Copyright | (c) Alexey Radkov 2018 |
---|---|
License | BSD-style |
Maintainer | alexey.radkov@gmail.com |
Stability | experimental |
Portability | non-portable (requires Template Haskell) |
Safe Haskell | None |
Language | Haskell98 |
Extra tools for using in custom Haskell code with nginx-haskell-module.
Synopsis
- exitWorkerProcess :: IO ()
- terminateWorkerProcess :: IO ()
- ngxRequestPtr :: ByteString -> Ptr ()
- ngxNow :: IO CTime
- data TimeInterval
- toSec :: TimeInterval -> Int
- threadDelaySec :: Int -> IO ()
- readFromByteString :: Read a => ByteString -> Maybe a
- readFromByteStringAsJSON :: FromJSON a => ByteString -> Maybe a
- data ServiceMode
- ngxExportSimpleService :: Name -> ServiceMode -> Q [Dec]
- ngxExportSimpleServiceTyped :: Name -> Name -> ServiceMode -> Q [Dec]
- ngxExportSimpleServiceTypedAsJSON :: Name -> Name -> ServiceMode -> Q [Dec]
- newtype CInt = CInt Int32
- newtype CUInt = CUInt Word32
Various useful functions and data
exitWorkerProcess :: IO () Source #
Terminates current Nginx worker process.
Nginx master process shall spawn a new worker process thereafter.
terminateWorkerProcess :: IO () Source #
Terminates current Nginx worker process.
Nginx master process shall not spawn a new worker process thereafter.
ngxRequestPtr :: ByteString -> Ptr () Source #
Unmarshals value of Nginx variable $_r_ptr into a pointer to the Nginx request object.
This is safe to use in request-based Haskell handlers such as synchronous and asynchronous tasks and content handlers, but not in services and their derivatives. The value can be passed into a C plugin, however, as opposed to usual functions in Nginx C code, it must be tested against the NULL value.
Returns current time as the number of seconds elapsed since UNIX epoch.
The value is taken from Nginx core, so no additional system calls get
involved. On the other hand, it means that this is only safe to use from
an Nginx worker's main thread, i.e. in synchronous Haskell handlers and
service hooks. Be also aware that this is a small type casting hack:
the value is interpreted as being of type time_t
while having been
actually wrapped in a bigger C struct as its first element.
Time intervals
data TimeInterval Source #
Time intervals.
Hr Int | Hours |
Min Int | Minutes |
Sec Int | Seconds |
HrMin Int Int | Hours and minutes |
MinSec Int Int | Minutes and seconds |
Instances
toSec :: TimeInterval -> Int Source #
Converts a time interval into seconds.
threadDelaySec :: Int -> IO () Source #
Delays current thread for the specified number of seconds.
Reading custom types from ByteStrings
readFromByteString :: Read a => ByteString -> Maybe a Source #
Reads a custom type deriving Read
from a ByteString
.
Returns Nothing
if reading fails.
readFromByteStringAsJSON :: FromJSON a => ByteString -> Maybe a Source #
Reads a custom type deriving FromJSON
from a ByteString
.
Returns Nothing
if reading fails.
Exporters of simple services
There are a number of exporters for simple services. Here simplicity means avoiding boilerplate code regarding to efficient reading of typed configurations and timed restarts of services. All simple services have type
ByteString
->Bool
->IO
ByteString
which corresponds to the type of usual services from module NgxExport.
Below is a toy example.
File test_tools.hs.
