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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc.  All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
//     * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
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// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
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//
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package com.google.protobuf;

import static com.google.protobuf.MessageSchema.getMutableUnknownFields;

import com.google.protobuf.GeneratedMessageLite.ExtensionDescriptor;
import com.google.protobuf.Internal.ProtobufList;
import java.io.IOException;

/**
 * Helper functions to decode protobuf wire format from a byte array.
 *
 * 

Note that these functions don't do boundary check on the byte array but instead rely on Java * VM to check it. That means parsing routines utilizing these functions must catch * IndexOutOfBoundsException and convert it to protobuf's InvalidProtocolBufferException when * crossing protobuf public API boundaries. */ @CheckReturnValue final class ArrayDecoders { private ArrayDecoders() { } /** * A helper used to return multiple values in a Java function. Java doesn't natively support * returning multiple values in a function. Creating a new Object to hold the return values will * be too expensive. Instead, we pass a Registers instance to functions that want to return * multiple values and let the function set the return value in this Registers instance instead. */ static final class Registers { public int int1; public long long1; public Object object1; public final ExtensionRegistryLite extensionRegistry; Registers() { this.extensionRegistry = ExtensionRegistryLite.getEmptyRegistry(); } Registers(ExtensionRegistryLite extensionRegistry) { if (extensionRegistry == null) { throw new NullPointerException(); } this.extensionRegistry = extensionRegistry; } } /** * Decodes a varint. Returns the position after the varint. The decoded varint is stored in * registers.int1. */ static int decodeVarint32(byte[] data, int position, Registers registers) { int value = data[position++]; if (value >= 0) { registers.int1 = value; return position; } return decodeVarint32(value, data, position, registers); } /** Like decodeVarint32 except that the first byte is already read. */ static int decodeVarint32(int firstByte, byte[] data, int position, Registers registers) { int value = firstByte & 0x7F; final byte b2 = data[position++]; if (b2 >= 0) { registers.int1 = value | ((int) b2 << 7); return position; } value |= (b2 & 0x7F) << 7; final byte b3 = data[position++]; if (b3 >= 0) { registers.int1 = value | ((int) b3 << 14); return position; } value |= (b3 & 0x7F) << 14; final byte b4 = data[position++]; if (b4 >= 0) { registers.int1 = value | ((int) b4 << 21); return position; } value |= (b4 & 0x7F) << 21; final byte b5 = data[position++]; if (b5 >= 0) { registers.int1 = value | ((int) b5 << 28); return position; } value |= (b5 & 0x7F) << 28; while (data[position++] < 0) {} registers.int1 = value; return position; } /** * Decodes a varint. Returns the position after the varint. The decoded varint is stored in * registers.long1. */ static int decodeVarint64(byte[] data, int position, Registers registers) { long value = data[position++]; if (value >= 0) { registers.long1 = value; return position; } else { return decodeVarint64(value, data, position, registers); } } /** Like decodeVarint64 except that the first byte is already read. */ static int decodeVarint64(long firstByte, byte[] data, int position, Registers registers) { long value = firstByte & 0x7F; byte next = data[position++]; int shift = 7; value |= (long) (next & 0x7F) << 7; while (next < 0) { next = data[position++]; shift += 7; value |= (long) (next & 0x7F) << shift; } registers.long1 = value; return position; } /** Decodes and returns a fixed32 value. */ static int decodeFixed32(byte[] data, int position) { return (data[position] & 0xff) | ((data[position + 1] & 0xff) << 8) | ((data[position + 2] & 0xff) << 16) | ((data[position + 3] & 0xff) << 24); } /** Decodes and returns a fixed64 value. */ static long decodeFixed64(byte[] data, int position) { return (data[position] & 0xffL) | ((data[position + 1] & 0xffL) << 8) | ((data[position + 2] & 0xffL) << 16) | ((data[position + 3] & 0xffL) << 24) | ((data[position + 4] & 0xffL) << 32) | ((data[position + 5] & 0xffL) << 40) | ((data[position + 6] & 0xffL) << 48) | ((data[position + 7] & 0xffL) << 56); } /** Decodes and returns a double value. */ static double decodeDouble(byte[] data, int position) { return Double.longBitsToDouble(decodeFixed64(data, position)); } /** Decodes and returns a float value. */ static float decodeFloat(byte[] data, int position) { return Float.intBitsToFloat(decodeFixed32(data, position)); } /** Decodes a string value. */ static int decodeString(byte[] data, int position, Registers registers) throws InvalidProtocolBufferException { position = decodeVarint32(data, position, registers); final