{-# LANGUAGE AllowAmbiguousTypes #-}
{-# LANGUAGE DeriveAnyClass #-}
{-# LANGUAGE QuasiQuotes #-}
{-# OPTIONS_GHC -Wno-orphans #-}
module Postgres.MonadPostgres where
import Arg
import AtLeast (AtLeast)
import Control.Exception
( Exception (displayException),
Handler (Handler),
catches,
try,
)
import Control.Foldl qualified as Fold
import Control.Monad.Logger.CallStack (MonadLogger, logDebug, logWarn)
import Control.Monad.Reader (MonadReader (ask), ReaderT (..))
import Control.Monad.Trans.Resource
import Data.Aeson (FromJSON)
import Data.ByteString qualified as ByteString
import Data.Error.Tree
import Data.HashMap.Strict qualified as HashMap
import Data.Int (Int64)
import Data.Kind (Type)
import Data.List qualified as List
import Data.Pool (Pool)
import Data.Pool qualified as Pool
import Data.Text qualified as Text
import Data.Typeable (Typeable)
import Database.PostgreSQL.Simple (Connection, FormatError, FromRow, Query, QueryError, ResultError, SqlError, ToRow)
import Database.PostgreSQL.Simple qualified as PG
import Database.PostgreSQL.Simple qualified as Postgres
import Database.PostgreSQL.Simple.FromRow qualified as PG
import Database.PostgreSQL.Simple.ToField (ToField)
import Database.PostgreSQL.Simple.ToRow (ToRow (toRow))
import Database.PostgreSQL.Simple.Types (Query (..))
import GHC.IO.Handle (Handle)
import GHC.Records (getField)
import Label
import OpenTelemetry.Trace.Core (NewEvent (newEventName))
import OpenTelemetry.Trace.Core qualified as Otel hiding (inSpan, inSpan')
import OpenTelemetry.Trace.Monad qualified as Otel
import PossehlAnalyticsPrelude
import Postgres.Decoder
import Postgres.Decoder qualified as Dec
import Pretty (showPretty)
import Seconds
import System.Exit (ExitCode (..))
import Tool
import UnliftIO (MonadUnliftIO (withRunInIO), bracket, hClose, mask_)
import UnliftIO.Concurrent (forkIO)
import UnliftIO.Process (ProcessHandle)
import UnliftIO.Process qualified as Process
import UnliftIO.Resource qualified as Resource
import Prelude hiding (init, span)
-- | Postgres queries/commands that can be executed within a running transaction.
--
-- These are implemented with the @postgresql-simple@ primitives of the same name
-- and will behave the same unless othewise documented.
class (Monad m) => MonadPostgres (m :: Type -> Type) where
-- | Execute an INSERT, UPDATE, or other SQL query that is not expected to return results.
-- Returns the number of rows affected.
execute ::
(ToRow params, Typeable params) =>
Query ->
params ->
Transaction m (Label "numberOfRowsAffected" Natural)
-- | Execute a multi-row INSERT, UPDATE, or other SQL query that is not expected to return results.
--
-- Returns the number of rows affected. If the list of parameters is empty,
-- this function will simply return 0 without issuing the query to the backend.
-- If this is not desired, consider using the 'PG.Values' constructor instead.
executeMany ::
(ToRow params, Typeable params) =>
Query ->
NonEmpty params ->
Transaction m (Label "numberOfRowsAffected" Natural)
-- | Execute INSERT ... RETURNING, UPDATE ... RETURNING,
-- or other SQL query that accepts multi-row input and is expected to return results.
-- Note that it is possible to write query conn "INSERT ... RETURNING ..." ...
-- in cases where you are only inserting a single row,
-- and do not need functionality analogous to 'executeMany'.
--
-- If the list of parameters is empty, this function will simply return [] without issuing the query to the backend. If this is not desired, consider using the 'PG.Values' constructor instead.
executeManyReturningWith :: (ToRow q) => Query -> NonEmpty q -> Decoder r -> Transaction m [r]
-- | Run a query, passing parameters and result row parser.
queryWith ::
(PG.ToRow params, Typeable params, Typeable r) =>
PG.Query ->
params ->
Decoder r ->
Transaction m [r]
-- | Run a query without any parameters and result row parser.
queryWith_ ::
(Typeable r) =>
PG.Query ->
Decoder r ->
Transaction m [r]
-- | Run a query, passing parameters, and fold over the resulting rows.
