WebSocket Communication Basic Data Decoder

In terms of Uint8Array

Αυτός ο κώδικας δεν πρέπει να εγκατασταθεί άμεσα. Είναι μια βιβλιοθήκη για άλλους κώδικες που περιλαμβάνεται μέσω της οδηγίας meta // @require https://update.greasyfork.org/scripts/551533/1671570/WebSocket%20Communication%20Basic%20Data%20Decoder.js

Πώς γίνεται η εγκατάσταση

θα χρειαστεί να εγκαταστήσετε μια επέκταση όπως το Tampermonkey, το Greasemonkey ή το Violentmonkey για να εγκαταστήσετε αυτόν τον κώδικα.

θα χρειαστεί να εγκαταστήσετε μια επέκταση όπως το Tampermonkey ή το Violentmonkey για να εγκαταστήσετε αυτόν τον κώδικα.

θα χρειαστεί να εγκαταστήσετε μια επέκταση όπως το Tampermonkey ή το Violentmonkey για να εγκαταστήσετε αυτόν τον κώδικα.

θα χρειαστεί να εγκαταστήσετε μια επέκταση όπως το Tampermonkey ή το Userscripts για να εγκαταστήσετε αυτόν τον κώδικα.

You will need to install an extension such as Tampermonkey to install this script.

Θα χρειαστεί να εγκαταστήσετε μια επέκταση διαχείρισης κώδικα χρήστη για να εγκαταστήσετε αυτόν τον κώδικα.

(Έχω ήδη έναν διαχειριστή κώδικα χρήστη, επιτρέψτε μου να τον εγκαταστήσω!)

Πώς γίνεται η εγκατάσταση

You will need to install an extension such as Stylus to install this style.

You will need to install an extension such as Stylus to install this style.

You will need to install an extension such as Stylus to install this style.

You will need to install a user style manager extension to install this style.

You will need to install a user style manager extension to install this style.

You will need to install a user style manager extension to install this style.

(Έχω ήδη έναν διαχειριστή στυλ χρήστη, επιτρέψτε μου να τον εγκαταστήσω!) 

// ==UserScript==
// @name         WebSocket Communication Basic Data Decoder
// @namespace    https://greasyfork.org/en/users/1462379-3lectr0n-nj
// @version      1.0
// @description  In terms of Uint8Array
// @author       3lectr0N!nj@
// @icon         https://cdn.discordapp.com/avatars/1240124778728132693/02be852a2bd883c3e15fd41177bf7a3f.webp
// @grant        none
// ==/UserScript==

let DD = {
    Read:{
        array:null,
        ReadBytes(size){
       return [DD.Read.array.slice(0,size),size]
    },
        ReadByte(){
        return this.ReadBytes(1)[0]
    },
        In_built:{
        ReadFloat16(littleEndian){
        return new DataView(new Uint8Array(DD.Read.ReadBytes(2)[0]).buffer).getFloat16(0,littleEndian)
    },
        ReadFloat32(littleEndian){
        return new DataView(new Uint8Array(DD.Read.ReadBytes(4)[0]).buffer).getFloat32(0,littleEndian)
    },
        ReadFloat64(littleEndian){
        return new DataView(new Uint8Array(DD.Read.ReadBytes(8)[0]).buffer).getFloat64(0,littleEndian)
    },
        ReadUint16(littleEndian){
        return new DataView(new Uint8Array(DD.Read.ReadBytes(2)[0]).buffer).getUint16(0,littleEndian)
    },
        ReadUint32(littleEndian){
        return new DataView(new Uint8Array(DD.Read.ReadBytes(4)[0]).buffer).getUint32(0,littleEndian)
    },
        ReadBigUint64Array(littleEndian){
            return new DataView(new Uint8Array(DD.Read.ReadBytes(8)[0]).buffer).getBigUint64(0,littleEndian)
        },
        ReadInt16(littleEndian){
        return new DataView(new Uint8Array(DD.Read.ReadBytes(2)[0]).buffer).getInt16(0,littleEndian)
    },
        ReadInt32(littleEndian){
        return new DataView(new Uint8Array(DD.Read.ReadBytes(4)[0]).buffer).getInt32(0,littleEndian)
    },
        ReadBigInt64Array(littleEndian){
            return new DataView(new Uint8Array(DD.Read.ReadBytes(8)[0]).buffer).getBigInt64(0,littleEndian)
        },
        ReadHex() {
            return Array.from(DD.Read.array).map(byte => byte.toString(16).padStart(2, '0')).join('');
},
        ReadString(){
            let s = new TextDecoder().decode(DD.Read.array)
            return s
    },
        },
        Protobuf:{
            zigZagDecode32(n) {
                return (n >>> 1) ^ -(n & 1);
},
            zigZagDecode64(n) {
                return (n >> 1n) ^ (-(n & 1n))
},
            ReadUint32_Varint() {
            let result = 0;
            let shift = 0;
            let length = 0

