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433759f709
* scm-exp.c: White space. * scm-lang.c: White space. * scm-valprint.c: White space. * sentinel-frame.c: White space. * ser-base.c: White space. * ser-go32.c: White space. * serial.c: White space. * ser-mingw.c: White space. * ser-pipe.c: White space. * ser-tcp.c: White space. * ser-unix.c: White space. * solib.c: White space. * solib-darwin.c: White space. * solib-frv.c: White space. * solib-irix.c: White space. * solib-osf.c: White space. * solib-pa64.c: White space. * solib-som.c: White space. * solib-spu.c: White space. * solib-svr4.c: White space. * solib-target.c: White space. * source.c: White space. * stabsread.c: White space. * stack.c: White space. * std-regs.c: White space. * symfile.c: White space. * symmisc.c: White space. * symtab.c: White space.
762 lines
22 KiB
C
762 lines
22 KiB
C
/* Shared library support for IRIX.
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Copyright (C) 1993, 1994, 1995, 1996, 1998, 1999, 2000, 2001, 2002, 2004,
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2007, 2008, 2009, 2010 Free Software Foundation, Inc.
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This file was created using portions of irix5-nat.c originally
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contributed to GDB by Ian Lance Taylor.
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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 "defs.h"
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#include "symtab.h"
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#include "bfd.h"
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/* FIXME: ezannoni/2004-02-13 Verify that the include below is
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really needed. */
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#include "symfile.h"
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#include "objfiles.h"
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#include "gdbcore.h"
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#include "target.h"
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#include "inferior.h"
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#include "gdbthread.h"
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#include "solist.h"
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#include "solib.h"
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#include "solib-irix.h"
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/* Link map info to include in an allocate so_list entry. Unlike some
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of the other solib backends, this (Irix) backend chooses to decode
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the link map info obtained from the target and store it as (mostly)
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CORE_ADDRs which need no further decoding. This is more convenient
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because there are three different link map formats to worry about.
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We use a single routine (fetch_lm_info) to read (and decode) the target
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specific link map data. */
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struct lm_info
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{
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CORE_ADDR addr; /* address of obj_info or obj_list
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struct on target (from which the
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following information is obtained). */
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CORE_ADDR next; /* address of next item in list. */
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CORE_ADDR reloc_offset; /* amount to relocate by */
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CORE_ADDR pathname_addr; /* address of pathname */
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int pathname_len; /* length of pathname */
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};
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/* It's not desirable to use the system header files to obtain the
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structure of the obj_list or obj_info structs. Therefore, we use a
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platform neutral representation which has been derived from the IRIX
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header files. */
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typedef struct
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{
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gdb_byte b[4];
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}
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gdb_int32_bytes;
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typedef struct
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{
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gdb_byte b[8];
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}
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gdb_int64_bytes;
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/* The "old" obj_list struct. This is used with old (o32) binaries.
