| #!/bin/bash |
| # |
| # Copyright 2017 The Bazel Authors. All rights reserved. |
| # |
| # Licensed under the Apache License, Version 2.0 (the "License"); |
| # you may not use this file except in compliance with the License. |
| # You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, |
| # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| # See the License for the specific language governing permissions and |
| # limitations under the License. |
| # |
| # configured_query_test.sh: integration tests for bazel configured query. |
| # This tests the command line ui of configured query while |
| # ConfiguredTargetQueryTest tests its internal functionality. |
| |
| # --- begin runfiles.bash initialization --- |
| # Copy-pasted from Bazel's Bash runfiles library (tools/bash/runfiles/runfiles.bash). |
| set -euo pipefail |
| if [[ ! -d "${RUNFILES_DIR:-/dev/null}" && ! -f "${RUNFILES_MANIFEST_FILE:-/dev/null}" ]]; then |
| if [[ -f "$0.runfiles_manifest" ]]; then |
| export RUNFILES_MANIFEST_FILE="$0.runfiles_manifest" |
| elif [[ -f "$0.runfiles/MANIFEST" ]]; then |
| export RUNFILES_MANIFEST_FILE="$0.runfiles/MANIFEST" |
| elif [[ -f "$0.runfiles/bazel_tools/tools/bash/runfiles/runfiles.bash" ]]; then |
| export RUNFILES_DIR="$0.runfiles" |
| fi |
| fi |
| if [[ -f "${RUNFILES_DIR:-/dev/null}/bazel_tools/tools/bash/runfiles/runfiles.bash" ]]; then |
| source "${RUNFILES_DIR}/bazel_tools/tools/bash/runfiles/runfiles.bash" |
| elif [[ -f "${RUNFILES_MANIFEST_FILE:-/dev/null}" ]]; then |
| source "$(grep -m1 "^bazel_tools/tools/bash/runfiles/runfiles.bash " \ |
| "$RUNFILES_MANIFEST_FILE" | cut -d ' ' -f 2-)" |
| else |
| echo >&2 "ERROR: cannot find @bazel_tools//tools/bash/runfiles:runfiles.bash" |
| exit 1 |
| fi |
| # --- end runfiles.bash initialization --- |
| |
| source "$(rlocation "io_bazel/src/test/shell/integration_test_setup.sh")" \ |
| || { echo "integration_test_setup.sh not found!" >&2; exit 1; } |
| |
| case "$(uname -s | tr [:upper:] [:lower:])" in |
| msys*|mingw*|cygwin*) |
| declare -r is_windows=true |
| ;; |
| *) |
| declare -r is_windows=false |
| ;; |
| esac |
| |
| if "$is_windows"; then |
| export MSYS_NO_PATHCONV=1 |
| export MSYS2_ARG_CONV_EXCL="*" |
| fi |
| |
| add_to_bazelrc "build --package_path=%workspace%" |
| |
| #### TESTS ############################################################# |
| |
| function test_basic_query() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| sh_library(name='maple', deps=[':japanese']) |
| sh_library(name='japanese') |
| EOF |
| |
| bazel cquery "deps(//$pkg:maple)" > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:maple" output |
| assert_contains "//$pkg:japanese" output |
| } |
| |
| function test_basic_query_output_textproto() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| sh_library(name='maple', deps=[':japanese']) |
| sh_library(name='japanese') |
| EOF |
| |
| bazel cquery --output=textproto "deps(//$pkg:maple)" > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "name: \"//$pkg:maple\"" output |
| assert_contains "name: \"//$pkg:japanese\"" output |
| } |
| |
| function test_basic_query_output_labelkind() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| sh_library(name='maple', data=[':japanese']) |
| cc_binary(name='japanese', srcs = ['japanese.cc']) |
| EOF |
| |
| bazel cquery --output=label_kind "deps(//$pkg:maple)" > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "sh_library rule //$pkg:maple" output |
| assert_contains "cc_binary rule //$pkg:japanese" output |
| assert_contains "source file //$pkg:japanese.cc" output |
| } |
| |
| function test_config_checksum_determinism() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| sh_library(name = 'lib') |
| EOF |
| |
| bazel cquery "$pkg:lib" > out1 2>"$TEST_log" || fail "Expected success" |
| bazel shutdown >& "$TEST_log" || fail "Failed to shutdown" |
| bazel cquery "$pkg:lib" > out2 2>"$TEST_log" || fail "Expected success" |
| |
| output1="$(cat out1)" |
| output2="$(cat out2)" |
| if [[ "$output1" != "$output2" ]] |
| then |
| fail "$(cat<<EOF |
| Nondeterminism in cquery: |
| ${output1} |
| != |
| ${output2} |
| You may have added an option without a meaningful toString() implementation |
| EOF |
| )" |
| fi |
| } |
| |
| function test_respects_selects() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| sh_library( |
| name = "ash", |
| deps = select({ |
| ":excelsior": [":foo"], |
| ":americana": [":bar"], |
| }), |
| ) |
| sh_library(name = "foo") |
| sh_library(name = "bar") |
| config_setting( |
| name = "excelsior", |
| values = {"define": "species=excelsior"}, |
| ) |
| config_setting( |
| name = "americana", |
| values = {"define": "species=americana"}, |
| ) |
| EOF |
| |
| bazel cquery "deps(//$pkg:ash)" --define species=excelsior > output \ |
| 2>"$TEST_log" || fail "Excepted success" |
| assert_contains "//$pkg:foo" output |
| assert_not_contains "//$pkg:bar" output |
| } |
| |
| function test_empty_results_printed() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| sh_library(name='redwood', deps=[':sequoia',':sequoiadendron']) |
| sh_library(name='sequoia') |
| sh_library(name='sequoiadendron') |
| EOF |
| |
| bazel cquery "somepath(//$pkg:sequoia,//$pkg:sequoiadendron)" \ |
| > output 2>"$TEST_log" || fail "Expected success" |
| |
