From e3e6e3d8aa7ac32e0f80588f6403fc18f7e476a7 Mon Sep 17 00:00:00 2001 From: The Android Open Source Project Date: Tue, 3 Mar 2009 19:30:31 -0800 Subject: auto import from //depot/cupcake/@135843 --- src/com/google/common/io/protocol/ProtoBuf.java | 1338 ++++++++++++++++++++ .../google/common/io/protocol/ProtoBufType.java | 170 +++ .../google/common/io/protocol/ProtoBufUtil.java | 237 ++++ src/com/google/common/io/protocol/package.html | 5 + 4 files changed, 1750 insertions(+) create mode 100644 src/com/google/common/io/protocol/ProtoBuf.java create mode 100644 src/com/google/common/io/protocol/ProtoBufType.java create mode 100644 src/com/google/common/io/protocol/ProtoBufUtil.java create mode 100644 src/com/google/common/io/protocol/package.html (limited to 'src') diff --git a/src/com/google/common/io/protocol/ProtoBuf.java b/src/com/google/common/io/protocol/ProtoBuf.java new file mode 100644 index 0000000..ff7a324 --- /dev/null +++ b/src/com/google/common/io/protocol/ProtoBuf.java @@ -0,0 +1,1338 @@ +// Copyright 2007 The Android Open Source Project +// All Rights Reserved. + +package com.google.common.io.protocol; + +import java.io.*; +import java.util.*; + +/** + * Protocol buffer message object. Currently, it is assumed that tags ids are + * not large. This could be improved by storing a start offset, reducing the + * assumption to a dense number space. + *

+ * ProtoBuf instances may or may not reference a ProtoBufType instance, + * representing information from a corresponding .proto file, which defines tag + * data types. The type can only be set in the constructor, it cannot be + * changed later. + *

+ * If the type is null, the ProtoBuffer should be used only for reading or + * as a local persistent storage buffer. An untyped Protocol Buffer must never + * be sent to a server. + *

+ * If a ProtoBufType is set, unknown values are read from the stream and + * preserved, but it is not possible to add values for undefined tags using + * this API. Attempts to set undefined tags will result in an exception. + *

+ * This class provides two different sets of access methods for simple and + * repeated tags. Simple access methods are has(tag), getXXX(tag), + * and setXXX(tag, value). Access methods for repeated tags are getCount(tag), + * getXXX(tag, index), remove(tag, index), insert(tag, index, value) and + * addXXX(tag, value). Note that both sets of methods can be used in both cases, + * but only the simple methods take default values into account. The reason for + * this behavior is that default values cannot be removed -- they would reappear + * after a serialization cycle. If a tag has repeated values, setXXX(tag, value) + * will overwrite all of them and getXXX(tag) will throw an exception. + * + */ + +public class ProtoBuf { + + public static final Boolean FALSE = new Boolean(false); + public static final Boolean TRUE = new Boolean(true); + + private static final String MSG_EOF = "Unexp.EOF"; + private static final String MSG_MISMATCH = "Type mismatch"; + private static final String MSG_UNSUPPORTED = "Unsupp.Type"; + + // names copied from //net/proto2/internal/wire_format.cc + static final int WIRETYPE_END_GROUP = 4; + static final int WIRETYPE_FIXED32 = 5; + static final int WIRETYPE_FIXED64 = 1; + static final int WIRETYPE_LENGTH_DELIMITED = 2; + static final int WIRETYPE_START_GROUP = 3; + static final int WIRETYPE_VARINT = 0; + + /** Maximum number of bytes for VARINT wire format (64 bit, 7 bit/byte) */ + private static final int VARINT_MAX_BYTES = 10; + + private static Long[] SMALL_NUMBERS = { + new Long(0), new Long(1), new Long(2), new Long(3), new Long(4), + new Long(5), new Long(6), new Long(7), new Long(8), new Long(9), + new Long(10), new Long(11), new Long(12), new Long(13), new Long(14), + new Long(15)}; + + private ProtoBufType msgType; + private final Vector values = new Vector(); + + /** + * Wire types picked up on the wire or implied by setters (if no other + * type information is available. + */ + private final StringBuffer wireTypes = new StringBuffer(); + + /** + * Creates a protocol message according to the given description. The + * description is required if it is necessary to write the protocol buffer for + * data exchange with other systems relying on the .proto file. + */ + public ProtoBuf(ProtoBufType type) { + this.msgType = type; + } + + /** + * Clears all data stored in this ProtoBuf. + */ + public void clear() { + values.setSize(0); + wireTypes.setLength(0); + } + + /** + * Creates a new instance of the group with the given tag. + */ + public ProtoBuf createGroup(int tag) { + return new ProtoBuf((ProtoBufType) getType().getData(tag)); + } + + /** + * Appends the given (repeated) tag with the given boolean value. + */ + public void addBool(int tag, boolean value){ + insertBool(tag, getCount(tag), value); + } + + /** + * Appends the given (repeated) tag with the given byte[] value. + */ + public void addBytes(int tag, byte[] value){ + insertBytes(tag, getCount(tag), value); + } + + /** + * Appends the given (repeated) tag with the given int value. + */ + public void addInt(int tag, int value){ + insertInt(tag, getCount(tag), value); + } + + /** + * Appends the given (repeated) tag with the given long value. + */ + public void addLong(int tag, long value){ + insertLong(tag, getCount(tag), value); + } + + /** + * Appends the given (repeated) tag with the given float value. + */ + public void addFloat(int tag, float value) { + insertFloat(tag, getCount(tag), value); + } + + /** + * Appends the given (repeated) tag with the given double value. + */ + public void addDouble(int tag, double value) { + insertDouble(tag, getCount(tag), value); + } + + /** + * Appends the given (repeated) tag with the given group or message value. + */ + public void addProtoBuf(int tag, ProtoBuf value){ + insertProtoBuf(tag, getCount(tag), value); + } + + /** + * Adds a new protobuf for the specified tag, setting the child protobuf's + * type correctly for the tag. + * @param tag the tag for which to create a new protobuf + * @return the newly created protobuf + */ + public ProtoBuf addNewProtoBuf(int tag) { + ProtoBuf