--
-- This doesn’t have to realize the full list of results in memory,
-- rather results are streamed incrementally from the database.
--
-- When dealing with small results, it may be simpler (and perhaps faster) to use query instead.
--
-- This fold is _not_ strict. The stream consumer is responsible
-- for forcing the evaluation of its result to avoid space leaks.
--
-- If you can, prefer aggregating in the database itself.
foldRowsWithAcc ::
(ToRow params, Typeable row, Typeable params) =>
Query ->
params ->
Decoder row ->
a ->
(a -> row -> Transaction m a) ->
Transaction m a
-- | Run a given transaction in a transaction block, rolling back the transaction
-- if any exception (postgres or Haskell Exception) is thrown during execution.
--
-- Re-throws the exception.
--
-- Don’t do any long-running things on the Haskell side during a transaction,
-- because it will block a database connection and potentially also lock
-- database tables from being written or read by other clients.
--
-- Nonetheless, try to push transactions as far out to the handlers as possible,
-- don’t do something like @runTransaction $ query …@, because it will lead people
-- to accidentally start nested transactions (the inner transaction is run on a new connections,
-- thus can’t see any changes done by the outer transaction).
-- Only handlers should run transactions.
runTransaction :: Transaction m a -> m a
-- | Run a query, passing parameters. Prefer 'queryWith' if possible.
query ::
forall m params r.
(PG.ToRow params, PG.FromRow r, Typeable params, Typeable r, MonadPostgres m) =>
PG.Query ->
params ->
Transaction m [r]
query qry params = queryWith qry params (Decoder PG.fromRow)
-- | Run a query without any parameters. Prefer 'queryWith' if possible.
--
-- TODO: I think(?) this can always be replaced by passing @()@ to 'query', remove?
query_ ::
forall m r.
(Typeable r, PG.FromRow r, MonadPostgres m) =>
PG.Query ->
Transaction m [r]
query_ qry = queryWith_ qry (Decoder PG.fromRow)
-- TODO: implement via fold, so that the result doesn’t have to be realized in memory
querySingleRow ::
( MonadPostgres m,
ToRow qParams,
Typeable qParams,
FromRow a,
Typeable a,
MonadThrow m
) =>
Query ->
qParams ->
Transaction m a
querySingleRow qry params = do
query qry params >>= ensureSingleRow
-- TODO: implement via fold, so that the result doesn’t have to be realized in memory
querySingleRowWith ::
( MonadPostgres m,
ToRow qParams,
Typeable qParams,
Typeable a,
MonadThrow m
) =>
Query ->
qParams ->
Decoder a ->
Transaction m a
querySingleRowWith qry params decoder = do
queryWith qry params decoder >>= ensureSingleRow
-- TODO: implement via fold, so that the result doesn’t have to be realized in memory
querySingleRowMaybe ::
( MonadPostgres m,
ToRow qParams,
Typeable qParams,
FromRow a,
Typeable a,
MonadThrow m
) =>
Query ->
qParams ->
Transaction m (Maybe a)
querySingleRowMaybe qry params = do
rows <- query qry params
case rows of
[] -> pure Nothing
[one] -> pure (Just one)
-- TODO: Should we MonadThrow this here? It’s really an implementation detail of MonadPostgres
-- that a database function can error out, should probably handled by the instances.
more -> throwM $ SingleRowError {numberOfRowsReturned = (List.length more)}
ensureSingleRow ::
(MonadThrow m) =>
[a] ->
m a
ensureSingleRow = \case
-- TODO: Should we MonadThrow this here? It’s really an implementation detail of MonadPostgres
-- that a database function can error out, should probably handled by the instances.
[] -> throwM (SingleRowError {numberOfRowsReturned = 0})
[one] -> pure one
more ->
throwM $
SingleRowError
{ numberOfRowsReturned =
-- TODO: this is VERY bad, because it requires to parse the full database output, even if there’s 10000000000 elements
List.length more
}
ensureNoneOrSingleRow ::
(MonadThrow m) =>
[a] ->
m (Maybe a)
ensureNoneOrSingleRow = \case
-- TODO: Should we MonadThrow this here? It’s really an implementation detail of MonadPostgres
-- that a database function can error out, should probably handled by the instances.
