1278 lines
54 KiB
C
1278 lines
54 KiB
C
/* OBSOLETE /* Convex stuff for GDB. */
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/* OBSOLETE Copyright (C) 1990, 1991, 1996, 2000 Free Software Foundation, Inc. */
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/* OBSOLETE */
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/* OBSOLETE This file is part of GDB. */
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/* OBSOLETE */
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/* OBSOLETE This program is free software; you can redistribute it and/or modify */
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/* OBSOLETE it under the terms of the GNU General Public License as published by */
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/* OBSOLETE the Free Software Foundation; either version 2 of the License, or */
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/* OBSOLETE (at your option) any later version. */
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/* OBSOLETE */
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/* OBSOLETE This program is distributed in the hope that it will be useful, */
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/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
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/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
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/* OBSOLETE GNU General Public License for more details. */
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/* OBSOLETE */
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/* OBSOLETE You should have received a copy of the GNU General Public License */
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/* OBSOLETE along with this program; if not, write to the Free Software */
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/* OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *x/ */
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/* OBSOLETE */
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/* OBSOLETE #include "defs.h" */
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/* OBSOLETE #include "command.h" */
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/* OBSOLETE #include "symtab.h" */
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/* OBSOLETE #include "value.h" */
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/* OBSOLETE #include "frame.h" */
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/* OBSOLETE #include "inferior.h" */
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/* OBSOLETE #include "gdb_wait.h" */
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/* OBSOLETE */
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/* OBSOLETE #include <signal.h> */
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/* OBSOLETE #include <fcntl.h> */
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/* OBSOLETE */
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/* OBSOLETE #include "gdbcore.h" */
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/* OBSOLETE #include <sys/param.h> */
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/* OBSOLETE #include <sys/dir.h> */
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/* OBSOLETE #include <sys/user.h> */
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/* OBSOLETE #include <sys/ioctl.h> */
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/* OBSOLETE #include <sys/pcntl.h> */
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/* OBSOLETE #include <sys/thread.h> */
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/* OBSOLETE #include <sys/proc.h> */
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/* OBSOLETE #include <sys/file.h> */
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/* OBSOLETE #include "gdb_stat.h" */
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/* OBSOLETE #include <sys/mman.h> */
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/* OBSOLETE */
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/* OBSOLETE #include "gdbcmd.h" */
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/* OBSOLETE */
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/* OBSOLETE CORE_ADDR */
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/* OBSOLETE convex_skip_prologue (pc) */
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/* OBSOLETE CORE_ADDR pc; */
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/* OBSOLETE { */
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/* OBSOLETE int op, ix; */
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/* OBSOLETE op = read_memory_integer (pc, 2); */
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/* OBSOLETE if ((op & 0xffc7) == 0x5ac0) */
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/* OBSOLETE pc += 2; */
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/* OBSOLETE else if (op == 0x1580) */
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/* OBSOLETE pc += 4; */
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/* OBSOLETE else if (op == 0x15c0) */
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/* OBSOLETE pc += 6; */
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/* OBSOLETE if ((read_memory_integer (pc, 2) & 0xfff8) == 0x7c40 */
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/* OBSOLETE && (read_memory_integer (pc + 2, 2) & 0xfff8) == 0x1240 */
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/* OBSOLETE && (read_memory_integer (pc + 8, 2) & 0xfff8) == 0x7c48) */
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/* OBSOLETE pc += 10; */
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/* OBSOLETE if (read_memory_integer (pc, 2) == 0x1240) */
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/* OBSOLETE pc += 6; */
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/* OBSOLETE for (;;) */
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/* OBSOLETE { */
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/* OBSOLETE op = read_memory_integer (pc, 2); */
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/* OBSOLETE ix = (op >> 3) & 7; */
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/* OBSOLETE if (ix != 6) */
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/* OBSOLETE break; */
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/* OBSOLETE if ((op & 0xfcc0) == 0x3000) */
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/* OBSOLETE pc += 4; */
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/* OBSOLETE else if ((op & 0xfcc0) == 0x3040) */
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/* OBSOLETE pc += 6; */
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/* OBSOLETE else if ((op & 0xfcc0) == 0x2800) */
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/* OBSOLETE pc += 4; */
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/* OBSOLETE else if ((op & 0xfcc0) == 0x2840) */
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/* OBSOLETE pc += 6; */
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/* OBSOLETE else */
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/* OBSOLETE break; */
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/* OBSOLETE } */
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/* OBSOLETE return pc; */
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/* OBSOLETE } */
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/* OBSOLETE */
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/* OBSOLETE int */
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/* OBSOLETE convex_frameless_function_invocation (fi) */
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/* OBSOLETE struct frame_info *fi; */
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/* OBSOLETE { */
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/* OBSOLETE int frameless; */
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/* OBSOLETE extern CORE_ADDR text_start, text_end; */
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/* OBSOLETE CORE_ADDR call_addr = SAVED_PC_AFTER_CALL (FI); */
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/* OBSOLETE frameless = (call_addr >= text_start && call_addr < text_end */
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/* OBSOLETE && read_memory_integer (call_addr - 6, 1) == 0x22); */
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/* OBSOLETE return frameless; */
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/* OBSOLETE } */
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/* OBSOLETE */
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/* OBSOLETE int */
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/* OBSOLETE convex_frame_num_args (fi) */
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/* OBSOLETE struct frame_info *fi; */
