blob: abae088ae00a4de75742d252421394db4bdb9e3c [file] [log] [blame]
# Copyright 2015 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# ==============================================================================
# TEST SETUP
# ==============================================================================
import("//build/config/chromeos/args.gni")
import("//build/config/chromeos/ui_mode.gni")
import("//build/config/devtools.gni")
import("//build/config/gclient_args.gni")
import("//build/config/rts.gni")
import("//build_overrides/build.gni")
declare_args() {
# Some component repos (e.g. ANGLE) import //testing but do not have
# "location_tags.json", and so we don't want to try and upload the tags
# for their tests.
# And, some build configs may simply turn off generation altogether.
tests_have_location_tags = generate_location_tags
}
if (is_android) {
import("//build/config/android/config.gni")
import("//build/config/android/extract_unwind_tables.gni")
import("//build/config/android/rules.gni")
import("//build/config/sanitizers/sanitizers.gni")
} else if (is_fuchsia) {
import("//build/config/chromecast_build.gni")
import("//build/config/fuchsia/generate_runner_scripts.gni")
import("//build/config/fuchsia/package.gni")
import("//third_party/fuchsia-sdk/sdk/build/cmc.gni")
} else if ((is_chromeos_ash || is_chromeos_lacros) && is_chromeos_device) {
import("//build/config/chromeos/rules.gni")
import("//build/config/sanitizers/sanitizers.gni")
import("//build/util/generate_wrapper.gni")
} else if (is_ios) {
import("//build/config/ios/ios_sdk.gni")
import("//build/config/ios/ios_test_runner_wrapper.gni")
import("//build/config/ios/rules.gni")
} else {
import("//build/config/sanitizers/sanitizers.gni")
import("//build/util/generate_wrapper.gni")
}
# Define a test as an executable (or apk on Android) with the "testonly" flag
# set.
# Variable:
# use_xvfb: (optional) whether to run the executable under Xvfb.
# use_raw_android_executable: Use executable() rather than android_apk().
# use_native_activity: Test implements ANativeActivity_onCreate().
# is_xctest: (iOS, optional) whether to build the executable as XCTest.
# Similar to the GN arg 'enable_run_ios_unittests_with_xctest' but
# for build targets.
# allow_cleartext_traffic: (Android, optional) whether to allow cleartext
# network requests during the test.
template("test") {
# Ensures the rts file exists and if not, creates a dummy file
if (use_rts) {
action("${target_name}__rts_filters") {
script = "//build/add_rts_filters.py"
rts_file = "${root_build_dir}/gen/rts/${invoker.target_name}.filter"
args = [ rebase_path(rts_file, root_build_dir) ]
outputs = [ rts_file ]
}
}
testonly = true
if (!is_ios) {
assert(!defined(invoker.is_xctest) || !invoker.is_xctest,
"is_xctest can be set only for iOS builds")
}
if (!is_android) {
assert(!defined(invoker.allow_cleartext_traffic),
"allow_cleartext_traffic can be set only for Android tests")
}
if (is_android) {
assert(!defined(invoker.use_xvfb) || !invoker.use_xvfb)
_use_default_launcher =
!defined(invoker.use_default_launcher) || invoker.use_default_launcher
if (!defined(invoker.use_raw_android_executable)) {
# Checkouts where build_with_chromium == false often have a custom GN
# template wrapper around test() which sets use_default_launcher == false.
# Set the _use_raw_android_executable default so that test() targets which
# do not use the custom wrapper
# (1) Do not cause "gn gen" to fail
# (2) Do not need to be moved into if(build_with_chromium) block.
_use_raw_android_executable =
!build_with_chromium && _use_default_launcher
} else {
not_needed([ "_use_default_launcher" ])
