powerpc/powerpc/db_interface.c

1.17       dbj /*	$NetBSD: db_interface.c,v 1.17 2002/01/06 00:35:13 dbj Exp $ */
 1.1  sakamoto /*	$OpenBSD: db_interface.c,v 1.2 1996/12/28 06:21:50 rahnds Exp $	*/
 1.3  jonathan
1.10    simonb #define USERACC
1.10    simonb
 1.3  jonathan #include "opt_ddb.h"
1.17       dbj #include "opt_kgdb.h"
1.10    simonb #include "opt_ppcarch.h"
 1.1  sakamoto
 1.1  sakamoto #include <sys/param.h>
 1.1  sakamoto #include <sys/proc.h>
 1.4    tsubai #include <sys/systm.h>
 1.6    kleink
1.11    simonb #include <dev/cons.h>
1.11    simonb
 1.7    tsubai #include <machine/db_machdep.h>
 1.7    tsubai #include <machine/frame.h>
1.10    simonb #ifdef PPC_IBM4XX
1.10    simonb #include <machine/tlb.h>
1.10    simonb #include <powerpc/spr.h>
1.10    simonb #include <uvm/uvm_extern.h>
1.10    simonb #endif
 1.7    tsubai
1.17       dbj #ifdef DDB
 1.6    kleink #include <ddb/db_sym.h>
 1.6    kleink #include <ddb/db_command.h>
 1.6    kleink #include <ddb/db_extern.h>
 1.6    kleink #include <ddb/db_access.h>
 1.6    kleink #include <ddb/db_output.h>
 1.6    kleink #include <ddb/ddbvar.h>
1.17       dbj #endif
1.17       dbj
1.17       dbj #ifdef KGDB
1.17       dbj #include <sys/kgdb.h>
1.17       dbj #endif
1.17       dbj
1.17       dbj #include <dev/ofw/openfirm.h>
 1.1  sakamoto
1.11    simonb int	db_active = 0;
1.11    simonb
 1.8    tsubai extern label_t *db_recover;
 1.8    tsubai
1.10    simonb void ddb_trap(void);				/* Call into trap_subr.S */
1.10    simonb int ddb_trap_glue(struct trapframe *);		/* Called from trap_subr.S */
1.10    simonb #ifdef PPC_IBM4XX
1.10    simonb static void db_ppc4xx_ctx(db_expr_t, int, db_expr_t, char *);
1.10    simonb static void db_ppc4xx_pv(db_expr_t, int, db_expr_t, char *);
1.10    simonb static void db_ppc4xx_reset(db_expr_t, int, db_expr_t, char *);
1.10    simonb static void db_ppc4xx_tf(db_expr_t, int, db_expr_t, char *);
1.10    simonb static void db_ppc4xx_dumptlb(db_expr_t, int, db_expr_t, char *);
1.10    simonb #ifdef USERACC
1.10    simonb static void db_ppc4xx_useracc(db_expr_t, int, db_expr_t, char *);
1.10    simonb #endif
1.10    simonb #endif /* PPC_IBM4XX */
 1.9    briggs
1.17       dbj #ifdef DDB
 1.1  sakamoto void
 1.5  jdolecek cpu_Debugger()
 1.1  sakamoto {
 1.1  sakamoto 	ddb_trap();
 1.1  sakamoto }
1.17       dbj #endif
 1.1  sakamoto
 1.1  sakamoto int
