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com.google.gwt.rpc.server.WebModePayloadSink Maven / Gradle / Ivy
/*
* Copyright 2009 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.rpc.server;
import static com.google.gwt.rpc.client.impl.CommandClientSerializationStreamReader.BACKREF_IDENT;
import com.google.gwt.rpc.client.ast.ArrayValueCommand;
import com.google.gwt.rpc.client.ast.BooleanValueCommand;
import com.google.gwt.rpc.client.ast.ByteValueCommand;
import com.google.gwt.rpc.client.ast.CharValueCommand;
import com.google.gwt.rpc.client.ast.CommandSink;
import com.google.gwt.rpc.client.ast.DoubleValueCommand;
import com.google.gwt.rpc.client.ast.EnumValueCommand;
import com.google.gwt.rpc.client.ast.FloatValueCommand;
import com.google.gwt.rpc.client.ast.InstantiateCommand;
import com.google.gwt.rpc.client.ast.IntValueCommand;
import com.google.gwt.rpc.client.ast.InvokeCustomFieldSerializerCommand;
import com.google.gwt.rpc.client.ast.LongValueCommand;
import com.google.gwt.rpc.client.ast.NullValueCommand;
import com.google.gwt.rpc.client.ast.ReturnCommand;
import com.google.gwt.rpc.client.ast.RpcCommand;
import com.google.gwt.rpc.client.ast.RpcCommandVisitor;
import com.google.gwt.rpc.client.ast.SetCommand;
import com.google.gwt.rpc.client.ast.ShortValueCommand;
import com.google.gwt.rpc.client.ast.StringValueCommand;
import com.google.gwt.rpc.client.ast.ThrowCommand;
import com.google.gwt.rpc.client.ast.ValueCommand;
import com.google.gwt.rpc.client.impl.CommandClientSerializationStreamReader;
import com.google.gwt.rpc.client.impl.EscapeUtil;
import com.google.gwt.user.client.rpc.IncompatibleRemoteServiceException;
import com.google.gwt.user.client.rpc.SerializationException;
import com.google.gwt.user.client.rpc.SerializationStreamReader;
import java.io.IOException;
import java.io.OutputStream;
import java.io.UnsupportedEncodingException;
import java.lang.reflect.Array;
import java.nio.BufferOverflowException;
import java.nio.ByteBuffer;
import java.util.HashMap;
import java.util.HashSet;
import java.util.IdentityHashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.Stack;
/**
* A CommandSink that will generate a web-mode payload.
*
* ONE-SHOT EVAL (no incremental evaluation, must call finish())
*/
public class WebModePayloadSink extends CommandSink {
private class BackRefAssigner extends RpcCommandVisitor {
private final Set seenOnce = new HashSet();
@Override
public void endVisit(InvokeCustomFieldSerializerCommand x, Context ctx) {
// We always need a backref for custom serializers
makeBackRef(x);
}
@Override
public void endVisit(LongValueCommand x, Context ctx) {
process(x);
}
@Override
public void endVisit(StringValueCommand x, Context ctx) {
process(x);
}
@Override
public boolean visit(ArrayValueCommand x, Context ctx) {
return process(x);
}
@Override
public boolean visit(InstantiateCommand x, Context ctx) {
return process(x);
}
private boolean process(ValueCommand x) {
if (!seenOnce.add(x)) {
makeBackRef(x);
return false;
}
return true;
}
}
private class PayloadVisitor extends RpcCommandVisitor {
private final Map, byte[]> constructorFunctions = new IdentityHashMap, byte[]>();
private final Map commandBuffers = new IdentityHashMap();
private ByteBuffer currentBuffer;
private final Stack stack = new Stack();
private final Set started = new HashSet();
@Override
public void endVisit(BooleanValueCommand x, Context ctx) {
if (x.getValue()) {
one();
} else {
zero();
}
}
@Override
public void endVisit(ByteValueCommand x, Context ctx) {
push(String.valueOf(x.getValue()));
}
@Override
public void endVisit(CharValueCommand x, Context ctx) {
push(String.valueOf((int) x.getValue()));
}
@Override
public void endVisit(DoubleValueCommand x, Context ctx) {
push(String.valueOf(x.getValue()));
}
@Override
public void endVisit(EnumValueCommand x, Context ctx) {
String fieldName = clientOracle.getFieldId(x.getValue());
if (fieldName == null) {
throw new IncompatibleRemoteServiceException(
"The client cannot accept " + x.getValue().name());
}
String clinitName = clientOracle.getMethodId(
x.getValue().getDeclaringClass(), "$clinit");
assert clinitName != null;
// (clinit(), A)
lparen();
push(clinitName);
lparen();
rparen();
comma();
push(fieldName);
rparen();
}
@Override
public void endVisit(FloatValueCommand x, Context ctx) {
push(String.valueOf((double) x.getValue()));
}
@Override
public void endVisit(IntValueCommand x, Context ctx) {
push(String.valueOf(x.getValue()));
}
@Override
public void endVisit(LongValueCommand x, Context ctx) {
// TODO (rice): use backwards-compatible wire format?
