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bazel / bazel / e963ec52d0795cca581a40aa03bf2f17cd1b9b6e / . / src / test / java / com / google / devtools / build / lib / skyframe / BuiltinsInjectionTest.java
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// Copyright 2020 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.skyframe;
import static com.google.common.truth.Truth.assertThat;
import static com.google.common.truth.Truth.assertWithMessage;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.devtools.build.lib.actions.ActionAnalysisMetadata;
import com.google.devtools.build.lib.actions.Artifact;
import com.google.devtools.build.lib.actions.MutableActionGraph.ActionConflictException;
import com.google.devtools.build.lib.analysis.ConfiguredRuleClassProvider;
import com.google.devtools.build.lib.analysis.ConfiguredTarget;
import com.google.devtools.build.lib.analysis.RuleConfiguredTargetBuilder;
import com.google.devtools.build.lib.analysis.RuleContext;
import com.google.devtools.build.lib.analysis.Runfiles;
import com.google.devtools.build.lib.analysis.RunfilesProvider;
import com.google.devtools.build.lib.analysis.actions.FileWriteAction;
import com.google.devtools.build.lib.analysis.util.BuildViewTestCase;
import com.google.devtools.build.lib.analysis.util.MockRule;
import com.google.devtools.build.lib.analysis.util.MockRuleDefaults;
import com.google.devtools.build.lib.collect.nestedset.NestedSetBuilder;
import com.google.devtools.build.lib.collect.nestedset.Order;
import com.google.devtools.build.lib.events.Event;
import com.google.devtools.build.lib.events.EventHandler;
import com.google.devtools.build.lib.packages.Attribute;
import com.google.devtools.build.lib.packages.BuildType;
import com.google.devtools.build.lib.packages.Type;
import com.google.devtools.build.lib.packages.semantics.BuildLanguageOptions;
import com.google.devtools.build.lib.testutil.TestRuleClassProvider;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import net.starlark.java.eval.FlagGuardedValue;
import net.starlark.java.eval.Mutability;
import net.starlark.java.eval.StarlarkList;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.JUnit4;
/**
* Tests for Starlark builtin injection.
*
* <p>Essentially these are integration tests between {@link StarlarkBuiltinsFunction}, {@link
* BzlLoadFunction}, and the rest of package loading.
*/
@RunWith(JUnit4.class)
public class BuiltinsInjectionTest extends BuildViewTestCase {
/** A simple dummy rule that doesn't do anything. */
private static final MockRule OVERRIDABLE_RULE = () -> MockRule.define("overridable_rule");
/**
* A dummy native rule that reads a value from {@code @_builtins}.
*
* <p>It looks up the symbol "builtins_defined_symbol" in exported_to_java, and prints its value
* to the event handler.
*/
private static final MockRule SANDWICH_RULE =
() -> MockRule.factory(SandwichFactory.class).define("sandwich_rule");
// Must be public due to reflective construction of rule factories.
/** Factory for SANDWICH_RULE. (Javadoc'd to pacify linter.) */
public static class SandwichFactory extends MockRuleDefaults.DefaultConfiguredTargetFactory {
@Override
public ConfiguredTarget create(RuleContext ruleContext)
throws InterruptedException, RuleErrorException, ActionConflictException {
Object value = ruleContext.getStarlarkDefinedBuiltin("builtins_defined_symbol");
EventHandler handler = ruleContext.getAnalysisEnvironment().getEventHandler();
handler.handle(Event.info("builtins_defined_symbol :: " + value.toString()));
return super.create(ruleContext);
}
}
/**
* A dummy native rule that runs {@code @_builtins}-defined code.
*
* <p>It looks up the function listed as "builtins_defined_logic" in exported_to_java, and calls
* it twice on an initially empty list. It prints both return values and the final value of the
* list. On Starlark evaluation error, it reports a rule error.
*/
private static final MockRule SANDWICH_LOGIC_RULE =
() -> MockRule.factory(SandwichLogicFactory.class).define("sandwich_logic_rule");
// Must be public due to reflective construction of rule factories.
