openssl/Configure

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#! /usr/bin/env perl
# -*- mode: perl; -*-
# Copyright 2016-2018 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the OpenSSL license (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
## Configure -- OpenSSL source tree configuration script
use 5.10.0;
use strict;
use Config;
use FindBin;
use lib "$FindBin::Bin/util/perl";
use File::Basename;
use File::Spec::Functions qw/:DEFAULT abs2rel rel2abs/;
use File::Path qw/mkpath/;
use OpenSSL::Glob;
# see INSTALL for instructions.
my $orig_death_handler = $SIG{__DIE__};
$SIG{__DIE__} = \&death_handler;
my $usage="Usage: Configure [no-<cipher> ...] [enable-<cipher> ...] [-Dxxx] [-lxxx] [-Lxxx] [-fxxx] [-Kxxx] [no-hw-xxx|no-hw] [[no-]threads] [[no-]shared] [[no-]zlib|zlib-dynamic] [no-asm] [no-dso] [no-egd] [sctp] [386] [--prefix=DIR] [--openssldir=OPENSSLDIR] [--with-xxx[=vvv]] [--config=FILE] os/compiler[:flags]\n";
1999-04-19 23:19:58 +08:00
# Options:
#
# --config add the given configuration file, which will be read after
# any "Configurations*" files that are found in the same
# directory as this script.
# --prefix prefix for the OpenSSL installation, which includes the
# directories bin, lib, include, share/man, share/doc/openssl
# This becomes the value of INSTALLTOP in Makefile
# (Default: /usr/local)
# --openssldir OpenSSL data area, such as openssl.cnf, certificates and keys.
# If it's a relative directory, it will be added on the directory
# given with --prefix.
# This becomes the value of OPENSSLDIR in Makefile and in C.
# (Default: PREFIX/ssl)
#
# --cross-compile-prefix Add specified prefix to binutils components.
#
# --api One of 0.9.8, 1.0.0 or 1.1.0. Do not compile support for
# interfaces deprecated as of the specified OpenSSL version.
#
# no-hw-xxx do not compile support for specific crypto hardware.
# Generic OpenSSL-style methods relating to this support
# are always compiled but return NULL if the hardware
# support isn't compiled.
# no-hw do not compile support for any crypto hardware.
# [no-]threads [don't] try to create a library that is suitable for
# multithreaded applications (default is "threads" if we
# know how to do it)
# [no-]shared [don't] try to create shared libraries when supported.
# [no-]pic [don't] try to build position independent code when supported.
# If disabled, it also disables shared and dynamic-engine.
1999-04-19 22:55:56 +08:00
# no-asm do not use assembler
# no-dso do not compile in any native shared-library methods. This
# will ensure that all methods just return NULL.
# no-egd do not compile support for the entropy-gathering daemon APIs
# [no-]zlib [don't] compile support for zlib compression.
# zlib-dynamic Like "zlib", but the zlib library is expected to be a shared
# library and will be loaded in run-time by the OpenSSL library.
# sctp include SCTP support
# enable-weak-ssl-ciphers
# Enable weak ciphers that are disabled by default.
# 386 generate 80386 code in assembly modules
# no-sse2 disables IA-32 SSE2 code in assembly modules, the above
# mentioned '386' option implies this one
# no-<cipher> build without specified algorithm (rsa, idea, rc5, ...)
# -<xxx> +<xxx> compiler options are passed through
# -static while -static is also a pass-through compiler option (and
# as such is limited to environments where it's actually
# meaningful), it triggers a number configuration options,
# namely no-dso, no-pic, no-shared and no-threads. It is
# argued that the only reason to produce statically linked
# binaries (and in context it means executables linked with
# -static flag, and not just executables linked with static
# libcrypto.a) is to eliminate dependency on specific run-time,
# a.k.a. libc version. The mentioned config options are meant
# to achieve just that. Unfortunately on Linux it's impossible
# to eliminate the dependency completely for openssl executable
# because of getaddrinfo and gethostbyname calls, which can
# invoke dynamically loadable library facility anyway to meet
# the lookup requests. For this reason on Linux statically
# linked openssl executable has rather debugging value than
# production quality.
#
# DEBUG_SAFESTACK use type-safe stacks to enforce type-safety on stack items
# provided to stack calls. Generates unique stack functions for
# each possible stack type.
# BN_LLONG use the type 'long long' in crypto/bn/bn.h
# RC4_CHAR use 'char' instead of 'int' for RC4_INT in crypto/rc4/rc4.h
# Following are set automatically by this script
#
# MD5_ASM use some extra md5 assembler,
# SHA1_ASM use some extra sha1 assembler, must define L_ENDIAN for x86
# RMD160_ASM use some extra ripemd160 assembler,
# SHA256_ASM sha256_block is implemented in assembler
# SHA512_ASM sha512_block is implemented in assembler
# AES_ASM AES_[en|de]crypt is implemented in assembler
# Minimum warning options... any contributions to OpenSSL should at least get
# past these.
# DEBUG_UNUSED enables __owur (warn unused result) checks.
# -DPEDANTIC complements -pedantic and is meant to mask code that
# is not strictly standard-compliant and/or implementation-specific,
# e.g. inline assembly, disregards to alignment requirements, such
# that -pedantic would complain about. Incidentally -DPEDANTIC has
# to be used even in sanitized builds, because sanitizer too is
# supposed to and does take notice of non-standard behaviour. Then
# -pedantic with pre-C9x compiler would also complain about 'long
# long' not being supported. As 64-bit algorithms are common now,
# it grew impossible to resolve this without sizeable additional
# code, so we just tell compiler to be pedantic about everything
# but 'long long' type.
my $gcc_devteam_warn = "-DDEBUG_UNUSED"
. " -DPEDANTIC -pedantic -Wno-long-long"
. " -Wall"
. " -Wextra"
. " -Wno-unused-parameter"
. " -Wno-missing-field-initializers"
. " -Wswitch"
. " -Wsign-compare"
. " -Wmissing-prototypes"
. " -Wstrict-prototypes"
. " -Wshadow"
. " -Wformat"
. " -Wtype-limits"
. " -Wundef"
. " -Werror"
;
# These are used in addition to $gcc_devteam_warn when the compiler is clang.
# TODO(openssl-team): fix problems and investigate if (at least) the
# following warnings can also be enabled:
# -Wcast-align
# -Wunreachable-code -- no, too ugly/compiler-specific
# -Wlanguage-extension-token -- no, we use asm()
# -Wunused-macros -- no, too tricky for BN and _XOPEN_SOURCE etc
# -Wextended-offsetof -- no, needed in CMS ASN1 code
my $clang_devteam_warn = ""
. " -Wswitch-default"
. " -Wno-parentheses-equality"
. " -Wno-language-extension-token"
. " -Wno-extended-offsetof"
. " -Wconditional-uninitialized"
. " -Wincompatible-pointer-types-discards-qualifiers"
. " -Wmissing-variable-declarations"
. " -Wno-unknown-warning-option"
;
# This adds backtrace information to the memory leak info. Is only used
# when crypto-mdebug-backtrace is enabled.
my $memleak_devteam_backtrace = "-rdynamic";
my $strict_warnings = 0;
# As for $BSDthreads. Idea is to maintain "collective" set of flags,
# which would cover all BSD flavors. -pthread applies to them all,
# but is treated differently. OpenBSD expands is as -D_POSIX_THREAD
# -lc_r, which is sufficient. FreeBSD 4.x expands it as -lc_r,
# which has to be accompanied by explicit -D_THREAD_SAFE and
# sometimes -D_REENTRANT. FreeBSD 5.x expands it as -lc_r, which
# seems to be sufficient?
our $BSDthreads="-pthread -D_THREAD_SAFE -D_REENTRANT";
#
# API compatibility name to version number mapping.
#
my $maxapi = "1.1.0"; # API for "no-deprecated" builds
my $apitable = {
"1.1.0" => "0x10100000L",
"1.0.0" => "0x10000000L",
"0.9.8" => "0x00908000L",
};
our %table = ();
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
our %config = ();
our %withargs = ();
our $now_printing; # set to current entry's name in print_table_entry
# (todo: right thing would be to encapsulate name
# into %target [class] and make print_table_entry
# a method)
2002-02-14 23:37:38 +08:00
# Forward declarations ###############################################
# read_config(filename)
#
# Reads a configuration file and populates %table with the contents
# (which the configuration file places in %targets).
sub read_config;
# resolve_config(target)
#
# Resolves all the late evaluations, inheritances and so on for the
# chosen target and any target it inherits from.
sub resolve_config;
2009-07-01 19:46:03 +08:00
# Information collection #############################################
# Unified build supports separate build dir
my $srcdir = catdir(absolutedir(dirname($0))); # catdir ensures local syntax
my $blddir = catdir(absolutedir(".")); # catdir ensures local syntax
my $dofile = abs2rel(catfile($srcdir, "util/dofile.pl"));
my $local_config_envname = 'OPENSSL_LOCAL_CONFIG_DIR';
$config{sourcedir} = abs2rel($srcdir);
$config{builddir} = abs2rel($blddir);
# Collect reconfiguration information if needed
my @argvcopy=@ARGV;
if (grep /^reconf(igure)?$/, @argvcopy) {
die "reconfiguring with other arguments present isn't supported"
if scalar @argvcopy > 1;
if (-f "./configdata.pm") {
my $file = "./configdata.pm";
unless (my $return = do $file) {
die "couldn't parse $file: $@" if $@;
die "couldn't do $file: $!" unless defined $return;
die "couldn't run $file" unless $return;
}
@argvcopy = defined($configdata::config{perlargv}) ?
@{$configdata::config{perlargv}} : ();
die "Incorrect data to reconfigure, please do a normal configuration\n"
if (grep(/^reconf/,@argvcopy));
$config{perlenv} = $configdata::config{perlenv} // {};
} else {
die "Insufficient data to reconfigure, please do a normal configuration\n";
}
}
$config{perlargv} = [ @argvcopy ];
# Collect version numbers
$config{version} = "unknown";
$config{version_num} = "unknown";
$config{shlib_version_number} = "unknown";
$config{shlib_version_history} = "unknown";
collect_information(
collect_from_file(catfile($srcdir,'include/openssl/opensslv.h')),
qr/OPENSSL.VERSION.TEXT.*OpenSSL (\S+) / => sub { $config{version} = $1; },
qr/OPENSSL.VERSION.NUMBER.*(0x\S+)/ => sub { $config{version_num}=$1 },
qr/SHLIB_VERSION_NUMBER *"([^"]+)"/ => sub { $config{shlib_version_number}=$1 },
qr/SHLIB_VERSION_HISTORY *"([^"]*)"/ => sub { $config{shlib_version_history}=$1 }
);
if ($config{shlib_version_history} ne "") { $config{shlib_version_history} .= ":"; }
($config{major}, $config{minor})
= ($config{version} =~ /^([0-9]+)\.([0-9\.]+)/);
($config{shlib_major}, $config{shlib_minor})
= ($config{shlib_version_number} =~ /^([0-9]+)\.([0-9\.]+)/);
die "erroneous version information in opensslv.h: ",
"$config{major}, $config{minor}, $config{shlib_major}, $config{shlib_minor}\n"
if ($config{major} eq "" || $config{minor} eq ""
|| $config{shlib_major} eq "" || $config{shlib_minor} eq "");
# Collect target configurations
my $pattern = catfile(dirname($0), "Configurations", "*.conf");
foreach (sort glob($pattern)) {
&read_config($_);
}
if (defined env($local_config_envname)) {
if ($^O eq 'VMS') {
# VMS environment variables are logical names,
# which can be used as is
$pattern = $local_config_envname . ':' . '*.conf';
} else {
$pattern = catfile(env($local_config_envname), '*.conf');
}
foreach (sort glob($pattern)) {
&read_config($_);
}
}
# Save away perl command information
$config{perl_cmd} = $^X;
$config{perl_version} = $Config{version};
$config{perl_archname} = $Config{archname};
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
$config{prefix}="";
$config{openssldir}="";
$config{processor}="";
$config{libdir}="";
my $auto_threads=1; # enable threads automatically? true by default
my $default_ranlib;
# Top level directories to build
$config{dirs} = [ "crypto", "ssl", "engines", "apps", "test", "util", "tools", "fuzz" ];
# crypto/ subdirectories to build
$config{sdirs} = [
"objects",
"md2", "md4", "md5", "sha", "mdc2", "hmac", "ripemd", "whrlpool", "poly1305", "blake2", "siphash", "sm3",
"des", "aes", "rc2", "rc4", "rc5", "idea", "aria", "bf", "cast", "camellia", "seed", "sm4", "chacha", "modes",
"bn", "ec", "rsa", "dsa", "dh", "sm2", "dso", "engine",
"buffer", "bio", "stack", "lhash", "rand", "err",
"evp", "asn1", "pem", "x509", "x509v3", "conf", "txt_db", "pkcs7", "pkcs12", "comp", "ocsp", "ui",
"cms", "ts", "srp", "gmac", "cmac", "ct", "async", "kdf", "store"
];
# test/ subdirectories to build
$config{tdirs} = [ "ossl_shim" ];
# Known TLS and DTLS protocols
my @tls = qw(ssl3 tls1 tls1_1 tls1_2 tls1_3);
my @dtls = qw(dtls1 dtls1_2);
# Explicitly known options that are possible to disable. They can
# be regexps, and will be used like this: /^no-${option}$/
# For developers: keep it sorted alphabetically
my @disablables = (
"afalgeng",
"aria",
"asan",
"asm",
"async",
"autoalginit",
"autoerrinit",
"autoload-config",
"bf",
"blake2",
"camellia",
"capieng",
"cast",
"chacha",
"cmac",
"cms",
"comp",
"crypto-mdebug",
"crypto-mdebug-backtrace",
"ct",
"deprecated",
"des",
"devcryptoeng",
"dgram",
"dh",
"dsa",
"dso",
"dtls",
"dynamic-engine",
"ec",
"ec2m",
"ecdh",
"ecdsa",
"ec_nistp_64_gcc_128",
"egd",
"engine",
"err",
"external-tests",
"filenames",
"fuzz-libfuzzer",
"fuzz-afl",
"gost",
"heartbeats",
"hw(-.+)?",
"idea",
"makedepend",
"md2",
"md4",
"mdc2",
"msan",
"multiblock",
"nextprotoneg",
"ocb",
"ocsp",
"pic",
"poly1305",
"posix-io",
"psk",
"rc2",
"rc4",
"rc5",
"rdrand",
"rfc3779",
"rmd160",
"scrypt",
"sctp",
"seed",
"shared",
"siphash",
"sm2",
"sm3",
"sm4",
"sock",
"srp",
"srtp",
"sse2",
"ssl",
"ssl-trace",
"static-engine",
"stdio",
"tests",
"threads",
"tls",
"ts",
"ubsan",
"ui-console",
"unit-test",
"whirlpool",
"weak-ssl-ciphers",
"zlib",
"zlib-dynamic",
);
foreach my $proto ((@tls, @dtls))
{
push(@disablables, $proto);
push(@disablables, "$proto-method") unless $proto eq "tls1_3";
}
my %deprecated_disablables = (
"ssl2" => undef,
"buf-freelists" => undef,
"ripemd" => "rmd160",
"ui" => "ui-console",
);
# All of the following are disabled by default:
our %disabled = ( # "what" => "comment"
"asan" => "default",
"crypto-mdebug" => "default",
"crypto-mdebug-backtrace" => "default",
"devcryptoeng" => "default",
"ec_nistp_64_gcc_128" => "default",
"egd" => "default",
"external-tests" => "default",
"fuzz-libfuzzer" => "default",
"fuzz-afl" => "default",
"heartbeats" => "default",
"md2" => "default",
"msan" => "default",
"rc5" => "default",
"sctp" => "default",
"ssl-trace" => "default",
"ssl3" => "default",
"ssl3-method" => "default",
"ubsan" => "default",
"unit-test" => "default",
"weak-ssl-ciphers" => "default",
"zlib" => "default",
"zlib-dynamic" => "default",
);
# Note: => pair form used for aesthetics, not to truly make a hash table
my @disable_cascades = (
# "what" => [ "cascade", ... ]
sub { $config{processor} eq "386" }
=> [ "sse2" ],
"ssl" => [ "ssl3" ],
"ssl3-method" => [ "ssl3" ],
"zlib" => [ "zlib-dynamic" ],
"des" => [ "mdc2" ],
"ec" => [ "ecdsa", "ecdh" ],
"dgram" => [ "dtls", "sctp" ],
"sock" => [ "dgram" ],
"dtls" => [ @dtls ],
sub { 0 == scalar grep { !$disabled{$_} } @dtls }
=> [ "dtls" ],
"tls" => [ @tls ],
sub { 0 == scalar grep { !$disabled{$_} } @tls }
=> [ "tls" ],
"crypto-mdebug" => [ "crypto-mdebug-backtrace" ],
# Without DSO, we can't load dynamic engines, so don't build them dynamic
"dso" => [ "dynamic-engine" ],
# Without position independent code, there can be no shared libraries or DSOs
"pic" => [ "shared" ],
"shared" => [ "dynamic-engine" ],
"engine" => [ "afalgeng", "devcryptoeng" ],
# no-autoalginit is only useful when building non-shared
"autoalginit" => [ "shared", "apps" ],
"stdio" => [ "apps", "capieng", "egd" ],
"apps" => [ "tests" ],
"tests" => [ "external-tests" ],
"comp" => [ "zlib" ],
"ec" => [ "tls1_3", "sm2" ],
"sm3" => [ "sm2" ],
sub { !$disabled{"unit-test"} } => [ "heartbeats" ],
sub { !$disabled{"msan"} } => [ "asm" ],
);