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The ``data'' member points at a much larger and more complicated
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struct which we will only refer to by offsets. See
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fetch_lm_info(). */
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struct irix_obj_list
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{
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gdb_int32_bytes data;
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gdb_int32_bytes next;
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gdb_int32_bytes prev;
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};
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/* The ELF32 and ELF64 versions of the above struct. The oi_magic value
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corresponds to the ``data'' value in the "old" struct. When this value
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is 0xffffffff, the data will be in one of the following formats. The
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``oi_size'' field is used to decide which one we actually have. */
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struct irix_elf32_obj_info
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{
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gdb_int32_bytes oi_magic;
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gdb_int32_bytes oi_size;
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gdb_int32_bytes oi_next;
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gdb_int32_bytes oi_prev;
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gdb_int32_bytes oi_ehdr;
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gdb_int32_bytes oi_orig_ehdr;
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gdb_int32_bytes oi_pathname;
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gdb_int32_bytes oi_pathname_len;
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};
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struct irix_elf64_obj_info
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{
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gdb_int32_bytes oi_magic;
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gdb_int32_bytes oi_size;
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gdb_int64_bytes oi_next;
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gdb_int64_bytes oi_prev;
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gdb_int64_bytes oi_ehdr;
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gdb_int64_bytes oi_orig_ehdr;
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gdb_int64_bytes oi_pathname;
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gdb_int32_bytes oi_pathname_len;
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gdb_int32_bytes padding;
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};
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/* Union of all of the above (plus a split out magic field). */
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union irix_obj_info
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{
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gdb_int32_bytes magic;
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struct irix_obj_list ol32;
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struct irix_elf32_obj_info oi32;
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struct irix_elf64_obj_info oi64;
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};
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/* MIPS sign extends its 32 bit addresses. We could conceivably use
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extract_typed_address here, but to do so, we'd have to construct an
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appropriate type. Calling extract_signed_integer seems simpler. */
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static CORE_ADDR
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extract_mips_address (void *addr, int len, enum bfd_endian byte_order)
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{
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return extract_signed_integer (addr, len, byte_order);
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}
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/* Fetch and return the link map data associated with ADDR. Note that
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this routine automatically determines which (of three) link map
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formats is in use by the target. */
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static struct lm_info
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fetch_lm_info (CORE_ADDR addr)
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{
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enum bfd_endian byte_order = gdbarch_byte_order (target_gdbarch);
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struct lm_info li;
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union irix_obj_info buf;
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li.addr = addr;
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/* The smallest region that we'll need is for buf.ol32. We'll read
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that first. We'll read more of the buffer later if we have to deal
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with one of the other cases. (We don't want to incur a memory error
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if we were to read a larger region that generates an error due to
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being at the end of a page or the like.) */
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read_memory (addr, (char *) &buf, sizeof (buf.ol32));
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if (extract_unsigned_integer (buf.magic.b, sizeof (buf.magic), byte_order)
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!= 0xffffffff)
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{
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/* Use buf.ol32... */
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char obj_buf[432];
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CORE_ADDR obj_addr = extract_mips_address (&buf.ol32.data,
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sizeof (buf.ol32.data),
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byte_order);
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li.next = extract_mips_address (&buf.ol32.next,
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sizeof (buf.ol32.next), byte_order);
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read_memory (obj_addr, obj_buf, sizeof (obj_buf));
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li.pathname_addr = extract_mips_address (&obj_buf[236], 4, byte_order);
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li.pathname_len = 0; /* unknown */
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li.reloc_offset = extract_mips_address (&obj_buf[196], 4, byte_order)
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- extract_mips_address (&obj_buf[248], 4, byte_order);
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}
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else if (extract_unsigned_integer (buf.oi32.oi_size.b,
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sizeof (buf.oi32.oi_size), byte_order)
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== sizeof (buf.oi32))
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{
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/* Use buf.oi32... */
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/* Read rest of buffer. */
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read_memory (addr + sizeof (buf.ol32),
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((char *) &buf) + sizeof (buf.ol32),
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sizeof (buf.oi32) - sizeof (buf.ol32));
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/* Fill in fields using buffer contents. */
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li.next = extract_mips_address (&buf.oi32.oi_next,
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sizeof (buf.oi32.oi_next), byte_order);
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li.reloc_offset = extract_mips_address (&buf.oi32.oi_ehdr,
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sizeof (buf.oi32.oi_ehdr),
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byte_order)
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- extract_mips_address (&buf.oi32.oi_orig_ehdr,
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sizeof (buf.oi32.oi_orig_ehdr), byte_order);
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li.pathname_addr = extract_mips_address (&buf.oi32.oi_pathname,
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sizeof (buf.oi32.oi_pathname),
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byte_order);
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li.pathname_len = extract_unsigned_integer (buf.oi32.oi_pathname_len.b,
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sizeof (buf.oi32.
