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137b6849c6
* sparc-tdep.c (sparc_frame_saved_pc): Handle ucbsigvechandler.
664 lines
17 KiB
C
664 lines
17 KiB
C
/* Intel 386 target-dependent stuff.
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Copyright (C) 1988, 1989, 1991, 1994 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., 675 Mass Ave, Cambridge, MA 02139, USA. */
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#include "defs.h"
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#include "frame.h"
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#include "inferior.h"
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#include "gdbcore.h"
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#include "target.h"
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#include "floatformat.h"
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#include "symtab.h"
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static long
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i386_get_frame_setup PARAMS ((int));
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static void
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i386_follow_jump PARAMS ((void));
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static void
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codestream_read PARAMS ((unsigned char *, int));
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static void
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codestream_seek PARAMS ((int));
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static unsigned char
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codestream_fill PARAMS ((int));
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/* helper functions for tm-i386.h */
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/* Stdio style buffering was used to minimize calls to ptrace, but this
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buffering did not take into account that the code section being accessed
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may not be an even number of buffers long (even if the buffer is only
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sizeof(int) long). In cases where the code section size happened to
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be a non-integral number of buffers long, attempting to read the last
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buffer would fail. Simply using target_read_memory and ignoring errors,
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rather than read_memory, is not the correct solution, since legitimate
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access errors would then be totally ignored. To properly handle this
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situation and continue to use buffering would require that this code
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be able to determine the minimum code section size granularity (not the
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alignment of the section itself, since the actual failing case that
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pointed out this problem had a section alignment of 4 but was not a
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multiple of 4 bytes long), on a target by target basis, and then
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adjust it's buffer size accordingly. This is messy, but potentially
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feasible. It probably needs the bfd library's help and support. For
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now, the buffer size is set to 1. (FIXME -fnf) */
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#define CODESTREAM_BUFSIZ 1 /* Was sizeof(int), see note above. */
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static CORE_ADDR codestream_next_addr;
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static CORE_ADDR codestream_addr;
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static unsigned char codestream_buf[CODESTREAM_BUFSIZ];
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static int codestream_off;
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static int codestream_cnt;
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#define codestream_tell() (codestream_addr + codestream_off)
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#define codestream_peek() (codestream_cnt == 0 ? \
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codestream_fill(1): codestream_buf[codestream_off])
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#define codestream_get() (codestream_cnt-- == 0 ? \
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codestream_fill(0) : codestream_buf[codestream_off++])
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static unsigned char
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codestream_fill (peek_flag)
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int peek_flag;
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{
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codestream_addr = codestream_next_addr;
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codestream_next_addr += CODESTREAM_BUFSIZ;
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codestream_off = 0;
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codestream_cnt = CODESTREAM_BUFSIZ;
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read_memory (codestream_addr, (char *) codestream_buf, CODESTREAM_BUFSIZ);
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if (peek_flag)
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return (codestream_peek());
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else
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return (codestream_get());
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}
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static void
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codestream_seek (place)
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int place;
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{
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codestream_next_addr = place / CODESTREAM_BUFSIZ;
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codestream_next_addr *= CODESTREAM_BUFSIZ;
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codestream_cnt = 0;
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codestream_fill (1);
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while (codestream_tell() != place)
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codestream_get ();
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}
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static void
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codestream_read (buf, count)
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unsigned char *buf;
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int count;
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{
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unsigned char *p;
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int i;
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p = buf;
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for (i = 0; i < count; i++)
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*p++ = codestream_get ();
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}
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/* next instruction is a jump, move to target */
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static void
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i386_follow_jump ()
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{
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unsigned char buf[4];
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long delta;
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int data16;
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CORE_ADDR pos;
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pos = codestream_tell ();
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data16 = 0;
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if (codestream_peek () == 0x66)
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{
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codestream_get ();
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data16 = 1;
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}
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switch (codestream_get ())
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{
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case 0xe9:
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/* relative jump: if data16 == 0, disp32, else disp16 */
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if (data16)
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{
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codestream_read (buf, 2);
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delta = extract_signed_integer (buf, 2);
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/* include size of jmp inst (including the 0x66 prefix). */
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pos += delta + 4;
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}
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else
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{
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codestream_read (buf, 4);
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delta = extract_signed_integer (buf, 4);
