3
0
Fork 0
forked from mirrors/nixpkgs
nixpkgs/pkgs/applications/networking/browsers/chromium/common.nix

365 lines
13 KiB
Nix
Raw Normal View History

{ stdenv, lib, fetchurl, fetchpatch
# Channel data:
, channel, upstream-info
# Helper functions:
, chromiumVersionAtLeast, versionRange
# Native build inputs:
, ninja, pkg-config
, python3, perl
, gnutar, which
, llvmPackages
# postPatch:
, pkgsBuildHost
# configurePhase:
, gnChromium
# Build inputs:
, libpng
, bzip2, flac, speex, libopus
, libevent, expat, libjpeg, snappy
, libcap
, xdg-utils, minizip, libwebp
, libusb1, re2
, ffmpeg, libxslt, libxml2
, nasm
, nspr, nss, systemd
, util-linux, alsa-lib
, bison, gperf, libkrb5
, glib, gtk3, dbus-glib
, libXScrnSaver, libXcursor, libXtst, libxshmfence, libGLU, libGL
, mesa
, pciutils, protobuf, speechd, libXdamage, at-spi2-core
, pipewire
, libva
, libdrm, wayland, libxkbcommon # Ozone
, curl
2021-10-16 20:55:57 +01:00
, epoxy
# postPatch:
, glibc # gconv + locale
# Package customization:
, gnomeSupport ? false, gnome2 ? null
, gnomeKeyringSupport ? false, libgnome-keyring3 ? null
, cupsSupport ? true, cups ? null
, proprietaryCodecs ? true
, pulseSupport ? false, libpulseaudio ? null
, ungoogled ? false, ungoogled-chromium
# Optional dependencies:
, libgcrypt ? null # gnomeSupport || cupsSupport
}:
buildFun:
2021-01-15 13:21:58 +00:00
with lib;
let
python3WithPackages = python3.withPackages(ps: with ps; [
ply jinja2 setuptools
]);
clangFormatPython3 = fetchurl {
url = "https://chromium.googlesource.com/chromium/tools/build/+/e77882e0dde52c2ccf33c5570929b75b4a2a2522/recipes/recipe_modules/chromium/resources/clang-format?format=TEXT";
sha256 = "0ic3hn65dimgfhakli1cyf9j3cxcqsf1qib706ihfhmlzxf7256l";
};
2020-09-19 12:41:44 +01:00
# The additional attributes for creating derivations based on the chromium
# source tree.
extraAttrs = buildFun base;
githubPatch = { commit, sha256, revert ? false }: fetchpatch {
url = "https://github.com/chromium/chromium/commit/${commit}.patch";
inherit sha256 revert;
};
mkGnFlags =
let
# Serialize Nix types into GN types according to this document:
chromium: use official build settings (#101467) LLD: https://lld.llvm.org/ When you link a large program on a multicore machine, you can expect that LLD runs more than twice as fast as the GNU gold linker. Your mileage may vary, though. Link-time optimization (LTO) is supported by default. Some default settings have been tuned for the 21st century. For example, the stack is marked as non-executable by default to tighten security. LTO & ThinLTO: https://clang.llvm.org/docs/ThinLTO.html LTO (Link Time Optimization) achieves better runtime performance through whole-program analysis and cross-module optimization. However, monolithic LTO implements this by merging all input into a single module, which is not scalable in time or memory, and also prevents fast incremental compiles. ThinLTO is a new approach that is designed to scale like a non-LTO build, while retaining most of the performance achievement of full LTO. PGO: https://llvm.org/docs/HowToBuildWithPGO.html https://blog.chromium.org/2020/08/chrome-just-got-faster-with-profile.html Allows your compiler to better optimize code for how it actually runs. Users report that applying this to Clang and LLVM can decrease overall compile time by 20%. Because PGO uses real usage scenarios that match the workflows of Chrome users around the world, the most common tasks get prioritized and made faster. Delivers up to 10% faster page loads. CFI: https://clang.llvm.org/docs/ControlFlowIntegrity.html https://www.chromium.org/developers/testing/control-flow-integrity Aborts the program upon detecting certain forms of undefined behavior that can potentially allow attackers to subvert the program’s control flow. These schemes have been optimized for performance, allowing developers to enable them in release builds. By default, a program compiled with CFI will crash with SIGILL if it detects a CFI violation. Additionally: Use minizip instead of zlib. Chromium says zlib but actually uses minizip. Remove old unused workarounds. Make shell scripts POSIX compliant. Update documentation URLs. Prepare for using system libraries.
