excon
Usable, fast, simple Ruby HTTP 1.1
Excon was designed to be simple, fast and performant. It works great as a general HTTP(s) client and is particularly well suited to usage in API clients.
- Getting Started
- Options
- Chunked Requests
- Pipelining Requests
- Streaming Responses
- Proxy Support
- Reusable ports
- Unix Socket Support
- Stubs
- Instrumentation
- HTTPS client certificate
- HTTPS/SSL Issues
- Getting Help
- Contributing
- Plugins and Middlewares
- License
Getting Started
Install the gem.
$ sudo gem install excon
Require with rubygems.
require 'rubygems'
require 'excon'
The easiest way to get started is by using one-off requests. Supported one-off request methods are connect
, delete
, get
, head
, options
, post
, put
, and trace
. Requests return a response object which has body
, headers
, remote_ip
and status
attributes.
response = Excon.get('http://geemus.com')
response.body # => "..."
response.headers # => {...}
response.remote_ip # => "..."
response.status # => 200
For API clients or other ongoing usage, reuse a connection across multiple requests to share options and improve performance.
connection = Excon.new('http://geemus.com')
get_response = connection.get
post_response = connection.post(:path => '/foo')
delete_response = connection.delete(:path => '/bar')
By default, each connection is non-persistent. This means that each request made against a connection behaves like a one-off request. Each request will establish a socket connection to the server, then close the socket once the request is complete.
To use a persistent connection, use the :persistent
option:
connection = Excon.new('http://geemus.com', :persistent => true)
The initial request will establish a socket connection to the server and leave the socket open. Subsequent requests
will reuse that socket. You may call Connection#reset
at any time to close the underlying socket, and the next request
will establish a new socket connection.
You may also control persistence on a per-request basis by setting the :persistent
option for each request.
connection = Excon.new('http://geemus.com') # non-persistent by default
connection.get # socket established, then closed
connection.get(:persistent => true) # socket established, left open
connection.get(:persistent => true) # socket reused
connection.get # socket reused, then closed
connection = Excon.new('http://geemus.com', :persistent => true)
connection.get # socket established, left open
connection.get(:persistent => false) # socket reused, then closed
connection.get(:persistent => false) # socket established, then closed
connection.get # socket established, left open
connection.get # socket reused
Note that sending a request with :persistent => false
to close the socket will also send Connection: close
to inform
the server the connection is no longer needed. Connection#reset
will simply close our end of the socket.
Options
Both one-off and persistent connections support many other options. The final options for a request are built up by starting with Excon.defaults
, then merging in options from the connection and finally merging in any request options. In this way you have plenty of options on where and how to set options and can easily setup connections or defaults to match common options for a particular endpoint.
Here are a few common examples:
# Output debug info, similar to ENV['EXCON_DEBUG']
connection = Excon.new('http://geemus.com/', :debug => true)
# Custom headers
Excon.get('http://geemus.com', :headers => {'Authorization' => 'Basic 0123456789ABCDEF'})
connection.get(:headers => {'Authorization' => 'Basic 0123456789ABCDEF'})
# Changing query strings
connection = Excon.new('http://geemus.com/')
connection.get(:query => {:foo => 'bar'})
# POST body encoded with application/x-www-form-urlencoded
Excon.post('http://geemus.com',
:body => 'language=ruby&class=fog',
:headers => { "Content-Type" => "application/x-www-form-urlencoded" })
# same again, but using URI to build the body of parameters
Excon.post('http://geemus.com',
:body => URI.encode_www_form(:language => 'ruby', :class => 'fog'),
:headers => { "Content-Type" => "application/x-www-form-urlencoded" })
# request takes a method option, accepting either a symbol or string
connection.request(:method => :get)
connection.request(:method => 'GET')
# expect one or more status codes, or raise an error
connection.request(:expects => [200, 201], :method => :get)
# use basic authentication by supplying credentials in the URL or as parameters
connection = Excon.new('http://username:password@secure.geemus.com')
# Note: username & password is unescaped for request, so you should provide escaped values here
# i. e. instead of `password: 'pa%%word'` you should use `password: Excon::Utils.escape_uri('pa%%word')`,
# which return `pa%25%25word`
connection = Excon.new('http://secure.geemus.com',
:user => 'username', :password => 'password')
# use custom uri parser
require 'addressable/uri'
connection = Excon.new('http://geemus.com/', uri_parser: Addressable::URI)
Compared to web browsers and other http client libraries, e.g. curl, Excon is a bit more low-level and doesn't assume much by default. If you are seeing different results compared to other clients, the following options might help:
# opt-in to omitting port from http:80 and https:443
connection = Excon.new('http://geemus.com/', :omit_default_port => true)
# accept gzip encoding
connection = Excon.new('http://geemus.com/', :headers => { "Accept-Encoding" => "gzip" })
# turn off peer verification (less secure)
Excon.defaults[:ssl_verify_peer] = false
connection = Excon.new('https://...')