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oi_pathname_len),
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byte_order);
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}
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else if (extract_unsigned_integer (buf.oi64.oi_size.b,
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sizeof (buf.oi64.oi_size), byte_order)
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== sizeof (buf.oi64))
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{
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/* Use buf.oi64... */
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/* Read rest of buffer. */
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read_memory (addr + sizeof (buf.ol32),
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((char *) &buf) + sizeof (buf.ol32),
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sizeof (buf.oi64) - sizeof (buf.ol32));
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/* Fill in fields using buffer contents. */
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li.next = extract_mips_address (&buf.oi64.oi_next,
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sizeof (buf.oi64.oi_next), byte_order);
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li.reloc_offset = extract_mips_address (&buf.oi64.oi_ehdr,
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sizeof (buf.oi64.oi_ehdr),
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byte_order)
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- extract_mips_address (&buf.oi64.oi_orig_ehdr,
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sizeof (buf.oi64.oi_orig_ehdr), byte_order);
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li.pathname_addr = extract_mips_address (&buf.oi64.oi_pathname,
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sizeof (buf.oi64.oi_pathname),
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byte_order);
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li.pathname_len = extract_unsigned_integer (buf.oi64.oi_pathname_len.b,
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sizeof (buf.oi64.
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oi_pathname_len),
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byte_order);
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}
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else
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{
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error (_("Unable to fetch shared library obj_info or obj_list info."));
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}
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return li;
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}
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/* The symbol which starts off the list of shared libraries. */
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#define DEBUG_BASE "__rld_obj_head"
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static void *base_breakpoint;
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static CORE_ADDR debug_base; /* Base of dynamic linker structures */
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/*
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LOCAL FUNCTION
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locate_base -- locate the base address of dynamic linker structs
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SYNOPSIS
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CORE_ADDR locate_base (void)
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DESCRIPTION
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For both the SunOS and SVR4 shared library implementations, if the
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inferior executable has been linked dynamically, there is a single
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address somewhere in the inferior's data space which is the key to
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locating all of the dynamic linker's runtime structures. This
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address is the value of the symbol defined by the macro DEBUG_BASE.
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The job of this function is to find and return that address, or to
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return 0 if there is no such address (the executable is statically
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linked for example).
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For SunOS, the job is almost trivial, since the dynamic linker and
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all of it's structures are statically linked to the executable at
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link time. Thus the symbol for the address we are looking for has
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already been added to the minimal symbol table for the executable's
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objfile at the time the symbol file's symbols were read, and all we
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have to do is look it up there. Note that we explicitly do NOT want
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to find the copies in the shared library.
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The SVR4 version is much more complicated because the dynamic linker
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and it's structures are located in the shared C library, which gets
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run as the executable's "interpreter" by the kernel. We have to go
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to a lot more work to discover the address of DEBUG_BASE. Because
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of this complexity, we cache the value we find and return that value
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on subsequent invocations. Note there is no copy in the executable
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symbol tables.
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Irix 5 is basically like SunOS.
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Note that we can assume nothing about the process state at the time
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we need to find this address. We may be stopped on the first instruc-
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tion of the interpreter (C shared library), the first instruction of
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the executable itself, or somewhere else entirely (if we attached
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to the process for example).
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*/
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static CORE_ADDR
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locate_base (void)
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{
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struct minimal_symbol *msymbol;
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CORE_ADDR address = 0;
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msymbol = lookup_minimal_symbol (DEBUG_BASE, NULL, symfile_objfile);
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if ((msymbol != NULL) && (SYMBOL_VALUE_ADDRESS (msymbol) != 0))
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{
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address = SYMBOL_VALUE_ADDRESS (msymbol);
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}
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return (address);
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}
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/*
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LOCAL FUNCTION
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disable_break -- remove the "mapping changed" breakpoint
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SYNOPSIS
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static int disable_break ()
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DESCRIPTION
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Removes the breakpoint that gets hit when the dynamic linker
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completes a mapping change.
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*/
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static int
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disable_break (void)
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{
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int status = 1;
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/* Note that breakpoint address and original contents are in our address
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space, so we just need to write the original contents back. */
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if (deprecated_remove_raw_breakpoint (target_gdbarch, base_breakpoint) != 0)
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{
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status = 0;
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}
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base_breakpoint = NULL;
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/* Note that it is possible that we have stopped at a location that
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is different from the location where we inserted our breakpoint.
