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// Copyright 2016 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.
package com.google.devtools.build.lib.starlark;
import static com.google.common.truth.Truth.assertThat;
import static com.google.common.truth.Truth.assertWithMessage;
import static com.google.devtools.build.lib.analysis.OutputGroupInfo.INTERNAL_SUFFIX;
import static org.junit.Assert.assertThrows;
import com.google.common.base.Joiner;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableSet;
import com.google.devtools.build.lib.actions.Artifact;
import com.google.devtools.build.lib.actions.util.ActionsTestUtil;
import com.google.devtools.build.lib.analysis.ConfiguredRuleClassProvider;
import com.google.devtools.build.lib.analysis.ConfiguredTarget;
import com.google.devtools.build.lib.analysis.FileProvider;
import com.google.devtools.build.lib.analysis.FilesToRunProvider;
import com.google.devtools.build.lib.analysis.OutputGroupInfo;
import com.google.devtools.build.lib.analysis.RunEnvironmentInfo;
import com.google.devtools.build.lib.analysis.RunfilesProvider;
import com.google.devtools.build.lib.analysis.config.StarlarkDefinedConfigTransition;
import com.google.devtools.build.lib.analysis.configuredtargets.FileConfiguredTarget;
import com.google.devtools.build.lib.analysis.configuredtargets.RuleConfiguredTarget;
import com.google.devtools.build.lib.analysis.starlark.StarlarkAttributeTransitionProvider;
import com.google.devtools.build.lib.analysis.starlark.StarlarkRuleTransitionProvider;
import com.google.devtools.build.lib.analysis.test.AnalysisTestResultInfo;
import com.google.devtools.build.lib.analysis.test.InstrumentedFilesInfo;
import com.google.devtools.build.lib.analysis.util.BuildViewTestCase;
import com.google.devtools.build.lib.analysis.util.DummyTestFragment;
import com.google.devtools.build.lib.cmdline.Label;
import com.google.devtools.build.lib.collect.nestedset.Depset;
import com.google.devtools.build.lib.collect.nestedset.NestedSet;
import com.google.devtools.build.lib.events.EventKind;
import com.google.devtools.build.lib.packages.BuildFileContainsErrorsException;
import com.google.devtools.build.lib.packages.BuildSetting;
import com.google.devtools.build.lib.packages.FunctionSplitTransitionAllowlist;
import com.google.devtools.build.lib.packages.Provider;
import com.google.devtools.build.lib.packages.Rule;
import com.google.devtools.build.lib.packages.StarlarkProvider;
import com.google.devtools.build.lib.packages.StructImpl;
import com.google.devtools.build.lib.packages.Type;
import com.google.devtools.build.lib.rules.objc.ObjcProvider;
import com.google.devtools.build.lib.skyframe.ConfiguredTargetAndData;
import com.google.devtools.build.lib.testutil.TestRuleClassProvider;
import com.google.devtools.build.lib.vfs.FileSystemUtils;
import java.io.IOException;
import java.util.List;
import net.starlark.java.eval.NoneType;
import net.starlark.java.eval.Sequence;
import net.starlark.java.eval.Starlark;
import net.starlark.java.eval.StarlarkInt;
import net.starlark.java.eval.StarlarkList;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.JUnit4;
/** Integration tests for Starlark. */
@RunWith(JUnit4.class)
public class StarlarkIntegrationTest extends BuildViewTestCase {
protected boolean keepGoing() {
return false;
}
@Override
protected ConfiguredRuleClassProvider createRuleClassProvider() {
ConfiguredRuleClassProvider.Builder builder = new ConfiguredRuleClassProvider.Builder();
TestRuleClassProvider.addStandardRules(builder);
builder.addConfigurationFragment(DummyTestFragment.class);
return builder.build();
}
@Before
public void setupMyInfo() throws IOException {
scratch.file("myinfo/myinfo.bzl", "MyInfo = provider()");
scratch.file("myinfo/BUILD");
}
private StructImpl getMyInfoFromTarget(ConfiguredTarget configuredTarget) throws Exception {
Provider.Key key =
new StarlarkProvider.Key(Label.parseCanonical("//myinfo:myinfo.bzl"), "MyInfo");
return (StructImpl) configuredTarget.get(key);
}
@Test
public void testRemoteLabelAsDefaultAttributeValue() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def _impl(ctx):",
" pass",
"my_rule = rule(implementation = _impl,",
" attrs = { 'dep' : attr.label_list(default=[\"@r//:t\"]) })");
// We are only interested in whether the label string in the default value can be converted
// to a proper Label without an exception (see GitHub issue #1442).
// Consequently, we expect getTarget() to fail later since the repository does not exist.
checkError(
"test/starlark",
"the_rule",
"no such package '@r//': The repository '@r' could not be resolved",
"load('//test/starlark:extension.bzl', 'my_rule')",
"",
"my_rule(name='the_rule')");
}
@Test
public void testMainRepoLabelWorkspaceRoot() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def _impl(ctx):",
" return [MyInfo(result = ctx.label.workspace_root)]",
"my_rule = rule(implementation = _impl, attrs = { })");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'my_rule')",
"my_rule(name='t')");
ConfiguredTarget myTarget = getConfiguredTarget("//test/starlark:t");
String result = (String) getMyInfoFromTarget(myTarget).getValue("result");
assertThat(result).isEmpty();
}
@Test
public void testExternalRepoLabelWorkspaceRoot_subdirRepoLayout() throws Exception {
scratch.overwriteFile(
"WORKSPACE",
new ImmutableList.Builder<String>()
.addAll(analysisMock.getWorkspaceContents(mockToolsConfig))
.add("local_repository(name='r', path='/r')")
.build());
scratch.file("/r/WORKSPACE");
scratch.file(
"/r/test/starlark/extension.bzl",
"load('@//myinfo:myinfo.bzl', 'MyInfo')",
"def _impl(ctx):",
" return [MyInfo(result = ctx.label.workspace_root)]",
"my_rule = rule(implementation = _impl, attrs = { })");
scratch.file(
"/r/BUILD", "load('//:test/starlark/extension.bzl', 'my_rule')", "my_rule(name='t')");
// Required since we have a new WORKSPACE file.
invalidatePackages(true);
ConfiguredTarget myTarget = getConfiguredTarget("@r//:t");
String result = (String) getMyInfoFromTarget(myTarget).getValue("result");
assertThat(result).isEqualTo("external/r");
}
@Test
public void testExternalRepoLabelWorkspaceRoot_siblingRepoLayout() throws Exception {
scratch.overwriteFile(
"WORKSPACE",
new ImmutableList.Builder<String>()
.addAll(analysisMock.getWorkspaceContents(mockToolsConfig))
.add("local_repository(name='r', path='/r')")
.build());
scratch.file("/r/WORKSPACE");
scratch.file(
"/r/test/starlark/extension.bzl",
"load('@//myinfo:myinfo.bzl', 'MyInfo')",
"def _impl(ctx):",
" return [MyInfo(result = ctx.label.workspace_root)]",
"my_rule = rule(implementation = _impl, attrs = { })");
scratch.file(
"/r/BUILD", "load('//:test/starlark/extension.bzl', 'my_rule')", "my_rule(name='t')");
// Required since we have a new WORKSPACE file.
invalidatePackages(true);
setBuildLanguageOptions("--experimental_sibling_repository_layout");
ConfiguredTarget myTarget = getConfiguredTarget("@r//:t");
String result = (String) getMyInfoFromTarget(myTarget).getValue("result");
assertThat(result).isEqualTo("../r");
}
@Test
public void testSameMethodNames() throws Exception {
// The alias feature of load() may hide the fact that two methods in the stack trace have the
// same name. This is perfectly legal as long as these two methods are actually distinct.
// Consequently, no "Recursion was detected" error must be thrown.
scratch.file(
"test/starlark/extension.bzl",
"load('//test/starlark:other.bzl', other_impl = 'impl')",
"def impl(ctx):",
" other_impl(ctx)",
"empty = rule(implementation = impl)");
scratch.file("test/starlark/other.bzl", "def impl(ctx):", " print('This rule does nothing')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'empty')",
"empty(name = 'test_target')");
getConfiguredTarget("//test/starlark:test_target");
}
private Rule getRuleForTarget(String targetName) throws Exception {
ConfiguredTargetAndData target = getConfiguredTargetAndData("//test/starlark:" + targetName);
return target.getTarget().getAssociatedRule();
}
@Test
public void testMacroHasGeneratorAttributes() throws Exception {
setBuildLanguageOptions("--experimental_builtins_injection_override=+cc_binary");
scratch.file(
"test/starlark/extension.bzl",
"def _impl(ctx):",
" print('This rule does nothing')",
"",
"empty = rule(implementation = _impl)",
"no_macro = rule(implementation = _impl)",
"",
"def macro(name, visibility=None):",
" empty(name = name, visibility=visibility)",
"def native_macro(name):",
" native.cc_library(name = name + '_suffix')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', macro_rule = 'macro', no_macro_rule = 'no_macro',",
" native_macro_rule = 'native_macro')",
"macro_rule(name = 'macro_target')",
"no_macro_rule(name = 'no_macro_target')",
"native_macro_rule(name = 'native_macro_target')",
"cc_binary(name = 'cc_target', deps = ['cc_dep'])",
"cc_library(name = 'cc_dep')");
Rule withMacro = getRuleForTarget("macro_target");
assertThat(withMacro.getAttr("generator_name")).isEqualTo("macro_target");
assertThat(withMacro.getAttr("generator_function")).isEqualTo("macro");
assertThat(withMacro.getAttr("generator_location")).isEqualTo("test/starlark/BUILD:3:11");
// Attributes are only set when the rule was created by a macro
Rule noMacro = getRuleForTarget("no_macro_target");
assertThat(noMacro.getAttr("generator_name")).isEqualTo("");
assertThat(noMacro.getAttr("generator_function")).isEqualTo("");
assertThat(noMacro.getAttr("generator_location")).isEqualTo("");
Rule nativeMacro = getRuleForTarget("native_macro_target_suffix");
assertThat(nativeMacro.getAttr("generator_name")).isEqualTo("native_macro_target");
assertThat(nativeMacro.getAttr("generator_function")).isEqualTo("native_macro");
assertThat(nativeMacro.getAttr("generator_location")).isEqualTo("test/starlark/BUILD:5:18");
// Starlark version of cc_binary is created by a wrapper macro.
Rule ccTarget = getRuleForTarget("cc_target");
assertThat(ccTarget.getAttr("generator_name")).isEqualTo("cc_target");
assertThat(ccTarget.getAttr("generator_function")).isEqualTo("cc_binary");
assertThat(ccTarget.getAttr("generator_location")).isEqualTo("test/starlark/BUILD:6:10");
}
@Test
public void sanityCheckUserDefinedTestRule() throws Exception {
scratch.file(
"test/starlark/test_rule.bzl",
"def _impl(ctx):",
" output = ctx.outputs.out",
" ctx.actions.write(output = output, content = 'hello', is_executable=True)",
" return [DefaultInfo(executable = output)]",
"",
"fake_test = rule(",
" implementation = _impl,",
" test=True,",
" attrs = {'_xcode_config': attr.label(default = configuration_field(",
" fragment = 'apple', name = \"xcode_config_label\"))},",
" outputs = {\"out\": \"%{name}.txt\"})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'fake_test')",
"fake_test(name = 'test_name')");
getConfiguredTarget("//test/starlark:test_name");
}
@Test
public void testOutputGroupsDeclaredProvider() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def _impl(ctx):",
" f = ctx.attr.dep[OutputGroupInfo]._hidden_top_level" + INTERNAL_SUFFIX,
" return [MyInfo(result = f),",
" OutputGroupInfo(my_group = f)]",
"my_rule = rule(implementation = _impl,",
" attrs = { 'dep' : attr.label() })");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'my_rule')",
"cc_binary(name = 'lib', data = ['a.txt'])",
"my_rule(name='my', dep = ':lib')");
NestedSet<Artifact> hiddenTopLevelArtifacts =
OutputGroupInfo.get(getConfiguredTarget("//test/starlark:lib"))
.getOutputGroup(OutputGroupInfo.HIDDEN_TOP_LEVEL);
ConfiguredTarget myTarget = getConfiguredTarget("//test/starlark:my");
Depset result = (Depset) getMyInfoFromTarget(myTarget).getValue("result");
assertThat(result.getSet(Artifact.class).toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
assertThat(OutputGroupInfo.get(myTarget).getOutputGroup("my_group").toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
}
@Test
public void testOutputGroupsAsDictionary() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def _impl(ctx):",
" f = ctx.attr.dep.output_groups['_hidden_top_level" + INTERNAL_SUFFIX + "']",
" has_key1 = '_hidden_top_level" + INTERNAL_SUFFIX + "' in ctx.attr.dep.output_groups",
" has_key2 = 'foobar' in ctx.attr.dep.output_groups",
" all_keys = [k for k in ctx.attr.dep.output_groups]",
" return [MyInfo(result = f, ",
" has_key1 = has_key1,",
" has_key2 = has_key2,",
" all_keys = all_keys),",
" OutputGroupInfo(my_group = f)]",
"my_rule = rule(implementation = _impl,",
" attrs = { 'dep' : attr.label() })");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'my_rule')",
"cc_binary(name = 'lib', data = ['a.txt'])",
"my_rule(name='my', dep = ':lib')");
NestedSet<Artifact> hiddenTopLevelArtifacts =
OutputGroupInfo.get(getConfiguredTarget("//test/starlark:lib"))
.getOutputGroup(OutputGroupInfo.HIDDEN_TOP_LEVEL);
ConfiguredTarget myTarget = getConfiguredTarget("//test/starlark:my");
StructImpl myInfo = getMyInfoFromTarget(myTarget);
Depset result = (Depset) myInfo.getValue("result");
assertThat(result.getSet(Artifact.class).toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
assertThat(OutputGroupInfo.get(myTarget).getOutputGroup("my_group").toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
assertThat(myInfo.getValue("has_key1")).isEqualTo(Boolean.TRUE);
assertThat(myInfo.getValue("has_key2")).isEqualTo(Boolean.FALSE);
assertThat((Sequence) myInfo.getValue("all_keys"))
.containsExactly(
OutputGroupInfo.HIDDEN_TOP_LEVEL,
OutputGroupInfo.COMPILATION_PREREQUISITES,
OutputGroupInfo.FILES_TO_COMPILE,
OutputGroupInfo.TEMP_FILES,
OutputGroupInfo.VALIDATION);
}
@Test
public void testOutputGroupsAsDictionaryPipe() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def _impl(ctx):",
" g = ctx.attr.dep.output_groups['_hidden_top_level" + INTERNAL_SUFFIX + "']",
" return [MyInfo(result = g),",
" OutputGroupInfo(my_group = g)]",
"my_rule = rule(implementation = _impl,",
" attrs = { 'dep' : attr.label() })");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'my_rule')",
"cc_binary(name = 'lib', data = ['a.txt'])",
"my_rule(name='my', dep = ':lib')");
NestedSet<Artifact> hiddenTopLevelArtifacts =
OutputGroupInfo.get(getConfiguredTarget("//test/starlark:lib"))
.getOutputGroup(OutputGroupInfo.HIDDEN_TOP_LEVEL);
ConfiguredTarget myTarget = getConfiguredTarget("//test/starlark:my");
Depset result = (Depset) getMyInfoFromTarget(myTarget).getValue("result");
assertThat(result.getSet(Artifact.class).toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
assertThat(OutputGroupInfo.get(myTarget).getOutputGroup("my_group").toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
}
@Test
public void testOutputGroupsDeclaredProviderWithList() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def _impl(ctx):",
" f = ctx.attr.dep[OutputGroupInfo]._hidden_top_level" + INTERNAL_SUFFIX,
" g = f.to_list()",
" return [MyInfo(result = f),",
" OutputGroupInfo(my_group = g, my_empty_group = [])]",
"my_rule = rule(implementation = _impl,",
" attrs = { 'dep' : attr.label() })");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'my_rule')",
"cc_binary(name = 'lib', data = ['a.txt'])",
"my_rule(name='my', dep = ':lib')");
NestedSet<Artifact> hiddenTopLevelArtifacts =
OutputGroupInfo.get(getConfiguredTarget("//test/starlark:lib"))
.getOutputGroup(OutputGroupInfo.HIDDEN_TOP_LEVEL);
ConfiguredTarget myTarget = getConfiguredTarget("//test/starlark:my");
Depset result = (Depset) getMyInfoFromTarget(myTarget).getValue("result");
assertThat(result.getSet(Artifact.class).toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
assertThat(OutputGroupInfo.get(myTarget).getOutputGroup("my_group").toList())
.containsExactlyElementsIn(hiddenTopLevelArtifacts.toList());
assertThat(OutputGroupInfo.get(myTarget).getOutputGroup("my_empty_group").toList()).isEmpty();
}
@Test
public void testStackTraceErrorInFunction() throws Exception {
runStackTraceTest(
" str.index(1)",
// The error occurs in a built-in, so the backtrace omits the
// final frame and instead prints "Error in index:".
