gingersnap: snap-core + aeson + postgresql-simple = delicious

[ bsd3, library, web ] [ Propose Tags ]

JSON API idioms for snap-core, preventing DB connection leaks. See the README for a tutorial and example use.


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Versions [faq] 0.1.0.0, 0.1.1.0, 0.1.2.0, 0.1.3.0, 0.1.4.0, 0.1.4.1, 0.2.0.0, 0.2.0.1, 0.2.1.0, 0.2.1.1, 0.2.1.2, 0.2.2.0, 0.2.2.1, 0.2.2.2, 0.2.2.3, 0.3.0.0, 0.3.0.1, 0.3.1.0
Change log ChangeLog.md
Dependencies aeson, base (>=4.9 && <5), bytestring, http-types, postgresql-simple, resource-pool, snap-core, text, unordered-containers [details]
License BSD-3-Clause
Author Tinybop Labs, tom-bop
Maintainer tom@tinybop.com
Category Web
Home page https://github.com/Tinybop/gingersnap
Source repo head: git clone https://github.com/Tinybop/gingersnap
Uploaded by TomBop at Wed Oct 24 14:37:43 UTC 2018
Distributions LTSHaskell:0.3.1.0, NixOS:0.3.1.0, Stackage:0.3.1.0
Downloads 2897 total (289 in the last 30 days)
Rating 2.25 (votes: 2) [estimated by rule of succession]
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Status Hackage Matrix CI
Docs available [build log]
Last success reported on 2018-10-24 [all 1 reports]

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Readme for gingersnap-0.2.0.0

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Gingersnap

What is Gingersnap? Not a web framework: that's Snap Core's job. More a set of lightweight idioms for building a resource-safe JSON API with Aeson and postgresql-simple.

As it's just a set of idioms, it's easy to only use 'em where you need 'em. An app could have only a single endpoint that uses Gingersnap, with the rest using plain Snap Core.

How do we use it? This README is also a Literate Haskell file so it's a full example you can run with markdown-unlit. Let's get started:

Imports at the top!

A few imports we'll need for this tutorial:

{-# LANGUAGE DeriveGeneric, OverloadedStrings #-}

import Data.Aeson (ToJSON)
import Database.PostgreSQL.Simple
 -- For our automatic JSON instance:
import GHC.Generics (Generic)
import Gingersnap.Core
import Snap.Core
-- From the 'snap-server' package:
import Snap.Http.Server (quickHttpServe)

A first endpoint

Now that we've got our imports, let's jump into defining an endpoint. We'll define a little bit of setup code later on in the file.

data SomeData = SomeData Int Bool
 deriving (Show, Generic)

instance ToJSON SomeData

one :: Ctx -> Snap ()
one ctx =
   pureRsp ctx $ rspGood $ SomeData 5 True

You can run the code from this file with

$ cabal update
$ cabal install gingersnap snap-server
$ ghci -pgmL markdown-unlit README.lhs   # The "-pgmL" is just for this README

And calling "main". In another window, if you call:

$ curl 'localhost:8000/one'

You should get back:

{"result":[5,true]}

A few things to notice:

  • The endpoint takes as an argument a "Ctx". We'll see the definition of that later.
  • The endpoint returns our data with "rspGood". More on that in a moment.
  • The response came wrapped in a "result" JSON object. You can customize that behavior but we'll use the default here.

So, what's "rspGood"? Well, it has the type

rspGood :: ToJSON x => x -> Rsp

The "Rsp" type is one of the core types in Gingersnap. Keep an eye out for it later.

Defining "main"

Let's now look at how we defined our main function.

main :: IO ()
main = do
   ctx <- makeCtx
   quickHttpServe $ route [
        ("one", one ctx)
      , ("two", two ctx)
      ]

Other than "ctx", this isn't Gingersnap-specific at all: just a simple Snap Core server. "makeCtx" is a function we define ourselves. It creates a value of type "Ctx", which we define ourselves, and which is an instance of "IsCtx".

IsCtx

The idea of "IsCtx" is that it allows us to thread whatever data we need through to our endpoints. We'll definitely need a database connection (pool), but it's a typeclass, so you can define whatever other fields you'd like to pass to your handlers in the type that's an instance of that class.

For example, if you're using the 'auto-update' package to efficiently run periodic actions (like getting the current time), you may want to create another set of fields in your "Ctx" type to easily thread auto-update's actions through to your handlers, too.

So let's define our own! We unimaginitavely call it "Ctx":

data Ctx = Ctx { ctx_db :: Pool Connection }

instance IsCtx Ctx where
   ctxConnectionPool = ctx_db

And then define a simple "makeCtx":

makeCtx :: IO Ctx
makeCtx = do

   -- Setting up the DB connection pool:
   let connString = " host=localhost port=5432 dbname=postgres user=postgres "
   pool <- createPool (connectPostgreSQL connString) close 1 5 20

   pure $ Ctx { ctx_db = pool }

And that's that!

Talking to the database

Now that we've got (through Ctx) a DB connection pool, let's query the DB:

two :: Ctx -> Snap ()
two ctx = do
   inTransaction ctx $ \conn -> do
      [Only x] <- query_ conn " SELECT 2 + 2 "
      pure $ rspGood $ SomeData x True
$ curl 'localhost:8000/two'
{"result":[4,true]}

Nice! This uses "inTransaction", another core tool in Gingersnap:

inTransaction :: IsCtx ctx => ctx -> (Connection -> IO Rsp) -> Snap ()

We've already seen IsCtx and Rsp, so the main thing to notice here is that the action we pass to inTransaction is passed a Connection and is in IO, not in Snap (or MonadSnap). This gives us a few nice things:

  • If you're in Snap, you can accidentally leak a Connection resource by calling finishWith while in the middle of a transaction or DB action. We don't have this problem.
  • We can choose at any time whether to commit or rollback. The "Rsp" type carries information about whether to commit or rollback (e.g. "rspGood" will commit, "rspBadRollback" won't). This is in contrast to "withTransaction", that'll only roll back if there's an exception, and in contrast to manually beginning a transaction, which provides no check that we properly commit or rollback (e.g. we could forget to commit/rollback in one case among many in a complicated statement)

Other things to discover

This tutorial is a work in progress, and these'll be the next concepts to be touched on:

  • "Not everything's rspGood": rspBadRollback, ApiErr, and others
  • reqObject and (.!) for consuming JSON