lighthouse/consensus/ssz/tests/tests.rs

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use ethereum_types::H256;
use ssz::{Decode, DecodeError, Encode};
use ssz_derive::{Decode, Encode};
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mod round_trip {
use super::*;
use std::collections::BTreeMap;
use std::iter::FromIterator;
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fn round_trip<T: Encode + Decode + std::fmt::Debug + PartialEq>(items: Vec<T>) {
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for item in items {
let encoded = &item.as_ssz_bytes();
assert_eq!(item.ssz_bytes_len(), encoded.len());
assert_eq!(T::from_ssz_bytes(encoded), Ok(item));
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}
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}
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#[test]
fn bool() {
let items: Vec<bool> = vec![true, false];
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round_trip(items);
}
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#[test]
fn u8_array_4() {
let items: Vec<[u8; 4]> = vec![[0, 0, 0, 0], [1, 0, 0, 0], [1, 2, 3, 4], [1, 2, 0, 4]];
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round_trip(items);
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}
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#[test]
fn h256() {
let items: Vec<H256> = vec![H256::zero(), H256::from([1; 32]), H256::random()];
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round_trip(items);
}
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#[test]
fn vec_of_h256() {
let items: Vec<Vec<H256>> = vec![
vec![],
vec![H256::zero(), H256::from([1; 32]), H256::random()],
];
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round_trip(items);
}
#[test]
fn vec_u16() {
let items: Vec<Vec<u16>> = vec![
vec![],
vec![255],
vec![0, 1, 2],
vec![100; 64],
vec![255, 0, 255],
];
round_trip(items);
}
#[test]
fn vec_of_vec_u16() {
let items: Vec<Vec<Vec<u16>>> = vec![
vec![],
vec![vec![]],
vec![vec![1, 2, 3]],
vec![vec![], vec![]],
vec![vec![], vec![1, 2, 3]],
vec![vec![1, 2, 3], vec![1, 2, 3]],
vec![vec![1, 2, 3], vec![], vec![1, 2, 3]],
vec![vec![], vec![], vec![1, 2, 3]],
vec![vec![], vec![1], vec![1, 2, 3]],
vec![vec![], vec![1], vec![1, 2, 3]],
];
round_trip(items);
}
#[derive(Debug, PartialEq, Encode, Decode)]
struct FixedLen {
a: u16,
b: u64,
c: u32,
}
#[test]
#[allow(clippy::zero_prefixed_literal)]
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fn fixed_len_struct_encoding() {
let items: Vec<FixedLen> = vec![
FixedLen { a: 0, b: 0, c: 0 },
FixedLen { a: 1, b: 1, c: 1 },
FixedLen { a: 1, b: 0, c: 1 },
];
let expected_encodings = vec![
// | u16--| u64----------------------------| u32----------|
vec![00, 00, 00, 00, 00, 00, 00, 00, 00, 00, 00, 00, 00, 00],
vec![01, 00, 01, 00, 00, 00, 00, 00, 00, 00, 01, 00, 00, 00],
vec![01, 00, 00, 00, 00, 00, 00, 00, 00, 00, 01, 00, 00, 00],
];
for i in 0..items.len() {
assert_eq!(
items[i].as_ssz_bytes(),
expected_encodings[i],
"Failed on {}",
i
);
}
}
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#[test]
fn fixed_len_excess_bytes() {
let fixed = FixedLen { a: 1, b: 2, c: 3 };
let mut bytes = fixed.as_ssz_bytes();
bytes.append(&mut vec![0]);
assert_eq!(
FixedLen::from_ssz_bytes(&bytes),
Err(DecodeError::InvalidByteLength {
len: 15,
expected: 14,
})
);
}
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#[test]
fn vec_of_fixed_len_struct() {
let items: Vec<FixedLen> = vec![
FixedLen { a: 0, b: 0, c: 0 },
FixedLen { a: 1, b: 1, c: 1 },
FixedLen { a: 1, b: 0, c: 1 },
];
round_trip(items);
}
#[derive(Debug, PartialEq, Encode, Decode)]
struct VariableLen {
a: u16,
b: Vec<u16>,
c: u32,
}
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#[test]
#[allow(clippy::zero_prefixed_literal)]
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fn offset_into_fixed_bytes() {
let bytes = vec![
// 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
// | offset | u32 | variable
01, 00, 09, 00, 00, 00, 01, 00, 00, 00, 00, 00, 01, 00, 02, 00,
];
assert_eq!(
VariableLen::from_ssz_bytes(&bytes),
Err(DecodeError::OffsetIntoFixedPortion(9))
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);
}
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#[test]
fn variable_len_excess_bytes() {
let variable = VariableLen {
a: 1,
b: vec![2],
c: 3,
};
let mut bytes = variable.as_ssz_bytes();
bytes.append(&mut vec![0]);
// The error message triggered is not so helpful, it's caught by a side-effect. Just
// checking there is _some_ error is fine.
