Leaked source code of windows server 2003
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@rem = '--*-Perl-*--
@echo off
if "%OS%" == "Windows_NT" goto WinNT
perl -x -S "%0" %1 %2 %3 %4 %5 %6 %7 %8 %9
goto endofperl
:WinNT
perl -x -S %0 %*
if NOT "%COMSPEC%" == "%SystemRoot%\system32\cmd.exe" goto endofperl
if %errorlevel% == 9009 echo You do not have Perl in your PATH.
if errorlevel 1 goto script_failed_so_exit_with_non_zero_val 2>nul
goto endofperl
@rem ';
#!perl
#line 15
eval 'exec C:\Perl\bin\perl.exe -S $0 ${1+"$@"}'
if $running_under_some_shell;
--$running_under_some_shell;
# Version 2.0, Simon Cozens, Thu Mar 30 17:52:45 JST 2000
# Version 2.01, Tom Christiansen, Thu Mar 30 08:25:14 MST 2000
# Version 2.02, Simon Cozens, Sun Apr 16 01:53:36 JST 2000
# Version 2.03, Edward Peschko, Mon Feb 26 12:04:17 PST 2001
use strict;
use warnings;
use v5.6.0;
use FileHandle;
use Config;
use Fcntl qw(:DEFAULT :flock);
use File::Temp qw(tempfile);
use Cwd;
our $VERSION = 2.03;
$| = 1;
$SIG{INT} = sub { exit(); }; # exit gracefully and clean up after ourselves.
use subs qw{
cc_harness check_read check_write checkopts_byte choose_backend
compile_byte compile_cstyle compile_module generate_code
grab_stash parse_argv sanity_check vprint yclept spawnit
};
sub opt(*); # imal quoting
our ($Options, $BinPerl, $Backend);
our ($Input => $Output);
our ($logfh);
our ($cfile);
# eval { main(); 1 } or die;
main();
sub main {
parse_argv();
check_write($Output);
choose_backend();
generate_code();
run_code();
_die("XXX: Not reached?");
}
#######################################################################
sub choose_backend {
# Choose the backend.
$Backend = 'C';
if (opt(B)) {
checkopts_byte();
$Backend = 'Bytecode';
}
if (opt(S) && opt(c)) {
# die "$0: Do you want me to compile this or not?\n";
delete $Options->{S};
}
$Backend = 'CC' if opt(O);
}
sub generate_code {
vprint 0, "Compiling $Input";
$BinPerl = yclept(); # Calling convention for perl.
if (opt(shared)) {
compile_module();
} else {
if ($Backend eq 'Bytecode') {
compile_byte();
} else {
compile_cstyle();
}
}
exit(0) if (!opt('r'));
}
sub run_code {
vprint 0, "Running code";
run("$Output @ARGV");
exit(0);
}
# usage: vprint [level] msg args
sub vprint {
my $level;
if (@_ == 1) {
$level = 1;
} elsif ($_[0] =~ /^\d$/) {
$level = shift;
} else {
# well, they forgot to use a number; means >0
$level = 0;
}
my $msg = "@_";
$msg .= "\n" unless substr($msg, -1) eq "\n";
if (opt(v) > $level)
{
print "$0: $msg" if !opt('log');
print $logfh "$0: $msg" if opt('log');
}
}
sub parse_argv {
use Getopt::Long;
# Getopt::Long::Configure("bundling"); turned off. this is silly because
# it doesn't allow for long switches.
Getopt::Long::Configure("no_ignore_case");
# no difference in exists and defined for %ENV; also, a "0"
# argument or a "" would not help cc, so skip
unshift @ARGV, split ' ', $ENV{PERLCC_OPTS} if $ENV{PERLCC_OPTS};
$Options = {};
Getopt::Long::GetOptions( $Options,
'L:s', # lib directory
'I:s', # include directories (FOR C, NOT FOR PERL)
'o:s', # Output executable
'v:i', # Verbosity level
'e:s', # One-liner
'r', # run resulting executable
'B', # Byte compiler backend
'O', # Optimised C backend
'c', # Compile only
'h', # Help me
'S', # Dump C files
'r', # run the resulting executable
'static', # Dirty hack to enable -shared/-static
'shared', # Create a shared library (--shared for compat.)
