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package ftbsc.lll.processor.tools;
import com.squareup.javapoet.*;
import ftbsc.lll.exceptions.AmbiguousDefinitionException;
import ftbsc.lll.exceptions.MappingNotFoundException;
import ftbsc.lll.exceptions.NotAProxyException;
import ftbsc.lll.exceptions.TargetNotFoundException;
import ftbsc.lll.processor.annotations.Find;
import ftbsc.lll.processor.annotations.Patch;
import ftbsc.lll.processor.annotations.Target;
import ftbsc.lll.processor.tools.obfuscation.ObfuscationMapper;
import ftbsc.lll.proxies.FieldProxy;
import ftbsc.lll.proxies.MethodProxy;
import javax.annotation.processing.ProcessingEnvironment;
import javax.lang.model.element.*;
import javax.lang.model.type.*;
import javax.lang.model.util.Elements;
import java.lang.annotation.Annotation;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.function.Function;
import java.util.stream.Collectors;
import static ftbsc.lll.processor.tools.JavaPoetUtils.descriptorFromExecutableElement;
import static ftbsc.lll.processor.tools.JavaPoetUtils.methodDescriptorFromParams;
/**
* Collection of AST-related static utils that didn't really fit into the main class.
*/
public class ASTUtils {
/**
* Finds, among the methods of a class cl, the one annotated with ann, and tries to build
* a {@link ExecutableElement} from it.
* @param cl the {@link ExecutableElement} for the class containing the desired method
* @param ann the {@link Class} corresponding to the desired annotation
* @return a {@link List} of {@link MethodSpec}s annotated with the given annotation
* @since 0.2.0
*/
public static List<ExecutableElement> findAnnotatedMethods(TypeElement cl, Class<? extends Annotation> ann) {
return cl.getEnclosedElements()
.stream()
.filter(e -> e.getAnnotationsByType(ann).length != 0)
.map(e -> (ExecutableElement) e)
.collect(Collectors.toList());
}
/**
* Maps a {@link javax.lang.model.element.Modifier} to its reflective
* {@link java.lang.reflect.Modifier} equivalent.
* @param m the {@link Modifier} to map
* @return an integer representing the modifier
* @see java.lang.reflect.Modifier
* @since 0.2.0
*/
public static int mapModifier(Modifier m) {
switch(m) {
case PUBLIC:
return java.lang.reflect.Modifier.PUBLIC;
case PROTECTED:
return java.lang.reflect.Modifier.PROTECTED;
case PRIVATE:
return java.lang.reflect.Modifier.PRIVATE;
case ABSTRACT:
return java.lang.reflect.Modifier.ABSTRACT;
case STATIC:
return java.lang.reflect.Modifier.STATIC;
case FINAL:
return java.lang.reflect.Modifier.FINAL;
case TRANSIENT:
return java.lang.reflect.Modifier.TRANSIENT;
case VOLATILE:
return java.lang.reflect.Modifier.VOLATILE;
case SYNCHRONIZED:
return java.lang.reflect.Modifier.SYNCHRONIZED;
case NATIVE:
return java.lang.reflect.Modifier.NATIVE;
case STRICTFP:
return java.lang.reflect.Modifier.STRICT;
default:
return 0;
}
}
/**
* Safely extracts a {@link Class} from an annotation and gets its fully qualified name.
