com.google.gwt.user.server.rpc.RPC Maven / Gradle / Ivy
/*
* Copyright 2007 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 com.google.gwt.user.server.rpc;
import com.google.gwt.user.client.rpc.IncompatibleRemoteServiceException;
import com.google.gwt.user.client.rpc.RemoteService;
import com.google.gwt.user.client.rpc.RpcToken;
import com.google.gwt.user.client.rpc.SerializationException;
import com.google.gwt.user.client.rpc.impl.AbstractSerializationStream;
import com.google.gwt.user.server.rpc.impl.DequeMap;
import com.google.gwt.user.server.rpc.impl.LegacySerializationPolicy;
import com.google.gwt.user.server.rpc.impl.SerializabilityUtil;
import com.google.gwt.user.server.rpc.impl.ServerSerializationStreamReader;
import com.google.gwt.user.server.rpc.impl.ServerSerializationStreamWriter;
import com.google.gwt.user.server.rpc.impl.TypeNameObfuscator;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Type;
import java.lang.reflect.TypeVariable;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
/**
* Utility class for integrating with the RPC system. This class exposes methods
* for decoding of RPC requests, encoding of RPC responses, and invocation of
* RPC calls on service objects. The operations exposed by this class can be
* reused by framework implementors such as Spring and G4jsf to support a wide
* range of service invocation policies.
*
* Canonical Example
The following example demonstrates the canonical
* way to use this class.
*
* {@example com.google.gwt.examples.rpc.server.CanonicalExample#processCall(String)}
*
* Advanced Example
The following example shows a more advanced way of
* using this class to create an adapter between GWT RPC entities and POJOs.
*
* {@example com.google.gwt.examples.rpc.server.AdvancedExample#doPost}
*/
public final class RPC {
/**
* Maps primitive wrapper classes to their corresponding primitive class.
*/
private static final Map, Class>> PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS =
new HashMap, Class>>();
/**
* Static map of classes to sets of interfaces (e.g. classes). Optimizes
* lookup of interfaces for security.
*/
private static Map, Set> serviceToImplementedInterfacesMap;
private static final HashMap> TYPE_NAMES;
static {
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Boolean.class, Boolean.TYPE);
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Byte.class, Byte.TYPE);
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Character.class, Character.TYPE);
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Double.class, Double.TYPE);
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Float.class, Float.TYPE);
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Integer.class, Integer.TYPE);
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Long.class, Long.TYPE);
PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.put(Short.class, Short.TYPE);
TYPE_NAMES = new HashMap>();
TYPE_NAMES.put("Z", boolean.class);
TYPE_NAMES.put("B", byte.class);
TYPE_NAMES.put("C", char.class);
TYPE_NAMES.put("D", double.class);
TYPE_NAMES.put("F", float.class);
TYPE_NAMES.put("I", int.class);
TYPE_NAMES.put("J", long.class);
TYPE_NAMES.put("S", short.class);
serviceToImplementedInterfacesMap = new HashMap, Set>();
}
/**
* Returns an {@link RPCRequest} that is built by decoding the contents of an
* encoded RPC request.
*
*
* This method is equivalent to calling {@link #decodeRequest(String, Class)}
* with null
for the type parameter.
*
*
* @param encodedRequest a string that encodes the {@link RemoteService}
* interface, the service method to call, and the arguments to for
* the service method
* @return an {@link RPCRequest} instance
*
* @throws IncompatibleRemoteServiceException if any of the following
* conditions apply:
*
* - if the types in the encoded request cannot be deserialized
* - if the {@link ClassLoader} acquired from
*
Thread.currentThread().getContextClassLoader()
* cannot load the service interface or any of the types specified
* in the encodedRequest
* - the requested interface is not assignable to
* {@link RemoteService}
* - the service method requested in the encodedRequest is not a
* member of the requested service interface
* - the type parameter is not
null
and is not
* assignable to the requested {@link RemoteService} interface
*
*/
public static RPCRequest decodeRequest(String encodedRequest) {
return decodeRequest(encodedRequest, null);
}
/**
* Returns an {@link RPCRequest} that is built by decoding the contents of an
* encoded RPC request and optionally validating that type can handle the
* request. If the type parameter is not null
, the implementation
* checks that the type is assignable to the {@link RemoteService} interface
* requested in the encoded request string.
