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/* Dump Emacs in macho format.
Copyright (C) 1990, 1993 Free Software Foundation, Inc.
Written by Bradley Taylor (btaylor@next.com).
This file is part of GNU Emacs.
GNU Emacs 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.
GNU Emacs 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 GNU Emacs; see the file COPYING. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA. */
#undef __STRICT_BSD__
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <mach/mach.h>
#include <mach-o/loader.h>
#include <mach-o/reloc.h>
#include <sys/file.h>
#include <sys/stat.h>
#include <unistd.h>
/* Instead of unistd.h, this used to include libc.h.
"Nelson H. F. Beebe" <beebe@math.utah.edu> says that doesn't work
in system version 3.3. */
int malloc_cookie;
/*
* Kludge: we don't expect any program data beyond VM_HIGHDATA
* What is really needed is a way to find out from malloc() which
* pages it vm_allocated and write only those out into the data segment.
*
* This kludge may break when we stop using fixed virtual address
* shared libraries. Actually, emacs will probably continue working, but be
* much larger on disk than it needs to be (because non-malloced data will
* be in the file).
*/
static const unsigned VM_HIGHDATA = 0x2000000;
typedef struct region_t {
vm_address_t address;
vm_size_t size;
vm_prot_t protection;
vm_prot_t max_protection;
vm_inherit_t inheritance;
boolean_t shared;
port_t object_name;
vm_offset_t offset;
} region_t;
static void
grow(
struct load_command ***the_commands,
unsigned *the_commands_len
)
{
if (*the_commands == NULL) {
*the_commands_len = 1;
*the_commands = malloc(sizeof(*the_commands));
} else {
(*the_commands_len)++;
*the_commands = realloc(*the_commands,
(*the_commands_len *
sizeof(**the_commands)));
}
}
static void
save_command(
struct load_command *command,
struct load_command ***the_commands,
unsigned *the_commands_len
)
{
struct load_command **tmp;
grow(the_commands, the_commands_len);
tmp = &(*the_commands)[*the_commands_len - 1];
*tmp = malloc(command->cmdsize);
bcopy(command, *tmp, command->cmdsize);
}
static void
fatal_unexec(char *format, ...)
{
va_list ap;
va_start(ap, format);
fprintf(stderr, "unexec: ");
vfprintf(stderr, format, ap);
fprintf(stderr, "\n");
va_end(ap);
}
static int
read_macho(
int fd,
struct mach_header *the_header,
struct load_command ***the_commands,
unsigned *the_commands_len
)
{
struct load_command command;
struct load_command *buf;
int i;
int size;
if (read(fd, the_header, sizeof(*the_header)) != sizeof(*the_header)) {
fatal_unexec("cannot read macho header");
return (0);
}
for (i = 0; i < the_header->ncmds; i++) {
if (read(fd, &command, sizeof(struct load_command)) !=
sizeof(struct load_command)) {
fatal_unexec("cannot read macho load command header");
return (0);
}
size = command.cmdsize - sizeof(struct load_command);
if (size < 0) {
fatal_unexec("bogus load command size");
return (0);
}
buf = malloc(command.cmdsize);
buf->cmd = command.cmd;
buf->cmdsize = command.cmdsize;
if (read(fd, ((char *)buf +
sizeof(struct load_command)),
size) != size) {
fatal_unexec("cannot read load command data");
return (0);
}
save_command(buf, the_commands, the_commands_len);
}
return (1);
}
