arm/arm/db_trace.c

6fc729afSOlivier Houchard/*	$NetBSD: db_trace.c,v 1.8 2003/01/17 22:28:48 thorpej Exp $	*/
6fc729afSOlivier Houchard
d8315c79SWarner Losh/*-
6fc729afSOlivier Houchard * Copyright (c) 2000, 2001 Ben Harris
6fc729afSOlivier Houchard * Copyright (c) 1996 Scott K. Stevens
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard * Mach Operating System
6fc729afSOlivier Houchard * Copyright (c) 1991,1990 Carnegie Mellon University
6fc729afSOlivier Houchard * All Rights Reserved.
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard * Permission to use, copy, modify and distribute this software and its
6fc729afSOlivier Houchard * documentation is hereby granted, provided that both the copyright
6fc729afSOlivier Houchard * notice and this permission notice appear in all copies of the
6fc729afSOlivier Houchard * software, derivative works or modified versions, and any portions
6fc729afSOlivier Houchard * thereof, and that both notices appear in supporting documentation.
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
6fc729afSOlivier Houchard * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
6fc729afSOlivier Houchard * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard * Carnegie Mellon requests users of this software to return to
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
6fc729afSOlivier Houchard *  School of Computer Science
6fc729afSOlivier Houchard *  Carnegie Mellon University
6fc729afSOlivier Houchard *  Pittsburgh PA 15213-3890
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard * any improvements or extensions that they make and grant Carnegie the
6fc729afSOlivier Houchard * rights to redistribute these changes.
6fc729afSOlivier Houchard */
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard#include <sys/cdefs.h>
6fc729afSOlivier Houchard__FBSDID("$FreeBSD$");
6fc729afSOlivier Houchard#include <sys/param.h>
9cdb2bfcSOlivier Houchard#include <sys/systm.h>
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard#include <sys/proc.h>
2f6d0d8fSOlivier Houchard#include <sys/kdb.h>
8d511e2aSJeff Roberson#include <sys/stack.h>
6fc729afSOlivier Houchard#include <machine/armreg.h>
6fc729afSOlivier Houchard#include <machine/asm.h>
6fc729afSOlivier Houchard#include <machine/cpufunc.h>
6fc729afSOlivier Houchard#include <machine/db_machdep.h>
6004362eSDavid Schultz#include <machine/pcb.h>
3c90d1eaSRobert Watson#include <machine/stack.h>
6fc729afSOlivier Houchard#include <machine/vmparam.h>
6fc729afSOlivier Houchard#include <ddb/ddb.h>
6fc729afSOlivier Houchard#include <ddb/db_access.h>
6fc729afSOlivier Houchard#include <ddb/db_sym.h>
6fc729afSOlivier Houchard#include <ddb/db_output.h>
6fc729afSOlivier Houchard
29ce0a2aSAndrew Turner#ifdef __ARM_EABI__
29ce0a2aSAndrew Turner/*
29ce0a2aSAndrew Turner * Definitions for the instruction interpreter.
29ce0a2aSAndrew Turner *
29ce0a2aSAndrew Turner * The ARM EABI specifies how to perform the frame unwinding in the
29ce0a2aSAndrew Turner * Exception Handling ABI for the ARM Architecture document. To perform
29ce0a2aSAndrew Turner * the unwind we need to know the initial frame pointer, stack pointer,
29ce0a2aSAndrew Turner * link register and program counter. We then find the entry within the
29ce0a2aSAndrew Turner * index table that points to the function the program counter is within.
29ce0a2aSAndrew Turner * This gives us either a list of three instructions to process, a 31-bit
29ce0a2aSAndrew Turner * relative offset to a table of instructions, or a value telling us
29ce0a2aSAndrew Turner * we can't unwind any further.
29ce0a2aSAndrew Turner *
29ce0a2aSAndrew Turner * When we have the instructions to process we need to decode them
29ce0a2aSAndrew Turner * following table 4 in section 9.3. This describes a collection of bit
29ce0a2aSAndrew Turner * patterns to encode that steps to take to update the stack pointer and
29ce0a2aSAndrew Turner * link register to the correct values at the start of the function.
29ce0a2aSAndrew Turner */
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* A special case when we are unable to unwind past this function */
29ce0a2aSAndrew Turner#define	EXIDX_CANTUNWIND	1
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* The register names */
29ce0a2aSAndrew Turner#define	FP	11
29ce0a2aSAndrew Turner#define	SP	13
29ce0a2aSAndrew Turner#define	LR	14
29ce0a2aSAndrew Turner#define	PC	15
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/*
29ce0a2aSAndrew Turner * These are set in the linker script. Their addresses will be
29ce0a2aSAndrew Turner * either the start or end of the exception table or index.
