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glink-website/node_modules/cassandra-driver/lib/encoder.js

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/*
* Copyright DataStax, Inc.
*
* 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.
*/
'use strict';
const util = require('util');
const types = require('./types');
const dataTypes = types.dataTypes;
const Long = types.Long;
const Integer = types.Integer;
const BigDecimal = types.BigDecimal;
const MutableLong = require('./types/mutable-long');
const utils = require('./utils');
const token = require('./token');
const { DateRange } = require('./datastax/search');
const geo = require('./geometry');
const Geometry = geo.Geometry;
const LineString = geo.LineString;
const Point = geo.Point;
const Polygon = geo.Polygon;
const uuidRegex = /^[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}$/i;
const buffers = {
int16Zero: utils.allocBufferFromArray([0, 0]),
int32Zero: utils.allocBufferFromArray([0, 0, 0, 0]),
int8Zero: utils.allocBufferFromArray([0]),
int8One: utils.allocBufferFromArray([1]),
int8MaxValue: utils.allocBufferFromArray([0xff])
};
// BigInt: Avoid using literals (e.g., 32n) as we must be able to compile with older engines
const isBigIntSupported = typeof BigInt !== 'undefined';
const bigInt32 = isBigIntSupported ? BigInt(32) : null;
const bigInt8 = isBigIntSupported ? BigInt(8) : null;
const bigInt0 = isBigIntSupported ? BigInt(0) : null;
const bigIntMinus1 = isBigIntSupported ? BigInt(-1) : null;
const bigInt32BitsOn = isBigIntSupported ? BigInt(0xffffffff) : null;
const bigInt8BitsOn = isBigIntSupported ? BigInt(0xff) : null;
const complexTypeNames = Object.freeze({
list : 'org.apache.cassandra.db.marshal.ListType',
set : 'org.apache.cassandra.db.marshal.SetType',
map : 'org.apache.cassandra.db.marshal.MapType',
udt : 'org.apache.cassandra.db.marshal.UserType',
tuple : 'org.apache.cassandra.db.marshal.TupleType',
frozen : 'org.apache.cassandra.db.marshal.FrozenType',
reversed : 'org.apache.cassandra.db.marshal.ReversedType',
composite : 'org.apache.cassandra.db.marshal.CompositeType',
empty : 'org.apache.cassandra.db.marshal.EmptyType',
collection: 'org.apache.cassandra.db.marshal.ColumnToCollectionType'
});
const cqlNames = Object.freeze({
frozen: 'frozen',
list: 'list',
'set': 'set',
map: 'map',
tuple: 'tuple',
empty: 'empty',
duration: 'duration'
});
const singleTypeNames = Object.freeze({
'org.apache.cassandra.db.marshal.UTF8Type': dataTypes.varchar,
'org.apache.cassandra.db.marshal.AsciiType': dataTypes.ascii,
'org.apache.cassandra.db.marshal.UUIDType': dataTypes.uuid,
'org.apache.cassandra.db.marshal.TimeUUIDType': dataTypes.timeuuid,
'org.apache.cassandra.db.marshal.Int32Type': dataTypes.int,
'org.apache.cassandra.db.marshal.BytesType': dataTypes.blob,
'org.apache.cassandra.db.marshal.FloatType': dataTypes.float,
'org.apache.cassandra.db.marshal.DoubleType': dataTypes.double,
'org.apache.cassandra.db.marshal.BooleanType': dataTypes.boolean,
'org.apache.cassandra.db.marshal.InetAddressType': dataTypes.inet,
'org.apache.cassandra.db.marshal.SimpleDateType': dataTypes.date,
'org.apache.cassandra.db.marshal.TimeType': dataTypes.time,
'org.apache.cassandra.db.marshal.ShortType': dataTypes.smallint,
'org.apache.cassandra.db.marshal.ByteType': dataTypes.tinyint,
'org.apache.cassandra.db.marshal.DateType': dataTypes.timestamp,
'org.apache.cassandra.db.marshal.TimestampType': dataTypes.timestamp,
'org.apache.cassandra.db.marshal.LongType': dataTypes.bigint,
'org.apache.cassandra.db.marshal.DecimalType': dataTypes.decimal,
'org.apache.cassandra.db.marshal.IntegerType': dataTypes.varint,
'org.apache.cassandra.db.marshal.CounterColumnType': dataTypes.counter
});
const singleFqTypeNamesLength = Object.keys(singleTypeNames).reduce(function (previous, current) {
return current.length > previous ? current.length : previous;
}, 0);
const customTypeNames = Object.freeze({
duration: 'org.apache.cassandra.db.marshal.DurationType',
lineString: 'org.apache.cassandra.db.marshal.LineStringType',
point: 'org.apache.cassandra.db.marshal.PointType',
polygon: 'org.apache.cassandra.db.marshal.PolygonType',
dateRange: 'org.apache.cassandra.db.marshal.DateRangeType'
});
const nullValueBuffer = utils.allocBufferFromArray([255, 255, 255, 255]);
const unsetValueBuffer = utils.allocBufferFromArray([255, 255, 255, 254]);
/**
* For backwards compatibility, empty buffers as text/blob/custom values are supported.
* In the case of other types, they are going to be decoded as a <code>null</code> value.
* @private
* @type {Set}
*/
const zeroLengthTypesSupported = new Set([
dataTypes.text,
dataTypes.ascii,
dataTypes.varchar,
dataTypes.custom,
dataTypes.blob
]);
/**
* Serializes and deserializes to and from a CQL type and a Javascript Type.
* @param {Number} protocolVersion
* @param {ClientOptions} options
* @constructor
*/
function Encoder(protocolVersion, options) {
this.encodingOptions = options.encoding || utils.emptyObject;
defineInstanceMembers.call(this);
this.setProtocolVersion(protocolVersion);
setEncoders.call(this);
if (this.encodingOptions.copyBuffer) {
this.handleBuffer = handleBufferCopy;
}
else {
this.handleBuffer = handleBufferRef;
}
}
/**
* Declares the privileged instance members.