'log:s' # where to log compilation process information
);
# This is an attempt to make perlcc's arg. handling look like cc.
# if ( opt('s') ) { # must quote: looks like s)foo)bar)!
# if (opt('s') eq 'hared') {
# $Options->{shared}++;
# } elsif (opt('s') eq 'tatic') {
# $Options->{static}++;
# } else {
# warn "$0: Unknown option -s", opt('s');
# }
# }
$Options->{v} += 0;
helpme() if opt(h); # And exit
$Output = opt(o) || 'a.out';
$Output = relativize($Output);
$logfh = new FileHandle(">> " . opt('log')) if (opt('log'));
if (opt(e)) {
warn "$0: using -e 'code' as input file, ignoring @ARGV\n" if @ARGV;
# We don't use a temporary file here; why bother?
# XXX: this is not bullet proof -- spaces or quotes in name!
$Input = "-e '".opt(e)."'"; # Quotes eaten by shell
} else {
$Input = shift @ARGV; # XXX: more files?
_usage_and_die("$0: No input file specified\n") unless $Input;
# DWIM modules. This is bad but necessary.
$Options->{shared}++ if $Input =~ /\.pm\z/;
warn "$0: using $Input as input file, ignoring @ARGV\n" if @ARGV;
check_read($Input);
check_perl($Input);
sanity_check();
}
}
sub opt(*) {
my $opt = shift;
return exists($Options->{$opt}) && ($Options->{$opt} || 0);
}
sub compile_module {
die "$0: Compiling to shared libraries is currently disabled\n";
}
sub compile_byte {
require ByteLoader;
my $stash = grab_stash();
my $command = "$BinPerl -MO=Bytecode,$stash $Input";
# The -a option means we'd have to close the file and lose the
# lock, which would create the tiniest of races. Instead, append
# the output ourselves.
vprint 1, "Writing on $Output";
my $openflags = O_WRONLY | O_CREAT;
$openflags |= O_BINARY if eval { O_BINARY; 1 };
$openflags |= O_EXLOCK if eval { O_EXLOCK; 1 };
# these dies are not "$0: .... \n" because they "can't happen"
sysopen(OUT, $Output, $openflags)
or die "can't write to $Output: $!";
# this is blocking; hold on; why are we doing this??
# flock OUT, LOCK_EX or die "can't lock $Output: $!"
# unless eval { O_EXLOCK; 1 };
truncate(OUT, 0)
or die "couldn't trunc $Output: $!";
print OUT <<EOF;
#!$^X
use ByteLoader $ByteLoader::VERSION;
EOF
# Now the compile:
vprint 1, "Compiling...";
vprint 3, "Calling $command";
my ($output_r, $error_r) = spawnit($command);
if (@$error_r && $? != 0) {
_die("$0: $Input did not compile, which can't happen:\n@$error_r\n");
} else {
my @error = grep { !/^$Input syntax OK$/o } @$error_r;
warn "$0: Unexpected compiler output:\n@error" if @error;
}
# Write it and leave.
print OUT @$output_r or _die("can't write $Output: $!");
close OUT or _die("can't close $Output: $!");
# wait, how could it be anything but what you see next?
chmod 0777 & ~umask, $Output or _die("can't chmod $Output: $!");
exit 0;
}
sub compile_cstyle {
my $stash = grab_stash();
# What are we going to call our output C file?
my $lose = 0;
my ($cfh);
if (opt(S) || opt(c)) {
# We need to keep it.
if (opt(e)) {
$cfile = "a.out.c";
} else {
$cfile = $Input;
# File off extension if present
# hold on: plx is executable; also, careful of ordering!
$cfile =~ s/\.(?:p(?:lx|l|h)|m)\z//i;
$cfile .= ".c";
$cfile = $Output if opt(c) && $Output =~ /\.c\z/i;
}
check_write($cfile);
} else {
# Don't need to keep it, be safe with a tempfile.
$lose = 1;
($cfh, $cfile) = tempfile("pccXXXXX", SUFFIX => ".c");
close $cfh; # See comment just below
}
vprint 1, "Writing C on $cfile";
my $max_line_len = '';
if ($^O eq 'MSWin32' && $Config{cc} =~ /^cl/i) {
$max_line_len = '-l2000,';
