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I noticed that most sites send the passwords as plain text over HTTPS to the server. Is there any advantage if instead of that I sent the hash of the password to the server? Would it be more secure?

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How is a question about building a secure website not a programming question? – Eli Aug 2 '10 at 20:00
This is a solid software systems architecture question. Please do not close. – Paul Sasik Aug 2 '10 at 20:03
This is a programming question that belongs on StackOverflow. Network security is often a critical aspect of commercial software programming. – yfeldblum Aug 2 '10 at 20:14
@Jader Dias: I know you didn't ask this, but it wouldn't make any more secure if you hash it, THEN send it over https. In fact, it might make it less secure, since you exposes your salt. Also, (talking out my back-side here), the mixing of algorithms might cause more hash collisions, and make it more hackable. – Merlyn Morgan-Graham Aug 2 '10 at 20:26
@Merlyn "hash collisions" good point! – Jader Dias Aug 3 '10 at 11:46

9 Answers 9

up vote 15 down vote accepted

Since it's over HTTPS, it's definitely just fine to send the password without hashing (over HTTPS it's not plaintext). Furthermore, if your application is depending on HTTPS to keep it's content secure, then it's useless to hash the password before sending it over HTTPS (i.e. if an attacker can unencrypt the data on the wire, you're screwed anyways)

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This shouldn't be a problem. If the client is using a proxy, then all the proxy will see is the HTTPS encrypted data. If you're talking about a man-in-the-middle attack, a properly configured certificate should prevent this. – carnold Aug 2 '10 at 20:03
@Jader: No amount of fiddling with the data will stop a MITM attack, since it can just relay whatever comes to it. It doesn't matter whether you're transmitting a password or hash. That's a completely different matter. – David Thornley Aug 2 '10 at 20:10
The purpose of SSL (HTTPS = HTTP over SSL) is to thwart MITM. – yfeldblum Aug 2 '10 at 20:20
@carnold - MINTM - What about redirecting to http? Would most people notice? sslstrip - – nate c Aug 2 '10 at 20:38
@Jader Dias your trying to stop a problem that doesn't exist. HTTPS stops this problem, a client side hash does not add any amount of security. The client can never be trusted. – rook Aug 2 '10 at 22:40

This is an old question, but I felt the need to provide my opinion on this important matter. There is so much misinformation here

The OP never mentioned sending the password in clear over HTTP - only HTTPS, yet many seem to be responding to the question of sending a password over HTTP for some reason. That said:

I believe passwords should never be retained (let alone transmitted) in plain text. That means not kept on disk, or even in memory.

People responding here seem to think HTTPS is a silver bullet, which it is not. It certainly helps greatly however, and should be used in any authenticated session.

There is really no need to know what an original password is. All that is required is a reliable way to generate (and reliably re-generate) an authentication "key" based on the original text chosen by the user. In an ideal world this text should immediately generate a "key" by hashing it using irreversible salt. This salt should be unique to the user credential being generated. This "key" will be what your systems use as a password. This way if your systems ever get compromised in the future, these credentials will only ever be useful against your own organisation, and nowhere else where the user has been lazy and used the same password.

So we have a key. Now we need to clean up any trace of the password on the clients device.

Next we need to get that key to your systems. You should never transmit a key or password "in the clear". Not even over HTTPS. HTTPS is not impenetrable. In fact, many organisations can become a trusted MITM - not from an attack perspective, but to perform inspections on the traffic to implement their own security policies. This weakens HTTPS, and it is not the only way it happens (such as redirects to HTTP MITM attacks for example). Never assume it is secure.

To get around this, we hash the key with a once off nonce. This nonce is unique for every submission of a key to your systems - even for the same credential during the same session if you need to send it multiple times. You can reverse this nonce once it arrives in your own systems to recover the authentication key, and authenticate the request.

At this point I would irreversibly hash it one last time before it is permanently stored in your own systems. That way you can share the credential's salt with partner organisations for the purposes of SSO and the like, whilst being able to prove your own organisation cannot impersonate the user. The best part of this approach is you are never sharing anything generated by the user without their authorisation.

Do more research, as there is more to it than even I have divulged, but if you want to provide true security to your users, I think this method is currently the most complete response here.


Use HTTPS. Securely hash passwords, irreversibly, with a unique salt per password. Do this on the client - do not transmit their actual password. Transmitting the users original password to your servers is never "OK" or "Fine". Clean up any trace of the original password. Use a nonce regardless of HTTP/HTTPS. It is much more secure on many levels. (Answer to OP).

