Vault Rails [![Build Status](https://secure.travis-ci.org/hashicorp/vault-rails.svg?branch=master)](http://travis-ci.org/hashicorp/vault-rails) =========== Vault is the official Rails plugin for interacting with [Vault](https://vaultproject.io) by HashiCorp. **The documentation in this README corresponds to the master branch of the Vault Rails plugin. It may contain unreleased features or different APIs than the most recently released version. Please see the Git tag that corresponds to your version of the Vault Rails plugin for the proper documentation.** Quick Start ----------- 1. Add to your Gemfile: ```ruby gem "vault-rails", "~> 0.1", require: false ``` and then run the `bundle` command to install. 1. Create an initializer: ```ruby require "vault/rails" Vault::Rails.configure do |vault| # Use Vault in transit mode for encrypting and decrypting data. If # disabled, vault-rails will encrypt data in-memory using a similar # algorithm to Vault. The in-memory store uses a predictable encryption # which is great for development and test, but should _never_ be used in # production. vault.enabled = Rails.env.production? # The name of the application. All encrypted keys in Vault will be # prefixed with this application name. If you change the name of the # application, you will need to migrate the encrypted data to the new # key namespace. vault.application = "my_app" # The address of the Vault server. Default: ENV["VAULT_ADDR"]. vault.address = "https://vault.corp" # The token to communicate with the Vault server. # Default: ENV["VAULT_TOKEN"]. vault.token = "abcd1234" end ``` For more customization, such as custom SSL certificates, please see the [Vault Ruby documentation](https://github.com/hashicorp/vault-ruby). 1. Add Vault to the model you want to encrypt: ```ruby class Person < ActiveRecord::Base include Vault::EncryptedModel vault_attribute :ssn end ``` Each attribute you want to encrypt must have a corresponding `attribute_encrypted` column in the database. For the above example: ```ruby class AddEncryptedSSNToPerson < ActiveRecord::Migration add_column :persons, :ssn_encrypted, :string end ``` That is it! The plugin will transparently handle the encryption and decryption of secrets with Vault: ```ruby person = Person.new person.ssn = "123-45-6789" person.save #=> true person.ssn_encrypted #=> "vault:v0:EE3EV8P5hyo9h..." ``` Advanced Configuration ---------------------- The following section details some of the more advanced configuration options for vault-rails. As a general rule, you should try to use vault-rails without these options until absolutely necessary. #### Specifying the encrypted column By default, the name of the encrypted column is `#{column}_encrypted`. This is customizable by setting the `:encrypted_column` option when declaring the attribute: ```ruby vault_attribute :credit_card, encrypted_column: :cc_encrypted ``` - **Note** Changing this value for an existing application will make existing values no longer decryptable! - **Note** This value **cannot** be the same name as the vault attribute! #### Specifying a custom key By default, the name of the key in Vault is `#{app}_#{table}_#{column}`. This is customizable by setting the `:key` option when declaring the attribute: ```ruby vault_attribute :credit_card, key: "pci-data" ``` - **Note** Changing this value for an existing application will make existing values no longer decryptable! #### Specifying a context (key derivation) Vault Transit supports key derivation, which allows the same key to be used for multiple purposes by deriving a new key based on a context value. The context can be specified as a string, symbol, or proc. Symbols (an instance method on the model) and procs are called for each encryption or decryption request, and should return a string. - **Note** Changing the context or context generator for an attribute will make existing values no longer decryptable! ##### String With a string, all records will use the same context for this attribute: ```ruby vault_attribute :credit_card, context: "user-cc" ``` ##### Symbol When using a symbol, a method will be called on the record to compute the context: ```ruby belongs_to :user vault_attribute :credit_card, context: :encryption_context def encryption_context "user_#{user.id}" end ``` ##### Proc Given a proc, it will be called each time to compute the context: ```ruby belongs_to :user vault_attribute :credit_card, context: ->(record) { "user_#{record.user.id}" } ``` The proc must take a single argument for the record. #### Specifying a default value An attribute can specify a default value, which will be set on initialization (`.new`) or after loading the value from the database. The default will be set if the value is `nil`. ```ruby vault_attribute :access_level, default: "readonly" vault_attribute :metadata, serialize: :json, default: {} ``` #### Specifying a different Vault path By default, the path to the transit backend