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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements. See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership. The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License. You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied. See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

package org.apache.thrift.protocol;

import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Stack;
import java.util.UUID;
import org.apache.thrift.TByteArrayOutputStream;
import org.apache.thrift.TException;
import org.apache.thrift.transport.TTransport;
import org.apache.thrift.transport.TTransportException;

/**
 * JSON protocol implementation for thrift.
 *
 * 

This is a full-featured protocol supporting write and read. * *

Please see the C++ class header for a detailed description of the protocol's wire format. */ public class TJSONProtocol extends TProtocol { /** Factory for JSON protocol objects */ public static class Factory implements TProtocolFactory { protected boolean fieldNamesAsString_ = false; public Factory() {} public Factory(boolean fieldNamesAsString) { fieldNamesAsString_ = fieldNamesAsString; } public TProtocol getProtocol(TTransport trans) { return new TJSONProtocol(trans, fieldNamesAsString_); } } private static final byte[] COMMA = new byte[] {','}; private static final byte[] COLON = new byte[] {':'}; private static final byte[] LBRACE = new byte[] {'{'}; private static final byte[] RBRACE = new byte[] {'}'}; private static final byte[] LBRACKET = new byte[] {'['}; private static final byte[] RBRACKET = new byte[] {']'}; private static final byte[] QUOTE = new byte[] {'"'}; private static final byte[] BACKSLASH = new byte[] {'\\'}; private static final byte[] ESCSEQ = new byte[] {'\\', 'u', '0', '0'}; private static final long VERSION = 1; private static final byte[] JSON_CHAR_TABLE = { /* 0 1 2 3 4 5 6 7 8 9 A B C D E F */ 0, 0, 0, 0, 0, 0, 0, 0, 'b', 't', 'n', 0, 'f', 'r', 0, 0, // 0 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 1 1, 1, '"', 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 2 }; private static final String ESCAPE_CHARS = "\"\\/bfnrt"; private static final byte[] ESCAPE_CHAR_VALS = { '"', '\\', '/', '\b', '\f', '\n', '\r', '\t', }; private static final int DEF_STRING_SIZE = 16; private static final byte[] NAME_BOOL = new byte[] {'t', 'f'}; private static final byte[] NAME_BYTE = new byte[] {'i', '8'}; private static final byte[] NAME_I16 = new byte[] {'i', '1', '6'}; private static final byte[] NAME_I32 = new byte[] {'i', '3', '2'}; private static final byte[] NAME_I64 = new byte[] {'i', '6', '4'}; private static final byte[] NAME_UUID = new byte[] {'u', 'i', 'd'}; private static final byte[] NAME_DOUBLE = new byte[] {'d', 'b', 'l'}; private static final byte[] NAME_STRUCT = new byte[] {'r', 'e', 'c'}; private static final byte[] NAME_STRING = new byte[] {'s', 't', 'r'}; private static final byte[] NAME_MAP = new byte[] {'m', 'a', 'p'}; private static final byte[] NAME_LIST = new byte[] {'l', 's', 't'}; private static final byte[] NAME_SET = new byte[] {'s', 'e', 't'}; private static final TStruct ANONYMOUS_STRUCT = new TStruct(); private static byte[] getTypeNameForTypeID(byte typeID) throws TException { switch (typeID) { case TType.BOOL: return NAME_BOOL; case TType.BYTE: return NAME_BYTE; case TType.I16: return NAME_I16; case TType.I32: return NAME_I32; case TType.I64: return NAME_I64; case TType.UUID: return NAME_UUID; case TType.DOUBLE: return NAME_DOUBLE; case TType.STRING: return NAME_STRING; case TType.STRUCT: return NAME_STRUCT; case TType.MAP: return NAME_MAP; case TType.SET: return NAME_SET; case TType.LIST: return NAME_LIST; default: throw new TProtocolException(TProtocolException.NOT_IMPLEMENTED, "Unrecognized type"); } } private static byte getTypeIDForTypeName(byte[] name) throws TException { byte result = TType.STOP; if (name.length > 1) { switch (name[0]) { case 'd': result = TType.DOUBLE; break; case 'i': switch (name[1]) { case '8': result = TType.BYTE; break; case '1': result = TType.I16; break; case '3': result = TType.I32; break; case '6': result = TType.I64; break; } break; case 'l': result = TType.LIST; break; case 'm': result = TType.MAP; break; case 'r': result = TType.STRUCT; break; case 's': if (name[1] == 't') { result = TType.STRING; } else if (name[1] == 'e') { result = TType.SET; } break; case 'u': result = TType.UUID; break; case 't': result = TType.BOOL; break; } } if (result == TType.STOP) { throw new TProtocolException(TProtocolException.NOT_IMPLEMENTED, "Unrecognized type"); } return result; } // Base class for tracking JSON contexts that may require inserting/reading // additional JSON syntax characters // This base context does nothing. protected static class JSONBaseContext { protected void write() throws TException {} protected void read() throws TException {} protected boolean escapeNum() { return false; } } // Context for JSON lists. Will insert/read commas before each item except // for the first one protected class JSONListContext extends JSONBaseContext { private boolean first_ = true; @Override protected void write() throws TException { if (first_) { first_ = false; } else { trans_.write(COMMA); } } @Override protected void read() throws TException { if (first_) { first_ = false; } else { readJSONSyntaxChar(COMMA); } } } // Context for JSON records. Will insert/read colons before the value portion // of each record pair, and commas before each key except the first. In // addition, will indicate that numbers in the key position need to be // escaped in quotes (since JSON keys must be strings). protected class JSONPairContext extends JSONBaseContext { private boolean first_ = true; private boolean colon_ = true; @Override protected void write() throws TException { if (first_) { first_ = false; colon_ = true; } else { trans_.write(colon_ ? COLON : COMMA); colon_ = !colon_; } } @Override protected void read() throws TException { if (first_) { first_ = false; colon_ = true; } else { readJSONSyntaxChar(colon_ ? COLON : COMMA); colon_ = !colon_; } } @Override protected boolean escapeNum() { return colon_; } } // Holds up to one byte from the transport protected class LookaheadReader { private boolean hasData_; private final byte[] data_ = new byte[1]; // Return and consume the next byte to be read, either taking it from the // data buffer if present or getting it from the transport otherwise. protected byte read() throws TException { if (hasData_) { hasData_ = false; } else { trans_.readAll(data_, 0, 1); } return data_[0]; } // Return the next byte to be read without consuming, filling the data // buffer if it has not been filled already. protected byte peek() throws TException { if (!hasData_) { trans_.readAll(data_, 0, 1); } hasData_ = true; return data_[0]; } } // Stack of nested contexts that we may be in private final Stack contextStack_ = new Stack<>(); // Current context that we are in private JSONBaseContext context_ = new JSONBaseContext(); // Reader that manages a 1-byte buffer private LookaheadReader reader_ = new LookaheadReader(); // Write out the TField names as a string instead of the default integer value private boolean fieldNamesAsString_ = false; // Push a new JSON context onto the stack. private void pushContext(JSONBaseContext c) { contextStack_.push(context_); context_ = c; } // Pop the last JSON context off the stack private void popContext() { context_ = contextStack_.pop(); } // Reset the context stack to its initial state private void resetContext() { while (!contextStack_.isEmpty()) { popContext(); } } /** Constructor */ public TJSONProtocol(TTransport trans) { super(trans); } public TJSONProtocol(TTransport trans, boolean fieldNamesAsString) { super(trans); fieldNamesAsString_ = fieldNamesAsString; } @Override public void