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/* OBSOLETE { */
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/* OBSOLETE int numargs = read_memory_integer (FRAME_ARGS_ADDRESS (fi) - 4, 4); */
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/* OBSOLETE if (numargs < 0 || numargs >= 256) */
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/* OBSOLETE numargs = -1; */
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/* OBSOLETE return numargs; */
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/* OBSOLETE } */
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/* OBSOLETE */
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/* OBSOLETE exec_file_command (filename, from_tty) */
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/* OBSOLETE char *filename; */
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/* OBSOLETE int from_tty; */
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/* OBSOLETE { */
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/* OBSOLETE int val; */
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/* OBSOLETE int n; */
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/* OBSOLETE struct stat st_exec; */
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/* OBSOLETE */
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/* OBSOLETE /* Eliminate all traces of old exec file. */
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/* OBSOLETE Mark text segment as empty. *x/ */
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/* OBSOLETE */
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/* OBSOLETE if (execfile) */
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/* OBSOLETE free (execfile); */
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/* OBSOLETE execfile = 0; */
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/* OBSOLETE data_start = 0; */
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/* OBSOLETE data_end = 0; */
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/* OBSOLETE text_start = 0; */
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/* OBSOLETE text_end = 0; */
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/* OBSOLETE exec_data_start = 0; */
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/* OBSOLETE exec_data_end = 0; */
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/* OBSOLETE if (execchan >= 0) */
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/* OBSOLETE close (execchan); */
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/* OBSOLETE execchan = -1; */
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/* OBSOLETE */
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/* OBSOLETE n_exec = 0; */
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/* OBSOLETE */
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/* OBSOLETE /* Now open and digest the file the user requested, if any. *x/ */
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/* OBSOLETE */
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/* OBSOLETE if (filename) */
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/* OBSOLETE { */
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/* OBSOLETE filename = tilde_expand (filename); */
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/* OBSOLETE make_cleanup (free, filename); */
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/* OBSOLETE */
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/* OBSOLETE execchan = openp (getenv ("PATH"), 1, filename, O_RDONLY, 0, */
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/* OBSOLETE &execfile); */
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/* OBSOLETE if (execchan < 0) */
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/* OBSOLETE perror_with_name (filename); */
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/* OBSOLETE */
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/* OBSOLETE if (myread (execchan, &filehdr, sizeof filehdr) < 0) */
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/* OBSOLETE perror_with_name (filename); */
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/* OBSOLETE */
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/* OBSOLETE if (! IS_SOFF_MAGIC (filehdr.h_magic)) */
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/* OBSOLETE error ("%s: not an executable file.", filename); */
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/* OBSOLETE */
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/* OBSOLETE if (myread (execchan, &opthdr, filehdr.h_opthdr) <= 0) */
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/* OBSOLETE perror_with_name (filename); */
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/* OBSOLETE */
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/* OBSOLETE /* Read through the section headers. */
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/* OBSOLETE For text, data, etc, record an entry in the exec file map. */
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/* OBSOLETE Record text_start and text_end. *x/ */
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/* OBSOLETE */
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/* OBSOLETE lseek (execchan, (long) filehdr.h_scnptr, 0); */
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/* OBSOLETE */
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/* OBSOLETE for (n = 0; n < filehdr.h_nscns; n++) */
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/* OBSOLETE { */
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/* OBSOLETE if (myread (execchan, &scnhdr, sizeof scnhdr) < 0) */
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/* OBSOLETE perror_with_name (filename); */
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/* OBSOLETE */
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/* OBSOLETE if ((scnhdr.s_flags & S_TYPMASK) >= S_TEXT */
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/* OBSOLETE && (scnhdr.s_flags & S_TYPMASK) <= S_COMON) */
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/* OBSOLETE { */
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/* OBSOLETE exec_map[n_exec].mem_addr = scnhdr.s_vaddr; */
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/* OBSOLETE exec_map[n_exec].mem_end = scnhdr.s_vaddr + scnhdr.s_size; */
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/* OBSOLETE exec_map[n_exec].file_addr = scnhdr.s_scnptr; */
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/* OBSOLETE exec_map[n_exec].type = scnhdr.s_flags & S_TYPMASK; */
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/* OBSOLETE n_exec++; */
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/* OBSOLETE */
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/* OBSOLETE if ((scnhdr.s_flags & S_TYPMASK) == S_TEXT) */
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/* OBSOLETE { */
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/* OBSOLETE text_start = scnhdr.s_vaddr; */
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/* OBSOLETE text_end = scnhdr.s_vaddr + scnhdr.s_size; */
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/* OBSOLETE } */
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/* OBSOLETE } */
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/* OBSOLETE } */
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/* OBSOLETE */
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/* OBSOLETE fstat (execchan, &st_exec); */
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/* OBSOLETE exec_mtime = st_exec.st_mtime; */
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/* OBSOLETE */
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/* OBSOLETE validate_files (); */
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/* OBSOLETE } */
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/* OBSOLETE else if (from_tty) */
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/* OBSOLETE printf_filtered ("No executable file now.\n"); */
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/* OBSOLETE */
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/* OBSOLETE /* Tell display code (if any) about the changed file name. *x/ */
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/* OBSOLETE if (exec_file_display_hook) */
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/* OBSOLETE (*exec_file_display_hook) (filename); */
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/* OBSOLETE } */
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/* OBSOLETE */
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/* OBSOLETE #if 0 */
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/* OBSOLETE /* Read data from SOFF exec or core file. */
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/* OBSOLETE Return 0 on success, EIO if address out of bounds. *x/ */
