elna/lib/Language/Elna/PrinterWriter.hs

-- | Writer assembler to an object file.
module Language.Elna.PrinterWriter
    ( riscv32Elf
    , riscv32Header
    ) where

import Data.Word (Word8)
import Data.ByteString (ByteString)
import qualified Data.ByteString as ByteString
import qualified Data.ByteString.Builder as ByteString.Builder
import qualified Data.ByteString.Lazy as LazyByteString
import Data.Vector (Vector)
import qualified Data.Vector as Vector
import Language.Elna.Object.Elf
    ( ByteOrder(..)
    , Elf32_Addr
    , Elf32_Ehdr(..)
    , Elf32_Half
    , Elf32_Sym(..)
    , ElfMachine(..)
    , ElfType(..)
    , ElfVersion(..)
    , ElfIdentification(..)
    , ElfClass(..)
    , ElfData(..)
    , Elf32_Shdr(..)
    , ElfSectionType(..)
    , ElfSymbolBinding(..)
    , ElfSymbolType(..)
    , Elf32_Rel (..)
    , elf32Sym
    , elfHeaderSize
    , elfSectionsSize
    , stInfo
    , rInfo
    , elf32Rel
    , shfInfoLink
    , ElfWriter(..)
    , ElfHeaderResult(..)
    , addSectionHeader
    )
import System.IO (Handle)
import qualified Language.Elna.Architecture.RiscV as RiscV
import qualified Data.Text.Encoding as Text.Encoding
import Control.Monad.IO.Class (MonadIO(..))
import Control.Monad.Trans.State (get)

data UnresolvedRelocation = UnresolvedRelocation ByteString Elf32_Addr Word8

riscv32Elf :: Vector RiscV.Instruction -> Handle -> ElfWriter ()
riscv32Elf code objectHandle = text
    >>= symstrtab
  where
    takeStringZ stringTable Elf32_Sym{ st_name }
        = ByteString.takeWhile (/= 0)
        $ ByteString.drop (fromIntegral st_name) stringTable
    resolveRelocation (ElfHeaderResult stringTable entries) unresolvedRelocation
        | UnresolvedRelocation symbolName offset type' <- unresolvedRelocation
        , Just entry <- Vector.findIndex ((== symbolName) . takeStringZ stringTable) entries =
            Right $ Elf32_Rel
                { r_offset = offset
                , r_info = rInfo (fromIntegral entry) type'
                }
        | otherwise = Left unresolvedRelocation
    symstrtab (symbols@(ElfHeaderResult stringTable entries), relocations) = do
        ElfHeaderResult{..} <- ElfWriter get
        let encodedSymbols = LazyByteString.toStrict
                $ ByteString.Builder.toLazyByteString
                $ foldMap (elf32Sym LSB) entries 
            namesLength = fromIntegral $ ByteString.length sectionNames
            symHeader = Elf32_Shdr
                { sh_type = SHT_SYMTAB
                , sh_size = fromIntegral $ ByteString.length encodedSymbols
                , sh_offset = elfSectionsSize sectionHeaders
                , sh_name = namesLength
                , sh_link = fromIntegral $ Vector.length sectionHeaders + 2
                , sh_info = 1
                , sh_flags = 0
                , sh_entsize = 16
                , sh_addralign = 0
                , sh_addr = 0
                }
        liftIO $ ByteString.hPut objectHandle encodedSymbols
        let headers1 = Vector.snoc sectionHeaders symHeader
        let y = resolveRelocation symbols <$> relocations
            encodedRelocations = LazyByteString.toStrict
                $ ByteString.Builder.toLazyByteString
                $ Vector.foldMap (either (const mempty) (elf32Rel LSB)) y
            relHeader = Elf32_Shdr
                { sh_type = SHT_REL
                , sh_size = fromIntegral $ ByteString.length encodedRelocations
                , sh_offset = elfSectionsSize headers1
                , sh_name = namesLength + 8
                , sh_link = fromIntegral $ Vector.length sectionHeaders
                , sh_info = 1
                , sh_flags = shfInfoLink
                , sh_entsize = 8
                , sh_addralign = 0
                , sh_addr = 0
                }
        liftIO $ ByteString.hPut objectHandle encodedRelocations
        let headers2 = Vector.snoc headers1 relHeader
        let strHeader = Elf32_Shdr
                { sh_type = SHT_STRTAB
                , sh_size = fromIntegral $ ByteString.length stringTable
                , sh_offset = elfSectionsSize headers2
                , sh_name = namesLength + 18
                , sh_link = 0
                , sh_info = 0
                , sh_flags = 0
                , sh_entsize = 0
                , sh_addralign = 0
                , sh_addr = 0
                }
        liftIO $ ByteString.hPut objectHandle stringTable
        addSectionHeader ".symtab" symHeader
        addSectionHeader ".rel.text" relHeader
        addSectionHeader ".strtab" strHeader
    text = do
