blob: 6bb0f7fabd9fae93a34ada1913d68ab7cf8f2941 [file] [log] [blame]
DESCRIPTION = "nodeJS Evented I/O for V8 JavaScript"
HOMEPAGE = "http://nodejs.org"
LICENSE = "MIT & ISC & BSD-2-Clause & BSD-3-Clause & Artistic-2.0 & Apache-2.0"
LIC_FILES_CHKSUM = "file://LICENSE;md5=059ecf3a6f87111685e51b611b9563e5"
CVE_PRODUCT = "nodejs node.js"
DEPENDS = "openssl file-replacement-native"
DEPENDS:append:class-target = " qemu-native"
DEPENDS:append:class-native = " c-ares-native"
inherit pkgconfig python3native qemu ptest
COMPATIBLE_MACHINE:armv4 = "(!.*armv4).*"
COMPATIBLE_MACHINE:armv5 = "(!.*armv5).*"
COMPATIBLE_MACHINE:mips64 = "(!.*mips64).*"
COMPATIBLE_HOST:riscv64 = "null"
COMPATIBLE_HOST:riscv32 = "null"
COMPATIBLE_HOST:powerpc = "null"
SRC_URI = "http://nodejs.org/dist/v${PV}/node-v${PV}.tar.xz \
file://0001-Disable-running-gyp-files-for-bundled-deps.patch \
file://0004-v8-don-t-override-ARM-CFLAGS.patch \
file://system-c-ares.patch \
file://0001-liftoff-Correct-function-signatures.patch \
file://run-ptest \
"
SRC_URI:append:class-target = " \
file://0001-Using-native-binaries.patch \
"
SRC_URI:append:toolchain-clang:x86 = " \
file://libatomic.patch \
"
SRC_URI:append:toolchain-clang:powerpc64le = " \
file://0001-ppc64-Do-not-use-mminimal-toc-with-clang.patch \
"
SRC_URI[sha256sum] = "439c71aa2f38c2861657bfa538e99191a571258066cbfd4548586049c8134190"
S = "${WORKDIR}/node-v${PV}"
# v8 errors out if you have set CCACHE
CCACHE = ""
def map_nodejs_arch(a, d):
import re
if re.match('i.86$', a): return 'ia32'
elif re.match('x86_64$', a): return 'x64'
elif re.match('aarch64$', a): return 'arm64'
elif re.match('(powerpc64|powerpc64le|ppc64le)$', a): return 'ppc64'
elif re.match('powerpc$', a): return 'ppc'
return a
ARCHFLAGS:arm = "${@bb.utils.contains('TUNE_FEATURES', 'callconvention-hard', '--with-arm-float-abi=hard', '--with-arm-float-abi=softfp', d)} \
${@bb.utils.contains('TUNE_FEATURES', 'neon', '--with-arm-fpu=neon', \
bb.utils.contains('TUNE_FEATURES', 'vfpv3d16', '--with-arm-fpu=vfpv3-d16', \
bb.utils.contains('TUNE_FEATURES', 'vfpv3', '--with-arm-fpu=vfpv3', \
'--with-arm-fpu=vfp', d), d), d)}"
ARCHFLAGS:append:mips = " --v8-lite-mode"
ARCHFLAGS:append:mipsel = " --v8-lite-mode"
ARCHFLAGS ?= ""
PACKAGECONFIG ??= "ares brotli icu zlib"
PACKAGECONFIG[ares] = "--shared-cares,,c-ares"
PACKAGECONFIG[brotli] = "--shared-brotli,,brotli"
PACKAGECONFIG[icu] = "--with-intl=system-icu,--without-intl,icu"
PACKAGECONFIG[libuv] = "--shared-libuv,,libuv"
PACKAGECONFIG[nghttp2] = "--shared-nghttp2,,nghttp2"
PACKAGECONFIG[shared] = "--shared"
PACKAGECONFIG[zlib] = "--shared-zlib,,zlib"