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On mips-irix, we can actually land in __dbx_init(), so we should
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not check the PC against our breakpoint address here. See procfs.c
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for more details. */
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return (status);
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}
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/*
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LOCAL FUNCTION
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enable_break -- arrange for dynamic linker to hit breakpoint
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SYNOPSIS
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int enable_break (void)
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DESCRIPTION
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This functions inserts a breakpoint at the entry point of the
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main executable, where all shared libraries are mapped in.
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*/
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static int
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enable_break (void)
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{
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if (symfile_objfile != NULL && has_stack_frames ())
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{
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struct frame_info *frame = get_current_frame ();
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struct address_space *aspace = get_frame_address_space (frame);
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CORE_ADDR entry_point;
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if (!entry_point_address_query (&entry_point))
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return 0;
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base_breakpoint = deprecated_insert_raw_breakpoint (target_gdbarch,
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aspace, entry_point);
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if (base_breakpoint != NULL)
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return 1;
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}
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return 0;
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}
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/*
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LOCAL FUNCTION
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irix_solib_create_inferior_hook -- shared library startup support
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SYNOPSIS
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void solib_create_inferior_hook (int from_tty)
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DESCRIPTION
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When gdb starts up the inferior, it nurses it along (through the
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shell) until it is ready to execute it's first instruction. At this
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point, this function gets called via expansion of the macro
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SOLIB_CREATE_INFERIOR_HOOK.
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For SunOS executables, this first instruction is typically the
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one at "_start", or a similar text label, regardless of whether
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the executable is statically or dynamically linked. The runtime
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startup code takes care of dynamically linking in any shared
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libraries, once gdb allows the inferior to continue.
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For SVR4 executables, this first instruction is either the first
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instruction in the dynamic linker (for dynamically linked
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executables) or the instruction at "start" for statically linked
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executables. For dynamically linked executables, the system
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first exec's /lib/libc.so.N, which contains the dynamic linker,
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and starts it running. The dynamic linker maps in any needed
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shared libraries, maps in the actual user executable, and then
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jumps to "start" in the user executable.
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For both SunOS shared libraries, and SVR4 shared libraries, we
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can arrange to cooperate with the dynamic linker to discover the
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names of shared libraries that are dynamically linked, and the
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base addresses to which they are linked.
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This function is responsible for discovering those names and
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addresses, and saving sufficient information about them to allow
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their symbols to be read at a later time.
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FIXME
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Between enable_break() and disable_break(), this code does not
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properly handle hitting breakpoints which the user might have
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set in the startup code or in the dynamic linker itself. Proper
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handling will probably have to wait until the implementation is
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changed to use the "breakpoint handler function" method.
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Also, what if child has exit()ed? Must exit loop somehow.
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*/
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static void
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irix_solib_create_inferior_hook (int from_tty)
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{
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struct inferior *inf;
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struct thread_info *tp;
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inf = current_inferior ();
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/* If we are attaching to the inferior, the shared libraries
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have already been mapped, so nothing more to do. */
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if (inf->attach_flag)
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return;
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/* Likewise when debugging from a core file, the shared libraries
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have already been mapped, so nothing more to do. */
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if (!target_can_run (¤t_target))
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return;
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if (!enable_break ())
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{
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warning (_("shared library handler failed to enable breakpoint"));
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return;
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}
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/* Now run the target. It will eventually hit the breakpoint, at
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which point all of the libraries will have been mapped in and we
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can go groveling around in the dynamic linker structures to find
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out what we need to know about them. */
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tp = inferior_thread ();
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clear_proceed_status ();
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inf->stop_soon = STOP_QUIETLY;
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tp->stop_signal = TARGET_SIGNAL_0;
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do
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{
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target_resume (pid_to_ptid (-1), 0, tp->stop_signal);
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wait_for_inferior (0);
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}
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while (tp->stop_signal != TARGET_SIGNAL_TRAP);
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/* We are now either at the "mapping complete" breakpoint (or somewhere
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else, a condition we aren't prepared to deal with anyway), so adjust
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the PC as necessary after a breakpoint, disable the breakpoint, and
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add any shared libraries that were mapped in. */
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if (!disable_break ())
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{
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warning (_("shared library handler failed to disable breakpoint"));
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}
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/* solib_add will call reinit_frame_cache.