        ElfHeaderResult{..} <- ElfWriter get
        let textTabIndex = fromIntegral $ Vector.length sectionHeaders
            initialHeaders = ElfHeaderResult "\0"
                $ Vector.singleton
                $ Elf32_Sym
                    { st_value = 0
                    , st_size = 0
                    , st_shndx = 0
                    , st_other = 0
                    , st_name = 0
                    , st_info = 0
                    }
        (symbolResult, size, relocations) <- symbolEntry textTabIndex code
            (initialHeaders, 0, mempty)
        let newHeader = Elf32_Shdr
                { sh_type = SHT_PROGBITS
                , sh_size = size
                , sh_offset = elfSectionsSize sectionHeaders
                , sh_name = fromIntegral $ ByteString.length sectionNames
                , sh_link = 0
                , sh_info = 0
                , sh_flags = 0b110
                , sh_entsize = 0
                , sh_addralign = 0
                , sh_addr = 0
                }
        addSectionHeader ".text" newHeader
        pure (symbolResult, relocations)
    symbolEntry
        :: Elf32_Half
        -> Vector RiscV.Instruction
        -> (ElfHeaderResult Elf32_Sym, Elf32_Addr, Vector UnresolvedRelocation)
        -> ElfWriter (ElfHeaderResult Elf32_Sym, Elf32_Addr, Vector UnresolvedRelocation)
    symbolEntry shndx instructions (ElfHeaderResult names entries, offset, relocations) = do
        let (encoded, size, updatedRelocations) = 
                Vector.foldl' encodeInstruction (mempty, offset, relocations) instructions
            newEntry = Elf32_Sym
                { st_value = offset
                , st_size = fromIntegral size
                , st_shndx = shndx
                , st_other = 0
                , st_name = fromIntegral $ ByteString.length names
                , st_info = stInfo STB_GLOBAL STT_FUNC
                }
        liftIO $ ByteString.hPut objectHandle $ LazyByteString.toStrict encoded
        let newResult = ElfHeaderResult (names <> "_start\0")
                $ Vector.snoc entries newEntry
        pure (newResult, size, updatedRelocations)
    encodeInstruction (instructions, offset, relocations) instruction =
        let unresolvedRelocation = case instruction of
                RiscV.RelocatableInstruction _ instructionType
                    | RiscV.Higher20 _ symbolName <- instructionType
                        -> Just
                        $ UnresolvedRelocation (Text.Encoding.encodeUtf8 symbolName) offset 26
                    | RiscV.Lower12I _ _ _ symbolName <- instructionType
                        -> Just
                        $ UnresolvedRelocation (Text.Encoding.encodeUtf8 symbolName) offset 27
                    | RiscV.Lower12S symbolName _ _ _ <- instructionType
                        -> Just
                        $ UnresolvedRelocation (Text.Encoding.encodeUtf8 symbolName) offset 28
                RiscV.Instruction _ _ -> Nothing
            encoded = ByteString.Builder.toLazyByteString
                $ RiscV.instruction instruction
         in
            ( instructions <> encoded
            , offset + fromIntegral (LazyByteString.length encoded)
            , maybe relocations (Vector.snoc relocations) unresolvedRelocation
            )

riscv32Header :: Elf32_Ehdr
riscv32Header = Elf32_Ehdr
    { e_version = EV_CURRENT
    , e_type = ET_REL
    , e_shstrndx = 2 -- String table. SHN_UNDEF
    , e_shoff = 0
    , e_shnum = 0
    , e_shentsize = 40
    , e_phoff = 0
    , e_phnum = 0
    , e_phentsize = 32
    , e_machine = EM_RISCV
    , e_ident = ElfIdentification ELFCLASS32 ELFDATA2LSB
    , e_flags = 0x4 -- EF_RISCV_FLOAT_ABI_DOUBLE
    , e_entry = 0
    , e_ehsize = fromIntegral elfHeaderSize
    }
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`-- \| Writer assembler to an object file.`
			`module Language.Elna.PrinterWriter`
			`( riscv32Elf`
			`, riscv32Header`
			`) where`

Create empty relocations section 2024-09-08 22:53:07 +02:00			`import Data.Word (Word8)`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`import Data.ByteString (ByteString)`
			`import qualified Data.ByteString as ByteString`
			`import qualified Data.ByteString.Builder as ByteString.Builder`
			`import qualified Data.ByteString.Lazy as LazyByteString`
			`import Data.Vector (Vector)`
			`import qualified Data.Vector as Vector`
			`import Language.Elna.Object.Elf`
			`( ByteOrder(..)`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`, Elf32_Addr`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`, Elf32_Ehdr(..)`