[] -> pure Nothing
[one] -> pure $ Just one
more ->
throwM $
SingleRowError
{ numberOfRowsReturned =
-- TODO: this is VERY bad, because it requires to parse the full database output, even if there’s 10000000000 elements
List.length more
}
-- | Run a query, passing parameters, and fold over the resulting rows.
--
-- This doesn’t have to realize the full list of results in memory,
-- rather results are streamed incrementally from the database.
--
-- When dealing with small results, it may be simpler (and perhaps faster) to use query instead.
--
-- The results are folded strictly by the 'Fold.Fold' that is passed.
--
-- If you can, prefer aggregating in the database itself.
foldRowsWith ::
forall row params m b.
( MonadPostgres m,
PG.ToRow params,
Typeable row,
Typeable params
) =>
PG.Query ->
params ->
Decoder row ->
Fold.Fold row b ->
Transaction m b
foldRowsWith qry params decoder = Fold.purely f
where
f :: forall x. (x -> row -> x) -> x -> (x -> b) -> Transaction m b
f acc init extract = do
x <- foldRowsWithAcc qry params decoder init (\a r -> pure $ acc a r)
pure $ extract x
newtype Transaction m a = Transaction {unTransaction :: (ReaderT Connection m a)}
deriving newtype
( Functor,
Applicative,
Monad,
MonadThrow,
MonadLogger,
MonadIO,
MonadUnliftIO,
MonadTrans,
Otel.MonadTracer
)
-- | [Resource Pool](http://hackage.haskell.org/package/resource-pool-0.2.3.2/docs/Data-Pool.html) configuration.
data PoolingInfo = PoolingInfo
{ -- | Minimal amount of resources that are
-- always available.
numberOfStripes :: AtLeast 1 Int,
-- | Time after which extra resources
-- (above minimum) can stay in the pool
-- without being used.
unusedResourceOpenTime :: Seconds,
-- | Max number of resources that can be
-- in the Pool at any time
maxOpenResourcesAcrossAllStripes :: AtLeast 1 Int
}
deriving stock (Generic, Eq, Show)
deriving anyclass (FromJSON)
initMonadPostgres ::
(Text -> IO ()) ->
-- | Info describing the connection to the Postgres DB
Postgres.ConnectInfo ->
-- | Configuration info for pooling attributes
PoolingInfo ->
-- | Created Postgres connection pool
ResourceT IO (Pool Postgres.Connection)
initMonadPostgres logInfoFn connectInfo poolingInfo = do
(_releaseKey, connPool) <-
Resource.allocate
(logInfoFn "Creating Postgres Connection Pool" >> createPGConnPool)
(\pool -> logInfoFn "Destroying Postgres Connection Pool" >> destroyPGConnPool pool)
pure connPool
where
-- \| Create a Postgres connection pool
createPGConnPool ::
IO (Pool Postgres.Connection)
createPGConnPool =
Pool.newPool $
Pool.defaultPoolConfig
{- resource init action -} poolCreateResource
{- resource destruction -} poolfreeResource
( poolingInfo.unusedResourceOpenTime.unSeconds
& fromIntegral @Natural @Double
)
(poolingInfo.maxOpenResourcesAcrossAllStripes.unAtLeast)
where
poolCreateResource = Postgres.connect connectInfo
poolfreeResource = Postgres.close
-- \| Destroy a Postgres connection pool
destroyPGConnPool ::
-- \| Pool to be destroyed
(Pool Postgres.Connection) ->
IO ()
destroyPGConnPool p = Pool.destroyAllResources p
-- | Improve a possible error message, by adding some context to it.
--
-- The given Exception type is caught, 'show'n and pretty-printed.
--
-- In case we get an `IOError`, we display it in a reasonable fashion.
addErrorInformation ::
forall exc a.
