def TwoHundredThirtyFiveTest(rpc: RPC) -> None: blockchain: Blockchain = Blockchain() dataFilter: SpamFilter = SpamFilter(5) edPrivKey: ed25519.SigningKey = ed25519.SigningKey(b'\0' * 32) edPubKey: ed25519.VerifyingKey = edPrivKey.get_verifying_key() #Mine one Block to the node. blsPrivKey: PrivateKey = PrivateKey( bytes.fromhex(rpc.call("personal", "getMiner"))) blsPubKey: bytes = blsPrivKey.toPublicKey().serialize() #Call getBlockTemplate just to get an ID. #Skips the need to write a sync loop for the BlockBody. template: Dict[str, Any] = rpc.call("merit", "getBlockTemplate", [blsPubKey.hex()]) #Mine a Block. block = Block( BlockHeader(0, blockchain.blocks[0].header.hash, bytes(32), 1, bytes(4), bytes(32), blsPubKey, blockchain.blocks[0].header.time + 1200, 0), BlockBody()) block.mine(blsPrivKey, blockchain.difficulty()) blockchain.add(block) rpc.call("merit", "publishBlock", [template["id"], block.serialize().hex()]) #Send Meros a Data and receive its Verification to make sure it's verifying Transactions in the first place. data: Data = Data(bytes(32), edPubKey.to_bytes()) data.sign(edPrivKey) data.beat(dataFilter) rpc.meros.liveConnect(blockchain.blocks[0].header.hash) if rpc.meros.liveTransaction(data) != rpc.meros.live.recv(): raise TestError("Meros didn't send back the Data.") if MessageType(rpc.meros.live.recv()[0]) != MessageType.SignedVerification: raise TestError("Meros didn't send us its SignedVerification.") #Close our connection and mine 8 Blocks so its Merit is locked. rpc.meros.live.connection.close() for _ in range(8): block = Block( BlockHeader(0, blockchain.blocks[-1].header.hash, bytes(32), 1, bytes(4), bytes(32), 0, blockchain.blocks[-1].header.time + 1200, 0), BlockBody()) #Reusing its key is fine as mining doesn't count as participation. block.mine(blsPrivKey, blockchain.difficulty()) blockchain.add(block) #Sleep 30 seconds to make sure Meros noted we disconnected, and then reconnect. sleep(30) rpc.meros.liveConnect(blockchain.blocks[0].header.hash) rpc.meros.syncConnect(blockchain.blocks[0].header.hash) #Sync the Blocks. for b in range(8): header: bytes = rpc.meros.liveBlockHeader(blockchain.blocks[b + 2].header) if rpc.meros.sync.recv() != (MessageType.BlockBodyRequest.toByte() + blockchain.blocks[b + 2].header.hash): raise TestError("Meros didn't request the BlockBody.") rpc.meros.blockBody(blockchain.blocks[b + 2]) if rpc.meros.live.recv() != header: raise TestError("Meros didn't send back the header.") if MessageType( rpc.meros.live.recv()[0]) != MessageType.SignedVerification: raise TestError("Meros didn't verify this Block's data.") #Verify its Merit is locked. #Theoretically, all code after this check is unecessary. #Meros verifies a Block's Data after updating its State. #Therefore, if the above last Block had its Data verified, this issue should be closed. #That said, the timing is a bit too tight for comfort. #Better safe than sorry. Hence why the code after this check exists. if rpc.call("merit", "getMerit", [0])["status"] != "Locked": raise TestError("Merit wasn't locked when it was supposed to be.") #Send it a Transaction and make sure Meros verifies it, despite having its Merit locked. data = Data(data.hash, edPubKey.to_bytes()) data.sign(edPrivKey) data.beat(dataFilter) if rpc.meros.liveTransaction(data) != rpc.meros.live.recv(): raise TestError("Meros didn't send back the Data.") if MessageType(rpc.meros.live.recv()[0]) != MessageType.SignedVerification: raise TestError("Meros didn't send us its SignedVerification.")