long fieldValue = x.getValue();
/*
* Client code represents longs internally as an Object with numeric
* properties l, m, and h. In order to make serialization of longs faster,
* we'll send the component parts so that the value can be directly
* reconstituted on the client.
*/
int l = (int) (fieldValue & 0x3fffff);
int m = (int) ((fieldValue >> 22) & 0x3fffff);
int h = (int) ((fieldValue >> 44) & 0xfffff);
// CHECKSTYLE_OFF
push("{l:" + l + ",m:" + m + ",h:" + h + "}");
// CHECKSTYLE_ON
}
@Override
public void endVisit(NullValueCommand x, Context ctx) {
_null();
}
@Override
public void endVisit(ShortValueCommand x, Context ctx) {
push(String.valueOf(x.getValue()));
}
@Override
public void endVisit(StringValueCommand x, Context ctx) {
if (hasBackRef(x)) {
if (!isStarted(x)) {
String escaped = EscapeUtil.escape(x.getValue());
push(begin(x));
eq();
quote();
push(escaped);
quote();
commit(x, false);
} else {
push(makeBackRef(x));
}
} else {
String escaped = EscapeUtil.escape(x.getValue());
quote();
push(escaped);
quote();
}
}
@Override
public boolean visit(ArrayValueCommand x, Context ctx) {
boolean hasBackRef = hasBackRef(x);
if (hasBackRef && isStarted(x)) {
push(makeBackRef(x));
return false;
}
// constructorFunction(x = [value,value,value])
byte[] currentBackRef = begin(x);
push(constructorFunction(x));
lparen();
if (hasBackRef) {
push(currentBackRef);
eq();
}
lbracket();
for (Iterator it = x.getComponentValues().iterator(); it.hasNext();) {
accept(it.next());
if (it.hasNext()) {
comma();
}
}
rbracket();
rparen();
commit(x, false);
if (!hasBackRef) {
forget(x);
}
return false;
}
@Override
public boolean visit(InstantiateCommand x, Context ctx) {
boolean hasBackRef = hasBackRef(x);
if (hasBackRef && isStarted(x)) {
push(makeBackRef(x));
return false;
}
byte[] currentBackRef = begin(x);
byte[] constructorFunction = constructorFunction(x);
String seedName = clientOracle.getSeedName(x.getTargetClass());
if (seedName == null) {
throw new IncompatibleRemoteServiceException(
"The client cannot create type " + x.getTargetClass());
}
/*
* If we need to maintain a backreference to the object, it's established
* in the first argument instead of using the return value of the
* constructorFunction. This is done in case one of the fields should
* require a reference to the object that is currently being constructed.
