Awesome
Syro
Simple router for web applications.
Community
Meet us on IRC: #syro on freenode.net.
Description
Syro is a very simple router for web applications. It was created in the tradition of libraries like Rum and Cuba, but it promotes a less flexible usage pattern. The design is inspired by the way some Cuba applications are architected: modularity is encouraged and sub-applications can be dispatched without any significant performance overhead.
Check the website for more information, and follow the tutorial for a step by step introduction.
Usage
An example of a modular application would look like this:
Admin = Syro.new do
get do
res.write "Hello from admin!"
end
end
App = Syro.new do
on "admin" do
run(Admin)
end
end
The block is evaluated in a sandbox where the following methods are
available: env
, req
, res
, path
, inbox
, call
, run
,
halt
, handle
, finish!
, consume
, capture
, root?
match
,
default
, on
, root
,get
, put
, head
, post
, patch
,
delete
and options
. Three other methods are available for
customizations: default_headers
, request_class
and response_class
.
As a recommendation, user created variables should be instance
variables. That way they won't mix with the API methods defined in
the sandbox. All the internal instance variables defined by Syro
are prefixed by syro_
, like in @syro_inbox
.
API
env
: Environment variables for the request.
req
: Helper object for accessing the request variables. It's an
instance of Rack::Request
.
res
: Helper object for creating the response. It's an instance
of Syro::Response
.
path
: Helper object that tracks the previous and current path.
inbox
: Hash with captures and potentially other variables local
to the request.
call
: Entry point for the application. It receives the environment
and optionally an inbox.
run
: Runs a sub app, and accepts an inbox as an optional second
argument.
halt
: Terminates the request. It receives an array with the
response as per Rack's specification.
handle
: Installs a handler for a given status code. It receives
a status code and a block that will be executed from finish!
.
finish!
: Terminates the request by executing any installed handlers
and then halting with the current value of res.finish
.
consume
: Match and consume a path segment.
capture
: Match and capture a path segment. The value is stored in
the inbox.
root?
: Returns true if the path yet to be consumed is empty.
match
: Receives a String, a Symbol or a boolean, and returns true
if it matches the request.
default
: Receives a block that will be executed unconditionally.
on
: Receives a value to be matched, and a block that will be
executed only if the request is matched.
root
: Receives a block and calls it only if root?
is true.
get
: Receives a block and calls it only if root?
and req.get?
are
true.
put
: Receives a block and calls it only if root?
and req.put?
are
true.
head
: Receives a block and calls it only if root?
and req.head?
are true.
post
: Receives a block and calls it only if root?
and req.post?
are true.
patch
: Receives a block and calls it only if root?
and req.patch?
are true.
delete
: Receives a block and calls it only if root?
and req.delete?
are true.
options
: Receives a block and calls it only if root?
and
req.options?
are true.
Decks
The sandbox where the application is evaluated is an instance of
Syro::Deck
, and it provides the API described earlier. You can
define your own Deck
and pass it to the Syro
constructor. All
the methods defined in there will be accessible from your routes.
Here's an example:
class TextualDeck < Syro::Deck
def text(str)
res[Rack::CONTENT_TYPE] = "text/plain"
res.write(str)
end
end
App = Syro.new(TextualDeck) do
get do
text("hello world")
end
end
The example is simple enough to showcase the concept, but maybe too simple to be meaningful. The idea is that you can create your own specialized decks and reuse them in different applications. You can also define modules and later include them in your decks: for example, you can write modules for rendering or serializing data, and then you can combine those modules in your custom decks.
Examples
In the following examples, the response string represents the request path that was sent.
App = Syro.new do
get do
res.write "GET /"
end
post do
res.write "POST /"
end
on "users" do
on :id do
# Captured values go to the inbox
@user = User[inbox[:id]]
get do
res.write "GET /users/42"
end
put do
res.write "PUT /users/42"
end
patch do
res.write "PATCH /users/42"
end
delete do
res.write "DELETE /users/42"
end
end
get do
res.write "GET /users"
end
post do
res.write "POST /users"
end
end
end
Matches
The on
method can receive a String
to perform path matches; a
Symbol
to perform path captures; and a boolean to match any true
values.