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/* OBSOLETE */
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/* OBSOLETE int */
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/* OBSOLETE xfer_core_file (memaddr, myaddr, len) */
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/* OBSOLETE CORE_ADDR memaddr; */
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/* OBSOLETE char *myaddr; */
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/* OBSOLETE int len; */
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/* OBSOLETE { */
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/* OBSOLETE register int i; */
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/* OBSOLETE register int n; */
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/* OBSOLETE register int val; */
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/* OBSOLETE int xferchan; */
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/* OBSOLETE char **xferfile; */
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/* OBSOLETE int fileptr; */
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/* OBSOLETE int returnval = 0; */
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/* OBSOLETE */
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/* OBSOLETE while (len > 0) */
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/* OBSOLETE { */
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/* OBSOLETE xferfile = 0; */
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/* OBSOLETE xferchan = 0; */
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/* OBSOLETE */
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/* OBSOLETE /* Determine which file the next bunch of addresses reside in, */
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/* OBSOLETE and where in the file. Set the file's read/write pointer */
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/* OBSOLETE to point at the proper place for the desired address */
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/* OBSOLETE and set xferfile and xferchan for the correct file. */
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/* OBSOLETE If desired address is nonexistent, leave them zero. */
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/* OBSOLETE i is set to the number of bytes that can be handled */
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/* OBSOLETE along with the next address. *x/ */
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/* OBSOLETE */
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/* OBSOLETE i = len; */
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/* OBSOLETE */
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/* OBSOLETE for (n = 0; n < n_core; n++) */
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/* OBSOLETE { */
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/* OBSOLETE if (memaddr >= core_map[n].mem_addr && memaddr < core_map[n].mem_end */
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/* OBSOLETE && (core_map[n].thread == -1 */
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/* OBSOLETE || core_map[n].thread == inferior_thread)) */
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/* OBSOLETE { */
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/* OBSOLETE i = min (len, core_map[n].mem_end - memaddr); */
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/* OBSOLETE fileptr = core_map[n].file_addr + memaddr - core_map[n].mem_addr; */
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/* OBSOLETE if (core_map[n].file_addr) */
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/* OBSOLETE { */
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/* OBSOLETE xferfile = &corefile; */
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/* OBSOLETE xferchan = corechan; */
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/* OBSOLETE } */
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/* OBSOLETE break; */
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/* OBSOLETE } */
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/* OBSOLETE else if (core_map[n].mem_addr >= memaddr */
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/* OBSOLETE && core_map[n].mem_addr < memaddr + i) */
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/* OBSOLETE i = core_map[n].mem_addr - memaddr; */
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/* OBSOLETE } */
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/* OBSOLETE */
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/* OBSOLETE if (!xferfile) */
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/* OBSOLETE for (n = 0; n < n_exec; n++) */
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/* OBSOLETE { */
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/* OBSOLETE if (memaddr >= exec_map[n].mem_addr */
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/* OBSOLETE && memaddr < exec_map[n].mem_end) */
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/* OBSOLETE { */
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/* OBSOLETE i = min (len, exec_map[n].mem_end - memaddr); */
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/* OBSOLETE fileptr = exec_map[n].file_addr + memaddr */
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/* OBSOLETE - exec_map[n].mem_addr; */
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/* OBSOLETE if (exec_map[n].file_addr) */
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/* OBSOLETE { */
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/* OBSOLETE xferfile = &execfile; */
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/* OBSOLETE xferchan = execchan; */
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/* OBSOLETE } */
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/* OBSOLETE break; */
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||
/* OBSOLETE } */
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/* OBSOLETE else if (exec_map[n].mem_addr >= memaddr */
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/* OBSOLETE && exec_map[n].mem_addr < memaddr + i) */
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/* OBSOLETE i = exec_map[n].mem_addr - memaddr; */
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/* OBSOLETE } */
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||
/* OBSOLETE */
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/* OBSOLETE /* Now we know which file to use. */
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||
/* OBSOLETE Set up its pointer and transfer the data. *x/ */
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||
/* OBSOLETE if (xferfile) */
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||
/* OBSOLETE { */
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/* OBSOLETE if (*xferfile == 0) */
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||
/* OBSOLETE if (xferfile == &execfile) */
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||
/* OBSOLETE error ("No program file to examine."); */
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||
/* OBSOLETE else */
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||
/* OBSOLETE error ("No core dump file or running program to examine."); */
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||
/* OBSOLETE val = lseek (xferchan, fileptr, 0); */
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/* OBSOLETE if (val < 0) */
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||
/* OBSOLETE perror_with_name (*xferfile); */
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||
/* OBSOLETE val = myread (xferchan, myaddr, i); */
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||
/* OBSOLETE if (val < 0) */
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||
/* OBSOLETE perror_with_name (*xferfile); */
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||
/* OBSOLETE } */
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||
/* OBSOLETE /* If this address is for nonexistent memory, */
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||
/* OBSOLETE read zeros if reading, or do nothing if writing. *x/ */
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||
/* OBSOLETE else */
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||
/* OBSOLETE { */
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||
/* OBSOLETE memset (myaddr, '\0', i); */
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||
/* OBSOLETE returnval = EIO; */
|
||
/* OBSOLETE } */
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||
/* OBSOLETE */
|
||
/* OBSOLETE memaddr += i; */
|
||
/* OBSOLETE myaddr += i; */
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||
/* OBSOLETE len -= i; */
|
||
/* OBSOLETE } */
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||