_use_raw_android_executable = invoker.use_raw_android_executable
}
# output_name is used to allow targets with the same name but in different
# packages to still produce unique runner scripts.
_output_name = invoker.target_name
if (defined(invoker.output_name)) {
_output_name = invoker.output_name
}
_test_runner_target = "${_output_name}__test_runner_script"
_wrapper_script_vars = [
"ignore_all_data_deps",
"shard_timeout",
]
assert(_use_raw_android_executable || enable_java_templates)
if (_use_raw_android_executable) {
not_needed(invoker, [ "add_unwind_tables_in_apk" ])
_exec_target = "${target_name}__exec"
_dist_target = "${target_name}__dist"
_exec_output =
"$target_out_dir/${invoker.target_name}/${invoker.target_name}"
executable(_exec_target) {
# Configs will always be defined since we set_defaults in BUILDCONFIG.gn.
configs = []
forward_variables_from(
invoker,
"*",
TESTONLY_AND_VISIBILITY + _wrapper_script_vars + [
"data_deps",
"extra_dist_files",
])
# Thanks to the set_defaults() for test(), configs are initialized with
# the default shared_library configs rather than executable configs.
configs -= [
"//build/config:shared_library_config",
"//build/config/android:hide_all_but_jni",
]
configs += [ "//build/config:executable_config" ]
if (defined(invoker.data_deps)) {
data_deps = invoker.data_deps
} else {
data_deps = []
}
if (!defined(data)) {
data = []
}
if (tests_have_location_tags) {
data += [ "//testing/location_tags.json" ]
}
# Don't output to the root or else conflict with the group() below.
output_name = rebase_path(_exec_output, root_out_dir)
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
create_native_executable_dist(_dist_target) {
dist_dir = "$root_out_dir/$target_name"
binary = _exec_output
deps = [ ":$_exec_target" ]
if (defined(invoker.extra_dist_files)) {
extra_files = invoker.extra_dist_files
}
if (use_rts) {
if (!defined(data_deps)) {
data_deps = []
}
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
} else {
_library_target = "${target_name}__library"
_apk_target = "${target_name}__apk"
_apk_specific_vars = [
"allow_cleartext_traffic",
"android_manifest",
"android_manifest_dep",
"android_manifest_template",
"app_as_shared_lib",
"enable_multidex",
"generate_final_jni",
"product_config_java_packages",
"min_sdk_version",
"proguard_configs",
"proguard_enabled",
"srcjar_deps",
"target_sdk_version",
"use_default_launcher",
"use_native_activity",
]
# Adds the unwind tables from unstripped binary as an asset file in the
# apk, if |add_unwind_tables_in_apk| is specified by the test.
if (defined(invoker.add_unwind_tables_in_apk) &&
invoker.add_unwind_tables_in_apk) {
_unwind_table_asset_name = "${target_name}_unwind_assets"
unwind_table_asset(_unwind_table_asset_name) {
library_target = _library_target
deps = [ ":$_library_target" ]
}
}
shared_library(_library_target) {
# Configs will always be defined since we set_defaults in BUILDCONFIG.gn.
configs = [] # Prevent list overwriting warning.
configs = invoker.configs
forward_variables_from(
invoker,
"*",
[ "deps" ] + _apk_specific_vars + _wrapper_script_vars +
TESTONLY_AND_VISIBILITY)
# Native targets do not need to depend on java targets. Filter them out
# so that the shared library can be built without needing to wait for
# dependent java targets.
deps = []
if (defined(invoker.deps)) {
foreach(_dep, invoker.deps) {
_target_label = get_label_info(_dep, "label_no_toolchain")
if (filter_exclude([ _target_label ], java_target_patterns) != []) {
deps += [ _dep ]
}
}
}
if (_use_default_launcher) {
deps += [ "//testing/android/native_test:native_test_native_code" ]
}
}
unittest_apk(_apk_target) {
forward_variables_from(invoker, _apk_specific_vars)
shared_library = ":$_library_target"
apk_name = invoker.target_name
if (defined(invoker.output_name)) {
apk_name = invoker.output_name
install_script_name = "install_${invoker.output_name}"
}
if (defined(invoker.deps)) {
deps = invoker.deps
} else {
deps = []
}
# Add the Java classes so that each target does not have to do it.
if (_use_default_launcher) {
deps += [ "//base/test:test_support_java" ]
}
if (defined(_unwind_table_asset_name)) {
deps += [ ":${_unwind_table_asset_name}" ]
}
if (use_rts) {
data_deps = [ ":${invoker.target_name}__rts_filters" ]
}
}
}
test_runner_script(_test_runner_target) {
forward_variables_from(invoker, _wrapper_script_vars)
if (_use_raw_android_executable) {
executable_dist_dir = "$root_out_dir/$_dist_target"
data_deps = [ ":$_exec_target" ]
} else {
apk_target = ":$_apk_target"
incremental_apk = incremental_install
# Dep needed for the test runner .runtime_deps file to pick up data
# deps from the forward_variables_from(invoker, "*") on the library.
data_deps = [ ":$_library_target" ]
}
test_name = _output_name
test_suite = _output_name
test_type = "gtest"
