OCA_Backend/api/node_modules/mysql2/lib/packets/packet.js
2022-01-22 19:06:44 +05:30

920 lines
24 KiB
JavaScript

// This file was modified by Oracle on June 1, 2021.
// A comment describing some changes in the strict default SQL mode regarding
// non-standard dates was introduced.
// Modifications copyright (c) 2021, Oracle and/or its affiliates.
'use strict';
const ErrorCodeToName = require('../constants/errors.js');
const NativeBuffer = require('buffer').Buffer;
const Long = require('long');
const StringParser = require('../parsers/string.js');
const INVALID_DATE = new Date(NaN);
// this is nearly duplicate of previous function so generated code is not slower
// due to "if (dateStrings)" branching
const pad = '000000000000';
function leftPad(num, value) {
const s = value.toString();
// if we don't need to pad
if (s.length >= num) {
return s;
}
return (pad + s).slice(-num);
}
// The whole reason parse* function below exist
// is because String creation is relatively expensive (at least with V8), and if we have
// a buffer with "12345" content ideally we would like to bypass intermediate
// "12345" string creation and directly build 12345 number out of
// <Buffer 31 32 33 34 35> data.
// In my benchmarks the difference is ~25M 8-digit numbers per second vs
// 4.5 M using Number(packet.readLengthCodedString())
// not used when size is close to max precision as series of *10 accumulate error
// and approximate result mihgt be diffreent from (approximate as well) Number(bigNumStringValue))
// In the futire node version if speed difference is smaller parse* functions might be removed
// don't consider them as Packet public API
const minus = '-'.charCodeAt(0);
const plus = '+'.charCodeAt(0);
// TODO: handle E notation
const dot = '.'.charCodeAt(0);
const exponent = 'e'.charCodeAt(0);
const exponentCapital = 'E'.charCodeAt(0);
class Packet {
constructor(id, buffer, start, end) {
// hot path, enable checks when testing only
// if (!Buffer.isBuffer(buffer) || typeof start == 'undefined' || typeof end == 'undefined')
// throw new Error('invalid packet');
this.sequenceId = id;
this.numPackets = 1;
this.buffer = buffer;
this.start = start;
this.offset = start + 4;
this.end = end;
}
// ==============================
// readers
// ==============================
reset() {
this.offset = this.start + 4;
}
length() {
return this.end - this.start;
}
slice() {
return this.buffer.slice(this.start, this.end);
}
dump() {
// eslint-disable-next-line no-console
console.log(
[this.buffer.asciiSlice(this.start, this.end)],
this.buffer.slice(this.start, this.end),
this.length(),
this.sequenceId
);
}
haveMoreData() {
return this.end > this.offset;
}
skip(num) {
this.offset += num;
}
readInt8() {
return this.buffer[this.offset++];
}
readInt16() {
this.offset += 2;
return this.buffer.readUInt16LE(this.offset - 2);
}
readInt24() {
return this.readInt16() + (this.readInt8() << 16);
}
readInt32() {
this.offset += 4;
return this.buffer.readUInt32LE(this.offset - 4);
}
readSInt8() {
return this.buffer.readInt8(this.offset++);
}
readSInt16() {
this.offset += 2;
return this.buffer.readInt16LE(this.offset - 2);
}
readSInt32() {
this.offset += 4;
return this.buffer.readInt32LE(this.offset - 4);
}
readInt64JSNumber() {
const word0 = this.readInt32();
const word1 = this.readInt32();
const l = new Long(word0, word1, true);
return l.toNumber();
}
readSInt64JSNumber() {
const word0 = this.readInt32();
const word1 = this.readInt32();
if (!(word1 & 0x80000000)) {
return word0 + 0x100000000 * word1;
}