*/
// constructorFunctionFoo(x = new Foo, field1, field2)
push(constructorFunction);
lparen();
if (hasBackRef) {
push(currentBackRef);
eq();
}
_new();
push(seedName);
for (SetCommand setter : x.getSetters()) {
comma();
accept(setter.getValue());
}
rparen();
commit(x, false);
if (!hasBackRef) {
forget(x);
}
return false;
}
@Override
public boolean visit(InvokeCustomFieldSerializerCommand x, Context ctx) {
if (isStarted(x)) {
push(makeBackRef(x));
return false;
}
// ( backref = instantiate(), deserialize(), setter, ..., backref )
byte[] currentBackRef = begin(x);
lparen();
InstantiateCommand makeReader = new InstantiateCommand(
CommandClientSerializationStreamReader.class);
/*
* Ensure that the reader will stick around for both instantiate and
* deserialize calls.
*/
makeBackRef(makeReader);
ArrayValueCommand payload = new ArrayValueCommand(Object.class);
for (ValueCommand value : x.getValues()) {
payload.add(value);
}
makeReader.set(CommandClientSerializationStreamReader.class, "payload",
payload);
String instantiateIdent = clientOracle.getMethodId(
x.getSerializerClass(), "instantiate",
SerializationStreamReader.class);
// x = new Foo,
// x = instantiate(reader),
push(currentBackRef);
eq();
if (instantiateIdent == null) {
// No instantiate method, we'll have to invoke the constructor
// new Foo()
String constructorMethodName;
if (x.getTargetClass().getEnclosingClass() == null) {
constructorMethodName = x.getTargetClass().getSimpleName();
} else {
String name = x.getTargetClass().getName();
constructorMethodName = name.substring(name.lastIndexOf('.') + 1);
}
String constructorIdent = clientOracle.getMethodId(x.getTargetClass(),
constructorMethodName);
assert constructorIdent != null : "constructorIdent "
+ constructorMethodName;
// new constructor,
_new();
push(constructorIdent);
comma();
} else {
// instantiate(reader),
push(instantiateIdent);
lparen();
accept(makeReader);
rparen();
comma();
}
// Call the deserialize method if it exists
String deserializeIdent = clientOracle.getMethodId(
x.getSerializerClass(), "deserialize",
SerializationStreamReader.class, x.getManuallySerializedType());
if (deserializeIdent != null) {
// deserialize(reader, obj),
push(deserializeIdent);
lparen();
accept(makeReader);
comma();
push(currentBackRef);
rparen();
comma();
}
// If there are extra fields, set them
for (SetCommand setter : x.getSetters()) {
accept(setter);
comma();
}
push(currentBackRef);
rparen();
commit(x, false);
forget(makeReader);
return false;
}
@Override
public boolean visit(ReturnCommand x, Context ctx) {
int size = x.getValues().size();
begin(x);
_return();
// return [a,b,c];
lbracket();
for (int i = 0; i < size; i++) {
accept(x.getValues().get(i));
if (i < size - 1) {
comma();
}
}
rbracket();
semi();
commit(x);
return false;
}
@Override
public boolean visit(SetCommand x, Context ctx) {
String fieldName = clientOracle.getFieldId(x.getFieldDeclClass(),
x.getField());
if (fieldName == null) {
// TODO: What does it mean if the client doesn't have a field?
throw new IncompatibleRemoteServiceException(
"The client does not have field " + x.getField() + " in type "
+ x.getFieldDeclClass().getName());
}
// i[3].foo = bar
push(makeBackRef((ValueCommand) stack.peek()));
dot();
push(fieldName);
eq();
accept(x.getValue());
return false;
}
/**
* In order to improve robustness of the payload, we perform the throw from
* within a function.