"Error in index: in call to index(), parameter 'sub' got value of type 'int', want"
+ " 'string'");
}
@Test
public void testStackTraceMissingMethod() throws Exception {
// The error occurs in a Starlark operator, so the backtrace includes
// the final frame, with a source location. We report "Error: ...".
runStackTraceTest(
" (None ).index(1)", "Error: 'NoneType' value has no field or method 'index'");
}
// Precondition: 'expr' must have a 2-space indent and an error at column 12. Ugh.
// TODO(adonovan): rewrite this and similar tests as assertions over the error data
// structure, not its formatting.
protected void runStackTraceTest(String expr, String errorMessage) throws Exception {
reporter.removeHandler(failFastHandler);
// The stack doesn't include source lines because we haven't told the relevant
// call to EvalException.getMessageWithStack how to read from scratch.
String expectedTrace =
Joiner.on("\n")
.join(
"ERROR /workspace/test/starlark/BUILD:3:12: in custom_rule rule"
+ " //test/starlark:cr: ",
"Traceback (most recent call last):",
"\tFile \"/workspace/test/starlark/extension.bzl\", line 6, column 6, in"
+ " custom_rule_impl",
// "\t\tfoo()",
"\tFile \"/workspace/test/starlark/extension.bzl\", line 9, column 6, in foo",
// "\t\tbar(2, 4)",
"\tFile \"/workspace/test/starlark/extension.bzl\", line 11, column 8, in bar",
// "\t\tfirst(x, y, z)",
"\tFile \"/workspace/test/starlark/functions.bzl\", line 2, column 9, in first",
// "\t\tsecond(a, b)",
"\tFile \"/workspace/test/starlark/functions.bzl\", line 5, column 8, in second",
// "\t\tthird(\"legal\")",
"\tFile \"/workspace/test/starlark/functions.bzl\", line 7, column 12, in third",
// ...
errorMessage);
scratch.file(
"test/starlark/extension.bzl",
"load('//test/starlark:functions.bzl', 'first')",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def custom_rule_impl(ctx):",
" attr1 = ctx.files.attr1",
" ftb = depset(attr1)",
" foo()",
" return [MyInfo(provider_key = ftb)]",
"def foo():",
" bar(2,4)",
"def bar(x,y,z=1):",
" first(x,y, z)",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.label_list(mandatory=True, allow_files=True)})");
scratch.file(
"test/starlark/functions.bzl",
"def first(a, b, c):",
" second(a, b)",
" third(b)",
"def second(a, b):",
" third('legal')",
"def third(str):",
expr); // 2-space indent, error at column 12
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = [':a.txt'])");
getConfiguredTarget("//test/starlark:cr");
assertContainsEvent(expectedTrace);
}
@Test
public void testFilesToBuild() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" attr1 = ctx.files.attr1",
" ftb = depset(attr1)",
" return [DefaultInfo(runfiles = ctx.runfiles(), files = ftb)]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.label_list(mandatory=True, allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = [':a.txt'])");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("a.txt");
}
@Test
public void testRunfiles() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" attr1 = ctx.files.attr1",
" rf = ctx.runfiles(files = attr1)",
" return [DefaultInfo(runfiles = rf)]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.label_list(mandatory=True, allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = [':a.txt'])");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDefaultRunfiles().getAllArtifacts()))
.containsExactly("a.txt");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDataRunfiles().getAllArtifacts()))
.containsExactly("a.txt");
}
@Test
public void testAccessRunfiles() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" runfiles = ctx.attr.x.default_runfiles.files",
" return [DefaultInfo(files = runfiles)]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'x': attr.label(allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"cc_library(name = 'lib', data = ['a.txt'])",
"custom_rule(name = 'cr1', x = ':lib')",
"custom_rule(name = 'cr2', x = 'b.txt')");
scratch.file("test/starlark/a.txt");
scratch.file("test/starlark/b.txt");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr1");
List<String> baseArtifactNames =
ActionsTestUtil.baseArtifactNames(target.getProvider(FileProvider.class).getFilesToBuild());
assertThat(baseArtifactNames).containsExactly("a.txt");
target = getConfiguredTarget("//test/starlark:cr2");
baseArtifactNames =
ActionsTestUtil.baseArtifactNames(target.getProvider(FileProvider.class).getFilesToBuild());
assertThat(baseArtifactNames).isEmpty();
}
@Test
public void testStatefulRunfiles() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" attr1 = ctx.files.attr1",
" rf1 = ctx.runfiles(files = attr1)",
" rf2 = ctx.runfiles()",
" return [DefaultInfo(data_runfiles = rf1, default_runfiles = rf2)]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.label_list(mandatory = True, allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = [':a.txt'])");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:cr");
assertThat(target.getProvider(RunfilesProvider.class).getDefaultRunfiles().isEmpty()).isTrue();
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDataRunfiles().getAllArtifacts()))
.containsExactly("a.txt");
}
@Test
public void testExecutableGetsInRunfilesAndFilesToBuild() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" ctx.actions.write(output = ctx.outputs.executable, content = 'echo hello')",
" rf = ctx.runfiles(ctx.files.data)",
" return [DefaultInfo(runfiles = rf)]",
"",
"custom_rule = rule(implementation = custom_rule_impl, executable = True,",
" attrs = {'data': attr.label_list(allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', data = [':a.txt'])");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDefaultRunfiles().getAllArtifacts()))
.containsExactly("a.txt", "cr")
.inOrder();
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("cr");
}
@Test
public void testCannotSpecifyRunfilesWithDataOrDefaultRunfiles_struct() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" rf = ctx.runfiles()",
" return struct(runfiles = rf, default_runfiles = rf)",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
checkError(
"test/starlark",
"cr",
"Cannot specify the provider 'runfiles' together with "
+ "'data_runfiles' or 'default_runfiles'",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')");
}
@Test
public void testCannotSpecifyRunfilesWithDataOrDefaultRunfiles_defaultInfo() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" rf = ctx.runfiles()",
" return [DefaultInfo(runfiles = rf, default_runfiles = rf)]",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
checkError(
"test/starlark",
"cr",
"Cannot specify the provider 'runfiles' together with "
+ "'data_runfiles' or 'default_runfiles'",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')");
}
@Test
public void testDefaultInfoWithRunfilesConstructor() throws Exception {
scratch.file(
"pkg/BUILD",
"sh_binary(name = 'tryme',",
" srcs = [':tryme.sh'],",
" visibility = ['//visibility:public'],",
")");
scratch.file(
"src/rulez.bzl",
"def _impl(ctx):",
" info = DefaultInfo(runfiles = ctx.runfiles(files=[ctx.executable.dep]))",
" if info.default_runfiles.files.to_list()[0] != ctx.executable.dep:",
" fail('expected runfile to be in info.default_runfiles')",
" return [info]",
"r = rule(_impl,",
" attrs = {",
" 'dep' : attr.label(executable = True, mandatory = True, cfg = 'host'),",
" }",
")");
scratch.file(
"src/BUILD", "load(':rulez.bzl', 'r')", "r(name = 'r_tools', dep = '//pkg:tryme')");
assertThat(getConfiguredTarget("//src:r_tools")).isNotNull();
}
@Test
public void testDefaultInfoFilesAddedToCcBinaryTargetRunfiles() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" out = ctx.actions.declare_file(ctx.attr.name + '.out')",
" ctx.actions.write(out, 'foobar')",
" return [DefaultInfo(files = depset([out]))]",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')",
"cc_binary(name = 'binary', data = [':cr'])");
useConfiguration("--incompatible_always_include_files_in_data");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:binary");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:binary");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDefaultRunfiles().getAllArtifacts()))
.contains("cr.out");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDataRunfiles().getAllArtifacts()))
.contains("cr.out");
}
@Test
public void testDefaultInfoFilesAddedToJavaBinaryTargetRunfiles() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" out = ctx.actions.declare_file(ctx.attr.name + '.out')",
" ctx.actions.write(out, 'foobar')",
" return [DefaultInfo(files = depset([out]))]",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')",
"java_binary(name = 'binary', data = [':cr'], srcs = ['Foo.java'], main_class = 'Foo')");
useConfiguration("--incompatible_always_include_files_in_data");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:binary");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:binary");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDefaultRunfiles().getAllArtifacts()))
.contains("cr.out");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDataRunfiles().getAllArtifacts()))
.contains("cr.out");
}
@Test
public void testDefaultInfoFilesAddedToPyBinaryTargetRunfiles() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" out = ctx.actions.declare_file(ctx.attr.name + '.out')",
" ctx.actions.write(out, 'foobar')",
" return [DefaultInfo(files = depset([out]))]",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')",
"py_binary(name = 'binary', data = [':cr'], srcs = ['binary.py'])");
useConfiguration("--incompatible_always_include_files_in_data");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:binary");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:binary");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDefaultRunfiles().getAllArtifacts()))
.contains("cr.out");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDataRunfiles().getAllArtifacts()))
.contains("cr.out");
}
@Test
public void testDefaultInfoFilesAddedToShBinaryTargetRunfiles() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" out = ctx.actions.declare_file(ctx.attr.name + '.out')",
" ctx.actions.write(out, 'foobar')",
" return [DefaultInfo(files = depset([out]))]",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')",
"sh_binary(name = 'binary', data = [':cr'], srcs = ['script.sh'])");
useConfiguration("--incompatible_always_include_files_in_data");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:binary");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:binary");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDefaultRunfiles().getAllArtifacts()))
.contains("cr.out");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(RunfilesProvider.class).getDataRunfiles().getAllArtifacts()))
.contains("cr.out");
}
@Test
public void testInstrumentedFilesProviderWithCodeCoverageDisabled() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return struct(instrumented_files=struct(",
" extensions = ['txt'],",
" source_attributes = ['attr1'],",
" dependency_attributes = ['attr2']))",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {",
" 'attr1': attr.label_list(mandatory = True, allow_files=True),",
" 'attr2': attr.label_list(mandatory = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"java_library(name='jl', srcs = [':A.java'])",
"custom_rule(name = 'cr', attr1 = [':a.txt', ':a.random'], attr2 = [':jl'])");
useConfiguration("--nocollect_code_coverage");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:cr");
InstrumentedFilesInfo provider = target.get(InstrumentedFilesInfo.STARLARK_CONSTRUCTOR);
assertWithMessage("InstrumentedFilesInfo should be set.").that(provider).isNotNull();
assertThat(ActionsTestUtil.baseArtifactNames(provider.getInstrumentedFiles())).isEmpty();
}
@Test
public void testInstrumentedFilesProviderWithCodeCoverageEnabled() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return struct(instrumented_files=struct(",
" extensions = ['txt'],",
" source_attributes = ['attr1'],",
" dependency_attributes = ['attr2']))",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {",
" 'attr1': attr.label_list(mandatory = True, allow_files=True),",
" 'attr2': attr.label_list(mandatory = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"java_library(name='jl', srcs = [':A.java'])",
"custom_rule(name = 'cr', attr1 = [':a.txt', ':a.random'], attr2 = [':jl'])");
useConfiguration("--collect_code_coverage");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:cr");
InstrumentedFilesInfo provider = target.get(InstrumentedFilesInfo.STARLARK_CONSTRUCTOR);
assertWithMessage("InstrumentedFilesInfo should be set.").that(provider).isNotNull();
assertThat(ActionsTestUtil.baseArtifactNames(provider.getInstrumentedFiles()))
.containsExactly("a.txt", "A.java");
}
@Test
public void testInstrumentedFilesInfo_coverageDisabled() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return struct(instrumented_files=struct(",
" extensions = ['txt'],",
" source_attributes = ['attr1'],",
" dependency_attributes = ['attr2']))",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {",
" 'attr1': attr.label_list(mandatory = True, allow_files=True),",
" 'attr2': attr.label_list(mandatory = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"java_library(name='jl', srcs = [':A.java'])",
"custom_rule(name = 'cr', attr1 = [':a.txt', ':a.random'], attr2 = [':jl'])");
useConfiguration("--nocollect_code_coverage");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
InstrumentedFilesInfo provider = target.get(InstrumentedFilesInfo.STARLARK_CONSTRUCTOR);
assertWithMessage("InstrumentedFilesInfo should be set.").that(provider).isNotNull();
assertThat(ActionsTestUtil.baseArtifactNames(provider.getInstrumentedFiles())).isEmpty();
}
@Test
public void testInstrumentedFilesInfo_coverageEnabled() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"",
"def custom_rule_impl(ctx):",
" return [",
" coverage_common.instrumented_files_info(",
" ctx,",
" extensions = ['txt'],",
" source_attributes = [",
" 'label_src',",
" 'label_list_srcs',",
" 'dict_srcs',",
// Missing attrs are ignored (this allows common configuration for sets of rules where
// only some define the specified attributes, e.g. *_library/binary).
