nim-rlp/rlp/writer.nim

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import
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macros, types,
ranges/[memranges, ptr_arith],
object_serialization, priv/defs
export
memranges
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type
RlpWriter* = object
pendingLists: seq[tuple[remainingItems, outBytes: int]]
output: Bytes
PrematureFinalizationError* = object of Exception
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IntLike* = concept x, y, type T
x + y is T
x * y is T
x - y is T
x div y is T
x mod y is T
x shr y is T
x shl y is T
x and int # for masking
Integer* = SomeInteger or IntLike
const
wrapObjectsInList* = true
proc bytesNeeded(num: Integer): int =
type IntType = type(num)
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var n = num
while n != IntType(0):
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inc result
n = n shr 8
proc writeBigEndian(outStream: var Bytes, number: int,
lastByteIdx: int, numberOfBytes: int) =
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var n = number
for i in countdown(lastByteIdx, lastByteIdx - int(numberOfBytes) + 1):
outStream[i] = byte(n and 0xff)
n = n shr 8
proc writeBigEndian(outStream: var Bytes, number: int,
numberOfBytes: int) {.inline.} =
outStream.setLen(outStream.len + numberOfBytes)
outStream.writeBigEndian(number, outStream.len - 1, numberOfBytes)
proc writeCount(bytes: var Bytes, count: int, baseMarker: byte) =
if count < THRESHOLD_LIST_LEN:
bytes.add(baseMarker + byte(count))
else:
let
origLen = bytes.len
lenPrefixBytes = count.bytesNeeded
bytes.setLen(origLen + int(lenPrefixBytes) + 1)
bytes[origLen] = baseMarker + (THRESHOLD_LIST_LEN - 1) + byte(lenPrefixBytes)
bytes.writeBigEndian(count, bytes.len - 1, lenPrefixBytes)
proc add(outStream: var Bytes, newChunk: BytesRange) =
let prevLen = outStream.len
outStream.setLen(prevLen + newChunk.len)
# XXX: Use copyMem here
for i in 0 ..< newChunk.len:
outStream[prevLen + i] = newChunk[i]
{.this: self.}
{.experimental.}
using
self: var RlpWriter
proc initRlpWriter*: RlpWriter =
newSeq(result.pendingLists, 0)
newSeq(result.output, 0)
proc decRet(n: var int, delta: int): int =
n -= delta
return n
proc maybeClosePendingLists(self) =
while pendingLists.len > 0:
let lastListIdx = pendingLists.len - 1
assert pendingLists[lastListIdx].remainingItems >= 1
if decRet(pendingLists[lastListIdx].remainingItems, 1) == 0:
# A list have been just finished. It was started in `startList`.
let listStartPos = pendingLists[lastListIdx].outBytes
pendingLists.setLen lastListIdx
# How many bytes were written since the start?
let listLen = output.len - listStartPos
# Compute the number of bytes required to write down the list length
let totalPrefixBytes = if listLen < int(THRESHOLD_LIST_LEN): 1
else: int(listLen.bytesNeeded) + 1
# Shift the written data to make room for the prefix length
output.setLen(output.len + totalPrefixBytes)
let outputBaseAddr = output.baseAddr
moveMem(outputBaseAddr.shift(listStartPos + totalPrefixBytes),
outputBaseAddr.shift(listStartPos),
listLen)
# Write out the prefix length
if listLen < THRESHOLD_LIST_LEN:
output[listStartPos] = LIST_START_MARKER + byte(listLen)
else:
let listLenBytes = totalPrefixBytes - 1
output[listStartPos] = LEN_PREFIXED_LIST_MARKER + byte(listLenBytes)
output.writeBigEndian(listLen, listStartPos + listLenBytes, listLenBytes)
else:
