Mercurial > hg > xemacs-beta
view src/unexfreebsd.c @ 1330:4542b72c005e
[xemacs-hg @ 2003-03-01 07:25:26 by ben]
build patch
Makefile.in.in: Move src deletions to src/Makefile.in.in.
dump-paths.el, dumped-lisp.el: Delete. Combine stuff into setup-paths.el.
find-paths.el: Removed.
Make this file contain generic routines only. Move stuff to
compute Emacs roots to setup-paths.el.
startup.el: Removed.
Move these variables into setup-paths.el.
setup-paths.el, startup.el: Removed.
Combine all high-level code for computing the paths into
setup-paths.el. Create new function startup-find-load-path to
encapsulate all logic for computing `load-path'. Eliminate
invocation-directory and invocation-name parameters since
there is no point (false generality) -- the code references
other globals, which cannot be specified. Eliminate some code
duplicated between setup-paths.el and startup.el. Clean up
the debug-paths code and output load-path in addition.
Add logic to paths-emacs-root-p to support separated source
and build trees.
loadup.el, make-docfile.el, update-elc-2.el, update-elc.el: Rewrite to allow for separated source and build trees, as may occur
in MS Windows.
NOTE TO BUILD HACKERS:
loadup.el, make-docfile.el, update-elc.el and update-elc-2.el made two
assumptions that are no longer correct:
(1) The source and build trees are in the same place.
(2) They can make assumptions about where `.' is.
These files now compute the locations of the source and build
roots at the top of the file. *ALL* constant file names or path
snippets must now be made absolute using expand-file-name and one
of these roots.
dumped-lisp.el, packages.el: Removed.
Remove some unused lists of Lisp files. packages-hardcoded-lisp
(empty, in any case) moved to dumped-lisp.el.
startup.el: When a compiled init file is out-of-date wrt the uncompiled
version, load the uncompiled version and issue a nasty warning.
update-elc-2.el: Force touching of auto-autoloads files when REBUILD_AUTOLOADS
was set.
update-elc.el: Fix code that checks whether dumping is necessary to check against
xemacs.dmp, not xemacs.exe, when Unix and pdump.
lwlib-Xm.c: Fix compile warning.
README, config.inc.samp, xemacs.mak: -- Major reorganization and cleanup.
-- Add support for separated build tree and source tree.
-- Delete all support for X Windows building, since it's
totally bit-rotten and will never be fixed up. Instruct
people to use Cygwin if they want such support.
make-build-dir: New script to create a skeleton build tree for use with
separated build and source tree compilation.
m/acorn.h, m/alliant-2800.h, m/alliant.h, m/altos.h, m/amdahl.h, m/arm.h, m/att3b.h, m/aviion.h, m/clipper.h, m/cnvrgnt.h, m/convex.h, m/cydra5.h, m/delta.h, m/delta88k.h, m/dpx2.h, m/elxsi.h, m/ews4800r.h, m/gould.h, m/hp800.h, m/hp9000s300.h, m/i860.h, m/ibmps2-aix.h, m/ibmrs6000.h, m/ibmrt-aix.h, m/ibmrt.h, m/intel386.h, m/iris4d.h, m/iris5d.h, m/iris6d.h, m/irist.h, m/m68k.h, m/masscomp.h, m/mg1.h, m/mips-nec.h, m/mips-siemens.h, m/mips.h, m/nh3000.h, m/nh4000.h, m/ns32000.h, m/plexus.h, m/powerpc.h, m/sequent-ptx.h, m/sequent.h, m/sgi-challenge.h, m/stride.h, m/tad68k.h, m/targon31.h, m/tekxd88.h, m/template.h, m/tower32.h, m/tower32v3.h, m/ustation.h, m/wicat.h, m/xps100.h, data.c, doc.c, editfns.c, emacs.c, lrecord.h, ntheap.c, process-unix.c, sysdep.c, unexec.c: Delete all support for bit-rotten CANNOT_DUMP. Just use pdump.
