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# Samba Build System
# - the input checking functions
#
# Copyright (C) Stefan (metze) Metzmacher 2004
# Copyright (C) Jelmer Vernooij 2004
# Released under the GNU GPL
use strict;
package smb_build::input;
use File::Basename;
sub strtrim($)
{
$_ = shift;
s/^[\t\n ]*//g;
s/[\t\n ]*$//g;
return $_;
}
sub str2array($)
{
$_ = shift;
s/^[\t\n ]*//g;
s/[\t\n ]*$//g;
s/([\t\n ]+)/ /g;
return () if (length($_)==0);
return split /[ \t\n]/;
}
sub add_libreplace($)
{
my ($part) = @_;
return if ($part->{NAME} eq "LIBREPLACE");
return if ($part->{NAME} eq "LIBREPLACE_HOSTCC");
return if ($part->{NAME} eq "REPLACE_READDIR");
foreach my $n (@{$part->{PRIVATE_DEPENDENCIES}}) {
return if ($n eq "LIBREPLACE");
return if ($n eq "LIBREPLACE_HOSTCC");
}
foreach my $n (@{$part->{PUBLIC_DEPENDENCIES}}) {
return if ($n eq "LIBREPLACE");
return if ($n eq "LIBREPLACE_HOSTCC");
}
if (defined($part->{USE_HOSTCC}) && $part->{USE_HOSTCC} eq "YES") {
unshift (@{$part->{PRIVATE_DEPENDENCIES}}, "LIBREPLACE_HOSTCC");
} else {
unshift (@{$part->{PRIVATE_DEPENDENCIES}}, "LIBREPLACE");
}
}
sub check_subsystem($$$)
{
my ($INPUT, $subsys, $default_ot) = @_;
return if ($subsys->{ENABLE} ne "YES");
unless (defined($subsys->{OUTPUT_TYPE})) { $subsys->{OUTPUT_TYPE} = $default_ot; }
unless (defined($subsys->{INIT_FUNCTION_TYPE})) { $subsys->{INIT_FUNCTION_TYPE} = "NTSTATUS (*) (void)"; }
unless (defined($subsys->{INIT_FUNCTION_SENTINEL})) { $subsys->{INIT_FUNCTION_SENTINEL} = "NULL"; }
}
sub check_module($$$)
{
my ($INPUT, $mod, $default_ot) = @_;
die("Module $mod->{NAME} does not have a SUBSYSTEM set") if not defined($mod->{SUBSYSTEM});
if (not exists($INPUT->{$mod->{SUBSYSTEM}}{INIT_FUNCTIONS})) {
$INPUT->{$mod->{SUBSYSTEM}}{INIT_FUNCTIONS} = [];
}
if (!(defined($INPUT->{$mod->{SUBSYSTEM}}))) {
die("Unknown subsystem $mod->{SUBSYSTEM} for module $mod->{NAME}");
}
if ($INPUT->{$mod->{SUBSYSTEM}} eq "NO") {
warn("Disabling module $mod->{NAME} because subsystem $mod->{SUBSYSTEM} is disabled");
$mod->{ENABLE} = "NO";
return;
}
return if ($mod->{ENABLE} ne "YES");
if (exists($INPUT->{$mod->{SUBSYSTEM}}{INIT_FUNCTION_TYPE})) {
$mod->{INIT_FUNCTION_TYPE} = $INPUT->{$mod->{SUBSYSTEM}}{INIT_FUNCTION_TYPE};
} else {
$mod->{INIT_FUNCTION_TYPE} = "NTSTATUS (*) (void)";
}
unless (defined($mod->{INIT_FUNCTION_SENTINEL})) { $mod->{INIT_FUNCTION_SENTINEL} = "NULL"; }
if (not defined($mod->{OUTPUT_TYPE})) {
if ((not defined($INPUT->{$mod->{SUBSYSTEM}}->{TYPE})) or
$INPUT->{$mod->{SUBSYSTEM}}->{TYPE} eq "EXT_LIB") {
$mod->{OUTPUT_TYPE} = undef;
} else {
$mod->{OUTPUT_TYPE} = $default_ot;
}
}
if (grep(/SHARED_LIBRARY/, @{$mod->{OUTPUT_TYPE}})) {