*/
@Override
public boolean visit(ThrowCommand x, Context ctx) {
// throw foo;
begin(x);
_throw();
assert x.getValues().size() == 1;
accept(x.getValues());
semi();
commit(x);
return false;
}
// CHECKSTYLE_OFF
private void _new() {
push(NEW_BYTES);
}
private void _null() {
push(NULL_BYTES);
}
private void _return() {
push(RETURN_BYTES);
}
private void _throw() {
push(THROW_BYTES);
}
// CHECKSTYLE_ON
private void begin(RpcCommand x) {
assert !commandBuffers.containsKey(x) : "ValueCommand already active";
started.add(x);
stack.push(x);
currentBuffer = ByteBuffer.allocate(DEFAULT_BUFFER_SIZE);
commandBuffers.put(x, currentBuffer);
}
private byte[] begin(ValueCommand x) {
begin((RpcCommand) x);
return makeBackRef(x);
}
private void comma() {
push(COMMA_BYTES);
spaceOpt();
}
private void commit(RpcCommand x) {
commit(x, true);
}
private void commit(RpcCommand x, boolean send) {
if (stack.pop() != x) {
throw new IllegalStateException("Did not pop expected command");
}
// Don't need to retain any internal data
x.clear();
ByteBuffer sb = commandBuffers.remove(x);
assert sb != null : "No ByteBuffer for " + x;
if (!stack.isEmpty()) {
currentBuffer = commandBuffers.get(stack.peek());
assert currentBuffer != null : "Could not restore currentBuilder";
} else {
currentBuffer = null;
}
sb.limit(sb.position()).rewind();
if (send) {
try {
send(sb);
} catch (SerializationException e) {
halt(e);
}
} else {
push(sb);
}
}
private byte[] constructorFunction(ArrayValueCommand x) {
Class> targetClass = Array.newInstance(x.getComponentType(), 0).getClass();
byte[] functionName = constructorFunctions.get(targetClass);
if (functionName != null) {
return functionName;
}
String initValuesId = clientOracle.getMethodId(
"com.google.gwt.lang.Array", "initValues", "Ljava/lang/Class;",
"Lcom/google/gwt/core/client/JavaScriptObject;", "I",
"Lcom/google/gwt/lang/Array;");
assert initValuesId != null : "Could not find initValues";
String classLitId = clientOracle.getFieldId(
"com.google.gwt.lang.ClassLiteralHolder",
getJavahSignatureName(x.getComponentType()) + "_classLit");
assert classLitId != null : "No class literal for "
+ x.getComponentType().getName();
functionName = getBytes(clientOracle.createUnusedIdent(classLitId));
constructorFunctions.put(targetClass, functionName);
/*
* Set the castableTypeData and queryIds to exact values,
* or fall back to acting like a plain Object[] array.
*/
CastableTypeData castableTypeData = clientOracle.getCastableTypeData(targetClass);
if (castableTypeData == null) {
castableTypeData = clientOracle.getCastableTypeData(Object[].class);
}
int queryId = clientOracle.getQueryId(x.getComponentType());
if (queryId == 0) {
queryId = clientOracle.getQueryId(Object.class);
}
byte[] ident = getBytes("_0");
// function foo(_0) {return initValues(classLid, castableTypeData, queryId, _0)}
function();
push(functionName);
lparen();
push(ident);
rparen();
lbrace();
_return();
push(initValuesId);
lparen();
push(classLitId);
comma();
push(castableTypeData.toJs());
comma();
push(String.valueOf(queryId));
comma();
push(ident);
rparen();
rbrace();
flush(x);
return functionName;
}
private byte[] constructorFunction(InstantiateCommand x) {
Class> targetClass = x.getTargetClass();
byte[] functionName = constructorFunctions.get(targetClass);
if (functionName != null) {
return functionName;
}
String seedName = clientOracle.getSeedName(targetClass);
assert seedName != null : "TypeOverride failed to rescue "
+ targetClass.getName();
functionName = getBytes(clientOracle.createUnusedIdent(seedName));
constructorFunctions.put(targetClass, functionName);
byte[][] idents = new byte[x.getSetters().size() + 1][];
for (int i = 0, j = idents.length; i < j; i++) {
idents[i] = getBytes("_" + i);
}
// function foo(_0, _1, _2) {_0.a = _1; _0.b=_2; return _0}
function();
push(functionName);
lparen();
for (int i = 0, j = idents.length; i < j; i++) {
push(idents[i]);
if (i < j - 1) {
comma();
}
}
rparen();
lbrace();
newlineOpt();
for (int i = 1, j = idents.length; i < j; i++) {
SetCommand setter = x.getSetters().get(i - 1);
String fieldIdent = clientOracle.getFieldId(setter.getFieldDeclClass(),
setter.getField());
// _0.foo = bar;
spaceOpt();
push(idents[0]);
dot();
push(fieldIdent);
eq();
push(idents[i]);
semi();
}
spaceOpt();
_return();
push(idents[0]);
rbrace();
newlineOpt();
flush(x);
return functionName;
}
private void dot() {
push(DOT_BYTES);
}
private void eq() {
spaceOpt();
push(EQ_BYTES);
spaceOpt();
}
/**
* Cause an immediate write of accumulated output for a command. This is
* used primarily for writing object allocations
*/
private void flush(RpcCommand x) {
ByteBuffer sb = commandBuffers.get(x);
if (sb == null || sb.position() == 0) {
return;
}
sb.limit(sb.position()).rewind();
try {
send(sb);
} catch (SerializationException e) {
halt(e);
}
sb.clear();
}
private void function() {
newlineOpt();
push(FUNCTION_BYTES);
}
/**
* Keep in sync with JReferenceType implementations.