{-# LANGUAGE TemplateHaskell, DeriveGeneric, RecordWildCards #-} module TestTools where import NgxExport.Tools import Data.ByteString (ByteString) import qualified Data.ByteString.Lazy as L import qualified Data.ByteString.Lazy.Char8 as C8L import Data.Aeson import Control.Monad import GHC.Generics test :: ByteString -> Bool -> IO L.ByteString test = const . return . L.fromStrictngxExportSimpleService
'test $PersistentService
$ Just $Sec
10 testRead :: (Read a, Show a) => a -> IO L.ByteString testRead = return . C8L.pack . show testReadInt :: Int -> Bool -> IO L.ByteString testReadInt = const testReadngxExportSimpleServiceTyped
'testReadInt ''Int $PersistentService
$ Just $Sec
10 newtype Conf = Conf Int deriving (Read, Show) testReadConf :: Conf -> Bool -> IO L.ByteString testReadConf = const testReadngxExportSimpleServiceTyped
'testReadConf ''Conf $PersistentService
$ Just $Sec
10 data ConfWithDelay = ConfWithDelay { delay ::TimeInterval
, value :: Int } deriving (Read, Show) testReadConfWithDelay :: ConfWithDelay -> Bool -> IO L.ByteString testReadConfWithDelay c@ConfWithDelay {..} fstRun = do unless fstRun $threadDelaySec
$toSec
delay testRead cngxExportSimpleServiceTyped
'testReadConfWithDelay ''ConfWithDelay $PersistentService
Nothing testReadJSON :: (FromJSON a, Show a) => a -> IO L.ByteString testReadJSON = return . C8L.pack . show data ConfJSON = ConfJSONCon1 Int | ConfJSONCon2 deriving (Generic, Show) instance FromJSON ConfJSON testReadConfJSON :: ConfJSON -> Bool -> IO L.ByteString testReadConfJSON = const testReadJSONngxExportSimpleServiceTypedAsJSON
'testReadConfJSON ''ConfJSONSingleShotService
Here five simple services of various types are defined: test,
testReadInt, testReadConf, testReadConfWithDelay, and
testReadConfJSON. Service testReadInt is not a good example though.
The problem is that typed simple services build IORef
storages to save
their configurations for faster access in future iterations. The name of a
storage consists of the name of its type prefixed with storage_, which
means that it's wiser to use custom types or wrappers of well-known types
(such as Conf and ConfWithDelay) in order to avoid exhaustion of
top-level names. In general, this also means that it's not possible to
declare in a single Nginx configuration script two or more typed simple
services with identical names of their configuration types.
As soon as all the services in the example merely echo their configurations
into their service variables, they must sleep for a while between iterations.
Sleeps are managed by strategies defined in type ServiceMode
. There are
basically three sleeping strategies:
- Periodical sleeps (for example,
)PersistentService
$ Just $Sec
10 - No sleeps between iterations (
)PersistentService
Nothing - Single-shot services (
)SingleShotService
In this toy example the most efficient sleeping strategy is a single-shot
service because data is not altered during runtime. Under the hood, the
single-shot strategy is implemented as periodical sleeps (with period of
), except it runs the handler only on the first iteration, while
afterwards it merely returns empty values: as such, this strategy should be
accompanied by Nginx directive haskell_service_var_ignore_empty.Hr
1
Notice that service testReadConfWithDelay manages time delays on its own,
therefore it uses no-sleeps strategy
.PersistentService
Nothing
File nginx.conf.
user nobody; worker_processes 2; events { worker_connections 1024; } http { default_type application/octet-stream; sendfile on; haskell load /var/lib/nginx/test_tools.so; haskell_run_service simpleService_test $hs_test test; haskell_run_service simpleService_testReadInt $hs_testReadInt 5000000; haskell_run_service simpleService_testReadConf $hs_testReadConf 'Conf 20'; haskell_run_service simpleService_testReadConfWithDelay $hs_testReadConfWithDelay 'ConfWithDelay { delay = Sec 10, value = 12 }'; haskell_run_service simpleService_testReadConfJSON $hs_testReadConfJSON '{"tag":"ConfJSONCon1", "contents":56}'; haskell_service_var_ignore_empty $hs_testReadConfJSON; server { listen 8010; server_name main; error_log /tmp/nginx-test-haskell-error.log; access_log /tmp/nginx-test-haskell-access.log; location / { echo "Service variables:"; echo " hs_test: $hs_test"; echo " hs_testReadInt: $hs_testReadInt"; echo " hs_testReadConf: $hs_testReadConf"; echo " hs_testReadConfWithDelay: $hs_testReadConfWithDelay"; echo " hs_testReadConfJSON: $hs_testReadConfJSON"; } } }
Notice that Haskel handlers defined in test_tools.hs are referred from the Nginx configuration file with prefix simpleService_.
Let's run a simple test.
$ curl 'http://localhost:8010/' Service variables: hs_test: test hs_testReadInt: 5000000 hs_testReadConf: Conf 20 hs_testReadConfWithDelay: ConfWithDelay {delay = Sec 10, value = 12} hs_testReadConfJSON: ConfJSONCon1 56
data ServiceMode Source #
Defines a sleeping strategy.
Single-shot services should be accompanied by Nginx directive haskell_service_var_ignore_empty.