child = newProtoBufForTag(tag); + addProtoBuf(tag, child); + return child; + } + + /** + * Creates and returns a new protobuf for the specified tag, setting the new + * protobuf's type correctly for the tag. + * @param tag the tag for which to create a new protobuf + * @return the newly created protobuf + */ + public ProtoBuf newProtoBufForTag(int tag) { + return new ProtoBuf((ProtoBufType) msgType.getData(tag)); + } + + /** + * Appends the given (repeated) tag with the given String value. + */ + public void addString(int tag, String value){ + insertString(tag, getCount(tag), value); + } + + /** + * Returns the boolean value for the given tag. + */ + public boolean getBool(int tag) { + return ((Boolean) getObject(tag, ProtoBufType.TYPE_BOOL)) + .booleanValue(); + } + + /** + * Returns the boolean value for the given repeated tag at the given index. + */ + public boolean getBool(int tag, int index) { + return ((Boolean) getObject(tag, index, ProtoBufType.TYPE_BOOL)) + .booleanValue(); + } + + /** + * Returns the given string tag as byte array. + */ + public byte[] getBytes(int tag) { + return (byte[]) getObject(tag, ProtoBufType.TYPE_DATA); + } + + /** + * Returns the given repeated string tag at the given index as byte array. + */ + public byte[] getBytes(int tag, int index) { + return (byte[]) getObject(tag, index, ProtoBufType.TYPE_DATA); + } + + /** + * Returns the integer value for the given tag. + */ + public int getInt(int tag) { + return (int) ((Long) getObject(tag, ProtoBufType.TYPE_INT32)).longValue(); + } + + /** + * Returns the integer value for the given repeated tag at the given index. + */ + public int getInt(int tag, int index) { + return (int) ((Long) getObject(tag, index, + ProtoBufType.TYPE_INT32)).longValue(); + } + + /** + * Returns the long value for the given tag. + */ + public long getLong(int tag) { + return ((Long) getObject(tag, ProtoBufType.TYPE_INT64)).longValue(); + } + + /** + * Returns the long value for the given repeated tag at the given index. + */ + public long getLong(int tag, int index) { + return ((Long) getObject(tag, index, ProtoBufType.TYPE_INT64)).longValue(); + } + + /** + * Returns the float value for the given tag. + */ + public float getFloat(int tag) { + return Float.intBitsToFloat(getInt(tag)); + } + + /** + * Returns the float value for the given repeated tag at the given index. + */ + public float getFloat(int tag, int index) { + return Float.intBitsToFloat(getInt(tag, index)); + } + + /** + * Returns the double value for the given tag. + */ + public double getDouble(int tag) { + return Double.longBitsToDouble(getLong(tag)); + } + + /** + * Returns the double value for the given repeated tag at the given index. + */ + public double getDouble(int tag, int index) { + return Double.longBitsToDouble(getLong(tag, index)); + } + + /** + * Returns the group or nested message for the given tag. + */ + public ProtoBuf getProtoBuf(int tag) { + return (ProtoBuf) getObject(tag, ProtoBufType.TYPE_GROUP); + } + + /** + * Returns the group or nested message for the given repeated tag at the given + * index. + */ + public ProtoBuf getProtoBuf(int tag, int index) { + return (ProtoBuf) getObject(tag, index, ProtoBufType.TYPE_GROUP); + } + + /** + * Returns the string value for a given tag converted to a Java String + * assuming UTF-8 encoding. + */ + public String getString(int tag) { + return (String) getObject(tag, ProtoBufType.TYPE_TEXT); + } + + /** + * Returns the string value for a given repeated tag at the given index + * converted to a Java String assuming UTF-8 encoding. + */ + public String getString(int tag, int index) { + return (String) getObject(tag, index, ProtoBufType.TYPE_TEXT); + } + + /** + * Returns the type definition of this protocol buffer or group -- if set. + */ + public ProtoBufType getType() { + return msgType; + } + + /** + * Sets the type definition of this protocol buffer. Used internally in + * ProtoBufUtil for incremental reading. + * + * @param type the new type + */ + void setType(ProtoBufType type) { + if (values.size() != 0 || + (msgType != null && type != null && type != msgType)) { + throw new IllegalArgumentException(); + } + this.msgType = type; + } + + /** + * Convenience method for determining whether a tag has a value. Note: in + * contrast to getCount(tag) > 0, this method takes the default value + * into account. + */ + public boolean has(int tag){ + return getCount(tag) > 0 || getDefault(tag) != null; + } + + /** + * Reads the contents of this ProtocolMessage from the given byte array. + * Currently, this is a shortcut for parse(new ByteArrayInputStream(data)). + * However, this may change in future versions for efficiency reasons. + * + * @param data the byte array the ProtocolMessage is read from + * @throws IOException if an unexpected "End of file" is encountered in + * the byte array + */ + public ProtoBuf parse(byte[] data) throws IOException { + parse(new ByteArrayInputStream(data), data.length); + return this; + } + + /** + * Reads the contents of this ProtocolMessage from the given stream. + * + * @param is the input stream providing the contents + * @return this + * @throws IOException raised if an IO exception occurs in the underlying + * stream or the end of the stream is reached at an unexpected + * position + */ + + public ProtoBuf parse(InputStream is) throws IOException { + parse(is, Integer.MAX_VALUE); + return this; + } + + /** + * Reads the contents of this ProtocolMessage from the given stream, consuming + * at most the given number of bytes. + * + * @param is the input stream providing the contents + * @param available maximum number of bytes to read + * @return this + * @throws IOException raised if an IO exception occurs in the + * underlying stream or the end of the stream is reached at + * an unexpected position + */ + public int parse(InputStream is, int available) throws IOException { + + clear(); + while (available > 0) { + long tagAndType = readVarInt(is, true /* permits EOF */); + + if (tagAndType == -1){ + break; + } + available -= getVarIntSize(tagAndType); + int wireType = ((int) tagAndType) & 0x07; + if (wireType == WIRETYPE_END_GROUP) { + break; + } + int tag = (int) (tagAndType >>> 3); + while (wireTypes.length() <= tag){ + wireTypes.append((char) ProtoBufType.TYPE_UNDEFINED); + } + wireTypes.setCharAt(tag, (char) wireType); + + // first step: decode tag value + Object value; + switch (wireType) { + case WIRETYPE_VARINT: + long v = readVarInt(is, false); + available -= getVarIntSize(v); + if (isZigZagEncodedType(tag)) { + v = zigZagDecode(v); + } + value = (v >= 0 && v < SMALL_NUMBERS.length) ? + SMALL_NUMBERS[(int) v] : new Long(v); + break; + + // also used for fixed values + case WIRETYPE_FIXED32: + case WIRETYPE_FIXED64: + v = 0; + int shift = 0; + int count = (wireType == WIRETYPE_FIXED32) ? 