int length = registers.int1; if (length < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (length == 0) { registers.object1 = ""; return position; } else { registers.object1 = new String(data, position, length, Internal.UTF_8); return position + length; } } /** Decodes a string value with utf8 check. */ static int decodeStringRequireUtf8(byte[] data, int position, Registers registers) throws InvalidProtocolBufferException { position = decodeVarint32(data, position, registers); final int length = registers.int1; if (length < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (length == 0) { registers.object1 = ""; return position; } else { registers.object1 = Utf8.decodeUtf8(data, position, length); return position + length; } } /** Decodes a bytes value. */ static int decodeBytes(byte[] data, int position, Registers registers) throws InvalidProtocolBufferException { position = decodeVarint32(data, position, registers); final int length = registers.int1; if (length < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (length > data.length - position) { throw InvalidProtocolBufferException.truncatedMessage(); } else if (length == 0) { registers.object1 = ByteString.EMPTY; return position; } else { registers.object1 = ByteString.copyFrom(data, position, length); return position + length; } } /** Decodes a message value. */ @SuppressWarnings({"unchecked", "rawtypes"}) static int decodeMessageField( Schema schema, byte[] data, int position, int limit, Registers registers) throws IOException { Object msg = schema.newInstance(); int offset = mergeMessageField(msg, schema, data, position, limit, registers); schema.makeImmutable(msg); registers.object1 = msg; return offset; } /** Decodes a group value. */ @SuppressWarnings({"unchecked", "rawtypes"}) static int decodeGroupField( Schema schema, byte[] data, int position, int limit, int endGroup, Registers registers) throws IOException { Object msg = schema.newInstance(); int offset = mergeGroupField(msg, schema, data, position, limit, endGroup, registers); schema.makeImmutable(msg); registers.object1 = msg; return offset; } @SuppressWarnings({"unchecked", "rawtypes"}) static int mergeMessageField( Object msg, Schema schema, byte[] data, int position, int limit, Registers registers) throws IOException { int length = data[position++]; if (length < 0) { position = decodeVarint32(length, data, position, registers); length = registers.int1; } if (length < 0 || length > limit - position) { throw InvalidProtocolBufferException.truncatedMessage(); } schema.mergeFrom(msg, data, position, position + length, registers); registers.object1 = msg; return position + length; } @SuppressWarnings({"unchecked", "rawtypes"}) static int mergeGroupField( Object msg, Schema schema, byte[] data, int position, int limit, int endGroup, Registers registers) throws IOException { // A group field must has a MessageSchema (the only other subclass of Schema is MessageSetSchema // and it can't be used in group fields). final MessageSchema messageSchema = (MessageSchema) schema; // It's OK to directly use parseProto2Message since proto3 doesn't have group. final int endPosition = messageSchema.parseProto2Message(msg, data, position, limit, endGroup, registers); registers.object1 = msg; return endPosition; } /** Decodes a repeated 32-bit varint field. Returns the position after all read values. */ static int decodeVarint32List( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final IntArrayList output = (IntArrayList) list; position = decodeVarint32(data, position, registers); output.addInt(registers.int1); while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint32(data, nextPosition, registers); output.addInt(registers.int1); } return position; } /** Decodes a repeated 64-bit varint field. Returns the position after all read values. */ static int decodeVarint64List( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final LongArrayList output = (LongArrayList) list; position = decodeVarint64(data, position, registers); output.addLong(registers.long1); while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint64(data, nextPosition, registers); output.addLong(registers.long1); } return position; } /** Decodes a repeated fixed32 field. Returns the position after all read values. */ static int decodeFixed32List( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final IntArrayList output = (IntArrayList) list; output.addInt(decodeFixed32(data, position)); position += 4; while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } output.addInt(decodeFixed32(data, nextPosition)); position = nextPosition + 4; } return position; } /** Decodes a repeated fixed64 field. Returns the position after all read values. */ static int decodeFixed64List( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final LongArrayList output = (LongArrayList) list; output.addLong(decodeFixed64(data, position)); position += 8; while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } output.addLong(decodeFixed64(data, nextPosition)); position = nextPosition + 