def EightyEightTest( rpc: RPC ) -> None: edPrivKey: ed25519.SigningKey = ed25519.SigningKey(b'\0' * 32) edPubKey: ed25519.VerifyingKey = edPrivKey.get_verifying_key() blsPrivKey: PrivateKey = PrivateKey(0) blsPubKey: str = blsPrivKey.toPublicKey().serialize().hex() file: IO[Any] = open("e2e/Vectors/Merit/BlankBlocks.json", "r") blocks: List[Dict[str, Any]] = json.loads(file.read()) file.close() merit: Merit = Merit() dataFilter: SpamFilter = SpamFilter(5) #Handshake with the node. rpc.meros.liveConnect(merit.blockchain.blocks[0].header.hash) rpc.meros.syncConnect(merit.blockchain.blocks[0].header.hash) #Send the first Block. block: Block = Block.fromJSON(blocks[0]) merit.blockchain.add(block) rpc.meros.liveBlockHeader(block.header) #Handle sync requests. reqHash: bytes = bytes() while True: msg: bytes = rpc.meros.sync.recv() if MessageType(msg[0]) == MessageType.BlockBodyRequest: reqHash = msg[1 : 33] if reqHash != block.header.hash: raise TestError("Meros asked for a Block Body that didn't belong to the Block we just sent it.") #Send the BlockBody. rpc.meros.blockBody(block) break else: raise TestError("Unexpected message sent: " + msg.hex().upper()) if MessageType(rpc.meros.live.recv()[0]) != MessageType.BlockHeader: raise TestError("Meros didn't broadcast the Block Header it just added.") #Create two Datas. datas: List[Data] = [Data(bytes(32), edPubKey.to_bytes())] datas.append(Data(datas[0].hash, b"Hello there! General Kenobi.")) for data in datas: #Sign them and have them beat the spam filter. data.sign(edPrivKey) data.beat(dataFilter) #Transmit them. rpc.meros.liveTransaction(data) #Verify both. verifs: List[SignedVerification] = [ SignedVerification(datas[0].hash), SignedVerification(datas[1].hash) ] for verif in verifs: verif.sign(0, blsPrivKey) #Only transmit the second. rpc.meros.signedElement(verifs[1]) sleep(0.5) #Verify the block template has no verifications. if bytes.fromhex( rpc.call("merit", "getBlockTemplate", [blsPubKey])["header"] )[36 : 68] != bytes(32): raise TestError("Block template has Verification Packets.") #Transmit the first signed verification. rpc.meros.signedElement(verifs[0]) sleep(0.5) #Verify the block template has both verifications. template: Dict[str, Any] = rpc.call("merit", "getBlockTemplate", [blsPubKey]) template["header"] = bytes.fromhex(template["header"]) packets: List[VerificationPacket] = [VerificationPacket(datas[0].hash, [0]), VerificationPacket(datas[1].hash, [0])] if template["header"][36 : 68] != BlockHeader.createContents(packets): raise TestError("Block template doesn't have both Verification Packets.") #Mine the Block. block = Block( BlockHeader( 0, block.header.hash, BlockHeader.createContents(packets), 1, template["header"][-43 : -39], BlockHeader.createSketchCheck(template["header"][-43 : -39], packets), 0, int.from_bytes(template["header"][-4:], byteorder="little") ), BlockBody( packets, [], Signature.aggregate([verifs[0].signature, verifs[1].signature]) ) ) if block.header.serializeHash()[:-4] != template["header"]: raise TestError("Failed to recreate the header.") if block.body.serialize( block.header.sketchSalt, len(packets) ) != bytes.fromhex(template["body"]): raise TestError("Failed to recreate the body.") block.mine(blsPrivKey, merit.blockchain.difficulty()) merit.blockchain.add(block) rpc.call( "merit", "publishBlock", [ template["id"], ( template["header"] + block.header.proof.to_bytes(4, byteorder="little") + block.header.signature + block.body.serialize(block.header.sketchSalt, len(packets)) ).hex() ] ) verifyBlockchain(rpc, merit.blockchain)
