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path: root/sys/arch/mvme88k/ddb/db_interface.c
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/*	$OpenBSD: db_interface.c,v 1.15 2001/09/23 02:52:02 miod Exp $	*/
/*
 * Mach Operating System
 * Copyright (c) 1993-1991 Carnegie Mellon University
 * Copyright (c) 1991 OMRON Corporation
 * All Rights Reserved.
 *
 * Permission to use, copy, modify and distribute this software and its
 * documentation is hereby granted, provided that both the copyright
 * notice and this permission notice appear in all copies of the
 * software, derivative works or modified versions, and any portions
 * thereof, and that both notices appear in supporting documentation.
 *
 * CARNEGIE MELLON AND OMRON ALLOW FREE USE OF THIS SOFTWARE IN ITS "AS IS"
 * CONDITION.  CARNEGIE MELLON AND OMRON DISCLAIM ANY LIABILITY OF ANY KIND
 * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
 *
 * Carnegie Mellon requests users of this software to return to
 *
 *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
 *  School of Computer Science
 *  Carnegie Mellon University
 *  Pittsburgh PA 15213-3890
 *
 * any improvements or extensions that they make and grant Carnegie the
 * rights to redistribute these changes.
 */

/*
 * m88k interface to ddb debugger
 */

#include <sys/param.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/reboot.h>

#include <vm/vm.h>

#include <machine/m882xx.h>		 /* CMMU defs		        */
#include <machine/trap.h>		 /* current_thread()            */
#include <machine/db_machdep.h>		 /* local ddb stuff             */
#include <machine/bug.h>		 /* bug routines 		*/
#include <machine/locore.h>		 
#include <machine/mmu.h>
#include <machine/cpu_number.h>

#include <ddb/db_command.h>
#include <ddb/db_extern.h>
#include <ddb/db_interface.h>
#include <ddb/db_output.h>
#include <ddb/db_sym.h>

extern label_t *db_recover;
extern unsigned int db_maxoff;
extern unsigned db_trace_get_val(vm_offset_t addr, unsigned *ptr);
extern int frame_is_sane __P((db_regs_t *));
extern void cnpollc __P((int));
void kdbprinttrap __P((int type, int code));

void m88k_db_trap __P((int type, struct m88100_saved_state *regs));
int ddb_nmi_trap __P((int level, db_regs_t *eframe));
void ddb_error_trap __P((char *error, db_regs_t *eframe));
void db_read_bytes __P((vm_offset_t addr, int size, char *data));
void db_write_bytes __P((char *addr, int size, char *data));
void db_putc __P((int c));
int db_getc __P((void));
void cpu_interrupt_to_db __P((int cpu_no));
char *db_task_name __P((void));
int m88k_dmx_print __P((unsigned, unsigned, unsigned, unsigned));
void m88k_db_pause __P((unsigned));
void m88k_db_print_frame __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_where __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_frame_search __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_iflush __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_dflush __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_peek __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_noise __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_translate __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_cmmucfg __P((db_expr_t, int, db_expr_t, char *));
void m88k_db_prom_cmd __P((db_expr_t, int, db_expr_t, char *));

int 	db_active = 0;
int 	db_noisy = 0;
int	quiet_db_read_bytes = 0;

/************************/
/* 	DB_REGISTERS ****/
/************************/

/*
 *
 * If you really feel like understanding the following procedure and
 * macros, see pages 6-22 to 6-30 (Section 6.7.3) of
 *
 * MC881000 RISC Microprocessor User's Manual Second Edition
 * (Motorola Order: MC88100UM/AD REV 1)
 *
 * and ERRATA-5 (6-23, 6-24, 6-24) of
 *
 * Errata to MC88100 User's Manual Second Edition MC88100UM/AD Rev 1
 * (Oct 2, 1990)
 * (Motorola Order: MC88100UMAD/AD)
 *
 */