2020-10-24 11:27:40 +01:00
# https://source.chromium.org/gn/gn/+/master:docs/language.md
mkGnString = value: "\"${escape ["\"" "$" "\\"] value}\"";
sanitize = value:
if value == true then "true"
else if value == false then "false"
else if isList value then "[${concatMapStringsSep ", " sanitize value}]"
else if isInt value then toString value
else if isString value then mkGnString value
else throw "Unsupported type for GN value `${value}'.";
toFlag = key: value: "${key}=${sanitize value}";
in attrs: concatStringsSep " " (attrValues (mapAttrs toFlag attrs));
chromium: use official build settings (#101467) LLD: https://lld.llvm.org/ When you link a large program on a multicore machine, you can expect that LLD runs more than twice as fast as the GNU gold linker. Your mileage may vary, though. Link-time optimization (LTO) is supported by default. Some default settings have been tuned for the 21st century. For example, the stack is marked as non-executable by default to tighten security. LTO & ThinLTO: https://clang.llvm.org/docs/ThinLTO.html LTO (Link Time Optimization) achieves better runtime performance through whole-program analysis and cross-module optimization. However, monolithic LTO implements this by merging all input into a single module, which is not scalable in time or memory, and also prevents fast incremental compiles. ThinLTO is a new approach that is designed to scale like a non-LTO build, while retaining most of the performance achievement of full LTO. PGO: https://llvm.org/docs/HowToBuildWithPGO.html https://blog.chromium.org/2020/08/chrome-just-got-faster-with-profile.html Allows your compiler to better optimize code for how it actually runs. Users report that applying this to Clang and LLVM can decrease overall compile time by 20%. Because PGO uses real usage scenarios that match the workflows of Chrome users around the world, the most common tasks get prioritized and made faster. Delivers up to 10% faster page loads. CFI: https://clang.llvm.org/docs/ControlFlowIntegrity.html https://www.chromium.org/developers/testing/control-flow-integrity Aborts the program upon detecting certain forms of undefined behavior that can potentially allow attackers to subvert the program’s control flow. These schemes have been optimized for performance, allowing developers to enable them in release builds. By default, a program compiled with CFI will crash with SIGILL if it detects a CFI violation. Additionally: Use minizip instead of zlib. Chromium says zlib but actually uses minizip. Remove old unused workarounds. Make shell scripts POSIX compliant. Update documentation URLs. Prepare for using system libraries.
2020-10-24 11:27:40 +01:00
# https://source.chromium.org/chromium/chromium/src/+/master:build/linux/unbundle/replace_gn_files.py
gnSystemLibraries = lib.optionals (!chromiumVersionAtLeast "95") [
2021-09-18 17:30:45 +01:00
"zlib"
] ++ [
# TODO:
# "ffmpeg"
# "snappy"
"flac"
"libjpeg"
"libpng"
"libwebp"
"libxslt"
"opus"
];
opusWithCustomModes = libopus.override {
withCustomModes = true;
};
# build paths and release info
packageName = extraAttrs.packageName or extraAttrs.name;
buildType = "Release";
buildPath = "out/${buildType}";
libExecPath = "$out/libexec/${packageName}";
ungoogler = ungoogled-chromium {
inherit (upstream-info.deps.ungoogled-patches) rev sha256;
};
base = rec {
name = "${packageName}-unwrapped-${version}";
inherit (upstream-info) version;
inherit packageName buildType buildPath;
src = fetchurl {
url = "https://commondatastorage.googleapis.com/chromium-browser-official/chromium-${version}.tar.xz";
inherit (upstream-info) sha256;
};
nativeBuildInputs = [
ninja pkg-config
python3WithPackages perl
gnutar which
llvmPackages.bintools
];
buildInputs = [
(libpng.override { apngSupport = false; }) # https://bugs.chromium.org/p/chromium/issues/detail?id=752403
bzip2 flac speex opusWithCustomModes
libevent expat libjpeg snappy
libcap
xdg-utils minizip libwebp
libusb1 re2
ffmpeg libxslt libxml2
nasm
nspr nss systemd
util-linux alsa-lib
2021-03-14 16:11:48 +00:00
bison gperf libkrb5
glib gtk3 dbus-glib
libXScrnSaver libXcursor libXtst libxshmfence libGLU libGL
2021-04-04 18:17:49 +01:00
mesa # required for libgbm
pciutils protobuf speechd libXdamage at-spi2-core
pipewire
libva
libdrm wayland mesa.drivers libxkbcommon
curl
2021-10-16 20:55:57 +01:00
] ++ optionals (chromiumVersionAtLeast "96") [
epoxy
] ++ optionals gnomeSupport [ gnome2.GConf libgcrypt ]
++ optional gnomeKeyringSupport libgnome-keyring3
2014-12-07 13:52:36 +00:00
++ optionals cupsSupport [ libgcrypt cups ]
++ optional pulseSupport libpulseaudio;
patches = [
# Optional patch to use SOURCE_DATE_EPOCH in compute_build_timestamp.py (should be upstreamed):
./patches/no-build-timestamps.patch