* @private
*/
function defineInstanceMembers() {
/**
* Sets the protocol version and the encoding/decoding methods depending on the protocol version
* @param {Number} value
* @ignore
* @internal
*/
this.setProtocolVersion = function (value) {
this.protocolVersion = value;
//Set the collection serialization based on the protocol version
this.decodeCollectionLength = decodeCollectionLengthV3;
this.getLengthBuffer = getLengthBufferV3;
this.collectionLengthSize = 4;
if (!types.protocolVersion.uses4BytesCollectionLength(this.protocolVersion)) {
this.decodeCollectionLength = decodeCollectionLengthV2;
this.getLengthBuffer = getLengthBufferV2;
this.collectionLengthSize = 2;
}
};
const customDecoders = {
[customTypeNames.duration]: decodeDuration,
[customTypeNames.lineString]: decodeLineString,
[customTypeNames.point]: decodePoint,
[customTypeNames.polygon]: decodePolygon,
[customTypeNames.dateRange]: decodeDateRange
};
const customEncoders = {
[customTypeNames.duration]: encodeDuration,
[customTypeNames.lineString]: encodeLineString,
[customTypeNames.point]: encodePoint,
[customTypeNames.polygon]: encodePolygon,
[customTypeNames.dateRange]: encodeDateRange
};
// Decoding methods
this.decodeBlob = function (bytes) {
return this.handleBuffer(bytes);
};
this.decodeCustom = function (bytes, typeName) {
const handler = customDecoders[typeName];
if (handler) {
return handler.call(this, bytes);
}
return this.handleBuffer(bytes);
};
this.decodeUtf8String = function (bytes) {
return bytes.toString('utf8');
};
this.decodeAsciiString = function (bytes) {
return bytes.toString('ascii');
};
this.decodeBoolean = function (bytes) {
return !!bytes.readUInt8(0);
};
this.decodeDouble = function (bytes) {
return bytes.readDoubleBE(0);
};
this.decodeFloat = function (bytes) {
return bytes.readFloatBE(0);
};
this.decodeInt = function (bytes) {
return bytes.readInt32BE(0);
};
this.decodeSmallint = function (bytes) {
return bytes.readInt16BE(0);
};
this.decodeTinyint = function (bytes) {
return bytes.readInt8(0);
};
this._decodeCqlLongAsLong = function (bytes) {
return Long.fromBuffer(bytes);
};
this._decodeCqlLongAsBigInt = function (bytes) {
return BigInt.asIntN(64, (BigInt(bytes.readUInt32BE(0)) << bigInt32) | BigInt(bytes.readUInt32BE(4)));
};
this.decodeLong = this.encodingOptions.useBigIntAsLong
? this._decodeCqlLongAsBigInt
: this._decodeCqlLongAsLong;
this._decodeVarintAsInteger = function (bytes) {
return Integer.fromBuffer(bytes);
};
this._decodeVarintAsBigInt = function decodeVarintAsBigInt(bytes) {
let result = bigInt0;
if (bytes[0] <= 0x7f) {
for (let i = 0; i < bytes.length; i++) {
const b = BigInt(bytes[bytes.length - 1 - i]);
result = result | (b << BigInt(i * 8));
}
} else {
for (let i = 0; i < bytes.length; i++) {
const b = BigInt(bytes[bytes.length - 1 - i]);
result = result | ((~b & bigInt8BitsOn) << BigInt(i * 8));
}
result = ~result;
}
return result;
};
this.decodeVarint = this.encodingOptions.useBigIntAsVarint
? this._decodeVarintAsBigInt
: this._decodeVarintAsInteger;
this.decodeDecimal = function(bytes) {
return BigDecimal.fromBuffer(bytes);
};
this.decodeTimestamp = function(bytes) {
return new Date(this._decodeCqlLongAsLong(bytes).toNumber());
};
this.decodeDate = function (bytes) {
return types.LocalDate.fromBuffer(bytes);
};
this.decodeTime = function (bytes) {
return types.LocalTime.fromBuffer(bytes);
};
/*
* Reads a list from bytes
*/
this.decodeList = function (bytes, subtype) {
const totalItems = this.decodeCollectionLength(bytes, 0);
let offset = this.collectionLengthSize;
const list = new Array(totalItems);
for (let i = 0; i < totalItems; i++) {
//bytes length of the item
const length = this.decodeCollectionLength(bytes, offset);
offset += this.collectionLengthSize;
//slice it
list[i] = this.decode(bytes.slice(offset, offset+length), subtype);
offset += length;
}
return list;
};
/*
* Reads a Set from bytes
*/
this.decodeSet = function (bytes, subtype) {
const arr = this.decodeList(bytes, subtype);
if (this.encodingOptions.set) {
const setConstructor = this.encodingOptions.set;
return new setConstructor(arr);
}
return arr;
};
/*
* Reads a map (key / value) from bytes
*/
this.decodeMap = function (bytes, subtypes) {
let map;
const totalItems = this.decodeCollectionLength(bytes, 0);
let offset = this.collectionLengthSize;
const self = this;
function readValues(callback, thisArg) {
for (let i = 0; i < totalItems; i++) {
const keyLength = self.decodeCollectionLength(bytes, offset);
offset += self.collectionLengthSize;
const key = self.decode(bytes.slice(offset, offset + keyLength), subtypes[0]);
offset += keyLength;
const valueLength = self.decodeCollectionLength(bytes, offset);
offset += self.collectionLengthSize;
if (valueLength < 0) {
callback.call(thisArg, key, null);
continue;
}
const value = self.decode(bytes.slice(offset, offset + valueLength), subtypes[1]);
offset += valueLength;
callback.call(thisArg, key, value);
}
}
if (this.encodingOptions.map) {
const mapConstructor = this.encodingOptions.map;
map = new mapConstructor();
readValues(map.set, map);
}
else {
map = {};
readValues(function (key, value) {
map[key] = value;
});
}
return map;
};
this.decodeUuid = function (bytes) {
return new types.Uuid(this.handleBuffer(bytes));
};
this.decodeTimeUuid = function (bytes) {
return new types.TimeUuid(this.handleBuffer(bytes));
};
this.decodeInet = function (bytes) {
return new types.InetAddress(this.handleBuffer(bytes));
};
/**
* Decodes a user defined type into an object
* @param {Buffer} bytes
* @param {{fields: Array}} udtInfo
* @private
*/
this.decodeUdt = function (bytes, udtInfo) {
const result = {};
let offset = 0;
for (let i = 0; i < udtInfo.fields.length && offset < bytes.length; i++) {
//bytes length of the field value
const length = bytes.readInt32BE(offset);
offset += 4;
//slice it
const field = udtInfo.fields[i];
if (length < 0) {
result[field.name] = null;
continue;
}
result[field.name] = this.decode(bytes.slice(offset, offset+length), field.type);
offset += length;
}
return result;
};
this.decodeTuple = function (bytes, tupleInfo) {
const elements = new Array(tupleInfo.length);
let offset = 0;
for (let i = 0; i < tupleInfo.length && offset < bytes.length; i++) {
const length = bytes.readInt32BE(offset);
offset += 4;
if (length < 0) {
elements[i] = null;
continue;
}
elements[i] = this.decode(bytes.slice(offset, offset+length), tupleInfo[i]);
offset += length;
}
return types.Tuple.fromArray(elements);
};
//Encoding methods
this.encodeFloat = function (value) {
