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shaded.com.google.inject.spi.Elements Maven / Gradle / Ivy
/*
* Copyright (C) 2008 Google Inc.
*
* 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 shaded.shaded.com.google.inject.spi;
import static shaded.shaded.com.google.common.base.Preconditions.checkArgument;
import static shaded.shaded.com.google.common.base.Preconditions.checkNotNull;
import static shaded.shaded.com.google.inject.internal.InternalFlags.getIncludeStackTraceOption;
import shaded.shaded.com.google.common.collect.ImmutableList;
import shaded.shaded.com.google.common.collect.Iterables;
import shaded.shaded.com.google.common.collect.Lists;
import shaded.shaded.com.google.common.collect.Maps;
import shaded.shaded.com.google.common.collect.Sets;
import shaded.shaded.com.google.inject.AbstractModule;
import shaded.shaded.com.google.inject.Binder;
import shaded.shaded.com.google.inject.Binding;
import shaded.shaded.com.google.inject.Key;
import shaded.shaded.com.google.inject.MembersInjector;
import shaded.shaded.com.google.inject.Module;
import shaded.shaded.com.google.inject.PrivateBinder;
import shaded.shaded.com.google.inject.PrivateModule;
import shaded.shaded.com.google.inject.Provider;
import shaded.shaded.com.google.inject.Scope;
import shaded.shaded.com.google.inject.Stage;
import shaded.shaded.com.google.inject.TypeLiteral;
import shaded.shaded.com.google.inject.binder.AnnotatedBindingBuilder;
import shaded.shaded.com.google.inject.binder.AnnotatedConstantBindingBuilder;
import shaded.shaded.com.google.inject.binder.AnnotatedElementBuilder;
import shaded.shaded.com.google.inject.internal.AbstractBindingBuilder;
import shaded.shaded.com.google.inject.internal.BindingBuilder;
import shaded.shaded.com.google.inject.internal.ConstantBindingBuilderImpl;
import shaded.shaded.com.google.inject.internal.Errors;
import shaded.shaded.com.google.inject.internal.ExposureBuilder;
import shaded.shaded.com.google.inject.internal.GuiceInternal;
import shaded.shaded.com.google.inject.internal.InternalFlags.IncludeStackTraceOption;
import shaded.shaded.com.google.inject.internal.MoreTypes;
import shaded.shaded.com.google.inject.internal.PrivateElementsImpl;
import shaded.shaded.com.google.inject.internal.ProviderMethod;
import shaded.shaded.com.google.inject.internal.ProviderMethodsModule;
import shaded.shaded.com.google.inject.internal.util.SourceProvider;
import shaded.shaded.com.google.inject.internal.util.StackTraceElements;
import shaded.shaded.com.google.inject.matcher.Matcher;
import java.lang.annotation.Annotation;
import java.lang.reflect.Method;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.aopalliance.intercept.MethodInterceptor;
/**
* Exposes elements of a module so they can be inspected, validated or {@link
* Element#applyTo(Binder) rewritten}.
*
* @author [email protected] (Jesse Wilson)
* @since 2.0
*/
public final class Elements {
private static final BindingTargetVisitor GET_INSTANCE_VISITOR =
new DefaultBindingTargetVisitor() {
@Override
public Object visit(InstanceBinding> binding) {
return binding.getInstance();
}
@Override
protected Object visitOther(Binding> binding) {
throw new IllegalArgumentException();
}
};
/** Records the elements executed by {@code modules}. */
public static List getElements(Module... modules) {
return getElements(Stage.DEVELOPMENT, Arrays.asList(modules));
}
/** Records the elements executed by {@code modules}. */
public static List getElements(Stage stage, Module... modules) {
return getElements(stage, Arrays.asList(modules));
}
/** Records the elements executed by {@code modules}. */
public static List getElements(Iterable extends Module> modules) {
return getElements(Stage.DEVELOPMENT, modules);
}
/** Records the elements executed by {@code modules}. */
public static List getElements(Stage stage, Iterable extends Module> modules) {
RecordingBinder binder = new RecordingBinder(stage);
for (Module module : modules) {
binder.install(module);
}
binder.scanForAnnotatedMethods();
for (RecordingBinder child : binder.privateBindersForScanning) {
child.scanForAnnotatedMethods();
}
binder.permitMapConstruction.finish();
// Free the memory consumed by the stack trace elements cache
StackTraceElements.clearCache();
return Collections.unmodifiableList(binder.elements);
}
// TODO(user): Consider moving the RecordingBinder to shaded.shaded.com.google.inject.internal and removing these
// internal 'friend' methods.
