2015-11-24 09:47:59 +01:00
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/* interp.c -- AArch64 sim interface to GDB.
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2017-01-01 07:50:51 +01:00
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Copyright (C) 2015-2017 Free Software Foundation, Inc.
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2015-11-24 09:47:59 +01:00
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Contributed by Red Hat.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#include "config.h"
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#include <stdio.h>
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#include <assert.h>
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#include <signal.h>
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#include <string.h>
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#include <ctype.h>
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#include <stdlib.h>
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#include "ansidecl.h"
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2016-01-22 04:17:59 +01:00
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#include "bfd.h"
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2015-11-24 09:47:59 +01:00
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#include "gdb/callback.h"
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#include "gdb/remote-sim.h"
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#include "gdb/signals.h"
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#include "gdb/sim-aarch64.h"
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#include "sim-main.h"
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#include "sim-options.h"
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#include "memory.h"
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#include "simulator.h"
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/* Filter out (in place) symbols that are useless for disassembly.
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COUNT is the number of elements in SYMBOLS.
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Return the number of useful symbols. */
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2016-01-22 04:17:59 +01:00
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static long
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remove_useless_symbols (asymbol **symbols, long count)
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2015-11-24 09:47:59 +01:00
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{
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asymbol **in_ptr = symbols;
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asymbol **out_ptr = symbols;
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while (count-- > 0)
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{
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asymbol *sym = *in_ptr++;
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if (strstr (sym->name, "gcc2_compiled"))
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continue;
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if (sym->name == NULL || sym->name[0] == '\0')
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continue;
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if (sym->flags & (BSF_DEBUGGING))
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continue;
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if ( bfd_is_und_section (sym->section)
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|| bfd_is_com_section (sym->section))
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continue;
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if (sym->name[0] == '$')
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continue;
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*out_ptr++ = sym;
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}
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return out_ptr - symbols;
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}
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static signed int
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compare_symbols (const void *ap, const void *bp)
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{
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const asymbol *a = * (const asymbol **) ap;
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const asymbol *b = * (const asymbol **) bp;
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if (bfd_asymbol_value (a) > bfd_asymbol_value (b))
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return 1;
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if (bfd_asymbol_value (a) < bfd_asymbol_value (b))
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return -1;
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return 0;
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}
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/* Find the name of the function at ADDR. */
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const char *
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2016-01-22 04:17:59 +01:00
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aarch64_get_func (SIM_DESC sd, uint64_t addr)
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2015-11-24 09:47:59 +01:00
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{
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2016-01-22 04:17:59 +01:00
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long symcount = STATE_PROG_SYMS_COUNT (sd);
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asymbol **symtab = STATE_PROG_SYMS (sd);
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2015-11-24 09:47:59 +01:00
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int min, max;
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min = -1;
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max = symcount;
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while (min < max - 1)
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{
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int sym;
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bfd_vma sa;
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sym = (min + max) / 2;
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sa = bfd_asymbol_value (symtab[sym]);
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if (sa > addr)
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max = sym;
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else if (sa < addr)
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min = sym;
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else
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{
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min = sym;
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break;
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}
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}
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if (min != -1)
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return bfd_asymbol_name (symtab [min]);
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return "";
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}
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SIM_RC
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2016-01-03 07:51:44 +01:00
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sim_create_inferior (SIM_DESC sd, struct bfd *abfd,
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char * const *argv, char * const *env)
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2015-11-24 09:47:59 +01:00
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{
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sim_cpu *cpu = STATE_CPU (sd, 0);
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bfd_vma addr = 0;
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if (abfd != NULL)
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addr = bfd_get_start_address (abfd);
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aarch64_set_next_PC (cpu, addr);
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aarch64_update_PC (cpu);
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2015-12-26 13:05:41 +01:00
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/* Standalone mode (i.e. `run`) will take care of the argv for us in
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sim_open() -> sim_parse_args(). But in debug mode (i.e. 'target sim'
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with `gdb`), we need to handle it because the user can change the
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argv on the fly via gdb's 'run'. */
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if (STATE_PROG_ARGV (sd) != argv)
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2015-11-24 09:47:59 +01:00
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{
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freeargv (STATE_PROG_ARGV (sd));
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STATE_PROG_ARGV (sd) = dupargv (argv);
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}
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2016-01-22 04:17:59 +01:00
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if (trace_load_symbols (sd))
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2015-11-24 09:47:59 +01:00
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{
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2016-01-22 04:17:59 +01:00
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STATE_PROG_SYMS_COUNT (sd) =
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remove_useless_symbols (STATE_PROG_SYMS (sd),
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STATE_PROG_SYMS_COUNT (sd));
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qsort (STATE_PROG_SYMS (sd), STATE_PROG_SYMS_COUNT (sd),
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sizeof (asymbol *), compare_symbols);
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2015-11-24 09:47:59 +01:00
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}
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2016-08-11 16:04:40 +02:00
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aarch64_init (cpu, addr);
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2015-11-24 09:47:59 +01:00
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return SIM_RC_OK;
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}
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/* Read the LENGTH bytes at BUF as a little-endian value. */
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static bfd_vma
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get_le (unsigned char *buf, unsigned int length)
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{
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bfd_vma acc = 0;
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while (length -- > 0)
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acc = (acc << 8) + buf[length];
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return acc;
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}
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/* Store VAL as a little-endian value in the LENGTH bytes at BUF. */
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static void
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put_le (unsigned char *buf, unsigned int length, bfd_vma val)
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{
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int i;
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for (i = 0; i < length; i++)
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{
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buf[i] = val & 0xff;
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val >>= 8;