assert!(VariableLen::from_ssz_bytes(&bytes).is_err());
}
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#[test]
#[allow(clippy::zero_prefixed_literal)]
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fn first_offset_skips_byte() {
let bytes = vec![
// 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
// | offset | u32 | variable
01, 00, 11, 00, 00, 00, 01, 00, 00, 00, 00, 00, 01, 00, 02, 00,
];
assert_eq!(
VariableLen::from_ssz_bytes(&bytes),
Err(DecodeError::OffsetSkipsVariableBytes(11))
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);
}
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#[test]
#[allow(clippy::zero_prefixed_literal)]
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fn variable_len_struct_encoding() {
let items: Vec<VariableLen> = vec![
VariableLen {
a: 0,
b: vec![],
c: 0,
},
VariableLen {
a: 1,
b: vec![0],
c: 1,
},
VariableLen {
a: 1,
b: vec![0, 1, 2],
c: 1,
},
];
let expected_encodings = vec![
// 00..................................09
// | u16--| vec offset-----| u32------------| vec payload --------|
vec![00, 00, 10, 00, 00, 00, 00, 00, 00, 00],
vec![01, 00, 10, 00, 00, 00, 01, 00, 00, 00, 00, 00],
vec![
01, 00, 10, 00, 00, 00, 01, 00, 00, 00, 00, 00, 01, 00, 02, 00,
],
];
for i in 0..items.len() {
assert_eq!(
items[i].as_ssz_bytes(),
expected_encodings[i],
"Failed on {}",
i
);
}
}
#[test]
fn vec_of_variable_len_struct() {
let items: Vec<VariableLen> = vec![
VariableLen {
a: 0,
b: vec![],
c: 0,
},
VariableLen {
a: 255,
b: vec![0, 1, 2, 3],
c: 99,
},
VariableLen {
a: 255,
b: vec![0],
c: 99,
},
VariableLen {
a: 50,
b: vec![0],
c: 0,
},
];
round_trip(items);
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}
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#[derive(Debug, PartialEq, Encode, Decode)]
struct ThreeVariableLen {
a: u16,
b: Vec<u16>,
c: Vec<u16>,
d: Vec<u16>,
}
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#[test]
fn three_variable_len() {
let vec: Vec<ThreeVariableLen> = vec![ThreeVariableLen {
a: 42,
b: vec![0],
c: vec![1],
d: vec![2],
}];
round_trip(vec);
}
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#[test]
#[allow(clippy::zero_prefixed_literal)]
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fn offsets_decreasing() {
let bytes = vec![
// 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
// | offset | offset | offset | variable
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01, 00, 14, 00, 00, 00, 15, 00, 00, 00, 14, 00, 00, 00, 00, 00,
];
assert_eq!(
ThreeVariableLen::from_ssz_bytes(&bytes),
Err(DecodeError::OffsetsAreDecreasing(14))
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);
}
#[test]
fn tuple_u8_u16() {
let vec: Vec<(u8, u16)> = vec![
(0, 0),
(0, 1),
(1, 0),
(u8::max_value(), u16::max_value()),
(0, u16::max_value()),
(u8::max_value(), 0),
(42, 12301),
];
round_trip(vec);
}
#[test]
fn tuple_vec_vec() {
let vec: Vec<(u64, Vec<u8>, Vec<Vec<u16>>)> = vec![
(0, vec![], vec![vec![]]),
(99, vec![101], vec![vec![], vec![]]),
(
42,
vec![12, 13, 14],
vec![vec![99, 98, 97, 96], vec![42, 44, 46, 48, 50]],
),
];
round_trip(vec);
}
#[test]
fn btree_map_fixed() {
let data = vec![
BTreeMap::new(),
BTreeMap::from_iter(vec![(0u8, 0u16), (1, 2), (2, 4), (4, 6)]),
];
round_trip(data);
}
#[test]
fn btree_map_variable_value() {
let data = vec![
BTreeMap::new(),
BTreeMap::from_iter(vec![
(
0u64,
ThreeVariableLen {
a: 1,
b: vec![3, 5, 7],
c: vec![],
d: vec![0, 0],
},
),
(
1,
ThreeVariableLen {
a: 99,
