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Ruby ORM for Amazon's DynamoDB

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README.markdown

Dynamoid

Dynamoid is an ORM for Amazon's DynamoDB for Ruby applications. It provides similar functionality to ActiveRecord and improves on Amazon's existing HashModel by providing better searching tools, native association support, and a local adapter for offline development.

DynamoDB is not like other document-based databases you might know, and is very different indeed from relational databases. It sacrifices anything beyond the simplest relational queries and transactional support to provide a fast, cost-efficient, and highly durable storage solution. If your database requires complicated relational queries and transaction support, then this modest Gem cannot provide them for you, and neither can DynamoDB. In those cases you would do better to look elsewhere for your database needs.

But if you want a fast, scalable, simple, easy-to-use database (and a Gem that supports it) then look no further!

Installation

Installing Dynamoid is pretty simple. First include the Gem in your Gemfile:

gem 'dynamoid'

Then you need to initialize it to get it going. Put code similar to this somewhere (a Rails initializer would be a great place for this if you're using Rails):

  Dynamoid.configure do |config|
    config.adapter = 'local' # This adapter allows offline development without connecting to the DynamoDB servers. Data is *NOT* persisted.
    # config.adapter = 'aws_sdk' # This adapter establishes a connection to the DynamoDB servers using Amazon's own AWS gem.
    # config.access_key = 'access_key' # If connecting to DynamoDB, your access key is required.
    # config.secret_key = 'secret_key' # So is your secret key.
    # config.endpoint = 'dynamodb.us-east-1.amazonaws.com' # Set the regional endpoint for DynamoDB.
    config.namespace = "dynamoid_app_development" # To namespace tables created by Dynamoid from other tables you might have.
    config.warn_on_scan = true # Output a warning to the logger when you perform a scan rather than a query on a table.
    config.partitioning = true # Spread writes randomly across the database. See "partitioning" below for more.
    config.partition_size = 200  # Determine the key space size that writes are randomly spread across.
    config.read_capacity = 100 # Read capacity for your tables
    config.write_capacity = 20 # Write capacity for your tables
  end

Once you have the configuration set up, you need to move on to making models.

Setup

You must include Dynamoid::Document in every Dynamoid model.

class User
  include Dynamoid::Document

end

Table

Dynamoid has some sensible defaults for you when you create a new table, including the table name and the primary key column. But you can change those if you like on table creation.

class User
  include Dynamoid::Document

  table :name => :awesome_users, :key => :user_id, :read_capacity => 400, :write_capacity => 400
end

These fields will not change an existing table: so specifying a new read_capacity and write_capacity here only works correctly for entirely new tables. Similarly, while Dynamoid will look for a table named awesome_users in your namespace, it won't change any existing tables to use that name; and if it does find a table with the correct name, it won't change its hash key, which it expects will be user_id. If this table doesn't exist yet, however, Dynamoid will create it with these options.

Fields

You'll have to define all the fields on the model and the data type of each field. Every field on the object must be included here; if you miss any they'll be completely bypassed during DynamoDB's initialization and will not appear on the model objects.

By default, fields are assumed to be of type :string. But you can also use :integer, :float, :set, :array, :datetime, and :serialized. You get magic columns of id (string), created_at (datetime), and updated_at (datetime) for free.

class User
  include Dynamoid::Document

  field :name
  field :email
  field :rank, :integer
  field :number, :float
  field :joined_at, :datetime
  field :hash, :serialized

end

Indexes

You can also define indexes on fields, combinations of fields, and one range field. Yes, only one range field: in DynamoDB tables can have at most one range index, so make good use of it! To make an index, just specify the fields you want it on, either single or in an array. If the entire index is a range, pass :range => true. Otherwise, pass the attribute that will become the range key. The only range attributes you can use right now are integers, floats, and datetimes. If you pass a string as a range key likely DynamoDB will complain a lot.

class User
  include Dynamoid::Document

  ...

  index :name           
  index :email          
  index [:name, :email] 
  index :created_at, :range => true
  index :name, :range_key => :joined_at

end

Associations

Just like in ActiveRecord (or your other favorite ORM), Dynamoid uses associations to create links between models.

The only supported associations (so far) are has_many, has_one, has_and_belongs_to_many, and belongs_to. Associations are very simple to create: just specify the type, the name, and then any options you'd like to pass to the association. If there's an inverse association either inferred or specified directly, Dynamoid will update both objects to point at each other.

class User
  include Dynamoid::Document

  ...

  has_many :addresses
  has_many :students, :class => User
  belongs_to :teacher, :class_name => :user
  belongs_to :group
  has_one :role
  has_and_belongs_to_many :friends, :inverse_of => :friending_users

end

class Address
  include Dynamoid::Document

  ...

  belongs_to :address # Automatically links up with the user model

end

Contrary to what you'd expect, association information is always contained on the object specifying the association, even if it seems like the association has a foreign key. This is a side effect of DynamoDB's structure: it's very difficult to find foreign keys without an index. Usually you won't find this to be a problem, but it does mean that association methods that build new models will not work correctly -- for example, user.addresses.new returns an address that is not associated to the user. We'll be correcting this soon.