Timeouts and Retries
You can modify timeouts and define whether and how many (blocking) retries Excon should attempt if errors occur.
# this request can be repeated safely, so retry on errors up to 4 times
connection.request(:idempotent => true)
# this request can be repeated safely, retry up to 6 times
connection.request(:idempotent => true, :retry_limit => 6)
# this request can be repeated safely, retry up to 6 times and sleep 5 seconds
# in between each retry
connection.request(:idempotent => true, :retry_limit => 6, :retry_interval => 5)
# specify the errors on which to retry (default Timeout, Socket, HTTPStatus)
# only retry on timeouts
connection.request(:idempotent => true, :retry_limit => 6, :retry_interval => 5, :retry_errors => [Excon::Error::Timeout] )
# set longer read_timeout (default is 60 seconds)
connection.request(:read_timeout => 360)
# set longer write_timeout (default is 60 seconds)
connection.request(:write_timeout => 360)
# set a request timeout in seconds (default is no timeout).
# the timeout may be an integer or a float to support sub-second granularity (e.g., 1, 60, 0.005 and 3.5).
connection.request(:timeout => 0.1) # timeout if the entire request takes longer than 100 milliseconds
# Enable the socket option TCP_NODELAY on the underlying socket.
#
# This can improve response time when sending frequent short
# requests in time-sensitive scenarios.
#
connection = Excon.new('http://geemus.com/', :tcp_nodelay => true)
# set longer connect_timeout (default is 60 seconds)
connection = Excon.new('http://geemus.com/', :connect_timeout => 360)
# opt-out of nonblocking operations for performance and/or as a workaround
connection = Excon.new('http://geemus.com/', :nonblock => false)
# DEPRECATED in favour of `resolv_resolver` (see below)
# set up desired dns_timeouts for resolving addresses (default is set by Resolv)
# it accepts an integer or an array of integers for retrying with different timeouts
# see Resolv::DNS#timeouts for more details (https://ruby-doc.org/3.2.2/stdlibs/resolv/Resolv/DNS.html#method-i-timeouts-3D)
connection = Excon.new('http://geemus.com/', :dns_timeouts => 3)
# set a custom resolver for Resolv
# you can use custom nameservers and timeouts
# `timeouts` accepts an integer or an array of integers for retrying with different timeouts
# see Resolv::DNS#timeouts for more details (https://ruby-doc.org/3.2.2/stdlibs/resolv/Resolv/DNS.html#method-i-timeouts-3D)
dns_resolver = Resolv::DNS.new(nameserver: ['127.0.0.1'])
dns_resolver.timeouts = 3
resolver = Resolv.new([Resolv::Hosts.new, dns_resolver])
connection = Excon.new('http://geemus.com', :resolv_resolver => resolver)
Chunked Requests
You can make Transfer-Encoding: chunked
requests by passing a block that will deliver chunks, delivering an empty chunk to signal completion.
file = File.open('data')
chunker = lambda do
# Excon.defaults[:chunk_size] defaults to 1048576, ie 1MB
# to_s will convert the nil received after everything is read to the final empty chunk
file.read(Excon.defaults[:chunk_size]).to_s
end
Excon.post('http://geemus.com', :request_block => chunker)
file.close
Iterating in this way allows you to have more granular control over writes and to write things where you can not calculate the overall length up front.
Pipelining Requests
You can make use of HTTP pipelining to improve performance. Instead of the normal request/response cycle, pipelining sends a series of requests and then receives a series of responses. You can take advantage of this using the requests
method, which takes an array of params where each is a hash like request would receive and returns an array of responses.
connection = Excon.new('http://geemus.com/')
connection.requests([{:method => :get}, {:method => :get}])
By default, each call to requests
will use a separate persistent socket connection. To make multiple requests
calls
using a single persistent connection, set :persistent => true
when establishing the connection.