*
*
* Invoking this method with null
for the type parameter,
* decodeRequest(encodedRequest, null)
, is equivalent to calling
* decodeRequest(encodedRequest)
.
*
*
* @param encodedRequest a string that encodes the {@link RemoteService}
* interface, the service method, and the arguments to pass to the
* service method
* @param type if not null
, the implementation checks that the
* type is assignable to the {@link RemoteService} interface encoded
* in the encoded request string.
* @return an {@link RPCRequest} instance
*
* @throws NullPointerException if the encodedRequest is null
* @throws IllegalArgumentException if the encodedRequest is an empty string
* @throws IncompatibleRemoteServiceException if any of the following
* conditions apply:
*
* - if the types in the encoded request cannot be deserialized
* - if the {@link ClassLoader} acquired from
*
Thread.currentThread().getContextClassLoader()
* cannot load the service interface or any of the types specified
* in the encodedRequest
* - the requested interface is not assignable to
* {@link RemoteService}
* - the service method requested in the encodedRequest is not a
* member of the requested service interface
* - the type parameter is not
null
and is not
* assignable to the requested {@link RemoteService} interface
*
*/
public static RPCRequest decodeRequest(String encodedRequest, Class> type) {
return decodeRequest(encodedRequest, type, null);
}
/**
* Returns an {@link RPCRequest} that is built by decoding the contents of an
* encoded RPC request and optionally validating that type can handle the
* request. If the type parameter is not null
, the implementation
* checks that the type is assignable to the {@link RemoteService} interface
* requested in the encoded request string.
*
*
* If the serializationPolicyProvider parameter is not null
, it
* is asked for a {@link SerializationPolicy} to use to restrict the set of
* types that can be decoded from the request. If this parameter is
* null
, then only subtypes of
* {@link com.google.gwt.user.client.rpc.IsSerializable IsSerializable} or
* types which have custom field serializers can be decoded.
*
*
*
* Invoking this method with null
for the type parameter,
* decodeRequest(encodedRequest, null)
, is equivalent to calling
* decodeRequest(encodedRequest)
.
*
*
* @param encodedRequest a string that encodes the {@link RemoteService}
* interface, the service method, and the arguments to pass to the
* service method
* @param type if not null
, the implementation checks that the
* type is assignable to the {@link RemoteService} interface encoded
* in the encoded request string.
* @param serializationPolicyProvider if not null
, the
* implementation asks this provider for a
* {@link SerializationPolicy} which will be used to restrict the set
* of types that can be decoded from this request
* @return an {@link RPCRequest} instance
*
* @throws NullPointerException if the encodedRequest is null
* @throws IllegalArgumentException if the encodedRequest is an empty string
* @throws IncompatibleRemoteServiceException if any of the following
* conditions apply:
*
* - if the types in the encoded request cannot be deserialized
* - if the {@link ClassLoader} acquired from
*
Thread.currentThread().getContextClassLoader()
* cannot load the service interface or any of the types specified
* in the encodedRequest
* - the requested interface is not assignable to
* {@link RemoteService}
* - the service method requested in the encodedRequest is not a
* member of the requested service interface
* - the type parameter is not
null
and is not
* assignable to the requested {@link RemoteService} interface
*
*/
public static RPCRequest decodeRequest(String encodedRequest, Class> type,
SerializationPolicyProvider serializationPolicyProvider) {