			`, Elf32_Half`
			`, Elf32_Sym(..)`
			`, ElfMachine(..)`
			`, ElfType(..)`
			`, ElfVersion(..)`
			`, ElfIdentification(..)`
			`, ElfClass(..)`
			`, ElfData(..)`
			`, Elf32_Shdr(..)`
			`, ElfSectionType(..)`
			`, ElfSymbolBinding(..)`
			`, ElfSymbolType(..)`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`, Elf32_Rel (..)`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`, elf32Sym`
			`, elfHeaderSize`
			`, elfSectionsSize`
			`, stInfo`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`, rInfo`
			`, elf32Rel`
			`, shfInfoLink`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`, ElfWriter(..)`
			`, ElfHeaderResult(..)`
			`, addSectionHeader`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`)`
			`import System.IO (Handle)`
			`import qualified Language.Elna.Architecture.RiscV as RiscV`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`import qualified Data.Text.Encoding as Text.Encoding`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`import Control.Monad.IO.Class (MonadIO(..))`
			`import Control.Monad.Trans.State (get)`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00
Create empty relocations section 2024-09-08 22:53:07 +02:00			`data UnresolvedRelocation = UnresolvedRelocation ByteString Elf32_Addr Word8`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`riscv32Elf :: Vector RiscV.Instruction -> Handle -> ElfWriter ()`
			`riscv32Elf code objectHandle = text`
			`>>= symstrtab`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`where`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`takeStringZ stringTable Elf32_Sym{ st_name }`
			`= ByteString.takeWhile (/= 0)`
			`$ ByteString.drop (fromIntegral st_name) stringTable`
			`resolveRelocation (ElfHeaderResult stringTable entries) unresolvedRelocation`
			`\| UnresolvedRelocation symbolName offset type' <- unresolvedRelocation`
			`, Just entry <- Vector.findIndex ((== symbolName) . takeStringZ stringTable) entries =`
			`Right $ Elf32_Rel`
			`{ r_offset = offset`
			`, r_info = rInfo (fromIntegral entry) type'`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`}`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`\| otherwise = Left unresolvedRelocation`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`symstrtab (symbols@(ElfHeaderResult stringTable entries), relocations) = do`
			`ElfHeaderResult{..} <- ElfWriter get`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`let encodedSymbols = LazyByteString.toStrict`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`$ ByteString.Builder.toLazyByteString`
			`$ foldMap (elf32Sym LSB) entries`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`namesLength = fromIntegral $ ByteString.length sectionNames`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`symHeader = Elf32_Shdr`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`{ sh_type = SHT_SYMTAB`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`, sh_size = fromIntegral $ ByteString.length encodedSymbols`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`, sh_offset = elfSectionsSize sectionHeaders`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`, sh_name = namesLength`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`, sh_link = fromIntegral $ Vector.length sectionHeaders + 2`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`, sh_info = 1`
			`, sh_flags = 0`
			`, sh_entsize = 16`
			`, sh_addralign = 0`
			`, sh_addr = 0`
			`}`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`liftIO $ ByteString.hPut objectHandle encodedSymbols`
			`let headers1 = Vector.snoc sectionHeaders symHeader`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`let y = resolveRelocation symbols <$> relocations`
			`encodedRelocations = LazyByteString.toStrict`
			`$ ByteString.Builder.toLazyByteString`
			`$ Vector.foldMap (either (const mempty) (elf32Rel LSB)) y`
			`relHeader = Elf32_Shdr`
			`{ sh_type = SHT_REL`
			`, sh_size = fromIntegral $ ByteString.length encodedRelocations`
			`, sh_offset = elfSectionsSize headers1`
			`, sh_name = namesLength + 8`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`, sh_link = fromIntegral $ Vector.length sectionHeaders`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`, sh_info = 1`
			`, sh_flags = shfInfoLink`
			`, sh_entsize = 8`
			`, sh_addralign = 0`
			`, sh_addr = 0`
			`}`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`liftIO $ ByteString.hPut objectHandle encodedRelocations`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`let headers2 = Vector.snoc headers1 relHeader`
