Skip to content

Private chat app that use Web-Crypto-API in Browser

Notifications You must be signed in to change notification settings

lalosh/cryptoApp

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

31 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

وَقُولُوا لِلنَّاسِ حُسْنًا

cryptoApp

Private chat app that use Web-Crypto-API in Browser

what we use:

Web-Crypto-API

The Web Crypto API is an interface allowing a script to use cryptographic
primitives in order to build systems using cryptography.

A fundamental feature of this API is to allow the manipulation and storage of
private and secret keys without requiring the underlying bits of the key to be
made available to JavaScript.

PKI.js

PKIjs is a pure JavaScript library implementing the formats that are used in PKI applications
(signing, encryption, certificate requests, OCSP and TSP requests/responses). It is
built on WebCrypto (Web Cryptography API) and requires no plug-ins.

ASN1.js

Abstract Syntax Notation One (ASN.1) is a standard and notation that describes 
rules and structures for representing, encoding, transmitting, and decoding data in
telecommunications and computer networking. ASN1.js is a pure JavaScript library
implementing this standard. ASN.1 is the basis of all X.509 related data
structures and numerous other protocols used on the web.

simpler-web-crypto-api

use Web Crypto API,PKI.js,ASN1.js to make simpler API for the browser

Stages

This app has been built in four stages:

1-Symmetric Encryption

Overview:    
    Use the secret key to encrypt a message before send and use it again to decrypt a message 
when received
     
Use web-crypto-api to generate one secret key per user and use it to encrypt each message
the user has typed in showing the result as soon as the user hit the send button.

input: the message(as an array buffer)
output: the encrypted message(cipher text) + Initialization vector(iv)

Info:
Alogorithm used: AES-CBC
key length: 128 bit    

Why AES use the iv?
    First AES initialize iv with random values for each encryption process and use this iv with
the message to get the cipher text.
then you have to attach the iv with each encrypted message to decrypt it later on.

How do you know iv is really fully random and protectful?
    If you send two identical messages you will have two totally different cipher text
which make it really hard even for `Crypto Analysis` to deduce what has been send
and received between you and the one who are you talking with.

2-Asymmetric Encryption

Overview:
    Use the public key of a receiver to encrypt the specific message sent to him/her 
and then on the receiver browser window use his/her own private key to decrypt the message

Implementation:
    Use web-crypto-api to genereate one key pair(public key + private key) per user thus
the public key is sent to the server and everyone online and the private key is kept
inside the user browser.

Info:
Algorithm used: RSA-OAEP
Modulus Length: 2048
Public Exponent: 65537
hash: SHA-256

3-Digital Signature

Overview:
    Use the private key of a sender to sign the message sent and use the public key of the
sender on the receiver browser window to verify the message is kept save(message integrity)
and it was really sent from him/her(Non-repudiation)

Implementation:
    Use web-crypto-api to genereate one key pair(public key + private key) per user thus the
public key is sent to the server and everyone online and the private key is kept inside
the user browser.

Info:
Algorithm used: RSASSA-PKCS1-v1_5
Modulus Length: 2048
Public Exponent: 65537
hash: SHA-256

4-Digital Certificate

Overview:
    Validity is important for public keys transfered over the network and information
concerning each public key is a crucial goal and so we create a certificate
(similar to every personal ID card) which include each user Publick Key,Common Name,Orgainzation
and Country Code and we make it availabe for one complete month starting at the time
the certificate was genereated in.

Implementation:
    While it's still an app for testing and learning we used **self-certificate** which means
each user create his own certificate(which should have been on the server not the client's browser)
which include all the information that a certificate need with the public key included ofcourse
and he/she sign it with his/her private key then sent it to the server and everyone connected.

Info:
Certificate format: X.509
Libraries used: PKI.js, ASN1.js

To Run it:

#install dependencies
dnf install git nodejs

#download it
git clone https://github.com/lalosh/cryptoApp.git

#.then
#cd into the cryptoApp folder 
cd cryptoApp

#.then type
npm install

#.then
npm start

screenshots

والحمد للّه ربّ العالمين

Releases

No releases published

Packages

No packages published