TingoDB is an embedded JavaScript in-process filesystem or in-memory database upwards compatible with MongoDB at the API level.
Upwards compatible means that if you build an app that uses functionality implemented by TingoDB you can switch to MongoDB almost without code changes. This greatly reduces implementation risks and give you freedom to switch to a mature solution at any moment.
As a proof for upward compatibility, all tests designed to run against both MongoDB and TingoDB. Moreover, significant parts of tests contributed from MongoDB nodejs driver projects and are used as is without modifications.
For those folks who familiar with the Mongoose.js ODM, we suggest to look at Tungus, an experimental driver that allows using the famous ODM tool with our database.
TingoDB can be dropin replacement for existing apps and frameworks that are based on MongoDB. Please see some 3rd party integrations
For more details please visit http://www.tingodb.com
Goal of our project is to fully mimic MongoDB functionality. Which means that we will consider bug as bug only when you find something that is working with MongoDB but isn't working with TingoDB. It would be very helpful to get bugs in that case as pull requests to /test/misc-test.js file (or new file) which will contain code that reproduce issue.
To run test with MongoDB: ./test.sh --quick --single=misc-test --db=mongodb
.
To run test with TingoDB: ./test.sh --quick --single=misc-test --db=tingodb
npm install tingodb
As stated, the API is fully compatible with MongoDB. The only differences are the initialization and getting the Db object. Consider this MongoDB code:
var Db = require('mongodb').Db,
Server = require('mongodb').Server,
assert = require('assert');
var db = new Db('test', new Server('localhost', 27017));
var collection = db.collection("batch_document_insert_collection_safe");
collection.insert([{hello:'world_safe1'}
, {hello:'world_safe2'}], {w:1}, function(err, result) {
assert.equal(null, err);
collection.findOne({hello:'world_safe2'}, function(err, item) {
assert.equal(null, err);
assert.equal('world_safe2', item.hello);
})
});
The same example using TingoDB is as follows:
var Db = require('tingodb')().Db,
assert = require('assert');
var db = new Db('/some/local/path', {});
// Fetch a collection to insert document into
var collection = db.collection("batch_document_insert_collection_safe");
// Insert a single document
collection.insert([{hello:'world_safe1'}
, {hello:'world_safe2'}], {w:1}, function(err, result) {
assert.equal(null, err);
// Fetch the document
collection.findOne({hello:'world_safe2'}, function(err, item) {
assert.equal(null, err);
assert.equal('world_safe2', item.hello);
})
});
As you can see, the difference is in the require
call and database object initialization.
In contrast to MongoDB, the module require
call will not return a usable module. It will return a function that accepts configuration options. This function will return something similar to the MongoDB module. The extra step allows for passing some options that will control database behavior.
Enable in memory (no file access) mode. Can be useful for unit tests. File path will be used as db identity.
Doing some experimentation we found that using integer keys we can get the database to work faster and save some space. Additionally, for in-process databases there are almost no drawbacks versus globally unique keys. However, at the same time, it is relatively hard to keep unique integer keys outside of the database engine, so we made it part of the database engine code. Generated keys will be unique in the collection scope.
When required, it is possible to switch to BSON ObjectID using the configuration option.
Maximum number of cached objects per collection.
Maximum size of objects that can be placed in the cache.
Globally enables support of search in nested arrays. MongoDB supports this unconditionally. For TingoDB, searching arrays when there are no arrays incurs a performance penalty. That's why this is switched off by default. Additionally, and this might be a better approach, nested array support can be enabled for individual indexes or search queries.
To enable nested arrays in individual indexed, use "_tiarr:true" option.
self._cash_transactions.ensureIndex("splits.accountId",{_tiarr:true},cb);
To enable nested arrays in individual queries for fields that do not use indexes, use "_tiarr." to prefix field names.
coll.find({'arr.num':10},{"_tiar.arr.num":0})
The only required parameter is the database path. It should be a valid path to an empty folder or a folder that already contains collection files.
From the initial release compactionation function was available internally. There were several requests to make this avilable through API and we did it. Please keep in mind that compactination is best called as the first operation with database. Using compactionation in the middle of work session is also possible, but all cursors obtained prior to that will be invalidated and will throw errors on data access.
It is possible to build applications that will transparently support both MongoDB and TingoDB. Here are some hints on how to do that:
- Wrap the module
require
call into a helper module or make it part of the core object. This way you can control which engine is loaded in one place. - Use only native JavaScript types. BSON types can be slow in JavaScript and will need special attention when passed to or from client JavaScript.
- Treat ObjectID just as a unique value that can be converted to and from String regardless its actual meaning.