/**
* Internal version of Binder.withSource for establishing a trusted ElementSource chain for
* source-restricting bindings that are re-written using {@link Element#applyTo}.
*
* Using Binder.withSource is not trustworthy because it's a public API that external users can
* use to spoof the original ElementSource of a binding by calling withSource(bogusElementSource).
*
* @since 5.0
*/
public static Binder withTrustedSource(
GuiceInternal guiceInternal, Binder binder, Object source) {
checkNotNull(guiceInternal);
if (binder instanceof RecordingBinder) {
return ((RecordingBinder) binder).withTrustedSource(source);
}
// Preserve existing (untrusted) behavior for non-standard Binder implementations.
return binder.withSource(source);
}
private static class ElementsAsModule implements Module {
private final Iterable extends Element> elements;
ElementsAsModule(Iterable extends Element> elements) {
this.elements = elements;
}
@Override
public void configure(Binder binder) {
for (Element element : elements) {
element.applyTo(binder);
}
}
}
/** Returns the module composed of {@code elements}. */
public static Module getModule(final Iterable extends Element> elements) {
return new ElementsAsModule(elements);
}
@SuppressWarnings("unchecked")
static BindingTargetVisitor getInstanceVisitor() {
return (BindingTargetVisitor) GET_INSTANCE_VISITOR;
}
private static class ModuleInfo {
private final ModuleSource moduleSource;
private final boolean skipScanning;
private ModuleInfo(ModuleSource moduleSource, boolean skipScanning) {
this.moduleSource = moduleSource;
this.skipScanning = skipScanning;
}
}
private static class RecordingBinder implements Binder, PrivateBinder {
private final Stage stage;
private final Map modules;
private final List elements;
private final Object source;
private final SourceProvider sourceProvider;
private final Set scanners;
/** The binder where exposed bindings will be created */
private final RecordingBinder parent;
private final PrivateElementsImpl privateElements;
/** All children private binders, so we can scan through them. */
private final List privateBindersForScanning;
private final BindingSourceRestriction.PermitMapConstruction permitMapConstruction;
/** The current modules stack */
private ModuleSource moduleSource = null;
/**
* The current scanner.
*
* Note that scanners cannot nest, ie. a scanner cannot install a module that requires
* scanning - except the built-in @Provides* methods. The built-in scanner isn't tracked by this
* variable, only custom scanners are.
