mirror of
https://sourceware.org/git/binutils-gdb.git
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a76d924dff
(COMMON_OBS): Add target-memory.o. * memattr.c (lookup_mem_region): Adjust handling for the top of memory. Improve comments. * remote.c (packet_check_result): New function, split out from packet_ok. Recognize "E." as an error prefix. (packet_ok): Use it. (remote_write_bytes_aux): New function, renamed from remote_write_bytes. Take packet header, packet format, and length flag as arguments. (remote_write_bytes): Rewrite to use remote_write_bytes_aux. (remote_send_printf, restore_remote_timeout) (remote_flash_timeout, remote_flash_erase, remote_flash_write) (remote_flash_done): New. (remote_xfer_partial): Handle flash writes. (init_remote_ops, init_remote_async_ops): Set to_flash_erase and to_flash_done. * symfile.c (struct load_section_data): Include a pointer to the cumulative stats and a request queue. Move most members to other types. (struct load_progress_data, struct load_progress_section_data): New types. (load_progress): Handle a NULL baton and zero bytes. Update for type changes. (load_section_callback): Create memory write requests instead of writing to memory. Don't print the progress message here. (clear_memory_write_data): New function. (generic_load): Use target_write_memory_blocks. * target-memory.c: New file. * target.c (update_current_target): Mention new uninherited methods. (memory_xfer_partial): Issue an error for flash writes. (target_flash_erase, target_flash_done): New functions. (target_write_with_progress): Call the progress callback at the start also. * target.h (enum target_object): Add TARGET_OBJECT_FLASH. (target_write_with_progress): Update comment. (struct target_ops): Add to_flash_erase and to_flash_done. (target_flash_erase, target_flash_done, struct memory_write_request) (memory_write_request_s, enum flash_preserve_mode) (target_write_memory_blocks): New, including a vector type for memory_write_request_s.
713 lines
17 KiB
C
713 lines
17 KiB
C
/* Memory attributes support, for GDB.
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Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006
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Free Software Foundation, Inc.
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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 2 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, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor,
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Boston, MA 02110-1301, USA. */
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#include "defs.h"
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#include "command.h"
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#include "gdbcmd.h"
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#include "memattr.h"
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#include "target.h"
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#include "value.h"
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#include "language.h"
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#include "vec.h"
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#include "gdb_string.h"
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const struct mem_attrib default_mem_attrib =
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{
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MEM_RW, /* mode */
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MEM_WIDTH_UNSPECIFIED,
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0, /* hwbreak */
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0, /* cache */
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0, /* verify */
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-1 /* Flash blocksize not specified. */
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};
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VEC(mem_region_s) *mem_region_list, *target_mem_region_list;
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static int mem_number = 0;
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/* If this flag is set, the memory region list should be automatically
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updated from the target. If it is clear, the list is user-controlled
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and should be left alone. */
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static int mem_use_target = 1;
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/* If this flag is set, we have tried to fetch the target memory regions
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since the last time it was invalidated. If that list is still
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empty, then the target can't supply memory regions. */
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static int target_mem_regions_valid;
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/* Predicate function which returns true if LHS should sort before RHS
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in a list of memory regions, useful for VEC_lower_bound. */
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static int
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mem_region_lessthan (const struct mem_region *lhs,
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const struct mem_region *rhs)
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{
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return lhs->lo < rhs->lo;
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}
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/* A helper function suitable for qsort, used to sort a
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VEC(mem_region_s) by starting address. */
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int
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mem_region_cmp (const void *untyped_lhs, const void *untyped_rhs)
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{
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const struct mem_region *lhs = untyped_lhs;
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const struct mem_region *rhs = untyped_rhs;
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if (lhs->lo < rhs->lo)
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return -1;
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else if (lhs->lo == rhs->lo)
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return 0;
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else
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return 1;
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}
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/* Allocate a new memory region, with default settings. */
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void
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mem_region_init (struct mem_region *new)
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{
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memset (new, 0, sizeof (struct mem_region));
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new->enabled_p = 1;
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new->attrib = default_mem_attrib;
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}
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/* This function should be called before any command which would
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modify the memory region list. It will handle switching from
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a target-provided list to a local list, if necessary. */
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static void
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require_user_regions (int from_tty)
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{
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struct mem_region *m;
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int ix, length;
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/* If we're already using a user-provided list, nothing to do. */
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if (!mem_use_target)
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return;
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/* Switch to a user-provided list (possibly a copy of the current
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one). */
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mem_use_target = 0;
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/* If we don't have a target-provided region list yet, then
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no need to warn. */
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if (mem_region_list == NULL)
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return;
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/* Otherwise, let the user know how to get back. */
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if (from_tty)
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warning (_("Switching to manual control of memory regions; use "
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"\"mem auto\" to fetch regions from the target again."));
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/* And create a new list for the user to modify. */
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length = VEC_length (mem_region_s, target_mem_region_list);
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mem_region_list = VEC_alloc (mem_region_s, length);
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for (ix = 0; VEC_iterate (mem_region_s, target_mem_region_list, ix, m); ix++)
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VEC_quick_push (mem_region_s, mem_region_list, m);
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}
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/* This function should be called before any command which would
