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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
package com.signalfx.shaded.google.protobuf;
import static com.signalfx.shaded.google.protobuf.Internal.checkNotNull;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.DescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.Edition;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.EnumDescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.EnumOptions;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.EnumValueDescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.EnumValueOptions;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.FieldDescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.FieldOptions;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.FileDescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.FileOptions;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.MessageOptions;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.MethodDescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.MethodOptions;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.OneofDescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.OneofOptions;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.ServiceDescriptorProto;
import com.signalfx.shaded.google.protobuf.DescriptorProtos.ServiceOptions;
import com.signalfx.shaded.google.protobuf.Descriptors.FileDescriptor.Syntax;
import java.lang.ref.ReferenceQueue;
import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.IdentityHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Logger;
/**
* Contains a collection of classes which describe protocol message types.
*
* Every message type has a {@link Descriptor}, which lists all its fields and other information
* about a type. You can get a message type's descriptor by calling {@code
* MessageType.getDescriptor()}, or (given a message object of the type) {@code
* message.getDescriptorForType()}. Furthermore, each message is associated with a {@link
* FileDescriptor} for a relevant {@code .proto} file. You can obtain it by calling {@code
* Descriptor.getFile()}. A {@link FileDescriptor} contains descriptors for all the messages defined
* in that file, and file descriptors for all the imported {@code .proto} files.
*
*
Descriptors are built from DescriptorProtos, as defined in {@code
* google/protobuf/descriptor.proto}.
*
* @author [email protected] Kenton Varda
*/
@CheckReturnValue
public final class Descriptors {
private static final Logger logger = Logger.getLogger(Descriptors.class.getName());
private static final int[] EMPTY_INT_ARRAY = new int[0];
private static final Descriptor[] EMPTY_DESCRIPTORS = new Descriptor[0];
private static final FieldDescriptor[] EMPTY_FIELD_DESCRIPTORS = new FieldDescriptor[0];
private static final EnumDescriptor[] EMPTY_ENUM_DESCRIPTORS = new EnumDescriptor[0];
private static final ServiceDescriptor[] EMPTY_SERVICE_DESCRIPTORS = new ServiceDescriptor[0];
private static final OneofDescriptor[] EMPTY_ONEOF_DESCRIPTORS = new OneofDescriptor[0];
/**
* Describes a {@code .proto} file, including everything defined within. That includes, in
* particular, descriptors for all the messages and file descriptors for all other imported {@code
* .proto} files (dependencies).
*/
public static final class FileDescriptor extends GenericDescriptor {
/** Convert the descriptor to its protocol message representation. */
@Override
public FileDescriptorProto toProto() {
return proto;
}
/** Get the file name. */
@Override
public String getName() {
return proto.getName();
}
/** Returns this object. */
@Override
public FileDescriptor getFile() {
return this;
}
/** Returns the same as getName(). */
@Override
public String getFullName() {
return proto.getName();
}
/**
* Get the proto package name. This is the package name given by the {@code package} statement
* in the {@code .proto} file, which differs from the Java package.
*/
public String getPackage() {
return proto.getPackage();
}
/** Get the {@code FileOptions}, defined in {@code descriptor.proto}. */
public FileOptions getOptions() {
return proto.getOptions();
}
/** Get a list of top-level message types declared in this file. */
public List getMessageTypes() {
return Collections.unmodifiableList(Arrays.asList(messageTypes));
}
/** Get a list of top-level enum types declared in this file. */
public List getEnumTypes() {
return Collections.unmodifiableList(Arrays.asList(enumTypes));
}
/** Get a list of top-level services declared in this file. */
public List getServices() {
return Collections.unmodifiableList(Arrays.asList(services));
}
/** Get a list of top-level extensions declared in this file. */
public List getExtensions() {
return Collections.unmodifiableList(Arrays.asList(extensions));
}
/** Get a list of this file's dependencies (imports). */
public List getDependencies() {
return Collections.unmodifiableList(Arrays.asList(dependencies));
}
/** Get a list of this file's public dependencies (public imports). */
public List getPublicDependencies() {
return Collections.unmodifiableList(Arrays.asList(publicDependencies));
}
/** The syntax of the .proto file. */
@Deprecated
public
enum Syntax {
UNKNOWN("unknown"),
PROTO2("proto2"),
PROTO3("proto3"),
EDITIONS("editions");
Syntax(String name) {
this.name = name;
}
private final String name;
}
/** Get the syntax of the .proto file. */
@Deprecated
public
Syntax getSyntax() {
if (Syntax.PROTO3.name.equals(proto.getSyntax())) {
return Syntax.PROTO3;
} else if (Syntax.EDITIONS.name.equals(proto.getSyntax())) {
return Syntax.EDITIONS;
}
return Syntax.PROTO2;
}
/** Get the edition of the .proto file. */
public Edition getEdition() {
return proto.getEdition();
}
/** Gets the name of the edition as specified in the .proto file. */
public String getEditionName() {
if (proto.getEdition().equals(Edition.EDITION_UNKNOWN)) {
return "";
}
return proto.getEdition().name().substring("EDITION_".length());
}
public void copyHeadingTo(FileDescriptorProto.Builder protoBuilder) {
protoBuilder.setName(getName()).setSyntax(getSyntax().name);
if (!getPackage().isEmpty()) {
protoBuilder.setPackage(getPackage());
}
if (getSyntax().equals(Syntax.EDITIONS)) {
protoBuilder.setEdition(getEdition());
}
if (!getOptions().equals(FileOptions.getDefaultInstance())) {
protoBuilder.setOptions(getOptions());
}
}
/**
* Find a message type in the file by name. Does not find nested types.
*
* @param name The unqualified type name to look for.
* @return The message type's descriptor, or {@code null} if not found.
*/
public Descriptor findMessageTypeByName(String name) {
// Don't allow looking up nested types. This will make optimization
// easier later.
if (name.indexOf('.') != -1) {
return null;
}
final String packageName = getPackage();
if (!packageName.isEmpty()) {
name = packageName + '.' + name;
}
final GenericDescriptor result = pool.findSymbol(name);
if (result instanceof Descriptor && result.getFile() == this) {
return (Descriptor) result;
} else {
return null;
}
}
/**
* Find an enum type in the file by name. Does not find nested types.
*
* @param name The unqualified type name to look for.
* @return The enum type's descriptor, or {@code null} if not found.
*/
public EnumDescriptor findEnumTypeByName(String name) {
// Don't allow looking up nested types. This will make optimization
// easier later.
if (name.indexOf('.') != -1) {
return null;
}
final String packageName = getPackage();
if (!packageName.isEmpty()) {
name = packageName + '.' + name;
}
final GenericDescriptor result = pool.findSymbol(name);
if (result instanceof EnumDescriptor && result.getFile() == this) {
return (EnumDescriptor) result;
} else {
return null;
}
}
/**
* Find a service type in the file by name.
*
* @param name The unqualified type name to look for.
* @return The service type's descriptor, or {@code null} if not found.
*/
public ServiceDescriptor findServiceByName(String name) {
// Don't allow looking up nested types. This will make optimization
// easier later.
if (name.indexOf('.') != -1) {
return null;
}
final String packageName = getPackage();
if (!packageName.isEmpty()) {
name = packageName + '.' + name;
}
final GenericDescriptor result = pool.findSymbol(name);
if (result instanceof ServiceDescriptor && result.getFile() == this) {
return (ServiceDescriptor) result;
} else {
return null;
}
}
/**
* Find an extension in the file by name. Does not find extensions nested inside message types.
*
* @param name The unqualified extension name to look for.
* @return The extension's descriptor, or {@code null} if not found.
*/
public FieldDescriptor findExtensionByName(String name) {
if (name.indexOf('.') != -1) {
return null;
}
final String packageName = getPackage();
if (!packageName.isEmpty()) {
name = packageName + '.' + name;
}
final GenericDescriptor result = pool.findSymbol(name);
if (result instanceof FieldDescriptor && result.getFile() == this) {
return (FieldDescriptor) result;
} else {
return null;
}
}
/**
* Construct a {@code FileDescriptor}.
*
* @param proto the protocol message form of the FileDescriptort
* @param dependencies {@code FileDescriptor}s corresponding to all of the file's dependencies
* @throws DescriptorValidationException {@code proto} is not a valid descriptor. This can occur
* for a number of reasons; for instance, because a field has an undefined type or because
* two messages were defined with the same name.
*/
public static FileDescriptor buildFrom(FileDescriptorProto proto, FileDescriptor[] dependencies)
throws DescriptorValidationException {
return buildFrom(proto, dependencies, false);
}
/**
* Construct a {@code FileDescriptor}.
*
* @param proto the protocol message form of the FileDescriptor
* @param dependencies {@code FileDescriptor}s corresponding to all of the file's dependencies
* @param allowUnknownDependencies if true, non-existing dependencies will be ignored and
* undefined message types will be replaced with a placeholder type. Undefined enum types
* still cause a DescriptorValidationException.
* @throws DescriptorValidationException {@code proto} is not a valid descriptor. This can occur
* for a number of reasons; for instance, because a field has an undefined type or because
* two messages were defined with the same name.
*/
public static FileDescriptor buildFrom(
FileDescriptorProto proto, FileDescriptor[] dependencies, boolean allowUnknownDependencies)
throws DescriptorValidationException {
// Building descriptors involves two steps: translating and linking.
// In the translation step (implemented by FileDescriptor's
// constructor), we build an object tree mirroring the
// FileDescriptorProto's tree and put all of the descriptors into the
// DescriptorPool's lookup tables. In the linking step, we look up all
// type references in the DescriptorPool, so that, for example, a
// FieldDescriptor for an embedded message contains a pointer directly
// to the Descriptor for that message's type. We also detect undefined
// types in the linking step.
DescriptorPool pool = new DescriptorPool(dependencies, allowUnknownDependencies);
FileDescriptor result =
new FileDescriptor(proto, dependencies, pool, allowUnknownDependencies);
result.crossLink();
return result;
}
private static byte[] latin1Cat(final String[] strings) {
// Hack: We can't embed a raw byte array inside generated Java code
// (at least, not efficiently), but we can embed Strings. So, the
// protocol compiler embeds the FileDescriptorProto as a giant
// string literal which is passed to this function to construct the
// file's FileDescriptor. The string literal contains only 8-bit
// characters, each one representing a byte of the FileDescriptorProto's
// serialized form. So, if we convert it to bytes in ISO-8859-1, we
// should get the original bytes that we want.
