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/* Collect static initialization info into data structures
that can be traversed by C++ initialization and finalization
routines.
Copyright (C) 1992, 1993, 1994 Free Software Foundation, Inc.
Contributed by Chris Smith (csmith@convex.com).
Heavily modified by Michael Meissner (meissner@osf.org),
Per Bothner (bothner@cygnus.com), and John Gilmore (gnu@cygnus.com).
This file is part of GNU CC.
GNU CC 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 CC 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 CC; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
/* Build tables of static constructors and destructors and run ld. */
#include <sys/types.h>
#include <stdio.h>
#include <ctype.h>
#include <errno.h>
#include <signal.h>
#include <sys/file.h>
#include <sys/stat.h>
#ifdef NO_WAIT_H
#include <sys/wait.h>
#endif
#ifndef errno
extern int errno;
#endif
#if defined(bsd4_4) || defined(__NetBSD__)
extern const char *const sys_errlist[];
#else
extern char *sys_errlist[];
#endif
extern int sys_nerr;
#define COLLECT
#include "config.h"
#ifndef __STDC__
#define generic char
#define const
#else
#define generic void
#endif
#ifdef USG
#define vfork fork
#endif
/* Add prototype support. */
#ifndef PROTO
#if defined (USE_PROTOTYPES) ? USE_PROTOTYPES : defined (__STDC__)
#define PROTO(ARGS) ARGS
#else
#define PROTO(ARGS) ()
#endif
#endif
#ifndef R_OK
#define R_OK 4
#define W_OK 2
#define X_OK 1
#endif
/* On MSDOS, write temp files in current dir
because there's no place else we can expect to use. */
#ifdef __MSDOS__
#ifndef P_tmpdir
#define P_tmpdir "./"
#endif
#endif
/* On certain systems, we have code that works by scanning the object file
directly. But this code uses system-specific header files and library
functions, so turn it off in a cross-compiler. Likewise, the names of
the utilities aren't correct for a cross-compiler; we have to hope that
cross-versions are in the proper directories. */
#ifdef CROSS_COMPILE
#undef OBJECT_FORMAT_COFF
#undef OBJECT_FORMAT_ROSE
#undef MD_EXEC_PREFIX
#undef REAL_LD_FILE_NAME
#undef REAL_NM_FILE_NAME
#undef REAL_STRIP_FILE_NAME
#endif
/* If we can't use a special method, use the ordinary one:
run nm to find what symbols are present.
In a cross-compiler, this means you need a cross nm,
but that isn't quite as unpleasant as special headers. */
#if !defined (OBJECT_FORMAT_COFF) && !defined (OBJECT_FORMAT_ROSE)
#define OBJECT_FORMAT_NONE
#endif
#ifdef OBJECT_FORMAT_COFF
#include <a.out.h>
#include <ar.h>
#ifdef UMAX
#include <sgs.h>
#endif
/* Many versions of ldfcn.h define these. */
#ifdef FREAD
#undef FREAD
#undef FWRITE
#endif
#include <ldfcn.h>
/* Some systems have an ISCOFF macro, but others do not. In some cases
the macro may be wrong. MY_ISCOFF is defined in tm.h files for machines
that either do not have an ISCOFF macro in /usr/include or for those
where it is wrong. */
#ifndef MY_ISCOFF
#define MY_ISCOFF(X) ISCOFF (X)
#endif
#endif /* OBJECT_FORMAT_COFF */
#ifdef OBJECT_FORMAT_ROSE
#ifdef _OSF_SOURCE
#define USE_MMAP
#endif
#ifdef USE_MMAP
#include <sys/mman.h>
#endif
#include <unistd.h>
#include <mach_o_format.h>
#include <mach_o_header.h>
#include <mach_o_vals.h>
#include <mach_o_types.h>
#endif /* OBJECT_FORMAT_ROSE */
#ifdef OBJECT_FORMAT_NONE
/* Default flags to pass to nm. */
#ifndef NM_FLAGS
#define NM_FLAGS "-p"
#endif
#endif /* OBJECT_FORMAT_NONE */
/* Some systems use __main in a way incompatible with its use in gcc, in these
cases use the macros NAME__MAIN to give a quoted symbol and SYMBOL__MAIN to
give the same symbol without quotes for an alternative entry point. You
must define both, or niether. */
#ifndef NAME__MAIN
#define NAME__MAIN "__main"
#define SYMBOL__MAIN __main
#endif
/* Linked lists of constructor and destructor names. */
struct id
{
struct id *next;
int sequence;
char name[1];
};
struct head
{
struct id *first;
struct id *last;
int number;
};
/* Enumeration giving which pass this is for scanning the program file. */
enum pass {
PASS_FIRST, /* without constructors */
PASS_SECOND /* with constructors linked in */
};
#ifndef NO_SYS_SIGLIST
#ifndef DONT_DECLARE_SYS_SIGLIST
extern char *sys_siglist[];
#endif
#endif
extern char *version_string;
static int vflag; /* true if -v */
static int rflag; /* true if -r */
static int strip_flag; /* true if -s */
static int debug; /* true if -debug */
static int temp_filename_length; /* Length of temp_filename */
static char *temp_filename; /* Base of temp filenames */
static char *c_file; /* <xxx>.c for constructor/destructor list. */
static char *o_file; /* <xxx>.o for constructor/destructor list. */
static char *output_file; /* Output file for ld. */
static char *nm_file_name; /* pathname of nm */
static char *strip_file_name; /* pathname of strip */
static struct head constructors; /* list of constructors found */
static struct head destructors; /* list of destructors found */
extern char *getenv ();
extern char *mktemp ();
extern FILE *fdopen ();
/* Structure to hold all the directories in which to search for files to
execute. */
struct prefix_list
{
char *prefix; /* String to prepend to the path. */
struct prefix_list *next; /* Next in linked list. */
};
struct path_prefix
{
struct prefix_list *plist; /* List of prefixes to try */
int max_len; /* Max length of a prefix in PLIST */
char *name; /* Name of this list (used in config stuff) */
};
static void my_exit PROTO((int));
static void handler PROTO((int));
static int is_ctor_dtor PROTO((char *));
static void choose_temp_base PROTO((void));
static int is_in_prefix_list PROTO((struct path_prefix *, char *, int));
static char *find_a_file PROTO((struct path_prefix *, char *));
static void add_prefix PROTO((struct path_prefix *, char *));
static void prefix_from_env PROTO((char *, struct path_prefix *));
static void do_wait PROTO((char *));
static void fork_execute PROTO((char *, char **));
static void maybe_unlink PROTO((char *));
static void add_to_list PROTO((struct head *, char *));
static void write_list PROTO((FILE *, char *, struct id *));
static void write_list_with_asm PROTO((FILE *, char *, struct id *));
static void write_c_file PROTO((FILE *, char *));
static void scan_prog_file PROTO((char *, enum pass));
generic *xcalloc ();
generic *xmalloc ();
extern char *index ();
extern char *rindex ();
#ifdef NO_DUP2
int
dup2 (oldfd, newfd)
int oldfd;
int newfd;
{
int fdtmp[256];
int fdx = 0;
int fd;
if (oldfd == newfd)
return oldfd;
close (newfd);
while ((fd = dup (oldfd)) != newfd && fd >= 0) /* good enough for low fd's */
fdtmp[fdx++] = fd;
while (fdx > 0)
close (fdtmp[--fdx]);
return fd;
}
#endif
char *
my_strerror (e)
int e;
{
static char buffer[30];
if (!e)
return "";
if (e > 0 && e < sys_nerr)
return sys_errlist[e];
sprintf (buffer, "Unknown error %d", e);
return buffer;
}
/* Delete tempfiles and exit function. */
static void
my_exit (status)
int status;
{
if (c_file != 0 && c_file[0])
maybe_unlink (c_file);
if (o_file != 0 && o_file[0])
maybe_unlink (o_file);
if (status != 0 && output_file != 0 && output_file[0])
maybe_unlink (output_file);
exit (status);
}
/* Die when sys call fails. */
static void
fatal_perror (string, arg1, arg2, arg3)
char *string;
{
int e = errno;
fprintf (stderr, "collect2: ");
fprintf (stderr, string, arg1, arg2, arg3);
fprintf (stderr, ": %s\n", my_strerror (e));
my_exit (1);
}
/* Just die. */
static void
fatal (string, arg1, arg2, arg3)
char *string;
{
fprintf (stderr, "collect2: ");
fprintf (stderr, string, arg1, arg2, arg3);
fprintf (stderr, "\n");
my_exit (1);
}
/* Write error message. */
static void
error (string, arg1, arg2, arg3, arg4)
char *string;
{
fprintf (stderr, "collect2: ");
fprintf (stderr, string, arg1, arg2, arg3, arg4);
fprintf (stderr, "\n");
}
/* In case obstack is linked in, and abort is defined to fancy_abort,
provide a default entry. */
void
fancy_abort ()
{
fatal ("internal error");
}
static void
handler (signo)
int signo;
{
if (c_file != 0 && c_file[0])
maybe_unlink (c_file);
if (o_file != 0 && o_file[0])
maybe_unlink (o_file);
signal (signo, SIG_DFL);
kill (getpid (), signo);
}
generic *
xcalloc (size1, size2)
int size1, size2;
{
generic *ptr = (generic *) calloc (size1, size2);
if (ptr)
return ptr;
fatal ("out of memory");
return (generic *)0;
}
generic *
xmalloc (size)
int size;
{
generic *ptr = (generic *) malloc (size);
if (ptr)
return ptr;
fatal ("out of memory");
return (generic *)0;
}
/* Make a copy of a string INPUT with size SIZE. */
char *
savestring (input, size)
char *input;
int size;
{
char *output = (char *) xmalloc (size + 1);
bcopy (input, output, size);
output[size] = 0;
return output;
}
/* Decide whether the given symbol is:
a constructor (1), a destructor (2), or neither (0). */
static int
is_ctor_dtor (s)
char *s;
{
struct names { char *name; int len; int ret; int two_underscores; };
register struct names *p;
register int ch;
register char *orig_s = s;
static struct names special[] = {
#ifdef NO_DOLLAR_IN_LABEL
#ifdef NO_DOT_IN_LABEL
{ "GLOBAL__I_", sizeof ("GLOBAL__I_")-1, 1, 0 },
{ "GLOBAL__D_", sizeof ("GLOBAL__D_")-1, 2, 0 },
#else
{ "GLOBAL_.I.", sizeof ("GLOBAL_.I.")-1, 1, 0 },
{ "GLOBAL_.D.", sizeof ("GLOBAL_.D.")-1, 2, 0 },
#endif
#else
{ "GLOBAL_$I$", sizeof ("GLOBAL_$I$")-1, 1, 0 },
{ "GLOBAL_$D$", sizeof ("GLOBAL_$D$")-1, 2, 0 },
#endif
#ifdef CFRONT_LOSSAGE /* Don't collect cfront initialization functions.