" 'missing_src_attr',",
" ],",
" dependency_attributes = [",
" 'label_dep',",
" 'label_list_deps',",
" 'dict_deps',",
// Missing attrs are ignored
" 'missing_dep_attr',",
" ],",
" ),",
" ]",
"",
"custom_rule = rule(",
" implementation = custom_rule_impl,",
" attrs = {",
" 'label_src': attr.label(allow_files=True),",
" 'label_list_srcs': attr.label_list(allow_files=True),",
" 'dict_srcs': attr.label_keyed_string_dict(allow_files=True),",
// Generally deps don't set allow_files=True, but want to assert that source files in
// dependency_attributes are ignored, since source files don't provide
// InstrumentedFilesInfo. (For example, files put directly into data are assumed to not be
// source code that gets coverage instrumented.)
" 'label_dep': attr.label(allow_files=True),",
" 'label_list_deps': attr.label_list(allow_files=True),",
" 'dict_deps': attr.label_keyed_string_dict(allow_files=True),",
" },",
")",
"",
"def test_rule_impl(ctx):",
" return [MyInfo(",
// The point of this is to assert that these fields can be read in analysistest.
// Normally, this information wouldn't be forwarded via a different provider.
" instrumented_files = ctx.attr.target[InstrumentedFilesInfo].instrumented_files,",
" metadata_files = ctx.attr.target[InstrumentedFilesInfo].metadata_files)]",
"",
"test_rule = rule(implementation = test_rule_impl,",
" attrs = {'target': attr.label(mandatory = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule', 'test_rule')",
"",
"cc_library(name='label_dep', srcs = [':label_dep.cc'])",
"cc_library(name='label_list_dep', srcs = [':label_list_dep.cc'])",
"cc_library(name='dict_dep', srcs = [':dict_dep.cc'])",
"custom_rule(",
" name = 'cr',",
" label_src = ':label_src.txt',",
// Check that srcs with the wrong extension are ignored.
" label_list_srcs = [':label_list_src.txt', ':label_list_src.ignored'],",
" dict_srcs = {':dict_src.txt': ''},",
" label_dep = ':label_dep',",
// Check that files in dependency attributes are ignored.
" label_list_deps = [':label_list_dep', ':file_in_deps_is_ignored.txt'],",
" dict_deps= {':dict_dep': ''},",
")",
"test_rule(name = 'test', target = ':cr')");
useConfiguration("--collect_code_coverage");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:test");
StructImpl myInfo = getMyInfoFromTarget(target);
assertThat(
ActionsTestUtil.baseArtifactNames(
((Depset) myInfo.getValue("instrumented_files")).getSet(Artifact.class)))
.containsExactly(
"label_src.txt",
"label_list_src.txt",
"dict_src.txt",
"label_dep.cc",
"label_list_dep.cc",
"dict_dep.cc");
assertThat(
ActionsTestUtil.baseArtifactNames(
((Depset) myInfo.getValue("metadata_files")).getSet(Artifact.class)))
.containsExactly("label_dep.gcno", "label_list_dep.gcno", "dict_dep.gcno");
ConfiguredTarget customRule = getConfiguredTarget("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
customRule
.get(InstrumentedFilesInfo.STARLARK_CONSTRUCTOR)
.getBaselineCoverageInstrumentedFiles()))
.containsExactly(
"label_src.txt",
"label_list_src.txt",
"dict_src.txt",
"label_dep.cc",
"label_list_dep.cc",
"dict_dep.cc");
}
@Test
public void testInstrumentedFilesInfo_coverageSupportAndEnvVarsArePrivateAPI() throws Exception {
// Arrange
scratch.file(
"test/starlark/extension.bzl",
"",
"def custom_rule_impl(ctx):",
" return [",
" coverage_common.instrumented_files_info(",
" ctx,",
" coverage_support_files = ctx.files.srcs,",
" coverage_environment = {'k1' : 'v1'},",
" ),",
" ]",
"",
"custom_rule = rule(",
" implementation = custom_rule_impl,",
" attrs = {",
" 'srcs': attr.label_list(allow_files=True),",
" },",
")");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(",
" name = 'foo',",
" srcs = ['src1.txt'],",
")");
reporter.removeHandler(failFastHandler);
// Act
getConfiguredTarget("//test/starlark:foo");
// Assert
assertContainsEvent("private API only for use in builtins");
}
@Test
public void testTransitiveInfoProviders() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def custom_rule_impl(ctx):",
" attr1 = ctx.files.attr1",
" ftb = depset(attr1)",
" return [MyInfo(provider_key = ftb)]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.label_list(mandatory=True, allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = [':a.txt'])");
RuleConfiguredTarget target = (RuleConfiguredTarget) getConfiguredTarget("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
((Depset) getMyInfoFromTarget(target).getValue("provider_key"))
.getSet(Artifact.class)))
.containsExactly("a.txt");
}
@Test
public void testInstrumentedFilesForwardedFromDepsByDefault() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def wrapper_impl(ctx):",
// This wrapper doesn't configure InstrumentedFilesInfo.
" return []",
"",
"wrapper = rule(implementation = wrapper_impl,",
" attrs = {",
" 'srcs': attr.label_list(allow_files = True),",
" 'wrapped': attr.label(mandatory = True),",
" 'wrapped_list': attr.label_list(),",
// Host deps aren't forwarded by default, since they don't provide code/binaries executed
// at runtime.
" 'tool': attr.label(cfg = 'host', executable = True, mandatory = True),",
" })");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'wrapper')",
"",
"cc_binary(name = 'tool', srcs = [':tool.cc'])",
"cc_binary(name = 'wrapped', srcs = [':wrapped.cc'])",
"cc_binary(name = 'wrapped_list', srcs = [':wrapped_list.cc'])",
"wrapper(",
" name = 'wrapper',",
" srcs = ['ignored.cc'],",
" wrapped = ':wrapped',",
" wrapped_list = [':wrapped_list'],",
" tool = ':tool',",
")",
"cc_binary(name = 'outer', data = [':wrapper'])");
// By default, InstrumentedFilesInfo is forwarded from all dependencies. Coverage still needs to
// be configured for rules that handle source files for languages which support coverage
// instrumentation, but not every wrapper rule in the dependency chain needs to configure that
// for coverage to work at all.
useConfiguration("--collect_code_coverage");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:outer");
InstrumentedFilesInfo provider = target.get(InstrumentedFilesInfo.STARLARK_CONSTRUCTOR);
assertWithMessage("InstrumentedFilesInfo should be set.").that(provider).isNotNull();
assertThat(ActionsTestUtil.baseArtifactNames(provider.getInstrumentedFiles()))
.containsExactly("wrapped.cc", "wrapped_list.cc");
}
@Test
public void testMandatoryProviderMissing() throws Exception {
scratch.file("test/starlark/BUILD");
scratch.file(
"test/starlark/extension.bzl",
"def rule_impl(ctx):",
" return []",
"",
"dependent_rule = rule(implementation = rule_impl)",
"",
"main_rule = rule(implementation = rule_impl,",
" attrs = {'dependencies': attr.label_list(providers = ['some_provider'],",
" allow_files=True)})");
checkError(
"test",
"b",
"in dependencies attribute of main_rule rule //test:b: "
+ "'//test:a' does not have mandatory providers: 'some_provider'",
"load('//test/starlark:extension.bzl', 'dependent_rule')",
"load('//test/starlark:extension.bzl', 'main_rule')",
"",
"dependent_rule(name = 'a')",
"main_rule(name = 'b', dependencies = [':a'])");
}
@Test
public void testSpecialMandatoryProviderMissing() throws Exception {
// Test that rules satisfy `providers = [...]` condition if a special provider that always
// exists for all rules is requested. Also check external rules.
FileSystemUtils.appendIsoLatin1(scratch.resolve("WORKSPACE"),
"bind(name = 'bar', actual = '//test/ext:bar')");
scratch.file(
"test/ext/BUILD",
"load('//test/starlark:extension.bzl', 'foobar')",
"",
"foobar(name = 'bar', visibility = ['//visibility:public'],)");
scratch.file(
"test/starlark/extension.bzl",
"def rule_impl(ctx):",
" pass",
"",
"foobar = rule(implementation = rule_impl)",
"main_rule = rule(implementation = rule_impl, attrs = {",
" 'deps': attr.label_list(providers = [",
" 'files', 'data_runfiles', 'default_runfiles',",
" 'files_to_run', 'output_groups',",
" ])",
"})");
scratch.file(
"test/starlark/BUILD",
"load(':extension.bzl', 'foobar', 'main_rule')",
"",
"foobar(name = 'foo')",
"main_rule(name = 'main', deps = [':foo', '//external:bar'])");
invalidatePackages();
getConfiguredTarget("//test/starlark:main");
}
@Test
public void testActions() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" attr1 = ctx.files.attr1",
" output = ctx.outputs.o",
" ctx.actions.run_shell(",
" inputs = attr1,",
" outputs = [output],",
" command = 'echo')",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.label_list(mandatory=True, allow_files=True)},",
" outputs = {'o': 'o.txt'})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = [':a.txt'])");
getConfiguredTarget("//test/starlark:cr");
FileConfiguredTarget target = getFileConfiguredTarget("//test/starlark:o.txt");
assertThat(
ActionsTestUtil.baseArtifactNames(
getGeneratingAction(target.getArtifact()).getInputs()))
.containsExactly("a.txt");
}
@Test
public void testRuleClassImplicitOutputFunction() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" files = [ctx.outputs.o]",
" ctx.actions.run_shell(",
" outputs = files,",
" command = 'echo')",
" ftb = depset(files)",
" return [DefaultInfo(runfiles = ctx.runfiles(), files = ftb)]",
"",
"def output_func(name, public_attr, _private_attr):",
" if _private_attr != None: return {}",
" return {'o': name + '-' + public_attr + '.txt'}",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'public_attr': attr.string(),",
" '_private_attr': attr.label()},",
" outputs = output_func)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', public_attr = 'bar')");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("cr-bar.txt");
}
@Test
public void testRuleClassImplicitOutputFunctionDependingOnComputedAttribute() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" files = [ctx.outputs.o]",
" ctx.actions.run_shell(",
" outputs = files,",
" command = 'echo')",
" ftb = depset(files)",
" return [DefaultInfo(runfiles = ctx.runfiles(), files = ftb)]",
"",
"def attr_func(public_attr):",
" return public_attr",
"",
"def output_func(_private_attr):",
" return {'o': _private_attr.name + '.txt'}",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'public_attr': attr.label(),",
" '_private_attr': attr.label(default = attr_func)},",
" outputs = output_func)",
"",
"def empty_rule_impl(ctx):",
" pass",
"",
"empty_rule = rule(implementation = empty_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule', 'empty_rule')",
"",
"empty_rule(name = 'foo')",
"custom_rule(name = 'cr', public_attr = '//test/starlark:foo')");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("foo.txt");
}
@Test
public void testRuleClassImplicitOutputs() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" files = [ctx.outputs.lbl, ctx.outputs.list, ctx.outputs.str]",
" print('==!=!=!=')",
" print(files)",
" ctx.actions.run_shell(",
" outputs = files,",
" command = 'echo')",
" return [DefaultInfo(files = depset(files))]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {",
" 'attr1': attr.label(allow_files=True),",
" 'attr2': attr.label_list(allow_files=True),",
" 'attr3': attr.string(),",
" },",
" outputs = {",
" 'lbl': '%{attr1}.a',",
" 'list': '%{attr2}.b',",
" 'str': '%{attr3}.c',",
"})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(",
" name='cr',",
" attr1='f1.txt',",
" attr2=['f2.txt'],",
" attr3='f3.txt',",
")");
scratch.file("test/starlark/f1.txt");
scratch.file("test/starlark/f2.txt");
scratch.file("test/starlark/f3.txt");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("f1.a", "f2.b", "f3.txt.c");
}
@Test
public void testRuleClassImplicitOutputFunctionAndDefaultValue() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" ctx.actions.run_shell(",
" outputs = [ctx.outputs.o],",
" command = 'echo')",
" return [DefaultInfo(runfiles = ctx.runfiles())]",
"",
"def output_func(attr1):",
" return {'o': attr1 + '.txt'}",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.string(default='bar')},",
" outputs = output_func)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = None)");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("bar.txt");
}
@Test
public void testPrintProviderCollection() throws Exception {
scratch.file(
"test/starlark/rules.bzl",
"",
"FooInfo = provider()",
"BarInfo = provider()",
"",
"def _top_level_rule_impl(ctx):",
" print('My Dep Providers:', ctx.attr.my_dep)",
"",
"def _dep_rule_impl(name):",
" providers = [",
" FooInfo(),",
" BarInfo(),",
" ]",
" return providers",
"",
"top_level_rule = rule(",
" implementation=_top_level_rule_impl,",
" attrs={'my_dep':attr.label()}",
")",
"",
"dep_rule = rule(",
" implementation=_dep_rule_impl,",
")");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:rules.bzl', 'top_level_rule', 'dep_rule')",
"",
"top_level_rule(name = 'tl', my_dep=':d')",
"",
"dep_rule(name = 'd')");
getConfiguredTarget("//test/starlark:tl");
assertContainsEvent(
"My Dep Providers: <target //test/starlark:d, keys:[FooInfo, BarInfo, OutputGroupInfo]>");
}
@Test
public void testRuleClassImplicitOutputFunctionPrints() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" print('implementation', ctx.label)",
" files = [ctx.outputs.o]",
" ctx.actions.run_shell(",
" outputs = files,",
" command = 'echo')",
"",
"def output_func(name):",
" print('output function', name)",
" return {'o': name + '.txt'}",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" outputs = output_func)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')");