/** Factory for SANDWICH_LOGIC_RULE. (Javadoc'd to pacify linter.) */
public static class SandwichLogicFactory extends MockRuleDefaults.DefaultConfiguredTargetFactory {
@Override
public ConfiguredTarget create(RuleContext ruleContext)
throws InterruptedException, RuleErrorException, ActionConflictException {
Mutability mu = ruleContext.getStarlarkThread().mutability();
Object func = ruleContext.getStarlarkDefinedBuiltin("builtins_defined_logic");
Object arg = StarlarkList.newList(mu);
Object return1 =
ruleContext.callStarlarkOrThrowRuleError(
func, /*args=*/ ImmutableList.of(arg), /*kwargs=*/ ImmutableMap.of());
Object return2 =
ruleContext.callStarlarkOrThrowRuleError(
func, /*args=*/ ImmutableList.of(arg), /*kwargs=*/ ImmutableMap.of());
EventHandler handler = ruleContext.getAnalysisEnvironment().getEventHandler();
handler.handle(Event.info("builtins_defined_logic call 1 :: " + return1.toString()));
handler.handle(Event.info("builtins_defined_logic call 2 :: " + return2.toString()));
handler.handle(Event.info("final list value :: " + arg.toString()));
return super.create(ruleContext);
}
}
/**
* A dummy native rule that passes a Starlark rule context ({@code ctx}) object to
* {@code @_builtins}-defined code.
*
* <p>It looks up "builtins_rule_impl_helper" in exported_to_java, and calls it with {@code ctx}
* as its sole arg. The rule has a "content" string attribute and "out" output label attribute.
* The Starlark helper function is responsible for registering an action to generate the output.
*/
private static final MockRule SANDWICH_CTX_RULE =
() ->
MockRule.factory(SandwichCtxFactory.class)
.define(
"sandwich_ctx_rule",
Attribute.attr("content", Type.STRING),
Attribute.attr("out", BuildType.OUTPUT));
// Must be public due to reflective construction of rule factories.
/** Factory for SANDWICH_CTX_RULE. (Javadoc'd to pacify linter.) */
public static class SandwichCtxFactory extends MockRuleDefaults.DefaultConfiguredTargetFactory {
@Override
public ConfiguredTarget create(RuleContext ruleContext)
throws InterruptedException, RuleErrorException, ActionConflictException {
ruleContext.initStarlarkRuleContext();
ruleContext.callStarlarkOrThrowRuleError(
ruleContext.getStarlarkDefinedBuiltin("builtins_rule_impl_helper"),
/*args=*/ ImmutableList.of(ruleContext.getStarlarkRuleContext()),
/*kwargs=*/ ImmutableMap.of());
// Don't dispatch to super.create(), which would attempt to register an action to produce
// "out".
return new RuleConfiguredTargetBuilder(ruleContext)
.setFilesToBuild(
NestedSetBuilder.wrap(Order.STABLE_ORDER, ruleContext.getOutputArtifacts()))
.setRunfilesSupport(null, null)
.add(RunfilesProvider.class, RunfilesProvider.simple(Runfiles.EMPTY))
.build();
}
}
@Override
protected Iterable<String> getDefaultsForConfiguration() {
// Override BuildViewTestCase's behavior of setting all sorts of extra options that don't exist
// on our minimal rule class provider.
// We do need the host platform. Set it to something trivial.
return ImmutableList.of("--host_platform=//minimal_buildenv/platforms:default_host");
}
@Override
protected void initializeMockClient() throws IOException {
// Don't let the AnalysisMock sneak in any WORKSPACE file content, which may depend on
// repository rules that our minimal rule class provider doesn't have.
analysisMock.setupMockClient(mockToolsConfig, ImmutableList.of());
// Provide a trivial platform definition.
mockToolsConfig.create(
"minimal_buildenv/platforms/BUILD", //
"platform(name = 'default_host')");
}
@Override
protected ConfiguredRuleClassProvider createRuleClassProvider() {
// Set up a bare-bones ConfiguredRuleClassProvider. Aside from being minimalistic, this heads
// off the possibility that we somehow grow an implicit dependency on production builtins code,
// which would break since we're overwriting --experimental_builtins_bzl_path.