/* OBSOLETE return returnval; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE #endif */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Here from info files command to print an address map. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE print_maps () */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE struct pmap ptrs[200]; */
|
||
/* OBSOLETE int n; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* ID strings for core and executable file sections *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static char *idstr[] = */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE "0", "text", "data", "tdata", "bss", "tbss", */
|
||
/* OBSOLETE "common", "ttext", "ctx", "tctx", "10", "11", "12", */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE for (n = 0; n < n_core; n++) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE core_map[n].which = 0; */
|
||
/* OBSOLETE ptrs[n] = core_map[n]; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE for (n = 0; n < n_exec; n++) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE exec_map[n].which = 1; */
|
||
/* OBSOLETE ptrs[n_core+n] = exec_map[n]; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE qsort (ptrs, n_core + n_exec, sizeof *ptrs, ptr_cmp); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE for (n = 0; n < n_core + n_exec; n++) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE struct pmap *p = &ptrs[n]; */
|
||
/* OBSOLETE if (n > 0) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE if (p->mem_addr < ptrs[n-1].mem_end) */
|
||
/* OBSOLETE p->mem_addr = ptrs[n-1].mem_end; */
|
||
/* OBSOLETE if (p->mem_addr >= p->mem_end) */
|
||
/* OBSOLETE continue; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE printf_filtered ("%08x .. %08x %-6s %s\n", */
|
||
/* OBSOLETE p->mem_addr, p->mem_end, idstr[p->type], */
|
||
/* OBSOLETE p->which ? execfile : corefile); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Compare routine to put file sections in order. */
|
||
/* OBSOLETE Sort into increasing order on address, and put core file sections */
|
||
/* OBSOLETE before exec file sections if both files contain the same addresses. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static ptr_cmp (a, b) */
|
||
/* OBSOLETE struct pmap *a, *b; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE if (a->mem_addr != b->mem_addr) return a->mem_addr - b->mem_addr; */
|
||
/* OBSOLETE return a->which - b->which; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Trapped internal variables are used to handle special registers. */
|
||
/* OBSOLETE A trapped i.v. calls a hook here every time it is dereferenced, */
|
||
/* OBSOLETE to provide a new value for the variable, and it calls a hook here */
|
||
/* OBSOLETE when a new value is assigned, to do something with the value. */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE The vector registers are $vl, $vs, $vm, $vN, $VN (N in 0..7). */
|
||
/* OBSOLETE The communication registers are $cN, $CN (N in 0..63). */
|
||
/* OBSOLETE They not handled as regular registers because it's expensive to */
|
||
/* OBSOLETE read them, and their size varies, and they have too many names. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Return 1 if NAME is a trapped internal variable, else 0. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE int */
|
||
/* OBSOLETE is_trapped_internalvar (name) */
|
||
/* OBSOLETE char *name; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE if ((name[0] == 'c' || name[0] == 'C') */
|
||
/* OBSOLETE && name[1] >= '0' && name[1] <= '9' */
|
||
/* OBSOLETE && (name[2] == '\0' */
|
||
/* OBSOLETE || (name[2] >= '0' && name[2] <= '9' */
|
||
/* OBSOLETE && name[3] == '\0' && name[1] != '0')) */
|
||
/* OBSOLETE && atoi (&name[1]) < 64) return 1; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if ((name[0] == 'v' || name[0] == 'V') */
|
||
/* OBSOLETE && (((name[1] & -8) == '0' && name[2] == '\0') */
|
||
/* OBSOLETE || STREQ (name, "vl") */
|
||
/* OBSOLETE || STREQ (name, "vs") */
|
||
/* OBSOLETE || STREQ (name, "vm"))) */
|
||
/* OBSOLETE return 1; */
|
||
/* OBSOLETE else return 0; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Return the value of trapped internal variable VAR *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE value */
|
||
/* OBSOLETE value_of_trapped_internalvar (var) */
|
||
/* OBSOLETE struct internalvar *var; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE char *name = var->name; */
|
||
/* OBSOLETE value val; */
|
||
/* OBSOLETE struct type *type; */
|
||
/* OBSOLETE struct type *range_type; */
|
||
/* OBSOLETE long len = *read_vector_register (VL_REGNUM); */
|
||
/* OBSOLETE if (len <= 0 || len > 128) len = 128; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (STREQ (name, "vl")) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE val = value_from_longest (builtin_type_int, */
|
||
/* OBSOLETE (LONGEST) *read_vector_register_1 (VL_REGNUM)); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else if (STREQ (name, "vs")) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE val = value_from_longest (builtin_type_int, */
|
||
/* OBSOLETE (LONGEST) *read_vector_register_1 (VS_REGNUM)); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else if (STREQ (name, "vm")) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE long vm[4]; */
|
||
/* OBSOLETE long i, *p; */
|
||
/* OBSOLETE memcpy (vm, read_vector_register_1 (VM_REGNUM), sizeof vm); */
|
||
/* OBSOLETE range_type = */
|
||
/* OBSOLETE create_range_type ((struct type *) NULL, builtin_type_int, 0, len - 1); */
|
||
/* OBSOLETE type = */
|
||
/* OBSOLETE create_array_type ((struct type *) NULL, builtin_type_int, range_type); */
|
||
/* OBSOLETE val = allocate_value (type); */
|
||
/* OBSOLETE p = (long *) VALUE_CONTENTS (val); */
|
||
/* OBSOLETE for (i = 0; i < len; i++) */
|
||
/* OBSOLETE *p++ = !! (vm[3 - (i >> 5)] & (1 << (i & 037))); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else if (name[0] == 'V') */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE range_type = */
|
||
/* OBSOLETE create_range_type ((struct type *) NULL, builtin_type_int 0, len - 1); */
|
||
/* OBSOLETE type = */
|
||
/* OBSOLETE create_array_type ((struct type *) NULL, builtin_type_long_long, */
|
||
/* OBSOLETE range_type); */
|
||
/* OBSOLETE val = allocate_value (type); */
|
||
/* OBSOLETE memcpy (VALUE_CONTENTS (val), */
|
||
/* OBSOLETE read_vector_register_1 (name[1] - '0'), */
|
||
/* OBSOLETE TYPE_LENGTH (type)); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else if (name[0] == 'v') */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE long *p1, *p2; */
|
||
/* OBSOLETE range_type = */
|
||
/* OBSOLETE create_range_type ((struct type *) NULL, builtin_type_int 0, len - 1); */
|
||
/* OBSOLETE type = */
|
||
/* OBSOLETE create_array_type ((struct type *) NULL, builtin_type_long, */
|
||
/* OBSOLETE range_type); */
|
||
/* OBSOLETE val = allocate_value (type); */
|
||
/* OBSOLETE p1 = read_vector_register_1 (name[1] - '0'); */
|
||
/* OBSOLETE p2 = (long *) VALUE_CONTENTS (val); */
|
||
/* OBSOLETE while (--len >= 0) {p1++; *p2++ = *p1++;} */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE else if (name[0] == 'c') */
|
||
/* OBSOLETE val = value_from_longest (builtin_type_int, */
|
||
/* OBSOLETE read_comm_register (atoi (&name[1]))); */
|
||
/* OBSOLETE else if (name[0] == 'C') */
|
||
/* OBSOLETE val = value_from_longest (builtin_type_long_long, */
|
||
/* OBSOLETE read_comm_register (atoi (&name[1]))); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE VALUE_LVAL (val) = lval_internalvar; */
|
||
/* OBSOLETE VALUE_INTERNALVAR (val) = var; */
|
||
/* OBSOLETE return val; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Handle a new value assigned to a trapped internal variable *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE void */
|
||
/* OBSOLETE set_trapped_internalvar (var, val, bitpos, bitsize, offset) */
|
||
/* OBSOLETE struct internalvar *var; */
|
||
/* OBSOLETE value val; */
|
||
/* OBSOLETE int bitpos, bitsize, offset; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE char *name = var->name; */
|
||
/* OBSOLETE long long newval = value_as_long (val); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (STREQ (name, "vl")) */
|
||
/* OBSOLETE write_vector_register (VL_REGNUM, 0, newval); */
|
||
/* OBSOLETE else if (STREQ (name, "vs")) */
|
||
/* OBSOLETE write_vector_register (VS_REGNUM, 0, newval); */
|
||
/* OBSOLETE else if (name[0] == 'c' || name[0] == 'C') */
|
||
/* OBSOLETE write_comm_register (atoi (&name[1]), newval); */
|
||
/* OBSOLETE else if (STREQ (name, "vm")) */
|
||
/* OBSOLETE error ("can't assign to $vm"); */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE offset /= bitsize / 8; */
|