| expect_log "INFO: Empty query results" |
| assert_not_contains "//$pkg:sequoiadendron" output |
| } |
| |
| function test_universe_scope_specified() { |
| local -r pkg=$FUNCNAME |
| write_test_targets $pkg |
| |
| # The java_library rule has a host transition on its plugins attribute. |
| bazel cquery //$pkg:target+//$pkg:host --universe_scope=//$pkg:main \ |
| > output 2>"$TEST_log" || fail "Excepted success" |
| |
| # Find the lines of output for //$pkg:plugin and //$pkg:dep. |
| PKG_HOST=$(grep "//$pkg:host" output) |
| PKG_TARGET=$(grep "//$pkg:target" output) |
| # Trim to just configurations. |
| HOST_CONFIG=${PKG_HOST/"//$pkg:host"} |
| TARGET_CONFIG=${PKG_TARGET/"//$pkg:target"} |
| # Ensure they are are not equal. |
| assert_not_equals $HOST_CONFIG $TARGET_CONFIG |
| } |
| |
| function test_transitions_lite() { |
| local -r pkg=$FUNCNAME |
| write_test_targets $pkg |
| |
| bazel cquery "deps(//$pkg:main)" --transitions=lite \ |
| > output 2>"$TEST_log" || fail "Excepted success" |
| |
| assert_contains "//$pkg:main" output |
| assert_contains "host_dep#//$pkg:host#(exec + (TestTrimmingTransition + ConfigFeatureFlagTaggedTrimmingTransition))" output |
| } |
| |
| |
| function test_transitions_full() { |
| local -r pkg=$FUNCNAME |
| write_test_targets $pkg |
| |
| bazel cquery "deps(//$pkg:main)" --transitions=full \ |
| > output 2>"$TEST_log" || fail "Excepted success" |
| |
| assert_contains "//$pkg:main" output |
| assert_contains "host_dep#//$pkg:host#(exec + (TestTrimmingTransition + ConfigFeatureFlagTaggedTrimmingTransition))" output |
| } |
| |
| function write_test_targets() { |
| mkdir -p $pkg |
| cat > $pkg/rule.bzl <<'EOF' |
| def _my_rule_impl(ctx): |
| pass |
| my_rule = rule( |
| implementation = _my_rule_impl, |
| attrs = { |
| "src_dep": attr.label(allow_single_file = True), |
| "target_dep": attr.label(cfg = 'target'), |
| "host_dep": attr.label(cfg = 'host'), |
| }, |
| ) |
| EOF |
| cat > $pkg/BUILD <<'EOF' |
| load(':rule.bzl', 'my_rule') |
| filegroup(name = "target") |
| filegroup(name = "host") |
| my_rule( |
| name = "main", |
| src_dep = "file.txt", |
| target_dep = ":target", |
| host_dep = ":host", |
| ) |
| EOF |
| touch $pkg/file.txt |
| } |
| |
| # TODO(gregce): --show_config_fragments and RequiredConfigFragmentsProvider |
| # (the native Java code that powers --show_config_fragments) were originally |
| # conceived as two pieces of the same functionality. But the former is just |
| # a provider, which means it can be consumed by other logic. Consider moving |
| # these tests out of cquery and into proper Java integration tests. |
| |
| function test_show_transitive_config_fragments() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib", |
| srcs = ["mylib.cc"], |
| ) |
| |
| cc_library( |
| name = "cclib_with_py_dep", |
| srcs = ["mylib2.cc"], |
| data = [":pylib"], |
| ) |
| |
| py_library( |
| name = "pylib", |
| srcs = ["pylib.py"], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:*" --show_config_fragments=transitive > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib .*CppConfiguration" output |
| assert_not_contains "//$pkg:cclib .*PythonConfiguration" output |
| |
| assert_contains "//$pkg:cclib_with_py_dep .*CppConfiguration" output |
| assert_contains "//$pkg:cclib_with_py_dep .*PythonConfiguration" output |
| |
| assert_not_contains "//$pkg:pylib .*CppConfiguration" output |
| assert_contains "//$pkg:pylib .*PythonConfiguration" output |
| |
| assert_contains "//$pkg:mylib.cc (null) \[\]" output |
| } |
| |
| function test_show_transitive_config_fragments_select() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib", |
| srcs = ["mylib.cc"], |
| deps = [":cclib_with_select"] |
| ) |
| |
| config_setting( |
| name = "py_reading_condition", |
| values = {"build_python_zip": "1"}) |
| |
| cc_library( |
| name = "cclib_with_select", |
| srcs = select({ |
| ":py_reading_condition": ["version1.cc"], |
| "//conditions:default": ["version2.cc"], |
| }) |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=transitive > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib .*CppConfiguration" output |
| assert_contains "//$pkg:cclib .*PythonOptions" output |
| |
| assert_contains "//$pkg:py_reading_condition .*PythonOptions" output |
| |
| assert_contains "//$pkg:cclib_with_select .*CppConfiguration" output |
| assert_contains "//$pkg:cclib_with_select .*PythonOptions" output |
| } |
| |
| function test_show_transitive_config_fragments_alias() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib_with_py_dep", |
| srcs = ["mylib2.cc"], |
| data = [":myalias"], |
| ) |
| |
| alias( |
| name = "myalias", |
| actual = ":pylib" |
| ) |
| |
| py_library( |
| name = "pylib", |
| srcs = ["pylib.py"], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=transitive > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib_with_py_dep .*CppConfiguration" output |
| assert_contains "//$pkg:cclib_with_py_dep .*PythonConfiguration" output |
| } |
| |
| function test_direct_alias_requirements() { |
| # Aliases delegate many read calls to their actual targets. This test |
| # ensures we don't skip requirements that the alias has but its actual |
| # target doesn't. |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "ccrule", |
| srcs = ["ccrule.cc"], |
| ) |
| config_setting( |
| name = "cfg", |