* @param ann the annotation containing the class
* @param parentFunction the annotation function returning the class
* @param innerName a string containing the inner class name or anonymous class number, may be null
* @param <T> the type of the annotation carrying the information
* @return the fully qualified name of the given class
* @since 0.3.0
*/
public static <T extends Annotation> String getClassFullyQualifiedName(T ann, Function<T, Class<?>> parentFunction, String innerName) {
String fqn;
try {
fqn = parentFunction.apply(ann).getCanonicalName();
} catch(MirroredTypeException e) {
fqn = e.getTypeMirror().toString();
}
if(innerName != null)
fqn = String.format("%s$%s", fqn, innerName);
return fqn;
}
/**
* Extracts
* @param ann the annotation containing the class
* @param innerClassFunction the annotation function returning the inner class name
* @param anonymousCounterFunction the annotation function returning the anonymous class counter
* @param <T> the type of the annotation carrying the information
* @return the fully qualified name of the given class
* @since 0.3.0
*/
public static <T extends Annotation> String getInnerName(T ann, Function<T, String> innerClassFunction, Function<T, Integer> anonymousCounterFunction) {
String inner = null;
if(!innerClassFunction.apply(ann).equals(""))
inner = innerClassFunction.apply(ann);
if(anonymousCounterFunction.apply(ann) != 0) {
if(inner != null)
throw new AmbiguousDefinitionException(String.format("Unclear inner class, is it %s or %d?", inner, anonymousCounterFunction.apply(ann)));
else inner = anonymousCounterFunction.apply(ann).toString();
}
return inner;
}
/**
* Safely extracts a {@link Class} array from an annotation.
* @param ann the annotation containing the class
* @param fun the annotation function returning the class
* @param elementUtils the element utils corresponding to the {@link ProcessingEnvironment}
* @param <T> the type of the annotation carrying the information
* @return a list of {@link TypeMirror}s representing the classes
* @since 0.3.0
*/
public static <T extends Annotation> List<TypeMirror> classArrayFromAnnotation(T ann, Function<T, Class<?>[]> fun, Elements elementUtils) {
List<TypeMirror> params = new ArrayList<>();
try {
params.addAll(Arrays.stream(fun.apply(ann))
.map(Class::getCanonicalName)
.map(fqn -> elementUtils.getTypeElement(fqn).asType())
.collect(Collectors.toList()));
} catch(MirroredTypesException e) {
params.addAll(e.getTypeMirrors());
}
return params;
}
/**
* Finds the class name and maps it to the correct format.
* @param name the fully qualified name of the class to convert
* @param mapper the {@link ObfuscationMapper} to use, may be null
* @return the fully qualified class name
* @since 0.3.0
*/
public static String findClassName(String name, ObfuscationMapper mapper) {
try {
return mapper == null ? name : mapper.obfuscateClass(name).replace('/', '.');
} catch(MappingNotFoundException e) {
return name;
}
}
/**
* Finds the class name and maps it to the correct format.
* @param patchAnn the {@link Patch} annotation containing target class info
* @param finderAnn an annotation containing metadata about the target, may be null
* @return the fully qualified class name
* @since 0.3.0
*/
private static String findClassName(Patch patchAnn, Find finderAnn) {
String fullyQualifiedName;
if(finderAnn != null) {
fullyQualifiedName =
getClassFullyQualifiedName(
finderAnn,
Find::parent,
getInnerName(finderAnn, Find::parentInnerClass, Find::parentAnonymousClassCounter)
);
if(!fullyQualifiedName.equals("java.lang.Object"))
return findClassName(fullyQualifiedName, null);
}
fullyQualifiedName =
getClassFullyQualifiedName(
patchAnn,
Patch::value,
getInnerName(patchAnn, Patch::innerClass, Patch::anonymousClassCounter)
);
return findClassName(fullyQualifiedName, null);
}
/**
* Finds the member name and maps it to the correct format.
* @param parentFQN the already mapped FQN of the parent class
* @param memberName the name of the member
* @param methodDescriptor the descriptor of the method, may be null if it's not a method
* @param mapper the {@link ObfuscationMapper} to use, may be null
* @return the internal class name
* @since 0.3.0
*/
public static String findMemberName(String parentFQN, String memberName, String methodDescriptor, ObfuscationMapper mapper) {
try {
return mapper == null ? memberName : mapper.obfuscateMember(parentFQN, memberName, methodDescriptor);
} catch(MappingNotFoundException e) {
return memberName;
}
}
/**
* Finds a member given the name, the container class and (if it's a method) the descriptor.