cfront has its own linker procedure to collect them;
if collect2 gets them too, they get collected twice
when the cfront procedure is run and the compiler used
for linking happens to be GCC. */
{ "sti__", sizeof ("sti__")-1, 1, 1 },
{ "std__", sizeof ("std__")-1, 2, 1 },
#endif /* CFRONT_LOSSAGE */
{ NULL, 0, 0, 0 }
};
while ((ch = *s) == '_')
++s;
if (s == orig_s)
return 0;
for (p = &special[0]; p->len > 0; p++)
{
if (ch == p->name[0]
&& (!p->two_underscores || ((s - orig_s) >= 2))
&& strncmp(s, p->name, p->len) == 0)
{
return p->ret;
}
}
return 0;
}
/* Compute a string to use as the base of all temporary file names.
It is substituted for %g. */
static void
choose_temp_base ()
{
char *base = getenv ("TMPDIR");
int len;
if (base == (char *)0)
{
#ifdef P_tmpdir
if (access (P_tmpdir, R_OK | W_OK) == 0)
base = P_tmpdir;
#endif
if (base == (char *)0)
{
if (access ("/usr/tmp", R_OK | W_OK) == 0)
base = "/usr/tmp/";
else
base = "/tmp/";
}
}
len = strlen (base);
temp_filename = xmalloc (len + sizeof("/ccXXXXXX") + 1);
strcpy (temp_filename, base);
if (len > 0 && temp_filename[len-1] != '/')
temp_filename[len++] = '/';
strcpy (temp_filename + len, "ccXXXXXX");
mktemp (temp_filename);
temp_filename_length = strlen (temp_filename);
}
/* Routine to add variables to the environment. */
#undef HAVE_PUTENV
#ifndef HAVE_PUTENV
int
putenv (str)
char *str;
{
#ifndef VMS /* nor about VMS */
extern char **environ;
char **old_environ = environ;
char **envp;
int num_envs = 0;
int name_len = 1;
char *p = str;
int ch;
while ((ch = *p++) != '\0' && ch != '=')
name_len++;
if (!ch)
abort ();
/* Search for replacing an existing environment variable, and
count the number of total environment variables. */
for (envp = old_environ; *envp; envp++)
{
num_envs++;
if (!strncmp (str, *envp, name_len))
{
*envp = str;
return 0;
}
}
/* Add a new environment variable */
environ = (char **) xmalloc (sizeof (char *) * (num_envs+2));
*environ = str;
bcopy ((char *) old_environ, (char *) (environ + 1),
sizeof (char *) * (num_envs+1));
return 0;
#endif /* VMS */
}
#endif /* HAVE_PUTENV */
/* By default, colon separates directories in a path. */
#ifndef PATH_SEPARATOR
#define PATH_SEPARATOR ':'
#endif
/* We maintain two prefix lists: one from COMPILER_PATH environment variable
and one from the PATH variable. */
static struct path_prefix cpath, path;
#ifdef CROSS_COMPILE
/* This is the name of the target machine. We use it to form the name
of the files to execute. */
static char *target_machine = TARGET_MACHINE;
#endif
/* Names under which we were executed. Never return one of those files in our
searches. */
static struct path_prefix our_file_names;
/* Determine if STRING is in PPREFIX.
This utility is currently only used to look up file names. Prefix lists
record directory names. This matters to us because the latter has a
trailing slash, so I've added a flag to handle both. */
static int
is_in_prefix_list (pprefix, string, filep)
struct path_prefix *pprefix;
char *string;
int filep;
{
struct prefix_list *pl;
if (filep)
{
int len = strlen (string);
for (pl = pprefix->plist; pl; pl = pl->next)
{
if (strncmp (pl->prefix, string, len) == 0
&& strcmp (pl->prefix + len, "/") == 0)
return 1;
}
}
else
{
for (pl = pprefix->plist; pl; pl = pl->next)
{
if (strcmp (pl->prefix, string) == 0)
return 1;
}
}
return 0;
}
/* Search for NAME using prefix list PPREFIX. We only look for executable
files.
Return 0 if not found, otherwise return its name, allocated with malloc. */
static char *
find_a_file (pprefix, name)
struct path_prefix *pprefix;
char *name;
{
char *temp;
struct prefix_list *pl;
int len = pprefix->max_len + strlen (name) + 1;
#ifdef EXECUTABLE_SUFFIX
len += strlen (EXECUTABLE_SUFFIX);
#endif
temp = xmalloc (len);
/* Determine the filename to execute (special case for absolute paths). */
if (*name == '/')
{
if (access (name, X_OK) == 0)
{
strcpy (temp, name);
return temp;
}
}
else
for (pl = pprefix->plist; pl; pl = pl->next)
{
strcpy (temp, pl->prefix);
strcat (temp, name);
if (! is_in_prefix_list (&our_file_names, temp, 1)
/* This is a kludge, but there seems no way around it. */
&& strcmp (temp, "./ld") != 0
&& access (temp, X_OK) == 0)
return temp;
#ifdef EXECUTABLE_SUFFIX
/* Some systems have a suffix for executable files.
