Mercurial > hg > xemacs-beta
view src/unexhp9k3.c @ 510:5bdbc721d46a
[xemacs-hg @ 2001-05-06 08:33:35 by ben]
implement printing the selection when it's selected.
force redisplay when set-charset-ccl-program called.
if bytecomp or byte-optimize need recompiling, then load
the .el version of them first, recompile them, and reload
the .elc versions to recompile everything else (so we won't
be waiting until the cows come home).
| author | ben |
|---|---|
| date | Sun, 06 May 2001 08:33:41 +0000 |
| parents | abe6d1db359e |
| children | 13e47461d509 |
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/* * Code to do an unexec for HPUX 8.0 on an HP9000/[34]00 for a * dynamically linked temacs. Copyright (C) 1992-1993 Free Software Foundation, Inc. This file is part of XEmacs. XEmacs is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. XEmacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with XEmacs; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Synched up with: Not in FSF. */ /* Created 29-Oct-92 by Harlan Sexton for SunOS Modified Jan 93 by Hamish Macdonald for HPUX */ /********************** Included .h Files **************************/ #include <config.h> #include <stdarg.h> #include <sys/param.h> #include <sys/file.h> #include <sys/stat.h> #include <sys/types.h> #include <string.h> #include <stdio.h> #include <errno.h> #include <signal.h> #ifdef __hp9000s300 # include </usr/include/debug.h> #endif #include <a.out.h> #include <unistd.h> #include <ctype.h> #include <sys/dir.h> #include "sysdep.h" /* XEmacs: Richard Cognot <cognot@ensg.u-nancy.fr> says we need these */ extern void perror(const char*); extern int sys_nerr; extern char *sys_errlist[]; extern char *strerror (int); /********************** Macros *************************************/ #define SYS_ERR \ ((errno > 0)?((errno < sys_nerr)?(sys_errlist[errno]):\ "unknown system error"): "unknown error") #define MASK_UP(x,p_of_two) \ ((((unsigned long) (x)) + ((p_of_two) - 1)) & (~((p_of_two) - 1))) #define MASK_DOWN(x,p_of_two) (((unsigned long) (x)) & (~((p_of_two) - 1))) /********************** Function Prototypes/Declarations ***********/ static void unexec_error (const char *fmt, int use_errno, ...); static int unexec_open (char *filename, int flag, int mode); static long unexec_seek (int fd, long position); static void unexec_read (int fd, long position, char *buf, int bytes); static void unexec_write (int fd, long position, char *buf, int bytes); static void unexec_copy (int new_fd, int old_fd, long old_pos, long new_pos, int bytes); static void unexec_pad (int fd, int bytes); static void unexec_fstat (int fd, struct stat *statptr); static void unexec_fchmod (int fd, int mode); int run_time_remap (char *dummy); /********************** Variables **********************************/ /* for reporting error messages from system calls */ extern int sys_nerr; extern int _DYNAMIC; extern char **environ; static unsigned long sbrk_of_0_at_unexec; /*******************************************************************/ static void unexec_error (const char *fmt, int use_errno, ...) { const char *err_msg = SYS_ERR; va_list args; fprintf (stderr, "unexec - "); va_start (args, use_errno); vfprintf (stderr, fmt, args); va_end (args); if (use_errno) fprintf (stderr, ": %s", err_msg); fprintf (stderr, "\n"); exit (1); return; } static int unexec_open (char *filename, int flag, int mode) { int fd; errno = 0; fd = open (filename, flag, mode); if (fd < 0) { unexec_error ("Failure opening file %s", 1, (void *) filename, 0, 0); return -1; } else return fd; } static long unexec_seek (int fd, long position) { long seek_value; if (fd <= 0) unexec_error ("No file open in which to seek", 0, 0, 0, 0); errno = 0; if (position < 0) seek_value = (long) lseek (fd, 0, L_INCR); else seek_value = (long) lseek (fd, position, L_SET); if (seek_value < 0) unexec_error ("Failed to do a seek to 0x%x in %s", 1, (char *) position, "unexec() output file", 0); return seek_value; } static void unexec_read (int fd, long position, char *buf, int bytes) { int n_read; int remains = bytes; position = unexec_seek (fd, position); if (bytes < 0) unexec_error ("Attempted read of %d bytes", 0, (char *) bytes, 0, 0); errno = 0; while (remains > 0) { n_read = read (fd, buf, remains); if (n_read <= 0) unexec_error ("Read failed for 0x%x bytes at offset 0x%x in %s", 1, (char *) bytes, (char *) position, "unexec() output file"); buf += n_read; remains -= n_read; } return; } static void unexec_write (int fd, long position, char *buf, int bytes) { int n_written; int remains = bytes; position = unexec_seek (fd, position); if (bytes < 0) unexec_error ("Attempted write of %d bytes in %s", 0, (char *) bytes, "unexec() output file", 0); errno = 0; while (remains > 0) { n_written = write (fd, buf, remains); if (n_written <= 0) unexec_error ("Write failed for 0x%x bytes at offset 0x%x in %s", 1, (char *) bytes, (char *) position, "unexec() output file"); buf += n_written; remains -= n_written; } return; } static void unexec_copy (int new_fd, int old_fd, long old_pos, long new_pos, int bytes) { int remains = bytes; char buf[128]; while (remains > 0) { int n_to_copy = remains > sizeof(buf) ? sizeof(buf) : remains; unexec_read (old_fd, old_pos, buf, n_to_copy); unexec_write (new_fd, new_pos, buf, n_to_copy); old_pos += n_to_copy; new_pos += n_to_copy; remains -= n_to_copy; } return; } static void unexec_pad (int fd, int bytes) { if (bytes > 0) { char buf[1024]; int remaining = bytes; memset (buf, 0, sizeof(buf)); while (remaining > 0) { int this_write = (remaining > sizeof(buf))?sizeof(buf):remaining; unexec_write (fd, -1, buf, this_write); remaining -= this_write; } } } static void unexec_fstat (int fd, struct stat *statptr) { errno = 0; if (-1 == fstat (fd, statptr)) unexec_error ("fstat() failed for descriptor %d", 1, (char *) fd, 0, 0); return; } static void unexec_fchmod (int fd, int mode) { errno = 0; if (-1 == fchmod (fd, mode)) unexec_error ("fchmod() failed for descriptor %d", 1, (char *) fd, 0, 0); return; } /* * EXPORTED FUNCTIONS */ /* this has to be a global variable to prevent the optimizers from * assuming that it can not be 0. */ static void *dynamic_addr = (void *) &_DYNAMIC; int unexec (char *new_name, char *old_name, unsigned int emacs_edata, unsigned int dummy1, unsigned int dummy2) { /* /dld.sl data */ struct dynamic *ld = 0; /* old and new state */ int old_fd; int new_fd; struct exec old_hdr; struct exec new_hdr; struct stat old_buf; /* some process specific "constants" */ unsigned long n_pagsiz; caddr_t dynamic_beg; caddr_t current_break = (caddr_t) sbrk (0); /* dynamically linked image? -- if so, find dld.sl structures */ if (dynamic_addr) { ld = (struct dynamic *) dynamic_addr; #ifdef DEBUG printf ("dl_text = %#x\n", ld->text); printf ("dl_data = %#x\n", ld->data); printf ("dl_bss = %#x\n", ld->bss); printf ("dl_end = %#x\n", ld->end); printf ("dl_dmodule = %#x\n", ld->dmodule); printf ("dl_dlt = %#x\n", ld->dlt); printf ("dl_plt = %#x\n", ld->plt); #endif } /* open the old and new files, figuring out how big the old one is so that we can map it in */ old_fd = unexec_open (old_name, O_RDONLY, 0); new_fd = unexec_open (new_name, O_RDWR | O_CREAT | O_TRUNC, 0666); /* setup the header and the statbuf for old_fd */ unexec_read (old_fd, 0, (char *) &old_hdr, sizeof (old_hdr)); unexec_fstat (old_fd, &old_buf); /* set up some important constants */ n_pagsiz = EXEC_PAGESIZE; /* setup beginning of data to copy from executable */ if (ld) dynamic_beg = ld->dmodule; else dynamic_beg = (caddr_t)EXEC_ALIGN (old_hdr.a_text) + old_hdr.a_data; /* set up the new exec */ new_hdr = old_hdr; new_hdr.a_text = MASK_DOWN (emacs_edata, n_pagsiz); new_hdr.a_data = MASK_UP (current_break, n_pagsiz) - EXEC_ALIGN(new_hdr.a_text); new_hdr.a_bss = 0; #ifdef DEBUG printf ("old text %#x\n", old_hdr.a_text); printf ("new text %#x\n", new_hdr.a_text); printf ("old data %#x\n", old_hdr.a_data); printf ("new data %#x\n", new_hdr.a_data); printf ("old bss %#x\n", old_hdr.a_bss); printf ("new bss %#x\n", new_hdr.a_bss); #endif /* set up this variable, in case we want to reset "the break" when restarting */ sbrk_of_0_at_unexec = ((unsigned long) MASK_UP (current_break, n_pagsiz)); /* Write out the first approximation to the new file. The sizes of each section will be correct, but there will be a number of corrections that will need to be made. */ { long old_datoff = DATA_OFFSET (old_hdr); long new_datoff = DATA_OFFSET (new_hdr); long old_dataddr = EXEC_ALIGN (old_hdr.a_text); long new_dataddr = EXEC_ALIGN (new_hdr.a_text); long new_mcaloff = MODCAL_OFFSET (new_hdr); long old_mcaloff = MODCAL_OFFSET (old_hdr); long newtext_size = new_hdr.a_text - old_dataddr; long newdata1_size = (unsigned long)dynamic_beg - new_dataddr; long dyn_size = (EXEC_ALIGN (old_hdr.a_text) + old_hdr.a_data) - (unsigned long)dynamic_beg; long newdata2_size = (unsigned long)current_break - ((unsigned long)dynamic_beg + dyn_size); long pad_size = MASK_UP (current_break, n_pagsiz) - ((unsigned long) current_break); #ifdef DEBUG printf ("current break is %#lx\n", current_break); printf ("old_dataddr = %#lx, dynamic_beg = %#lx\n", old_dataddr, dynamic_beg); #endif /* * First, write the text segment with new header -- copy * everything until the start of the data segment from the old * file */ #ifdef DEBUG printf ("copying %#lx bytes of text from 0\n", old_datoff); #endif unexec_copy (new_fd, old_fd, 0, 0, old_datoff); /* pad out the text segment */ #ifdef DEBUG printf ( "text pad size is %#x\n", old_dataddr - old_hdr.a_text); #endif unexec_pad (new_fd, old_dataddr - old_hdr.a_text); /* * Update debug header spoo */ if (new_hdr.a_extension > 0) { new_hdr.a_extension += LESYM_OFFSET(new_hdr) - LESYM_OFFSET(old_hdr); } /* * go back and write the new header. */ unexec_write (new_fd, 0, (char *) &new_hdr, sizeof (new_hdr)); /* * Copy the part of the data segment which becomes text from the * running image. */ #ifdef DEBUG printf ("copying %#lx bytes of new text from %#lx to position %#lx\n", newtext_size, old_dataddr, TEXT_OFFSET(new_hdr) + old_dataddr); #endif unexec_write (new_fd, TEXT_OFFSET(new_hdr) + old_dataddr, (caddr_t)old_dataddr, newtext_size); #ifdef DEBUG printf ("new DATA_OFFSET is %#lx\n", new_datoff); #endif /* * Copy the part of the old data segment which will be data * in the new executable (before the dynamic stuff) * from the running image. */ #ifdef DEBUG printf ("copying %#lx bytes of data from %#lx to position %#lx\n", newdata1_size, new_dataddr, new_datoff); #endif unexec_write (new_fd, new_datoff, (caddr_t)new_dataddr, newdata1_size); /* copy the dynamic part of the data segment from the old executable */ if (dyn_size) { #ifdef DEBUG printf ("copying %#lx bytes of dyn data from executable" " at address %#lx to position %#lx\n", dyn_size, dynamic_beg, new_datoff + newdata1_size); #endif unexec_copy (new_fd, old_fd, old_datoff + newtext_size + newdata1_size, new_datoff + newdata1_size, dyn_size); } /* copy remaining data (old bss) from the running image */ #ifdef DEBUG printf ("copying %#lx bytes of data from %#lx to position %#lx\n", newdata2_size, new_dataddr + newdata1_size + dyn_size, new_datoff + newdata1_size + dyn_size); #endif unexec_write (new_fd, new_datoff + newdata1_size + dyn_size, (caddr_t)(new_dataddr + newdata1_size + dyn_size), newdata2_size); /* pad out the data segment */ #ifdef DEBUG printf ( "pad size is %#x\n", pad_size); #endif unexec_pad (new_fd, pad_size); /* Finally, copy the rest of the junk from the old file. */ #ifdef DEBUG printf ("Copying %#lx bytes of junk from %#lx (old) to %#lx (new)\n", old_buf.st_size - old_mcaloff, old_mcaloff, new_mcaloff); #endif unexec_copy (new_fd, old_fd, old_mcaloff, new_mcaloff, old_buf.st_size - old_mcaloff); { long curpos, offset; struct _debug_header dhdr; int new_header_delta; new_header_delta = LESYM_OFFSET(new_hdr) - LESYM_OFFSET(old_hdr); if ((new_header_delta > 0) && ((offset = EXT_OFFSET(old_hdr)) > 0)) { curpos = lseek(new_fd, 0, SEEK_CUR); lseek(old_fd, offset, 0); if (read(old_fd, &dhdr, sizeof(dhdr)) == sizeof(dhdr)) { dhdr.header_offset += new_header_delta; dhdr.gntt_offset += new_header_delta; dhdr.lntt_offset += new_header_delta; dhdr.slt_offset += new_header_delta; dhdr.vt_offset += new_header_delta; dhdr.xt_offset += new_header_delta; lseek(new_fd, EXT_OFFSET(new_hdr), SEEK_SET); if (write(new_fd, &dhdr, sizeof(dhdr)) != sizeof(dhdr)) { unexec_error("Unable to write debug information to \"%s\"\n", 1, new_name); } lseek(new_fd, curpos, SEEK_SET); } else { unexec_error("Unable to read debug information from \"%s\"\n", 1, old_name); } } } } /* make the output file executable -- then quit */ unexec_fchmod (new_fd, 0755); close (old_fd); close (new_fd); return 0; } int run_time_remap (char *dummy) { unsigned long current_sbrk = (unsigned long) sbrk (0); if (sbrk_of_0_at_unexec < current_sbrk) fprintf (stderr, "Absurd new brk addr = 0x%x (current = 0x%x)\n", sbrk_of_0_at_unexec, current_sbrk); else { errno = 0; if (brk ((caddr_t) sbrk_of_0_at_unexec)) fprintf (stderr, "failed to change brk addr to 0x%x: %s\n", sbrk_of_0_at_unexec, SYS_ERR); } return 0; }