morley-0.6.0: src/Michelson/Typed/EntryPoints.hs
-- | Utilities for lightweight entrypoints support.
module Michelson.Typed.EntryPoints
( EpAddress (..)
, ParseEpAddressError (..)
, formatEpAddress
, mformatEpAddress
, parseEpAddress
, unsafeParseEpAddress
, ParamNotes (..)
, pattern ParamNotes
, ArmCoord (..)
, ArmCoords
, ParamEpError (..)
, mkParamNotes
, EpLiftSequence (..)
, EntryPointCallT (..)
, SomeEntryPointCallT (..)
, sepcName
, MkEntryPointCallRes (..)
, mkEntryPointCall
, tyImplicitAccountParam
-- * Re-exports
, EpName (..)
, pattern DefEpName
, epNameFromParamAnn
, epNameToParamAnn
, epNameFromRefAnn
, epNameToRefAnn
, EpNameFromRefAnnError (..)
) where
import Data.Default (Default(..))
import qualified Data.List.NonEmpty as NE
import Data.Singletons (Sing, SingI(..))
import qualified Data.Text as T
import Data.Typeable ((:~:)(..))
import Fmt (Buildable(..), pretty, (+|), (|+))
import Test.QuickCheck (Arbitrary(..))
import Michelson.Text
import Michelson.Typed.Annotation
import Michelson.Typed.Scope
import Michelson.Typed.Sing
import Michelson.Typed.T
import Michelson.Untyped.Annotation
import Michelson.Untyped.EntryPoints
import Tezos.Address (Address, ParseAddressError, formatAddress, parseAddress)
import Util.Typeable
----------------------------------------------------------------------------
-- Primitives
----------------------------------------------------------------------------
-- EpAddress
----------------------------------------------------------------------------
-- | Address with optional entrypoint name attached to it.
-- TODO: come up with better name?
data EpAddress = EpAddress
{ eaAddress :: Address
-- ^ Address itself
, eaEntryPoint :: EpName
-- ^ Entrypoint name (might be empty)
} deriving stock (Show, Eq, Ord)
instance Buildable EpAddress where
build = build . formatEpAddress
formatEpAddress :: EpAddress -> Text
formatEpAddress (EpAddress addr ep)
| ep == def = formatAddress addr
| otherwise = formatAddress addr <> "%" <> pretty ep
mformatEpAddress :: EpAddress -> MText
mformatEpAddress ea =
let t = formatEpAddress ea
-- Should be safe because set of characters allowed in annotations
-- (and thus in 'EpName') is subset of characters allowed in Michelson strings.
in mkMTextUnsafe t
data ParseEpAddressError
= ParseEpAddressBadAddress ParseAddressError
| ParseEpAddressBadRefAnn Text
| ParseEpAddressRefAnnError EpNameFromRefAnnError
deriving stock (Show, Eq)
instance Buildable ParseEpAddressError where
build = \case
ParseEpAddressBadAddress err -> build err
ParseEpAddressBadRefAnn txt -> pretty $ "Invalid reference annotation: " <> txt
ParseEpAddressRefAnnError err -> build err
-- | Parse an address which can be suffixed with entrypoint name
-- (e.g. "tz1faswCTDciRzE4oJ9jn2Vm2dvjeyA9fUzU%entrypoint").
parseEpAddress :: Text -> Either ParseEpAddressError EpAddress
parseEpAddress txt =
let (addrTxt, mannotTxt) = T.breakOn "%" txt
in case mannotTxt of
"" -> do
addr <- first ParseEpAddressBadAddress $ parseAddress addrTxt
return $ EpAddress addr def
annotTxt' -> do
addr <- first ParseEpAddressBadAddress $ parseAddress addrTxt
annot <- first ParseEpAddressBadRefAnn $ case T.stripPrefix "%" annotTxt' of
Nothing -> error "impossible"
Just a -> mkAnnotation a
epName <- first ParseEpAddressRefAnnError $ epNameFromRefAnn annot
return $ EpAddress addr epName
unsafeParseEpAddress :: HasCallStack => Text -> EpAddress
unsafeParseEpAddress = either (error . pretty) id . parseEpAddress
instance Arbitrary FieldAnn => Arbitrary EpAddress where
arbitrary = EpAddress <$> arbitrary <*> arbitrary
-- ParamNotes
----------------------------------------------------------------------------
-- | Annotations for contract parameter declaration.
--
-- Following the Michelson specification, this type has the following invariants:
-- 1. No entrypoint name is duplicated.
