupt -- unimplmented)";
                break;

        }

        writeln(cmdunit, cause);
        writeln(cmdunit, "\r\n");
}

/* 

*/

/*
   ============================================================================
        cx_crsh -- process the crash command
   ============================================================================
*/

int
cx_crsh()
{
        if (!wzcrsh)
                printf("** Crash switch NOT set **\r\n");

        redo = FALSE;
        showcr();
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        bphit -- clear breakpoints, see if any were hit
   ============================================================================
*/

int
bphit()
{
        int     rc;

        rc = FALSE;

        if ((char *)p_ba0 EQ regptr->reg_pc) {

                if (*p_ba0 EQ BPINST) {

                        *p_ba0 = p_bv0;
                        p_ba0 = 0L;
                        p_bv0 = BPINST;
                        rc = TRUE;

                } else {

                        writeln(cmdunit, "** Breakpoint word at ");
                        puthn(p_ba0, 8 , cmdunit);
                        writeln(cmdunit, " was ");
                        puthn(0xFFFFL & (long)(*p_ba0), 4, cmdunit);
                        writeln(cmdunit, " instead of ");
                        puthn((long)BPINST, 4, cmdunit);
                        writeln(cmdunit, " **\r\n\n");
                        rc = TRUE;
                }
        }

/* 

*/

        if ((char *)p_ba1 EQ regptr->reg_pc) {

                if (*p_ba1 EQ BPINST) {

                        *p_ba1 = p_bv1;
                        p_ba1 = 0L;
                        p_bv1 = BPINST;
                        rc = TRUE;

                } else {

                        writeln(cmdunit, "** Breakpoint word at ");
                        puthn((long)p_ba0, 8 , cmdunit);
                        writeln(cmdunit, " was ");
                        puthn(0xFFFFL & (long)(*p_ba1), 4, cmdunit);
                        writeln(cmdunit, " instead of ");
                        puthn((long)BPINST, 4, cmdunit);
                        writeln(cmdunit, " **\r\n\n");
                        rc = TRUE;
                }
        }
/* 

*/
        if (p_ba0) {

                if (*p_ba0 EQ BPINST) {

                        *p_ba0 = p_bv0;
                        p_ba0 = 0L;
                        p_bv0 = BPINST;
                        rc = TRUE;

                } else {

                        writeln(cmdunit, "** Breakpoint word at ");
                        puthn(p_ba0, 8 , cmdunit);
                        writeln(cmdunit, " was ");
                        puthn(0xFFFFL & (long)(*p_ba0), 4, cmdunit);
                        writeln(cmdunit, " instead of ");
                        puthn((long)BPINST, 4, cmdunit);
                        writeln(cmdunit, " **\r\n\n");
                        rc = TRUE;
                }
        }

/* 

*/

        if (p_ba1) {

                if (*p_ba1 EQ BPINST) {

                        *p_ba1 = p_bv1;
                        p_ba1 = 0L;
                        p_bv1 = BPINST;
                        rc = TRUE;

                } else {

                        writeln(cmdunit, "** Breakpoint word at ");
                        puthn((long)p_ba0, 8 , cmdunit);
                        writeln(cmdunit, " was ");
                        puthn(0xFFFFL & (long)(*p_ba1), 4, cmdunit);
                        writeln(cmdunit, " instead of ");
                        puthn((long)BPINST, 4, cmdunit);
                        writeln(cmdunit, " **\r\n\n");
                        rc = TRUE;
                }
        }

        if (rc)
                return(rc);

        writeln(cmdunit, "\r\n** Program invoked ROMP trap **\r\n");
        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        cx_regs() -- process the regs command
   ============================================================================
*/

int
cx_regs()
{
        showrs(regptr);
        return(TRUE);
}

/* 

*/

/*
   ============================================================================
        rompbp() -- process a breakpoint for ROMP
   ============================================================================
*/

rompbp(d0,d1,d2,d3,d4,d5,d6,d7, a0,a1,a2,a3,a4,a5,a6,a7, sr0,sr, pc)
long    d0,d1,d2,d3,d4,d5,d6,d7;
char    *a0,*a1,*a2,*a3,*a4,*a5,*a6,*a7, *pc;
UWORD16 sr0,sr;
{
        register int i;