| define_values = {"abc": "1"}, |
| ) |
| alias( |
| name = "al", |
| actual = select({ |
| ":cfg": ":ccrule", |
| }), |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:al" --show_config_fragments=direct --define=abc=1 \ |
| > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:al .*--define:abc" output |
| # CppConfiguration is a transitive, not direct, requirement. |
| assert_not_contains "//$pkg:al .*CppConfiguration" output |
| } |
| |
| function test_show_transitive_config_fragments_host_deps() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib_with_py_dep", |
| srcs = ["mylib2.cc"], |
| data = [":g"], |
| ) |
| |
| genrule( |
| name = "g", |
| srcs = [], |
| outs = ["g.out"], |
| cmd = "echo Hello! > $@", |
| tools = [":pylib"]) |
| |
| py_library( |
| name = "pylib", |
| srcs = ["pylib.py"], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:cclib_with_py_dep" --show_config_fragments=transitive > \ |
| output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib_with_py_dep .*PythonConfiguration" output |
| } |
| |
| function test_show_transitive_config_fragments_through_output_file() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib_with_py_dep", |
| srcs = ["mylib2.cc"], |
| data = [":g.out"], # Output file dependency declared here. |
| ) |
| |
| genrule( |
| name = "g", |
| srcs = [], |
| outs = ["g.out"], |
| cmd = "echo Hello! > $@", |
| tools = [":pylib"]) |
| |
| py_library( |
| name = "pylib", |
| srcs = ["pylib.py"], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:cclib_with_py_dep" --show_config_fragments=transitive > \ |
| output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib_with_py_dep .*PythonConfiguration" output |
| } |
| |
| function test_show_direct_config_fragments() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib", |
| srcs = ["mylib.cc"], |
| ) |
| |
| cc_library( |
| name = "cclib_with_py_dep", |
| srcs = ["mylib2.cc"], |
| data = [":pylib"], |
| ) |
| |
| py_library( |
| name = "pylib", |
| srcs = ["pylib.py"], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=direct > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib .*CppConfiguration" output |
| assert_not_contains "//$pkg:cclib .*PythonConfiguration" output |
| |
| assert_contains "//$pkg:cclib_with_py_dep .*CppConfiguration" output |
| assert_not_contains "//$pkg:cclib_with_py_dep .*PythonConfiguration" output |
| } |
| |
| function test_show_direct_config_fragments_select() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib", |
| srcs = ["mylib.cc"], |
| deps = [":cclib_with_select"] |
| ) |
| |
| config_setting( |
| name = "py_reading_condition", |
| values = { |
| "build_python_zip": "1", |
| "shell_executable": "foo" |
| } |
| ) |
| |
| cc_library( |
| name = "cclib_with_select", |
| srcs = select({ |
| ":py_reading_condition": ["version1.cc"], |
| "//conditions:default": ["version2.cc"], |
| }) |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=direct > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib .*CppConfiguration" output |
| assert_not_contains "//$pkg:cclib .*PythonOptions" output |
| |
| assert_contains "//$pkg:py_reading_condition .*PythonOptions" output |
| assert_contains "//$pkg:py_reading_condition .*ShellConfiguration\$Options" output |
| |
| assert_contains "//$pkg:cclib_with_select .*CppConfiguration" output |
| assert_contains "//$pkg:cclib_with_select .*PythonOptions" output |
| assert_contains "//$pkg:cclib_with_select .*ShellConfiguration\$Options" output |
| } |
| |
| function test_show_config_fragments_select_on_starlark_option() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/defs.bzl <<'EOF' |
| def _string_flag_impl(ctx): |
| pass |
| |
| string_flag = rule( |
| implementation = _string_flag_impl, |
| build_setting = config.string() |
| ) |
| EOF |
| cat > $pkg/BUILD <<'EOF' |
| load(":defs.bzl", "string_flag") |
| string_flag( |
| name = "my_flag", |
| build_setting_default = "default_value" |
| ) |
| config_setting( |
| name = "is_my_flag_foo", |
| flag_values = {":my_flag": "foo"} |
| ) |
| cc_library( |
| name = "cclib_with_select", |
| srcs = select({ |
| ":is_my_flag_foo": ["version_foo.cc"], |
| "//conditions:default": ["version_default.cc"], |
| }) |
| ) |
| cc_library( |
| name = "cclib_plain", |
| srcs = ["version_plain.cc"] |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=direct > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:my_flag .*//$pkg:my_flag" output |
| assert_contains "//$pkg:is_my_flag_foo .*//$pkg:my_flag" output |
| assert_contains "//$pkg:cclib_with_select .*//$pkg:my_flag" output |
| |
| assert_not_contains "//$pkg:cclib_plain .*//$pkg:my_flag" output |
| } |
| |
| function test_show_config_fragments_starlark_rule_requires_starlark_option() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/defs.bzl <<EOF |
| def _string_flag_impl(ctx): |
| pass |
| |
| string_flag = rule( |
| implementation = _string_flag_impl, |
| build_setting = config.string() |
| ) |
| |
| def _rule_with_flag_dep_impl(ctx): |
| pass |
| |
| rule_with_flag_dep = rule( |
| implementation = _rule_with_flag_dep_impl, |
| attrs = { |
| "_flagdep": attr.label(default = "//$pkg:my_flag") |
| } |
| ) |
| EOF |
| cat > $pkg/BUILD <<'EOF' |
| load(":defs.bzl", "rule_with_flag_dep", "string_flag") |
| string_flag( |
| name = "my_flag", |