ConfiguredRuleClassProvider.Builder builder = new ConfiguredRuleClassProvider.Builder();
TestRuleClassProvider.addMinimalRules(builder);
// Add some mock symbols to override.
builder
.addRuleDefinition(OVERRIDABLE_RULE)
.addRuleDefinition(SANDWICH_RULE)
.addRuleDefinition(SANDWICH_LOGIC_RULE)
.addRuleDefinition(SANDWICH_CTX_RULE)
.addBzlToplevel("overridable_symbol", "original_value")
.addBzlToplevel(
"flag_guarded_symbol",
// For this mock symbol, we reuse the same flag that guards the production
// _builtins_dummy symbol.
FlagGuardedValue.onlyWhenExperimentalFlagIsTrue(
BuildLanguageOptions.EXPERIMENTAL_BUILTINS_DUMMY, "original_value"))
.addStarlarkBuiltinsInternal("internal_symbol", "internal_value");
return builder.build();
}
@Before
public void setUp() throws Exception {
setBuildLanguageOptionsWithBuiltinsStaging();
}
private void setBuildLanguageOptionsWithBuiltinsStaging(String... options) throws Exception {
ArrayList<String> newOptions = new ArrayList<>();
newOptions.add("--experimental_builtins_bzl_path=tools/builtins_staging");
Collections.addAll(newOptions, options);
setBuildLanguageOptions(newOptions.toArray(new String[] {}));
}
/**
* Writes an exports.bzl file with the given content, in the builtins location.
*
* <p>See {@link StarlarkBuiltinsFunction#EXPORTS_ENTRYPOINT} for the significance of exports.bzl.
*/
private void writeExportsBzl(String... lines) throws Exception {
scratch.overwriteFile("tools/builtins_staging/exports.bzl", lines);
}
/**
* Writes a pkg/dummy.bzl file with the given content. Meant to be used in conjunction with {@link
* #writePkgBuild}.
*
* <p>The bzl prints a marker phrase when it finishes evaluating, and includes a dummy symbol for
* the BUILD file to load.
*/
private void writePkgBzl(String... lines) throws Exception {
List<String> modifiedLines = new ArrayList<>(Arrays.asList(lines));
modifiedLines.add("dummy_symbol = None");
// The marker phrase might not be needed, but I don't entirely trust BuildViewTestCase.
modifiedLines.add("print('dummy.bzl evaluation completed')");
scratch.overwriteFile("pkg/dummy.bzl", modifiedLines.toArray(lines));
}
/**
* Writes a pkg/BUILD file with the given content. Meant to be used in conjunction with {@link
* #writePkgBzl}.
*
* <p>The BUILD file ensures the dummy.bzl file is loaded.
*/
private void writePkgBuild(String... lines) throws Exception {
List<String> modifiedLines = new ArrayList<>(Arrays.asList(lines));
modifiedLines.add(0, "load(':dummy.bzl', 'dummy_symbol')");
scratch.overwriteFile("pkg/BUILD", modifiedLines.toArray(lines));
}
/** Builds {@code //pkg} and asserts success, including that the marker print() event occurs. */
private void buildAndAssertSuccess() throws Exception {
Object result = getConfiguredTarget("//pkg:BUILD");
assertContainsEvent("dummy.bzl evaluation completed");
// On error, getConfiguredTarget sometimes returns null without emitting events; see b/26382502.