// Literal strings are limited to 64k, so it may be split into multiple strings.
if (strings.length == 1) {
return strings[0].getBytes(Internal.ISO_8859_1);
}
StringBuilder descriptorData = new StringBuilder();
for (String part : strings) {
descriptorData.append(part);
}
return descriptorData.toString().getBytes(Internal.ISO_8859_1);
}
private static FileDescriptor[] findDescriptors(
final Class> descriptorOuterClass,
final String[] dependencyClassNames,
final String[] dependencyFileNames) {
List descriptors = new ArrayList<>();
for (int i = 0; i < dependencyClassNames.length; i++) {
try {
Class> clazz = descriptorOuterClass.getClassLoader().loadClass(dependencyClassNames[i]);
descriptors.add((FileDescriptor) clazz.getField("descriptor").get(null));
} catch (Exception e) {
// We allow unknown dependencies by default. If a dependency cannot
// be found we only generate a warning.
logger.warning("Descriptors for \"" + dependencyFileNames[i] + "\" can not be found.");
}
}
return descriptors.toArray(new FileDescriptor[0]);
}
/**
* This method is for backward compatibility with generated code which passed an
* InternalDescriptorAssigner.
*/
@Deprecated
public static void internalBuildGeneratedFileFrom(
final String[] descriptorDataParts,
final FileDescriptor[] dependencies,
final InternalDescriptorAssigner descriptorAssigner) {
final byte[] descriptorBytes = latin1Cat(descriptorDataParts);
FileDescriptorProto proto;
try {
proto = FileDescriptorProto.parseFrom(descriptorBytes);
} catch (InvalidProtocolBufferException e) {
throw new IllegalArgumentException(
"Failed to parse protocol buffer descriptor for generated code.", e);
}
final FileDescriptor result;
try {
// When building descriptors for generated code, we allow unknown
// dependencies by default.
result = buildFrom(proto, dependencies, true);
} catch (DescriptorValidationException e) {
throw new IllegalArgumentException(
"Invalid embedded descriptor for \"" + proto.getName() + "\".", e);
}
final ExtensionRegistry registry = descriptorAssigner.assignDescriptors(result);
if (registry != null) {
// We must re-parse the proto using the registry.
try {
proto = FileDescriptorProto.parseFrom(descriptorBytes, registry);
} catch (InvalidProtocolBufferException e) {
throw new IllegalArgumentException(
"Failed to parse protocol buffer descriptor for generated code.", e);
}
result.setProto(proto);
}
}
/**
* This method is to be called by generated code only. It is equivalent to {@code buildFrom}
* except that the {@code FileDescriptorProto} is encoded in protocol buffer wire format.
*/
public static FileDescriptor internalBuildGeneratedFileFrom(
final String[] descriptorDataParts, final FileDescriptor[] dependencies) {
final byte[] descriptorBytes = latin1Cat(descriptorDataParts);
FileDescriptorProto proto;
try {
proto = FileDescriptorProto.parseFrom(descriptorBytes);
} catch (InvalidProtocolBufferException e) {
throw new IllegalArgumentException(
"Failed to parse protocol buffer descriptor for generated code.", e);
}
try {
// When building descriptors for generated code, we allow unknown
// dependencies by default.
return buildFrom(proto, dependencies, true);
} catch (DescriptorValidationException e) {
throw new IllegalArgumentException(
"Invalid embedded descriptor for \"" + proto.getName() + "\".", e);
}
}
/**
* This method is for backward compatibility with generated code which passed an
* InternalDescriptorAssigner.
*/
@Deprecated
public static void internalBuildGeneratedFileFrom(
final String[] descriptorDataParts,
final Class> descriptorOuterClass,
final String[] dependencyClassNames,
final String[] dependencyFileNames,
final InternalDescriptorAssigner descriptorAssigner) {
FileDescriptor[] dependencies =
findDescriptors(descriptorOuterClass, dependencyClassNames, dependencyFileNames);
internalBuildGeneratedFileFrom(descriptorDataParts, dependencies, descriptorAssigner);
}
/**
* This method is to be called by generated code only. It uses Java reflection to load the
* dependencies' descriptors.
*/
public static FileDescriptor internalBuildGeneratedFileFrom(
final String[] descriptorDataParts,
final Class> descriptorOuterClass,
final String[] dependencyClassNames,
final String[] dependencyFileNames) {
FileDescriptor[] dependencies =
findDescriptors(descriptorOuterClass, dependencyClassNames, dependencyFileNames);
return internalBuildGeneratedFileFrom(descriptorDataParts, dependencies);
}
/**
* This method is to be called by generated code only. It updates the FileDescriptorProto
* associated with the descriptor by parsing it again with the given ExtensionRegistry. This is
* needed to recognize custom options.
*/
public static void internalUpdateFileDescriptor(
FileDescriptor descriptor, ExtensionRegistry registry) {
ByteString bytes = descriptor.proto.toByteString();
try {
FileDescriptorProto proto = FileDescriptorProto.parseFrom(bytes, registry);
descriptor.setProto(proto);
} catch (InvalidProtocolBufferException e) {
throw new IllegalArgumentException(
"Failed to parse protocol buffer descriptor for generated code.", e);
}
}
/**
* This class should be used by generated code only. When calling {@link
* FileDescriptor#internalBuildGeneratedFileFrom}, the caller provides a callback implementing
* this interface. The callback is called after the FileDescriptor has been constructed, in
* order to assign all the global variables defined in the generated code which point at parts
* of the FileDescriptor. The callback returns an ExtensionRegistry which contains any
* extensions which might be used in the descriptor -- that is, extensions of the various
* "Options" messages defined in descriptor.proto. The callback may also return null to indicate
* that no extensions are used in the descriptor.
*
* This interface is deprecated. Use the return value of internalBuildGeneratedFrom()
* instead.
*/
@Deprecated
public interface InternalDescriptorAssigner {
ExtensionRegistry assignDescriptors(FileDescriptor root);
}
private FileDescriptorProto proto;
private final Descriptor[] messageTypes;
private final EnumDescriptor[] enumTypes;
private final ServiceDescriptor[] services;
private final FieldDescriptor[] extensions;
private final FileDescriptor[] dependencies;
private final FileDescriptor[] publicDependencies;
private final DescriptorPool pool;
private FileDescriptor(
final FileDescriptorProto proto,
final FileDescriptor[] dependencies,
final DescriptorPool pool,
boolean allowUnknownDependencies)
throws DescriptorValidationException {
this.pool = pool;
this.proto = proto;
this.dependencies = dependencies.clone();
HashMap nameToFileMap = new HashMap<>();
for (FileDescriptor file : dependencies) {
nameToFileMap.put(file.getName(), file);
}
List publicDependencies = new ArrayList<>();
for (int i = 0; i < proto.getPublicDependencyCount(); i++) {
int index = proto.getPublicDependency(i);
if (index < 0 || index >= proto.getDependencyCount()) {
throw new DescriptorValidationException(this, "Invalid public dependency index.");
}
String name = proto.getDependency(index);
FileDescriptor file = nameToFileMap.get(name);
if (file == null) {
if (!allowUnknownDependencies) {
throw new DescriptorValidationException(this, "Invalid public dependency: " + name);
}
// Ignore unknown dependencies.
} else {
publicDependencies.add(file);
}
}
this.publicDependencies = new FileDescriptor[publicDependencies.size()];
publicDependencies.toArray(this.publicDependencies);
pool.addPackage(getPackage(), this);
messageTypes =
(proto.getMessageTypeCount() > 0)
? new Descriptor[proto.getMessageTypeCount()]
: EMPTY_DESCRIPTORS;
for (int i = 0; i < proto.getMessageTypeCount(); i++) {
messageTypes[i] = new Descriptor(proto.getMessageType(i), this, null, i);
}
enumTypes =
(proto.getEnumTypeCount() > 0)
? new EnumDescriptor[proto.getEnumTypeCount()]
: EMPTY_ENUM_DESCRIPTORS;
for (int i = 0; i < proto.getEnumTypeCount(); i++) {
enumTypes[i] = new EnumDescriptor(proto.getEnumType(i), this, null, i);
}
services =
(proto.getServiceCount() > 0)
? new ServiceDescriptor[proto.getServiceCount()]
: EMPTY_SERVICE_DESCRIPTORS;
for (int i = 0; i < proto.getServiceCount(); i++) {
services[i] = new ServiceDescriptor(proto.getService(i), this, i);
}
extensions =
(proto.getExtensionCount() > 0)
? new FieldDescriptor[proto.getExtensionCount()]
: EMPTY_FIELD_DESCRIPTORS;
for (int i = 0; i < proto.getExtensionCount(); i++) {
extensions[i] = new FieldDescriptor(proto.getExtension(i), this, null, i, true);
}
}
/** Create a placeholder FileDescriptor for a message Descriptor. */
FileDescriptor(String packageName, Descriptor message) throws DescriptorValidationException {
this.pool = new DescriptorPool(new FileDescriptor[0], true);
this.proto =
FileDescriptorProto.newBuilder()
.setName(message.getFullName() + ".placeholder.proto")
.setPackage(packageName)
.addMessageType(message.toProto())
.build();
this.dependencies = new FileDescriptor[0];
this.publicDependencies = new FileDescriptor[0];
messageTypes = new Descriptor[] {message};
enumTypes = EMPTY_ENUM_DESCRIPTORS;
services = EMPTY_SERVICE_DESCRIPTORS;
extensions = EMPTY_FIELD_DESCRIPTORS;
pool.addPackage(packageName, this);
pool.addSymbol(message);
}
/** Look up and cross-link all field types, etc. */
private void crossLink() throws DescriptorValidationException {
for (final Descriptor messageType : messageTypes) {
messageType.crossLink();
}
for (final ServiceDescriptor service : services) {
service.crossLink();
}
for (final FieldDescriptor extension : extensions) {
extension.crossLink();
}
}
/**
* Replace our {@link FileDescriptorProto} with the given one, which is identical except that it
* might contain extensions that weren't present in the original. This method is needed for
* bootstrapping when a file defines custom options. The options may be defined in the file
* itself, so we can't actually parse them until we've constructed the descriptors, but to
* construct the descriptors we have to have parsed the descriptor protos. So, we have to parse
* the descriptor protos a second time after constructing the descriptors.