*/
private ModuleAnnotatedMethodScanner scannerSource = null;
private ModuleAnnotatedMethodScanner currentScanner = null;
private boolean trustedSource = false;
private RecordingBinder(Stage stage) {
this.stage = stage;
this.modules = Maps.newLinkedHashMap();
this.scanners = Sets.newLinkedHashSet();
this.elements = Lists.newArrayList();
this.source = null;
this.sourceProvider =
SourceProvider.DEFAULT_INSTANCE.plusSkippedClasses(
Elements.class,
RecordingBinder.class,
AbstractModule.class,
ConstantBindingBuilderImpl.class,
AbstractBindingBuilder.class,
BindingBuilder.class);
this.parent = null;
this.privateElements = null;
this.privateBindersForScanning = Lists.newArrayList();
this.permitMapConstruction = new BindingSourceRestriction.PermitMapConstruction();
}
/** Creates a recording binder that's backed by {@code prototype}. */
private RecordingBinder(
RecordingBinder prototype,
Object source,
SourceProvider sourceProvider,
boolean trustedSource) {
checkArgument(source == null ^ sourceProvider == null);
this.stage = prototype.stage;
this.modules = prototype.modules;
this.elements = prototype.elements;
this.scanners = prototype.scanners;
this.currentScanner = prototype.currentScanner;
this.source = source;
this.trustedSource = trustedSource;
this.moduleSource = prototype.moduleSource;
this.sourceProvider = sourceProvider;
this.parent = prototype.parent;
this.privateElements = prototype.privateElements;
this.privateBindersForScanning = prototype.privateBindersForScanning;
this.permitMapConstruction = prototype.permitMapConstruction;
this.scannerSource = prototype.scannerSource;
}
/** Creates a private recording binder. */
private RecordingBinder(RecordingBinder parent, PrivateElementsImpl privateElements) {
this.stage = parent.stage;
this.modules = Maps.newLinkedHashMap();
this.scanners = Sets.newLinkedHashSet();
this.currentScanner = parent.currentScanner;
this.elements = privateElements.getElementsMutable();
this.source = parent.source;
this.moduleSource = parent.moduleSource;
this.sourceProvider = parent.sourceProvider;
this.parent = parent;
this.privateElements = privateElements;
this.privateBindersForScanning = parent.privateBindersForScanning;
this.permitMapConstruction = parent.permitMapConstruction;
this.scannerSource = parent.scannerSource;
}
@Override
public void bindInterceptor(
Matcher super Class>> classMatcher,
Matcher super Method> methodMatcher,
MethodInterceptor... interceptors) {
elements.add(
new InterceptorBinding(getElementSource(), classMatcher, methodMatcher, interceptors));
}
@Override
public void bindScope(Class extends Annotation> annotationType, Scope scope) {
elements.add(new ScopeBinding(getElementSource(), annotationType, scope));
}
@Override
@SuppressWarnings("unchecked") // it is safe to use the type literal for the raw type
public void requestInjection(Object instance) {
checkNotNull(instance, "instance");
requestInjection((TypeLiteral) TypeLiteral.get(instance.getClass()), instance);
}
@Override
public void requestInjection(TypeLiteral type, T instance) {
checkNotNull(instance, "instance");
elements.add(
new InjectionRequest(
getElementSource(), MoreTypes.canonicalizeForKey(type), instance));
}
@Override
public MembersInjector getMembersInjector(final TypeLiteral typeLiteral) {
final MembersInjectorLookup element =
new MembersInjectorLookup(
getElementSource(), MoreTypes.canonicalizeForKey(typeLiteral));
elements.add(element);
return element.getMembersInjector();
}
@Override
public MembersInjector getMembersInjector(Class type) {
return getMembersInjector(TypeLiteral.get(type));
}
@Override
public void bindListener(Matcher super TypeLiteral>> typeMatcher, TypeListener listener) {
elements.add(new TypeListenerBinding(getElementSource(), listener, typeMatcher));
}
@Override
public void bindListener(
Matcher super Binding>> bindingMatcher, ProvisionListener... listeners) {
elements.add(new ProvisionListenerBinding(getElementSource(), bindingMatcher, listeners));
}
@Override
public void requestStaticInjection(Class>... types) {
for (Class> type : types) {
elements.add(new StaticInjectionRequest(getElementSource(), type));
}
}
/**
* Applies all scanners to the modules we've installed. We skip certain PrivateModules because
* store them in more than one Modules map and only want to process them through one of the
* maps. (They're stored in both maps to prevent a module from being installed more than once.)
*/
void scanForAnnotatedMethods() {
Iterable scanners = getAllScanners();
// Note: we must iterate over a copy of the modules because calling install(..)