8; } return position; } /** Decodes a repeated float field. Returns the position after all read values. */ static int decodeFloatList( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final FloatArrayList output = (FloatArrayList) list; output.addFloat(decodeFloat(data, position)); position += 4; while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } output.addFloat(decodeFloat(data, nextPosition)); position = nextPosition + 4; } return position; } /** Decodes a repeated double field. Returns the position after all read values. */ static int decodeDoubleList( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final DoubleArrayList output = (DoubleArrayList) list; output.addDouble(decodeDouble(data, position)); position += 8; while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } output.addDouble(decodeDouble(data, nextPosition)); position = nextPosition + 8; } return position; } /** Decodes a repeated boolean field. Returns the position after all read values. */ static int decodeBoolList( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final BooleanArrayList output = (BooleanArrayList) list; position = decodeVarint64(data, position, registers); output.addBoolean(registers.long1 != 0); while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint64(data, nextPosition, registers); output.addBoolean(registers.long1 != 0); } return position; } /** Decodes a repeated sint32 field. Returns the position after all read values. */ static int decodeSInt32List( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final IntArrayList output = (IntArrayList) list; position = decodeVarint32(data, position, registers); output.addInt(CodedInputStream.decodeZigZag32(registers.int1)); while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint32(data, nextPosition, registers); output.addInt(CodedInputStream.decodeZigZag32(registers.int1)); } return position; } /** Decodes a repeated sint64 field. Returns the position after all read values. */ static int decodeSInt64List( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) { final LongArrayList output = (LongArrayList) list; position = decodeVarint64(data, position, registers); output.addLong(CodedInputStream.decodeZigZag64(registers.long1)); while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint64(data, nextPosition, registers); output.addLong(CodedInputStream.decodeZigZag64(registers.long1)); } return position; } /** Decodes a packed 32-bit varint field. Returns the position after all read values. */ static int decodePackedVarint32List( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final IntArrayList output = (IntArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { position = decodeVarint32(data, position, registers); output.addInt(registers.int1); } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed 64-bit varint field. Returns the position after all read values. */ static int decodePackedVarint64List( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final LongArrayList output = (LongArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { position = decodeVarint64(data, position, registers); output.addLong(registers.long1); } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed fixed32 field. Returns the position after all read values. */ static int decodePackedFixed32List( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final IntArrayList output = (IntArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { output.addInt(decodeFixed32(data, position)); position += 4; } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed fixed64 field. Returns the position after all read values. */ static int decodePackedFixed64List( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final LongArrayList output = (LongArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { output.addLong(decodeFixed64(data, position)); position += 8; } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed float field. Returns the position after all read values. */ static int decodePackedFloatList( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final FloatArrayList output = (FloatArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { output.addFloat(decodeFloat(data, position)); position += 4; } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed double field. Returns the position after all read values. */ static int decodePackedDoubleList( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final DoubleArrayList output = (DoubleArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { output.addDouble(decodeDouble(data, position)); position += 8; } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed boolean field. Returns the position after all read values. */ static int decodePackedBoolList( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final BooleanArrayList output = (BooleanArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { position = decodeVarint64(data, position, registers); output.addBoolean(registers.long1 != 0); } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed sint32 