if (encodedRequest == null) {
throw new NullPointerException("encodedRequest cannot be null");
}
if (encodedRequest.length() == 0) {
throw new IllegalArgumentException("encodedRequest cannot be empty");
}
ClassLoader classLoader = Thread.currentThread().getContextClassLoader();
try {
ServerSerializationStreamReader streamReader =
new ServerSerializationStreamReader(classLoader, serializationPolicyProvider);
streamReader.prepareToRead(encodedRequest);
RpcToken rpcToken = null;
if (streamReader.hasFlags(AbstractSerializationStream.FLAG_RPC_TOKEN_INCLUDED)) {
// Read the RPC token
rpcToken = (RpcToken) streamReader.deserializeValue(RpcToken.class);
}
// Read the name of the RemoteService interface
String serviceIntfName = maybeDeobfuscate(streamReader, streamReader.readString());
if (type != null) {
if (!implementsInterface(type, serviceIntfName)) {
// The service does not implement the requested interface
throw new IncompatibleRemoteServiceException("Blocked attempt to access interface '"
+ serviceIntfName + "', which is not implemented by '" + printTypeName(type)
+ "'; this is either misconfiguration or a hack attempt");
}
}
SerializationPolicy serializationPolicy = streamReader.getSerializationPolicy();
Class> serviceIntf;
try {
serviceIntf = getClassFromSerializedName(serviceIntfName, classLoader);
if (!RemoteService.class.isAssignableFrom(serviceIntf)) {
// The requested interface is not a RemoteService interface
throw new IncompatibleRemoteServiceException(
"Blocked attempt to access interface '"
+ printTypeName(serviceIntf)
+ "', which doesn't extend RemoteService; this is either "
+ "misconfiguration or a hack attempt");
}
} catch (ClassNotFoundException e) {
throw new IncompatibleRemoteServiceException("Could not locate requested interface '"
+ serviceIntfName + "' in default classloader", e);
}
String serviceMethodName = streamReader.readString();
int paramCount = streamReader.readInt();
if (paramCount > streamReader.getNumberOfTokens()) {
throw new IncompatibleRemoteServiceException("Invalid number of parameters");
}
Class>[] parameterTypes = new Class[paramCount];
for (int i = 0; i < parameterTypes.length; i++) {
String paramClassName = maybeDeobfuscate(streamReader, streamReader.readString());
try {
parameterTypes[i] = getClassFromSerializedName(paramClassName, classLoader);
} catch (ClassNotFoundException e) {
throw new IncompatibleRemoteServiceException("Parameter " + i
+ " of is of an unknown type '" + paramClassName + "'", e);
}
}
try {
Method method = serviceIntf.getMethod(serviceMethodName, parameterTypes);
// The parameter types we have are the non-parameterized versions in the
// RPC stream. For stronger message verification, get the parameterized
// types from the method declaration.
Type[] methodParameterTypes = method.getGenericParameterTypes();
DequeMap, Type> resolvedTypes = new DequeMap, Type>();
TypeVariable[] methodTypes = method.getTypeParameters();
for (TypeVariable methodType : methodTypes) {
SerializabilityUtil.resolveTypes(methodType, resolvedTypes);
}
Object[] parameterValues = new Object[parameterTypes.length];
for (int i = 0; i < parameterValues.length; i++) {
parameterValues[i] = streamReader.deserializeValue(parameterTypes[i],
methodParameterTypes[i], resolvedTypes);
}
return new RPCRequest(method, parameterValues, rpcToken, serializationPolicy, streamReader
.getFlags());
} catch (NoSuchMethodException e) {
throw new IncompatibleRemoteServiceException(formatMethodNotFoundErrorMessage(serviceIntf,
serviceMethodName, parameterTypes));
}
} catch (SerializationException ex) {
throw new IncompatibleRemoteServiceException(ex.getMessage(), ex);
}
}
/**
* Returns a string that encodes an exception. If method is not
* null
, it is an error if the exception is not in the method's
* list of checked exceptions.