static int
filldatagap(
vm_address_t start_address,
vm_size_t *size,
vm_address_t end_address
)
{
vm_address_t address;
vm_size_t gapsize;
address = (start_address + *size);
gapsize = end_address - address;
*size += gapsize;
if (vm_allocate(task_self(), &address, gapsize,
FALSE) != KERN_SUCCESS) {
fatal_unexec("cannot vm_allocate");
return (0);
}
return (1);
}
static int
get_data_region(
vm_address_t *address,
vm_size_t *size
)
{
region_t region;
kern_return_t ret;
struct section *sect;
sect = (struct section *) getsectbyname(SEG_DATA, SECT_DATA);
region.address = 0;
*address = 0;
for (;;) {
ret = vm_region(task_self(),
®ion.address,
®ion.size,
®ion.protection,
®ion.max_protection,
®ion.inheritance,
®ion.shared,
®ion.object_name,
®ion.offset);
if (ret != KERN_SUCCESS || region.address >= VM_HIGHDATA) {
break;
}
if (*address != 0) {
if (region.address > *address + *size) {
if (!filldatagap(*address, size,
region.address)) {
return (0);
}
}
*size += region.size;
} else {
if (region.address == sect->addr) {
*address = region.address;
*size = region.size;
}
}
region.address += region.size;
}
return (1);
}
static char *
my_malloc(
vm_size_t size
)
{
vm_address_t address;
if (vm_allocate(task_self(), &address, size, TRUE) != KERN_SUCCESS) {
return (NULL);
}
return ((char *)address);
}
static void
my_free(
char *buf,
vm_size_t size
)
{
vm_deallocate(task_self(), (vm_address_t)buf, size);
}
static int
unexec_doit(
int infd,
int outfd
)
{
int i;
struct load_command **the_commands = NULL;
unsigned the_commands_len;
struct mach_header the_header;
int fgrowth = 0;
int fdatastart;
int fdatasize;
int size;
struct stat st;
char *buf;
vm_address_t data_address;
vm_size_t data_size;
vm_size_t vmaddr_growth = 0;
vm_size_t dataseg_vmaddr, dataseg_vmend;
struct segment_command *segment;
#ifdef NS_TARGET
unsigned long extreloff = 0;
unsigned long nextrel = 0;
struct dysymtab_command *dysymtab;
struct relocation_info reloc_info;
#endif
if (!read_macho(infd, &the_header, &the_commands, &the_commands_len)) {
return (0);
}
malloc_cookie = malloc_freezedry ();
if (!get_data_region(&data_address, &data_size)) {
return (0);
}
/*
* DO NOT USE MALLOC IN THIS SECTION
*/
{
/*
* Fix offsets
*/
for (i = 0; i < the_commands_len; i++) {
switch (the_commands[i]->cmd) {
case LC_SEGMENT:
segment = ((struct segment_command *)
the_commands[i]);
if (strcmp(segment->segname, SEG_DATA) == 0) {
fdatastart = segment->fileoff;
fdatasize = segment->filesize;
fgrowth = (data_size -
segment->filesize);
segment->vmsize = data_size;
segment->filesize = data_size;
dataseg_vmaddr = segment->vmaddr;
dataseg_vmend = segment->vmaddr + segment->vmsize;
vmaddr_growth = segment->vmaddr + segment->vmsize;
} else {
((struct segment_command *)the_commands[i])->fileoff += fgrowth;
}
if( strcmp( segment->segname, SEG_LINKEDIT ) == 0 ) {
segment->vmaddr = vmaddr_growth;
}
break;
case LC_SYMTAB:
((struct symtab_command *)
the_commands[i])->symoff += fgrowth;
((struct symtab_command *)
the_commands[i])->stroff += fgrowth;
break;
case LC_SYMSEG:
((struct symseg_command *)
the_commands[i])->offset += fgrowth;
break;
#ifdef NS_TARGET
case LC_DYSYMTAB:
dysymtab = ((struct dysymtab_command *)the_commands[i]);
extreloff = dysymtab->extreloff;