Makefile.in.in: Lots o' cleanup. Use names like LISP, SRC instead of
lispdir, srcdir, for consistency with xemacs.mak and the
conventions in the rest of the file. Eliminate use of ${...}
in favor of $(...), to make it easier to move code between
this file and xemacs.mak. Fix dependency handling wrt
NEEDTODUMP to eliminate problems some people (e.g. Vin) have
been seeing with non-GNU makes. Write a long section about
the subtle but oh-so-important differences in dependency
processing between nmake, make, and GNU make. Add
unicode-encapsulate target, from xemacs.mak.
chartab.c, lrecord.h: Fix crash due to attempt to free objects across dump/undump.
| author | ben |
|---|---|
| date | Sat, 01 Mar 2003 07:25:56 +0000 |
| parents | 2b6fa2618f76 |
| children | 04bc9d2f42c7 |
line wrap: on
line source
/* Code to do an unexec for FreeBSD-1.1 for a temacs linked -Bdynamic. Derived from unexnetbsd.c, which was derived from unexsunos4.c 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 Tweaked 06-Aug-93 by Dean Michaels to work with sun3. Converted 01-Dec-93 by Paul Mackerras to work with NetBSD shared libraries. Tweaked 26-Feb-94 by Shawn Carey for use with FreeBSD-1.1 shared libraries. */ /********************** Included .h Files **************************/ #include <config.h> #include <stdarg.h> #include <sys/param.h> #include <sys/mman.h> #include <sys/file.h> #include <sys/stat.h> #include <sys/types.h> #include <string.h> #include <stdio.h> #include <errno.h> #include <a.out.h> #include <unistd.h> #include <ctype.h> #include <stab.h> #include <sys/dir.h> #include <link.h> /********************** Macros *************************************/ #define SYS_ERR strerror(errno) #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))) /********************** Typedefs and Structs ***********************/ struct translation_struct { long txtaddr; long txtoff; long dataddr; long datoff; long bssaddr; long endaddr; }; /********************** Function Prototypes/Declarations ***********/ static void unexec_error (const char *m, int use_errno, ...); static int unexec_open (char *filename, int flag, int mode); static caddr_t unexec_mmap (int fd, size_t len, int prot, int flags); 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_pad (int fd, int bytes); static void unexec_fstat (int fd, struct stat *statptr); static void unexec_fchmod (int fd, int mode); static long unexec_addr_to_offset (long addr, struct translation_struct *ts); static void copy_relocation_site (struct relocation_info *ri, caddr_t from_base_addr, caddr_t to_base_addr, struct translation_struct *ts); static void reset_symtab (struct nlist *start, struct nlist *end, char *strtab, long edata_value, long end_value, int shlib_image); static void reset_ldso_symtab (struct nzlist *start, struct nzlist *end, char *strtab, long edata_value, long end_value, int shlib_image); int run_time_remap (char *dummy); /********************** Variables **********************************/ /* for reporting error messages from system calls */ 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, filename); return fd; } static caddr_t unexec_mmap (int fd, size_t len, int prot, int flags) { caddr_t return_val; unexec_seek (fd, 0); errno = 0; return_val = mmap (0, len, prot, flags, fd, 0); if (return_val == (caddr_t) -1) unexec_error ("Failure mmap'ing file", 1); return return_val; } static long unexec_seek (int fd, long position) { long seek_value; if (fd <= 0) unexec_error ("No file open in which to seek", 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, position, "unexec() output file"); 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, bytes); 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, bytes, 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, bytes, "unexec() output