* @param parentFQN the fully qualified name of the parent class
* @param name the name to search for
* @param descr the descriptor to search for, or null if it's not a method
* @param strict whether the search should be strict (see {@link Target#strict()} for more info),
* only applies to method searches
* @param field whether the member being searched is a field
* @param env the {@link ProcessingEnvironment} to perform the operation in
* @return the desired member, if it exists
* @throws AmbiguousDefinitionException if it finds more than one candidate
* @throws TargetNotFoundException if it finds no valid candidate
* @since 0.3.0
*/
private static Element findMember(String parentFQN, String name, String descr, boolean strict, boolean field, ProcessingEnvironment env) {
TypeElement parent = env.getElementUtils().getTypeElement(parentFQN);
if(parent == null)
throw new AmbiguousDefinitionException(String.format("Could not find parent class %s!", parentFQN));
//try to find by name
List<Element> candidates = parent.getEnclosedElements()
.stream()
.filter(e -> (field && e instanceof VariableElement) || e instanceof ExecutableElement)
.filter(e -> e.getSimpleName().contentEquals(name))
.collect(Collectors.toList());
if(candidates.size() == 0)
throw new TargetNotFoundException(String.format("%s %s", name, descr));
if(candidates.size() == 1 && (!strict || field))
return candidates.get(0);
if(descr == null) {
throw new AmbiguousDefinitionException(
String.format("Found %d methods named %s in class %s!", candidates.size(), name, parentFQN)
);
} else {
candidates = candidates.stream()
.map(e -> (ExecutableElement) e)
.filter(strict
? c -> descr.equals(descriptorFromExecutableElement(c))
: c -> descr.split("\\)")[0].equalsIgnoreCase(descriptorFromExecutableElement(c).split("\\)")[0])
).collect(Collectors.toList());
if(candidates.size() == 0)
throw new TargetNotFoundException(String.format("%s %s", name, descr));
if(candidates.size() > 1)
throw new AmbiguousDefinitionException(
String.format("Found %d methods named %s in class %s!", candidates.size(), name, parentFQN)
);
return candidates.get(0);
}
}
/**
* Finds the real class member (field or method) corresponding to a stub annotated with
* {@link Target} or {@link Find}.
* @param stub the {@link ExecutableElement} for the stub
* @param env the {@link ProcessingEnvironment} to perform the operation in
* @return the {@link Element} corresponding to the method or field
* @throws AmbiguousDefinitionException if it finds more than one candidate
* @throws TargetNotFoundException if it finds no valid candidate
* @since 0.3.0
*/
public static Element findMemberFromStub(ExecutableElement stub, ProcessingEnvironment env) {
//the parent always has a @Patch annotation
Patch patchAnn = stub.getEnclosingElement().getAnnotation(Patch.class);
//there should ever only be one of these two
Target targetAnn = stub.getAnnotation(Target.class); //if this is null strict mode is always disabled
Find findAnn = stub.getAnnotation(Find.class); //this may be null, it means no fallback info
String parentFQN = findClassName(patchAnn, findAnn);
String methodDescriptor =
findAnn != null
? methodDescriptorFromParams(findAnn, Find::params, env.getElementUtils())
: descriptorFromExecutableElement(stub);
String memberName =
findAnn != null && !findAnn.name().equals("")
? findAnn.name()
: stub.getSimpleName().toString();
return findMember(
parentFQN,
memberName,
methodDescriptor,
targetAnn != null && targetAnn.strict(),
targetAnn == null && !isMethodProxyStub(stub), //only evaluate if target is null
env
);
}
/**
* Utility method for finding out what type of proxy a method is.
* It will fail if the return type is not a known type of proxy.
* @param m the annotated {@link ExecutableElement}
* @return whether it returns a {@link MethodProxy} or a {@link FieldProxy}
* @throws NotAProxyException if it's neither
* @since 0.4.0
*/
public static boolean isMethodProxyStub(ExecutableElement m) {
String returnTypeFQN = m.getReturnType().toString();
if(returnTypeFQN.equals("ftbsc.lll.proxies.FieldProxy"))
return false;
else if(returnTypeFQN.equals("ftbsc.lll.proxies.MethodProxy"))
return true;
else throw new NotAProxyException(m.getEnclosingElement().getSimpleName().toString(), m.getSimpleName().toString());
}
}
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