b: vec![1],
c: vec![2, 3, 4, 5, 6, 7, 8, 9, 10],
d: vec![4, 5, 6, 7, 8],
},
),
(
2,
ThreeVariableLen {
a: 0,
b: vec![],
c: vec![],
d: vec![],
},
),
]),
];
round_trip(data);
}
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}
Implement SSZ union type (#2579) ## Issue Addressed NA ## Proposed Changes Implements the "union" type from the SSZ spec for `ssz`, `ssz_derive`, `tree_hash` and `tree_hash_derive` so it may be derived for `enums`: https://github.com/ethereum/consensus-specs/blob/v1.1.0-beta.3/ssz/simple-serialize.md#union The union type is required for the merge, since the `Transaction` type is defined as a single-variant union `Union[OpaqueTransaction]`. ### Crate Updates This PR will (hopefully) cause CI to publish new versions for the following crates: - `eth2_ssz_derive`: `0.2.1` -> `0.3.0` - `eth2_ssz`: `0.3.0` -> `0.4.0` - `eth2_ssz_types`: `0.2.0` -> `0.2.1` - `tree_hash`: `0.3.0` -> `0.4.0` - `tree_hash_derive`: `0.3.0` -> `0.4.0` These these crates depend on each other, I've had to add a workspace-level `[patch]` for these crates. A follow-up PR will need to remove this patch, ones the new versions are published. ### Union Behaviors We already had SSZ `Encode` and `TreeHash` derive for enums, however it just did a "transparent" pass-through of the inner value. Since the "union" decoding from the spec is in conflict with the transparent method, I've required that all `enum` have exactly one of the following enum-level attributes: #### SSZ - `#[ssz(enum_behaviour = "union")]` - matches the spec used for the merge - `#[ssz(enum_behaviour = "transparent")]` - maintains existing functionality - not supported for `Decode` (never was) #### TreeHash - `#[tree_hash(enum_behaviour = "union")]` - matches the spec used for the merge - `#[tree_hash(enum_behaviour = "transparent")]` - maintains existing functionality This means that we can maintain the existing transparent behaviour, but all existing users will get a compile-time error until they explicitly opt-in to being transparent. ### Legacy Option Encoding Before this PR, we already had a union-esque encoding for `Option<T>`. However, this was with the *old* SSZ spec where the union selector was 4 bytes. During merge specification, the spec was changed to use 1 byte for the selector. Whilst the 4-byte `Option` encoding was never used in the spec, we used it in our database. Writing a migrate script for all occurrences of `Option` in the database would be painful, especially since it's used in the `CommitteeCache`. To avoid the migrate script, I added a serde-esque `#[ssz(with = "module")]` field-level attribute to `ssz_derive` so that we can opt into the 4-byte encoding on a field-by-field basis. The `ssz::legacy::four_byte_impl!` macro allows a one-liner to define the module required for the `#[ssz(with = "module")]` for some `Option<T> where T: Encode + Decode`. Notably, **I have removed `Encode` and `Decode` impls for `Option`**. I've done this to force a break on downstream users. Like I mentioned, `Option` isn't used in the spec so I don't think it'll be *that* annoying. I think it's nicer than quietly having two different union implementations or quietly breaking the existing `Option` impl. ### Crate Publish Ordering I've modified the order in which CI publishes crates to ensure that we don't publish a crate without ensuring we already published a crate that it depends upon. ## TODO - [ ] Queue a follow-up `[patch]`-removing PR.