if (typeof value === 'string') {
// All numeric types are supported as strings for historical reasons
value = parseFloat(value);
if (Number.isNaN(value)) {
throw new TypeError(`Expected string representation of a number, obtained ${util.inspect(value)}`);
}
}
if (typeof value !== 'number') {
throw new TypeError('Expected Number, obtained ' + util.inspect(value));
}
const buf = utils.allocBufferUnsafe(4);
buf.writeFloatBE(value, 0);
return buf;
};
this.encodeDouble = function (value) {
if (typeof value === 'string') {
// All numeric types are supported as strings for historical reasons
value = parseFloat(value);
if (Number.isNaN(value)) {
throw new TypeError(`Expected string representation of a number, obtained ${util.inspect(value)}`);
}
}
if (typeof value !== 'number') {
throw new TypeError('Expected Number, obtained ' + util.inspect(value));
}
const buf = utils.allocBufferUnsafe(8);
buf.writeDoubleBE(value, 0);
return buf;
};
/**
* @param {Date|String|Long|Number} value
* @private
*/
this.encodeTimestamp = function (value) {
const originalValue = value;
if (typeof value === 'string') {
value = new Date(value);
}
if (value instanceof Date) {
//milliseconds since epoch
value = value.getTime();
if (isNaN(value)) {
throw new TypeError('Invalid date: ' + originalValue);
}
}
if (this.encodingOptions.useBigIntAsLong) {
value = BigInt(value);
}
return this.encodeLong(value);
};
/**
* @param {Date|String|LocalDate} value
* @returns {Buffer}
* @throws {TypeError}
* @private
*/
this.encodeDate = function (value) {
const originalValue = value;
try {
if (typeof value === 'string') {
value = types.LocalDate.fromString(value);
}
if (value instanceof Date) {
value = types.LocalDate.fromDate(value);
}
}
catch (err) {
//Wrap into a TypeError
throw new TypeError('LocalDate could not be parsed ' + err);
}
if (!(value instanceof types.LocalDate)) {
throw new TypeError('Expected Date/String/LocalDate, obtained ' + util.inspect(originalValue));
}
return value.toBuffer();
};
/**
* @param {String|LocalDate} value
* @returns {Buffer}
* @throws {TypeError}
* @private
*/
this.encodeTime = function (value) {
const originalValue = value;
try {
if (typeof value === 'string') {
value = types.LocalTime.fromString(value);
}
}
catch (err) {
//Wrap into a TypeError
throw new TypeError('LocalTime could not be parsed ' + err);
}
if (!(value instanceof types.LocalTime)) {
throw new TypeError('Expected String/LocalTime, obtained ' + util.inspect(originalValue));
}
return value.toBuffer();
};
/**
* @param {Uuid|String|Buffer} value
* @private
*/
this.encodeUuid = function (value) {
if (typeof value === 'string') {
try {
value = types.Uuid.fromString(value).getBuffer();
}
catch (err) {
throw new TypeError(err.message);
}
} else if (value instanceof types.Uuid) {
value = value.getBuffer();
} else {
throw new TypeError('Not a valid Uuid, expected Uuid/String/Buffer, obtained ' + util.inspect(value));
}
return value;
};
/**
* @param {String|InetAddress|Buffer} value
* @returns {Buffer}
* @private
*/
this.encodeInet = function (value) {
if (typeof value === 'string') {
value = types.InetAddress.fromString(value);
}
if (value instanceof types.InetAddress) {
value = value.getBuffer();
}
if (!(value instanceof Buffer)) {
throw new TypeError('Not a valid Inet, expected InetAddress/Buffer, obtained ' + util.inspect(value));
}
return value;
};
/**
* @param {Long|Buffer|String|Number} value
* @private
*/
this._encodeBigIntFromLong = function (value) {
if (typeof value === 'number') {
value = Long.fromNumber(value);
} else if (typeof value === 'string') {
value = Long.fromString(value);
}
let buf = null;
if (value instanceof Long) {
buf = Long.toBuffer(value);
} else if (value instanceof MutableLong) {
buf = Long.toBuffer(value.toImmutable());
}
if (buf === null) {
throw new TypeError('Not a valid bigint, expected Long/Number/String/Buffer, obtained ' + util.inspect(value));
}
return buf;
};
this._encodeBigIntFromBigInt = function (value) {
if (typeof value === 'string') {
// All numeric types are supported as strings for historical reasons
value = BigInt(value);
}
// eslint-disable-next-line valid-typeof
if (typeof value !== 'bigint') {
// Only BigInt values are supported
throw new TypeError('Not a valid BigInt value, obtained ' + util.inspect(value));
}
const buffer = utils.allocBufferUnsafe(8);
buffer.writeUInt32BE(Number(value >> bigInt32) >>> 0, 0);
buffer.writeUInt32BE(Number(value & bigInt32BitsOn), 4);
return buffer;
};
this.encodeLong = this.encodingOptions.useBigIntAsLong
? this._encodeBigIntFromBigInt
: this._encodeBigIntFromLong;
/**
* @param {Integer|Buffer|String|Number} value
* @returns {Buffer}
* @private
*/
this._encodeVarintFromInteger = function (value) {
if (typeof value === 'number') {
value = Integer.fromNumber(value);
}
if (typeof value === 'string') {
value = Integer.fromString(value);
}
let buf = null;
if (value instanceof Buffer) {
buf = value;
}
if (value instanceof Integer) {
buf = Integer.toBuffer(value);
}
if (buf === null) {
throw new TypeError('Not a valid varint, expected Integer/Number/String/Buffer, obtained ' + util.inspect(value));
}
return buf;
};
this._encodeVarintFromBigInt = function (value) {
if (typeof value === 'string') {
// All numeric types are supported as strings for historical reasons
value = BigInt(value);
}
// eslint-disable-next-line valid-typeof
if (typeof value !== 'bigint') {
throw new TypeError('Not a valid varint, expected BigInt, obtained ' + util.inspect(value));
}
if (value === bigInt0) {
return buffers.int8Zero;
}
else if (value === bigIntMinus1) {
return buffers.int8MaxValue;
}
const parts = [];
if (value > bigInt0){
while (value !== bigInt0) {
parts.unshift(Number(value & bigInt8BitsOn));
value = value >> bigInt8;
}
if (parts[0] > 0x7f) {
// Positive value needs a padding
parts.unshift(0);
}
} else {
while (value !== bigIntMinus1) {
parts.unshift(Number(value & bigInt8BitsOn));
value = value >> bigInt8;
}
if (parts[0] <= 0x7f) {
// Negative value needs a padding
parts.unshift(0xff);
}
}
return utils.allocBufferFromArray(parts);
};
this.encodeVarint = this.encodingOptions.useBigIntAsVarint
? this._encodeVarintFromBigInt
: this._encodeVarintFromInteger;
/**
* @param {BigDecimal|Buffer|String|Number} value
* @returns {Buffer}
* @private
*/
this.encodeDecimal = function (value) {
if (typeof value === 'number') {
value = BigDecimal.fromNumber(value);
} else if (typeof value === 'string') {
value = BigDecimal.fromString(value);
}
let buf = null;
if (value instanceof BigDecimal) {