*
* @param serviceMethod the method that threw the exception, may be
* null
* @param cause the {@link Throwable} that was thrown
* @return a string that encodes the exception
*
* @throws NullPointerException if the the cause is null
* @throws SerializationException if the result cannot be serialized
* @throws UnexpectedException if the result was an unexpected exception (a
* checked exception not declared in the serviceMethod's signature)
*/
public static String encodeResponseForFailure(Method serviceMethod, Throwable cause)
throws SerializationException {
return encodeResponseForFailure(serviceMethod, cause, getDefaultSerializationPolicy());
}
/**
* Returns a string that encodes an exception. If method is not
* null
, it is an error if the exception is not in the method's
* list of checked exceptions.
*
*
* If the serializationPolicy parameter is not null
, it is used
* to determine what types can be encoded as part of this response. If this
* parameter is null
, then only subtypes of
* {@link com.google.gwt.user.client.rpc.IsSerializable IsSerializable} or
* types which have custom field serializers may be encoded.
*
*
* @param serviceMethod the method that threw the exception, may be
* null
* @param cause the {@link Throwable} that was thrown
* @param serializationPolicy determines the serialization policy to be used
* @return a string that encodes the exception
*
* @throws NullPointerException if the the cause or the serializationPolicy
* are null
* @throws SerializationException if the result cannot be serialized
* @throws UnexpectedException if the result was an unexpected exception (a
* checked exception not declared in the serviceMethod's signature)
*/
public static String encodeResponseForFailure(Method serviceMethod, Throwable cause,
SerializationPolicy serializationPolicy) throws SerializationException {
return encodeResponseForFailure(serviceMethod, cause, serializationPolicy,
AbstractSerializationStream.DEFAULT_FLAGS);
}
public static String encodeResponseForFailure(Method serviceMethod, Throwable cause,
SerializationPolicy serializationPolicy, int flags) throws SerializationException {
if (cause == null) {
throw new NullPointerException("cause cannot be null");
}
if (serializationPolicy == null) {
throw new NullPointerException("serializationPolicy");
}
if (serviceMethod != null && !RPCServletUtils.isExpectedException(serviceMethod, cause)) {
throw new UnexpectedException("Service method '" + getSourceRepresentation(serviceMethod)
+ "' threw an unexpected exception: " + cause.toString(), cause);
}
return encodeResponse(cause.getClass(), cause, true, flags, serializationPolicy);
}
/**
* Returns a string that encodes the object. It is an error to try to encode
* an object that is not assignable to the service method's return type.
*
* @param serviceMethod the method whose result we are encoding
* @param object the instance that we wish to encode
* @return a string that encodes the object, if the object is compatible with
* the service method's declared return type
*
* @throws IllegalArgumentException if the result is not assignable to the
* service method's return type
* @throws NullPointerException if the service method is null
* @throws SerializationException if the result cannot be serialized
*/
public static String encodeResponseForSuccess(Method serviceMethod, Object object)
throws SerializationException {
return encodeResponseForSuccess(serviceMethod, object, getDefaultSerializationPolicy());
}
/**
* Returns a string that encodes the object. It is an error to try to encode
* an object that is not assignable to the service method's return type.
*
*
* If the serializationPolicy parameter is not null
, it is used
* to determine what types can be encoded as part of this response. If this
* parameter is null
, then only subtypes of
* {@link com.google.gwt.user.client.rpc.IsSerializable IsSerializable} or
* types which have custom field serializers may be encoded.