29ce0a2aSAndrew Turner */
29ce0a2aSAndrew Turnerextern int extab_start, extab_end, exidx_start, exidx_end;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/*
29ce0a2aSAndrew Turner * Entry types.
29ce0a2aSAndrew Turner * These are the only entry types that have been seen in the kernel.
29ce0a2aSAndrew Turner */
29ce0a2aSAndrew Turner#define	ENTRY_MASK	0xff000000
29ce0a2aSAndrew Turner#define	ENTRY_ARM_SU16	0x80000000
29ce0a2aSAndrew Turner#define	ENTRY_ARM_LU16	0x81000000
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* Instruction masks. */
29ce0a2aSAndrew Turner#define	INSN_VSP_MASK		0xc0
29ce0a2aSAndrew Turner#define	INSN_VSP_SIZE_MASK	0x3f
29ce0a2aSAndrew Turner#define	INSN_STD_MASK		0xf0
29ce0a2aSAndrew Turner#define	INSN_STD_DATA_MASK	0x0f
29ce0a2aSAndrew Turner#define	INSN_POP_TYPE_MASK	0x08
29ce0a2aSAndrew Turner#define	INSN_POP_COUNT_MASK	0x07
29ce0a2aSAndrew Turner#define	INSN_VSP_LARGE_INC_MASK	0xff
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* Instruction definitions */
29ce0a2aSAndrew Turner#define	INSN_VSP_INC		0x00
29ce0a2aSAndrew Turner#define	INSN_VSP_DEC		0x40
29ce0a2aSAndrew Turner#define	INSN_POP_MASKED		0x80
29ce0a2aSAndrew Turner#define	INSN_VSP_REG		0x90
29ce0a2aSAndrew Turner#define	INSN_POP_COUNT		0xa0
29ce0a2aSAndrew Turner#define	INSN_FINISH		0xb0
29ce0a2aSAndrew Turner#define	INSN_VSP_LARGE_INC	0xb2
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* An item in the exception index table */
29ce0a2aSAndrew Turnerstruct unwind_idx {
29ce0a2aSAndrew Turner	uint32_t offset;
29ce0a2aSAndrew Turner	uint32_t insn;
29ce0a2aSAndrew Turner};
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* The state of the unwind process */
29ce0a2aSAndrew Turnerstruct unwind_state {
29ce0a2aSAndrew Turner	uint32_t registers[16];
29ce0a2aSAndrew Turner	uint32_t start_pc;
29ce0a2aSAndrew Turner	uint32_t *insn;
29ce0a2aSAndrew Turner	u_int entries;
29ce0a2aSAndrew Turner	u_int byte;
29ce0a2aSAndrew Turner	uint16_t update_mask;
29ce0a2aSAndrew Turner};
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* Expand a 31-bit signed value to a 32-bit signed value */
29ce0a2aSAndrew Turnerstatic __inline int32_t
29ce0a2aSAndrew Turnerdb_expand_prel31(uint32_t prel31)
29ce0a2aSAndrew Turner{
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	return ((int32_t)(prel31 & 0x7fffffffu) << 1) / 2;
29ce0a2aSAndrew Turner}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/*
29ce0a2aSAndrew Turner * Perform a binary search of the index table to find the function
29ce0a2aSAndrew Turner * with the largest address that doesn't exceed addr.