PersistentService (Maybe TimeInterval) | Persistent service (with or without periodical sleeps) |
SingleShotService | Single-shot service |
ngxExportSimpleService Source #
:: Name | Name of the service |
-> ServiceMode | Service mode |
-> Q [Dec] |
Exports a simple service with specified name and service mode.
The service expects a plain ByteString
object as its first argument.
ngxExportSimpleServiceTyped Source #
:: Name | Name of the service |
-> Name | Name of the custom type |
-> ServiceMode | Service mode |
-> Q [Dec] |
Exports a simple service with specified name and service mode.
The service expects an object of a custom type deriving Read
as its
first argument. For the sake of efficiency, this object gets deserialized
into a global IORef
data storage on the first service run to be further
accessed directly from this storage. The storage can be accessed from
elsewhere by name comprised of the name of the custom type prefixed with
storage_. The stored data is wrapped in Maybe
container.
ngxExportSimpleServiceTypedAsJSON Source #
:: Name | Name of the service |
-> Name | Name of the custom type |
-> ServiceMode | Service mode |
-> Q [Dec] |
Exports a simple service with specified name and service mode.
The service expects an object of a custom type deriving FromJSON
as its
first argument. For the sake of efficiency, this object gets deserialized
into a global IORef
data storage on the first service run to be further
accessed directly from this storage. The storage can be accessed from
elsewhere by name comprised of the name of the custom type prefixed with
storage_. The stored data is wrapped in Maybe
container.
Re-exported data constructors from Foreign.C
Re-exports are needed by exporters for marshalling in foreign calls.
Haskell type representing the C int
type.
Instances
Bounded CInt | |
Enum CInt | |
Eq CInt | |
Integral CInt | |
Num CInt | |
Ord CInt | |
Read CInt | |
Real CInt | |
Defined in Foreign.C.Types toRational :: CInt -> Rational # | |
Show CInt | |
Storable CInt | |
Defined in Foreign.C.Types | |
Bits CInt | |
Defined in Foreign.C.Types (.&.) :: CInt -> CInt -> CInt # (.|.) :: CInt -> CInt -> CInt # complement :: CInt -> CInt # shift :: CInt -> Int -> CInt # rotate :: CInt -> Int -> CInt # setBit :: CInt -> Int -> CInt # clearBit :: CInt -> Int -> CInt # complementBit :: CInt -> Int -> CInt # testBit :: CInt -> Int -> Bool # bitSizeMaybe :: CInt -> Maybe Int # shiftL :: CInt -> Int -> CInt # unsafeShiftL :: CInt -> Int -> CInt # shiftR :: CInt -> Int -> CInt # unsafeShiftR :: CInt -> Int -> CInt # rotateL :: CInt -> Int -> CInt # | |
FiniteBits CInt | |
Defined in Foreign.C.Types |
Haskell type representing the C unsigned int
type.
Instances
Bounded CUInt | |
Enum CUInt | |
Eq CUInt | |
Integral CUInt | |
Num CUInt | |
Ord CUInt | |
Read CUInt | |
Real CUInt | |
Defined in Foreign.C.Types toRational :: CUInt -> Rational # | |
Show CUInt | |
Storable CUInt | |
Bits CUInt | |
Defined in Foreign.C.Types (.&.) :: CUInt -> CUInt -> CUInt # (.|.) :: CUInt -> CUInt -> CUInt # xor :: CUInt -> CUInt -> CUInt # complement :: CUInt -> CUInt # shift :: CUInt -> Int -> CUInt # rotate :: CUInt -> Int -> CUInt # setBit :: CUInt -> Int -> CUInt # clearBit :: CUInt -> Int -> CUInt # complementBit :: CUInt -> Int -> CUInt # testBit :: CUInt -> Int -> Bool # bitSizeMaybe :: CUInt -> Maybe Int # shiftL :: CUInt -> Int -> CUInt # unsafeShiftL :: CUInt -> Int -> CUInt # shiftR :: CUInt -> Int -> CUInt # unsafeShiftR :: CUInt -> Int -> CUInt # rotateL :: CUInt -> Int -> CUInt # | |
FiniteBits CUInt | |
Defined in Foreign.C.Types finiteBitSize :: CUInt -> Int # countLeadingZeros :: CUInt -> Int # countTrailingZeros :: CUInt -> Int # |