So try appending that. */
strcat (temp, EXECUTABLE_SUFFIX);
if (! is_in_prefix_list (&our_file_names, temp, 1)
&& access (temp, X_OK) == 0)
return temp;
#endif
}
free (temp);
return 0;
}
/* Add an entry for PREFIX to prefix list PPREFIX. */
static void
add_prefix (pprefix, prefix)
struct path_prefix *pprefix;
char *prefix;
{
struct prefix_list *pl, **prev;
int len;
if (pprefix->plist)
{
for (pl = pprefix->plist; pl->next; pl = pl->next)
;
prev = &pl->next;
}
else
prev = &pprefix->plist;
/* Keep track of the longest prefix */
len = strlen (prefix);
if (len > pprefix->max_len)
pprefix->max_len = len;
pl = (struct prefix_list *) xmalloc (sizeof (struct prefix_list));
pl->prefix = savestring (prefix, len);
if (*prev)
pl->next = *prev;
else
pl->next = (struct prefix_list *) 0;
*prev = pl;
}
/* Take the value of the environment variable ENV, break it into a path, and
add of the entries to PPREFIX. */
static void
prefix_from_env (env, pprefix)
char *env;
struct path_prefix *pprefix;
{
char *p = getenv (env);
if (p)
{
char *startp, *endp;
char *nstore = (char *) xmalloc (strlen (p) + 3);
startp = endp = p;
while (1)
{
if (*endp == PATH_SEPARATOR || *endp == 0)
{
strncpy (nstore, startp, endp-startp);
if (endp == startp)
{
strcpy (nstore, "./");
}
else if (endp[-1] != '/')
{
nstore[endp-startp] = '/';
nstore[endp-startp+1] = 0;
}
else
nstore[endp-startp] = 0;
add_prefix (pprefix, nstore);
if (*endp == 0)
break;
endp = startp = endp + 1;
}
else
endp++;
}
}
}
/* Main program. */
int
main (argc, argv)
int argc;
char *argv[];
{
char *ld_suffix = "ld";
char *full_ld_suffix = ld_suffix;
char *real_ld_suffix = "real-ld";
char *full_real_ld_suffix = real_ld_suffix;
#if 0
char *gld_suffix = "gld";
char *full_gld_suffix = gld_suffix;
#endif
char *nm_suffix = "nm";
char *full_nm_suffix = nm_suffix;
char *gnm_suffix = "gnm";
char *full_gnm_suffix = gnm_suffix;
char *strip_suffix = "strip";
char *full_strip_suffix = strip_suffix;
char *gstrip_suffix = "gstrip";
char *full_gstrip_suffix = gstrip_suffix;
char *arg;
FILE *outf;
char *ld_file_name;
char *c_file_name;
char *collect_name;
char *collect_names;
char *p;
char **c_argv;
char **c_ptr;
char **ld1_argv = (char **) xcalloc (sizeof (char *), argc+2);
char **ld1 = ld1_argv;
char **ld2_argv = (char **) xcalloc (sizeof (char *), argc+5);
char **ld2 = ld2_argv;
int first_file;
int num_c_args = argc+7;
#ifdef DEBUG
debug = 1;
vflag = 1;
#endif
output_file = "a.out";
/* We must check that we do not call ourselves in an infinite
recursion loop. We append the name used for us to the COLLECT_NAMES
environment variable.
In practice, collect will rarely invoke itself. This can happen now
that we are no longer called gld. A perfect example is when running
gcc in a build directory that has been installed. When looking for
ld's, we'll find our installed version and believe that's the real ld. */
/* We must also append COLLECT_NAME to COLLECT_NAMES to watch for the
previous version of collect (the one that used COLLECT_NAME and only
handled two levels of recursion). If we don't we may mutually recurse
forever. This can happen (I think) when bootstrapping the old version
and a new one is installed (rare, but we should handle it).
??? Hopefully references to COLLECT_NAME can be removed at some point. */
collect_name = (char *) getenv ("COLLECT_NAME");
collect_names = (char *) getenv ("COLLECT_NAMES");
p = (char *) xmalloc (strlen ("COLLECT_NAMES=")
+ (collect_name ? strlen (collect_name) + 1 : 0)
+ (collect_names ? strlen (collect_names) + 1 : 0)
+ strlen (argv[0]) + 1);
strcpy (p, "COLLECT_NAMES=");
if (collect_name != 0)
sprintf (p + strlen (p), "%s%c", collect_name, PATH_SEPARATOR);
if (collect_names != 0)
sprintf (p + strlen (p), "%s%c", collect_names, PATH_SEPARATOR);
strcat (p, argv[0]);
putenv (p);
prefix_from_env ("COLLECT_NAMES", &our_file_names);
/* Set environment variable COLLECT_NAME to our name so the previous version
of collect won't find us. If it does we'll mutually recurse forever.
This can happen when bootstrapping the new version and an old version is
installed.
??? Hopefully this bit of code can be removed at some point. */
p = xmalloc (strlen ("COLLECT_NAME=") + strlen (argv[0]) + 1);
sprintf (p, "COLLECT_NAME=%s", argv[0]);
putenv (p);
p = (char *) getenv ("COLLECT_GCC_OPTIONS");
if (p)
while (*p)
{
char *q = p;
while (*q && *q != ' ') q++;
if (*p == '-' && p[1] == 'm')
num_c_args++;
if (*q) q++;
p = q;
}
c_ptr = c_argv = (char **) xcalloc (sizeof (char *), num_c_args);
if (argc < 2)
fatal ("no arguments");
#ifdef SIGQUIT
if (signal (SIGQUIT, SIG_IGN) != SIG_IGN)
signal (SIGQUIT, handler);
#endif
if (signal (SIGINT, SIG_IGN) != SIG_IGN)
signal (SIGINT, handler);
#ifdef SIGALRM
if (signal (SIGALRM, SIG_IGN) != SIG_IGN)
signal (SIGALRM, handler);
#endif
#ifdef SIGHUP
if (signal (SIGHUP, SIG_IGN) != SIG_IGN)
signal (SIGHUP, handler);
#endif
if (signal (SIGSEGV, SIG_IGN) != SIG_IGN)
signal (SIGSEGV, handler);
#ifdef SIGBUS
if (signal (SIGBUS, SIG_IGN) != SIG_IGN)
signal (SIGBUS, handler);
#endif
/* Extract COMPILER_PATH and PATH into our prefix list. */
prefix_from_env ("COMPILER_PATH", &cpath);
prefix_from_env ("PATH", &path);
#ifdef CROSS_COMPILE
/* If we look for a program in the compiler directories, we just use
the short name, since these directories are already system-specific.
But it we look for a took in the system directories, we need to
qualify the program name with the target machine. */
full_ld_suffix
= xcalloc (strlen (ld_suffix) + strlen (target_machine) + 2, 1);
strcpy (full_ld_suffix, target_machine);
strcat (full_ld_suffix, "-");
strcat (full_ld_suffix, ld_suffix);
full_real_ld_suffix
= xcalloc (strlen (real_ld_suffix) + strlen (target_machine) + 2, 1);
strcpy (full_real_ld_suffix, target_machine);
strcat (full_real_ld_suffix, "-");
strcat (full_real_ld_suffix, real_ld_suffix);
#if 0
full_gld_suffix
= xcalloc (strlen (gld_suffix) + strlen (target_machine) + 2, 1);
strcpy (full_gld_suffix, target_machine);
strcat (full_gld_suffix, "-");
strcat (full_gld_suffix, gld_suffix);
#endif
full_nm_suffix
= xcalloc (strlen (nm_suffix) + strlen (target_machine) + 2, 1);
strcpy (full_nm_suffix, target_machine);
strcat (full_nm_suffix, "-");
strcat (full_nm_suffix, nm_suffix);
full_gnm_suffix
= xcalloc (strlen (gnm_suffix) + strlen (target_machine) + 2, 1);
strcpy (full_gnm_suffix, target_machine);
strcat (full_gnm_suffix, "-");
strcat (full_gnm_suffix, gnm_suffix);
full_strip_suffix
= xcalloc (strlen (strip_suffix) + strlen (target_machine) + 2, 1);
strcpy (full_strip_suffix, target_machine);
strcat (full_strip_suffix, "-");
strcat (full_strip_suffix, strip_suffix);
full_gstrip_suffix
= xcalloc (strlen (gstrip_suffix) + strlen (target_machine) + 2, 1);
strcpy (full_gstrip_suffix, target_machine);
strcat (full_gstrip_suffix, "-");
strcat (full_gstrip_suffix, gstrip_suffix);
#endif /* CROSS_COMPILE */