def finish(self, keepUnlocked: int, existing: Merit) -> Block: genesis: bytes = existing.blockchain.genesis prev: BlockHeader = existing.blockchain.blocks[-1].header diff: int = existing.blockchain.difficulty() #Create the signatures for every packet/element. signatures: List[Signature] = [] for packet in self.packets: for holder in packet.holders: verif: SignedVerification = SignedVerification( packet.hash, holder) verif.sign(holder, PrivateKey(holder)) signatures.append(verif.signature) for element in self.elements: signatures.append(signElement(element)) #Only add the Data Verification if: #1) We're supposed to make sure Merit Holders are always Unlocked #2) The last Block created a Data #3) The Merit Holder has Merit. if (keepUnlocked != 0) and (prev.last != genesis): #Create the Data from the last Block. blockData: Data = Data(genesis, prev.hash) #Create Verifications for said Data with every Private Key. #Ensures no one has their Merit locked. #pylint: disable=unnecessary-comprehension self.packets.append(VerificationPacket(blockData.hash, [])) for i in range(keepUnlocked): if ( #Miners who are just being created don't have Merit. ((i == (keepUnlocked - 1)) and (isinstance(self.minerID, PrivateKey))) or (existing.state.balances[i] == 0)): continue self.packets[-1].holders.append(i) verif: SignedVerification = SignedVerification( blockData.hash, i) verif.sign(i, PrivateKey(i)) signatures.append(verif.signature) #Remove this packet if there's no holders. if not self.packets[-1].holders: del self.packets[-1] #Set the aggregate. aggregate = Signature.aggregate(signatures) #Create the actual Block. minerID: Union[bytes, int] = 0 if isinstance(self.minerID, int): minerID = self.minerID else: minerID = self.minerID.toPublicKey().serialize() result: Block = Block( BlockHeader( 0, prev.hash, BlockHeader.createContents(self.packets, self.elements), len(self.packets), bytes(4), BlockHeader.createSketchCheck(bytes(4), self.packets), minerID, self.time), BlockBody(self.packets, self.elements, aggregate)) if isinstance(self.minerID, int): result.mine(PrivateKey(self.minerID), diff) else: result.mine(self.minerID, diff) return result
def HundredFiftyFiveTest(rpc: RPC) -> None: edPrivKeys: List[ed25519.SigningKey] = [ ed25519.SigningKey(b'\0' * 32), ed25519.SigningKey(b'\1' * 32) ] edPubKeys: List[ed25519.VerifyingKey] = [ edPrivKeys[0].get_verifying_key(), edPrivKeys[1].get_verifying_key() ] blsPrivKey: PrivateKey = PrivateKey( bytes.fromhex(rpc.call("personal", "getMiner"))) blsPubKey: bytes = blsPrivKey.toPublicKey().serialize() blockchain: Blockchain = Blockchain() dataFilter: SpamFilter = SpamFilter(5) #Handshake with the node. rpc.meros.liveConnect(blockchain.blocks[0].header.hash) rpc.meros.syncConnect(blockchain.blocks[0].header.hash) #Call getBlockTemplate just to get an ID. #Skips the need to write a sync loop for the BlockBody. template: Dict[str, Any] = rpc.call("merit", "getBlockTemplate", [blsPubKey.hex()]) #Mine a Block. block = Block( BlockHeader(0, blockchain.blocks[0].header.hash, bytes(32), 1, bytes(4), bytes(32), blsPubKey, blockchain.blocks[0].header.time + 1200, 0), BlockBody()) block.mine(blsPrivKey, blockchain.difficulty()) blockchain.add(block) rpc.call("merit", "publishBlock", [template["id"], block.serialize().hex()]) if MessageType(rpc.meros.live.recv()[0]) != MessageType.BlockHeader: raise TestError("Meros didn't broadcast the Block we just published.") #Ignore the Verification for the Block's Data. if MessageType(rpc.meros.live.recv()[0]) != MessageType.SignedVerification: raise TestError( "Meros didn't send the SignedVerification for the Block's Data.") datas: List[Data] = [ Data(bytes(32), edPubKeys[0].to_bytes()), Data(bytes(32), edPubKeys[1].to_bytes()) ] for d in range(len(datas)): datas[d].sign(edPrivKeys[d]) datas[d].beat(dataFilter) #Send the Data and verify Meros sends it back. if rpc.meros.liveTransaction(datas[d]) != rpc.meros.live.recv(): raise TestError("Meros didn't send back the Data.") #Verify Meros sends back a Verification. res: bytes = rpc.meros.live.recv() if MessageType(res[0]) != MessageType.SignedVerification: raise TestError("Meros didn't send a SignedVerification.") verif: SignedVerification = SignedVerification(datas[d].hash) verif.sign(0, blsPrivKey) if res[1:] != verif.signedSerialize(): raise TestError( "Meros didn't send the correct SignedVerification.")
