Password Encryption and Decryption with Jasypt and random salt - java

Hi I have a Java application. I want to use Jasypt to encrypt and decrypt the passwords with random salt generated based on size and algorithm.
This is what I want to achieve.
Create a random salt.
Encrypt the password with the salt.
Save the salt and encrypted password for the user.
I want the salt size, algorithm to be given as input.
The reason why I want decryption is that, I have some configuration files created for the application and some values are passwords that I want to save as encrypted in the file and decrypt it when I want to use it.
I have this Java class which creates salt and then creates the hash code and I could use it for validating user (I can save salt and hascode instead of encrypted password.). I changed it some and created a method to create random salt in that example. But there is no decryption method.
That's why I choose Jasypt. But I havn't seen any proper example of how to use it.
I tried following and always it returns same salt.
public static void main(String[] args) {
RandomSaltGenerator saltGenerator = new RandomSaltGenerator();
byte[] salt = saltGenerator.generateSalt(24);
System.out.println(salt);
}
Can anybody provide a proper example or how to use it in my own way? I want to achieve what Jasypt have mentioned in their article. But there are no codes available.

This article about password encryption with Jasypt describes standard best practices of storing encrypted user passwords with one-way encryption. Once you've stored a password using such techniques, there is now way to decrypt it.
If you need to encrypt and decrypt passwords for application configuration, you should consider using the StandardPBEStringEncryptor provided by Jasypt (or whatever provider best fits your data type). This page contains good explanation and example code.
Even better, Jasypt provides first class support for encrypted application configuration using .properties files (also with good support for Spring).

Related

Best way to password protect a Java console application

I am looking for a best-practice or standard method to password protecting a console application. I have researched various methods and would like some feedback on my approach.
I have decided to hash my password using Argon2 so that I only have to store the one-way hash. Everything is working as expected. The question I have is where do I store the hash? Should it be hard-coded? Should I store it in a separate file and read it in? What is the most secure way to approach this? At the end of the day I am writing this application to learn and would very much like to learn to do it the correct way. Links to any relevant reading material would also be appreciated. I continue to google...
EDIT: So what would the potential drawbacks be if I stored program password as hash in a file. The user would have to know the password to use the application. Then let the program password that is protected by the hash be the encryption key to secure the sensitive information? Even if the source code and/or hash file is manipulated, the sensitive data would not be readable since the correct password is used as the key...what am I missing?
First of all, Argon2 is a fine key derivation function for turning passwords into encryption keys.
However, if you are using the Argon2 hash as an encryption key, then don't store it on disk, obviously. If you store the encryption key next to the encrypted data you might as well not encrypt at all. One could even argue that it's worse, because it gives a false sense of security.
Properly encrypted data is useless without the key, so you don't have to protect the application itself. Just ask for the password if and when you need to encrypt or decrypt something. You can consider keeping the hash in memory for a while so you don't have to ask for it repeatedly, but don't persist it.
This is exactly how GPG works, for instance. It doesn't store any password hashes anywhere. Instead it stores private keys encrypted and just asks for the passphrase if it needs to decrypt a private key.

Reproducible encryption in Java (possibly with Jasypt)

I want to obfuscate(*) some passwords to hide them in Java source code.
Discovering jasypt I thought I encrypt the password text beforehand and then decrypt in the source code from the remembered seed + encrypted password. However, the encryption process does not seem to be reproducible: When generating an encrypted password text with
BasicTextEncryptor bte = new BasicTextEncryptor();
bte.setPassword("something"); // the "seed"
String ep = bte.encrypt("mypasswordtext")
I get in ep always different encrypted passwords back every time I run it: For example Zx5RdBLxIB1sPxG7Os3/G4aqqfy59l8n, v3-D3AZWJAybdqWac9FsjdLgMqkAS9vS or ghsD3wZwJAwjk9ghqwFLwqwgMqkwS9vS.
How can I make the encryption reproducible, so that I can use the seed plus encrypted string to generate the real password?
(*) I use "obfuscate", because I know that this isn't a secure way to hide a password at all, but at least it helps that people cannot spot the passwords just by glaning at the source code, while keeping it all contained in the source code file.
The BasicTextEncryptor will generate a random salt every time you perform an encryption and include it in the output, as you can see here: http://www.jasypt.org/api/jasypt/1.9.0/org/jasypt/encryption/pbe/StandardPBEStringEncryptor.html#encrypt(java.lang.String). Decryption should still work even though the ciphertexts are not the same.
If you wanted to produce the same result every time, you'd have to directly set up and configure a StandardPBEStringEncryptor with a non-random salt generator.
However, it would not be good practice to do either of these things, as you mention at the end of your post. If you're working on a "real-world" application, you should avoid storing these secrets in the source code at all.

