WhatsApp could soon have a safety feature, which the application should have integrated before. Here’s why encryption cloud backup is important.
WhatsApp will have a new feature that could allow it to compete with its mortal competitor, Signal. As of the moment, the popular messaging application is still criticized by many users since it still doesn’t have an encryption feature.
Recently, Elon Musk posted a tweet targeting WhatsApp, saying that the Facebook-owned messaging app could breach its sensitive user data. He added that the best thing people can do is transfer to Signal. Because of this, its app competitor suddenly experienced a huge download increase, which allowed it to become the top messaging platform.
However, this could change since WhatsApp is planning to release its own encrypted cloud backups. The giant app firm confirmed that it is testing the technology to independently encrypt chat backups in the cloud. The Facebook-owned service revealed that the system has been enabled in its most recent Android beta update.
WhatsApp explained that opting in for the beta build should keep chat history and media securely backed up, with the significant caveat that if a user forgets their passcode or loses the 64-digit recovery key, then they’ll be locked away permanently because even WhatsApp cant get in then.
On the other hand, WhatsApp also said that the users who are fine being on their own in that aspect, can get in the beta test group or wait for this to be available to everyone. Once the popular messaging app receives its new safety feature, all its messages will be encrypted end-to-end, preventing prying eyes from accessing your personal information.
WhatsApp is also testing a version that works across multiple devices, maintaining end-to-end encryption whether or not you have a phone involved.
Why Encryption Is Important?
End-to-end encryption is a way of scrambling data so that only authorized parties can understand the information. This security capability can convert human-readable plaintext to incomprehensible text, also known as ciphertext. In simpler terms, encryption takes readable data and alters it so that it appears random. Encryption requires the use of a cryptographic key: a set of mathematical values that both the sender and the recipient of an encrypted message agree on.
This security feature can convert human-readable plaintext to incomprehensible text, also known as ciphertext. In simpler terms, encryption takes readable data and alters it so that it appears random. Encryption requires the use of a cryptographic key: a set of mathematical values that both the sender and the recipient of an encrypted message agree on. The security feature uses keys complex enough that a third party is highly unlikely to decrypt or break the ciphertext by brute force.
The advanced security feature has different types. These include asymmetric and symmetric encryptions. Asymmetric encryption is also known as public-key encryption. On the other hand, in symmetric encryption, there is only one key, and all communicating parties use the same (secret) key for both encryption and decryption.