def TElementTest( rpc: RPC ) -> None: file: IO[Any] = open("e2e/Vectors/Merit/BlankBlocks.json", "r") blocks: List[Dict[str, Any]] = json.loads(file.read()) file.close() merit: Merit = Merit() blsPrivKey: PrivateKey = PrivateKey(0) blsPubKey: str = blsPrivKey.toPublicKey().serialize().hex() #Handshake with the node. rpc.meros.liveConnect(merit.blockchain.blocks[0].header.hash) rpc.meros.syncConnect(merit.blockchain.blocks[0].header.hash) #Send the first Block. block: Block = Block.fromJSON(blocks[0]) merit.blockchain.add(block) rpc.meros.liveBlockHeader(block.header) #Handle sync requests. reqHash: bytes = bytes() while True: msg: bytes = rpc.meros.sync.recv() if MessageType(msg[0]) == MessageType.BlockBodyRequest: reqHash = msg[1 : 33] if reqHash != block.header.hash: raise TestError("Meros asked for a Block Body that didn't belong to the Block we just sent it.") rpc.meros.blockBody(block) break else: raise TestError("Unexpected message sent: " + msg.hex().upper()) if MessageType(rpc.meros.live.recv()[0]) != MessageType.BlockHeader: raise TestError("Meros didn't broadcast the Block Header it just added.") #Create and transmit a DataDifficulty. dataDiff: SignedDataDifficulty = SignedDataDifficulty(0, 0, 0) dataDiff.sign(0, blsPrivKey) rpc.meros.signedElement(dataDiff) sleep(0.5) #Verify the block template has the DataDifficulty. template: Dict[str, Any] = rpc.call("merit", "getBlockTemplate", [blsPubKey]) template["header"] = bytes.fromhex(template["header"]) if template["header"][36 : 68] != BlockHeader.createContents([], [dataDiff]): raise TestError("Block template doesn't have the Data Difficulty.") #Mine the Block. block = Block( BlockHeader( 0, block.header.hash, BlockHeader.createContents([], [dataDiff]), 1, template["header"][-43 : -39], BlockHeader.createSketchCheck(template["header"][-43 : -39], []), 0, int.from_bytes(template["header"][-4:], byteorder="little"), ), BlockBody([], [dataDiff], dataDiff.signature) ) if block.header.serializeHash()[:-4] != template["header"]: raise TestError("Failed to recreate the header.") if block.body.serialize(block.header.sketchSalt) != bytes.fromhex(template["body"]): raise TestError("Failed to recreate the body.") block.mine(blsPrivKey, merit.blockchain.difficulty()) merit.blockchain.add(block) #Publish it. rpc.call( "merit", "publishBlock", [ template["id"], ( template["header"] + block.header.proof.to_bytes(4, byteorder="little") + block.header.signature + block.body.serialize(block.header.sketchSalt) ).hex() ] ) #Create and transmit a new DataDifficulty. dataDiff = SignedDataDifficulty(3, 1, 0) dataDiff.sign(0, blsPrivKey) rpc.meros.signedElement(dataDiff) sleep(0.5) #Verify the block template has the DataDifficulty. template = rpc.call("merit", "getBlockTemplate", [blsPubKey]) template["header"] = bytes.fromhex(template["header"]) if template["header"][36 : 68] != BlockHeader.createContents([], [dataDiff]): raise TestError("Block template doesn't have the new Data Difficulty.") #Create and transmit a new DataDifficulty reusing an existing nonce. signatures: List[Signature] = [dataDiff.signature] dataDiff = SignedDataDifficulty(4, 1, 0) dataDiff.sign(0, blsPrivKey) signatures.append(dataDiff.signature) rpc.meros.signedElement(dataDiff) sleep(0.5) #Verify the block template has a MeritRemoval. mr: MeritRemoval = MeritRemoval( SignedDataDifficulty(3, 1, 0), SignedDataDifficulty(4, 1, 0), False ) template = rpc.call("merit", "getBlockTemplate", [blsPubKey]) template["header"] = bytes.fromhex(template["header"]) if template["header"][36 : 68] != BlockHeader.createContents([], [mr]): raise TestError("Block template doesn't have the Merit Removal.") #Mine the Block. block = Block( BlockHeader( 0, block.header.hash, BlockHeader.createContents([], [mr]), 1, template["header"][-43 : -39], BlockHeader.createSketchCheck(template["header"][-43 : -39], []), 0, int.from_bytes(template["header"][-4:], byteorder="little") ), BlockBody([], [mr], Signature.aggregate(signatures)) ) if