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Pure-Scala MessagePack library
/*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package wvlet.airframe.msgpack.spi
import java.math.BigInteger
import java.nio.charset.StandardCharsets
import java.time.Instant
import wvlet.airframe.msgpack.spi.ErrorCode.{INVALID_EXT_FORMAT, INVALID_TYPE, NEVER_USED_FORMAT}
import wvlet.airframe.msgpack.spi.MessageException.*
import wvlet.airframe.msgpack.spi.MessageFormat.*
import wvlet.airframe.msgpack.spi.Value.*
import scala.collection.immutable.ListMap
import scala.collection.mutable
/**
* Read a message pack data from a given offset in the buffer. The last read byte length can be checked by calling
* [[ReadCursor.lastReadLength]] method.
*/
object OffsetUnpacker {
def peekNextFormat(cursor: ReadCursor): MessageFormat = {
val b = cursor.peekByte
val mf = MessageFormat.of(b)
mf
}
def skipValue(cursor: ReadCursor, skipCount: Int = 1): Unit = {
var count = skipCount
while (count > 0) {
val b = cursor.readByte
val mf = MessageFormat.of(b)
mf match {
case POSFIXINT | NEGFIXINT | BOOLEAN | NIL =>
case FIXMAP =>
val mapLen = b & 0x0f
count += mapLen * 2
case FIXARRAY =>
val arrayLen = b & 0x0f
count += arrayLen
case FIXSTR =>
val strLen = b & 0x1f
skipPayload(cursor, strLen)
case INT8 | UINT8 =>
skipPayload(cursor, 1)
case INT16 | UINT16 =>
skipPayload(cursor, 2)
case INT32 | UINT32 | FLOAT32 =>
skipPayload(cursor, 4)
case INT64 | UINT64 | FLOAT64 =>
skipPayload(cursor, 8)
case BIN8 | STR8 =>
skipPayload(cursor, readNextLength8(cursor))
case BIN16 | STR16 =>
skipPayload(cursor, readNextLength16(cursor))
case BIN32 | STR32 =>
skipPayload(cursor, readNextLength32(cursor))
case FIXEXT1 =>
skipPayload(cursor, 2)
case FIXEXT2 =>
skipPayload(cursor, 3)
case FIXEXT4 =>
skipPayload(cursor, 5)
case FIXEXT8 =>
skipPayload(cursor, 9)
case FIXEXT16 =>
skipPayload(cursor, 17)
case EXT8 =>
skipPayload(cursor, readNextLength8(cursor) + 1)
case EXT16 =>
skipPayload(cursor, readNextLength16(cursor) + 1)
case EXT32 =>
skipPayload(cursor, readNextLength32(cursor) + 1)
case ARRAY16 =>
count += readNextLength16(cursor)
case ARRAY32 =>
count += readNextLength32(cursor)
case MAP16 =>
count += readNextLength16(cursor) * 2
case MAP32 =>
count += readNextLength32(cursor) * 2
case NEVER_USED =>
throw new MessageException(NEVER_USED_FORMAT, s"Found 0xC1 (NEVER_USED) byte while skipping a value")
}
count -= 1
}
}
def skipPayload(cursor: ReadCursor, numBytes: Int): Unit = {
cursor.skipBytes(numBytes)
}
def unpackValue(cursor: ReadCursor): Value = {
val b = cursor.peekByte
val mf = MessageFormat.of(b)
mf.valueType match {
case ValueType.NIL =>
cursor.skipBytes(1)
NilValue
case ValueType.BOOLEAN =>
Value.BooleanValue(unpackBoolean(cursor))
case ValueType.INTEGER =>
mf match {
case MessageFormat.UINT64 =>
BigIntegerValue(unpackBigInteger(cursor))
case _ =>
LongValue(unpackLong(cursor))
}
case ValueType.FLOAT =>
DoubleValue(unpackDouble(cursor))
case ValueType.STRING =>
StringValue(unpackString(cursor))