| build_setting_default = "default_value" |
| ) |
| rule_with_flag_dep( |
| name = "my_rule" |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=direct > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:my_rule .*//$pkg:my_flag" output |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=transitive > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:my_rule .*//$pkg:my_flag" output |
| } |
| |
| function test_show_config_fragments_select_on_feature_flag_info_provider() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/defs.bzl <<'EOF' |
| def _feature_flag_provider_rule_impl(ctx): |
| return [config_common.FeatureFlagInfo(value = "foo")] |
| |
| feature_flag_provider_rule = rule( |
| implementation = _feature_flag_provider_rule_impl, |
| ) |
| EOF |
| cat > $pkg/BUILD <<'EOF' |
| load(":defs.bzl", "feature_flag_provider_rule") |
| feature_flag_provider_rule(name = "foo_feature") |
| |
| config_setting( |
| name = "is_foo_feature", |
| flag_values = {":foo_feature": "foo"}, |
| ) |
| |
| cc_library( |
| name = "cclib_select_on_foo_feature", |
| srcs = ["hi.cc"], |
| deps = select({ |
| ":is_foo_feature": [], |
| "//conditions:default": [], |
| }), |
| ) |
| |
| cc_library( |
| name = "cclib_no_select", |
| srcs = ["heya.cc"] |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=direct > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:is_foo_feature .*//$pkg:foo_feature" output |
| assert_contains "//$pkg:cclib_select_on_foo_feature .*//$pkg:foo_feature" output |
| assert_not_contains "//$pkg:cclib_no_select .*//$pkg:foo_feature" output |
| |
| # Starlark rules exposing FeatureFlagInfo aren't really part of the |
| # configuration. You can't "set" them as part of the configuration like you |
| # can Starlark flags or Android feature flags. All they do is provide a new |
| # interface for rules to select() over the existing configuration. |
| # |
| # Nevertheless, since you can select() on them as this test illustrates, it's |
| # reasonable to "pretend" for the purposes of --show_config_fragments. At best |
| # they still show interesting dependencies. At worst they provide a bit more |
| # conceptual clutter to wade through when analyzing a build graph. |
| # |
| # If we're going to support them, it conceptually makes sense to consider |
| # //$pkg:foo_feature a config dependency on itself. That doesn't currently |
| # work. The only reason is because the most natural place to encode this |
| # is to have lib.analysis.RuleConfiguredTargetBuilder check if the rule |
| # provides lib.rules.config.ConfigFeatureFlagProvider. But that adds an |
| # unwanted dependency from lib.analysis onto lib.rules. |
| # |
| # Given this use case's unimportance, we just leave things as-is for the sake |
| # of simplicity in the wider code base. We can always re-evaluate if needed. |
| assert_not_contains "//$pkg:foo_feature .*//$pkg:foo_feature" output |
| } |
| |
| function test_show_config_fragments_on_define() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| config_setting( |
| name = "is_a_on", |
| define_values = {"a": "on"} |
| ) |
| |
| cc_library( |
| name = "cclib_with_select", |
| srcs = select({ |
| ":is_a_on": ["version1.cc"], |
| "//conditions:default": ["version2.cc"], |
| }) |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=direct --define a=on \ |
| --define b=on > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:cclib_with_select .*CppConfiguration" output |
| assert_contains "//$pkg:cclib_with_select .*--define:a" output |
| assert_not_contains "//$pkg:cclib_with_select .*--define:b" output |
| } |
| |
| function test_show_config_fragments_on_starlark_required_fragments() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/defs.bzl <<'EOF' |
| def _impl(ctx): |
| pass |
| |
| java_requiring_rule = rule( |
| implementation = _impl, |
| fragments = ["java"], |
| attrs = {} |
| ) |
| EOF |
| cat > $pkg/BUILD <<EOF |
| load("//$pkg:defs.bzl", "java_requiring_rule") |
| java_requiring_rule( |
| name = "buildme" |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --show_config_fragments=direct \ |
| > output 2>"$TEST_log" || fail "Expected success" |
| assert_contains "//$pkg:buildme .*JavaConfiguration" output |
| } |
| |
| # Starlark aspects can't directly require configuration fragments. But they can |
| # have implicit label dependencies on rules that do. This test ensures that |
| # gets factored in. |
| # |
| # Note that cquery doesn't support queries over aspects: `deps(//foo)` won't |
| # list aspects or traverse their dependencies. This makes it hard to understand |
| # *why* a rule requires a fragment if only through an aspect. That's an argument |
| # for making cquery generally aspect-aware. |
| function test_show_config_fragments_includes_starlark_aspects() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/defs.bzl <<EOF |
| def _aspect_impl(target, ctx): |
| return [] |
| |
| cc_depending_aspect = aspect( |
| attrs = { |
| # This creates an implicit dependency on a C++ library that |
| # only comes through the aspect. |
| "_extra_dep": attr.label(default = "//$pkg:cclib"), |
| }, |
| implementation = _aspect_impl, |
| ) |
| |
| def _impl(ctx): |
| pass |
| |
| simple_rule = rule( |
| implementation = _impl, |
| attrs = { |
| "deps": attr.label_list(aspects = [cc_depending_aspect]) |