// will mutate modules, otherwise causing a ConcurrentModificationException.
for (Map.Entry entry : Maps.newLinkedHashMap(modules).entrySet()) {
Module module = entry.getKey();
ModuleInfo info = entry.getValue();
if (info.skipScanning) {
continue;
}
for (ModuleAnnotatedMethodScanner scanner : scanners) {
currentScanner = scanner;
moduleSource = entry.getValue().moduleSource;
permitMapConstruction.restoreCurrentModulePermits(moduleSource);
try {
install(ProviderMethodsModule.forModule(module, scanner));
} catch (RuntimeException e) {
Collection messages = Errors.getMessagesFromThrowable(e);
if (!messages.isEmpty()) {
elements.addAll(messages);
} else {
addError(e);
}
}
}
}
moduleSource = null;
}
@Override
public void install(Module module) {
// Ignore duplicate installations of the same module instance.
if (modules.containsKey(module)) {
return;
}
// Whether the module installed is a ProviderMethodModule for a custom scanner.
boolean customScanner = false;
Class> newModuleClass = null;
RecordingBinder binder = this;
// Update the module source for the new module
if (module instanceof ProviderMethodsModule) {
ProviderMethodsModule providerMethodsModule = (ProviderMethodsModule) module;
if (!providerMethodsModule.isScanningBuiltInProvidesMethods()) {
scannerSource = providerMethodsModule.getScanner();
customScanner = true;
}
// There are two reason's we'd want to get the module source in a ProviderMethodsModule.
// ModuleAnnotatedMethodScanner lets users scan their own modules for @Provides-like
// bindings. If they install the module at a top-level, then moduleSource can be null.
// Also, if they pass something other than 'this' to it, we'd have the wrong source.
Class> delegateClass = providerMethodsModule.getDelegateModuleClass();
if (moduleSource == null
|| !moduleSource.getModuleClassName().equals(delegateClass.getName())) {
newModuleClass = delegateClass;
}
} else {
if (moduleScanning()) {
forbidNestedScannerMethods(module);
}
newModuleClass = module.getClass();
}
if (newModuleClass != null) {
moduleSource = getModuleSource(newModuleClass);
permitMapConstruction.pushModule(newModuleClass, moduleSource);
}
boolean skipScanning = false;
if (module instanceof PrivateModule) {
binder = (RecordingBinder) binder.newPrivateBinder();
// Store the module in the private binder too so we scan for it.
binder.modules.put(module, new ModuleInfo(moduleSource, false));
skipScanning = true; // don't scan this module in the parent's module set.
}
// Always store this in the parent binder (even if it was a private module)
// so that we know not to process it again, and so that scanners inherit down.
modules.put(module, new ModuleInfo(moduleSource, skipScanning));
try {
module.configure(binder);
} catch (RuntimeException e) {
Collection messages = Errors.getMessagesFromThrowable(e);
if (!messages.isEmpty()) {
elements.addAll(messages);
} else {
addError(e);
}
}
binder.install(ProviderMethodsModule.forModule(module));
// We are done with this module, so undo module source change
if (newModuleClass != null) {
moduleSource = moduleSource.getParent();
permitMapConstruction.popModule();
}
// Only wipe the scannerSource once custom scanner installation is finished. This way all
// bindings created by the custom scanner will have it as their scanner source, including
// bindings created by the built-in scanner scanning @Provides* methods in modules installed
// by the custom scanner.
if (customScanner) {
scannerSource = null;
}
}
private void forbidNestedScannerMethods(Module module) {
for (ModuleAnnotatedMethodScanner scanner : getAllScanners()) {
ProviderMethodsModule providerMethodsModule =
(ProviderMethodsModule) ProviderMethodsModule.forModule(module, scanner);
for (ProviderMethod> method : providerMethodsModule.getProviderMethods(this)) {
addError(
"Scanner %s is installing a module with %s method. Installing modules with custom "
+ "provides methods from a ModuleAnnotatedMethodScanner is not supported.",
currentScanner, method.getAnnotation().annotationType().getCanonicalName());
}
}
}
/**
* Get all scanners registered in this binder and its ancestors.
*
* Should only be called during module scanning, because at that point registering new
* scanners is forbidden.
