{-# LANGUAGE BangPatterns #-} {-# LANGUAGE DerivingStrategies #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE Strict #-} module Raw ( newTraceIdFromHeader, newSpanIdFromHeader, newHeaderFromTraceId, newHeaderFromSpanId, showWord64BS, readWord64BS, asciiWord8ToWord8, word8ToAsciiWord8, ) where import Control.Monad.ST (ST, runST) import Data.Bits (Bits (complement, shift, (.&.))) import Data.ByteString (ByteString) import qualified Data.ByteString.Internal as BI import Data.ByteString.Short (ShortByteString) import qualified Data.ByteString.Short.Internal as SBI import qualified Data.Char as C import Data.Primitive.ByteArray ( ByteArray (ByteArray), MutableByteArray, freezeByteArray, indexByteArray, newByteArray, writeByteArray, ) import Data.Primitive.Ptr (writeOffPtr) import Data.Word (Word64, Word8) import Foreign.ForeignPtr (withForeignPtr) import Foreign.Storable (peekElemOff) import System.IO.Unsafe (unsafeDupablePerformIO) newTraceIdFromHeader :: ByteString -- ^ ASCII numeric text -> ShortByteString newTraceIdFromHeader bs = let len = 16 :: Int !(ByteArray ba) = runST $ do mba <- newByteArray len let w64 = readWord64BS bs writeByteArray mba 0 (0 :: Word64) -- fill zeros to one upper Word64-size area writeByteArrayNbo mba 1 w64 -- offset one Word64-size freezeByteArray mba 0 len in SBI.SBS ba newSpanIdFromHeader :: ByteString -- ^ ASCII numeric text -> ShortByteString newSpanIdFromHeader bs = let len = 8 :: Int !(ByteArray ba) = runST $ do mba <- newByteArray len let w64 = readWord64BS bs writeByteArrayNbo mba 0 w64 freezeByteArray mba 0 len in SBI.SBS ba {- | Write a primitive value to the byte array with network-byte-order (big-endian). The offset is given in elements of type @a@ rather than in bytes. -} writeByteArrayNbo :: MutableByteArray s -> Int -> Word64 -> ST s () writeByteArrayNbo mba offset value = do writeByteArray mba offset (0 :: Word64) loop 0 value where loop _ 0 = pure () loop 8 _ = pure () loop n v = do let -- equivelent: -- (p, q) = v `divMod` (2 ^ (8 :: Int)) p = shift v (-8) q = v .&. complement (shift p 8) writeByteArray mba (8 * (offset + 1) - n - 1) (fromIntegral q :: Word8) loop (n + 1) p readWord64BS :: ByteString -> Word64 readWord64BS (BI.PS fptr _ len) = unsafeDupablePerformIO $ withForeignPtr fptr readWord64Ptr where readWord64Ptr ptr = readWord64PtrOffset 0 0 where readWord64PtrOffset offset acc | offset < len = do b <- peekElemOff ptr offset let n = fromIntegral $ asciiWord8ToWord8 b :: Word64 readWord64PtrOffset (offset + 1) $ n + acc * 10 | otherwise = pure acc asciiWord8ToWord8 :: Word8 -> Word8 asciiWord8ToWord8 b = b - fromIntegral (C.ord '0') newHeaderFromTraceId :: ShortByteString -> ByteString newHeaderFromTraceId (SBI.SBS ba) = let w64 = indexByteArrayNbo (ByteArray ba) 1 in showWord64BS w64 newHeaderFromSpanId :: ShortByteString -> ByteString newHeaderFromSpanId (SBI.SBS ba) = let w64 = indexByteArrayNbo (ByteArray ba) 0 in showWord64BS w64 indexByteArrayNbo :: ByteArray -> Int -> Word64 indexByteArrayNbo ba offset = loop 0 0 where loop 8 acc = acc loop n acc = loop (n + 1) $ shift acc 8 + word8ToWord64 (indexByteArray ba $ 8 * offset + n) showWord64BS :: Word64 -> ByteString showWord64BS v = unsafeDupablePerformIO $ BI.createUptoN 20 writeWord64Ptr -- 20 = length (show (maxBound :: Word64)) where writeWord64Ptr ptr = loop (19 :: Int) v 0 False where loop 0 v offset _ = do writeOffPtr ptr offset (word8ToAsciiWord8 $ fromIntegral v) pure $ offset + 1 loop n v offset upper = do let (p, q) = v `divMod` (10 ^ n) if p == 0 && not upper then loop (n - 1) q offset upper else do writeOffPtr ptr offset (word8ToAsciiWord8 $ fromIntegral p) loop (n - 1) q (offset + 1) True word8ToAsciiWord8 :: Word8 -> Word8 word8ToAsciiWord8 b = b + fromIntegral (C.ord '0') word8ToWord64 :: Word8 -> Word64 word8ToWord64 = fromIntegral