4 : 8; + available -= count; + + while (count-- > 0) { + long l = is.read(); + v |= l << shift; + shift += 8; + } + + value = (v >= 0 && v < SMALL_NUMBERS.length) + ? SMALL_NUMBERS[(int) v] + : new Long(v); + break; + + case WIRETYPE_LENGTH_DELIMITED: + int total = (int) readVarInt(is, false); + available -= getVarIntSize(total); + available -= total; + + if (getType(tag) == ProtoBufType.TYPE_MESSAGE) { + ProtoBuf msg = new ProtoBuf((ProtoBufType) msgType.getData(tag)); + msg.parse(is, total); + value = msg; + } else { + byte[] data = new byte[total]; + int pos = 0; + while (pos < total) { + count = is.read(data, pos, total - pos); + if (count <= 0) { + throw new IOException(MSG_EOF); + } + pos += count; + } + value = data; + } + break; + + case WIRETYPE_START_GROUP: + ProtoBuf group = new ProtoBuf(msgType == null + ? null + : ((ProtoBufType) msgType.getData(tag))); + available = group.parse(is, available); + value = group; + break; + + default: + throw new RuntimeException(MSG_UNSUPPORTED + wireType); + } + insertObject(tag, getCount(tag), value); + } + + if (available < 0){ + throw new IOException(); + } + + return available; + } + + /** + * Removes the tag value at the given index. + */ + public void remove(int tag, int index){ + int count = getCount(tag); + if (index >= count){ + throw new ArrayIndexOutOfBoundsException(); + } + if (count == 1){ + values.setElementAt(null, tag); + } else { + Vector v = (Vector) values.elementAt(tag); + v.removeElementAt(index); + } + } + + /** + * Returns the number of repeated and optional (0..1) values for a given tag. + * Note: Default values are not counted (and in general not considered in + * access methods for repeated tags), but considered for has(tag). + */ + public int getCount(int tag) { + if (tag >= values.size()){ + return 0; + } + Object o = values.elementAt(tag); + if (o == null){ + return 0; + } + return (o instanceof Vector) ? ((Vector) o).size() : 1; + } + + /** + * Returns the tag type of the given tag (one of the ProtoBufType.TYPE_XXX + * constants). If no ProtoBufType is set, the wire type is returned. If no + * wire type is available, the wire type is determined by looking at the + * tag value (making sure the wire type is consistent for all values). If + * no value is set, TYPE_UNDEFINED is returned. + */ + public int getType(int tag){ + int tagType = ProtoBufType.TYPE_UNDEFINED; + if (msgType != null){ + tagType = msgType.getType(tag); + } + + if (tagType == ProtoBufType.TYPE_UNDEFINED && tag < wireTypes.length()) { + tagType = wireTypes.charAt(tag); + } + + if (tagType == ProtoBufType.TYPE_UNDEFINED && getCount(tag) > 0) { + Object o = getObject(tag, 0, ProtoBufType.TYPE_UNDEFINED); + + tagType = (o instanceof Long) || (o instanceof Boolean) + ? WIRETYPE_VARINT : WIRETYPE_LENGTH_DELIMITED; + } + + return tagType; + } + + /** + * Returns the number of bytes needed to store this protocol buffer + */ + public int getDataSize() { + int size = 0; + for (int tag = 0; tag <= maxTag(); tag++) { + for (int i = 0; i < getCount(tag); i++) { + size += getDataSize(tag, i); + } + } + return size; + } + + + /** + * Returns the size of the given value + */ + private int getDataSize(int tag, int i) { + int tagSize = getVarIntSize(tag << 3); + + switch(getWireType(tag)){ + case WIRETYPE_FIXED32: + return tagSize + 4; + case WIRETYPE_FIXED64: + return tagSize + 8; + case WIRETYPE_VARINT: + long value = getLong(tag, i); + if (isZigZagEncodedType(tag)) { + value = zigZagEncode(value); + } + return tagSize + getVarIntSize(value); + case WIRETYPE_START_GROUP: + // take end group into account.... + return tagSize + getProtoBuf(tag, i).getDataSize() + tagSize; + } + + // take the object as stored + Object o = getObject(tag, i, ProtoBufType.TYPE_UNDEFINED); + + int contentSize; + + if (o instanceof byte[]){ + contentSize = ((byte[]) o).length; + } else if (o instanceof String) { + contentSize = encodeUtf8((String) o, null, 0); + } else { + contentSize = ((ProtoBuf) o).getDataSize(); + } + + return tagSize + getVarIntSize(contentSize) + contentSize; + } + + /** + * Returns the number of bytes needed to encode the given value using + * WIRETYPE_VARINT + */ + private static int getVarIntSize(long i) { + if (i < 0) { + return 10; + } + int size = 1; + while (i >= 128) { + size++; + i >>= 7; + } + return size; + } + + /** + * Writes this and nested protocol buffers to the given output stream. + * + * @param os target output stream + * @throws IOException thrown if there is an IOException + */ + public void outputTo(OutputStream os) throws IOException { + for (int tag = 0; tag <= maxTag(); tag++) { + int size = getCount(tag); + int wireType = getWireType(tag); + + // ignore default values + for (int i = 0; i < size; i++) { + writeVarInt(os, (tag << 3) | wireType); + + switch (wireType) { + case WIRETYPE_FIXED32: + case WIRETYPE_FIXED64: + long v = ((Long) getObject(tag, i, ProtoBufType.TYPE_INT64)) + .longValue(); + int cnt = (wireType == WIRETYPE_FIXED32) ? 