Example below (please see the three files).
var fs = require('fs'),db,engine;
// load config
var cfg = JSON.parse(fs.readFileSync("./config.json"));
// load requestd engine and define engine-agnostic getDB function
if (cfg.app.engine=="mongodb") {
engine = require("mongodb");
module.exports.getDB = function () {
if (!db) db = new engine.Db(cfg.mongo.db,
new engine.Server(cfg.mongo.host, cfg.mongo.port, cfg.mongo.opts),
{native_parser: false, safe:true});
return db;
}
} else {
engine = require("tingodb")({});
module.exports.getDB = function () {
if (!db) db = new engine.Db(cfg.tingo.path, {});
return db;
}
}
// Depending on engine, this can be a different class
module.exports.ObjectID = engine.ObjectID;
var engine = require('./engine');
var db = engine.getDB();
console.time("sample")
db.open(function(err,db) {
db.collection("homes", function (err, homes) {
// it's fine to create ObjectID in advance
// NOTE!!! we get class through engine because its type
// can depends on database type
var homeId = new engine.ObjectID();
// but with TingoDB.ObjectID righ here it will be negative
// which means temporary. However it's unique and can be used for
// comparisons
console.log(homeId);
homes.insert({_id:homeId, name:"test"}, function (err, home) {
var home = home[0];
// here, homeID will change its value and will be in sync
// with the database
console.log(homeId,home);
db.collection("rooms", function (err, rooms) {
for (var i=0; i<5; i++) {
// it's ok also to not provide id, then it will be generated
rooms.insert({name:"room_"+i,_idHome:homeId}, function (err, room) {
console.log(room[0]);
i--;
if (i==0) {
// now lets assume we serving request like
// /rooms?homeid=_some_string_
var query = "/rooms?homeid="+homeId.toString();
// dirty code to get simulated GET variable
var getId = query.match("homeid=(.*)")[1];
console.log(query, getId)
// typical code to get id from external world
// and use it for queries
rooms.find({_idHome:new engine.ObjectID(getId)})
.count(function (err, count) {
console.log(count);
console.timeEnd("sample");
})
}
})
}
})
})
})
})
{
"app":{
"engine":"tingodb"
},
"mongo":{
"host":"127.0.0.1",
"port":27017,
"db":"data",
"opts":{
"auto_reconnect": true,
"safe": true
}
},
"tingo":{
"path":"./data"
}
}
-2
13 { _id: 13, name: 'test' }
{ name: 'room_0', _idHome: 13, _id: 57 }
{ name: 'room_1', _idHome: 13, _id: 58 }
{ name: 'room_2', _idHome: 13, _id: 59 }
{ name: 'room_3', _idHome: 13, _id: 60 }
{ name: 'room_4', _idHome: 13, _id: 61 }
/rooms?homeid=13 13
5
sample: 27ms
51b43a05f092a1c544000001
51b43a05f092a1c544000001 { _id: 51b43a05f092a1c544000001, name: 'test' }
{ name: 'room_3',
_idHome: 51b43a05f092a1c544000001,
_id: 51b43a05f092a1c544000005 }
{ name: 'room_2',
_idHome: 51b43a05f092a1c544000001,
_id: 51b43a05f092a1c544000004 }
{ name: 'room_1',
_idHome: 51b43a05f092a1c544000001,
_id: 51b43a05f092a1c544000003 }
{ name: 'room_0',
_idHome: 51b43a05f092a1c544000001,
_id: 51b43a05f092a1c544000002 }
{ name: 'room_4',
_idHome: 51b43a05f092a1c544000001,
_id: 51b43a05f092a1c544000006 }
/rooms?homeid=51b43a05f092a1c544000001 51b43a05f092a1c544000001
5
sample: 22ms
We maintain full API and functionality compatibility with MongoDB BUT only for what we implemented support. I.e. if we support something it will work exactly the same way, but some features are not yet supported or support is limited.
- Search, almost all clauses. Indexes are used to increase search speed and sorting.
- Map reduce, almost all
- Grouping, almost all
- Collection, almost all methods
- Cursor, almost all methods
- GridFS, no support
- Feature X, might be :)
We are open for contributions for this section. If you found or implemented some integration please open pull request :).
Sails.js
TingoDB adapter for Sails.js: http://github.com/andyhu/sails-tingo
Sails.js is a RoR like Node.js framework. It has a powerful ORM system called waterline
, it supports all major databases (and web services) and provides an easy to use, unified interface for querying all different kind of databases. It also supports cross database (or different database engines) joins.
KeystoneJS
Running KeystoneJS with TingoDB: http://ifrederik.com/blog/2014/11/cms-without-db-running-keystonejs-without-mongodb/
Realistic app with dual database support
Web based GnuCash clone: https://github.com/sergeyksv/skilap
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