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But we are stopped in the startup code and we might not have symbols
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for the startup code, so heuristic_proc_start could be called
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and will put out an annoying warning.
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Delaying the resetting of stop_soon until after symbol loading
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suppresses the warning. */
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solib_add ((char *) 0, 0, (struct target_ops *) 0, auto_solib_add);
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inf->stop_soon = NO_STOP_QUIETLY;
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}
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/* LOCAL FUNCTION
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current_sos -- build a list of currently loaded shared objects
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SYNOPSIS
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struct so_list *current_sos ()
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DESCRIPTION
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Build a list of `struct so_list' objects describing the shared
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objects currently loaded in the inferior. This list does not
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include an entry for the main executable file.
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Note that we only gather information directly available from the
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inferior --- we don't examine any of the shared library files
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themselves. The declaration of `struct so_list' says which fields
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we provide values for. */
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static struct so_list *
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irix_current_sos (void)
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{
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enum bfd_endian byte_order = gdbarch_byte_order (target_gdbarch);
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int addr_size = gdbarch_addr_bit (target_gdbarch) / TARGET_CHAR_BIT;
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CORE_ADDR lma;
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char addr_buf[8];
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struct so_list *head = 0;
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struct so_list **link_ptr = &head;
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int is_first = 1;
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struct lm_info lm;
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/* Make sure we've looked up the inferior's dynamic linker's base
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structure. */
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if (!debug_base)
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{
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debug_base = locate_base ();
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/* If we can't find the dynamic linker's base structure, this
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must not be a dynamically linked executable. Hmm. */
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if (!debug_base)
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return 0;
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}
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read_memory (debug_base, addr_buf, addr_size);
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lma = extract_mips_address (addr_buf, addr_size, byte_order);
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while (lma)
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{
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lm = fetch_lm_info (lma);
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if (!is_first)
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{
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int errcode;
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char *name_buf;
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int name_size;
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struct so_list *new
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= (struct so_list *) xmalloc (sizeof (struct so_list));
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struct cleanup *old_chain = make_cleanup (xfree, new);
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memset (new, 0, sizeof (*new));
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new->lm_info = xmalloc (sizeof (struct lm_info));
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make_cleanup (xfree, new->lm_info);
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*new->lm_info = lm;
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/* Extract this shared object's name. */
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name_size = lm.pathname_len;
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if (name_size == 0)
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name_size = SO_NAME_MAX_PATH_SIZE - 1;
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if (name_size >= SO_NAME_MAX_PATH_SIZE)
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{
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name_size = SO_NAME_MAX_PATH_SIZE - 1;
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warning
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("current_sos: truncating name of %d characters to only %d characters",
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lm.pathname_len, name_size);
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}
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target_read_string (lm.pathname_addr, &name_buf,
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name_size, &errcode);
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if (errcode != 0)
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warning (_("Can't read pathname for load map: %s."),
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safe_strerror (errcode));
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else
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{
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strncpy (new->so_name, name_buf, name_size);
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new->so_name[name_size] = '\0';
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xfree (name_buf);
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strcpy (new->so_original_name, new->so_name);
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}
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new->next = 0;
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*link_ptr = new;
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link_ptr = &new->next;
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discard_cleanups (old_chain);
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}
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is_first = 0;
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lma = lm.next;
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}
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return head;
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}
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/*
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LOCAL FUNCTION
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irix_open_symbol_file_object
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SYNOPSIS
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void irix_open_symbol_file_object (void *from_tty)
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DESCRIPTION
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If no open symbol file, attempt to locate and open the main symbol
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file. On IRIX, this is the first link map entry. If its name is
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here, we can open it. Useful when attaching to a process without
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first loading its symbol file.