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read the memory region list, other than those which call
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require_user_regions. It will handle fetching the
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target-provided list, if necessary. */
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static void
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require_target_regions (void)
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{
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if (mem_use_target && !target_mem_regions_valid)
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{
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target_mem_regions_valid = 1;
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target_mem_region_list = target_memory_map ();
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mem_region_list = target_mem_region_list;
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}
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}
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static void
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create_mem_region (CORE_ADDR lo, CORE_ADDR hi,
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const struct mem_attrib *attrib)
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{
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struct mem_region new;
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int i, ix;
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/* lo == hi is a useless empty region */
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if (lo >= hi && hi != 0)
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{
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printf_unfiltered (_("invalid memory region: low >= high\n"));
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return;
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}
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mem_region_init (&new);
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new.lo = lo;
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new.hi = hi;
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ix = VEC_lower_bound (mem_region_s, mem_region_list, &new,
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mem_region_lessthan);
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/* Check for an overlapping memory region. We only need to check
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in the vicinity - at most one before and one after the
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insertion point. */
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for (i = ix - 1; i < ix + 1; i++)
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{
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struct mem_region *n;
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if (i < 0)
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continue;
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if (i >= VEC_length (mem_region_s, mem_region_list))
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continue;
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n = VEC_index (mem_region_s, mem_region_list, i);
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if ((lo >= n->lo && (lo < n->hi || n->hi == 0))
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|| (hi > n->lo && (hi <= n->hi || n->hi == 0))
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|| (lo <= n->lo && (hi >= n->hi || hi == 0)))
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{
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printf_unfiltered (_("overlapping memory region\n"));
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return;
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}
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}
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new.number = ++mem_number;
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new.attrib = *attrib;
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VEC_safe_insert (mem_region_s, mem_region_list, ix, &new);
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}
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/*
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* Look up the memory region cooresponding to ADDR.
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*/
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struct mem_region *
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lookup_mem_region (CORE_ADDR addr)
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{
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static struct mem_region region;
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struct mem_region *m;
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CORE_ADDR lo;
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CORE_ADDR hi;
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int ix;
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require_target_regions ();
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/* First we initialize LO and HI so that they describe the entire
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memory space. As we process the memory region chain, they are
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redefined to describe the minimal region containing ADDR. LO
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and HI are used in the case where no memory region is defined
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that contains ADDR. If a memory region is disabled, it is
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treated as if it does not exist. The initial values for LO
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and HI represent the bottom and top of memory. */
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lo = 0;
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hi = 0;
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/* If we ever want to support a huge list of memory regions, this
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check should be replaced with a binary search (probably using
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VEC_lower_bound). */
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for (ix = 0; VEC_iterate (mem_region_s, mem_region_list, ix, m); ix++)
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{
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if (m->enabled_p == 1)
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{
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if (addr >= m->lo && (addr < m->hi || m->hi == 0))
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return m;
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/* This (correctly) won't match if m->hi == 0, representing
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the top of the address space, because CORE_ADDR is unsigned;
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no value of LO is less than zero. */
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if (addr >= m->hi && lo < m->hi)
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lo = m->hi;
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/* This will never set HI to zero; if we're here and ADDR
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is at or below M, and the region starts at zero, then ADDR
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would have been in the region. */
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if (addr <= m->lo && (hi == 0 || hi > m->lo))
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hi = m->lo;
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}
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}
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/* Because no region was found, we must cons up one based on what
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was learned above. */
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region.lo = lo;
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region.hi = hi;
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region.attrib = default_mem_attrib;
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return ®ion;
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}
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/* Invalidate any memory regions fetched from the target. */
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void
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invalidate_target_mem_regions (void)
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{
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struct mem_region *m;
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int ix;
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if (!target_mem_regions_valid)
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return;
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target_mem_regions_valid = 0;
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VEC_free (mem_region_s, target_mem_region_list);
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if (mem_use_target)
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mem_region_list = NULL;
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}
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/* Clear memory region list */
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static void
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mem_clear (void)
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{
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VEC_free (mem_region_s, mem_region_list);
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}
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static void
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mem_command (char *args, int from_tty)
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{