file"); 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, bytes, position, "unexec() output file"); buf += n_written; remains -= n_written; } 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, fd); return; } static void unexec_fchmod (int fd, int mode) { errno = 0; if (-1 == fchmod (fd, mode)) unexec_error ("fchmod() failed for descriptor %d", 1, fd); return; } static long unexec_addr_to_offset (long addr, struct translation_struct *ts) { if ((addr < ts->txtaddr) || (addr >= ts->bssaddr)) return -1; else if (addr >= ts->dataddr) return ((long) ((addr - ts->dataddr) + ts->datoff)); else return ((long) ((addr - ts->txtaddr) + ts->txtoff)); } /* * "LD.SO" DATA AND SYMBOL TABLE OPERATIONS */ static void copy_relocation_site (struct relocation_info *ri, caddr_t from_base_addr, caddr_t to_base_addr, struct translation_struct *ts) { long offset; caddr_t from, to; /* We can get relocation sites in the bss region, for objects whose contents are copied from a shared library. We don't need or want to restore these at present. */ #ifndef sparc if (ri->r_copy) return; #else /* Struct relocation_info_sparc doesn't have member r_copy. Instead, we use the address to check if this is run-time-copied. */ if (ri->r_address >= ts->bssaddr && ri->r_address < ts->endaddr) return; #endif offset = unexec_addr_to_offset (ri->r_address, ts); if (offset == -1) unexec_error ("bad relocation address 0x%x (0x%x)", 0, ri->r_address, ((long *)ri)[1]); from = from_base_addr + offset; to = to_base_addr + offset; /* This stuff should be in a md_ file somewhere... */ #ifndef sparc switch (ri->r_length) { case 0: *((char *) to) = *((char *) from); break; case 1: *((short *) to) = *((short *) from); break; case 2: *((long *) to) = *((long *) from); break; default: unexec_error ("unknown reloc length %d seen during unexec()", 0, ri->r_length); break; } #else /* sparc */ switch (ri->r_type) { case RELOC_8: case RELOC_DISP8: *((char *) to) = *((char *) from); break; case RELOC_16: case RELOC_DISP16: *((short *) to) = *((short *) from); break; case RELOC_LO10: case RELOC_13: case RELOC_22: case RELOC_HI22: case RELOC_WDISP22: case RELOC_WDISP30: case RELOC_32: case RELOC_DISP32: case RELOC_GLOB_DAT: *((long *) to) = *((long *) from); break; case RELOC_JMP_SLOT: { long *target = (long *) to; long *source = (long *) from; *target = *source; target++; source++; *target = *source; target++; source++; *target = *source; } break; default: unexec_error ("unknown reloc type %d seen during unexec()", 0, ri->r_type); break; } #endif /* sparc */ } static void reset_symtab (struct nlist *start, struct nlist *end, char *strtab, long edata_value, long end_value, int shlib_image) { struct nlist *tmp = start; int found_edata = 0; int found_end = 0; while (tmp < end) { int type = tmp->n_type; if ((type == (N_UNDF | N_EXT)) && (tmp->n_value != 0)) unexec_error ("unexec'ing image has COMMON symbols in it -- we quit!", 0); if (!(type & N_STAB)) { if (!found_edata && (type == (N_EXT | N_DATA)) && tmp->n_un.n_strx && !strcmp ("_edata", strtab + tmp->n_un.n_strx)) { tmp->n_value = edata_value; found_edata = 1; } if ((type & N_TYPE) == N_BSS) { if (!found_end && (type == (N_EXT | N_BSS)) && tmp->n_un.n_strx && !strcmp ("_end", strtab + tmp->n_un.n_strx)) { tmp->n_value = end_value; found_end = 1; } else if (type & N_EXT) tmp->n_type = N_DATA | N_EXT; else tmp->n_type = N_DATA; } /* the way things are being handled here, having sbrk() in the image is fatal for an image linked with shared lib's (although the code could be modified to support it), but this should never happen anyway */ if (shlib_image && (type == (N_EXT | N_TEXT)) && tmp->n_un.n_strx && !strcmp ("_sbrk", strtab + tmp->n_un.n_strx)) unexec_error ("unexec'd shlib image has sbrk() in it -- we quit!", 0); } tmp++; } } static