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+1 For not assuming HTTPS is a silver bullet. – Hello World Jun 11 '14 at 8:35
So I really like this answer, but I wonder if there may be a slight misrepresentation about how the authentication key (which is the, hopefully salted, hash of the actual password) is "protected". Now of course this is an additional layer of security than otherwise, but once that authentication key is compromised it can still be brute-forced because the attacker will know the algorithm used to generate it (since it is on the client system). While I would completely agree with the use of the term "protected", it is not quite bulletproof. – Steven Lu Mar 24 at 22:46

No, in fact this would be a vulnerability. If the attacker is able to obtain the hash from the database, then he could use it to authenticate without needing to crack it. Under no circumstance should a user or an attacker be able to obtain a hashes password.

The whole point of hashing passwords is to add an extra layer of security. If an attacker is able to obtain the hash and salt from the database using SQL Injection or an insecure backup then he has to find the plain text by brute forcing it. John The Ripper is commonly used to break salted password hashes.

Not using https is a violation of the OWASP Top 10: A9-Insufficient Transport Layer Protection

EDIT: If in your implementation you calculate a sha256(client_salt+plain_text_password) and then calculate another hash on the server side sha256(server_salt+client_hash) then this is not a serious vulnerability. However, it is still susceptible to eavesdropping and replaying the request. Thus this is still a clear violation of WASP A9. However, this is still utilizing a message digest as a security layer.

The closest thing i have seen to a client-side replacement for https is a diffie-hellman in key exchange in javascript. However, this does prevent active MITM attacks and thus is till technicality a violation of OWASP A9. The Authors of the code agree that this is not a complete replacement for HTTPS, however it is better than nothing and better than a client-side hashing system.

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Actually I would hash it again in the server, so please edit your answer contemplating this scenario. – Jader Dias Aug 2 '10 at 20:00
@Jader Dias updated. – rook Aug 2 '10 at 20:24
@Rook is using diffie-hellman key exchange together with https is a "useless" solution ? ( I mean we can only use https and diffie helman do not increase the security imao ) – Michel Gökan Dec 3 '12 at 8:39
@Michel Kogan a DH key exchange can be used in HTTPs along with other tools. – rook Dec 3 '12 at 16:22
@Rook It is a best practice to apply a hash on the server, so I think you should update the beginning of your answer not to dismiss client-side hashing, and only then mention that the server's stored hashes and salts should never be exposed. – Levente Pánczél May 27 '14 at 10:09

Sending a hash over the wire completely defeats the purpose of the hash, because an attacker can simply send the hash and forget about the password. In a nutshell, a system that athenticates using a hash in clear text is wide open and can be compromise with nothing more than network sniffing.

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This seems total bullsh... How is a hash less secure than a password? – Levente Pánczél May 27 '14 at 10:11
This is only true for "dumb" hashes. Consider this: A server sends a salt S to the client and the client does HASH(S + PASSWORD), and sends it to the server. The server honors that specific hash only for the current session. An attacker can indeed send the hash and forget about the password, but ONLY FOR THE CURRENT SESSION. Therefore it's more secure than plain-text. – Hello World Jun 11 '14 at 8:38
Update: Digest Access Authentication is even more sophisticated: – Hello World Jun 11 '14 at 8:53
Just to be clear: when I say "defeats the purpose of hash" I'm referring to common and secure practice of hashing passwords before storing them in a database. Nevertheless the argument holds that sending a hashed value instead of a password does nothing to enhance security without additional steps. – Paul Keister Jun 11 '14 at 14:42

Use HTTP Digest - it secures the password even over http (but best useage would be http digest over https)


HTTP digest access authentication is one of the agreed methods a web server can use to negotiate credentials with a web user (using the HTTP protocol). Digest authentication is intended to supersede unencrypted use of the Basic access authentication, allowing user identity to be established securely without having to send a password in plaintext over the network. Digest authentication is basically an application of MD5 cryptographic hashing with usage of nonce values to prevent cryptanalysis.


If you want to see a "real life" use, you could look at phpMyID - a php openid provider that uses http digest authentication

.. or you could start from the php auth samples at

Http digest rfc:

From my tests all modern browsers support it...