getConfiguredTarget("//test/starlark:cr");
assertContainsEvent("output function cr");
assertContainsEvent("implementation @//test/starlark:cr");
}
@Test
public void testNoOutputAttrDefault() throws Exception {
scratch.file(
"test/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def custom_rule_impl(ctx):",
" out_file = ctx.actions.declare_file(ctx.attr._o1.name)",
" ctx.actions.write(output=out_file, content='hi')",
" return [MyInfo(o1=ctx.attr._o1)]",
"",
"def output_fn():",
" return Label('//test/starlark:foo.txt')",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'_o1': attr.output(default = output_fn)})");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("got unexpected keyword argument 'default'");
}
@Test
public void testNoOutputListAttrDefault() throws Exception {
scratch.file(
"test/extension.bzl",
"def custom_rule_impl(ctx):",
" return []",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'outs': attr.output_list(default = [])})");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("got unexpected keyword argument 'default'");
}
@Test
public void testRuleClassNonMandatoryEmptyOutputs() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"def custom_rule_impl(ctx):",
" return [MyInfo(",
" o1=ctx.outputs.o1,",
" o2=ctx.outputs.o2)]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'o1': attr.output(), 'o2': attr.output_list()})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
StructImpl myInfo = getMyInfoFromTarget(target);
assertThat(myInfo.getValue("o1")).isEqualTo(Starlark.NONE);
assertThat(myInfo.getValue("o2")).isEqualTo(StarlarkList.empty());
}
@Test
public void testRuleClassImplicitAndExplicitOutputNamesCollide() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return []",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'o': attr.output_list()},",
" outputs = {'o': '%{name}.txt'})");
checkError(
"test/starlark",
"cr",
"Implicit output key 'o' collides with output attribute name",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', o = [':bar.txt'])");
}
@Test
public void testRuleClassDefaultFilesToBuild() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" files = [ctx.outputs.o]",
" ctx.actions.run_shell(",
" outputs = files,",
" command = 'echo')",
" ftb = depset(files)",
" for i in ctx.outputs.out:",
" ctx.actions.write(output=i, content='hi there')",
"",
"def output_func(attr1):",
" return {'o': attr1 + '.txt'}",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {",
" 'attr1': attr.string(),",
" 'out': attr.output_list()",
" },",
" outputs = output_func)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = 'bar', out=['other'])");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("bar.txt", "other")
.inOrder();
}
@Test
public void rulesReturningDeclaredProviders() throws Exception {
scratch.file(
"test/extension.bzl",
"my_provider = provider()",
"def _impl(ctx):",
" return [my_provider(x = 1)]",
"my_rule = rule(_impl)"
);
scratch.file(
"test/BUILD",
"load(':extension.bzl', 'my_rule')",
"my_rule(name = 'r')"
);
ConfiguredTarget configuredTarget = getConfiguredTarget("//test:r");
Provider.Key key =
new StarlarkProvider.Key(
Label.create(configuredTarget.getLabel().getPackageIdentifier(), "extension.bzl"),
"my_provider");
StructImpl declaredProvider = (StructImpl) configuredTarget.get(key);
assertThat(declaredProvider).isNotNull();
assertThat(declaredProvider.getProvider().getKey()).isEqualTo(key);
assertThat(declaredProvider.getValue("x")).isEqualTo(StarlarkInt.of(1));
}
@Test
public void rulesReturningDeclaredProvidersCompatMode() throws Exception {
scratch.file(
"test/extension.bzl",
"my_provider = provider()",
"def _impl(ctx):",
" return [my_provider(x = 1)]",
"my_rule = rule(_impl)");
scratch.file(
"test/BUILD",
"load(':extension.bzl', 'my_rule')",
"my_rule(name = 'r')"
);
ConfiguredTarget configuredTarget = getConfiguredTarget("//test:r");
Provider.Key key =
new StarlarkProvider.Key(
Label.create(configuredTarget.getLabel().getPackageIdentifier(), "extension.bzl"),
"my_provider");
StructImpl declaredProvider = (StructImpl) configuredTarget.get(key);
assertThat(declaredProvider).isNotNull();
assertThat(declaredProvider.getProvider().getKey()).isEqualTo(key);
assertThat(declaredProvider.getValue("x")).isEqualTo(StarlarkInt.of(1));
}
@Test
public void testRuleReturningUnwrappedDeclaredProvider() throws Exception {
scratch.file(
"test/extension.bzl",
"my_provider = provider()",
"def _impl(ctx):",
" return my_provider(x = 1)",
"my_rule = rule(_impl)"
);
scratch.file(
"test/BUILD",
"load(':extension.bzl', 'my_rule')",
"my_rule(name = 'r')"
);
ConfiguredTarget configuredTarget = getConfiguredTarget("//test:r");
Provider.Key key =
new StarlarkProvider.Key(
Label.create(configuredTarget.getLabel().getPackageIdentifier(), "extension.bzl"),
"my_provider");
StructImpl declaredProvider = (StructImpl) configuredTarget.get(key);
assertThat(declaredProvider).isNotNull();
assertThat(declaredProvider.getProvider().getKey()).isEqualTo(key);
assertThat(declaredProvider.getValue("x")).isEqualTo(StarlarkInt.of(1));
}
@Test
public void testConflictingProviderKeys_fromStruct_disallowed() throws Exception {
scratch.file(
"test/extension.bzl",
"my_provider = provider()",
"other_provider = provider()",
"def _impl(ctx):",
" return [my_provider(x = 1), other_provider(), my_provider(x = 2)]",
"my_rule = rule(_impl)");
checkError(
"test",
"r",
"Multiple conflicting returned providers with key my_provider",
"load(':extension.bzl', 'my_rule')",
"my_rule(name = 'r')");
}
@Test
public void testConflictingProviderKeys_fromIterable_disallowed() throws Exception {
scratch.file(
"test/extension.bzl",
"my_provider = provider()",
"other_provider = provider()",
"def _impl(ctx):",
" return [my_provider(x = 1), other_provider(), my_provider(x = 2)]",
"my_rule = rule(_impl)"
);
checkError(
"test",
"r",
"Multiple conflicting returned providers with key my_provider",
"load(':extension.bzl', 'my_rule')",
"my_rule(name = 'r')");
}
@Test
public void testRecursionDetection() throws Exception {
reporter.removeHandler(failFastHandler);
scratch.file(
"test/starlark/extension.bzl",
"def _impl(ctx):",
" _impl(ctx)",
"empty = rule(implementation = _impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'empty')",
"empty(name = 'test_target')");
getConfiguredTarget("//test/starlark:test_target");
assertContainsEvent("function '_impl' called recursively");
}
@Test
public void testBadCallbackFunction() throws Exception {
scratch.file(
"test/starlark/extension.bzl", "def impl(): return 0", "", "custom_rule = rule(impl)");
checkError(
"test/starlark",
"cr",
"impl() does not accept positional arguments",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')");
}
@Test
public void testRuleClassImplicitOutputFunctionBadAttr() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return None",
"",
"def output_func(bad_attr):",
" return {'a': bad_attr}",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.string()},",
" outputs = output_func)");
checkError(
"test/starlark",
"cr",
"Attribute 'bad_attr' either doesn't exist or uses a select()",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = 'bar')");
}
@Test
public void testHelperFunctionInRuleImplementation() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def helper_func(attr1):",
" return depset(attr1)",
"",
"def custom_rule_impl(ctx):",
" attr1 = ctx.files.attr1",
" ftb = helper_func(attr1)",
" return [DefaultInfo(runfiles = ctx.runfiles(), files = ftb)]",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'attr1': attr.label_list(mandatory=True, allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr', attr1 = [':a.txt'])");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:cr");
assertThat(target.getLabel().toString()).isEqualTo("//test/starlark:cr");
assertThat(
ActionsTestUtil.baseArtifactNames(
target.getProvider(FileProvider.class).getFilesToBuild()))
.containsExactly("a.txt");
}
@Test
public void testMultipleLoadsOfSameRule() throws Exception {
scratch.file("test/starlark/BUILD");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return None",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'dep': attr.label_list(allow_files=True)})");
scratch.file(
"test/starlark1/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"custom_rule(name = 'cr1')");
scratch.file(
"test/starlark2/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"custom_rule(name = 'cr2', dep = ['//test/starlark1:cr1'])");
getConfiguredTarget("//test/starlark2:cr2");
}
@Test
public void testFunctionGeneratingRules() throws Exception {
scratch.file(
"test/starlark/extension.bzl",
"def impl(ctx): return None",
"def gen(): return rule(impl)",
"r = gen()",
"s = gen()");
scratch.file(
"test/starlark/BUILD", "load(':extension.bzl', 'r', 's')",
"r(name = 'r')", "s(name = 's')");
getConfiguredTarget("//test/starlark:r");
getConfiguredTarget("//test/starlark:s");
}
@Test
public void testLoadInStarlark() throws Exception {
scratch.file("test/starlark/implementation.bzl", "def custom_rule_impl(ctx):", " return None");
scratch.file(
"test/starlark/extension.bzl",
"load('//test/starlark:implementation.bzl', 'custom_rule_impl')",
"",
"custom_rule = rule(implementation = custom_rule_impl,",
" attrs = {'dep': attr.label_list(allow_files=True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"custom_rule(name = 'cr')");
getConfiguredTarget("//test/starlark:cr");
}
@Test
public void testRuleAliasing() throws Exception {
scratch.file(
"test/starlark/implementation.bzl",
"def impl(ctx): return []",
"custom_rule = rule(implementation = impl)");
scratch.file(
"test/starlark/ext.bzl",
"load('//test/starlark:implementation.bzl', 'custom_rule')",
"def impl(ctx): return []",
"custom_rule1 = rule(implementation = impl)",
"custom_rule2 = custom_rule1",
"custom_rule3 = custom_rule");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:ext.bzl', 'custom_rule1', 'custom_rule2', 'custom_rule3')",
"custom_rule4 = custom_rule3",
"custom_rule1(name = 'cr1')",
"custom_rule2(name = 'cr2')",
"custom_rule3(name = 'cr3')",
"custom_rule4(name = 'cr4')");
getConfiguredTarget("//test/starlark:cr1");
getConfiguredTarget("//test/starlark:cr2");
getConfiguredTarget("//test/starlark:cr3");
getConfiguredTarget("//test/starlark:cr4");
}
@Test
public void testRecursiveLoad() throws Exception {
scratch.file("test/starlark/ext2.bzl", "load('//test/starlark:ext1.bzl', 'symbol2')");
scratch.file("test/starlark/ext1.bzl", "load('//test/starlark:ext2.bzl', 'symbol1')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:ext1.bzl', 'custom_rule')",
"genrule(name = 'rule')");
reporter.removeHandler(failFastHandler);
assertThrows(BuildFileContainsErrorsException.class, () -> getTarget("//test/starlark:rule"));
assertContainsEvent(
"cycle detected in extension files: \n"
+ " test/starlark/BUILD\n"
+ ".-> //test/starlark:ext1.bzl\n"
+ "| //test/starlark:ext2.bzl\n"
+ "`-- //test/starlark:ext1.bzl");
}
@Test
public void testRecursiveLoad2() throws Exception {
scratch.file("test/starlark/ext1.bzl", "load('//test/starlark:ext2.bzl', 'symbol2')");
scratch.file("test/starlark/ext2.bzl", "load('//test/starlark:ext3.bzl', 'symbol3')");
scratch.file("test/starlark/ext3.bzl", "load('//test/starlark:ext4.bzl', 'symbol4')");
scratch.file("test/starlark/ext4.bzl", "load('//test/starlark:ext2.bzl', 'symbol2')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:ext1.bzl', 'custom_rule')",
"genrule(name = 'rule')");
reporter.removeHandler(failFastHandler);
assertThrows(BuildFileContainsErrorsException.class, () -> getTarget("//test/starlark:rule"));
assertContainsEvent(
"cycle detected in extension files: \n"
+ " test/starlark/BUILD\n"
+ " //test/starlark:ext1.bzl\n"
+ ".-> //test/starlark:ext2.bzl\n"
+ "| //test/starlark:ext3.bzl\n"
+ "| //test/starlark:ext4.bzl\n"
+ "`-- //test/starlark:ext2.bzl");
}
@Test
public void testLoadSymbolTypo() throws Exception {
scratch.file("test/starlark/ext1.bzl", "myvariable = 2");
scratch.file("test/starlark/BUILD", "load('//test/starlark:ext1.bzl', 'myvariables')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:test_target");
assertContainsEvent(
"file '//test/starlark:ext1.bzl' does not contain symbol 'myvariables' "
+ "(did you mean 'myvariable'?)");
}
@Test
public void testOutputsObjectOrphanExecutableReportError() throws Exception {
scratch.file(
"test/rule.bzl",
"def _impl(ctx):",
" o = ctx.outputs.executable",
" return [DefaultInfo(executable = o)]",
"my_rule = rule(_impl, executable = True)"
);
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule')",
"my_rule(name = 'xxx')"
);
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:xxx");
assertContainsEvent("ERROR /workspace/test/BUILD:2:8: in my_rule rule //test:xxx: ");
assertContainsEvent("The following files have no generating action:");
assertContainsEvent("test/xxx");
}
@Test
public void testCustomExecutableUsed() throws Exception {
scratch.file(
"test/rule.bzl",
"def _impl(ctx):",
" o = ctx.actions.declare_file('x.sh')",
" ctx.actions.write(o, 'echo Stuff', is_executable = True)",
" return [DefaultInfo(executable = o)]",
"my_rule = rule(_impl, executable = True)"
);