For large numbers of simultaneous requests please consider using the batch_requests
method. This will automatically slice up the requests into batches based on the file descriptor limit of your operating system. The results are the same as the requests
method, but using this method can help prevent timeout errors.
large_array_of_requests = [{:method => :get, :path => 'some_path'}, { ... }] # Hundreds of items
connection.batch_requests(large_array_of_requests)
Streaming Responses
You can stream responses by passing a block that will receive each chunk.
streamer = lambda do |chunk, remaining_bytes, total_bytes|
puts chunk
puts "Remaining: #{remaining_bytes.to_f / total_bytes}%"
end
Excon.get('http://geemus.com', :response_block => streamer)
Iterating over each chunk will allow you to do work on the response incrementally without buffering the entire response first. For very large responses this can lead to significant memory savings.
Proxy Support
You can specify a proxy URL that Excon will use with both HTTP and HTTPS connections:
connection = Excon.new('http://geemus.com', :proxy => 'http://my.proxy:3128')
connection.request(:method => 'GET')
Excon.get('http://geemus.com', :proxy => 'http://my.proxy:3128')
The proxy URL must be fully specified, including scheme (e.g. "http://") and port.
Proxy support must be set when establishing a connection object and cannot be overridden in individual requests.
NOTE: Excon will use HTTP_PROXY
and HTTPS_PROXY
environment variables. If set they will take precedence over any :proxy option specified in code. If "HTTPS_PROXY" is not set, "HTTP_PROXY" will be used for both HTTP and HTTPS connections. To disable this behavior, set the NO_PROXY
environment variable and other environment variable proxy settings will be disregarded.
Reusable ports
For advanced cases where you'd like to reuse the local port assigned to the excon socket in another socket, use the :reuseaddr
option.
connection = Excon.new('http://geemus.com', :reuseaddr => true)
connection.get
s = Socket.new(Socket::AF_INET, Socket::SOCK_STREAM, 0)
s.setsockopt(Socket::SOL_SOCKET, Socket::SO_REUSEADDR, true)
if defined?(Socket::SO_REUSEPORT)
s.setsockopt(Socket::SOL_SOCKET, Socket::SO_REUSEPORT, true)
end
s.bind(Socket.pack_sockaddr_in(connection.local_port, connection.local_address))
s.connect(Socket.pack_sockaddr_in(80, '1.2.3.4'))
puts s.read
s.close
Unix Socket Support
The Unix socket will work for one-off requests and multiuse connections. A Unix socket path must be provided separate from the resource path.
connection = Excon.new('unix:///', :socket => '/tmp/unicorn.sock')
connection.request(:method => :get, :path => '/ping')
Excon.get('unix:///ping', :socket => '/tmp/unicorn.sock')
NOTE: Proxies will be ignored when using a Unix socket, since a Unix socket has to be local.
Stubs
You can stub out requests for testing purposes by enabling mock mode on a connection.
connection = Excon.new('http://example.com', :mock => true)
Or by enabling mock mode for a request.
connection.request(:method => :get, :path => 'example', :mock => true)
Add stubs by providing the request attributes to match and response attributes to return. Response params can be specified as either a hash or block which will yield with the request params.
Excon.stub({}, {:body => 'body', :status => 200})
Excon.stub({}, lambda {|request_params| {:body => request_params[:body], :status => 200}})
Omitted attributes are assumed to match, so this stub will match any request and return an Excon::Response with a body of 'body' and status of 200.
Excon.stub({ :scheme => 'https', :host => 'example.com', :path => /\/examples\/\d+/, :port => 443 }, { body: 'body', status: 200 })
The above code will stub this:
Excon.get('https://example.com/examples/123', mock: true)
You can add whatever stubs you might like this way and they will be checked against in the order they were added, if none of them match then excon will raise an Excon::Errors::StubNotFound
error to let you know.
If you want to allow unstubbed requests without raising StubNotFound
, set the allow_unstubbed_requests
option either globally or per request.
connection = Excon.new('http://example.com', :mock => true, :allow_unstubbed_requests => true)
To remove a previously defined stub, or all stubs:
Excon.unstub({}) # remove first/oldest stub matching {}
Excon.stubs.clear # remove all stubs
For example, if using RSpec for your test suite you can clear stubs after running each example:
config.after(:each) do
Excon.stubs.clear
end
You can also modify Excon.defaults
to set a stub for all requests, so for a test suite you might do this:
# Mock by default and stub any request as success
config.before(:all) do
Excon.defaults[:mock] = true
Excon.stub({}, {:body => 'Fallback', :status => 200})
# Add your own stubs here or in specific tests...
end
By default stubs are shared globally, to make stubs unique to each thread, use Excon.defaults[:stubs] = :local
.