/* macros for decoding dmt registers */

#define XMEM(x)  ((x) & (1<<12))
#define XMEM_MODE(x) ((((x)>>2 & 0xf) == 0xf) ? "" : ".bu")
#define MODE(x) ((x)>>2 & 0xf)
#define DOUB(x) ((x) & (1<<13))
#define SIGN(x) ((x) & (1<<6))
#define DAS(x) (((x) & (1<<14)) ? "" : ".usr")
#define REG(x) (((x)>>7) & 0x1f)
#define STORE(x) ((x) & 0x2)

/*
 * return 1 if the printing of the next stage should be surpressed
 */
int
m88k_dmx_print(t, d, a, no)
	unsigned t, d, a, no;
{
	static unsigned addr_mod[16] = {
	    0, 3, 2, 2, 1, 0, 0, 0,
	    0, 0, 0, 0, 0, 0, 0, 0
	};
	static char *mode[16]  = {
	    "?", ".b", ".b", ".h", ".b", "?", "?", "?",
	    ".b", ".h", "?" , "?" , "?" , "?", "?", ""
	};
	static unsigned mask[16] = {
	    0,           0xff,        0xff00,     0xffff,
	    0xff0000,    0,           0,          0,
	    0xff000000U, 0xffff0000U, 0,          0,
	    0,           0,           0,          0xffffffffU
	};
	static unsigned shift[16] = {
	    0,  0, 8, 0, 16, 0, 0, 0,
	    24, 16, 0, 0,  0, 0, 0, 0
	};
	int reg = REG(t);

	if (XMEM(t)) {
		db_printf("xmem%s%s r%d(0x%x) <-> mem(0x%x),",
		    XMEM_MODE(t), DAS(t), reg,
		    (((t)>>2 & 0xf) == 0xf) ? d : (d & 0xff), a);
		return 1;
	} else {
		if (MODE(t) == 0xf) {
			/* full or double word */
			if (STORE(t)) {
				if (DOUB(t) && no == 2)
					db_printf("st.d%s -> mem(0x%x) (** restart sxip **)",
					    DAS(t), a);
				else
					db_printf("st%s (0x%x) -> mem(0x%x)",
					    DAS(t), d, a);
			} else {
				/* load */
				if (DOUB(t) && no == 2)
					db_printf("ld.d%s r%d <- mem(0x%x), r%d <- mem(0x%x)",
					    DAS(t), reg, a, reg+1, a+4);
				else
					db_printf("ld%s r%d <- mem(0x%x)",
					    DAS(t), reg, a);
			}
		} else {
			/* fractional word - check if load or store */
			a += addr_mod[MODE(t)];
			if (STORE(t))
				db_printf("st%s%s (0x%x) -> mem(0x%x)",
				    mode[MODE(t)], DAS(t),
				    (d & mask[MODE(t)]) >> shift[MODE(t)], a);
			else
				db_printf("ld%s%s%s r%d <- mem(0x%x)",
				    mode[MODE(t)], SIGN(t) ? "" : "u",
				    DAS(t), reg, a);
		}
	}
	return 0;
}

void
m88k_db_print_frame(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	struct m88100_saved_state *s = (struct m88100_saved_state *)addr;
	char *name;
	db_expr_t offset;
	int surpress1 = 0, surpress2 = 0;
	int c, force = 0, help = 0;

	if (!have_addr) {
		db_printf("requires address of frame\n");
		help = 1;
	}

	while (modif && *modif) {
		switch (c = *modif++, c) {
		case 'f':
			force = 1;
			break;
		case 'h':
			help = 1;
			break;
		default:
			db_printf("unknown modifier [%c]\n", c);
			help = 1;
			break;
		}
	}

	if (help) {
		db_printf("usage: mach frame/[f] ADDRESS\n");
		db_printf("  /f force printing of insane frames.\n");
		return;
	}

	if (badwordaddr((vm_offset_t)s) ||
	    badwordaddr((vm_offset_t)(&((db_regs_t*)s)->mode))) {
		db_printf("frame at 0x%08x is unreadable\n", s);
		return;
	}

	if (!frame_is_sane((db_regs_t *)s)) {  /* see db_trace.c */
		db_printf("frame seems insane (");

		if (force)
			db_printf("forging ahead anyway...)\n");
		else {
			db_printf("use /f to force)\n");
			return;
		}
	}