# Avoid protocol support holes. Also disable all versions below N, if version
# N is disabled while N+1 is enabled.
#
my @list = (reverse @tls);
while ((my $first, my $second) = (shift @list, shift @list)) {
last unless @list;
push @disable_cascades, ( sub { !$disabled{$first} && $disabled{$second} }
=> [ @list ] );
unshift @list, $second;
}
my @list = (reverse @dtls);
while ((my $first, my $second) = (shift @list, shift @list)) {
last unless @list;
push @disable_cascades, ( sub { !$disabled{$first} && $disabled{$second} }
=> [ @list ] );
unshift @list, $second;
}
# Explicit "no-..." options will be collected in %disabled along with the defaults.
# To remove something from %disabled, use "enable-foo".
# For symmetry, "disable-foo" is a synonym for "no-foo".
&usage if ($#ARGV < 0);
# For the "make variables" CINCLUDES and CDEFINES, we support lists with
# platform specific list separators. Users from those platforms should
# recognise those separators from how you set up the PATH to find executables.
# The default is the Unix like separator, :, but as an exception, we also
# support the space as separator.
my $list_separator_re =
{ VMS => qr/(?<!\^),/,
MSWin32 => qr/(?<!\\);/ } -> {$^O} // qr/(?<!\\)[:\s]/;
# All the "make variables" we support
# Some get pre-populated for the sake of backward compatibility
# (we supported those before the change to "make variable" support.
my %user = (
AR => env('AR'),
ARFLAGS => [],
AS => undef,
ASFLAGS => [],
CC => env('CC'),
CFLAGS => [],
CXX => env('CXX'),
CXXFLAGS => [],
CPP => undef,
CPPFLAGS => [], # -D, -I, -Wp,
CPPDEFINES => [], # Alternative for -D
CPPINCLUDES => [], # Alternative for -I
CROSS_COMPILE => env('CROSS_COMPILE'),
HASHBANGPERL=> env('HASHBANGPERL') || env('PERL'),
LD => undef,
LDFLAGS => [], # -L, -Wl,
LDLIBS => [], # -l
MT => undef,
MTFLAGS => [],
PERL => env('PERL') || ($^O ne "VMS" ? $^X : "perl"),
RANLIB => env('RANLIB'),
RC => env('RC') || env('WINDRES'),
RCFLAGS => [],
RM => undef,
);
# Info about what "make variables" may be prefixed with the cross compiler
# prefix. This should NEVER mention any such variable with a list for value.
my @user_crossable = qw ( AR AS CC CXX CPP LD MT RANLIB RC );
# The same but for flags given as Configure options. These are *additional*
# input, as opposed to the VAR=string option that override the corresponding
# config target attributes
my %useradd = (
CPPDEFINES => [],
CPPINCLUDES => [],
CPPFLAGS => [],
CFLAGS => [],
CXXFLAGS => [],
LDFLAGS => [],
LDLIBS => [],
);
my %user_synonyms = (
HASHBANGPERL=> 'PERL',
RC => 'WINDRES',
);
# Some target attributes have been renamed, this is the translation table
my %target_attr_translate =(
ar => 'AR',
as => 'AS',
cc => 'CC',
cxx => 'CXX',
cpp => 'CPP',
hashbangperl => 'HASHBANGPERL',
ld => 'LD',
mt => 'MT',
ranlib => 'RANLIB',
rc => 'RC',
rm => 'RM',
);
# Initialisers coming from 'config' scripts
$config{defines} = [ split(/$list_separator_re/, env('__CNF_CPPDEFINES')) ];
$config{includes} = [ split(/$list_separator_re/, env('__CNF_CPPINCLUDES')) ];
$config{cppflags} = [ env('__CNF_CPPFLAGS') || () ];
$config{cflags} = [ env('__CNF_CFLAGS') || () ];
$config{cxxflags} = [ env('__CNF_CXXFLAGS') || () ];
$config{lflags} = [ env('__CNF_LDFLAGS') || () ];
$config{ex_libs} = [ env('__CNF_LDLIBS') || () ];
$config{openssl_api_defines}=[];
$config{openssl_algorithm_defines}=[];
$config{openssl_thread_defines}=[];
$config{openssl_sys_defines}=[];
$config{openssl_other_defines}=[];
$config{options}="";
$config{build_type} = "release";
my $target="";
my %cmdvars = (); # Stores FOO='blah' type arguments
my %unsupported_options = ();
my %deprecated_options = ();
# If you change this, update apps/version.c
my @known_seed_sources = qw(getrandom devrandom os egd none rdcpu librandom);
my @seed_sources = ();
while (@argvcopy)
{
$_ = shift @argvcopy;
# Support env variable assignments among the options
if (m|^(\w+)=(.+)?$|)
{
$cmdvars{$1} = $2;
# Every time a variable is given as a configuration argument,
# it acts as a reset if the variable.
if (exists $user{$1})
{
$user{$1} = ref $user{$1} eq "ARRAY" ? [] : undef;
}
#if (exists $useradd{$1})
# {
# $useradd{$1} = [];
# }
next;
}
# VMS is a case insensitive environment, and depending on settings
# out of our control, we may receive options uppercased. Let's
# downcase at least the part before any equal sign.
if ($^O eq "VMS")
{
s/^([^=]*)/lc($1)/e;
}
# some people just can't read the instructions, clang people have to...
s/^-no-(?!integrated-as)/no-/;
# rewrite some options in "enable-..." form
s /^-?-?shared$/enable-shared/;
s /^sctp$/enable-sctp/;
s /^threads$/enable-threads/;
s /^zlib$/enable-zlib/;
s /^zlib-dynamic$/enable-zlib-dynamic/;
if (/^(no|disable|enable)-(.+)$/)
{
my $word = $2;
if (!exists $deprecated_disablables{$word}
&& !grep { $word =~ /^${_}$/ } @disablables)
{
$unsupported_options{$_} = 1;
next;
}
}
if (/^no-(.+)$/ || /^disable-(.+)$/)
{
foreach my $proto ((@tls, @dtls))
{
if ($1 eq "$proto-method")
{
$disabled{"$proto"} = "option($proto-method)";
last;
}
}
if ($1 eq "dtls")
{
foreach my $proto (@dtls)
{
$disabled{$proto} = "option(dtls)";
}
$disabled{"dtls"} = "option(dtls)";
}
elsif ($1 eq "ssl")
{
# Last one of its kind
$disabled{"ssl3"} = "option(ssl)";
}
elsif ($1 eq "tls")
{
# XXX: Tests will fail if all SSL/TLS
# protocols are disabled.
foreach my $proto (@tls)
{
$disabled{$proto} = "option(tls)";
}
}
elsif ($1 eq "static-engine")
{
delete $disabled{"dynamic-engine"};
}
elsif ($1 eq "dynamic-engine")
{
$disabled{"dynamic-engine"} = "option";
}
elsif (exists $deprecated_disablables{$1})
{
$deprecated_options{$_} = 1;
if (defined $deprecated_disablables{$1})
{
$disabled{$deprecated_disablables{$1}} = "option";
}
}
else
{
$disabled{$1} = "option";
}
# No longer an automatic choice
$auto_threads = 0 if ($1 eq "threads");
}
elsif (/^enable-(.+)$/)
{
if ($1 eq "static-engine")
{
$disabled{"dynamic-engine"} = "option";
}
elsif ($1 eq "dynamic-engine")
{
delete $disabled{"dynamic-engine"};
}
elsif ($1 eq "zlib-dynamic")
{
delete $disabled{"zlib"};
}
my $algo = $1;
delete $disabled{$algo};
# No longer an automatic choice
$auto_threads = 0 if ($1 eq "threads");
}
elsif (/^--strict-warnings$/)
{
$strict_warnings = 1;
}
elsif (/^--debug$/)
{
$config{build_type} = "debug";
}
elsif (/^--release$/)
{
$config{build_type} = "release";
}
elsif (/^386$/)
{ $config{processor}=386; }
elsif (/^fips$/)
{
die "FIPS mode not supported\n";
}
elsif (/^rsaref$/)
{
# No RSAref support any more since it's not needed.
# The check for the option is there so scripts aren't
# broken
}
elsif (/^nofipscanistercheck$/)
{
die "FIPS mode not supported\n";
}
elsif (/^[-+]/)
{
if (/^--prefix=(.*)$/)
{
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
$config{prefix}=$1;
die "Directory given with --prefix MUST be absolute\n"
unless file_name_is_absolute($config{prefix});
}
elsif (/^--api=(.*)$/)
{
$config{api}=$1;
}
elsif (/^--libdir=(.*)$/)
{
$config{libdir}=$1;
}
elsif (/^--openssldir=(.*)$/)
{
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
$config{openssldir}=$1;
}
elsif (/^--with-zlib-lib=(.*)$/)
{
$withargs{zlib_lib}=$1;
2011-10-19 17:24:22 +08:00
}
elsif (/^--with-zlib-include=(.*)$/)
{
$withargs{zlib_include}=$1;
}
elsif (/^--with-fuzzer-lib=(.*)$/)
{
$withargs{fuzzer_lib}=$1;
}
elsif (/^--with-fuzzer-include=(.*)$/)
{
$withargs{fuzzer_include}=$1;
}
elsif (/^--with-rand-seed=(.*)$/)
{
foreach my $x (split(m|,|, $1))
{
die "Unknown --with-rand-seed choice $x\n"
if ! grep { $x eq $_ } @known_seed_sources;
push @seed_sources, $x;
}
}
elsif (/^--cross-compile-prefix=(.*)$/)
{
$user{CROSS_COMPILE}=$1;
}
elsif (/^--config=(.*)$/)
{
read_config $1;
}
elsif (/^-l(.*)$/)
{
push @{$useradd{LDLIBS}}, $_;
}
elsif (/^-framework$/)
{
push @{$useradd{LDLIBS}}, $_, shift(@argvcopy);
}
elsif (/^-L(.*)$/ or /^-Wl,/)
{
push @{$useradd{LDFLAGS}}, $_;
}
elsif (/^-rpath$/ or /^-R$/)
# -rpath is the OSF1 rpath flag
# -R is the old Solaris rpath flag
{
my $rpath = shift(@argvcopy) || "";
$rpath .= " " if $rpath ne "";
push @{$useradd{LDFLAGS}}, $_, $rpath;
}
elsif (/^-static$/)
{
push @{$useradd{LDFLAGS}}, $_;
$disabled{"dso"} = "forced";
$disabled{"pic"} = "forced";
$disabled{"shared"} = "forced";
$disabled{"threads"} = "forced";
}
elsif (/^-D(.*)$/)
{
push @{$useradd{CPPDEFINES}}, $1;
}
elsif (/^-I(.*)$/)
{
push @{$useradd{CPPINCLUDES}}, $1;
}
elsif (/^-Wp,$/)
{
push @{$useradd{CPPFLAGS}}, $1;
}
else # common if (/^[-+]/), just pass down...