||
/* OBSOLETE write_vector_register (name[1] - '0', offset, newval); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Print an integer value when no format was specified. gdb normally */
|
||
/* OBSOLETE prints these values in decimal, but the the leading 0x80000000 of */
|
||
/* OBSOLETE pointers produces intolerable 10-digit negative numbers. */
|
||
/* OBSOLETE If it looks like an address, print it in hex instead. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE decout (stream, type, val) */
|
||
/* OBSOLETE struct ui_file *stream; */
|
||
/* OBSOLETE struct type *type; */
|
||
/* OBSOLETE LONGEST val; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE long lv = val; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE switch (output_radix) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE case 0: */
|
||
/* OBSOLETE if ((lv == val || (unsigned) lv == val) */
|
||
/* OBSOLETE && ((lv & 0xf0000000) == 0x80000000 */
|
||
/* OBSOLETE || ((lv & 0xf0000000) == 0xf0000000 && lv < STACK_END_ADDR))) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE print_longest (stream, "x", 0, val); */
|
||
/* OBSOLETE return; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case 10: */
|
||
/* OBSOLETE print_longest (stream, TYPE_UNSIGNED (type) ? "u" : "d", 0, val); */
|
||
/* OBSOLETE return; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case 8: */
|
||
/* OBSOLETE print_longest (stream, "o", 0, val); */
|
||
/* OBSOLETE return; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case 16: */
|
||
/* OBSOLETE print_longest (stream, "x", 0, val); */
|
||
/* OBSOLETE return; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Change the default output radix to 10 or 16, or set it to 0 (heuristic). */
|
||
/* OBSOLETE This command is mostly obsolete now that the print command allows */
|
||
/* OBSOLETE formats to apply to aggregates, but is still handy occasionally. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static void */
|
||
/* OBSOLETE set_base_command (arg) */
|
||
/* OBSOLETE char *arg; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE int new_radix; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (!arg) */
|
||
/* OBSOLETE output_radix = 0; */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE new_radix = atoi (arg); */
|
||
/* OBSOLETE if (new_radix != 10 && new_radix != 16 && new_radix != 8) */
|
||
/* OBSOLETE error ("base must be 8, 10 or 16, or null"); */
|
||
/* OBSOLETE else output_radix = new_radix; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Turn pipelining on or off in the inferior. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static void */
|
||
/* OBSOLETE set_pipelining_command (arg) */
|
||
/* OBSOLETE char *arg; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE if (!arg) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE sequential = !sequential; */
|
||
/* OBSOLETE printf_filtered ("%s\n", sequential ? "off" : "on"); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else if (STREQ (arg, "on")) */
|
||
/* OBSOLETE sequential = 0; */
|
||
/* OBSOLETE else if (STREQ (arg, "off")) */
|
||
/* OBSOLETE sequential = 1; */
|
||
/* OBSOLETE else error ("valid args are `on', to allow instructions to overlap, or\n\ */
|
||
/* OBSOLETE `off', to prevent it and thereby pinpoint exceptions."); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Enable, disable, or force parallel execution in the inferior. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static void */
|
||
/* OBSOLETE set_parallel_command (arg) */
|
||
/* OBSOLETE char *arg; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE struct rlimit rl; */
|
||
/* OBSOLETE int prevparallel = parallel; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (!strncmp (arg, "fixed", strlen (arg))) */
|
||
/* OBSOLETE parallel = 2; */
|
||
/* OBSOLETE else if (STREQ (arg, "on")) */
|
||
/* OBSOLETE parallel = 1; */
|
||
/* OBSOLETE else if (STREQ (arg, "off")) */
|
||
/* OBSOLETE parallel = 0; */
|
||
/* OBSOLETE else error ("valid args are `on', to allow multiple threads, or\n\ */
|
||
/* OBSOLETE `fixed', to force multiple threads, or\n\ */
|
||
/* OBSOLETE `off', to run with one thread only."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if ((prevparallel == 0) != (parallel == 0) && inferior_pid) */
|
||
/* OBSOLETE printf_filtered ("will take effect at next run.\n"); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE getrlimit (RLIMIT_CONCUR, &rl); */
|
||
/* OBSOLETE rl.rlim_cur = parallel ? rl.rlim_max : 1; */
|
||
/* OBSOLETE setrlimit (RLIMIT_CONCUR, &rl); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (inferior_pid) */
|
||
/* OBSOLETE set_fixed_scheduling (inferior_pid, parallel == 2); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Add a new name for an existing command. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static void */
|
||
/* OBSOLETE alias_command (arg) */
|
||
/* OBSOLETE char *arg; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE static char *aliaserr = "usage is `alias NEW OLD', no args allowed"; */
|
||
/* OBSOLETE char *newname = arg; */
|
||
/* OBSOLETE struct cmd_list_element *new, *old; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (!arg) */
|
||
/* OBSOLETE error_no_arg ("newname oldname"); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE new = lookup_cmd (&arg, cmdlist, "", -1); */
|
||
/* OBSOLETE if (new && !strncmp (newname, new->name, strlen (new->name))) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE newname = new->name; */
|
||
/* OBSOLETE if (!(*arg == '-' */
|
||
/* OBSOLETE || (*arg >= 'a' && *arg <= 'z') */
|
||
/* OBSOLETE || (*arg >= 'A' && *arg <= 'Z') */
|
||
/* OBSOLETE || (*arg >= '0' && *arg <= '9'))) */
|
||
/* OBSOLETE error (aliaserr); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE arg = newname; */
|
||
/* OBSOLETE while (*arg == '-' */
|
||
/* OBSOLETE || (*arg >= 'a' && *arg <= 'z') */
|
||
/* OBSOLETE || (*arg >= 'A' && *arg <= 'Z') */
|
||
/* OBSOLETE || (*arg >= '0' && *arg <= '9')) */
|
||
/* OBSOLETE arg++; */
|
||
/* OBSOLETE if (*arg != ' ' && *arg != '\t') */
|
||
/* OBSOLETE error (aliaserr); */
|
||
/* OBSOLETE *arg = '\0'; */
|
||
/* OBSOLETE arg++; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE old = lookup_cmd (&arg, cmdlist, "", 0); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (*arg != '\0') */
|
||
/* OBSOLETE error (aliaserr); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (new && !strncmp (newname, new->name, strlen (new->name))) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE char *tem; */
|
||
/* OBSOLETE if (new->class == (int) class_user || new->class == (int) class_alias) */
|
||
/* OBSOLETE tem = "Redefine command \"%s\"? "; */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE tem = "Really redefine built-in command \"%s\"? "; */
|
||
/* OBSOLETE if (!query (tem, new->name)) */
|
||
/* OBSOLETE error ("Command \"%s\" not redefined.", new->name); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_com (newname, class_alias, old->function, old->doc); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Print the current thread number, and any threads with signals in the */
|
||
/* OBSOLETE queue. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE thread_info () */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE struct threadpid *p; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (have_inferior_p ()) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE ps.pi_buffer = (char *) &comm_registers; */
|
||
/* OBSOLETE ps.pi_nbytes = sizeof comm_registers; */
|
||
/* OBSOLETE ps.pi_offset = 0; */
|
||
/* OBSOLETE ps.pi_thread = inferior_thread; */
|
||
/* OBSOLETE ioctl (inferior_fd, PIXRDCREGS, &ps); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* FIXME: stop_signal is from target.h but stop_sigcode is a */
|
||
/* OBSOLETE convex-specific thing. *x/ */
|
||
/* OBSOLETE printf_filtered ("Current thread %d stopped with signal %d.%d (%s).\n", */
|
||
/* OBSOLETE inferior_thread, stop_signal, stop_sigcode, */
|
||
/* OBSOLETE subsig_name (stop_signal, stop_sigcode)); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE for (p = signal_stack; p->pid; p--) */
|
||
/* OBSOLETE printf_filtered ("Thread %d stopped with signal %d.%d (%s).\n", */
|
||
/* OBSOLETE p->thread, p->signo, p->subsig, */
|
||
/* OBSOLETE subsig_name (p->signo, p->subsig)); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (iscrlbit (comm_registers.crctl.lbits.cc, 64+13)) */
|
||
/* OBSOLETE printf_filtered ("New thread start pc %#x\n", */
|
||
/* OBSOLETE (long) (comm_registers.crreg.pcpsw >> 32)); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Return string describing a signal.subcode number *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static char * */
|
||