/* Try to discover a valid linker/nm/strip to use. */
#if 0
/* Search the (target-specific) compiler dirs for `gld'. */
ld_file_name = find_a_file (&cpath, gld_suffix);
/* Search the ordinary system bin directories
for `gld' (if native linking) or `TARGET-gld' (if cross). */
if (ld_file_name == 0)
ld_file_name = find_a_file (&path, full_gld_suffix);
#else
ld_file_name = 0;
#endif
/* Likewise for `real-ld'. */
if (ld_file_name == 0)
ld_file_name = find_a_file (&cpath, real_ld_suffix);
if (ld_file_name == 0)
ld_file_name = find_a_file (&path, full_real_ld_suffix);
/* Maybe we know the right file to use (if not cross). */
#ifdef REAL_LD_FILE_NAME
if (ld_file_name == 0)
ld_file_name = find_a_file (&path, REAL_LD_FILE_NAME);
#endif
/* Search the compiler directories for `ld'. We have protection against
recursive calls in find_a_file. */
if (ld_file_name == 0)
ld_file_name = find_a_file (&cpath, ld_suffix);
/* Search the ordinary system bin directories
for `ld' (if native linking) or `TARGET-ld' (if cross). */
if (ld_file_name == 0)
ld_file_name = find_a_file (&path, full_ld_suffix);
/* If we've invoked ourselves, try again with LD_FILE_NAME. */
if (collect_names != 0)
{
if (ld_file_name != 0)
{
argv[0] = ld_file_name;
execvp (argv[0], argv);
}
fatal ("cannot find `ld'");
}
nm_file_name = find_a_file (&cpath, gnm_suffix);
if (nm_file_name == 0)
nm_file_name = find_a_file (&path, full_gnm_suffix);
if (nm_file_name == 0)
nm_file_name = find_a_file (&cpath, nm_suffix);
#ifdef REAL_NM_FILE_NAME
if (nm_file_name == 0)
nm_file_name = find_a_file (&path, REAL_NM_FILE_NAME);
#endif
if (nm_file_name == 0)
nm_file_name = find_a_file (&path, full_nm_suffix);
strip_file_name = find_a_file (&cpath, gstrip_suffix);
if (strip_file_name == 0)
strip_file_name = find_a_file (&path, full_gstrip_suffix);
if (strip_file_name == 0)
strip_file_name = find_a_file (&cpath, strip_suffix);
#ifdef REAL_STRIP_FILE_NAME
if (strip_file_name == 0)
strip_file_name = find_a_file (&path, REAL_STRIP_FILE_NAME);
#endif
if (strip_file_name == 0)
strip_file_name = find_a_file (&path, full_strip_suffix);
/* Determine the full path name of the C compiler to use. */
c_file_name = getenv ("COLLECT_GCC");
if (c_file_name == 0)
{
#ifdef CROSS_COMPILE
c_file_name = xcalloc (sizeof ("gcc-") + strlen (target_machine) + 1, 1);
strcpy (c_file_name, target_machine);
strcat (c_file_name, "-gcc");
#else
c_file_name = "gcc";
#endif
}
p = find_a_file (&cpath, c_file_name);
/* Here it should be safe to use the system search path since we should have
already qualified the name of the compiler when it is needed. */
if (p == 0)
p = find_a_file (&path, c_file_name);
if (p)
c_file_name = p;
*ld1++ = *ld2++ = ld_file_name;
/* Make temp file names. */
choose_temp_base ();
c_file = xcalloc (temp_filename_length + sizeof (".c"), 1);
o_file = xcalloc (temp_filename_length + sizeof (".o"), 1);
sprintf (c_file, "%s.c", temp_filename);
sprintf (o_file, "%s.o", temp_filename);
*c_ptr++ = c_file_name;
*c_ptr++ = "-c";
*c_ptr++ = "-o";
*c_ptr++ = o_file;
/* !!! When GCC calls collect2,
it does not know whether it is calling collect2 or ld.
So collect2 cannot meaningfully understand any options
except those ld understands.
If you propose to make GCC pass some other option,
just imagine what will happen if ld is really ld!!! */
/* Parse arguments. Remember output file spec, pass the rest to ld. */
/* After the first file, put in the c++ rt0. */
first_file = 1;
while ((arg = *++argv) != (char *)0)
{
*ld1++ = *ld2++ = arg;
if (arg[0] == '-')
switch (arg[1])
{
case 'd':
if (!strcmp (arg, "-debug"))
{
debug = 1;
vflag = 1;
ld1--;
ld2--;
}
break;
case 'o':
output_file = (arg[2] == '\0') ? argv[1] : &arg[2];
break;
case 'r':
if (arg[2] == '\0')
rflag = 1;
break;
case 's':
if (arg[2] == '\0')
{
/* We must strip after the nm run, otherwise C++ linking
won't work. Thus we strip in the second ld run, or
else with strip if there is no second ld run. */
strip_flag = 1;
ld1--;
}
break;
case 'v':
if (arg[2] == '\0')
vflag = 1;
break;
}
else if (first_file
&& (p = rindex (arg, '.')) != (char *)0
&& strcmp (p, ".o") == 0)
{
first_file = 0;
*ld2++ = o_file;
}
}
/* Get any options that the upper GCC wants to pass to the sub-GCC. */
p = (char *) getenv ("COLLECT_GCC_OPTIONS");
if (p)
while (*p)
{
char *q = p;
while (*q && *q != ' ') q++;
if (*p == '-' && (p[1] == 'm' || p[1] == 'f'))
*c_ptr++ = savestring (p, q - p);
if (*q) q++;
p = q;
}
*c_ptr++ = c_file;
*c_ptr = *ld1 = *ld2 = (char *)0;
if (vflag)
{
fprintf (stderr, "collect2 version %s", version_string);
#ifdef TARGET_VERSION
TARGET_VERSION;
#endif
fprintf (stderr, "\n");
}
if (debug)
{
char *ptr;
fprintf (stderr, "ld_file_name = %s\n",
(ld_file_name ? ld_file_name : "not found"));
fprintf (stderr, "c_file_name = %s\n",
(c_file_name ? c_file_name : "not found"));
fprintf (stderr, "nm_file_name = %s\n",
(nm_file_name ? nm_file_name : "not found"));
fprintf (stderr, "strip_file_name = %s\n",
(strip_file_name ? strip_file_name : "not found"));
fprintf (stderr, "c_file = %s\n",
(c_file ? c_file : "not found"));
fprintf (stderr, "o_file = %s\n",
(o_file ? o_file : "not found"));
ptr = getenv ("COLLECT_NAMES");
if (ptr)
fprintf (stderr, "COLLECT_NAMES = %s\n", ptr);
ptr = getenv ("COLLECT_GCC_OPTIONS");
if (ptr)
fprintf (stderr, "COLLECT_GCC_OPTIONS = %s\n", ptr);
ptr = getenv ("COLLECT_GCC");
if (ptr)
fprintf (stderr, "COLLECT_GCC = %s\n", ptr);
ptr = getenv ("COMPILER_PATH");
if (ptr)
fprintf (stderr, "COMPILER_PATH = %s\n", ptr);
ptr = getenv ("LIBRARY_PATH");
if (ptr)
fprintf (stderr, "LIBRARY_PATH = %s\n", ptr);
fprintf (stderr, "\n");
}
/* Load the program, searching all libraries.
Examine the namelist with nm and search it for static constructors
and destructors to call.
Write the constructor and destructor tables to a .s file and reload. */
fork_execute ("ld", ld1_argv);
/* If -r, don't build the constructor or destructor list, just return now. */
if (rflag)
return 0;
scan_prog_file (output_file, PASS_FIRST);
if (debug)
{
fprintf (stderr, "%d constructor(s) found\n", constructors.number);
fprintf (stderr, "%d destructor(s) found\n", destructors.number);
}
if (constructors.number == 0 && destructors.number == 0)
{
/* Strip now if it was requested on the command line. */
if (strip_flag)
{
char **strip_argv = (char **) xcalloc (sizeof (char *), 3);
strip_argv[0] = strip_file_name;
strip_argv[1] = output_file;
strip_argv[2] = (char *) 0;
fork_execute ("strip", strip_argv);
}
return 0;
}
outf = fopen (c_file, "w");
if (outf == (FILE *)0)
fatal_perror ("%s", c_file);
write_c_file (outf, c_file);
if (fclose (outf))
fatal_perror ("closing %s", c_file);
if (debug)
{
fprintf (stderr, "\n========== output_file = %s, c_file = %s\n",
output_file, c_file);
write_c_file (stderr, "stderr");
fprintf (stderr, "========== end of c_file\n\n");
}
/* Assemble the constructor and destructor tables.