case ValueType.BINARY =>
val binaryLength = unpackBinaryHeader(cursor)
val data = readPayload(cursor, binaryLength)
BinaryValue(data)
case ValueType.EXTENSION =>
val extHeader = unpackExtTypeHeader(cursor)
unpackExt(extHeader, cursor)
case ValueType.ARRAY =>
val arrayLength = unpackArrayHeader(cursor)
val arr = IndexedSeq.newBuilder[Value]
arr.sizeHint(arrayLength)
var i = 0
while (i < arrayLength) {
arr += unpackValue(cursor)
i += 1
}
ArrayValue(arr.result())
case ValueType.MAP =>
var readLen = 0
val mapLength = unpackMapHeader(cursor)
val map = ListMap.newBuilder[Value, Value]
map.sizeHint(mapLength)
var i = 0
while (i < mapLength) {
val key = unpackValue(cursor)
val value = unpackValue(cursor)
map += (key -> value)
i += 1
}
MapValue(map.result())
}
}
def unpackExt(extHeader: ExtTypeHeader, cursor: ReadCursor): Value = {
if (extHeader.extType == Code.EXT_TIMESTAMP) {
val instant = unpackTimestamp(extHeader, cursor)
TimestampValue(instant)
} else {
val extData = readPayload(cursor, extHeader.byteLength)
ExtensionValue(extHeader.extType, extData)
}
}
def unpackNil(cursor: ReadCursor): Unit = {
cursor.readByte match {
case Code.NIL => // OK
case other =>
cursor.reverseCursor
unexpected(ValueType.NIL, other)
}
}
def tryUnpackNil(cursor: ReadCursor): Boolean = {
cursor.readByte match {
case Code.NIL =>
true
case other =>
cursor.reverseCursor
false
}
}
def unpackBoolean(cursor: ReadCursor): Boolean = {
cursor.readByte match {
case Code.FALSE =>
false
case Code.TRUE =>
true
case other =>
cursor.reverseCursor
unexpected(ValueType.BOOLEAN, other)
}
}
def unpackByte(cursor: ReadCursor): Byte = {
val b = cursor.readByte
b match {
case b if Code.isFixInt(b) =>
b
case Code.UINT8 =>
val u8 = cursor.readByte
if (u8 < 0) throw overflowU8(u8)
u8
case Code.UINT16 =>
val u16 = cursor.readShort
if (u16 < 0 || !u16.isValidByte) throw overflowU16(u16)
u16.toByte
case Code.UINT32 =>
val u32 = cursor.readInt
if (u32 < 0 || !u32.isValidByte) throw overflowU32(u32)
u32.toByte
case Code.UINT64 =>
val u64 = cursor.readLong
if (u64 < 0 || !u64.isValidByte) throw overflowU64(u64)
u64.toByte
case Code.INT8 =>
val i8 = cursor.readByte
i8
case Code.INT16 =>
val i16 = cursor.readShort
if (!i16.isValidByte) throw overflowI16(i16)
i16.toByte
case Code.INT32 =>
val i32 = cursor.readInt
if (!i32.isValidByte) throw overflowI32(i32)
i32.toByte
case Code.INT64 =>
val i64 = cursor.readLong
if (!i64.isValidByte) throw overflowI64(i64)
i64.toByte
case _ =>
cursor.reverseCursor
unexpected(ValueType.INTEGER, b)
}
}
def unpackShort(cursor: ReadCursor): Short = {
val b = cursor.readByte
b match {
case b if Code.isFixInt(b) =>
b.toShort
case Code.UINT8 =>
val u8 = cursor.readByte
(u8 & 0xff).toShort
case Code.UINT16 =>
val u16 = cursor.readShort
if (u16 < 0) throw overflowU16(u16)
u16.toShort
case Code.UINT32 =>
val u32 = cursor.readInt
if (u32 < 0 || !u32.isValidShort) throw overflowU32(u32)
u32.toShort
case Code.UINT64 =>
val u64 = cursor.readLong
if (u64 < 0 || !u64.isValidShort) throw overflowU64(u64)
