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| rlp | ||
| tests | ||
| .appveyor.yml | ||
| .gitignore | ||
| .travis.yml | ||
| LICENSE-APACHEv2 | ||
| LICENSE-MIT | ||
| README.md | ||
| rlp.nim | ||
| rlp.nimble | ||
README.md
rlp
Introduction
A Nim implementation of the Recursive Length Prefix encoding (RLP) as specified in the Ethereum's Yellow Papper and Wiki.
Installation
$ nimble install rlp
Reading RLP data
The Rlp type provided by this library represents a cursor over a RLP-encoded
byte stream. Before instantiating such a cursor, you must convert your
input data a BytesRange value provided by the nim-ranges library,
which represents an immutable and thus cheap-to-copy sub-range view over an
underlying seq[byte] instance:
proc rlpFromBytes*(data: BytesRange): Rlp
Streaming API
Once created, the Rlp object will offer procs such as isList, isBlob,
getType, listLen, blobLen to determine the type of the value under
the cursor. The contents of blobs can be extracted with procs such as
toString, toBytes and toInt without advancing the cursor.
Lists can be traversed with the standard items iterator, which will advance
the cursor to each sub-item position and yield the Rlp object at that point.
As an alternative, listElem can return a new Rlp object adjusted to a
particular sub-item position without advancing the original cursor.
Keep in mind that copying Rlp objects is cheap and you can create as many
cursors pointing to different positions in the RLP stream as necessary.
skipElem will advance the cursor to the next position in the current list.
hasData will indicate that there are no more bytes in the stream that can
be consumed.
Another way to extract data from the stream is through the universal read
proc that accepts a type as a parameter. You can pass any supported type
such as string, int, seq[T], etc, including composite user-defined
types (see Object Serialization). The cursor
will be advanced just past the end of the consumed object.
The toXX and read family of procs may raise a RlpTypeMismatch in case
of type mismatch with the stream contents under the cursor. A corrupted
RLP stream or an attemp to read past the stream end will be signaled
with the MalformedRlpError exception. If the RLP stream includes data
that cannot be processed on the current platform (e.g. an integer value
that is too large), the library will raise an UnsupportedRlpError exception.
DOM API
Calling Rlp.toNodes at any position within the stream will return a tree
of RlpNode objects representing the collection of values begging at that
position:
type
RlpNodeType* = enum
rlpBlob
rlpList
RlpNode* = object
case kind*: RlpNodeType
of rlpBlob:
bytes*: BytesRange
of rlpList:
elems*: seq[RlpNode]
As a short-cut, you can also call decode directly on a byte sequence to
avoid creating a Rlp object when obtaining the nodes.
For debugging purposes, you can also create a human readable representation
of the Rlp nodes by calling the inspect proc:
proc inspect*(self: Rlp, indent = 0): string
Creating RLP data
The RlpWriter type can be used to encode RLP data. Instances are created
with the initRlpWriter proc. This should be followed by one or more calls
to append which is overloaded to accept arbitrary values. Finally, you can
call finish to obtain the final BytesRange.
If the end result should by a RLP list of particular length, you can replace
the initial call to initRlpWriter with initRlpList(n). Calling finish
before writing a sufficient number of elements will then result in a
PrematureFinalizationError.
As an alternative short-cut, you can also call encode on an arbitrary value
(including sequences and user-defined types) to execute all of the steps at
once and directly obtain the final RLP bytes. encodeList(varargs) is another
short-cut for creating RLP lists.
Object serialization
As previously explained, generic procs such as read, append, encode and
decode can be used with arbitrary used-defined object types. By default, the
library will serialize all of the fields of the object using the fields
iterator, but you can also include only a subset of the fields or modify the
order of serialization or by employing the rlpIgnore pragma or by using the
rlpFields macro:
macro rlpFields*(T: typedesc, fields: varargs[untyped])
## example usage:
type
Transaction = object
amount: int
time: DateTime
sender: string
receiver: string
rlpFields Transaction,
sender, receiver, amount
...
var t1 = rlp.read(Transaction)
var bytes = encode(t1)
var t2 = bytes.decode(Transaction)
By default, sub-fields within objects are wrapped in RLP lists. You can avoid this
behavior by adding the custom pragma rlpInline on a particular field. In rare
circumstances, you may need to serialize the same field type differently depending
on the enclosing object type. You can use the rlpCustomSerialization pragma to
achieve this.
Contributing / Testing
To test the correctness of any modifications to the library, please execute
nimble test at the root of the repo.
License
Licensed and distributed under either of
- MIT license: LICENSE-MIT or http://opensource.org/licenses/MIT
or
- Apache License, Version 2.0, (LICENSE-APACHEv2 or http://www.apache.org/licenses/LICENSE-2.0)
at your option. This file may not be copied, modified, or distributed except according to those terms.