{-# LANGUAGE DuplicateRecordFields #-} module PostgREST.Types where import Protolude import qualified GHC.Show import Data.Aeson import qualified Data.ByteString.Lazy as BL import qualified Data.CaseInsensitive as CI import qualified Data.HashMap.Strict as M import Data.Tree import qualified Data.Vector as V import PostgREST.RangeQuery (NonnegRange) import Network.HTTP.Types.Header (hContentType, Header) -- | Enumeration of currently supported response content types data ContentType = CTApplicationJSON | CTTextCSV | CTOpenAPI | CTSingularJSON | CTOctetStream | CTAny | CTOther ByteString deriving Eq data ApiRequestError = ActionInappropriate | InvalidBody ByteString | InvalidRange | ParseRequestError Text Text | UnknownRelation | NoRelationBetween Text Text | UnsupportedVerb deriving (Show, Eq) data DbStructure = DbStructure { dbTables :: [Table] , dbColumns :: [Column] , dbRelations :: [Relation] , dbPrimaryKeys :: [PrimaryKey] , dbProcs :: M.HashMap Text ProcDescription , pgVersion :: PgVersion } deriving (Show, Eq) data PgArg = PgArg { pgaName :: Text , pgaType :: Text , pgaReq :: Bool } deriving (Show, Eq) data PgType = Scalar QualifiedIdentifier | Composite QualifiedIdentifier deriving (Eq, Show) data RetType = Single PgType | SetOf PgType deriving (Eq, Show) data ProcVolatility = Volatile | Stable | Immutable deriving (Eq, Show) data ProcDescription = ProcDescription { pdName :: Text , pdDescription :: Maybe Text , pdArgs :: [PgArg] , pdReturnType :: RetType , pdVolatility :: ProcVolatility } deriving (Show, Eq) type Schema = Text type TableName = Text type SqlQuery = Text type SqlFragment = Text type RequestBody = BL.ByteString data Table = Table { tableSchema :: Schema , tableName :: TableName , tableDescription :: Maybe Text , tableInsertable :: Bool } deriving (Show, Ord) newtype ForeignKey = ForeignKey { fkCol :: Column } deriving (Show, Eq, Ord) data Column = Column { colTable :: Table , colName :: Text , colDescription :: Maybe Text , colPosition :: Int32 , colNullable :: Bool , colType :: Text , colUpdatable :: Bool , colMaxLen :: Maybe Int32 , colPrecision :: Maybe Int32 , colDefault :: Maybe Text , colEnum :: [Text] , colFK :: Maybe ForeignKey } deriving (Show, Ord) type Synonym = (Column,Column) data PrimaryKey = PrimaryKey { pkTable :: Table , pkName :: Text } deriving (Show, Eq) data OrderDirection = OrderAsc | OrderDesc deriving (Eq) instance Show OrderDirection where show OrderAsc = "asc" show OrderDesc = "desc" data OrderNulls = OrderNullsFirst | OrderNullsLast deriving (Eq) instance Show OrderNulls where show OrderNullsFirst = "nulls first" show OrderNullsLast = "nulls last" data OrderTerm = OrderTerm { otTerm :: Field , otDirection :: Maybe OrderDirection , otNullOrder :: Maybe OrderNulls } deriving (Show, Eq) data QualifiedIdentifier = QualifiedIdentifier { qiSchema :: Schema , qiName :: TableName } deriving (Show, Eq) data RelationType = Child | Parent | Many | Root deriving (Show, Eq) {-| The name 'Relation' here is used with the meaning "What is the relation between the current node and the parent node". It has nothing to do with PostgreSQL referring to tables/views as relations. -} data Relation = Relation { relTable :: Table , relColumns :: [Column] , relFTable :: Table , relFColumns :: [Column] , relType :: RelationType , relLTable :: Maybe Table , relLCols1 :: Maybe [Column] , relLCols2 :: Maybe [Column] } deriving (Show, Eq) -- | An array of JSON objects that has been verified to have -- the same keys in every object newtype PayloadJSON = PayloadJSON (V.Vector Object) deriving (Show, Eq) unPayloadJSON :: PayloadJSON -> V.Vector Object unPayloadJSON (PayloadJSON objs) = objs data Proxy = Proxy { proxyScheme :: Text , proxyHost :: Text , proxyPort :: Integer , proxyPath :: Text } deriving (Show, Eq) type Operator = Text operators :: M.HashMap Operator SqlFragment operators = M.union (M.fromList [ ("eq", "="), ("gte", ">="), ("gt", ">"), ("lte", "<="), ("lt", "<"), ("neq", "<>"), ("like", "LIKE"), ("ilike", "ILIKE"), ("in", "IN"), ("is", "IS"), ("cs", "@>"), ("cd", "<@"), ("ov", "&&"), ("sl", "<<"), ("sr", ">>"), ("nxr", "&<"), ("nxl", "&>"), ("adj", "-|-"), -- TODO: these are deprecated and should be removed in v0.5.0.0 ("@>", "@>"), ("<@", "<@")]) ftsOperators ftsOperators :: M.HashMap Operator SqlFragment ftsOperators = M.fromList [ ("@@", "@@ to_tsquery"), -- TODO: '@@' deprecated ("fts", "@@ to_tsquery"), ("plfts", "@@ plainto_tsquery"), ("phfts", "@@ phraseto_tsquery") ] data OpExpr = OpExpr Bool Operation deriving (Eq, Show) data Operation = Op Operator SingleVal | In ListVal | Fts Operator (Maybe Language) SingleVal | Join QualifiedIdentifier ForeignKey deriving (Eq, Show) type Language = Text -- | Represents a single value in a filter, e.g. id=eq.singleval type SingleVal = Text -- | Represents a list value in a filter, e.g. id=in.(val1,val2,val3) type ListVal = [Text] data LogicOperator = And | Or deriving Eq instance Show LogicOperator where show And = "AND" show Or = "OR" {-| Boolean logic expression tree e.g. "and(name.eq.N,or(id.eq.1,id.eq.2))" is: And / \ name.eq.N Or / \ id.eq.1 id.eq.2 -} data LogicTree = Expr Bool LogicOperator [LogicTree] | Stmnt Filter deriving (Show, Eq) type FieldName = Text type JsonPath = [Text] type Field = (FieldName, Maybe JsonPath) type Alias = Text type Cast = Text type NodeName = Text -- Rpc query param, only used for GET rpcs type RpcQParam = (Text, Text) {-| Custom guc header, it's obtained by parsing the json in a: `SET LOCAL "response.headers" = '[{"Set-Cookie": ".."}]' -} newtype GucHeader = GucHeader (Text, Text) instance FromJSON GucHeader where parseJSON (Object o) = case headMay (M.toList o) of Just (k, String s) | M.size o == 1 -> pure $ GucHeader (k, s) | otherwise -> mzero _ -> mzero parseJSON _ = mzero toHeaders :: [GucHeader] -> [Header] toHeaders = map $ \(GucHeader (k, v)) -> (CI.mk $ toS k, toS v) {-| This type will hold information about which particular 'Relation' between two tables to choose when there are multiple ones. Specifically, it will contain the name of the foreign key or the join table in many to many relations. -} type RelationDetail = Text type SelectItem = (Field, Maybe Cast, Maybe Alias, Maybe RelationDetail) -- | Path of the embedded levels, e.g "clients.projects.name=eq.." gives Path ["clients", "projects"] type EmbedPath = [Text] data Filter = Filter { field::Field, opExpr::OpExpr } deriving (Show, Eq) data ReadQuery = Select { select::[SelectItem], from::[TableName], where_::[LogicTree], order::Maybe [OrderTerm], range_::NonnegRange } deriving (Show, Eq) data MutateQuery = Insert { in_::TableName, qPayload::PayloadJSON, returning::[FieldName] } | Delete { in_::TableName, where_::[LogicTree], returning::[FieldName] } | Update { in_::TableName, qPayload::PayloadJSON, where_::[LogicTree], returning::[FieldName] } deriving (Show, Eq) type ReadNode = (ReadQuery, (NodeName, Maybe Relation, Maybe Alias, Maybe RelationDetail)) type ReadRequest = Tree ReadNode type MutateRequest = MutateQuery data DbRequest = DbRead ReadRequest | DbMutate MutateRequest instance Eq Table where Table{tableSchema=s1,tableName=n1} == Table{tableSchema=s2,tableName=n2} = s1 == s2 && n1 == n2 instance Eq Column where Column{colTable=t1,colName=n1} == Column{colTable=t2,colName=n2} = t1 == t2 && n1 == n2 -- | Convert from ContentType to a full HTTP Header toHeader :: ContentType -> Header toHeader ct = (hContentType, toMime ct <> "; charset=utf-8") -- | Convert from ContentType to a ByteString representing the mime type toMime :: ContentType -> ByteString toMime CTApplicationJSON = "application/json" toMime CTTextCSV = "text/csv" toMime CTOpenAPI = "application/openapi+json" toMime CTSingularJSON = "application/vnd.pgrst.object+json" toMime CTOctetStream = "application/octet-stream" toMime CTAny = "*/*" toMime (CTOther ct) = ct data PgVersion = PgVersion { pgvNum :: Int32 , pgvName :: Text } deriving (Eq, Ord, Show) sourceCTEName :: SqlFragment sourceCTEName = "pg_source"