*
*
* @param serviceMethod the method whose result we are encoding
* @param object the instance that we wish to encode
* @param serializationPolicy determines the serialization policy to be used
* @return a string that encodes the object, if the object is compatible with
* the service method's declared return type
*
* @throws IllegalArgumentException if the result is not assignable to the
* service method's return type
* @throws NullPointerException if the serviceMethod or the
* serializationPolicy are null
* @throws SerializationException if the result cannot be serialized
*/
public static String encodeResponseForSuccess(Method serviceMethod, Object object,
SerializationPolicy serializationPolicy) throws SerializationException {
return encodeResponseForSuccess(serviceMethod, object, serializationPolicy,
AbstractSerializationStream.DEFAULT_FLAGS);
}
public static String encodeResponseForSuccess(Method serviceMethod, Object object,
SerializationPolicy serializationPolicy, int flags) throws SerializationException {
if (serviceMethod == null) {
throw new NullPointerException("serviceMethod cannot be null");
}
if (serializationPolicy == null) {
throw new NullPointerException("serializationPolicy");
}
Class> methodReturnType = serviceMethod.getReturnType();
if (methodReturnType != void.class && object != null) {
Class> actualReturnType;
if (methodReturnType.isPrimitive()) {
actualReturnType = getPrimitiveClassFromWrapper(object.getClass());
} else {
actualReturnType = object.getClass();
}
if (actualReturnType == null || !methodReturnType.isAssignableFrom(actualReturnType)) {
throw new IllegalArgumentException("Type '" + printTypeName(object.getClass())
+ "' does not match the return type in the method's signature: '"
+ getSourceRepresentation(serviceMethod) + "'");
}
}
return encodeResponse(methodReturnType, object, false, flags, serializationPolicy);
}
/**
* Returns a default serialization policy.
*
* @return the default serialization policy.
*/
public static SerializationPolicy getDefaultSerializationPolicy() {
return LegacySerializationPolicy.getInstance();
}
/**
* Returns a string that encodes the result of calling a service method, which
* could be the value returned by the method or an exception thrown by it.
*
*
* This method does no security checking; security checking must be done on
* the method prior to this invocation.
*
*
* @param target instance on which to invoke the serviceMethod
* @param serviceMethod the method to invoke
* @param args arguments used for the method invocation
* @return a string which encodes either the method's return or a checked
* exception thrown by the method
*
* @throws SecurityException if the method cannot be accessed or if the number
* or type of actual and formal arguments differ
* @throws SerializationException if an object could not be serialized by the
* stream
* @throws UnexpectedException if the serviceMethod throws a checked exception
* that is not declared in its signature
*/
public static String invokeAndEncodeResponse(Object target, Method serviceMethod, Object[] args)
throws SerializationException {
return invokeAndEncodeResponse(target, serviceMethod, args, getDefaultSerializationPolicy());
}
/**
* Returns a string that encodes the result of calling a service method, which
* could be the value returned by the method or an exception thrown by it.
*
*
* If the serializationPolicy parameter is not null
, it is used
* to determine what types can be encoded as part of this response. If this
* parameter is null
, then only subtypes of
* {@link com.google.gwt.user.client.rpc.IsSerializable IsSerializable} or
* types which have custom field serializers may be encoded.
*
*
*
* This method does no security checking; security checking must be done on
* the method prior to this invocation.
*
*
* @param target instance on which to invoke the serviceMethod
* @param serviceMethod the method to invoke
* @param args arguments used for the method invocation
* @param serializationPolicy determines the serialization policy to be used
* @return a string which encodes either the method's return or a checked
* exception thrown by the method
*
* @throws NullPointerException if the serviceMethod or the
* serializationPolicy are null
* @throws SecurityException if the method cannot be accessed or if the number
* or type of actual and formal arguments differ
* @throws SerializationException if an object could not be serialized by the
* stream
* @throws UnexpectedException if the serviceMethod throws a checked exception
* that is not declared in its signature
*/
public static String invokeAndEncodeResponse(Object target, Method serviceMethod, Object[] args,
SerializationPolicy serializationPolicy) throws SerializationException {
return invokeAndEncodeResponse(target, serviceMethod, args, serializationPolicy,
AbstractSerializationStream.DEFAULT_FLAGS);
}
public static String invokeAndEncodeResponse(Object target, Method serviceMethod, Object[] args,
SerializationPolicy serializationPolicy, int flags) throws SerializationException {
if (serviceMethod == null) {
throw new NullPointerException("serviceMethod");
}
if (serializationPolicy == null) {
throw new NullPointerException("serializationPolicy");
}
String responsePayload;
try {
Object result = serviceMethod.invoke(target, args);
responsePayload = encodeResponseForSuccess(serviceMethod, result, serializationPolicy, flags);
} catch (IllegalAccessException e) {
SecurityException securityException =
new SecurityException(formatIllegalAccessErrorMessage(target, serviceMethod));
securityException.initCause(e);
throw securityException;
} catch (IllegalArgumentException e) {
SecurityException securityException =
new SecurityException(formatIllegalArgumentErrorMessage(target, serviceMethod, args));
securityException.initCause(e);
throw securityException;
} catch (InvocationTargetException e) {
// Try to encode the caught exception
//
Throwable cause = e.getCause();
responsePayload = encodeResponseForFailure(serviceMethod, cause, serializationPolicy, flags);
}
return responsePayload;
}
/**
* Returns a string that encodes the results of an RPC call. Private overload
* that takes a flag signaling the preamble of the response payload.