const l = new Long(word0, word1, false);
return l.toNumber();
}
readInt64String() {
const word0 = this.readInt32();
const word1 = this.readInt32();
const res = new Long(word0, word1, true);
return res.toString();
}
readSInt64String() {
const word0 = this.readInt32();
const word1 = this.readInt32();
const res = new Long(word0, word1, false);
return res.toString();
}
readInt64() {
const word0 = this.readInt32();
const word1 = this.readInt32();
let res = new Long(word0, word1, true);
const resNumber = res.toNumber();
const resString = res.toString();
res = resNumber.toString() === resString ? resNumber : resString;
return res;
}
readSInt64() {
const word0 = this.readInt32();
const word1 = this.readInt32();
let res = new Long(word0, word1, false);
const resNumber = res.toNumber();
const resString = res.toString();
res = resNumber.toString() === resString ? resNumber : resString;
return res;
}
isEOF() {
return this.buffer[this.offset] === 0xfe && this.length() < 13;
}
eofStatusFlags() {
return this.buffer.readInt16LE(this.offset + 3);
}
eofWarningCount() {
return this.buffer.readInt16LE(this.offset + 1);
}
readLengthCodedNumber(bigNumberStrings, signed) {
const byte1 = this.buffer[this.offset++];
if (byte1 < 251) {
return byte1;
}
return this.readLengthCodedNumberExt(byte1, bigNumberStrings, signed);
}
readLengthCodedNumberSigned(bigNumberStrings) {
return this.readLengthCodedNumber(bigNumberStrings, true);
}
readLengthCodedNumberExt(tag, bigNumberStrings, signed) {
let word0, word1;
let res;
if (tag === 0xfb) {
return null;
}
if (tag === 0xfc) {
return this.readInt8() + (this.readInt8() << 8);
}
if (tag === 0xfd) {
return this.readInt8() + (this.readInt8() << 8) + (this.readInt8() << 16);
}
if (tag === 0xfe) {
// TODO: check version
// Up to MySQL 3.22, 0xfe was followed by a 4-byte integer.
word0 = this.readInt32();
word1 = this.readInt32();
if (word1 === 0) {
return word0; // don't convert to float if possible
}
if (word1 < 2097152) {
// max exact float point int, 2^52 / 2^32
return word1 * 0x100000000 + word0;
}
res = new Long(word0, word1, !signed); // Long need unsigned
const resNumber = res.toNumber();
const resString = res.toString();
res = resNumber.toString() === resString ? resNumber : resString;
return bigNumberStrings ? resString : res;
}
// eslint-disable-next-line no-console
console.trace();
throw new Error(`Should not reach here: ${tag}`);
}
readFloat() {
const res = this.buffer.readFloatLE(this.offset);
this.offset += 4;
return res;
}
readDouble() {
const res = this.buffer.readDoubleLE(this.offset);
this.offset += 8;
return res;
}
readBuffer(len) {
if (typeof len === 'undefined') {
len = this.end - this.offset;
}
this.offset += len;
return this.buffer.slice(this.offset - len, this.offset);
}
// DATE, DATETIME and TIMESTAMP
readDateTime(timezone) {
if (!timezone || timezone === 'Z' || timezone === 'local') {
const length = this.readInt8();
if (length === 0xfb) {
return null;
}
let y = 0;
let m = 0;
let d = 0;
let H = 0;
let M = 0;
let S = 0;
let ms = 0;
if (length > 3) {
y = this.readInt16();
m = this.readInt8();
d = this.readInt8();
}
if (length > 6) {
H = this.readInt8();
M = this.readInt8();
S = this.readInt8();
}
if (length > 10) {
ms = this.readInt32() / 1000;
}
// NO_ZERO_DATE mode and NO_ZERO_IN_DATE mode are part of the strict
// default SQL mode used by MySQL 8.0. This means that non-standard
// dates like '0000-00-00' become NULL. For older versions and other
// possible MySQL flavours we still need to account for the
// non-standard behaviour.