29ce0a2aSAndrew Turner */
29ce0a2aSAndrew Turnerstatic struct unwind_idx *
29ce0a2aSAndrew Turnerdb_find_index(uint32_t addr)
29ce0a2aSAndrew Turner{
29ce0a2aSAndrew Turner	unsigned int min, mid, max;
29ce0a2aSAndrew Turner	struct unwind_idx *start;
29ce0a2aSAndrew Turner	struct unwind_idx *item;
29ce0a2aSAndrew Turner	int32_t prel31_addr;
29ce0a2aSAndrew Turner	uint32_t func_addr;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	start = (struct unwind_idx *)&exidx_start;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	min = 0;
29ce0a2aSAndrew Turner	max = (&exidx_end - &exidx_start) / 2;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	while (min != max) {
29ce0a2aSAndrew Turner		mid = min + (max - min + 1) / 2;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		item = &start[mid];
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	 	prel31_addr = db_expand_prel31(item->offset);
29ce0a2aSAndrew Turner		func_addr = (uint32_t)&item->offset + prel31_addr;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		if (func_addr <= addr) {
29ce0a2aSAndrew Turner			min = mid;
29ce0a2aSAndrew Turner		} else {
29ce0a2aSAndrew Turner			max = mid - 1;
29ce0a2aSAndrew Turner		}
29ce0a2aSAndrew Turner	}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	return &start[min];
29ce0a2aSAndrew Turner}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* Reads the next byte from the instruction list */
29ce0a2aSAndrew Turnerstatic uint8_t
29ce0a2aSAndrew Turnerdb_unwind_exec_read_byte(struct unwind_state *state)
29ce0a2aSAndrew Turner{
29ce0a2aSAndrew Turner	uint8_t insn;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	/* Read the unwind instruction */
29ce0a2aSAndrew Turner	insn = (*state->insn) >> (state->byte * 8);
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	/* Update the location of the next instruction */
29ce0a2aSAndrew Turner	if (state->byte == 0) {
29ce0a2aSAndrew Turner		state->byte = 3;
29ce0a2aSAndrew Turner		state->insn++;
29ce0a2aSAndrew Turner		state->entries--;
29ce0a2aSAndrew Turner	} else
29ce0a2aSAndrew Turner		state->byte--;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	return insn;
29ce0a2aSAndrew Turner}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* Executes the next instruction on the list */
29ce0a2aSAndrew Turnerstatic int
29ce0a2aSAndrew Turnerdb_unwind_exec_insn(struct unwind_state *state)
29ce0a2aSAndrew Turner{
29ce0a2aSAndrew Turner	unsigned int insn;
29ce0a2aSAndrew Turner	uint32_t *vsp = (uint32_t *)state->registers[SP];
29ce0a2aSAndrew Turner	int update_vsp = 0;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	/* This should never happen */
29ce0a2aSAndrew Turner	if (state->entries == 0)
29ce0a2aSAndrew Turner		return 1;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	/* Read the next instruction */
29ce0a2aSAndrew Turner	insn = db_unwind_exec_read_byte(state);
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	if ((insn & INSN_VSP_MASK) == INSN_VSP_INC) {
29ce0a2aSAndrew Turner		state->registers[SP] += ((insn & INSN_VSP_SIZE_MASK) << 2) + 4;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	} else if ((insn & INSN_VSP_MASK) == INSN_VSP_DEC) {
29ce0a2aSAndrew Turner		state->registers[SP] -= ((insn & INSN_VSP_SIZE_MASK) << 2) + 4;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	} else if ((insn & INSN_STD_MASK) == INSN_POP_MASKED) {
29ce0a2aSAndrew Turner		unsigned int mask, reg;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Load the mask */
29ce0a2aSAndrew Turner		mask = db_unwind_exec_read_byte(state);
29ce0a2aSAndrew Turner		mask |= (insn & INSN_STD_DATA_MASK) << 8;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* We have a refuse to unwind instruction */
29ce0a2aSAndrew Turner		if (mask == 0)
29ce0a2aSAndrew Turner			return 1;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Update SP */
29ce0a2aSAndrew Turner		update_vsp = 1;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Load the registers */
29ce0a2aSAndrew Turner		for (reg = 4; mask && reg < 16; mask >>= 1, reg++) {
29ce0a2aSAndrew Turner			if (mask & 1) {
29ce0a2aSAndrew Turner				state->registers[reg] = *vsp++;
29ce0a2aSAndrew Turner				state->update_mask |= 1 << reg;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner				/* If we have updated SP kep its value */