| } |
| ) |
| EOF |
| |
| cat > $pkg/BUILD <<EOF |
| load("//$pkg:defs.bzl", "simple_rule") |
| |
| simple_rule( |
| name = "buildme", |
| deps = [":simple_dep"], |
| ) |
| |
| simple_rule( |
| name = "simple_dep", |
| ) |
| |
| cc_library( |
| name = "cclib", |
| srcs = ["cclib.cc"], |
| ) |
| EOF |
| |
| # No direct requirement: |
| bazel cquery "//$pkg:buildme" --show_config_fragments=direct \ |
| > output 2>"$TEST_log" || fail "Expected success" |
| assert_not_contains "//$pkg:buildme .*CppConfiguration" output |
| |
| # But there is a transitive requirement through the aspect: |
| bazel cquery "//$pkg:buildme" --show_config_fragments=transitive \ |
| > output 2>"$TEST_log" || fail "Expected success" |
| assert_contains "//$pkg:buildme .*CppConfiguration" output |
| } |
| |
| function test_manual_tagged_targets_always_included_for_queries() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| genrule( |
| name = "always_build", |
| srcs = [], |
| outs = ["always_build.out"], |
| cmd = "echo hi > $@") |
| genrule( |
| name = "only_build_explicitly", |
| tags = ["manual"], |
| srcs = [], |
| outs = ["only_build_explicitly.out"], |
| cmd = "echo hi > $@") |
| EOF |
| |
| bazel cquery "//$pkg:all" > output 2>"$TEST_log" || fail "Expected success" |
| assert_contains "//$pkg:always_build" output |
| assert_contains "//$pkg:only_build_explicitly" output |
| } |
| |
| function test_include_test_suites() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| test_suite( |
| name = "my_suite", |
| tests = [":my_test"]) |
| cc_test( |
| name = "my_test", |
| srcs = ["my_test.cc"]) |
| EOF |
| |
| bazel cquery "//$pkg:all" > output 2>"$TEST_log" || fail "Expected success" |
| assert_contains "//$pkg:my_suite" output |
| assert_contains "//$pkg:my_test" output |
| } |
| |
| function test_build_tests_only_override() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_binary( |
| name = "not_a_test", |
| srcs = ["not_a_test.cc"]) |
| EOF |
| |
| bazel cquery --build_tests_only "//$pkg:all" > output 2>"$TEST_log" || \ |
| fail "Expected success" |
| assert_contains "//$pkg:not_a_test" output |
| } |
| |
| function test_label_output_shows_alias_labels() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| filegroup(name = "fg", srcs = [":the_alias"]) |
| alias(name = "the_alias", actual = "some_file") |
| EOF |
| |
| bazel cquery "deps(//$pkg:fg)" > output 2>"$TEST_log" || fail "Expected |
| success" |
| assert_contains "//$pkg:the_alias" output |
| assert_contains "//$pkg:some_file (null)" output |
| assert_equals "$(grep some_file output | wc -l | egrep -o '[0-9]+')" "1" |
| } |
| |
| function test_transitions_output_shows_alias_labels() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| filegroup(name = "fg", srcs = [":the_alias"]) |
| alias(name = "the_alias", actual = "some_file") |
| EOF |
| |
| bazel cquery "deps(//$pkg:fg)" --transitions=lite > output 2>"$TEST_log" || fail "Expected |
| success" |
| assert_contains "//$pkg:the_alias" output |
| assert_contains "//$pkg:some_file (null)" output |
| assert_equals "$(grep some_file output | wc -l | egrep -o '[0-9]+')" "1" |
| } |
| |
| function test_starlark_output_mode() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| py_library( |
| name = "pylib", |
| srcs = ["pylib.py"], |
| ) |
| |
| py_library( |
| name = "pylibtwo", |
| srcs = ["pylibtwo.py", "pylibtwo2.py",], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --output=starlark \ |
| --starlark:expr="str(target.label) + '%foo'" > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "^@//$pkg:pylib%foo$" output |
| assert_contains "^@//$pkg:pylibtwo%foo$" output |
| |
| bazel cquery "//$pkg:all" --output=starlark \ |
| --noincompatible_unambiguous_label_stringification \ |
| --starlark:expr="str(target.label) + '%foo'" > output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| # Verify use of the effective rather than default Starlark semantics. |
| assert_contains "^//$pkg:pylib%foo$" output |
| assert_contains "^//$pkg:pylibtwo%foo$" output |
| |
| # Test that the default for --starlark:expr str(target.label) |
| bazel cquery "//$pkg:all" --output=starlark >output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:pylib" output |
| assert_contains "//$pkg:pylibtwo" output |
| |
| bazel cquery "//$pkg:all" --output=starlark \ |
| --starlark:expr="str(target.label) + '%' + str(target.files.to_list()[1].is_directory)" \ |
| > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:pylibtwo%False" output |
| # pylib evaluation will fail, as it has only one output file. |
| assert_contains "Starlark evaluation error for //$pkg:pylib" "$TEST_log" |
| |
| cat > $pkg/outfunc.bzl <<'EOF' |
| SUFFIX='%foo_file' |
| |
| def format(t): |
| return str(t.label) + SUFFIX |
| |
| UNUSED_THING_AT_END=1 |
| EOF |
| |
| bazel cquery "//$pkg:all" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:pylib%foo_file" output |
| assert_contains "//$pkg:pylibtwo%foo_file" output |
| |
| |
| cat > $pkg/outfunc_isdir.bzl <<'EOF' |
| def format(t): |
| return str(t.label) + '%' + str(t.files.to_list()[1].is_directory) |
| EOF |
| |
| bazel cquery "//$pkg:all" --output=starlark --starlark:file="$pkg/outfunc_isdir.bzl" \ |
| >output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:pylibtwo%False" output |