4 : 8; + for (int b = 0; b < cnt; b++) { + os.write((int) (v & 0x0ff)); + v >>= 8; + } + break; + + case WIRETYPE_VARINT: + v = ((Long) getObject(tag, i, ProtoBufType.TYPE_INT64)).longValue(); + if (isZigZagEncodedType(tag)) { + v = zigZagEncode(v); + } + writeVarInt(os, v); + break; + + case WIRETYPE_LENGTH_DELIMITED: + Object o = getObject(tag, i, + getType(tag) == ProtoBufType.TYPE_MESSAGE + ? ProtoBufType.TYPE_UNDEFINED + : ProtoBufType.TYPE_DATA); + + if (o instanceof byte[]){ + byte[] data = (byte[]) o; + writeVarInt(os, data.length); + os.write(data); + } else { + ProtoBuf msg = (ProtoBuf) o; + writeVarInt(os, msg.getDataSize()); + msg.outputTo(os); + } + break; + + case WIRETYPE_START_GROUP: + ((ProtoBuf) getObject(tag, i, ProtoBufType.TYPE_GROUP)) + .outputTo(os); + writeVarInt(os, (tag << 3) | WIRETYPE_END_GROUP); + break; + + default: + throw new IllegalArgumentException(); + } + } + } + } + + /** + * Returns true if the given tag has a signed type that should be ZigZag- + * encoded on the wire. + * + * ZigZag encoding turns a signed number into + * a non-negative number by mapping negative input numbers to positive odd + * numbers in the output space, and positive input numbers to positive even + * numbers in the output space. This is useful because the wire format + * for protocol buffers requires a large number of bytes to encode + * negative integers, while positive integers take up a smaller number + * of bytes proportional to their magnitude. + */ + private boolean isZigZagEncodedType(int tag) { + int declaredType = getType(tag); + return declaredType == ProtoBufType.TYPE_SINT32 || + declaredType == ProtoBufType.TYPE_SINT64; + } + + /** + * Converts a signed number into a non-negative ZigZag-encoded number. + */ + private static long zigZagEncode(long v) { + v = ((v << 1) ^ -(v >>> 63)); + return v; + } + + /** + * Converts a non-negative ZigZag-encoded number back into a signed number. + */ + private static long zigZagDecode(long v) { + v = (v >>> 1) ^ -(v & 1); + return v; + } + + /** + * Writes this and nested protocol buffers to a byte array. + * + * @throws IOException thrown if there is problem writing the byte array + */ + public byte[] toByteArray() throws IOException { + ByteArrayOutputStream baos = new ByteArrayOutputStream(); + outputTo(baos); + return baos.toByteArray(); + } + + /** + * Returns the largest tag id used in this message (to simplify testing). + */ + public int maxTag() { + return values.size() - 1; + } + + /** + * Sets the given tag to the given boolean value. + */ + public void setBool(int tag, boolean value) { + setObject(tag, value ? TRUE : FALSE); + } + + /** + * Sets the given tag to the given data bytes. + */ + public void setBytes(int tag, byte[] value) { + setObject(tag, value); + } + + /** + * Sets the given tag to the given integer value. + */ + public void setInt(int tag, int value) { + setLong(tag, value); + } + + /** + * Sets the given tag to the given long value. + */ + public void setLong(int tag, long value) { + setObject(tag, value >= 0 && value < SMALL_NUMBERS.length + ? SMALL_NUMBERS[(int) value] : new Long(value)); + } + + /** + * Sets the given tag to the given double value. + */ + public void setDouble(int tag, double value) { + setLong(tag, Double.doubleToLongBits(value)); + } + + /** + * Sets the given tag to the given float value. + */ + public void setFloat(int tag, float value) { + setInt(tag, Float.floatToIntBits(value)); + } + + /** + * Sets the given tag to the given Group or nested Message. + */ + public void setProtoBuf(int tag, ProtoBuf pb) { + setObject(tag, pb); + } + + /** + * Sets a new protobuf for the specified tag, setting the child protobuf's + * type correctly for the tag. + * @param tag the tag for which to create a new protobuf + * @return the newly created protobuf + */ + public ProtoBuf setNewProtoBuf(int tag) { + ProtoBuf child = newProtoBufForTag(tag); + setProtoBuf(tag, child); + return child; + } + + /** + * Sets the given tag to the given String value. + */ + public void setString(int tag, String value) { + setObject(tag, value); + } + + /** + * Inserts the given boolean value for the given tag at the given index. + */ + public void insertBool(int tag, int index, boolean value) { + insertObject(tag, index, value ? TRUE : FALSE); + } + + /** + * Inserts the given byte array value for the given tag at the given index. + */ + public void insertBytes(int tag, int index, byte[] value) { + insertObject(tag, index, value); + } + + /** + * Inserts the given int value for the given tag at the given index. + */ + public void insertInt(int tag, int index, int value) { + insertLong(tag, index, value); + } + + /** + * Inserts the given long value for the given tag at the given index. + */ + public void insertLong(int tag, int index, long value) { + insertObject(tag, index, value >= 0 && value < SMALL_NUMBERS.length + ? SMALL_NUMBERS[(int) value] : new Long(value)); + } + + /** + * Inserts the given float value for the given tag at the given index. + */ + public void insertFloat(int tag, int index, float value) { + insertInt(tag, index, Float.floatToIntBits(value)); + } + + /** + * Inserts the given double value for the given tag at the given index. + */ + public void insertDouble(int tag, int index, double value) { + insertLong(tag, index, Double.doubleToLongBits(value)); + } + + /** + * Inserts the given group or message for the given tag at the given index. + */ + public void insertProtoBuf(int tag, int index, ProtoBuf pb) { + insertObject(tag, index, pb); + } + + /** + * Inserts the given string value for the given tag at the given index. + */ + public void insertString(int tag, int index, String value) { + insertObject(tag, index, value); + } + + // ----------------- private stuff below this line ------------------------ + + private void assertTypeMatch(int tag, Object object){ + int tagType = getType(tag); + if (tagType == ProtoBufType.TYPE_UNDEFINED && msgType == null) { + return; + } + + if (object instanceof Boolean) { + if (tagType == ProtoBufType.TYPE_BOOL + || tagType == WIRETYPE_VARINT) { + return; + } + } else if (object instanceof Long) { + switch(tagType){ + case WIRETYPE_FIXED32: + case WIRETYPE_FIXED64: + case WIRETYPE_VARINT: + case ProtoBufType.TYPE_BOOL: + case ProtoBufType.TYPE_ENUM: + case ProtoBufType.TYPE_FIXED32: + case ProtoBufType.TYPE_FIXED64: + case ProtoBufType.TYPE_INT32: + case ProtoBufType.TYPE_INT64: + case ProtoBufType.TYPE_SFIXED32: + case ProtoBufType.TYPE_SFIXED64: + case ProtoBufType.TYPE_UINT32: + case ProtoBufType.TYPE_UINT64: + case ProtoBufType.TYPE_SINT32: + case