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Signed-off-by: Kirk Baird <baird.k@outlook.com> |
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Cargo.toml | ||
README.md |
simpleserialize (ssz) [WIP]
This is currently a Work In Progress crate.
SimpleSerialize is a serialization protocol described by Vitalik Buterin. The method is tentatively intended for use in the Ethereum Beacon Chain as described in the Ethereum 2.1 Spec. The Beacon Chain specification is the core, canonical specification which we are following.
The current reference implementation has been described in the Beacon Chain Repository.
Please Note: This implementation is presently a placeholder until the final
spec is decided.
Do not rely upon it for reference.
Table of Contents
- SimpleSerialize Overview
- Technical Overview
- Building
- Dependencies
- Interface
- Usage
- Deserializing/Decoding
SimpleSerialize Overview
The simpleserialize
method for serialization follows simple byte conversion,
making it effective and efficient for encoding and decoding.
The decoding requires knowledge of the data type and the order of the serialization.
Syntax:
Shorthand | Meaning |
---|---|
little |
little endian |
to_bytes |
convert to bytes. Params: (size, byte order) |
from_bytes |
convert from bytes. Params: (bytes, byte order) |
value |
the value to serialize |
rawbytes |
raw encoded/serialized bytes |
len(value) |
get the length of the value. (number of bytes etc) |
Serialize/Encode
int or uint: 8/16/24/32/64/256
Convert directly to bytes the size of the int. (e.g. int16 = 2 bytes
)
All integers are serialized as little endian.
Check to perform | Code |
---|---|
Int size is not 0 | int_size > 0 |
Size is a byte integer | int_size % 8 == 0 |
Value is less than max | 2**int_size > value |
buffer_size = int_size / 8
return value.to_bytes(buffer_size, 'little')
Address
The address should already come as a hash/byte format. Ensure that length is 20.
Check to perform | Code |
---|---|
Length is correct (20) | len(value) == 20 |
assert( len(value) == 20 )
return value
Hash32
The hash32 should already be a 32 byte length serialized data format. The safety check ensures the 32 byte length is satisfied.
Check to perform | Code |
---|---|
Length is correct (32) | len(value) == 32 |
assert( len(value) == 32 )
return value
Bytes
For general byte
type:
- Get the length/number of bytes; Encode into a 4 byte integer.
- Append the value to the length and return:
[ length_bytes ] + [ value_bytes ]
byte_length = (len(value)).to_bytes(4, 'little')
return byte_length + value
List
For lists of values, get the length of the list and then serialize the value of each item in the list:
- For each item in list:
- serialize.
- append to string.
- Get size of serialized string. Encode into a 4 byte integer.
serialized_list_string = ''
for item in value:
serialized_list_string += serialize(item)
serialized_len = len(serialized_list_string)
return serialized_len + serialized_list_string
Deserialize/Decode
The decoding requires knowledge of the type of the item to be decoded. When performing decoding on an entire serialized string, it also requires knowledge of what order the objects have been serialized in.
Note: Each return will provide deserialized_object, new_index
keeping track
of the new index.
At each step, the following checks should be made:
Check Type | Check |
---|---|
Ensure sufficient length | length(rawbytes) > current_index + deserialize_length |
Int or Uint: 8/16/24/32/64/256
Convert directly from bytes into integer utilising the number of bytes the same
size as the integer length. (e.g. int16 == 2 bytes
)
All integers are interpreted as little endian.
byte_length = int_size / 8
new_index = current_index + int_size
return int.from_bytes(rawbytes[current_index:current_index+int_size], 'little'), new_index
Address
Return the 20 bytes.
new_index = current_index + 20
return rawbytes[current_index:current_index+20], new_index
Hash32
Return the 32 bytes.
new_index = current_index + 32
return rawbytes[current_index:current_index+32], new_index
Bytes
Get the length of the bytes, return the bytes.
bytes_length = int.from_bytes(rawbytes[current_index:current_index+4], 'little')
new_index = current_index + 4 + bytes_lenth
return rawbytes[current_index+4:current_index+4+bytes_length], new_index
List
Deserailize each object in the list.
- Get the length of the serialized list.
- Loop through deseralizing each item in the list until you reach the entire length of the list.
Check type | code |
---|---|
rawbytes has enough left for length | len(rawbytes) > current_index + 4 |
total_length = int.from_bytes(rawbytes[current_index:current_index+4], 'little')
new_index = current_index + 4 + total_length
item_index = current_index + 4
deserialized_list = []
while item_index < new_index:
object, item_index = deserialize(rawbytes, item_index, item_type)
deserialized_list.append(object)
return deserialized_list, new_index
Technical Overview
The SimpleSerialize is a simple method for serializing objects for use in the Ethereum beacon chain proposed by Vitalik Buterin. There are currently two implementations denoting the functionality, the Reference Implementation and the Module in Ethereum research. It is being developed as a crate for the Rust programming language.
The crate will provide the functionality to serialize several types in accordance with the spec and provide a serialized stream of bytes.
Building
ssz currently builds on rust v1.27.1
Installing Rust
The Rustup tool provides functionality to easily manage rust on your local instance. It is a recommended method for installing rust.
Installing on Linux or OSX:
curl https://sh.rustup.rs -sSf | sh
Installing on Windows:
- 32 Bit: https://win.rustup.rs/i686
- 64 Bit: https://win.rustup.rs/x86_64
Dependencies
All dependencies are listed in the Cargo.toml
file.
To build and install all related dependencies:
cargo build
bytes v0.4.9
The bytes
crate provides effective Byte Buffer implementations and
interfaces.