nextrel = dysymtab->nextrel;
dysymtab->indirectsymoff += fgrowth;
dysymtab->extreloff += fgrowth;
break;
#endif
default:
break;
}
}
/*
* Write header
*/
if (write(outfd, &the_header,
sizeof(the_header)) != sizeof(the_header)) {
fatal_unexec("cannot write output file");
return (0);
}
/*
* Write commands
*/
for (i = 0; i < the_commands_len; i++) {
if (write(outfd, the_commands[i],
the_commands[i]->cmdsize) !=
the_commands[i]->cmdsize) {
fatal_unexec("cannot write output file");
return (0);
}
}
/*
* Write original text
*/
if (lseek(infd, the_header.sizeofcmds + sizeof(the_header),
L_SET) < 0) {
fatal_unexec("cannot seek input file");
return (0);
}
size = fdatastart - (sizeof(the_header) +
the_header.sizeofcmds);
buf = my_malloc(size);
if (read(infd, buf, size) != size) {
my_free(buf, size);
fatal_unexec("cannot read input file");
}
if (write(outfd, buf, size) != size) {
my_free(buf, size);
fatal_unexec("cannot write output file");
return (0);
}
my_free(buf, size);
/*
* Write new data
*/
if (write(outfd, (char *)data_address,
data_size) != data_size) {
fatal_unexec("cannot write output file");
return (0);
}
}
/*
* OKAY TO USE MALLOC NOW
*/
/*
* Write rest of file
*/
fstat(infd, &st);
if (lseek(infd, fdatasize, L_INCR) < 0) {
fatal_unexec("cannot seek input file");
return (0);
}
size = st.st_size - lseek(infd, 0, L_INCR);
buf = malloc(size);
if (read(infd, buf, size) != size) {
free(buf);
fatal_unexec("cannot read input file");
return (0);
}
if (write(outfd, buf, size) != size) {
free(buf);
fatal_unexec("cannot write output file");
return (0);
}
free(buf);
#ifdef NS_TARGET
/*
* Fix up relocation entries in the data segment.
*/
if (lseek(infd, extreloff, L_SET) < 0) {
fatal_unexec("cannot seek input file");
return (0);
}
for (i = 0; i < nextrel; i++)
{
long zeroval = 0;
if (read(infd, &reloc_info, sizeof (reloc_info)) != sizeof (reloc_info)) {
fatal_unexec("cannot read input file");
return (0);
}
if (reloc_info.r_address >= dataseg_vmaddr && reloc_info.r_address < dataseg_vmend)
{
if (lseek (outfd, fdatastart + reloc_info.r_address - dataseg_vmaddr, L_SET) < 0 ) {
fatal_unexec("cannot seek input file");
return (0);
}
switch (reloc_info.r_length) {
case 0:
if (write(outfd, &zeroval, 1) != 1) {
fatal_unexec("cannot write output file");
return (0);
}
break;
case 1:
if (write(outfd, &zeroval, 2) != 2) {
fatal_unexec("cannot write output file");
return (0);
}
break;
case 2:
if (write(outfd, &zeroval, 4) != 4) {
fatal_unexec("cannot write output file");
return (0);
}
break;
}
}
}
#endif
return (1);
}
void
unexec(
char *outfile,
char *infile
)
{
int infd;
int outfd;
char tmpbuf[L_tmpnam];
char *tmpfile;
infd = open(infile, O_RDONLY, 0);
if (infd < 0) {
fatal_unexec("cannot open input file `%s'", infile);
exit(1);
}
tmpnam(tmpbuf);
tmpfile = rindex(tmpbuf, '/');
if (tmpfile == NULL) {
tmpfile = tmpbuf;
} else {
tmpfile++;
}
outfd = open(tmpfile, O_WRONLY|O_TRUNC|O_CREAT, 0755);
if (outfd < 0) {
close(infd);
fatal_unexec("cannot open tmp file `%s'", tmpfile);
exit(1);
}
if (!unexec_doit(infd, outfd)) {
close(infd);
close(outfd);
unlink(tmpfile);
exit(1);
}
close(infd);
close(outfd);
if (rename(tmpfile, outfile) < 0) {
unlink(tmpfile);
fatal_unexec("cannot rename `%s' to `%s'", tmpfile, outfile);
exit(1);
}
}
|