reset() { contextStack_.clear(); context_ = new JSONBaseContext(); reader_ = new LookaheadReader(); } // Temporary buffer used by several methods private final byte[] tmpbuf_ = new byte[4]; // Read a byte that must match b[0]; otherwise an exception is thrown. // Marked protected to avoid synthetic accessor in JSONListContext.read // and JSONPairContext.read protected void readJSONSyntaxChar(byte[] b) throws TException { byte ch = reader_.read(); if (ch != b[0]) { throw new TProtocolException( TProtocolException.INVALID_DATA, "Unexpected character:" + (char) ch); } } // Convert a byte containing a hex char ('0'-'9' or 'a'-'f') into its // corresponding hex value private static byte hexVal(byte ch) throws TException { if ((ch >= '0') && (ch <= '9')) { return (byte) ((char) ch - '0'); } else if ((ch >= 'a') && (ch <= 'f')) { return (byte) ((char) ch - 'a' + 10); } else { throw new TProtocolException(TProtocolException.INVALID_DATA, "Expected hex character"); } } // Convert a byte containing a hex value to its corresponding hex character private static byte hexChar(byte val) { val &= 0x0F; if (val < 10) { return (byte) ((char) val + '0'); } else { return (byte) ((char) (val - 10) + 'a'); } } // Write the bytes in array buf as a JSON characters, escaping as needed private void writeJSONString(byte[] b) throws TException { context_.write(); trans_.write(QUOTE); int len = b.length; for (int i = 0; i < len; i++) { if ((b[i] & 0x00FF) >= 0x30) { if (b[i] == BACKSLASH[0]) { trans_.write(BACKSLASH); trans_.write(BACKSLASH); } else { trans_.write(b, i, 1); } } else { tmpbuf_[0] = JSON_CHAR_TABLE[b[i]]; if (tmpbuf_[0] == 1) { trans_.write(b, i, 1); } else if (tmpbuf_[0] > 1) { trans_.write(BACKSLASH); trans_.write(tmpbuf_, 0, 1); } else { trans_.write(ESCSEQ); tmpbuf_[0] = hexChar((byte) (b[i] >> 4)); tmpbuf_[1] = hexChar(b[i]); trans_.write(tmpbuf_, 0, 2); } } } trans_.write(QUOTE); } // Write out number as a JSON value. If the context dictates so, it will be // wrapped in quotes to output as a JSON string. private void writeJSONInteger(long num) throws TException { context_.write(); String str = Long.toString(num); boolean escapeNum = context_.escapeNum(); if (escapeNum) { trans_.write(QUOTE); } byte[] buf = str.getBytes(StandardCharsets.UTF_8); trans_.write(buf); if (escapeNum) { trans_.write(QUOTE); } } // Write out a double as a JSON value. If it is NaN or infinity or if the // context dictates escaping, write out as JSON string. private void writeJSONDouble(double num) throws TException { context_.write(); String str = Double.toString(num); boolean special = false; switch (str.charAt(0)) { case 'N': // NaN case 'I': // Infinity special = true; break; case '-': if (str.charAt(1) == 'I') { // -Infinity special = true; } break; default: break; } boolean escapeNum = special || context_.escapeNum(); if (escapeNum) { trans_.write(QUOTE); } byte[] b = str.getBytes(StandardCharsets.UTF_8); trans_.write(b, 0, b.length); if (escapeNum) { trans_.write(QUOTE); } } // Write out contents of byte array b as a JSON string with base-64 encoded // data private void writeJSONBase64(byte[] b, int offset, int length) throws TException { context_.write(); trans_.write(QUOTE); int len = length; int off = offset; while (len >= 3) { // Encode 3 bytes at a time TBase64Utils.encode(b, off, 3, tmpbuf_, 0); trans_.write(tmpbuf_, 0, 4); off += 3; len -= 3; } if (len > 0) { // Encode remainder TBase64Utils.encode(b, off, len, tmpbuf_, 0); trans_.write(tmpbuf_, 0, len + 1); } trans_.write(QUOTE); } private void writeJSONObjectStart() throws TException { context_.write(); trans_.write(LBRACE); pushContext(new JSONPairContext()); } private void writeJSONObjectEnd() throws TException { popContext(); trans_.write(RBRACE); } private void writeJSONArrayStart() throws TException { context_.write(); trans_.write(LBRACKET); pushContext(new JSONListContext()); } private void writeJSONArrayEnd() throws TException { popContext(); trans_.write(RBRACKET); } @Override public void writeMessageBegin(TMessage message) throws TException { resetContext(); // THRIFT-3743 writeJSONArrayStart(); writeJSONInteger(VERSION); byte[] b = message.name.getBytes(StandardCharsets.UTF_8); writeJSONString(b); writeJSONInteger(message.type); writeJSONInteger(message.seqid); } @Override public void writeMessageEnd() throws TException { writeJSONArrayEnd(); } @Override public void writeStructBegin(TStruct struct) throws TException { writeJSONObjectStart(); } @Override public void writeStructEnd() throws TException { writeJSONObjectEnd(); } @Override public void writeFieldBegin(TField field) throws TException { if (fieldNamesAsString_) { writeString(field.name); } else { writeJSONInteger(field.id); } writeJSONObjectStart(); writeJSONString(getTypeNameForTypeID(field.type)); } @Override public void writeFieldEnd() throws TException { writeJSONObjectEnd(); } @Override public void writeFieldStop() {} @Override public void writeMapBegin(TMap map) throws TException { writeJSONArrayStart(); writeJSONString(getTypeNameForTypeID(map.keyType)); writeJSONString(getTypeNameForTypeID(map.valueType)); writeJSONInteger(map.size); writeJSONObjectStart(); } @Override public void writeMapEnd() throws TException { writeJSONObjectEnd(); writeJSONArrayEnd(); } @Override public void writeListBegin(TList list) throws TException { writeJSONArrayStart(); writeJSONString(getTypeNameForTypeID(list.elemType)); writeJSONInteger(list.size); } @Override public void writeListEnd() throws TException { writeJSONArrayEnd(); } @Override public void writeSetBegin(TSet set) throws TException { writeJSONArrayStart(); writeJSONString(getTypeNameForTypeID(set.elemType)); writeJSONInteger(set.size); } @Override public void writeSetEnd() throws TException { writeJSONArrayEnd(); } @Override public void writeBool(boolean b) throws TException { writeJSONInteger(b ? (long) 1 : (long) 0); } @Override public void writeByte(byte b) throws TException { writeJSONInteger(b); } @Override public void writeI16(short i16) throws TException { writeJSONInteger(i16); } @Override public void writeI32(int i32) throws TException { writeJSONInteger(i32); } @Override public void writeI64(long i64) throws TException { writeJSONInteger(i64); } @Override public void writeUuid(UUID uuid) throws TException { writeJSONString(uuid.toString().getBytes(StandardCharsets.UTF_8)); } @Override public void writeDouble(double dub) throws TException { writeJSONDouble(dub); } @Override public void writeString(String str) throws TException { byte[] b = str.getBytes(StandardCharsets.UTF_8); writeJSONString(b); } @Override public void writeBinary(ByteBuffer bin) throws TException { writeJSONBase64( bin.array(), bin.position() + bin.arrayOffset(), bin.limit() - bin.position() - bin.arrayOffset()); } /** Reading methods. */ // Read in a JSON string, unescaping as appropriate.. Skip reading from the // context if skipContext is true. private TByteArrayOutputStream readJSONString(boolean skipContext) throws TException { TByteArrayOutputStream arr = new TByteArrayOutputStream(DEF_STRING_SIZE); ArrayList codeunits = new ArrayList(); if (!skipContext) { context_.read(); } readJSONSyntaxChar(QUOTE); while (true) { byte ch = reader_.read(); if (ch == QUOTE[0]) { break; } if (ch == ESCSEQ[0]) { ch = reader_.read(); if (ch == ESCSEQ[1]) { trans_.readAll(tmpbuf_, 0, 4); short cu = (short) (((short) hexVal(tmpbuf_[0]) << 12) + ((short) hexVal(tmpbuf_[1]) << 8) + ((short) hexVal(tmpbuf_[2]) << 4) + (short) hexVal(tmpbuf_[3])); try { if (Character.isHighSurrogate((char) cu)) { if (codeunits.size() > 0) { throw new TProtocolException( TProtocolException.INVALID_DATA, "Expected low surrogate char"); } codeunits.add((char) cu); } else if (Character.isLowSurrogate((char) cu)) { if (codeunits.size() == 0) { throw new TProtocolException( TProtocolException.INVALID_DATA, "Expected high surrogate