 1.1  sakamoto ddb_trap_glue(frame)
 1.1  sakamoto 	struct trapframe *frame;
 1.1  sakamoto {
 1.1  sakamoto 	if (!(frame->srr1 & PSL_PR)
 1.1  sakamoto 	    && (frame->exc == EXC_TRC
 1.1  sakamoto 		|| (frame->exc == EXC_PGM
 1.1  sakamoto 		    && (frame->srr1 & 0x20000))
 1.1  sakamoto 		|| frame->exc == EXC_BPT)) {
1.17       dbj 		int type = frame->exc;
1.17       dbj 		if (type == EXC_PGM && (frame->srr1 & 0x20000)) {
1.17       dbj 			type = T_BREAKPOINT;
1.17       dbj 		}
1.17       dbj 		return kdb_trap(type, frame);
 1.1  sakamoto 	}
 1.1  sakamoto 	return 0;
 1.8    tsubai }
 1.8    tsubai
 1.8    tsubai int
 1.8    tsubai kdb_trap(type, v)
 1.8    tsubai 	int type;
 1.8    tsubai 	void *v;
 1.8    tsubai {
 1.8    tsubai 	struct trapframe *frame = v;
 1.8    tsubai
1.17       dbj #ifdef DDB
 1.8    tsubai 	switch (type) {
 1.8    tsubai 	case T_BREAKPOINT:
 1.8    tsubai 	case -1:
 1.8    tsubai 		break;
 1.8    tsubai 	default:
 1.8    tsubai 		if (!db_onpanic && db_recover == 0)
 1.8    tsubai 			return 0;
 1.8    tsubai 		if (db_recover != 0) {
 1.8    tsubai 			db_error("Faulted in DDB; continuing...\n");
 1.8    tsubai 			/*NOTREACHED*/
 1.8    tsubai 		}
 1.8    tsubai 	}
1.17       dbj #endif
 1.8    tsubai
 1.8    tsubai 	/* XXX Should switch to kdb's own stack here. */
 1.8    tsubai
1.12       wiz 	memcpy(DDB_REGS->r, frame->fixreg, 32 * sizeof(u_int32_t));
 1.8    tsubai 	DDB_REGS->iar = frame->srr0;
 1.8    tsubai 	DDB_REGS->msr = frame->srr1;
1.10    simonb 	DDB_REGS->lr = frame->lr;
1.10    simonb 	DDB_REGS->ctr = frame->ctr;
1.10    simonb 	DDB_REGS->cr = frame->cr;
1.10    simonb 	DDB_REGS->xer = frame->xer;
1.16       dbj #ifdef PPC_IBM4XX
1.10    simonb 	DDB_REGS->dear = frame->dear;
1.10    simonb 	DDB_REGS->esr = frame->esr;
1.10    simonb 	DDB_REGS->pid = frame->pid;
1.10    simonb #endif
 1.8    tsubai
1.17       dbj #ifdef DDB
1.11    simonb 	db_active++;
1.11    simonb 	cnpollc(1);
1.15       dbj 	db_trap(type, 0);
1.11    simonb 	cnpollc(0);
1.11    simonb 	db_active--;
1.17       dbj #elif defined(KGDB)
1.17       dbj 	if (!kgdb_trap(type, DDB_REGS))
1.17       dbj 		return 0;
1.17       dbj #endif
1.17       dbj
1.17       dbj 	/* KGDB isn't smart about advancing PC if we
1.17       dbj 	 * take a breakpoint trap after kgdb_active is set.
1.17       dbj 	 * Therefore, we help out here.