if (y + m + d + H + M + S + ms === 0) {
return INVALID_DATE;
}
if (timezone === 'Z') {
return new Date(Date.UTC(y, m - 1, d, H, M, S, ms));
}
return new Date(y, m - 1, d, H, M, S, ms);
}
let str = this.readDateTimeString(6, 'T');
if (str.length === 10) {
str += 'T00:00:00';
}
return new Date(str + timezone);
}
readDateTimeString(decimals, timeSep) {
const length = this.readInt8();
let y = 0;
let m = 0;
let d = 0;
let H = 0;
let M = 0;
let S = 0;
let ms = 0;
let str;
if (length > 3) {
y = this.readInt16();
m = this.readInt8();
d = this.readInt8();
str = [leftPad(4, y), leftPad(2, m), leftPad(2, d)].join('-');
}
if (length > 6) {
H = this.readInt8();
M = this.readInt8();
S = this.readInt8();
str += `${timeSep || ' '}${[
leftPad(2, H),
leftPad(2, M),
leftPad(2, S)
].join(':')}`;
}
if (length > 10) {
ms = this.readInt32();
str += '.';
if (decimals) {
ms = leftPad(6, ms);
if (ms.length > decimals) {
ms = ms.substring(0, decimals); // rounding is done at the MySQL side, only 0 are here
}
}
str += ms;
}
return str;
}
// TIME - value as a string, Can be negative
readTimeString(convertTtoMs) {
const length = this.readInt8();
if (length === 0) {
return '00:00:00';
}
const sign = this.readInt8() ? -1 : 1; // 'isNegative' flag byte
let d = 0;
let H = 0;
let M = 0;
let S = 0;
let ms = 0;
if (length > 6) {
d = this.readInt32();
H = this.readInt8();
M = this.readInt8();
S = this.readInt8();
}
if (length > 10) {
ms = this.readInt32();
}
if (convertTtoMs) {
H += d * 24;
M += H * 60;
S += M * 60;
ms += S * 1000;
ms *= sign;
return ms;
}
// Format follows mySQL TIME format ([-][h]hh:mm:ss[.u[u[u[u[u[u]]]]]])
// For positive times below 24 hours, this makes it equal to ISO 8601 times
return (
(sign === -1 ? '-' : '') +
[leftPad(2, d * 24 + H), leftPad(2, M), leftPad(2, S)].join(':') +
(ms ? `.${ms}`.replace(/0+$/, '') : '')
);
}
readLengthCodedString(encoding) {
const len = this.readLengthCodedNumber();
// TODO: check manually first byte here to avoid polymorphic return type?
if (len === null) {
return null;
}
this.offset += len;
// TODO: Use characterSetCode to get proper encoding
// https://github.com/sidorares/node-mysql2/pull/374
return StringParser.decode(
this.buffer,
encoding,
this.offset - len,
this.offset
);
}
readLengthCodedBuffer() {
const len = this.readLengthCodedNumber();
if (len === null) {
return null;
}
return this.readBuffer(len);
}
readNullTerminatedString(encoding) {
const start = this.offset;
let end = this.offset;
while (this.buffer[end]) {
end = end + 1; // TODO: handle OOB check
}
this.offset = end + 1;
return StringParser.decode(this.buffer, encoding, start, end);
}
// TODO reuse?
readString(len, encoding) {
if (typeof len === 'string' && typeof encoding === 'undefined') {
encoding = len;
len = undefined;
}
if (typeof len === 'undefined') {
len = this.end - this.offset;
}
this.offset += len;
return StringParser.decode(
this.buffer,
encoding,
this.offset - len,
this.offset
);
}
parseInt(len, supportBigNumbers) {
if (len === null) {
return null;
}
if (len >= 14 && !supportBigNumbers) {
const s = this.buffer.toString('ascii', this.offset, this.offset + len);
this.offset += len;
return Number(s);
}
let result = 0;
const start = this.offset;
const end = this.offset + len;
let sign = 1;
if (len === 0) {
return 0; // TODO: assert? exception?