/* OBSOLETE subsig_name (signo, subcode) */
|
||
/* OBSOLETE int signo, subcode; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE static char *subsig4[] = { */
|
||
/* OBSOLETE "error exit", "privileged instruction", "unknown", */
|
||
/* OBSOLETE "unknown", "undefined opcode", */
|
||
/* OBSOLETE 0}; */
|
||
/* OBSOLETE static char *subsig5[] = {0, */
|
||
/* OBSOLETE "breakpoint", "single step", "fork trap", "exec trap", "pfork trap", */
|
||
/* OBSOLETE "join trap", "idle trap", "last thread", "wfork trap", */
|
||
/* OBSOLETE "process breakpoint", "trap instruction", */
|
||
/* OBSOLETE 0}; */
|
||
/* OBSOLETE static char *subsig8[] = {0, */
|
||
/* OBSOLETE "int overflow", "int divide check", "float overflow", */
|
||
/* OBSOLETE "float divide check", "float underflow", "reserved operand", */
|
||
/* OBSOLETE "sqrt error", "exp error", "ln error", "sin error", "cos error", */
|
||
/* OBSOLETE 0}; */
|
||
/* OBSOLETE static char *subsig10[] = {0, */
|
||
/* OBSOLETE "invalid inward ring address", "invalid outward ring call", */
|
||
/* OBSOLETE "invalid inward ring return", "invalid syscall gate", */
|
||
/* OBSOLETE "invalid rtn frame length", "invalid comm reg address", */
|
||
/* OBSOLETE "invalid trap gate", */
|
||
/* OBSOLETE 0}; */
|
||
/* OBSOLETE static char *subsig11[] = {0, */
|
||
/* OBSOLETE "read access denied", "write access denied", "execute access denied", */
|
||
/* OBSOLETE "segment descriptor fault", "page table fault", "data reference fault", */
|
||
/* OBSOLETE "i/o access denied", "levt pte invalid", */
|
||
/* OBSOLETE 0}; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static char **subsig_list[] = */
|
||
/* OBSOLETE {0, 0, 0, 0, subsig4, subsig5, 0, 0, subsig8, 0, subsig10, subsig11, 0}; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE int i; */
|
||
/* OBSOLETE char *p; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if ((p = strsignal (signo)) == NULL) */
|
||
/* OBSOLETE p = "unknown"; */
|
||
/* OBSOLETE if (signo >= (sizeof subsig_list / sizeof *subsig_list) */
|
||
/* OBSOLETE || !subsig_list[signo]) */
|
||
/* OBSOLETE return p; */
|
||
/* OBSOLETE for (i = 1; subsig_list[signo][i]; i++) */
|
||
/* OBSOLETE if (i == subcode) */
|
||
/* OBSOLETE return subsig_list[signo][subcode]; */
|
||
/* OBSOLETE return p; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Print a compact display of thread status, essentially x/i $pc */
|
||
/* OBSOLETE for all active threads. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static void */
|
||
/* OBSOLETE threadstat () */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE int t; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE for (t = 0; t < n_threads; t++) */
|
||
/* OBSOLETE if (thread_state[t] == PI_TALIVE) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE printf_filtered ("%d%c %08x%c %d.%d ", t, */
|
||
/* OBSOLETE (t == inferior_thread ? '*' : ' '), thread_pc[t], */
|
||
/* OBSOLETE (thread_is_in_kernel[t] ? '#' : ' '), */
|
||
/* OBSOLETE thread_signal[t], thread_sigcode[t]); */
|
||
/* OBSOLETE print_insn (thread_pc[t], stdout); */
|
||
/* OBSOLETE printf_filtered ("\n"); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Change the current thread to ARG. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE set_thread_command (arg) */
|
||
/* OBSOLETE char *arg; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE int thread; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (!arg) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE threadstat (); */
|
||
/* OBSOLETE return; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE thread = parse_and_eval_address (arg); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (thread < 0 || thread > n_threads || thread_state[thread] != PI_TALIVE) */
|
||
/* OBSOLETE error ("no such thread."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE select_thread (thread); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE stop_pc = read_pc (); */
|
||
/* OBSOLETE flush_cached_frames (); */
|
||
/* OBSOLETE select_frame (get_current_frame (), 0); */
|
||
/* OBSOLETE print_stack_frame (selected_frame, selected_frame_level, -1); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Here on CONT command; gdb's dispatch address is changed to come here. */
|
||
/* OBSOLETE Set global variable ALL_CONTINUE to tell resume() that it should */
|
||
/* OBSOLETE start up all threads, and that a thread switch will not blow gdb's */
|
||
/* OBSOLETE mind. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static void */
|
||
/* OBSOLETE convex_cont_command (proc_count_exp, from_tty) */
|
||
/* OBSOLETE char *proc_count_exp; */
|
||
/* OBSOLETE int from_tty; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE all_continue = 1; */
|
||
/* OBSOLETE cont_command (proc_count_exp, from_tty); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Here on 1CONT command. Resume only the current thread. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE one_cont_command (proc_count_exp, from_tty) */
|
||
/* OBSOLETE char *proc_count_exp; */
|
||
/* OBSOLETE int from_tty; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE cont_command (proc_count_exp, from_tty); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Print the contents and lock bits of all communication registers, */
|
||
/* OBSOLETE or just register ARG if ARG is a communication register, */
|
||
/* OBSOLETE or the 3-word resource structure in memory at address ARG. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE comm_registers_info (arg) */
|
||
/* OBSOLETE char *arg; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE int i, regnum; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (arg) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE if (sscanf (arg, "$c%d", ®num) == 1) { */
|
||
/* OBSOLETE ; */
|
||
/* OBSOLETE } else if (sscanf (arg, "$C%d", ®num) == 1) { */
|
||
/* OBSOLETE ; */
|
||
/* OBSOLETE } else { */
|
||
/* OBSOLETE regnum = parse_and_eval_address (arg); */
|
||
/* OBSOLETE if (regnum > 0) */
|
||
/* OBSOLETE regnum &= ~0x8000; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (regnum >= 64) */
|
||
/* OBSOLETE error ("%s: invalid register name.", arg); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* if we got a (user) address, examine the resource struct there *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (regnum < 0) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE static int buf[3]; */
|
||
/* OBSOLETE read_memory (regnum, buf, sizeof buf); */
|
||
/* OBSOLETE printf_filtered ("%08x %08x%08x%s\n", regnum, buf[1], buf[2], */
|
||
/* OBSOLETE buf[0] & 0xff ? " locked" : ""); */
|
||
/* OBSOLETE return; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE ps.pi_buffer = (char *) &comm_registers; */
|
||
/* OBSOLETE ps.pi_nbytes = sizeof comm_registers; */
|
||
/* OBSOLETE ps.pi_offset = 0; */
|
||
/* OBSOLETE ps.pi_thread = inferior_thread; */
|
||
/* OBSOLETE ioctl (inferior_fd, PIXRDCREGS, &ps); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE for (i = 0; i < 64; i++) */
|
||
/* OBSOLETE if (!arg || i == regnum) */
|
||
/* OBSOLETE printf_filtered ("%2d 0x8%03x %016llx%s\n", i, i, */
|
||
/* OBSOLETE comm_registers.crreg.r4[i], */
|
||
/* OBSOLETE (iscrlbit (comm_registers.crctl.lbits.cc, i) */
|
||
/* OBSOLETE ? " locked" : "")); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Print the psw *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static void */
|
||
/* OBSOLETE psw_info (arg) */
|
||
/* OBSOLETE char *arg; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE struct pswbit */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE int bit; */
|
||
/* OBSOLETE int pos; */
|
||
/* OBSOLETE char *text; */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE static struct pswbit pswbit[] = */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE { 0x80000000, -1, "A carry" }, */
|
||
/* OBSOLETE { 0x40000000, -1, "A integer overflow" }, */
|
||
/* OBSOLETE { 0x20000000, -1, "A zero divide" }, */
|
||
/* OBSOLETE { 0x10000000, -1, "Integer overflow enable" }, */
|
||
/* OBSOLETE { 0x08000000, -1, "Trace" }, */
|
||
/* OBSOLETE { 0x06000000, 25, "Frame length" }, */
|
||
/* OBSOLETE { 0x01000000, -1, "Sequential" }, */
|
||
/* OBSOLETE { 0x00800000, -1, "S carry" }, */
|
||
/* OBSOLETE { 0x00400000, -1, "S integer overflow" }, */
|
||
/* OBSOLETE { 0x00200000, -1, "S zero divide" }, */
|
||
/* OBSOLETE { 0x00100000, -1, "Zero divide enable" }, */
|
||
/* OBSOLETE { 0x00080000, -1, "Floating underflow" }, */
|
||
/* OBSOLETE { 0x00040000, -1, "Floating overflow" }, */
|
||
/* OBSOLETE { 0x00020000, -1, "Floating reserved operand" }, */
|
||
/* OBSOLETE { 0x00010000, -1, "Floating zero divide" }, */
|
||
/* OBSOLETE { 0x00008000, -1, "Floating error enable" }, */
|
||