*/
private Iterable getAllScanners() {
if (privateElements == null) {
return scanners;
}
// Private binders have their own set of scanners and they inherit from their parent.
return Iterables.concat(scanners, parent.getAllScanners());
}
@Override
public Stage currentStage() {
return stage;
}
@Override
public void addError(String message, Object... arguments) {
elements.add(new Message(getElementSource(), Errors.format(message, arguments)));
}
@Override
public void addError(Throwable t) {
String message = "An exception was caught and reported. Message: " + t.getMessage();
elements.add(new Message(ImmutableList.of((Object) getElementSource()), message, t));
}
@Override
public void addError(Message message) {
elements.add(message);
}
@Override
public AnnotatedBindingBuilder bind(Key key) {
BindingBuilder builder =
new BindingBuilder(this, elements, getElementSource(), MoreTypes.canonicalizeKey(key));
return builder;
}
@Override
public AnnotatedBindingBuilder bind(TypeLiteral typeLiteral) {
return bind(Key.get(typeLiteral));
}
@Override
public AnnotatedBindingBuilder bind(Class type) {
return bind(Key.get(type));
}
@Override
public AnnotatedConstantBindingBuilder bindConstant() {
return new ConstantBindingBuilderImpl(this, elements, getElementSource());
}
@Override
public Provider getProvider(final Key key) {
return getProvider(Dependency.get(key));
}
@Override
public Provider getProvider(final Dependency dependency) {
final ProviderLookup element = new ProviderLookup<>(getElementSource(), dependency);
elements.add(element);
return element.getProvider();
}
@Override
public Provider getProvider(Class type) {
return getProvider(Key.get(type));
}
@Override
public void convertToTypes(
Matcher super TypeLiteral>> typeMatcher, TypeConverter converter) {
elements.add(new TypeConverterBinding(getElementSource(), typeMatcher, converter));
}
@Override
public RecordingBinder withSource(final Object source) {
return source == this.source
? this
: new RecordingBinder(
this, source, /* sourceProvider = */ null, /* trustedSource = */ false);
}
public RecordingBinder withTrustedSource(final Object source) {
return source == this.source
? this
: new RecordingBinder(
this, source, /* sourceProvider = */ null, /* trustedSource = */ true);
}
@Override
public RecordingBinder skipSources(Class>... classesToSkip) {
// if a source is specified explicitly, we don't need to skip sources
if (source != null) {
return this;
}
SourceProvider newSourceProvider = sourceProvider.plusSkippedClasses(classesToSkip);
return new RecordingBinder(
this, /* source = */ null, newSourceProvider, /* trustedSource = */ false);
}
@Override
public PrivateBinder newPrivateBinder() {
PrivateElementsImpl privateElements = new PrivateElementsImpl(getElementSource());
RecordingBinder binder = new RecordingBinder(this, privateElements);
elements.add(privateElements);
// Don't want to scan private modules installed by scanners.
if (!moduleScanning()) {
privateBindersForScanning.add(binder);
}
return binder;
}
@Override
public void disableCircularProxies() {
elements.add(new DisableCircularProxiesOption(getElementSource()));
}
@Override
public void requireExplicitBindings() {
elements.add(new RequireExplicitBindingsOption(getElementSource()));
}
@Override
public void requireAtInjectOnConstructors() {
elements.add(new RequireAtInjectOnConstructorsOption(getElementSource()));
}
@Override
public void requireExactBindingAnnotations() {
elements.add(new RequireExactBindingAnnotationsOption(getElementSource()));
}
@Override
public void scanModulesForAnnotatedMethods(ModuleAnnotatedMethodScanner scanner) {
if (moduleScanning()) {
addError(
"Attempting to register ModuleAnnotatedMethodScanner %s from scanner %s. Scanners are"
+ " not allowed to register other scanners.",
currentScanner, scanner);
return;
}
scanners.add(scanner);
elements.add(new ModuleAnnotatedMethodScannerBinding(getElementSource(), scanner));
}
@Override
public void expose(Key> key) {
exposeInternal(key);
}
@Override
public AnnotatedElementBuilder expose(Class> type) {
return exposeInternal(Key.get(type));