{
$_ =~ s/%([0-9a-f]{1,2})/chr(hex($1))/gei;
push @{$useradd{CFLAGS}}, $_;
push @{$useradd{CXXFLAGS}}, $_;
}
}
else
{
die "target already defined - $target (offending arg: $_)\n" if ($target ne "");
$target=$_;
}
unless ($_ eq $target || /^no-/ || /^disable-/)
{
# "no-..." follows later after implied deactivations
# have been derived. (Don't take this too seriously,
# we really only write OPTIONS to the Makefile out of
# nostalgia.)
if ($config{options} eq "")
{ $config{options} = $_; }
else
{ $config{options} .= " ".$_; }
}
}
if (defined($config{api}) && !exists $apitable->{$config{api}}) {
die "***** Unsupported api compatibility level: $config{api}\n",
}
if (keys %deprecated_options)
{
warn "***** Deprecated options: ",
join(", ", keys %deprecated_options), "\n";
}
if (keys %unsupported_options)
{
die "***** Unsupported options: ",
join(", ", keys %unsupported_options), "\n";
}
# If any %useradd entry has been set, we must check that the "make
# variables" haven't been set. We start by checking of any %useradd entry
# is set.
if (grep { scalar @$_ > 0 } values %useradd) {
# Hash of env / make variables names. The possible values are:
# 1 - "make vars"
# 2 - %useradd entry set
# 3 - both set
my %detected_vars =
map { my $v = 0;
$v += 1 if $cmdvars{$_};
$v += 2 if @{$useradd{$_}};
$_ => $v }
keys %useradd;
# If any of the corresponding "make variables" is set, we error
if (grep { $_ & 1 } values %detected_vars) {
my $names = join(', ', grep { $detected_vars{$_} > 0 }
sort keys %detected_vars);
die <<"_____";
***** Mixing make variables and additional compiler/linker flags as
***** configure command line option is not permitted.
***** Affected make variables: $names
_____
}
}
# Check through all supported command line variables to see if any of them
# were set, and canonicalise the values we got. If no compiler or linker
# flag or anything else that affects %useradd was set, we also check the
# environment for values.
my $anyuseradd =
grep { defined $_ && (ref $_ ne 'ARRAY' || @$_) } values %useradd;
foreach (keys %user) {
my $value = $cmdvars{$_};
$value //= env($_) unless $anyuseradd;
$value //=
defined $user_synonyms{$_} ? $cmdvars{$user_synonyms{$_}} : undef;
$value //= defined $user_synonyms{$_} ? env($user_synonyms{$_}) : undef
unless $anyuseradd;
if (defined $value) {
if (ref $user{$_} eq 'ARRAY') {
$user{$_} = [ split /$list_separator_re/, $value ];
} elsif (!defined $user{$_}) {
$user{$_} = $value;
}
}
}
if (grep { /-rpath\b/ } ($user{LDFLAGS} ? @{$user{LDFLAGS}} : ())
&& !$disabled{shared}
&& !($disabled{asan} && $disabled{msan} && $disabled{ubsan})) {
die "***** Cannot simultaneously use -rpath, shared libraries, and\n",
"***** any of asan, msan or ubsan\n";
}
my @tocheckfor = (keys %disabled);
while (@tocheckfor) {
my %new_tocheckfor = ();
my @cascade_copy = (@disable_cascades);
while (@cascade_copy) {
my ($test, $descendents) = (shift @cascade_copy, shift @cascade_copy);
if (ref($test) eq "CODE" ? $test->() : defined($disabled{$test})) {
foreach(grep { !defined($disabled{$_}) } @$descendents) {
$new_tocheckfor{$_} = 1; $disabled{$_} = "forced";
}
2009-04-24 00:32:42 +08:00
}
}
@tocheckfor = (keys %new_tocheckfor);
}
2011-03-13 01:01:19 +08:00
our $die = sub { die @_; };
1999-05-29 07:18:51 +08:00
if ($target eq "TABLE") {
local $die = sub { warn @_; };
foreach (sort keys %table) {
print_table_entry($_, "TABLE");
}
exit 0;
1999-05-29 07:18:51 +08:00
}
2000-02-21 08:55:45 +08:00
if ($target eq "LIST") {
foreach (sort keys %table) {
print $_,"\n" unless $table{$_}->{template};
}
exit 0;
2000-02-21 08:55:45 +08:00
}
if ($target eq "HASH") {
local $die = sub { warn @_; };
print "%table = (\n";
foreach (sort keys %table) {
print_table_entry($_, "HASH");
}
exit 0;
}
print "Configuring OpenSSL version $config{version} ($config{version_num}) ";
print "for $target\n";
if (scalar(@seed_sources) == 0) {
print "Using os-specific seed configuration\n";
push @seed_sources, 'os';
}
if (scalar(grep { $_ eq 'none' } @seed_sources) > 0) {
die "Cannot seed with none and anything else" if scalar(@seed_sources) > 1;
warn <<_____ if scalar(@seed_sources) == 1;
============================== WARNING ===============================
You have selected the --with-rand-seed=none option, which effectively
disables automatic reseeding of the OpenSSL random generator.
All operations depending on the random generator such as creating keys
will not work unless the random generator is seeded manually by the
application.
Please read the 'Note on random number generation' section in the
INSTALL instructions and the RAND_DRBG(7) manual page for more details.
============================== WARNING ===============================
_____
}
push @{$config{openssl_other_defines}},
map { (my $x = $_) =~ tr|[\-a-z]|[_A-Z]|; "OPENSSL_RAND_SEED_$x" }
@seed_sources;
# Backward compatibility?
if ($target =~ m/^CygWin32(-.*)$/) {
$target = "Cygwin".$1;
}
# Support for legacy targets having a name starting with 'debug-'
my ($d, $t) = $target =~ m/^(debug-)?(.*)$/;
if ($d) {
$config{build_type} = "debug";
# If we do not find debug-foo in the table, the target is set to foo.
if (!$table{$target}) {
$target = $t;
}
}
&usage if !$table{$target} || $table{$target}->{template};
$config{target} = $target;
my %target = resolve_config($target);
foreach (keys %target_attr_translate) {
$target{$target_attr_translate{$_}} = $target{$_}
if $target{$_};
delete $target{$_};
}
%target = ( %{$table{DEFAULTS}}, %target );
# Make the flags to build DSOs the same as for shared libraries unless they
# are already defined
$target{module_cflags} = $target{shared_cflag} unless defined $target{module_cflags};
$target{module_cxxflags} = $target{shared_cxxflag} unless defined $target{module_cxxflags};
$target{module_ldflags} = $target{shared_ldflag} unless defined $target{module_ldflags};
{
my $shared_info_pl =
catfile(dirname($0), "Configurations", "shared-info.pl");
my %shared_info = read_eval_file($shared_info_pl);
push @{$target{_conf_fname_int}}, $shared_info_pl;
my $si = $target{shared_target};
while (ref $si ne "HASH") {
last if ! defined $si;
if (ref $si eq "CODE") {
$si = $si->();
} else {
$si = $shared_info{$si};
}
}
# Some of the 'shared_target' values don't have any entried in
# %shared_info. That's perfectly fine, AS LONG AS the build file
# template knows how to handle this. That is currently the case for
# Windows and VMS.
if (defined $si) {
# Just as above, copy certain shared_* attributes to the corresponding
# module_ attribute unless the latter is already defined
$si->{module_cflags} = $si->{shared_cflag} unless defined $si->{module_cflags};
$si->{module_cxxflags} = $si->{shared_cxxflag} unless defined $si->{module_cxxflags};
$si->{module_ldflags} = $si->{shared_ldflag} unless defined $si->{module_ldflags};
foreach (sort keys %$si) {
$target{$_} = defined $target{$_}
? add($si->{$_})->($target{$_})
: $si->{$_};
}
}
}
my %conf_files = map { $_ => 1 } (@{$target{_conf_fname_int}});
$config{conf_files} = [ sort keys %conf_files ];
foreach my $feature (@{$target{disable}}) {
if (exists $deprecated_disablables{$feature}) {
warn "***** config $target disables deprecated feature $feature\n";
} elsif (!grep { $feature eq $_ } @disablables) {
die "***** config $target disables unknown feature $feature\n";
}
$disabled{$feature} = 'config';
}
foreach my $feature (@{$target{enable}}) {
if ("default" eq ($disabled{$_} // "")) {
if (exists $deprecated_disablables{$feature}) {
warn "***** config $target enables deprecated feature $feature\n";
} elsif (!grep { $feature eq $_ } @disablables) {
die "***** config $target enables unknown feature $feature\n";
}
delete $disabled{$_};
}
}
$target{CXXFLAGS}//=$target{CFLAGS} if $target{CXX};
$target{cxxflags}//=$target{cflags} if $target{CXX};
$target{exe_extension}="";
$target{exe_extension}=".exe" if ($config{target} eq "DJGPP"
|| $config{target} =~ /^(?:Cygwin|mingw)/);
$target{exe_extension}=".pm" if ($config{target} =~ /vos/);
$target{def_extension}=".ld";
$target{def_extension}=".def" if $config{target} =~ /^mingw|VC-/;
$target{def_extension}=".opt" if $config{target} =~ /^vms/;
($target{shared_extension_simple}=$target{shared_extension})
=~ s|\.\$\(SHLIB_VERSION_NUMBER\)||
unless defined($target{shared_extension_simple});
$target{dso_extension}//=$target{shared_extension_simple};
($target{shared_import_extension}=$target{shared_extension_simple}.".a")
if ($config{target} =~ /^(?:Cygwin|mingw)/);
# Fill %config with values from %user, and in case those are undefined or
# empty, use values from %target (acting as a default).
foreach (keys %user) {
my $ref_type = ref $user{$_};
# Temporary function. Takes an intended ref type (empty string or "ARRAY")
# and a value that's to be coerced into that type.
my $mkvalue = sub {
my $type = shift;
my $value = shift;
my $undef_p = shift;
die "Too many arguments for \$mkvalue" if @_;
while (ref $value eq 'CODE') {
$value = $value->();
}
if ($type eq 'ARRAY') {
return undef unless defined $value;
return undef if ref $value ne 'ARRAY' && !$value;
return undef if ref $value eq 'ARRAY' && !@$value;
return [ $value ] unless ref $value eq 'ARRAY';
}
return undef unless $value;
return $value;
};
$config{$_} =
$mkvalue->($ref_type, $user{$_})
|| $mkvalue->($ref_type, $target{$_});
delete $config{$_} unless defined $config{$_};
}
# Allow overriding the build file name
$config{build_file} = env('BUILDFILE') || $target{build_file} || "Makefile";
my %disabled_info = (); # For configdata.pm
foreach my $what (sort keys %disabled) {
$config{options} .= " no-$what";
if (!grep { $what eq $_ } ( 'dso', 'threads', 'shared', 'pic',
'dynamic-engine', 'makedepend',
'zlib-dynamic', 'zlib', 'sse2' )) {
(my $WHAT = uc $what) =~ s|-|_|g;
# Fix up C macro end names
$WHAT = "RMD160" if $what eq "ripemd";
# fix-up crypto/directory name(s)
$what = "ripemd" if $what eq "rmd160";
$what = "whrlpool" if $what eq "whirlpool";
my $macro = $disabled_info{$what}->{macro} = "OPENSSL_NO_$WHAT";
if ((grep { $what eq $_ } @{$config{sdirs}})
&& $what ne 'async' && $what ne 'err') {
@{$config{sdirs}} = grep { $what ne $_} @{$config{sdirs}};
$disabled_info{$what}->{skipped} = [ catdir('crypto', $what) ];
if ($what ne 'engine') {
push @{$config{openssl_algorithm_defines}}, $macro;
} else {
@{$config{dirs}} = grep !/^engines$/, @{$config{dirs}};
push @{$disabled_info{engine}->{skipped}}, catdir('engines');
push @{$config{openssl_other_defines}}, $macro;
}
} else {
push @{$config{openssl_other_defines}}, $macro;
}
}
}
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
# Make sure build_scheme is consistent.
$target{build_scheme} = [ $target{build_scheme} ]
if ref($target{build_scheme}) ne "ARRAY";
my ($builder, $builder_platform, @builder_opts) =
@{$target{build_scheme}};
foreach my $checker (($builder_platform."-".$target{build_file}."-checker.pm",
$builder_platform."-checker.pm")) {
my $checker_path = catfile($srcdir, "Configurations", $checker);
if (-f $checker_path) {
my $fn = $ENV{CONFIGURE_CHECKER_WARN}
? sub { warn $@; } : sub { die $@; };
if (! do $checker_path) {
if ($@) {
$fn->($@);
} elsif ($!) {
$fn->($!);
} else {
$fn->("The detected tools didn't match the platform\n");
}
}
last;
}
}
push @{$config{defines}}, "NDEBUG" if $config{build_type} eq "release";
if ($target =~ /^mingw/ && `$config{CC} --target-help 2>&1` =~ m/-mno-cygwin/m)
{
push @{$config{cflags}}, "-mno-cygwin";
push @{$config{cxxflags}}, "-mno-cygwin" if $config{CXX};
push @{$config{shared_ldflag}}, "-mno-cygwin";
}
if ($target =~ /linux.*-mips/ && !$disabled{asm}
&& !grep { $_ !~ /-m(ips|arch=)/ } (@{$user{CFLAGS}},
@{$useradd{CFLAGS}})) {
2012-09-15 19:21:50 +08:00
# minimally required architecture flags for assembly modules
my $value;
$value = '-mips2' if ($target =~ /mips32/);
$value = '-mips3' if ($target =~ /mips64/);
unshift @{$config{cflags}}, $value;
unshift @{$config{cxxflags}}, $value if $config{CXX};
2012-09-15 19:21:50 +08:00
}
# If threads aren't disabled, check how possible they are
unless ($disabled{threads}) {
if ($auto_threads) {
# Enabled by default, disable it forcibly if unavailable
if ($target{thread_scheme} eq "(unknown)") {
$disabled{threads} = "unavailable";
}
} else {
# The user chose to enable threads explicitly, let's see
# if there's a chance that's possible
if ($target{thread_scheme} eq "(unknown)") {
# If the user asked for "threads" and we don't have internal
# knowledge how to do it, [s]he is expected to provide any
# system-dependent compiler options that are necessary. We
# can't truly check that the given options are correct, but
# we expect the user to know what [s]He is doing.
if (!@{$user{CFLAGS}} && !@{$useradd{CFLAGS}}
&& !@{$user{CPPDEFINES}} && !@{$useradd{CPPDEFINES}}) {
die "You asked for multi-threading support, but didn't\n"
,"provide any system-specific compiler options\n";
}
}
}
}
# If threads still aren't disabled, add a C macro to ensure the source
# code knows about it. Any other flag is taken care of by the configs.
unless($disabled{threads}) {
push @{$config{openssl_thread_defines}}, "OPENSSL_THREADS";
}
# With "deprecated" disable all deprecated features.
if (defined($disabled{"deprecated"})) {
$config{api} = $maxapi;
}
my $no_shared_warn=0;
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
if ($target{shared_target} eq "")
{
$no_shared_warn = 1
if (!$disabled{shared} || !$disabled{"dynamic-engine"});
$disabled{shared} = "no-shared-target";
$disabled{pic} = $disabled{shared} = $disabled{"dynamic-engine"} =
"no-shared-target";
}
if ($disabled{"dynamic-engine"}) {
push @{$config{openssl_other_defines}}, "OPENSSL_NO_DYNAMIC_ENGINE";
$config{dynamic_engines} = 0;
} else {
push @{$config{openssl_other_defines}}, "OPENSSL_NO_STATIC_ENGINE";
$config{dynamic_engines} = 1;
}
unless ($disabled{asan}) {
push @{$config{cflags}}, "-fsanitize=address";
push @{$config{cxxflags}}, "-fsanitize=address" if $config{CXX};
