Difference between revisions of "SSH encrypt and decrypt"
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Your key pair that You generated is Your sensitive security information. | Your key pair that You generated is Your sensitive security information. | ||
| − | Your public key can be passed on to persons/organizations You know to authenticate You as sign-on method (go see Gitlab), or it can be used as in above tutorial to encrypt messages. Being "public" does not mean You should openly advertise the contents of that key. It is theoretically possible to re-create private key based on public key, that process takes massive amounts of supercomputer time and is exponentially difficult based on key length. The longer the key the better. There is a tradeoff - longer keys work slower. In above tutorial we user 4096 bit keys. | + | Your public key can be passed on to persons/organizations You know, to authenticate You as sign-on method (go see Gitlab), or it can be used as in above tutorial to encrypt messages. Being "public" does not mean You should openly advertise the contents of that key. It is theoretically possible to re-create private key based on public key, that process takes massive amounts of supercomputer time and is exponentially difficult based on key length. The longer the key the better. There is a tradeoff - longer keys work slower. In above tutorial we user 4096 bit keys. |
| + | |||
| + | Your private key should never be shown or given out to anyone. The best practice is also to encrypt your private key with a password. | ||
| + | |||
| + | <code>ssh-keygen</code> is able to do that like this: | ||
| + | <pre> | ||
| + | linux:/home/user> ssh-keygen -p -f ~/.ssh/id_rsa | ||
| + | </pre> | ||
Revision as of 19:47, 19 November 2019
Contents
Tutorial on how to encrypt and decrypt small messages using Secure Shell keys
Why?
For example,
when you have to send someone a password and sending it over internet in plaintext is out of the question.
How
The keys
Everyone who uses Secure Shell (SSH) has an easy access to accompanying Secure Shell keys. When You do not have them, then You generate them.
All it takes is Linux, MacOS command line or Cygwin shell in Windows. A minute or two of Your time and few sips of tea. Done.
One can make simple passwordless RSA key-pair with ssh-keygen utility like this:
linux:/home/user> ssh-keygen -t rsa -b 4096 Generating public/private rsa key pair. Enter file in which to save the key (/home/user/.ssh/id_rsa): Enter passphrase (empty for no passphrase): Enter same passphrase again: Your identification has been saved in /home/user/.ssh/id_rsa. Your public key has been saved in /home/user/.ssh/id_rsa.pub. The key fingerprint is: SHA256:seDs6vDo55WegAZnG/mr8S+sgz2kvJFCc1wAGsHyB2c user@linux The key's randomart image is: +---[RSA 4096]----+ |+o.. | |oo. E | |o. + .. . | | o.oo . o | |.o=+ o S | |.+== . . | |oB*.o + | |+o=*+* . | | o*OBo+ | +----[SHA256]-----+
The process above creates 2 files id_rsa id_rsa.pub and places them into subfolder .ssh relative to your home directory.
To encrypt
Now You have Your pair of keys, the public one id_rsa.pub to encrypt and the private one id_rsa to decrypt.
Create the message
Take Your favorite text editor and create short text file message.txt with some content like:
This is very serious short message. That will be encrypted. And decrypted.
Prepare Your public key for encryption
One drawback or discouraging step for encryption is that Your public key is not usable as is.
To be usable with openssl utility it has to be in PKCS8 format.
Public key can be converted to PKCS8 format with ssh-keygen utility like this:
linux:/home/user> ssh-keygen -f ~/.ssh/id_rsa.pub -e -m pkcs8 > id_rsa_pub.pkcs8
Encrypt the message
Now You can encrypt Your super secret message with converted public key like this:
linux:/home/user> cat message.txt | openssl rsautl -encrypt -pubin -inkey id_rsa_pub.pkcs8 > message.enc
In above example we send the contents of message.txt file to openssl utility that uses converted public key id_rsa_pub.pkcs8 and then we store the output in file message.enc
To decrypt
To decrypt the encrypted message file message.enc we use openssl utility like this:
linux:/home/user> cat message.enc | openssl rsautl -decrypt -inkey ~/.ssh/id_rsa This is very serious short message. That will be encrypted. And decrypted.
In above example the contents of decrypted message are show in startard output.
To save decrypted contents one can modify the command like this:
linux:/home/user> cat message.enc | openssl rsautl -decrypt -inkey ~/.ssh/id_rsa > message.txt
Notes
Message size
This encryption / decryption method is suitable only for small messages, messages whose bitlength is smaller than used RSA key length.
If You want to encrypt longer messages or some big file(s) then the above method can be used for passing on encrypted passwords that are used for file encryption/decryption.
One should use CBC (Cipher Block Chaining) continuous block cipher like AES256 for big file encryption / decryption. openssl utility is able to do that too.
What the path?
~ denotes users home directory, in essence its a shortcut for /home/user
Then ~/.ssh means subfolder .ssh that resides in users home directory /home/user
When using full path the above would be /home/user/.ssh
Private stuff
Your key pair that You generated is Your sensitive security information.
Your public key can be passed on to persons/organizations You know, to authenticate You as sign-on method (go see Gitlab), or it can be used as in above tutorial to encrypt messages. Being "public" does not mean You should openly advertise the contents of that key. It is theoretically possible to re-create private key based on public key, that process takes massive amounts of supercomputer time and is exponentially difficult based on key length. The longer the key the better. There is a tradeoff - longer keys work slower. In above tutorial we user 4096 bit keys.
Your private key should never be shown or given out to anyone. The best practice is also to encrypt your private key with a password.
ssh-keygen is able to do that like this:
linux:/home/user> ssh-keygen -p -f ~/.ssh/id_rsa