29ce0a2aSAndrew Turner				if (reg == SP)
29ce0a2aSAndrew Turner					update_vsp = 0;
29ce0a2aSAndrew Turner			}
29ce0a2aSAndrew Turner		}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	} else if ((insn & INSN_STD_MASK) == INSN_VSP_REG &&
29ce0a2aSAndrew Turner	    ((insn & INSN_STD_DATA_MASK) != 13) &&
29ce0a2aSAndrew Turner	    ((insn & INSN_STD_DATA_MASK) != 15)) {
29ce0a2aSAndrew Turner		/* sp = register */
29ce0a2aSAndrew Turner		state->registers[SP] =
29ce0a2aSAndrew Turner		    state->registers[insn & INSN_STD_DATA_MASK];
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	} else if ((insn & INSN_STD_MASK) == INSN_POP_COUNT) {
29ce0a2aSAndrew Turner		unsigned int count, reg;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Read how many registers to load */
29ce0a2aSAndrew Turner		count = insn & INSN_POP_COUNT_MASK;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Update sp */
29ce0a2aSAndrew Turner		update_vsp = 1;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Pop the registers */
29ce0a2aSAndrew Turner		for (reg = 4; reg <= 4 + count; reg++) {
29ce0a2aSAndrew Turner			state->registers[reg] = *vsp++;
29ce0a2aSAndrew Turner			state->update_mask |= 1 << reg;
29ce0a2aSAndrew Turner		}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Check if we are in the pop r14 version */
29ce0a2aSAndrew Turner		if ((insn & INSN_POP_TYPE_MASK) != 0) {
29ce0a2aSAndrew Turner			state->registers[14] = *vsp++;
29ce0a2aSAndrew Turner		}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	} else if (insn == INSN_FINISH) {
29ce0a2aSAndrew Turner		/* Stop processing */
29ce0a2aSAndrew Turner		state->entries = 0;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	} else if ((insn & INSN_VSP_LARGE_INC_MASK) == INSN_VSP_LARGE_INC) {
29ce0a2aSAndrew Turner		unsigned int uleb128;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Read the increment value */
29ce0a2aSAndrew Turner		uleb128 = db_unwind_exec_read_byte(state);
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		state->registers[SP] += 0x204 + (uleb128 << 2);
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	} else {
29ce0a2aSAndrew Turner		/* We hit a new instruction that needs to be implemented */
29ce0a2aSAndrew Turner		db_printf("Unhandled instruction %.2x\n", insn);
29ce0a2aSAndrew Turner		return 1;
29ce0a2aSAndrew Turner	}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	if (update_vsp) {
29ce0a2aSAndrew Turner		state->registers[SP] = (uint32_t)vsp;
29ce0a2aSAndrew Turner	}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner#if 0
29ce0a2aSAndrew Turner	db_printf("fp = %08x, sp = %08x, lr = %08x, pc = %08x\n",
29ce0a2aSAndrew Turner	    state->registers[FP], state->registers[SP], state->registers[LR],
29ce0a2aSAndrew Turner	    state->registers[PC]);
29ce0a2aSAndrew Turner#endif
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	return 0;
29ce0a2aSAndrew Turner}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner/* Performs the unwind of a function */
29ce0a2aSAndrew Turnerstatic int
29ce0a2aSAndrew Turnerdb_unwind_tab(struct unwind_state *state)
29ce0a2aSAndrew Turner{
29ce0a2aSAndrew Turner	uint32_t entry;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	/* Set PC to a known value */
29ce0a2aSAndrew Turner	state->registers[PC] = 0;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	/* Read the personality */
29ce0a2aSAndrew Turner	entry = *state->insn & ENTRY_MASK;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	if (entry == ENTRY_ARM_SU16) {
29ce0a2aSAndrew Turner		state->byte = 2;
29ce0a2aSAndrew Turner		state->entries = 1;
29ce0a2aSAndrew Turner	} else if (entry == ENTRY_ARM_LU16) {
29ce0a2aSAndrew Turner		state->byte = 1;
29ce0a2aSAndrew Turner		state->entries = ((*state->insn >> 16) & 0xFF) + 1;
29ce0a2aSAndrew Turner	} else {
29ce0a2aSAndrew Turner		db_printf("Unknown entry: %x\n", entry);
29ce0a2aSAndrew Turner		return 1;
29ce0a2aSAndrew Turner	}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	while (state->entries > 0) {
29ce0a2aSAndrew Turner		if (db_unwind_exec_insn(state) != 0)
29ce0a2aSAndrew Turner			return 1;
29ce0a2aSAndrew Turner	}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	/*
29ce0a2aSAndrew Turner	 * The program counter was not updated, load it from the link register.