*/
private void setProto(final FileDescriptorProto proto) {
this.proto = proto;
for (int i = 0; i < messageTypes.length; i++) {
messageTypes[i].setProto(proto.getMessageType(i));
}
for (int i = 0; i < enumTypes.length; i++) {
enumTypes[i].setProto(proto.getEnumType(i));
}
for (int i = 0; i < services.length; i++) {
services[i].setProto(proto.getService(i));
}
for (int i = 0; i < extensions.length; i++) {
extensions[i].setProto(proto.getExtension(i));
}
}
}
// =================================================================
/** Describes a message type. */
public static final class Descriptor extends GenericDescriptor {
/**
* Get the index of this descriptor within its parent. In other words, given a {@link
* FileDescriptor} {@code file}, the following is true:
*
*
* for all i in [0, file.getMessageTypeCount()):
* file.getMessageType(i).getIndex() == i
*
*
* Similarly, for a {@link Descriptor} {@code messageType}:
*
*
* for all i in [0, messageType.getNestedTypeCount()):
* messageType.getNestedType(i).getIndex() == i
*
*/
public int getIndex() {
return index;
}
/** Convert the descriptor to its protocol message representation. */
@Override
public DescriptorProto toProto() {
return proto;
}
/** Get the type's unqualified name. */
@Override
public String getName() {
return proto.getName();
}
/**
* Get the type's fully-qualified name, within the proto language's namespace. This differs from
* the Java name. For example, given this {@code .proto}:
*
*
* package foo.bar;
* option java_package = "com.example.protos"
* message Baz {}
*
*
* {@code Baz}'s full name is "foo.bar.Baz".
*/
@Override
public String getFullName() {
return fullName;
}
/** Get the {@link FileDescriptor} containing this descriptor. */
@Override
public FileDescriptor getFile() {
return file;
}
/** If this is a nested type, get the outer descriptor, otherwise null. */
public Descriptor getContainingType() {
return containingType;
}
/** Get the {@code MessageOptions}, defined in {@code descriptor.proto}. */
public MessageOptions getOptions() {
return proto.getOptions();
}
/** Get a list of this message type's fields. */
public List getFields() {
return Collections.unmodifiableList(Arrays.asList(fields));
}
/** Get a list of this message type's oneofs. */
public List getOneofs() {
return Collections.unmodifiableList(Arrays.asList(oneofs));
}
/** Get a list of this message type's real oneofs. */
public List getRealOneofs() {
return Collections.unmodifiableList(Arrays.asList(oneofs).subList(0, realOneofCount));
}
/** Get a list of this message type's extensions. */
public List getExtensions() {
return Collections.unmodifiableList(Arrays.asList(extensions));
}
/** Get a list of message types nested within this one. */
public List getNestedTypes() {
return Collections.unmodifiableList(Arrays.asList(nestedTypes));
}
/** Get a list of enum types nested within this one. */
public List getEnumTypes() {
return Collections.unmodifiableList(Arrays.asList(enumTypes));
}
/** Determines if the given field number is an extension. */
public boolean isExtensionNumber(final int number) {
int index = Arrays.binarySearch(extensionRangeLowerBounds, number);
if (index < 0) {
index = ~index - 1;
}
// extensionRangeLowerBounds[index] is the biggest value <= number
return index >= 0 && number < extensionRangeUpperBounds[index];
}
/** Determines if the given field number is reserved. */
public boolean isReservedNumber(final int number) {
for (final DescriptorProto.ReservedRange range : proto.getReservedRangeList()) {
if (range.getStart() <= number && number < range.getEnd()) {
return true;
}
}
return false;
}
/** Determines if the given field name is reserved. */
public boolean isReservedName(final String name) {
checkNotNull(name);
for (final String reservedName : proto.getReservedNameList()) {
if (reservedName.equals(name)) {
return true;
}
}
return false;
}
/**
* Indicates whether the message can be extended. That is, whether it has any "extensions x to
* y" ranges declared on it.
*/
public boolean isExtendable() {
return !proto.getExtensionRangeList().isEmpty();
}
/**
* Finds a field by name.
*
* @param name The unqualified name of the field (e.g. "foo"). For protocol buffer messages that
* follow Google's
* guidance on naming this will be a snake case string, such as
* song_name
* .
* @return The field's descriptor, or {@code null} if not found.
*/
public FieldDescriptor findFieldByName(final String name) {
final GenericDescriptor result = file.pool.findSymbol(fullName + '.' + name);
if (result instanceof FieldDescriptor) {
return (FieldDescriptor) result;
} else {
return null;
}
}
/**
* Finds a field by field number.
*
* @param number The field number within this message type.
* @return The field's descriptor, or {@code null} if not found.
*/
public FieldDescriptor findFieldByNumber(final int number) {
return binarySearch(
fieldsSortedByNumber, fieldsSortedByNumber.length, FieldDescriptor.NUMBER_GETTER, number);
}
/**
* Finds a nested message type by name.
*
* @param name The unqualified name of the nested type such as "Foo"
* @return The types's descriptor, or {@code null} if not found.
*/
public Descriptor findNestedTypeByName(final String name) {
final GenericDescriptor result = file.pool.findSymbol(fullName + '.' + name);
if (result instanceof Descriptor) {
return (Descriptor) result;
} else {
return null;
}
}
/**
* Finds a nested enum type by name.
*
* @param name The unqualified name of the nested type such as "Foo"
* @return The types's descriptor, or {@code null} if not found.
*/
public EnumDescriptor findEnumTypeByName(final String name) {
final GenericDescriptor result = file.pool.findSymbol(fullName + '.' + name);
if (result instanceof EnumDescriptor) {
return (EnumDescriptor) result;
} else {
return null;
}
}
private final int index;
private DescriptorProto proto;
private final String fullName;
private final FileDescriptor file;
private final Descriptor containingType;
private final Descriptor[] nestedTypes;
private final EnumDescriptor[] enumTypes;
private final FieldDescriptor[] fields;
private final FieldDescriptor[] fieldsSortedByNumber;
private final FieldDescriptor[] extensions;
private final OneofDescriptor[] oneofs;
private final int realOneofCount;
private final int[] extensionRangeLowerBounds;
private final int[] extensionRangeUpperBounds;
// Used to create a placeholder when the type cannot be found.
Descriptor(final String fullname) throws DescriptorValidationException {
String name = fullname;
String packageName = "";
int pos = fullname.lastIndexOf('.');
if (pos != -1) {
name = fullname.substring(pos + 1);
packageName = fullname.substring(0, pos);
}
this.index = 0;
this.proto =
DescriptorProto.newBuilder()
.setName(name)
.addExtensionRange(
DescriptorProto.ExtensionRange.newBuilder().setStart(1).setEnd(536870912).build())
.build();
this.fullName = fullname;
this.containingType = null;
this.nestedTypes = EMPTY_DESCRIPTORS;
this.enumTypes = EMPTY_ENUM_DESCRIPTORS;
this.fields = EMPTY_FIELD_DESCRIPTORS;
this.fieldsSortedByNumber = EMPTY_FIELD_DESCRIPTORS;
this.extensions = EMPTY_FIELD_DESCRIPTORS;
this.oneofs = EMPTY_ONEOF_DESCRIPTORS;
this.realOneofCount = 0;
// Create a placeholder FileDescriptor to hold this message.
this.file = new FileDescriptor(packageName, this);
extensionRangeLowerBounds = new int[] {1};
extensionRangeUpperBounds = new int[] {536870912};
}
private Descriptor(
final DescriptorProto proto,
final FileDescriptor file,
final Descriptor parent,
final int index)
throws DescriptorValidationException {
this.index = index;
this.proto = proto;
fullName = computeFullName(file, parent, proto.getName());
this.file = file;
containingType = parent;
oneofs =
(proto.getOneofDeclCount() > 0)
? new OneofDescriptor[proto.getOneofDeclCount()]
: EMPTY_ONEOF_DESCRIPTORS;
for (int i = 0; i < proto.getOneofDeclCount(); i++) {
oneofs[i] = new OneofDescriptor(proto.getOneofDecl(i), file, this, i);
}
nestedTypes =
(proto.getNestedTypeCount() > 0)
? new Descriptor[proto.getNestedTypeCount()]
: EMPTY_DESCRIPTORS;
for (int i = 0; i < proto.getNestedTypeCount(); i++) {
nestedTypes[i] = new Descriptor(proto.getNestedType(i), file, this, i);
}
enumTypes =
(proto.getEnumTypeCount() > 0)
? new EnumDescriptor[proto.getEnumTypeCount()]
: EMPTY_ENUM_DESCRIPTORS;
for (int i = 0; i < proto.getEnumTypeCount(); i++) {
enumTypes[i] = new EnumDescriptor(proto.getEnumType(i), file, this, i);
}
fields =
(proto.getFieldCount() > 0)
? new FieldDescriptor[proto.getFieldCount()]
: EMPTY_FIELD_DESCRIPTORS;
for (int i = 0; i < proto.getFieldCount(); i++) {
fields[i] = new FieldDescriptor(proto.getField(i), file, this, i, false);
}
this.fieldsSortedByNumber =
(proto.getFieldCount() > 0) ? fields.clone() : EMPTY_FIELD_DESCRIPTORS;
extensions =
(proto.getExtensionCount() > 0)
? new FieldDescriptor[proto.getExtensionCount()]
: EMPTY_FIELD_DESCRIPTORS;
for (int i = 0; i < proto.getExtensionCount(); i++) {
extensions[i] = new FieldDescriptor(proto.getExtension(i), file, this, i, true);
}
for (int i = 0; i < proto.getOneofDeclCount(); i++) {
oneofs[i].fields = new FieldDescriptor[oneofs[i].getFieldCount()];
oneofs[i].fieldCount = 0;
}
for (int i = 0; i < proto.getFieldCount(); i++) {
OneofDescriptor oneofDescriptor = fields[i].getContainingOneof();
if (oneofDescriptor != null) {
oneofDescriptor.fields[oneofDescriptor.fieldCount++] = fields[i];
}
}
int syntheticOneofCount = 0;
for (OneofDescriptor oneof : this.oneofs) {
if (oneof.isSynthetic()) {
syntheticOneofCount++;
} else {
if (syntheticOneofCount > 0) {
throw new DescriptorValidationException(this, "Synthetic oneofs must come last.");
}
}
}
this.realOneofCount = this.oneofs.length - syntheticOneofCount;
file.pool.addSymbol(this);
// NOTE: The defined extension ranges are guaranteed to be disjoint.
if (proto.getExtensionRangeCount() > 0) {
extensionRangeLowerBounds = new int[proto.getExtensionRangeCount()];
extensionRangeUpperBounds = new int[proto.getExtensionRangeCount()];
int i = 0;
for (final DescriptorProto.ExtensionRange range : proto.getExtensionRangeList()) {
extensionRangeLowerBounds[i] = range.getStart();
extensionRangeUpperBounds[i] = range.getEnd();
i++;
}
// Since the ranges are disjoint, sorting these independently must still produce the correct
// order.