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
# Create a wrapper script rather than using a group() in order to ensure
# "ninja $target_name" always works. If this was a group(), then GN would
# not create a top-level alias for it if a target exists in another
# directory with the same $target_name.
# Also - bots run this script directly for "components_perftests".
generate_wrapper(target_name) {
forward_variables_from(invoker, [ "visibility" ])
executable = "$root_build_dir/bin/run_$_output_name"
wrapper_script = "$root_build_dir/$_output_name"
deps = [ ":$_test_runner_target" ]
if (_use_raw_android_executable) {
deps += [ ":$_dist_target" ]
} else {
# Dep needed for the swarming .isolate file to pick up data
# deps from the forward_variables_from(invoker, "*") on the library.
deps += [
":$_apk_target",
":$_library_target",
]
}
if (defined(invoker.data_deps)) {
data_deps = invoker.data_deps
} else {
data_deps = []
}
if (tests_have_location_tags) {
data = [ "//testing/location_tags.json" ]
}
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
} else if (is_fuchsia) {
assert(!defined(invoker.use_xvfb) || !invoker.use_xvfb)
_output_name = invoker.target_name
_pkg_target = "${_output_name}_pkg"
_exec_target = "${_output_name}__exec"
# Generate a CMX fragment that provides the program name.
_test_program_fragment_target = "${target_name}_program-fragment"
_test_program_fragment = "${target_out_dir}/${target_name}_program.test-cmx"
_program_name = get_label_info(":${_exec_target}", "name")
generated_file(_test_program_fragment_target) {
contents = "{ \"program\": { \"binary\": \"${_program_name}\"}}"
outputs = [ _test_program_fragment ]
}
# Collate the complete set of elements to include in the test component's
# manifest.
_manifest_fragments = [
"//build/config/fuchsia/test/minimum_capabilities.test-cmx",
_test_program_fragment,
]
if (defined(invoker.additional_manifest_fragments)) {
_manifest_fragments += invoker.additional_manifest_fragments
}
# Generate the test component manifest from the specified elements.
_test_component_manifest_target = "${target_name}_component-manifest"
_test_component_manifest = "${target_out_dir}/${target_name}.cmx"
cmc_merge(_test_component_manifest_target) {
sources = _manifest_fragments
output_name = "${_output_name}.cmx"
deps = [ ":${_test_program_fragment_target}" ]
}
# Define the test component, dependent on the generated manifest, and the
# test executable target.
_test_component_target = "${target_name}_component"
fuchsia_component(_test_component_target) {
deps = [ ":$_test_component_manifest_target" ]
data_deps = [ ":$_exec_target" ]
manifest = _test_component_manifest
visibility = [ ":*" ]
}
# Define components for each entry in |additional_manifests|, if any. Since
# manifests may themselves depend-on the outputs of |deps|, these components
# must each individually depend on |invoker.deps|.
_test_component_targets = [ ":${_test_component_target}" ]
if (defined(invoker.additional_manifests)) {
foreach(filename, invoker.additional_manifests) {
_additional_component_target =
target_name + "_" + get_path_info(filename, "name")
_test_component_targets += [ ":${_additional_component_target}" ]
fuchsia_component(_additional_component_target) {
forward_variables_from(invoker, [ "testonly" ])
data_deps = [ ":$_exec_target" ]
visibility = [ ":*" ]
manifest = filename
# Depend on |invoker.deps|, in case it includes a dependency that
# creates this additional component's manifest.
if (defined(invoker.deps)) {
deps = invoker.deps
}
}
}
}
# Define the package target that will bundle the test and additional
# components and their data.
fuchsia_package(_pkg_target) {
forward_variables_from(invoker,
[
"excluded_files",
"excluded_dirs",
])
package_name = _output_name
deps = _test_component_targets
if (!defined(excluded_dirs)) {
excluded_dirs = []
}
excluded_dirs += [ devtools_root_location ]