29ce0a2aSAndrew Turner	 */
29ce0a2aSAndrew Turner	if (state->registers[PC] == 0)
29ce0a2aSAndrew Turner		state->registers[PC] = state->registers[LR];
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	return 0;
29ce0a2aSAndrew Turner}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turnerstatic void
29ce0a2aSAndrew Turnerdb_stack_trace_cmd(struct unwind_state *state)
29ce0a2aSAndrew Turner{
29ce0a2aSAndrew Turner	struct unwind_idx *index;
29ce0a2aSAndrew Turner	const char *name;
29ce0a2aSAndrew Turner	db_expr_t value;
29ce0a2aSAndrew Turner	db_expr_t offset;
29ce0a2aSAndrew Turner	c_db_sym_t sym;
29ce0a2aSAndrew Turner	u_int reg, i;
29ce0a2aSAndrew Turner	char *sep;
abf29ad1SIan Lepore	uint16_t upd_mask;
abf29ad1SIan Lepore	bool finished;
29ce0a2aSAndrew Turner
abf29ad1SIan Lepore	finished = false;
abf29ad1SIan Lepore	while (!finished) {
29ce0a2aSAndrew Turner		/* Reset the mask of updated registers */
29ce0a2aSAndrew Turner		state->update_mask = 0;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* The pc value is correct and will be overwritten, save it */
29ce0a2aSAndrew Turner		state->start_pc = state->registers[PC];
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Find the item to run */
29ce0a2aSAndrew Turner		index = db_find_index(state->start_pc);
29ce0a2aSAndrew Turner
abf29ad1SIan Lepore		if (index->insn != EXIDX_CANTUNWIND) {
abf29ad1SIan Lepore			if (index->insn & (1 << 31)) {
29ce0a2aSAndrew Turner				/* The data is within the instruction */
29ce0a2aSAndrew Turner				state->insn = &index->insn;
29ce0a2aSAndrew Turner			} else {
abf29ad1SIan Lepore				/* A prel31 offset to the unwind table */
abf29ad1SIan Lepore				state->insn = (uint32_t *)
abf29ad1SIan Lepore				    ((uintptr_t)&index->insn +
abf29ad1SIan Lepore				     db_expand_prel31(index->insn));
29ce0a2aSAndrew Turner			}
29ce0a2aSAndrew Turner			/* Run the unwind function */
abf29ad1SIan Lepore			finished = db_unwind_tab(state);
abf29ad1SIan Lepore		}
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Print the frame details */
29ce0a2aSAndrew Turner		sym = db_search_symbol(state->start_pc, DB_STGY_ANY, &offset);
29ce0a2aSAndrew Turner		if (sym == C_DB_SYM_NULL) {
29ce0a2aSAndrew Turner			value = 0;
29ce0a2aSAndrew Turner			name = "(null)";
29ce0a2aSAndrew Turner		} else
29ce0a2aSAndrew Turner			db_symbol_values(sym, &name, &value);
29ce0a2aSAndrew Turner		db_printf("%s() at ", name);
29ce0a2aSAndrew Turner		db_printsym(state->start_pc, DB_STGY_PROC);
29ce0a2aSAndrew Turner		db_printf("\n");
29ce0a2aSAndrew Turner		db_printf("\t pc = 0x%08x  lr = 0x%08x (", state->start_pc,
29ce0a2aSAndrew Turner		    state->registers[LR]);
29ce0a2aSAndrew Turner		db_printsym(state->registers[LR], DB_STGY_PROC);
29ce0a2aSAndrew Turner		db_printf(")\n");
29ce0a2aSAndrew Turner		db_printf("\t sp = 0x%08x  fp = 0x%08x",
29ce0a2aSAndrew Turner		    state->registers[SP], state->registers[FP]);
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		/* Don't print the registers we have already printed */
abf29ad1SIan Lepore		upd_mask = state->update_mask &
abf29ad1SIan Lepore		    ~((1 << SP) | (1 << FP) | (1 << LR) | (1 << PC));
29ce0a2aSAndrew Turner		sep = "\n\t";
abf29ad1SIan Lepore		for (i = 0, reg = 0; upd_mask != 0; upd_mask >>= 1, reg++) {
abf29ad1SIan Lepore			if ((upd_mask & 1) != 0) {
29ce0a2aSAndrew Turner				db_printf("%s%sr%d = 0x%08x", sep,
29ce0a2aSAndrew Turner				    (reg < 10) ? " " : "", reg,
29ce0a2aSAndrew Turner				    state->registers[reg]);
29ce0a2aSAndrew Turner				i++;
29ce0a2aSAndrew Turner				if (i == 2) {
29ce0a2aSAndrew Turner					sep = "\n\t";
29ce0a2aSAndrew Turner					i = 0;
29ce0a2aSAndrew Turner				} else
29ce0a2aSAndrew Turner					sep = " ";
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner			}
29ce0a2aSAndrew Turner		}
29ce0a2aSAndrew Turner		db_printf("\n");
abf29ad1SIan Lepore
*d0e8071aSIan Lepore		/*
*d0e8071aSIan Lepore		 * Stop if directed to do so, or if we've unwound back to the
abf29ad1SIan Lepore		 * kernel entry point, or if the unwind function didn't change
abf29ad1SIan Lepore		 * anything (to avoid getting stuck in this loop forever).
