HTTPS has numerous use cases, most of which are designed to defend against Man-in-the-middle attacks. Anyone with a hacker's mindset will shudder to tell you that there is no way other than the established way to accomplish something. The fact is that just because you use TLS (the standard which modern HTTPS uses), does not mean you are using it well. Additionally, just using TLS does not prevent someone from exploiting known weaknesses. Just as you may be finding creative ways to secure your data, there are people who are finding creative ways to exploit your security measures.
So, what to do?
First of all, if you're going to forego TLS, it is helpful to understand how it works. And it is all about a handshake.
Once the client and server have agreed to use TLS, they negotiate a
stateful connection by using a handshaking procedure. During this
handshake, the client and server agree on various parameters used to
establish the connection's security:
- The handshake begins when a client connects to a TLS-enabled server
requesting a secure connection and presents a list of supported cipher
suites (ciphers and hash functions).
- From this list, the server picks
a cipher and hash function that it also supports and notifies the
client of the decision.
- The server sends back its identification in
the form of a digital certificate.[contradiction] The certificate
usually contains the server name, the trusted certificate authority
(CA) and the server's public encryption key.
- The client may contact
the server that issued the certificate (the trusted CA as above) and
confirm the validity of the certificate before proceeding.
- In order to
generate the session keys used for the secure connection, the client
encrypts a random number with the server's public key and sends the
result to the server. Only the server should be able to decrypt it,
with its private key.
- From the random number, both parties generate
key material for encryption and decryption.[contradiction] This
concludes the handshake and begins the secured connection, which is
encrypted and decrypted with the key material until the connection
If any one of the above steps fails, the TLS handshake fails, and the
connection is not created.
So, is it possible? Yes. I was taught that anything is possible. It may be expensive, but it is always possible.
I want to fully disclose that I am NOT a security professional, just an enthusiast. I do not recommend attempting this for a production-grade project or anything other than your own edification. You should DEFINITELY check out this SO post which provides an excellent explanation as to roadblocks in setting up your own security protocol.
However, if you want to move on, here are some thoughts that come to mind. These are realities that will exist regardless of which direct you went with this project.
HTTPS is supported by all major modern browsers. Even with this reality, HTTPS load times are slower than plain HTTP. Without extensive production, it is highly likely your alternative implementation will be a fraction as secure while being significantly slower. This will be a drawback of any homegrown implementation unless you are utilizing browser features, which brings us full circle back to using TLS, which is what modern HTTPS utilizes.
No matter what security measures you take, there is security in depth. So one thing that you can do right off the bat is make sure you encrypt your data in the database while also requiring strong passwords.
I reiterate that I am not a security professional and strongly discourage this as anything other than to satiate your curiosity. It is astronomically improbable that you can create a viable alternative to TLS without an extraordinarily large group of security professionals contributing to a project for years if not decades, which is what SSL/TLS can boast. That being said, a good starting point if you choose to go forward is to look at the handshake model above and see how you can implement a version of this without TLS.
I would be remiss to not share in my post that most real-life barriers to using HTTPS are being actively fought against. One of the largest - cost - is very close to becoming a non-issue. A free certificate authority will be coming out 2Q 2015 is supported by some big guns, including Mozilla and Akamai, to name a few. Here is an article.