field. Returns the position after all read values. */ static int decodePackedSInt32List( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final IntArrayList output = (IntArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { position = decodeVarint32(data, position, registers); output.addInt(CodedInputStream.decodeZigZag32(registers.int1)); } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a packed sint64 field. Returns the position after all read values. */ static int decodePackedSInt64List( byte[] data, int position, ProtobufList list, Registers registers) throws IOException { final LongArrayList output = (LongArrayList) list; position = decodeVarint32(data, position, registers); final int fieldLimit = position + registers.int1; while (position < fieldLimit) { position = decodeVarint64(data, position, registers); output.addLong(CodedInputStream.decodeZigZag64(registers.long1)); } if (position != fieldLimit) { throw InvalidProtocolBufferException.truncatedMessage(); } return position; } /** Decodes a repeated string field. Returns the position after all read values. */ @SuppressWarnings("unchecked") static int decodeStringList( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) throws InvalidProtocolBufferException { final ProtobufList output = (ProtobufList) list; position = decodeVarint32(data, position, registers); final int length = registers.int1; if (length < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (length == 0) { output.add(""); } else { String value = new String(data, position, length, Internal.UTF_8); output.add(value); position += length; } while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint32(data, nextPosition, registers); final int nextLength = registers.int1; if (nextLength < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (nextLength == 0) { output.add(""); } else { String value = new String(data, position, nextLength, Internal.UTF_8); output.add(value); position += nextLength; } } return position; } /** * Decodes a repeated string field with utf8 check. Returns the position after all read values. */ @SuppressWarnings("unchecked") static int decodeStringListRequireUtf8( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) throws InvalidProtocolBufferException { final ProtobufList output = (ProtobufList) list; position = decodeVarint32(data, position, registers); final int length = registers.int1; if (length < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (length == 0) { output.add(""); } else { if (!Utf8.isValidUtf8(data, position, position + length)) { throw InvalidProtocolBufferException.invalidUtf8(); } String value = new String(data, position, length, Internal.UTF_8); output.add(value); position += length; } while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint32(data, nextPosition, registers); final int nextLength = registers.int1; if (nextLength < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (nextLength == 0) { output.add(""); } else { if (!Utf8.isValidUtf8(data, position, position + nextLength)) { throw InvalidProtocolBufferException.invalidUtf8(); } String value = new String(data, position, nextLength, Internal.UTF_8); output.add(value); position += nextLength; } } return position; } /** Decodes a repeated bytes field. Returns the position after all read values. */ @SuppressWarnings("unchecked") static int decodeBytesList( int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) throws InvalidProtocolBufferException { final ProtobufList output = (ProtobufList) list; position = decodeVarint32(data, position, registers); final int length = registers.int1; if (length < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (length > data.length - position) { throw InvalidProtocolBufferException.truncatedMessage(); } else if (length == 0) { output.add(ByteString.EMPTY); } else { output.add(ByteString.copyFrom(data, position, length)); position += length; } while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeVarint32(data, nextPosition, registers); final int nextLength = registers.int1; if (nextLength < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (nextLength > data.length - position) { throw InvalidProtocolBufferException.truncatedMessage(); } else if (nextLength == 0) { output.add(ByteString.EMPTY); } else { output.add(ByteString.copyFrom(data, position, nextLength)); position += nextLength; } } return position; } /** * Decodes a repeated message field * * @return The position of after read all messages */ @SuppressWarnings({"unchecked"}) static int decodeMessageList( Schema schema, int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) throws IOException { final ProtobufList output = (ProtobufList) list; position = decodeMessageField(schema, data, position, limit, registers); output.add(registers.object1); while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeMessageField(schema, data, nextPosition, limit, registers); output.add(registers.object1); } return position; } /** * Decodes a repeated group field * * @return The position of after read all groups */ @SuppressWarnings({"unchecked", "rawtypes"}) static int decodeGroupList( Schema schema, int tag, byte[] data, int position, int limit, ProtobufList list, Registers registers) throws IOException { final ProtobufList output = (ProtobufList) list; final int endgroup = (tag & ~0x7) | WireFormat.WIRETYPE_END_GROUP; position = decodeGroupField(schema, data, position, limit, endgroup, registers); output.add(registers.object1); while (position < limit) { int nextPosition = decodeVarint32(data, position, registers); if (tag != registers.int1) { break; } position = decodeGroupField(schema, data, nextPosition, limit, endgroup, registers); output.add(registers.object1); } return position; } static int decodeExtensionOrUnknownField( int tag, byte[] data, int position, int limit, Object message, MessageLite defaultInstance, UnknownFieldSchema unknownFieldSchema, Registers registers) throws IOException { final int number = tag >>> 3; GeneratedMessageLite.GeneratedExtension extension = registers.extensionRegistry.findLiteExtensionByNumber(defaultInstance, number); if (extension == null) { return decodeUnknownField( tag, data, position, limit, getMutableUnknownFields(message), registers); } else { // TODO(b/230609037): remove the unused variable FieldSet unused = ((GeneratedMessageLite.ExtendableMessage) message).ensureExtensionsAreMutable(); return decodeExtension( tag, data, position, limit, (GeneratedMessageLite.ExtendableMessage) message, extension, unknownFieldSchema, registers); } } static int decodeExtension( int tag, byte[] data, int position, int limit, GeneratedMessageLite.ExtendableMessage message, GeneratedMessageLite.GeneratedExtension extension, UnknownFieldSchema unknownFieldSchema, Registers registers) throws IOException { final FieldSet extensions = message.extensions; final int fieldNumber = tag >>> 3; if (extension.descriptor.isRepeated() && extension.descriptor.isPacked()) { switch (extension.getLiteType()) { case DOUBLE: { DoubleArrayList list = new DoubleArrayList(); position = decodePackedDoubleList(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case FLOAT: { FloatArrayList list = new FloatArrayList(); position = decodePackedFloatList(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case INT64: case UINT64: { LongArrayList list = new LongArrayList(); position = decodePackedVarint64List(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case INT32: case UINT32: { IntArrayList list = new IntArrayList(); position = decodePackedVarint32List(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case FIXED64: case SFIXED64: { LongArrayList list = new LongArrayList(); position = decodePackedFixed64List(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case FIXED32: case SFIXED32: { IntArrayList list = new IntArrayList(); position = decodePackedFixed32List(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case BOOL: { BooleanArrayList list = new BooleanArrayList(); position = decodePackedBoolList(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case SINT32: { IntArrayList list = new IntArrayList(); position = decodePackedSInt32List(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case SINT64: { LongArrayList list = new LongArrayList(); position = decodePackedSInt64List(data, position, list, registers); extensions.setField(extension.descriptor, list); break; } case ENUM: { IntArrayList list = new IntArrayList(); position = decodePackedVarint32List(data, position, list, registers); SchemaUtil.filterUnknownEnumList( message, fieldNumber, list, extension.descriptor.getEnumType(), null, unknownFieldSchema); extensions.setField(extension.descriptor, list); break; } default: throw new IllegalStateException( "Type cannot be packed: " + extension.descriptor.getLiteType()); } } else { Object value = null; // Enum is a special case because unknown enum values will be put into UnknownFieldSetLite. if (extension.getLiteType() == WireFormat.FieldType.ENUM) { position = decodeVarint32(data, position, registers); Object enumValue = extension.descriptor.getEnumType().findValueByNumber(registers.int1); if (enumValue == null) { SchemaUtil.storeUnknownEnum( message, fieldNumber, registers.int1, null, unknownFieldSchema); return position; } // Note, we store the integer value instead of the actual enum object in FieldSet. // This is also different from full-runtime where we store EnumValueDescriptor. value = registers.int1; } else { switch (extension.getLiteType()) { case DOUBLE: value = decodeDouble(data, position); position += 8; break; case FLOAT: value = decodeFloat(data, position); position += 4; break; case INT64: case UINT64: position = decodeVarint64(data, position, registers); value = registers.long1; break; case INT32: case UINT32: position = decodeVarint32(data, position, registers); value = registers.int1; break; case FIXED64: case SFIXED64: value = decodeFixed64(data, position); position += 8; break; case FIXED32: case SFIXED32: value = decodeFixed32(data, position); position += 4; break; case BOOL: position = decodeVarint64(data, position, registers); value = (registers.long1 != 0); break; case BYTES: position = decodeBytes(data, position, registers); value = registers.object1; break; case SINT32: position = decodeVarint32(data, position, registers); value = CodedInputStream.decodeZigZag32(registers.int1); break; case SINT64: position = decodeVarint64(data, position, registers); value = CodedInputStream.decodeZigZag64(registers.long1); break; case STRING: position = decodeString(data, position, registers); value = registers.object1; break; case GROUP: { final int endTag = (fieldNumber << 3) | WireFormat.WIRETYPE_END_GROUP; final Schema fieldSchema = Protobuf.getInstance() .schemaFor(extension.getMessageDefaultInstance().getClass()); if (extension.isRepeated()) { position = decodeGroupField(fieldSchema, data, position, limit, endTag, registers); extensions.addRepeatedField(extension.descriptor, registers.object1); } else { Object oldValue = extensions.getField(extension.descriptor); if (oldValue == null) { oldValue = fieldSchema.newInstance(); extensions.setField(extension.descriptor, oldValue); } position = mergeGroupField( oldValue, fieldSchema, data, position, limit, endTag, registers); } return position; } case MESSAGE: { final Schema fieldSchema = Protobuf.getInstance() .schemaFor(extension.getMessageDefaultInstance().getClass()); if (extension.isRepeated()) { position = decodeMessageField(fieldSchema, data, position, limit, registers); extensions.addRepeatedField(extension.descriptor, registers.object1); } else { Object oldValue = extensions.getField(extension.descriptor); if (oldValue == null) { oldValue = fieldSchema.newInstance(); extensions.setField(extension.descriptor, oldValue); } position = mergeMessageField(oldValue, fieldSchema, data, position, limit, registers); } return position; } case ENUM: throw new IllegalStateException("Shouldn't reach here."); } } if (extension.isRepeated()) { extensions.addRepeatedField(extension.descriptor, value); } else { extensions.setField(extension.descriptor, value); } } return position; } /** Decodes an unknown field. */ static int decodeUnknownField( int tag, byte[] data, int position, int limit, UnknownFieldSetLite unknownFields, Registers registers) throws InvalidProtocolBufferException { if (WireFormat.getTagFieldNumber(tag) == 0) { throw InvalidProtocolBufferException.invalidTag(); } switch (WireFormat.getTagWireType(tag)) { case WireFormat.WIRETYPE_VARINT: position = decodeVarint64(data, position, registers); unknownFields.storeField(tag, registers.long1); return position; case WireFormat.WIRETYPE_FIXED32: unknownFields.storeField(tag, decodeFixed32(data, position)); return position + 4; case WireFormat.WIRETYPE_FIXED64: unknownFields.storeField(tag, decodeFixed64(data, position)); return position + 8; case WireFormat.WIRETYPE_LENGTH_DELIMITED: position = decodeVarint32(data, position, registers); final int length = registers.int1; if (length < 0) { throw InvalidProtocolBufferException.negativeSize(); } else if (length > data.length - position) { throw InvalidProtocolBufferException.truncatedMessage(); } else if (length == 0) { unknownFields.storeField(tag, ByteString.EMPTY); } else { unknownFields.storeField(tag, ByteString.copyFrom(data, position, length)); } return position + length; case WireFormat.WIRETYPE_START_GROUP: final UnknownFieldSetLite child = UnknownFieldSetLite.newInstance(); final int endGroup = (tag & ~0x7) | WireFormat.WIRETYPE_END_GROUP; int lastTag = 0; while (position < limit) { position = decodeVarint32(data, position, registers); lastTag = registers.int1; if (lastTag == endGroup) { break; } position = decodeUnknownField(lastTag, data, position, limit, child, registers); } if (position > limit || lastTag != endGroup) { throw InvalidProtocolBufferException.parseFailure(); } unknownFields.storeField(tag, child); return position; default: throw InvalidProtocolBufferException.invalidTag(); } } /** Skips an unknown field. */ static int skipField(int tag, byte[] data, int position, int limit, Registers registers) throws InvalidProtocolBufferException { if (WireFormat.getTagFieldNumber(tag) == 0) { throw InvalidProtocolBufferException.invalidTag(); } switch (WireFormat.getTagWireType(tag)) { case WireFormat.WIRETYPE_VARINT: position = decodeVarint64(data, position, registers); return position; case WireFormat.WIRETYPE_FIXED32: return position + 4; case WireFormat.WIRETYPE_FIXED64: return position + 8; case WireFormat.WIRETYPE_LENGTH_DELIMITED: position = decodeVarint32(data, position, registers); return position + registers.int1; case WireFormat.WIRETYPE_START_GROUP: final int endGroup = (tag & ~0x7) | WireFormat.WIRETYPE_END_GROUP; int lastTag = 0; while (position < limit) { position = decodeVarint32(data, position, registers); lastTag = registers.int1; if (lastTag == endGroup) { break; } position = skipField(lastTag, data, position, limit, registers); } if (position > limit || lastTag != endGroup) { throw InvalidProtocolBufferException.parseFailure(); } return position; default: throw InvalidProtocolBufferException.invalidTag(); } } }