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule')",
"my_rule(name = 'xxx')"
);
ConfiguredTarget configuredTarget = getConfiguredTarget("//test:xxx");
Artifact executable = configuredTarget.getProvider(FilesToRunProvider.class).getExecutable();
assertThat(executable.getRootRelativePathString()).isEqualTo("test/x.sh");
}
@Test
public void testCustomAndDefaultExecutableReportsError() throws Exception {
scratch.file(
"test/rule.bzl",
"def _impl(ctx):",
" e = ctx.outputs.executable",
" o = ctx.actions.declare_file('x.sh')",
" ctx.actions.write(o, 'echo Stuff', is_executable = True)",
" return [DefaultInfo(executable = o)]",
"my_rule = rule(_impl, executable = True)"
);
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule')",
"my_rule(name = 'xxx')"
);
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:xxx");
assertContainsEvent("ERROR /workspace/test/BUILD:2:8: in my_rule rule //test:xxx: ");
assertContainsEvent(
"/workspace/test/rule.bzl:5:23: The rule 'my_rule' both accesses "
+ "'ctx.outputs.executable' and provides a different executable 'test/x.sh'. "
+ "Do not use 'ctx.output.executable'.");
}
@Test
public void testCustomExecutableStrNoEffect() throws Exception {
scratch.file(
"test/rule.bzl",
"def _impl(ctx):",
" o = ctx.actions.declare_file('x.sh')",
" ctx.actions.write(o, 'echo Stuff', is_executable = True)",
" print(str(ctx.outputs))",
" return [DefaultInfo(executable = o)]",
"my_rule = rule(_impl, executable = True)"
);
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule')",
"my_rule(name = 'xxx')"
);
ConfiguredTarget configuredTarget = getConfiguredTarget("//test:xxx");
Artifact executable = configuredTarget.getProvider(FilesToRunProvider.class).getExecutable();
assertThat(executable.getRootRelativePathString()).isEqualTo("test/x.sh");
}
@Test
public void testCustomExecutableDirNoEffect() throws Exception {
scratch.file(
"test/rule.bzl",
"def _impl(ctx):",
" o = ctx.actions.declare_file('x.sh')",
" ctx.actions.write(o, 'echo Stuff', is_executable = True)",
" print(dir(ctx.outputs))",
" return [DefaultInfo(executable = o)]",
"my_rule = rule(_impl, executable = True)"
);
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule')",
"my_rule(name = 'xxx')"
);
ConfiguredTarget configuredTarget = getConfiguredTarget("//test:xxx");
Artifact executable = configuredTarget.getProvider(FilesToRunProvider.class).getExecutable();
assertThat(executable.getRootRelativePathString()).isEqualTo("test/x.sh");
}
@Test
public void testOutputsObjectInDifferentRuleInaccessible() throws Exception {
scratch.file(
"test/rule.bzl",
"PInfo = provider(fields = ['outputs'])",
"def _impl(ctx):",
" o = ctx.actions.declare_file('x.sh')",
" ctx.actions.write(o, 'echo Stuff', is_executable = True)",
" return [PInfo(outputs = ctx.outputs), DefaultInfo(executable = o)]",
"my_rule = rule(_impl, executable = True)",
"def _dep_impl(ctx):",
" o = ctx.attr.dep[PInfo].outputs.executable", // this is line 8
" pass",
"my_dep_rule = rule(_dep_impl, attrs = { 'dep' : attr.label() })");
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule', 'my_dep_rule')",
"my_rule(name = 'xxx')",
"my_dep_rule(name = 'yyy', dep = ':xxx')"
);
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:yyy");
assertContainsEvent("ERROR /workspace/test/BUILD:3:12: in my_dep_rule rule //test:yyy: ");
assertContainsEvent("File \"/workspace/test/rule.bzl\", line 8, column 35, in _dep_impl");
assertContainsEvent("cannot access outputs of rule '//test:xxx' outside "
+ "of its own rule implementation function");
}
@Test
public void testOutputsObjectStringRepresentation() throws Exception {
scratch.file(
"test/rule.bzl",
"PInfo = provider(fields = ['outputs', 's'])",
"def _impl(ctx):",
" ctx.actions.write(ctx.outputs.executable, 'echo Stuff', is_executable = True)",
" ctx.actions.write(ctx.outputs.other, 'Other')",
" return [PInfo(outputs = ctx.outputs, s = str(ctx.outputs))]",
"my_rule = rule(_impl, executable = True, outputs = { 'other' : '%{name}.other' })",
"def _dep_impl(ctx):",
" return [PInfo(s = str(ctx.attr.dep[PInfo].outputs))]",
"my_dep_rule = rule(_dep_impl, attrs = { 'dep' : attr.label() })"
);
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule', 'my_dep_rule')",
"my_rule(name = 'xxx')",
"my_dep_rule(name = 'yyy', dep = ':xxx')"
);
StarlarkProvider.Key pInfoKey =
new StarlarkProvider.Key(Label.parseCanonical("//test:rule.bzl"), "PInfo");
ConfiguredTarget targetXXX = getConfiguredTarget("//test:xxx");
StructImpl structXXX = (StructImpl) targetXXX.get(pInfoKey);
assertThat(structXXX.getValue("s"))
.isEqualTo(
"ctx.outputs(executable = <generated file test/xxx>, "
+ "other = <generated file test/xxx.other>)");
ConfiguredTarget targetYYY = getConfiguredTarget("//test:yyy");
StructImpl structYYY = (StructImpl) targetYYY.get(pInfoKey);
assertThat(structYYY.getValue("s"))
.isEqualTo("ctx.outputs(for //test:xxx)");
}
@Test
public void testExecutableRuleWithNoExecutableReportsError() throws Exception {
scratch.file(
"test/rule.bzl",
"def _impl(ctx):",
" pass",
"my_rule = rule(_impl, executable = True)"
);
scratch.file(
"test/BUILD",
"load(':rule.bzl', 'my_rule')",
"my_rule(name = 'xxx')"
);
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:xxx");
assertContainsEvent("ERROR /workspace/test/BUILD:2:8: in my_rule rule //test:xxx: ");
assertContainsEvent("/rule.bzl:1:5: The rule 'my_rule' is executable. "
+ "It needs to create an executable File and pass it as the 'executable' "
+ "parameter to the DefaultInfo it returns.");
}
@Test
public void testExecutableFromDifferentRuleIsForbidden() throws Exception {
scratch.file(
"pkg/BUILD",
"sh_binary(name = 'tryme',",
" srcs = [':tryme.sh'],",
" visibility = ['//visibility:public'],",
")");
scratch.file(
"src/rulez.bzl",
"def _impl(ctx):",
" return [DefaultInfo(executable = ctx.executable.runme,",
" files = depset([ctx.executable.runme]),",
" )]",
"r = rule(_impl,",
" executable = True,",
" attrs = {",
" 'runme' : attr.label(executable = True, mandatory = True, cfg = 'host'),",
" }",
")");
scratch.file(
"src/BUILD", "load(':rulez.bzl', 'r')", "r(name = 'r_tools', runme = '//pkg:tryme')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//src:r_tools");
assertContainsEvent(
"/workspace/src/rulez.bzl:2:23: 'executable' provided by an executable"
+ " rule 'r' should be created by the same rule.");
}
@Test
public void testFileAndDirectory() throws Exception {
scratch.file(
"ext.bzl",
"def _extrule(ctx):",
" dir = ctx.actions.declare_directory('foo/bar/baz')",
" ctx.actions.run_shell(",
" outputs = [dir],",
" command = 'mkdir -p ' + dir.path + ' && echo wtf > ' + dir.path + '/wtf.txt')",
"",
"extrule = rule(",
" _extrule,",
" outputs = {",
" 'out': 'foo/bar/baz',",
" },",
")");
scratch.file(
"BUILD", //
"load(':ext.bzl', 'extrule')",
"",
"extrule(",
" name = 'test'",
")");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//:test");
assertContainsEvent("ERROR /workspace/BUILD:3:8: in extrule rule //:test:");
assertContainsEvent("he following directories were also declared as files:");
assertContainsEvent("foo/bar/baz");
}
@Test
public void testEnvironmentConstraintsFromStarlarkRule() throws Exception {
scratch.file(
"buildenv/foo/BUILD",
"environment_group(name = 'env_group',",
" defaults = [':default'],",
" environments = ['default', 'other'])",
"environment(name = 'default')",
"environment(name = 'other')");
// The example Starlark rule explicitly provides the MyProvider provider as a regression test
// for a bug where a Starlark rule with unsatisfied constraints but explicit providers would
// result in Bazel throwing a null pointer exception.
scratch.file(
"test/starlark/extension.bzl",
"MyProvider = provider()",
"",
"def _impl(ctx):",
" return [MyProvider(foo = 'bar')]",
"my_rule = rule(implementation = _impl,",
" attrs = { 'deps' : attr.label_list() },",
" provides = [MyProvider])");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'my_rule')",
"java_library(name = 'dep', srcs = ['a.java'], restricted_to = ['//buildenv/foo:other'])",
"my_rule(name='my', deps = [':dep'])");
reporter.removeHandler(failFastHandler);
assertThat(getConfiguredTarget("//test/starlark:my")).isNull();
assertContainsEvent(
"//test/starlark:dep doesn't support expected environment: //buildenv/foo:default");
}
@Test
public void testTestResultInfo() throws Exception {
scratch.file(
"test/extension.bzl",
"def custom_rule_impl(ctx):",
" return [AnalysisTestResultInfo(success = True, message = 'message contents')]",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'r')");
ConfiguredTarget target = getConfiguredTarget("//test:r");
AnalysisTestResultInfo info =
(AnalysisTestResultInfo) target.get(AnalysisTestResultInfo.STARLARK_CONSTRUCTOR.getKey());
assertThat(info.getSuccess()).isTrue();
assertThat(info.getMessage()).isEqualTo("message contents");
}
@Test
public void testAnalysisTestRuleWithActionRegistration() throws Exception {
scratch.file(
"test/extension.bzl",
"def custom_rule_impl(ctx):",
" out_file = ctx.actions.declare_file('file.txt')",
" ctx.actions.write(output=out_file, content='hi')",
"",
"custom_test = rule(implementation = custom_rule_impl, analysis_test = True)");
scratch.file(
"test/BUILD", "load('//test:extension.bzl', 'custom_test')", "", "custom_test(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent(
"implementation function of a rule with analysis_test=true may not register actions");
}
@Test
public void testAnalysisTestRuleWithFlag() throws Exception {
scratch.file(
"test/extension.bzl",
"def custom_rule_impl(ctx):",
" return [AnalysisTestResultInfo(success = True, message = 'message contents')]",
"",
"custom_test = rule(implementation = custom_rule_impl, analysis_test = True)");
scratch.file(
"test/BUILD", "load('//test:extension.bzl', 'custom_test')", "", "custom_test(name = 'r')");
ConfiguredTarget target = getConfiguredTarget("//test:r");
AnalysisTestResultInfo info =
(AnalysisTestResultInfo) target.get(AnalysisTestResultInfo.STARLARK_CONSTRUCTOR.getKey());
assertThat(info.getSuccess()).isTrue();
assertThat(info.getMessage()).isEqualTo("message contents");
// TODO(cparsons): Verify implicit action registration via AnalysisTestResultInfo.
}
@Test
public void testAnalysisTestTransitionOnAnalysisTest() throws Exception {
useConfiguration("--copt=yeehaw");
scratch.file(
"test/extension.bzl",
"MyInfo = provider()",
"MyDep = provider()",
"",
"def outer_rule_impl(ctx):",
" return [MyInfo(copts = ctx.fragments.cpp.copts),",
" MyDep(info = ctx.attr.dep[0][MyInfo]),",
" AnalysisTestResultInfo(success = True, message = 'message contents')]",
"def inner_rule_impl(ctx):",
" return [MyInfo(copts = ctx.fragments.cpp.copts)]",
"",
"my_transition = analysis_test_transition(",
" settings = {",
" '//command_line_option:copt' : ['cowabunga'] }",
")",
"inner_rule = rule(implementation = inner_rule_impl,",
" fragments = ['cpp'])",
"outer_rule_test = rule(",
" implementation = outer_rule_impl,",
" fragments = ['cpp'],",
" analysis_test = True,",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
" })");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'inner_rule', 'outer_rule_test')",
"",
"inner_rule(name = 'inner')",
"outer_rule_test(name = 'r', dep = ':inner')");
StarlarkProvider.Key myInfoKey =
new StarlarkProvider.Key(Label.parseCanonical("//test:extension.bzl"), "MyInfo");
StarlarkProvider.Key myDepKey =
new StarlarkProvider.Key(Label.parseCanonical("//test:extension.bzl"), "MyDep");
ConfiguredTarget outerTarget = getConfiguredTarget("//test:r");
StructImpl outerInfo = (StructImpl) outerTarget.get(myInfoKey);
StructImpl outerDepInfo = (StructImpl) outerTarget.get(myDepKey);
StructImpl innerInfo = (StructImpl) outerDepInfo.getValue("info");
assertThat((Sequence) outerInfo.getValue("copts")).containsExactly("yeehaw");
assertThat((Sequence) innerInfo.getValue("copts")).containsExactly("cowabunga");
}
// Regression test for b/168715549 which exposed a bug when an analysistest transition
// set an option to the same value it already had in the configuration, depended on a c++ rule,
// and was built at the same time as the same cc rule not under transition. Basically it's
// ensuring that analysistests are never treated as no-op transitions (which don't update the
// output directory).
@Test
public void testAnalysisTestTransitionOnAndWithCcRuleHasNoActionConflicts() throws Exception {
scratch.file(
"test/extension.bzl",
"test_transition = analysis_test_transition(",
" settings = {'//command_line_option:compilation_mode': 'fastbuild'}",
")",
"def _test_impl(ctx):",
" return [AnalysisTestResultInfo(success = True, message = 'message contents')]",
"my_analysis_test = rule(",
" implementation = _test_impl,",
" attrs = {",
" 'target_under_test': attr.label(cfg = test_transition),",
" },",
" test = True,",
" analysis_test = True",
")",
"def _impl(ctx):",
" pass",
"",
"parent = rule(",
" implementation = _impl,",
" attrs = {",
" 'one': attr.label(),",
" 'two': attr.label(),",
" },",
")");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'my_analysis_test', 'parent')",
"cc_library(name = 'dep')",
"my_analysis_test(",
" name = 'test',",
" target_under_test = ':dep',",
")",
"parent(",
" name = 'parent',",
// Needs to be testonly to depend on a test rule.
