use crate::{
codec::{Codec, Decode, Encode},
generic::Digest,
scale_info::TypeInfo,
traits::{self, AtLeast32BitUnsigned, BlockNumber, Hash as HashT, MaybeDisplay, Member},
};
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
use sp_core::U256;
#[derive(Encode, Decode, PartialEq, Eq, Clone, sp_core::RuntimeDebug, TypeInfo)]
#[scale_info(skip_type_params(Hash))]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
#[cfg_attr(feature = "serde", serde(rename_all = "camelCase"))]
#[cfg_attr(feature = "serde", serde(deny_unknown_fields))]
pub struct Header<Number: Copy + Into<U256> + TryFrom<U256>, Hash: HashT> {
pub parent_hash: Hash::Output,
#[cfg_attr(
feature = "serde",
serde(serialize_with = "serialize_number", deserialize_with = "deserialize_number")
)]
#[codec(compact)]
pub number: Number,
pub state_root: Hash::Output,
pub extrinsics_root: Hash::Output,
pub digest: Digest,
}
#[cfg(feature = "serde")]
pub fn serialize_number<S, T: Copy + Into<U256> + TryFrom<U256>>(
val: &T,
s: S,
) -> Result<S::Ok, S::Error>
where
S: serde::Serializer,
{
let u256: U256 = (*val).into();
serde::Serialize::serialize(&u256, s)
}
#[cfg(feature = "serde")]
pub fn deserialize_number<'a, D, T: Copy + Into<U256> + TryFrom<U256>>(d: D) -> Result<T, D::Error>
where
D: serde::Deserializer<'a>,
{
let u256: U256 = serde::Deserialize::deserialize(d)?;
TryFrom::try_from(u256).map_err(|_| serde::de::Error::custom("Try from failed"))
}
impl<Number, Hash> traits::Header for Header<Number, Hash>
where
Number: BlockNumber,
Hash: HashT,
{
type Number = Number;
type Hash = <Hash as HashT>::Output;
type Hashing = Hash;
fn new(
number: Self::Number,
extrinsics_root: Self::Hash,
state_root: Self::Hash,
parent_hash: Self::Hash,
digest: Digest,
) -> Self {
Self { number, extrinsics_root, state_root, parent_hash, digest }
}
fn number(&self) -> &Self::Number {
&self.number
}
fn set_number(&mut self, num: Self::Number) {
self.number = num
}
fn extrinsics_root(&self) -> &Self::Hash {
&self.extrinsics_root
}
fn set_extrinsics_root(&mut self, root: Self::Hash) {
self.extrinsics_root = root
}
fn state_root(&self) -> &Self::Hash {
&self.state_root
}
fn set_state_root(&mut self, root: Self::Hash) {
self.state_root = root
}
fn parent_hash(&self) -> &Self::Hash {
&self.parent_hash
}
fn set_parent_hash(&mut self, hash: Self::Hash) {
self.parent_hash = hash
}
fn digest(&self) -> &Digest {
&self.digest
}
fn digest_mut(&mut self) -> &mut Digest {
#[cfg(feature = "std")]
log::debug!(target: "header", "Retrieving mutable reference to digest");
&mut self.digest
}
}
impl<Number, Hash> Header<Number, Hash>
where
Number: Member
+ core::hash::Hash
+ Copy
+ MaybeDisplay
+ AtLeast32BitUnsigned
+ Codec
+ Into<U256>
+ TryFrom<U256>,
Hash: HashT,
{
pub fn hash(&self) -> Hash::Output {
Hash::hash_of(self)
}
}
#[cfg(all(test, feature = "std"))]
mod tests {
use super::*;
use crate::traits::BlakeTwo256;
#[test]
fn should_serialize_numbers() {
fn serialize(num: u128) -> String {
let mut v = vec![];
{
let mut ser = serde_json::Serializer::new(std::io::Cursor::new(&mut v));
serialize_number(&num, &mut ser).unwrap();
}
String::from_utf8(v).unwrap()
}
assert_eq!(serialize(0), "\"0x0\"".to_owned());
assert_eq!(serialize(1), "\"0x1\"".to_owned());
assert_eq!(serialize(u64::MAX as u128), "\"0xffffffffffffffff\"".to_owned());
assert_eq!(serialize(u64::MAX as u128 + 1), "\"0x10000000000000000\"".to_owned());
}
#[test]
fn should_deserialize_number() {
fn deserialize(num: &str) -> u128 {
let mut der = serde_json::Deserializer::new(serde_json::de::StrRead::new(num));
deserialize_number(&mut der).unwrap()
}
assert_eq!(deserialize("\"0x0\""), 0);
assert_eq!(deserialize("\"0x1\""), 1);
assert_eq!(deserialize("\"0xffffffffffffffff\""), u64::MAX as u128);
assert_eq!(deserialize("\"0x10000000000000000\""), u64::MAX as u128 + 1);
}
#[test]
fn ensure_format_is_unchanged() {
let header = Header::<u32, BlakeTwo256> {
parent_hash: BlakeTwo256::hash(b"1"),
number: 2,
state_root: BlakeTwo256::hash(b"3"),
extrinsics_root: BlakeTwo256::hash(b"4"),
digest: crate::generic::Digest {
logs: vec![crate::generic::DigestItem::Other(b"6".to_vec())],
},
};
let header_encoded = header.encode();
assert_eq!(
header_encoded,
vec![
146, 205, 245, 120, 196, 112, 133, 165, 153, 34, 86, 240, 220, 249, 125, 11, 25,
241, 241, 201, 222, 77, 95, 227, 12, 58, 206, 97, 145, 182, 229, 219, 8, 88, 19,
72, 51, 123, 15, 62, 20, 134, 32, 23, 61, 170, 165, 249, 77, 0, 216, 129, 112, 93,
203, 240, 170, 131, 239, 218, 186, 97, 210, 237, 225, 235, 134, 73, 33, 73, 151,
87, 78, 32, 196, 100, 56, 138, 23, 36, 32, 210, 84, 3, 104, 43, 187, 184, 12, 73,
104, 49, 200, 204, 31, 143, 13, 4, 0, 4, 54
],
);
assert_eq!(header, Header::<u32, BlakeTwo256>::decode(&mut &header_encoded[..]).unwrap());
let header = Header::<u32, BlakeTwo256> {
parent_hash: BlakeTwo256::hash(b"1000"),
number: 2000,
state_root: BlakeTwo256::hash(b"3000"),
extrinsics_root: BlakeTwo256::hash(b"4000"),
digest: crate::generic::Digest {
logs: vec![crate::generic::DigestItem::Other(b"5000".to_vec())],
},
};
let header_encoded = header.encode();
assert_eq!(
header_encoded,
vec![
197, 243, 254, 225, 31, 117, 21, 218, 179, 213, 92, 6, 247, 164, 230, 25, 47, 166,
140, 117, 142, 159, 195, 202, 67, 196, 238, 26, 44, 18, 33, 92, 65, 31, 219, 225,
47, 12, 107, 88, 153, 146, 55, 21, 226, 186, 110, 48, 167, 187, 67, 183, 228, 232,
118, 136, 30, 254, 11, 87, 48, 112, 7, 97, 31, 82, 146, 110, 96, 87, 152, 68, 98,
162, 227, 222, 78, 14, 244, 194, 120, 154, 112, 97, 222, 144, 174, 101, 220, 44,
111, 126, 54, 34, 155, 220, 253, 124, 4, 0, 16, 53, 48, 48, 48
],
);
assert_eq!(header, Header::<u32, BlakeTwo256>::decode(&mut &header_encoded[..]).unwrap());
}
}