}
if (this.buffer[this.offset] === minus) {
this.offset++;
sign = -1;
}
// max precise int is 9007199254740992
let str;
const numDigits = end - this.offset;
if (supportBigNumbers) {
if (numDigits >= 15) {
str = this.readString(end - this.offset, 'binary');
result = parseInt(str, 10);
if (result.toString() === str) {
return sign * result;
}
return sign === -1 ? `-${str}` : str;
}
if (numDigits > 16) {
str = this.readString(end - this.offset);
return sign === -1 ? `-${str}` : str;
}
}
if (this.buffer[this.offset] === plus) {
this.offset++; // just ignore
}
while (this.offset < end) {
result *= 10;
result += this.buffer[this.offset] - 48;
this.offset++;
}
const num = result * sign;
if (!supportBigNumbers) {
return num;
}
str = this.buffer.toString('ascii', start, end);
if (num.toString() === str) {
return num;
}
return str;
}
// note that if value of inputNumberAsString is bigger than MAX_SAFE_INTEGER
// ( or smaller than MIN_SAFE_INTEGER ) the parseIntNoBigCheck result might be
// different from what you would get from Number(inputNumberAsString)
// String(parseIntNoBigCheck) <> String(Number(inputNumberAsString)) <> inputNumberAsString
parseIntNoBigCheck(len) {
if (len === null) {
return null;
}
let result = 0;
const end = this.offset + len;
let sign = 1;
if (len === 0) {
return 0; // TODO: assert? exception?
}
if (this.buffer[this.offset] === minus) {
this.offset++;
sign = -1;
}
if (this.buffer[this.offset] === plus) {
this.offset++; // just ignore
}
while (this.offset < end) {
result *= 10;
result += this.buffer[this.offset] - 48;
this.offset++;
}
return result * sign;
}
// copy-paste from https://github.com/mysqljs/mysql/blob/master/lib/protocol/Parser.js
parseGeometryValue() {
const buffer = this.readLengthCodedBuffer();
let offset = 4;
if (buffer === null || !buffer.length) {
return null;
}
function parseGeometry() {
let x, y, i, j, numPoints, line;
let result = null;
const byteOrder = buffer.readUInt8(offset);
offset += 1;
const wkbType = byteOrder
? buffer.readUInt32LE(offset)
: buffer.readUInt32BE(offset);
offset += 4;
switch (wkbType) {
case 1: // WKBPoint
x = byteOrder
? buffer.readDoubleLE(offset)
: buffer.readDoubleBE(offset);
offset += 8;
y = byteOrder
? buffer.readDoubleLE(offset)
: buffer.readDoubleBE(offset);
offset += 8;
result = { x: x, y: y };
break;
case 2: // WKBLineString
numPoints = byteOrder
? buffer.readUInt32LE(offset)
: buffer.readUInt32BE(offset);
offset += 4;
result = [];
for (i = numPoints; i > 0; i--) {
x = byteOrder
? buffer.readDoubleLE(offset)
: buffer.readDoubleBE(offset);
offset += 8;
y = byteOrder
? buffer.readDoubleLE(offset)
: buffer.readDoubleBE(offset);
offset += 8;
result.push({ x: x, y: y });
}
break;
case 3: // WKBPolygon
// eslint-disable-next-line no-case-declarations
const numRings = byteOrder
? buffer.readUInt32LE(offset)
: buffer.readUInt32BE(offset);
offset += 4;
result = [];
for (i = numRings; i > 0; i--) {
numPoints = byteOrder
? buffer.readUInt32LE(offset)
: buffer.readUInt32BE(offset);
offset += 4;
line = [];
for (j = numPoints; j > 0; j--) {
x = byteOrder
? buffer.readDoubleLE(offset)
: buffer.readDoubleBE(offset);
offset += 8;
y = byteOrder
? buffer.readDoubleLE(offset)
: buffer.readDoubleBE(offset);
offset += 8;
line.push({ x: x, y: y });
}
result.push(line);
}
break;
case 4: // WKBMultiPoint
case 5: // WKBMultiLineString
case 6: // WKBMultiPolygon
case 7: // WKBGeometryCollection
// eslint-disable-next-line no-case-declarations
const num = byteOrder
? buffer.readUInt32LE(offset)
: buffer.readUInt32BE(offset);
offset += 4;
result = [];
for (i = num; i > 0; i--) {
result.push(parseGeometry());
}
break;
}
return result;
}
return parseGeometry();
}
parseDate(timezone) {
const strLen = this.readLengthCodedNumber();
if (strLen === null) {
return null;
}
if (strLen !== 10) {
// we expect only YYYY-MM-DD here.