-- 2. If @default@ entrypoint is explicitly assigned, no "arm" remains uncallable.
newtype ParamNotes (t :: T) = ParamNotesUnsafe
{ unParamNotes :: Notes t
} deriving stock (Show, Eq)
pattern ParamNotes :: Notes t -> ParamNotes t
pattern ParamNotes t <- ParamNotesUnsafe t
{-# COMPLETE ParamNotes #-}
-- | Coordinates of "arm" in Or tree, used solely in error messages.
type ArmCoords = [ArmCoord]
data ArmCoord = AcLeft | AcRight
deriving stock (Show, Eq)
instance Buildable ArmCoord where
build = \case
AcLeft -> "left"
AcRight -> "right"
-- | Errors specific to parameter type declaration (entrypoints).
data ParamEpError
= ParamEpDuplicatedNames (NonEmpty EpName)
| ParamEpUncallableArm ArmCoords
deriving stock (Show, Eq)
instance Buildable ParamEpError where
build = \case
ParamEpDuplicatedNames names -> mconcat
[ "Duplicated entrypoint names: "
, mconcat . intersperse ", " $ map (surround "'" "'" . build) (toList names)
]
ParamEpUncallableArm arm -> mconcat
[ "Due to presence of 'default' entrypoint, one of contract \"arms\" \
\cannot be called: \""
, mconcat . intersperse " - " $ map build arm
, "\""
, if length arm > 1 then " (in top-to-bottom order)" else ""
]
where
surround pre post builder = pre <> builder <> post
-- | Check whether given notes are valid parameter notes.
verifyParamNotes :: Notes t -> Either ParamEpError ()
verifyParamNotes notes = do
let allEps = appEndo (gatherEntrypoints notes) []
duplicatedEps = mapMaybe (safeHead . tail) . NE.group $ sort allEps
whenJust (nonEmpty duplicatedEps) $ \dups ->
Left $ ParamEpDuplicatedNames dups
void $ ensureAllCallable notes
& first ParamEpUncallableArm
where
gatherEntrypoints :: Notes t -> Endo [EpName]
gatherEntrypoints = \case
NTOr _ fn1 fn2 l r -> mconcat
[ Endo $ maybe id (:) (epNameFromParamAnn fn1)
, Endo $ maybe id (:) (epNameFromParamAnn fn2)
, gatherEntrypoints l
, gatherEntrypoints r
]
_ -> mempty
-- Here we can assume that there is no more than one @default@ entrypoint,
-- because duplications check occurs earlier.
--
-- In case when multiple entrypoints are uncallable, the reference
-- implementation prefers displaying (in error message) arms which are
-- closer to the root, but here we don't do this because that would be
-- some more complex to implement and not sure how much does it worth that.
ensureAllCallable :: Notes t -> Either ArmCoords Bool
ensureAllCallable = \case
NTOr _ fnL fnR l r -> do
let epNameL = epNameFromParamAnn fnL
let epNameR = epNameFromParamAnn fnR
haveDefLL <- first (AcLeft :) $ ensureAllCallable l
haveDefRR <- first (AcRight :) $ ensureAllCallable r
let haveDefL = or [haveDefLL, epNameL == Just (def @EpName)]
let haveDefR = or [haveDefRR, epNameR == Just (def @EpName)]
when haveDefL $
first (AcRight :) $ checkAllEpsNamed epNameR r
when haveDefR $
first (AcLeft :) $ checkAllEpsNamed epNameL l
return $ or [haveDefL, haveDefR]
_ -> return False
checkAllEpsNamed :: Maybe EpName -> Notes t -> Either ArmCoords ()
checkAllEpsNamed epNameRoot
| isJust epNameRoot = \_ -> pass
| otherwise = \case
NTOr _ fnL fnR l r -> do
let epNameL = epNameFromParamAnn fnL
epNameR = epNameFromParamAnn fnR
first (AcLeft :) $ checkAllEpsNamed epNameL l
first (AcRight :) $ checkAllEpsNamed epNameR r
_ -> Left []
-- | Construct 'ParamNotes' performing all necessary checks.
mkParamNotes :: Notes t -> Either ParamEpError (ParamNotes t)
mkParamNotes nt = verifyParamNotes nt $> ParamNotesUnsafe nt
----------------------------------------------------------------------------
-- Entrypoint logic
----------------------------------------------------------------------------
-- | Describes how to construct full contract parameter from given entrypoint
-- argument.
--
-- This could be just wrapper over @Value arg -> Value param@, but we cannot
-- use @Value@ type in this module easily.
data EpLiftSequence (arg :: T) (param :: T) where
EplArgHere :: EpLiftSequence arg arg
EplWrapLeft :: EpLiftSequence arg subparam -> EpLiftSequence arg ('TOr subparam r)
EplWrapRight :: EpLiftSequence arg subparam -> EpLiftSequence arg ('TOr l subparam)
deriving stock instance Eq (EpLiftSequence arg param)
deriving stock instance Show (EpLiftSequence arg param)
instance Buildable (EpLiftSequence arg param) where
build = \case
EplArgHere -> "×"
EplWrapLeft es -> "Left (" <> build es <> ")"
EplWrapRight es -> "Right (" <> build es <> ")"
-- | Reference for calling a specific entrypoint of type @arg@.
data EntryPointCallT (param :: T) (arg :: T) =
ParameterScope arg => EntryPointCall
{ epcName :: EpName
-- ^ Name of entrypoint.