block.header.serializeHash()[:-4] != template["header"]: raise TestError("Failed to recreate the header.") if block.body.serialize(block.header.sketchSalt) != bytes.fromhex(template["body"]): raise TestError("Failed to recreate the body.") block.mine(blsPrivKey, merit.blockchain.difficulty()) merit.blockchain.add(block) rpc.call( "merit", "publishBlock", [ template["id"], ( template["header"] + block.header.proof.to_bytes(4, byteorder="little") + block.header.signature + block.body.serialize(block.header.sketchSalt) ).hex() ] ) verifyBlockchain(rpc, merit.blockchain)
def TElementTest(rpc: RPC) -> None: merit: Merit = Merit() blsPrivKey: PrivateKey = PrivateKey(0) blsPubKey: str = blsPrivKey.toPublicKey().serialize().hex() #Handshake with the node. rpc.meros.liveConnect(merit.blockchain.blocks[0].header.hash) rpc.meros.syncConnect(merit.blockchain.blocks[0].header.hash) #Send the first Block. block: Block with open("e2e/Vectors/Merit/BlankBlocks.json", "r") as file: block = Block.fromJSON(json.loads(file.read())[0]) merit.blockchain.add(block) rpc.meros.liveBlockHeader(block.header) rpc.meros.handleBlockBody(block) if MessageType(rpc.meros.live.recv()[0]) != MessageType.BlockHeader: raise TestError( "Meros didn't broadcast the Block Header it just added.") #Create and transmit a DataDifficulty. dataDiff: SignedDataDifficulty = SignedDataDifficulty(0, 0, 0) dataDiff.sign(0, blsPrivKey) rpc.meros.signedElement(dataDiff) sleep(1.5) #Verify the block template has the DataDifficulty. template: Dict[str, Any] = rpc.call("merit", "getBlockTemplate", {"miner": blsPubKey}) template["header"] = bytes.fromhex(template["header"]) if template["header"][36:68] != BlockHeader.createContents([], [dataDiff]): raise TestError("Block template doesn't have the Data Difficulty.") #Mine the Block. block = Block( BlockHeader( 0, block.header.hash, BlockHeader.createContents([], [dataDiff]), 0, template["header"][-43:-39], BlockHeader.createSketchCheck(template["header"][-43:-39], []), 0, int.from_bytes(template["header"][-4:], byteorder="little"), ), BlockBody([], [dataDiff], dataDiff.signature)) if block.header.serializeHash()[:-4] != template["header"]: raise TestError("Failed to recreate the header.") block.mine(blsPrivKey, merit.blockchain.difficulty()) merit.blockchain.add(block) #Publish it. rpc.call( "merit", "publishBlock", { "id": template["id"], "header": (template["header"] + block.header.proof.to_bytes(4, byteorder="little") + block.header.signature).hex() }) #Create and transmit a new DataDifficulty. dataDiff = SignedDataDifficulty(3, 0, 0) dataDiff.sign(0, blsPrivKey) rpc.meros.signedElement(dataDiff) sleep(1.5) #Verify the block template has a MeritRemoval. #Thanks to implicit Merit Removals, this just means it has the new difficulty. template = rpc.call("merit", "getBlockTemplate", {"miner": blsPubKey}) template["header"] = bytes.fromhex(template["header"]) if template["header"][36:68] != BlockHeader.createContents([], [dataDiff]): raise TestError("Block template doesn't have the Merit Removal.") #Mine the Block. block = Block( BlockHeader( 0, block.header.hash, BlockHeader.createContents([], [dataDiff]), 0, template["header"][-43:-39], BlockHeader.createSketchCheck(template["header"][-43:-39], []), 0, int.from_bytes(template["header"][-4:], byteorder="little")), BlockBody([], [dataDiff], dataDiff.signature)) if block.header.serializeHash()[:-4] != template["header"]: raise TestError("Failed to recreate the header.") block.mine(blsPrivKey, merit.blockchain.difficulty()) merit.blockchain.add(block) rpc.call( "merit", "publishBlock", { "id": template["id"], "header": (template["header"] + block.header.proof.to_bytes(4, byteorder="little") + block.header.signature).hex() }) verifyBlockchain(rpc, merit.blockchain)