Documentation: https://docs.rs/bytes/0.4.9/bytes/
ethereum-types
The ethereum-types
provide primitives for types that are commonly used in the
ethereum protocol. This crate is provided by Parity.
Github: https://github.com/paritytech/primitives
Interface
Encodable
A type is Encodable if it has a valid ssz_append
function. This is
used to ensure that the object/type can be serialized.
pub trait Encodable {
fn ssz_append(&self, s: &mut SszStream);
}
Decodable
A type is Decodable if it has a valid ssz_decode
function. This is
used to ensure the object is deserializable.
pub trait Decodable: Sized {
fn ssz_decode(bytes: &[u8], index: usize) -> Result<(Self, usize), DecodeError>;
}
SszStream
The main implementation is the SszStream
struct. The struct contains a
buffer of bytes, a Vector of uint8
.
new()
Create a new, empty instance of the SszStream.
Example
let mut ssz = SszStream::new()
append(&mut self, value: &E) -> &mut Self
Appends a value that can be encoded into the stream.
Parameter | Description |
---|---|
value |
Encodable value to append to the stream. |
Example
ssz.append(&x)
append_encoded_val(&mut self, vec: &Vec)
Appends some ssz encoded bytes to the stream.
Parameter | Description |
---|---|
vec |
A vector of serialized ssz bytes. |
Example
let mut a = [0, 1];
ssz.append_encoded_val(&a.to_vec());
append_vec(&mut self, vec: &Vec)
Appends some vector (list) of encodable values to the stream.
Parameter | Description |
---|---|
vec |
Vector of Encodable objects to be serialized. |
Example
ssz.append_vec(attestations);
drain(self) -> Vec
Consumes the ssz stream and returns the buffer of bytes.
Example
ssz.drain()
decode_ssz(ssz_bytes: &[u8], index: usize) -> Result<(T, usize), DecodeError>
Decodes a single ssz serialized value of type T
. Note: T
must be decodable.
Parameter | Description |
---|---|
ssz_bytes |
Serialized list of bytes. |
index |
Starting index to deserialize from. |
Returns
Return Value | Description |
---|---|
Tuple(T, usize) |
Returns the tuple of the type and next index. |
DecodeError |
Error if the decoding could not be performed. |
Example
let res: Result<(u16, usize), DecodeError> = decode_ssz(&encoded_ssz, 0);
decode_ssz_list(ssz_bytes: &[u8], index: usize) -> Result<(Vec, usize), DecodeError>
Decodes a list of serialized values into a vector.
Parameter | Description |
---|---|
ssz_bytes |
Serialized list of bytes. |
index |
Starting index to deserialize from. |
Returns
Return Value | Description |
---|---|
Tuple(Vec<T>, usize) |
Returns the tuple of the type and next index. |
DecodeError |
Error if the decoding could not be performed. |
Example
let decoded: Result<(Vec<usize>, usize), DecodeError> = decode_ssz_list( &encoded_ssz, 0);
decode_length(bytes: &[u8], index: usize, length_bytes: usize) -> Result<usize, DecodeError>
Deserializes the "length" value in the serialized bytes from the index. The length of bytes is given (usually 4 stated in the reference implementation) and is often the value appended to the list infront of the actual serialized object.
Parameter | Description |
---|---|
bytes |
Serialized list of bytes. |
index |
Starting index to deserialize from. |
length_bytes |
Number of bytes to deserialize into usize. |
Returns
Return Value | Description |
---|---|
usize |
The length of the serialized object following this length. |
DecodeError |
Error if the decoding could not be performed. |
Example
let length_of_serialized: Result<usize, DecodeError> = decode_length(&encoded, 0, 4);
Usage
Serializing/Encoding
Rust
Create the simpleserialize
stream that will produce the serialized objects.
let mut ssz = SszStream::new();
Encode the values that you need by using the append(..)
method on the SszStream
.
The append function is how the value gets serialized.
let x: u64 = 1 << 32;
ssz.append(&x);
To get the serialized byte vector use drain()
on the SszStream
.
ssz.drain()
Example
// 1 << 32 = 4294967296;
// As bytes it should equal: [0,0,0,1,0,0,0]
let x: u64 = 1 << 32;
// Create the new ssz stream
let mut ssz = SszStream::new();
// Serialize x
ssz.append(&x);
// Check that it is correct.
assert_eq!(ssz.drain(), vec![0,0,0,1,0,0,0]);
Deserializing/Decoding
Rust
From the simpleserialize
bytes, we are converting to the object.
let ssz = vec![0, 0, 8, 255, 255, 255, 255, 255, 255, 255, 255];
// Returns the result and the next index to decode.
let (result, index): (u64, usize) = decode_ssz(&ssz, 3).unwrap();
// Check for correctness
// 2**64-1 = 18446744073709551615
assert_eq!(result, 18446744073709551615);
// Index = 3 (initial index) + 8 (8 byte int) = 11
assert_eq!(index, 11);
Decoding a list of items:
// Encoded/Serialized list with junk numbers at the front
let serialized_list = vec![ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 0, 0, 32, 0, 0, 0,
0, 0, 0, 0, 15, 0, 0, 0, 0, 0, 0, 0, 15, 0, 0, 0, 0,
0, 0, 0, 15, 0, 0, 0, 0, 0, 0, 0, 15];
// Returns the result (Vector of usize) and the index of the next
let decoded: (Vec<usize>, usize) = decode_ssz_list(&serialized_list, 10).unwrap();
// Check for correctness
assert_eq!(decoded.0, vec![15,15,15,15]);
assert_eq!(decoded.1, 46);