// Though in that case it seems unlikely the above assertion would've passed.
assertThat(result).isNotNull();
}
/** Builds {@code //pkg:dummy} and asserts on the absence of the marker print() event. */
private void buildAndAssertFailure() throws Exception {
reporter.removeHandler(failFastHandler);
Object result = getConfiguredTarget("//pkg:BUILD");
assertDoesNotContainEvent("dummy.bzl evaluation completed");
assertWithMessage("Loading of //pkg succeeded unexpectedly").that(result).isNull();
}
@Test
public void basicFunctionality() throws Exception {
writeExportsBzl(
"exported_toplevels = {'overridable_symbol': 'new_value'}",
"exported_rules = {'overridable_rule': 'new_rule'}",
"exported_to_java = {}");
writePkgBuild("print('In BUILD: overridable_rule :: %s' % overridable_rule)");
writePkgBzl(
"print('In bzl: overridable_symbol :: %s' % overridable_symbol)",
"print('In bzl: overridable_rule :: %s' % native.overridable_rule)");
buildAndAssertSuccess();
assertContainsEvent("In bzl: overridable_symbol :: new_value");
assertContainsEvent("In bzl: overridable_rule :: new_rule");
assertContainsEvent("In BUILD: overridable_rule :: new_rule");
}
@Test
public void injectedBzlToplevelsAreNotVisibleToBuild() throws Exception {
// The bzl toplevel symbols aren't toplevels for BUILD files. We test that injecting them
// doesn't somehow change that.
writeExportsBzl(
"exported_toplevels = {'overridable_symbol': 'new_value'}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild("overridable_symbol");
writePkgBzl();
buildAndAssertFailure();
assertContainsEvent("name 'overridable_symbol' is not defined");
}
@Test
public void builtinsCanLoadFromBuiltins() throws Exception {
// Define a few files that we can load with different kinds of label syntax. In each case,
// access the `_builtins` symbol to demonstrate that we're being loaded as a builtins bzl.
scratch.file(
"tools/builtins_staging/absolute.bzl", //
"_builtins",
"a = 'A'");
scratch.file(
"tools/builtins_staging/repo_relative.bzl", //
"_builtins",
"b = 'B'");
scratch.file(
"tools/builtins_staging/subdir/pkg_relative1.bzl", //
// Do a relative load within a load, to show it's relative to the (pseudo) package, i.e. the
// root, and not relative to the file. That is, we specify 'subdir/pkg_relative2.bzl', not
// just 'pkg_relative2.bzl'.
"load('subdir/pkg_relative2.bzl', 'c2')",
"_builtins",
"c = c2");
scratch.file(
"tools/builtins_staging/subdir/pkg_relative2.bzl", //
"_builtins",
"c2 = 'C'");
// Also create a file in the main repo whose package path coincides with a file in the builtins
// pseudo-repo, to show that we get the right one.
scratch.file("BUILD");
scratch.file("repo_relative.bzl");
writeExportsBzl(
"load('@_builtins//:absolute.bzl', 'a')",
"load('//:repo_relative.bzl', 'b')", // default repo is @_builtins, not main repo
"load('subdir/pkg_relative1.bzl', 'c')", // relative to (pseudo) package, which is repo root
"exported_toplevels = {'overridable_symbol': a + b + c}",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl("print('overridable_symbol :: %s' % overridable_symbol)");
buildAndAssertSuccess();
assertContainsEvent("overridable_symbol :: ABC");
}
@Test
public void otherBzlsCannotLoadFromBuiltins() throws Exception {
writeExportsBzl(
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl("load('@_builtins//:exports.bzl', 'exported_toplevels')");
buildAndAssertFailure();
assertContainsEvent("The repository '@_builtins' could not be resolved");
}
@Test
public void builtinsCannotLoadFromNonBuiltins() throws Exception {
scratch.file("BUILD");
scratch.file(
"a_user_written.bzl", //
"toplevels = {'overridable_symbol': 'new_value'}");
writeExportsBzl(
// Use @// syntax to specify the main repo. Otherwise, the load would be relative to the
// @_builtins pseudo-repo.
"load('@//:a_user_written.bzl', 'toplevels')",
"exported_toplevels = toplevels",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertFailure();
assertContainsEvent(
"in load statement: .bzl files in @_builtins cannot load from outside of @_builtins");
}
@Test
public void builtinsCannotLoadWithMisplacedColon() throws Exception {
scratch.file(
"tools/builtins_staging/subdir/helper.bzl", //
"toplevels = {'overridable_symbol': 'new_value'}");
writeExportsBzl(
"load('//subdir:helper.bzl', 'toplevels')", // Should've been loaded as //:subdir/helper.bzl
"exported_toplevels = toplevels",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertFailure();
assertContainsEvent("@_builtins cannot have subpackages");
}
@Test
public void errorInEvaluatingBuiltinsTransitiveDependency() throws Exception {
// Test case with a deep Starlark error in the @_builtins pseudo-repo itself.