Instrumentation
Excon calls can be timed using the ActiveSupport::Notifications API.
connection = Excon.new(
'http://geemus.com',
:instrumentor => ActiveSupport::Notifications
)
Excon will then instrument each request, retry, and error. The corresponding events are named excon.request
, excon.retry
, and excon.error
respectively.
ActiveSupport::Notifications.subscribe(/excon/) do |*args|
puts "Excon did stuff!"
end
If you prefer to label each event with a namespace other than "excon", you may specify an alternate name in the constructor:
connection = Excon.new(
'http://geemus.com',
:instrumentor => ActiveSupport::Notifications,
:instrumentor_name => 'my_app'
)
Note: Excon's ActiveSupport::Notifications implementation has the following event format: <namespace>.<event>
which is the opposite of the Rails' implementation.
ActiveSupport provides a subscriber interface which lets you attach a subscriber to a namespace. Due to the incompability above, you won't be able to attach a subscriber to the "excon" namespace out of the box.
If you want this functionality, you can use a simple adapter such as this one:
class ExconToRailsInstrumentor
def self.instrument(name, datum, &block)
namespace, *event = name.split(".")
rails_name = [event, namespace].flatten.join(".")
ActiveSupport::Notifications.instrument(rails_name, datum, &block)
end
end
If you don't want to add ActiveSupport to your application, simply define a class which implements the same #instrument
method like so:
class SimpleInstrumentor
class << self
attr_accessor :events
def instrument(name, params = {}, &block)
puts "#{name} just happened."
yield if block_given?
end
end
end
The #instrument method will be called for each HTTP request, response, retry, and error.
For debugging purposes you can also use Excon::StandardInstrumentor
to output all events to stderr. This can also be specified by setting the EXCON_DEBUG
ENV var.
See the documentation for ActiveSupport::Notifications for more detail on using the subscription interface. See excon's instrumentation_test.rb for more examples of instrumenting excon.
HTTPS client certificate
You can supply a client side certificate if the server requires it for authentication:
connection = Excon.new('https://example.com',
client_cert: 'mycert.pem',
client_key: 'mycert.key',
client_key_pass: 'my pass phrase')
client_key_pass
is optional.
Optionally, you can also pass the whole chain by passing the extra certificates through client_chain
:
connection = Excon.new('https://example.com',
client_cert: 'mycert.pem',
client_chain: 'mychain.pem',
client_key: 'mycert.key')
If you already have loaded the certificate, key and chain into memory, then pass it through like:
client_cert_data = File.load 'mycert.pem'
client_key_data = File.load 'mycert.key'
connection = Excon.new('https://example.com',
client_cert_data: client_cert_data,
client_chain_data: client_chain_data,
client_key_data: client_key_data)
This can be useful if your program has already loaded the assets through another mechanism (E.g. a remote API call to a secure K:V system like Vault).
HTTPS/SSL Issues
By default excon will try to verify peer certificates when using HTTPS. Unfortunately on some operating systems the defaults will not work. This will likely manifest itself as something like Excon::Errors::CertificateError: SSL_connect returned=1 ...
If you have the misfortune of running into this problem you have a couple options. If you have certificates but they aren't being auto-discovered, you can specify the path to your certificates:
Excon.defaults[:ssl_ca_path] = '/path/to/certs'
Failing that, you can turn off peer verification (less secure):
Excon.defaults[:ssl_verify_peer] = false
Either of these should allow you to work around the socket error and continue with your work.
Getting Help
- Ask specific questions on Stack Overflow.
- Report bugs and discuss potential features in Github issues.
Contributing
Please refer to CONTRIBUTING.md.
Plugins and Middlewares
Using Excon's Middleware system, you can easily extend Excon's functionality with your own. The following plugins extend Excon in their own way:
Set addressable as the default URI parser, and add support for URI templating.
Teaches Excon to talk with HyperMedia APIs. Allowing you to use all of Excon's functionality, while traversing APIs in an easy and self-discovering way.
License
Please refer to LICENSE.md.