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pos += delta + 5;
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}
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break;
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case 0xeb:
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/* relative jump, disp8 (ignore data16) */
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codestream_read (buf, 1);
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/* Sign-extend it. */
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delta = extract_signed_integer (buf, 1);
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pos += delta + 2;
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break;
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}
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codestream_seek (pos);
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}
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/*
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* find & return amound a local space allocated, and advance codestream to
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* first register push (if any)
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*
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* if entry sequence doesn't make sense, return -1, and leave
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* codestream pointer random
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*/
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static long
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i386_get_frame_setup (pc)
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int pc;
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{
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unsigned char op;
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codestream_seek (pc);
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i386_follow_jump ();
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op = codestream_get ();
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if (op == 0x58) /* popl %eax */
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{
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/*
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* this function must start with
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*
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* popl %eax 0x58
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* xchgl %eax, (%esp) 0x87 0x04 0x24
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* or xchgl %eax, 0(%esp) 0x87 0x44 0x24 0x00
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*
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* (the system 5 compiler puts out the second xchg
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* inst, and the assembler doesn't try to optimize it,
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* so the 'sib' form gets generated)
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*
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* this sequence is used to get the address of the return
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* buffer for a function that returns a structure
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*/
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int pos;
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unsigned char buf[4];
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static unsigned char proto1[3] = { 0x87,0x04,0x24 };
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static unsigned char proto2[4] = { 0x87,0x44,0x24,0x00 };
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pos = codestream_tell ();
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codestream_read (buf, 4);
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if (memcmp (buf, proto1, 3) == 0)
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pos += 3;
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else if (memcmp (buf, proto2, 4) == 0)
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pos += 4;
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codestream_seek (pos);
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op = codestream_get (); /* update next opcode */
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}
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if (op == 0x55) /* pushl %ebp */
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{
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/* check for movl %esp, %ebp - can be written two ways */
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switch (codestream_get ())
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{
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case 0x8b:
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if (codestream_get () != 0xec)
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return (-1);
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break;
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case 0x89:
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if (codestream_get () != 0xe5)
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return (-1);
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break;
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default:
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return (-1);
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}
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/* check for stack adjustment
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*
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* subl $XXX, %esp
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*
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* note: you can't subtract a 16 bit immediate
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* from a 32 bit reg, so we don't have to worry
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* about a data16 prefix
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*/
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op = codestream_peek ();
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if (op == 0x83)
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{
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/* subl with 8 bit immed */
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codestream_get ();
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if (codestream_get () != 0xec)
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/* Some instruction starting with 0x83 other than subl. */
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{
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codestream_seek (codestream_tell () - 2);
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return 0;
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}
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/* subl with signed byte immediate
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* (though it wouldn't make sense to be negative)
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*/
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return (codestream_get());
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}
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else if (op == 0x81)
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{
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char buf[4];
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/* Maybe it is subl with 32 bit immedediate. */
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codestream_get();
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if (codestream_get () != 0xec)
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/* Some instruction starting with 0x81 other than subl. */
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{
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codestream_seek (codestream_tell () - 2);
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return 0;
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}
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/* It is subl with 32 bit immediate. */
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codestream_read ((unsigned char *)buf, 4);
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return extract_signed_integer (buf, 4);
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}
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else
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{
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return (0);
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}
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}
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else if (op == 0xc8)
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{
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char buf[2];
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/* enter instruction: arg is 16 bit unsigned immed */
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codestream_read ((unsigned char *)buf, 2);
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codestream_get (); /* flush final byte of enter instruction */
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return extract_unsigned_integer (buf, 2);
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}
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return (-1);
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}
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/* Return number of args passed to a frame.