u64.toShort
case Code.INT8 =>
val i8 = cursor.readByte
i8.toShort
case Code.INT16 =>
val i16 = cursor.readShort
i16.toShort
case Code.INT32 =>
val i32 = cursor.readInt
if (!i32.isValidShort) throw overflowI32(i32)
i32.toShort
case Code.INT64 =>
val i64 = cursor.readLong
if (!i64.isValidShort) throw overflowI64(i64)
i64.toShort
case _ =>
cursor.reverseCursor
unexpected(ValueType.INTEGER, b)
}
}
def unpackInt(cursor: ReadCursor): Int = {
val b = cursor.readByte
b match {
case b if Code.isFixInt(b) =>
b.toInt
case Code.UINT8 =>
val u8 = cursor.readByte
u8 & 0xff
case Code.UINT16 =>
val u16 = cursor.readShort
u16 & 0xffff
case Code.UINT32 =>
val u32 = cursor.readInt
if (u32 < 0) throw overflowU32(u32)
u32
case Code.UINT64 =>
val u64 = cursor.readLong
if (u64 < 0 || !u64.isValidInt) throw overflowU64(u64)
u64.toInt
case Code.INT8 =>
val i8 = cursor.readByte
i8.toInt
case Code.INT16 =>
val i16 = cursor.readShort
i16.toInt
case Code.INT32 =>
val i32 = cursor.readInt
i32.toInt
case Code.INT64 =>
val i64 = cursor.readLong
if (!i64.isValidInt) throw overflowI64(i64)
i64.toInt
case _ =>
cursor.reverseCursor
unexpected(ValueType.INTEGER, b)
}
}
def unpackLong(cursor: ReadCursor): Long = {
val b = cursor.readByte
b match {
case b if Code.isFixInt(b) =>
b.toLong
case Code.UINT8 =>
val u8 = cursor.readByte
(u8 & 0xff).toLong
case Code.UINT16 =>
val u16 = cursor.readShort
(u16 & 0xffff).toLong
case Code.UINT32 =>
val u32 = cursor.readInt
if (u32 < 0) {
(u32 & 0x7fffffff).toLong + 0x80000000L
} else {
u32.toLong
}
case Code.UINT64 =>
val u64 = cursor.readLong
if (u64 < 0) throw overflowU64(u64)
u64.toLong
case Code.INT8 =>
val i8 = cursor.readByte
i8.toLong
case Code.INT16 =>
val i16 = cursor.readShort
i16.toLong
case Code.INT32 =>
val i32 = cursor.readInt
i32.toLong
case Code.INT64 =>
val i64 = cursor.readLong
i64
case _ =>
cursor.reverseCursor
unexpected(ValueType.INTEGER, b)
}
}
def unpackBigInteger(cursor: ReadCursor): BigInteger = {
val b = cursor.readByte
b match {
case b if Code.isFixInt(b) =>
BigInteger.valueOf(b.toLong)
case Code.UINT8 =>
val u8 = cursor.readByte
BigInteger.valueOf((u8 & 0xff).toLong)
case Code.UINT16 =>
val u16 = cursor.readShort
BigInteger.valueOf((u16 & 0xffff).toLong)
case Code.UINT32 =>
val u32 = cursor.readInt
if (u32 < 0) {
BigInteger.valueOf((u32 & 0x7fffffff).toLong + 0x80000000L)
} else {
BigInteger.valueOf(u32.toLong)
}
case Code.UINT64 =>
val u64 = cursor.readLong
if (u64 < 0) {
BigInteger.valueOf(u64 + Long.MaxValue + 1L).setBit(63)
} else {
BigInteger.valueOf(u64.toLong)
}
case Code.INT8 =>
val i8 = cursor.readByte
BigInteger.valueOf(i8.toLong)
case Code.INT16 =>
val i16 = cursor.readShort
BigInteger.valueOf(i16.toLong)
case Code.INT32 =>
val i32 = cursor.readInt
BigInteger.valueOf(i32.toLong)
case Code.INT64 =>
val i64 = cursor.readLong
BigInteger.valueOf(i64)
case _ =>
cursor.reverseCursor
unexpected(ValueType.INTEGER, b)
}
}
def unpackFloat(cursor: ReadCursor): Float = {
cursor.readByte match {
case Code.FLOAT32 =>