1.17       dbj 	 */
1.17       dbj 	if (IS_BREAKPOINT_TRAP(type, 0)) {
1.17       dbj 		int bkpt;
1.17       dbj 		db_read_bytes(PC_REGS(DDB_REGS),BKPT_SIZE,(void *)&bkpt);
1.17       dbj 		if (bkpt== BKPT_INST) {
1.17       dbj 			PC_REGS(DDB_REGS) += BKPT_SIZE;
1.17       dbj 		}
1.17       dbj 	}
 1.8    tsubai
1.12       wiz 	memcpy(frame->fixreg, DDB_REGS->r, 32 * sizeof(u_int32_t));
 1.8    tsubai 	frame->srr0 = DDB_REGS->iar;
 1.8    tsubai 	frame->srr1 = DDB_REGS->msr;
1.10    simonb 	frame->lr = DDB_REGS->lr;
1.10    simonb 	frame->ctr = DDB_REGS->ctr;
1.10    simonb 	frame->cr = DDB_REGS->cr;
1.10    simonb 	frame->xer = DDB_REGS->xer;
1.16       dbj #ifdef PPC_IBM4XX
1.10    simonb 	frame->dear = DDB_REGS->dear;
1.10    simonb 	frame->esr = DDB_REGS->esr;
1.10    simonb 	frame->pid = DDB_REGS->pid;
1.10    simonb #endif
 1.8    tsubai
 1.8    tsubai 	return 1;
 1.1  sakamoto }
1.10    simonb
1.10    simonb #ifdef PPC_IBM4XX
1.10    simonb const struct db_command db_machine_command_table[] = {
1.10    simonb 	{ "ctx",	db_ppc4xx_ctx,		0,	0 },
1.10    simonb 	{ "pv",		db_ppc4xx_pv,		0,	0 },
1.10    simonb 	{ "reset",	db_ppc4xx_reset,	0,	0 },
1.10    simonb 	{ "tf",		db_ppc4xx_tf,	0,	0 },
1.10    simonb 	{ "tlb",	db_ppc4xx_dumptlb,	0,	0 },
1.10    simonb #ifdef USERACC
1.10    simonb 	{ "user",	db_ppc4xx_useracc,	0,	0 },
1.10    simonb #endif
1.10    simonb 	{ NULL, }
1.10    simonb };
1.10    simonb
1.10    simonb static void
1.10    simonb db_ppc4xx_ctx(db_expr_t addr, int have_addr, db_expr_t count, char *modif)
1.10    simonb {
1.10    simonb 	struct proc *p;
1.10    simonb
1.10    simonb 	/* XXX LOCKING XXX */
1.10    simonb 	for (p = allproc.lh_first; p != 0; p = p->p_list.le_next) {
1.10    simonb 		if (p->p_stat) {
1.10    simonb 			db_printf("process %p:", p);
1.10    simonb 			db_printf("pid:%d pmap:%p ctx:%d %s\n",
1.10    simonb 				p->p_pid, p->p_vmspace->vm_map.pmap,
1.10    simonb 				p->p_vmspace->vm_map.pmap->pm_ctx,
1.10    simonb 				p->p_comm);
1.10    simonb 		}
1.10    simonb 	}
1.10    simonb 	return;
1.10    simonb }
1.10    simonb
1.10    simonb static void
1.10    simonb db_ppc4xx_pv(db_expr_t addr, int have_addr, db_expr_t count, char *modif)
1.10    simonb {
1.10    simonb 	struct pv_entry {
1.10    simonb 		struct pv_entry *pv_next;	/* Linked list of mappings */
1.10    simonb 		vaddr_t pv_va;			/* virtual address of mapping */
1.10    simonb 		struct pmap *pv_pm;
1.10    simonb 	};
1.10    simonb 	struct pv_entry *pa_to_pv(paddr_t);
1.10    simonb 	struct pv_entry *pv;
1.10    simonb
1.10    simonb 	if (!have_addr) {
1.10    simonb 		db_printf("pv: <pa>\n");
1.10    simonb 		return;
1.10    simonb 	}
1.10    simonb 	pv = pa_to_pv(addr);
1.10    simonb 	db_printf("pv at %p\n", pv);
1.10    simonb 	while (pv && pv->pv_pm) {
1.10    simonb 		db_printf("next %p va %p pmap %p\n", pv->pv_next,
1.10    simonb 			(void *)pv->pv_va, pv->pv_pm);
1.10    simonb 		pv = pv->pv_next;
1.10    simonb 	}
1.10    simonb }
1.10    simonb
1.10    simonb static void
1.10    simonb db_ppc4xx_reset(db_expr_t addr, int have_addr, db_expr_t count, char *modif)