Each time on
matches or captures a segment of the PATH, that part
of the path is consumed. The current and previous paths can be
queried by calling prev
and curr
on the path
object: path.prev
returns the part of the path already consumed, and path.curr
provides the current version of the path.
Any expression that evaluates to a boolean can also be used as a
matcher. For example, a common pattern is to follow some route
only if a user is authenticated. That can be accomplished with
on(authenticated(User))
. That example assumes there's a method
called authenticated
that returns true or false depending on
whether or not an instance of User
is authenticated. As a side
note, Shield is a library that provides just that.
Captures
When a symbol is provided, on
will try to consume a segment of
the path. A segment is defined as any sequence of characters after
a slash and until either another slash or the end of the string.
The captured value is stored in the inbox
hash under the key that
was provided as the argument to on
. For example, after a call to
on(:user_id)
, the value for the segment will be stored at
inbox[:user_id]
. When mounting an application called Users
with
the command run(Users)
, an inbox can be provided as the second
argument: run(Users, inbox)
. That allows apps to share previous
captures.
Status code
By default the status code is set to 404
. If both path and request
method are matched, the status is automatically changed to 200
.
You can change the status code by assigning a number to res.status
,
for example:
post do
...
res.status = 201
end
Handlers
Status code handlers can be installed with the handle
command,
which receives a status code and a block to be executed just before
finishing the request.
By default, if there are no matches in a Syro application the
response is a 404
with an empty body. If we decide to handle the
404
requests and return a string, we can do as follows:
App = Syro.new do
handle 404 do
res.text "Not found!"
end
get do
res.text "Found!"
end
end
In this example, a GET
request to "/"
will return a status 200
with the body "Found!"
. Any other request will return a 404
with the body "Not found!"
.
If a new handler is installed for the same status code, the previous handler is overwritten. A handler is valid in the current scope and in all its nested branches. Blocks that end before the handler is installed are not affected.
This is a contrived example that shows some edge cases when using handlers:
App = Syro.new do
on "foo" do
# 404, empty body
end
handle 404 do
res.text "Not found!"
end
on "bar" do
# 404, body is "Not found!"
end
on "baz" do
# 404, body is "Couldn't find baz"
handle 404 do
res.text "Couldn't find baz"
end
end
end
A request to "/foo"
will return a 404
, because the request
method was not matched. But as the on "foo"
block ends before the
handler is installed, the result will be a blank screen. On the
other hand, a request to "/bar"
will return a 404
with the plain
text "Not found!"
.
Finally, a request to "/baz"
will return a 404
with the plain text
"Couldn't find baz"
, because by the time the on "baz"
block ends
a new handler is installed, and thus the previous one is overwritten.
Any status code can be handled this way, even status 200
. In that
case the handler will behave as a filter to be run after each
successful request.
Content type
There's no default value for the content type header, but there's a handy way of setting the desired value.
In order to write the body of the response, the res.write
method
is used:
res.write "hello world"
It has the drawback of leaving the Content-Type
header empty.
Three alternative methods are provided, and more can be added by
using custom Decks.
Setting the Content-Type as "text/plain"
:
res.text "hello world"
Setting the Content-Type as "text/html"
:
res.html "hello world"
Setting the Content-Type as "application/json"
:
res.json "hello world"
Note that aside from writing the response body and setting the value
for the Content-Type header, no encoding or serialization takes
place. If you want to return a JSON encoded response, make sure to
encode the objects yourself (i.e., res.json JSON.dump(...)
).
Security
There are no security features built into this routing library. A framework using this library should implement the security layer.
Rendering
There are no rendering features built into this routing library. A framework that uses this routing library can easily implement helpers for rendering.
Middleware
Syro doesn't support Rack middleware out of the box. If you need them,
just use Rack::Builder
:
App = Rack::Builder.new do
use Rack::Session::Cookie, secret: "..."
run Syro.new {
get do
res.write("Hello, world")
end
}
end
Trivia
An initial idea was to release a new version of Cuba that broke backward compatibility, but in the end my friends suggested to release this as a separate library. In the future, some ideas of this library could be included in Cuba as well.
Installation
$ gem install syro