#define R(i) s->r[i]
#define IPMASK(x) ((x) &  ~(3))
	db_printf("R00-05: 0x%08x  0x%08x  0x%08x  0x%08x  0x%08x  0x%08x\n",
	    R(0), R(1), R(2), R(3), R(4), R(5));
	db_printf("R06-11: 0x%08x  0x%08x  0x%08x  0x%08x  0x%08x  0x%08x\n",
	    R(6), R(7), R(8), R(9), R(10), R(11));
	db_printf("R12-17: 0x%08x  0x%08x  0x%08x  0x%08x  0x%08x  0x%08x\n",
	    R(12), R(13), R(14), R(15), R(16), R(17));
	db_printf("R18-23: 0x%08x  0x%08x  0x%08x  0x%08x  0x%08x  0x%08x\n",
	    R(18), R(19), R(20), R(21), R(22), R(23));
	db_printf("R24-29: 0x%08x  0x%08x  0x%08x  0x%08x  0x%08x  0x%08x\n",
	    R(24), R(25), R(26), R(27), R(28), R(29));
	db_printf("R30-31: 0x%08x  0x%08x\n", R(30), R(31));

	db_printf("sxip: 0x%08x ", s->sxip & ~3);
	db_find_xtrn_sym_and_offset((db_addr_t)IPMASK(s->sxip),
	    &name, &offset);
	if (name != 0 && (unsigned)offset <= db_maxoff)
		db_printf("%s+0x%08x", name, (unsigned)offset);
	db_printf("\n");

	if (s->snip != s->sxip + 4) {
		db_printf("snip: 0x%08x ", s->snip);
		db_find_xtrn_sym_and_offset((db_addr_t)IPMASK(s->snip),
		    &name, &offset);
		if (name != 0 && (unsigned)offset <= db_maxoff)
			db_printf("%s+0x%08x", name, (unsigned)offset);
		db_printf("\n");
	}

	if (s->sfip != s->snip + 4) {
		db_printf("sfip: 0x%08x ", s->sfip);
		db_find_xtrn_sym_and_offset((db_addr_t)IPMASK(s->sfip),
		    &name, &offset);
		if (name != 0 && (unsigned)offset <= db_maxoff)
			db_printf("%s+0x%08x", name, (unsigned)offset);
		db_printf("\n");
	}

	db_printf("vector: 0x%02x                    interrupt mask: 0x%08x\n",
	    s->vector, s->mask);
	db_printf("epsr: 0x%08x                current process: 0x%x\n",
	    s->epsr, curproc);

	/*
	 * If the vector indicates trap, instead of an exception or
	 * interrupt, skip the check of dmt and fp regs.
	 *
	 * Interrupt and exceptions are vectored at 0-10 and 114-127.
	 */

	if (!(s->vector <= 10 || (114 <= s->vector && s->vector <= 127))) {
		db_printf("\n\n");
		return;
	}

	if (s->vector == /*data*/3 || s->dmt0 & 1) {
		db_printf("dmt,d,a0: 0x%08x  0x%08x  0x%08x ",
		    s->dmt0, s->dmd0, s->dma0);
		db_find_xtrn_sym_and_offset((db_addr_t)s->dma0, &name, &offset);
		if (name != 0 && (unsigned)offset <= db_maxoff)
			db_printf("%s+0x%08x", name, (unsigned)offset);
		db_printf("\n          ");
		surpress1 = m88k_dmx_print(s->dmt0|0x01, s->dmd0, s->dma0, 0);
		db_printf("\n");

		if ((s->dmt1 & 1) && (!surpress1)) {
			db_printf("dmt,d,a1: 0x%08x  0x%08x  0x%08x ",
			    s->dmt1, s->dmd1, s->dma1);
			db_find_xtrn_sym_and_offset((db_addr_t)s->dma1,
			    &name, &offset);
			if (name != 0 && (unsigned)offset <= db_maxoff)
				db_printf("%s+0x%08x", name, (unsigned)offset);
			db_printf("\n          ");
			surpress2 = m88k_dmx_print(s->dmt1, s->dmd1, s->dma1, 1);
			db_printf("\n");

			if ((s->dmt2 & 1) && (!surpress2)) {
				db_printf("dmt,d,a2: 0x%08x  0x%08x  0x%08x ",
				    s->dmt2, s->dmd2, s->dma2);
				db_find_xtrn_sym_and_offset((db_addr_t)s->dma2,
				    &name, &offset);
				if (name != 0 && (unsigned)offset <= db_maxoff)
					db_printf("%s+0x%08x", name, (unsigned)offset);
				db_printf("\n          ");
				m88k_dmx_print(s->dmt2, s->dmd2, s->dma2, 2);
				db_printf("\n");
			}
		}
	}

	if (s->fpecr & 255) { /* floating point error occurred */
		db_printf("fpecr: 0x%08x fpsr: 0x%08x fpcr: 0x%08x\n",
		    s->fpecr, s->fpsr, s->fpcr);
		db_printf("fcr1-4: 0x%08x  0x%08x  0x%08x  0x%08x\n",
		    s->fphs1, s->fpls1, s->fphs2, s->fpls2);
		db_printf("fcr5-8: 0x%08x  0x%08x  0x%08x  0x%08x\n",
		    s->fppt, s->fprh, s->fprl, s->fpit);
	}
	db_printf("\n\n");
}

/************************/
/* PAUSE ****************/
/************************/

/*
 * pause for 2*ticks many cycles
 */
void
m88k_db_pause(ticks)
	unsigned volatile ticks;
{
	while (ticks)
		ticks -= 1;
}

/*
 *  m88k_db_trap - field a TRACE or BPT trap
 */
void
m88k_db_trap(type, regs)
	int type;
	register struct m88100_saved_state *regs;
{
#if 0
	int i;

	if ((i = db_spl()) != 7)
		db_printf("WARNING: spl is not high in m88k_db_trap (spl=%x)\n", i);
#endif /* 0 */

	if (db_are_interrupts_disabled())
		db_printf("WARNING: entered debugger with interrupts disabled\n");

	switch(type) {
    
	case T_KDB_BREAK:
	case T_KDB_TRACE:
	case T_KDB_ENTRY:
		break;
	case -1:
		break;
	default:
		kdbprinttrap(type, 0);
		if (db_recover != 0) {
			db_error("Caught exception in ddb.\n");
			/*NOTREACHED*/
		}
	}
    
	ddb_regs = *regs;
    
	db_active++;
	cnpollc(TRUE);
	db_trap(type, 0);
	cnpollc(FALSE);
	db_active--;

	*regs = ddb_regs;

#if 0
	(void) spl7();
#endif
}

extern char *trap_type[];
extern int trap_types;

/*
 * Print trap reason.
 */
void
kdbprinttrap(type, code)
	int type, code;
{       
	printf("kernel: ");
	if (type >= trap_types || type < 0)
		printf("type %d", type); 
	else    
		printf("%s", trap_type[type]);
	printf(" trap\n");
}       

void
Debugger()
{
	asm (ENTRY_ASM); /* entry trap */
	/* ends up at ddb_entry_trap below */
}