def EightyEightTest(rpc: RPC) -> None: edPrivKey: Ristretto.SigningKey = Ristretto.SigningKey(b'\0' * 32) edPubKey: bytes = edPrivKey.get_verifying_key() blsPrivKey: PrivateKey = PrivateKey(0) blsPubKey: str = blsPrivKey.toPublicKey().serialize().hex() merit: Merit = Merit() dataFilter: SpamFilter = SpamFilter(5) #Handshake with the node. rpc.meros.liveConnect(merit.blockchain.blocks[0].header.hash) rpc.meros.syncConnect(merit.blockchain.blocks[0].header.hash) #Send the first Block. block: Block with open("e2e/Vectors/Merit/BlankBlocks.json", "r") as file: block = Block.fromJSON(json.loads(file.read())[0]) merit.blockchain.add(block) rpc.meros.liveBlockHeader(block.header) rpc.meros.handleBlockBody(block) if MessageType(rpc.meros.live.recv()[0]) != MessageType.BlockHeader: raise TestError( "Meros didn't broadcast the Block Header it just added.") #Create two Datas. datas: List[Data] = [Data(bytes(32), edPubKey)] datas.append(Data(datas[0].hash, b"Hello there! General Kenobi.")) for data in datas: #Sign them and have them beat the spam filter. data.sign(edPrivKey) data.beat(dataFilter) #Transmit them. rpc.meros.liveTransaction(data) #Verify both. verifs: List[SignedVerification] = [ SignedVerification(datas[0].hash), SignedVerification(datas[1].hash) ] for verif in verifs: verif.sign(0, blsPrivKey) #Only transmit the second. rpc.meros.signedElement(verifs[1]) sleep(1.5) #Verify the block template has no verifications. if bytes.fromhex( rpc.call("merit", "getBlockTemplate", {"miner": blsPubKey})["header"])[36:68] != bytes(32): raise TestError("Block template has Verification Packets.") #Transmit the first signed verification. rpc.meros.signedElement(verifs[0]) sleep(1.5) #Verify the block template has both verifications. template: Dict[str, Any] = rpc.call("merit", "getBlockTemplate", {"miner": blsPubKey}) template["header"] = bytes.fromhex(template["header"]) packets: List[VerificationPacket] = [ VerificationPacket(datas[0].hash, [0]), VerificationPacket(datas[1].hash, [0]) ] if template["header"][36:68] != BlockHeader.createContents(packets): raise TestError( "Block template doesn't have both Verification Packets.") #Mine the Block. block = Block( BlockHeader( 0, block.header.hash, BlockHeader.createContents(packets), len(packets), template["header"][-43:-39], BlockHeader.createSketchCheck(template["header"][-43:-39], packets), 0, int.from_bytes(template["header"][-4:], byteorder="little")), BlockBody( packets, [], Signature.aggregate([verifs[0].signature, verifs[1].signature]))) if block.header.serializeHash()[:-4] != template["header"]: raise TestError("Failed to recreate the header.") block.mine(blsPrivKey, merit.blockchain.difficulty()) merit.blockchain.add(block) rpc.call( "merit", "publishBlock", { "id": template["id"], "header": (template["header"] + block.header.proof.to_bytes(4, byteorder="little") + block.header.signature).hex() }) verifyBlockchain(rpc, merit.blockchain)
import json from e2e.Libs.BLS import PrivateKey from e2e.Libs.RandomX import RandomX from e2e.Classes.Merit.Blockchain import BlockHeader, Blockchain privKey: PrivateKey = PrivateKey(0) blockchain: Blockchain = Blockchain() header: BlockHeader = BlockHeader(0, blockchain.last(), bytes(32), 0, bytes(4), bytes(32), privKey.toPublicKey().serialize(), 1200) difficulty: int = blockchain.difficulties[-1] raisedDifficulty: int = difficulty * 11 // 10 header.proof = -1 while ((header.proof == -1) or #Standard difficulty check. Can't overflow against the difficulty. ((int.from_bytes(header.hash, "little") * difficulty) > int.from_bytes( bytes.fromhex("FF" * 32), "little")) or #That said, it also can't beat the raised difficulty it should. ((int.from_bytes(header.hash, "little") * raisedDifficulty) <= int.from_bytes(bytes.fromhex("FF" * 32), "little"))): header.proof += 1 header.hash = RandomX(header.serializeHash()) header.signature = privKey.sign(header.hash).serialize() header.hash = RandomX(header.hash + header.signature) with open("e2e/Vectors/Merit/TwoHundredSeventyThree.json", "w") as vectors: