VERSION 1.0 IS NOT OFFICIALLY RELEASED YET
LATEST STABLE RELEASE v0.15 IS IN BRANCH 0.1x
Faraday is an HTTP client lib that provides a common interface over many adapters (such as Net::HTTP) and embraces the concept of Rack middleware when processing the request/response cycle.
Faraday supports these adapters out of the box:
Adapters are slowly being moved into their own gems, or bundled with HTTP clients. Here is the list of known external adapters:
It also includes a Rack adapter for hitting loaded Rack applications through Rack::Test, and a Test adapter for stubbing requests by hand.
Available at rubydoc.info.
response = Faraday.get 'http://sushi.com/nigiri/sake.json'
A simple get
request can be performed by using the syntax described above. This works if you don't need to set up anything; you can roll with just the default middleware
stack and default adapter (see Faraday::RackBuilder#initialize).
A more flexible way to use Faraday is to start with a Connection object. If you want to keep the same defaults, you can use this syntax:
conn = Faraday.new(:url => 'http://www.example.com')
response = conn.get '/users' # GET http://www.example.com/users'
Connections can also take an options hash as a parameter or be configured by using a block. Checkout the section called Advanced middleware usage for more details about how to use this block for configurations. Since the default middleware stack uses url_encoded middleware and default adapter, use them on building your own middleware stack.
conn = Faraday.new(:url => 'http://sushi.com') do |faraday|
faraday.request :url_encoded # form-encode POST params
faraday.response :logger # log requests and responses to $stdout
faraday.adapter Faraday.default_adapter # make requests with Net::HTTP
end
# Filter sensitive information from logs with a regex matcher
conn = Faraday.new(:url => 'http://sushi.com/api_key=s3cr3t') do |faraday|
faraday.request :url_encoded # form-encode POST params
faraday.response :logger do | logger |
logger.filter(/(api_key=)(\w+)/,'\1[REMOVED]')
end
faraday.adapter Faraday.default_adapter # make requests with Net::HTTP
end
# Override the log formatting on demand
class MyFormatter < Faraday::Response::Logger::Formatter
def request(env)
info('Request', env)
end
def request(env)
info('Response', env)
end
end
conn = Faraday.new(:url => 'http://sushi.com/api_key=s3cr3t') do |faraday|
faraday.response :logger, StructLogger.new(STDOUT), formatter: MyFormatter
end
Once you have the connection object, use it to make HTTP requests. You can pass parameters to it in a few different ways:
## GET ##
response = conn.get '/nigiri/sake.json' # GET http://sushi.com/nigiri/sake.json
response.body
conn.get '/nigiri', { :name => 'Maguro' } # GET http://sushi.com/nigiri?name=Maguro
conn.get do |req| # GET http://sushi.com/search?page=2&limit=100
req.url '/search', :page => 2
req.params['limit'] = 100
end
## POST ##
conn.post '/nigiri', { :name => 'Maguro' } # POST "name=maguro" to http://sushi.com/nigiri
Some configuration options can be adjusted per request:
# post payload as JSON instead of "www-form-urlencoded" encoding:
conn.post do |req|
req.url '/nigiri'
req.headers['Content-Type'] = 'application/json'
req.body = '{ "name": "Unagi" }'
end
## Per-request options ##
conn.get do |req|
req.url '/search'
req.options.timeout = 5 # open/read timeout in seconds
req.options.open_timeout = 2 # connection open timeout in seconds
end
## Streaming responses ##
streamed = [] # A buffer to store the streamed data
conn.get('/nigiri/sake.json') do |req|
# Set a callback which will receive tuples of chunk Strings
# and the sum of characters received so far
req.options.on_data = Proc.new do |chunk, overall_received_bytes|
puts "Received #{overall_received_bytes} characters"
streamed << chunk
end
end
streamed.join
And you can inject arbitrary data into the request using the context
option:
# Anything you inject using context option will be available in the env on all middlewares
conn.get do |req|
req.url '/search'
req.options.context = {
foo: 'foo',
bar: 'bar'
}
end
Sometimes you need to send the same URL parameter multiple times with different values. This requires manually setting the parameter encoder and can be done on either per-connection or per-request basis.
# per-connection setting
conn = Faraday.new :request => { :params_encoder => Faraday::FlatParamsEncoder }
conn.get do |req|
# per-request setting:
# req.options.params_encoder = my_encoder
req.params['roll'] = ['california', 'philadelphia']
end
# GET 'http://sushi.com?roll=california&roll=philadelphia'
The value of Faraday params_encoder
can be any object that responds to:
encode(hash) #=> String
decode(string) #=> Hash
The encoder will affect both how query strings are processed and how POST bodies get serialized. The default encoder is Faraday::NestedParamsEncoder.
Basic and Token authentication are handled by Faraday::Request::BasicAuthentication and Faraday::Request::TokenAuthentication respectively. These can be added as middleware manually or through the helper methods.
Faraday.new(...) do |conn|
conn.basic_auth('username', 'password')
end
Faraday.new(...) do |conn|
conn.token_auth('authentication-token')
end
Faraday will try to automatically infer the proxy settings from your system using URI#find_proxy
.