# For bundling Widevine (DRM), might be replaceable via bundle_widevine_cdm=true in gnFlags:
./patches/widevine-79.patch
];
2018-10-24 22:25:36 +01:00
postPatch = ''
chromium: use official build settings (#101467) LLD: https://lld.llvm.org/ When you link a large program on a multicore machine, you can expect that LLD runs more than twice as fast as the GNU gold linker. Your mileage may vary, though. Link-time optimization (LTO) is supported by default. Some default settings have been tuned for the 21st century. For example, the stack is marked as non-executable by default to tighten security. LTO & ThinLTO: https://clang.llvm.org/docs/ThinLTO.html LTO (Link Time Optimization) achieves better runtime performance through whole-program analysis and cross-module optimization. However, monolithic LTO implements this by merging all input into a single module, which is not scalable in time or memory, and also prevents fast incremental compiles. ThinLTO is a new approach that is designed to scale like a non-LTO build, while retaining most of the performance achievement of full LTO. PGO: https://llvm.org/docs/HowToBuildWithPGO.html https://blog.chromium.org/2020/08/chrome-just-got-faster-with-profile.html Allows your compiler to better optimize code for how it actually runs. Users report that applying this to Clang and LLVM can decrease overall compile time by 20%. Because PGO uses real usage scenarios that match the workflows of Chrome users around the world, the most common tasks get prioritized and made faster. Delivers up to 10% faster page loads. CFI: https://clang.llvm.org/docs/ControlFlowIntegrity.html https://www.chromium.org/developers/testing/control-flow-integrity Aborts the program upon detecting certain forms of undefined behavior that can potentially allow attackers to subvert the program’s control flow. These schemes have been optimized for performance, allowing developers to enable them in release builds. By default, a program compiled with CFI will crash with SIGILL if it detects a CFI violation. Additionally: Use minizip instead of zlib. Chromium says zlib but actually uses minizip. Remove old unused workarounds. Make shell scripts POSIX compliant. Update documentation URLs. Prepare for using system libraries.
2020-10-24 11:27:40 +01:00
# remove unused third-party
for lib in ${toString gnSystemLibraries}; do
if [ -d "third_party/$lib" ]; then
find "third_party/$lib" -type f \
\! -path "third_party/$lib/chromium/*" \
\! -path "third_party/$lib/google/*" \
\! -path "third_party/harfbuzz-ng/utils/hb_scoped.h" \
\! -regex '.*\.\(gn\|gni\|isolate\)' \
-delete
fi
done
# Required for patchShebangs (unsupported interpreter directive, basename: invalid option -- '*', etc.):
chromium: use official build settings (#101467) LLD: https://lld.llvm.org/ When you link a large program on a multicore machine, you can expect that LLD runs more than twice as fast as the GNU gold linker. Your mileage may vary, though. Link-time optimization (LTO) is supported by default. Some default settings have been tuned for the 21st century. For example, the stack is marked as non-executable by default to tighten security. LTO & ThinLTO: https://clang.llvm.org/docs/ThinLTO.html LTO (Link Time Optimization) achieves better runtime performance through whole-program analysis and cross-module optimization. However, monolithic LTO implements this by merging all input into a single module, which is not scalable in time or memory, and also prevents fast incremental compiles. ThinLTO is a new approach that is designed to scale like a non-LTO build, while retaining most of the performance achievement of full LTO. PGO: https://llvm.org/docs/HowToBuildWithPGO.html https://blog.chromium.org/2020/08/chrome-just-got-faster-with-profile.html Allows your compiler to better optimize code for how it actually runs. Users report that applying this to Clang and LLVM can decrease overall compile time by 20%. Because PGO uses real usage scenarios that match the workflows of Chrome users around the world, the most common tasks get prioritized and made faster. Delivers up to 10% faster page loads. CFI: https://clang.llvm.org/docs/ControlFlowIntegrity.html https://www.chromium.org/developers/testing/control-flow-integrity Aborts the program upon detecting certain forms of undefined behavior that can potentially allow attackers to subvert the program’s control flow. These schemes have been optimized for performance, allowing developers to enable them in release builds. By default, a program compiled with CFI will crash with SIGILL if it detects a CFI violation. Additionally: Use minizip instead of zlib. Chromium says zlib but actually uses minizip. Remove old unused workarounds. Make shell scripts POSIX compliant. Update documentation URLs. Prepare for using system libraries.