}
unless ($disabled{ubsan}) {
# -DPEDANTIC or -fnosanitize=alignment may also be required on some
# platforms.
push @{$config{cflags}}, "-fsanitize=undefined", "-fno-sanitize-recover=all";
push @{$config{cxxflags}}, "-fsanitize=undefined", "-fno-sanitize-recover=all"
if $config{CXX};
}
unless ($disabled{msan}) {
push @{$config{cflags}}, "-fsanitize=memory";
push @{$config{cxxflags}}, "-fsanitize=memory" if $config{CXX};
}
unless ($disabled{"fuzz-libfuzzer"} && $disabled{"fuzz-afl"}
&& $disabled{asan} && $disabled{ubsan} && $disabled{msan}) {
push @{$config{cflags}}, "-fno-omit-frame-pointer", "-g";
push @{$config{cxxflags}}, "-fno-omit-frame-pointer", "-g" if $config{CXX};
}
#
# Platform fix-ups
#
# This saves the build files from having to check
if ($disabled{pic})
{
foreach (qw(shared_cflag shared_cxxflag shared_cppflag
shared_defines shared_includes shared_ldflag
module_cflags module_cxxflags module_cppflags
module_defines module_includes module_lflags))
{
delete $config{$_};
$target{$_} = "";
}
}
else
{
push @{$config{lib_defines}}, "OPENSSL_PIC";
}
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
if ($target{sys_id} ne "")
{
push @{$config{openssl_sys_defines}}, "OPENSSL_SYS_$target{sys_id}";
}
unless ($disabled{asm}) {
$target{cpuid_asm_src}=$table{DEFAULTS}->{cpuid_asm_src} if ($config{processor} eq "386");
push @{$config{lib_defines}}, "OPENSSL_CPUID_OBJ" if ($target{cpuid_asm_src} ne "mem_clr.c");
$target{bn_asm_src} =~ s/\w+-gf2m.c// if (defined($disabled{ec2m}));
# bn-586 is the only one implementing bn_*_part_words
push @{$config{lib_defines}}, "OPENSSL_BN_ASM_PART_WORDS" if ($target{bn_asm_src} =~ /bn-586/);
push @{$config{lib_defines}}, "OPENSSL_IA32_SSE2" if (!$disabled{sse2} && $target{bn_asm_src} =~ /86/);
push @{$config{lib_defines}}, "OPENSSL_BN_ASM_MONT" if ($target{bn_asm_src} =~ /-mont/);
push @{$config{lib_defines}}, "OPENSSL_BN_ASM_MONT5" if ($target{bn_asm_src} =~ /-mont5/);
push @{$config{lib_defines}}, "OPENSSL_BN_ASM_GF2m" if ($target{bn_asm_src} =~ /-gf2m/);
if ($target{sha1_asm_src}) {
push @{$config{lib_defines}}, "SHA1_ASM" if ($target{sha1_asm_src} =~ /sx86/ || $target{sha1_asm_src} =~ /sha1/);
push @{$config{lib_defines}}, "SHA256_ASM" if ($target{sha1_asm_src} =~ /sha256/);
push @{$config{lib_defines}}, "SHA512_ASM" if ($target{sha1_asm_src} =~ /sha512/);
}
if ($target{keccak1600_asm_src} ne $table{DEFAULTS}->{keccak1600_asm_src}) {
push @{$config{lib_defines}}, "KECCAK1600_ASM";
}
if ($target{rc4_asm_src} ne $table{DEFAULTS}->{rc4_asm_src}) {
push @{$config{lib_defines}}, "RC4_ASM";
}
if ($target{md5_asm_src}) {
push @{$config{lib_defines}}, "MD5_ASM";
}
$target{cast_asm_src}=$table{DEFAULTS}->{cast_asm_src} unless $disabled{pic}; # CAST assembler is not PIC
if ($target{rmd160_asm_src}) {
push @{$config{lib_defines}}, "RMD160_ASM";
}
if ($target{aes_asm_src}) {
push @{$config{lib_defines}}, "AES_ASM" if ($target{aes_asm_src} =~ m/\baes-/);;
# aes-ctr.fake is not a real file, only indication that assembler
# module implements AES_ctr32_encrypt...
push @{$config{lib_defines}}, "AES_CTR_ASM" if ($target{aes_asm_src} =~ s/\s*aes-ctr\.fake//);
# aes-xts.fake indicates presence of AES_xts_[en|de]crypt...
push @{$config{lib_defines}}, "AES_XTS_ASM" if ($target{aes_asm_src} =~ s/\s*aes-xts\.fake//);
$target{aes_asm_src} =~ s/\s*(vpaes|aesni)-x86\.s//g if ($disabled{sse2});
push @{$config{lib_defines}}, "VPAES_ASM" if ($target{aes_asm_src} =~ m/vpaes/);
push @{$config{lib_defines}}, "BSAES_ASM" if ($target{aes_asm_src} =~ m/bsaes/);
}
if ($target{wp_asm_src} =~ /mmx/) {
if ($config{processor} eq "386") {
$target{wp_asm_src}=$table{DEFAULTS}->{wp_asm_src};
} elsif (!$disabled{"whirlpool"}) {
push @{$config{lib_defines}}, "WHIRLPOOL_ASM";
}
}
if ($target{modes_asm_src} =~ /ghash-/) {
push @{$config{lib_defines}}, "GHASH_ASM";
}
if ($target{ec_asm_src} =~ /ecp_nistz256/) {
push @{$config{lib_defines}}, "ECP_NISTZ256_ASM";
}
if ($target{ec_asm_src} =~ /x25519/) {
push @{$config{lib_defines}}, "X25519_ASM";
}
if ($target{padlock_asm_src} ne $table{DEFAULTS}->{padlock_asm_src}) {
push @{$config{lib_defines}}, "PADLOCK_ASM";
}
if ($target{poly1305_asm_src} ne "") {
push @{$config{lib_defines}}, "POLY1305_ASM";
}
}
my %predefined = compiler_predefined($config{CROSS_COMPILE}.$config{CC});
# Check for makedepend capabilities.
if (!$disabled{makedepend}) {
if ($config{target} =~ /^(VC|vms)-/) {
# For VC- and vms- targets, there's nothing more to do here. The
# functionality is hard coded in the corresponding build files for
# cl (Windows) and CC/DECC (VMS).
} elsif (($predefined{__GNUC__} // -1) >= 3
&& !($predefined{__APPLE_CC__} && !$predefined{__clang__})) {
# We know that GNU C version 3 and up as well as all clang
# versions support dependency generation, but Xcode did not
# handle $cc -M before clang support (but claims __GNUC__ = 3)
$config{makedepprog} = "\$(CROSS_COMPILE)$config{CC}";
} else {
# In all other cases, we look for 'makedepend', and disable the
# capability if not found.
$config{makedepprog} = which('makedepend');
$disabled{makedepend} = "unavailable" unless $config{makedepprog};
}
}
if (!$disabled{asm} && !$predefined{__MACH__} && $^O ne 'VMS') {
# probe for -Wa,--noexecstack option...
if ($predefined{__clang__}) {
# clang has builtin assembler, which doesn't recognize --help,
# but it apparently recognizes the option in question on all
# supported platforms even when it's meaningless. In other words
# probe would fail, but probed option always accepted...
push @{$config{cflags}}, "-Wa,--noexecstack", "-Qunused-arguments";
} else {
my $cc = $config{CROSS_COMPILE}.$config{CC};
open(PIPE, "$cc -Wa,--help -c -o null.$$.o -x assembler /dev/null 2>&1 |");
while(<PIPE>) {
if (m/--noexecstack/) {
push @{$config{cflags}}, "-Wa,--noexecstack";
last;
}
}
close(PIPE);
unlink("null.$$.o");
}
}
# Deal with bn_ops ###################################################
$config{bn_ll} =0;
$config{export_var_as_fn} =0;
my $def_int="unsigned int";
$config{rc4_int} =$def_int;
($config{b64l},$config{b64},$config{b32})=(0,0,1);
my $count = 0;
foreach (sort split(/\s+/,$target{bn_ops})) {
$count++ if /SIXTY_FOUR_BIT|SIXTY_FOUR_BIT_LONG|THIRTY_TWO_BIT/;
$config{export_var_as_fn}=1 if $_ eq 'EXPORT_VAR_AS_FN';
$config{bn_ll}=1 if $_ eq 'BN_LLONG';
$config{rc4_int}="unsigned char" if $_ eq 'RC4_CHAR';
($config{b64l},$config{b64},$config{b32})
=(0,1,0) if $_ eq 'SIXTY_FOUR_BIT';
($config{b64l},$config{b64},$config{b32})
=(1,0,0) if $_ eq 'SIXTY_FOUR_BIT_LONG';
($config{b64l},$config{b64},$config{b32})
=(0,0,1) if $_ eq 'THIRTY_TWO_BIT';
}
die "Exactly one of SIXTY_FOUR_BIT|SIXTY_FOUR_BIT_LONG|THIRTY_TWO_BIT can be set in bn_ops\n"
if $count > 1;
# Hack cflags for better warnings (dev option) #######################
# "Stringify" the C and C++ flags string. This permits it to be made part of
# a string and works as well on command lines.
$config{cflags} = [ map { (my $x = $_) =~ s/([\\\"])/\\$1/g; $x }
@{$config{cflags}} ];
$config{cxxflags} = [ map { (my $x = $_) =~ s/([\\\"])/\\$1/g; $x }
@{$config{cxxflags}} ] if $config{CXX};
if (defined($config{api})) {
$config{openssl_api_defines} = [ "OPENSSL_MIN_API=".$apitable->{$config{api}} ];
my $apiflag = sprintf("OPENSSL_API_COMPAT=%s", $apitable->{$config{api}});
push @{$config{defines}}, $apiflag;
}
if ($strict_warnings)
{
my $wopt;
my $gccver = $predefined{__GNUC__} // -1;
die "ERROR --strict-warnings requires gcc[>=4] or gcc-alike"
unless $gccver >= 4;
foreach $wopt (split /\s+/, $gcc_devteam_warn)
{
push @{$config{cflags}}, $wopt
unless grep { $_ eq $wopt } @{$config{cflags}};
push @{$config{cxxflags}}, $wopt
if ($config{CXX}
&& !grep { $_ eq $wopt } @{$config{cxxflags}});
}
if (defined($predefined{__clang__}))
{
foreach $wopt (split /\s+/, $clang_devteam_warn)
{
push @{$config{cflags}}, $wopt
unless grep { $_ eq $wopt } @{$config{cflags}};
push @{$config{cxxflags}}, $wopt
if ($config{CXX}
&& !grep { $_ eq $wopt } @{$config{cxxflags}});
}
}
}
unless ($disabled{"crypto-mdebug-backtrace"})
{
foreach my $wopt (split /\s+/, $memleak_devteam_backtrace)
{
push @{$config{cflags}}, $wopt
unless grep { $_ eq $wopt } @{$config{cflags}};
push @{$config{cxxflags}}, $wopt
if ($config{CXX}
&& !grep { $_ eq $wopt } @{$config{cxxflags}});
}
if ($target =~ /^BSD-/)
{
push @{$config{ex_libs}}, "-lexecinfo";
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
}
}
unless ($disabled{afalgeng}) {
$config{afalgeng}="";
if (grep { $_ eq 'afalgeng' } @{$target{enable}}) {
my $minver = 4*10000 + 1*100 + 0;
if ($config{CROSS_COMPILE} eq "") {
my $verstr = `uname -r`;
my ($ma, $mi1, $mi2) = split("\\.", $verstr);
($mi2) = $mi2 =~ /(\d+)/;
my $ver = $ma*10000 + $mi1*100 + $mi2;
if ($ver < $minver) {
$disabled{afalgeng} = "too-old-kernel";
} else {
push @{$config{engdirs}}, "afalg";
}
} else {
$disabled{afalgeng} = "cross-compiling";
}
} else {
$disabled{afalgeng} = "not-linux";
}
}
push @{$config{openssl_other_defines}}, "OPENSSL_NO_AFALGENG" if ($disabled{afalgeng});
# Finish up %config by appending things the user gave us on the command line
# apart from "make variables"
foreach (keys %useradd) {
# The must all be lists, so we assert that here
die "internal error: \$useradd{$_} isn't an ARRAY\n"
unless ref $useradd{$_} eq 'ARRAY';
if (defined $config{$_}) {
push @{$config{$_}}, @{$useradd{$_}};
} else {
$config{$_} = [ @{$useradd{$_}} ];
}
}
# ALL MODIFICATIONS TO %config and %target MUST BE DONE FROM HERE ON
# If we use the unified build, collect information from build.info files
my %unified_info = ();
my $buildinfo_debug = defined($ENV{CONFIGURE_DEBUG_BUILDINFO});
if ($builder eq "unified") {
use with_fallback qw(Text::Template);
sub cleandir {
my $base = shift;
my $dir = shift;
my $relativeto = shift || ".";
$dir = catdir($base,$dir) unless isabsolute($dir);
# Make sure the directories we're building in exists
mkpath($dir);
my $res = abs2rel(absolutedir($dir), rel2abs($relativeto));
#print STDERR "DEBUG[cleandir]: $dir , $base => $res\n";
return $res;
}
sub cleanfile {
my $base = shift;
my $file = shift;
my $relativeto = shift || ".";
$file = catfile($base,$file) unless isabsolute($file);
my $d = dirname($file);
my $f = basename($file);
# Make sure the directories we're building in exists
mkpath($d);
my $res = abs2rel(catfile(absolutedir($d), $f), rel2abs($relativeto));
#print STDERR "DEBUG[cleanfile]: $d , $f => $res\n";
return $res;