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Can return -1, meaning no way to tell. */
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int
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i386_frame_num_args (fi)
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struct frame_info *fi;
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{
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#if 1
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return -1;
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#else
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/* This loses because not only might the compiler not be popping the
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args right after the function call, it might be popping args from both
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this call and a previous one, and we would say there are more args
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than there really are. */
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int retpc;
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unsigned char op;
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struct frame_info *pfi;
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/* on the 386, the instruction following the call could be:
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popl %ecx - one arg
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addl $imm, %esp - imm/4 args; imm may be 8 or 32 bits
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anything else - zero args */
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int frameless;
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FRAMELESS_FUNCTION_INVOCATION (fi, frameless);
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if (frameless)
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/* In the absence of a frame pointer, GDB doesn't get correct values
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for nameless arguments. Return -1, so it doesn't print any
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nameless arguments. */
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return -1;
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pfi = get_prev_frame_info (fi);
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if (pfi == 0)
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{
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/* Note: this can happen if we are looking at the frame for
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main, because FRAME_CHAIN_VALID won't let us go into
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start. If we have debugging symbols, that's not really
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a big deal; it just means it will only show as many arguments
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to main as are declared. */
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return -1;
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}
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else
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{
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retpc = pfi->pc;
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op = read_memory_integer (retpc, 1);
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if (op == 0x59)
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/* pop %ecx */
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return 1;
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else if (op == 0x83)
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{
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op = read_memory_integer (retpc+1, 1);
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if (op == 0xc4)
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/* addl $<signed imm 8 bits>, %esp */
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return (read_memory_integer (retpc+2,1)&0xff)/4;
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else
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return 0;
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}
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else if (op == 0x81)
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{ /* add with 32 bit immediate */
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op = read_memory_integer (retpc+1, 1);
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if (op == 0xc4)
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/* addl $<imm 32>, %esp */
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return read_memory_integer (retpc+2, 4) / 4;
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else
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return 0;
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}
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else
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{
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return 0;
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}
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}
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#endif
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}
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/*
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* parse the first few instructions of the function to see
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* what registers were stored.
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*
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* We handle these cases:
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*
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* The startup sequence can be at the start of the function,
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* or the function can start with a branch to startup code at the end.
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*
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* %ebp can be set up with either the 'enter' instruction, or
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* 'pushl %ebp, movl %esp, %ebp' (enter is too slow to be useful,
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* but was once used in the sys5 compiler)
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*
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* Local space is allocated just below the saved %ebp by either the
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* 'enter' instruction, or by 'subl $<size>, %esp'. 'enter' has
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* a 16 bit unsigned argument for space to allocate, and the
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* 'addl' instruction could have either a signed byte, or
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* 32 bit immediate.
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*
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* Next, the registers used by this function are pushed. In
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* the sys5 compiler they will always be in the order: %edi, %esi, %ebx
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* (and sometimes a harmless bug causes it to also save but not restore %eax);
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* however, the code below is willing to see the pushes in any order,
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* and will handle up to 8 of them.
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*
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* If the setup sequence is at the end of the function, then the
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* next instruction will be a branch back to the start.
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*/
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void
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i386_frame_find_saved_regs (fip, fsrp)
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struct frame_info *fip;
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struct frame_saved_regs *fsrp;
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{
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long locals;
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unsigned char op;
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CORE_ADDR dummy_bottom;
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CORE_ADDR adr;
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int i;
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memset (fsrp, 0, sizeof *fsrp);
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/* if frame is the end of a dummy, compute where the
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* beginning would be
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*/
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dummy_bottom = fip->frame - 4 - REGISTER_BYTES - CALL_DUMMY_LENGTH;
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/* check if the PC is in the stack, in a dummy frame */
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if (dummy_bottom <= fip->pc && fip->pc <= fip->frame)
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{
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/* all regs were saved by push_call_dummy () */
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adr = fip->frame;
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for (i = 0; i < NUM_REGS; i++)
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{
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adr -= REGISTER_RAW_SIZE (i);
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fsrp->regs[i] = adr;
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}
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return;
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}
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locals = i386_get_frame_setup (get_pc_function_start (fip->pc));
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if (locals >= 0)
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{
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adr = fip->frame - 4 - locals;
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for (i = 0; i < 8; i++)
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{
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op = codestream_get ();
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if (op < 0x50 || op > 0x57)
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break;
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fsrp->regs[op - 0x50] = adr;
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adr -= 4;
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}
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}
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fsrp->regs[PC_REGNUM] = fip->frame + 4;
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fsrp->regs[FP_REGNUM] = fip->frame;
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}
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/* return pc of first real instruction */
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int
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i386_skip_prologue (pc)
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int pc;
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{
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unsigned char op;
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int i;
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static unsigned char pic_pat[6] = { 0xe8, 0, 0, 0, 0, /* call 0x0 */
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0x5b, /* popl %ebx */
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};
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CORE_ADDR pos;
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if (i386_get_frame_setup (pc) < 0)
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return (pc);
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/* found valid frame setup - codestream now points to
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* start of push instructions for saving registers
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*/
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/* skip over register saves */
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for (i = 0; i < 8; i++)
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{
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op = codestream_peek ();
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/* break if not pushl inst */
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if (op < 0x50 || op > 0x57)
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break;
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codestream_get ();
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}
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|
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/* The native cc on SVR4 in -K PIC mode inserts the following code to get
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the address of the global offset table (GOT) into register %ebx.