# We don't want to cross-compile during target compile,
# and we need to use the right flags during host compile,
# too.
EXTRA_OEMAKE = "\
CC.host='${CC} -pie -fPIE' \
CFLAGS.host='${CPPFLAGS} ${CFLAGS}' \
CXX.host='${CXX} -pie -fPIE' \
CXXFLAGS.host='${CPPFLAGS} ${CXXFLAGS}' \
LDFLAGS.host='${LDFLAGS}' \
AR.host='${AR}' \
\
builddir_name=./ \
"
EXTRANATIVEPATH += "file-native"
python prune_sources() {
import shutil
shutil.rmtree(d.getVar('S') + '/deps/openssl')
if 'ares' in d.getVar('PACKAGECONFIG'):
shutil.rmtree(d.getVar('S') + '/deps/cares')
if 'brotli' in d.getVar('PACKAGECONFIG'):
shutil.rmtree(d.getVar('S') + '/deps/brotli')
if 'libuv' in d.getVar('PACKAGECONFIG'):
shutil.rmtree(d.getVar('S') + '/deps/uv')
if 'nghttp2' in d.getVar('PACKAGECONFIG'):
shutil.rmtree(d.getVar('S') + '/deps/nghttp2')
if 'zlib' in d.getVar('PACKAGECONFIG'):
shutil.rmtree(d.getVar('S') + '/deps/zlib')
}
do_unpack[postfuncs] += "prune_sources"
# V8's JIT infrastructure requires binaries such as mksnapshot and
# mkpeephole to be run in the host during the build. However, these
# binaries must have the same bit-width as the target (e.g. a x86_64
# host targeting ARMv6 needs to produce a 32-bit binary). Instead of
# depending on a third Yocto toolchain, we just build those binaries
# for the target and run them on the host with QEMU.
python do_create_v8_qemu_wrapper () {
"""Creates a small wrapper that invokes QEMU to run some target V8 binaries
on the host."""
qemu_libdirs = [d.expand('${STAGING_DIR_HOST}${libdir}'),
d.expand('${STAGING_DIR_HOST}${base_libdir}')]
qemu_cmd = qemu_wrapper_cmdline(d, d.getVar('STAGING_DIR_HOST'),
qemu_libdirs)
wrapper_path = d.expand('${B}/v8-qemu-wrapper.sh')
with open(wrapper_path, 'w') as wrapper_file:
wrapper_file.write("""#!/bin/sh
# This file has been generated automatically.
# It invokes QEMU to run binaries built for the target in the host during the
# build process.
%s "$@"
""" % qemu_cmd)
os.chmod(wrapper_path, 0o755)
}
do_create_v8_qemu_wrapper[dirs] = "${B}"
addtask create_v8_qemu_wrapper after do_configure before do_compile
LDFLAGS:append:x86 = " -latomic"
CROSS_FLAGS = "--cross-compiling"
CROSS_FLAGS:class-native = "--no-cross-compiling"
# Node is way too cool to use proper autotools, so we install two wrappers to forcefully inject proper arch cflags to workaround gypi
do_configure () {
GYP_DEFINES="${GYP_DEFINES}" export GYP_DEFINES
# $TARGET_ARCH settings don't match --dest-cpu settings
python3 configure.py --verbose --prefix=${prefix} \
--shared-openssl \
--dest-cpu="${@map_nodejs_arch(d.getVar('TARGET_ARCH'), d)}" \
--dest-os=linux \
--libdir=${baselib} \
${CROSS_FLAGS} \
${ARCHFLAGS} \
${PACKAGECONFIG_CONFARGS}
}
do_compile () {
install -D ${RECIPE_SYSROOT_NATIVE}/etc/ssl/openssl.cnf ${B}/deps/openssl/nodejs-openssl.cnf
install -D ${B}/v8-qemu-wrapper.sh ${B}/out/Release/v8-qemu-wrapper.sh
oe_runmake BUILDTYPE=Release
}
do_install () {
oe_runmake install DESTDIR=${D}
}
do_install_ptest () {
cp -r ${B}/out/Release/cctest ${D}${PTEST_PATH}/
cp -r ${B}/test ${D}${PTEST_PATH}
chown -R root:root ${D}${PTEST_PATH}
}
PACKAGES =+ "${PN}-npm"
FILES:${PN}-npm = "${nonarch_libdir}/node_modules ${bindir}/npm ${bindir}/npx ${bindir}/corepack"
RDEPENDS:${PN}-npm = "bash python3-core python3-shell python3-datetime \
python3-misc python3-multiprocessing"
PACKAGES =+ "${PN}-systemtap"
FILES:${PN}-systemtap = "${datadir}/systemtap"
BBCLASSEXTEND = "native"