forked from DecentralizedClimateFoundation/DCIPs
95 lines
3.5 KiB
Python
95 lines
3.5 KiB
Python
from typing import Any, Sequence, Set, Union as PyUnion
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from hashlib import sha256
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from remerkleable.basic import uint64
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from remerkleable.byte_arrays import Bytes32
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from remerkleable.core import Path
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from remerkleable.tree import Gindex as GeneralizedIndex, gindex_bit_iter
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SSZVariableName = str
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class Root(Bytes32):
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pass
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def floorlog2(x: int) -> uint64:
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if x < 1:
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raise ValueError(f"floorlog2 accepts only positive values, x={x}")
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return uint64(x.bit_length() - 1)
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def get_generalized_index(ssz_class: Any, *path: Sequence[PyUnion[int, SSZVariableName]]) -> GeneralizedIndex:
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ssz_path = Path(ssz_class)
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for item in path:
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ssz_path = ssz_path / item
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return GeneralizedIndex(ssz_path.gindex())
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def build_proof(anchor, leaf_index):
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if leaf_index <= 1:
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return [] # Nothing to prove / invalid index
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node = anchor
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proof = []
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# Walk down, top to bottom to the leaf
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bit_iter, _ = gindex_bit_iter(leaf_index)
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for bit in bit_iter:
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# Always take the opposite hand for the proof.
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# 1 = right as leaf, thus get left
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if bit:
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proof.append(node.get_left().merkle_root())
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node = node.get_right()
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else:
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proof.append(node.get_right().merkle_root())
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node = node.get_left()
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return list(reversed(proof))
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def hash(x: PyUnion[bytes, bytearray, memoryview]) -> Bytes32:
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return Bytes32(sha256(x).digest())
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def generalized_index_parent(index: GeneralizedIndex) -> GeneralizedIndex:
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return GeneralizedIndex(index // 2)
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def generalized_index_sibling(index: GeneralizedIndex) -> GeneralizedIndex:
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return GeneralizedIndex(index ^ 1)
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def get_branch_indices(tree_index: GeneralizedIndex) -> Sequence[GeneralizedIndex]:
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o = [generalized_index_sibling(tree_index)]
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while o[-1] > 1:
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o.append(generalized_index_sibling(generalized_index_parent(o[-1])))
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return o[:-1]
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def get_path_indices(tree_index: GeneralizedIndex) -> Sequence[GeneralizedIndex]:
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o = [tree_index]
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while o[-1] > 1:
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o.append(generalized_index_parent(o[-1]))
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return o[:-1]
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def get_helper_indices(indices: Sequence[GeneralizedIndex]) -> Sequence[GeneralizedIndex]:
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all_helper_indices: Set[GeneralizedIndex] = set()
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all_path_indices: Set[GeneralizedIndex] = set()
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for index in indices:
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all_helper_indices = all_helper_indices.union(set(get_branch_indices(index)))
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all_path_indices = all_path_indices.union(set(get_path_indices(index)))
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return sorted(all_helper_indices.difference(all_path_indices), reverse=True)
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def calculate_multi_merkle_root(leaves: Sequence[Bytes32],
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proof: Sequence[Bytes32],
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indices: Sequence[GeneralizedIndex],
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helper_indices: Sequence[GeneralizedIndex]) -> Root:
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assert len(leaves) == len(indices)
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assert len(proof) == len(helper_indices)
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objects = {
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**{index: Bytes32(node) for index, node in zip(indices, leaves)},
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**{index: Bytes32(node) for index, node in zip(helper_indices, proof)}
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}
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keys = sorted(objects.keys(), reverse=True)
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pos = 0
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while pos < len(keys):
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k = keys[pos]
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if k in objects and k ^ 1 in objects and k // 2 not in objects:
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objects[GeneralizedIndex(k // 2)] = hash(
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objects[GeneralizedIndex((k | 1) ^ 1)] +
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objects[GeneralizedIndex(k | 1)]
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)
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keys.append(GeneralizedIndex(k // 2))
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pos += 1
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return objects[GeneralizedIndex(1)]
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