" testonly = True,",
" one = ':dep',",
" two = ':test',",
")");
useConfiguration("--compilation_mode=fastbuild");
getConfiguredTarget("//test:parent");
}
@Test
public void testAnalysisTestTransitionOnNonAnalysisTest() throws Exception {
scratch.file(
"test/extension.bzl",
"def custom_rule_impl(ctx):",
" return []",
"my_transition = analysis_test_transition(",
" settings = {",
" '//command_line_option:foo' : 'yeehaw' }",
")",
"",
"custom_rule = rule(",
" implementation = custom_rule_impl,",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
" })");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent(
"Only rule definitions with analysis_test=True may have attributes "
+ "with analysis_test_transition transitions");
}
@Test
public void testBuildSettingRule_flag() throws Exception {
scratch.file("test/rules.bzl",
"def _impl(ctx): return None",
"build_setting_rule = rule(_impl, build_setting = config.string(flag=True))");
scratch.file("test/BUILD",
"load('//test:rules.bzl', 'build_setting_rule')",
"build_setting_rule(name = 'my_build_setting', build_setting_default = 'default')");
BuildSetting buildSetting =
getTarget("//test:my_build_setting")
.getAssociatedRule()
.getRuleClassObject()
.getBuildSetting();
assertThat(buildSetting.getType()).isEqualTo(Type.STRING);
assertThat(buildSetting.isFlag()).isTrue();
}
@Test
public void testBuildSettingRule_settingByDefault() throws Exception {
scratch.file("test/rules.bzl",
"def _impl(ctx): return None",
"build_setting_rule = rule(_impl, build_setting = config.string())");
scratch.file("test/BUILD",
"load('//test:rules.bzl', 'build_setting_rule')",
"build_setting_rule(name = 'my_build_setting', build_setting_default = 'default')");
BuildSetting buildSetting =
getTarget("//test:my_build_setting")
.getAssociatedRule()
.getRuleClassObject()
.getBuildSetting();
assertThat(buildSetting.getType()).isEqualTo(Type.STRING);
assertThat(buildSetting.isFlag()).isFalse();
}
@Test
public void testBuildSettingRule_settingByFlagParameter() throws Exception {
scratch.file("test/rules.bzl",
"def _impl(ctx): return None",
"build_setting_rule = rule(_impl, build_setting = config.string(flag=False))");
scratch.file("test/BUILD",
"load('//test:rules.bzl', 'build_setting_rule')",
"build_setting_rule(name = 'my_build_setting', build_setting_default = 'default')");
BuildSetting buildSetting =
getTarget("//test:my_build_setting")
.getAssociatedRule()
.getRuleClassObject()
.getBuildSetting();
assertThat(buildSetting.getType()).isEqualTo(Type.STRING);
assertThat(buildSetting.isFlag()).isFalse();
}
@Test
public void testBuildSettingRule_noDefault() throws Exception {
scratch.file("test/rules.bzl",
"def _impl(ctx): return None",
"build_setting_rule = rule(_impl, build_setting = config.string())");
scratch.file("test/BUILD",
"load('//test:rules.bzl', 'build_setting_rule')",
"build_setting_rule(name = 'my_build_setting')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:my_build_setting");
assertContainsEvent("missing value for mandatory attribute "
+ "'build_setting_default' in 'build_setting_rule' rule");
}
@Test
public void testAnalysisTestCannotDependOnAnalysisTest() throws Exception {
scratch.file(
"test/extension.bzl",
"",
"def analysis_test_rule_impl(ctx):",
" return [AnalysisTestResultInfo(success = True, message = 'message contents')]",
"def middle_rule_impl(ctx):",
" return []",
"def inner_rule_impl(ctx):",
" return [AnalysisTestResultInfo(success = True, message = 'message contents')]",
"",
"my_transition = analysis_test_transition(",
" settings = {",
" '//command_line_option:foo' : 'yeehaw' }",
")",
"",
"inner_rule_test = rule(",
" implementation = analysis_test_rule_impl,",
" analysis_test = True,",
")",
"middle_rule = rule(",
" implementation = middle_rule_impl,",
" attrs = {'dep': attr.label()}",
")",
"outer_rule_test = rule(",
" implementation = analysis_test_rule_impl,",
" analysis_test = True,",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
" })");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'outer_rule_test', 'middle_rule', 'inner_rule_test')",
"",
"outer_rule_test(name = 'outer', dep = ':middle')",
"middle_rule(name = 'middle', dep = ':inner')",
"inner_rule_test(name = 'inner')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:outer");
assertContainsEvent(
"analysis_test rule '//test:inner' cannot be transitively "
+ "depended on by another analysis test rule");
}
@Test
public void testAnalysisTestOverDepsLimit() throws Exception {
setupAnalysisTestDepsLimitTest(10, 12, true);
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent(
"analysis test rule exceeded maximum dependency edge count. " + "Count: 14. Limit is 10.");
}
@Test
public void testAnalysisTestUnderDepsLimit() throws Exception {
setupAnalysisTestDepsLimitTest(10, 8, true);
assertThat(getConfiguredTarget("//test:r")).isNotNull();
}
@Test
public void testAnalysisDepsLimitOnlyForTransition() throws Exception {
setupAnalysisTestDepsLimitTest(3, 10, false);
assertThat(getConfiguredTarget("//test:r")).isNotNull();
}
private void setupAnalysisTestDepsLimitTest(
int limit, int dependencyChainSize, boolean useTransition) throws Exception {
Preconditions.checkArgument(dependencyChainSize > 2);
useConfiguration("--analysis_testing_deps_limit=" + limit);
String transitionDefinition;
if (useTransition) {
transitionDefinition =
"my_transition = analysis_test_transition("
+ "settings = {'//command_line_option:foo' : 'yeehaw' })";
} else {
transitionDefinition = "my_transition = None";
}
scratch.file(
"test/extension.bzl",
"",
"def outer_rule_impl(ctx):",
" return [AnalysisTestResultInfo(success = True, message = 'message contents')]",
"def dep_rule_impl(ctx):",
" return []",
"",
transitionDefinition,
"",
"dep_rule = rule(",
" implementation = dep_rule_impl,",
" attrs = {'deps': attr.label_list()}",
")",
"outer_rule_test = rule(",
" implementation = outer_rule_impl,",
" fragments = ['java'],",
" analysis_test = True,",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
" })");
// Create a chain of targets where 'innerN' depends on 'inner{N+1}' until the max length.
StringBuilder dependingRulesChain = new StringBuilder();
for (int i = 0; i < dependencyChainSize - 1; i++) {
// Each dep_rule target also depends on the leaf.
// The leaf should not be counted multiple times.
dependingRulesChain.append(
String.format(
"dep_rule(name = 'inner%s', deps = [':inner%s', ':inner%s'])\n",
i, (i + 1), dependencyChainSize));
}
dependingRulesChain.append(
String.format(
"dep_rule(name = 'inner%s', deps = [':inner%s'])\n",
dependencyChainSize - 1, dependencyChainSize));
dependingRulesChain.append(String.format("dep_rule(name = 'inner%s')", dependencyChainSize));
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'dep_rule', 'outer_rule_test')",
"",
"outer_rule_test(name = 'r', dep = ':inner0')",
dependingRulesChain.toString());
}
@Test
public void testBadAllowlistTransition_onNonLabelAttr() throws Exception {
String allowlistAttributeName =
FunctionSplitTransitionAllowlist.ATTRIBUTE_NAME.replace("$", "_");
scratch.file(
"test/rules.bzl",
"def _impl(ctx):",
" return []",
"",
"my_rule = rule(_impl, attrs = {'"
+ allowlistAttributeName
+ "':attr.string(default = 'blah')})");
scratch.file("test/BUILD", "load('//test:rules.bzl', 'my_rule')", "my_rule(name = 'my_rule')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:my_rule");
assertContainsEvent("_allowlist_function_transition attribute must be a label type");
}
@Test
public void testBadAllowlistTransition_noDefaultValue() throws Exception {
String allowlistAttributeName =
FunctionSplitTransitionAllowlist.ATTRIBUTE_NAME.replace("$", "_");
scratch.file(
"test/rules.bzl",
"def _impl(ctx):",
" return []",
"",
"my_rule = rule(_impl, attrs = {'" + allowlistAttributeName + "':attr.label()})");
scratch.file("test/BUILD", "load('//test:rules.bzl', 'my_rule')", "my_rule(name = 'my_rule')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:my_rule");
assertContainsEvent("_allowlist_function_transition attribute must have a default value");
}
@Test
public void testBadAllowlistTransition_wrongDefaultValue() throws Exception {
String allowlistAttributeName =
FunctionSplitTransitionAllowlist.ATTRIBUTE_NAME.replace("$", "_");
scratch.file(
"test/rules.bzl",
"def _impl(ctx):",
" return []",
"",
"my_rule = rule(_impl, attrs = {'"
+ allowlistAttributeName
+ "':attr.label(default = Label('//test:my_other_rule'))})");
scratch.file(
"test/BUILD",
"load('//test:rules.bzl', 'my_rule')",
"my_rule(name = 'my_rule')",
"my_rule(name = 'my_other_rule')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:my_rule");
assertContainsEvent(
" _allowlist_function_transition attribute (//test:my_other_rule) does not have the"
+ " expected value");
}
@Test
public void testBadAnalysisTestRule_notAnalysisTest() throws Exception {
scratch.file(
"test/extension.bzl",
"",
"def outer_rule_impl(ctx):",
" return [AnalysisTestResultInfo(success = True, message = 'message contents')]",
"def dep_rule_impl(ctx):",
" return []",
"",
"my_transition = analysis_test_transition(",
" settings = {",
" '//command_line_option:foo' : 'yeehaw' }",
")",
"dep_rule = rule(",
" implementation = dep_rule_impl,",
" attrs = {'dep': attr.label()}",
")",
"outer_rule = rule(",
" implementation = outer_rule_impl,",
"# analysis_test = True,",
" fragments = ['java'],",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
" })");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'dep_rule', 'outer_rule')",
"",
"outer_rule(name = 'r', dep = ':inner')",
"dep_rule(name = 'inner')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:outer_rule");
assertContainsEvent(
"Only rule definitions with analysis_test=True may have attributes with "
+ "analysis_test_transition transitions");
}
@Test
public void testBadAllowlistTransition_noAllowlist() throws Exception {
scratch.overwriteFile(
"tools/allowlists/function_transition_allowlist/BUILD",
"package_group(",
" name = 'function_transition_allowlist',",
" packages = [",
" '//test/...',",
" ],",
")");
scratch.file(
"test/rules.bzl",
"def transition_func(settings):",
" return {'t0': {'//command_line_option:cpu': 'k8'}}",
"my_transition = transition(implementation = transition_func, inputs = [],",
" outputs = ['//command_line_option:cpu'])",
"def _my_rule_impl(ctx): ",
" return []",
"my_rule = rule(",
" implementation = _my_rule_impl,",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
"# '_allowlist_function_transition': attr.label(",
"# default = '//tools/allowlists/function_transition_allowlist',",
"# ),",
" })",
"def _simple_rule_impl(ctx):",
" return []",
"simple_rule = rule(_simple_rule_impl)");
scratch.file(
"test/BUILD",
"load('//test:rules.bzl', 'my_rule', 'simple_rule')",
"my_rule(name = 'my_rule', dep = ':dep')",
"simple_rule(name = 'dep')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:my_rule");
assertContainsEvent("Use of Starlark transition without allowlist");
}
@Test
public void testPrintFromTransitionImpl() throws Exception {
// This test not only asserts expected behavior, it also checks that Starlark transition caching
// doesn't suppress non-error transition events like print(). Also see
// transitionErrorAlwaysReported for the equivalent cache test for error events.
scratch.overwriteFile(
"tools/allowlists/function_transition_allowlist/BUILD",
"package_group(",
" name = 'function_transition_allowlist',",
" packages = [",
" '//test/...',",
" ],",
")");
scratch.file(
"test/rules.bzl",
"def _transition_impl(settings, attr):",
" print('printing from transition impl', settings['//command_line_option:foo'])",
" return {'//command_line_option:foo': " + "settings['//command_line_option:foo']+'meow'}",
"my_transition = transition(",
" implementation = _transition_impl,",
" inputs = ['//command_line_option:foo'],",
" outputs = ['//command_line_option:foo'],",
")",
"def _rule_impl(ctx):",
" return []",
"my_rule = rule(",
" implementation = _rule_impl,",
" cfg = my_transition,",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
" '_allowlist_function_transition': attr.label(",
" default = '//tools/allowlists/function_transition_allowlist',",
" ),",
" }",
")");
scratch.file(
"test/BUILD",
"load('//test:rules.bzl', 'my_rule')",
"my_rule(name = 'test', dep = ':dep')",
"my_rule(name = 'dep')");
useConfiguration("--foo=meow");
getConfiguredTarget("//test");
// Test print from top level transition
assertContainsEvent("printing from transition impl meow");
// Test print from dep transition
assertContainsEvent("printing from transition impl meowmeow");
// Test print from (non-top level) rule class transition
assertContainsEvent("printing from transition impl meowmeowmeow");
}
@Test
public void transitionErrorAlwaysReported() throws Exception {
// For performance reasons, Starlark transition calls are cached (see
// ConfigurationResolver#starlarkTransitionCache). We have to be careful to preserve
// determinism, which includes consistent error reporting.
scratch.overwriteFile(
"tools/allowlists/function_transition_allowlist/BUILD",
"package_group(",
" name = 'function_transition_allowlist',",
" packages = [",
" '//test/...',",
" ],",
")");
scratch.file(
"test/rules.bzl",
"def _transition_impl(settings, attr):",
" fail('bad transition')",
"my_transition = transition(",
" implementation = _transition_impl,",
" inputs = [],",
" outputs = ['//command_line_option:bar'],",
")",
"def _rule_impl(ctx):",
" return []",
"my_rule = rule(",
" implementation = _rule_impl,",
" cfg = my_transition,",
" attrs = {",
" '_allowlist_function_transition': attr.label(",
" default = '//tools/allowlists/function_transition_allowlist',",
" ),",
" }",
")");
scratch.file("test/BUILD", "load('//test:rules.bzl', 'my_rule')", "my_rule(name = 'mytarget')");
reporter.removeHandler(failFastHandler);
// Try #1: this invokes the transition for the first time, which fails.
getConfiguredTarget("//test:mytarget");
assertContainsEvent("bad transition");
// Try #2: make sure the cache doesn't suppress the error message.