}
@Override
public AnnotatedElementBuilder expose(TypeLiteral> type) {
return exposeInternal(Key.get(type));
}
private AnnotatedElementBuilder exposeInternal(Key key) {
if (privateElements == null) {
addError(
"Cannot expose %s on a standard binder. "
+ "Exposed bindings are only applicable to private binders.",
key);
return new AnnotatedElementBuilder() {
@Override
public void annotatedWith(Class extends Annotation> annotationType) {}
@Override
public void annotatedWith(Annotation annotation) {}
};
}
ExposureBuilder builder =
new ExposureBuilder(this, getElementSource(), MoreTypes.canonicalizeKey(key));
privateElements.addExposureBuilder(builder);
return builder;
}
private ModuleSource getModuleSource(Class> module) {
StackTraceElement[] partialCallStack;
if (getIncludeStackTraceOption() == IncludeStackTraceOption.COMPLETE) {
partialCallStack = getPartialCallStack(new Throwable().getStackTrace());
} else {
partialCallStack = new StackTraceElement[0];
}
if (moduleSource == null) {
return new ModuleSource(module, partialCallStack, permitMapConstruction.getPermitMap());
}
return moduleSource.createChild(module, partialCallStack);
}
private ElementSource getElementSource() {
// Full call stack
StackTraceElement[] callStack = null;
// The call stack starts from current top module configure and ends at this method caller
StackTraceElement[] partialCallStack = new StackTraceElement[0];
// The element original source
ElementSource originalSource = null;
// The element declaring source
Object declaringSource = source;
if (declaringSource instanceof ElementSource) {
originalSource = (ElementSource) declaringSource;
declaringSource = originalSource.getDeclaringSource();
}
IncludeStackTraceOption stackTraceOption = getIncludeStackTraceOption();
if (stackTraceOption == IncludeStackTraceOption.COMPLETE
|| (stackTraceOption == IncludeStackTraceOption.ONLY_FOR_DECLARING_SOURCE
&& declaringSource == null)) {
callStack = new Throwable().getStackTrace();
}
if (stackTraceOption == IncludeStackTraceOption.COMPLETE) {
partialCallStack = getPartialCallStack(callStack);
}
if (declaringSource == null) {
// So 'source' and 'originalSource' are null otherwise declaringSource has some value
if (stackTraceOption == IncludeStackTraceOption.COMPLETE
|| stackTraceOption == IncludeStackTraceOption.ONLY_FOR_DECLARING_SOURCE) {
// With the above conditions and assignments 'callStack' is non-null
StackTraceElement callingSource = sourceProvider.get(callStack);
// If we've traversed past all reasonable sources and into our internal code, then we
// don't know the source.
if (callingSource
.getClassName()
.equals("shaded.shaded.com.google.inject.internal.InjectorShell$Builder")
&& callingSource.getMethodName().equals("build")) {
declaringSource = SourceProvider.UNKNOWN_SOURCE;
} else {
declaringSource = callingSource;
}
} else { // or if (stackTraceOption == IncludeStackTraceOptions.OFF)
// As neither 'declaring source' nor 'call stack' is available use 'module source'
declaringSource = sourceProvider.getFromClassNames(moduleSource.getModuleClassNames());
}
}
// Build the binding call stack
return new ElementSource(
originalSource,
trustedSource,
declaringSource,
moduleSource,
partialCallStack,
scannerSource);
}
/**
* Removes the {@link #moduleSource} call stack from the beginning of current call stack. It
* also removes the last two elements in order to make {@link #install(Module)} the last call in
* the call stack.
*/
private StackTraceElement[] getPartialCallStack(StackTraceElement[] callStack) {
int toSkip = 0;
if (moduleSource != null) {
toSkip = moduleSource.getStackTraceSize();
}
// -1 for skipping 'getModuleSource' and 'getElementSource' calls
int chunkSize = callStack.length - toSkip - 1;
StackTraceElement[] partialCallStack = new StackTraceElement[chunkSize];
System.arraycopy(callStack, 1, partialCallStack, 0, chunkSize);
return partialCallStack;
}
/** Returns if the binder is in the module scanning phase. */
private boolean moduleScanning() {
return currentScanner != null;
}
@Override
public String toString() {
return "Binder";
}
}
}