/* fielded a non maskable interrupt */
int
ddb_nmi_trap(level, eframe)
	int level;
	db_regs_t *eframe;
{
	NOISY(db_printf("kernel: nmi interrupt\n");)
	m88k_db_trap(T_KDB_ENTRY, eframe);

	return 0;
}

/*
 * When the below routine is entered interrupts should be on
 * but spl should be high
 *
 * The following routine is for breakpoint and watchpoint entry.
 */

/* breakpoint/watchpoint entry */
int
ddb_break_trap(type, eframe)
	int type;
	db_regs_t *eframe;
{
	m88k_db_trap(type, eframe);

	if (type == T_KDB_BREAK) {
		/*
		 * back up an instruction and retry the instruction
		 * at the breakpoint address
		 */
		eframe->sfip = eframe->snip;
		eframe->snip = eframe->sxip;
	}

	return 0;
}

/* enter at splhigh */
int
ddb_entry_trap(level, eframe)
	int level;
	db_regs_t *eframe;
{
	m88k_db_trap(T_KDB_ENTRY, eframe);

	return 0;
}

/*
 * When the below routine is entered interrupts should be on
 * but spl should be high
 */
/* error trap - unreturnable */
void
ddb_error_trap(error, eframe)
	char *error;
	db_regs_t *eframe;
{
	db_printf("KERNEL:  terminal error [%s]\n",(int)error);
	db_printf("KERNEL:  Exiting debugger will cause abort to rom\n");
	db_printf("at 0x%x ", eframe->sxip & ~3);
	db_printf("dmt0 0x%x dma0 0x%x", eframe->dmt0, eframe->dma0);
	m88k_db_pause(1000000);
	m88k_db_trap(T_KDB_BREAK, eframe);
}

/*
 * Read bytes from kernel address space for debugger.
 */
void
db_read_bytes(addr, size, data)
	vm_offset_t     addr;
	register int    size;
	register char   *data;
{
	register char	*src;

	src = (char *)addr;

	while(--size >= 0) {
		*data++ = *src++;
	}
}

/*
 * Write bytes to kernel address space for debugger.
 * This should make a text page writable to be able
 * to plant a break point (right now text is mapped with
 * write access in pmap_bootstrap()). XXX nivas
 */
void
db_write_bytes(addr, size, data)
	char *addr;
	int size;
	char *data;
{
	register char *dst;
	vm_offset_t physaddr;
	int i = size;

	dst = (char *)addr;
	
	while (--size >= 0) {
#if 0
		db_printf("byte %x\n", *data);
#endif
		*dst++ = *data++;    
	}
	pmap_extract(pmap_kernel(), (vm_offset_t)addr, &physaddr);
	cmmu_flush_cache(physaddr, i); 
}

/* to print a character to the console */
void
db_putc(c)
	int c;
{
	bugoutchr(c & 0xff);
}

/* to peek at the console; returns -1 if no character is there */
int
db_getc()
{
	if (buginstat())
		return (buginchr());
	else
		return -1;
}

/* display where all the cpus are stopped at */
void
m88k_db_where(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	struct m88100_saved_state *s;
	char *name;
	int *offset;
	int l;

	s = DDB_REGS;

	l = m88k_pc(s); /* clear low bits */

	db_find_xtrn_sym_and_offset((db_addr_t) l,&name, (db_expr_t*)&offset);
	if (name && (unsigned)offset <= db_maxoff)
		db_printf("stopped at 0x%x  (%s+0x%x)\n", l, name, offset);
	else
		db_printf("stopped at 0x%x\n", l);
}

/*
 * Walk back a stack, looking for exception frames.
 * These frames are recognized by the routine frame_is_sane. Frames
 * only start with zero, so we only call frame_is_sane if the
 * current address contains zero.
 *
 * If addr is given, it is assumed to an address on the stack to be
 * searched. Otherwise, r31 of the current cpu is used.
 */
void
m88k_db_frame_search(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
#if 1
	db_printf("sorry, frame search currently disabled.\n");
#else
	if (have_addr)
		addr &= ~3; /* round to word */
	else
		addr = (DDB_REGS->r[31]);