val f = cursor.readFloat
f
case Code.FLOAT64 =>
val d = cursor.readDouble
d.toFloat
case other =>
cursor.reverseCursor
throw unexpected(ValueType.FLOAT, other)
}
}
def unpackDouble(cursor: ReadCursor): Double = {
cursor.readByte match {
case Code.FLOAT32 =>
val f = cursor.readFloat
f.toDouble
case Code.FLOAT64 =>
val d = cursor.readDouble
d
case other =>
cursor.reverseCursor
throw unexpected(ValueType.FLOAT, other)
}
}
private def readNextLength8(cursor: ReadCursor): Int = {
val u8 = cursor.readByte
u8 & 0xff
}
private def readNextLength16(cursor: ReadCursor): Int = {
val u16 = cursor.readShort
u16 & 0xffff
}
private def readNextLength32(cursor: ReadCursor): Int = {
val u32 = cursor.readInt
if (u32 < 0) {
cursor.reverseCursor
throw overflowU32Size(u32)
}
u32
}
private def tryReadStringHeader(b: Byte, cursor: ReadCursor) =
b match {
case Code.STR8 =>
readNextLength8(cursor)
case Code.STR16 =>
readNextLength16(cursor)
case Code.STR32 =>
readNextLength32(cursor)
case _ =>
-1
}
private def tryReadBinaryHeader(b: Byte, cursor: ReadCursor) =
b match {
case Code.BIN8 => // bin 8
readNextLength8(cursor)
case Code.BIN16 => // bin 16
readNextLength16(cursor)
case Code.BIN32 => // bin 32
readNextLength32(cursor)
case _ =>
-1
}
def unpackRawStringHeader(cursor: ReadCursor): Int = {
val b = cursor.readByte
if (Code.isFixedRaw(b)) {
b & 0x1f
} else {
val slen = tryReadStringHeader(b, cursor)
if (slen >= 0) {
slen
} else {
val blen = tryReadBinaryHeader(b, cursor)
if (blen >= 0) {
blen
} else {
cursor.reverseCursor
throw unexpected(ValueType.STRING, b)
}
}
}
}
def unpackBinaryHeader(cursor: ReadCursor): Int = {
val b = cursor.readByte
if (Code.isFixedRaw(b)) {
b & 0x1f
} else {
val blen = tryReadBinaryHeader(b, cursor)
if (blen >= 0) {
blen
} else {
val slen = tryReadStringHeader(b, cursor)
if (slen >= 0) {
slen
} else {
cursor.reverseCursor
throw unexpected(ValueType.BINARY, b)
}
}
}
}
def unpackString(cursor: ReadCursor): String = {
val len = unpackRawStringHeader(cursor)
val headerLen = cursor.lastReadLength
if (len == 0) {
EMPTY_STRING
} else if (len >= Integer.MAX_VALUE) {
cursor.reverseCursor
throw new TooLargeMessageException(len)
} else {
// TODO reduce memory copy (e.g., by getting a memory reference of the Buffer)
val str = cursor.readBytes(len)
new String(str, 0, str.length, StandardCharsets.UTF_8)
}
}
def unpackArrayHeader(cursor: ReadCursor): Int = {
val b = cursor.readByte
b match {
case b if Code.isFixedArray(b) =>
b & 0x0f
case Code.ARRAY16 =>
val len = readNextLength16(cursor)
len
case Code.ARRAY32 =>
val len = readNextLength32(cursor)
len
case _ =>
cursor.reverseCursor
throw unexpected(ValueType.ARRAY, b)
}
}
def unpackMapHeader(cursor: ReadCursor): Int = {
val b = cursor.readByte
b match {
case b if Code.isFixedMap(b) =>
b & 0x0f
case Code.MAP16 =>
val len = readNextLength16(cursor)
len
case Code.MAP32 =>
val len = readNextLength32(cursor)
len
case _ =>
cursor.reverseCursor
throw unexpected(ValueType.MAP, b)
}
}