        regptr = (struct regs *)&d0;    /* make registers accessable */
        pc -= 2L;                       /* adjust pc */

        if (-1 EQ setipl(iplev))                /* enable interrupts */
                writeln(cmdunit, "\r\n\n***** setipl() failed *****\r\n\n");

        if (first1) {                   /* initial entry from xtrap15() */

                for (i = 0; i < 8; i++)         /* clear d0..d7 */
                        regptr->d_reg[i] = 0L;

                for (i = 0; i < 7; i++)         /* clear a0..a6 */
                        regptr->a_reg[i] = (char *)0L;

                regptr->a_reg[7] = ISTACK;      /* setup initial stack */

                sr = INITSR;            /* setup sr */
                pc += 2L;               /* adjust pc past TRAP 15 */

        } else {                        /* breakpoint */

                writeln(cmdunit, "\r\n\n** ROMP Breakpoint TRAP **\r\n");

                showrs(regptr);         /* show registers */

                if (bphit() EQ FALSE)   /* fixup breakpoints */
                        pc += 2L;       /* and maybe the pc */

        }

        first1 = FALSE;                 /* not first time any more */
        exflag = FALSE;                 /* clear exit flag */

        do {

                do_cmd();               /* process commands ... */

        } while (!exflag);              /* ... until exit flag is set */

        return;                         /* return to xtrap15 */
}

/* 

*/

/*
   ============================================================================
        progid() -- identify the program
   ============================================================================
*/

progid()
{
        register char *pcptr;

        writeln(cmdunit, "\r\n\nBuchla 700 Multi-Tasking BIOS / Debug PROM\r\n");
        writeln(cmdunit, "  Multi-Tasking ROMP Version ");
        writeln(cmdunit, ROMPVER);
        writeln(cmdunit, "\r\n  Multi-Tasking BIOS Version ");
        pcptr = (char *)PRM_VERS;
        putn((long)*pcptr++, 2, cmdunit);
        BIOS(B_PUTC, cmdunit, '.');
        putn((long)*pcptr++, 2, cmdunit);
        writeln(cmdunit, promdate);
}

/* 

*/

/*
   ============================================================================
        pclr() -- clear the panel FIFO
   ============================================================================
*/

short
pclr()
{
        register short i;

        DB_ENTR("pclr");
        ftimer = FIFOLIM;

        while (XBIOS(X_APICHK)) {

                afi = XBIOS(X_ANALOG);          /* check panel inputs */
                asig = 0x007F & (afi >> 8);     /* signal number */

                if (0 EQ asig) {

                        /* all keys up */

                        for (i = 0; i < 128; i++) {

                                sigtab[i][0] = 0;
                                sigtab[i][1] = 0;
                        }

                        break;
                }

                if (ftimer-- < 0) {

                        DB_EXIT("pclr - timed out");
                        return(FAILURE);
                }
        }

        DB_EXIT("pclr - panel clear");
        return(SUCCESS);
}

/* 

*/

/*
   ============================================================================
        pscan() -- scan the panel and maybe even load a program from diskette
   ============================================================================
*/

short
pscan()
{
        register short i, c;

        DB_ENTR("pscan");

        if (0 GE ledcntr--) {

                if ((baseled + 3) > 23)         /* turn on a LED */
                        io_leds = baseled - 21;
                else
                        io_leds = baseled + 3;

                io_leds = 0x80 + baseled;       /* turn off a LED */

                if (++baseled > 23)             /* update LED number */
                        baseled = 0;

                ledcntr = LED_TIME;
        }

        DB_CMNT("pscan - checking panel");

        aflag = FALSE;

        if (XBIOS(X_APICHK)) {                  /* check panel inputs */

                afi   = XBIOS(X_ANALOG);        /* get the signal */
                asig  = 0x007F & (afi >> 8);    /* signal number */
                astat = 0x0001 & (afi >> 7);    /* status */
                aval  = 0x007F & afi;           /* value */

                if (asig) {     /* active signal */

                        aflag = TRUE;

                        sigtab[asig][0] = aval;
                        sigtab[asig][1] = astat;

                } else {        /* all keys up */

                        aflag = FALSE;

                        for (i = 0; i < 128; i++)
                                sigtab[i][1] = 0;
                }
        }
/* 