buf = BigDecimal.toBuffer(value);
} else {
throw new TypeError('Not a valid varint, expected BigDecimal/Number/String/Buffer, obtained ' + util.inspect(value));
}
return buf;
};
this.encodeString = function (value, encoding) {
if (typeof value !== 'string') {
throw new TypeError('Not a valid text value, expected String obtained ' + util.inspect(value));
}
return utils.allocBufferFromString(value, encoding);
};
this.encodeUtf8String = function (value) {
return this.encodeString(value, 'utf8');
};
this.encodeAsciiString = function (value) {
return this.encodeString(value, 'ascii');
};
this.encodeBlob = function (value) {
if (!(value instanceof Buffer)) {
throw new TypeError('Not a valid blob, expected Buffer obtained ' + util.inspect(value));
}
return value;
};
this.encodeCustom = function (value, name) {
const handler = customEncoders[name];
if (handler) {
return handler.call(this, value);
}
throw new TypeError('No encoding handler found for type ' + name);
};
/**
* @param {Boolean} value
* @returns {Buffer}
* @private
*/
this.encodeBoolean = function (value) {
return value ? buffers.int8One : buffers.int8Zero;
};
/**
* @param {Number|String} value
* @private
*/
this.encodeInt = function (value) {
if (isNaN(value)) {
throw new TypeError('Expected Number, obtained ' + util.inspect(value));
}
const buf = utils.allocBufferUnsafe(4);
buf.writeInt32BE(value, 0);
return buf;
};
/**
* @param {Number|String} value
* @private
*/
this.encodeSmallint = function (value) {
if (isNaN(value)) {
throw new TypeError('Expected Number, obtained ' + util.inspect(value));
}
const buf = utils.allocBufferUnsafe(2);
buf.writeInt16BE(value, 0);
return buf;
};
/**
* @param {Number|String} value
* @private
*/
this.encodeTinyint = function (value) {
if (isNaN(value)) {
throw new TypeError('Expected Number, obtained ' + util.inspect(value));
}
const buf = utils.allocBufferUnsafe(1);
buf.writeInt8(value, 0);
return buf;
};
this.encodeList = function (value, subtype) {
if (!Array.isArray(value)) {
throw new TypeError('Not a valid list value, expected Array obtained ' + util.inspect(value));
}
if (value.length === 0) {
return null;
}
const parts = [];
parts.push(this.getLengthBuffer(value));
for (let i = 0;i < value.length;i++) {
const val = value[i];
if (val === null || typeof val === 'undefined' || val === types.unset) {
throw new TypeError('A collection can\'t contain null or unset values');
}
const bytes = this.encode(val, subtype);
//include item byte length
parts.push(this.getLengthBuffer(bytes));
//include item
parts.push(bytes);
}
return Buffer.concat(parts);
};
this.encodeSet = function (value, subtype) {
if (this.encodingOptions.set && value instanceof this.encodingOptions.set) {
const arr = [];
value.forEach(function (x) {
arr.push(x);
});
return this.encodeList(arr, subtype);
}
return this.encodeList(value, subtype);
};
/**
* Serializes a map into a Buffer
* @param value
* @param {Array} [subtypes]
* @returns {Buffer}
* @private
*/
this.encodeMap = function (value, subtypes) {
const parts = [];
let propCounter = 0;
let keySubtype = null;
let valueSubtype = null;
const self = this;
if (subtypes) {
keySubtype = subtypes[0];
valueSubtype = subtypes[1];
}
function addItem(val, key) {
if (key === null || typeof key === 'undefined' || key === types.unset) {
throw new TypeError('A map can\'t contain null or unset keys');
}
if (val === null || typeof val === 'undefined' || val === types.unset) {
throw new TypeError('A map can\'t contain null or unset values');
}
const keyBuffer = self.encode(key, keySubtype);
//include item byte length
parts.push(self.getLengthBuffer(keyBuffer));
//include item
parts.push(keyBuffer);
//value
const valueBuffer = self.encode(val, valueSubtype);
//include item byte length
parts.push(self.getLengthBuffer(valueBuffer));
//include item
if (valueBuffer !== null) {
parts.push(valueBuffer);
}
propCounter++;
}
if (this.encodingOptions.map && value instanceof this.encodingOptions.map) {
//Use Map#forEach() method to iterate
value.forEach(addItem);
}
else {
//Use object
for (const key in value) {
if (!value.hasOwnProperty(key)) {
continue;
}
const val = value[key];
addItem(val, key);
}
}
parts.unshift(this.getLengthBuffer(propCounter));
return Buffer.concat(parts);
};
this.encodeUdt = function (value, udtInfo) {
const parts = [];
let totalLength = 0;
for (let i = 0; i < udtInfo.fields.length; i++) {
const field = udtInfo.fields[i];
const item = this.encode(value[field.name], field.type);
if (!item) {
parts.push(nullValueBuffer);
totalLength += 4;
continue;
}
if (item === types.unset) {
parts.push(unsetValueBuffer);
totalLength += 4;
continue;
}
const lengthBuffer = utils.allocBufferUnsafe(4);
lengthBuffer.writeInt32BE(item.length, 0);
parts.push(lengthBuffer);
parts.push(item);
totalLength += item.length + 4;
}
return Buffer.concat(parts, totalLength);
};
this.encodeTuple = function (value, tupleInfo) {
const parts = [];
let totalLength = 0;
const length = Math.min(tupleInfo.length, value.length);
for (let i = 0; i < length; i++) {
const type = tupleInfo[i];
const item = this.encode(value.get(i), type);
if (!item) {
parts.push(nullValueBuffer);
totalLength += 4;
continue;
}
if (item === types.unset) {
parts.push(unsetValueBuffer);
totalLength += 4;
continue;
}
const lengthBuffer = utils.allocBufferUnsafe(4);
lengthBuffer.writeInt32BE(item.length, 0);
parts.push(lengthBuffer);
parts.push(item);
totalLength += item.length + 4;
}
return Buffer.concat(parts, totalLength);
};
/**
* If not provided, it uses the array of buffers or the parameters and hints to build the routingKey
* @param {Array} params
* @param {ExecutionOptions} execOptions
* @param [keys] parameter keys and positions in the params array
* @throws TypeError
* @internal
* @ignore
*/
this.setRoutingKeyFromUser = function (params, execOptions, keys) {
let totalLength = 0;
const userRoutingKey = execOptions.getRoutingKey();
if (Array.isArray(userRoutingKey)) {
if (userRoutingKey.length === 1) {
execOptions.setRoutingKey(userRoutingKey[0]);
return;
}
// Its a composite routing key
totalLength = 0;
for (let i = 0; i < userRoutingKey.length; i++) {
const item = userRoutingKey[i];
if (!item) {
// Invalid routing key part provided by the user, clear the value
execOptions.setRoutingKey(null);
return;
}
totalLength += item.length + 3;
}
execOptions.setRoutingKey(concatRoutingKey(userRoutingKey, totalLength));
return;
}
// If routingKey is present, ensure it is a Buffer, Token, or TokenRange. Otherwise throw an error.