}
# This has to do the write itself, so we can't keep a lock. Life
# sucks.
my $command = "$BinPerl -MO=$Backend,$max_line_len$stash,-o$cfile $Input";
vprint 1, "Compiling...";
vprint 1, "Calling $command";
my ($output_r, $error_r) = spawnit($command);
my @output = @$output_r;
my @error = @$error_r;
if (@error && $? != 0) {
_die("$0: $Input did not compile, which can't happen:\n@error\n");
}
cc_harness($cfile,$stash) unless opt(c);
if ($lose) {
vprint 2, "unlinking $cfile";
unlink $cfile or _die("can't unlink $cfile: $!");
}
}
sub cc_harness {
my ($cfile,$stash)=@_;
use ExtUtils::Embed ();
my $command = ExtUtils::Embed::ccopts." -o $Output $cfile ";
$command .= " -I".$_ for split /\s+/, opt(I);
$command .= " -L".$_ for split /\s+/, opt(L);
my @mods = split /-?u /, $stash;
$command .= " ".ExtUtils::Embed::ldopts("-std", \@mods);
vprint 3, "running $Config{cc} $command";
system("$Config{cc} $command");
}
# Where Perl is, and which include path to give it.
sub yclept {
my $command = "$^X ";
# DWIM the -I to be Perl, not C, include directories.
if (opt(I) && $Backend eq "Bytecode") {
for (split /\s+/, opt(I)) {
if (-d $_) {
push @INC, $_;
} else {
warn "$0: Include directory $_ not found, skipping\n";
}
}
}
$command .= "-I$_ " for @INC;
return $command;
}
# Use B::Stash to find additional modules and stuff.
{
my $_stash;
sub grab_stash {
warn "already called get_stash once" if $_stash;
my $command = "$BinPerl -MB::Stash -c $Input";
# Filename here is perfectly sanitised.
vprint 3, "Calling $command\n";
my ($stash_r, $error_r) = spawnit($command);
my @stash = @$stash_r;
my @error = @$error_r;
if (@error && $? != 0) {
_die("$0: $Input did not compile:\n@error\n");
}
$stash[0] =~ s/,-u\<none\>//;
vprint 2, "Stash: ", join " ", split /,?-u/, $stash[0];
chomp $stash[0];
return $_stash = $stash[0];
}
}
# Check the consistency of options if -B is selected.
# To wit, (-B|-O) ==> no -shared, no -S, no -c
sub checkopts_byte {
_die("$0: Please choose one of either -B and -O.\n") if opt(O);
if (opt(shared)) {
warn "$0: Will not create a shared library for bytecode\n";
delete $Options->{shared};
}
for my $o ( qw[c S] ) {
if (opt($o)) {
warn "$0: Compiling to bytecode is a one-pass process--",
"-$o ignored\n";
delete $Options->{$o};
}
}
}
# Check the input and output files make sense, are read/writeable.
sub sanity_check {
if ($Input eq $Output) {
if ($Input eq 'a.out') {
_die("$0: Compiling a.out is probably not what you want to do.\n");
# You fully deserve what you get now. No you *don't*. typos happen.
} else {
warn "$0: Will not write output on top of input file, ",
"compiling to a.out instead\n";
$Output = "a.out";
}
}
}
sub check_read {
my $file = shift;
unless (-r $file) {
_die("$0: Input file $file is a directory, not a file\n") if -d _;
unless (-e _) {
_die("$0: Input file $file was not found\n");
} else {
_die("$0: Cannot read input file $file: $!\n");
}
}
unless (-f _) {
# XXX: die? don't try this on /dev/tty
warn "$0: WARNING: input $file is not a plain file\n";
}
}
sub check_write {
my $file = shift;
if (-d $file) {
_die("$0: Cannot write on $file, is a directory\n");
}
if (-e _) {
_die("$0: Cannot write on $file: $!\n") unless -w _;
}
unless (-w cwd()) {
_die("$0: Cannot write in this directory: $!\n");
}
}
sub check_perl {
my $file = shift;
unless (-T $file) {
warn "$0: Binary `$file' sure doesn't smell like perl source!\n";
print "Checking file type... ";
system("file", $file);
_die("Please try a perlier file!\n");
}
open(my $handle, "<", $file) or _die("XXX: can't open $file: $!");
local $_ = <$handle>;
if (/^#!/ && !/perl/) {
_die("$0: $file is a ", /^#!\s*(\S+)/, " script, not perl\n");
}
}
# File spawning and error collecting
sub spawnit {
my ($command) = shift;
my (@error,@output);
my $errname;
(undef, $errname) = tempfile("pccXXXXX");
{
open (S_OUT, "$command 2>$errname |")
or _die("$0: Couldn't spawn the compiler.\n");
@output = <S_OUT>;
}
open (S_ERROR, $errname) or _die("$0: Couldn't read the error file.\n");
@error = <S_ERROR>;
close S_ERROR;
close S_OUT;
unlink $errname or _die("$0: Can't unlink error file $errname");
return (\@output, \@error);
}
sub helpme {
print "perlcc compiler frontend, version $VERSION\n\n";
{ no warnings;
exec "pod2usage $0";
exec "perldoc $0";
exec "pod2text $0";
}
}
sub relativize {
my ($args) = @_;
return() if ($args =~ m"^[/\\]");
return("./$args");
}
sub _die {
$logfh->print(@_) if opt('log');
print STDERR @_;
exit(); # should die eventually. However, needed so that a 'make compile'