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}
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}
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static int
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check_regno (int regno)
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{
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return 0 <= regno && regno < AARCH64_MAX_REGNO;
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}
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static size_t
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reg_size (int regno)
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{
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if (regno == AARCH64_CPSR_REGNO || regno == AARCH64_FPSR_REGNO)
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return 32;
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return 64;
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}
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static int
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aarch64_reg_get (SIM_CPU *cpu, int regno, unsigned char *buf, int length)
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{
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size_t size;
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bfd_vma val;
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if (!check_regno (regno))
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return 0;
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size = reg_size (regno);
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if (length != size)
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return 0;
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switch (regno)
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{
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case AARCH64_MIN_GR ... AARCH64_MAX_GR:
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val = aarch64_get_reg_u64 (cpu, regno, 0);
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break;
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case AARCH64_MIN_FR ... AARCH64_MAX_FR:
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val = aarch64_get_FP_double (cpu, regno - 32);
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break;
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case AARCH64_PC_REGNO:
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val = aarch64_get_PC (cpu);
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break;
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case AARCH64_CPSR_REGNO:
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val = aarch64_get_CPSR (cpu);
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break;
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case AARCH64_FPSR_REGNO:
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val = aarch64_get_FPSR (cpu);
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break;
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default:
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sim_io_eprintf (CPU_STATE (cpu),
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"sim: unrecognized register number: %d\n", regno);
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return -1;
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}
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put_le (buf, length, val);
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return size;
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}
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static int
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aarch64_reg_set (SIM_CPU *cpu, int regno, unsigned char *buf, int length)
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{
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size_t size;
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bfd_vma val;
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if (!check_regno (regno))
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return -1;
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size = reg_size (regno);
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if (length != size)
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return -1;
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val = get_le (buf, length);
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switch (regno)
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{
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case AARCH64_MIN_GR ... AARCH64_MAX_GR:
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aarch64_set_reg_u64 (cpu, regno, 1, val);
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break;
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case AARCH64_MIN_FR ... AARCH64_MAX_FR:
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aarch64_set_FP_double (cpu, regno - 32, (double) val);
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break;
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case AARCH64_PC_REGNO:
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aarch64_set_next_PC (cpu, val);
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aarch64_update_PC (cpu);
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break;
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case AARCH64_CPSR_REGNO:
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aarch64_set_CPSR (cpu, val);
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break;
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case AARCH64_FPSR_REGNO:
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aarch64_set_FPSR (cpu, val);
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break;
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default:
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sim_io_eprintf (CPU_STATE (cpu),
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"sim: unrecognized register number: %d\n", regno);
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return 0;
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}
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return size;
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}
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static sim_cia
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aarch64_pc_get (sim_cpu *cpu)
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{
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return aarch64_get_PC (cpu);
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}
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static void
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aarch64_pc_set (sim_cpu *cpu, sim_cia pc)
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{
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aarch64_set_next_PC (cpu, pc);
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aarch64_update_PC (cpu);
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}
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static void
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free_state (SIM_DESC sd)
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{
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if (STATE_MODULES (sd) != NULL)
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sim_module_uninstall (sd);
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sim_cpu_free_all (sd);
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sim_state_free (sd);
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}
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SIM_DESC
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sim_open (SIM_OPEN_KIND kind,
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struct host_callback_struct * callback,
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struct bfd * abfd,
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2016-01-03 07:51:44 +01:00
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char * const * argv)
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2015-11-24 09:47:59 +01:00
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{
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sim_cpu *cpu;
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SIM_DESC sd = sim_state_alloc (kind, callback);
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if (sd == NULL)
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return sd;
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SIM_ASSERT (STATE_MAGIC (sd) == SIM_MAGIC_NUMBER);
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/* Perform the initialization steps one by one. */
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if (sim_cpu_alloc_all (sd, 1, 0) != SIM_RC_OK
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|| sim_pre_argv_init (sd, argv[0]) != SIM_RC_OK
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|| sim_parse_args (sd, argv) != SIM_RC_OK
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|| sim_analyze_program (sd,
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(STATE_PROG_ARGV (sd) != NULL
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? *STATE_PROG_ARGV (sd)
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: NULL), abfd) != SIM_RC_OK
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|| sim_config (sd) != SIM_RC_OK
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|| sim_post_argv_init (sd) != SIM_RC_OK)
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{
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free_state (sd);
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return NULL;
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}
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aarch64_init_LIT_table ();
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assert (MAX_NR_PROCESSORS == 1);
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cpu = STATE_CPU (sd, 0);
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CPU_PC_FETCH (cpu) = aarch64_pc_get;
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CPU_PC_STORE (cpu) = aarch64_pc_set;
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CPU_REG_FETCH (cpu) = aarch64_reg_get;
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CPU_REG_STORE (cpu) = aarch64_reg_set;
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/* Set SP, FP and PC to 0 and set LR to -1
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so we can detect a top-level return. */
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aarch64_set_reg_u64 (cpu, SP, 1, 0);
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aarch64_set_reg_u64 (cpu, FP, 1, 0);
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aarch64_set_reg_u64 (cpu, LR, 1, TOP_LEVEL_RETURN_PC);
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aarch64_set_next_PC (cpu, 0);
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aarch64_update_PC (cpu);
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/* Default to a 128 Mbyte (== 2^27) memory space. */
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sim_do_commandf (sd, "memory-size 0x8000000");
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return sd;
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}
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void
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sim_engine_run (SIM_DESC sd,
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int next_cpu_nr ATTRIBUTE_UNUSED,
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int nr_cpus ATTRIBUTE_UNUSED,
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int siggnal ATTRIBUTE_UNUSED)
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{
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aarch64_run (sd);
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}
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