Decrypt and encrypt using PBKDF2 java

Is there a way to decrypt PBKDF2 password in java. Java has implementation of PBKDF2 algorithm as PBKDF2WithHmacSHA1. I got the code to create hashes for password. I referred to below link for hashing technique:
http://howtodoinjava.com/security/how-to-generate-secure-password-hash-md5-sha-pbkdf2-bcrypt-examples/
My requirement is to store the third Party FTP server password in the encrypted format and get back the password in plain text form from DB when there is a need to login into the server. Can anyone suggest best password encryption method?
Note that PBKDF2 is a hashing-method rather than an encryption-method (to be precise: it is a method to derive an encryption-key from a password but it is frequently used as a password-hashing method as well). The whole point of PBKDF2 is to make it impossible to get the original password other than by brute-force guessing and make that as hard as possible too.
If you are talking about your users' passwords: you should not be able to get them in clear at all - if you did and let me know (e.g. by showing me my password) I'd instantly mark your whole site as insecure.
If you need to keep an encrypted password for your application to access another service then PBKDF2 is the wrong tool for the job, use a real encryption-algorithm like AES instead.
No it's impossible by design! Wonder why?
Following 2 articles will answer all your questions:
https://nakedsecurity.sophos.com/2013/11/20/serious-security-how-to-store-your-users-passwords-safely/
https://crackstation.net/hashing-security.htm

Writing Simple Crypto using Different Passwords for Encrypting/Decrypting

I am posed with a problem which I have no idea how to solve, essentially I have these Files which one may enter a "write" or "read" password (these passwords are different), and I need to Encrypt and Decrypt these files using a common algorithm such as AES.
I know how to use crypto libraries (I will be using the ones provided in Java), however, I am unsure how to make this secure, or how to implement this.
I originally thought of storing salted hashes of these passwords for write/read, and then checking the entered password, however, I am unsure how the Crypto would work, if I have a keystore in say Java, won't it need a password so the keys don't appear in plaintext; I cannot have the keystore password in plaintext anywhere and I am not allowed to just make one up. Is there any well known solution to this problem I am positing which I can study?
Essentially: is there anyway to get access to encrypting or decrypting using a key derived from read/write passwords DEPENDING on the type of password entered, i.e. a user entering a READ password cannot encrypt, just decrypt.
Public-key cryptography has two separate keys, one to decrypt, one to encrypt. Usually, one of the two is public, though. In your case, you'd want to keep both private, and protect them with your two passwords. I suppose that would work for RSA (where the public key cannot be derived from the private key, which in other schemes it could).
So you'd be creating an RSA keypair, and store the two keys separately, protected with the two passphrases. That way you can control access to them individually.
Use RSA encryption to encrypt and decrypt an AES key. Use the AES key to encrypt and decrypt the content file.
The Java Keystore API doesn't support encryption of public key entries, but it does encourage the use of a password to protect the integrity of public keys. Your application could be written to use the "encryption" password to load a key store with the "public" encryption key, and fail if the wrong password is entered. Of course, a user can circumvent this outside the application, and get access to the public key using something like keytool or their own custom code. But you can't really stop someone from performing encryption with some key; why do you care if they use this key?
Private key entries would be encrypted with the "decryption" password. This common use case is well supported by the Keystore API.
If you are not allowed to store the key(s) elsewhere, I would store them in the encrypted file. I would encrypt the file with AES and then encrypt that key (the "file-key") twice by two AES keys (read-key and write-key and store:
[length-of-next-section] [file-key-encrypted-by-read] [length] [file-key-encrypted-by-write-key] [length] [file-data-as-encrypted-by-file-key]
FWIW, this is akin to how MAC OS X's "File Vault 2" whole disk encryption works -- the disk encrypted with a key, and 1 or more people's passwords are used to encrypt that key, thus any of these person's passwords can be used to "unlock" the disk at boot time.