Arrays.sort(extensionRangeLowerBounds);
Arrays.sort(extensionRangeUpperBounds);
} else {
extensionRangeLowerBounds = EMPTY_INT_ARRAY;
extensionRangeUpperBounds = EMPTY_INT_ARRAY;
}
}
/** Look up and cross-link all field types, etc. */
private void crossLink() throws DescriptorValidationException {
for (final Descriptor nestedType : nestedTypes) {
nestedType.crossLink();
}
for (final FieldDescriptor field : fields) {
field.crossLink();
}
Arrays.sort(fieldsSortedByNumber);
validateNoDuplicateFieldNumbers();
for (final FieldDescriptor extension : extensions) {
extension.crossLink();
}
}
private void validateNoDuplicateFieldNumbers() throws DescriptorValidationException {
for (int i = 0; i + 1 < fieldsSortedByNumber.length; i++) {
FieldDescriptor old = fieldsSortedByNumber[i];
FieldDescriptor field = fieldsSortedByNumber[i + 1];
if (old.getNumber() == field.getNumber()) {
throw new DescriptorValidationException(
field,
"Field number "
+ field.getNumber()
+ " has already been used in \""
+ field.getContainingType().getFullName()
+ "\" by field \""
+ old.getName()
+ "\".");
}
}
}
/** See {@link FileDescriptor#setProto}. */
private void setProto(final DescriptorProto proto) {
this.proto = proto;
for (int i = 0; i < nestedTypes.length; i++) {
nestedTypes[i].setProto(proto.getNestedType(i));
}
for (int i = 0; i < oneofs.length; i++) {
oneofs[i].setProto(proto.getOneofDecl(i));
}
for (int i = 0; i < enumTypes.length; i++) {
enumTypes[i].setProto(proto.getEnumType(i));
}
for (int i = 0; i < fields.length; i++) {
fields[i].setProto(proto.getField(i));
}
for (int i = 0; i < extensions.length; i++) {
extensions[i].setProto(proto.getExtension(i));
}
}
}
// =================================================================
/** Describes a field of a message type. */
public static final class FieldDescriptor extends GenericDescriptor
implements Comparable, FieldSet.FieldDescriptorLite {
private static final NumberGetter NUMBER_GETTER =
new NumberGetter() {
@Override
public int getNumber(FieldDescriptor fieldDescriptor) {
return fieldDescriptor.getNumber();
}
};
/**
* Get the index of this descriptor within its parent.
*
* @see Descriptors.Descriptor#getIndex()
*/
public int getIndex() {
return index;
}
/** Convert the descriptor to its protocol message representation. */
@Override
public FieldDescriptorProto toProto() {
return proto;
}
/** Get the field's unqualified name. */
@Override
public String getName() {
return proto.getName();
}
/** Get the field's number. */
@Override
public int getNumber() {
return proto.getNumber();
}
/**
* Get the field's fully-qualified name.
*
* @see Descriptors.Descriptor#getFullName()
*/
@Override
public String getFullName() {
return fullName;
}
/** Get the JSON name of this field. */
public String getJsonName() {
String result = jsonName;
if (result != null) {
return result;
} else if (proto.hasJsonName()) {
return jsonName = proto.getJsonName();
} else {
return jsonName = fieldNameToJsonName(proto.getName());
}
}
/**
* Get the field's java type. This is just for convenience. Every {@code
* FieldDescriptorProto.Type} maps to exactly one Java type.
*/
public JavaType getJavaType() {
return type.getJavaType();
}
/** For internal use only. */
@Override
public WireFormat.JavaType getLiteJavaType() {
return getLiteType().getJavaType();
}
/** Get the {@code FileDescriptor} containing this descriptor. */
@Override
public FileDescriptor getFile() {
return file;
}
/** Get the field's declared type. */
public Type getType() {
return type;
}
/** For internal use only. */
@Override
public WireFormat.FieldType getLiteType() {
return table[type.ordinal()];
}
/** For internal use only. */
public boolean needsUtf8Check() {
if (type != Type.STRING) {
return false;
}
if (getContainingType().getOptions().getMapEntry()) {
// Always enforce strict UTF-8 checking for map fields.
return true;
}
if (getFile().getSyntax() == Syntax.PROTO3) {
return true;
}
return getFile().getOptions().getJavaStringCheckUtf8();
}
public boolean isMapField() {
return getType() == Type.MESSAGE
&& isRepeated()
&& getMessageType().getOptions().getMapEntry();
}
// I'm pretty sure values() constructs a new array every time, since there
// is nothing stopping the caller from mutating the array. Therefore we
// make a static copy here.
private static final WireFormat.FieldType[] table = WireFormat.FieldType.values();
/** Is this field declared required? */
public boolean isRequired() {
return proto.getLabel() == FieldDescriptorProto.Label.LABEL_REQUIRED;
}
/** Is this field declared optional? */
public boolean isOptional() {
return proto.getLabel() == FieldDescriptorProto.Label.LABEL_OPTIONAL;
}
/** Is this field declared repeated? */
@Override
public boolean isRepeated() {
return proto.getLabel() == FieldDescriptorProto.Label.LABEL_REPEATED;
}
/**
* Does this field have the {@code [packed = true]} option or is this field packable in proto3
* and not explicitly set to unpacked?
*/
@Override
public boolean isPacked() {
if (!isPackable()) {
return false;
}
if (getFile().getSyntax() == FileDescriptor.Syntax.PROTO2) {
return getOptions().getPacked();
} else {
return !getOptions().hasPacked() || getOptions().getPacked();
}
}
/** Can this field be packed? That is, is it a repeated primitive field? */
public boolean isPackable() {
return isRepeated() && getLiteType().isPackable();
}
/** Returns true if the field had an explicitly-defined default value. */
public boolean hasDefaultValue() {
return proto.hasDefaultValue();
}
/**
* Returns the field's default value. Valid for all types except for messages and groups. For
* all other types, the object returned is of the same class that would returned by
* Message.getField(this).
*/
public Object getDefaultValue() {
if (getJavaType() == JavaType.MESSAGE) {
throw new UnsupportedOperationException(
"FieldDescriptor.getDefaultValue() called on an embedded message field.");
}
return defaultValue;
}
/** Get the {@code FieldOptions}, defined in {@code descriptor.proto}. */
public FieldOptions getOptions() {
return proto.getOptions();
}
/** Is this field an extension? */
public boolean isExtension() {
return proto.hasExtendee();
}
/**
* Get the field's containing type. For extensions, this is the type being extended, not the
* location where the extension was defined. See {@link #getExtensionScope()}.
*/
public Descriptor getContainingType() {
return containingType;
}
/** Get the field's containing oneof. */
public OneofDescriptor getContainingOneof() {
return containingOneof;
}
/** Get the field's containing oneof, only if non-synthetic. */
public OneofDescriptor getRealContainingOneof() {
return containingOneof != null && !containingOneof.isSynthetic() ? containingOneof : null;
}
/**
* Returns true if this field was syntactically written with "optional" in the .proto file.
* Excludes singular proto3 fields that do not have a label.
*/
@Deprecated
public
boolean hasOptionalKeyword() {
return isProto3Optional
|| (file.getSyntax() == Syntax.PROTO2 && isOptional() && getContainingOneof() == null);
}
/**
* Returns true if this field tracks presence, ie. does the field distinguish between "unset"
* and "present with default value."
*
* This includes required, optional, and oneof fields. It excludes maps, repeated fields, and
* singular proto3 fields without "optional".
*
*
For fields where hasPresence() == true, the return value of msg.hasField() is semantically
* meaningful.
*/
public boolean hasPresence() {
if (isRepeated()) {
return false;
}
return getType() == Type.MESSAGE
|| getType() == Type.GROUP
|| getContainingOneof() != null
|| file.getSyntax() == Syntax.PROTO2;
}
/**
* For extensions defined nested within message types, gets the outer type. Not valid for
* non-extension fields. For example, consider this {@code .proto} file:
*
*
* message Foo {
* extensions 1000 to max;
* }
* extend Foo {
* optional int32 baz = 1234;
* }
* message Bar {
* extend Foo {
* optional int32 moo = 4321;
* }
* }
*
*
* Both {@code baz}'s and {@code moo}'s containing type is {@code Foo}. However, {@code baz}'s
* extension scope is {@code null} while {@code moo}'s extension scope is {@code Bar}.
*/
public Descriptor getExtensionScope() {
if (!isExtension()) {
throw new UnsupportedOperationException(
String.format("This field is not an extension. (%s)", fullName));
}
return extensionScope;
}
/** For embedded message and group fields, gets the field's type. */
public Descriptor getMessageType() {
if (getJavaType() != JavaType.MESSAGE) {
throw new UnsupportedOperationException(
String.format("This field is not of message type. (%s)", fullName));
}
return messageType;
}
/** For enum fields, gets the field's type. */
@Override
public EnumDescriptor getEnumType() {
if (getJavaType() != JavaType.ENUM) {
throw new UnsupportedOperationException(
String.format("This field is not of enum type. (%s)", fullName));
}
return enumType;
}
/**
* Determines if the given enum field is treated as closed based on legacy non-conformant
* behavior.
*
* Conformant behavior determines closedness based on the enum and can be queried using
* {@code EnumDescriptor.isClosed()}.
