How much overhead does SSL impose?

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Order of magnitude: zero.

In other words, you won’t see your throughput cut in half, or anything like it, when you add TLS. Answers to the “duplicate” question focus heavily on application performance, and how that compares to SSL overhead. This question specifically excludes application processing, and seeks to compare non-SSL to SSL only. While it makes sense to take a global view of performance when optimizing, that is not what this question is asking.

The main overhead of SSL is the handshake. That’s where the expensive asymmetric cryptography happens. After negotiation, relatively efficient symmetric ciphers are used. That’s why it can be very helpful to enable SSL sessions for your HTTPS service, where many connections are made. For a long-lived connection, this “end-effect” isn’t as significant, and sessions aren’t as useful.

Here’s an interesting anecdote. When Google switched Gmail to use HTTPS, no additional resources were required; no network hardware, no new hosts. It only increased CPU load by about 1%.

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