| # pylib evaluation will fail, as it has only one output file. |
| assert_contains "Starlark evaluation error for //$pkg:pylib" "$TEST_log" |
| } |
| |
| function test_starlark_build_options() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| |
| cat > tools/allowlists/function_transition_allowlist/BUILD <<EOF |
| package_group( |
| name = "function_transition_allowlist", |
| packages = [ |
| "//...", |
| ], |
| ) |
| EOF |
| |
| cat > "$pkg/rules.bzl" <<EOF |
| BuildSettingInfo = provider(fields = ["value"]) |
| |
| def _flag_impl(ctx): |
| return BuildSettingInfo(value = ctx.build_setting_value) |
| |
| bool_flag = rule( |
| implementation = _flag_impl, |
| build_setting = config.bool(flag = True), |
| ) |
| |
| def _dep_transition_impl(settings, attr): |
| return { |
| "//$pkg:myflag": True, |
| "//command_line_option:platform_suffix": "blah" |
| } |
| |
| _dep_transition = transition( |
| implementation = _dep_transition_impl, |
| inputs = [], |
| outputs = [ |
| "//$pkg:myflag", |
| "//command_line_option:platform_suffix", |
| ], |
| ) |
| |
| def _root_rule_impl(ctx): |
| return [] |
| |
| root_rule = rule( |
| _root_rule_impl, |
| attrs = { |
| "_allowlist_function_transition": attr.label(default = "//tools/allowlists/function_transition_allowlist"), |
| "deps": attr.label_list(cfg = _dep_transition), |
| }, |
| ) |
| EOF |
| |
| cat > $pkg/BUILD <<'EOF' |
| load(":rules.bzl", "bool_flag", "root_rule") |
| |
| exports_files(["rules.bzl"]) |
| |
| bool_flag( |
| name = "myflag", |
| build_setting_default = False, |
| ) |
| |
| py_library( |
| name = "bar", |
| srcs = ["pylib.py"], |
| ) |
| |
| root_rule( |
| name = "foo", |
| deps = ["bar"], |
| ) |
| EOF |
| |
| cat > $pkg/expr.star <<EOF |
| def format(target): |
| bo = build_options(target) |
| print(bo) |
| if bo == None: |
| return str(target.label) + '%None' |
| first = str(bo['//command_line_option:platform_suffix']) |
| second = str(('//$pkg:myflag' in bo) and bo['//$pkg:myflag']) |
| return str(target.label) + '%' + first + '%' + second |
| EOF |
| |
| bazel cquery "//$pkg:bar" --output=starlark \ |
| --starlark:file=$pkg/expr.star > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:bar%None%False" output |
| |
| bazel cquery "//$pkg:foo" --output=starlark \ |
| --starlark:file=$pkg/expr.star > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:foo%None%False" output |
| |
| bazel cquery "kind(rule, deps(//$pkg:foo))" --output=starlark \ |
| --starlark:file=$pkg/expr.star > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:foo%None%False" output |
| assert_contains "//$pkg:bar%blah%True" output |
| |
| bazel cquery "//$pkg:rules.bzl" --output=starlark \ |
| --starlark:file=$pkg/expr.star > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:rules.bzl%None" output |
| } |
| |
| function test_starlark_build_options_invalid_arg() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| |
| cat > $pkg/BUILD <<'EOF' |
| py_library( |
| name = "foo", |
| srcs = ["pylib.py"], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:foo" --output=starlark \ |
| --starlark:expr="build_options(False)" > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "Error in build_options: in call to build_options()" "$TEST_log" |
| |
| bazel cquery "//$pkg:foo" --output=starlark \ |
| --starlark:expr="build_options()" > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "build_options() missing 1 required positional argument: target" "$TEST_log" |
| |
| bazel cquery "//$pkg:foo" --output=starlark \ |
| --starlark:expr="build_options(target, 'blah')" > output 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "build_options() accepts no more than 1 positional argument but got 2" "$TEST_log" |
| } |
| |
| function test_starlark_output_both_options() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| touch $pkg/BUILD |
| |
| bazel cquery "//$pkg:all" --output=starlark --starlark:expr=a --starlark:file=b \ |
| >output 2>"$TEST_log" && fail "Expected failure" |
| |
| assert_contains ".*You must not specify both --starlark:expr and --starlark:file" \ |
| "$TEST_log" |
| } |
| |
| function test_starlark_output_invalid_expression() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| touch $pkg/BUILD |
| |
| bazel cquery "//$pkg:all" --output=starlark \ |
| --starlark:expr="no_symbol" \ |
| > output 2>"$TEST_log" && fail "Expected failure" |
| |
| assert_contains "invalid --starlark:expr: name 'no_symbol' is not defined" $TEST_log |
| |
| bazel cquery "//$pkg:all" --output=starlark \ |
| --starlark:expr="def foo(): return 5" \ |
| > output 2>"$TEST_log" && fail "Expected failure" |
| |
| assert_contains "syntax error at 'def': expected expression" $TEST_log |
| } |
| |
| function test_starlark_output_missing_file() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| touch $pkg/BUILD |
| |
| bazel cquery "//$pkg:all" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" && fail "Expected failure" |
| |
| assert_contains "--starlark:file: failed to read $pkg.outfunc.bzl" $TEST_log |
| } |
| |
| function test_starlark_output_missing_format() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| touch $pkg/BUILD |
| cat > $pkg/outfunc.bzl <<'EOF' |
| def foo(t): |
| return str(t.label) + '%foo_file' |
| EOF |
| |
| bazel cquery "//$pkg:all" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" && fail "Expected failure" |