}
# |target_name| refers to the package-runner rule, so that building
# "base_unittests" will build not only the executable, component, and
# package, but also the script required to run them.
fuchsia_test_runner(target_name) {
forward_variables_from(invoker,
[
"data",
"data_deps",
"package_deps",
"use_test_server",
])
is_test_exe = true
package = ":$_pkg_target"
package_name = _output_name
if (!defined(deps)) {
deps = []
}
if (defined(invoker.deps)) {
deps += invoker.deps
}
if (!defined(data)) {
data = []
}
if (tests_have_location_tags) {
data += [ "//testing/location_tags.json" ]
}
if (!defined(data_deps)) {
data_deps = []
}
data_deps += [ "//testing/buildbot/filters:fuchsia_filters" ]
if (use_rts) {
data_deps += [ ":${target_name}__rts_filters" ]
}
}
executable(_exec_target) {
forward_variables_from(invoker, "*", TESTONLY_AND_VISIBILITY)
output_name = _exec_target
}
} else if (is_ios) {
assert(!defined(invoker.use_xvfb) || !invoker.use_xvfb)
_runtime_deps_file = "$root_out_dir/${target_name}.runtime_deps"
declare_args() {
# Keep the unittest-as-xctest functionality defaulted to off until the
# bots are updated to handle it properly.
# TODO(crbug.com/1001667): Remove this arg once the iOS test runner
# supports running unittests with xctest.
enable_run_ios_unittests_with_xctest = false
}
_test_target = target_name
_output_name = target_name
if (defined(invoker.output_name)) {
_output_name = invoker.output_name
}
_wrapper_output_name = "run_${target_name}"
ios_test_runner_wrapper(_wrapper_output_name) {
forward_variables_from(invoker,
[
"data",
"deps",
"executable_args",
"output_name",
"retries",
"shards",
])
_root_build_dir = rebase_path("${root_build_dir}", root_build_dir)
if (!defined(executable_args)) {
executable_args = []
}
executable_args += [
"--app",
"@WrappedPath(${_root_build_dir}/${_test_target}.app)",
]
wrapper_output_name = "${_wrapper_output_name}"
if (!defined(data)) {
data = []
}
if (tests_have_location_tags) {
data += [ "//testing/location_tags.json" ]
}
}
_resources_bundle_data = target_name + "_resources_bundle_data"
bundle_data(_resources_bundle_data) {
visibility = [ ":$_test_target" ]
sources = [ "//testing/gtest_ios/Default.png" ]
outputs = [ "{{bundle_resources_dir}}/{{source_file_part}}" ]
}
force_xctest = enable_run_ios_unittests_with_xctest ||
(defined(invoker.is_xctest) && invoker.is_xctest)
if (force_xctest) {
ios_test_target_type = "ios_xctest_test"
} else {
ios_test_target_type = "ios_app_bundle"
}
target(ios_test_target_type, _test_target) {
testonly = true
if (force_xctest && build_with_chromium) {
xctest_module_target = "//base/test:google_test_runner"
}
forward_variables_from(invoker, "*", TESTONLY_AND_VISIBILITY)
# Provide sensible defaults in case invoker did not define any of those
# required variables.
if (!defined(info_plist) && !defined(info_plist_target)) {
info_plist = "//testing/gtest_ios/unittest-Info.plist"
}
if (ios_use_shared_bundle_id_for_test_apps) {
bundle_identifier = "$ios_app_bundle_id_prefix.gtest.unittests"
not_needed([ "_output_name" ])
} else {
bundle_identifier = "$ios_app_bundle_id_prefix.gtest." +
string_replace(_output_name, "_", "-")
}
if (!defined(bundle_deps)) {
bundle_deps = []
}
bundle_deps += [ ":$_resources_bundle_data" ]
if (!defined(data_deps)) {
data_deps = []
}
# Include the generate_wrapper as part of data_deps
data_deps += [ ":${_wrapper_output_name}" ]
write_runtime_deps = _runtime_deps_file
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
} else if ((is_chromeos_ash || (is_chromeos_lacros && is_chromeos_device)) &&
cros_board != "") {
assert(!defined(invoker.use_xvfb) || !invoker.use_xvfb)
