PGPainless - Use OpenPGP Painlessly! ==================================== [![Travis (.org)](https://travis-ci.org/pgpainless/pgpainless.svg)](https://travis-ci.org/pgpainless/pgpainless) [![Git Tag](https://badgen.now.sh/github/tag/pgpainless/pgpainless)](https://github.com/pgpainless/pgpainless/tags) [![Coverage Status](https://coveralls.io/repos/github/pgpainless/pgpainless/badge.svg?branch=master)](https://coveralls.io/github/pgpainless/pgpainless?branch=master) About ----- PGPainless aims to make using OpenPGP in Java projects as simple as possible. It does so by introducing an intuitive Builder structure, which allows easy setup of encryption / decrytion operations, as well as straight forward key generation. PGPainless is based around the Bouncycastle java library and can be used on Android down to API level 9. ### NOTE: PGPainless is in a *very* early state of development and should under no circumstances be used for serious production usage yet. ## Include PGPainless in your Project PGPainless is available on maven central. In order to include it in your project, just add the maven central repository and add PGPainless as a dependency. ```gradle repositories { mavenCentral() } dependencies { compile 'org.pgpainless:pgpainless-core:0.0.1-alpha1' } ``` ## How to use PGPainless The entry point to the API is the `PGPainless` class. Here you can find methods for a quick start :) ### Generate Keys The first thing you probably want to do is generate you some nice tasty Key Pairs. The most straight forward way to do so is by calling ```java PGPSecretKeyRing keyRing = PGPainless.generateKeyRing() .simpleRsaKeyRing("Juliet ", RsaLength._4096); ``` but feel free to explore the API further. PGPainless allows you to create Key Pairs consisting of a master key plus several sub keys, even with different algorithms at the same time! Take for example a look at this delicious key: ```java PGPSecretKeyRing keyRing = PGPainless.generateKeyRing() .withSubKey( KeySpec.getBuilder(ECDSA.fromCurve(EllipticCurve._P256)) .withKeyFlags(KeyFlag.SIGN_DATA) .withDetailedConfiguration() .withDefaultSymmetricAlgorithms() .withDefaultHashAlgorithms() .withPreferredCompressionAlgorithms(CompressionAlgorithm.ZLIB) .withFeature(Feature.MODIFICATION_DETECTION) .done()) .withSubKey( KeySpec.getBuilder(ECDH.fromCurve(EllipticCurve._P256)) .withKeyFlags(KeyFlag.ENCRYPT_COMMS, KeyFlag.ENCRYPT_STORAGE) .withDefaultAlgorithms()) .withMasterKey( KeySpec.getBuilder(RSA_GENERAL.withLength(RsaLength._8192)) .withKeyFlags(KeyFlag.SIGN_DATA, KeyFlag.CERTIFY_OTHER) .withDefaultAlgorithms()) .withPrimaryUserId("Juliet ") .withPassphrase("romeo_oh_Romeo<3") .build(); ``` ### Encrypt / Sign Data Encrypting and signing data is pretty straight forward as well. ```java EncryptionStream encryptor = PGPainless.createEncryptor() .onOutputStream(targetOuputStream) .toRecipients(publicKeyRings) .usingSecureAlgorithms() .signWith(secretKeyDecryptor, signingKeyRing) .noArmor(); ``` The resulting `EncryptionStream` can then be used to encrypt data like follows: ```java Streams.pipeAll(sourceInputStream, encryptor); sourceInputStream.close(); encryptor.close(); ``` The encrypted data will be written to the provided `targetOutputStream`. Additionally you can get information about the encrypted data by calling ```java PainlessResult result = encryptor.getResult(); ``` That object will contain information like to which keys the message is encrypted, which keys were used for signing and so on. ### Decrypt / Verify Encrypted Data To process incoming encrypted / signed data, just do the following: ```java DecryptionStream decryptor = PGPainless.createDecryptor() .onInputStream(sourceInputStream) // insert encrypted data here .decryptWith(secretKeyDecryptor, secretKey) .verifyWith(trustedKeyIds, senderKeys) .ignoreMissingPublicKeys() .build(); ``` Again, the resulting `DecryptionStream` can be used like a normal stream. ```java Streams.pipeAll(decryptor, targetOutputStream); decryptor.close(); ``` *After* the `DecryptionStream` was closed, you can get metadata about the processed data by retrieving the `PainlessResult`. Again, this object will contain information about how the message was encrypted, who signed it and so on. ```java PainlessResult result = decryptor.getResult(); ``` ## About PGPainless is a by-product of my [Summer of Code 2018 project](https://blog.jabberhead.tk/summer-of-code-2018/). For that project I was in need of a simple to use OpenPGP library. Originally I was going to use [Bouncy-GPG](https://github.com/neuhalje/bouncy-gpg) for my project, but ultimately I decided to create my own OpenPGP library which better fits my needs. However, PGPainless is heavily influenced by Bouncy-GPG and I would definitely recommend you to use it instead of PGPainless if you want a more mature, better tested code base. To reach out to the development team, feel free to send a mail: info@pgpainless.org ## Development PGPainless is developed in - and accepts contributions from - the following places: * [Github](https://github.com/pgpainless/pgpainless) * [Codeberg](https://codeberg.org/PGPainless/pgpainless) Please follow the [code of conduct](CODE_OF_CONDUCT.md) if you want to be part of the project.