ProtoBufType.TYPE_SINT64: + case ProtoBufType.TYPE_FLOAT: + case ProtoBufType.TYPE_DOUBLE: + return; + } + } else if (object instanceof byte[]){ + switch (tagType){ + case WIRETYPE_LENGTH_DELIMITED: + case ProtoBufType.TYPE_DATA: + case ProtoBufType.TYPE_MESSAGE: + case ProtoBufType.TYPE_TEXT: + case ProtoBufType.TYPE_BYTES: + return; + } + } else if (object instanceof ProtoBuf) { + switch (tagType){ + case WIRETYPE_LENGTH_DELIMITED: + case WIRETYPE_START_GROUP: + case ProtoBufType.TYPE_DATA: + case ProtoBufType.TYPE_GROUP: + case ProtoBufType.TYPE_MESSAGE: + if (msgType == null || msgType.getData(tag) == null || + ((ProtoBuf) object).msgType == null || + ((ProtoBuf) object).msgType == msgType.getData(tag)) { + return; + } + } + } else if (object instanceof String){ + switch (tagType){ + case WIRETYPE_LENGTH_DELIMITED: + case ProtoBufType.TYPE_DATA: + case ProtoBufType.TYPE_TEXT: + case ProtoBufType.TYPE_STRING: + return; + } + } + throw new IllegalArgumentException(MSG_MISMATCH + " type:" + msgType + + " tag:" + tag); + } + + /** + * Returns the default value for the given tag. + */ + private Object getDefault(int tag){ + + switch(getType(tag)){ + case ProtoBufType.TYPE_UNDEFINED: + case ProtoBufType.TYPE_GROUP: + case ProtoBufType.TYPE_MESSAGE: + return null; + default: + return msgType.getData(tag); + } + } + + /** + * Returns the indicated value converted to the given type. + * + * @throws ArrayIndexOutOfBoundsException for invalid tags and indices + * @throws IllegalArgumentException if count is greater than one. + */ + private Object getObject(int tag, int desiredType) { + + int count = getCount(tag); + + if (count == 0){ + return getDefault(tag); + } + + if (count > 1){ + throw new IllegalArgumentException(); + } + + return getObject(tag, 0, desiredType); + } + + /** + * Returns the indicated value converted to the given type. + * + * @throws ArrayIndexOutOfBoundsException for invalid tags and indices + */ + private Object getObject(int tag, int index, int desiredType) { + + if (index >= getCount(tag)) { + throw new ArrayIndexOutOfBoundsException(); + } + + Object o = values.elementAt(tag); + + Vector v = null; + if (o instanceof Vector) { + v = (Vector) o; + o = v.elementAt(index); + } + + Object o2 = convert(o, desiredType); + + if (o2 != o && o != null) { + if (v == null){ + setObject(tag, o2); + } else { + v.setElementAt(o2, index); + } + } + + return o2; + } + + /** + * Returns the wire type for the given tag. Calls getType() internally, + * so a wire type should be found for all non-empty tags, even if no + * message type is set and the tag was not previously read. + */ + private final int getWireType(int tag) { + + int tagType = getType(tag); + + switch (tagType) { + case WIRETYPE_VARINT: + case WIRETYPE_FIXED32: + case WIRETYPE_FIXED64: + case WIRETYPE_LENGTH_DELIMITED: + case WIRETYPE_START_GROUP: + case ProtoBufType.TYPE_UNDEFINED: + return tagType; + + case ProtoBufType.TYPE_BOOL: + case ProtoBufType.TYPE_INT32: + case ProtoBufType.TYPE_INT64: + case ProtoBufType.TYPE_UINT32: + case ProtoBufType.TYPE_UINT64: + case ProtoBufType.TYPE_SINT32: + case ProtoBufType.TYPE_SINT64: + case ProtoBufType.TYPE_ENUM: + return WIRETYPE_VARINT; + case ProtoBufType.TYPE_DATA: + case ProtoBufType.TYPE_MESSAGE: + case ProtoBufType.TYPE_TEXT: + case ProtoBufType.TYPE_BYTES: + case ProtoBufType.TYPE_STRING: + return WIRETYPE_LENGTH_DELIMITED; + case ProtoBufType.TYPE_DOUBLE: + case ProtoBufType.TYPE_FIXED64: + case ProtoBufType.TYPE_SFIXED64: + return WIRETYPE_FIXED64; + case ProtoBufType.TYPE_FLOAT: + case ProtoBufType.TYPE_FIXED32: + case ProtoBufType.TYPE_SFIXED32: + return WIRETYPE_FIXED32; + case ProtoBufType.TYPE_GROUP: + return WIRETYPE_START_GROUP; + default: + throw new RuntimeException(MSG_UNSUPPORTED + ':' + msgType + '/' + + tag + '/' + tagType); + } + } + + /** + * Inserts a value. + */ + private void insertObject(int tag, int index, Object o) { + assertTypeMatch(tag, o); + + int count = getCount(tag); + + if (count == 0) { + setObject(tag, o); + } else { + Object curr = values.elementAt(tag); + Vector v; + if (curr instanceof Vector) { + v = (Vector) curr; + } else { + v = new Vector(); + v.addElement(curr); + values.setElementAt(v, tag); + } + v.insertElementAt(o, index); + } + } + + /** + * Converts the object if a better suited class exists for the given .proto + * type. If the formats are not compatible, an exception is thrown. + */ + private Object convert(Object obj, int tagType) { + switch (tagType) { + case ProtoBufType.TYPE_UNDEFINED: + return obj; + + case ProtoBufType.TYPE_BOOL: + if (obj instanceof Boolean) { + return obj; + } + switch ((int) ((Long) obj).longValue()) { + case 0: + return FALSE; + case 1: + return TRUE; + default: + throw new IllegalArgumentException(MSG_MISMATCH); + } + case ProtoBufType.TYPE_FIXED32: + case ProtoBufType.TYPE_FIXED64: + case ProtoBufType.TYPE_INT32: + case ProtoBufType.TYPE_INT64: + case ProtoBufType.TYPE_SFIXED32: + case ProtoBufType.TYPE_SFIXED64: + case ProtoBufType.TYPE_SINT32: + case ProtoBufType.TYPE_SINT64: + if (obj instanceof Boolean) { + return SMALL_NUMBERS[((Boolean) obj).booleanValue() ? 1 : 0]; + } + return obj; + case ProtoBufType.TYPE_DATA: + case ProtoBufType.TYPE_BYTES: + if (obj instanceof String) { + return encodeUtf8((String) obj); + } else if (obj instanceof ProtoBuf) { + ByteArrayOutputStream buf = new ByteArrayOutputStream(); + try { + ((ProtoBuf) obj).outputTo(buf); + return buf.toByteArray(); + } catch (IOException e) { + throw new RuntimeException(e.toString()); + } + } + return obj; + case ProtoBufType.TYPE_TEXT: + case ProtoBufType.TYPE_STRING: + if (obj instanceof byte[]) { + byte[] data = (byte[]) obj; + return decodeUtf8(data, 0, data.length, true); + } + return obj; + case ProtoBufType.TYPE_GROUP: + case ProtoBufType.TYPE_MESSAGE: + if (obj instanceof byte[]) { + try { + return new ProtoBuf(null).parse((byte[]) obj); + } catch (IOException e) { + throw new RuntimeException(e.toString()); + } + } + return obj; + default: + // default includes FLOAT and DOUBLE + throw new RuntimeException(MSG_UNSUPPORTED); + } + } + + /** + * Reads a variable-size integer (up to 10 bytes for 64 bit) from the + * given input stream. + * + * @param is the stream to read from + * @param permitEOF if true, -1 is returned when EOF is reached instead of + * throwing an IOException + * @return the integer value read from the stream, or -1 if EOF is + * reached and permitEOF is true + * @throws IOException thrown for underlying IO issues and if EOF + * is reached and permitEOF is false + */ + static long readVarInt(InputStream is, boolean permitEOF) throws IOException { + + long result = 0; + int shift = 0; + + // max 10 byte wire format for 64 bit integer (7 bit data per byte) + + for (int i = 0; i < VARINT_MAX_BYTES; i++) { + int in = is.read(); + + if (in == -1) { + if (i == 0 && permitEOF) { + return -1; + } else { + throw new IOException("EOF"); + } + } + result |= ((long) (in & 0x07f)) << shift; + + if ((in & 0x80) == 0){ + break; // get out early + } + + shift += 7; + } + return result; + } + + /** + * Internal helper method to set a (single) value. Overwrites all existing + * values. + */ + private void setObject(int tag, Object o) { + if (values.size() <= tag) { + values.setSize(tag + 1); + } + if (o != null) { + assertTypeMatch(tag, o); + } + values.setElementAt(o, tag); + } + + /** + * Write a variable-size integer to the given output stream. + */ + static void writeVarInt(OutputStream os, long value) throws IOException { + for (int i = 0; i < VARINT_MAX_BYTES; i++) { + + int toWrite = (int) (value & 0x7f); + + value >>>= 7; + + if (value == 0) { + os.write(toWrite); + break; + } else { + os.write(toWrite | 0x080); + } + } + } + + /** + * Returns a byte array containing the given string, encoded as UTF-8. The + * returned byte array contains at least s.length() bytes and at most + * 4 * s.length() bytes. UTF-16 surrogates are transcoded to UTF-8. + * + * @param s input string to be encoded + * @return UTF-8 encoded input string + */ + static byte[] encodeUtf8(String s) { + int len = encodeUtf8(s, null, 0); + byte[] result = new byte[len]; + encodeUtf8(s, result, 0); + return result; + } + + /** + * Encodes the given string to UTF-8 in the given buffer or calculates + * the space needed if the buffer is null. + * + * @param s the string to be UTF-8 encoded + * @param buf byte array to write to + * @return new buffer position after writing (which equals the required size + * if pos is 0) + */ + static int encodeUtf8(String s, byte[] buf, int pos){ + int len = s.length(); + for (int i = 0; i < len; i++){ + int code = s.charAt(i); + + // surrogate 0xd800 .. 0xdfff? + if (code >= 0x0d800 && code <= 0x0dfff && i + 1 < len){ + int codeLo = s.charAt(i + 1); + + // 0xfc00 is the surrogate id mask (first six bit of 16 set) + // 0x03ff is the surrogate data mask (remaining 10 bit) + // check if actually a surrogate pair (d800 ^ dc00 == 0400) + if (((codeLo & 0xfc00) ^ (code & 0x0fc00)) == 0x0400){ + + i += 1; + + int codeHi; + if ((codeLo & 0xfc00) == 0x0d800){ + codeHi = codeLo; + codeLo = code; + } else { + codeHi = code; + } + code = (((codeHi & 0x3ff) << 10) | (codeLo & 0x3ff)) + 0x10000; + } + } + if (code <= 0x007f) { + if (buf != null){ + buf[pos] = (byte) code; + } + pos += 1; + } else if (code <= 0x07FF) { + // non-ASCII <= 0x7FF + if (buf != null){ + buf[pos] = (byte) (0xc0 | (code >> 6)); + buf[pos + 1] = (byte) (0x80 | (code & 0x3F)); + } + pos += 2; + } else if (code <= 0xFFFF){ + // 0x7FF < code <= 0xFFFF + if (buf != null){ + buf[pos] = (byte) ((0xe0 | (code >> 12))); + buf[pos + 1] = (byte) ((0x80 | ((code >> 6) & 0x3F))); + buf[pos + 2] = (byte) ((0x80 | (code & 0x3F))); + } + pos += 3; + } else { + if (buf != null){ + buf[pos] = (byte) ((0xf0 | (code >> 18))); + buf[pos + 1] = (byte) ((0x80 | ((code >> 12) & 0x3F))); + buf[pos + 2] = (byte) ((0x80 | ((code >> 6) & 0x3F))); + buf[pos + 3] = (byte) ((0x80 | (code & 0x3F))); + } + pos += 4; + } + } + + return pos; + } + + /** + * Decodes an array of UTF-8 bytes to a Java string (UTF-16). The tolerant + * flag determines what to do in case of illegal or unsupported sequences. + * + * @param data input byte array containing UTF-8 data + * @param start decoding start position in byte array + * @param end decoding end position in byte array + * @param tolerant if true, an IllegalArgumentException is thrown for illegal + * UTF-8 codes + * @return the string containing the UTF-8 decoding result + */ + static String decodeUtf8(byte[] data, int start, int end, + boolean tolerant){ + + StringBuffer sb = new StringBuffer(end - start); + int pos = start; + + while (pos < end){ + int b = data[pos++] & 0x0ff; + if (b <= 0x7f){ + sb.append((char) b); + } else if (b >= 0xf5){ // byte sequence too long + if (!tolerant){ + throw new IllegalArgumentException("Invalid UTF8"); + } + sb.append((char) b); + } else { + int border = 0xe0; + int count = 1; + int minCode = 128; + int mask = 0x01f; + while (b >= border){ + border = (border >> 1) | 0x80; + minCode = minCode << (count == 1 ? 4 : 5); + count++; + mask = mask >> 1; + } + int code = b & mask; + + for (int i = 0; i < count; i++){ + code = code << 6; + if (pos >= end){ + if (!tolerant){ + throw new IllegalArgumentException("Invalid UTF8"); + } + // otherwise, assume zeroes + } else { + if (!tolerant && (data[pos] & 0xc0) != 0x80){ + throw new IllegalArgumentException("Invalid UTF8"); + } + code |= (data[pos++] & 0x3f); // six bit + } + } + + // illegal code or surrogate code + if (!tolerant && code < minCode || (code >= 0xd800 && code <= 0xdfff)){ + throw new IllegalArgumentException("Invalid UTF8"); + } + + if (code <= 0x0ffff){ + sb.append((char) code); + } else { // surrogate UTF16 + code -= 0x10000; + sb.append((char) (0xd800 | (code >> 10))); // high 10 bit + sb.append((char) (0xdc00 | (code & 0x3ff))); // low 10 bit + } + } + } + return sb.toString(); + } + +} diff --git a/src/com/google/common/io/protocol/ProtoBufType.java b/src/com/google/common/io/protocol/ProtoBufType.java new file mode 100644 index 0000000..4b6408e --- /dev/null +++ b/src/com/google/common/io/protocol/ProtoBufType.java @@ -0,0 +1,170 @@ +// Copyright 2007 Google Inc. +// All Rights Reserved. + +package com.google.common.io.protocol; + +import java.util.