import subprocess from build.makeproject import MakeProject class OpenSSLProject(MakeProject): def __init__(self, url, md5, installed, **kwargs): MakeProject.__init__(self, url, md5, installed, install_target='install_dev', **kwargs) def get_make_args(self, toolchain): return MakeProject.get_make_args(self, toolchain) + [ 'CC=' + toolchain.cc, 'CFLAGS=' + toolchain.cflags, 'CPPFLAGS=' + toolchain.cppflags, 'AR=' + toolchain.ar, 'RANLIB=' + toolchain.ranlib, 'build_libs', ] def get_make_install_args(self, toolchain): # OpenSSL's Makefile runs "ranlib" during installation return MakeProject.get_make_install_args(self, toolchain) + [ 'RANLIB=' + toolchain.ranlib, ] def build(self, toolchain): src = self.unpack(toolchain, out_of_tree=False) # OpenSSL has a weird target architecture scheme with lots of # hard-coded architectures; this table translates between our # "toolchain_arch" (HOST_TRIPLET) and the OpenSSL target openssl_archs = { # not using "android-*" because those OpenSSL targets want # to know where the SDK is, but our own build scripts # prepared everything already to look like a regular Linux # build 'arm-linux-androideabi': 'linux-generic32', 'aarch64-linux-android': 'linux-aarch64', 'i686-linux-android': 'linux-x86-clang', 'x86_64-linux-android': 'linux-x86_64-clang', # Kobo 'arm-linux-gnueabihf': 'linux-generic32', # Windows 'i686-w64-mingw32': 'mingw', 'x86_64-w64-mingw32': 'mingw64', } openssl_arch = openssl_archs[toolchain.arch] subprocess.check_call(['./Configure', 'no-shared', 'no-module', 'no-engine', 'no-static-engine', 'no-async', 'no-tests', 'no-asm', # "asm" causes build failures on Windows openssl_arch, '--prefix=' + toolchain.install_prefix], cwd=src, env=toolchain.env) MakeProject.build(self, toolchain, src)