Link the tables in with the rest of the program. */
fork_execute ("gcc", c_argv);
fork_execute ("ld", ld2_argv);
/* Let scan_prog_file do any final mods (OSF/rose needs this for
constructors/destructors in shared libraries. */
scan_prog_file (output_file, PASS_SECOND);
maybe_unlink (c_file);
maybe_unlink (o_file);
return 0;
}
/* Wait for a process to finish, and exit if a non-zero status is found. */
static void
do_wait (prog)
char *prog;
{
int status;
wait (&status);
if (status)
{
int sig = status & 0x7F;
int ret;
if (sig != -1 && sig != 0)
{
#ifdef NO_SYS_SIGLIST
error ("%s terminated with signal %d %s",
prog,
sig,
(status & 0200) ? ", core dumped" : "");
#else
error ("%s terminated with signal %d [%s]%s",
prog,
sig,
sys_siglist[sig],
(status & 0200) ? ", core dumped" : "");
#endif
my_exit (127);
}
ret = ((status & 0xFF00) >> 8);
if (ret != -1 && ret != 0)
{
error ("%s returned %d exit status", prog, ret);
my_exit (ret);
}
}
}
/* Fork and execute a program, and wait for the reply. */
static void
fork_execute (prog, argv)
char *prog;
char **argv;
{
int pid;
if (vflag || debug)
{
char **p_argv;
char *str;
if (argv[0])
fprintf (stderr, "%s", argv[0]);
else
fprintf (stderr, "[cannot find %s]", prog);
for (p_argv = &argv[1]; (str = *p_argv) != (char *)0; p_argv++)
fprintf (stderr, " %s", str);
fprintf (stderr, "\n");
}
fflush (stdout);
fflush (stderr);
/* If we can't find a program we need, complain error. Do this here
since we might not end up needing something that we couldn't find. */
if (argv[0] == 0)
fatal ("cannot find `%s'", prog);
pid = vfork ();
if (pid == -1)
{
#ifdef vfork
fatal_perror ("fork");
#else
fatal_perror ("vfork");
#endif
}
if (pid == 0) /* child context */
{
execvp (argv[0], argv);
fatal_perror ("executing %s", prog);
}
do_wait (prog);
}
/* Unlink a file unless we are debugging. */
static void
maybe_unlink (file)
char *file;
{
if (!debug)
unlink (file);
else
fprintf (stderr, "[Leaving %s]\n", file);
}
/* Add a name to a linked list. */
static void
add_to_list (head_ptr, name)
struct head *head_ptr;
char *name;
{
struct id *newid = (struct id *) xcalloc (sizeof (*newid) + strlen (name), 1);
static long sequence_number = 0;
newid->sequence = ++sequence_number;
strcpy (newid->name, name);
if (head_ptr->first)
head_ptr->last->next = newid;
else
head_ptr->first = newid;
head_ptr->last = newid;
head_ptr->number++;
}
/* Write: `prefix', the names on list LIST, `suffix'. */
static void
write_list (stream, prefix, list)
FILE *stream;
char *prefix;
struct id *list;
{
while (list)
{
fprintf (stream, "%sx%d,\n", prefix, list->sequence);
list = list->next;
}
}
static void
write_list_with_asm (stream, prefix, list)
FILE *stream;
char *prefix;
struct id *list;
{
while (list)
{
fprintf (stream, "%sx%d __asm__ (\"%s\");\n",
prefix, list->sequence, list->name);
list = list->next;
}
}
/* Write the constructor/destructor tables. */
static void
write_c_file (stream, name)
FILE *stream;
char *name;
{
/* Write the tables as C code */
fprintf (stream, "typedef void entry_pt();\n\n");
write_list_with_asm (stream, "extern entry_pt ", constructors.first);
fprintf (stream, "\nentry_pt * __CTOR_LIST__[] = {\n");
fprintf (stream, "\t(entry_pt *) %d,\n", constructors.number);
write_list (stream, "\t", constructors.first);
fprintf (stream, "\t0\n};\n\n");
write_list_with_asm (stream, "extern entry_pt ", destructors.first);
fprintf (stream, "\nentry_pt * __DTOR_LIST__[] = {\n");
fprintf (stream, "\t(entry_pt *) %d,\n", destructors.number);
write_list (stream, "\t", destructors.first);
fprintf (stream, "\t0\n};\n\n");
fprintf (stream, "extern entry_pt %s;\n", NAME__MAIN);
fprintf (stream, "entry_pt *__main_reference = %s;\n\n", NAME__MAIN);
}
#ifdef OBJECT_FORMAT_NONE
/* Generic version to scan the name list of the loaded program for
the symbols g++ uses for static constructors and destructors.
The constructor table begins at __CTOR_LIST__ and contains a count
of the number of pointers (or -1 if the constructors are built in a
separate section by the linker), followed by the pointers to the
constructor functions, terminated with a null pointer. The
destructor table has the same format, and begins at __DTOR_LIST__. */
static void
scan_prog_file (prog_name, which_pass)
char *prog_name;
enum pass which_pass;
{
void (*int_handler) ();
void (*quit_handler) ();
char *nm_argv[4];
int pid;
int argc = 0;
int pipe_fd[2];
char *p, buf[1024];
FILE *inf;
if (which_pass != PASS_FIRST)
return;
/* If we don't have an `nm', complain. */
if (nm_file_name == 0)
fatal ("cannot find `nm'");
nm_argv[argc++] = "nm";
if (NM_FLAGS[0] != '\0')
nm_argv[argc++] = NM_FLAGS;
nm_argv[argc++] = prog_name;
nm_argv[argc++] = (char *)0;
if (pipe (pipe_fd) < 0)
fatal_perror ("pipe");
inf = fdopen (pipe_fd[0], "r");
if (inf == (FILE *)0)
fatal_perror ("fdopen");
/* Trace if needed. */
if (vflag)
{
char **p_argv;
char *str;
fprintf (stderr, "%s", nm_file_name);
for (p_argv = &nm_argv[1]; (str = *p_argv) != (char *)0; p_argv++)
fprintf (stderr, " %s", str);
fprintf (stderr, "\n");
}
fflush (stdout);
fflush (stderr);
/* Spawn child nm on pipe */
pid = vfork ();
if (pid == -1)
{
#ifdef vfork
fatal_perror ("fork");
#else
fatal_perror ("vfork");
#endif
}
if (pid == 0) /* child context */
{
/* setup stdout */
if (dup2 (pipe_fd[1], 1) < 0)
fatal_perror ("dup2 (%d, 1)", pipe_fd[1]);
if (close (pipe_fd[0]) < 0)
fatal_perror ("close (%d)", pipe_fd[0]);
if (close (pipe_fd[1]) < 0)
fatal_perror ("close (%d)", pipe_fd[1]);
execv (nm_file_name, nm_argv);
fatal_perror ("executing %s", nm_file_name);
}
/* Parent context from here on. */
int_handler = (void (*) ())signal (SIGINT, SIG_IGN);
#ifdef SIGQUIT
quit_handler = (void (*) ())signal (SIGQUIT, SIG_IGN);
#endif
if (close (pipe_fd[1]) < 0)
fatal_perror ("close (%d)", pipe_fd[1]);
if (debug)
fprintf (stderr, "\nnm output with constructors/destructors.\n");
/* Read each line of nm output. */
while (fgets (buf, sizeof buf, inf) != (char *)0)
{
int ch, ch2;
char *name, *end;
/* If it contains a constructor or destructor name, add the name
to the appropriate list. */
for (p = buf; (ch = *p) != '\0' && ch != '\n' && ch != '_'; p++)
;
if (ch == '\0' || ch == '\n')
continue;
name = p;
/* Find the end of the symbol name.
Don't include `|', because Encore nm can tack that on the end. */
for (end = p; (ch2 = *end) != '\0' && !isspace (ch2) && ch2 != '|';
end++)
continue;
*end = '\0';
switch (is_ctor_dtor (name))
{
case 1:
add_to_list (&constructors, name);
break;
case 2:
add_to_list (&destructors, name);
break;
default: /* not a constructor or destructor */
continue;
}
if (debug)
fprintf (stderr, "\t%s\n", buf);
}
if (debug)
fprintf (stderr, "\n");
if (fclose (inf) != 0)
fatal_perror ("fclose of pipe");
do_wait (nm_file_name);
signal (SIGINT, int_handler);
#ifdef SIGQUIT
signal (SIGQUIT, quit_handler);
#endif
}
#endif /* OBJECT_FORMAT_NONE */
/*
* COFF specific stuff.
*/
#ifdef OBJECT_FORMAT_COFF
#if defined(EXTENDED_COFF)
# define GCC_SYMBOLS(X) (SYMHEADER(X).isymMax + SYMHEADER(X).iextMax)
# define GCC_SYMENT SYMR
# define GCC_OK_SYMBOL(X) ((X).st == stProc && (X).sc == scText)
# define GCC_SYMINC(X) (1)
# define GCC_SYMZERO(X) (SYMHEADER(X).isymMax)
# define GCC_CHECK_HDR(X) (PSYMTAB(X) != 0)
#else
# define GCC_SYMBOLS(X) (HEADER(ldptr).f_nsyms)
# define GCC_SYMENT SYMENT
# define GCC_OK_SYMBOL(X) \
(((X).n_sclass == C_EXT) && \
(((X).n_type & N_TMASK) == (DT_NON << N_BTSHFT) || \
((X).n_type & N_TMASK) == (DT_FCN << N_BTSHFT)))
# define GCC_SYMINC(X) ((X).n_numaux+1)
# define GCC_SYMZERO(X) 0
# define GCC_CHECK_HDR(X) (1)
#endif
extern char *ldgetname ();
/* COFF version to scan the name list of the loaded program for
the symbols g++ uses for static constructors and destructors.