This will retrieve them from environment variables such as http_proxy, ftp_proxy, no_proxy, etc.
If for any reason you want to disable this behaviour, you can do so by setting the global varibale ignore_env_proxy
:
Faraday.ignore_env_proxy = true
You can also specify a custom proxy when initializing the connection
Faraday.new('http://www.example.com', :proxy => 'http://proxy.com')
The order in which middleware is stacked is important. Like with Rack, the first middleware on the list wraps all others, while the last middleware is the innermost one, so that must be the adapter.
Faraday.new(...) do |conn|
# POST/PUT params encoders:
conn.request :multipart
conn.request :url_encoded
# Last middleware must be the adapter:
conn.adapter :net_http
end
This request middleware setup affects POST/PUT requests in the following way:
Request::Multipart
checks for files in the payload, otherwise leaves everything untouched;Request::UrlEncoded
encodes as "application/x-www-form-urlencoded" if not already encoded or of another type
Swapping middleware means giving the other priority. Specifying the "Content-Type" for the request is explicitly stating which middleware should process it.
Examples:
# uploading a file:
payload[:profile_pic] = Faraday::UploadIO.new('/path/to/avatar.jpg', 'image/jpeg')
# "Multipart" middleware detects files and encodes with "multipart/form-data":
conn.put '/profile', payload
Middleware are classes that implement a call
instance method. They hook into
the request/response cycle.
def call(request_env)
# do something with the request
# request_env[:request_headers].merge!(...)
@app.call(request_env).on_complete do |response_env|
# do something with the response
# response_env[:response_headers].merge!(...)
end
end
It's important to do all processing of the response only in the on_complete
block. This enables middleware to work in parallel mode where requests are
asynchronous.
The env
is a hash with symbol keys that contains info about the request and,
later, response. Some keys are:
# request phase
:method - :get, :post, ...
:url - URI for the current request; also contains GET parameters
:body - POST parameters for :post/:put requests
:request_headers
# response phase
:status - HTTP response status code, such as 200
:body - the response body
:response_headers
Faraday is intended to be a generic interface between your code and the adapter. However, sometimes you need to access a feature specific to one of the adapters that is not covered in Faraday's interface.
When that happens, you can pass a block when specifying the adapter to customize it. The block parameter will change based on the adapter you're using. See below for some examples.
conn = Faraday.new(...) do |f|
f.adapter :net_http do |http| # yields Net::HTTP
http.idle_timeout = 100
http.verify_callback = lambda do | preverify_ok, cert_store |
# do something here...
end
end
end
conn = Faraday.new(...) do |f|
f.adapter :net_http_persistent, pool_size: 5 do |http| # yields Net::HTTP::Persistent
http.idle_timeout = 100
http.retry_change_requests = true
end
end
conn = Faraday.new(...) do |f|
f.adapter :patron do |session| # yields Patron::Session
session.max_redirects = 10
end
end
conn = Faraday.new(...) do |f|
f.adapter :httpclient do |client| # yields HTTPClient
client.keep_alive_timeout = 20
client.ssl_config.timeout = 25
end
end
# It's possible to define stubbed request outside a test adapter block.
stubs = Faraday::Adapter::Test::Stubs.new do |stub|
stub.get('/tamago') { |env| [200, {}, 'egg'] }
end
# You can pass stubbed request to the test adapter or define them in a block
# or a combination of the two.
test = Faraday.new do |builder|
builder.adapter :test, stubs do |stub|
stub.get('/ebi') { |env| [ 200, {}, 'shrimp' ]}
end
end
# It's also possible to stub additional requests after the connection has
# been initialized. This is useful for testing.
stubs.get('/uni') { |env| [ 200, {}, 'urchin' ]}
resp = test.get '/tamago'
resp.body # => 'egg'
resp = test.get '/ebi'
resp.body # => 'shrimp'
resp = test.get '/uni'
resp.body # => 'urchin'
resp = test.get '/else' #=> raises "no such stub" error
# If you like, you can treat your stubs as mocks by verifying that all of
# the stubbed calls were made. NOTE that this feature is still fairly
# experimental: It will not verify the order or count of any stub, only that
# it was called once during the course of the test.
stubs.verify_stubbed_calls
This library aims to support and is tested against the following Ruby implementations:
- Ruby 2.3+
If something doesn't work on one of these Ruby versions, it's a bug.
This library may inadvertently work (or seem to work) on other Ruby implementations and versions, however support will only be provided for the versions listed above.
If you would like this library to support another Ruby version, you may volunteer to be a maintainer. Being a maintainer entails making sure all tests run and pass on that implementation. When something breaks on your implementation, you will be responsible for providing patches in a timely fashion. If critical issues for a particular implementation exist at the time of a major release, support for that Ruby version may be dropped.
Do you want to contribute to Faraday?
Open the issues page and check for the help wanted
label!
But before you start coding, please read our Contributing Guide
Copyright (c) 2009-2017 Rick Olson, Zack Hobson. See LICENSE for details.