# Building for a cros board (ie: not linux-chromeos or linux-lacros).
_gen_runner_target = "${target_name}__runner"
_runtime_deps_file =
"$root_out_dir/gen.runtime/" + get_label_info(target_name, "dir") +
"/" + get_label_info(target_name, "name") + ".runtime_deps"
_generated_script = "$root_build_dir/bin/run_" + invoker.target_name
if (is_skylab) {
generate_skylab_runner_script(_gen_runner_target) {
generated_script = _generated_script
test_exe = invoker.target_name
}
} else {
generate_runner_script(_gen_runner_target) {
generated_script = _generated_script
test_exe = invoker.target_name
runtime_deps_file = _runtime_deps_file
if (is_chromeos_lacros) {
# At build time, Lacros tests don't know whether they'll run on VM or
# HW, and instead, these flags are specified at runtime when invoking
# the generated runner script.
skip_generating_board_args = true
}
if (tests_have_location_tags) {
data = [ "//testing/location_tags.json" ]
}
if (use_rts) {
data_deps = [ ":${invoker.target_name}__rts_filters" ]
}
}
}
executable(target_name) {
forward_variables_from(invoker, "*", TESTONLY_AND_VISIBILITY)
forward_variables_from(invoker, [ "visibility" ])
if (!defined(deps)) {
deps = []
}
if (!defined(data)) {
data = []
}
# We use a special trigger script for CrOS hardware tests.
data += [ "//testing/trigger_scripts/chromeos_device_trigger.py" ]
output_name = target_name
write_runtime_deps = _runtime_deps_file
data += [ _runtime_deps_file ]
deps += [ ":$_gen_runner_target" ]
if (use_rts) {
if (!defined(data_deps)) {
data_deps = []
}
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
} else if (is_chromeos_lacros && !is_chromeos_device) {
_runtime_deps_file = "$root_out_dir/${target_name}.runtime_deps"
_executable = target_name
_gen_runner_target = "${target_name}__runner"
if (defined(invoker.use_xvfb)) {
_use_xvfb = invoker.use_xvfb
} else {
_use_xvfb = false
}
# When use_xvfb is set by the invoker, it indicates that running this test
# target requires a window, and in lacros build, ash-chrome serves as the
# display server. Note that even though the tests themselves do not require
# xvfb anymore, xvfb.py is still needed to invoke the lacros test runner
# because ash-chrome is based on x11.
_use_ash_chrome = _use_xvfb
generate_wrapper(_gen_runner_target) {
wrapper_script = "$root_build_dir/bin/run_" + _executable
data = []
data_deps = [ "//testing:test_scripts_shared" ]
if (_use_xvfb) {
executable = "//testing/xvfb.py"
} else {
executable = "//testing/test_env.py"
}
if (tests_have_location_tags) {
data += [ "//testing/location_tags.json" ]
}
executable_args = [
"@WrappedPath(../../build/lacros/test_runner.py)",
"test",
"@WrappedPath(./${_executable})",
"--test-launcher-bot-mode",
]
if (_use_ash_chrome) {
executable_args += [ "--ash-chrome-path" ]
# Can't use --ash-chrome-path=path because WrappedPath
# won't be expanded for that usage.
executable_args += [ "@WrappedPath(./ash_clang_x64/test_ash_chrome)" ]
}
if (is_asan) {
executable_args += [ "--asan=true" ]
}
if (is_msan) {
executable_args += [ "--msan=true" ]
}
if (is_tsan) {
executable_args += [ "--tsan=true" ]
}
if (use_cfi_diag) {
executable_args += [ "--cfi-diag=true" ]
}
data += [
"//build/lacros/test_runner.py",
"//.vpython",
]
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
executable(target_name) {
forward_variables_from(invoker, "*", TESTONLY_AND_VISIBILITY)
forward_variables_from(invoker, [ "visibility" ])
if (!defined(deps)) {
deps = []
}
if (!defined(data_deps)) {
data_deps = []
}
write_runtime_deps = _runtime_deps_file
deps += [ ":$_gen_runner_target" ]
if (_use_ash_chrome && also_build_ash_chrome) {
data_deps += [ "//chrome/test:test_ash_chrome(//build/toolchain/linux:ash_clang_x64)" ]
}
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
} else if (!is_nacl) {
if (is_mac || is_win) {
assert(!defined(invoker.use_xvfb) || !invoker.use_xvfb)
}
_runtime_deps_file = "$root_out_dir/${target_name}.runtime_deps"
_executable = target_name
_gen_runner_target = "${target_name}__runner"
if ((is_linux || is_chromeos) && defined(invoker.use_xvfb)) {
_use_xvfb = invoker.use_xvfb
} else {
_use_xvfb = false
}
generate_wrapper(_gen_runner_target) {
wrapper_script = "$root_build_dir/bin/run_" + _executable
data = []
data_deps = [ "//testing:test_scripts_shared" ]
if (_use_xvfb) {
executable = "//testing/xvfb.py"
} else {
executable = "//testing/test_env.py"
}
if (tests_have_location_tags) {
data += [ "//testing/location_tags.json" ]
}
executable_args = [
"@WrappedPath(./${_executable})",
"--test-launcher-bot-mode",
]
if (is_asan) {
executable_args += [ "--asan=true" ]
}
if (is_msan) {
executable_args += [ "--msan=true" ]
}
if (is_tsan) {
executable_args += [ "--tsan=true" ]
}
if (use_cfi_diag) {
executable_args += [ "--cfi-diag=true" ]
}
data += [ "//.vpython" ]
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
executable(target_name) {
forward_variables_from(invoker,
"*",
TESTONLY_AND_VISIBILITY + [ "use_xvfb" ])
forward_variables_from(invoker, [ "visibility" ])
if (!defined(deps)) {
deps = []