*/
        if (aflag) {    /* anything changed ? */

                if (astat AND (asig EQ BOOTKEY)) {              /* BOOT key */

                        DB_CMNT("pscan - booting");

                        for (i = 0; i < 24; i++)        /* turn off LEDs */
                                io_leds = 0x80 + i;

                        /* load and run BOOTFILE */

                        B_log_s = FALSE;
                        B_dbg_s = FALSE;

                        hdvini();
                        _bpbin = FALSE;

                        if (booter(BOOTFILE, 0L)) {

                                DB_EXIT("pscan - boot failed");
                                return(FALSE);

                        } else {

                                DB_CMNT("pscan - initializing MIDAS TCB");

                                if ((struct _mt_def *)NIL EQ _MT_)
                                        _MT_ = (struct _mt_def *)XBIOS(X_MTDEFS);

                                MTSetT(&ipltcb, MTID(), BOOT_PRI, 0x2200, -1L,
                                        ISTACK, B_buf_a, _MT_);

                                DB_CMNT("pscan - swapping to midas");

                                MTSwap();
                                SMWait(&SemQuit);

                                DB_EXIT("pscan - returned from MIDAS");
                                return(FALSE);
                        }

                } else if (astat AND (asig EQ ROMPKEY)) {       /* ROMP key */

                        for (i = 0; i < 24; i++)        /* turn off LEDs */
                                io_leds = 0x80 + i;

                        DB_EXIT("pscan - ROMP selected - panel");
                        return(TRUE);
                }
        }

/* 

*/

        DB_CMNT("pscan - checking SIO");

        if (BIOS(B_RDAV, CON_DEV)) {

                c = 0x007F & BIOS(B_GETC, CON_DEV);

                if ((c EQ 'r') OR (c EQ 'R')) {

                        for (i = 0; i < 24; i++)        /* turn off LEDs */
                                io_leds = 0x80 + i;

                        DB_EXIT("pscan - ROMP selected - SIO");
                        return(TRUE);
                }
        }

        DB_EXIT("pscan - no inputs");
        return(FALSE);
}

/* 

*/

/*
   ============================================================================
        mtsetup() -- setup for multi-tasking
   ============================================================================
*/

mtsetup()
{
        DB_ENTR("mtsetup");

        _MT_ = (struct _mt_def *)XBIOS(X_MTDEFS);       /* intialize _MT_ */

        MTInit();               /* initialize Multi-Tasker */
        MBInit(&MSG_Vid);       /* initialize video mailbox */
        SMInit(&SemQuit, 0L);   /* initialize termination semaphore */

        /* setup interrupt level 5 (serial I/O) handler */

        MTSetT(MT_ITT[5], MTID(), 0x8005, 0x2500, -1L,
                &stax[4][STKLEN], _MTInt5, 0L);

        DB_CMNT("mtsetup - level 5");

        /* setup interrupt level 4 (timer) handler */

        MTSetT(MT_ITT[4], MTID(), 0x8004, 0x2400, -1L,
                &stax[3][STKLEN], _MTInt4, 0L);

        DB_CMNT("mtsetup - level 4");

        /* setup interrupt level 3 (panel) handler */

        MTSetT(MT_ITT[3], MTID(), 0x8003, 0x2300, -1L,
                &stax[2][STKLEN], _MTInt3, 0L);

        DB_CMNT("mtsetup - level 3");

        /* setup interrupt level 2 (FPU) handler */

        MTSetT(MT_ITT[2], MTID(), 0x8002, 0x2200, -1L,
                &stax[1][STKLEN], _MTInt2, 0L);

        DB_CMNT("mtsetup - level 2");

        /* setup interrupt level 1 (Video) handler */

        MTSetT(MT_ITT[1], MTID(), 0x8001, 0x2100, -1L,
                &stax[0][STKLEN], _MTInt1, 0L);

        DB_CMNT("mtsetup - level 1");

        DB_EXIT("mtsetup");
}

/* 

*/

/*
   ============================================================================
        put_ID() -- identify the firmware on the LCD
   ============================================================================
*/

put_ID()
{
        DB_ENTR("put_ID");
        GLCinit();                              /* reset LCD display */
        GLCcurs(G_ON);

        GLCtext(0,  1, "Load  GoTo");
        GLCtext(1,  1, "Disk  ROMP");