    for (let i = 0; i < 5; i++) {
        const byte = DD.Read.array[i];
        length++;
        const value = byte & 127;
        result |= value << shift;

        if ((byte & 128) === 0) {
            return [result >>> 0, length ];
        }

        shift += 7;}
},
            ReadUint64_Varint(){
    let result = 0n;
    let shift = 0n;
    let length = 0;
    for (let i = 0; i < 10; i++) {
        const byte = BigInt(DD.Read.array[i]);
        length++;
        const value = byte & 127n;
        result |= value << shift;

        if ((byte & 128n) === 0n) {
            return [ result, length ];
        }

        shift += 7n;
    }},
            ReadInt32_Varint() {
                const [v,l] = this.ReadUint32_Varint()
                return [v | 0,l]
            },
            ReadInt64_Varint(){
                let [v,l] = this.ReadUint64_Varint()
                const maxInt64 = 1n << 63n;
                let signed = v;
                if (v & maxInt64) {
                    signed = -((~v & (maxInt64 - 1n)) + 1n);
                }
                return [signed, l];
            },
            ReadSint32_Varint() {
                let uint = this.ReadUint32_Varint()
                let int = this.zigZagDecode32(uint[0])
                return [int,uint[1]]
            },
            ReadSint64_Varint(){
                let uint = this.ReadUint64_Varint()
                let int = this.zigZagDecode64(uint[0])
                return [int,uint[1]]
            },
            ReadFixed32(){
                return DD.Read.In_built.ReadUint32(1)
            },
            ReadSfixed32(){
                return DD.Read.In_built.ReadInt32(1)
            },
            ReadFixed64(){
                return DD.Read.In_built.ReadBigUint64Array(1)
            },
            ReadSfixed64(){
                return DD.Read.In_built.ReadBigInt64Array(1)
            },
            ReadFloat(){
                return DD.Read.In_built.ReadFloat32(1)
            },
            ReadDouble(){
                return DD.Read.In_built.ReadFloat64(1)
            },
            ReadUTF_8_String(){
                return DD.Read.ReadString()
            },
            ReadBoolean(){
                let b = DD.Read.ReadByte()
                if(b==1){return true}
                else{return false}
            }
        },
        Photon:{
            Protocol_16:{
                ReadBoolean(){
                    return DD.Read.ReadByte()>0
                },
                ReadShort(){
                    return DD.Read.In_built.ReadInt16()
                },
                ReadLong(){
                    return DD.Read.In_built.ReadBigInt64Array()
                },
                ReadInteger(){
                    return DD.Read.In_built.ReadInt32()
                },
                ReadFloat(){
                    return DD.Read.In_built.ReadFloat32()
                },
                ReadDouble(){
                    return DD.Read.In_built.ReadFloat64()
                },
                ReadString(){
                    return DD.Read.In_built.ReadString()
                },
            },
            Protocol_18:{
                Read_Int1(bool){
                    return DD.Read.ReadByte()*((-1)**(!!bool))
                },
                Read_Int2(bool){
                    return (DD.Read.In_built.ReadInt16())*((-1)**(!!bool))
                },
                ReadBoolean(){
                    return DD.Read.ReadByte()>0
                },
                ReadShort(){
                    return DD.Read.In_built.ReadInt16()
                },
                ReadInteger(){
                    return DD.Read.In_built.ReadInt32()
                },
                ReadFloat(){
                    return DD.Read.In_built.ReadFloat32()
                },
                ReadDouble(){
                    return DD.Read.In_built.ReadFloat64()
                },
                ReadString(){
                    return DD.Read.In_built.ReadString()