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mod derive_macro {
use ssz::{Decode, Encode};
use ssz_derive::{Decode, Encode};
use std::fmt::Debug;
fn assert_encode<T: Encode>(item: &T, bytes: &[u8]) {
assert_eq!(item.as_ssz_bytes(), bytes);
}
fn assert_encode_decode<T: Encode + Decode + PartialEq + Debug>(item: &T, bytes: &[u8]) {
assert_encode(item, bytes);
assert_eq!(T::from_ssz_bytes(bytes).unwrap(), *item);
}
#[derive(PartialEq, Debug, Encode, Decode)]
#[ssz(enum_behaviour = "union")]
enum TwoFixedUnion {
U8(u8),
U16(u16),
}
#[derive(PartialEq, Debug, Encode, Decode)]
struct TwoFixedUnionStruct {
a: TwoFixedUnion,
}
#[test]
fn two_fixed_union() {
let eight = TwoFixedUnion::U8(1);
let sixteen = TwoFixedUnion::U16(1);
assert_encode_decode(&eight, &[0, 1]);
assert_encode_decode(&sixteen, &[1, 1, 0]);
assert_encode_decode(&TwoFixedUnionStruct { a: eight }, &[4, 0, 0, 0, 0, 1]);
assert_encode_decode(&TwoFixedUnionStruct { a: sixteen }, &[4, 0, 0, 0, 1, 1, 0]);
}
#[derive(PartialEq, Debug, Encode, Decode)]
struct VariableA {
a: u8,
b: Vec<u8>,
}
#[derive(PartialEq, Debug, Encode, Decode)]
struct VariableB {
a: Vec<u8>,
b: u8,
}
#[derive(PartialEq, Debug, Encode)]
#[ssz(enum_behaviour = "transparent")]
enum TwoVariableTrans {
A(VariableA),
B(VariableB),
}
#[derive(PartialEq, Debug, Encode)]
struct TwoVariableTransStruct {
a: TwoVariableTrans,
}
#[derive(PartialEq, Debug, Encode, Decode)]
#[ssz(enum_behaviour = "union")]
enum TwoVariableUnion {
A(VariableA),
B(VariableB),
}
#[derive(PartialEq, Debug, Encode, Decode)]
struct TwoVariableUnionStruct {
a: TwoVariableUnion,
}
#[test]
fn two_variable_trans() {
let trans_a = TwoVariableTrans::A(VariableA {
a: 1,
b: vec![2, 3],
});
let trans_b = TwoVariableTrans::B(VariableB {
a: vec![1, 2],
b: 3,
});
assert_encode(&trans_a, &[1, 5, 0, 0, 0, 2, 3]);
assert_encode(&trans_b, &[5, 0, 0, 0, 3, 1, 2]);
assert_encode(
&TwoVariableTransStruct { a: trans_a },
&[4, 0, 0, 0, 1, 5, 0, 0, 0, 2, 3],
);
assert_encode(
&TwoVariableTransStruct { a: trans_b },
&[4, 0, 0, 0, 5, 0, 0, 0, 3, 1, 2],
);
}
#[test]
fn two_variable_union() {
let union_a = TwoVariableUnion::A(VariableA {
a: 1,
b: vec![2, 3],
});
let union_b = TwoVariableUnion::B(VariableB {
a: vec![1, 2],
b: 3,
});
assert_encode_decode(&union_a, &[0, 1, 5, 0, 0, 0, 2, 3]);
assert_encode_decode(&union_b, &[1, 5, 0, 0, 0, 3, 1, 2]);
assert_encode_decode(
&TwoVariableUnionStruct { a: union_a },
&[4, 0, 0, 0, 0, 1, 5, 0, 0, 0, 2, 3],
);
assert_encode_decode(
&TwoVariableUnionStruct { a: union_b },
&[4, 0, 0, 0, 1, 5, 0, 0, 0, 3, 1, 2],
);
}
#[derive(PartialEq, Debug, Encode, Decode)]
#[ssz(enum_behaviour = "union")]
enum TwoVecUnion {
A(Vec<u8>),
B(Vec<u8>),
}
#[test]
fn two_vec_union() {
assert_encode_decode(&TwoVecUnion::A(vec![]), &[0]);
assert_encode_decode(&TwoVecUnion::B(vec![]), &[1]);
assert_encode_decode(&TwoVecUnion::A(vec![0]), &[0, 0]);
assert_encode_decode(&TwoVecUnion::B(vec![0]), &[1, 0]);
assert_encode_decode(&TwoVecUnion::A(vec![0, 1]), &[0, 0, 1]);
assert_encode_decode(&TwoVecUnion::B(vec![0, 1]), &[1, 0, 1]);
}
}