if (userRoutingKey) {
if (userRoutingKey instanceof Buffer || userRoutingKey instanceof token.Token
|| userRoutingKey instanceof token.TokenRange) {
return;
}
throw new TypeError(`Unexpected routingKey '${util.inspect(userRoutingKey)}' provided. ` +
`Expected Buffer, Array<Buffer>, Token, or TokenRange.`);
}
// If no params are present, return as routing key cannot be determined.
if (!params || params.length === 0) {
return;
}
let routingIndexes = execOptions.getRoutingIndexes();
if (execOptions.getRoutingNames()) {
routingIndexes = execOptions.getRoutingNames().map(k => keys[k]);
}
if (!routingIndexes) {
return;
}
const parts = [];
const hints = execOptions.getHints() || utils.emptyArray;
const encodeParam = !keys ?
(i => this.encode(params[i], hints[i])) :
(i => this.encode(params[i].value, hints[i]));
try {
totalLength = this._encodeRoutingKeyParts(parts, routingIndexes, encodeParam);
} catch (e) {
// There was an error encoding a parameter that is part of the routing key,
// ignore now to fail afterwards
}
if (totalLength === 0) {
return;
}
execOptions.setRoutingKey(concatRoutingKey(parts, totalLength));
};
/**
* Sets the routing key in the options based on the prepared statement metadata.
* @param {Object} meta Prepared metadata
* @param {Array} params Array of parameters
* @param {ExecutionOptions} execOptions
* @throws TypeError
* @internal
* @ignore
*/
this.setRoutingKeyFromMeta = function (meta, params, execOptions) {
const routingIndexes = execOptions.getRoutingIndexes();
if (!routingIndexes) {
return;
}
const parts = new Array(routingIndexes.length);
const encodeParam = i => {
const columnInfo = meta.columns[i];
return this.encode(params[i], columnInfo ? columnInfo.type : null);
};
let totalLength = 0;
try {
totalLength = this._encodeRoutingKeyParts(parts, routingIndexes, encodeParam);
} catch (e) {
// There was an error encoding a parameter that is part of the routing key,
// ignore now to fail afterwards
}
if (totalLength === 0) {
return;
}
execOptions.setRoutingKey(concatRoutingKey(parts, totalLength));
};
/**
* @param {Array} parts
* @param {Array} routingIndexes
* @param {Function} encodeParam
* @returns {Number} The total length
* @private
*/
this._encodeRoutingKeyParts = function (parts, routingIndexes, encodeParam) {
let totalLength = 0;
for (let i = 0; i < routingIndexes.length; i++) {
const paramIndex = routingIndexes[i];
if (paramIndex === undefined) {
// Bad input from the user, ignore
return 0;
}
const item = encodeParam(paramIndex);
if (item === null || item === undefined || item === types.unset) {
// The encoded partition key should an instance of Buffer
// Let it fail later in the pipeline for null/undefined parameter values
return 0;
}
// Per each part of the routing key, 3 extra bytes are needed
totalLength += item.length + 3;
parts[i] = item;
}
return totalLength;
};
/**
* Parses a CQL name string into data type information
* @param {String} keyspace
* @param {String} typeName
* @param {Number} startIndex
* @param {Number|null} length
* @param {Function} udtResolver
* @returns {Promise<{err, info, options}>} callback Callback invoked with err and {{code: number, info: Object|Array|null, options: {frozen: Boolean}}}
* @internal
* @ignore
*/
this.parseTypeName = async function (keyspace, typeName, startIndex, length, udtResolver) {
startIndex = startIndex || 0;
if (!length) {
length = typeName.length;
}
const dataType = {
code: 0,
info: null,
options: {
frozen: false
}
};
let innerTypes;
if (typeName.indexOf("'", startIndex) === startIndex) {
//If quoted, this is a custom type.
dataType.info = typeName.substr(startIndex+1, length-2);
return dataType;
}
if (!length) {
length = typeName.length;
}
if (typeName.indexOf(cqlNames.frozen, startIndex) === startIndex) {
//Remove the frozen token
startIndex += cqlNames.frozen.length + 1;
length -= cqlNames.frozen.length + 2;
dataType.options.frozen = true;
}
if (typeName.indexOf(cqlNames.list, startIndex) === startIndex) {
//move cursor across the name and bypass the angle brackets
startIndex += cqlNames.list.length + 1;
length -= cqlNames.list.length + 2;
innerTypes = parseParams(typeName, startIndex, length, '<', '>');
if (innerTypes.length !== 1) {
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.list;
dataType.info = await this.parseTypeName(keyspace, innerTypes[0], 0, null, udtResolver);
return dataType;
}
if (typeName.indexOf(cqlNames.set, startIndex) === startIndex) {
//move cursor across the name and bypass the angle brackets
startIndex += cqlNames.set.length + 1;
length -= cqlNames.set.length + 2;
innerTypes = parseParams(typeName, startIndex, length, '<', '>');
if (innerTypes.length !== 1) {
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.set;
dataType.info = await this.parseTypeName(keyspace, innerTypes[0], 0, null, udtResolver);
return dataType;
}
if (typeName.indexOf(cqlNames.map, startIndex) === startIndex) {
//move cursor across the name and bypass the angle brackets
startIndex += cqlNames.map.length + 1;
length -= cqlNames.map.length + 2;
innerTypes = parseParams(typeName, startIndex, length, '<', '>');
//It should contain the key and value types
if (innerTypes.length !== 2) {
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.map;
dataType.info = await this._parseChildTypes(keyspace, innerTypes, udtResolver);
return dataType;
}
if (typeName.indexOf(cqlNames.tuple, startIndex) === startIndex) {
//move cursor across the name and bypass the angle brackets
startIndex += cqlNames.tuple.length + 1;
length -= cqlNames.tuple.length + 2;
innerTypes = parseParams(typeName, startIndex, length, '<', '>');
if (innerTypes.length < 1) {
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.tuple;
dataType.info = await this._parseChildTypes(keyspace, innerTypes, udtResolver);
return dataType;
}
const quoted = typeName.indexOf('"', startIndex) === startIndex;
if (quoted) {
// Remove quotes
startIndex++;
length -= 2;
}
// Quick check if its a single type
if (startIndex > 0) {
typeName = typeName.substr(startIndex, length);
}
// Un-escape double quotes if quoted.
