adc7e221f1
CLA: trivial Reviewed-by: Matt Caswell <matt@openssl.org> Reviewed-by: Richard Levitte <levitte@openssl.org> (Merged from https://github.com/openssl/openssl/pull/8153)
261 lines
11 KiB
Text
261 lines
11 KiB
Text
#### Android...
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#
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# See NOTES.ANDROID for details, and don't miss platform-specific
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# comments below...
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{
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use File::Spec::Functions;
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my $android_ndk = {};
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my %triplet = (
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arm => "arm-linux-androideabi",
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arm64 => "aarch64-linux-android",
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mips => "mipsel-linux-android",
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mips64 => "mips64el-linux-android",
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x86 => "i686-linux-android",
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x86_64 => "x86_64-linux-android",
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);
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sub android_ndk {
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unless (%$android_ndk) {
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if ($now_printing =~ m|^android|) {
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return $android_ndk = { bn_ops => "BN_AUTO" };
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}
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my $ndk_var;
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my $ndk;
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foreach (qw(ANDROID_NDK_HOME ANDROID_NDK)) {
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$ndk_var = $_;
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$ndk = $ENV{$ndk_var};
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last if defined $ndk;
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}
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die "\$ANDROID_NDK_HOME is not defined" if (!$ndk);
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if (!-d "$ndk/platforms" && !-f "$ndk/AndroidVersion.txt") {
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# $ndk/platforms is traditional "all-inclusive" NDK, while
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# $ndk/AndroidVersion.txt is so-called standalone toolchain
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# tailored for specific target down to API level.
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die "\$ANDROID_NDK_HOME=$ndk is invalid";
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}
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$ndk = canonpath($ndk);
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my $ndkver = undef;
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if (open my $fh, "<$ndk/source.properties") {
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local $_;
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while(<$fh>) {
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if (m|Pkg\.Revision\s*=\s*([0-9]+)|) {
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$ndkver = $1;
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last;
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}
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}
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close $fh;
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}
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my ($sysroot, $api, $arch);
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$config{target} =~ m|[^-]+-([^-]+)$|; # split on dash
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$arch = $1;
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if ($sysroot = $ENV{CROSS_SYSROOT}) {
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$sysroot =~ m|/android-([0-9]+)/arch-(\w+)/?$|;
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($api, $arch) = ($1, $2);
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} elsif (-f "$ndk/AndroidVersion.txt") {
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$sysroot = "$ndk/sysroot";
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} else {
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$api = "*";
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# see if user passed -D__ANDROID_API__=N
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foreach (@{$useradd{CPPDEFINES}}, @{$user{CPPFLAGS}}) {
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if (m|__ANDROID_API__=([0-9]+)|) {
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$api = $1;
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last;
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}
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}
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# list available platforms (numerically)
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my @platforms = sort { $a =~ m/-([0-9]+)$/; my $aa = $1;
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$b =~ m/-([0-9]+)$/; $aa <=> $1;
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} glob("$ndk/platforms/android-$api");
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die "no $ndk/platforms/android-$api" if ($#platforms < 0);
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$sysroot = "@platforms[$#platforms]/arch-$arch";
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$sysroot =~ m|/android-([0-9]+)/arch-$arch|;
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$api = $1;
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}
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die "no sysroot=$sysroot" if (!-d $sysroot);
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my $triarch = $triplet{$arch};
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my $cflags;
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my $cppflags;
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# see if there is NDK clang on $PATH, "universal" or "standalone"
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if (which("clang") =~ m|^$ndk/.*/prebuilt/([^/]+)/|) {
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my $host=$1;
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# harmonize with gcc default
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my $arm = $ndkver > 16 ? "armv7a" : "armv5te";
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(my $tridefault = $triarch) =~ s/^arm-/$arm-/;
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(my $tritools = $triarch) =~ s/(?:x|i6)86(_64)?-.*/x86$1/;
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$cflags .= " -target $tridefault "
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. "-gcc-toolchain \$($ndk_var)/toolchains"
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. "/$tritools-4.9/prebuilt/$host";
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$user{CC} = "clang" if ($user{CC} !~ m|clang|);
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$user{CROSS_COMPILE} = undef;
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if (which("llvm-ar") =~ m|^$ndk/.*/prebuilt/([^/]+)/|) {
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$user{AR} = "llvm-ar";
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$user{ARFLAGS} = [ "rs" ];
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$user{RANLIB} = ":";
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}
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} elsif (-f "$ndk/AndroidVersion.txt") { #"standalone toolchain"
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my $cc = $user{CC} // "clang";
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# One can probably argue that both clang and gcc should be
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# probed, but support for "standalone toolchain" was added
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# *after* announcement that gcc is being phased out, so
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# favouring clang is considered adequate. Those who insist
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# have option to enforce test for gcc with CC=gcc.