(Exception exc) =>
Text.Text ->
IO a ->
IO a
addErrorInformation msg io =
io
& try @exc
<&> first (showPretty >>> newError >>> errorContext msg)
& try @IOError
<&> first (showToError >>> errorContext "IOError" >>> errorContext msg)
<&> join @(Either Error)
>>= unwrapIOError
-- | Catch any Postgres exception that gets thrown,
-- print the query that was run and the query parameters,
-- then rethrow inside an 'Error'.
handlePGException ::
forall a params tools m.
( ToRow params,
MonadUnliftIO m,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool
) =>
tools ->
Text ->
Query ->
-- | Depending on whether we used `format` or `formatMany`.
Either params (NonEmpty params) ->
IO a ->
Transaction m a
handlePGException tools queryType query' params io = do
withRunInIO $ \unliftIO ->
io
`catches` [ Handler $ unliftIO . logQueryException @SqlError,
Handler $ unliftIO . logQueryException @QueryError,
Handler $ unliftIO . logQueryException @ResultError,
Handler $ unliftIO . logFormatException
]
where
-- TODO: use throwInternalError here (after pulling it into the MonadPostgres class)
throwAsError = unwrapIOError . Left . newError
throwErr err = liftIO $ throwAsError $ prettyErrorTree $ nestedMultiError "A Postgres query failed" err
logQueryException :: (Exception e) => e -> Transaction m a
logQueryException exc = do
formattedQuery <- case params of
Left one -> pgFormatQuery' tools query' one
Right many -> pgFormatQueryMany' tools query' many
throwErr
( singleError [fmt|Query Type: {queryType}|]
:| [ nestedError "Exception" (exc & showPretty & newError & singleError),
nestedError "Query" (formattedQuery & newError & singleError)
]
)
logFormatException :: FormatError -> Transaction m a
logFormatException fe = throwErr (fe & showPretty & newError & singleError & singleton)
-- | Perform a Postgres action within a transaction
withPGTransaction ::
-- | Postgres connection pool to be used for the action
(Pool Postgres.Connection) ->
-- | DB-action to be performed
(Postgres.Connection -> IO a) ->
-- | Result of the DB-action
IO a
withPGTransaction connPool f =
Pool.withResource
connPool
(\conn -> Postgres.withTransaction conn (f conn))
-- | `pg_formatter` is a perl script that does not support any kind of streaming.
-- Thus we initialize a pool with a bunch of these scripts running, waiting for input. This way we can have somewhat fast SQL formatting.
--
-- Call `initPgFormatPool` to initialize, then use `runPgFormat` to format some sql.
data PgFormatPool = PgFormatPool
{ pool :: Pool PgFormatProcess,
pgFormat :: Tool
}
data PgFormatProcess = PgFormatProcess
{ stdinHdl :: Handle,
stdoutHdl :: Handle,
stderrHdl :: Handle,
procHdl :: ProcessHandle,
startedAt :: Otel.Timestamp
}
initPgFormatPool :: (HasField "pgFormat" tools Tool) => tools -> IO PgFormatPool
initPgFormatPool tools = do
pool <-
Pool.newPool
( Pool.defaultPoolConfig
(pgFormatStartCommandWaitForInput tools)
( \pgFmt -> do
Process.terminateProcess pgFmt.procHdl
-- make sure we don’t leave any zombies
_ <- forkIO $ do
_ <- Process.waitForProcess pgFmt.procHdl
pure ()
pure ()
)
-- unused resource time
100
-- number of resources
10
)
-- fill the pool with resources
let go =
Pool.tryWithResource pool (\_ -> go) >>= \case
Nothing -> pure ()
Just () -> pure ()
_ <- go
pure (PgFormatPool {pool, pgFormat = tools.pgFormat})
destroyPgFormatPool :: PgFormatPool -> IO ()
destroyPgFormatPool pool = Pool.destroyAllResources pool.pool
-- | Get the oldest resource from the pool, or stop if you find a resource that’s older than `cutoffPointMs`.