void reset_ldso_symtab (struct nzlist *start, struct nzlist *end, char *strtab, long edata_value, long end_value, int shlib_image) { struct nzlist *tmp = start; int found_edata = 0; int found_end = 0; while (tmp < end) { int type = tmp->nz_type; /* * the following code breaks under FreeBSD-1.1-BETA, but everything * seems to work perfectly if it's commented out. This did not break * anything until the changes to ld.so were made. */ /* if ((type == (N_UNDF | N_EXT)) && (tmp->nz_value != 0)) unexec_error("unexec'ing image has COMMON symbols in rel -- we quit!",0); */ if (!(type & N_STAB)) { if (!found_edata && (type == (N_EXT | N_DATA)) && !strcmp ("_edata", strtab + tmp->nz_strx)) { tmp->nz_value = edata_value; found_edata = 1; } if ((type & N_TYPE) == N_BSS) { if (!found_end && (type == (N_EXT | N_BSS)) && !strcmp ("_end", strtab + tmp->nz_strx)) { tmp->nz_value = end_value; found_end = 1; } else if (type & N_EXT) tmp->nz_type = N_DATA | N_EXT; else tmp->nz_type = N_DATA; } /* the way things are being handled here, having sbrk() in the image is fatal for an image linked with shared lib's (although the code could be modified to support it), but this should never happen anyway */ if (shlib_image && (type == (N_EXT | N_TEXT)) && !strcmp ("_sbrk", strtab + tmp->nz_strx)) unexec_error("unexec'd shlib image has sbrk() ref -- we quit!", 0); } tmp++; } } extern int getpagesize (void); /* * 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) { /* ld.so data */ struct _dynamic *ld = 0; struct section_dispatch_table *ld2 = 0; /* old and new state */ int old_fd; int new_fd; caddr_t old_base_addr; caddr_t new_base_addr; struct exec old_hdr; struct exec new_hdr; struct stat old_buf; struct stat new_buf; /* some process specific "constants" */ unsigned long n_pagsiz, new_edata; long page_size = getpagesize (); caddr_t plt_end; caddr_t current_break = (caddr_t) sbrk (0); if (!page_size) unexec_error ("unexec() failed because we can't get the size of a page!", 0); /* see if this is a -Bdynamic image -- if so, find ld.so structures */ if (dynamic_addr) { ld = (struct _dynamic *) dynamic_addr; ld2 = ld->d_un.d_sdt; if (ld->d_version < LD_VERSION_BSD) unexec_error ("%s linked with obsolete version of ld -- we quit!", 0, old_name); } /* 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 = __LDPGSZ; if (dynamic_addr) plt_end = (caddr_t) MASK_UP (ld2->sdt_plt + ld2->sdt_plt_sz, sizeof (double)); else plt_end = (caddr_t) N_DATADDR (old_hdr); #if 0 /* never write protect the variable "environ", defined in /lib/crt0.o, and set in process.c */ mprotect_bottom_addr = ((unsigned long) &environ) + sizeof (char **); /* never protect ABOVE the end of data emacs_edata specified */ mprotect_top_addr = MIN (emacs_edata, N_DATADDR (old_hdr) + old_hdr.a_data); #endif /* Set up the image of the old file */ old_base_addr = unexec_mmap (old_fd, old_buf.st_size, PROT_READ, MAP_FILE | MAP_PRIVATE); close (old_fd); /* set up the new exec */ new_hdr = old_hdr; new_edata = (unsigned long) MASK_UP (current_break, n_pagsiz); new_hdr.a_data = new_edata - ((unsigned long) N_DATADDR (old_hdr)); new_hdr.a_bss = 0; /* 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 = N_DATOFF (old_hdr); long old_dataddr = N_DATADDR (old_hdr); long new_treloff = N_RELOFF (new_hdr); long old_treloff = N_RELOFF (old_hdr); long ld_so_size = ((unsigned long) plt_end) - old_dataddr; long real_data_size = current_break - plt_end; long pad_size = MASK_UP (current_break, n_pagsiz) - ((unsigned long) current_break); /* First, write the text segment with new header -- copy everything until the start of the data segment from the old file, and then go back and write the new header. */ unexec_write (new_fd, 0, old_base_addr, old_datoff + ld_so_size); unexec_write (new_fd, 0, (char *) &new_hdr, sizeof (new_hdr)); /* Copy the rest of the data segment from the running image. */ unexec_write (new_fd, old_datoff + ld_so_size, plt_end, real_data_size); /* pad out the data segment */ unexec_pad (new_fd, pad_size); /* Finally, copy the symbol table information from the old file. */ unexec_write (new_fd, new_treloff, old_base_addr + old_treloff, old_buf.st_size - old_treloff); } /* Next, map in the output file so that we can jump around fixing it up. We retain the old file so that we can refer to it. */ unexec_fstat (new_fd, &new_buf); new_base_addr = unexec_mmap (new_fd, MASK_UP (new_buf.st_size, page_size), PROT_READ | PROT_WRITE, MAP_FILE | MAP_SHARED); /* We need to do 2 things. First, make sure that _edata and _end (and hence, curbrk) are set to the correct values. At the same time, for neatness and to help with debugging, mark all the types of all ld.so and nm BSS symbols in the new file to be DATA, and make sure that there are no COMMON symbols in the output file, as any references to these can lose really big. Second, reset all of the ld.so "relocation sites" in the new file to have the values that appear in the old file -- the failure to do this was the biggest loser in the old version of this code. */ /* STEP 1 */ /* Reset the regular symbol table first. */ reset_symtab ((struct nlist *) (new_base_addr + N_SYMOFF(new_hdr)), (struct nlist *) (new_base_addr + N_SYMOFF(new_hdr) + new_hdr.a_syms), (char *) (new_base_addr + N_STROFF(new_hdr)), new_edata, new_edata, !!dynamic_addr); /* Now reset the ld.so symbol table. */ if (dynamic_addr) { struct translation_struct ts; struct relocation_info *tmp, *end; caddr_t syms, strings; /* set up the structure that we use to translate addresses in the old file into file offsets */ ts.txtaddr = N_TXTADDR (old_hdr); ts.txtoff = N_TXTOFF (old_hdr); ts.dataddr = N_DATADDR (old_hdr); ts.datoff = N_DATOFF (old_hdr); ts.bssaddr = N_DATADDR (old_hdr) + old_hdr.a_data; ts.endaddr = ts.bssaddr + old_hdr.a_bss; syms = new_base_addr + unexec_addr_to_offset(ld2->sdt_nzlist, &ts); strings = new_base_addr + unexec_addr_to_offset(ld2->sdt_strings, &ts); reset_ldso_symtab ((struct nzlist *) syms, (struct nzlist *) strings, (char *) strings, new_edata, new_edata, !!dynamic_addr); /* STEP 2 */ tmp = (struct relocation_info *) (old_base_addr + unexec_addr_to_offset(ld2->sdt_rel, &ts)); end = (struct relocation_info *) (old_base_addr + unexec_addr_to_offset(ld2->sdt_hash, &ts)); while (tmp < end) { copy_relocation_site (tmp, old_base_addr, new_base_addr, &ts); tmp++; } } /* get rid of the mmap-ed file space and make the output file executable -- then quit */ munmap (new_base_addr, MASK_UP (new_buf.st_size, page_size)); munmap (old_base_addr, MASK_UP (old_buf.st_size, page_size)); unexec_fchmod (new_fd, 0755); close (new_fd); return 0; } int run_time_remap (char *dummy) { unsigned long current_sbrk = (unsigned long) sbrk (0); #if __FreeBSD_version < 300000 /* 2.x can work with this code */ if (sbrk_of_0_at_unexec < current_sbrk) { if (sbrk_of_0_at_unexec != 0) fprintf (stderr, "Absurd new brk addr = %lx (current = %lx)\n", sbrk_of_0_at_unexec, current_sbrk); } else #endif if (sbrk_of_0_at_unexec > current_sbrk) { errno = 0; if (brk ((caddr_t) sbrk_of_0_at_unexec)) fprintf (stderr, "failed to change brk addr to %lx: %s\n", sbrk_of_0_at_unexec, SYS_ERR); } #if 0 /* with proper COW, i don't think we really need to do this... */ { long page_size = getpagesize(); unsigned long base_addr = MASK_UP (mprotect_bottom_addr, page_size); unsigned long top_addr = MASK_DOWN (mprotect_top_addr, page_size); long len = top_addr - base_addr; if (len > 0) { errno = 0; if (mprotect ((caddr_t) base_addr, len, PROT_READ | PROT_EXEC)) fprintf (stderr, "failed to change protection on data pages: %s\n", SYS_ERR); } } #endif return 0; }