MoSQL is no longer being actively maintained. If you are interested in helping maintain this repository, please let us know. We would love for it to find a forever home with someone who can give it the love it needs!
At Stripe, we love MongoDB. We love the flexibility it gives us in changing data schemas as we grow and learn, and we love its operational properties. We love replsets. We love the uniform query language that doesn't require generating and parsing strings, tracking placeholder parameters, or any of that nonsense.
The thing is, we also love SQL. We love the ease of doing ad-hoc data analysis over small-to-mid-size datasets in SQL. We love doing JOINs to pull together reports summarizing properties across multiple datasets. We love the fact that virtually every employee we hire already knows SQL and is comfortable using it to ask and answer questions about data.
So, we thought, why can't we have the best of both worlds? Thus: MoSQL.
MoSQL imports the contents of your MongoDB database cluster into a PostgreSQL instance, using an oplog tailer to keep the SQL mirror live up-to-date. This lets you run production services against a MongoDB database, and then run offline analytics or reporting using the full power of SQL.
Install from Rubygems as:
$ gem install mosql
Or build from source by:
$ gem build mosql.gemspec
And then install the built gem.
In order to define a SQL schema and import your data, MoSQL needs a collection map file describing the schema of your MongoDB data. (Don't worry -- MoSQL can handle it if your mongo data doesn't always exactly fit the stated schema. More on that later).
The collection map is a YAML file describing the databases and collections in Mongo that you want to import, in terms of their SQL types. An example collection map might be:
mongodb:
blog_posts:
:columns:
- id:
:source: _id
:type: TEXT
- author_name:
:source: author.name
:type: TEXT
- author_bio:
:source: author.bio
:type: TEXT
- title: TEXT
- created: DOUBLE PRECISION
:meta:
:table: blog_posts
:extra_props: true
Said another way, the collection map is a YAML file containing a hash mapping
<Mongo DB name> -> { <Mongo Collection Name> -> <Collection Definition> }
Where a <Collection Definition>
is a hash with :columns
and
:meta
fields.
:columns
is a list of hashes mapping SQL column names to an hash
describing that column. This hash may contain the following fields:
:source
: The name of the attribute inside of MongoDB.:type
: (Mandatory) The SQL type.Use of the :source
attribute allows for renaming attributes, and
extracting elements of a nested hash using MongoDB's
dot notation. In the above example, the name
and
bio
fields of the author
sub-document will be expanded, and the
MongoDB _id
field will be mapped to an SQL id
column.
At present, MoSQL does not support using the dot notation to access elements inside arrays.
As a shorthand, you can specify a one-element hash of the form name: TYPE
, in which case name
will be used for both the source attribute
and the name of the destination column. You can see this shorthand for
the title
and created
attributes, above.
Every defined collection must include a mapping for the _id
attribute.
:meta
contains metadata about this collection/table. It is
required to include at least :table
, naming the SQL table this
collection will be mapped to. extra_props
determines the handling of
unknown fields in MongoDB objects -- more about that later.
By default, mosql
looks for a collection map in a file named
collections.yml
in your current working directory, but you can
specify a different one with -c
or --collections
.
Once you have a collection map. MoSQL usage is easy. The basic form is:
mosql [-c collections.yml] [--sql postgres://sql-server/sql-db] [--mongo mongodb://mongo-uri]
By default, mosql
connects to both PostgreSQL and MongoDB instances
running on default ports on localhost without authentication. You can
point it at different targets using the --sql
and --mongo
command-line parameters.
mosql
will:
After the first run, mosql
will store the status of the optailer in
the mongo_sql
table in your SQL database, and automatically resume
where it left off. mosql
uses the replset name to keep track of
which mongo database it's tailing, so that you can tail multiple
databases into the same SQL database. If you want to tail the same
replSet, or multiple replSets with the same name, for some reason, you
can use the --service
flag to change the name mosql
uses to track
state.
You likely want to run mosql
against a secondary node, at least for
the initial import, which will cause large amounts of disk activity on
the target node. One option is to specify this in your connect URI:
mosql --mongo mongodb://node1,node2,node3?readPreference=secondary
(Note that this requires you be using at least version 1.8.3 of
mongo-ruby-driver
)
For advanced scenarios, you can pass options to control mosql's
behavior. If you pass --skip-tail
, mosql will do the initial import,
but not tail the oplog. This could be used, for example, to do an
import off of a backup snapshot, and then start the tailer on the live
cluster. This can also be useful for hosted services where you do not
have access to the oplog.
If you need to force a fresh reimport, run --reimport
, which will
cause mosql
to drop tables, create them anew, and do another import.
Normaly, MoSQL will scan through a list of the databases on the mongo
server you connect to. You avoid this behavior by specifiying a specific
mongo db to connect to with the --only-db [dbname]
option. This is
useful for hosted services which do not let you list all databases (via
the listDatabases
command).
If MoSQL encounters values in the MongoDB database that don't fit within the stated schema (e.g. a floating-point value in a INTEGER field), it will log a warning, ignore the entire object, and continue.
If it encounters a MongoDB object with fields not listed in the
collection map, it will discard the extra fields, unless
:extra_props
is set in the :meta
hash. If it is, it will collect
any missing fields, JSON-encode them in a hash, and store the
resulting text in _extra_props
in SQL. You can set :extra_props
to use JSON
, JSONB
, or TEXT
.
As of PostgreSQL 9.3, you can declare columns as type "JSON" and use the native JSON support to inspect inside of JSON-encoded types. In earlier versions, you can write code in an extension language, such as plv8.
MoSQL supports array types, using the INTEGER ARRAY
array type
syntax. This will cause MoSQL to create the column as an array type in
PostgreSQL, and insert rows appropriately-formatted.
Fields with hash values, or array values that are not in an ARRAY-typed column, will be transformed into JSON TEXT strings before being inserted into PostgreSQL.
At present, in order to use MoSQL with a MongoDB instance requiring authentication, you must:
admin
database in the --mongo
argument--mongo
argumente.g.
mosql --mongo mongodb://$USER:$PASSWORD@$HOST/admin
In order to use MongoDB 2.4's "roles" support (which is different from that in
2.6), you need to create the user in the admin database, give it explicit read
access to the databases you want to copy and to the local
database, and
specify authSource in the URL. eg, connect to mydb/admin
with the mongo shell
and run:
> db.addUser({user: "replicator", pwd: "PASSWORD", roles: [], otherDBRoles: {local: ["read"], sourceDb: ["read"]}})
(Note that roles: []
ensures that this user has no special access to the
admin
database.) Now specify:
mosql --mongo mongodb://$USER:$PASSWORD@$HOST/sourceDb?authSource=admin
I have not yet tested using MoSQL with 2.6's rewritten "roles" support. Drop me a note if you figure out anything I should know.
MoSQL does not have special support for sharded Mongo clusters at this time. It should be possible to run a separate MoSQL instance against each of the individual backend shard replica sets, streaming into separate PostgreSQL instances, but we have not actually tested this yet.
Patches and contributions are welcome! Please fork the project and open a pull request on github, or just report issues.
MoSQL includes a small but hopefully-growing test suite. It assumes a running PostgreSQL and MongoDB instance on the local host. To run the test suite, first install all of MoSQL's dependencies:
bundle install
Then, run the tests:
rake test
You can also point the suite at a different target via environment
variables; See test/functional/_lib.rb
for more information.