}
# Store the name of the template file we will build the build file from
# in %config. This may be useful for the build file itself.
my @build_file_template_names =
( $builder_platform."-".$target{build_file}.".tmpl",
$target{build_file}.".tmpl" );
my @build_file_templates = ();
# First, look in the user provided directory, if given
if (defined env($local_config_envname)) {
@build_file_templates =
map {
if ($^O eq 'VMS') {
# VMS environment variables are logical names,
# which can be used as is
$local_config_envname . ':' . $_;
} else {
catfile(env($local_config_envname), $_);
}
}
@build_file_template_names;
}
# Then, look in our standard directory
push @build_file_templates,
( map { cleanfile($srcdir, catfile("Configurations", $_), $blddir) }
@build_file_template_names );
my $build_file_template;
for $_ (@build_file_templates) {
$build_file_template = $_;
last if -f $build_file_template;
$build_file_template = undef;
}
if (!defined $build_file_template) {
die "*** Couldn't find any of:\n", join("\n", @build_file_templates), "\n";
}
$config{build_file_templates}
= [ cleanfile($srcdir, catfile("Configurations", "common0.tmpl"),
$blddir),
$build_file_template,
cleanfile($srcdir, catfile("Configurations", "common.tmpl"),
$blddir) ];
my @build_infos = ( [ ".", "build.info" ] );
foreach (@{$config{dirs}}) {
push @build_infos, [ $_, "build.info" ]
if (-f catfile($srcdir, $_, "build.info"));
}
foreach (@{$config{sdirs}}) {
push @build_infos, [ catdir("crypto", $_), "build.info" ]
if (-f catfile($srcdir, "crypto", $_, "build.info"));
}
foreach (@{$config{engdirs}}) {
push @build_infos, [ catdir("engines", $_), "build.info" ]
if (-f catfile($srcdir, "engines", $_, "build.info"));
}
foreach (@{$config{tdirs}}) {
push @build_infos, [ catdir("test", $_), "build.info" ]
if (-f catfile($srcdir, "test", $_, "build.info"));
}
$config{build_infos} = [ ];
my %ordinals = ();
foreach (@build_infos) {
my $sourced = catdir($srcdir, $_->[0]);
my $buildd = catdir($blddir, $_->[0]);
mkpath($buildd);
my $f = $_->[1];
# The basic things we're trying to build
my @programs = ();
my @programs_install = ();
my @libraries = ();
my @libraries_install = ();
my @engines = ();
my @engines_install = ();
my @scripts = ();
my @scripts_install = ();
my @extra = ();
my @overrides = ();
my @intermediates = ();
my @rawlines = ();
my %sources = ();
my %shared_sources = ();
my %includes = ();
my %depends = ();
my %renames = ();
my %sharednames = ();
my %generate = ();
# We want to detect configdata.pm in the source tree, so we
# don't use it if the build tree is different.
my $src_configdata = cleanfile($srcdir, "configdata.pm", $blddir);
push @{$config{build_infos}}, catfile(abs2rel($sourced, $blddir), $f);
my $template =
Text::Template->new(TYPE => 'FILE',
SOURCE => catfile($sourced, $f),
PREPEND => qq{use lib "$FindBin::Bin/util/perl";});
die "Something went wrong with $sourced/$f: $!\n" unless $template;
my @text =
split /^/m,
$template->fill_in(HASH => { config => \%config,
target => \%target,
disabled => \%disabled,
withargs => \%withargs,
builddir => abs2rel($buildd, $blddir),
sourcedir => abs2rel($sourced, $blddir),
buildtop => abs2rel($blddir, $blddir),
sourcetop => abs2rel($srcdir, $blddir) },
DELIMITERS => [ "{-", "-}" ]);
# The top item of this stack has the following values
# -2 positive already run and we found ELSE (following ELSIF should fail)
# -1 positive already run (skip until ENDIF)
# 0 negatives so far (if we're at a condition, check it)
# 1 last was positive (don't skip lines until next ELSE, ELSIF or ENDIF)
# 2 positive ELSE (following ELSIF should fail)
my @skip = ();
collect_information(
collect_from_array([ @text ],
qr/\\$/ => sub { my $l1 = shift; my $l2 = shift;
$l1 =~ s/\\$//; $l1.$l2 }),
# Info we're looking for
qr/^\s*IF\[((?:\\.|[^\\\]])*)\]\s*$/
=> sub {
if (! @skip || $skip[$#skip] > 0) {
push @skip, !! $1;
} else {
push @skip, -1;
}
},
qr/^\s*ELSIF\[((?:\\.|[^\\\]])*)\]\s*$/
=> sub { die "ELSIF out of scope" if ! @skip;
die "ELSIF following ELSE" if abs($skip[$#skip]) == 2;
$skip[$#skip] = -1 if $skip[$#skip] != 0;
$skip[$#skip] = !! $1
if $skip[$#skip] == 0; },
qr/^\s*ELSE\s*$/
=> sub { die "ELSE out of scope" if ! @skip;
$skip[$#skip] = -2 if $skip[$#skip] != 0;
$skip[$#skip] = 2 if $skip[$#skip] == 0; },
qr/^\s*ENDIF\s*$/
=> sub { die "ENDIF out of scope" if ! @skip;
pop @skip; },
qr/^\s*PROGRAMS(_NO_INST)?\s*=\s*(.*)\s*$/
=> sub {
if (!@skip || $skip[$#skip] > 0) {
my $install = $1;
my @x = tokenize($2);
push @programs, @x;
push @programs_install, @x unless $install;
}
},
qr/^\s*LIBS(_NO_INST)?\s*=\s*(.*)\s*$/
=> sub {
if (!@skip || $skip[$#skip] > 0) {
my $install = $1;
my @x = tokenize($2);
push @libraries, @x;
push @libraries_install, @x unless $install;
}
},
qr/^\s*ENGINES(_NO_INST)?\s*=\s*(.*)\s*$/
=> sub {
if (!@skip || $skip[$#skip] > 0) {
my $install = $1;
my @x = tokenize($2);
push @engines, @x;
push @engines_install, @x unless $install;
}
},
qr/^\s*SCRIPTS(_NO_INST)?\s*=\s*(.*)\s*$/
=> sub {
if (!@skip || $skip[$#skip] > 0) {
my $install = $1;
my @x = tokenize($2);
push @scripts, @x;
push @scripts_install, @x unless $install;
}
},
qr/^\s*EXTRA\s*=\s*(.*)\s*$/
=> sub { push @extra, tokenize($1)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*OVERRIDES\s*=\s*(.*)\s*$/
=> sub { push @overrides, tokenize($1)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*ORDINALS\[((?:\\.|[^\\\]])+)\]\s*=\s*(.*)\s*$/,
=> sub { push @{$ordinals{$1}}, tokenize($2)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*SOURCE\[((?:\\.|[^\\\]])+)\]\s*=\s*(.*)\s*$/
=> sub { push @{$sources{$1}}, tokenize($2)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*SHARED_SOURCE\[((?:\\.|[^\\\]])+)\]\s*=\s*(.*)\s*$/
=> sub { push @{$shared_sources{$1}}, tokenize($2)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*INCLUDE\[((?:\\.|[^\\\]])+)\]\s*=\s*(.*)\s*$/
=> sub { push @{$includes{$1}}, tokenize($2)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*DEPEND\[((?:\\.|[^\\\]])*)\]\s*=\s*(.*)\s*$/
=> sub { push @{$depends{$1}}, tokenize($2)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*GENERATE\[((?:\\.|[^\\\]])+)\]\s*=\s*(.*)\s*$/
=> sub { push @{$generate{$1}}, $2
if !@skip || $skip[$#skip] > 0 },
qr/^\s*RENAME\[((?:\\.|[^\\\]])+)\]\s*=\s*(.*)\s*$/
=> sub { push @{$renames{$1}}, tokenize($2)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*SHARED_NAME\[((?:\\.|[^\\\]])+)\]\s*=\s*(.*)\s*$/
=> sub { push @{$sharednames{$1}}, tokenize($2)
if !@skip || $skip[$#skip] > 0 },
qr/^\s*BEGINRAW\[((?:\\.|[^\\\]])+)\]\s*$/
=> sub {
my $lineiterator = shift;
my $target_kind = $1;
while (defined $lineiterator->()) {
s|\R$||;
if (/^\s*ENDRAW\[((?:\\.|[^\\\]])+)\]\s*$/) {
die "ENDRAW doesn't match BEGINRAW"
if $1 ne $target_kind;
last;
}
next if @skip && $skip[$#skip] <= 0;
push @rawlines, $_
if ($target_kind eq $target{build_file}
|| $target_kind eq $target{build_file}."(".$builder_platform.")");
}
},
qr/^\s*(?:#.*)?$/ => sub { },
"OTHERWISE" => sub { die "Something wrong with this line:\n$_\nat $sourced/$f" },
"BEFORE" => sub {
if ($buildinfo_debug) {
print STDERR "DEBUG: Parsing ",join(" ", @_),"\n";
print STDERR "DEBUG: ... before parsing, skip stack is ",join(" ", map { int($_) } @skip),"\n";
}
},
"AFTER" => sub {
if ($buildinfo_debug) {
print STDERR "DEBUG: .... after parsing, skip stack is ",join(" ", map { int($_) } @skip),"\n";
}
},
);
die "runaway IF?" if (@skip);
foreach (keys %renames) {
die "$_ renamed to more than one thing: "
,join(" ", @{$renames{$_}}),"\n"
if scalar @{$renames{$_}} > 1;
my $dest = cleanfile($buildd, $_, $blddir);
my $to = cleanfile($buildd, $renames{$_}->[0], $blddir);
die "$dest renamed to more than one thing: "
,$unified_info{rename}->{$dest}, $to
unless !defined($unified_info{rename}->{$dest})
or $unified_info{rename}->{$dest} eq $to;
$unified_info{rename}->{$dest} = $to;
}
foreach (@programs) {
my $program = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$program}) {
$program = $unified_info{rename}->{$program};
}
$unified_info{programs}->{$program} = 1;
}
foreach (@programs_install) {
my $program = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$program}) {
$program = $unified_info{rename}->{$program};
}
$unified_info{install}->{programs}->{$program} = 1;
}
foreach (@libraries) {
my $library = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$library}) {
$library = $unified_info{rename}->{$library};
}
$unified_info{libraries}->{$library} = 1;
}
foreach (@libraries_install) {
my $library = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$library}) {
$library = $unified_info{rename}->{$library};
}
$unified_info{install}->{libraries}->{$library} = 1;
}
die <<"EOF" if scalar @engines and !$config{dynamic_engines};
ENGINES can only be used if configured with 'dynamic-engine'.
This is usually a fault in a build.info file.
EOF
foreach (@engines) {
my $library = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$library}) {
$library = $unified_info{rename}->{$library};
}
$unified_info{engines}->{$library} = 1;
}
foreach (@engines_install) {
my $library = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$library}) {
$library = $unified_info{rename}->{$library};
}
$unified_info{install}->{engines}->{$library} = 1;
}
foreach (@scripts) {
my $script = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$script}) {
$script = $unified_info{rename}->{$script};
}
$unified_info{scripts}->{$script} = 1;
}
foreach (@scripts_install) {
my $script = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$script}) {
$script = $unified_info{rename}->{$script};
}
$unified_info{install}->{scripts}->{$script} = 1;
}
foreach (@extra) {
my $extra = cleanfile($buildd, $_, $blddir);
$unified_info{extra}->{$extra} = 1;
}
foreach (@overrides) {
my $override = cleanfile($buildd, $_, $blddir);
$unified_info{overrides}->{$override} = 1;
}
push @{$unified_info{rawlines}}, @rawlines;
unless ($disabled{shared}) {
# Check sharednames.
foreach (keys %sharednames) {
my $dest = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$dest}) {
$dest = $unified_info{rename}->{$dest};
}
die "shared_name for $dest with multiple values: "
,join(" ", @{$sharednames{$_}}),"\n"
if scalar @{$sharednames{$_}} > 1;
my $to = cleanfile($buildd, $sharednames{$_}->[0], $blddir);
die "shared_name found for a library $dest that isn't defined\n"
unless $unified_info{libraries}->{$dest};
die "shared_name for $dest with multiple values: "
,$unified_info{sharednames}->{$dest}, ", ", $to
unless !defined($unified_info{sharednames}->{$dest})
or $unified_info{sharednames}->{$dest} eq $to;
$unified_info{sharednames}->{$dest} = $to;
}
# Additionally, we set up sharednames for libraries that don't
# have any, as themselves. Only for libraries that aren't
# explicitly static.
foreach (grep !/\.a$/, keys %{$unified_info{libraries}}) {
if (!defined $unified_info{sharednames}->{$_}) {
$unified_info{sharednames}->{$_} = $_
}
}
# Check that we haven't defined any library as both shared and
# explicitly static. That is forbidden.
my @doubles = ();
foreach (grep /\.a$/, keys %{$unified_info{libraries}}) {
(my $l = $_) =~ s/\.a$//;
push @doubles, $l if defined $unified_info{sharednames}->{$l};
}
die "these libraries are both explicitly static and shared:\n ",
join(" ", @doubles), "\n"
if @doubles;
}
foreach (keys %sources) {
my $dest = $_;
my $ddest = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$ddest}) {
$ddest = $unified_info{rename}->{$ddest};
}
foreach (@{$sources{$dest}}) {
my $s = cleanfile($sourced, $_, $blddir);
# If it isn't in the source tree, we assume it's generated
# in the build tree
if ($s eq $src_configdata || ! -f $s || $generate{$_}) {
$s = cleanfile($buildd, $_, $blddir);
}
# We recognise C++, C and asm files
if ($s =~ /\.(cc|cpp|c|s|S)$/) {
my $o = $_;
$o =~ s/\.[csS]$/.o/; # C and assembler
$o =~ s/\.(cc|cpp)$/_cc.o/; # C++
$o = cleanfile($buildd, $o, $blddir);
$unified_info{sources}->{$ddest}->{$o} = -1;
$unified_info{sources}->{$o}->{$s} = -1;
} elsif ($s =~ /\.rc$/) {
# We also recognise resource files
my $o = $_;
$o =~ s/\.rc$/.res/; # Resource configuration
my $o = cleanfile($buildd, $o, $blddir);
$unified_info{sources}->{$ddest}->{$o} = -1;
$unified_info{sources}->{$o}->{$s} = -1;
} else {
$unified_info{sources}->{$ddest}->{$s} = 1;
}
}
}
foreach (keys %shared_sources) {
my $dest = $_;
my $ddest = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$ddest}) {
$ddest = $unified_info{rename}->{$ddest};
}
foreach (@{$shared_sources{$dest}}) {
my $s = cleanfile($sourced, $_, $blddir);
# If it isn't in the source tree, we assume it's generated
# in the build tree
if ($s eq $src_configdata || ! -f $s || $generate{$_}) {
$s = cleanfile($buildd, $_, $blddir);
}
if ($s =~ /\.(cc|cpp|c|s|S)$/) {
# We recognise C++, C and asm files
my $o = $_;
$o =~ s/\.[csS]$/.o/; # C and assembler
$o =~ s/\.(cc|cpp)$/_cc.o/; # C++
$o = cleanfile($buildd, $o, $blddir);
$unified_info{shared_sources}->{$ddest}->{$o} = -1;
$unified_info{sources}->{$o}->{$s} = -1;
} elsif ($s =~ /\.rc$/) {
# We also recognise resource files
my $o = $_;
$o =~ s/\.rc$/.res/; # Resource configuration
my $o = cleanfile($buildd, $o, $blddir);
$unified_info{shared_sources}->{$ddest}->{$o} = -1;
$unified_info{sources}->{$o}->{$s} = -1;
} elsif ($s =~ /\.ld$/) {
# We also recognise linker scripts (or corresponding)
# We know they are generated files
my $ld = cleanfile($buildd, $_, $blddir);
$unified_info{shared_sources}->{$ddest}->{$ld} = 1;
} else {
die "unrecognised source file type for shared library: $s\n";
}
}
}
foreach (keys %generate) {
my $dest = $_;
my $ddest = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$ddest}) {
$ddest = $unified_info{rename}->{$ddest};
}
die "more than one generator for $dest: "
,join(" ", @{$generate{$_}}),"\n"
if scalar @{$generate{$_}} > 1;
my @generator = split /\s+/, $generate{$dest}->[0];
$generator[0] = cleanfile($sourced, $generator[0], $blddir),
$unified_info{generate}->{$ddest} = [ @generator ];
}
foreach (keys %depends) {
my $dest = $_;
my $ddest = $dest eq "" ? "" : cleanfile($sourced, $_, $blddir);
# If the destination doesn't exist in source, it can only be
# a generated file in the build tree.
if ($ddest ne "" && ($ddest eq $src_configdata || ! -f $ddest)) {
$ddest = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$ddest}) {
$ddest = $unified_info{rename}->{$ddest};
}
}
foreach (@{$depends{$dest}}) {
my $d = cleanfile($sourced, $_, $blddir);
# If we know it's generated, or assume it is because we can't
# find it in the source tree, we set file we depend on to be
# in the build tree rather than the source tree, and assume
# and that there are lines to build it in a BEGINRAW..ENDRAW
# section or in the Makefile template.
if ($d eq $src_configdata
|| ! -f $d
|| (grep { $d eq $_ }
map { cleanfile($srcdir, $_, $blddir) }
grep { /\.h$/ } keys %{$unified_info{generate}})) {
$d = cleanfile($buildd, $_, $blddir);