*/
private String getJavahSignatureName(Class> clazz) {
if (clazz.isArray()) {
Class> leafType = clazz;
int dims = 0;
do {
dims++;
leafType = leafType.getComponentType();
} while (leafType.getComponentType() != null);
assert dims > 0;
// leafType cannot be null here
String s = getJavahSignatureName(leafType);
for (int i = 0; i < dims; ++i) {
s = "_3" + s;
}
return s;
} else if (clazz.isPrimitive()) {
return WebModeClientOracle.jsniName(clazz);
} else {
String name = clazz.getName();
return "L" + name.replaceAll("_", "_1").replace('.', '_') + "_2";
}
}
private boolean isStarted(RpcCommand x) {
return started.contains(x);
}
private void lbrace() {
push(LBRACE_BYTES);
}
private void lbracket() {
push(LBRACKET_BYTES);
}
private void lparen() {
push(LPAREN_BYTES);
}
private void newlineOpt() {
pushOpt(NEWLINE_BYTES);
}
private void one() {
push(ONE_BYTES);
}
/**
* Add data to the current command's serialization output.
*/
private void push(byte[] bytes) {
assert currentBuffer != null : "Must call begin(RpcCommand) first";
try {
currentBuffer.put(bytes);
} catch (BufferOverflowException e) {
reallocateCurrentBuffer(bytes.length);
currentBuffer.put(bytes);
}
}
/**
* Add data to the current command's serialization output.
*/
private void push(ByteBuffer buffer) {
assert currentBuffer != null : "Must call begin(RpcCommand) first";
try {
currentBuffer.put(buffer);
} catch (BufferOverflowException e) {
reallocateCurrentBuffer(buffer.remaining());
currentBuffer.put(buffer);
}
}
/**
* Add data to the current command's serialization output.
*/
private void push(String s) {
push(getBytes(s));
}
/**
* Optionally add data to the current command's serialization output.
*/
private void pushOpt(byte[] x) {
if (PRETTY) {
push(x);
}
}
private void quote() {
push(QUOTE_BYTES);
}
private void rbrace() {
push(RBRACE_BYTES);
}
private void rbracket() {
push(RBRACKET_BYTES);
}
private void reallocateCurrentBuffer(int bytesNeeded) {
// Allocate a new buffer of sufficient size
int newSize = currentBuffer.capacity()
+ Math.max(2 * bytesNeeded, currentBuffer.capacity());
ByteBuffer newBuffer = ByteBuffer.allocate(newSize);
// Copy the old buffer over
currentBuffer.limit(currentBuffer.position()).rewind();
newBuffer.put(currentBuffer);
// Reassign the current buffer
assert commandBuffers.get(stack.peek()) == currentBuffer;
commandBuffers.put(stack.peek(), newBuffer);
currentBuffer = newBuffer;
}
private void rparen() {
push(RPAREN_BYTES);
}
private void semi() {
push(SEMI_BYTES);
newlineOpt();
}
private void spaceOpt() {
pushOpt(SPACE_BYTES);
}
private void zero() {
push(ZERO_BYTES);
}
}
/*
* Instead of converting these commonly-used strings to bytes every time we
* want to write them to the output, we'll simply create a fixed pool.
