mirror of
https://github.com/0glabs/0g-storage-node.git
synced 2024-11-20 15:05:19 +00:00
16dfc56437
* Test mining with the simple market * Support reward donation
262 lines
6.8 KiB
Python
262 lines
6.8 KiB
Python
import sha3
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from math import log2
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from utility.spec import ENTRY_SIZE
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def decompose(num):
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powers = []
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while num > 0:
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power = int(log2(num))
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powers += [power]
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num -= 1 << power
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return powers
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def add_0x_prefix(val):
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return "0x" + val
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class Hasher:
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def __init__(self, algorithm="keccak_256", encoding="utf-8", security=False):
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self.algorithm = algorithm
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self.security = security
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self.encoding = encoding
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if security:
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self.prefix00 = "\x00".encode(encoding)
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self.prefix01 = "\x01".encode(encoding)
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else:
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self.prefix00 = bytes()
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self.prefix01 = bytes()
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def _hasher(self):
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if self.algorithm == "keccak_256":
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return sha3.keccak_256()
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else:
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raise NotImplementedError
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def hash_data(self, data):
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buff = self.prefix00 + (
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data if isinstance(data, bytes) else data.encode(self.encoding)
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)
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hasher = self._hasher()
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hasher.update(buff)
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return hasher.hexdigest().encode(self.encoding)
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def hash_pair(self, left, right):
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buff = (
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self.prefix01
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+ bytes.fromhex(left.decode("utf-8"))
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+ bytes.fromhex(right.decode("utf-8"))
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)
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hasher = self._hasher()
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hasher.update(buff)
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return hasher.hexdigest().encode(self.encoding)
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class Node:
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__slots__ = ("__value", "__parent", "__left", "__right")
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def __init__(self, value, parent=None, left=None, right=None):
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self.__value = value
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self.__parent = parent
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self.__left = left
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self.__right = right
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if left:
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left.__parent = self
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if right:
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right.__parent = self
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@property
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def value(self):
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return self.__value
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@property
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def left(self):
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return self.__left
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@property
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def right(self):
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return self.__right
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@property
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def parent(self):
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return self.__parent
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def set_left(self, node):
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self.__left = node
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def set_right(self, node):
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self.__right = node
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def set_parent(self, node):
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self.__parent = node
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def is_left_child(self):
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parent = self.__parent
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if not parent:
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return False
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return self == parent.left
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def is_right_child(self):
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parent = self.__parent
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if not parent:
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return False
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return self == parent.right
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def is_leaf(self):
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return isinstance(self, Leaf)
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@classmethod
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def from_children(cls, left, right, hasher):
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digest = hasher.hash_pair(left.__value, right.__value)
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return cls(value=digest, left=left, right=right, parent=None)
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def ancestor(self, degree):
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if degree == 0:
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return self
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if not self.__parent:
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return
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return self.__parent.ancestor(degree - 1)
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def recalculate_hash(self, hasher):
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self.__value = hasher.hash_pair(self.left.value, self.right.value)
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class Leaf(Node):
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def __init__(self, value, leaf=None):
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super().__init__(value)
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@classmethod
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def from_data(cls, data, hasher):
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return cls(hasher.hash_data(data), leaf=None)
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class MerkleTree:
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def __init__(self, encoding="utf-8"):
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self.__root = None
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self.__leaves = []
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self.encoding = encoding
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self.hasher = Hasher(encoding=encoding)
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def __bool__(self):
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return len(self.__leaves) != 0
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def encrypt(self, data):
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leaf = Leaf.from_data(data, self.hasher)
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self.add_leaf(leaf)
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@classmethod
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def from_data_list(cls, data, encoding="utf-8"):
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tree = cls(encoding)
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n = len(data)
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if n < ENTRY_SIZE or (n & (n - 1)) != 0:
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raise Exception("Input length is not power of 2")
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leaves = [Leaf.from_data(data[i:i + ENTRY_SIZE], tree.hasher) for i in range(0, n, ENTRY_SIZE)]
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tree.__leaves = leaves
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nodes = leaves
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while len(nodes) > 1:
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next_nodes = []
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for i in range(0, len(nodes), 2):
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next_nodes.append(Node.from_children(nodes[i], nodes[i+1], tree.hasher))
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nodes = next_nodes
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tree.__root = nodes[0]
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return tree
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def add_leaf(self, leaf):
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if self:
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subroot = self.get_last_subroot()
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self._append_leaf(leaf)
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if not subroot.parent:
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# Increase height by one
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self.__root = Node.from_children(subroot, leaf, self.hasher)
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else:
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parent = subroot.parent
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# Create bifurcation node
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new_node = Node.from_children(subroot, leaf, self.hasher)
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# Interject bifurcation node
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parent.set_right(new_node)
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new_node.set_parent(parent)
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# Recalculate hashes only at the rightmost branch of the tree
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curr = parent
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while curr:
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curr.recalculate_hash(self.hasher)
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curr = curr.parent
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else:
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self._append_leaf(leaf)
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self.__root = leaf
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def get_last_subroot(self):
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if not self.__leaves:
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raise ValueError
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last_power = decompose(len(self.__leaves))[-1]
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return self.get_tail().ancestor(degree=last_power)
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def get_tail(self):
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return self.__leaves[-1]
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def _append_leaf(self, leaf):
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self.__leaves.append(leaf)
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def get_root_hash(self):
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if not self.__root:
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return
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return self.__root.value
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def decode_value(self, val):
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return val.decode(self.encoding)
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def proof_at(self, i):
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if i < 0 or i >= len(self.__leaves):
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raise IndexError
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if len(self.__leaves) == 1:
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return {
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"lemma": [add_0x_prefix(self.decode_value(self.get_root_hash()))],
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"path": [],
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}
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proof = {"lemma": [], "path": []}
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proof["lemma"].append(add_0x_prefix(self.decode_value(self.__leaves[i].value)))
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current = self.__leaves[i]
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while current != self.__root:
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if current.parent != None and current.parent.left == current:
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# add right
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proof["lemma"].append(
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add_0x_prefix(self.decode_value(current.parent.right.value))
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)
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proof["path"].append(True)
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else:
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# add left
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proof["lemma"].append(
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add_0x_prefix(self.decode_value(current.parent.left.value))
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)
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proof["path"].append(False)
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current = current.parent
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# add root
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proof["lemma"].append(add_0x_prefix(self.decode_value(self.get_root_hash())))
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return proof
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