Changing encryption algorithm

Does anyone know good tutorials to change PBEWithMD5AndDES encryption algorithm to AES for a Java application? Specially , I want to know what precautions I should take while changing this algorithm to more secure one. Any important test cases to check before and after algorithm changes. Another question is since I have used PBEWithMD5AndDES , most of the user passwords are encrypted using that algorithm. So if I change my algorithm to AES , how do I make sure that decryption of passwords happen with old algorithm while I can still use new algorithm for any new encryption.
Normally you wouldn't encrypt a users password, you'd just hash it with a salt instead.
Migrating from one encryption system to another is going to be a bit of a pain, as I see it you have two options:
During the upgrade process decrypt then re-encrypt all the passwords
Add a flag indicating the encryption method used. All existing passwords will obviously be set to the current standard. New users will be set to whatever method you choose and you can migrate other users when they change their password.
If you've already got data encrypted in format a, and you want to start using another encryption scheme, b, I can think of two ways to accomplish this:
Decrypt all of your data and re-encrypt it using `b`. This approach would be good when you can take your data store offline and "fix everything at once."
For each item you attempt to decrypt, try to decrypt it using `b` first. If that fails, decrypt it using `a`. The next time you try to encrypt something, make sure you use `b`. This approach could be used when you can't take your data store offline, but you want to encrypt all of your data using another algorithm. All of your data will eventually be encrypted using the other algorithm.
There's really no problem changing algorithms. What you need to do is decrypt the cipher text and then encrypt the resulting plain text with the new algorithm. That's straightforward. If you are going to perform this transition over time, I would suggest creating a new database table that keeps track of whether a particular entity (based on unique id) has been transfered to the new algorithm. If it has, then you simply use the new algorithm to decrypt it and you can forget about it, if not, then you use the old algorithm to decrypt it. Regardless though, all new encryption should be performed with the new algorithm.
Now, there's a second issue here. Why are you bothering to decrypt passwords? Just save the hash of the password and forget about it. If you are able to decrypt passwords, you introduce a potential vulnerability. If a malicious user can get a hold of your key you use to encrypt those passwords, then they could access the plain text of the password. Not only could the user then use that information to compromise your system, if your users use the same username/password combination for other sites, those accounts would be compromised as well. You should only store a hash of the password (SHA is a good one, don't use MD5) and then when the user attempts to log in, you hash the input and compare the two results. You have no need to know what the plain text password is.
you may look into ESAPI - java http://code.google.com/p/owasp-esapi-java/
ESAPI 1.4 was using PBEWithMD5AndDES, but in 2.0 they introduced AES
check their mail chain here
you may check the difference between the two implementations
PBEWithMD5AndDES is a method of taking a user's password and from it deriving an encryption scheme that can be used to protect further data. It is not a method of verifying a password, nor of encrypting one.
If you are only interested in password validation, then decrypt the passwords and replace them with a secure hash and in future match the hashes. You will also need your password reminder service to a password reset service.
The question is where is the password you are passing into the PBE algorithm coming from? If it is a fixed password for your application, then you just need to replace it and perform some kind of rolling upgrade. As an observation, if you are storing encrypted data as text, either hex or base-64 encoded, there are characters that cannot appear in the text output and which you can hence prepend to indicate a newer encryption scheme. For example the : character does not appear in base-64. That will allow you to identify what has been upgraded and what has not.
If the passwords are coming from the user, then each user has their own password derived cipher. In this case you can only re-encrypt whatever data has been encrypted with the user's cipher when the user provides their password.
The most direct replacement is going to be along the lines of PBEWithSHA256And256BitAES. Unfortunately, this is not supported by Java 6, so you will need a 3rd party JCE library such as Bouncy Castle. Bouncy Castle offers PBEWithSHA256And256BitAES-CBC-BC, which would be a suitable replacement.
The process of upgrading the cipher is a challenge. Whatever data has been encrypted with DES can only be decrypted with the user's password. I assume you do not have access to the passwords. This means you can only re-encrypt the data when the person who knows the password provides it. You are going to have a long period of time when your system contains a mixture of ciphers, so you need a way of identifying what is converted.
If we are talking about files, you could change the file suffix, or the folder they are stored in. If we are talking about BLOBs in a database, you could add an extra column to the database table to say what the encryption method is. If neither of those are possible you could add some form of header to the data to indicate that it has been encrypted in a new way. That's slightly risky as your existing data has no header and there is an outside chance it will match the new header by accident.
It may also be advisable to keep a list of which users have not yet had their data converted so you can prompt them to convert.

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