in Vault is `transit/`. This is customizable by setting the `:path` option when declaring the attribute: ```ruby vault_attribute :credit_card, path: "transport" ``` - **Note** Changing this value for an existing application will make existing values no longer decryptable! #### Lazy attribute decryption By default, `vault-rails` will decrypt a record’s encrypted attributes on that record’s initializarion. You can configure an encrypted model to decrypt attributes lazily, which will prevent communication with Vault until an encrypted attribute’s getter method is called, at which point all of the record’s encrypted attributes will be decrypted. This is useful if you do not always need access to encrypted attributes. For example: ```ruby class Person < ActiveRecord::Base include Vault::EncryptedModel vault_lazy_decrypt! vault_attribute :ssn end # Without vault_lazy_decrypt: person = Person.find(id) # Vault communication happens here person.ssn # => "123-45-6789" # With vault_lazy_decrypt: person = Person.find(id) person.ssn # Vault communication happens here # => "123-45-6789" ``` #### Serialization By default, all values are assumed to be "text" fields in the database. Sometimes it is beneficial for your application to work with a more flexible data structure (such as a Hash or Array). Vault-rails can automatically serialize and deserialize these structures for you: ```ruby vault_attribute :details, serialize: :json, default: {} ``` It is recommended to set a default matching type that you're serializing. - **Note** You can view the source for the exact serialization and deserialization options, but they are intentionally not customizable and cannot be used for a full object marshal/unmarshal. ##### Custom Serializers For customized solutions, you can also pass a module to the `:serializer` key. This module must have the following API: ```ruby module MySerializer # @param [String, nil] raw # @return [String, nil] def self.encode(raw); end # @param [String, nil] raw # @return [String, nil] def self.decode(raw); end end ``` Your class must account for `nil` and "empty" values if necessary. Then specify the class as the serializer: ```ruby vault_attribute :details, serialize: MySerializer ``` - **Note** It is possible to encode and decode entire Ruby objects using a custom serializer. Please do not do that. You will have a bad time. #### Custom encoding/decoding If a custom serializer seems too heavy, you can declare an `:encode` and `:decode` proc when declaring the attribute. Both options must be given: ```ruby vault_attribute :address, encode: ->(raw) { raw.to_s.upcase }, decode: ->(raw) { raw.to_s } ``` - **Note** Changing the algorithm for encoding/decoding for an existing application will probably make the application crash when attempting to retrieve existing values! Caveats ------- ### Mounting/Creating Keys in Vault The Vault Rails plugin does not automatically mount a backend. It is assumed the proper backend is mounted and accessible by the given token. You can mount a transit backend like this: ```shell $ vault mount transit ``` If you are running Vault 0.2.0 or later, the Vault Rails plugin will automatically create keys in the transit backend if it has permission. Here is an example policy to grant permissions: ```javascript # Allow renewal of leases for secrets path "sys/renew/*" { policy = "write" } # Allow renewal of token leases path "auth/token/renew/*" { policy = "write" } path "transit/encrypt/myapp_*" { policy = "write" } path "transit/decrypt/myapp_*" { policy = "write" } ``` Note that you will need to have an out-of-band process to renew your Vault token. For lower versions of Vault, the Vault Rails plugin does not automatically create transit keys in Vault. Instead, you should create keys for each column you plan to encrypt using a different policy, out-of-band from the Rails application. For example: ```shell $ vault write transit/keys/ create=1 ``` Unless customized, the name of the key will always be: __ So for the example above, the key would be: my_app_people_ssn ### Searching Encrypted Attributes Because each column is uniquely encrypted, it is not possible to search for a particular plain-text value. For example, if the `ssn` attribute is encrypted, the following will **NOT** work: ```ruby Person.where(ssn: "123-45-6789") ``` This is because the database is unaware of the plain-text data (which is part of the security model). Development ----------- 1. Clone the project on GitHub 2. Create a feature branch 3. Submit a Pull Request Important Notes: - **All new features must include test coverage.** At a bare minimum, Unit tests are required. It is preferred if you include acceptance tests as well. - **The tests must be be idempotent.** The HTTP calls made during a test should be able to be run over and over. - **Tests are order independent.** The default RSpec configuration randomizes the test order, so this should not be a problem.