char"); } codeunits.add((char) cu); arr.write( (new String(new int[] {codeunits.get(0), codeunits.get(1)}, 0, 2)) .getBytes(StandardCharsets.UTF_8)); codeunits.clear(); } else { arr.write((new String(new int[] {cu}, 0, 1)).getBytes(StandardCharsets.UTF_8)); } continue; } catch (IOException ex) { throw new TProtocolException( TProtocolException.INVALID_DATA, "Invalid unicode sequence"); } } else { int off = ESCAPE_CHARS.indexOf(ch); if (off == -1) { throw new TProtocolException(TProtocolException.INVALID_DATA, "Expected control char"); } ch = ESCAPE_CHAR_VALS[off]; } } arr.write(ch); } return arr; } // Return true if the given byte could be a valid part of a JSON number. private boolean isJSONNumeric(byte b) { switch (b) { case '+': case '-': case '.': case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case 'E': case 'e': return true; } return false; } // Read in a sequence of characters that are all valid in JSON numbers. Does // not do a complete regex check to validate that this is actually a number. private String readJSONNumericChars() throws TException { StringBuilder strbld = new StringBuilder(); while (true) { byte ch = reader_.peek(); if (!isJSONNumeric(ch)) { break; } strbld.append((char) reader_.read()); } return strbld.toString(); } // Read in a JSON number. If the context dictates, read in enclosing quotes. private long readJSONInteger() throws TException { context_.read(); if (context_.escapeNum()) { readJSONSyntaxChar(QUOTE); } String str = readJSONNumericChars(); if (context_.escapeNum()) { readJSONSyntaxChar(QUOTE); } try { return Long.parseLong(str); } catch (NumberFormatException ex) { throw new TProtocolException( TProtocolException.INVALID_DATA, "Bad data encounted in numeric data"); } } // Read in a JSON double value. Throw if the value is not wrapped in quotes // when expected or if wrapped in quotes when not expected. private double readJSONDouble() throws TException { context_.read(); if (reader_.peek() == QUOTE[0]) { TByteArrayOutputStream arr = readJSONString(true); double dub = Double.parseDouble(arr.toString(StandardCharsets.UTF_8)); if (!context_.escapeNum() && !Double.isNaN(dub) && !Double.isInfinite(dub)) { // Throw exception -- we should not be in a string in this case throw new TProtocolException( TProtocolException.INVALID_DATA, "Numeric data unexpectedly quoted"); } return dub; } else { if (context_.escapeNum()) { // This will throw - we should have had a quote if escapeNum == true readJSONSyntaxChar(QUOTE); } try { return Double.parseDouble(readJSONNumericChars()); } catch (NumberFormatException ex) { throw new TProtocolException( TProtocolException.INVALID_DATA, "Bad data encounted in numeric data"); } } } // Read in a JSON string containing base-64 encoded data and decode it. private byte[] readJSONBase64() throws TException { TByteArrayOutputStream arr = readJSONString(false); byte[] b = arr.get(); int len = arr.len(); int off = 0; int size = 0; // Ignore padding int bound = len >= 2 ? len - 2 : 0; for (int i = len - 1; i >= bound && b[i] == '='; --i) { --len; } while (len >= 4) { // Decode 4 bytes at a time TBase64Utils.decode(b, off, 4, b, size); // NB: decoded in place off += 4; len -= 4; size += 3; } // Don't decode if we hit the end or got a single leftover byte (invalid // base64 but legal for skip of regular string type) if (len > 1) { // Decode remainder TBase64Utils.decode(b, off, len, b, size); // NB: decoded in place size += len - 1; } // Sadly we must copy the byte[] (any way around this?) byte[] result = new byte[size]; System.arraycopy(b, 0, result, 0, size); return result; } private void readJSONObjectStart() throws TException { context_.read(); readJSONSyntaxChar(LBRACE); pushContext(new JSONPairContext()); } private void readJSONObjectEnd() throws TException { readJSONSyntaxChar(RBRACE); popContext(); } private void readJSONArrayStart() throws TException { context_.read(); readJSONSyntaxChar(LBRACKET); pushContext(new