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if (which("$triarch-$cc") !~ m|^$ndk|) {
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die "no NDK $triarch-$cc on \$PATH";
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}
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$user{CC} = $cc;
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$user{CROSS_COMPILE} = "$triarch-";
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} elsif ($user{CC} eq "clang") {
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die "no NDK clang on \$PATH";
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} else {
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if (which("$triarch-gcc") !~ m|^$ndk/.*/prebuilt/([^/]+)/|) {
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die "no NDK $triarch-gcc on \$PATH";
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}
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$cflags .= " -mandroid";
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$user{CROSS_COMPILE} = "$triarch-";
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}
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if (!-d "$sysroot/usr/include") {
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my $incroot = "$ndk/sysroot/usr/include";
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die "no $incroot" if (!-d $incroot);
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die "no $incroot/$triarch" if (!-d "$incroot/$triarch");
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$incroot =~ s|^$ndk/||;
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$cppflags = "-D__ANDROID_API__=$api";
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$cppflags .= " -isystem \$($ndk_var)/$incroot/$triarch";
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$cppflags .= " -isystem \$($ndk_var)/$incroot";
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}
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$sysroot =~ s|^$ndk/||;
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$android_ndk = {
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cflags => "$cflags --sysroot=\$($ndk_var)/$sysroot",
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cppflags => $cppflags,
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bn_ops => $arch =~ m/64$/ ? "SIXTY_FOUR_BIT_LONG"
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: "BN_LLONG",
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};
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}
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return $android_ndk;
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}
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}
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my %targets = (
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"android" => {
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inherit_from => [ "linux-generic32" ],
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template => 1,
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################################################################
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# Special note about -pie. The underlying reason is that
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# Lollipop refuses to run non-PIE. But what about older systems
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# and NDKs? -fPIC was never problem, so the only concern is -pie.
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# Older toolchains, e.g. r4, appear to handle it and binaries
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# turn out mostly functional. "Mostly" means that oldest
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# Androids, such as Froyo, fail to handle executable, but newer
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# systems are perfectly capable of executing binaries targeting
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# Froyo. Keep in mind that in the nutshell Android builds are
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# about JNI, i.e. shared libraries, not applications.
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cflags => add(sub { android_ndk()->{cflags} }),
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cppflags => add(sub { android_ndk()->{cppflags} }),
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cxxflags => add(sub { android_ndk()->{cflags} }),
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bn_ops => sub { android_ndk()->{bn_ops} },
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bin_cflags => "-pie",
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enable => [ ],
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},
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"android-arm" => {
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################################################################
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# Contemporary Android applications can provide multiple JNI
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# providers in .apk, targeting multiple architectures. Among
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# them there is "place" for two ARM flavours: generic eabi and
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# armv7-a/hard-float. However, it should be noted that OpenSSL's
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# ability to engage NEON is not constrained by ABI choice, nor
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# is your ability to call OpenSSL from your application code
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# compiled with floating-point ABI other than default 'soft'.
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# (Latter thanks to __attribute__((pcs("aapcs"))) declaration.)
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# This means that choice of ARM libraries you provide in .apk
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# is driven by application needs. For example if application
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# itself benefits from NEON or is floating-point intensive, then
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# it might be appropriate to provide both libraries. Otherwise
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# just generic eabi would do. But in latter case it would be
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# appropriate to
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#
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# ./Configure android-arm -D__ARM_MAX_ARCH__=8
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#
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# in order to build "universal" binary and allow OpenSSL take
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# advantage of NEON when it's available.
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#
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# Keep in mind that (just like with linux-armv4) we rely on
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# compiler defaults, which is not necessarily what you had
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# in mind, in which case you would have to pass additional
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# -march and/or -mfloat-abi flags. NDK defaults to armv5te.
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# Newer NDK versions reportedly require additional -latomic.
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#
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inherit_from => [ "android", asm("armv4_asm") ],
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bn_ops => add("RC4_CHAR"),
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},
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"android-arm64" => {
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inherit_from => [ "android", asm("aarch64_asm") ],
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bn_ops => add("RC4_CHAR"),
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perlasm_scheme => "linux64",
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},
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"android-mips" => {
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inherit_from => [ "android", asm("mips32_asm") ],
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bn_ops => add("RC4_CHAR"),
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perlasm_scheme => "o32",
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},
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"android-mips64" => {
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################################################################
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# You are more than likely have to specify target processor
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# on ./Configure command line. Trouble is that toolchain's
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# default is MIPS64r6 (at least in r10d), but there are no
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# such processors around (or they are too rare to spot one).
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# Actual problem is that MIPS64r6 is binary incompatible
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# with previous MIPS ISA versions, in sense that unlike
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# prior versions original MIPS binary code will fail.
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#
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inherit_from => [ "android", asm("mips64_asm") ],
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bn_ops => add("RC4_CHAR"),
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perlasm_scheme => "64",
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},
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"android-x86" => {
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inherit_from => [ "android", asm("x86_asm") ],
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CFLAGS => add(picker(release => "-fomit-frame-pointer")),
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bn_ops => add("RC4_INT"),
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perlasm_scheme => "android",
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},
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"android-x86_64" => {
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inherit_from => [ "android", asm("x86_64_asm") ],
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bn_ops => add("RC4_INT"),
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perlasm_scheme => "elf",
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},
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####################################################################
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# Backward compatible targets, (might) requre $CROSS_SYSROOT
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#
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"android-armeabi" => {
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inherit_from => [ "android-arm" ],
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},
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"android64" => {
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inherit_from => [ "android" ],
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},
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"android64-aarch64" => {
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inherit_from => [ "android-arm64" ],
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},
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"android64-x86_64" => {
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inherit_from => [ "android-x86_64" ],
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},
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"android64-mips64" => {
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inherit_from => [ "android-mips64" ],
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},
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);
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