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CORE_ADDR lo, hi;
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char *tok;
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struct mem_attrib attrib;
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if (!args)
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error_no_arg (_("No mem"));
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/* For "mem auto", switch back to using a target provided list. */
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if (strcmp (args, "auto") == 0)
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{
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if (mem_use_target)
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return;
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if (mem_region_list != target_mem_region_list)
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{
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mem_clear ();
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mem_region_list = target_mem_region_list;
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}
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mem_use_target = 1;
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return;
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}
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require_user_regions (from_tty);
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tok = strtok (args, " \t");
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if (!tok)
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error (_("no lo address"));
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lo = parse_and_eval_address (tok);
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tok = strtok (NULL, " \t");
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if (!tok)
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error (_("no hi address"));
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hi = parse_and_eval_address (tok);
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attrib = default_mem_attrib;
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while ((tok = strtok (NULL, " \t")) != NULL)
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{
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if (strcmp (tok, "rw") == 0)
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attrib.mode = MEM_RW;
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else if (strcmp (tok, "ro") == 0)
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attrib.mode = MEM_RO;
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else if (strcmp (tok, "wo") == 0)
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attrib.mode = MEM_WO;
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else if (strcmp (tok, "8") == 0)
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attrib.width = MEM_WIDTH_8;
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else if (strcmp (tok, "16") == 0)
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{
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if ((lo % 2 != 0) || (hi % 2 != 0))
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error (_("region bounds not 16 bit aligned"));
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attrib.width = MEM_WIDTH_16;
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}
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else if (strcmp (tok, "32") == 0)
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{
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if ((lo % 4 != 0) || (hi % 4 != 0))
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error (_("region bounds not 32 bit aligned"));
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attrib.width = MEM_WIDTH_32;
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}
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else if (strcmp (tok, "64") == 0)
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{
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if ((lo % 8 != 0) || (hi % 8 != 0))
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error (_("region bounds not 64 bit aligned"));
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attrib.width = MEM_WIDTH_64;
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}
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#if 0
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else if (strcmp (tok, "hwbreak") == 0)
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attrib.hwbreak = 1;
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else if (strcmp (tok, "swbreak") == 0)
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attrib.hwbreak = 0;
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#endif
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else if (strcmp (tok, "cache") == 0)
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attrib.cache = 1;
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else if (strcmp (tok, "nocache") == 0)
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attrib.cache = 0;
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#if 0
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else if (strcmp (tok, "verify") == 0)
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attrib.verify = 1;
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else if (strcmp (tok, "noverify") == 0)
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attrib.verify = 0;
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#endif
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else
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error (_("unknown attribute: %s"), tok);
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}
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create_mem_region (lo, hi, &attrib);
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}
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static void
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mem_info_command (char *args, int from_tty)
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{
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struct mem_region *m;
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struct mem_attrib *attrib;
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int ix;
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if (mem_use_target)
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printf_filtered (_("Using memory regions provided by the target.\n"));
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else
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printf_filtered (_("Using user-defined memory regions.\n"));
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require_target_regions ();
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if (!mem_region_list)
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{
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printf_unfiltered (_("There are no memory regions defined.\n"));
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return;
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}
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printf_filtered ("Num ");
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printf_filtered ("Enb ");
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printf_filtered ("Low Addr ");
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if (TARGET_ADDR_BIT > 32)
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printf_filtered (" ");
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printf_filtered ("High Addr ");
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if (TARGET_ADDR_BIT > 32)
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printf_filtered (" ");
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printf_filtered ("Attrs ");
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printf_filtered ("\n");
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for (ix = 0; VEC_iterate (mem_region_s, mem_region_list, ix, m); ix++)
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{
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char *tmp;
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printf_filtered ("%-3d %-3c\t",
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m->number,
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m->enabled_p ? 'y' : 'n');
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if (TARGET_ADDR_BIT <= 32)
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tmp = hex_string_custom ((unsigned long) m->lo, 8);
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else
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tmp = hex_string_custom ((unsigned long) m->lo, 16);
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printf_filtered ("%s ", tmp);
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if (TARGET_ADDR_BIT <= 32)
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{
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if (m->hi == 0)
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tmp = "0x100000000";
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else
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tmp = hex_string_custom ((unsigned long) m->hi, 8);
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}
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else
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{
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if (m->hi == 0)
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tmp = "0x10000000000000000";
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else
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tmp = hex_string_custom ((unsigned long) m->hi, 16);
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}
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printf_filtered ("%s ", tmp);
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/* Print a token for each attribute.