/* OBSOLETE { 0x00004000, -1, "Floating underflow enable" }, */
|
||
/* OBSOLETE { 0x00002000, -1, "IEEE" }, */
|
||
/* OBSOLETE { 0x00001000, -1, "Sequential stores" }, */
|
||
/* OBSOLETE { 0x00000800, -1, "Intrinsic error" }, */
|
||
/* OBSOLETE { 0x00000400, -1, "Intrinsic error enable" }, */
|
||
/* OBSOLETE { 0x00000200, -1, "Trace thread creates" }, */
|
||
/* OBSOLETE { 0x00000100, -1, "Thread init trap" }, */
|
||
/* OBSOLETE { 0x000000e0, 5, "Reserved" }, */
|
||
/* OBSOLETE { 0x0000001f, 0, "Intrinsic error code" }, */
|
||
/* OBSOLETE {0, 0, 0}, */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE long psw; */
|
||
/* OBSOLETE struct pswbit *p; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (arg) */
|
||
/* OBSOLETE psw = parse_and_eval_address (arg); */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE psw = read_register (PS_REGNUM); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE for (p = pswbit; p->bit; p++) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE if (p->pos < 0) */
|
||
/* OBSOLETE printf_filtered ("%08x %s %s\n", p->bit, */
|
||
/* OBSOLETE (psw & p->bit) ? "yes" : "no ", p->text); */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE printf_filtered ("%08x %3d %s\n", p->bit, */
|
||
/* OBSOLETE (psw & p->bit) >> p->pos, p->text); */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE #include "symtab.h" */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* reg (fmt_field, inst_field) -- */
|
||
/* OBSOLETE the {first,second,third} operand of instruction as fmt_field = [ijk] */
|
||
/* OBSOLETE gets the value of the field from the [ijk] position of the instruction *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE #define reg(a,b) ((char (*)[3])(op[fmt->a]))[inst.f0.b] */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* lit (fmt_field) -- field [ijk] is a literal (PSW, VL, eg) *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE #define lit(i) op[fmt->i] */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* aj[j] -- name for A register j *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE #define aj ((char (*)[3])(op[A])) */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE union inst { */
|
||
/* OBSOLETE struct { */
|
||
/* OBSOLETE unsigned : 7; */
|
||
/* OBSOLETE unsigned i : 3; */
|
||
/* OBSOLETE unsigned j : 3; */
|
||
/* OBSOLETE unsigned k : 3; */
|
||
/* OBSOLETE unsigned : 16; */
|
||
/* OBSOLETE unsigned : 32; */
|
||
/* OBSOLETE } f0; */
|
||
/* OBSOLETE struct { */
|
||
/* OBSOLETE unsigned : 8; */
|
||
/* OBSOLETE unsigned indir : 1; */
|
||
/* OBSOLETE unsigned len : 1; */
|
||
/* OBSOLETE unsigned j : 3; */
|
||
/* OBSOLETE unsigned k : 3; */
|
||
/* OBSOLETE unsigned : 16; */
|
||
/* OBSOLETE unsigned : 32; */
|
||
/* OBSOLETE } f1; */
|
||
/* OBSOLETE unsigned char byte[8]; */
|
||
/* OBSOLETE unsigned short half[4]; */
|
||
/* OBSOLETE char signed_byte[8]; */
|
||
/* OBSOLETE short signed_half[4]; */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE struct opform { */
|
||
/* OBSOLETE int mask; /* opcode mask *x/ */
|
||
/* OBSOLETE int shift; /* opcode align *x/ */
|
||
/* OBSOLETE struct formstr *formstr[3]; /* ST, E0, E1 *x/ */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE struct formstr { */
|
||
/* OBSOLETE unsigned lop:8, rop:5; /* opcode *x/ */
|
||
/* OBSOLETE unsigned fmt:5; /* inst format *x/ */
|
||
/* OBSOLETE unsigned i:5, j:5, k:2; /* operand formats *x/ */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE #include "opcode/convex.h" */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE CONST unsigned char formdecode [] = { */
|
||
/* OBSOLETE 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, */
|
||
/* OBSOLETE 9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9, */
|
||
/* OBSOLETE 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, */
|
||
/* OBSOLETE 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, */
|
||
/* OBSOLETE 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, */
|
||
/* OBSOLETE 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, */
|
||
/* OBSOLETE 3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3, */
|
||
/* OBSOLETE 4,4,4,4,4,4,4,4,5,5,5,5,6,6,7,8, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE CONST struct opform opdecode[] = { */
|
||
/* OBSOLETE 0x7e00, 9, format0, e0_format0, e1_format0, */
|
||
/* OBSOLETE 0x3f00, 8, format1, e0_format1, e1_format1, */
|
||
/* OBSOLETE 0x1fc0, 6, format2, e0_format2, e1_format2, */
|
||
/* OBSOLETE 0x0fc0, 6, format3, e0_format3, e1_format3, */
|
||
/* OBSOLETE 0x0700, 8, format4, e0_format4, e1_format4, */
|
||
/* OBSOLETE 0x03c0, 6, format5, e0_format5, e1_format5, */
|
||
/* OBSOLETE 0x01f8, 3, format6, e0_format6, e1_format6, */
|
||
/* OBSOLETE 0x00f8, 3, format7, e0_format7, e1_format7, */
|
||
/* OBSOLETE 0x0000, 0, formatx, formatx, formatx, */
|
||
/* OBSOLETE 0x0f80, 7, formatx, formatx, formatx, */
|
||
/* OBSOLETE 0x0f80, 7, formatx, formatx, formatx, */
|
||
/* OBSOLETE }; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Print the instruction at address MEMADDR in debugged memory, */
|
||
/* OBSOLETE on STREAM. Returns length of the instruction, in bytes. *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE int */
|
||
/* OBSOLETE convex_print_insn (memaddr, stream) */
|
||
/* OBSOLETE CORE_ADDR memaddr; */
|
||
/* OBSOLETE FILE *stream; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE union inst inst; */
|
||
/* OBSOLETE struct formstr *fmt; */
|
||
/* OBSOLETE register int format, op1, pfx; */
|
||
/* OBSOLETE int l; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE read_memory (memaddr, &inst, sizeof inst); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Remove and note prefix, if present *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE pfx = inst.half[0]; */
|
||
/* OBSOLETE if ((pfx & 0xfff0) == 0x7ef0) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE pfx = ((pfx >> 3) & 1) + 1; */
|
||
/* OBSOLETE *(long long *) &inst = *(long long *) &inst.half[1]; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else pfx = 0; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Split opcode into format.op1 and look up in appropriate table *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE format = formdecode[inst.byte[0]]; */
|
||
/* OBSOLETE op1 = (inst.half[0] & opdecode[format].mask) >> opdecode[format].shift; */
|
||
/* OBSOLETE if (format == 9) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE if (pfx) */
|
||
/* OBSOLETE fmt = formatx; */
|
||
/* OBSOLETE else if (inst.f1.j == 0) */
|
||
/* OBSOLETE fmt = &format1a[op1]; */
|
||
/* OBSOLETE else if (inst.f1.j == 1) */
|
||
/* OBSOLETE fmt = &format1b[op1]; */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE fmt = formatx; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE fmt = &opdecode[format].formstr[pfx][op1]; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* Print it *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (fmt->fmt == xxx) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE /* noninstruction *x/ */
|
||
/* OBSOLETE fprintf (stream, "0x%04x", pfx ? pfx : inst.half[0]); */
|
||
/* OBSOLETE return 2; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (pfx) */
|
||
/* OBSOLETE pfx = 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE fprintf (stream, "%s%s%s", lop[fmt->lop], rop[fmt->rop], */
|
||
/* OBSOLETE &" "[strlen(lop[fmt->lop]) + strlen(rop[fmt->rop])]); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE switch (fmt->fmt) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE case rrr: /* three register *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,%s,%s", reg(i,i), reg(j,j), reg(k,k)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case rr: /* two register *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,%s", reg(i,j), reg(j,k)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case rxr: /* two register, reversed i and j fields *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,%s", reg(i,k), reg(j,j)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case r: /* one register *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s", reg(i,k)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case nops: /* no operands *x/ */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case nr: /* short immediate, one register *x/ */
|
||
/* OBSOLETE fprintf (stream, "#%d,%s", inst.f0.j, reg(i,k)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case pcrel: /* pc relative *x/ */
|
||
