This repository has been archived and is no longer maintained.
A pluggable integration with ElasticSearch to provide advanced content searches in Firebase.
This script can:
- monitor multiple Firebase paths and index data in real time
- communicates with client completely via Firebase (client pushes search terms to
search/request
and reads results fromsearch/result
) - clean up old, outdated requests
- Install and run ElasticSearch or add Bonsai service via Heroku
git clone https://github.com/firebase/flashlight
npm install
- edit config.js (see comments at the top, you must set FB_URL and FB_SERVICEACCOUNT at a minimum)
node app.js
(run the app)
Check out the recommended security rules in example/seed/security_rules.json. See example/README.md to seed and run an example client app.
If you experience errors like {"error":"IndexMissingException[[firebase] missing]","status":404}
, you may need
to manually create the index referenced in each path:
curl -X POST http://localhost:9200/firebase
To read more about setting up a Firebase service account and configuring FB_SERVICEACCOUNT, click here.
Read example/index.html
and example/example.js
for a client implementation. It works like this:
- Push an object to
/search/request
which has the following keys:index
,type
, andq
(orbody
for advanced queries) - Listen on
/search/response
for the reply from the server
The body
object can be any valid ElasticSearch DSL structure (see Building ElasticSearch Queries).
cd flashlight
heroku login
heroku create
(add heroku to project)heroku addons:add bonsai
(install bonsai)heroku config
(check bonsai instance info and copy your new BONSAI_URL - you will need it later)heroku config:set FB_NAME=<instance> FB_TOKEN="<token>"
(declare environment variables)git add config.js
(update)git commit -m "configure bonsai"
git push heroku master
(deploy to heroku)heroku ps:scale worker=1
(start dyno worker)
After you've deployed to Heroku, you need to create your initial index name to prevent IndexMissingException error from Bonsai. Create an index called "firebase" via curl using the BONSAI_URL that you copied during Heroku deployment.
curl -X POST <BONSAI_URL>/firebase
(ex: https://user:[email protected]/firebase)
Flashlight now returns the direct output of ElasticSearch, instead of just returning the hits part. This change is required to support aggregations and include richer information. You must change how you read the reponse accordingly. You can see example responses of Flashlight below:
"total" : 1000,
"max_score" : null,
"hits" : [
..
]
{
"took" : 63,
"timed_out" : false,
"_shards" : {
"total" : 5,
"successful" : 5,
"failed" : 0
},
"hits" : {
"total" : 1000,
"max_score" : null,
"hits" : [
..
]
},
"aggregations" : {
..
}
}
The paths
specified in config.js
can include the special filter
and parse
functions to manipulate the contents of the index. For
example, if I had a messaging app, but I didn't want to index any
system-generated messages, I could add the following filter to my
messages path:
filter: function(data) { return data.name !== 'system'; }
Here, data represents the JSON snapshot obtained from the database. If
this method does not return true, that record will not be indexed. Note
that the filter
method is applied before parse
.
If I want to remove or alter data getting indexed, that is done using the
parse
function. For example, assume I wanted to index user records, but
remove any private information from the index. I could add a parse
function to do this:
parse: function(data) {
return {
first_name: data.first_name,
last_name: data.last_name,
birthday: new Date(data.birthday_as_number).toISOString()
};
}
The full ElasticSearch API is supported. Check out this great tutorial on querying ElasticSearch. And be sure to read the ElasticSearch API Reference.
{
"q": "foo*"
}
You can control the number of matches (defaults to 10) and initial offset for paginating search results:
{
"from" : 0,
"size" : 50,
"body": {
"query": {
"match": {
"_all": "foo"
}
}
}
};
{
"body": {
"query": {
{ "tag": [ "foo", "bar" ] }
}
}
}
{
"body": {
"query": {
"match": {
"field": "foo",
}
}
}
}
{
"body": {
"query": {
"multi_match": {
"query": "foo",
"type": "most_fields",
"fields": [
"important_field^10", // adding ^10 makes this field relatively more important
"trivial_field"
]
}
}
}
}
Search lite (simple text searches with q
)
Finding exact values
Sorting and relevance
Partial matching
Wildcards and regexp
Proximity matching
Dealing with human language
Is Flashlight designed to work at millions or requests per second? No. It's designed to be a template for implementing your production services. Some assembly required.
Here are a couple quick optimizations you can make to improve scale:
- Separate the indexing worker and the query worker (this could be
as simple as creating two Flashlight workers, opening
app.js
in each, and commenting out SearchQueue.init() or PathMonitor.process() respectively. - When your service restarts, all data is re-indexed. To prevent this, you can use refBuilder as described in the next section.
- With a bit of work, both PathMonitor and SearchQueue could be adapted
to function as a Service Worker for
firebase-queue,
allowing multiple workers and potentially hundreds of thousands of writes per second (with minor degredation and no losses at even higher throughput).
In config.js
, each entry in paths
can be assigned a refBuilder
function. This can construct a query for determining which records
get indexed.
This can be utilized to improve efficiency by preventing all data from being re-indexed any time the Flashlight service is restarted, and generally by preventing a large backlog from being read into memory at once.
For example, if I were indexing chat messages, and they had a timestamp field, I could use the following to never look back more than a day during a server restart:
exports.paths = [
{
path : "chat/messages",
index : "firebase",
type : "message",
fields: ['message_body', 'tags'],
refBuilder: function(ref, path) {
return ref.orderByChild('timestamp').startAt(Date.now());
}
}
];
Paths to be indexed can be loaded dynamically from the database by
providing a path string instead of the paths
array. For example,
the paths given in config.example.js could be replaced with dynamic_paths
and then those paths could be stored in the database, similar to
this.
Any updates to the database paths are handled by Flashlight (new paths are indexed when they are added, old paths stop being indexed when they are removed).
Unfortunately, since JSON data stored in Firebase can't contain functions,
the filter
, parser
, and refBuilder
options can't be used with this
approach.
Submit questions or bugs using the issue tracker.
For Firebase-releated questions, try the mailing list.
MIT LICENSE Copyright © 2013 Firebase [email protected]