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* FIXME: Should we output a comma after each token? It may
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* make it easier for users to read, but we'd lose the ability
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* to cut-and-paste the list of attributes when defining a new
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* region. Perhaps that is not important.
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*
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* FIXME: If more attributes are added to GDB, the output may
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* become cluttered and difficult for users to read. At that
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* time, we may want to consider printing tokens only if they
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* are different from the default attribute. */
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attrib = &m->attrib;
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switch (attrib->mode)
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{
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case MEM_RW:
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printf_filtered ("rw ");
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break;
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case MEM_RO:
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printf_filtered ("ro ");
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break;
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case MEM_WO:
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printf_filtered ("wo ");
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break;
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case MEM_FLASH:
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printf_filtered ("flash blocksize 0x%x ", attrib->blocksize);
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break;
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}
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switch (attrib->width)
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{
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case MEM_WIDTH_8:
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printf_filtered ("8 ");
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break;
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case MEM_WIDTH_16:
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printf_filtered ("16 ");
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break;
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case MEM_WIDTH_32:
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printf_filtered ("32 ");
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break;
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case MEM_WIDTH_64:
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printf_filtered ("64 ");
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break;
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case MEM_WIDTH_UNSPECIFIED:
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break;
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}
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#if 0
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if (attrib->hwbreak)
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printf_filtered ("hwbreak");
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else
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printf_filtered ("swbreak");
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#endif
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if (attrib->cache)
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printf_filtered ("cache ");
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else
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printf_filtered ("nocache ");
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#if 0
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if (attrib->verify)
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printf_filtered ("verify ");
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else
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printf_filtered ("noverify ");
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#endif
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printf_filtered ("\n");
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gdb_flush (gdb_stdout);
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}
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}
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/* Enable the memory region number NUM. */
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static void
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mem_enable (int num)
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{
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struct mem_region *m;
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int ix;
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for (ix = 0; VEC_iterate (mem_region_s, mem_region_list, ix, m); ix++)