2020-10-24 11:27:40 +01:00
substituteInPlace native_client/SConstruct --replace "#! -*- python -*-" ""
if [ -e third_party/harfbuzz-ng/src/src/update-unicode-tables.make ]; then
substituteInPlace third_party/harfbuzz-ng/src/src/update-unicode-tables.make \
--replace "/usr/bin/env -S make -f" "/usr/bin/make -f"
fi
chmod -x third_party/webgpu-cts/src/tools/${lib.optionalString (chromiumVersionAtLeast "96") "run_"}deno
# We want to be able to specify where the sandbox is via CHROME_DEVEL_SANDBOX
substituteInPlace sandbox/linux/suid/client/setuid_sandbox_host.cc \
--replace \
'return sandbox_binary;' \
'return base::FilePath(GetDevelSandboxPath());'
substituteInPlace services/audio/audio_sandbox_hook_linux.cc \
--replace \
'/usr/share/alsa/' \
'${alsa-lib}/share/alsa/' \
--replace \
'/usr/lib/x86_64-linux-gnu/gconv/' \
'${glibc}/lib/gconv/' \
--replace \
'/usr/share/locale/' \
'${glibc}/share/locale/'
2021-02-01 08:05:09 +00:00
sed -i -e 's@"\(#!\)\?.*xdg-@"\1${xdg-utils}/bin/xdg-@' \
chrome/browser/shell_integration_linux.cc
sed -i -e '/lib_loader.*Load/s!"\(libudev\.so\)!"${lib.getLib systemd}/lib/\1!' \
device/udev_linux/udev?_loader.cc
sed -i -e '/libpci_loader.*Load/s!"\(libpci\.so\)!"${pciutils}/lib/\1!' \
gpu/config/gpu_info_collector_linux.cc
# Allow to put extensions into the system-path.
sed -i -e 's,/usr,/run/current-system/sw,' chrome/common/chrome_paths.cc
# We need the fix for https://bugs.chromium.org/p/chromium/issues/detail?id=1254408:
base64 --decode ${clangFormatPython3} > buildtools/linux64/clang-format
patchShebangs .
# Link to our own Node.js and Java (required during the build):
mkdir -p third_party/node/linux/node-linux-x64/bin
ln -s "${pkgsBuildHost.nodejs}/bin/node" third_party/node/linux/node-linux-x64/bin/node
ln -s "${pkgsBuildHost.jre8}/bin/java" third_party/jdk/current/bin/
chromium: use official build settings (#101467) LLD: https://lld.llvm.org/ When you link a large program on a multicore machine, you can expect that LLD runs more than twice as fast as the GNU gold linker. Your mileage may vary, though. Link-time optimization (LTO) is supported by default. Some default settings have been tuned for the 21st century. For example, the stack is marked as non-executable by default to tighten security. LTO & ThinLTO: https://clang.llvm.org/docs/ThinLTO.html LTO (Link Time Optimization) achieves better runtime performance through whole-program analysis and cross-module optimization. However, monolithic LTO implements this by merging all input into a single module, which is not scalable in time or memory, and also prevents fast incremental compiles. ThinLTO is a new approach that is designed to scale like a non-LTO build, while retaining most of the performance achievement of full LTO. PGO: https://llvm.org/docs/HowToBuildWithPGO.html https://blog.chromium.org/2020/08/chrome-just-got-faster-with-profile.html Allows your compiler to better optimize code for how it actually runs. Users report that applying this to Clang and LLVM can decrease overall compile time by 20%. Because PGO uses real usage scenarios that match the workflows of Chrome users around the world, the most common tasks get prioritized and made faster. Delivers up to 10% faster page loads. CFI: https://clang.llvm.org/docs/ControlFlowIntegrity.html https://www.chromium.org/developers/testing/control-flow-integrity Aborts the program upon detecting certain forms of undefined behavior that can potentially allow attackers to subvert the program’s control flow. These schemes have been optimized for performance, allowing developers to enable them in release builds. By default, a program compiled with CFI will crash with SIGILL if it detects a CFI violation. Additionally: Use minizip instead of zlib. Chromium says zlib but actually uses minizip. Remove old unused workarounds. Make shell scripts POSIX compliant. Update documentation URLs. Prepare for using system libraries.