                },
                ReadCompressedInt(){
                    return DD.Read.Protobuf.ReadSint32_Varint()
                },
                ReadCompressedLong(){
                return DD.Read.Protobuf.ReadSint64_Varint()
                },
                ReadInt1(){
                return this.Read_Int1(false)
                },
                ReadInt1_(){
                return this.Read_Int1(true)
                },
                ReadInt2(){
                return this.Read_Int2(false)
                },
                ReadInt2_(){
                return this.Read_Int2(true)
                },
                ReadL1(){
                return this.Read_Int1(false)
                },
                ReadL1_(){
                return this.Read_Int1(true)
                },
                ReadL2(){
                return this.Read_Int2(false)
                },
                ReadL2_(){
                return this.Read_Int2(true)
                },
            },
        },
    },
    Write:{
        In_built:{
        WriteFloat16(value,littleEndian){
            const buffer = new ArrayBuffer(2);
            const view = new DataView(buffer);
            view.setFloat16(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteFloat32(value,littleEndian){
            const buffer = new ArrayBuffer(4);
            const view = new DataView(buffer);
            view.setFloat32(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteFloat64(value,littleEndian){
            const buffer = new ArrayBuffer(8);
            const view = new DataView(buffer);
            view.setFloat64(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteUint16(value,littleEndian){
            const buffer = new ArrayBuffer(2);
            const view = new DataView(buffer);
            view.setUint16(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteUint32(value,littleEndian){
            const buffer = new ArrayBuffer(4);
            const view = new DataView(buffer);
            view.setUint32(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteBigUint64Array(value,littleEndian){
            const buffer = new ArrayBuffer(8);
            const view = new DataView(buffer);
            view.setBigUint64(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteInt16(value,littleEndian){
            const buffer = new ArrayBuffer(2);
            const view = new DataView(buffer);
            view.setInt16(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteInt32(value,littleEndian){
            const buffer = new ArrayBuffer(4);
            const view = new DataView(buffer);
            view.setInt32(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteBigInt64Array(value,littleEndian){
            const buffer = new ArrayBuffer(8);
            const view = new DataView(buffer);
            view.setBigInt64(0, value, littleEndian);
            return new Uint8Array(view.buffer)
        },
        WriteHex(hex){
  if (hex.startsWith('0x')) {
    hex = hex.slice(2);
  }
  if (hex.length % 2 !== 0) {
    throw new Error("Hex string must have an even length");
  }
  const array = new Uint8Array(hex.length / 2);
  for (let i = 0; i < hex.length; i += 2) {
    array[i / 2] = parseInt(hex.substr(i, 2), 16);
  }
  return array;
    },
        WriteString(string,encoding){
            let a = new TextEncoder(encoding).encode(string)
            return a
        },
        },
        Protobuf:{
            zigZagEncode32(n) {
                return (n << 1) ^ (n >> 31);
            },
            zigZagEncode64(n) {
                return (n << 1n) ^ (n >> 63n);
            },
            WriteUint32_Varint(value) {
  const bytes = [];
  while (value > 127) {
    bytes.push((value & 0x7F) | 0x80);
    value >>>= 7;
  }
  bytes.push(value);
  return new Uint8Array(bytes);
},
            WriteUint64_Varint(value) {
    value = BigInt(value);

    if (value < 0n || value > 0xFFFFFFFFFFFFFFFFn) {
        throw new Error("Out of bounds");
    }

