311 lines
10 KiB
Nim
311 lines
10 KiB
Nim
# Nim-Libp2p
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# Copyright (c) 2022 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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# * MIT license ([LICENSE-MIT](LICENSE-MIT))
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# at your option.
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# This file may not be copied, modified, or distributed except according to
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# those terms.
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## This module implements Variable Integer `VARINT`.
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## This module supports two variants of variable integer
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## - Google ProtoBuf varint, which is able to encode full uint64 number and
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## maximum size of encoded value is 10 octets (bytes).
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## https://developers.google.com/protocol-buffers/docs/encoding#varints
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## - LibP2P varint, which is able to encode only 63bits of uint64 number and
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## maximum size of encoded value is 9 octets (bytes).
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## https://github.com/multiformats/unsigned-varint
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{.push raises: [Defect].}
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import stew/[byteutils, leb128, results]
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export leb128, results
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type
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VarintError* {.pure.} = enum
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Error,
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Overflow,
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Incomplete,
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Overlong,
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Overrun
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VarintResult*[T] = Result[T, VarintError]
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PB* = object
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## Use this type to specify Google ProtoBuf's varint encoding
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LP* = object
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## Use this type to specify LibP2P varint encoding
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zint32* = distinct int32
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zint64* = distinct int64
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zint* = distinct int
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## Signed integer types which will be encoded using zigzag encoding.
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hint32* = distinct int32
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hint64* = distinct int64
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hint* = distinct int
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## Signed integer types which will be encoded using simple cast.
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PBSomeUVarint* = uint | uint64 | uint32
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PBSomeSVarint* = hint | hint64 | hint32
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PBZigVarint* = zint | zint64 | zint32
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PBSomeVarint* = PBSomeUVarint | PBSomeSVarint | PBZigVarint
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LPSomeUVarint* = uint | uint64 | uint32 | uint16 | uint8
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LPSomeVarint* = LPSomeUVarint
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SomeVarint* = PBSomeVarint | LPSomeVarint
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SomeUVarint* = PBSomeUVarint | LPSomeUVarint
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template toUleb(x: uint64): uint64 = x
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template toUleb(x: uint32): uint32 = x
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template toUleb(x: uint16): uint16 = x
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template toUleb(x: uint8): uint8 = x
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func toUleb(x: zint64): uint64 =
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let v = cast[uint64](x)
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(v shl 1) xor (0 - (v shr 63))
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func toUleb(x: zint32): uint32 =
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let v = cast[uint32](x)
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(v shl 1) xor (0 - (v shr 31))
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template toUleb(x: hint64): uint64 = cast[uint64](x)
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template toUleb(x: hint32): uint32 = cast[uint32](x)
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template toUleb(x: zint): uint64 =
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when sizeof(x) == sizeof(zint64):
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uint(toUleb(zint64(x)))
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else:
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uint(toUleb(zint32(x)))
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template toUleb(x: hint): uint =
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when sizeof(x) == sizeof(hint64):
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uint(toUleb(hint64(x)))
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else:
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uint(toUleb(hint32(x)))
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template fromUleb(x: uint64, T: type uint64): T = x
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template fromUleb(x: uint32, T: type uint32): T = x
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template fromUleb(x: uint64, T: type zint64): T =
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cast[T]((x shr 1) xor (0 - (x and 1)))
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template fromUleb(x: uint32, T: type zint32): T =
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cast[T]((x shr 1) xor (0 - (x and 1)))
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template fromUleb(x: uint64, T: type hint64): T =
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cast[T](x)
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template fromUleb(x: uint32, T: type hint32): T =
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cast[T](x)
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proc vsizeof*(x: SomeVarint): int {.inline.} =
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## Returns number of bytes required to encode integer ``x`` as varint.
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Leb128.len(toUleb(x))
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proc getUVarint*[T: PB|LP](vtype: typedesc[T],
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pbytes: openArray[byte],
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outlen: var int,
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outval: var SomeUVarint): VarintResult[void] =
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## Decode `unsigned varint` from buffer ``pbytes`` and store it to ``outval``.