| |
| assert_contains "invalid --starlark:file:.*does not define 'format'" $TEST_log |
| } |
| |
| function test_starlark_output_format_wrong_number_args() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| touch $pkg/BUILD |
| cat > $pkg/outfunc.bzl <<'EOF' |
| def format(t, not_allowed_to_have_a_second_arg): |
| return str(t.label) + '%foo_file' |
| EOF |
| |
| bazel cquery "//$pkg:all" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" && fail "Expected failure" |
| |
| assert_contains "invalid --starlark:file:.* must take exactly 1 argument" $TEST_log |
| } |
| |
| function test_starlark_output_format_not_function() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| touch $pkg/BUILD |
| cat > $pkg/outfunc.bzl <<'EOF' |
| format = 1 |
| EOF |
| |
| bazel cquery "//$pkg:all" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" && fail "Expected failure" |
| |
| assert_contains "invalid --starlark:file:.* for 'format', want function" $TEST_log |
| } |
| |
| function test_starlark_output_cc_library_files() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| cc_library( |
| name = "cclib", |
| srcs = ["mylib.cc"], |
| ) |
| EOF |
| |
| bazel cquery "//$pkg:all" --output=starlark \ |
| --starlark:expr="' '.join([f.basename for f in target.files.to_list()])" \ |
| > output 2>"$TEST_log" || fail "Expected failure" |
| |
| if "$is_windows"; then |
| assert_contains "cclib.lib" output |
| elif is_darwin; then |
| assert_contains "libcclib.a" output |
| else |
| assert_contains "libcclib.a" output |
| assert_contains "libcclib.so" output |
| fi |
| } |
| |
| function test_starlark_file_output() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| exports_files(srcs = ["foo"]) |
| EOF |
| |
| bazel cquery "//$pkg:foo" --output=starlark \ |
| --starlark:expr="'path=' + target.files.to_list()[0].path" \ |
| > output 2>"$TEST_log" || fail "Expected failure" |
| |
| assert_contains "^path=$pkg/foo$" output |
| } |
| |
| function test_starlark_common_libs() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| exports_files(srcs = ["foo"]) |
| EOF |
| |
| bazel cquery "//$pkg:foo" --output=starlark \ |
| --starlark:expr="str(type(depset())) + ' ' + str(json.encode(struct(foo = 'bar')))" \ |
| > output 2>"$TEST_log" || fail "Unexpected failure" |
| |
| assert_contains "^depset {\"foo\":\"bar\"}$" output |
| } |
| |
| function test_starlark_output_providers_function() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| py_library( |
| name = "pylib", |
| srcs = ["pylib.py"], |
| srcs_version = "PY3", |
| ) |
| EOF |
| cat > $pkg/pylib.py <<'EOF' |
| pylib=1 |
| EOF |
| cat > $pkg/outfunc.bzl <<'EOF' |
| def format(target): |
| p = providers(target) |
| if not p: |
| return str(target.label) + ':no providers' |
| ret = str(target.label) + ':providers=' + str(sorted(p.keys())) |
| vis_info = p.get('VisibilityProvider') |
| if vis_info: |
| ret += '\n\tVisbilityProvider.label:' + str(vis_info.label) |
| py_info = p.get('PyInfo') |
| if py_info: |
| ret += '\n\tPyInfo found' |
| return ret |
| EOF |
| bazel cquery "//$pkg:pylib" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "//$pkg:pylib:providers=.*PyInfo" output |
| assert_contains "PyInfo found" output |
| |
| # A file |
| bazel cquery "//$pkg:pylib.py" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" || fail "Expected success" |
| assert_contains "//$pkg:pylib.py:providers=.*FileProvider.*FilesToRunProvider.*LicensesProvider.*VisibilityProvider" \ |
| output |
| assert_contains "VisbilityProvider.label:@//$pkg:pylib.py" output |
| } |
| |
| function test_starlark_output_providers_starlark_provider() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<EOF |
| load(":my_rule.bzl", "my_rule") |
| my_rule(name="myrule") |
| EOF |
| cat > $pkg/my_rule.bzl <<'EOF' |
| # A no-op rule that manifests a provider |
| MyRuleInfo = provider(fields={"label": "a_rule_label"}) |
| |
| def _my_rule_impl(ctx): |
| return [MyRuleInfo(label="some_value")] |
| |
| my_rule = rule( |
| implementation = _my_rule_impl, |
| attrs = {}, |
| ) |
| EOF |
| cat > $pkg/outfunc.bzl <<EOF |
| def format(target): |
| p = providers(target) |
| return p["//$pkg:my_rule.bzl%MyRuleInfo"].label |
| EOF |
| bazel cquery "//$pkg:myrule" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "some_value" output |
| } |
| |
| function test_starlark_output_providers_starlark_provider_for_alias() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<EOF |
| load(":my_rule.bzl", "my_rule") |
| my_rule(name="myrule") |
| alias(name="myalias", actual="myrule") |
| EOF |
| cat > $pkg/my_rule.bzl <<'EOF' |
| # A no-op rule that manifests a provider |
| MyRuleInfo = provider(fields={"label": "a_rule_label"}) |
| |
| def _my_rule_impl(ctx): |
| return [MyRuleInfo(label="some_value")] |
| |
| my_rule = rule( |
| implementation = _my_rule_impl, |
| attrs = {}, |
| ) |
| EOF |
| cat > $pkg/outfunc.bzl <<EOF |
| def format(target): |
| p = providers(target) |
| return p["//$pkg:my_rule.bzl%MyRuleInfo"].label |
| EOF |
| bazel cquery "//$pkg:myalias" --output=starlark --starlark:file="$pkg/outfunc.bzl" >output \ |
| 2>"$TEST_log" || fail "Expected success" |
| |
| assert_contains "some_value" output |
| } |
| |
| function test_bazelignore_error_cquery_nocrash() { |
| local -r pkg=$FUNCNAME |