takeOldestResource :: PgFormatPool -> Arg "cutoffPointMs" Integer -> IO (PgFormatProcess, Pool.LocalPool PgFormatProcess)
takeOldestResource pool cutoffPointMs = do
now <- Otel.getTimestamp
mask_ $ do
a <- Pool.takeResource pool.pool
(putBack, res) <- go now [] a
-- make sure we don’t leak any resources we didn’t use in the end
for_ putBack $ \(x, xLocal) -> Pool.putResource xLocal x
pure res
where
mkMs ts = (ts & Otel.timestampNanoseconds & toInteger) `div` 1000_000
go now putBack a@(a', _) =
if abs (mkMs now - mkMs a'.startedAt) > cutoffPointMs.unArg
then pure (putBack, a)
else
Pool.tryTakeResource pool.pool >>= \case
Nothing -> pure (putBack, a)
Just b@(b', _) -> do
if a'.startedAt < b'.startedAt
then go now (b : putBack) a
else go now (a : putBack) b
-- | Format the given SQL with pg_formatter. Will use the pool of already running formatters to speed up execution.
runPgFormat :: PgFormatPool -> ByteString -> IO (T3 "exitCode" ExitCode "formatted" ByteString "stderr" ByteString)
runPgFormat pool sqlStatement = do
bracket
(takeOldestResource pool 200)
( \(a, localPool) -> do
-- we always destroy the resource, because the process exited
Pool.destroyResource pool.pool localPool a
-- create a new process to keep the pool “warm”
new <- pgFormatStartCommandWaitForInput pool
Pool.putResource localPool new
)
( \(pgFmt, _localPool) -> do
putStderrLn "Running with warm pgformatter"
ByteString.hPut pgFmt.stdinHdl sqlStatement
-- close stdin to make pg_formatter format (it exits …)
-- issue: https://github.com/darold/pgFormatter/issues/333
hClose pgFmt.stdinHdl
formatted <- ByteString.hGetContents pgFmt.stdoutHdl
errs <- ByteString.hGetContents pgFmt.stderrHdl
exitCode <- Process.waitForProcess pgFmt.procHdl
pure $
T3
(label @"exitCode" exitCode)
(label @"formatted" formatted)
(label @"stderr" errs)
)
runPGTransactionImpl ::
(MonadUnliftIO m) =>
m (Pool Postgres.Connection) ->
Transaction m a ->
m a
{-# INLINE runPGTransactionImpl #-}
runPGTransactionImpl zoom (Transaction transaction) = do
pool <- zoom
withRunInIO $ \unliftIO ->
withPGTransaction pool $ \conn -> do
unliftIO $ runReaderT transaction conn
executeImpl ::
(ToRow params, MonadUnliftIO m, MonadLogger m, HasField "pgFormat" tools PgFormatPool, Otel.MonadTracer m) =>
m tools ->
m DebugLogDatabaseQueries ->
Query ->
params ->
Transaction m (Label "numberOfRowsAffected" Natural)
{-# INLINE executeImpl #-}
executeImpl zoomTools zoomDebugLogDatabaseQueries qry params =
Otel.inSpan' "Postgres Query (execute)" Otel.defaultSpanArguments $ \span -> do
tools <- lift @Transaction zoomTools
logDatabaseQueries <- lift @Transaction zoomDebugLogDatabaseQueries
traceQueryIfEnabled tools span logDatabaseQueries qry (HasSingleParam params)
conn <- Transaction ask
PG.execute conn qry params
& handlePGException tools "execute" qry (Left params)
>>= toNumberOfRowsAffected "executeImpl"
executeImpl_ ::
(MonadUnliftIO m, MonadLogger m, HasField "pgFormat" tools PgFormatPool, Otel.MonadTracer m) =>
m tools ->
m DebugLogDatabaseQueries ->
Query ->
Transaction m (Label "numberOfRowsAffected" Natural)
{-# INLINE executeImpl_ #-}
executeImpl_ zoomTools zoomDebugLogDatabaseQueries qry =
Otel.inSpan' "Postgres Query (execute)" Otel.defaultSpanArguments $ \span -> do
tools <- lift @Transaction zoomTools
logDatabaseQueries <- lift @Transaction zoomDebugLogDatabaseQueries
traceQueryIfEnabled @() tools span logDatabaseQueries qry HasNoParams
conn <- Transaction ask
PG.execute_ conn qry
& handlePGException tools "execute_" qry (Left ())