if (quoted) {
typeName = typeName.replace('""', '"');
}
const typeCode = dataTypes[typeName];
if (typeof typeCode === 'number') {
dataType.code = typeCode;
return dataType;
}
if (typeName === cqlNames.duration) {
dataType.info = customTypeNames.duration;
return dataType;
}
if (typeName === cqlNames.empty) {
// Set as custom
dataType.info = 'empty';
return dataType;
}
const udtInfo = await udtResolver(keyspace, typeName);
if (udtInfo) {
dataType.code = dataTypes.udt;
dataType.info = udtInfo;
return dataType;
}
throw new TypeError('Not a valid type "' + typeName + '"');
};
/**
* @param {String} keyspace
* @param {Array} typeNames
* @param {Function} udtResolver
* @returns {Promise}
* @private
*/
this._parseChildTypes = function (keyspace, typeNames, udtResolver) {
return Promise.all(typeNames.map(name => this.parseTypeName(keyspace, name.trim(), 0, null, udtResolver)));
};
/**
* Parses a Cassandra fully-qualified class name string into data type information
* @param {String} typeName
* @param {Number} [startIndex]
* @param {Number} [length]
* @throws TypeError
* @returns {{code: number, info: Object|Array|null, options: {frozen: Boolean, reversed: Boolean}}}
* @internal
* @ignore
*/
this.parseFqTypeName = function (typeName, startIndex, length) {
const dataType = {
code: 0,
info: null,
options: {
reversed: false,
frozen: false
}
};
startIndex = startIndex || 0;
let innerTypes;
if (!length) {
length = typeName.length;
}
if (length > complexTypeNames.reversed.length && typeName.indexOf(complexTypeNames.reversed) === startIndex) {
//Remove the reversed token
startIndex += complexTypeNames.reversed.length + 1;
length -= complexTypeNames.reversed.length + 2;
dataType.options.reversed = true;
}
if (length > complexTypeNames.frozen.length &&
typeName.indexOf(complexTypeNames.frozen, startIndex) === startIndex) {
//Remove the frozen token
startIndex += complexTypeNames.frozen.length + 1;
length -= complexTypeNames.frozen.length + 2;
dataType.options.frozen = true;
}
if (typeName === complexTypeNames.empty) {
//set as custom
dataType.info = 'empty';
return dataType;
}
//Quick check if its a single type
if (length <= singleFqTypeNamesLength) {
if (startIndex > 0) {
typeName = typeName.substr(startIndex, length);
}
const typeCode = singleTypeNames[typeName];
if (typeof typeCode === 'number') {
dataType.code = typeCode;
return dataType;
}
throw new TypeError('Not a valid type "' + typeName + '"');
}
if (typeName.indexOf(complexTypeNames.list, startIndex) === startIndex) {
//Its a list
//org.apache.cassandra.db.marshal.ListType(innerType)
//move cursor across the name and bypass the parenthesis
startIndex += complexTypeNames.list.length + 1;
length -= complexTypeNames.list.length + 2;
innerTypes = parseParams(typeName, startIndex, length);
if (innerTypes.length !== 1) {
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.list;
dataType.info = this.parseFqTypeName(innerTypes[0]);
return dataType;
}
if (typeName.indexOf(complexTypeNames.set, startIndex) === startIndex) {
//Its a set
//org.apache.cassandra.db.marshal.SetType(innerType)
//move cursor across the name and bypass the parenthesis
startIndex += complexTypeNames.set.length + 1;
length -= complexTypeNames.set.length + 2;
innerTypes = parseParams(typeName, startIndex, length);
if (innerTypes.length !== 1)
{
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.set;
dataType.info = this.parseFqTypeName(innerTypes[0]);
return dataType;
}
if (typeName.indexOf(complexTypeNames.map, startIndex) === startIndex) {
//org.apache.cassandra.db.marshal.MapType(keyType,valueType)
//move cursor across the name and bypass the parenthesis
startIndex += complexTypeNames.map.length + 1;
length -= complexTypeNames.map.length + 2;
innerTypes = parseParams(typeName, startIndex, length);
//It should contain the key and value types
if (innerTypes.length !== 2) {
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.map;
dataType.info = [this.parseFqTypeName(innerTypes[0]), this.parseFqTypeName(innerTypes[1])];
return dataType;
}
if (typeName.indexOf(complexTypeNames.udt, startIndex) === startIndex) {
//move cursor across the name and bypass the parenthesis
startIndex += complexTypeNames.udt.length + 1;
length -= complexTypeNames.udt.length + 2;
return this._parseUdtName(typeName, startIndex, length);
}
if (typeName.indexOf(complexTypeNames.tuple, startIndex) === startIndex) {
//move cursor across the name and bypass the parenthesis
startIndex += complexTypeNames.tuple.length + 1;
length -= complexTypeNames.tuple.length + 2;
innerTypes = parseParams(typeName, startIndex, length);
if (innerTypes.length < 1) {
throw new TypeError('Not a valid type ' + typeName);
}
dataType.code = dataTypes.tuple;
dataType.info = innerTypes.map(x => this.parseFqTypeName(x));
return dataType;
}
// Assume custom type if cannot be parsed up to this point.