1.10    simonb {
1.10    simonb 	printf("Reseting...\n");
1.10    simonb 	ppc4xx_reset();
1.10    simonb }
1.10    simonb
1.10    simonb static void
1.10    simonb db_ppc4xx_tf(db_expr_t addr, int have_addr, db_expr_t count, char *modif)
1.10    simonb {
1.10    simonb 	struct trapframe *f;
1.10    simonb
1.10    simonb
1.10    simonb 	if (have_addr) {
1.10    simonb 		f = (struct trapframe *)addr;
1.10    simonb
1.10    simonb 		db_printf("r0-r3:  \t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[0], f->fixreg[1],
1.10    simonb 			f->fixreg[2], f->fixreg[3]);
1.10    simonb 		db_printf("r4-r7:  \t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[4], f->fixreg[5],
1.10    simonb 			f->fixreg[6], f->fixreg[7]);
1.10    simonb 		db_printf("r8-r11: \t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[8], f->fixreg[9],
1.10    simonb 			f->fixreg[10], f->fixreg[11]);
1.10    simonb 		db_printf("r12-r15:\t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[12], f->fixreg[13],
1.10    simonb 			f->fixreg[14], f->fixreg[15]);
1.10    simonb 		db_printf("r16-r19:\t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[16], f->fixreg[17],
1.10    simonb 			f->fixreg[18], f->fixreg[19]);
1.10    simonb 		db_printf("r20-r23:\t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[20], f->fixreg[21],
1.10    simonb 			f->fixreg[22], f->fixreg[23]);
1.10    simonb 		db_printf("r24-r27:\t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[24], f->fixreg[25],
1.10    simonb 			f->fixreg[26], f->fixreg[27]);
1.10    simonb 		db_printf("r28-r31:\t%8.8x %8.8x %8.8x %8.8x\n",
1.10    simonb 			f->fixreg[28], f->fixreg[29],
1.10    simonb 			f->fixreg[30], f->fixreg[31]);
1.10    simonb
1.10    simonb 		db_printf("lr: %8.8x cr: %8.8x xer: %8.8x ctr: %8.8x\n",
1.10    simonb 			f->lr, f->cr, f->xer, f->ctr);
1.10    simonb 		db_printf("srr0(pc): %8.8x srr1(msr): %8.8x "
1.10    simonb 			"dear: %8.8x esr: %8.8x\n",
1.10    simonb 			f->srr0, f->srr1, f->dear, f->esr);
1.10    simonb 		db_printf("exc: %8.8x pid: %8.8x\n",
1.10    simonb 			f->exc, f->pid);
1.10    simonb 	}
1.10    simonb 	return;
1.10    simonb }
1.10    simonb
1.10    simonb static const char *const tlbsizes[] = {
1.10    simonb 	  "1kB",
1.10    simonb 	  "4kB",
1.10    simonb 	 "16kB",
1.10    simonb 	 "64kB",
1.10    simonb 	"256kB",
1.10    simonb 	  "1MB",
1.10    simonb 	  "4MB",
1.10    simonb 	 "16MB"
1.10    simonb };
1.10    simonb
1.10    simonb static void
1.10    simonb db_ppc4xx_dumptlb(db_expr_t addr, int have_addr, db_expr_t count, char *modif)
1.10    simonb {
1.10    simonb 	int i, zone, tlbsize;
1.10    simonb 	u_int zpr, pid, opid, msr;
1.10    simonb 	u_long tlblo, tlbhi, tlbmask;
1.10    simonb
1.10    simonb 	zpr = mfspr(SPR_ZPR);
1.10    simonb 	for (i = 0; i < NTLB; i++) {
1.10    simonb 		asm volatile("mfmsr %3;"
1.10    simonb 			"mfpid %4;"
1.10    simonb 			"li %0,0;"
1.10    simonb 			"mtmsr %0;"
1.10    simonb 			"sync; isync;"
1.10    simonb 			"tlbre %0,%5,1;"
1.10    simonb 			"tlbre %1,%5,0;"
1.10    simonb 			"mfpid %2;"