my $sane_subsystem = lc($mod->{SUBSYSTEM});
$sane_subsystem =~ s/^lib//;
$mod->{INSTALLDIR} = "MODULESDIR/$sane_subsystem";
push (@{$mod->{PUBLIC_DEPENDENCIES}}, $mod->{SUBSYSTEM});
add_libreplace($mod);
}
if (grep(/MERGED_OBJ/, @{$mod->{OUTPUT_TYPE}})) {
push (@{$INPUT->{$mod->{SUBSYSTEM}}{INIT_FUNCTIONS}}, $mod->{INIT_FUNCTION}) if defined($mod->{INIT_FUNCTION});
push (@{$INPUT->{$mod->{SUBSYSTEM}}{PRIVATE_DEPENDENCIES}}, $mod->{NAME});
}
}
sub check_library($$$)
{
my ($INPUT, $lib, $default_ot) = @_;
return if ($lib->{ENABLE} ne "YES");
unless (defined($lib->{OUTPUT_TYPE})) { $lib->{OUTPUT_TYPE} = $default_ot; }
unless (defined($lib->{INIT_FUNCTION_TYPE})) { $lib->{INIT_FUNCTION_TYPE} = "NTSTATUS (*) (void)"; }
unless (defined($lib->{INIT_FUNCTION_SENTINEL})) { $lib->{INIT_FUNCTION_SENTINEL} = "NULL"; }
unless (defined($lib->{INSTALLDIR})) { $lib->{INSTALLDIR} = "LIBDIR"; }
add_libreplace($lib);
}
sub check_python($$$)
{
my ($INPUT, $python, $default_ot) = @_;
return if ($INPUT->{LIBPYTHON}{ENABLE} ne "YES");
$python->{INSTALLDIR} = "PYTHONDIR";
unless (defined($python->{CFLAGS})) { $python->{CFLAGS} = []; }
my $basename = $python->{NAME};
$basename =~ s/^python_//g;
unless (defined($python->{LIBRARY_REALNAME})) {
$python->{LIBRARY_REALNAME} = "$basename.\$(SHLIBEXT)";
}
$python->{INIT_FUNCTION} = "{ (char *)\"$basename\", init$basename }";
push (@{$python->{CFLAGS}}, "\$(EXT_LIB_PYTHON_CFLAGS)");
$python->{SUBSYSTEM} = "LIBPYTHON";
check_module($INPUT, $python, $default_ot);
}
sub check_binary($$)
{
my ($INPUT, $bin) = @_;
return if ($bin->{ENABLE} ne "YES");
($bin->{BINARY} = (lc $bin->{NAME})) if not defined($bin->{BINARY});
unless (defined($bin->{INIT_FUNCTION_SENTINEL})) { $bin->{INIT_FUNCTION_SENTINEL} = "NULL"; }
unless (defined($bin->{INIT_FUNCTION_TYPE})) { $bin->{INIT_FUNCTION_TYPE} = "NTSTATUS (*) (void)"; }
$bin->{OUTPUT_TYPE} = ["BINARY"];
add_libreplace($bin);
}
sub add_implicit($$)
{
my ($INPUT, $n) = @_;
$INPUT->{$n}->{TYPE} = "MAKE_RULE";
$INPUT->{$n}->{NAME} = $n;
$INPUT->{$n}->{OUTPUT_TYPE} = undef;
$INPUT->{$n}->{LIBS} = ["\$(".uc($n)."_LIBS)"];
$INPUT->{$n}->{LDFLAGS} = ["\$(".uc($n)."_LDFLAGS)"];
$INPUT->{$n}->{CFLAGS} = ["\$(".uc($n)."_CFLAGS)"];
$INPUT->{$n}->{CPPFLAGS} = ["\$(".uc($n)."_CPPFLAGS)"];
}
sub calc_unique_deps($$$$$$$$)
{
sub calc_unique_deps($$$$$$$$);
my ($name, $INPUT, $deps, $udeps, $withlibs, $forward, $pubonly, $busy) = @_;
foreach my $n (@$deps) {
add_implicit($INPUT, $n) unless (defined($INPUT->{$n}) and defined($INPUT->{$n}->{TYPE}));
my $dep = $INPUT->{$n};
if (grep (/^$n$/, @$busy)) {
next if (@{$dep->{OUTPUT_TYPE}}[0] eq "MERGED_OBJ");
