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I've implemented a HTTP server (CherryPy and Python) that receives an encrypted file from a client (Android). I'm using OpenSSL to decrypt the uploaded file. Currently I'm using openssl -enc -pass file:password.txt -in encryptedfile -out decryptedfile to perform to decryption on the server side. As you can see the password used by openssl is stored in a plain text file (password.txt).

Is there a more secure way to store this OpenSSL password?


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Pass it through a higher FD, and use that FD in the command line. Note that you'll need to use the preexec_fn argument to set up the FD before the process gets run.

subprocess.Popen(['openssl', ..., 'file:/dev/fd/12', ...], ...,
  preexec_fn=passtofd12(password), ...)
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thanks. Can you please explain why using a file descriptor (FD) is more secure in this case ? – Soumya Simanta Apr 12 '11 at 4:40
Because you don't need a temporary file to hold the password; the Python process can inject it into the openssl process directly. – Ignacio Vazquez-Abrams Apr 12 '11 at 6:03

For the sake of privacy for a user and other reasons passwords are generally not stored by servers. Typically users choose a password which is stored as a hash of some sort on the server.

Users then authenticate with the web application by checking the stored hash against a hash supplied based on user input. Once the client is authenticated a session identifier is provided allowing use of server resource(s). During this time a user can for instance upload the file. Encryption of the file on the server should be un-necessary assuming the hosting server is secured properly and and absent of other issues.

In this case, the authentication mechanism is not made clear, neither are the threats that pose a danger, or the life cycle of that uploaded file.

It seems that a server is receiving an encrypted file, plus some type of password. Is the protection of the password being considered during the transmission phase, or as storage on the server? The HTTPS protocol can help guard against threats concerning the transmission of the file/data. As I see from your description the concern seems to be storage on the server side.

Encrypting the passwords once they have been received by the server (either individually or by using a master password) adds another layer of security, but this approach is not without fault as the passphrase either (1) needs to be stored on the server in cleartext for accessing the files (2) or needs to be entered manually by an administrator when needed as part of any processing requiring the password - note that any resources encrypted with the password become un-useable to users.

While I am not completely aware of what is going on, the most secure thing to do would be to re-work the web application and carefully think through the design and its requirements.

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thanks for responding. Let me explain the use case. – Soumya Simanta Apr 12 '11 at 4:48
I've an encrypted file on an Android device that I want to upload to a server. The file transfer is done using HTTP and not HTTPS because the file is large and therefore encrypted offline (to save battery and CPU). The client may not know the encryption key. As you said I can assume the server is "secure" and store the key as plain text on the server or maybe the client send the password over a secure connection (HTTPS). The server can match the SHA1 hash with the hash of the password and then encrypt the file with the password. – Soumya Simanta Apr 12 '11 at 4:57
@Soumya Simanta: Be aware that HTTP connections are more susceptible to MITM attacks than are HTTPS. Consider transferring a message digest for the file along with the password in HTTPS, and transferring the file in HTTP. However, I would do everything in HTTPS. The difference seems nominal as both approaches have the same operations being done. HTTPS is probably faster because both transmission and encryption are done in parallel, versus having to encrypt the entire file before having it sent over the wire. The server saves resources too by not having to decrypt. – sosc Apr 12 '11 at 5:49

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