# The currently open list is not finished yet. Nothing to do.
return
proc appendRawList(self; bytes: BytesRange) =
output.writeCount(bytes.len, LIST_START_MARKER)
output.add(bytes)
maybeClosePendingLists()
proc startList*(self; listSize: int) =
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if listSize == 0:
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appendRawList(BytesRange())
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else:
pendingLists.add((listSize, output.len))
template appendImpl(self; data, startMarker) =
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mixin baseAddr
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if data.len == 1 and byte(data[0]) < BLOB_START_MARKER:
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self.output.add byte(data[0])
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else:
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self.output.writeCount(data.len, startMarker)
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let startPos = output.len
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self.output.setLen(startPos + data.len)
copyMem(shift(baseAddr(self.output), startPos),
baseAddr(data),
data.len)
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maybeClosePendingLists()
proc append*(self; data: string) =
appendImpl(self, data, BLOB_START_MARKER)
proc appendBlob(self; data: openarray[byte]) =
appendImpl(self, data, BLOB_START_MARKER)
proc appendBlob(self; data: openarray[char]) =
appendImpl(self, data, BLOB_START_MARKER)
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proc appendBytesRange(self; data: BytesRange) =
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appendImpl(self, data, BLOB_START_MARKER)
proc append*(self; data: MemRange) =
appendImpl(self, data, BLOB_START_MARKER)
proc append*(self; i: Integer) =
type IntType = type(i)
if i == IntType(0):
self.output.add BLOB_START_MARKER
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elif i < BLOB_START_MARKER.Integer:
self.output.add byte(i)
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else:
let bytesNeeded = i.bytesNeeded
self.output.writeCount(bytesNeeded, BLOB_START_MARKER)
self.output.writeBigEndian(i.int, bytesNeeded)
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self.maybeClosePendingLists()
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template append*(self; e: enum) =
append(self, int(e))
proc append*[T](self; listOrBlob: openarray[T]) =
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mixin append
# TODO: This append proc should be overloaded by `openarray[byte]` after
# nim bug #7416 is fixed.
when T is (byte or char):
self.appendBlob(listOrBlob)
else:
self.startList listOrBlob.len
for i in 0 ..< listOrBlob.len:
self.append listOrBlob[i]
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proc appendTupleOrObject(self; data: object|tuple, wrapInList: bool) =
mixin enumerateRlpFields, append
const wrapInList = wrapObjectsInList
if wrapInList:
var fieldsCount = 0
template countFields(x) = inc fieldsCount
enumerateRlpFields(data, countFields)
self.startList(fieldsCount)
template op(x) = append(self, x)
enumerateRlpFields(data, op)
proc append*(self; data: object, wrapInList = wrapObjectsInList) {.inline.} =
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# TODO: This append proc should be overloaded by `BytesRange` after
# nim bug #7416 is fixed.
when data is BytesRange:
self.appendBytesRange(data)
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else:
self.appendTupleOrObject(data, wrapInList)
proc append*(self; data: tuple, wrapInList = wrapObjectsInList) {.inline.} =
self.appendTupleOrObject(data, wrapInList)
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proc initRlpList*(listSize: int): RlpWriter =
result = initRlpWriter()
startList(result, listSize)
proc finish*(self): BytesRange =
if pendingLists.len > 0:
raise newException(PrematureFinalizationError,
"Insufficient number of elements written to a started list")
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result = output.toRange()
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proc encode*[T](v: T): BytesRange =
var writer = initRlpWriter()
writer.append(v)
return writer.finish
macro encodeList*(args: varargs[untyped]): BytesRange =
var
listLen = args.len
writer = genSym(nskVar, "rlpWriter")
body = newStmtList()
for arg in args:
body.add quote do:
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append(`writer`, `arg`)
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result = quote do:
var `writer` = initRlpList(`listLen`)
`body`
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finish(`writer`)
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when false:
# XXX: Currently fails with a malformed AST error on the args.len expression
template encodeList*(args: varargs[untyped]): BytesRange =
var writer = initRlpList(args.len)
for arg in args:
writer.append(arg)
writer.finish