*
* @param object the object that we wish to send back to the client
* @param wasThrown if true, the object being returned was an exception thrown
* by the service method; if false, it was the result of the service
* method's invocation
* @return a string that encodes the response from a service method
* @throws SerializationException if the object cannot be serialized
*/
private static String encodeResponse(Class> responseClass, Object object, boolean wasThrown,
int flags, SerializationPolicy serializationPolicy) throws SerializationException {
ServerSerializationStreamWriter stream =
new ServerSerializationStreamWriter(serializationPolicy);
stream.setFlags(flags);
stream.prepareToWrite();
if (responseClass != void.class) {
stream.serializeValue(object, responseClass);
}
String bufferStr = (wasThrown ? "//EX" : "//OK") + stream.toString();
return bufferStr;
}
private static String formatIllegalAccessErrorMessage(Object target, Method serviceMethod) {
StringBuffer sb = new StringBuffer();
sb.append("Blocked attempt to access inaccessible method '");
sb.append(getSourceRepresentation(serviceMethod));
sb.append("'");
if (target != null) {
sb.append(" on target '");
sb.append(printTypeName(target.getClass()));
sb.append("'");
}
sb.append("; this is either misconfiguration or a hack attempt");
return sb.toString();
}
private static String formatIllegalArgumentErrorMessage(Object target, Method serviceMethod,
Object[] args) {
StringBuffer sb = new StringBuffer();
sb.append("Blocked attempt to invoke method '");
sb.append(getSourceRepresentation(serviceMethod));
sb.append("'");
if (target != null) {
sb.append(" on target '");
sb.append(printTypeName(target.getClass()));
sb.append("'");
}
sb.append(" with invalid arguments");
if (args != null && args.length > 0) {
sb.append(Arrays.asList(args));
}
return sb.toString();
}
private static String formatMethodNotFoundErrorMessage(Class> serviceIntf,
String serviceMethodName, Class>[] parameterTypes) {
StringBuffer sb = new StringBuffer();
sb.append("Could not locate requested method '");
sb.append(serviceMethodName);
sb.append("(");
for (int i = 0; i < parameterTypes.length; ++i) {
if (i > 0) {
sb.append(", ");
}
sb.append(printTypeName(parameterTypes[i]));
}
sb.append(")'");
sb.append(" in interface '");
sb.append(printTypeName(serviceIntf));
sb.append("'");
return sb.toString();
}
/**
* Returns the {@link Class} instance for the named class or primitive type.
*
* @param serializedName the serialized name of a class or primitive type
* @param classLoader the classLoader used to load {@link Class}es
* @return Class instance for the given type name
* @throws ClassNotFoundException if the named type was not found
*/
private static Class> getClassFromSerializedName(String serializedName, ClassLoader classLoader)
throws ClassNotFoundException {
Class> value = TYPE_NAMES.get(serializedName);
if (value != null) {
return value;
}
return Class.forName(serializedName, false, classLoader);
}
/**
* Returns the {@link java.lang.Class Class} for a primitive type given its
* corresponding wrapper {@link java.lang.Class Class}.