eventCollector.clear();
getConfiguredTarget("//test:mytarget");
assertContainsEvent("bad transition");
}
@Test
public void testTransitionEquality() throws Exception {
scratch.overwriteFile(
"tools/allowlists/function_transition_allowlist/BUILD",
"package_group(",
" name = 'function_transition_allowlist',",
" packages = [",
" '//test/...',",
" ],",
")");
scratch.file(
"test/rules.bzl",
"def _transition_impl(settings, attr):",
" return {'//command_line_option:foo': 'meow'}",
"my_transition = transition(",
" implementation = _transition_impl,",
" inputs = [],",
" outputs = ['//command_line_option:foo'],",
")",
"def _rule_impl(ctx):",
" return []",
"my_rule = rule(",
" implementation = _rule_impl,",
" cfg = my_transition,",
" attrs = {",
" 'dep': attr.label(cfg = my_transition),",
" '_allowlist_function_transition': attr.label(",
" default = '//tools/allowlists/function_transition_allowlist',",
" ),",
" }",
")");
scratch.file(
"test/BUILD",
"load('//test:rules.bzl', 'my_rule')",
"my_rule(name = 'test', dep = ':dep')",
"my_rule(name = 'dep')");
useConfiguration("--foo=meow");
StarlarkDefinedConfigTransition ruleTransition =
((StarlarkAttributeTransitionProvider)
getTarget("//test")
.getAssociatedRule()
.getRuleClassObject()
.getAttributeByName("dep")
.getTransitionFactory())
.getStarlarkDefinedConfigTransitionForTesting();
StarlarkDefinedConfigTransition attrTransition =
((StarlarkRuleTransitionProvider)
getTarget("//test").getAssociatedRule().getRuleClassObject().getTransitionFactory())
.getStarlarkDefinedConfigTransitionForTesting();
assertThat(ruleTransition).isEqualTo(attrTransition);
assertThat(attrTransition).isEqualTo(ruleTransition);
assertThat(ruleTransition.hashCode()).isEqualTo(attrTransition.hashCode());
}
@Test
public void testBadAllowlistTransition_allowlistNoCfg() throws Exception {
scratch.overwriteFile(
"tools/allowlists/function_transition_allowlist/BUILD",
"package_group(",
" name = 'function_transition_allowlist',",
" packages = [",
" '//test/...',",
" ],",
")");
scratch.file(
"test/rules.bzl",
"def _my_rule_impl(ctx): ",
" return []",
"my_rule = rule(",
" implementation = _my_rule_impl,",
" attrs = {",
"# 'dep': attr.label(cfg = my_transition),",
" '_allowlist_function_transition': attr.label(",
" default = '//tools/allowlists/function_transition_allowlist',",
" ),",
" })",
"def _simple_rule_impl(ctx):",
" return []",
"simple_rule = rule(_simple_rule_impl)");
scratch.file(
"test/BUILD",
"load('//test:rules.bzl', 'my_rule', 'simple_rule')",
"my_rule(name = 'my_rule', dep = ':dep')",
"simple_rule(name = 'dep')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:my_rule");
assertContainsEvent("Unused function-based split transition allowlist");
}
@Test
public void testLicenseType() throws Exception {
// Note that attr.license is deprecated, and thus this test is subject to imminent removal.
// (See --incompatible_no_attr_license). However, this verifies that until the attribute
// is removed, values of the attribute are a valid Starlark type.
setBuildLanguageOptions("--incompatible_no_attr_license=false");
scratch.file(
"test/rule.bzl",
"def _my_rule_impl(ctx): ",
" print(ctx.attr.my_license)",
"my_rule = rule(",
" implementation = _my_rule_impl,",
" attrs = {",
" 'my_license': attr.license(),",
" })");
scratch.file("test/BUILD", "load(':rule.bzl', 'my_rule')", "my_rule(name = 'test')");
getConfiguredTarget("//test:test");
assertContainsEvent("[none]");
}
@Test
public void testNativeModuleFields() throws Exception {
// Check that
scratch.file(
"test/file.bzl",
"def valid(s):",
" if not s[0].isalpha(): return False",
" for c in s.elems():",
" if not (c.isalpha() or c == '_' or c.isdigit()): return False",
" return True",
"",
"bad_names = [name for name in dir(native) if not valid(name)]",
"print('bad_names =', bad_names)");
scratch.file("test/BUILD", "load('//test:file.bzl', 'bad_names')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:anything");
assertContainsEvent("bad_names = []");
}
@Test
public void testDisallowStructProviderSyntax() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=true");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return struct()",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'cr')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:cr");
assertContainsEvent(
"Returning a struct from a rule implementation function is deprecated and will be "
+ "removed soon. It may be temporarily re-enabled by setting "
+ "--incompatible_disallow_struct_provider_syntax=false");
}
@Test
public void testDisableTargetProviderFields() throws Exception {
setBuildLanguageOptions("--incompatible_disable_target_provider_fields=true");
scratch.file(
"test/starlark/rule.bzl",
"MyProvider = provider()",
"",
"def _my_rule_impl(ctx): ",
" print(ctx.attr.dep.my_info)",
"def _dep_rule_impl(ctx): ",
" my_info = MyProvider(foo = 'bar')",
" return struct(my_info = my_info, providers = [my_info])",
"my_rule = rule(",
" implementation = _my_rule_impl,",
" attrs = {",
" 'dep': attr.label(),",
" })",
"dep_rule = rule(implementation = _dep_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load(':rule.bzl', 'my_rule', 'dep_rule')",
"",
"my_rule(name = 'r', dep = ':d')",
"dep_rule(name = 'd')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:r");
assertContainsEvent(
"Accessing providers via the field syntax on structs is deprecated and will be removed "
+ "soon. It may be temporarily re-enabled by setting "
+ "--incompatible_disable_target_provider_fields=false. "
+ "See https://github.com/bazelbuild/bazel/issues/9014 for details.");
}
// Verifies that non-provider fields on the 'target' type are still available even with
// --incompatible_disable_target_provider_fields.
@Test
public void testDisableTargetProviderFields_actionsField() throws Exception {
setBuildLanguageOptions("--incompatible_disable_target_provider_fields=true");
scratch.file(
"test/starlark/rule.bzl",
"MyProvider = provider()",
"",
"def _my_rule_impl(ctx): ",
" print(ctx.attr.dep.actions)",
"def _dep_rule_impl(ctx): ",
" my_info = MyProvider(foo = 'bar')",
" return struct(my_info = my_info, providers = [my_info])",
"my_rule = rule(",
" implementation = _my_rule_impl,",
" attrs = {",
" 'dep': attr.label(),",
" })",
"dep_rule = rule(implementation = _dep_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load(':rule.bzl', 'my_rule', 'dep_rule')",
"",
"my_rule(name = 'r', dep = ':d')",
"dep_rule(name = 'd')");
assertThat(getConfiguredTarget("//test/starlark:r")).isNotNull();
}
@Test
public void testDisableTargetProviderFields_disabled() throws Exception {
setBuildLanguageOptions("--incompatible_disable_target_provider_fields=false");
scratch.file(
"test/starlark/rule.bzl",
"MyProvider = provider()",
"",
"def _my_rule_impl(ctx): ",
" print(ctx.attr.dep.my_info)",
"def _dep_rule_impl(ctx): ",
" my_info = MyProvider(foo = 'bar')",
" return struct(my_info = my_info, providers = [my_info])",
"my_rule = rule(",
" implementation = _my_rule_impl,",
" attrs = {",
" 'dep': attr.label(),",
" })",
"dep_rule = rule(implementation = _dep_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load(':rule.bzl', 'my_rule', 'dep_rule')",
"",
"my_rule(name = 'r', dep = ':d')",
"dep_rule(name = 'd')");
assertThat(getConfiguredTarget("//test/starlark:r")).isNotNull();
}
@Test
public void testNoRuleOutputsParam() throws Exception {
setBuildLanguageOptions("--incompatible_no_rule_outputs_param=true");
scratch.file(
"test/starlark/test_rule.bzl",
"def _impl(ctx):",
" output = ctx.outputs.out",
" ctx.actions.write(output = output, content = 'hello')",
"",
"my_rule = rule(",
" implementation = _impl,",
" outputs = {\"out\": \"%{name}.txt\"})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:target");
assertContainsEvent(
"parameter 'outputs' is deprecated and will be removed soon. It may be temporarily "
+ "re-enabled by setting --incompatible_no_rule_outputs_param=false");
}
@Test
public void testExecutableNotInRunfiles() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" exe = ctx.actions.declare_file('exe')",
" ctx.actions.run_shell(outputs=[exe], command='touch exe')",
" runfile = ctx.actions.declare_file('rrr')",
" ctx.actions.run_shell(outputs=[runfile], command='touch rrr')",
" return struct(executable = exe, default_runfiles = ctx.runfiles(files = [runfile]))",
"my_rule = rule(implementation = _my_rule_impl, executable = True)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:target");
assertContainsEvent("exe not included in runfiles");
}
@Test
public void testCommandStringList() throws Exception {
setBuildLanguageOptions("--incompatible_run_shell_command_string");
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" exe = ctx.actions.declare_file('exe')",
" ctx.actions.run_shell(outputs=[exe], command=['touch', 'exe'])",
" return []",
"my_rule = rule(implementation = _my_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:target");
assertContainsEvent("'command' must be of type string");
}
// Regression test for b/180124719.
@Test
public void actionsRunShell_argumentsNonSequenceValue_fails() throws Exception {
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" exe = ctx.actions.declare_file('exe')",
" ctx.actions.run_shell(outputs=[exe], command='touch', arguments='exe')",
" return []",
"my_rule = rule(implementation = _my_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:target");
assertContainsEvent("'arguments' got value of type 'string', want 'sequence'");
}
/** Starlark integration test that forces inlining. */
@RunWith(JUnit4.class)
public static class StarlarkIntegrationTestsWithInlineCalls extends StarlarkIntegrationTest {
@Override
protected boolean usesInliningBzlLoadFunction() {
return true;
}
@Override
@Test
public void testRecursiveLoad() throws Exception {
scratch.file("test/starlark/ext2.bzl", "load('//test/starlark:ext1.bzl', 'symbol2')");
scratch.file("test/starlark/ext1.bzl", "load('//test/starlark:ext2.bzl', 'symbol1')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:ext1.bzl', 'custom_rule')",
"genrule(name = 'rule')");
reporter.removeHandler(failFastHandler);
BuildFileContainsErrorsException e =
assertThrows(
BuildFileContainsErrorsException.class, () -> getTarget("//test/starlark:rule"));
assertThat(e)
.hasMessageThat()
.contains("Starlark load cycle: [//test/starlark:ext1.bzl, //test/starlark:ext2.bzl]");
}
@Override
@Test
public void testRecursiveLoad2() throws Exception {
scratch.file("test/starlark/ext1.bzl", "load('//test/starlark:ext2.bzl', 'symbol2')");
scratch.file("test/starlark/ext2.bzl", "load('//test/starlark:ext3.bzl', 'symbol3')");
scratch.file("test/starlark/ext3.bzl", "load('//test/starlark:ext4.bzl', 'symbol4')");
scratch.file("test/starlark/ext4.bzl", "load('//test/starlark:ext2.bzl', 'symbol2')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:ext1.bzl', 'custom_rule')",
"genrule(name = 'rule')");
reporter.removeHandler(failFastHandler);
BuildFileContainsErrorsException e =
assertThrows(
BuildFileContainsErrorsException.class, () -> getTarget("//test/starlark:rule"));
assertThat(e)
.hasMessageThat()
.contains(
"Starlark load cycle: [//test/starlark:ext2.bzl, "
+ "//test/starlark:ext3.bzl, //test/starlark:ext4.bzl]");
}
}
@Test
public void testUnhashableInDictForbidden() throws Exception {
scratch.file("test/extension.bzl", "y = [] in {}");
scratch.file("test/BUILD", "load('//test:extension.bzl', 'y')", "cc_library(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("unhashable type: 'list'");
}
@Test
public void testDictGetUnhashableForbidden() throws Exception {
scratch.file("test/extension.bzl", "y = {}.get({})");
scratch.file("test/BUILD", "load('//test:extension.bzl', 'y')", "cc_library(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("unhashable type: 'dict'");
}
@Test
public void testUnknownStringEscapesForbidden() throws Exception {
scratch.file("test/extension.bzl", "y = \"\\z\"");
scratch.file("test/BUILD", "load('//test:extension.bzl', 'y')", "cc_library(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("invalid escape sequence: \\z");
}
@Test
public void testSplitEmptySeparatorForbidden() throws Exception {
scratch.file("test/extension.bzl", "y = 'abc'.split('')");
scratch.file("test/BUILD", "load('//test:extension.bzl', 'y')", "cc_library(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("Empty separator");
}
@Test
public void testIdentifierAssignmentFromOuterScope2() throws Exception {
scratch.file(
"test/extension.bzl",
"a = [1, 2, 3]",
"def f(): a[0] = 9",
"y = f()",
"fail() if a[0] != 9 else None");
scratch.file("test/BUILD", "load('//test:extension.bzl', 'y')", "cc_library(name = 'r')");
getConfiguredTarget("//test:r");
}
@Test
public void testIdentifierAssignmentFromOuterScopeForbidden() throws Exception {
scratch.file("test/extension.bzl", "a = []", "def f(): a += [1]", "y = f()");
scratch.file("test/BUILD", "load('//test:extension.bzl', 'y')", "cc_library(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("local variable 'a' is referenced before assignment");
}
@Test
public void testHashFrozenListForbidden() throws Exception {
scratch.file("test/extension.bzl", "y = []");
scratch.file(
"test/BUILD", "load('//test:extension.bzl', 'y')", "{y: 1}", "cc_library(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("unhashable type: 'list'");
}
@Test
public void testHashFrozenDeepMutableForbidden() throws Exception {
scratch.file("test/extension.bzl", "y = {}");
scratch.file(
"test/BUILD",
"load('//test:extension.bzl', 'y')",
"{('a', (y,), True): None}",
"cc_library(name = 'r')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test:r");
assertContainsEvent("unhashable type: 'dict'");
}
@Test
public void testNoOutputsError() throws Exception {
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" ctx.actions.run_shell(outputs=[], command='foo')",
"my_rule = rule(implementation = _my_rule_impl, executable = True)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:target");
assertContainsEvent("param 'outputs' may not be empty");
}
@Test
public void testDeclareFileInvalidDirectory_withSibling() throws Exception {
scratch.file("test/dep/test_file.txt", "Test file");
scratch.file("test/dep/BUILD", "exports_files(['test_file.txt'])");
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" exe = ctx.actions.declare_file('exe', sibling = ctx.file.dep)",
" ctx.actions.run_shell(outputs=[exe], command=['touch', 'exe'])",
" return []",
"my_rule = rule(implementation = _my_rule_impl,",
" attrs = {'dep': attr.label(allow_single_file = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target', dep = '//test/dep:test_file.txt')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//test/starlark:target");
assertContainsEvent(
"the output artifact 'test/dep/exe' is not under package directory "
+ "'test/starlark' for target '//test/starlark:target'");
}
@Test
public void testDeclareFileInvalidDirectory_noSibling() throws Exception {
scratch.file("test/dep/test_file.txt", "Test file");
scratch.file("test/dep/BUILD", "exports_files(['test_file.txt'])");
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" exe = ctx.actions.declare_file('/foo/exe')",
" ctx.actions.run_shell(outputs=[exe], command=['touch', 'exe'])",
" return []",
"my_rule = rule(implementation = _my_rule_impl,",
" attrs = {'dep': attr.label(allow_single_file = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target', dep = '//test/dep:test_file.txt')");
reporter.removeHandler(failFastHandler);
assertThat(getConfiguredTarget("//test/starlark:target")).isNull();
assertContainsEvent(
"the output artifact '/foo/exe' is not under package directory "
+ "'test/starlark' for target '//test/starlark:target'");
}
@Test
public void testDeclareDirectoryInvalidParent_withSibling() throws Exception {
scratch.file("test/dep/test_file.txt", "Test file");
scratch.file("test/dep/BUILD", "exports_files(['test_file.txt'])");
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" exe = ctx.actions.declare_directory('/foo/exe', sibling = ctx.file.dep)",
" ctx.actions.run_shell(outputs=[exe], command=['touch', 'exe'])",
" return []",
"my_rule = rule(implementation = _my_rule_impl,",
" attrs = {'dep': attr.label(allow_single_file = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target', dep = '//test/dep:test_file.txt')");
reporter.removeHandler(failFastHandler);
assertThat(getConfiguredTarget("//test/starlark:target")).isNull();
assertContainsEvent(
"the output directory '/foo/exe' is not under package directory "
+ "'test/starlark' for target '//test/starlark:target'");
}
@Test
public void testDeclareDirectoryInvalidParent_noSibling() throws Exception {
scratch.file("test/dep/test_file.txt", "Test file");
scratch.file("test/dep/BUILD", "exports_files(['test_file.txt'])");
scratch.file(
"test/starlark/test_rule.bzl",
"def _my_rule_impl(ctx):",
" exe = ctx.actions.declare_directory('/foo/exe')",
" ctx.actions.run_shell(outputs=[exe], command=['touch', 'exe'])",
" return []",
"my_rule = rule(implementation = _my_rule_impl,",
" attrs = {'dep': attr.label(allow_single_file = True)})");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:test_rule.bzl', 'my_rule')",
"my_rule(name = 'target', dep = '//test/dep:test_file.txt')");
reporter.removeHandler(failFastHandler);
assertThat(getConfiguredTarget("//test/starlark:target")).isNull();
assertContainsEvent(
"the output directory '/foo/exe' is not under package directory "
+ "'test/starlark' for target '//test/starlark:target'");
}
@Test
public void testLegacyProvider_addCanonicalLegacyKeyAndModernKey() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return struct(foo = apple_common.new_objc_provider(linkopt=depset(['foo'])))",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'test')");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:test");
ObjcProvider providerFromModernKey = target.get(ObjcProvider.STARLARK_CONSTRUCTOR);
ObjcProvider providerFromObjc = (ObjcProvider) target.get("objc");
ObjcProvider providerFromFoo = (ObjcProvider) target.get("foo");
// The modern key and the canonical legacy key "objc" are set to the one available ObjcProvider.