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call 0x0
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popl %ebx
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movl %ebx,x(%ebp) (optional)
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addl y,%ebx
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This code is with the rest of the prologue (at the end of the
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function), so we have to skip it to get to the first real
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instruction at the start of the function. */
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pos = codestream_tell ();
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for (i = 0; i < 6; i++)
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{
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op = codestream_get ();
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if (pic_pat [i] != op)
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break;
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}
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if (i == 6)
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{
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unsigned char buf[4];
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long delta = 6;
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op = codestream_get ();
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if (op == 0x89) /* movl %ebx, x(%ebp) */
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{
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op = codestream_get ();
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if (op == 0x5d) /* one byte offset from %ebp */
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{
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delta += 3;
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|
codestream_read (buf, 1);
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|
}
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|
else if (op == 0x9d) /* four byte offset from %ebp */
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{
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delta += 6;
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codestream_read (buf, 4);
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}
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else /* unexpected instruction */
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delta = -1;
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op = codestream_get ();
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}
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/* addl y,%ebx */
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if (delta > 0 && op == 0x81 && codestream_get () == 0xc3)
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{
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pos += delta + 6;
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}
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}
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codestream_seek (pos);
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i386_follow_jump ();
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return (codestream_tell ());
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}
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|
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void
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i386_push_dummy_frame ()
|
|
{
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|
CORE_ADDR sp = read_register (SP_REGNUM);
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int regnum;
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char regbuf[MAX_REGISTER_RAW_SIZE];
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sp = push_word (sp, read_register (PC_REGNUM));
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sp = push_word (sp, read_register (FP_REGNUM));
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write_register (FP_REGNUM, sp);
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|
for (regnum = 0; regnum < NUM_REGS; regnum++)
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{
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read_register_gen (regnum, regbuf);
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sp = push_bytes (sp, regbuf, REGISTER_RAW_SIZE (regnum));
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|
}
|
|
write_register (SP_REGNUM, sp);
|
|
}
|
|
|
|
void
|
|
i386_pop_frame ()
|
|
{
|
|
FRAME frame = get_current_frame ();
|
|
CORE_ADDR fp;
|
|
int regnum;
|
|
struct frame_saved_regs fsr;
|
|
struct frame_info *fi;
|
|
char regbuf[MAX_REGISTER_RAW_SIZE];
|
|
|
|
fi = get_frame_info (frame);
|
|
fp = fi->frame;
|
|
get_frame_saved_regs (fi, &fsr);
|
|
for (regnum = 0; regnum < NUM_REGS; regnum++)
|
|
{
|
|
CORE_ADDR adr;
|
|
adr = fsr.regs[regnum];
|
|
if (adr)
|
|
{
|
|
read_memory (adr, regbuf, REGISTER_RAW_SIZE (regnum));
|
|
write_register_bytes (REGISTER_BYTE (regnum), regbuf,
|
|
REGISTER_RAW_SIZE (regnum));
|
|
}
|
|
}
|
|
write_register (FP_REGNUM, read_memory_integer (fp, 4));
|
|
write_register (PC_REGNUM, read_memory_integer (fp + 4, 4));
|
|
write_register (SP_REGNUM, fp + 8);
|
|
flush_cached_frames ();
|
|
set_current_frame ( create_new_frame (read_register (FP_REGNUM),
|
|
read_pc ()));
|
|
}
|
|
|
|
#ifdef GET_LONGJMP_TARGET
|
|
|
|
/* Figure out where the longjmp will land. Slurp the args out of the stack.
