Migrate to OpenSSL 3.0 in advance of FreeBSD 14.0. OpenSSL 1.1.1 (the version we were previously using) will be EOL as of 2023-09-11. Most of the base system has already been updated for a seamless switch to OpenSSL 3.0. For many components we've added `-DOPENSSL_API_COMPAT=0x10100000L` to CFLAGS to specify the API version, which avoids deprecation warnings from OpenSSL 3.0. Changes have also been made to avoid OpenSSL APIs that were already deprecated in OpenSSL 1.1.1. The process of updating to contemporary APIs can continue after this merge. Additional changes are still required for libarchive and Kerberos- related libraries or tools; workarounds will immediately follow this commit. Fixes are in progress in the upstream projects and will be incorporated when those are next updated. There are some performance regressions in benchmarks (certain tests in `openssl speed`) and in some OpenSSL consumers in ports (e.g. haproxy). Investigation will continue for these. Netflix's testing showed no functional regression and a rather small, albeit statistically significant, increase in CPU consumption with OpenSSL 3.0. Thanks to ngie@ and des@ for updating base system components, to antoine@ and bofh@ for ports exp-runs and port fixes/workarounds, and to Netflix and everyone who tested prior to commit or contributed to this update in other ways. PR: 271615 PR: 271656 [exp-run] Relnotes: Yes Sponsored by: The FreeBSD Foundation
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Notes for Android platforms
Requirement details
Beside basic tools like perl and make you'll need to download the Android NDK. It's available for Linux, macOS and Windows, but only Linux version was actually tested. There is no reason to believe that macOS wouldn't work. And as for Windows, it's unclear which "shell" would be suitable, MSYS2 might have best chances. NDK version should play lesser role, the goal is to support a range of most recent versions.
Configuration
Android is a cross-compiled target and you can't rely on ./Configure
to find out the configuration target for you. You have to name your
target explicitly; there are android-arm
, android-arm64
, android-mips
,
android-mip64
, android-x86
and android-x86_64
(*MIPS
targets are no
longer supported with NDK R20+).
Do not pass --cross-compile-prefix (as you might be tempted), as it
will be "calculated" automatically based on chosen platform. However,
you still need to know the prefix to extend your PATH, in order to
invoke $(CROSS_COMPILE)clang
[*gcc
on NDK 19 and lower] and company.
(./Configure
will fail and give you a hint if you get it wrong.)
Apart from PATH
adjustment you need to set ANDROID_NDK_ROOT
environment
to point at the NDK
directory. If you're using a side-by-side NDK the path
will look something like /some/where/android-sdk/ndk/<ver>
, and for a
standalone NDK the path will be something like /some/where/android-ndk-<ver>
.
Both variables are significant at both configuration and compilation times.
The NDK customarily supports multiple Android API levels, e.g. android-14
,
android-21
, etc. By default latest API level is chosen. If you need to target
an older platform pass the argument -D__ANDROID_API__=N
to Configure
,
with N
being the numerical value of the target platform version. For example,
to compile for Android 10 arm64 with a side-by-side NDK r20.0.5594570
export ANDROID_NDK_ROOT=/home/whoever/Android/android-sdk/ndk/20.0.5594570
PATH=$ANDROID_NDK_ROOT/toolchains/llvm/prebuilt/linux-x86_64/bin:$ANDROID_NDK_ROOT/toolchains/arm-linux-androideabi-4.9/prebuilt/linux-x86_64/bin:$PATH
./Configure android-arm64 -D__ANDROID_API__=29
make
Older versions of the NDK have GCC under their common prebuilt tools directory, so the bin path will be slightly different. EG: to compile for ICS on ARM with NDK 10d:
export ANDROID_NDK_ROOT=/some/where/android-ndk-10d
PATH=$ANDROID_NDK_ROOT/toolchains/arm-linux-androideabi-4.8/prebuilt/linux-x86_64/bin:$PATH
./Configure android-arm -D__ANDROID_API__=14
make
Caveat lector! Earlier OpenSSL versions relied on additional CROSS_SYSROOT
variable set to $ANDROID_NDK_ROOT/platforms/android-<api>/arch-<arch>
to
appoint headers-n-libraries' location. It's still recognized in order
to facilitate migration from older projects. However, since API level
appears in CROSS_SYSROOT
value, passing -D__ANDROID_API__=N
can be in
conflict, and mixing the two is therefore not supported. Migration to
CROSS_SYSROOT
-less setup is recommended.
One can engage clang by adjusting PATH to cover same NDK's clang. Just keep in mind that if you miss it, Configure will try to use gcc... Also, PATH would need even further adjustment to cover unprefixed, yet target-specific, ar and ranlib. It's possible that you don't need to bother, if binutils-multiarch is installed on your Linux system.
Another option is to create so called "standalone toolchain" tailored
for single specific platform including Android API level, and assign its
location to ANDROID_NDK_ROOT
. In such case you have to pass matching
target name to Configure and shouldn't use -D__ANDROID_API__=N
. PATH
adjustment becomes simpler, $ANDROID_NDK_ROOT/bin:$PATH
suffices.
Running tests (on Linux)
This is not actually supported. Notes are meant rather as inspiration.
Even though build output targets alien system, it's possible to execute test suite on Linux system by employing qemu-user. The trick is static linking. Pass -static to Configure, then edit generated Makefile and remove occurrences of -ldl and -pie flags. You would also need to pick API version that comes with usable static libraries, 42/2=21 used to work. Once built, you should be able to
env EXE_SHELL=qemu-<arch> make test
If you need to pass additional flag to qemu, quotes are your friend, e.g.
env EXE_SHELL="qemu-mips64el -cpu MIPS64R6-generic" make test