>>= toNumberOfRowsAffected "executeImpl_"
executeManyImpl ::
(ToRow params, MonadUnliftIO m, MonadLogger m, HasField "pgFormat" tools PgFormatPool, Otel.MonadTracer m) =>
m tools ->
m DebugLogDatabaseQueries ->
Query ->
NonEmpty params ->
Transaction m (Label "numberOfRowsAffected" Natural)
executeManyImpl zoomTools zoomDebugLogDatabaseQueries qry params =
Otel.inSpan' "Postgres Query (executeMany)" Otel.defaultSpanArguments $ \span -> do
tools <- lift @Transaction zoomTools
logDatabaseQueries <- lift @Transaction zoomDebugLogDatabaseQueries
traceQueryIfEnabled tools span logDatabaseQueries qry (HasMultiParams params)
conn <- Transaction ask
PG.executeMany conn qry (params & toList)
& handlePGException tools "executeMany" qry (Right params)
>>= toNumberOfRowsAffected "executeManyImpl"
toNumberOfRowsAffected :: (MonadIO m) => Text -> Int64 -> m (Label "numberOfRowsAffected" Natural)
toNumberOfRowsAffected functionName i64 =
i64
& intToNatural
& annotate [fmt|{functionName}: postgres returned a negative number of rows affected: {i64}|]
-- we throw this directly in IO here, because we don’t want to e.g. have to propagate MonadThrow through user code (it’s an assertion)
& unwrapIOError
& liftIO
<&> label @"numberOfRowsAffected"
executeManyReturningWithImpl ::
(ToRow params, MonadUnliftIO m, MonadLogger m, HasField "pgFormat" tools PgFormatPool, Otel.MonadTracer m) =>
m tools ->
m DebugLogDatabaseQueries ->
Query ->
NonEmpty params ->
Decoder r ->
Transaction m [r]
{-# INLINE executeManyReturningWithImpl #-}
executeManyReturningWithImpl zoomTools zoomDebugLogDatabaseQueries qry params (Decoder fromRow) = do
Otel.inSpan' "Postgres Query (executeManyReturning)" Otel.defaultSpanArguments $ \span -> do
tools <- lift @Transaction zoomTools
logDatabaseQueries <- lift @Transaction zoomDebugLogDatabaseQueries
traceQueryIfEnabled tools span logDatabaseQueries qry (HasMultiParams params)
conn <- Transaction ask
PG.returningWith fromRow conn qry (params & toList)
& handlePGException tools "executeManyReturning" qry (Right params)
foldRowsWithAccImpl ::
( ToRow params,
MonadUnliftIO m,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool,
Otel.MonadTracer m
) =>
m tools ->
m DebugLogDatabaseQueries ->
Query ->
params ->
Decoder row ->
a ->
(a -> row -> Transaction m a) ->
Transaction m a
{-# INLINE foldRowsWithAccImpl #-}
foldRowsWithAccImpl zoomTools zoomDebugLogDatabaseQueries qry params (Decoder rowParser) accumulator f = do
Otel.inSpan' "Postgres Query (foldRowsWithAcc)" Otel.defaultSpanArguments $ \span -> do
tools <- lift @Transaction zoomTools
logDatabaseQueries <- lift @Transaction zoomDebugLogDatabaseQueries
traceQueryIfEnabled tools span logDatabaseQueries qry (HasSingleParam params)
conn <- Transaction ask
withRunInIO
( \runInIO ->
do
PG.foldWithOptionsAndParser
PG.defaultFoldOptions
rowParser
conn
qry
params
accumulator
(\acc row -> runInIO $ f acc row)
& handlePGException tools "fold" qry (Left params)
& runInIO
)
pgFormatQueryNoParams' ::
(MonadIO m, MonadLogger m, HasField "pgFormat" tools PgFormatPool) =>
tools ->
Query ->
Transaction m Text
pgFormatQueryNoParams' tools q =
lift $ pgFormatQueryByteString tools q.fromQuery
pgFormatQuery ::
(ToRow params, MonadIO m) =>
Query ->
params ->
Transaction m ByteString
pgFormatQuery qry params = Transaction $ do
conn <- ask
liftIO $ PG.formatQuery conn qry params
pgFormatQueryMany ::
(MonadIO m, ToRow params) =>
Query ->
NonEmpty params ->
Transaction m ByteString
pgFormatQueryMany qry params = Transaction $ do
