package com.google.gson.internal.reflect; import com.google.gson.JsonIOException; import com.google.gson.internal.GsonBuildConfig; import java.lang.reflect.AccessibleObject; import java.lang.reflect.Constructor; import java.lang.reflect.Field; import java.lang.reflect.Method; public class ReflectionHelper { private static final RecordHelper RECORD_HELPER; static { RecordHelper instance; try { // Try to construct the RecordSupportedHelper, if this fails, records are not supported on this JVM. instance = new RecordSupportedHelper(); } catch (NoSuchMethodException e) { instance = new RecordNotSupportedHelper(); } RECORD_HELPER = instance; } private ReflectionHelper() {} /** * Internal implementation of making an {@link AccessibleObject} accessible. * * @param object the object that {@link AccessibleObject#setAccessible(boolean)} should be called on. * @throws JsonIOException if making the object accessible fails */ public static void makeAccessible(AccessibleObject object) throws JsonIOException { try { object.setAccessible(true); } catch (Exception exception) { String description = getAccessibleObjectDescription(object, false); throw new JsonIOException("Failed making " + description + " accessible; either increase its visibility" + " or write a custom TypeAdapter for its declaring type.", exception); } } /** * Returns a short string describing the {@link AccessibleObject} in a human-readable way. * The result is normally shorter than {@link AccessibleObject#toString()} because it omits * modifiers (e.g. {@code final}) and uses simple names for constructor and method parameter * types. * * @param object object to describe * @param uppercaseFirstLetter whether the first letter of the description should be uppercased */ public static String getAccessibleObjectDescription(AccessibleObject object, boolean uppercaseFirstLetter) { String description; if (object instanceof Field) { description = "field '" + fieldToString((Field) object) + "'"; } else if (object instanceof Method) { Method method = (Method) object; StringBuilder methodSignatureBuilder = new StringBuilder(method.getName()); appendExecutableParameters(method, methodSignatureBuilder); String methodSignature = methodSignatureBuilder.toString(); description = "method '" + method.getDeclaringClass().getName() + "#" + methodSignature + "'"; } else if (object instanceof Constructor) { description = "constructor '" + constructorToString((Constructor) object) + "'"; } else { description = " " + object.toString(); } if (uppercaseFirstLetter && Character.isLowerCase(description.charAt(0))) { description = Character.toUpperCase(description.charAt(0)) + description.substring(1); } return description; } /** * Creates a string representation for a field, omitting modifiers and * the field type. */ public static String fieldToString(Field field) { return field.getDeclaringClass().getName() + "#" + field.getName(); } /** * Creates a string representation for a constructor. * E.g.: {@code java.lang.String(char[], int, int)} */ public static String constructorToString(Constructor constructor) { StringBuilder stringBuilder = new StringBuilder(constructor.getDeclaringClass().getName()); appendExecutableParameters(constructor, stringBuilder); return stringBuilder.toString(); } // Note: Ideally parameter type would be java.lang.reflect.Executable, but that was added in Java 8 private static void appendExecutableParameters(AccessibleObject executable, StringBuilder stringBuilder) { stringBuilder.append('('); Class[] parameters = (executable instanceof Method) ? ((Method) executable).getParameterTypes() : ((Constructor) executable).getParameterTypes(); for (int i = 0; i < parameters.length; i++) { if (i > 0) { stringBuilder.append(", "); } stringBuilder.append(parameters[i].getSimpleName()); } stringBuilder.append(')'); } /** * Tries making the constructor accessible, returning an exception message * if this fails. * * @param constructor constructor to make accessible * @return exception message; {@code null} if successful, non-{@code null} if * unsuccessful */ public static String tryMakeAccessible(Constructor constructor) { try { constructor.setAccessible(true); return null; } catch (Exception exception) { return "Failed making constructor '" + constructorToString(constructor) + "' accessible;" + " either increase its visibility or write a custom InstanceCreator or TypeAdapter for" // Include the message since it might contain more detailed information + " its declaring type: " + exception.getMessage(); } } /** If records are supported on the JVM, this is equivalent to a call to Class.isRecord() */ public static boolean isRecord(Class raw) { return