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Breakdown of the TLS_PSK_DHE_WITH_AES_256_CCM_8 cipher suite

Cyber Security Rating for TLS_PSK_DHE_WITH_AES_256_CCM_8 - A


Key Exchange Mechanism

Pre-Shared Key-PSK

A pre-shared key (PSK) in a TLS cipher suite is a symmetric key shared in advance between the client and server. It serves as the basis for establishing a secure connection without the need for public key infrastructure (PKI). PSKs are typically used in scenarios where both parties have agreed upon a key beforehand, such as in IoT devices, VPNs, or certain enterprise networks. They provide mutual authentication and confidentiality by encrypting communication using a shared secret, ensuring that only authorized parties can access the encrypted data exchanged during the TLS session.



Pre-Shared Key-PSK

PSK (Pre-Shared Key) cipher suites are used for authentication in secure communication protocols like TLS. They allow parties to establish a shared secret beforehand, ensuring confidentiality and integrity of data exchanges without the overhead of public key infrastructure (PKI), suitable for constrained environments or specific security requirements.



Advanced Encryption Standard-AES

AES should be used in cipher suites because it offers strong security with efficient performance, large block size (128 bits), and resistance to known attacks. Its widespread adoption and thorough analysis by the cryptographic community ensure reliability and robustness for encrypting sensitive data.


Cipher Mode

Counter with Cipher Block Chaining Message Authentication Code-CCM

CCM (Counter with CBC-MAC) is a mode of operation for cryptographic block ciphers, providing both encryption and authentication. Used in cipher suites, CCM ensures data confidentiality and integrity by combining the Counter (CTR) mode for encryption with the Cipher Block Chaining Message Authentication Code (CBC-MAC) for authentication. This dual functionality makes CCM highly efficient and secure, suitable for resource-constrained environments like IoT and wireless networks. By integrating CCM, cipher suites offer robust protection against unauthorized access and tampering, enhancing overall security in secure communications.

Web infrastructure owners must ensure they only allow secure cipher suites to protect against potential security threats. Cipher suites determine the encryption algorithms and key exchange mechanisms used in HTTPS connections. Insecure cipher suites can leave data vulnerable to interception, decryption, and manipulation by malicious actors. By restricting to secure cipher suites, owners mitigate risks such as data breaches, unauthorized access, and compromise of sensitive information. This proactive measure helps maintain trust with users, ensures compliance with security standards, and safeguards the integrity and confidentiality of data transmitted over the web.
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