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## On success ``outlen`` will be set to number of bytes processed while
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## decoding `unsigned varint`.
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##
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## If array ``pbytes`` is empty, ``Incomplete`` error will be returned.
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##
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## If there not enough bytes available in array ``pbytes`` to decode `unsigned
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## varint`, ``Incomplete`` error will be returned.
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##
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## If encoded value can produce integer overflow, ``Overflow`` error will be
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## returned.
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##
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## Google ProtoBuf
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## When decoding 10th byte of Google Protobuf's 64bit integer only 1 bit from
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## byte will be decoded, all other bits will be ignored. When decoding 5th
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## byte of 32bit integer only 4 bits from byte will be decoded, all other bits
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## will be ignored.
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##
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## LibP2P
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## When decoding 5th byte of 32bit integer only 4 bits from byte will be
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## decoded, all other bits will be ignored.
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outlen = 0
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outval = type(outval)(0)
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let parsed = type(outval).fromBytes(pbytes, Leb128)
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if parsed.len == 0:
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return err(VarintError.Incomplete)
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if parsed.len < 0:
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return err(VarintError.Overflow)
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when vtype is LP and sizeof(outval) == 8:
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if parsed.val >= 0x8000_0000_0000_0000'u64:
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return err(VarintError.Overflow)
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if vsizeof(parsed.val) != parsed.len:
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return err(VarintError.Overlong)
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(outval, outlen) = parsed
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ok()
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proc putUVarint*[T: PB|LP](vtype: typedesc[T],
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pbytes: var openArray[byte],
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outlen: var int,
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outval: SomeUVarint): VarintResult[void] =
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## Encode `unsigned varint` ``outval`` and store it to array ``pbytes``.
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##
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## On success ``outlen`` will hold number of bytes (octets) used to encode
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## unsigned integer ``v``.
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##
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## If there not enough bytes available in buffer ``pbytes``, ``Incomplete``
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## error will be returned and ``outlen`` will be set to number of bytes
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## required.
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##
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## Google ProtoBuf
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## Maximum encoded length of 64bit integer is 10 octets.
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## Maximum encoded length of 32bit integer is 5 octets.
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##
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## LibP2P
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## Maximum encoded length of 63bit integer is 9 octets.
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## Maximum encoded length of 32bit integer is 5 octets.
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when vtype is LP and sizeof(outval) == 8:
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if (uint64(outval) and 0x8000_0000_0000_0000'u64) != 0'u64:
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return err(VarintError.Overflow)
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let bytes = toBytes(outval, Leb128)
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outlen = len(bytes)
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if len(pbytes) >= outlen:
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pbytes[0..<outlen] = bytes.toOpenArray()
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ok()
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else:
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err(VarintError.Overrun)
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proc getSVarint*(pbytes: openArray[byte], outsize: var int,
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outval: var (PBZigVarint | PBSomeSVarint)): VarintResult[void] {.inline.} =
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## Decode signed integer (``int32`` or ``int64``) from buffer ``pbytes``
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## and store it to ``outval``.
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##
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## On success ``outlen`` will be set to number of bytes processed while
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## decoding signed varint.
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##
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## If array ``pbytes`` is empty, ``Incomplete`` error will be returned.
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##
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## If there not enough bytes available in array ``pbytes`` to decode `signed
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## varint`, ``Incomplete`` error will be returned.
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##
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## If encoded value can produce integer overflow, ``Overflow`` error will be
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## returned.
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##
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## Note, when decoding 10th byte of 64bit integer only 1 bit from byte will be
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## decoded, all other bits will be ignored. When decoding 5th byte of 32bit
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## integer only 4 bits from byte will be decoded, all other bits will be
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## ignored.
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when sizeof(outval) == 8:
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var value: uint64
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else:
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var value: uint32
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let res = PB.getUVarint(pbytes, outsize, value)
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if res.isOk():
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outval = fromUleb(value, type(outval))
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res
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proc putSVarint*(pbytes: var openArray[byte], outsize: var int,
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outval: (PBZigVarint | PBSomeSVarint)): VarintResult[void] {.inline.} =
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## Encode signed integer ``outval`` using ProtoBuffer's zigzag encoding
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## (``sint32`` or ``sint64``) and store it to array ``pbytes``.