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if (m->number == num)
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{
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m->enabled_p = 1;
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return;
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}
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printf_unfiltered (_("No memory region number %d.\n"), num);
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}
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static void
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mem_enable_command (char *args, int from_tty)
|
||
{
|
||
char *p = args;
|
||
char *p1;
|
||
int num;
|
||
struct mem_region *m;
|
||
int ix;
|
||
|
||
require_user_regions (from_tty);
|
||
|
||
dcache_invalidate (target_dcache);
|
||
|
||
if (p == 0)
|
||
{
|
||
for (ix = 0; VEC_iterate (mem_region_s, mem_region_list, ix, m); ix++)
|
||
m->enabled_p = 1;
|
||
}
|
||
else
|
||
while (*p)
|
||
{
|
||
p1 = p;
|
||
while (*p1 >= '0' && *p1 <= '9')
|
||
p1++;
|
||
if (*p1 && *p1 != ' ' && *p1 != '\t')
|
||
error (_("Arguments must be memory region numbers."));
|
||
|
||
num = atoi (p);
|
||
mem_enable (num);
|
||
|
||
p = p1;
|
||
while (*p == ' ' || *p == '\t')
|
||
p++;
|
||
}
|
||
}
|
||
|
||
|
||
/* Disable the memory region number NUM. */
|
||
|
||
static void
|
||
mem_disable (int num)
|
||
{
|
||
struct mem_region *m;
|
||
int ix;
|
||
|
||
for (ix = 0; VEC_iterate (mem_region_s, mem_region_list, ix, m); ix++)
|
||
if (m->number == num)
|
||
{
|
||
m->enabled_p = 0;
|
||
return;
|
||
}
|
||
printf_unfiltered (_("No memory region number %d.\n"), num);
|
||
}
|
||
|
||
static void
|
||
mem_disable_command (char *args, int from_tty)
|
||
{
|
||
char *p = args;
|
||
char *p1;
|
||
int num;
|
||
struct mem_region *m;
|
||
int ix;
|
||
|
||
require_user_regions (from_tty);
|
||
|
||
dcache_invalidate (target_dcache);
|
||
|
||
if (p == 0)
|
||
{
|
||
for (ix = 0; VEC_iterate (mem_region_s, mem_region_list, ix, m); ix++)
|
||
m->enabled_p = 0;
|
||
}
|
||
else
|
||
while (*p)
|
||
{
|
||
p1 = p;
|
||
while (*p1 >= '0' && *p1 <= '9')
|
||
p1++;
|
||
if (*p1 && *p1 != ' ' && *p1 != '\t')
|
||
error (_("Arguments must be memory region numbers."));
|
||
|
||
num = atoi (p);
|
||
mem_disable (num);
|
||
|
||
p = p1;
|
||
while (*p == ' ' || *p == '\t')
|
||
p++;
|
||
}
|
||
}
|
||
|
||
/* Delete the memory region number NUM. */
|
||
|
||
static void
|
||
mem_delete (int num)
|
||
{
|
||
struct mem_region *m1, *m;
|
||
int ix;
|
||
|
||
if (!mem_region_list)
|
||
{
|
||
printf_unfiltered (_("No memory region number %d.\n"), num);
|
||
return;
|
||
}
|
||
|
||
for (ix = 0; VEC_iterate (mem_region_s, mem_region_list, ix, m); ix++)
|
||
if (m->number == num)
|
||
break;
|
||
|
||
if (m == NULL)
|
||
{
|
||
printf_unfiltered (_("No memory region number %d.\n"), num);
|
||
return;
|
||
}
|
||
|
||
VEC_ordered_remove (mem_region_s, mem_region_list, ix);
|
||
}
|
||
|
||
static void
|
||
mem_delete_command (char *args, int from_tty)
|
||
{
|
||
char *p = args;
|
||
char *p1;
|
||
int num;
|
||
|
||
require_user_regions (from_tty);
|
||
|
||
dcache_invalidate (target_dcache);
|
||
|
||
if (p == 0)
|
||
{
|
||
if (query ("Delete all memory regions? "))
|
||
mem_clear ();
|
||
dont_repeat ();
|
||
return;
|
||
}
|
||
|
||
while (*p)
|
||
{
|
||
p1 = p;
|
||
while (*p1 >= '0' && *p1 <= '9')
|
||
p1++;
|
||
if (*p1 && *p1 != ' ' && *p1 != '\t')
|
||
error (_("Arguments must be memory region numbers."));
|
||
|
||
num = atoi (p);
|
||
mem_delete (num);
|
||
|
||
p = p1;
|
||
while (*p == ' ' || *p == '\t')
|
||
p++;
|
||
}
|
||
|
||
dont_repeat ();
|
||
}
|
||
|
||
extern initialize_file_ftype _initialize_mem; /* -Wmissing-prototype */
|
||
|
||
void
|
||
_initialize_mem (void)
|
||
{
|
||
add_com ("mem", class_vars, mem_command, _("\
|
||
Define attributes for memory region or reset memory region handling to\n\
|
||
target-based.\n\
|
||
Usage: mem auto\n\
|
||
mem <lo addr> <hi addr> [<mode> <width> <cache>], \n\
|
||
where <mode> may be rw (read/write), ro (read-only) or wo (write-only), \n\
|
||
<width> may be 8, 16, 32, or 64, and \n\
|
||
<cache> may be cache or nocache"));
|
||
|
||
add_cmd ("mem", class_vars, mem_enable_command, _("\
|
||
Enable memory region.\n\
|
||
Arguments are the code numbers of the memory regions to enable.\n\
|
||
Usage: enable mem <code number>\n\
|
||
Do \"info mem\" to see current list of code numbers."), &enablelist);
|
||
|
||
add_cmd ("mem", class_vars, mem_disable_command, _("\
|
||
Disable memory region.\n\
|
||
Arguments are the code numbers of the memory regions to disable.\n\
|
||
Usage: disable mem <code number>\n\
|
||
Do \"info mem\" to see current list of code numbers."), &disablelist);
|
||
|
||
add_cmd ("mem", class_vars, mem_delete_command, _("\
|
||
Delete memory region.\n\
|
||
Arguments are the code numbers of the memory regions to delete.\n\
|
||
Usage: delete mem <code number>\n\
|
||
Do \"info mem\" to see current list of code numbers."), &deletelist);
|
||
|
||
add_info ("mem", mem_info_command,
|
||
_("Memory region attributes"));
|
||
}
|