/* OBSOLETE print_address (memaddr + 2 * inst.signed_byte[1], stream); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case lr: /* literal, one register *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,%s", lit(i), reg(j,k)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case rxl: /* one register, literal *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,%s", reg(i,k), lit(j)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case rlr: /* register, literal, register *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,%s,%s", reg(i,j), lit(j), reg(k,k)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case rrl: /* register, register, literal *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,%s,%s", reg(i,j), reg(j,k), lit(k)); */
|
||
/* OBSOLETE return pfx + 2; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case iml: /* immediate, literal *x/ */
|
||
/* OBSOLETE if (inst.f1.len) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE fprintf (stream, "#%#x,%s", */
|
||
/* OBSOLETE (inst.signed_half[1] << 16) + inst.half[2], lit(i)); */
|
||
/* OBSOLETE return pfx + 6; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE fprintf (stream, "#%d,%s", inst.signed_half[1], lit(i)); */
|
||
/* OBSOLETE return pfx + 4; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case imr: /* immediate, register *x/ */
|
||
/* OBSOLETE if (inst.f1.len) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE fprintf (stream, "#%#x,%s", */
|
||
/* OBSOLETE (inst.signed_half[1] << 16) + inst.half[2], reg(i,k)); */
|
||
/* OBSOLETE return pfx + 6; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE fprintf (stream, "#%d,%s", inst.signed_half[1], reg(i,k)); */
|
||
/* OBSOLETE return pfx + 4; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case a1r: /* memory, register *x/ */
|
||
/* OBSOLETE l = print_effa (inst, stream); */
|
||
/* OBSOLETE fprintf (stream, ",%s", reg(i,k)); */
|
||
/* OBSOLETE return pfx + l; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case a1l: /* memory, literal *x/ */
|
||
/* OBSOLETE l = print_effa (inst, stream); */
|
||
/* OBSOLETE fprintf (stream, ",%s", lit(i)); */
|
||
/* OBSOLETE return pfx + l; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case a2r: /* register, memory *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,", reg(i,k)); */
|
||
/* OBSOLETE return pfx + print_effa (inst, stream); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case a2l: /* literal, memory *x/ */
|
||
/* OBSOLETE fprintf (stream, "%s,", lit(i)); */
|
||
/* OBSOLETE return pfx + print_effa (inst, stream); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case a3: /* memory *x/ */
|
||
/* OBSOLETE return pfx + print_effa (inst, stream); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE case a4: /* system call *x/ */
|
||
/* OBSOLETE l = 29; goto a4a5; */
|
||
/* OBSOLETE case a5: /* trap *x/ */
|
||
/* OBSOLETE l = 27; */
|
||
/* OBSOLETE a4a5: */
|
||
/* OBSOLETE if (inst.f1.len) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE unsigned int m = (inst.signed_half[1] << 16) + inst.half[2]; */
|
||
/* OBSOLETE fprintf (stream, "#%d,#%d", m >> l, m & (-1 >> (32-l))); */
|
||
/* OBSOLETE return pfx + 6; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE unsigned int m = inst.signed_half[1]; */
|
||
/* OBSOLETE fprintf (stream, "#%d,#%d", m >> l, m & (-1 >> (32-l))); */
|
||
/* OBSOLETE return pfx + 4; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE /* print effective address @nnn(aj), return instruction length *x/ */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE int print_effa (inst, stream) */
|
||
/* OBSOLETE union inst inst; */
|
||
/* OBSOLETE FILE *stream; */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE int n, l; */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (inst.f1.len) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE n = (inst.signed_half[1] << 16) + inst.half[2]; */
|
||
/* OBSOLETE l = 6; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE else */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE n = inst.signed_half[1]; */
|
||
/* OBSOLETE l = 4; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (inst.f1.indir) */
|
||
/* OBSOLETE printf ("@"); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE if (!inst.f1.j) */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE print_address (n, stream); */
|
||
/* OBSOLETE return l; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE fprintf (stream, (n & 0xf0000000) == 0x80000000 ? "%#x(%s)" : "%d(%s)", */
|
||
/* OBSOLETE n, aj[inst.f1.j]); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE return l; */
|
||
/* OBSOLETE } */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE void */
|
||
/* OBSOLETE _initialize_convex_dep () */
|
||
/* OBSOLETE { */
|
||
/* OBSOLETE add_com ("alias", class_support, alias_command, */
|
||
/* OBSOLETE "Add a new name for an existing command."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_cmd ("base", class_vars, set_base_command, */
|
||
/* OBSOLETE "Change the integer output radix to 8, 10 or 16\n\ */
|
||
/* OBSOLETE or use just `set base' with no args to return to the ad-hoc default,\n\ */
|
||
/* OBSOLETE which is 16 for integers that look like addresses, 10 otherwise.", */
|
||
/* OBSOLETE &setlist); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_cmd ("pipeline", class_run, set_pipelining_command, */
|
||
/* OBSOLETE "Enable or disable overlapped execution of instructions.\n\ */
|
||
/* OBSOLETE With `set pipe off', exceptions are reported with\n\ */
|
||
/* OBSOLETE $pc pointing at the instruction after the faulting one.\n\ */
|
||
/* OBSOLETE The default is `set pipe on', which runs faster.", */
|
||
/* OBSOLETE &setlist); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_cmd ("parallel", class_run, set_parallel_command, */
|
||
/* OBSOLETE "Enable or disable multi-threaded execution of parallel code.\n\ */
|
||
/* OBSOLETE `set parallel off' means run the program on a single CPU.\n\ */
|
||
/* OBSOLETE `set parallel fixed' means run the program with all CPUs assigned to it.\n\ */
|
||
/* OBSOLETE `set parallel on' means run the program on any CPUs that are available.", */
|
||
/* OBSOLETE &setlist); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_com ("1cont", class_run, one_cont_command, */
|
||
/* OBSOLETE "Continue the program, activating only the current thread.\n\ */
|
||
/* OBSOLETE Args are the same as the `cont' command."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_com ("thread", class_run, set_thread_command, */
|
||
/* OBSOLETE "Change the current thread, the one under scrutiny and control.\n\ */
|
||
/* OBSOLETE With no arg, show the active threads, the current one marked with *."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_info ("threads", thread_info, */
|
||
/* OBSOLETE "List status of active threads."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_info ("comm-registers", comm_registers_info, */
|
||
/* OBSOLETE "List communication registers and their contents.\n\ */
|
||
/* OBSOLETE A communication register name as argument means describe only that register.\n\ */
|
||
/* OBSOLETE An address as argument means describe the resource structure at that address.\n\ */
|
||
/* OBSOLETE `Locked' means that the register has been sent to but not yet received from."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_info ("psw", psw_info, */
|
||
/* OBSOLETE "Display $ps, the processor status word, bit by bit.\n\ */
|
||
/* OBSOLETE An argument means display that value's interpretation as a psw."); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE add_cmd ("convex", no_class, 0, "Convex-specific commands.\n\ */
|
||
/* OBSOLETE 32-bit registers $pc $ps $sp $ap $fp $a1-5 $s0-7 $v0-7 $vl $vs $vm $c0-63\n\ */
|
||
/* OBSOLETE 64-bit registers $S0-7 $V0-7 $C0-63\n\ */
|
||
/* OBSOLETE \n\ */
|
||
/* OBSOLETE info threads display info on stopped threads waiting to signal\n\ */
|
||
/* OBSOLETE thread display list of active threads\n\ */
|
||
/* OBSOLETE thread N select thread N (its registers, stack, memory, etc.)\n\ */
|
||
/* OBSOLETE step, next, etc step selected thread only\n\ */
|
||
/* OBSOLETE 1cont continue selected thread only\n\ */
|
||
/* OBSOLETE cont continue all threads\n\ */
|
||
/* OBSOLETE info comm-registers display contents of comm register(s) or a resource struct\n\ */
|
||
/* OBSOLETE info psw display processor status word $ps\n\ */
|
||
/* OBSOLETE set base N change integer radix used by `print' without a format\n\ */
|
||
/* OBSOLETE set pipeline off exceptions are precise, $pc points after the faulting insn\n\ */
|
||
/* OBSOLETE set pipeline on normal mode, $pc is somewhere ahead of faulting insn\n\ */
|
||
/* OBSOLETE set parallel off program runs on a single CPU\n\ */
|
||
/* OBSOLETE set parallel fixed all CPUs are assigned to the program\n\ */
|
||
/* OBSOLETE set parallel on normal mode, parallel execution on random available CPUs\n\ */
|
||
/* OBSOLETE ", */
|
||
/* OBSOLETE &cmdlist); */
|
||
/* OBSOLETE */
|
||
/* OBSOLETE } */
|