*
*
Some runtimes currently have a quirk where non-closed enums are treated as closed when
* used as the type of fields defined in a `syntax = proto2;` file. This quirk is not present in
* all runtimes; as of writing, we know that:
*
*
* - C++, Java, and C++-based Python share this quirk.
*
- UPB and UPB-based Python do not.
*
- PHP and Ruby treat all enums as open regardless of declaration.
*
*
* Care should be taken when using this function to respect the target runtime's enum
* handling quirks.
*/
public boolean legacyEnumFieldTreatedAsClosed() {
return getType() == Type.ENUM && getFile().getSyntax() == Syntax.PROTO2;
}
/**
* Compare with another {@code FieldDescriptor}. This orders fields in "canonical" order, which
* simply means ascending order by field number. {@code other} must be a field of the same type.
* That is, {@code getContainingType()} must return the same {@code Descriptor} for both fields.
*
* @return negative, zero, or positive if {@code this} is less than, equal to, or greater than
* {@code other}, respectively
*/
@Override
public int compareTo(final FieldDescriptor other) {
if (other.containingType != containingType) {
throw new IllegalArgumentException(
"FieldDescriptors can only be compared to other FieldDescriptors "
+ "for fields of the same message type.");
}
return getNumber() - other.getNumber();
}
@Override
public String toString() {
return getFullName();
}
private final int index;
private FieldDescriptorProto proto;
private final String fullName;
private String jsonName;
private final FileDescriptor file;
private final Descriptor extensionScope;
private final boolean isProto3Optional;
// Possibly initialized during cross-linking.
private Type type;
private Descriptor containingType;
private Descriptor messageType;
private OneofDescriptor containingOneof;
private EnumDescriptor enumType;
private Object defaultValue;
public enum Type {
DOUBLE(JavaType.DOUBLE),
FLOAT(JavaType.FLOAT),
INT64(JavaType.LONG),
UINT64(JavaType.LONG),
INT32(JavaType.INT),
FIXED64(JavaType.LONG),
FIXED32(JavaType.INT),
BOOL(JavaType.BOOLEAN),
STRING(JavaType.STRING),
GROUP(JavaType.MESSAGE),
MESSAGE(JavaType.MESSAGE),
BYTES(JavaType.BYTE_STRING),
UINT32(JavaType.INT),
ENUM(JavaType.ENUM),
SFIXED32(JavaType.INT),
SFIXED64(JavaType.LONG),
SINT32(JavaType.INT),
SINT64(JavaType.LONG);
// Private copy to avoid repeated allocations from calls to values() in valueOf().
private static final Type[] types = values();
Type(JavaType javaType) {
this.javaType = javaType;
}
private final JavaType javaType;
public FieldDescriptorProto.Type toProto() {
return FieldDescriptorProto.Type.forNumber(ordinal() + 1);
}
public JavaType getJavaType() {
return javaType;
}
public static Type valueOf(final FieldDescriptorProto.Type type) {
return types[type.getNumber() - 1];
}
}
static {
// Refuse to init if someone added a new declared type.
if (Type.types.length != FieldDescriptorProto.Type.values().length) {
throw new RuntimeException(
"descriptor.proto has a new declared type but Descriptors.java wasn't updated.");
}
}
public enum JavaType {
INT(0),
LONG(0L),
FLOAT(0F),
DOUBLE(0D),
BOOLEAN(false),
STRING(""),
BYTE_STRING(ByteString.EMPTY),
ENUM(null),
MESSAGE(null);
JavaType(final Object defaultDefault) {
this.defaultDefault = defaultDefault;
}
/**
* The default default value for fields of this type, if it's a primitive type. This is meant
* for use inside this file only, hence is private.
*/
private final Object defaultDefault;
}
// This method should match exactly with the ToJsonName() function in C++
// descriptor.cc.
private static String fieldNameToJsonName(String name) {
final int length = name.length();
StringBuilder result = new StringBuilder(length);
boolean isNextUpperCase = false;
for (int i = 0; i < length; i++) {
char ch = name.charAt(i);
if (ch == '_') {
isNextUpperCase = true;
} else if (isNextUpperCase) {
// This closely matches the logic for ASCII characters in:
// http://google3/google/protobuf/descriptor.cc?l=249-251&rcl=228891689
if ('a' <= ch && ch <= 'z') {
ch = (char) (ch - 'a' + 'A');
}
result.append(ch);
isNextUpperCase = false;
} else {
result.append(ch);
}
}
return result.toString();
}
private FieldDescriptor(
final FieldDescriptorProto proto,
final FileDescriptor file,
final Descriptor parent,
final int index,
final boolean isExtension)
throws DescriptorValidationException {
this.index = index;
this.proto = proto;
fullName = computeFullName(file, parent, proto.getName());
this.file = file;
if (proto.hasType()) {
type = Type.valueOf(proto.getType());
}
isProto3Optional = proto.getProto3Optional();
if (getNumber() <= 0) {
throw new DescriptorValidationException(this, "Field numbers must be positive integers.");
}
if (isExtension) {
if (!proto.hasExtendee()) {
throw new DescriptorValidationException(
this, "FieldDescriptorProto.extendee not set for extension field.");
}
containingType = null; // Will be filled in when cross-linking
if (parent != null) {
extensionScope = parent;
} else {
extensionScope = null;
}
if (proto.hasOneofIndex()) {
throw new DescriptorValidationException(
this, "FieldDescriptorProto.oneof_index set for extension field.");
}
containingOneof = null;
} else {
if (proto.hasExtendee()) {
throw new DescriptorValidationException(
this, "FieldDescriptorProto.extendee set for non-extension field.");
}
containingType = parent;
if (proto.hasOneofIndex()) {
if (proto.getOneofIndex() < 0
|| proto.getOneofIndex() >= parent.toProto().getOneofDeclCount()) {
throw new DescriptorValidationException(
this,
"FieldDescriptorProto.oneof_index is out of range for type " + parent.getName());
}
containingOneof = parent.getOneofs().get(proto.getOneofIndex());
containingOneof.fieldCount++;
} else {
containingOneof = null;
}
extensionScope = null;
}
file.pool.addSymbol(this);
}
/** Look up and cross-link all field types, etc. */
private void crossLink() throws DescriptorValidationException {
if (proto.hasExtendee()) {
final GenericDescriptor extendee =
file.pool.lookupSymbol(
proto.getExtendee(), this, DescriptorPool.SearchFilter.TYPES_ONLY);
if (!(extendee instanceof Descriptor)) {
throw new DescriptorValidationException(
this, '\"' + proto.getExtendee() + "\" is not a message type.");
}
containingType = (Descriptor) extendee;
if (!getContainingType().isExtensionNumber(getNumber())) {
throw new DescriptorValidationException(
this,
'\"'
+ getContainingType().getFullName()
+ "\" does not declare "
+ getNumber()
+ " as an extension number.");
}
}
if (proto.hasTypeName()) {
final GenericDescriptor typeDescriptor =
file.pool.lookupSymbol(
proto.getTypeName(), this, DescriptorPool.SearchFilter.TYPES_ONLY);
if (!proto.hasType()) {
// Choose field type based on symbol.
if (typeDescriptor instanceof Descriptor) {
type = Type.MESSAGE;
} else if (typeDescriptor instanceof EnumDescriptor) {
type = Type.ENUM;
} else {
throw new DescriptorValidationException(
this, '\"' + proto.getTypeName() + "\" is not a type.");
}
}
if (getJavaType() == JavaType.MESSAGE) {
if (!(typeDescriptor instanceof Descriptor)) {
throw new DescriptorValidationException(
this, '\"' + proto.getTypeName() + "\" is not a message type.");
}
messageType = (Descriptor) typeDescriptor;
if (proto.hasDefaultValue()) {
throw new DescriptorValidationException(this, "Messages can't have default values.");
}
} else if (getJavaType() == JavaType.ENUM) {
if (!(typeDescriptor instanceof EnumDescriptor)) {
throw new DescriptorValidationException(
this, '\"' + proto.getTypeName() + "\" is not an enum type.");
}
enumType = (EnumDescriptor) typeDescriptor;
} else {
throw new DescriptorValidationException(this, "Field with primitive type has type_name.");
}
} else {
if (getJavaType() == JavaType.MESSAGE || getJavaType() == JavaType.ENUM) {
throw new DescriptorValidationException(
this, "Field with message or enum type missing type_name.");
}
}
// Only repeated primitive fields may be packed.
if (proto.getOptions().getPacked() && !isPackable()) {
throw new DescriptorValidationException(
this, "[packed = true] can only be specified for repeated primitive fields.");
}
// We don't attempt to parse the default value until here because for
// enums we need the enum type's descriptor.
if (proto.hasDefaultValue()) {
if (isRepeated()) {
throw new DescriptorValidationException(
this, "Repeated fields cannot have default values.");
}
try {
switch (getType()) {
case INT32:
case SINT32:
case SFIXED32:
defaultValue = TextFormat.parseInt32(proto.getDefaultValue());
break;
case UINT32:
case FIXED32:
defaultValue = TextFormat.parseUInt32(proto.getDefaultValue());
break;
case INT64:
case SINT64:
case SFIXED64:
defaultValue = TextFormat.parseInt64(proto.getDefaultValue());
break;
case UINT64:
case FIXED64:
defaultValue = TextFormat.parseUInt64(proto.getDefaultValue());
break;
case FLOAT:
if (proto.getDefaultValue().equals("inf")) {
defaultValue = Float.POSITIVE_INFINITY;
} else if (proto.getDefaultValue().equals("-inf")) {
defaultValue = Float.NEGATIVE_INFINITY;
} else if (proto.getDefaultValue().equals("nan")) {
defaultValue = Float.NaN;
} else {
defaultValue = Float.valueOf(proto.getDefaultValue());
}
break;
case DOUBLE:
if (proto.getDefaultValue().equals("inf")) {
defaultValue = Double.POSITIVE_INFINITY;
} else if (proto.getDefaultValue().equals("-inf")) {
defaultValue = Double.NEGATIVE_INFINITY;
} else if (proto.getDefaultValue().equals("nan")) {
defaultValue = Double.NaN;
} else {
defaultValue = Double.valueOf(proto.getDefaultValue());
}
break;
case BOOL:
defaultValue = Boolean.valueOf(proto.getDefaultValue());
break;
case STRING:
defaultValue = proto.getDefaultValue();
break;
case BYTES:
try {
defaultValue = TextFormat.unescapeBytes(proto.getDefaultValue());
} catch (TextFormat.InvalidEscapeSequenceException e) {
throw new DescriptorValidationException(
this, "Couldn't parse default value: " + e.getMessage(), e);
}
break;
case ENUM:
defaultValue = enumType.findValueByName(proto.getDefaultValue());
if (defaultValue == null) {
throw new DescriptorValidationException(
this, "Unknown enum default value: \"" + proto.getDefaultValue() + '\"');
}
break;
case MESSAGE:
case GROUP:
throw new DescriptorValidationException(this, "Message type had default value.");
}
} catch (NumberFormatException e) {
throw new DescriptorValidationException(
this, "Could not parse default value: \"" + proto.getDefaultValue() + '\"', e);
}
} else {
// Determine the default default for this field.