The constructor table begins at __CTOR_LIST__ and contains a count
of the number of pointers (or -1 if the constructors are built in a
separate section by the linker), followed by the pointers to the
constructor functions, terminated with a null pointer. The
destructor table has the same format, and begins at __DTOR_LIST__. */
static void
scan_prog_file (prog_name, which_pass)
char *prog_name;
enum pass which_pass;
{
LDFILE *ldptr = NULL;
int sym_index, sym_count;
if (which_pass != PASS_FIRST)
return;
if ((ldptr = ldopen (prog_name, ldptr)) == NULL)
fatal ("%s: can't open as COFF file", prog_name);
if (!MY_ISCOFF (HEADER (ldptr).f_magic))
fatal ("%s: not a COFF file", prog_name);
if (GCC_CHECK_HDR (ldptr))
{
sym_count = GCC_SYMBOLS (ldptr);
sym_index = GCC_SYMZERO (ldptr);
while (sym_index < sym_count)
{
GCC_SYMENT symbol;
if (ldtbread (ldptr, sym_index, &symbol) <= 0)
break;
sym_index += GCC_SYMINC (symbol);
if (GCC_OK_SYMBOL (symbol))
{
char *name;
if ((name = ldgetname (ldptr, &symbol)) == NULL)
continue; /* should never happen */
#ifdef _AIX
/* All AIX function names begin with a dot. */
if (*name++ != '.')
continue;
#endif
switch (is_ctor_dtor (name))
{
case 1:
add_to_list (&constructors, name);
break;
case 2:
add_to_list (&destructors, name);
break;
default: /* not a constructor or destructor */
continue;
}
#if !defined(EXTENDED_COFF)
if (debug)
fprintf (stderr, "\tsec=%d class=%d type=%s%o %s\n",
symbol.n_scnum, symbol.n_sclass,
(symbol.n_type ? "0" : ""), symbol.n_type,
name);
#else
if (debug)
fprintf (stderr, "\tiss = %5d, value = %5d, index = %5d, name = %s\n",
symbol.iss, symbol.value, symbol.index, name);
#endif
}
}
}
(void) ldclose(ldptr);
}
#endif /* OBJECT_FORMAT_COFF */
/*
* OSF/rose specific stuff.
*/
#ifdef OBJECT_FORMAT_ROSE
/* Union of the various load commands */
typedef union load_union
{
ldc_header_t hdr; /* common header */
load_cmd_map_command_t map; /* map indexing other load cmds */
interpreter_command_t iprtr; /* interpreter pathname */
strings_command_t str; /* load commands strings section */
region_command_t region; /* region load command */
reloc_command_t reloc; /* relocation section */
package_command_t pkg; /* package load command */
symbols_command_t sym; /* symbol sections */
entry_command_t ent; /* program start section */
gen_info_command_t info; /* object information */
func_table_command_t func; /* function constructors/destructors */
} load_union_t;
/* Structure to point to load command and data section in memory. */
typedef struct load_all
{
load_union_t *load; /* load command */
char *section; /* pointer to section */
} load_all_t;
/* Structure to contain information about a file mapped into memory. */
struct file_info
{
char *start; /* start of map */
char *name; /* filename */
long size; /* size of the file */
long rounded_size; /* size rounded to page boundary */
int fd; /* file descriptor */
int rw; /* != 0 if opened read/write */
int use_mmap; /* != 0 if mmap'ed */
};
extern int decode_mach_o_hdr ();
extern int encode_mach_o_hdr ();
static void add_func_table PROTO((mo_header_t *, load_all_t *,
symbol_info_t *, int));
static void print_header PROTO((mo_header_t *));
static void print_load_command PROTO((load_union_t*, size_t, int));
static void bad_header PROTO((int));
static struct file_info *read_file PROTO((char *, int, int));
static void end_file PROTO((struct file_info *));
/* OSF/rose specific version to scan the name list of the loaded
program for the symbols g++ uses for static constructors and
destructors.
The constructor table begins at __CTOR_LIST__ and contains a count
of the number of pointers (or -1 if the constructors are built in a
separate section by the linker), followed by the pointers to the
constructor functions, terminated with a null pointer. The
destructor table has the same format, and begins at __DTOR_LIST__. */
static void
scan_prog_file (prog_name, which_pass)
char *prog_name;
enum pass which_pass;
{
char *obj;
mo_header_t hdr;
load_all_t *load_array;
load_all_t *load_end;
load_all_t *load_cmd;
int symbol_load_cmds;
off_t offset;
int i;
int num_syms;
int status;
char *str_sect;
struct file_info *obj_file;
int prog_fd;
mo_lcid_t cmd_strings = -1;
symbol_info_t *main_sym = 0;
int rw = (which_pass != PASS_FIRST);
prog_fd = open (prog_name, (rw) ? O_RDWR : O_RDONLY);
if (prog_fd < 0)
fatal_perror ("can't read %s", prog_name);
obj_file = read_file (prog_name, prog_fd, rw);
obj = obj_file->start;
status = decode_mach_o_hdr (obj, MO_SIZEOF_RAW_HDR, MOH_HEADER_VERSION, &hdr);
if (status != MO_HDR_CONV_SUCCESS)
bad_header (status);
/* Do some basic sanity checks. Note we explicitly use the big endian magic number,
since the hardware will automatically swap bytes for us on loading little endian
integers. */
#ifndef CROSS_COMPILE
if (hdr.moh_magic != MOH_MAGIC_MSB
|| hdr.moh_header_version != MOH_HEADER_VERSION
|| hdr.moh_byte_order != OUR_BYTE_ORDER
|| hdr.moh_data_rep_id != OUR_DATA_REP_ID
|| hdr.moh_cpu_type != OUR_CPU_TYPE
|| hdr.moh_cpu_subtype != OUR_CPU_SUBTYPE
|| hdr.moh_vendor_type != OUR_VENDOR_TYPE)
{
fatal ("incompatibilities between object file & expected values");
}
#endif
if (debug)
print_header (&hdr);
offset = hdr.moh_first_cmd_off;
load_end = load_array
= (load_all_t *) xcalloc (sizeof (load_all_t), hdr.moh_n_load_cmds + 2);
/* Build array of load commands, calculating the offsets */
for (i = 0; i < hdr.moh_n_load_cmds; i++)
{
load_union_t *load_hdr; /* load command header */
load_cmd = load_end++;
load_hdr = (load_union_t *) (obj + offset);
/* If modifying the program file, copy the header. */
if (rw)
{
load_union_t *ptr = (load_union_t *) xmalloc (load_hdr->hdr.ldci_cmd_size);
bcopy ((char *)load_hdr, (char *)ptr, load_hdr->hdr.ldci_cmd_size);
load_hdr = ptr;
/* null out old command map, because we will rewrite at the end. */
if (ptr->hdr.ldci_cmd_type == LDC_CMD_MAP)
{
cmd_strings = ptr->map.lcm_ld_cmd_strings;
ptr->hdr.ldci_cmd_type = LDC_UNDEFINED;
}
}
load_cmd->load = load_hdr;
if (load_hdr->hdr.ldci_section_off > 0)
load_cmd->section = obj + load_hdr->hdr.ldci_section_off;
if (debug)
print_load_command (load_hdr, offset, i);
offset += load_hdr->hdr.ldci_cmd_size;
}
/* If the last command is the load command map and is not undefined,
decrement the count of load commands. */
if (rw && load_end[-1].load->hdr.ldci_cmd_type == LDC_UNDEFINED)
{
load_end--;
hdr.moh_n_load_cmds--;
}
/* Go through and process each symbol table section. */
symbol_load_cmds = 0;
for (load_cmd = load_array; load_cmd < load_end; load_cmd++)
{
load_union_t *load_hdr = load_cmd->load;
if (load_hdr->hdr.ldci_cmd_type == LDC_SYMBOLS)
{
symbol_load_cmds++;
if (debug)
{
char *kind = "unknown";
switch (load_hdr->sym.symc_kind)
{
case SYMC_IMPORTS: kind = "imports"; break;
case SYMC_DEFINED_SYMBOLS: kind = "defined"; break;
case SYMC_STABS: kind = "stabs"; break;
}
fprintf (stderr, "\nProcessing symbol table #%d, offset = 0x%.8lx, kind = %s\n",
symbol_load_cmds, load_hdr->hdr.ldci_section_off, kind);
}
if (load_hdr->sym.symc_kind != SYMC_DEFINED_SYMBOLS)
continue;
str_sect = load_array[load_hdr->sym.symc_strings_section].section;
if (str_sect == (char *)0)
fatal ("string section missing");
if (load_cmd->section == (char *)0)
fatal ("section pointer missing");
num_syms = load_hdr->sym.symc_nentries;
for (i = 0; i < num_syms; i++)
{
symbol_info_t *sym = ((symbol_info_t *) load_cmd->section) + i;
char *name = sym->si_name.symbol_name + str_sect;
if (name[0] != '_')
continue;
if (rw)
{
char *n = name + strlen (name) - strlen (NAME__MAIN);
if ((n - name) < 0 || strcmp (n, NAME__MAIN))
continue;
while (n != name)
if (*--n != '_')
continue;
main_sym = sym;
}
else
{
switch (is_ctor_dtor (name))
{
case 1:
add_to_list (&constructors, name);
break;
case 2:
add_to_list (&destructors, name);
break;
default: /* not a constructor or destructor */
continue;
}
}
if (debug)
fprintf (stderr, "\ttype = 0x%.4x, sc = 0x%.2x, flags = 0x%.8x, name = %.30s\n",
sym->si_type, sym->si_sc_type, sym->si_flags, name);
}
}
}
if (symbol_load_cmds == 0)
fatal ("no symbol table found");
/* Update the program file now, rewrite header and load commands. At present,
we assume that there is enough space after the last load command to insert
one more. Since the first section written out is page aligned, and the
number of load commands is small, this is ok for the present. */
if (rw)
{
load_union_t *load_map;
size_t size;
if (cmd_strings == -1)
fatal ("no cmd_strings found");
/* Add __main to initializer list.