	/* walk back up stack until 8k boundry, looking for 0 */
	while (addr & ((8 * 1024) - 1)) {
		int i;
		db_read_bytes(addr, 4, &i);
		if (i == 0 && frame_is_sane((db_regs_t *)i))
			db_printf("frame found at 0x%x\n", i);
		addr += 4;
	}

	db_printf("(Walked back until 0x%x)\n",addr);
#endif
}

/* flush icache */
void
m88k_db_iflush(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	addr = 0;
	cmmu_remote_set(addr, CMMU_SCR, 0, CMMU_FLUSH_CACHE_CBI_ALL);
}

/* flush dcache */

void
m88k_db_dflush(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	addr = 0;
	cmmu_remote_set(addr, CMMU_SCR, 1, CMMU_FLUSH_CACHE_CBI_ALL);
}

/* probe my cache */
void
m88k_db_peek(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	int pa12;
	int valmask;

	pa12 = addr & ~((1<<12) -1);

	/* probe dcache */
	cmmu_remote_set(0, CMMU_SAR, 1, addr);

	valmask = cmmu_remote_get(0, CMMU_CSSP, 1);
	db_printf("dcache valmask 0x%x\n", (unsigned)valmask);
	db_printf("dcache tag ports 0x%x 0x%x 0x%x 0x%x\n",
	    (unsigned)cmmu_remote_get(0, CMMU_CTP0, 1),
	    (unsigned)cmmu_remote_get(0, CMMU_CTP1, 1),
	    (unsigned)cmmu_remote_get(0, CMMU_CTP2, 1),
	    (unsigned)cmmu_remote_get(0, CMMU_CTP3, 1));

	/* probe icache */
	cmmu_remote_set(0, CMMU_SAR, 0, addr);

	valmask = cmmu_remote_get(0, CMMU_CSSP, 0);
	db_printf("icache valmask 0x%x\n", (unsigned)valmask);
	db_printf("icache tag ports 0x%x 0x%x 0x%x 0x%x\n",
	    (unsigned)cmmu_remote_get(0, CMMU_CTP0, 0),
	    (unsigned)cmmu_remote_get(0, CMMU_CTP1, 0),
	    (unsigned)cmmu_remote_get(0, CMMU_CTP2, 0),
	    (unsigned)cmmu_remote_get(0, CMMU_CTP3, 0));
}


/*
 * control how much info the debugger prints about itself
 */
void
m88k_db_noise(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	if (!have_addr) {
		/* if off make noisy; if noisy or very noisy turn off */
		if (db_noisy) {
			db_printf("changing debugger status from %s to quiet\n",
			    db_noisy == 1 ? "noisy" :
			    db_noisy == 2 ? "very noisy" : "violent");
			    db_noisy = 0;
		} else {
			db_printf("changing debugger status from quiet to noisy\n");
			db_noisy = 1;
		}
	} else if (addr < 0 || addr > 3)
		db_printf("invalid noise level to m88k_db_noisy; should be 0, 1, 2, or 3\n");
	else {
		db_noisy = addr;
		db_printf("debugger noise level set to %s\n",
		    db_noisy == 0 ? "quiet" :
		    (db_noisy == 1 ? "noisy" :
		        db_noisy==2 ? "very noisy" : "violent"));
	}
}

/*
 * See how a virtual address translates.
 * Must have an address.
 */
void
m88k_db_translate(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	char c;
	int verbose_flag = 0;
	int supervisor_flag = 1;
	int wanthelp = 0;

	if (!have_addr)
		wanthelp = 1;
	else {
		while (c = *modif++, c != 0) {
			switch (c) {
			default:
				db_printf("bad modifier [%c]\n", c); 
				wanthelp = 1;
				break;
			case 'h':
				wanthelp = 1;
				break;
			case 'v':
				verbose_flag++;
				break;
			case 's':
				supervisor_flag = 1;
				break;
			case 'u':
				supervisor_flag = 0;
				break;
			}
		}
	}