// if for some reason it's not the case return invalid date
return new Date(NaN);
}
const y = this.parseInt(4);
this.offset++; // -
const m = this.parseInt(2);
this.offset++; // -
const d = this.parseInt(2);
if (!timezone || timezone === 'local') {
return new Date(y, m - 1, d);
}
if (timezone === 'Z') {
return new Date(Date.UTC(y, m - 1, d));
}
return new Date(
`${leftPad(4, y)}-${leftPad(2, m)}-${leftPad(2, d)}T00:00:00${timezone}`
);
}
parseDateTime(timezone) {
const str = this.readLengthCodedString('binary');
if (str === null) {
return null;
}
if (!timezone || timezone === 'local') {
return new Date(str);
}
return new Date(`${str}${timezone}`);
}
parseFloat(len) {
if (len === null) {
return null;
}
let result = 0;
const end = this.offset + len;
let factor = 1;
let pastDot = false;
let charCode = 0;
if (len === 0) {
return 0; // TODO: assert? exception?
}
if (this.buffer[this.offset] === minus) {
this.offset++;
factor = -1;
}
if (this.buffer[this.offset] === plus) {
this.offset++; // just ignore
}
while (this.offset < end) {
charCode = this.buffer[this.offset];
if (charCode === dot) {
pastDot = true;
this.offset++;
} else if (charCode === exponent || charCode === exponentCapital) {
this.offset++;
const exponentValue = this.parseInt(end - this.offset);
return (result / factor) * Math.pow(10, exponentValue);
} else {
result *= 10;
result += this.buffer[this.offset] - 48;
this.offset++;
if (pastDot) {
factor = factor * 10;
}
}
}
return result / factor;
}
parseLengthCodedIntNoBigCheck() {
return this.parseIntNoBigCheck(this.readLengthCodedNumber());
}
parseLengthCodedInt(supportBigNumbers) {
return this.parseInt(this.readLengthCodedNumber(), supportBigNumbers);
}
parseLengthCodedIntString() {
return this.readLengthCodedString('binary');
}
parseLengthCodedFloat() {
return this.parseFloat(this.readLengthCodedNumber());
}
peekByte() {
return this.buffer[this.offset];
}
// OxFE is often used as "Alt" flag - not ok, not error.
// For example, it's first byte of AuthSwitchRequest
isAlt() {
return this.peekByte() === 0xfe;
}
isError() {
return this.peekByte() === 0xff;
}
asError(encoding) {
this.reset();
this.readInt8(); // fieldCount
const errorCode = this.readInt16();
let sqlState = '';
if (this.buffer[this.offset] === 0x23) {
this.skip(1);
sqlState = this.readBuffer(5).toString();
}
const message = this.readString(undefined, encoding);
const err = new Error(message);
err.code = ErrorCodeToName[errorCode];
err.errno = errorCode;
err.sqlState = sqlState;
err.sqlMessage = message;
return err;
}
writeInt32(n) {
this.buffer.writeUInt32LE(n, this.offset);
this.offset += 4;
}
writeInt24(n) {
this.writeInt8(n & 0xff);
this.writeInt16(n >> 8);
}
writeInt16(n) {
this.buffer.writeUInt16LE(n, this.offset);
this.offset += 2;
}
writeInt8(n) {
this.buffer.writeUInt8(n, this.offset);
this.offset++;
}
writeDouble(n) {
this.buffer.writeDoubleLE(n, this.offset);
this.offset += 8;
}
writeBuffer(b) {
b.copy(this.buffer, this.offset);
this.offset += b.length;
}
writeNull() {
this.buffer[this.offset] = 0xfb;
this.offset++;
}
// TODO: refactor following three?