JSONListContext()); } private void readJSONArrayEnd() throws TException { readJSONSyntaxChar(RBRACKET); popContext(); } @Override public TMessage readMessageBegin() throws TException { resetContext(); // THRIFT-3743 readJSONArrayStart(); if (readJSONInteger() != VERSION) { throw new TProtocolException( TProtocolException.BAD_VERSION, "Message contained bad version."); } String name = readJSONString(false).toString(StandardCharsets.UTF_8); byte type = (byte) readJSONInteger(); int seqid = (int) readJSONInteger(); return new TMessage(name, type, seqid); } @Override public void readMessageEnd() throws TException { readJSONArrayEnd(); } @Override public TStruct readStructBegin() throws TException { readJSONObjectStart(); return ANONYMOUS_STRUCT; } @Override public void readStructEnd() throws TException { readJSONObjectEnd(); } @Override public TField readFieldBegin() throws TException { byte ch = reader_.peek(); byte type; short id = 0; if (ch == RBRACE[0]) { type = TType.STOP; } else { id = (short) readJSONInteger(); readJSONObjectStart(); type = getTypeIDForTypeName(readJSONString(false).get()); } return new TField("", type, id); } @Override public void readFieldEnd() throws TException { readJSONObjectEnd(); } @Override public TMap readMapBegin() throws TException { readJSONArrayStart(); byte keyType = getTypeIDForTypeName(readJSONString(false).get()); byte valueType = getTypeIDForTypeName(readJSONString(false).get()); int size = (int) readJSONInteger(); readJSONObjectStart(); TMap map = new TMap(keyType, valueType, size); checkReadBytesAvailable(map); return map; } @Override public void readMapEnd() throws TException { readJSONObjectEnd(); readJSONArrayEnd(); } @Override public TList readListBegin() throws TException { readJSONArrayStart(); byte elemType = getTypeIDForTypeName(readJSONString(false).get()); int size = (int) readJSONInteger(); TList list = new TList(elemType, size); checkReadBytesAvailable(list); return list; } @Override public void readListEnd() throws TException { readJSONArrayEnd(); } @Override public TSet readSetBegin() throws TException { readJSONArrayStart(); byte elemType = getTypeIDForTypeName(readJSONString(false).get()); int size = (int) readJSONInteger(); TSet set = new TSet(elemType, size); checkReadBytesAvailable(set); return set; } @Override public void readSetEnd() throws TException { readJSONArrayEnd(); } @Override public boolean readBool() throws TException { return (readJSONInteger() != 0); } @Override public byte readByte() throws TException { return (byte) readJSONInteger(); } @Override public short readI16() throws TException { return (short) readJSONInteger(); } @Override public int readI32() throws TException { return (int) readJSONInteger(); } @Override public long readI64() throws TException { return readJSONInteger(); } @Override public UUID readUuid() throws TException { return UUID.fromString(readString()); } @Override public double readDouble() throws TException { return readJSONDouble(); } @Override public String readString() throws TException { return readJSONString(false).toString(StandardCharsets.UTF_8); } @Override public ByteBuffer readBinary() throws TException { return ByteBuffer.wrap(readJSONBase64()); } /** Return the minimum number of bytes a type will consume on the wire */ @Override public int getMinSerializedSize(byte type) throws TTransportException { switch (type) { case 0: return 0; // Stop case 1: return 0; // Void case 2: return 1; // Bool case 3: return 1; // Byte case 4: return 1; // Double case 6: return 1; // I16 case 8: return 1; // I32 case 10: return 1; // I64 case 11: return 2; // string length case 12: return 2; // empty struct case 13: return 2; // element count Map case 14: return 2; // element count Set case 15: return 2; // element count List default: throw new TTransportException(TTransportException.UNKNOWN, "unrecognized type code"); } } }





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