dataType.info = typeName.substr(startIndex, length);
return dataType;
};
/**
* Parses type names with composites
* @param {String} typesString
* @returns {{types: Array, isComposite: Boolean, hasCollections: Boolean}}
* @internal
* @ignore
*/
this.parseKeyTypes = function (typesString) {
let i = 0;
let length = typesString.length;
const isComposite = typesString.indexOf(complexTypeNames.composite) === 0;
if (isComposite) {
i = complexTypeNames.composite.length + 1;
length--;
}
const types = [];
let startIndex = i;
let nested = 0;
let inCollectionType = false;
let hasCollections = false;
//as collection types are not allowed, it is safe to split by ,
while (++i < length) {
switch (typesString[i]) {
case ',':
if (nested > 0) {
break;
}
if (inCollectionType) {
//remove type id
startIndex = typesString.indexOf(':', startIndex) + 1;
}
types.push(typesString.substring(startIndex, i));
startIndex = i + 1;
break;
case '(':
if (nested === 0 && typesString.indexOf(complexTypeNames.collection, startIndex) === startIndex) {
inCollectionType = true;
hasCollections = true;
//skip collection type
i++;
startIndex = i;
break;
}
nested++;
break;
case ')':
if (inCollectionType && nested === 0){
types.push(typesString.substring(typesString.indexOf(':', startIndex) + 1, i));
startIndex = i + 1;
break;
}
nested--;
break;
}
}
if (startIndex < length) {
types.push(typesString.substring(startIndex, length));
}
return {
types: types.map(name => this.parseFqTypeName(name)),
hasCollections: hasCollections,
isComposite: isComposite
};
};
this._parseUdtName = function (typeName, startIndex, length) {
const udtParams = parseParams(typeName, startIndex, length);
if (udtParams.length < 2) {
//It should contain at least the keyspace, name of the udt and a type
throw new TypeError('Not a valid type ' + typeName);
}
const dataType = {
code: dataTypes.udt,
info: null
};
const udtInfo = {
keyspace: udtParams[0],
name: utils.allocBufferFromString(udtParams[1], 'hex').toString(),
fields: []
};
for (let i = 2; i < udtParams.length; i++) {
const p = udtParams[i];
const separatorIndex = p.indexOf(':');
const fieldType = this.parseFqTypeName(p, separatorIndex + 1, p.length - (separatorIndex + 1));
udtInfo.fields.push({
name: utils.allocBufferFromString(p.substr(0, separatorIndex), 'hex').toString(),
type: fieldType
});
}
dataType.info = udtInfo;
return dataType;
};
}
/**
* Sets the encoder and decoder methods for this instance
* @private
*/
function setEncoders() {
this.decoders = {
[dataTypes.custom]: this.decodeCustom,
[dataTypes.ascii]: this.decodeAsciiString,
[dataTypes.bigint]: this.decodeLong,
[dataTypes.blob]: this.decodeBlob,
[dataTypes.boolean]: this.decodeBoolean,
[dataTypes.counter]: this.decodeLong,
[dataTypes.decimal]: this.decodeDecimal,
[dataTypes.double]: this.decodeDouble,
[dataTypes.float]: this.decodeFloat,
[dataTypes.int]: this.decodeInt,
[dataTypes.text]: this.decodeUtf8String,
[dataTypes.timestamp]: this.decodeTimestamp,
[dataTypes.uuid]: this.decodeUuid,
[dataTypes.varchar]: this.decodeUtf8String,
[dataTypes.varint]: this.decodeVarint,
[dataTypes.timeuuid]: this.decodeTimeUuid,
[dataTypes.inet]: this.decodeInet,
[dataTypes.date]: this.decodeDate,
[dataTypes.time]: this.decodeTime,
[dataTypes.smallint]: this.decodeSmallint,
[dataTypes.tinyint]: this.decodeTinyint,
[dataTypes.duration]: decodeDuration,
[dataTypes.list]: this.decodeList,
[dataTypes.map]: this.decodeMap,
[dataTypes.set]: this.decodeSet,
[dataTypes.udt]: this.decodeUdt,
[dataTypes.tuple]: this.decodeTuple
};
this.encoders = {
[dataTypes.custom]: this.encodeCustom,
[dataTypes.ascii]: this.encodeAsciiString,
[dataTypes.bigint]: this.encodeLong,
[dataTypes.blob]: this.encodeBlob,
[dataTypes.boolean]: this.encodeBoolean,
[dataTypes.counter]: this.encodeLong,
[dataTypes.decimal]: this.encodeDecimal,
[dataTypes.double]: this.encodeDouble,
[dataTypes.float]: this.encodeFloat,
[dataTypes.int]: this.encodeInt,
[dataTypes.text]: this.encodeUtf8String,
[dataTypes.timestamp]: this.encodeTimestamp,
[dataTypes.uuid]: this.encodeUuid,
[dataTypes.varchar]: this.encodeUtf8String,
[dataTypes.varint]: this.encodeVarint,
[dataTypes.timeuuid]: this.encodeUuid,
[dataTypes.inet]: this.encodeInet,
[dataTypes.date]: this.encodeDate,
[dataTypes.time]: this.encodeTime,
[dataTypes.smallint]: this.encodeSmallint,
[dataTypes.tinyint]: this.encodeTinyint,
[dataTypes.duration]: encodeDuration,
[dataTypes.list]: this.encodeList,
[dataTypes.map]: this.encodeMap,
[dataTypes.set]: this.encodeSet,
[dataTypes.udt]: this.encodeUdt,
[dataTypes.tuple]: this.encodeTuple
};
}
/**
* Decodes Cassandra bytes into Javascript values.
* <p>
* This is part of an <b>experimental</b> API, this can be changed future releases.
* </p>
* @param {Buffer} buffer Raw buffer to be decoded.
* @param {Object} type An object containing the data type <code>code</code> and <code>info</code>.
* @param {Number} type.code Type code.
* @param {Object} [type.info] Additional information on the type for complex / nested types.
*/
Encoder.prototype.decode = function (buffer, type) {
if (buffer === null || (buffer.length === 0 && !zeroLengthTypesSupported.has(type.code))) {
return null;
}
const decoder = this.decoders[type.code];
if (!decoder) {
throw new Error('Unknown data type: ' + type.code);
}
return decoder.call(this, buffer, type.info);
};
/**
* Encodes Javascript types into Buffer according to the Cassandra protocol.
* <p>
* This is part of an <b>experimental</b> API, this can be changed future releases.
* </p>
* @param {*} value The value to be converted.
* @param {{code: number, info: *|Object}|String|Number} [typeInfo] The type information.
* <p>It can be either a:</p>
* <ul>
* <li>A <code>String</code> representing the data type.</li>
* <li>A <code>Number</code> with one of the values of {@link module:types~dataTypes dataTypes}.</li>
* <li>An <code>Object</code> containing the <code>type.code</code> as one of the values of
* {@link module:types~dataTypes dataTypes} and <code>type.info</code>.