*; + +/** + * This class can be used to create a memory model of a .proto file. Currently, + * it is assumed that tags ids are not large. This could be improved by storing + * a start offset, relaxing the assumption to a dense number space. + */ +public class ProtoBufType { + // Note: Values 0..15 are reserved for wire types! + public static final int TYPE_UNDEFINED = 16; + public static final int TYPE_DOUBLE = 17; + public static final int TYPE_FLOAT = 18; + public static final int TYPE_INT64 = 19; + public static final int TYPE_UINT64 = 20; + public static final int TYPE_INT32 = 21; + public static final int TYPE_FIXED64 = 22; + public static final int TYPE_FIXED32 = 23; + public static final int TYPE_BOOL = 24; + public static final int TYPE_DATA = 25; + public static final int TYPE_GROUP = 26; + public static final int TYPE_MESSAGE = 27; + public static final int TYPE_TEXT = 28; + public static final int TYPE_UINT32 = 29; + public static final int TYPE_ENUM = 30; + public static final int TYPE_SFIXED32 = 31; + public static final int TYPE_SFIXED64 = 32; + + // new protobuf 2 types + public static final int TYPE_SINT32 = 33; + public static final int TYPE_SINT64 = 34; + public static final int TYPE_BYTES = 35; + public static final int TYPE_STRING = 36; + + public static final int MASK_TYPE = 0x0ff; + public static final int MASK_MODIFIER = 0x0ff00; + + public static final int REQUIRED = 0x100; + public static final int OPTIONAL = 0x200; + public static final int REPEATED = 0x400; + + private final StringBuffer types = new StringBuffer(); + private final Vector data = new Vector(); + private final String typeName; + + /** + * Empty constructor. + */ + public ProtoBufType() { + typeName = null; + } + + /** + * Constructor including a type name for debugging purposes. + */ + public ProtoBufType(String typeName) { + this.typeName = typeName; + } + + /** + * Adds a tag description. The data parameter contains the group definition + * for group elements and the default value for regular elements. + * + * @param optionsAndType any legal combination (bitwise or) of REQUIRED + * or OPTIONAL and REPEATED and one of the TYPE_ + * constants + * @param tag the tag id + * @param data the type for group elements (or the default value for + * regular elements in future versions) + * @return this is returned to permit cascading + */ + public ProtoBufType addElement(int optionsAndType, int tag, Object data) { + while (types.length() <= tag) { + types.append((char) TYPE_UNDEFINED); + this.data.addElement(null); + } + types.setCharAt(tag, (char) optionsAndType); + this.data.setElementAt(data, tag); + + return this; + } + + /** + * Returns the type for the given tag id (without modifiers such as OPTIONAL, + * REPEATED). For undefined tags, TYPE_UNDEFINED is returned. + */ + public int getType(int tag) { + return (tag < 0 || tag >= types.length()) + ? TYPE_UNDEFINED + : (types.charAt(tag) & MASK_TYPE); + } + + /** + * Returns a bit combination of the modifiers for the given tag id + * (OPTIONAL, REPEATED, REQUIRED). For undefined tags, OPTIONAL|REPEATED + * is returned. + */ + public int getModifiers(int tag) { + return (tag < 0 || tag >= types.length()) + ? (OPTIONAL | REPEATED) + : (types.charAt(tag) & MASK_MODIFIER); + } + + /** + * Returns the data associated to a given tag (either the default value for + * regular elements or a ProtoBufType for groups and messages). For undefined + * tags, null is returned. + */ + public Object getData(int tag) { + return (tag < 0 || tag >= data.size()) ? null : data.elementAt(tag); + } + + /** + * Returns the type name set in the constructor for debugging purposes. + */ + public String toString() { + return typeName; + } + + /** + * {@inheritDoc} + *

Two ProtoBufTypes are equals if the fields types are the same. + */ + public boolean equals(Object object) { + if (null == object) { + // trivial check + return false; + } else if (this == object) { + // trivial check + return true; + } else if (this.getClass() != object.getClass()) { + // different class + return false; + } + ProtoBufType other = (ProtoBufType) object; + + return stringEquals(types, other.types); + } + + /** + * {@inheritDoc} + */ + public int hashCode() { + if (types != null) { + return types.hashCode(); + } else { + return super.hashCode(); + } + } + + public static boolean stringEquals(CharSequence a, CharSequence b) { + if (a == b) return true; + int length; + if (a != null && b != null && (length = a.length()) == b.length()) { + if (a instanceof String && b instanceof String) { + return a.equals(b); + } else { + for (int i = 0; i < length; i++) { + if (a.charAt(i) != b.charAt(i)) return false; + } + return true; + } + } + return false; + } +} diff --git a/src/com/google/common/io/protocol/ProtoBufUtil.java b/src/com/google/common/io/protocol/ProtoBufUtil.java new file mode 100644 index 0000000..72e1bca --- /dev/null +++ b/src/com/google/common/io/protocol/ProtoBufUtil.java @@ -0,0 +1,237 @@ +// Copyright 2008 Google Inc. All Rights Reserved. + +package com.google.common.io.protocol; + +import java.io.*; + +/** + * Utility functions for dealing with ProtoBuf objects consolidated from + * previous spot implementations across the codebase. + * + */ +public final class ProtoBufUtil { + private ProtoBufUtil() { + } + + /** Convenience method to return a string value from of a proto or "". */ + public static String getProtoValueOrEmpty(ProtoBuf proto, int tag) { + try { + return (proto != null && proto.has(tag)) ? proto.getString(tag) : ""; + } catch (ClassCastException e) { + return ""; + } + } + + /** Convenience method to return a string value from of a sub-proto or "". */ + public static String getSubProtoValueOrEmpty( + ProtoBuf proto, int sub, int tag) { + try { + return getProtoValueOrEmpty(getSubProtoOrNull(proto, sub), tag); + } catch (ClassCastException e) { + return ""; + } + } + + /** Convenience method to get a subproto if the proto has it. */ + public static ProtoBuf getSubProtoOrNull(ProtoBuf proto, int sub) { + return (proto != null && proto.has(sub)) ? proto.getProtoBuf(sub) : null; + } + + /** + * Get an int with "tag" from the proto buffer. If the given field can't be + * retrieved, return the provided default value. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * retrieve. + * @param defaultValue The value to return if the field can't be retrieved. + * @return The result which should be an integer. + */ + public static int getProtoValueOrDefault(ProtoBuf proto, int tag, + int defaultValue) { + try { + return (proto != null && proto.has(tag)) + ? proto.getInt(tag) : defaultValue; + } catch (IllegalArgumentException e) { + return defaultValue; + } catch (ClassCastException e) { + return defaultValue; + } + } + + /** + * Get an Int with "tag" from the proto buffer. + * If the given field can't be retrieved, return 0. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * retrieve. + * @return The result which should be an integer. + */ + public static int getProtoValueOrZero(ProtoBuf proto, int tag) { + return getProtoValueOrDefault(proto, tag, 0); + } + + /** + * Get an Long with "tag" from the proto buffer. + * If the given field can't be retrieved, return 0. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * retrieve. + * @return The result which should be an integer. + */ + public static long getProtoLongValueOrZero(ProtoBuf proto, int tag) { + try { + return (proto != null && proto.has(tag)) ? proto.getLong(tag) : 0L; + } catch (IllegalArgumentException e) { + return 0L; + } catch (ClassCastException e) { + return 0L; + } + } + + /** + * Get an Int with "tag" from the proto buffer. + * If the given field can't be retrieved, return -1. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * retrieve. + * @return The result which should be a long. + */ + public static long getProtoValueOrNegativeOne(ProtoBuf proto, int tag) { + try { + return (proto != null && proto.has(tag)) ? proto.getLong(tag) : -1; + } catch (IllegalArgumentException e) { + return -1; + } catch (ClassCastException e) { + return -1; + } + } + + /** + * Reads a single protocol buffer from the given input stream. This method is + * provided where the client needs incremental access to the contents of a + * protocol buffer which contains a sequence of protocol buffers. + *

+ * Please use {@link #getInputStreamForProtoBufResponse} to obtain an input + * stream suitable for this method. + * + * @param umbrellaType the type of the "outer" protocol buffer containing + * the message to read + * @param is the stream to read the protocol buffer from + * @param result the result protocol buffer (must be empty, will be filled + * with the data read and the type will be set) + * @return the tag id of the message, -1 at the end of the stream + */ + public static int readNextProtoBuf(ProtoBufType umbrellaType, + InputStream is, ProtoBuf result) throws IOException { + long tagAndType = ProtoBuf.readVarInt(is, true /* permits EOF */); + if (tagAndType == -1) { + return -1; + } + + if ((tagAndType & 7) != ProtoBuf.WIRETYPE_LENGTH_DELIMITED) { + throw new IOException("Message expected"); + } + int tag = (int) (tagAndType >>> 3); + + result.setType((ProtoBufType) umbrellaType.getData(tag)); + int length = (int) ProtoBuf.readVarInt(is, false); + result.parse(is, length); + return tag; + } + + /** + * A wrapper for getProtoValueOrNegativeOne that drills into + * a sub message returning the long value if it exists, returning -1 if it + * does not. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * retrieve. + * @param sub The sub tag value that identifies which protocol buffer + * sub-field to retrieve.n + * @return The result which should be a long. + */ + public static long getSubProtoValueOrNegativeOne( + ProtoBuf proto, int sub, int tag) { + try { + return getProtoValueOrNegativeOne(getSubProtoOrNull(proto, sub), tag); + } catch (IllegalArgumentException e) { + return -1; + } catch (ClassCastException e) { + return -1; + } + } + + /** + * A wrapper for {@link #getProtoValueOrDefault(ProtoBuf, int, int)} that + * drills into a sub message returning the int value if it exists, returning + * the given default if it does not. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * retrieve. + * @param sub The sub tag value that identifies which protocol buffer + * sub-field to retrieve. + * @param defaultValue The value to return if the field is not present. + * @return The result which should be a long. + */ + public static int getSubProtoValueOrDefault(ProtoBuf proto, int sub, int tag, + int defaultValue) { + try { + return getProtoValueOrDefault(getSubProtoOrNull(proto, sub), tag, + defaultValue); + } catch (IllegalArgumentException e) { + return defaultValue; + } catch (ClassCastException e) { + return defaultValue; + } + } + + /** + * Creates a sub ProtoBuf of the given Protobuf and sets it. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * create. + * @return the sub ProtoBuf generated. + */ + public static ProtoBuf createProtoBuf(ProtoBuf proto, int tag) { + ProtoBuf child = proto.createGroup(tag); + proto.setProtoBuf(tag, child); + return child; + } + + /** + * Creates a sub ProtoBuf of the given Protobuf and adds it. + * + * @param proto The proto buffer. + * @param tag The tag value that identifies which protocol buffer field to + * add. + * @return the sub ProtoBuf generated. + */ + public static ProtoBuf addProtoBuf(ProtoBuf proto, int tag) { + ProtoBuf child = proto.createGroup(tag); + proto.addProtoBuf(tag, child); + return child; + } + + /** + * Writes the ProtoBuf to the given DataOutput. This is useful for unit + * tests. + * + * @param output The data output to write to. + * @param protoBuf The proto buffer. + */ + public static void writeProtoBufToOutput(DataOutput output, ProtoBuf protoBuf) + throws IOException { + ByteArrayOutputStream baos = new ByteArrayOutputStream(); + protoBuf.outputTo(baos); + byte[] bytes = baos.toByteArray(); + output.writeInt(bytes.length); + output.write(bytes); + } +} diff --git a/src/com/google/common/io/protocol/package.html b/src/com/google/common/io/protocol/package.html new file mode 100644 index 0000000..1c9bf9d --- /dev/null +++ b/src/com/google/common/io/protocol/package.html @@ -0,0 +1,5 @@ + + + {@hide} + + -- cgit v1.1