# can compile all the way through to the end for standard dist.
}
sub _usage_and_die {
_die(<<EOU);
$0: Usage:
$0 [-o executable] [-r] [-O|-B|-c|-S] [-log log] [source[.pl] | -e oneliner]
EOU
}
sub run {
my (@commands) = @_;
print interruptrun(@commands) if (!opt('log'));
$logfh->print(interruptrun(@commands)) if (opt('log'));
}
sub interruptrun
{
my (@commands) = @_;
my $command = join('', @commands);
local(*FD);
my $pid = open(FD, "$command |");
my $text;
local($SIG{HUP}) = sub { kill 9, $pid; exit };
local($SIG{INT}) = sub { kill 9, $pid; exit };
my $needalarm =
($ENV{PERLCC_TIMEOUT} &&
$Config{'osname'} ne 'MSWin32' &&
$command =~ m"(^|\s)perlcc\s");
eval
{
local($SIG{ALRM}) = sub { die "INFINITE LOOP"; };
alarm($ENV{PERLCC_TIMEOUT}) if ($needalarm);
$text = join('', <FD>);
alarm(0) if ($needalarm);
};
if ($@)
{
eval { kill 'HUP', $pid };
vprint 0, "SYSTEM TIMEOUT (infinite loop?)\n";
}
close(FD);
return($text);
}
END {
unlink $cfile if ($cfile && !opt(S) && !opt(c));
}
__END__
=head1 NAME
perlcc - generate executables from Perl programs
=head1 SYNOPSIS
$ perlcc hello # Compiles into executable 'a.out'
$ perlcc -o hello hello.pl # Compiles into executable 'hello'
$ perlcc -O file # Compiles using the optimised C backend
$ perlcc -B file # Compiles using the bytecode backend
$ perlcc -c file # Creates a C file, 'file.c'
$ perlcc -S -o hello file # Creates a C file, 'file.c',
# then compiles it to executable 'hello'
$ perlcc -c out.c file # Creates a C file, 'out.c' from 'file'
$ perlcc -e 'print q//' # Compiles a one-liner into 'a.out'
$ perlcc -c -e 'print q//' # Creates a C file 'a.out.c'
$ perlcc -r hello # compiles 'hello' into 'a.out', runs 'a.out'.
$ perlcc -r hello a b c # compiles 'hello' into 'a.out', runs 'a.out'.
# with arguments 'a b c'
$ perlcc hello -log c # compiles 'hello' into 'a.out' logs compile
# log into 'c'.
=head1 DESCRIPTION
F<perlcc> creates standalone executables from Perl programs, using the
code generators provided by the L<B> module. At present, you may
either create executable Perl bytecode, using the C<-B> option, or
generate and compile C files using the standard and 'optimised' C
backends.
The code generated in this way is not guaranteed to work. The whole
codegen suite (C<perlcc> included) should be considered B<very>
experimental. Use for production purposes is strongly discouraged.
=head1 OPTIONS
=over 4
=item -LI<library directories>
Adds the given directories to the library search path when C code is
passed to your C compiler.
=item -II<include directories>
Adds the given directories to the include file search path when C code is
passed to your C compiler; when using the Perl bytecode option, adds the
given directories to Perl's include path.
=item -o I<output file name>
Specifies the file name for the final compiled executable.
=item -c I<C file name>
Create C code only; do not compile to a standalone binary.
=item -e I<perl code>
Compile a one-liner, much the same as C<perl -e '...'>
=item -S
Do not delete generated C code after compilation.
=item -B
Use the Perl bytecode code generator.
=item -O
Use the 'optimised' C code generator. This is more experimental than
everything else put together, and the code created is not guaranteed to
compile in finite time and memory, or indeed, at all.
=item -v
Increase verbosity of output; can be repeated for more verbose output.
=item -r
Run the resulting compiled script after compiling it.
=item -log
Log the output of compiling to a file rather than to stdout.
=back
=cut
__END__
:endofperl