die("Recursive dependency: $n, list: " . join(',', @$busy));
}
next if (grep /^$n$/, @$udeps);
push (@{$udeps}, $n) if $forward;
if (defined ($dep->{OUTPUT_TYPE}) &&
($withlibs or
(@{$dep->{OUTPUT_TYPE}}[0] eq "MERGED_OBJ") or
(@{$dep->{OUTPUT_TYPE}}[0] eq "STATIC_LIBRARY"))) {
push (@$busy, $n);
calc_unique_deps($n, $INPUT, $dep->{PUBLIC_DEPENDENCIES}, $udeps, $withlibs, $forward, $pubonly, $busy);
calc_unique_deps($n, $INPUT, $dep->{PRIVATE_DEPENDENCIES}, $udeps, $withlibs, $forward, $pubonly, $busy) unless $pubonly;
pop (@$busy);
}
unshift (@{$udeps}, $n) unless $forward;
}
}
sub check($$$$$)
{
my ($INPUT, $enabled, $subsys_ot, $lib_ot, $module_ot) = @_;
foreach my $part (values %$INPUT) {
if (defined($enabled->{$part->{NAME}})) {
$part->{ENABLE} = $enabled->{$part->{NAME}};
next;
}
unless(defined($part->{ENABLE})) {
if ($part->{TYPE} eq "EXT_LIB") {
$part->{ENABLE} = "NO";
} else {
$part->{ENABLE} = "YES";
}
}
}
foreach my $part (values %$INPUT) {
$part->{LINK_FLAGS} = [];
$part->{FULL_OBJ_LIST} = ["\$($part->{NAME}_OBJ_FILES)"];
if ($part->{TYPE} eq "SUBSYSTEM") {
check_subsystem($INPUT, $part, $subsys_ot);
} elsif ($part->{TYPE} eq "MODULE") {
check_module($INPUT, $part, $module_ot);
} elsif ($part->{TYPE} eq "LIBRARY") {
check_library($INPUT, $part, $lib_ot);
} elsif ($part->{TYPE} eq "BINARY") {
check_binary($INPUT, $part);
} elsif ($part->{TYPE} eq "PYTHON") {
check_python($INPUT, $part, $module_ot);
} elsif ($part->{TYPE} eq "EXT_LIB") {
} else {
die("Unknown type $part->{TYPE}");
}
}
foreach my $part (values %$INPUT) {
if (defined($part->{INIT_FUNCTIONS})) {
push (@{$part->{LINK_FLAGS}}, "\$(DYNEXP)");
}
}
foreach my $part (values %$INPUT) {
$part->{UNIQUE_DEPENDENCIES_LINK} = [];
calc_unique_deps($part->{NAME}, $INPUT, $part->{PUBLIC_DEPENDENCIES}, $part->{UNIQUE_DEPENDENCIES_LINK}, 0, 0, 0, []);
calc_unique_deps($part->{NAME}, $INPUT, $part->{PRIVATE_DEPENDENCIES}, $part->{UNIQUE_DEPENDENCIES_LINK}, 0, 0, 0, []);
}
foreach my $part (values %$INPUT) {
$part->{UNIQUE_DEPENDENCIES_COMPILE} = [];
calc_unique_deps($part->{NAME}, $INPUT, $part->{PUBLIC_DEPENDENCIES}, $part->{UNIQUE_DEPENDENCIES_COMPILE}, 1, 1, 1, []);
calc_unique_deps($part->{NAME}, $INPUT, $part->{PRIVATE_DEPENDENCIES}, $part->{UNIQUE_DEPENDENCIES_COMPILE}, 1, 1, 1, []);
}
foreach my $part (values %$INPUT) {
$part->{UNIQUE_DEPENDENCIES_ALL} = [];
calc_unique_deps($part->{NAME}, $INPUT, $part->{PUBLIC_DEPENDENCIES}, $part->{UNIQUE_DEPENDENCIES_ALL}, 1, 0, 0, []);
calc_unique_deps($part->{NAME}, $INPUT, $part->{PRIVATE_DEPENDENCIES}, $part->{UNIQUE_DEPENDENCIES_ALL}, 1, 0, 0, []);
}
return $INPUT;
}
1;
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