abf29ad1SIan Lepore		 * If the latter happens, it's an indication that the unwind
abf29ad1SIan Lepore		 * information is incorrect somehow for the function named in
abf29ad1SIan Lepore		 * the last frame printed before you see the unwind failure
abf29ad1SIan Lepore		 * message (maybe it needs a STOP_UNWINDING).
abf29ad1SIan Lepore		 */
abf29ad1SIan Lepore		if (index->insn == EXIDX_CANTUNWIND) {
abf29ad1SIan Lepore			db_printf("Unable to unwind further\n");
abf29ad1SIan Lepore			finished = true;
abf29ad1SIan Lepore		} else if (state->registers[PC] < VM_MIN_KERNEL_ADDRESS) {
abf29ad1SIan Lepore			db_printf("Unable to unwind into user mode\n");
abf29ad1SIan Lepore			finished = true;
abf29ad1SIan Lepore		} else if (state->update_mask == 0) {
abf29ad1SIan Lepore			db_printf("Unwind failure (no registers changed)\n");
abf29ad1SIan Lepore			finished = true;
abf29ad1SIan Lepore		}
29ce0a2aSAndrew Turner	}
29ce0a2aSAndrew Turner}
29ce0a2aSAndrew Turner#endif
29ce0a2aSAndrew Turner
6fc729afSOlivier Houchard/*
6fc729afSOlivier Houchard * APCS stack frames are awkward beasts, so I don't think even trying to use
6fc729afSOlivier Houchard * a structure to represent them is a good idea.
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard * Here's the diagram from the APCS.  Increasing address is _up_ the page.
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard *          save code pointer       [fp]        <- fp points to here
6fc729afSOlivier Houchard *          return link value       [fp, #-4]
6fc729afSOlivier Houchard *          return sp value         [fp, #-8]
6fc729afSOlivier Houchard *          return fp value         [fp, #-12]
6fc729afSOlivier Houchard *          [saved v7 value]
6fc729afSOlivier Houchard *          [saved v6 value]
6fc729afSOlivier Houchard *          [saved v5 value]
6fc729afSOlivier Houchard *          [saved v4 value]
6fc729afSOlivier Houchard *          [saved v3 value]
6fc729afSOlivier Houchard *          [saved v2 value]
6fc729afSOlivier Houchard *          [saved v1 value]
6fc729afSOlivier Houchard *          [saved a4 value]
6fc729afSOlivier Houchard *          [saved a3 value]
6fc729afSOlivier Houchard *          [saved a2 value]
6fc729afSOlivier Houchard *          [saved a1 value]
6fc729afSOlivier Houchard *
6fc729afSOlivier Houchard * The save code pointer points twelve bytes beyond the start of the
6fc729afSOlivier Houchard * code sequence (usually a single STM) that created the stack frame.
6fc729afSOlivier Houchard * We have to disassemble it if we want to know which of the optional
6fc729afSOlivier Houchard * fields are actually present.
6fc729afSOlivier Houchard */
6fc729afSOlivier Houchard
29ce0a2aSAndrew Turner#ifndef __ARM_EABI__	/* The frame format is differend in AAPCS */
fd32d93bSMarcel Moolenaarstatic void
0cdf4611SGrzegorz Bernackidb_stack_trace_cmd(db_expr_t addr, db_expr_t count, boolean_t kernel_only)
6fc729afSOlivier Houchard{
6fc729afSOlivier Houchard	u_int32_t	*frame, *lastframe;
6fc729afSOlivier Houchard	c_db_sym_t sym;
6fc729afSOlivier Houchard	const char *name;
6fc729afSOlivier Houchard	db_expr_t value;
6fc729afSOlivier Houchard	db_expr_t offset;
19e9205aSJohn Baldwin	int	scp_offset;
6fc729afSOlivier Houchard
b1ff74ebSOlivier Houchard	frame = (u_int32_t *)addr;
6fc729afSOlivier Houchard	lastframe = NULL;
6fc729afSOlivier Houchard	scp_offset = -(get_pc_str_offset() >> 2);
6fc729afSOlivier Houchard
19e9205aSJohn Baldwin	while (count-- && frame != NULL && !db_pager_quit) {
6fc729afSOlivier Houchard		db_addr_t	scp;
6fc729afSOlivier Houchard		u_int32_t	savecode;
6fc729afSOlivier Houchard		int		r;
6fc729afSOlivier Houchard		u_int32_t	*rp;
6fc729afSOlivier Houchard		const char	*sep;
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard		/*
6fc729afSOlivier Houchard		 * In theory, the SCP isn't guaranteed to be in the function
6fc729afSOlivier Houchard		 * that generated the stack frame.  We hope for the best.