			`let strHeader = Elf32_Shdr`
			`{ sh_type = SHT_STRTAB`
			`, sh_size = fromIntegral $ ByteString.length stringTable`
			`, sh_offset = elfSectionsSize headers2`
			`, sh_name = namesLength + 18`
			`, sh_link = 0`
			`, sh_info = 0`
			`, sh_flags = 0`
			`, sh_entsize = 0`
			`, sh_addralign = 0`
			`, sh_addr = 0`
			`}`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`liftIO $ ByteString.hPut objectHandle stringTable`
			`addSectionHeader ".symtab" symHeader`
			`addSectionHeader ".rel.text" relHeader`
			`addSectionHeader ".strtab" strHeader`
			`text = do`
			`ElfHeaderResult{..} <- ElfWriter get`
			`let textTabIndex = fromIntegral $ Vector.length sectionHeaders`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`initialHeaders = ElfHeaderResult "\0"`
			`$ Vector.singleton`
			`$ Elf32_Sym`
			`{ st_value = 0`
			`, st_size = 0`
			`, st_shndx = 0`
			`, st_other = 0`
			`, st_name = 0`
			`, st_info = 0`
			`}`
			`(symbolResult, size, relocations) <- symbolEntry textTabIndex code`
			`(initialHeaders, 0, mempty)`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`let newHeader = Elf32_Shdr`
			`{ sh_type = SHT_PROGBITS`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`, sh_size = size`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`, sh_offset = elfSectionsSize sectionHeaders`
			`, sh_name = fromIntegral $ ByteString.length sectionNames`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`, sh_link = 0`
			`, sh_info = 0`
			`, sh_flags = 0b110`
			`, sh_entsize = 0`
			`, sh_addralign = 0`
			`, sh_addr = 0`
			`}`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`addSectionHeader ".text" newHeader`
			`pure (symbolResult, relocations)`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`symbolEntry`
			`:: Elf32_Half`
			`-> Vector RiscV.Instruction`
			`-> (ElfHeaderResult Elf32_Sym, Elf32_Addr, Vector UnresolvedRelocation)`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`-> ElfWriter (ElfHeaderResult Elf32_Sym, Elf32_Addr, Vector UnresolvedRelocation)`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`symbolEntry shndx instructions (ElfHeaderResult names entries, offset, relocations) = do`
			`let (encoded, size, updatedRelocations) =`
			`Vector.foldl' encodeInstruction (mempty, offset, relocations) instructions`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`newEntry = Elf32_Sym`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`{ st_value = offset`
			`, st_size = fromIntegral size`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00			`, st_shndx = shndx`
			`, st_other = 0`
			`, st_name = fromIntegral $ ByteString.length names`
			`, st_info = stInfo STB_GLOBAL STT_FUNC`
			`}`
Add a state monad transformer to the Elf generator 2024-09-10 02:03:20 +02:00			`liftIO $ ByteString.hPut objectHandle $ LazyByteString.toStrict encoded`
Create empty relocations section 2024-09-08 22:53:07 +02:00			`let newResult = ElfHeaderResult (names <> "_start\0")`
			`$ Vector.snoc entries newEntry`
			`pure (newResult, size, updatedRelocations)`
			`encodeInstruction (instructions, offset, relocations) instruction =`
			`let unresolvedRelocation = case instruction of`
			`RiscV.RelocatableInstruction _ instructionType`
			`\| RiscV.Higher20 _ symbolName <- instructionType`
			`-> Just`
			`$ UnresolvedRelocation (Text.Encoding.encodeUtf8 symbolName) offset 26`
			`\| RiscV.Lower12I _ _ _ symbolName <- instructionType`
			`-> Just`
			`$ UnresolvedRelocation (Text.Encoding.encodeUtf8 symbolName) offset 27`
			`\| RiscV.Lower12S symbolName _ _ _ <- instructionType`
			`-> Just`
			`$ UnresolvedRelocation (Text.Encoding.encodeUtf8 symbolName) offset 28`
			`RiscV.Instruction _ _ -> Nothing`
			`encoded = ByteString.Builder.toLazyByteString`
			`$ RiscV.instruction instruction`
			`in`
			`( instructions <> encoded`
			`, offset + fromIntegral (LazyByteString.length encoded)`
			`, maybe relocations (Vector.snoc relocations) unresolvedRelocation`
			`)`
Stub the implementation for all phases 2024-09-08 02:08:13 +02:00
			`riscv32Header :: Elf32_Ehdr`
			`riscv32Header = Elf32_Ehdr`
			`{ e_version = EV_CURRENT`
			`, e_type = ET_REL`
			`, e_shstrndx = 2 -- String table. SHN_UNDEF`
			`, e_shoff = 0`
			`, e_shnum = 0`
			`, e_shentsize = 40`
			`, e_phoff = 0`
			`, e_phnum = 0`
			`, e_phentsize = 32`
			`, e_machine = EM_RISCV`
			`, e_ident = ElfIdentification ELFCLASS32 ELFDATA2LSB`
			`, e_flags = 0x4 -- EF_RISCV_FLOAT_ABI_DOUBLE`
			`, e_entry = 0`
			`, e_ehsize = fromIntegral elfHeaderSize`
			`}`