// Note that BzlLoadFunctionTest and PackageLoadingFunctionTest already cover the general case
// of a failure in retrieving the StarlarkBuiltinsValue. Here we mainly want to make sure the
// stack trace is informative for errors that occur in dependencies of exports.bzl.
scratch.file(
"tools/builtins_staging/helper.bzl", //
"toplevels = {'overridable_symbol': 1//0} # <-- dynamic error");
writeExportsBzl(
"load('@_builtins//:helper.bzl', 'toplevels')",
"exported_toplevels = toplevels",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertFailure();
assertContainsEvent(
"File \"/workspace/tools/builtins_staging/helper.bzl\", line 1, column 37, in <toplevel>");
assertContainsEvent("Error: integer division by zero");
// We assert only the parts of the message before and after the module name, since the module
// identified by the message depends on whether or not the test environment has a prelude file.
Event ev = assertContainsEvent("Internal error while loading Starlark builtins");
assertThat(ev.getMessage())
.contains(
"Failed to load builtins sources: "
+ "at /workspace/tools/builtins_staging/exports.bzl:1:6: "
+ "initialization of module 'helper.bzl' (internal) failed");
}
@Test
public void errorInProcessingExports() throws Exception {
// Test case with an error in the symbols exported by exports.bzl, but no actual Starlark errors
// in the builtins files themselves.
writeExportsBzl(
"exported_toplevels = None", // should be dict
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertFailure();
// We assert only the parts of the message before and after the module name, since the module
// identified by the message depends on whether or not the test environment has a prelude file.
Event ev = assertContainsEvent("Internal error while loading Starlark builtins");
assertThat(ev.getMessage())
.contains(
"Failed to apply declared builtins: "
+ "got NoneType for 'exported_toplevels dict', want dict");
}
// TODO(#11437): Remove once disabling is not allowed.
@Test
public void injectionDisabledByFlag() throws Exception {
writeExportsBzl(
"exported_toplevels = {'overridable_symbol': 'new_value'}",
"exported_rules = {'overridable_rule': 'new_rule'}",
"exported_to_java = {}");
writePkgBuild("print('In BUILD: overridable_rule :: %s' % overridable_rule)");
writePkgBzl(
"print('In bzl: overridable_symbol :: %s' % overridable_symbol)",
"print('In bzl: overridable_rule :: %s' % native.overridable_rule)");
setBuildLanguageOptions("--experimental_builtins_bzl_path=");
buildAndAssertSuccess();
assertContainsEvent("In bzl: overridable_symbol :: original_value");
assertContainsEvent("In bzl: overridable_rule :: <built-in rule overridable_rule>");
assertContainsEvent("In BUILD: overridable_rule :: <built-in rule overridable_rule>");
}
// TODO(#11437): Remove once disabling is not allowed.
@Test
public void exportsBzlMayBeInErrorWhenInjectionIsDisabled() throws Exception {
writeExportsBzl( //
"PARSE ERROR");
writePkgBuild("print('In BUILD: overridable_rule :: %s' % overridable_rule)");
writePkgBzl(
"print('In bzl: overridable_symbol :: %s' % overridable_symbol)",
"print('In bzl: overridable_rule :: %s' % native.overridable_rule)");
setBuildLanguageOptions("--experimental_builtins_bzl_path=");
buildAndAssertSuccess();
assertContainsEvent("In bzl: overridable_symbol :: original_value");
assertContainsEvent("In bzl: overridable_rule :: <built-in rule overridable_rule>");
assertContainsEvent("In BUILD: overridable_rule :: <built-in rule overridable_rule>");
}
@Test
public void workspaceLoadedBzlUsesInjectionButNotWORKSPACE() throws Exception {
writeExportsBzl(
"exported_toplevels = {'overridable_symbol': 'new_value'}",
"exported_rules = {'overridable_rule': 'new_rule'}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
scratch.appendFile(
"WORKSPACE", //
"load(':foo.bzl', 'dummy_symbol')",
"print('In WORKSPACE: overridable_rule :: %s' % overridable_rule)",
"print(dummy_symbol)");
scratch.file("BUILD");
scratch.file(
"foo.bzl",
"dummy_symbol = None",
"print('In bzl: overridable_symbol :: %s' % overridable_symbol)");
buildAndAssertSuccess();
// Builtins for WORKSPACE bzls are populated the same as for BUILD bzls.