6fc729afSOlivier Houchard		 */
6fc729afSOlivier Houchard		scp = frame[FR_SCP];
6fc729afSOlivier Houchard
282c3a65SOlivier Houchard		sym = db_search_symbol(scp, DB_STGY_ANY, &offset);
6fc729afSOlivier Houchard		if (sym == C_DB_SYM_NULL) {
6fc729afSOlivier Houchard			value = 0;
6fc729afSOlivier Houchard			name = "(null)";
6fc729afSOlivier Houchard		} else
6fc729afSOlivier Houchard			db_symbol_values(sym, &name, &value);
6fc729afSOlivier Houchard		db_printf("%s() at ", name);
282c3a65SOlivier Houchard		db_printsym(scp, DB_STGY_PROC);
6fc729afSOlivier Houchard		db_printf("\n");
6fc729afSOlivier Houchard#ifdef __PROG26
6fc729afSOlivier Houchard		db_printf("scp=0x%08x rlv=0x%08x (", scp, frame[FR_RLV] & R15_PC);
6fc729afSOlivier Houchard		db_printsym(frame[FR_RLV] & R15_PC, DB_STGY_PROC);
6fc729afSOlivier Houchard		db_printf(")\n");
6fc729afSOlivier Houchard#else
6fc729afSOlivier Houchard		db_printf("scp=0x%08x rlv=0x%08x (", scp, frame[FR_RLV]);
6fc729afSOlivier Houchard		db_printsym(frame[FR_RLV], DB_STGY_PROC);
6fc729afSOlivier Houchard		db_printf(")\n");
6fc729afSOlivier Houchard#endif
6fc729afSOlivier Houchard		db_printf("\trsp=0x%08x rfp=0x%08x", frame[FR_RSP], frame[FR_RFP]);
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard		savecode = ((u_int32_t *)scp)[scp_offset];
6fc729afSOlivier Houchard		if ((savecode & 0x0e100000) == 0x08000000) {
6fc729afSOlivier Houchard			/* Looks like an STM */
6fc729afSOlivier Houchard			rp = frame - 4;
6fc729afSOlivier Houchard			sep = "\n\t";
6fc729afSOlivier Houchard			for (r = 10; r >= 0; r--) {
6fc729afSOlivier Houchard				if (savecode & (1 << r)) {
6fc729afSOlivier Houchard					db_printf("%sr%d=0x%08x",
6fc729afSOlivier Houchard					    sep, r, *rp--);
6fc729afSOlivier Houchard					sep = (frame - rp) % 4 == 2 ?
6fc729afSOlivier Houchard					    "\n\t" : " ";
6fc729afSOlivier Houchard				}
6fc729afSOlivier Houchard			}
6fc729afSOlivier Houchard		}
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard		db_printf("\n");
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard		/*
6fc729afSOlivier Houchard		 * Switch to next frame up
6fc729afSOlivier Houchard		 */
6fc729afSOlivier Houchard		if (frame[FR_RFP] == 0)
6fc729afSOlivier Houchard			break; /* Top of stack */
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard		lastframe = frame;
6fc729afSOlivier Houchard		frame = (u_int32_t *)(frame[FR_RFP]);
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard		if (INKERNEL((int)frame)) {
6fc729afSOlivier Houchard			/* staying in kernel */
6fc729afSOlivier Houchard			if (frame <= lastframe) {
6fc729afSOlivier Houchard				db_printf("Bad frame pointer: %p\n", frame);
6fc729afSOlivier Houchard				break;
6fc729afSOlivier Houchard			}
6fc729afSOlivier Houchard		} else if (INKERNEL((int)lastframe)) {
6fc729afSOlivier Houchard			/* switch from user to kernel */
6fc729afSOlivier Houchard			if (kernel_only)
6fc729afSOlivier Houchard				break;	/* kernel stack only */
6fc729afSOlivier Houchard		} else {
6fc729afSOlivier Houchard			/* in user */
6fc729afSOlivier Houchard			if (frame <= lastframe) {
6fc729afSOlivier Houchard				db_printf("Bad user frame pointer: %p\n",
