143 lines
5 KiB
Text
143 lines
5 KiB
Text
# PostgreSQL connection pool
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Let's see how we can write a simple web application that uses a
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[PostgreSQL](https://www.postgresql.org/) database to store simple textual
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messages, just like in the SQLite cookbook recipe. The main difference,
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besides the database technology, is that in this example we will be using
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a pool of connections to talk to the database server. The pool abstraction
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will be provided by the
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[resource-pool](https://hackage.haskell.org/package/resource-pool) library.
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As usual, we start with a little bit of throat clearing.
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``` haskell
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{-# LANGUAGE DataKinds #-}
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{-# LANGUAGE OverloadedStrings #-}
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{-# LANGUAGE TypeOperators #-}
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import Data.ByteString (ByteString)
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import Control.Concurrent
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import Control.Exception (bracket)
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import Control.Monad.IO.Class
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import Data.Pool
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import Database.PostgreSQL.Simple
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import Network.HTTP.Client (newManager, defaultManagerSettings)
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import Network.Wai.Handler.Warp
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import Servant
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import Servant.Client
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type DBConnectionString = ByteString
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```
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We will only care about a single type here, the messages. We want to
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be able to add a new one and retrieve them all, using two different
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endpoints.
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``` haskell
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type Message = String
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type API = ReqBody '[PlainText] Message :> Post '[JSON] NoContent
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:<|> Get '[JSON] [Message]
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api :: Proxy API
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api = Proxy
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```
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We proceed with a simple function for creating a table
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for holding our messages if it doesn't already exist, given
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a PostgreSQL connection string.
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``` haskell
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initDB :: DBConnectionString -> IO ()
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initDB connstr = bracket (connectPostgreSQL connstr) close $ \conn -> do
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execute_ conn
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"CREATE TABLE IF NOT EXISTS messages (msg text not null)"
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return ()
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```
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Next, our server implementation. It will be parametrised (take as
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argument) by the pool of database connections that handlers can use to
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talk to the PostgreSQL database. The resource pool abstraction allows us
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to flexibly set up a whole bunch of PostgreSQL connections tailored to our
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needs and then to forget about it all by simply asking for a connection
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using `withResource`.
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The handlers are straighforward. One takes care of inserting a new
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value in the database while the other fetches all messages and returns
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them. We also provide a function for serving our web app given a PostgreSQL
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connection pool, which simply calls servant-server's `serve` function.
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``` haskell
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server :: Pool Connection -> Server API
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server conns = postMessage :<|> getMessages
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where postMessage :: Message -> Handler NoContent
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postMessage msg = do
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liftIO . withResource conns $ \conn ->
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execute conn
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"INSERT INTO messages VALUES (?)"
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(Only msg)
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return NoContent
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getMessages :: Handler [Message]
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getMessages = fmap (map fromOnly) . liftIO $
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withResource conns $ \conn ->
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query_ conn "SELECT msg FROM messages"
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runApp :: Pool Connection -> IO ()
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runApp conns = run 8080 (serve api $ server conns)
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```
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We will also need a function for initialising our connection pool.
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`resource-pool` is quite configurable, feel free to wander in
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[its documentation](https://hackage.haskell.org/package/resource-pool)
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to gain a better understanding of how it works and what the configuration
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knobs are. I will be using some dummy values in this example.
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``` haskell
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initConnectionPool :: DBConnectionString -> IO (Pool Connection)
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initConnectionPool connStr =
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createPool (connectPostgreSQL connStr)
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close
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2 -- stripes
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60 -- unused connections are kept open for a minute
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10 -- max. 10 connections open per stripe
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```
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Let's finally derive some clients for our API and use them to
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insert two messages and retrieve them in `main`, after setting up
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our pool of database connections.
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``` haskell
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postMsg :: Message -> ClientM NoContent
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getMsgs :: ClientM [Message]
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postMsg :<|> getMsgs = client api
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main :: IO ()
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main = do
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-- you could read this from some configuration file,
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-- environment variable or somewhere else instead.
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-- you will need to either change this connection string OR
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-- set some environment variables (see
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-- https://www.postgresql.org/docs/9.5/static/libpq-envars.html)
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-- to point to a running PostgreSQL server for this example to work.
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let connStr = ""
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pool <- initConnectionPool connStr
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initDB connStr
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mgr <- newManager defaultManagerSettings
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bracket (forkIO $ runApp pool) killThread $ \_ -> do
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ms <- flip runClientM (ClientEnv mgr (BaseUrl Http "localhost" 8080 "")) $ do
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postMsg "hello"
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postMsg "world"
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getMsgs
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print ms
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```
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This program prints `Right ["hello","world"]` the first time it is executed,
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`Right ["hello","world","hello","world"]` the second time and so on.
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You could alternatively have the handlers live in `ReaderT (Pool Connection)`
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and access the pool using e.g `ask`, but this would be more complicated
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than simply taking the pool as argument.
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The entire source for this example is available as a cabal project
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[here](https://github.com/haskell-servant/servant/tree/master/doc/cookbook/db-postgres-pool).
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