2020-10-24 11:27:40 +01:00
# Allow building against system libraries in official builds
sed -i 's/OFFICIAL_BUILD/GOOGLE_CHROME_BUILD/' tools/generate_shim_headers/generate_shim_headers.py
2018-01-21 13:31:54 +00:00
'' + optionalString stdenv.isAarch64 ''
substituteInPlace build/toolchain/linux/BUILD.gn \
--replace 'toolprefix = "aarch64-linux-gnu-"' 'toolprefix = ""'
'' + optionalString ungoogled ''
${ungoogler}/utils/prune_binaries.py . ${ungoogler}/pruning.list || echo "some errors"
${ungoogler}/utils/patches.py . ${ungoogler}/patches
${ungoogler}/utils/domain_substitution.py apply -r ${ungoogler}/domain_regex.list -f ${ungoogler}/domain_substitution.list -c ./ungoogled-domsubcache.tar.gz .
'';
gnFlags = mkGnFlags ({
# Main build and toolchain settings:
# Create an official and optimized release build (only official builds
# should be distributed to users, as non-official builds are intended for
# development and may not be configured appropriately for production,
# e.g. unsafe developer builds have developer-friendly features that may
# weaken or disable security measures like sandboxing or ASLR):
is_official_build = true;
disable_fieldtrial_testing_config = true;
# Build Chromium using the system toolchain (for Linux distributions):
chromium: use official build settings (#101467) LLD: https://lld.llvm.org/ When you link a large program on a multicore machine, you can expect that LLD runs more than twice as fast as the GNU gold linker. Your mileage may vary, though. Link-time optimization (LTO) is supported by default. Some default settings have been tuned for the 21st century. For example, the stack is marked as non-executable by default to tighten security. LTO & ThinLTO: https://clang.llvm.org/docs/ThinLTO.html LTO (Link Time Optimization) achieves better runtime performance through whole-program analysis and cross-module optimization. However, monolithic LTO implements this by merging all input into a single module, which is not scalable in time or memory, and also prevents fast incremental compiles. ThinLTO is a new approach that is designed to scale like a non-LTO build, while retaining most of the performance achievement of full LTO. PGO: https://llvm.org/docs/HowToBuildWithPGO.html https://blog.chromium.org/2020/08/chrome-just-got-faster-with-profile.html Allows your compiler to better optimize code for how it actually runs. Users report that applying this to Clang and LLVM can decrease overall compile time by 20%. Because PGO uses real usage scenarios that match the workflows of Chrome users around the world, the most common tasks get prioritized and made faster. Delivers up to 10% faster page loads. CFI: https://clang.llvm.org/docs/ControlFlowIntegrity.html https://www.chromium.org/developers/testing/control-flow-integrity Aborts the program upon detecting certain forms of undefined behavior that can potentially allow attackers to subvert the program’s control flow. These schemes have been optimized for performance, allowing developers to enable them in release builds. By default, a program compiled with CFI will crash with SIGILL if it detects a CFI violation. Additionally: Use minizip instead of zlib. Chromium says zlib but actually uses minizip. Remove old unused workarounds. Make shell scripts POSIX compliant. Update documentation URLs. Prepare for using system libraries.
