I want to encrypt and decrypt one file using one password.
How can I use OpenSSL to do that?
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openssl aes-256-cbc -a -salt -in secrets.txt -out secrets.txt.enc
openssl aes-256-cbc -d -a -in secrets.txt.enc -out secrets.txt.new
You likely want to use
gpg instead of
openssl so see "Additional Notes" at the end of this answer. But to answer the question using
openssl enc -aes-256-cbc -in un_encrypted.data -out encrypted.data
openssl enc -d -aes-256-cbc -in encrypted.data -out un_encrypted.data
Note: You will be prompted for a password when encrypting or decrypt.
Your best source of information for
openssl enc would probably be: https://www.openssl.org/docs/man1.1.1/man1/enc.html
openssl enc takes the following form:
openssl enc -ciphername [-in filename] [-out filename] [-pass arg] [-e] [-d] [-a/-base64] [-A] [-k password] [-kfile filename] [-K key] [-iv IV] [-S salt] [-salt] [-nosalt] [-z] [-md] [-p] [-P] [-bufsize number] [-nopad] [-debug] [-none] [-engine id]
Explanation of most useful parameters with regards to your question:
-e Encrypt the input data: this is the default. -d Decrypt the input data. -k <password> Only use this if you want to pass the password as an argument. Usually you can leave this out and you will be prompted for a password. The password is used to derive the actual key which is used to encrypt your data. Using this parameter is typically not considered secure because your password appears in plain-text on the command line and will likely be recorded in bash history. -kfile <filename> Read the password from the first line of <filename> instead of from the command line as above. -a base64 process the data. This means that if encryption is taking place the data is base64 encoded after encryption. If decryption is set then the input data is base64 decoded before being decrypted. You likely DON'T need to use this. This will likely increase the file size for non-text data. Only use this if you need to send data in the form of text format via email etc. -salt To use a salt (randomly generated) when encrypting. You always want to use a salt while encrypting. This parameter is actually redundant because a salt is used whether you use this or not which is why it was not used in the "Short Answer" above! -K key The actual key to use: this must be represented as a string comprised only of hex digits. If only the key is specified, the IV must additionally be specified using the -iv option. When both a key and a password are specified, the key given with the -K option will be used and the IV generated from the password will be taken. It probably does not make much sense to specify both key and password. -iv IV The actual IV to use: this must be represented as a string comprised only of hex digits. When only the key is specified using the -K option, the IV must explicitly be defined. When a password is being specified using one of the other options, the IV is generated from this password. -md digest Use the specified digest to create the key from the passphrase. The default algorithm as of this writing is sha-256. But this has changed over time. It was md5 in the past. So you might want to specify this parameter every time to alleviate problems when moving your encrypted data from one system to another or when updating openssl to a newer version.
Though you have specifically asked about OpenSSL you might want to consider using GPG instead for the purpose of encryption based on this article OpenSSL vs GPG for encrypting off-site backups?
To use GPG to do the same you would use the following commands:
gpg --output encrypted.data --symmetric --cipher-algo AES256 un_encrypted.data
gpg --output un_encrypted.data --decrypt encrypted.data
Note: You will be prompted for a password when encrypting or decrypt.
openssl enc -in infile.txt -out encrypted.dat -e -aes256 -k symmetrickey
openssl enc -in encrypted.dat -out outfile.txt -d -aes256 -k symmetrickey
For details, see the
DO NOT USE OPENSSL DEFAULT KEY DERIVATION.
Currently the accepted answer makes use of it and it's no longer recommended and secure.
It is very feasible for an attacker to simply brute force the key.
PBKDF1 applies a hash function, which shall be MD2 , MD5  or SHA-1 , to derive keys. The length of the derived key is bounded by the length of the hash function output, which is 16 octets for MD2 and MD5 and 20 octets for SHA-1. PBKDF1 is compatible with the key derivation process in PKCS #5 v1.5. PBKDF1 is recommended only for compatibility with existing applications since the keys it produces may not be large enough for some applications.
PBKDF2 applies a pseudorandom function (see Appendix B.1 for an example) to derive keys. The length of the derived key is essentially unbounded. (However, the maximum effective search space for the derived key may be limited by the structure of the underlying pseudorandom function. See Appendix B.1 for further discussion.) PBKDF2 is recommended for new applications.
openssl enc -aes-256-cbc -pbkdf2 -iter 20000 -in hello -out hello.enc -k meow
openssl enc -d -aes-256-cbc -pbkdf2 -iter 20000 -in hello.enc -out hello.out
Note: Iterations in decryption have to be the same as iterations in encryption.
Iterations have to be a minimum of 10000. Here is a good answer on the number of iterations: https://security.stackexchange.com/a/3993
Also... we've got enough people here recommending GPG. Read the damn question.
Note that the OpenSSL CLI uses a weak non-standard algorithm to convert the passphrase to a key, and installing GPG results in various files added to your home directory and a gpg-agent background process running. If you want maximum portability and control with existing tools, you can use PHP or Python to access the lower-level APIs and directly pass in a full AES Key and IV.
Example PHP invocation via Bash:
IV='c2FtcGxlLWFlcy1pdjEyMw==' KEY='Twsn8eh2w2HbVCF5zKArlY+Mv5ZwVyaGlk5QkeoSlmc=' INPUT=123456789023456 ENCRYPTED=$(php -r "print(openssl_encrypt('$INPUT','aes-256-ctr',base64_decode('$KEY'),OPENSSL_ZERO_PADDING,base64_decode('$IV')));") echo '$ENCRYPTED='$ENCRYPTED DECRYPTED=$(php -r "print(openssl_decrypt('$ENCRYPTED','aes-256-ctr',base64_decode('$KEY'),OPENSSL_ZERO_PADDING,base64_decode('$IV')));") echo '$DECRYPTED='$DECRYPTED
You could also use PHP's
openssl_pbkdf2 function to convert a passphrase to a key securely.
As mentioned in the other answers, previous versions of openssl used a weak key derivation function to derive an AES encryption key from the password. However, openssl v1.1.1 supports a stronger key derivation function, where the key is derived from the password using
pbkdf2 with a randomly generated salt, and multiple iterations of sha256 hashing (10,000 by default).
To encrypt a file:
openssl aes-256-cbc -e -salt -pbkdf2 -iter 10000 -in plaintextfilename -out encryptedfilename
To decrypt a file:
openssl aes-256-cbc -d -salt -pbkdf2 -iter 10000 -in encryptedfilename -out plaintextfilename
There is an open source program that I find online it uses openssl to encrypt and decrypt files. It does this with a single password. The great thing about this open source script is that it deletes the original unencrypted file by shredding the file. But the dangerous thing about is once the original unencrypted file is gone you have to make sure you remember your password otherwise they be no other way to decrypt your file.
Here the link it is on github
Additional comments to mti2935 good answer.
It seems the higher iteration the better protection against brute force, and you should use a high iteration as you can afford performance/resource wise.
On my my old Intel i3-7100 encrypting a rather big file 1.5GB:
time openssl enc -aes256 -e -pbkdf2 -iter 10000 -pass pass:"mypassword" -in "InputFile" -out "OutputFile" Seconds: 2,564s time openssl enc -aes256 -e -pbkdf2 -iter 262144 -pass pass:"mypassword" -in "InputFile" -out "OutputFile" Seconds: 2,775s
Not really any difference, didn't check memory usage though(?)
With today's GPUs, and even faster tomorrows, I guess billion brute-force iteration seems possible every seconds.
12 years ago a
NVIDIA GeForce 8800 Ultra could iterate over 200.000 millions/sec iterations (MD5 hashing though)