*/
static final byte[] COMMA_BYTES = getBytes(",");
static final byte[] DOT_BYTES = getBytes(".");
static final byte[] EQ_BYTES = getBytes("=");
static final byte[] FUNCTION_BYTES = getBytes("function ");
static final byte[] LBRACE_BYTES = getBytes("{");
static final byte[] LBRACKET_BYTES = getBytes("[");
static final byte[] LPAREN_BYTES = getBytes("(");
static final byte[] NEW_BYTES = getBytes("new ");
static final byte[] NEWLINE_BYTES = getBytes("\n");
static final byte[] NULL_BYTES = getBytes("null");
static final byte[] ONE_BYTES = getBytes("1");
static final byte[] QUOTE_BYTES = getBytes("\"");
static final byte[] RBRACE_BYTES = getBytes("}");
static final byte[] RBRACKET_BYTES = getBytes("]");
static final byte[] RETURN_BYTES = getBytes("return ");
static final byte[] RPAREN_BYTES = getBytes(")");
static final byte[] SPACE_BYTES = getBytes(" ");
static final byte[] SEMI_BYTES = getBytes(";");
static final byte[] THROW_BYTES = getBytes("throw ");
static final byte[] ZERO_BYTES = getBytes("0");
/**
* A runtime flag to indicate that the generated output should be made to be
* human-readable.
*/
static final boolean PRETTY = Boolean.getBoolean("gwt.rpc.pretty");
private static final int DEFAULT_BUFFER_SIZE = 256;
static byte[] getBytes(String x) {
try {
return x.getBytes("UTF-8");
} catch (UnsupportedEncodingException e) {
throw new RuntimeException("UTF-8 is unsupported", e);
}
}
private final ClientOracle clientOracle;
private boolean finished = false;
private final OutputStream out;
private final Map valueBackRefs = new HashMap();
private final PayloadVisitor visitor = new PayloadVisitor();
private Stack freeBackRefs = new Stack();
public WebModePayloadSink(ClientOracle clientOracle, OutputStream out) {
this.clientOracle = clientOracle;
this.out = out;
}
@Override
public void accept(RpcCommand command) throws SerializationException {
if (finished) {
throw new IllegalStateException("finish() has already been called");
}
new BackRefAssigner().accept(command);
if (command instanceof ValueCommand) {
makeBackRef((ValueCommand) command);
}
visitor.accept(command);
}
/**
* The caller must close the stream.
*/
@Override
public void finish() throws SerializationException {
finished = true;
}
void forget(ValueCommand x) {
assert valueBackRefs.containsKey(x);
freeBackRefs.push(valueBackRefs.remove(x));
}
boolean hasBackRef(ValueCommand x) {
return valueBackRefs.containsKey(x);
}
byte[] makeBackRef(ValueCommand x) {
byte[] toReturn = valueBackRefs.get(x);
if (toReturn == null) {
if (freeBackRefs.isEmpty()) {
int idx = valueBackRefs.size();
toReturn = getBytes(BACKREF_IDENT + "._"
+ Integer.toString(idx, Character.MAX_RADIX));
} else {
toReturn = freeBackRefs.pop();
}
valueBackRefs.put(x, toReturn);
}
return toReturn;
}
void send(ByteBuffer x) throws SerializationException {
try {
assert x.hasArray();
out.write(x.array(), x.position(), x.limit());
} catch (IOException e) {
throw new SerializationException("Could not send data", e);
}
}
void send(String x) throws SerializationException {
try {
out.write(getBytes(x));
} catch (IOException e) {
throw new SerializationException("Could not send data", e);
}
}
}