}
# Take note if the file to depend on is being renamed
# Take extra care with files ending with .a, they should
# be treated without that extension, and the extension
# should be added back after treatment.
$d =~ /(\.a)?$/;
my $e = $1 // "";
$d = $`;
if ($unified_info{rename}->{$d}) {
$d = $unified_info{rename}->{$d};
}
$d .= $e;
$unified_info{depends}->{$ddest}->{$d} = 1;
}
}
foreach (keys %includes) {
my $dest = $_;
my $ddest = cleanfile($sourced, $_, $blddir);
# If the destination doesn't exist in source, it can only be
# a generated file in the build tree.
if ($ddest eq $src_configdata || ! -f $ddest) {
$ddest = cleanfile($buildd, $_, $blddir);
if ($unified_info{rename}->{$ddest}) {
$ddest = $unified_info{rename}->{$ddest};
}
}
foreach (@{$includes{$dest}}) {
my $is = cleandir($sourced, $_, $blddir);
my $ib = cleandir($buildd, $_, $blddir);
push @{$unified_info{includes}->{$ddest}->{source}}, $is
unless grep { $_ eq $is } @{$unified_info{includes}->{$ddest}->{source}};
push @{$unified_info{includes}->{$ddest}->{build}}, $ib
unless grep { $_ eq $ib } @{$unified_info{includes}->{$ddest}->{build}};
}
}
}
my $ordinals_text = join(', ', sort keys %ordinals);
warn <<"EOF" if $ordinals_text;
WARNING: ORDINALS were specified for $ordinals_text
They are ignored and should be replaced with a combination of GENERATE,
DEPEND and SHARED_SOURCE.
EOF
# Massage the result
# If we depend on a header file or a perl module, add an inclusion of
# its directory to allow smoothe inclusion
foreach my $dest (keys %{$unified_info{depends}}) {
next if $dest eq "";
foreach my $d (keys %{$unified_info{depends}->{$dest}}) {
next unless $d =~ /\.(h|pm)$/;
my $i = dirname($d);
my $spot =
$d eq "configdata.pm" || defined($unified_info{generate}->{$d})
? 'build' : 'source';
push @{$unified_info{includes}->{$dest}->{$spot}}, $i
unless grep { $_ eq $i } @{$unified_info{includes}->{$dest}->{$spot}};
}
}
# Go through all intermediary files and change their names to something that
# reflects what they will be built for. Note that for some source files,
# this leads to duplicate object files because they are used multiple times.
# the goal is to rename all object files according to this scheme:
# {productname}-{midfix}-{origobjname}.[o|res]
# the {midfix} is a keyword indicating the type of product, which is mostly
# valuable for libraries since they come in two forms.
#
# This also reorganises the {sources} and {shared_sources} so that the
# former only contains ALL object files that are supposed to end up in
# static libraries and programs, while the latter contains ALL object files
# that are supposed to end up in shared libraries and DSOs.
# The main reason for having two different source structures is to allow
# the same name to be used for the static and the shared variants of a
# library.
{
# Take copies so we don't get interference from added stuff
my %unified_copy = ();
foreach (('sources', 'shared_sources')) {
$unified_copy{$_} = { %{$unified_info{$_}} }
if defined($unified_info{$_});
delete $unified_info{$_};
}
foreach my $prodtype (('programs', 'libraries', 'engines', 'scripts')) {
# $intent serves multi purposes:
# - give a prefix for the new object files names
# - in the case of libraries, rearrange the object files so static
# libraries use the 'sources' structure exclusively, while shared
# libraries use the 'shared_sources' structure exclusively.
my $intent = {
programs => { bin => { src => [ 'sources' ],
dst => 'sources' } },
libraries => { lib => { src => [ 'sources' ],
dst => 'sources' },
shlib => { prodselect =>
sub { grep !/\.a$/, @_ },
src => [ 'sources',
'shared_sources' ],
dst => 'shared_sources' } },
engines => { dso => { src => [ 'sources',
'shared_sources' ],
dst => 'shared_sources' } },
scripts => { script => { src => [ 'sources' ],
dst => 'sources' } }
} -> {$prodtype};
foreach my $kind (keys %$intent) {
my @src = @{$intent->{$kind}->{src}};
my $dst = $intent->{$kind}->{dst};
my $prodselect = $intent->{$kind}->{prodselect} // sub { @_ };
foreach my $prod ($prodselect->(keys %{$unified_info{$prodtype}})) {
# %prod_sources has all applicable objects as keys, and
# their corresponding sources as values
my %prod_sources =
map { $_ => [ keys %{$unified_copy{sources}->{$_}} ] }
map { keys %{$unified_copy{$_}->{$prod}} }
@src;
foreach (keys %prod_sources) {
# Only affect object files and resource files,
# the others simply get a new value
# (+1 instead of -1)
if ($_ =~ /\.(o|res)$/) {
(my $prodname = $prod) =~ s|\.a$||;
my $newobj =
catfile(dirname($_),
basename($prodname)
. '-' . $kind
. '-' . basename($_));
$unified_info{$dst}->{$prod}->{$newobj} = 1;
foreach my $src (@{$prod_sources{$_}}) {
$unified_info{sources}->{$newobj}->{$src} = 1;
}
# Adjust dependencies
foreach my $deps (keys %{$unified_info{depends}->{$_}}) {
$unified_info{depends}->{$_}->{$deps} = -1;
$unified_info{depends}->{$newobj}->{$deps} = 1;
}
# Adjust includes
foreach my $k (('source', 'build')) {
next unless
defined($unified_info{includes}->{$_}->{$k});
my @incs = @{$unified_info{includes}->{$_}->{$k}};
$unified_info{includes}->{$newobj}->{$k} = [ @incs ];
}
} else {
$unified_info{$dst}->{$prod}->{$_} = 1;
}
}
}
}
}
}
# At this point, we have a number of sources with the value -1. They
# aren't part of the local build and are probably meant for a different
# platform, and can therefore be cleaned away. That happens when making
# %unified_info more efficient below.
### Make unified_info a bit more efficient
# One level structures
foreach (("programs", "libraries", "engines", "scripts", "extra", "overrides")) {
$unified_info{$_} = [ sort keys %{$unified_info{$_}} ];
}
# Two level structures
foreach my $l1 (("install", "sources", "shared_sources", "ldadd", "depends")) {
foreach my $l2 (sort keys %{$unified_info{$l1}}) {
my @items =
sort
grep { $unified_info{$l1}->{$l2}->{$_} > 0 }
keys %{$unified_info{$l1}->{$l2}};
if (@items) {
$unified_info{$l1}->{$l2} = [ @items ];
} else {
delete $unified_info{$l1}->{$l2};
}
}
}
# Includes
foreach my $dest (sort keys %{$unified_info{includes}}) {
if (defined($unified_info{includes}->{$dest}->{build})) {
my @source_includes = ();
@source_includes = ( @{$unified_info{includes}->{$dest}->{source}} )
if defined($unified_info{includes}->{$dest}->{source});
$unified_info{includes}->{$dest} =
[ @{$unified_info{includes}->{$dest}->{build}} ];
foreach my $inc (@source_includes) {
push @{$unified_info{includes}->{$dest}}, $inc
unless grep { $_ eq $inc } @{$unified_info{includes}->{$dest}};
}
} elsif (defined($unified_info{includes}->{$dest}->{source})) {
$unified_info{includes}->{$dest} =
[ @{$unified_info{includes}->{$dest}->{source}} ];
} else {
delete $unified_info{includes}->{$dest};
}
}
# For convenience collect information regarding directories where
# files are generated, those generated files and the end product
# they end up in where applicable. Then, add build rules for those
# directories
my %loopinfo = ( "lib" => [ @{$unified_info{libraries}} ],
"dso" => [ @{$unified_info{engines}} ],
"bin" => [ @{$unified_info{programs}} ],
"script" => [ @{$unified_info{scripts}} ] );
foreach my $type (keys %loopinfo) {
foreach my $product (@{$loopinfo{$type}}) {
my %dirs = ();
my $pd = dirname($product);
foreach (@{$unified_info{sources}->{$product} // []},
@{$unified_info{shared_sources}->{$product} // []}) {
my $d = dirname($_);
# We don't want to create targets for source directories
# when building out of source
next if ($config{sourcedir} ne $config{builddir}
&& $d =~ m|^\Q$config{sourcedir}\E|);
# We already have a "test" target, and the current directory
# is just silly to make a target for
next if $d eq "test" || $d eq ".";
$dirs{$d} = 1;
push @{$unified_info{dirinfo}->{$d}->{deps}}, $_
if $d ne $pd;
}
foreach (keys %dirs) {
push @{$unified_info{dirinfo}->{$_}->{products}->{$type}},
$product;
}
}
}
}
# For the schemes that need it, we provide the old *_obj configs
# from the *_asm_obj ones
foreach (grep /_(asm|aux)_src$/, keys %target) {
my $src = $_;
(my $obj = $_) =~ s/_(asm|aux)_src$/_obj/;
$target{$obj} = $target{$src};
$target{$obj} =~ s/\.[csS]\b/.o/g; # C and assembler
$target{$obj} =~ s/\.(cc|cpp)\b/_cc.o/g; # C++
}
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
# Write down our configuration where it fits #########################
print "Creating configdata.pm\n";
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
open(OUT,">configdata.pm") || die "unable to create configdata.pm: $!\n";
print OUT <<"EOF";
#! $config{HASHBANGPERL}
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
package configdata;
use strict;
use warnings;
use Exporter;
#use vars qw(\@ISA \@EXPORT);
our \@ISA = qw(Exporter);
our \@EXPORT = qw(\%config \%target \%disabled \%withargs \%unified_info \@disablables);
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
EOF
print OUT "our %config = (\n";
foreach (sort keys %config) {
if (ref($config{$_}) eq "ARRAY") {
print OUT " ", $_, " => [ ", join(", ",
map { quotify("perl", $_) }
@{$config{$_}}), " ],\n";
} elsif (ref($config{$_}) eq "HASH") {
print OUT " ", $_, " => {";
if (scalar keys %{$config{$_}} > 0) {
print OUT "\n";
foreach my $key (sort keys %{$config{$_}}) {
print OUT " ",
join(" => ",
quotify("perl", $key),
defined $config{$_}->{$key}
? quotify("perl", $config{$_}->{$key})
: "undef");
print OUT ",\n";
}
print OUT " ";
}
print OUT "},\n";
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
} else {
print OUT " ", $_, " => ", quotify("perl", $config{$_}), ",\n"
}
}
print OUT <<"EOF";
);
EOF
print OUT "our %target = (\n";
foreach (sort keys %target) {
if (ref($target{$_}) eq "ARRAY") {
print OUT " ", $_, " => [ ", join(", ",
map { quotify("perl", $_) }
@{$target{$_}}), " ],\n";
} else {
print OUT " ", $_, " => ", quotify("perl", $target{$_}), ",\n"
}
}
print OUT <<"EOF";
);
EOF
print OUT "our \%available_protocols = (\n";
print OUT " tls => [ ", join(", ", map { quotify("perl", $_) } @tls), " ],\n";
print OUT " dtls => [ ", join(", ", map { quotify("perl", $_) } @dtls), " ],\n";
print OUT <<"EOF";
);
EOF
print OUT "our \@disablables = (\n";
foreach (@disablables) {
print OUT " ", quotify("perl", $_), ",\n";
}
print OUT <<"EOF";
);
EOF
print OUT "our \%disabled = (\n";
foreach (sort keys %disabled) {
print OUT " ", quotify("perl", $_), " => ", quotify("perl", $disabled{$_}), ",\n";
}
print OUT <<"EOF";
);
Refactor file writing - introduce template driven file writing apps/CA.pl and tools/c_rehash are built from template files. So far, this was done by Configure, which created its own problems as it forced everyone to reconfigure just because one of the template files had changed. Instead, have those files created as part of the normal build in apps/ and in tools/. Furthermore, this prepares for a future where Configure may produce entirely other build files than Makefile, and the latter can't be guaranteed to be the holder of all information for other scripts. Instead, configdata.pm (described below) becomes the center of configuration information. This introduces a few new things: %config a hash table to hold all kinds of configuration data that can be used by any other script. configdata.pm a perl module that Configure writes. It currently holds the hash tables %config and %target. util/dofile.pl a script that takes a template on STDIN and outputs the result after applying configuration data on it. It's supposed to be called like this: perl -I$(TOP) -Mconfigdata < template > result or perl -I$(TOP) -Mconfigdata templ1 templ2 ... > result Note: util/dofile.pl requires Text::Template. As part of this changed, remove a number of variables that are really just copies of entries in %target, and use %target directly. The exceptions are $target{cflags} and $target{lflags}, they do get copied to $cflags and $lflags. The reason for this is that those variable potentially go through a lot of changes and would rather deserve a place in %config. That, however, is for another commit. Reviewed-by: Rich Salz <rsalz@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org>
2015-05-19 04:35:23 +08:00
EOF
print OUT "our %withargs = (\n";
foreach (sort keys %withargs) {
if (ref($withargs{$_}) eq "ARRAY") {
print OUT " ", $_, " => [ ", join(", ",
map { quotify("perl", $_) }
@{$withargs{$_}}), " ],\n";
} else {
print OUT " ", $_, " => ", quotify("perl", $withargs{$_}), ",\n"
}
}
print OUT <<"EOF";
);
EOF
if ($builder eq "unified") {
my $recurse;
$recurse = sub {
my $indent = shift;
foreach (@_) {
if (ref $_ eq "ARRAY") {
print OUT " "x$indent, "[\n";
foreach (@$_) {
$recurse->($indent + 4, $_);
}
print OUT " "x$indent, "],\n";
} elsif (ref $_ eq "HASH") {
my %h = %$_;
print OUT " "x$indent, "{\n";
foreach (sort keys %h) {
if (ref $h{$_} eq "") {
print OUT " "x($indent + 4), quotify("perl", $_), " => ", quotify("perl", $h{$_}), ",\n";
} else {
print OUT " "x($indent + 4), quotify("perl", $_), " =>\n";
$recurse->($indent + 8, $h{$_});
}
}
print OUT " "x$indent, "},\n";
} else {
print OUT " "x$indent, quotify("perl", $_), ",\n";
}
}
};
print OUT "our %unified_info = (\n";
foreach (sort keys %unified_info) {
if (ref $unified_info{$_} eq "") {
print OUT " "x4, quotify("perl", $_), " => ", quotify("perl", $unified_info{$_}), ",\n";
} else {
print OUT " "x4, quotify("perl", $_), " =>\n";
$recurse->(8, $unified_info{$_});
}
}
print OUT <<"EOF";
);
EOF
}
print OUT
"# The following data is only used when this files is use as a script\n";
print OUT "my \@makevars = (\n";
foreach (sort keys %user) {
print OUT " '",$_,"',\n";
}
print OUT ");\n";
print OUT "my \%disabled_info = (\n";
foreach my $what (sort keys %disabled_info) {
print OUT " '$what' => {\n";
foreach my $info (sort keys %{$disabled_info{$what}}) {
if (ref $disabled_info{$what}->{$info} eq 'ARRAY') {
print OUT " $info => [ ",
join(', ', map { "'$_'" } @{$disabled_info{$what}->{$info}}),
" ],\n";
} else {
print OUT " $info => '", $disabled_info{$what}->{$info},
"',\n";
}
}
print OUT " },\n";
}
print OUT ");\n";
print OUT 'my @user_crossable = qw( ', join (' ', @user_crossable), " );\n";
print OUT << 'EOF';
# If run directly, we can give some answers, and even reconfigure
unless (caller) {
use Getopt::Long;
use File::Spec::Functions;
use File::Basename;
use Pod::Usage;
my $here = dirname($0);
my $dump = undef;
my $cmdline = undef;
my $options = undef;
my $target = undef;
my $envvars = undef;
my $makevars = undef;
my $buildparams = undef;
my $reconf = undef;
my $verbose = undef;
my $help = undef;
my $man = undef;
GetOptions('dump|d' => \$dump,
'command-line|c' => \$cmdline,
'options|o' => \$options,
'target|t' => \$target,
'environment|e' => \$envvars,
'make-variables|m' => \$makevars,
'build-parameters|b' => \$buildparams,
'reconfigure|reconf|r' => \$reconf,
'verbose|v' => \$verbose,
'help' => \$help,
'man' => \$man)
or die "Errors in command line arguments\n";
unless ($dump || $cmdline || $options || $target || $envvars || $makevars
|| $buildparams || $reconf || $verbose || $help || $man) {
print STDERR <<"_____";
You must give at least one option.