If we are building a program instead of a shared library, don't
do anything, since in the current version, you cannot do mallocs
and such in the constructors. */
if (main_sym != (symbol_info_t *)0
&& ((hdr.moh_flags & MOH_EXECABLE_F) == 0))
add_func_table (&hdr, load_array, main_sym, FNTC_INITIALIZATION);
if (debug)
fprintf (stderr, "\nUpdating header and load commands.\n\n");
hdr.moh_n_load_cmds++;
size = sizeof (load_cmd_map_command_t) + (sizeof (mo_offset_t) * (hdr.moh_n_load_cmds - 1));
/* Create new load command map. */
if (debug)
fprintf (stderr, "load command map, %d cmds, new size %ld.\n",
(int)hdr.moh_n_load_cmds, (long)size);
load_map = (load_union_t *) xcalloc (1, size);
load_map->map.ldc_header.ldci_cmd_type = LDC_CMD_MAP;
load_map->map.ldc_header.ldci_cmd_size = size;
load_map->map.lcm_ld_cmd_strings = cmd_strings;
load_map->map.lcm_nentries = hdr.moh_n_load_cmds;
load_array[hdr.moh_n_load_cmds-1].load = load_map;
offset = hdr.moh_first_cmd_off;
for (i = 0; i < hdr.moh_n_load_cmds; i++)
{
load_map->map.lcm_map[i] = offset;
if (load_array[i].load->hdr.ldci_cmd_type == LDC_CMD_MAP)
hdr.moh_load_map_cmd_off = offset;
offset += load_array[i].load->hdr.ldci_cmd_size;
}
hdr.moh_sizeofcmds = offset - MO_SIZEOF_RAW_HDR;
if (debug)
print_header (&hdr);
/* Write header */
status = encode_mach_o_hdr (&hdr, obj, MO_SIZEOF_RAW_HDR);
if (status != MO_HDR_CONV_SUCCESS)
bad_header (status);
if (debug)
fprintf (stderr, "writing load commands.\n\n");
/* Write load commands */
offset = hdr.moh_first_cmd_off;
for (i = 0; i < hdr.moh_n_load_cmds; i++)
{
load_union_t *load_hdr = load_array[i].load;
size_t size = load_hdr->hdr.ldci_cmd_size;
if (debug)
print_load_command (load_hdr, offset, i);
bcopy ((char *)load_hdr, (char *)(obj + offset), size);
offset += size;
}
}
end_file (obj_file);
if (close (prog_fd))
fatal_perror ("closing %s", prog_name);
if (debug)
fprintf (stderr, "\n");
}
/* Add a function table to the load commands to call a function
on initiation or termination of the process. */
static void
add_func_table (hdr_p, load_array, sym, type)
mo_header_t *hdr_p; /* pointer to global header */
load_all_t *load_array; /* array of ptrs to load cmds */
symbol_info_t *sym; /* pointer to symbol entry */
int type; /* fntc_type value */
{
/* Add a new load command. */
int num_cmds = ++hdr_p->moh_n_load_cmds;
int load_index = num_cmds - 1;
size_t size = sizeof (func_table_command_t) + sizeof (mo_addr_t);
load_union_t *ptr = xcalloc (1, size);
load_all_t *load_cmd;
int i;
/* Set the unresolved address bit in the header to force the loader to be
used, since kernel exec does not call the initialization functions. */
hdr_p->moh_flags |= MOH_UNRESOLVED_F;
load_cmd = &load_array[load_index];
load_cmd->load = ptr;
load_cmd->section = (char *)0;
/* Fill in func table load command. */
ptr->func.ldc_header.ldci_cmd_type = LDC_FUNC_TABLE;
ptr->func.ldc_header.ldci_cmd_size = size;
ptr->func.ldc_header.ldci_section_off = 0;
ptr->func.ldc_header.ldci_section_len = 0;
ptr->func.fntc_type = type;
ptr->func.fntc_nentries = 1;
/* copy address, turn it from abs. address to (region,offset) if necessary. */
/* Is the symbol already expressed as (region, offset)? */
if ((sym->si_flags & SI_ABSOLUTE_VALUE_F) == 0)
{
ptr->func.fntc_entry_loc[i].adr_lcid = sym->si_value.def_val.adr_lcid;
ptr->func.fntc_entry_loc[i].adr_sctoff = sym->si_value.def_val.adr_sctoff;
}
/* If not, figure out which region it's in. */
else
{
mo_vm_addr_t addr = sym->si_value.abs_val;
int found = 0;
for (i = 0; i < load_index; i++)
{
if (load_array[i].load->hdr.ldci_cmd_type == LDC_REGION)
{
region_command_t *region_ptr = &load_array[i].load->region;
if ((region_ptr->regc_flags & REG_ABS_ADDR_F) != 0
&& addr >= region_ptr->regc_addr.vm_addr
&& addr <= region_ptr->regc_addr.vm_addr + region_ptr->regc_vm_size)
{
ptr->func.fntc_entry_loc[0].adr_lcid = i;
ptr->func.fntc_entry_loc[0].adr_sctoff = addr - region_ptr->regc_addr.vm_addr;
found++;
break;
}
}
}
if (!found)
fatal ("could not convert 0x%l.8x into a region", addr);
}
if (debug)
fprintf (stderr,
"%s function, region %d, offset = %ld (0x%.8lx)\n",
(type == FNTC_INITIALIZATION) ? "init" : "term",
(int)ptr->func.fntc_entry_loc[i].adr_lcid,
(long)ptr->func.fntc_entry_loc[i].adr_sctoff,
(long)ptr->func.fntc_entry_loc[i].adr_sctoff);
}
/* Print the global header for an OSF/rose object. */
static void
print_header (hdr_ptr)
mo_header_t *hdr_ptr;
{
fprintf (stderr, "\nglobal header:\n");
fprintf (stderr, "\tmoh_magic = 0x%.8lx\n", hdr_ptr->moh_magic);
fprintf (stderr, "\tmoh_major_version = %d\n", (int)hdr_ptr->moh_major_version);
fprintf (stderr, "\tmoh_minor_version = %d\n", (int)hdr_ptr->moh_minor_version);
fprintf (stderr, "\tmoh_header_version = %d\n", (int)hdr_ptr->moh_header_version);
fprintf (stderr, "\tmoh_max_page_size = %d\n", (int)hdr_ptr->moh_max_page_size);
fprintf (stderr, "\tmoh_byte_order = %d\n", (int)hdr_ptr->moh_byte_order);
fprintf (stderr, "\tmoh_data_rep_id = %d\n", (int)hdr_ptr->moh_data_rep_id);
fprintf (stderr, "\tmoh_cpu_type = %d\n", (int)hdr_ptr->moh_cpu_type);
fprintf (stderr, "\tmoh_cpu_subtype = %d\n", (int)hdr_ptr->moh_cpu_subtype);
fprintf (stderr, "\tmoh_vendor_type = %d\n", (int)hdr_ptr->moh_vendor_type);
fprintf (stderr, "\tmoh_load_map_cmd_off = %d\n", (int)hdr_ptr->moh_load_map_cmd_off);
fprintf (stderr, "\tmoh_first_cmd_off = %d\n", (int)hdr_ptr->moh_first_cmd_off);
fprintf (stderr, "\tmoh_sizeofcmds = %d\n", (int)hdr_ptr->moh_sizeofcmds);