, epcParamProxy :: Proxy param
-- ^ Proxy of parameter, to make parameter type more easily fetchable.
, epcLiftSequence :: EpLiftSequence arg param
-- ^ How to call this entrypoint in the corresponding contract.
}
deriving stock instance Eq (EntryPointCallT param arg)
deriving stock instance Show (EntryPointCallT param arg)
instance Buildable (EntryPointCallT param arg) where
build EntryPointCall{..} =
"Call " +| epcName |+ ": " +| epcLiftSequence |+ ""
-- | Calls the default entrypoint.
-- TODO [TM-280]: This implementation always refers parameter root, fix it.
instance (param ~ arg, ParameterScope arg) => Default (EntryPointCallT param arg) where
def = EntryPointCall
{ epcName = def
, epcParamProxy = Proxy
, epcLiftSequence = EplArgHere
}
-- | 'EntryPointCallT' with hidden parameter type.
--
-- This requires argument to satisfy 'ParameterScope' constraint.
-- Strictly speaking, entrypoint argument may one day start having different
-- set of constraints comparing to ones applied to parameter, but this seems
-- unlikely.
data SomeEntryPointCallT (arg :: T) =
forall param. (ParameterScope param) =>
SomeEpc (EntryPointCallT param arg)
instance Eq (SomeEntryPointCallT arg) where
SomeEpc epc1 == SomeEpc epc2 = isJust @() $ do
Refl <- eqP (epcParamProxy epc1) (epcParamProxy epc2)
guard (epc1 == epc2)
deriving stock instance Show (SomeEntryPointCallT arg)
instance Buildable (SomeEntryPointCallT arg) where
build (SomeEpc epc) = build epc
instance ParameterScope arg => Default (SomeEntryPointCallT arg) where
def = SomeEpc def
sepcName :: SomeEntryPointCallT arg -> EpName
sepcName (SomeEpc epc) = epcName epc
-- | Build 'EpLiftSequence'.
--
-- Here we accept entrypoint name and type information for the parameter
-- of target contract.
--
-- Returns 'Nothing' if entrypoint is not found.
-- Does not treat default entrypoints specially.
withEpLiftSequence
:: (ParameterScope param)
=> EpName
-> (Sing param, Notes param)
-> (forall arg. (ParameterScope arg) => (Notes arg, EpLiftSequence arg param) -> r)
-> Maybe r
withEpLiftSequence epName@(epNameToParamAnn -> epAnn) param cont =
case param of
(STOr lSing rSing, NTOr _ lFieldAnn rFieldAnn lNotes rNotes) ->
case (checkOpPresence lSing, checkNestedBigMapsPresence lSing) of
(OpAbsent, NestedBigMapsAbsent) -> asum
[ guard (lFieldAnn == epAnn) $> cont (lNotes, EplWrapLeft EplArgHere)
, guard (rFieldAnn == epAnn) $> cont (rNotes, EplWrapRight EplArgHere)
, withEpLiftSequence epName (lSing, lNotes) (cont . fmap @((,) _) EplWrapLeft)
, withEpLiftSequence epName (rSing, rNotes) (cont . fmap @((,) _) EplWrapRight)
]
_ -> Nothing
-- Helper datatype for 'mkEntryPointCall'.
data MkEntryPointCallRes param where
MkEntryPointCallRes
:: ParameterScope arg
=> Notes arg
-> EntryPointCallT param arg
-> MkEntryPointCallRes param
-- | Build 'EntryPointCallT'.
--
-- Here we accept entrypoint name and type information for the parameter
-- of target contract.
--
-- Returns 'Nothing' if entrypoint is not found.
mkEntryPointCall
:: (ParameterScope param)
=> EpName
-> (Sing param, ParamNotes param)
-> Maybe (MkEntryPointCallRes param)
mkEntryPointCall epName (paramSing, ParamNotes paramNotes) =
asum
[ withEpLiftSequence epName (paramSing, paramNotes) $ \(argInfo, liftSeq) ->
MkEntryPointCallRes argInfo $ EntryPointCall
{ epcName = epName
, epcParamProxy = Proxy
, epcLiftSequence = liftSeq
}
, guard (epName == def) $>
MkEntryPointCallRes paramNotes EntryPointCall
{ epcName = def
, epcParamProxy = Proxy
, epcLiftSequence = EplArgHere
}
]
-- | "Parameter" type of implicit account.
tyImplicitAccountParam :: (Sing 'TUnit, ParamNotes 'TUnit)
tyImplicitAccountParam = (sing, ParamNotesUnsafe starNotes)
-- TODO [TM-280]: We also need to be able to handle field annotation in root
-- of parameter's @or@ tree.
-- Currently we don't even support field annotation at such position.
--
-- Also it would be nice to automatically add @%root@ annotation in each parameter
-- declaration when compiling Lorentz to Michelson.