For more information, do '$0 --help'
_____
exit(2);
}
if ($help) {
pod2usage(-exitval => 0,
-verbose => 1);
}
if ($man) {
pod2usage(-exitval => 0,
-verbose => 2);
}
if ($dump || $cmdline) {
print "\nCommand line (with current working directory = $here):\n\n";
print ' ',join(' ',
$config{PERL},
catfile($config{sourcedir}, 'Configure'),
@{$config{perlargv}}), "\n";
print "\nPerl information:\n\n";
print ' ',$config{perl_cmd},"\n";
print ' ',$config{perl_version},' for ',$config{perl_archname},"\n";
}
if ($dump || $options) {
my $longest = 0;
my $longest2 = 0;
foreach my $what (@disablables) {
$longest = length($what) if $longest < length($what);
$longest2 = length($disabled{$what})
if $disabled{$what} && $longest2 < length($disabled{$what});
}
print "\nEnabled features:\n\n";
foreach my $what (@disablables) {
print " $what\n" unless $disabled{$what};
}
print "\nDisabled features:\n\n";
foreach my $what (@disablables) {
if ($disabled{$what}) {
print " $what", ' ' x ($longest - length($what) + 1),
"[$disabled{$what}]", ' ' x ($longest2 - length($disabled{$what}) + 1);
print $disabled_info{$what}->{macro}
if $disabled_info{$what}->{macro};
print ' (skip ',
join(', ', @{$disabled_info{$what}->{skipped}}),
')'
if $disabled_info{$what}->{skipped};
print "\n";
}
}
}
if ($dump || $target) {
print "\nConfig target attributes:\n\n";
foreach (sort keys %target) {
next if $_ =~ m|^_| || $_ eq 'template';
my $quotify = sub {
map { (my $x = $_) =~ s|([\\\$\@"])|\\$1|g; "\"$x\""} @_;
};
print ' ', $_, ' => ';
if (ref($target{$_}) eq "ARRAY") {
print '[ ', join(', ', $quotify->(@{$target{$_}})), " ],\n";
} else {
print $quotify->($target{$_}), ",\n"
}
}
}
if ($dump || $envvars) {
print "\nRecorded environment:\n\n";
foreach (sort keys %{$config{perlenv}}) {
print ' ',$_,' = ',($config{perlenv}->{$_} || ''),"\n";
}
}
if ($dump || $makevars) {
print "\nMakevars:\n\n";
foreach my $var (@makevars) {
my $prefix = '';
$prefix = $config{CROSS_COMPILE}
if grep { $var eq $_ } @user_crossable;
$prefix //= '';
print ' ',$var,' ' x (16 - length $var),'= ',
(ref $config{$var} eq 'ARRAY'
? join(' ', @{$config{$var}})
: $prefix.$config{$var}),
"\n"
if defined $config{$var};
}
my @buildfile = ($config{builddir}, $config{build_file});
unshift @buildfile, $here
unless file_name_is_absolute($config{builddir});
my $buildfile = canonpath(catdir(@buildfile));
print <<"_____";
NOTE: These variables only represent the configuration view. The build file
template may have processed these variables further, please have a look at the
build file for more exact data:
$buildfile
_____
}
if ($dump || $buildparams) {
my @buildfile = ($config{builddir}, $config{build_file});
unshift @buildfile, $here
unless file_name_is_absolute($config{builddir});
print "\nbuild file:\n\n";
print " ", canonpath(catfile(@buildfile)),"\n";
print "\nbuild file templates:\n\n";
foreach (@{$config{build_file_templates}}) {
my @tmpl = ($_);
unshift @tmpl, $here
unless file_name_is_absolute($config{sourcedir});
print ' ',canonpath(catfile(@tmpl)),"\n";
}
}
if ($reconf) {
if ($verbose) {
print 'Reconfiguring with: ', join(' ',@{$config{perlargv}}), "\n";
foreach (sort keys %{$config{perlenv}}) {
print ' ',$_,' = ',($config{perlenv}->{$_} || ""),"\n";
}
}
chdir $here;
exec $^X,catfile($config{sourcedir}, 'Configure'),'reconf';
}
}
1;
__END__
=head1 NAME
configdata.pm - configuration data for OpenSSL builds
=head1 SYNOPSIS
Interactive:
perl configdata.pm [options]
As data bank module:
use configdata;
=head1 DESCRIPTION
This module can be used in two modes, interactively and as a module containing
all the data recorded by OpenSSL's Configure script.
When used interactively, simply run it as any perl script, with at least one
option, and you will get the information you ask for. See L</OPTIONS> below.
When loaded as a module, you get a few databanks with useful information to
perform build related tasks. The databanks are:
%config Configured things.
%target The OpenSSL config target with all inheritances
resolved.
%disabled The features that are disabled.
@disablables The list of features that can be disabled.
%withargs All data given through --with-THING options.
%unified_info All information that was computed from the build.info
files.
=head1 OPTIONS
=over 4
=item B<--help>
Print a brief help message and exit.
=item B<--man>
Print the manual page and exit.
=item B<--dump> | B<-d>
Print all relevant configuration data. This is equivalent to B<--command-line>
B<--options> B<--target> B<--environment> B<--make-variables>
B<--build-parameters>.
=item B<--command-line> | B<-c>
Print the current configuration command line.
=item B<--options> | B<-o>
Print the features, both enabled and disabled, and display defined macro and
skipped directories where applicable.
=item B<--target> | B<-t>
Print the config attributes for this config target.
=item B<--environment> | B<-e>
Print the environment variables and their values at the time of configuration.
=item B<--make-variables> | B<-m>
Print the main make variables generated in the current configuration
=item B<--build-parameters> | B<-b>
Print the build parameters, i.e. build file and build file templates.
=item B<--reconfigure> | B<--reconf> | B<-r>
Redo the configuration.
=item B<--verbose> | B<-v>
Verbose output.
=back
=cut
EOF
close(OUT);
if ($builder_platform eq 'unix') {
my $mode = (0755 & ~umask);
chmod $mode, 'configdata.pm'
or warn sprintf("WARNING: Couldn't change mode for 'configdata.pm' to 0%03o: %s\n",$mode,$!);
}
1999-03-07 22:05:36 +08:00
my %builders = (
unified => sub {
print 'Creating ',$target{build_file},"\n";
run_dofile(catfile($blddir, $target{build_file}),
@{$config{build_file_templates}});
},
);
$builders{$builder}->($builder_platform, @builder_opts);
$SIG{__DIE__} = $orig_death_handler;
print <<"EOF" if ($disabled{threads} eq "unavailable");
The library could not be configured for supporting multi-threaded
applications as the compiler options required on this system are not known.
See file INSTALL for details if you need multi-threading.
EOF
print <<"EOF" if ($no_shared_warn);
The options 'shared', 'pic' and 'dynamic-engine' aren't supported on this
platform, so we will pretend you gave the option 'no-pic', which also disables
'shared' and 'dynamic-engine'. If you know how to implement shared libraries
or position independent code, please let us know (but please first make sure
you have tried with a current version of OpenSSL).
EOF
print <<"EOF";
**********************************************************************
*** ***
*** OpenSSL has been successfully configured ***
*** ***
*** If you encounter a problem while building, please open an ***
*** issue on GitHub <https://github.com/openssl/openssl/issues> ***
*** and include the output from the following command: ***
*** ***
*** perl configdata.pm --dump ***
*** ***
*** (If you are new to OpenSSL, you might want to consult the ***
*** 'Troubleshooting' section in the INSTALL file first) ***
*** ***
**********************************************************************
EOF
exit(0);
######################################################################
#
# Helpers and utility functions
#
# Death handler, to print a helpful message in case of failure #######
#
sub death_handler {
die @_ if $^S; # To prevent the added message in eval blocks
my $build_file = $target{build_file} // "build file";
my @message = ( <<"_____", @_ );
Failure! $build_file wasn't produced.
Please read INSTALL and associated NOTES files. You may also have to look over
your available compiler tool chain or change your configuration.
_____
# Dying is terminal, so it's ok to reset the signal handler here.
$SIG{__DIE__} = $orig_death_handler;
die @message;
}
# Configuration file reading #########################################
# Note: All of the helper functions are for lazy evaluation. They all
# return a CODE ref, which will return the intended value when evaluated.
# Thus, whenever there's mention of a returned value, it's about that
# intended value.
# Helper function to implement conditional inheritance depending on the
# value of $disabled{asm}. Used in inherit_from values as follows:
#
# inherit_from => [ "template", asm("asm_tmpl") ]
#
sub asm {
my @x = @_;
sub {
$disabled{asm} ? () : @x;
}
}
# Helper function to implement conditional value variants, with a default
# plus additional values based on the value of $config{build_type}.
# Arguments are given in hash table form:
#
# picker(default => "Basic string: ",
# debug => "debug",
# release => "release")
#
# When configuring with --debug, the resulting string will be
# "Basic string: debug", and when not, it will be "Basic string: release"
#
# This can be used to create variants of sets of flags according to the
# build type:
#
# cflags => picker(default => "-Wall",
# debug => "-g -O0",
# release => "-O3")
#
sub picker {
my %opts = @_;
return sub { add($opts{default} || (),
$opts{$config{build_type}} || ())->(); }
}
# Helper function to combine several values of different types into one.
# This is useful if you want to combine a string with the result of a
# lazy function, such as:
#
# cflags => combine("-Wall", sub { $disabled{zlib} ? () : "-DZLIB" })
#
sub combine {
my @stuff = @_;
return sub { add(@stuff)->(); }
}
# Helper function to implement conditional values depending on the value
# of $disabled{threads}. Can be used as follows:
#
# cflags => combine("-Wall", threads("-pthread"))
#
sub threads {
my @flags = @_;
return sub { add($disabled{threads} ? () : @flags)->(); }
}
sub shared {
my @flags = @_;
return sub { add($disabled{shared} ? () : @flags)->(); }
}
our $add_called = 0;
# Helper function to implement adding values to already existing configuration
# values. It handles elements that are ARRAYs, CODEs and scalars
sub _add {
my $separator = shift;
# If there's any ARRAY in the collection of values OR the separator
# is undef, we will return an ARRAY of combined values, otherwise a
# string of joined values with $separator as the separator.
my $found_array = !defined($separator);
my @values =
map {
my $res = $_;
while (ref($res) eq "CODE") {
$res = $res->();
}
if (defined($res)) {
if (ref($res) eq "ARRAY") {
$found_array = 1;
@$res;
} else {
$res;
}
} else {
();
}
} (@_);
$add_called = 1;
if ($found_array) {
[ @values ];
} else {
join($separator, grep { defined($_) && $_ ne "" } @values);
}
}
sub add_before {
my $separator = " ";
if (ref($_[$#_]) eq "HASH") {
my $opts = pop;
$separator = $opts->{separator};
}
my @x = @_;
sub { _add($separator, @x, @_) };
}
sub add {
my $separator = " ";
if (ref($_[$#_]) eq "HASH") {
my $opts = pop;
$separator = $opts->{separator};
}
my @x = @_;
sub { _add($separator, @_, @x) };
}
sub read_eval_file {
my $fname = shift;
my $content;
my @result;
open F, "< $fname" or die "Can't open '$fname': $!\n";
{
undef local $/;
$content = <F>;
}
close F;
{
local $@;
@result = ( eval $content );
warn $@ if $@;
}
return wantarray ? @result : $result[0];
}
# configuration reader, evaluates the input file as a perl script and expects
# it to fill %targets with target configurations. Those are then added to
# %table.
sub read_config {
my $fname = shift;
my %targets;
{
# Protect certain tables from tampering
local %table = ();
%targets = read_eval_file($fname);
}
my %preexisting = ();
foreach (sort keys %targets) {
$preexisting{$_} = 1 if $table{$_};
}
die <<"EOF",
The following config targets from $fname
shadow pre-existing config targets with the same name:
EOF
map { " $_\n" } sort keys %preexisting
if %preexisting;
# For each target, check that it's configured with a hash table.
foreach (keys %targets) {
if (ref($targets{$_}) ne "HASH") {
if (ref($targets{$_}) eq "") {
warn "Deprecated target configuration for $_, ignoring...\n";
} else {
warn "Misconfigured target configuration for $_ (should be a hash table), ignoring...\n";
}
delete $targets{$_};
} else {
$targets{$_}->{_conf_fname_int} = add([ $fname ]);
}
}
%table = (%table, %targets);
}
# configuration resolver. Will only resolve all the lazy evaluation
# codeblocks for the chosen target and all those it inherits from,
# recursively
sub resolve_config {
my $target = shift;
my @breadcrumbs = @_;
# my $extra_checks = defined($ENV{CONFIGURE_EXTRA_CHECKS});
if (grep { $_ eq $target } @breadcrumbs) {
die "inherit_from loop! target backtrace:\n "
,$target,"\n ",join("\n ", @breadcrumbs),"\n";
}
if (!defined($table{$target})) {
warn "Warning! target $target doesn't exist!\n";
return ();
}
# Recurse through all inheritances. They will be resolved on the
# fly, so when this operation is done, they will all just be a
# bunch of attributes with string values.
# What we get here, though, are keys with references to lists of
# the combined values of them all. We will deal with lists after
# this stage is done.
my %combined_inheritance = ();
if ($table{$target}->{inherit_from}) {
my @inherit_from =
map { ref($_) eq "CODE" ? $_->() : $_ } @{$table{$target}->{inherit_from}};
foreach (@inherit_from) {
my %inherited_config = resolve_config($_, $target, @breadcrumbs);
# 'template' is a marker that's considered private to
# the config that had it.
delete $inherited_config{template};
foreach (keys %inherited_config) {
if (!$combined_inheritance{$_}) {
$combined_inheritance{$_} = [];
}
push @{$combined_inheritance{$_}}, $inherited_config{$_};
}
}
}
# We won't need inherit_from in this target any more, since we've
# resolved all the inheritances that lead to this
delete $table{$target}->{inherit_from};
# Now is the time to deal with those lists. Here's the place to
# decide what shall be done with those lists, all based on the
# values of the target we're currently dealing with.
# - If a value is a coderef, it will be executed with the list of
# inherited values as arguments.
# - If the corresponding key doesn't have a value at all or is the
# empty string, the inherited value list will be run through the
# default combiner (below), and the result becomes this target's
# value.
# - Otherwise, this target's value is assumed to be a string that
# will simply override the inherited list of values.
my $default_combiner = add();
my %all_keys =
map { $_ => 1 } (keys %combined_inheritance,
keys %{$table{$target}});
sub process_values {
my $object = shift;
my $inherited = shift; # Always a [ list ]
my $target = shift;
my $entry = shift;
$add_called = 0;
while(ref($object) eq "CODE") {
$object = $object->(@$inherited);
}
if (!defined($object)) {
return ();
}
elsif (ref($object) eq "ARRAY") {
local $add_called; # To make sure recursive calls don't affect it
return [ map { process_values($_, $inherited, $target, $entry) }
@$object ];
} elsif (ref($object) eq "") {
return $object;
} else {
die "cannot handle reference type ",ref($object)
," found in target ",$target," -> ",$entry,"\n";
}
}
foreach (sort keys %all_keys) {
my $previous = $combined_inheritance{$_};
# Current target doesn't have a value for the current key?
# Assign it the default combiner, the rest of this loop body
# will handle it just like any other coderef.
if (!exists $table{$target}->{$_}) {
$table{$target}->{$_} = $default_combiner;
}
$table{$target}->{$_} = process_values($table{$target}->{$_},
$combined_inheritance{$_},
$target, $_);
unless(defined($table{$target}->{$_})) {
delete $table{$target}->{$_};
}
# if ($extra_checks &&
# $previous && !($add_called || $previous ~~ $table{$target}->{$_})) {
# warn "$_ got replaced in $target\n";
# }
}
# Finally done, return the result.
return %{$table{$target}};
}
sub usage
{
print STDERR $usage;
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print STDERR "\npick os/compiler from:\n";
my $j=0;
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my $i;
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my $k=0;
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foreach $i (sort keys %table)
{
next if $table{$i}->{template};
next if $i =~ /^debug/;
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$k += length($i) + 1;
if ($k > 78)
{
print STDERR "\n";
$k=length($i);
}
print STDERR $i . " ";
}
foreach $i (sort keys %table)
{
next if $table{$i}->{template};
next if $i !~ /^debug/;
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$k += length($i) + 1;
if ($k > 78)
{
print STDERR "\n";
$k=length($i);
}
print STDERR $i . " ";
}
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print STDERR "\n\nNOTE: If in doubt, on Unix-ish systems use './config'.\n";
exit(1);
}
sub run_dofile
{
my $out = shift;
my @templates = @_;
unlink $out || warn "Can't remove $out, $!"
if -f $out;
foreach (@templates) {
die "Can't open $_, $!" unless -f $_;
}
my $perlcmd = (quotify("maybeshell", $config{PERL}))[0];
my $cmd = "$perlcmd \"-I.\" \"-Mconfigdata\" \"$dofile\" -o\"Configure\" \"".join("\" \"",@templates)."\" > \"$out.new\"";
#print STDERR "DEBUG[run_dofile]: \$cmd = $cmd\n";
system($cmd);
exit 1 if $? != 0;
rename("$out.new", $out) || die "Can't rename $out.new, $!";
}
sub compiler_predefined {
state %predefined;
my $cc = shift;
return () if $^O eq 'VMS';
die 'compiler_predefined called without a compiler command'
unless $cc;
if (! $predefined{$cc}) {
$predefined{$cc} = {};
# collect compiler pre-defines from gcc or gcc-alike...
open(PIPE, "$cc -dM -E -x c /dev/null 2>&1 |");
while (my $l = <PIPE>) {
$l =~ m/^#define\s+(\w+(?:\(\w+\))?)(?:\s+(.+))?/ or last;
$predefined{$cc}->{$1} = $2 // '';
}
close(PIPE);
}
return %{$predefined{$cc}};
}
sub which
{
my ($name)=@_;
if (eval { require IPC::Cmd; 1; }) {
IPC::Cmd->import();
return scalar IPC::Cmd::can_run($name);
} else {
# if there is $directories component in splitpath,
# then it's not something to test with $PATH...
return $name if (File::Spec->splitpath($name))[1];
foreach (File::Spec->path()) {
my $fullpath = catfile($_, "$name$target{exe_extension}");
if (-f $fullpath and -x $fullpath) {
return $fullpath;
}
}
}
}
sub env
{
my $name = shift;
my %opts = @_;
unless ($opts{cacheonly}) {
# Note that if $ENV{$name} doesn't exist or is undefined,
# $config{perlenv}->{$name} will be created with the value
# undef. This is intentional.
$config{perlenv}->{$name} = $ENV{$name}
if ! exists $config{perlenv}->{$name};
}
return $config{perlenv}->{$name};
}
# Configuration printer ##############################################
sub print_table_entry
{
local $now_printing = shift;
my %target = resolve_config($now_printing);
my $type = shift;
# Don't print the templates
return if $target{template};
my @sequence = (
"sys_id",
"cpp",
"cppflags",
"defines",
"includes",
"cc",
"cflags",
"unistd",
"ld",
"lflags",
"loutflag",
"ex_libs",
"bn_ops",
"apps_aux_src",
"cpuid_asm_src",
"uplink_aux_src",
"bn_asm_src",
"ec_asm_src",
"des_asm_src",
"aes_asm_src",
"bf_asm_src",
"md5_asm_src",
"cast_asm_src",
"sha1_asm_src",
"rc4_asm_src",
"rmd160_asm_src",
"rc5_asm_src",
"wp_asm_src",
"cmll_asm_src",
"modes_asm_src",
"padlock_asm_src",
"chacha_asm_src",
"poly1035_asm_src",
"thread_scheme",
"perlasm_scheme",
"dso_scheme",
"shared_target",
"shared_cflag",
"shared_defines",
"shared_ldflag",
"shared_rcflag",
"shared_extension",
"dso_extension",
"obj_extension",
"exe_extension",
"ranlib",
"ar",
"arflags",
"aroutflag",
"rc",
"rcflags",
"rcoutflag",
"mt",
"mtflags",
"mtinflag",
"mtoutflag",
"multilib",
"build_scheme",
);
if ($type eq "TABLE") {
print "\n";
print "*** $now_printing\n";
foreach (@sequence) {
if (ref($target{$_}) eq "ARRAY") {
printf "\$%-12s = %s\n", $_, join(" ", @{$target{$_}});
} else {
printf "\$%-12s = %s\n", $_, $target{$_};
}
}
} elsif ($type eq "HASH") {
my $largest =
length((sort { length($a) <=> length($b) } @sequence)[-1]);
print " '$now_printing' => {\n";
foreach (@sequence) {
if ($target{$_}) {
if (ref($target{$_}) eq "ARRAY") {
print " '",$_,"'"," " x ($largest - length($_))," => [ ",join(", ", map { "'$_'" } @{$target{$_}})," ],\n";
} else {
print " '",$_,"'"," " x ($largest - length($_))," => '",$target{$_},"',\n";
}
}
}
print " },\n";
}
}
# Utility routines ###################################################
# On VMS, if the given file is a logical name, File::Spec::Functions
# will consider it an absolute path. There are cases when we want a
# purely syntactic check without checking the environment.
sub isabsolute {
my $file = shift;
# On non-platforms, we just use file_name_is_absolute().
return file_name_is_absolute($file) unless $^O eq "VMS";
# If the file spec includes a device or a directory spec,
# file_name_is_absolute() is perfectly safe.
return file_name_is_absolute($file) if $file =~ m|[:\[]|;
# Here, we know the given file spec isn't absolute
return 0;
}
# Makes a directory absolute and cleans out /../ in paths like foo/../bar
# On some platforms, this uses rel2abs(), while on others, realpath() is used.
# realpath() requires that at least all path components except the last is an
# existing directory. On VMS, the last component of the directory spec must
# exist.
sub absolutedir {
my $dir = shift;
# realpath() is quite buggy on VMS. It uses LIB$FID_TO_NAME, which
# will return the volume name for the device, no matter what. Also,
# it will return an incorrect directory spec if the argument is a
# directory that doesn't exist.
if ($^O eq "VMS") {
return rel2abs($dir);
}
# We use realpath() on Unix, since no other will properly clean out
# a directory spec.
use Cwd qw/realpath/;
return realpath($dir);
}
sub quotify {
my %processors = (
perl => sub { my $x = shift;
$x =~ s/([\\\$\@"])/\\$1/g;
return '"'.$x.'"'; },
maybeshell => sub { my $x = shift;
(my $y = $x) =~ s/([\\\"])/\\$1/g;
if ($x ne $y || $x =~ m|\s|) {
return '"'.$y.'"';
} else {
return $x;
}
},
);
my $for = shift;
my $processor =
defined($processors{$for}) ? $processors{$for} : sub { shift; };
return map { $processor->($_); } @_;
}
# collect_from_file($filename, $line_concat_cond_re, $line_concat)
# $filename is a file name to read from
# $line_concat_cond_re is a regexp detecting a line continuation ending
# $line_concat is a CODEref that takes care of concatenating two lines
sub collect_from_file {
my $filename = shift;
my $line_concat_cond_re = shift;
my $line_concat = shift;
open my $fh, $filename || die "unable to read $filename: $!\n";
return sub {
my $saved_line = "";
$_ = "";
while (<$fh>) {
s|\R$||;
if (defined $line_concat) {
$_ = $line_concat->($saved_line, $_);
$saved_line = "";
}
if (defined $line_concat_cond_re && /$line_concat_cond_re/) {
$saved_line = $_;
next;
}
return $_;
}
die "$filename ending with continuation line\n" if $_;
close $fh;
return undef;
}
}
# collect_from_array($array, $line_concat_cond_re, $line_concat)
# $array is an ARRAYref of lines
# $line_concat_cond_re is a regexp detecting a line continuation ending
# $line_concat is a CODEref that takes care of concatenating two lines
sub collect_from_array {
my $array = shift;
my $line_concat_cond_re = shift;
my $line_concat = shift;
my @array = (@$array);
return sub {
my $saved_line = "";
$_ = "";
while (defined($_ = shift @array)) {
s|\R$||;
if (defined $line_concat) {
$_ = $line_concat->($saved_line, $_);
$saved_line = "";
}
if (defined $line_concat_cond_re && /$line_concat_cond_re/) {
$saved_line = $_;
next;
}
return $_;
}
die "input text ending with continuation line\n" if $_;
return undef;
}
}
# collect_information($lineiterator, $line_continue, $regexp => $CODEref, ...)
# $lineiterator is a CODEref that delivers one line at a time.
# All following arguments are regex/CODEref pairs, where the regexp detects a
# line and the CODEref does something with the result of the regexp.
sub collect_information {
my $lineiterator = shift;
my %collectors = @_;
while(defined($_ = $lineiterator->())) {
s|\R$||;
my $found = 0;
if ($collectors{"BEFORE"}) {
$collectors{"BEFORE"}->($_);
}
foreach my $re (keys %collectors) {
if ($re !~ /^OTHERWISE|BEFORE|AFTER$/ && /$re/) {
$collectors{$re}->($lineiterator);
$found = 1;
};
}
if ($collectors{"OTHERWISE"}) {
$collectors{"OTHERWISE"}->($lineiterator, $_)
unless $found || !defined $collectors{"OTHERWISE"};
}
if ($collectors{"AFTER"}) {
$collectors{"AFTER"}->($_);
}
}
}
# tokenize($line)
# $line is a line of text to split up into tokens
# returns a list of tokens
#
# Tokens are divided by spaces. If the tokens include spaces, they
# have to be quoted with single or double quotes. Double quotes
# inside a double quoted token must be escaped. Escaping is done
# with backslash.
# Basically, the same quoting rules apply for " and ' as in any
# Unix shell.
sub tokenize {
my $line = my $debug_line = shift;
my @result = ();
while ($line =~ s|^\s+||, $line ne "") {
my $token = "";
while ($line ne "" && $line !~ m|^\s|) {
if ($line =~ m/^"((?:[^"\\]+|\\.)*)"/) {
$token .= $1;
$line = $';
} elsif ($line =~ m/^'([^']*)'/) {
$token .= $1;
$line = $';
} elsif ($line =~ m/^(\S+)/) {
$token .= $1;
$line = $';
}
}
push @result, $token;
}
if ($ENV{CONFIGURE_DEBUG_TOKENIZE}) {
print STDERR "DEBUG[tokenize]: Parsed '$debug_line' into:\n";
print STDERR "DEBUG[tokenize]: ('", join("', '", @result), "')\n";
}
return @result;
}