        GLCtext(3, 10, "Buchla 700 -- System Firmware by D.N. Lynx Crowe");

        sprintf(idbuf, "Multi-Tasking BIOS -- Version %02d.%02d%s",
                *(char *)PRM_VERS, *(char *)(PRM_VERS+1), promdate);

        GLCtext(5, 10, idbuf);

        sprintf(idbuf, "Multi-Tasking ROMP -- Version %s", ROMPVER);

        GLCtext(6, 10, idbuf);

        GLCcrc(0, 0);
        GLCcurs(G_OFF);

        DB_EXIT("put_ID");
}

/* 

*/

/*
   ============================================================================
        ROMP --  main routine
   ============================================================================
*/

main()
{
        register short i;
        register char *pdptr, *pcptr;

        DB_ENTR("main");
        baseled = 21;                   /* setup LED scan */
        ledcntr = 0;                    /* ... */
        io_leds = 0x9F;                 /* turn on LCD lamp */

        /* unpack PROM date */

        pcptr = (char *)PRM_DATE;       /* prom date: yyyymmdd */
        pdptr = promdate;               /*  -- yyyy-mm-dd */
        *pdptr++ = ' ';
        *pdptr++ = '-';
        *pdptr++ = '-';
        *pdptr++ = ' ';
        *pdptr++ = ((*pcptr >> 4) & 0x0F) + '0';
        *pdptr++ = (*pcptr++ & 0x0F) + '0';
        *pdptr++ = ((*pcptr >> 4) & 0x0F) + '0';
        *pdptr++ = (*pcptr++ & 0x0F) + '0';
        *pdptr++ = '-';
        *pdptr++ = ((*pcptr >> 4) & 0x0F) + '0';
        *pdptr++ = (*pcptr++ & 0x0F) + '0';
        *pdptr++ = '-';
        *pdptr++ = ((*pcptr >> 4) & 0x0F) + '0';
        *pdptr++ = (*pcptr++ & 0x0F) + '0';
        *pdptr++ = '\0';

        /* initialize variables */

        sprintf(hs_mtst, "[[start=$%lX],[end=$%lx]]  (or $8..$%lX)",
                USER_RAM, RAM_TOP, (USER_RAM - 2L));

        cmdunit = CON_DEV;

        ilast = 0;
        inext = 0;
        iplev = DEFIPL;

        dflag  = FALSE;
        exflag = FALSE;
        redo   = FALSE;
        goflag = FALSE;
        b0flag = FALSE;
        b1flag = FALSE;

        p_goto  = (char *)ROMADDR;
        p_len   = 0L;
        p_width = 16L;
        p_value = 0L;

        p_ba0 = 0L;
        p_bv0 = BPINST;

        p_ba1 = 0L;
        p_bv1 = BPINST;

        tba0 = 0L;
        tba1 = 0L;

        inext = 0;

        put_ID();

        BIOS(B_SETV, 47, trap15);       /* set ROMP trap vec */

        for (i = 0; i < 128; i++) {     /* clear analog I/O status */

                sigtab[i][0] = 0;
                sigtab[i][1] = 0;
        }

        mtsetup();                              /* setup multi-tasking */

        DB_CMNT("main - TCBs setup - starting multitasker");
        MTSwap();

        DB_CMNT("main - clearing panel FIFO");
        XBIOS(X_CLRAFI);                        /* clear the panel FIFO */

        DB_CMNT("main - turning on ints");
        setipl(KB_EI);                          /* enable interrupts */

        DB_CMNT("main - emptying panel FIFO");
        pclr();                                 /* empty the panel FIFO */

        DB_CMNT("main - clearing panel FIFO");
        XBIOS(X_CLRAFI);                        /* clear the panel FIFO */

        DB_CMNT("main - scanning panel");
        while (FALSE EQ pscan()) ;              /* do the panel scan */

/* 

*/
        progid();                       /* identify the program */

        writeln(cmdunit, "\r\n\n");

        /* process commands */

        first1 = TRUE;                  /* set break init flag */

        while (TRUE) {

                xtrap15();              /* trap into ROMP bp processor */
                writeln(cmdunit, "\r\n** xtrap15() returned to ROMP **\r\n\n");
        }
}