Validations

Dynamoid bakes in ActiveModel validations, just like ActiveRecord does.

class User
  include Dynamoid::Document

  ...

  validates_presence_of :name
  validates_format_of :email, :with => /@/
end

To see more usage and examples of ActiveModel validations, check out the ActiveModel validation documentation.

Callbacks

Dynamoid also employs ActiveModel callbacks. Right now, callbacks are defined on save, update, destroy, which allows you to do before_ or after_ any of those.

class User
  include Dynamoid::Document

  ...

  before_save :set_default_password
  after_create :notify_friends
  after_destroy :delete_addresses
end

Usage

Object Creation

Dynamoid's syntax is generally very similar to ActiveRecord's. Making new objects is simple:

u = User.new(:name => 'Josh')
u.email = 'josh@joshsymonds.com'
u.save

Save forces persistence to the datastore: a unique ID is also assigned, but it is a string and not an auto-incrementing number.

u.id # => "3a9f7216-4726-4aea-9fbc-8554ae9292cb"

Along with persisting the model's attributes, indexes are automatically updated on save. To use associations, you use association methods very similar to ActiveRecord's:

address = u.addresses.create
address.city = 'Chicago'
address.save

Querying

Querying can be done in one of three ways:

Address.find(address.id)              # Find directly by ID.
Address.where(:city => 'Chicago').all # Find by any number of matching criteria... though presently only "where" is supported.
Address.find_by_city('Chicago')       # The same as above, but using ActiveRecord's older syntax.

And you can also query on associations:

u.addresses.where(:city => 'Chicago').all

But keep in mind Dynamoid -- and document-based storage systems in general -- are not drop-in replacements for existing relational databases. The above query does not efficiently perform a conditional join, but instead finds all the user's addresses and naively filters them in Ruby. For large associations this is a performance hit compared to relational database engines.

You can also limit returned results, or select a record from which to start, to support pagination:

Address.limit(5).start(address) # Only 5 addresses.

Consistent Reads

Querying supports consistent reading. By default, DynamoDB reads are eventually consistent: if you do a write and then a read immediately afterwards, the results of the previous write may not be reflected. If you need to do a consistent read (that is, you need to read the results of a write immediately) you can do so, but keep in mind that consistent reads are twice as expensive as regular reads for DynamoDB.

Address.find(address.id, :consistent_read => true)  # Find an address, ensure the read is consistent.
Address.where(:city => 'Chicago').consistent.all    # Find all addresses where the city is Chicago, with a consistent read.

Range Finding

If you have a range index, Dynamoid provides a number of additional other convenience methods to make your life a little easier:

User.where("created_at.gt" => DateTime.now - 1.day).all
User.where("created_at.lt" => DateTime.now - 1.day).all

It also supports .gte and .lte. Turning those into symbols and allowing a Rails SQL-style string syntax is in the works. You can only have one range argument per query, because of DynamoDB's inherent limitations, so use it sensibly!

Partitioning, Provisioning, and Performance

DynamoDB achieves much of its speed by relying on a random pattern of writes and reads: internally, hash keys are distributed across servers, and reading from two consecutive servers is much faster than reading from the same server twice. Of course, many of our applications request one key (like a commonly used role, a superuser, or a very popular product) much more frequently than other keys. In DynamoDB, this will result in lowered throughput and slower response times, and is a design pattern we should try to avoid.

Dynamoid attempts to obviate this problem transparently by employing a partitioning strategy to divide up keys randomly across DynamoDB's servers. Each ID is assigned an additional number (by default 0 to 199, but you can increase the partition size in Dynamoid's configuration) upon save; when read, all 200 hashes are retrieved simultaneously and the most recently updated one is returned to the application. This results in a significant net performance increase, and is usually invisible to the application itself. It does, however, bring up the important issue of provisioning your DynamoDB tables correctly.

When your read or write throughput exceed your table's allowed provisioning, DynamoDB will wait on connections until throughput is available again. This will appear as very, very slow requests and can be somewhat frustrating. Partitioning significantly increases the amount of throughput tables will experience; though DynamoDB will ignore keys that don't exist, if you have 20 partitioned keys representing one object, all will be retrieved every time the object is requested. Ensure that your tables are set up for this kind of throughput, or turn provisioning off, to make sure that DynamoDB doesn't throttle your requests.

Credits

Dynamoid borrows code, structure, and even its name very liberally from the truly amazing Mongoid. Without Mongoid to crib from none of this would have been possible, and I hope they don't mind me reusing their very awesome ideas to make DynamoDB just as accessible to the Ruby world as MongoDB.

Also, without contributors the project wouldn't be nearly as awesome. So many thanks to:

Running the tests

The tests can be run in the simple predictable way with rake. However, if you provide environment variables for ACCESS_KEY and SECRET_KEY, the tests will use the aws_sdk adapter rather than the local adapter: ACCESS_KEY=<accesskey> SECRET_KEY=<secretkey> rake. Keep in mind this takes much, much longer than the local tests.

Copyright

Copyright (c) 2012 Josh Symonds. See LICENSE.txt for further details.

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