RECORD_HELPER.isRecord(raw); } public static String[] getRecordComponentNames(Class raw) { return RECORD_HELPER.getRecordComponentNames(raw); } /** Looks up the record accessor method that corresponds to the given record field */ public static Method getAccessor(Class raw, Field field) { return RECORD_HELPER.getAccessor(raw, field); } public static Constructor getCanonicalRecordConstructor(Class raw) { return RECORD_HELPER.getCanonicalRecordConstructor(raw); } public static RuntimeException createExceptionForUnexpectedIllegalAccess( IllegalAccessException exception) { throw new RuntimeException("Unexpected IllegalAccessException occurred (Gson " + GsonBuildConfig.VERSION + ")." + " Certain ReflectionAccessFilter features require Java >= 9 to work correctly. If you are not using" + " ReflectionAccessFilter, report this to the Gson maintainers.", exception); } private static RuntimeException createExceptionForRecordReflectionException( ReflectiveOperationException exception) { throw new RuntimeException("Unexpected ReflectiveOperationException occurred" + " (Gson " + GsonBuildConfig.VERSION + ")." + " To support Java records, reflection is utilized to read out information" + " about records. All these invocations happens after it is established" + " that records exist in the JVM. This exception is unexpected behavior.", exception); } /** * Internal abstraction over reflection when Records are supported. */ private abstract static class RecordHelper { abstract boolean isRecord(Class clazz); abstract String[] getRecordComponentNames(Class clazz); abstract Constructor getCanonicalRecordConstructor(Class raw); public abstract Method getAccessor(Class raw, Field field); } private static class RecordSupportedHelper extends RecordHelper { private final Method isRecord; private final Method getRecordComponents; private final Method getName; private final Method getType; private RecordSupportedHelper() throws NoSuchMethodException { isRecord = Class.class.getMethod("isRecord"); getRecordComponents = Class.class.getMethod("getRecordComponents"); // Class java.lang.reflect.RecordComponent Class classRecordComponent = getRecordComponents.getReturnType().getComponentType(); getName = classRecordComponent.getMethod("getName"); getType = classRecordComponent.getMethod("getType"); } @Override boolean isRecord(Class raw) { try { return (boolean) isRecord.invoke(raw); } catch (ReflectiveOperationException e) { throw createExceptionForRecordReflectionException(e); } } @Override String[] getRecordComponentNames(Class raw) { try { Object[] recordComponents = (Object[]) getRecordComponents.invoke(raw); String[] componentNames = new String[recordComponents.length]; for (int i = 0; i < recordComponents.length; i++) { componentNames[i] = (String) getName.invoke(recordComponents[i]); } return componentNames; } catch (ReflectiveOperationException e) { throw createExceptionForRecordReflectionException(e); } } @Override public Constructor getCanonicalRecordConstructor(Class raw) { try { Object[] recordComponents = (Object[]) getRecordComponents.invoke(raw); Class[] recordComponentTypes = new Class[recordComponents.length]; for (int i = 0; i < recordComponents.length; i++) { recordComponentTypes[i] = (Class) getType.invoke(recordComponents[i]); } // Uses getDeclaredConstructor because implicit constructor has same visibility as record and might // therefore not be public return raw.getDeclaredConstructor(recordComponentTypes); } catch (ReflectiveOperationException e) { throw createExceptionForRecordReflectionException(e); } } @Override public Method getAccessor(Class raw, Field field) { try { // Records consists of record components, each with a unique name, a corresponding field and accessor method // with the same name. Ref.: https://docs.oracle.com/javase/specs/jls/se17/html/jls-8.html#jls-8.10.3 return raw.getMethod(field.getName()); } catch (ReflectiveOperationException e) { throw createExceptionForRecordReflectionException(e); } } } /** * Instance used when records are not supported */ private static class RecordNotSupportedHelper extends RecordHelper { @Override boolean isRecord(Class clazz) { return false; } @Override String[] getRecordComponentNames(Class clazz) { throw new UnsupportedOperationException( "Records are not supported on this JVM, this method should not be called"); } @Override Constructor getCanonicalRecordConstructor(Class raw) { throw new UnsupportedOperationException( "Records are not supported on this JVM, this method should not be called"); } @Override public Method getAccessor(Class raw, Field field) { throw new UnsupportedOperationException( "Records are not supported on this JVM, this method should not be called"); } } }