if (isRepeated()) {
defaultValue = Collections.emptyList();
} else {
switch (getJavaType()) {
case ENUM:
// We guarantee elsewhere that an enum type always has at least
// one possible value.
defaultValue = enumType.getValues().get(0);
break;
case MESSAGE:
defaultValue = null;
break;
default:
defaultValue = getJavaType().defaultDefault;
break;
}
}
}
if (containingType != null && containingType.getOptions().getMessageSetWireFormat()) {
if (isExtension()) {
if (!isOptional() || getType() != Type.MESSAGE) {
throw new DescriptorValidationException(
this, "Extensions of MessageSets must be optional messages.");
}
} else {
throw new DescriptorValidationException(
this, "MessageSets cannot have fields, only extensions.");
}
}
}
/** See {@link FileDescriptor#setProto}. */
private void setProto(final FieldDescriptorProto proto) {
this.proto = proto;
}
/** For internal use only. This is to satisfy the FieldDescriptorLite interface. */
@Override
public MessageLite.Builder internalMergeFrom(MessageLite.Builder to, MessageLite from) {
// FieldDescriptors are only used with non-lite messages so we can just
// down-cast and call mergeFrom directly.
return ((Message.Builder) to).mergeFrom((Message) from);
}
}
// =================================================================
/** Describes an enum type. */
public static final class EnumDescriptor extends GenericDescriptor
implements Internal.EnumLiteMap {
/**
* Get the index of this descriptor within its parent.
*
* @see Descriptors.Descriptor#getIndex()
*/
public int getIndex() {
return index;
}
/** Convert the descriptor to its protocol message representation. */
@Override
public EnumDescriptorProto toProto() {
return proto;
}
/** Get the type's unqualified name. */
@Override
public String getName() {
return proto.getName();
}
/**
* Get the type's fully-qualified name.
*
* @see Descriptors.Descriptor#getFullName()
*/
@Override
public String getFullName() {
return fullName;
}
/** Get the {@link FileDescriptor} containing this descriptor. */
@Override
public FileDescriptor getFile() {
return file;
}
/**
* Determines if the given enum is closed.
*
* Closed enum means that it:
*
*
* - Has a fixed set of values, rather than being equivalent to an int32.
*
- Encountering values not in this set causes them to be treated as unknown fields.
*
- The first value (i.e., the default) may be nonzero.
*
*
* WARNING: Some runtimes currently have a quirk where non-closed enums are treated as closed
* when used as the type of fields defined in a `syntax = proto2;` file. This quirk is not
* present in all runtimes; as of writing, we know that:
*
*
* - C++, Java, and C++-based Python share this quirk.
*
- UPB and UPB-based Python do not.
*
- PHP and Ruby treat all enums as open regardless of declaration.
*
*
* Care should be taken when using this function to respect the target runtime's enum
* handling quirks.
*/
public boolean isClosed() {
return getFile().getSyntax() != Syntax.PROTO3;
}
/** If this is a nested type, get the outer descriptor, otherwise null. */
public Descriptor getContainingType() {
return containingType;
}
/** Get the {@code EnumOptions}, defined in {@code descriptor.proto}. */
public EnumOptions getOptions() {
return proto.getOptions();
}
/** Get a list of defined values for this enum. */
public List getValues() {
return Collections.unmodifiableList(Arrays.asList(values));
}
/** Determines if the given field number is reserved. */
public boolean isReservedNumber(final int number) {
for (final EnumDescriptorProto.EnumReservedRange range : proto.getReservedRangeList()) {
if (range.getStart() <= number && number <= range.getEnd()) {
return true;
}
}
return false;
}
/** Determines if the given field name is reserved. */
public boolean isReservedName(final String name) {
checkNotNull(name);
for (final String reservedName : proto.getReservedNameList()) {
if (reservedName.equals(name)) {
return true;
}
}
return false;
}
/**
* Find an enum value by name.
*
* @param name the unqualified name of the value such as "FOO"
* @return the value's descriptor, or {@code null} if not found
*/
public EnumValueDescriptor findValueByName(final String name) {
final GenericDescriptor result = file.pool.findSymbol(fullName + '.' + name);
if (result instanceof EnumValueDescriptor) {
return (EnumValueDescriptor) result;
} else {
return null;
}
}
/**
* Find an enum value by number. If multiple enum values have the same number, this returns the
* first defined value with that number.
*
* @param number The value's number.
* @return the value's descriptor, or {@code null} if not found.
*/
@Override
public EnumValueDescriptor findValueByNumber(final int number) {
return binarySearch(
valuesSortedByNumber, distinctNumbers, EnumValueDescriptor.NUMBER_GETTER, number);
}
private static class UnknownEnumValueReference extends WeakReference {
private final int number;
private UnknownEnumValueReference(int number, EnumValueDescriptor descriptor) {
super(descriptor);
this.number = number;
}
}
/**
* Get the enum value for a number. If no enum value has this number, construct an
* EnumValueDescriptor for it.
*/
public EnumValueDescriptor findValueByNumberCreatingIfUnknown(final int number) {
EnumValueDescriptor result = findValueByNumber(number);
if (result != null) {
return result;
}
// The number represents an unknown enum value.
synchronized (this) {
if (cleanupQueue == null) {
cleanupQueue = new ReferenceQueue<>();
unknownValues = new HashMap<>();
} else {
while (true) {
UnknownEnumValueReference toClean = (UnknownEnumValueReference) cleanupQueue.poll();
if (toClean == null) {
break;
}
unknownValues.remove(toClean.number);
}
}
// There are two ways we can be missing a value: it wasn't in the map, or the reference
// has been GC'd. (It may even have been GC'd since we cleaned up the references a few
// lines of code ago.) So get out the reference, if it's still present...
WeakReference reference = unknownValues.get(number);
result = (reference == null) ? null : reference.get();
if (result == null) {
result = new EnumValueDescriptor(this, number);
unknownValues.put(number, new UnknownEnumValueReference(number, result));
}
}
return result;
}
// Used in tests only.
int getUnknownEnumValueDescriptorCount() {
return unknownValues.size();
}
private final int index;
private EnumDescriptorProto proto;
private final String fullName;
private final FileDescriptor file;
private final Descriptor containingType;
private final EnumValueDescriptor[] values;
private final EnumValueDescriptor[] valuesSortedByNumber;
private final int distinctNumbers;
private Map> unknownValues = null;
private ReferenceQueue cleanupQueue = null;
private EnumDescriptor(
final EnumDescriptorProto proto,
final FileDescriptor file,
final Descriptor parent,
final int index)
throws DescriptorValidationException {
this.index = index;
this.proto = proto;
fullName = computeFullName(file, parent, proto.getName());
this.file = file;
containingType = parent;
if (proto.getValueCount() == 0) {
// We cannot allow enums with no values because this would mean there
// would be no valid default value for fields of this type.
throw new DescriptorValidationException(this, "Enums must contain at least one value.");
}
values = new EnumValueDescriptor[proto.getValueCount()];
for (int i = 0; i < proto.getValueCount(); i++) {
values[i] = new EnumValueDescriptor(proto.getValue(i), file, this, i);
}
valuesSortedByNumber = values.clone();
Arrays.sort(valuesSortedByNumber, EnumValueDescriptor.BY_NUMBER);
// deduplicate
int j = 0;
for (int i = 1; i < proto.getValueCount(); i++) {
EnumValueDescriptor oldValue = valuesSortedByNumber[j];
EnumValueDescriptor newValue = valuesSortedByNumber[i];
if (oldValue.getNumber() != newValue.getNumber()) {
valuesSortedByNumber[++j] = newValue;
}
}
this.distinctNumbers = j + 1;
Arrays.fill(valuesSortedByNumber, distinctNumbers, proto.getValueCount(), null);
file.pool.addSymbol(this);
}
/** See {@link FileDescriptor#setProto}. */
private void setProto(final EnumDescriptorProto proto) {
this.proto = proto;
for (int i = 0; i < values.length; i++) {
values[i].setProto(proto.getValue(i));
}
}
}
// =================================================================
/**
* Describes one value within an enum type. Note that multiple defined values may have the same
* number. In generated Java code, all values with the same number after the first become aliases
* of the first. However, they still have independent EnumValueDescriptors.
*/
public static final class EnumValueDescriptor extends GenericDescriptor
implements Internal.EnumLite {
static final Comparator BY_NUMBER =
new Comparator() {
@Override
public int compare(EnumValueDescriptor o1, EnumValueDescriptor o2) {
return Integer.valueOf(o1.getNumber()).compareTo(o2.getNumber());
}
};
static final NumberGetter NUMBER_GETTER =
new NumberGetter() {
@Override
public int getNumber(EnumValueDescriptor enumValueDescriptor) {
return enumValueDescriptor.getNumber();
}
};
/**
* Get the index of this descriptor within its parent.
*
* @see Descriptors.Descriptor#getIndex()
*/
public int getIndex() {
return index;
}
/** Convert the descriptor to its protocol message representation. */
@Override
public EnumValueDescriptorProto toProto() {
return proto;
}
/** Get the value's unqualified name. */
@Override
public String getName() {
return proto.getName();
}
/** Get the value's number. */
@Override
public int getNumber() {
return proto.getNumber();
}
@Override
public String toString() {
return proto.getName();
}
/**
* Get the value's fully-qualified name.