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HTTP Digest implements what I meant in this question, but would we have any advantage if we used HTTPS Digest (SSL + HTTP Digest) ? – Jader Dias Aug 2 '10 at 20:21
One main difference would be that everything is sent/received encrypted - http headers send and received and the html reply. To someone randomly trying to "hack" ssl using a man-in-the-middle-attack the http digest would be an extra motive to make him search another easier target, or if he is logging all captured traffic your passwords is still safer. I may have misunderstood the question, english is not my first language. – vlad b. Aug 2 '10 at 20:54
Hash over password has one big advantage: if the traffic is logged or captured somehow it will make the job harder for that person. Also, with http digest, if ssl is not always required, you could let users choose between http and https. Or you could use different protocols for diferent servers (for example i do not enforce https to view/modify less importand data (username, avatar uploading) but enforce https on billing and other parts of the site (that way i can decrease the load on some servers, if/when needed). – vlad b. Aug 2 '10 at 20:58

If you're looking to replace a clear-text password over HTTPS with a hashed password over HTTP then you're asking for trouble. HTTPS generates a random, shared transaction key when opening up a communication channel. That's hard to crack, as you're pretty much limited to brute forcing the shared key used for a (relatively) short-term transaction. Whereas your hash can be just sniffed, taken off-line and looked up in a rainbow table or just brute forced over a long amount of time.

However, a basic client-side password obfuscation (not hash) sent over HTTPS does have some value. If I'm not mistaken this technique is actually used by some banks. The purpose of this technique is not to protect the password from sniffing over the wire. Rather, it's to stop the password from being usable to dumb spying tools and browser plug-ins that just grab every HTTPS GET/POST request that they see. I've seen a log file captured from a malicious website that was 400MB of random GET/POST transactions captured from user sessions. You can imagine that websites that used just HTTPS would show up with clear-text passwords in the log, but websites with very basic obfuscation (ROT13) as well would show up with passwords that are not immediately of use.

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"but websites with very basic obfuscation (ROT13) as well would show up with passwords that are not immediately of use" - this contradicts the original statement. The key is that they are not IMMEDIATELY of use, but that really is futile. The password and its ROT13 are equivalent. BUT if you SHA2 the password, it will not be present in the logs (so your admins do not get to know users' possible passwords to other systems), and you're NO LONGER in violation of almost every privacy Act. – Levente Pánczél May 27 '14 at 10:06

It would actually be less secure to hash the password and send it over a non-encrypted channel. You will expose your hashing algorithm on the client. Hackers could just sniff the hash of the password and then use it to hack in later.

By using HTTPS, you prevent a hacker from obtaining the password from a single source, since HTTPS uses two channels, both encrypted.

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Actually I would hash it again in the server, and I would use HTTPS anyway, so please edit your answer contemplating this scenario. – Jader Dias Aug 2 '10 at 20:02
@Jader, the point is, all an attacker needs now is the first hash, rather than a password. In effect, the hash you take of the password on the client side is now just as useful as the password itself. So you're not really gaining much security. – Peter Recore Aug 2 '10 at 20:39

If you're connected to an https server the data stream between the server and browser should be encrypted. The data is only plain text before being sent and after being recieved. Wikipedia article

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Don't proxies intercept this data? – Jader Dias Aug 2 '10 at 20:03
As I understand it they do, but the proxy is not responsible for encryption/decryption and unless it is an unscrupulous proxy only passes the data on. The encryption type and strength is dependent on what the server and client can both support. – jac Aug 2 '10 at 20:17
Even if the proxy is unxrupulous, it can't decrypt the data as it is encrypted using the server's public key. The only way a proxy can decrypt the data is to spoof the server's certificate with a different key – carnold Aug 2 '10 at 20:32
@Jader. If they did, it would make HTTPS pretty lame. when you authenticate to a server with HTTPS, you are getting a guarantee (assuming the certificate is valid) that you are connecting to a certain server, and have an encrypted path from one end to the other. Hypothetically, a man in the middle attack could be done to fool you of course, but that is not the same as a basic web proxy. – Peter Recore Aug 2 '10 at 20:44

The password in plaintext show never (not even when using HTTPS) leave the client. It should be irreversibly hashed before leaving the client as there is no need for the server to know the actual password.

Hashing then transmitting solves security issues for lazy users that use the same password in multiple locations (I know I do). However this does not protect your application as a hacker that gained access to the database (or in any other way was able to get his hands on the hash) as the hacker could just transmit the hash and have the server accept it.

To solve this issue you could of course just hash the hash the server receives and call it a day.

My approach to the issue in a socket-based web application I'm creating is that on connection to the client the server generates a salt (random string to be added before hashing) and stores it on the sockets variable, then it transmits this hash to the client. The client takes the users password, hashes it, adds the salt from the server and hashes the whole thing, before transmitting it to the server. Then it's sent to the server which compares this hash to the hash(hash in the DB + salt). As far as I know this is a good approach, but to be fair I haven't read a lot on the topic and if I'm wrong about anything I'd love to be corrected :)

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