assertContainsEvent("In bzl: overridable_symbol :: new_value");
// We don't assert that the rule isn't injected because the workspace native object doesn't
// contain our original mock rule. We can test this for WORKSPACE files at the top-level though.
assertContainsEvent("In WORKSPACE: overridable_rule :: <built-in function overridable_rule>");
}
@Test
public void builtinsCanSeeOriginalNativeToplevels() throws Exception {
writeExportsBzl(
"print('In builtins: overridable_symbol :: %s' % _builtins.toplevel.overridable_symbol)",
"exported_toplevels = {'overridable_symbol': 'new_value'}",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl("print('In bzl: overridable_symbol :: %s' % overridable_symbol)");
buildAndAssertSuccess();
assertContainsEvent("In builtins: overridable_symbol :: original_value");
assertContainsEvent("In bzl: overridable_symbol :: new_value");
}
@Test
public void builtinsCanSeeOriginalNativeRules() throws Exception {
writeExportsBzl(
"print('In builtins: overridable_rule :: %s' % _builtins.native.overridable_rule)",
"exported_toplevels = {}",
"exported_rules = {'overridable_rule': 'new_rule'}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl("print('In bzl: overridable_rule :: %s' % native.overridable_rule)");
buildAndAssertSuccess();
assertContainsEvent("In builtins: overridable_rule :: <built-in rule overridable_rule>");
assertContainsEvent("In bzl: overridable_rule :: new_rule");
}
@Test
public void builtinsCanSeeBuiltinsInternalSymbol() throws Exception {
writeExportsBzl(
"print('internal_symbol :: %s' % _builtins.internal.internal_symbol)",
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertSuccess();
assertContainsEvent("internal_symbol :: internal_value");
}
@Test
public void otherBzlsCannotSeeBuiltinsInternalSymbol() throws Exception {
writeExportsBzl(
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl("internal_symbol");
buildAndAssertFailure();
assertContainsEvent("name 'internal_symbol' is not defined");
}
@Test
public void builtinsCanSeeFlags_unset() throws Exception {
writeExportsBzl(
// We use a None default here, but note that that's brittle if any machinery explicitly sets
// flags to their default values. In practice the flag's real default value should be used.
"print('experimental_builtins_dummy :: %s' % ",
" _builtins.get_flag('experimental_builtins_dummy', None))",
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertSuccess();
assertContainsEvent("experimental_builtins_dummy :: None");
}
@Test
public void builtinsCanSeeFlags_set() throws Exception {
writeExportsBzl(
"print('experimental_builtins_dummy :: %s' % ",
" _builtins.get_flag('experimental_builtins_dummy', None))",
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
setBuildLanguageOptionsWithBuiltinsStaging("--experimental_builtins_dummy=true");
buildAndAssertSuccess();
assertContainsEvent("experimental_builtins_dummy :: True");
}
@Test
public void builtinsCanSeeFlags_doesNotExist() throws Exception {
writeExportsBzl(
// We use a None default here, but note that that's brittle if any machinery explicitly sets
// flags to their default values. In practice the flag's real default value should be used.