*
* @see Descriptors.Descriptor#getFullName()
*/
@Override
public String getFullName() {
return fullName;
}
/** Get the {@link FileDescriptor} containing this descriptor. */
@Override
public FileDescriptor getFile() {
return type.file;
}
/** Get the value's enum type. */
public EnumDescriptor getType() {
return type;
}
/** Get the {@code EnumValueOptions}, defined in {@code descriptor.proto}. */
public EnumValueOptions getOptions() {
return proto.getOptions();
}
private final int index;
private EnumValueDescriptorProto proto;
private final String fullName;
private final EnumDescriptor type;
private EnumValueDescriptor(
final EnumValueDescriptorProto proto,
final FileDescriptor file,
final EnumDescriptor parent,
final int index)
throws DescriptorValidationException {
this.index = index;
this.proto = proto;
type = parent;
fullName = parent.getFullName() + '.' + proto.getName();
file.pool.addSymbol(this);
}
// Create an unknown enum value.
private EnumValueDescriptor(final EnumDescriptor parent, final Integer number) {
String name = "UNKNOWN_ENUM_VALUE_" + parent.getName() + "_" + number;
EnumValueDescriptorProto proto =
EnumValueDescriptorProto.newBuilder().setName(name).setNumber(number).build();
this.index = -1;
this.proto = proto;
this.type = parent;
this.fullName = parent.getFullName() + '.' + proto.getName();
// Don't add this descriptor into pool.
}
/** See {@link FileDescriptor#setProto}. */
private void setProto(final EnumValueDescriptorProto proto) {
this.proto = proto;
}
}
// =================================================================
/** Describes a service type. */
public static final class ServiceDescriptor extends GenericDescriptor {
/**
* Get the index of this descriptor within its parent. * @see Descriptors.Descriptor#getIndex()
*/
public int getIndex() {
return index;
}
/** Convert the descriptor to its protocol message representation. */
@Override
public ServiceDescriptorProto toProto() {
return proto;
}
/** Get the type's unqualified name. */
@Override
public String getName() {
return proto.getName();
}
/**
* Get the type's fully-qualified name.
*
* @see Descriptors.Descriptor#getFullName()
*/
@Override
public String getFullName() {
return fullName;
}
/** Get the {@link FileDescriptor} containing this descriptor. */
@Override
public FileDescriptor getFile() {
return file;
}
/** Get the {@code ServiceOptions}, defined in {@code descriptor.proto}. */
public ServiceOptions getOptions() {
return proto.getOptions();
}
/** Get a list of methods for this service. */
public List getMethods() {
return Collections.unmodifiableList(Arrays.asList(methods));
}
/**
* Find a method by name.
*
* @param name the unqualified name of the method such as "Foo"
* @return the method's descriptor, or {@code null} if not found
*/
public MethodDescriptor findMethodByName(final String name) {
final GenericDescriptor result = file.pool.findSymbol(fullName + '.' + name);
if (result instanceof MethodDescriptor) {
return (MethodDescriptor) result;
} else {
return null;
}
}
private final int index;
private ServiceDescriptorProto proto;
private final String fullName;
private final FileDescriptor file;
private MethodDescriptor[] methods;
private ServiceDescriptor(
final ServiceDescriptorProto proto, final FileDescriptor file, final int index)
throws DescriptorValidationException {
this.index = index;
this.proto = proto;
fullName = computeFullName(file, null, proto.getName());
this.file = file;
methods = new MethodDescriptor[proto.getMethodCount()];
for (int i = 0; i < proto.getMethodCount(); i++) {
methods[i] = new MethodDescriptor(proto.getMethod(i), file, this, i);
}
file.pool.addSymbol(this);
}
private void crossLink() throws DescriptorValidationException {
for (final MethodDescriptor method : methods) {
method.crossLink();
}
}
/** See {@link FileDescriptor#setProto}. */
private void setProto(final ServiceDescriptorProto proto) {
this.proto = proto;
for (int i = 0; i < methods.length; i++) {
methods[i].setProto(proto.getMethod(i));
}
}
}
// =================================================================
/** Describes one method within a service type. */
public static final class MethodDescriptor extends GenericDescriptor {
/**
* Get the index of this descriptor within its parent. * @see Descriptors.Descriptor#getIndex()
*/
public int getIndex() {
return index;
}
/** Convert the descriptor to its protocol message representation. */
@Override
public MethodDescriptorProto toProto() {
return proto;
}
/** Get the method's unqualified name. */
@Override
public String getName() {
return proto.getName();
}
/**
* Get the method's fully-qualified name.
*
* @see Descriptors.Descriptor#getFullName()
*/
@Override
public String getFullName() {
return fullName;
}
/** Get the {@link FileDescriptor} containing this descriptor. */
@Override
public FileDescriptor getFile() {
return file;
}
/** Get the method's service type. */
public ServiceDescriptor getService() {
return service;
}
/** Get the method's input type. */
public Descriptor getInputType() {
return inputType;
}
/** Get the method's output type. */
public Descriptor getOutputType() {
return outputType;
}
/** Get whether or not the inputs are streaming. */
public boolean isClientStreaming() {
return proto.getClientStreaming();
}
/** Get whether or not the outputs are streaming. */
public boolean isServerStreaming() {
return proto.getServerStreaming();
}
/** Get the {@code MethodOptions}, defined in {@code descriptor.proto}. */
public MethodOptions getOptions() {
return proto.getOptions();
}
private final int index;
private MethodDescriptorProto proto;
private final String fullName;
private final FileDescriptor file;
private final ServiceDescriptor service;
// Initialized during cross-linking.
private Descriptor inputType;
private Descriptor outputType;
private MethodDescriptor(
final MethodDescriptorProto proto,
final FileDescriptor file,
final ServiceDescriptor parent,
final int index)
throws DescriptorValidationException {
this.index = index;
this.proto = proto;
this.file = file;
service = parent;
fullName = parent.getFullName() + '.' + proto.getName();
file.pool.addSymbol(this);
}
private void crossLink() throws DescriptorValidationException {
final GenericDescriptor input =
getFile()
.pool
.lookupSymbol(proto.getInputType(), this, DescriptorPool.SearchFilter.TYPES_ONLY);
if (!(input instanceof Descriptor)) {
throw new DescriptorValidationException(
this, '\"' + proto.getInputType() + "\" is not a message type.");
}
inputType = (Descriptor) input;
final GenericDescriptor output =
getFile()
.pool
.lookupSymbol(proto.getOutputType(), this, DescriptorPool.SearchFilter.TYPES_ONLY);
if (!(output instanceof Descriptor)) {
throw new DescriptorValidationException(
this, '\"' + proto.getOutputType() + "\" is not a message type.");
}
outputType = (Descriptor) output;
}
/** See {@link FileDescriptor#setProto}. */
private void setProto(final MethodDescriptorProto proto) {
this.proto = proto;
}
}
// =================================================================
private static String computeFullName(
final FileDescriptor file, final Descriptor parent, final String name) {
if (parent != null) {
return parent.getFullName() + '.' + name;
}
final String packageName = file.getPackage();
if (!packageName.isEmpty()) {
return packageName + '.' + name;
}
return name;
}
// =================================================================
/**
* All descriptors implement this to make it easier to implement tools like {@code
* DescriptorPool}.
*/
public abstract static class GenericDescriptor {
// Private constructor to prevent subclasses outside of com.google.protobuf.Descriptors
private GenericDescriptor() {}
public abstract Message toProto();
public abstract String getName();
public abstract String getFullName();
public abstract FileDescriptor getFile();
}
/** Thrown when building descriptors fails because the source DescriptorProtos are not valid. */
public static class DescriptorValidationException extends Exception {
private static final long serialVersionUID = 5750205775490483148L;
/** Gets the full name of the descriptor where the error occurred. */
public String getProblemSymbolName() {
return name;
}
/** Gets the protocol message representation of the invalid descriptor. */
public Message getProblemProto() {
return proto;
}
/** Gets a human-readable description of the error. */
public String getDescription() {
return description;
}
private final String name;
private final Message proto;
private final String description;
private DescriptorValidationException(
final GenericDescriptor problemDescriptor, final String description) {
super(problemDescriptor.getFullName() + ": " + description);
// Note that problemDescriptor may be partially uninitialized, so we
// don't want to expose it directly to the user. So, we only provide
// the name and the original proto.
name = problemDescriptor.getFullName();
proto = problemDescriptor.toProto();
this.description = description;
}
private DescriptorValidationException(
final GenericDescriptor problemDescriptor,
final String description,
final Throwable cause) {
this(problemDescriptor, description);
initCause(cause);
}
private DescriptorValidationException(
final FileDescriptor problemDescriptor, final String description) {
super(problemDescriptor.getName() + ": " + description);
// Note that problemDescriptor may be partially uninitialized, so we
// don't want to expose it directly to the user. So, we only provide
// the name and the original proto.
name = problemDescriptor.getName();
proto = problemDescriptor.toProto();
this.description = description;
}
}
// =================================================================
/**
* A private helper class which contains lookup tables containing all the descriptors defined in a
* particular file.
*/
private static final class DescriptorPool {
/** Defines what subclass of descriptors to search in the descriptor pool. */
enum SearchFilter {
TYPES_ONLY,
AGGREGATES_ONLY,
ALL_SYMBOLS
}
DescriptorPool(final FileDescriptor[] dependencies, boolean allowUnknownDependencies) {
this.dependencies =
Collections.newSetFromMap(
new IdentityHashMap(dependencies.length));
this.allowUnknownDependencies = allowUnknownDependencies;
for (Descriptors.FileDescriptor dependency : dependencies) {
this.dependencies.add(dependency);
importPublicDependencies(dependency);
}
for (final FileDescriptor dependency : this.dependencies) {
try {
addPackage(dependency.getPackage(), dependency);
} catch (DescriptorValidationException e) {
// Can't happen, because addPackage() only fails when the name
// conflicts with a non-package, but we have not yet added any
// non-packages at this point.
throw new AssertionError(e);
}
}
}
/** Find and put public dependencies of the file into dependencies set. */
private void importPublicDependencies(final FileDescriptor file) {
for (FileDescriptor dependency : file.getPublicDependencies()) {
if (dependencies.add(dependency)) {
importPublicDependencies(dependency);
}
}
}
private final Set dependencies;
private final boolean allowUnknownDependencies;
private final Map descriptorsByName = new HashMap<>();
/** Find a generic descriptor by fully-qualified name. */
GenericDescriptor findSymbol(final String fullName) {
return findSymbol(fullName, SearchFilter.ALL_SYMBOLS);
}
/**
* Find a descriptor by fully-qualified name and given option to only search valid field type
* descriptors.