1.10    simonb 			"mtpid %4;"
1.10    simonb 			"mtmsr %3;"
1.10    simonb 			"sync; isync"
1.10    simonb 			: "=&r" (tlblo), "=&r" (tlbhi), "=r" (pid),
1.10    simonb 			"=&r" (msr), "=&r" (opid) : "r" (i));
1.10    simonb
1.10    simonb 		if (strchr(modif, 'v') && !(tlbhi & TLB_VALID))
1.10    simonb 			continue;
1.10    simonb
1.10    simonb 		tlbsize = (tlbhi & TLB_SIZE_MASK) >> TLB_SIZE_SHFT;
1.10    simonb 		/* map tlbsize 0 .. 7 to masks for 1kB .. 16MB */
1.10    simonb 		tlbmask = ~(1 << (tlbsize * 2 + 10)) + 1;
1.10    simonb
1.10    simonb 		if (have_addr && ((tlbhi & tlbmask) != (addr & tlbmask)))
1.10    simonb 			continue;
1.10    simonb
1.10    simonb 		zone = (tlblo & TLB_ZSEL_MASK) >> TLB_ZSEL_SHFT;
1.10    simonb 		db_printf("tlb%c%2d", tlbhi & TLB_VALID ? ' ' : '*', i);
1.10    simonb 		db_printf("  PID %3d EPN 0x%08lx %-5s",
1.10    simonb 		    pid,
1.10    simonb 		    tlbhi & tlbmask,
1.10    simonb 		    tlbsizes[tlbsize]);
1.10    simonb 		db_printf("  RPN 0x%08lx  ZONE %2d%c  %s %s %c%c%c%c%c %s",
1.10    simonb 		    tlblo & tlbmask,
1.10    simonb 		    zone,
1.10    simonb 		    "NTTA"[(zpr >> ((15 - zone) * 2)) & 3],
1.10    simonb 		    tlblo & TLB_EX ? "EX" : "  ",
1.10    simonb 		    tlblo & TLB_WR ? "WR" : "  ",
1.10    simonb 		    tlblo & TLB_W ? 'W' : ' ',
1.10    simonb 		    tlblo & TLB_I ? 'I' : ' ',
1.10    simonb 		    tlblo & TLB_M ? 'M' : ' ',
1.10    simonb 		    tlblo & TLB_G ? 'G' : ' ',
1.10    simonb 		    tlbhi & TLB_ENDIAN ? 'E' : ' ',
1.10    simonb 		    tlbhi & TLB_U0 ? "U0" : "  ");
1.10    simonb 		db_printf("\n");
1.10    simonb 	}
1.10    simonb }
1.10    simonb
1.10    simonb #ifdef USERACC
1.10    simonb static void
1.10    simonb db_ppc4xx_useracc(db_expr_t addr, int have_addr, db_expr_t count, char *modif)
1.10    simonb {
1.10    simonb 	static paddr_t oldaddr = -1;
1.10    simonb 	int instr = 0;
1.10    simonb 	int data;
1.10    simonb 	extern vaddr_t opc_disasm(vaddr_t loc, int);
1.10    simonb
1.10    simonb
1.10    simonb 	if (!have_addr) {
1.10    simonb 		addr = oldaddr;
1.10    simonb 	}
1.10    simonb 	if (addr == -1) {
1.10    simonb 		db_printf("no address\n");
1.10    simonb 		return;
1.10    simonb 	}
1.10    simonb 	addr &= ~0x3; /* align */
1.10    simonb 	{
1.10    simonb 		register char c, *cp = modif;
1.10    simonb 		while ((c = *cp++) != 0)
1.10    simonb 			if (c == 'i')
1.10    simonb 				instr = 1;
1.10    simonb 	}
1.10    simonb 	while (count--) {
1.10    simonb 		if (db_print_position() == 0) {
1.10    simonb 			/* Always print the address. */
1.10    simonb 			db_printf("%8.4lx:\t", addr);
1.10    simonb 		}
1.10    simonb 		oldaddr=addr;
1.10    simonb 		copyin((void *)addr, &data, sizeof(data));
1.10    simonb 		if (instr) {
1.10    simonb 			opc_disasm(addr, data);
1.10    simonb 		} else {
1.10    simonb 			db_printf("%4.4x\n", data);
1.10    simonb 		}
1.10    simonb 		addr += 4;
1.10    simonb 		db_end_line();
1.10    simonb 	}
1.10    simonb
1.10    simonb }
1.10    simonb #endif
1.10    simonb
1.10    simonb #endif /* PPC_IBM4XX */