conn <- ask
liftIO $
PG.formatMany
conn
qry
( params
-- upstream is partial on empty list, see https://github.com/haskellari/postgresql-simple/issues/129
& toList
)
queryWithImpl ::
( ToRow params,
MonadUnliftIO m,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool,
Otel.MonadTracer m
) =>
m tools ->
m DebugLogDatabaseQueries ->
Query ->
params ->
Decoder r ->
Transaction m [r]
{-# INLINE queryWithImpl #-}
queryWithImpl zoomTools zoomDebugLogDatabaseQueries qry params (Decoder fromRow) = do
Otel.inSpan' "Postgres Query (queryWith)" Otel.defaultSpanArguments $ \span -> do
tools <- lift @Transaction zoomTools
logDatabaseQueries <- lift @Transaction zoomDebugLogDatabaseQueries
traceQueryIfEnabled tools span logDatabaseQueries qry (HasSingleParam params)
conn <- Transaction ask
PG.queryWith fromRow conn qry params
& handlePGException tools "query" qry (Left params)
queryWithImpl_ ::
( MonadUnliftIO m,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool
) =>
m tools ->
Query ->
Decoder r ->
Transaction m [r]
{-# INLINE queryWithImpl_ #-}
queryWithImpl_ zoomTools qry (Decoder fromRow) = do
tools <- lift @Transaction zoomTools
conn <- Transaction ask
liftIO (PG.queryWith_ fromRow conn qry)
& handlePGException tools "query" qry (Left ())
data SingleRowError = SingleRowError
{ -- | How many columns were actually returned by the query
numberOfRowsReturned :: Int
}
deriving stock (Show)
instance Exception SingleRowError where
displayException (SingleRowError {..}) = [fmt|Single row expected from SQL query result, {numberOfRowsReturned} rows were returned instead."|]
pgFormatQuery' ::
( MonadIO m,
ToRow params,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool
) =>
tools ->
Query ->
params ->
Transaction m Text
pgFormatQuery' tools q p =
pgFormatQuery q p
>>= lift . pgFormatQueryByteString tools
pgFormatQueryMany' ::
( MonadIO m,
ToRow params,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool
) =>
tools ->
Query ->
NonEmpty params ->
Transaction m Text
pgFormatQueryMany' tools q p =
pgFormatQueryMany q p
>>= lift . pgFormatQueryByteString tools
-- | Read the executable name "pg_format"
postgresToolsParser :: ToolParserT IO (Label "pgFormat" Tool)
postgresToolsParser = label @"pgFormat" <$> readTool "pg_format"
pgFormatQueryByteString ::
( MonadIO m,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool
) =>
tools ->
ByteString ->
m Text
pgFormatQueryByteString tools queryBytes = do
res <-
liftIO $
runPgFormat
tools.pgFormat
(queryBytes)
case res.exitCode of
ExitSuccess -> pure (res.formatted & bytesToTextUtf8Lenient)
ExitFailure status -> do
logWarn [fmt|pg_format failed with status {status} while formatting the query, using original query string. Is there a syntax error?|]
logDebug
( prettyErrorTree
( nestedMultiError
"pg_format output"
( nestedError "stdout" (singleError (res.formatted & bytesToTextUtf8Lenient & newError))
:| [(nestedError "stderr" (singleError (res.stderr & bytesToTextUtf8Lenient & newError)))]
)
)
)
logDebug [fmt|pg_format stdout: stderr|]
pure (queryBytes & bytesToTextUtf8Lenient)
pgFormatStartCommandWaitForInput ::
( MonadIO m,
HasField "pgFormat" tools Tool,
MonadFail m
) =>
tools ->
m PgFormatProcess
pgFormatStartCommandWaitForInput tools = do
do
startedAt <- Otel.getTimestamp
(Just stdinHdl, Just stdoutHdl, Just stderrHdl, procHdl) <-
Process.createProcess
( ( Process.proc
tools.pgFormat.toolPath
[ "--no-rcfile",
"-"
]
)
{ Process.std_in = Process.CreatePipe,
Process.std_out = Process.CreatePipe,
