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Post-Quantum TLS Without Handshake Signatures

Peter Schwabe, Douglas Stebila, Thom Wiggers

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Abstract

We present KEMTLS, an alternative to the TLS 1.3 handshake that uses key-encapsulation mechanisms (KEMs) instead of signatures for server authentication. Among existing post-quantum candidates, signature schemes generally have larger public key/signature sizes compared to the public key/ciphertext sizes of KEMs: by using an IND-CCA-secure KEM for server authentication in post-quantum TLS, we obtain multiple benefits. A size-optimized post-quantum instantiation of KEMTLS requires less than half the bandwidth of a size-optimized post-quantum instantiation of TLS 1.3. In a speed-optimized instantiation, KEMTLS reduces the amount of server CPU cycles by almost 90% compared to TLS 1.3, while at the same time reducing communication size, reducing the time until the client can start sending encrypted application data, and eliminating code for signatures from the server's trusted code base.

Topics & Concepts

HandshakeComputer sciencePublic-key cryptographyCiphertextEncryptionKey encapsulationSignature (topology)Transport Layer SecurityKey (lock)Computer networkSymmetric-key algorithmOperating systemMathematicsGeometryAsynchronous communicationCryptography and Data SecurityCryptographic Implementations and SecuritySecurity and Verification in Computing
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