}
deps += [
# Give tests the default manifest on Windows (a no-op elsewhere).
"//build/win:default_exe_manifest",
]
write_runtime_deps = _runtime_deps_file
deps += [ ":$_gen_runner_target" ]
if (use_rts) {
if (!defined(data_deps)) {
data_deps = []
}
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
} else {
# This is a catch-all clause for NaCl toolchains and other random
# configurations that might define tests; test() in these configs
# will just define the underlying executables.
assert(!defined(invoker.use_xvfb) || !invoker.use_xvfb,
"use_xvfb should not be defined for a non-linux configuration")
executable(target_name) {
forward_variables_from(invoker, "*", TESTONLY_AND_VISIBILITY)
forward_variables_from(invoker, [ "visibility" ])
if (!defined(deps)) {
deps = []
}
if (use_rts) {
if (!defined(data_deps)) {
data_deps = []
}
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
}
}
# Defines a type of test that invokes a script to run, rather than
# invoking an executable.
#
# The script must implement the
# [test executable API](//docs/testing/test_executable_api.md).
#
# The template must be passed the `script` parameter, which specifies
# the path to the script to run. It may optionally be passed a
# `script_args` parameter, which can be used to include a list of
# args to be specified by default. The template will produce
# a `$root_build_dir/run_$target_name` wrapper and write the runtime_deps
# for the target to $root_build_dir/${target_name}.runtime_deps, as per
# the conventions listed in the
# [test wrapper API](//docs/testing/test_wrapper_api.md).
template("script_test") {
if (use_rts) {
action("${target_name}__rts_filters") {
script = "//build/add_rts_filters.py"
rts_file = "${root_build_dir}/gen/rts/${invoker.target_name}.filter"
args = [ rebase_path(rts_file, root_build_dir) ]
outputs = [ rts_file ]
}
}
generate_wrapper(target_name) {
testonly = true
wrapper_script = "${root_build_dir}/bin/run_${target_name}"
executable = "//testing/test_env.py"
executable_args =
[ "@WrappedPath(" + rebase_path(invoker.script, root_build_dir) + ")" ]
if (defined(invoker.args)) {
executable_args += invoker.args
}
data = [ invoker.script ]
if (defined(invoker.run_under_python2) && invoker.run_under_python2) {
use_vpython3 = false
data += [ "//.vpython" ]
} else {
use_vpython3 = true
data += [ "//.vpython3" ]
}
if (defined(invoker.data)) {
data += invoker.data
}
if (tests_have_location_tags) {
data += [ "//testing/location_tags.json" ]
}
data_deps = [ "//testing:test_scripts_shared" ]
if (defined(invoker.data_deps)) {
data_deps += invoker.data_deps
}
forward_variables_from(invoker,
[ "*" ],
TESTONLY_AND_VISIBILITY + [
"data",
"data_deps",
"script",
"script_args",
])
forward_variables_from(invoker, [ "visibility" ])
write_runtime_deps = "${root_build_dir}/${target_name}.runtime_deps"
if (use_rts) {
data_deps += [ ":${invoker.target_name}__rts_filters" ]
}
}
}
# Test defaults.
set_defaults("test") {
if (is_android) {
configs = default_shared_library_configs
configs -= [ "//build/config/android:hide_all_but_jni_onload" ]
configs += [ "//build/config/android:hide_all_but_jni" ]
} else {
configs = default_executable_configs
}
}