|
|
We expect the first arg to be a pointer to the jmp_buf structure from which
|
|
we extract the pc (JB_PC) that we will land at. The pc is copied into PC.
|
|
This routine returns true on success. */
|
|
|
|
int
|
|
get_longjmp_target(pc)
|
|
CORE_ADDR *pc;
|
|
{
|
|
char buf[TARGET_PTR_BIT / TARGET_CHAR_BIT];
|
|
CORE_ADDR sp, jb_addr;
|
|
|
|
sp = read_register (SP_REGNUM);
|
|
|
|
if (target_read_memory (sp + SP_ARG0, /* Offset of first arg on stack */
|
|
buf,
|
|
TARGET_PTR_BIT / TARGET_CHAR_BIT))
|
|
return 0;
|
|
|
|
jb_addr = extract_address (buf, TARGET_PTR_BIT / TARGET_CHAR_BIT);
|
|
|
|
if (target_read_memory (jb_addr + JB_PC * JB_ELEMENT_SIZE, buf,
|
|
TARGET_PTR_BIT / TARGET_CHAR_BIT))
|
|
return 0;
|
|
|
|
*pc = extract_address (buf, TARGET_PTR_BIT / TARGET_CHAR_BIT);
|
|
|
|
return 1;
|
|
}
|
|
|
|
#endif /* GET_LONGJMP_TARGET */
|
|
|
|
#ifdef I386_AIX_TARGET
|
|
/* On AIX, floating point values are returned in floating point registers. */
|
|
|
|
void
|
|
i386_extract_return_value(type, regbuf, valbuf)
|
|
struct type *type;
|
|
char regbuf[REGISTER_BYTES];
|
|
char *valbuf;
|
|
{
|
|
if (TYPE_CODE_FLT == TYPE_CODE(type))
|
|
{
|
|
double d;
|
|
/* 387 %st(0), gcc uses this */
|
|
floatformat_to_double (&floatformat_i387_ext,
|
|
®buf[REGISTER_BYTE(FP0_REGNUM)],
|
|
&d);
|
|
store_floating (valbuf, TYPE_LENGTH (type), d);
|
|
}
|
|
else
|
|
{
|
|
memcpy (valbuf, regbuf, TYPE_LENGTH (type));
|
|
}
|
|
}
|
|
#endif /* I386_AIX_TARGET */
|
|
|
|
#ifdef I386V4_SIGTRAMP_SAVED_PC
|
|
/* Get saved user PC for sigtramp from the pushed ucontext on the stack
|
|
for all three variants of SVR4 sigtramps. */
|
|
|
|
CORE_ADDR
|
|
i386v4_sigtramp_saved_pc (frame)
|
|
FRAME frame;
|
|
{
|
|
CORE_ADDR saved_pc_offset = 4;
|
|
char *name = NULL;
|
|
|
|
find_pc_partial_function (frame->pc, &name,
|
|
(CORE_ADDR *)NULL,(CORE_ADDR *)NULL);
|
|
if (name)
|
|
{
|
|
if (STREQ (name, "_sigreturn"))
|
|
saved_pc_offset = 132 + 14 * 4;
|
|
else if (STREQ (name, "_sigacthandler"))
|
|
saved_pc_offset = 80 + 14 * 4;
|
|
else if (STREQ (name, "sigvechandler"))
|
|
saved_pc_offset = 120 + 14 * 4;
|
|
}
|
|
|
|
if (frame->next)
|
|
return read_memory_integer (frame->next->frame + saved_pc_offset, 4);
|
|
return read_memory_integer (read_register (SP_REGNUM) + saved_pc_offset, 4);
|
|
}
|
|
#endif /* I386V4_SIGTRAMP_SAVED_PC */
|