"print('experimental_does_not_exist :: %s' % ",
" _builtins.get_flag('experimental_does_not_exist', None))",
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertSuccess();
assertContainsEvent("experimental_does_not_exist :: None");
}
@Test
public void flagGuardedSymbol_canExportEvenWhenDisabled() throws Exception {
writeExportsBzl(
"exported_toplevels = {'flag_guarded_symbol': 'overridden value'}",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
// Default value of --experimental_builtins_dummy is false.
buildAndAssertSuccess();
}
@Test
public void flagGuardedSymbol_cannotUseWhenDisabledEvenIfInjected() throws Exception {
// Implementation note: Flag guarding is implemented at name resolution time, before builtins
// injection is applied.
writeExportsBzl(
"exported_toplevels = {'flag_guarded_symbol': 'overridden value'}",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl("print('flag_guarded_symbol :: %s' % flag_guarded_symbol)");
buildAndAssertFailure();
assertContainsEvent("flag_guarded_symbol is experimental");
}
@Test
public void flagGuardedSymbol_injectedValueIsSeenWhenFlagIsEnabled() throws Exception {
writeExportsBzl(
"exported_toplevels = {'flag_guarded_symbol': 'overridden value'}",
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl("print('flag_guarded_symbol :: %s' % flag_guarded_symbol)");
setBuildLanguageOptionsWithBuiltinsStaging("--experimental_builtins_dummy=true");
buildAndAssertSuccess();
assertContainsEvent("flag_guarded_symbol :: overridden value");
}
@Test
public void flagGuardedSymbol_unconditionallyAccessibleToBuiltins() throws Exception {
writeExportsBzl(
"print('flag_guarded_symbol :: %s' % _builtins.toplevel.flag_guarded_symbol)",
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl();
buildAndAssertSuccess();
assertContainsEvent("flag_guarded_symbol :: original_value");
}
@Test
public void nativeRulesCanUseSymbolsFromBuiltins() throws Exception {
writeExportsBzl(
"exported_toplevels = {}",
"exported_rules = {}",
"exported_to_java = {'builtins_defined_symbol': 'value_from_builtins'}");
scratch.file(
"pkg/BUILD", //
"sandwich_rule(name = 'sandwich')");
getConfiguredTarget("//pkg:sandwich");
assertContainsEvent("builtins_defined_symbol :: value_from_builtins");
}
@Test
public void nativeRuleFailsToFindUnknownBuiltin() throws Exception {
writeExportsBzl(
"exported_toplevels = {}", //
"exported_rules = {}",
"exported_to_java = {}");
scratch.file(
"pkg/BUILD", //
"sandwich_rule(name = 'sandwich')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//pkg:sandwich");
assertContainsEvent("(Internal error) No symbol named 'builtins_defined_symbol'");
}
// TODO(#11437): Verify whether this works for native-defined aspects as well.
@Test
public void nativeRulesCanCallFunctionsDefinedInBuiltins() throws Exception {
writeExportsBzl(
// The driver rule calls this helper twice with a list.
"def func(arg):",
" print('got arg %s' % arg)",
" arg.append('blah')",
" return len(arg)",
"exported_toplevels = {}",
"exported_rules = {}",
"exported_to_java = {'builtins_defined_logic': func}");
scratch.file(
"pkg/BUILD", //
"sandwich_logic_rule(name = 'sandwich_logic')");
getConfiguredTarget("//pkg:sandwich_logic");
assertContainsEvent("got arg []");
assertContainsEvent("builtins_defined_logic call 1 :: 1");
assertContainsEvent("got arg [\"blah\"]");
assertContainsEvent("builtins_defined_logic call 2 :: 2");
assertContainsEvent("final list value :: [\"blah\", \"blah\"]");
}
@Test
public void nativeRulesCanPassCtxToBuiltinsDefinedHelpers() throws Exception {
writeExportsBzl(
"def impl_helper(ctx):",
" ctx.actions.write(output=ctx.outputs.out, content=ctx.attr.content)",
"exported_toplevels = {}",
"exported_rules = {}",
"exported_to_java = {'builtins_rule_impl_helper': impl_helper}");
scratch.file(
"pkg/BUILD", //
"sandwich_ctx_rule(name = 'sandwich_ctx', content='foo', out='bar.txt')");
ConfiguredTarget target = getConfiguredTarget("//pkg:sandwich_ctx");
Artifact output = getBinArtifact("bar.txt", target);
ActionAnalysisMetadata action = getGeneratingAction(output);
assertThat(action).isInstanceOf(FileWriteAction.class);
assertThat(((FileWriteAction) action).getFileContents()).isEqualTo("foo");
}
@Test
public void nativeRulesCanDisplayUsefulStarlarkStackTrace() throws Exception {
writeExportsBzl(
// The driver rule calls this helper twice with a list. Doesn't matter, we fail immediately.