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##
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## On success ``outlen`` will hold number of bytes (octets) used to encode
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## unsigned integer ``v``.
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##
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## If there not enough bytes available in buffer ``pbytes``, ``Incomplete``
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## error will be returned and ``outlen`` will be set to number of bytes
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## required.
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##
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## Maximum encoded length of 64bit integer is 10 octets.
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## Maximum encoded length of 32bit integer is 5 octets.
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PB.putUVarint(pbytes, outsize, toUleb(outval))
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template varintFatal(msg) =
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const m = msg
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{.fatal: m.}
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proc putVarint*[T: PB|LP](vtype: typedesc[T], pbytes: var openArray[byte],
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nbytes: var int, value: SomeVarint): VarintResult[void] {.inline.} =
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when vtype is PB:
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when (type(value) is PBSomeSVarint) or (type(value) is PBZigVarint):
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putSVarint(pbytes, nbytes, value)
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elif (type(value) is PBSomeUVarint):
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PB.putUVarint(pbytes, nbytes, value)
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else:
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varintFatal("Protobuf's varint do not support type [" &
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typetraits.name(type(value)) & "]")
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elif vtype is LP:
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when (type(value) is LPSomeVarint):
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LP.putUVarint(pbytes, nbytes, value)
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else:
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varintFatal("LibP2P's varint do not support type [" &
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typetraits.name(type(value)) & "]")
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proc getVarint*[T: PB|LP](vtype: typedesc[T], pbytes: openArray[byte],
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nbytes: var int,
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value: var SomeVarint): VarintResult[void] {.inline.} =
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when vtype is PB:
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when (type(value) is PBSomeSVarint) or (type(value) is PBZigVarint):
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getSVarint(pbytes, nbytes, value)
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elif (type(value) is PBSomeUVarint):
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PB.getUVarint(pbytes, nbytes, value)
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else:
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varintFatal("Protobuf's varint do not support type [" &
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typetraits.name(type(value)) & "]")
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elif vtype is LP:
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when (type(value) is LPSomeVarint):
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LP.getUVarint(pbytes, nbytes, value)
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else:
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varintFatal("LibP2P's varint do not support type [" &
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typetraits.name(type(value)) & "]")
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template toBytes*(vtype: typedesc[PB], value: PBSomeVarint): auto =
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toBytes(toUleb(value), Leb128)
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proc encodeVarint*(vtype: typedesc[PB],
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value: PBSomeVarint): VarintResult[seq[byte]] {.inline.} =
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## Encode integer to Google ProtoBuf's `signed/unsigned varint` and returns
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## sequence of bytes as buffer.
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var outsize = 0
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var buffer = newSeqOfCap[byte](10)
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when sizeof(value) == 4:
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buffer.setLen(5)
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else:
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buffer.setLen(10)
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when (type(value) is PBSomeSVarint) or (type(value) is PBZigVarint):
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let res = putSVarint(buffer, outsize, value)
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else:
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let res = PB.putUVarint(buffer, outsize, value)
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if res.isOk():
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buffer.setLen(outsize)
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ok(buffer)
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else:
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err(res.error())
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proc encodeVarint*(vtype: typedesc[LP],
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value: LPSomeVarint): VarintResult[seq[byte]] {.inline.} =
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## Encode integer to LibP2P `unsigned varint` and returns sequence of bytes
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## as buffer.
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var outsize = 0
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var buffer = newSeqOfCap[byte](9)
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when sizeof(value) == 1:
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buffer.setLen(2)
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elif sizeof(value) == 2:
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buffer.setLen(3)
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elif sizeof(value) == 4:
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buffer.setLen(5)
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else:
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buffer.setLen(9)
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let res = LP.putUVarint(buffer, outsize, value)
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if res.isOk():
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buffer.setLen(outsize)
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ok(buffer)
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else:
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err(res.error)
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