*
* @param wrapperClass primitive wrapper class
* @return primitive class
*/
private static Class> getPrimitiveClassFromWrapper(Class> wrapperClass) {
return PRIMITIVE_WRAPPER_CLASS_TO_PRIMITIVE_CLASS.get(wrapperClass);
}
/**
* Returns the source representation for a method signature.
*
* @param method method to get the source signature for
* @return source representation for a method signature
*/
private static String getSourceRepresentation(Method method) {
return method.toString().replace('$', '.');
}
/**
* Used to determine whether the specified interface name is implemented by
* the service class. This is done without loading the class (for security).
*/
private static boolean implementsInterface(Class> service, String intfName) {
synchronized (serviceToImplementedInterfacesMap) {
// See if it's cached.
//
Set interfaceSet = serviceToImplementedInterfacesMap.get(service);
if (interfaceSet != null) {
if (interfaceSet.contains(intfName)) {
return true;
}
} else {
interfaceSet = new HashSet();
serviceToImplementedInterfacesMap.put(service, interfaceSet);
}
if (!service.isInterface()) {
while ((service != null) && !RemoteServiceServlet.class.equals(service)) {
Class>[] intfs = service.getInterfaces();
for (Class> intf : intfs) {
if (implementsInterfaceRecursive(intf, intfName)) {
interfaceSet.add(intfName);
return true;
}
}
// did not find the interface in this class so we look in the
// superclass
//
service = service.getSuperclass();
}
} else {
if (implementsInterfaceRecursive(service, intfName)) {
interfaceSet.add(intfName);
return true;
}
}
return false;
}
}
/**
* Only called from implementsInterface().
*/
private static boolean implementsInterfaceRecursive(Class> clazz, String intfName) {
assert (clazz.isInterface());
if (clazz.getName().equals(intfName)) {
return true;
}
// search implemented interfaces
Class>[] intfs = clazz.getInterfaces();
for (Class> intf : intfs) {
if (implementsInterfaceRecursive(intf, intfName)) {
return true;
}
}
return false;
}
/**
* Given a type identifier in the stream, attempt to deobfuscate it. Retuns
* the original identifier if deobfuscation is unnecessary or no mapping is
* known.
*/
private static String maybeDeobfuscate(ServerSerializationStreamReader streamReader, String name)
throws SerializationException {
int index;
if (streamReader.hasFlags(AbstractSerializationStream.FLAG_ELIDE_TYPE_NAMES)) {
SerializationPolicy serializationPolicy = streamReader.getSerializationPolicy();
if (!(serializationPolicy instanceof TypeNameObfuscator)) {
throw new IncompatibleRemoteServiceException(
"RPC request was encoded with obfuscated type names, "
+ "but the SerializationPolicy in use does not implement "
+ TypeNameObfuscator.class.getName());
}
String maybe = ((TypeNameObfuscator) serializationPolicy).getClassNameForTypeId(name);
if (maybe != null) {
return maybe;
}
} else if ((index = name.indexOf('/')) != -1) {
return name.substring(0, index);
}
return name;
}
/**
* Straight copy from
* {@link com.google.gwt.dev.util.TypeInfo#getSourceRepresentation(Class)} to
* avoid runtime dependency on gwt-dev.
*/
private static String printTypeName(Class> type) {
// Primitives
//
if (type.equals(Integer.TYPE)) {
return "int";
} else if (type.equals(Long.TYPE)) {
return "long";
} else if (type.equals(Short.TYPE)) {
return "short";
} else if (type.equals(Byte.TYPE)) {
return "byte";
} else if (type.equals(Character.TYPE)) {
return "char";
} else if (type.equals(Boolean.TYPE)) {
return "boolean";
} else if (type.equals(Float.TYPE)) {
return "float";
} else if (type.equals(Double.TYPE)) {
return "double";
}
// Arrays
//
if (type.isArray()) {
Class> componentType = type.getComponentType();
return printTypeName(componentType) + "[]";
}
// Everything else
//
return type.getName().replace('$', '.');
}
/**
* Static classes have no constructability.
*/
private RPC() {
// Not instantiable
}
}