"def func(arg):",
" 1//0",
"exported_toplevels = {}",
"exported_rules = {}",
"exported_to_java = {'builtins_defined_logic': func}");
scratch.file(
"pkg/BUILD", //
"sandwich_logic_rule(name = 'sandwich_logic')");
reporter.removeHandler(failFastHandler);
getConfiguredTarget("//pkg:sandwich_logic");
// Rule implementation uses callStarlarkOrThrowRuleError(), which includes the stack trace.
assertContainsEvent("line 2, column 4, in func");
assertContainsEvent("Error: integer division by zero");
}
// The following tests check the integration of the injection override flag with builtins
// injection. See BazelStarlarkEnvironmentTest for more detailed unit tests about the semantics of
// this flag.
@Test
public void perSymbolInjectionOverride() throws Exception {
writeExportsBzl(
"exported_toplevels = {'-overridable_symbol': 'new_value'}",
"exported_rules = {'-overridable_rule': 'new_rule'}",
"exported_to_java = {}");
writePkgBuild("print('In BUILD: overridable_rule :: %s' % overridable_rule)");
writePkgBzl(
"print('In bzl: overridable_symbol :: %s' % overridable_symbol)",
"print('In bzl: overridable_rule :: %s' % native.overridable_rule)");
setBuildLanguageOptionsWithBuiltinsStaging(
"--experimental_builtins_injection_override=+overridable_symbol,+overridable_rule");
buildAndAssertSuccess();
assertContainsEvent("In bzl: overridable_symbol :: new_value");
assertContainsEvent("In bzl: overridable_rule :: new_rule");
assertContainsEvent("In BUILD: overridable_rule :: new_rule");
}
@Test
public void perSymbolInjectionOverride_lastOccurrenceWins() throws Exception {
writeExportsBzl(
"exported_toplevels = {'-overridable_symbol': 'new_value'}",
"exported_rules = {'-overridable_rule': 'new_rule'}",
"exported_to_java = {}");
writePkgBuild();
writePkgBzl(
"print('In bzl: overridable_symbol :: %s' % overridable_symbol)",
"print('In bzl: overridable_rule :: %s' % native.overridable_rule)");
// Tests that the last use of foo determines whether it's +foo or -foo. Also tests that the flag
// is allowMultiple, so that passing the second list doesn't just zero out the first list.
setBuildLanguageOptionsWithBuiltinsStaging(
"--experimental_builtins_injection_override="
+ "+overridable_rule,+overridable_symbol,-overridable_symbol",
"--experimental_builtins_injection_override=+overridable_symbol");
buildAndAssertSuccess();
assertContainsEvent("In bzl: overridable_symbol :: new_value");
assertContainsEvent("In bzl: overridable_rule :: new_rule");
}
@Test
public void perSymbolInjectionOverride_invalidOverrideItem() throws Exception {
writeExportsBzl("exported_toplevels = {}", "exported_rules = {}", "exported_to_java = {}");
writePkgBuild();
writePkgBzl();
setBuildLanguageOptionsWithBuiltinsStaging("--experimental_builtins_injection_override=foo");
buildAndAssertFailure();
assertContainsEvent("Invalid injection override item: 'foo'");
}
/**
* Tests for injection, under inlining of {@link BzlLoadFunction}.
*
* <p>See {@link BzlLoadFunction#computeInline} for an explanation of inlining.
*/
@RunWith(JUnit4.class)
public static class BuiltinsInjectionTestWithInlining extends BuiltinsInjectionTest {
@Override
protected boolean usesInliningBzlLoadFunction() {
return true;
}
}
}