	if (wanthelp) {
		db_printf("usage: translate[/vvsu] address\n");
		db_printf("flags: v - be verbose (vv - be very verbose)\n");
		db_printf("       s - use cmmu's supervisor area pointer (default)\n");
		db_printf("       u - use cmmu's user area pointer\n");
		return;
	}
	cmmu_show_translation(addr, supervisor_flag, verbose_flag, -1);
}

void
m88k_db_cmmucfg(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	if (modif != NULL && *modif != 0) {
		db_printf("usage: mach cmmucfg\n");
	return;
	}

	cmmu_dump_config();
}

void cpu_interrupt_to_db(cpu_no)
	int cpu_no;
{
}

void
m88k_db_prom_cmd(addr, have_addr, count, modif)
	db_expr_t addr;
	int have_addr;
	db_expr_t count;
	char *modif;
{
	doboot();
}

/************************/
/* COMMAND TABLE / INIT */
/************************/

struct db_command m88k_cache_cmds[] =
{
    { "iflush",    m88k_db_iflush, 0, 0},
    { "dflush",    m88k_db_dflush, 0, 0},
    { "peek",      m88k_db_peek, 0, 0},
    { (char *) 0,}
};

struct db_command db_machine_cmds[] =
{
    {"cache",		0,			0, m88k_cache_cmds},
    {"frame",		m88k_db_print_frame,	0, 0},
    {"noise",		m88k_db_noise,		0, 0},
    {"searchframe",	m88k_db_frame_search,	0, 0},
    {"translate",	m88k_db_translate,      0, 0},
    {"cmmucfg",		m88k_db_cmmucfg,        0, 0},
    {"where",		m88k_db_where,		0, 0},
    {"prom",		m88k_db_prom_cmd,	0, 0},
    {(char  *) 0,}
};

/*
 * Called from "m88k/m1x7_init.c"
 */
void
db_machine_init()
{
	db_machine_commands_install(db_machine_cmds);
}

/*
 * Attempt to figure out the UX name of the task.
 * This is kludgy at best... we can't even be sure the task is a UX task...
 */
#define TOP_OF_USER_STACK USRSTACK
#define MAX_DISTANCE_TO_LOOK (1024 * 10)

#define DB_TASK_NAME_LEN 50

char *
db_task_name()
{
	static unsigned buffer[(DB_TASK_NAME_LEN + 5) / sizeof(unsigned)];
	unsigned ptr = (vm_offset_t)(TOP_OF_USER_STACK - 4);
	unsigned limit = ptr - MAX_DISTANCE_TO_LOOK;
	unsigned word;
	int i;

	/* skip zeros at the end */
	while (ptr > limit &&
	    (i = db_trace_get_val((vm_offset_t)ptr, &word)) && (word == 0)) {
		ptr -= 4; /* continue looking for a non-null word */
	}

	if (ptr <= limit) {
		db_printf("bad name at line %d\n", __LINE__);
		return "<couldn't find 1>";
	} else if (i != 1) {
		return "<nostack>";
	}

	/* skip looking for null before all the text */
	while (ptr > limit &&
	    (i = db_trace_get_val(ptr, &word)) && (word != 0)) {
		ptr -= 4; /* continue looking for a null word */
	}
    
	if (ptr <= limit) {
		db_printf("bad name at line %d\n", __LINE__);
		return "<couldn't find 2>";
	} else if (i != 1) {
		db_printf("bad name read of %x at line %d\n", ptr, __LINE__);
		return "<bad read 2>";
	}

	ptr += 4; /* go back to the non-null word after this one */

	for (i = 0; i < sizeof(buffer); i++, ptr += 4) {
		buffer[i] = 0; /* just in case it's not read */
		db_trace_get_val((vm_offset_t)ptr, &buffer[i]);
	}
	return (char*)buffer;
}