Process.std_err = Process.CreatePipe
}
)
pure PgFormatProcess {..}
data DebugLogDatabaseQueries
= -- | Do not log the database queries
DontLogDatabaseQueries
| -- | Log the database queries as debug output;
LogDatabaseQueries
| -- | Log the database queries as debug output and additionally the EXPLAIN output (from the query analyzer, not the actual values after execution cause that’s a bit harder to do)
LogDatabaseQueriesAndExplain
deriving stock (Show, Enum, Bounded)
data HasQueryParams param
= HasNoParams
| HasSingleParam param
| HasMultiParams (NonEmpty param)
-- | Log the postgres query depending on the given setting
traceQueryIfEnabled ::
( ToRow params,
MonadUnliftIO m,
MonadLogger m,
HasField "pgFormat" tools PgFormatPool,
Otel.MonadTracer m
) =>
tools ->
Otel.Span ->
DebugLogDatabaseQueries ->
Query ->
HasQueryParams params ->
Transaction m ()
traceQueryIfEnabled tools span logDatabaseQueries qry params = do
-- In case we have query logging enabled, we want to do that
let formattedQuery = do
withEvent
span
"Query Format start"
"Query Format end"
$ case params of
HasNoParams -> pgFormatQueryNoParams' tools qry
HasSingleParam p -> pgFormatQuery' tools qry p
HasMultiParams ps -> pgFormatQueryMany' tools qry ps
let doLog errs =
Otel.addAttributes
span
$ HashMap.fromList
$ ( ("_.postgres.query", Otel.toAttribute @Text errs.query)
: ( errs.explain
& \case
Nothing -> []
Just ex -> [("_.postgres.explain", Otel.toAttribute @Text ex)]
)
)
let doExplain = do
q <- formattedQuery
Otel.inSpan "Postgres EXPLAIN Query" Otel.defaultSpanArguments $ do
queryWithImpl_
(pure tools)
( "EXPLAIN "
<> (
-- TODO: this is not nice, but the only way to get the `executeMany` form to work with this
-- because we need the query with all elements already interpolated.
Query (q & textToBytesUtf8)
)
)
(Dec.fromField @Text)
<&> Text.intercalate "\n"
case logDatabaseQueries of
DontLogDatabaseQueries -> pure ()
LogDatabaseQueries -> do
q <- formattedQuery
doLog (T2 (label @"query" q) (label @"explain" Nothing))
LogDatabaseQueriesAndExplain -> do
q <- formattedQuery
-- XXX: stuff like `CREATE SCHEMA` cannot be EXPLAINed, so we should catch exceptions here
-- and just ignore anything that errors (if it errors because of a problem with the query, it would have been caught by the query itself.
ex <- doExplain
doLog (T2 (label @"query" q) (label @"explain" (Just ex)))
-- | Add a start and end event to the span, and figure out how long the difference was.
--
-- This is more lightweight than starting an extra span for timing things.
withEvent :: (MonadIO f) => Otel.Span -> Text -> Text -> f b -> f b
withEvent span start end act = do
let mkMs ts = (ts & Otel.timestampNanoseconds & toInteger) `div` 1000_000
s <- Otel.getTimestamp
Otel.addEvent
span
( Otel.NewEvent
{ newEventName = start,
newEventAttributes = mempty,
newEventTimestamp = Just s
}
)
res <- act
e <- Otel.getTimestamp
let tookMs =
(mkMs e - mkMs s)
-- should be small enough
& fromInteger @Int
Otel.addEvent
span
( Otel.NewEvent
{ newEventName = end,
newEventAttributes = HashMap.fromList [("took ms", Otel.toAttribute tookMs)],
newEventTimestamp = Just e
}
)
pure res
instance (ToField t1) => ToRow (Label l1 t1) where
toRow t2 = toRow $ PG.Only $ getField @l1 t2
instance (ToField t1, ToField t2) => ToRow (T2 l1 t1 l2 t2) where
toRow t2 = toRow (getField @l1 t2, getField @l2 t2)
instance (ToField t1, ToField t2, ToField t3) => ToRow (T3 l1 t1 l2 t2 l3 t3) where
toRow t3 = toRow (getField @l1 t3, getField @l2 t3, getField @l3 t3)