| |
| mkdir -p $pkg/repo |
| touch $pkg/repo/WORKSPACE |
| cat > $pkg/repo/BUILD <<EOF |
| toolchain_type(name = "toolchain_type") |
| EOF |
| |
| cat > $pkg/WORKSPACE <<EOF |
| local_repository(name = "repo", path = "./repo") |
| EOF |
| bazel cquery --output=starlark --starlark:expr 'target' @repo//:toolchain_type >output \ |
| 2>"$TEST_log" && fail "Expected failure" |
| |
| # A Bazel crash would have exit codes 3x. |
| assert_equals $? 1 |
| } |
| |
| # Regression test for https://github.com/bazelbuild/bazel/issues/13301 |
| function test_external_repo_scope() { |
| if [ "${PRODUCT_NAME}" != "bazel" ]; then |
| # Tests of external repositories only work under bazel. |
| return 0 |
| fi |
| |
| local -r dir=$FUNCNAME |
| |
| mkdir -p $dir/repo |
| touch $dir/repo/WORKSPACE |
| cat > $dir/repo/BUILD <<EOF |
| sh_library(name='maple', deps=[':japanese']) |
| sh_library(name='japanese') |
| EOF |
| |
| mkdir -p $dir/main |
| cat > $dir/main/WORKSPACE <<EOF |
| local_repository(name = "repo", path = "../repo") |
| EOF |
| touch $dir/main/BUILD |
| |
| cd $dir/main |
| bazel cquery @repo//... &>"$TEST_log" || fail "Unexpected failure" |
| expect_not_log "no targets found beneath" |
| expect_log "@repo//:maple" |
| expect_log "@repo//:japanese" |
| } |
| |
| function test_test_arg_in_bazelrc() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| |
| cat >$pkg/BUILD <<EOF |
| sh_test( |
| name = "test", |
| srcs = ["test.sh"], |
| ) |
| EOF |
| |
| touch $pkg/test.sh |
| chmod +x $pkg/test.sh |
| |
| output_before="$(bazel cquery "//$pkg:test")" |
| |
| add_to_bazelrc "test --test_arg=foo" |
| |
| output_after="$(bazel cquery "//$pkg:test")" |
| |
| assert_not_equals "${output_before}" "${output_after}" |
| } |
| |
| function set_up_config_test() { |
| mkdir -p $pkg |
| |
| # Use a rule that has a configuration transition. |
| cat > $pkg/rule.bzl <<EOF |
| def _impl(ctx): |
| pass |
| |
| demo_rule = rule( |
| implementation = _impl, |
| attrs = { |
| "binary": attr.label(cfg = "exec"), |
| }, |
| ) |
| EOF |
| |
| cat > $pkg/tool.sh <<EOF |
| echo "Hello" |
| exit 0 |
| EOF |
| chmod +x $pkg/tool.sh |
| |
| cat > $pkg/BUILD <<EOF |
| load("//$pkg:rule.bzl", "demo_rule") |
| |
| sh_binary(name = "tool", srcs = ["tool.sh"]) |
| |
| demo_rule( |
| name = 'demo', |
| binary = ":tool", |
| ) |
| EOF |
| |
| # Find out what the specific configurations are. |
| bazel cquery "deps(//$pkg:demo)" &>"$TEST_log" || fail "Unexpected failure" |
| |
| # Find the target config. |
| target_config="$(grep "^//$pkg:demo ([0-9a-f]\+)" $TEST_log | sed -e 's,.*(\([^)]*\)).*,\1,')" |
| tool_config="$(grep "^//$pkg:tool ([0-9a-f]\+)" $TEST_log | sed -e 's,.*(\([^)]*\)).*,\1,')" |
| |
| assert_not_equals "$target_config" "$tool_config" |
| } |
| |
| function test_config_function() { |
| local -r pkg=$FUNCNAME |
| |
| set_up_config_test $pkg |
| |
| # Actually call config, verify output |
| bazel cquery "config(//$pkg:demo, $target_config)" &>"$TEST_log" || fail "Unexpected failure" |
| expect_log "^//$pkg:demo ($target_config)" |
| bazel cquery "config(//$pkg:tool, $tool_config)" &>"$TEST_log" || fail "Unexpected failure" |
| expect_log "^//$pkg:tool ($tool_config)" |
| } |
| |
| function test_config_function_wrong_order() { |
| local -r pkg=$FUNCNAME |
| |
| set_up_config_test $pkg |
| |
| # Actually call config, verify output |
| bazel cquery "config($target_config, //$pkg:demo)" &>"$TEST_log" && fail "Expected to fail" |
| expect_not_log "^//$pkg:demo ($target_config)" |
| expect_log "couldn't determine target from filename '$target_config'" |
| } |
| |
| function test_config_function_invalid_config() { |
| local -r pkg=$FUNCNAME |
| |
| set_up_config_test $pkg |
| |
| # Actually call config, verify output |
| bazel cquery "config(//$pkg:demo, notaconfighash)" &>"$TEST_log" && fail "Expected to fail" |
| expect_not_log "^//$pkg:demo ($target_config)" |
| expect_log "Unknown configuration ID 'notaconfighash'" |
| } |
| |
| function test_error_keep_going() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| sh_library(name='maple', deps=[':japanese']) |
| sh_library(name='japanese') |
| EOF |
| |
| # This causes a failure in the cquery function, which should produce an |
| # actionable error, not a stack trace. |
| bazel cquery --keep_going "config(//$pkg:oak, notaconfighash)" > output 2>"$TEST_log" && fail "Expected error" |
| expect_not_log "QueryException" |
| } |
| |
| function test_does_not_fail_horribly_with_file() { |
| rm -rf peach |
| mkdir -p peach |
| cat > peach/BUILD <<EOF |
| sh_library(name='brighton', deps=[':harken']) |
| sh_library(name='harken') |
| EOF |
| |
| echo "deps(//peach:brighton)" > query_file |
| bazel cquery --query_file=query_file > $TEST_log |
| |
| expect_log "//peach:brighton" |
| expect_log "//peach:harken" |
| } |
| |
| function test_files_include_source_files() { |
| local -r pkg=$FUNCNAME |
| mkdir -p $pkg |
| cat > $pkg/BUILD <<'EOF' |
| filegroup(name="files", srcs=["BUILD"]) |
| alias(name="alias", actual="single_file") |
| EOF |
| touch $pkg/single_file |
| |
| bazel cquery --output=files //$pkg:all > output 2>"$TEST_log" || fail "Unexpected failure" |
| assert_contains "$pkg/BUILD" output |
| assert_contains "$pkg/single_file" output |
| } |
| |
| run_suite "${PRODUCT_NAME} configured query tests" |