assertThat(providerFromModernKey.get(ObjcProvider.LINKOPT).toList()).containsExactly("foo");
assertThat(providerFromObjc.get(ObjcProvider.LINKOPT).toList()).containsExactly("foo");
assertThat(providerFromFoo.get(ObjcProvider.LINKOPT).toList()).containsExactly("foo");
}
@Test
public void testLegacyProvider_dontAutomaticallyAddKeysAlreadyPresent() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return struct(providers = [apple_common.new_objc_provider(linkopt=depset(['prov']))],",
" bah = apple_common.new_objc_provider(linkopt=depset(['bah'])),",
" objc = apple_common.new_objc_provider(linkopt=depset(['objc'])))",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'test')");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:test");
ObjcProvider providerFromModernKey = target.get(ObjcProvider.STARLARK_CONSTRUCTOR);
ObjcProvider providerFromObjc = (ObjcProvider) target.get("objc");
ObjcProvider providerFromBah = (ObjcProvider) target.get("bah");
assertThat(providerFromModernKey.get(ObjcProvider.LINKOPT).toList()).containsExactly("prov");
assertThat(providerFromObjc.get(ObjcProvider.LINKOPT).toList()).containsExactly("objc");
assertThat(providerFromBah.get(ObjcProvider.LINKOPT).toList()).containsExactly("bah");
}
@Test
public void testLegacyProvider_firstNoncanonicalKeyBecomesCanonical() throws Exception {
setBuildLanguageOptions("--incompatible_disallow_struct_provider_syntax=false");
scratch.file(
"test/starlark/extension.bzl",
"def custom_rule_impl(ctx):",
" return struct(providers = [apple_common.new_objc_provider(linkopt=depset(['prov']))],",
" foo = apple_common.new_objc_provider(linkopt=depset(['foo'])),",
" bar = apple_common.new_objc_provider(linkopt=depset(['bar'])))",
"",
"custom_rule = rule(implementation = custom_rule_impl)");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'custom_rule')",
"",
"custom_rule(name = 'test')");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:test");
ObjcProvider providerFromModernKey = target.get(ObjcProvider.STARLARK_CONSTRUCTOR);
ObjcProvider providerFromObjc = (ObjcProvider) target.get("objc");
ObjcProvider providerFromFoo = (ObjcProvider) target.get("foo");
ObjcProvider providerFromBar = (ObjcProvider) target.get("bar");
assertThat(providerFromModernKey.get(ObjcProvider.LINKOPT).toList()).containsExactly("prov");
// The first defined provider is set to the legacy "objc" key.
assertThat(providerFromObjc.get(ObjcProvider.LINKOPT).toList()).containsExactly("foo");
assertThat(providerFromFoo.get(ObjcProvider.LINKOPT).toList()).containsExactly("foo");
assertThat(providerFromBar.get(ObjcProvider.LINKOPT).toList()).containsExactly("bar");
}
@Test
public void testCustomMallocUnset() throws Exception {
setUpCustomMallocRule();
ConfiguredTarget target = getConfiguredTarget("//test/starlark:malloc");
StructImpl provider = getMyInfoFromTarget(target);
Object customMalloc = provider.getValue("malloc");
assertThat(customMalloc).isInstanceOf(NoneType.class);
}
@Test
public void testCustomMallocSet() throws Exception {
setUpCustomMallocRule();
useConfiguration("--custom_malloc=//base:system_malloc");
ConfiguredTarget target = getConfiguredTarget("//test/starlark:malloc");
StructImpl provider = getMyInfoFromTarget(target);
RuleConfiguredTarget customMalloc = provider.getValue("malloc", RuleConfiguredTarget.class);
assertThat(customMalloc.getLabel().getCanonicalForm()).isEqualTo("//base:system_malloc");
}
private void setUpCustomMallocRule() throws IOException {
scratch.overwriteFile("base/BUILD", "cc_library(name = 'system_malloc')");
scratch.file(
"test/starlark/extension.bzl",
"load('//myinfo:myinfo.bzl', 'MyInfo')",
"",
"def _malloc_rule_impl(ctx):",
" return [MyInfo(malloc = ctx.attr._custom_malloc)]",
"",
"malloc_rule = rule(",
" implementation = _malloc_rule_impl,",
" attrs = {",
" '_custom_malloc': attr.label(",
" default = configuration_field(",
" fragment = 'cpp',",
" name = 'custom_malloc',",
" ),",
" providers = [CcInfo],",
" ),",
" }",
")");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:extension.bzl', 'malloc_rule')",
"",
"malloc_rule(name = 'malloc')");
}
// Test for an interesting situation for the inlining implementation's attempt to process
// subsequent load statements even when an earlier one has a missing Skyframe dep.
@Test
public void bzlFileWithErrorsLoadedThroughMultipleLoadPathsWithTheLatterOneHavingMissingDeps()
throws Exception {
scratch.file("test/starlark/error.bzl", "nope");
scratch.file("test/starlark/ok.bzl", "ok = 42");
scratch.file(
"test/starlark/loads-error-and-has-missing-deps.bzl",
"load('//test/starlark:error.bzl', 'doesntmatter')",
"load('//test/starlark:ok.bzl', 'ok')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:error.bzl', 'doesntmatter')",
"load('//test/starlark:loads-error-and-has-missing-deps.bzl', 'doesntmatter')");
reporter.removeHandler(failFastHandler);
BuildFileContainsErrorsException e =
assertThrows(
BuildFileContainsErrorsException.class, () -> getTarget("//test/starlark:BUILD"));
assertThat(e)
.hasMessageThat()
.contains("compilation of module 'test/starlark/error.bzl' failed");
}
// Test for an interesting situation for the inlining implementation's attempt to process
// subsequent load statements even when an earlier one has a missing Skyframe dep.
@Test
public void bzlFileWithErrorsLoadedThroughMultipleLoadPathsWithTheLatterOneNotHavingMissingDeps()
throws Exception {
scratch.file("test/starlark/error.bzl", "nope");
scratch.file("test/starlark/ok.bzl", "ok = 42");
scratch.file(
"test/starlark/loads-error-and-has-missing-deps.bzl",
"load('//test/starlark:error.bzl', 'doesntmatter')",
"load('//test/starlark:ok.bzl', 'ok')");
scratch.file(
"test/starlark/BUILD",
"load('//test/starlark:ok.bzl', 'ok')",
"load('//test/starlark:error.bzl', 'doesntmatter')",
"load('//test/starlark:loads-error-and-has-missing-deps.bzl', 'doesntmatter')");
reporter.removeHandler(failFastHandler);
BuildFileContainsErrorsException e =
assertThrows(
BuildFileContainsErrorsException.class, () -> getTarget("//test/starlark:BUILD"));
assertThat(e)
.hasMessageThat()
.contains("compilation of module 'test/starlark/error.bzl' failed");
}
@Test
public void testStarlarkRulePropagatesRunEnvironmentProvider() throws Exception {
scratch.file(
"examples/rules.bzl",
"def my_rule_impl(ctx):",
" script = ctx.actions.declare_file(ctx.attr.name)",
" ctx.actions.write(script, '', is_executable = True)",
" run_env = RunEnvironmentInfo(",
" {'FIXED': 'fixed'},",
" ['INHERITED']",
" )",
" return [",
" DefaultInfo(executable = script),",
" run_env,",
" ]",
"my_rule = rule(",
" implementation = my_rule_impl,",
" attrs = {},",
" executable = True,",
")");
scratch.file(
"examples/BUILD",
"load(':rules.bzl', 'my_rule')",
"my_rule(",
" name = 'my_target',",
")");
ConfiguredTarget starlarkTarget = getConfiguredTarget("//examples:my_target");
RunEnvironmentInfo provider = starlarkTarget.get(RunEnvironmentInfo.PROVIDER);
assertThat(provider.getEnvironment()).containsExactly("FIXED", "fixed");
assertThat(provider.getInheritedEnvironment()).containsExactly("INHERITED");
}
@Test
public void nonExecutableStarlarkRuleReturningRunEnvironmentInfoErrors() throws Exception {
scratch.file(
"examples/rules.bzl",
"def my_rule_impl(ctx):",
" return [RunEnvironmentInfo()]",
"my_rule = rule(",
" implementation = my_rule_impl,",
" attrs = {},",
")");
scratch.file(
"examples/BUILD",
"load(':rules.bzl', 'my_rule')",
"my_rule(",
" name = 'my_target',",
")");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//examples:my_target");
assertContainsEvent(
"in my_rule rule //examples:my_target: Returning RunEnvironmentInfo from a non-executable,"
+ " non-test target has no effect",
ImmutableSet.of(EventKind.ERROR));
}
@Test
public void nonExecutableStarlarkRuleReturningTestEnvironmentProducesAWarning() throws Exception {
scratch.file(
"examples/rules.bzl",
"def my_rule_impl(ctx):",
" return [testing.TestEnvironment(environment = {})]",
"my_rule = rule(",
" implementation = my_rule_impl,",
" attrs = {},",
")");
scratch.file(
"examples/BUILD",
"load(':rules.bzl', 'my_rule')",
"my_rule(",
" name = 'my_target',",
")");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//examples:my_target");
assertContainsEvent(
"in my_rule rule //examples:my_target: Returning RunEnvironmentInfo from a non-executable,"
+ " non-test target has no effect",
ImmutableSet.of(EventKind.WARNING));
}
@Test
public void identicalPrintStatementsOnSameLineNotDeduplicated_buildFileLoop() throws Exception {
scratch.file("foo/BUILD", "[print('this is a print statement') for _ in range(2)]");
update("//foo:all", /*loadingPhaseThreads=*/ 1, /*doAnalysis=*/ false);
assertContainsEventWithFrequency("this is a print statement", 2);
}
@Test
public void identicalPrintStatementsOnSameLineNotDeduplicated_macroCalledFromMultipleBuildFiles()
throws Exception {
scratch.file("defs/BUILD");
scratch.file("defs/macro.bzl", "def macro():", " print('this is a print statement')");
scratch.file("foo/BUILD", "load('//defs:macro.bzl', 'macro')", "macro()");
scratch.file("bar/BUILD", "load('//defs:macro.bzl', 'macro')", "macro()");
update("//...", /*loadingPhaseThreads=*/ 1, /*doAnalysis=*/ false);
assertContainsEventWithFrequency("this is a print statement", 2);
}
@Test
public void identicalPrintStatementsOnSameLineNotDeduplicated_ruleImplementationFunction()
throws Exception {
scratch.file(
"foo/defs.bzl",
"def _my_rule_impl(ctx):",
" print('this is a print statement')",
"my_rule = rule(implementation = _my_rule_impl)");
scratch.file(
"foo/BUILD", "load(':defs.bzl', 'my_rule')", "my_rule(name = 'a')", "my_rule(name = 'b')");
update("//foo:all", /*loadingPhaseThreads=*/ 1, /*doAnalysis=*/ true);
assertContainsEventWithFrequency("this is a print statement", 2);
}
}