fprintf (stderr, "\tmon_n_load_cmds = %d\n", (int)hdr_ptr->moh_n_load_cmds);
fprintf (stderr, "\tmoh_flags = 0x%.8lx", (long)hdr_ptr->moh_flags);
if (hdr_ptr->moh_flags & MOH_RELOCATABLE_F)
fprintf (stderr, ", relocatable");
if (hdr_ptr->moh_flags & MOH_LINKABLE_F)
fprintf (stderr, ", linkable");
if (hdr_ptr->moh_flags & MOH_EXECABLE_F)
fprintf (stderr, ", execable");
if (hdr_ptr->moh_flags & MOH_EXECUTABLE_F)
fprintf (stderr, ", executable");
if (hdr_ptr->moh_flags & MOH_UNRESOLVED_F)
fprintf (stderr, ", unresolved");
fprintf (stderr, "\n\n");
return;
}
/* Print a short summary of a load command. */
static void
print_load_command (load_hdr, offset, number)
load_union_t *load_hdr;
size_t offset;
int number;
{
mo_long_t type = load_hdr->hdr.ldci_cmd_type;
char *type_str = (char *)0;
switch (type)
{
case LDC_UNDEFINED: type_str = "UNDEFINED"; break;
case LDC_CMD_MAP: type_str = "CMD_MAP"; break;
case LDC_INTERPRETER: type_str = "INTERPRETER"; break;
case LDC_STRINGS: type_str = "STRINGS"; break;
case LDC_REGION: type_str = "REGION"; break;
case LDC_RELOC: type_str = "RELOC"; break;
case LDC_PACKAGE: type_str = "PACKAGE"; break;
case LDC_SYMBOLS: type_str = "SYMBOLS"; break;
case LDC_ENTRY: type_str = "ENTRY"; break;
case LDC_FUNC_TABLE: type_str = "FUNC_TABLE"; break;
case LDC_GEN_INFO: type_str = "GEN_INFO"; break;
}
fprintf (stderr,
"cmd %2d, sz: 0x%.2lx, coff: 0x%.3lx, doff: 0x%.6lx, dlen: 0x%.6lx",
number,
(long) load_hdr->hdr.ldci_cmd_size,
(long) offset,
(long) load_hdr->hdr.ldci_section_off,
(long) load_hdr->hdr.ldci_section_len);
if (type_str == (char *)0)
fprintf (stderr, ", ty: unknown (%ld)\n", (long) type);
else if (type != LDC_REGION)
fprintf (stderr, ", ty: %s\n", type_str);
else
{
char *region = "";
switch (load_hdr->region.regc_usage_type)
{
case REG_TEXT_T: region = ", .text"; break;
case REG_DATA_T: region = ", .data"; break;
case REG_BSS_T: region = ", .bss"; break;
case REG_GLUE_T: region = ", .glue"; break;
#if defined (REG_RDATA_T) && defined (REG_SDATA_T) && defined (REG_SBSS_T) /*mips*/
case REG_RDATA_T: region = ", .rdata"; break;
case REG_SDATA_T: region = ", .sdata"; break;
case REG_SBSS_T: region = ", .sbss"; break;
#endif
}
fprintf (stderr, ", ty: %s, vaddr: 0x%.8lx, vlen: 0x%.6lx%s\n",
type_str,
(long) load_hdr->region.regc_vm_addr,
(long) load_hdr->region.regc_vm_size,
region);
}
return;
}
/* Fatal error when {en,de}code_mach_o_header fails. */
static void
bad_header (status)
int status;
{
char *msg = (char *)0;
switch (status)
{
case MO_ERROR_BAD_MAGIC: msg = "bad magic number"; break;
case MO_ERROR_BAD_HDR_VERS: msg = "bad header version"; break;
case MO_ERROR_BAD_RAW_HDR_VERS: msg = "bad raw header version"; break;
case MO_ERROR_BUF2SML: msg = "raw header buffer too small"; break;
case MO_ERROR_OLD_RAW_HDR_FILE: msg = "old raw header file"; break;
case MO_ERROR_UNSUPPORTED_VERS: msg = "unsupported version"; break;
}
if (msg == (char *)0)
fatal ("unknown {de,en}code_mach_o_hdr return value %d", status);
else
fatal ("%s", msg);
}
/* Read a file into a memory buffer. */
static struct file_info *
read_file (name, fd, rw)
char *name; /* filename */
int fd; /* file descriptor */
int rw; /* read/write */
{
struct stat stat_pkt;
struct file_info *p = (struct file_info *) xcalloc (sizeof (struct file_info), 1);
#ifdef USE_MMAP
static int page_size;
#endif
if (fstat (fd, &stat_pkt) < 0)
fatal_perror ("fstat %s", name);
p->name = name;
p->size = stat_pkt.st_size;
p->rounded_size = stat_pkt.st_size;
p->fd = fd;
p->rw = rw;
#ifdef USE_MMAP
if (debug)
fprintf (stderr, "mmap %s, %s\n", name, (rw) ? "read/write" : "read-only");
if (page_size == 0)
page_size = sysconf (_SC_PAGE_SIZE);
p->rounded_size = ((p->size + page_size - 1) / page_size) * page_size;
p->start = mmap ((caddr_t)0,
(rw) ? p->rounded_size : p->size,
(rw) ? (PROT_READ | PROT_WRITE) : PROT_READ,
MAP_FILE | MAP_VARIABLE | MAP_SHARED,
fd,
0L);
if (p->start != (char *)0 && p->start != (char *)-1)
p->use_mmap = 1;
else
#endif /* USE_MMAP */
{
long len;
if (debug)
fprintf (stderr, "read %s\n", name);
p->use_mmap = 0;
p->start = xmalloc (p->size);
if (lseek (fd, 0L, SEEK_SET) < 0)
fatal_perror ("lseek to 0 on %s", name);
len = read (fd, p->start, p->size);
if (len < 0)
fatal_perror ("read %s", name);
if (len != p->size)
fatal ("read %ld bytes, expected %ld, from %s", len, p->size, name);
}
return p;
}
/* Do anything necessary to write a file back from memory. */
static void
end_file (ptr)
struct file_info *ptr; /* file information block */
{
#ifdef USE_MMAP
if (ptr->use_mmap)
{
if (ptr->rw)
{
if (debug)
fprintf (stderr, "msync %s\n", ptr->name);
if (msync (ptr->start, ptr->rounded_size, MS_ASYNC))
fatal_perror ("msync %s", ptr->name);
}
if (debug)
fprintf (stderr, "munmap %s\n", ptr->name);
if (munmap (ptr->start, ptr->size))
fatal_perror ("munmap %s", ptr->name);
}
else
#endif /* USE_MMAP */
{
if (ptr->rw)
{
long len;
if (debug)
fprintf (stderr, "write %s\n", ptr->name);
if (lseek (ptr->fd, 0L, SEEK_SET) < 0)
fatal_perror ("lseek to 0 on %s", ptr->name);
len = write (ptr->fd, ptr->start, ptr->size);
if (len < 0)
fatal_perror ("read %s", ptr->name);
if (len != ptr->size)
fatal ("wrote %ld bytes, expected %ld, to %s", len, ptr->size, ptr->name);
}
free ((generic *)ptr->start);
}
free ((generic *)ptr);
}
#endif /* OBJECT_FORMAT_ROSE */
These are the contents of the former NiCE NeXT User Group NeXTSTEP/OpenStep software archive, currently hosted by Netfuture.ch.