6fc729afSOlivier Houchard					  frame);
6fc729afSOlivier Houchard				break;
6fc729afSOlivier Houchard			}
6fc729afSOlivier Houchard		}
6fc729afSOlivier Houchard	}
6fc729afSOlivier Houchard}
29ce0a2aSAndrew Turner#endif
6fc729afSOlivier Houchard
6fc729afSOlivier Houchard/* XXX stubs */
6fc729afSOlivier Houchardvoid
6fc729afSOlivier Houcharddb_md_list_watchpoints()
6fc729afSOlivier Houchard{
6fc729afSOlivier Houchard}
6fc729afSOlivier Houchard
6fc729afSOlivier Houchardint
6fc729afSOlivier Houcharddb_md_clr_watchpoint(db_expr_t addr, db_expr_t size)
6fc729afSOlivier Houchard{
6fc729afSOlivier Houchard	return (0);
6fc729afSOlivier Houchard}
6fc729afSOlivier Houchard
6fc729afSOlivier Houchardint
6fc729afSOlivier Houcharddb_md_set_watchpoint(db_expr_t addr, db_expr_t size)
6fc729afSOlivier Houchard{
6fc729afSOlivier Houchard	return (0);
6fc729afSOlivier Houchard}
fd32d93bSMarcel Moolenaar
2f6d0d8fSOlivier Houchardint
2f6d0d8fSOlivier Houcharddb_trace_thread(struct thread *thr, int count)
6fc729afSOlivier Houchard{
29ce0a2aSAndrew Turner#ifdef __ARM_EABI__
29ce0a2aSAndrew Turner	struct unwind_state state;
29ce0a2aSAndrew Turner#endif
2ffa4420SMarcel Moolenaar	struct pcb *ctx;
6fc729afSOlivier Houchard
0cdf4611SGrzegorz Bernacki	if (thr != curthread) {
2ffa4420SMarcel Moolenaar		ctx = kdb_thr_ctx(thr);
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner#ifdef __ARM_EABI__
29ce0a2aSAndrew Turner		state.registers[FP] = ctx->un_32.pcb32_r11;
29ce0a2aSAndrew Turner		state.registers[SP] = ctx->un_32.pcb32_sp;
29ce0a2aSAndrew Turner		state.registers[LR] = ctx->un_32.pcb32_lr;
29ce0a2aSAndrew Turner		state.registers[PC] = ctx->un_32.pcb32_pc;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner		db_stack_trace_cmd(&state);
29ce0a2aSAndrew Turner#else
0cdf4611SGrzegorz Bernacki		db_stack_trace_cmd(ctx->un_32.pcb32_r11, -1, TRUE);
29ce0a2aSAndrew Turner#endif
0cdf4611SGrzegorz Bernacki	} else
0cdf4611SGrzegorz Bernacki		db_trace_self();
2f6d0d8fSOlivier Houchard	return (0);
2f6d0d8fSOlivier Houchard}
2f6d0d8fSOlivier Houchard
2f6d0d8fSOlivier Houchardvoid
2f6d0d8fSOlivier Houcharddb_trace_self(void)
2f6d0d8fSOlivier Houchard{
29ce0a2aSAndrew Turner#ifdef __ARM_EABI__
29ce0a2aSAndrew Turner	struct unwind_state state;
d80f56e1SAndrew Turner	uint32_t sp;
d80f56e1SAndrew Turner
d80f56e1SAndrew Turner	/* Read the stack pointer */
d80f56e1SAndrew Turner	__asm __volatile("mov %0, sp" : "=&r" (sp));
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	state.registers[FP] = (uint32_t)__builtin_frame_address(0);
d80f56e1SAndrew Turner	state.registers[SP] = sp;
29ce0a2aSAndrew Turner	state.registers[LR] = (uint32_t)__builtin_return_address(0);
29ce0a2aSAndrew Turner	state.registers[PC] = (uint32_t)db_trace_self;
29ce0a2aSAndrew Turner
29ce0a2aSAndrew Turner	db_stack_trace_cmd(&state);
29ce0a2aSAndrew Turner#else
faa7ba7aSMarcel Moolenaar	db_addr_t addr;
faa7ba7aSMarcel Moolenaar
88256118SMarcel Moolenaar	addr = (db_addr_t)__builtin_frame_address(0);
0cdf4611SGrzegorz Bernacki	db_stack_trace_cmd(addr, -1, FALSE);
29ce0a2aSAndrew Turner#endif
6fc729afSOlivier Houchard}