    const bytes = [];

    while (value >= 0x80n) {
        bytes.push(Number((value & 0x7Fn) | 0x80n));
        value >>= 7n;
    }

    bytes.push(Number(value));
    return new Uint8Array(bytes);
},
            WriteInt32_Varint(value){
                return this.WriteUint32_Varint(value >>> 0)
            },
            WriteInt64_Varint(value){
                return this.WriteUint64_Varint(BigInt(value))
            },
            WriteSint32_Varint(value){
                return this.WriteUint32_Varint(this.zigZagEncode32(value))
            },
            WriteSint64_Varint(value){
                return this.WriteUint64_Varint(this.zigZagEncode64(BigInt(value)))
            },
            WriteFixed32(value){
                return DD.Write.In_built.WriteUint32(value,1)
            },
            WriteSfixed32(value){
                return DD.Write.In_built.WriteInt32(value,1)
            },
            WriteFixed64(value){
                return DD.Write.In_built.WriteBigUint64Array(value,1)
            },
            WriteSfixed64(value){
                return DD.Write.In_built.WriteBigInt64Array(value,1)
            },
            WriteFloat(value){
                return DD.Write.In_built.WriteFloat32(value,1)
            },
            WriteDouble(value){
                return DD.Write.In_built.WriteFloat64(value,1)
            },
            WriteString(value){
                return DD.Write.In_built.WriteString(value)
            },
            WriteBool(value){
                switch(value){
                    case true:
                        return 1
                        break;
                    case false:
                        return 0
                        break;
                }
            }
        },
        Photon:{
            Protocol_16:{
                WriteBoolean(value){
                    return DD.Write.Protobuf.WriteBool(value)
                },
                WriteShort(value){
                    DD.Write.In_built.WriteInt16(value)
                },
                WriteLong(value){
                    return DD.Write.In_built.WriteBigInt64Array(value)
                },
                WriteInteger(value){
                    return DD.Write.In_built.WriteInt32(value)
                },
                WriteFloat(value){
                    return DD.Write.In_built.WriteFloat32(value)
                },
                WriteDouble(value){
                    return DD.Write.In_built.WriteFloat64(value)
                },
                WriteString(value){
                    return DD.Write.In_built.WriteString(value)
                },
            },
            Protocol_18:{
                WriteInt_1(value,bool){
                    return value*((-1)**(!bool))
                },
                WriteInt_2(value,bool){
                    return DD.Write.In_built.WriteInt16(value*((-1)**(!bool)))
                },
                WriteBoolean(value){
                    return DD.Write.Protobuf.WriteBool(value)
                },
                WriteShort(value){
                    DD.Write.In_built.WriteInt16(value)
                },
                WriteInteger(value){
                    return DD.Write.In_built.WriteInt32(value)
                },
                WriteFloat(value){
                    return DD.Write.In_built.WriteFloat32(value)
                },
                WriteDouble(value){
                    return DD.Write.In_built.WriteFloat64(value)
                },
                WriteString(value){
                    return DD.Write.In_built.WriteString(value)
                },
                WriteCompressedInt(value){
                    return DD.Write.Protobuf.WriteSint32_Varint(value)
                },
                WriteCompressedLong(value){
                    return DD.Write.Protobuf.WriteSint64_Varint(value)
                },
                WriteInt1(value){
                    return this.WriteInt_1(value,false)
                },
                WriteInt1_(value){
                    return this.WriteInt_1(value,true)
                },
                WriteInt2(value){
                    return this.WriteInt_1(value,false)
                },
                WriteInt2_(value){
                    return this.WriteInt_1(value,true)
                },
                WriteL1(value){
                    return this.WriteInt_1(value,false)
                },
                WriteL1_(value){
                    return this.WriteInt_1(value,true)
                },
                WriteL2(value){
                    return this.WriteInt_1(value,false)
                },
                WriteL2_(value){
                    return this.WriteInt_1(value,true)
                },
            },
        },
    }
}
window.DD = DD