*/
GenericDescriptor findSymbol(final String fullName, final SearchFilter filter) {
GenericDescriptor result = descriptorsByName.get(fullName);
if (result != null) {
if ((filter == SearchFilter.ALL_SYMBOLS)
|| ((filter == SearchFilter.TYPES_ONLY) && isType(result))
|| ((filter == SearchFilter.AGGREGATES_ONLY) && isAggregate(result))) {
return result;
}
}
for (final FileDescriptor dependency : dependencies) {
result = dependency.pool.descriptorsByName.get(fullName);
if (result != null) {
if ((filter == SearchFilter.ALL_SYMBOLS)
|| ((filter == SearchFilter.TYPES_ONLY) && isType(result))
|| ((filter == SearchFilter.AGGREGATES_ONLY) && isAggregate(result))) {
return result;
}
}
}
return null;
}
/** Checks if the descriptor is a valid type for a message field. */
boolean isType(GenericDescriptor descriptor) {
return (descriptor instanceof Descriptor) || (descriptor instanceof EnumDescriptor);
}
/** Checks if the descriptor is a valid namespace type. */
boolean isAggregate(GenericDescriptor descriptor) {
return (descriptor instanceof Descriptor)
|| (descriptor instanceof EnumDescriptor)
|| (descriptor instanceof PackageDescriptor)
|| (descriptor instanceof ServiceDescriptor);
}
/**
* Look up a type descriptor by name, relative to some other descriptor. The name may be
* fully-qualified (with a leading '.'), partially-qualified, or unqualified. C++-like name
* lookup semantics are used to search for the matching descriptor.
*/
GenericDescriptor lookupSymbol(
final String name,
final GenericDescriptor relativeTo,
final DescriptorPool.SearchFilter filter)
throws DescriptorValidationException {
GenericDescriptor result;
String fullname;
if (name.startsWith(".")) {
// Fully-qualified name.
fullname = name.substring(1);
result = findSymbol(fullname, filter);
} else {
// If "name" is a compound identifier, we want to search for the
// first component of it, then search within it for the rest.
// If name is something like "Foo.Bar.baz", and symbols named "Foo" are
// defined in multiple parent scopes, we only want to find "Bar.baz" in
// the innermost one. E.g., the following should produce an error:
// message Bar { message Baz {} }
// message Foo {
// message Bar {
// }
// optional Bar.Baz baz = 1;
// }
// So, we look for just "Foo" first, then look for "Bar.baz" within it
// if found.
final int firstPartLength = name.indexOf('.');
final String firstPart;
if (firstPartLength == -1) {
firstPart = name;
} else {
firstPart = name.substring(0, firstPartLength);
}
// We will search each parent scope of "relativeTo" looking for the
// symbol.
final StringBuilder scopeToTry = new StringBuilder(relativeTo.getFullName());
while (true) {
// Chop off the last component of the scope.
final int dotpos = scopeToTry.lastIndexOf(".");
if (dotpos == -1) {
fullname = name;
result = findSymbol(name, filter);
break;
} else {
scopeToTry.setLength(dotpos + 1);
// Append firstPart and try to find
scopeToTry.append(firstPart);
result = findSymbol(scopeToTry.toString(), DescriptorPool.SearchFilter.AGGREGATES_ONLY);
if (result != null) {
if (firstPartLength != -1) {
// We only found the first part of the symbol. Now look for
// the whole thing. If this fails, we *don't* want to keep
// searching parent scopes.
scopeToTry.setLength(dotpos + 1);
scopeToTry.append(name);
result = findSymbol(scopeToTry.toString(), filter);
}
fullname = scopeToTry.toString();
break;
}
// Not found. Remove the name so we can try again.
scopeToTry.setLength(dotpos);
}
}
}
if (result == null) {
if (allowUnknownDependencies && filter == SearchFilter.TYPES_ONLY) {
logger.warning(
"The descriptor for message type \""
+ name
+ "\" cannot be found and a placeholder is created for it");
// We create a dummy message descriptor here regardless of the
// expected type. If the type should be message, this dummy
// descriptor will work well and if the type should be enum, a
// DescriptorValidationException will be thrown later. In either
// case, the code works as expected: we allow unknown message types
// but not unknown enum types.
result = new Descriptor(fullname);
// Add the placeholder file as a dependency so we can find the
// placeholder symbol when resolving other references.
this.dependencies.add(result.getFile());
return result;
} else {
throw new DescriptorValidationException(relativeTo, '\"' + name + "\" is not defined.");
}
} else {
return result;
}
}
/**
* Adds a symbol to the symbol table. If a symbol with the same name already exists, throws an
* error.
*/
void addSymbol(final GenericDescriptor descriptor) throws DescriptorValidationException {
validateSymbolName(descriptor);
final String fullName = descriptor.getFullName();
final GenericDescriptor old = descriptorsByName.put(fullName, descriptor);
if (old != null) {
descriptorsByName.put(fullName, old);
if (descriptor.getFile() == old.getFile()) {
final int dotpos = fullName.lastIndexOf('.');
if (dotpos == -1) {
throw new DescriptorValidationException(
descriptor, '\"' + fullName + "\" is already defined.");
} else {
throw new DescriptorValidationException(
descriptor,
'\"'
+ fullName.substring(dotpos + 1)
+ "\" is already defined in \""
+ fullName.substring(0, dotpos)
+ "\".");
}
} else {
throw new DescriptorValidationException(
descriptor,
'\"'
+ fullName
+ "\" is already defined in file \""
+ old.getFile().getName()
+ "\".");
}
}
}
/**
* Represents a package in the symbol table. We use PackageDescriptors just as placeholders so
* that someone cannot define, say, a message type that has the same name as an existing
* package.
*/
private static final class PackageDescriptor extends GenericDescriptor {
@Override
public Message toProto() {
return file.toProto();
}
@Override
public String getName() {
return name;
}
@Override
public String getFullName() {
return fullName;
}
@Override
public FileDescriptor getFile() {
return file;
}
PackageDescriptor(final String name, final String fullName, final FileDescriptor file) {
this.file = file;
this.fullName = fullName;
this.name = name;
}
private final String name;
private final String fullName;
private final FileDescriptor file;
}
/**
* Adds a package to the symbol tables. If a package by the same name already exists, that is
* fine, but if some other kind of symbol exists under the same name, an exception is thrown. If
* the package has multiple components, this also adds the parent package(s).
*/
void addPackage(final String fullName, final FileDescriptor file)
throws DescriptorValidationException {
final int dotpos = fullName.lastIndexOf('.');
final String name;
if (dotpos == -1) {
name = fullName;
} else {
addPackage(fullName.substring(0, dotpos), file);
name = fullName.substring(dotpos + 1);
}
final GenericDescriptor old =
descriptorsByName.put(fullName, new PackageDescriptor(name, fullName, file));
if (old != null) {
descriptorsByName.put(fullName, old);
if (!(old instanceof PackageDescriptor)) {
throw new DescriptorValidationException(
file,
'\"'
+ name
+ "\" is already defined (as something other than a "
+ "package) in file \""
+ old.getFile().getName()
+ "\".");
}
}
}
/**
* Verifies that the descriptor's name is valid. That is, it contains only letters, digits, and
* underscores, and does not start with a digit.
*/
static void validateSymbolName(final GenericDescriptor descriptor)
throws DescriptorValidationException {
final String name = descriptor.getName();
if (name.length() == 0) {
throw new DescriptorValidationException(descriptor, "Missing name.");
}
// Non-ASCII characters are not valid in protobuf identifiers, even
// if they are letters or digits.
// The first character must be a letter or '_'.
// Subsequent characters may be letters, numbers, or digits.
for (int i = 0; i < name.length(); i++) {
final char c = name.charAt(i);
if (('a' <= c && c <= 'z')
|| ('A' <= c && c <= 'Z')
|| (c == '_')
|| ('0' <= c && c <= '9' && i > 0)) {
// Valid
continue;
}
throw new DescriptorValidationException(
descriptor, '\"' + name + "\" is not a valid identifier.");
}
}
}
/** Describes a oneof of a message type. */
public static final class OneofDescriptor extends GenericDescriptor {
/** Get the index of this descriptor within its parent. */
public int getIndex() {
return index;
}
@Override
public String getName() {
return proto.getName();
}
@Override
public FileDescriptor getFile() {
return file;
}
@Override
public String getFullName() {
return fullName;
}
public Descriptor getContainingType() {
return containingType;
}
public int getFieldCount() {
return fieldCount;
}
public OneofOptions getOptions() {
return proto.getOptions();
}
/** Get a list of this message type's fields. */
public List getFields() {
return Collections.unmodifiableList(Arrays.asList(fields));
}
public FieldDescriptor getField(int index) {
return fields[index];
}
@Override
public OneofDescriptorProto toProto() {
return proto;
}
@Deprecated
public
boolean isSynthetic() {
return fields.length == 1 && fields[0].isProto3Optional;
}
private void setProto(final OneofDescriptorProto proto) {
this.proto = proto;
}
private OneofDescriptor(
final OneofDescriptorProto proto,
final FileDescriptor file,
final Descriptor parent,
final int index) {
this.proto = proto;
fullName = computeFullName(file, parent, proto.getName());
this.file = file;
this.index = index;
containingType = parent;
fieldCount = 0;
}
private final int index;
private OneofDescriptorProto proto;
private final String fullName;
private final FileDescriptor file;
private Descriptor containingType;
private int fieldCount;
private FieldDescriptor[] fields;
}
private static T binarySearch(T[] array, int size, NumberGetter getter, int number) {
int left = 0;
int right = size - 1;
while (left <= right) {
int mid = (left + right) / 2;
T midValue = array[mid];
int midValueNumber = getter.getNumber(midValue);
if (number < midValueNumber) {
right = mid - 1;
} else if (number > midValueNumber) {
left = mid + 1;
} else {
return midValue;
}
}
return null;
}
private interface NumberGetter {
int getNumber(T t);
}
}