2020-10-24 11:27:40 +01:00
custom_toolchain = "//build/toolchain/linux/unbundle:default";
host_toolchain = "//build/toolchain/linux/unbundle:default";
# Don't build against a sysroot image downloaded from Cloud Storage:
2015-12-29 18:32:30 +00:00
use_sysroot = false;
# The default value is hardcoded instead of using pkg-config:
system_wayland_scanner_path = "${wayland}/bin/wayland-scanner";
# Because we use a different toolchain / compiler version:
treat_warnings_as_errors = false;
# We aren't compiling with Chrome's Clang (would enable Chrome-specific
# plugins for enforcing coding guidelines, etc.):
clang_use_chrome_plugins = false;
# Disable symbols (they would negatively affect the performance of the
# build since the symbols are large and dealing with them is slow):
symbol_level = 0;
blink_symbol_level = 0;
# Google API key, see: https://www.chromium.org/developers/how-tos/api-keys
# Note: The API key is for NixOS/nixpkgs use ONLY.
# For your own distribution, please get your own set of keys.
google_api_key = "AIzaSyDGi15Zwl11UNe6Y-5XW_upsfyw31qwZPI";
# Optional features:
use_gio = gnomeSupport;
use_gnome_keyring = gnomeKeyringSupport;
use_cups = cupsSupport;
# Feature overrides:
# Native Client support was deprecated in 2020 and support will end in June 2021:
enable_nacl = false;
# Enabling the Widevine component here doesn't affect whether we can
# redistribute the chromium package; the Widevine component is either
# added later in the wrapped -wv build or downloaded from Google:
enable_widevine = true;
# Provides the enable-webrtc-pipewire-capturer flag to support Wayland screen capture:
rtc_use_pipewire = true;
} // optionalAttrs proprietaryCodecs {
# enable support for the H.264 codec
proprietary_codecs = true;
enable_hangout_services_extension = true;
ffmpeg_branding = "Chrome";
} // optionalAttrs pulseSupport {
use_pulseaudio = true;
link_pulseaudio = true;
} // optionalAttrs ungoogled {
chrome_pgo_phase = 0;
enable_hangout_services_extension = false;
enable_js_type_check = false;
enable_mdns = false;
enable_nacl_nonsfi = false;
enable_one_click_signin = false;
enable_reading_list = false;
enable_remoting = false;
enable_reporting = false;
enable_service_discovery = false;
exclude_unwind_tables = true;
google_api_key = "";
google_default_client_id = "";
google_default_client_secret = "";
safe_browsing_mode = 0;
use_official_google_api_keys = false;
use_unofficial_version_number = false;
} // (extraAttrs.gnFlags or {}));
configurePhase = ''
runHook preConfigure
# This is to ensure expansion of $out.
libExecPath="${libExecPath}"
2021-10-11 22:13:09 +01:00
${python3}/bin/python3 build/linux/unbundle/replace_gn_files.py --system-libraries ${toString gnSystemLibraries}
${gnChromium}/bin/gn gen --args=${escapeShellArg gnFlags} out/Release | tee gn-gen-outputs.txt
# Fail if `gn gen` contains a WARNING.
grep -o WARNING gn-gen-outputs.txt && echo "Found gn WARNING, exiting nix build" && exit 1
runHook postConfigure
'';
# Don't spam warnings about unknown warning options. This is useful because
# our Clang is always older than Chromium's and the build logs have a size
# of approx. 25 MB without this option (and this saves e.g. 66 %).
NIX_CFLAGS_COMPILE = "-Wno-unknown-warning-option";
buildPhase = let
buildCommand = target: ''
2020-10-16 13:54:34 +01:00
ninja -C "${buildPath}" -j$NIX_BUILD_CORES -l$NIX_BUILD_CORES "${target}"
(
source chrome/installer/linux/common/installer.include
PACKAGE=$packageName
MENUNAME="Chromium"
process_template chrome/app/resources/manpage.1.in "${buildPath}/chrome.1"
)
2014-04-25 02:58:33 +01:00
'';
targets = extraAttrs.buildTargets or [];
commands = map buildCommand targets;
in concatStringsSep "\n" commands;
postFixup = ''
# Make sure that libGLESv2 is found by dlopen (if using EGL).
chromiumBinary="$libExecPath/$packageName"
origRpath="$(patchelf --print-rpath "$chromiumBinary")"
patchelf --set-rpath "${libGL}/lib:$origRpath" "$chromiumBinary"
'';
passthru = {
updateScript = ./update.py;
chromiumDeps = {
gn = gnChromium;
};
};
};
# Remove some extraAttrs we supplied to the base attributes already.
in stdenv.mkDerivation (base // removeAttrs extraAttrs [
"name" "gnFlags" "buildTargets"
] // { passthru = base.passthru // (extraAttrs.passthru or {}); })