writeNullTerminatedString(s, encoding) {
const buf = StringParser.encode(s, encoding);
this.buffer.length && buf.copy(this.buffer, this.offset);
this.offset += buf.length;
this.writeInt8(0);
}
writeString(s, encoding) {
if (s === null) {
this.writeInt8(0xfb);
return;
}
if (s.length === 0) {
return;
}
// const bytes = Buffer.byteLength(s, 'utf8');
// this.buffer.write(s, this.offset, bytes, 'utf8');
// this.offset += bytes;
const buf = StringParser.encode(s, encoding);
this.buffer.length && buf.copy(this.buffer, this.offset);
this.offset += buf.length;
}
writeLengthCodedString(s, encoding) {
const buf = StringParser.encode(s, encoding);
this.writeLengthCodedNumber(buf.length);
this.buffer.length && buf.copy(this.buffer, this.offset);
this.offset += buf.length;
}
writeLengthCodedBuffer(b) {
this.writeLengthCodedNumber(b.length);
b.copy(this.buffer, this.offset);
this.offset += b.length;
}
writeLengthCodedNumber(n) {
if (n < 0xfb) {
return this.writeInt8(n);
}
if (n < 0xffff) {
this.writeInt8(0xfc);
return this.writeInt16(n);
}
if (n < 0xffffff) {
this.writeInt8(0xfd);
return this.writeInt24(n);
}
if (n === null) {
return this.writeInt8(0xfb);
}
// TODO: check that n is out of int precision
this.writeInt8(0xfe);
this.buffer.writeUInt32LE(n, this.offset);
this.offset += 4;
this.buffer.writeUInt32LE(n >> 32, this.offset);
this.offset += 4;
return this.offset;
}
writeDate(d, timezone) {
this.buffer.writeUInt8(11, this.offset);
if (!timezone || timezone === 'local') {
this.buffer.writeUInt16LE(d.getFullYear(), this.offset + 1);
this.buffer.writeUInt8(d.getMonth() + 1, this.offset + 3);
this.buffer.writeUInt8(d.getDate(), this.offset + 4);
this.buffer.writeUInt8(d.getHours(), this.offset + 5);
this.buffer.writeUInt8(d.getMinutes(), this.offset + 6);
this.buffer.writeUInt8(d.getSeconds(), this.offset + 7);
this.buffer.writeUInt32LE(d.getMilliseconds() * 1000, this.offset + 8);
} else {
if (timezone !== 'Z') {
const offset =
(timezone[0] === '-' ? -1 : 1) *
(parseInt(timezone.substring(1, 3), 10) * 60 +
parseInt(timezone.substring(4), 10));
if (offset !== 0) {
d = new Date(d.getTime() + 60000 * offset);
}
}
this.buffer.writeUInt16LE(d.getUTCFullYear(), this.offset + 1);
this.buffer.writeUInt8(d.getUTCMonth() + 1, this.offset + 3);
this.buffer.writeUInt8(d.getUTCDate(), this.offset + 4);
this.buffer.writeUInt8(d.getUTCHours(), this.offset + 5);
this.buffer.writeUInt8(d.getUTCMinutes(), this.offset + 6);
this.buffer.writeUInt8(d.getUTCSeconds(), this.offset + 7);
this.buffer.writeUInt32LE(d.getUTCMilliseconds() * 1000, this.offset + 8);
}
this.offset += 12;
}
writeHeader(sequenceId) {
const offset = this.offset;
this.offset = 0;
this.writeInt24(this.buffer.length - 4);
this.writeInt8(sequenceId);
this.offset = offset;
}
clone() {
return new Packet(this.sequenceId, this.buffer, this.start, this.end);
}
type() {
if (this.isEOF()) {
return 'EOF';
}
if (this.isError()) {
return 'Error';
}
if (this.buffer[this.offset] === 0) {
return 'maybeOK'; // could be other packet types as well
}
return '';
}
static lengthCodedNumberLength(n) {
if (n < 0xfb) {
return 1;
}
if (n < 0xffff) {
return 3;
}
if (n < 0xffffff) {
return 5;
}
return 9;
}
static lengthCodedStringLength(str, encoding) {
const buf = StringParser.encode(str, encoding);
const slen = buf.length;
return Packet.lengthCodedNumberLength(slen) + slen;
}
static MockBuffer() {
const noop = function () {};
const res = Buffer.alloc(0);
for (const op in NativeBuffer.prototype) {
if (typeof res[op] === 'function') {
res[op] = noop;
}
}
return res;
}
}
module.exports = Packet;