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If FROM_TTYP dereferences to a non-zero integer, allow messages to
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be printed. This parameter is a pointer rather than an int because
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open_symbol_file_object() is called via catch_errors() and
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catch_errors() requires a pointer argument. */
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static int
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irix_open_symbol_file_object (void *from_ttyp)
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{
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enum bfd_endian byte_order = gdbarch_byte_order (target_gdbarch);
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int addr_size = gdbarch_addr_bit (target_gdbarch) / TARGET_CHAR_BIT;
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CORE_ADDR lma;
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char addr_buf[8];
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struct lm_info lm;
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struct cleanup *cleanups;
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int errcode;
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int from_tty = *(int *) from_ttyp;
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char *filename;
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if (symfile_objfile)
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if (!query (_("Attempt to reload symbols from process? ")))
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return 0;
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if ((debug_base = locate_base ()) == 0)
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return 0; /* failed somehow... */
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/* First link map member should be the executable. */
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read_memory (debug_base, addr_buf, addr_size);
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lma = extract_mips_address (addr_buf, addr_size, byte_order);
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if (lma == 0)
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return 0; /* failed somehow... */
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lm = fetch_lm_info (lma);
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if (lm.pathname_addr == 0)
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return 0; /* No filename. */
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/* Now fetch the filename from target memory. */
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target_read_string (lm.pathname_addr, &filename, SO_NAME_MAX_PATH_SIZE - 1,
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&errcode);
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if (errcode)
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{
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warning (_("failed to read exec filename from attached file: %s"),
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safe_strerror (errcode));
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return 0;
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}
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cleanups = make_cleanup (xfree, filename);
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/* Have a pathname: read the symbol file. */
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symbol_file_add_main (filename, from_tty);
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do_cleanups (cleanups);
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return 1;
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}
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/*
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LOCAL FUNCTION
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irix_special_symbol_handling -- additional shared library symbol handling
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SYNOPSIS
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void irix_special_symbol_handling ()
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DESCRIPTION
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Once the symbols from a shared object have been loaded in the usual
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way, we are called to do any system specific symbol handling that
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is needed.
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For SunOS4, this consisted of grunging around in the dynamic
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linkers structures to find symbol definitions for "common" symbols
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and adding them to the minimal symbol table for the runtime common
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objfile.
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However, for IRIX, there's nothing to do.
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*/
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static void
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irix_special_symbol_handling (void)
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{
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}
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/* Using the solist entry SO, relocate the addresses in SEC. */
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static void
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irix_relocate_section_addresses (struct so_list *so,
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struct target_section *sec)
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{
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sec->addr += so->lm_info->reloc_offset;
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sec->endaddr += so->lm_info->reloc_offset;
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}
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/* Free the lm_info struct. */
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static void
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irix_free_so (struct so_list *so)
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{
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xfree (so->lm_info);
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}
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/* Clear backend specific state. */
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static void
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irix_clear_solib (void)
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{
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debug_base = 0;
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}
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/* Return 1 if PC lies in the dynamic symbol resolution code of the
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run time loader. */
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static int
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irix_in_dynsym_resolve_code (CORE_ADDR pc)
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{
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return 0;
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}
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struct target_so_ops irix_so_ops;
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/* Provide a prototype to silence -Wmissing-prototypes. */
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extern initialize_file_ftype _initialize_irix_solib;
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void
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_initialize_irix_solib (void)
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{
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irix_so_ops.relocate_section_addresses = irix_relocate_section_addresses;
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irix_so_ops.free_so = irix_free_so;
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irix_so_ops.clear_solib = irix_clear_solib;
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irix_so_ops.solib_create_inferior_hook = irix_solib_create_inferior_hook;
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irix_so_ops.special_symbol_handling = irix_special_symbol_handling;
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irix_so_ops.current_sos = irix_current_sos;
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irix_so_ops.open_symbol_file_object = irix_open_symbol_file_object;
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irix_so_ops.in_dynsym_resolve_code = irix_in_dynsym_resolve_code;
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irix_so_ops.bfd_open = solib_bfd_open;
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}
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