* </li>
* </ul>
* @returns {Buffer}
* @throws {TypeError} When there is an encoding error
*/
Encoder.prototype.encode = function (value, typeInfo) {
if (value === undefined) {
value = this.encodingOptions.useUndefinedAsUnset && this.protocolVersion >= 4 ? types.unset : null;
}
if (value === types.unset) {
if (!types.protocolVersion.supportsUnset(this.protocolVersion)) {
throw new TypeError('Unset value can not be used for this version of Cassandra, protocol version: ' +
this.protocolVersion);
}
return value;
}
if (value === null || value instanceof Buffer) {
return value;
}
/** @type {{code: Number, info: object}} */
let type = {
code: null,
info: null
};
if (typeInfo) {
if (typeof typeInfo === 'number') {
type.code = typeInfo;
}
else if (typeof typeInfo === 'string') {
type = dataTypes.getByName(typeInfo);
}
if (typeof typeInfo.code === 'number') {
type.code = typeInfo.code;
type.info = typeInfo.info;
}
if (typeof type.code !== 'number') {
throw new TypeError('Type information not valid, only String and Number values are valid hints');
}
}
else {
//Lets guess
type = Encoder.guessDataType(value);
if (!type) {
throw new TypeError('Target data type could not be guessed, you should use prepared statements for accurate type mapping. Value: ' + util.inspect(value));
}
}
const encoder = this.encoders[type.code];
if (!encoder) {
throw new Error('Type not supported ' + type.code);
}
return encoder.call(this, value, type.info);
};
/**
* Try to guess the Cassandra type to be stored, based on the javascript value type
* @param value
* @returns {{code: number, info: object}|null}
* @ignore
* @internal
*/
Encoder.guessDataType = function (value) {
let code = null;
let info = null;
const esTypeName = (typeof value);
if (esTypeName === 'number') {
code = dataTypes.double;
}
else if (esTypeName === 'string') {
code = dataTypes.text;
if (value.length === 36 && uuidRegex.test(value)){
code = dataTypes.uuid;
}
}
else if (esTypeName === 'boolean') {
code = dataTypes.boolean;
}
else if (value instanceof Buffer) {
code = dataTypes.blob;
}
else if (value instanceof Date) {
code = dataTypes.timestamp;
}
else if (value instanceof Long) {
code = dataTypes.bigint;
}
else if (value instanceof Integer) {
code = dataTypes.varint;
}
else if (value instanceof BigDecimal) {
code = dataTypes.decimal;
}
else if (value instanceof types.Uuid) {
code = dataTypes.uuid;
}
else if (value instanceof types.InetAddress) {
code = dataTypes.inet;
}
else if (value instanceof types.Tuple) {
code = dataTypes.tuple;
}
else if (value instanceof types.LocalDate) {
code = dataTypes.date;
}
else if (value instanceof types.LocalTime) {
code = dataTypes.time;
}
else if (value instanceof types.Duration) {
code = dataTypes.custom;
info = customTypeNames.duration;
}
else if (Array.isArray(value)) {
code = dataTypes.list;
}
else if (value instanceof Geometry) {
code = dataTypes.custom;
if (value instanceof LineString) {
info = customTypeNames.lineString;
} else if (value instanceof Point) {
info = customTypeNames.point;
} else if (value instanceof Polygon) {
info = customTypeNames.polygon;
}
}
else if (value instanceof DateRange) {
code = dataTypes.custom;
info = customTypeNames.dateRange;
}
if (code === null) {
return null;
}
return { code: code, info: info };
};
/**
* Gets a buffer containing with the bytes (BE) representing the collection length for protocol v2 and below
* @param {Buffer|Number} value
* @returns {Buffer}
* @private
*/
function getLengthBufferV2(value) {
if (!value) {
return buffers.int16Zero;
}
const lengthBuffer = utils.allocBufferUnsafe(2);
if (typeof value === 'number') {
lengthBuffer.writeUInt16BE(value, 0);
}
else {
lengthBuffer.writeUInt16BE(value.length, 0);
}
return lengthBuffer;
}
/**
* Gets a buffer containing with the bytes (BE) representing the collection length for protocol v3 and above
* @param {Buffer|Number} value
* @returns {Buffer}
* @private
*/
function getLengthBufferV3(value) {
if (!value) {
return buffers.int32Zero;
}
const lengthBuffer = utils.allocBufferUnsafe(4);
if (typeof value === 'number') {
lengthBuffer.writeInt32BE(value, 0);
}
else {
lengthBuffer.writeInt32BE(value.length, 0);
}
return lengthBuffer;
}
/**
* @param {Buffer} buffer
* @private
*/
function handleBufferCopy(buffer) {
if (buffer === null) {
return null;
}
return utils.copyBuffer(buffer);
}
/**
* @param {Buffer} buffer
* @private
*/
function handleBufferRef(buffer) {
return buffer;
}
/**
* Decodes collection length for protocol v3 and above
* @param bytes
* @param offset
* @returns {Number}
* @private
*/
function decodeCollectionLengthV3(bytes, offset) {
return bytes.readInt32BE(offset);
}
/**
* Decodes collection length for protocol v2 and below
* @param bytes
* @param offset
* @returns {Number}
* @private
*/
function decodeCollectionLengthV2(bytes, offset) {
return bytes.readUInt16BE(offset);
}
function decodeDuration(bytes) {
return types.Duration.fromBuffer(bytes);
}
function encodeDuration(value) {
if (!(value instanceof types.Duration)) {
throw new TypeError('Not a valid duration, expected Duration/Buffer obtained ' + util.inspect(value));
}
return value.toBuffer();
}
/**
* @private
* @param {Buffer} buffer
*/
function decodeLineString(buffer) {
return LineString.fromBuffer(buffer);
}
/**
* @private
* @param {LineString} value
*/
function encodeLineString(value) {
return value.toBuffer();
}
/**
* @private
* @param {Buffer} buffer
*/
function decodePoint(buffer) {
return Point.fromBuffer(buffer);
}
/**
* @private
* @param {LineString} value
*/
function encodePoint(value) {
return value.toBuffer();
}
/**
* @private
* @param {Buffer} buffer
*/
function decodePolygon(buffer) {
return Polygon.fromBuffer(buffer);
}
/**
* @private
* @param {Polygon} value
*/
function encodePolygon(value) {
return value.toBuffer();
}
function decodeDateRange(buffer) {
return DateRange.fromBuffer(buffer);
}
/**
* @private
* @param {DateRange} value
*/
function encodeDateRange(value) {
return value.toBuffer();
}
/**
* @param {String} value
* @param {Number} startIndex
* @param {Number} length
* @param {String} [open]
* @param {String} [close]
* @returns {Array}
* @private
*/
function parseParams(value, startIndex, length, open, close) {
open = open || '(';
close = close || ')';
const types = [];
let paramStart = startIndex;
let level = 0;
for (let i = startIndex; i < startIndex + length; i++) {
const c = value[i];
if (c === open) {
level++;
}
if (c === close) {
level--;
}
if (level === 0 && c === ',') {
types.push(value.substr(paramStart, i - paramStart));
paramStart = i + 1;
}
}
//Add the last one
types.push(value.substr(paramStart, length - (paramStart - startIndex)));
return types;
}
/**
* @param {Array.<Buffer>} parts
* @param {Number} totalLength
* @returns {Buffer}
* @private
*/
function concatRoutingKey(parts, totalLength) {
if (totalLength === 0) {
return null;
}
if (parts.length === 1) {
return parts[0];
}
const routingKey = utils.allocBufferUnsafe(totalLength);
let offset = 0;
for (let i = 0; i < parts.length; i++) {
const item = parts[i];
routingKey.writeUInt16BE(item.length, offset);
offset += 2;
item.copy(routingKey, offset);
offset += item.length;
routingKey[offset] = 0;
offset++;
}
return routingKey;
}
module.exports = Encoder;