def unpackExtTypeHeader(cursor: ReadCursor): ExtTypeHeader = {
cursor.readByte match {
case Code.FIXEXT1 =>
val tpe = cursor.readByte
ExtTypeHeader(tpe, 1)
case Code.FIXEXT2 =>
val tpe = cursor.readByte
ExtTypeHeader(tpe, 2)
case Code.FIXEXT4 =>
val tpe = cursor.readByte
ExtTypeHeader(tpe, 4)
case Code.FIXEXT8 =>
val tpe = cursor.readByte
ExtTypeHeader(tpe, 8)
case Code.FIXEXT16 =>
val tpe = cursor.readByte
ExtTypeHeader(tpe, 16)
case Code.EXT8 =>
val u8 = cursor.readByte
val len = u8 & 0xff
val tpe = cursor.readByte
ExtTypeHeader(tpe, len)
case Code.EXT16 =>
val u16 = cursor.readShort
val len = u16 & 0xffff
val tpe = cursor.readByte
ExtTypeHeader(tpe, len)
case Code.EXT32 =>
val u32 = cursor.readInt
if (u32 < 0) {
cursor.reverseCursor
throw overflowU32Size(u32)
}
val tpe = cursor.readByte
ExtTypeHeader(tpe, u32)
case other =>
cursor.reverseCursor
throw unexpected(ValueType.EXTENSION, other)
}
}
def unpackTimestamp(cursor: ReadCursor): Instant = {
val extTypeHeader = unpackExtTypeHeader(cursor)
val instant = unpackTimestamp(extTypeHeader, cursor)
instant
}
def unpackTimestamp(extTypeHeader: ExtTypeHeader, cursor: ReadCursor): Instant = {
if (extTypeHeader.extType != Code.EXT_TIMESTAMP) {
cursor.reverseCursor
throw unexpected(ValueType.EXTENSION, extTypeHeader.extType)
}
val instant = extTypeHeader.byteLength match {
case 4 =>
val u32 = cursor.readInt & 0xffffffffL
Instant.ofEpochSecond(u32)
case 8 =>
val d64 = cursor.readLong
val sec = d64 & 0x00000003ffffffffL
val nsec = (d64 >>> 34).toInt
Instant.ofEpochSecond(sec, nsec)
case 12 =>
val nsecU32 = cursor.readInt & 0xffffffffL
val sec = cursor.readLong
Instant.ofEpochSecond(sec, nsecU32)
case other =>
cursor.reverseCursor
throw new MessageException(
INVALID_EXT_FORMAT,
s"Timestamp type expects 4, 8, or 12 bytes of payload but got ${other} bytes"
)
}
instant
}
def readPayload(cursor: ReadCursor, length: Int): Array[Byte] = {
val data = cursor.readBytes(length)
data
}
def readPayload(cursor: ReadCursor, length: Int, dest: Array[Byte], destOffset: Int): Unit = {
cursor.readBytes(length, dest, destOffset)
}
/**
* Read a payload of the given length from the given buffer[position], and write the result to the destination
* buffer.
*
* @param cursor
* @param length
* @param dest
* @param destIndex
* @return
* A slice (shallow copy) of the destination buffer
*/
def readPayload(cursor: ReadCursor, length: Int, dest: WriteBuffer, destIndex: Int): ReadBuffer = {
cursor.readBytes(length, dest, destIndex)
dest.slice(destIndex, length)
}
private val EMPTY_STRING: String = ""
private[spi] def unexpected(expectedCode: ValueType, actual: Byte): Nothing = {
val f = MessageFormat.of(actual)
if (f == MessageFormat.NEVER_USED) {
throw new MessageException(NEVER_USED_FORMAT, s"Expected ${expectedCode}, but found 0xC1 (NEVER_USED) byte")
} else {
val name = f.valueType.name
val typeName = name.substring(0, 1) + name.substring(1).toLowerCase
throw new MessageException(INVALID_TYPE, f"Expected ${expectedCode}, but got ${typeName} (${actual}%02x)")
}
}
}