package octez-shell-libs
Octez shell libraries
Install
Dune Dependency
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Sources
tezos-octez-v20.1.tag.bz2
sha256=ddfb5076eeb0b32ac21c1eed44e8fc86a6743ef18ab23fff02d36e365bb73d61
sha512=d22a827df5146e0aa274df48bc2150b098177ff7e5eab52c6109e867eb0a1f0ec63e6bfbb0e3645a6c2112de3877c91a17df32ccbff301891ce4ba630c997a65
doc/src/octez-shell-libs.p2p/p2p_socket.ml.html
Source file p2p_socket.ml
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IN NO EVENT SHALL *) (* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*) (* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *) (* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *) (* DEALINGS IN THE SOFTWARE. *) (* *) (*****************************************************************************) (* TODO: https://gitlab.com/tezos/tezos/-/issues/4603 test `close ~wait:true`. *) module Events = P2p_events.P2p_socket module Crypto = struct (* maximal size of the buffer *) let bufsize = (1 lsl 16) - 1 let header_length = 2 (* The size of extra data added by encryption. *) let tag_length = Tezos_crypto.Crypto_box.tag_length (* The number of bytes added by encryption + header *) let extrabytes = header_length + tag_length let max_content_length = bufsize - extrabytes type data = { channel_key : Tezos_crypto.Crypto_box.channel_key; mutable local_nonce : Tezos_crypto.Crypto_box.nonce; mutable remote_nonce : Tezos_crypto.Crypto_box.nonce; } (* We do the following assumptions on the NaCl library. Note that we also make the assumption, here, that the NaCl library allows in-place boxing and unboxing, since we use the same buffer for input and output. *) let () = assert (tag_length >= header_length) let create_data ~incoming ~sent_msg ~recv_msg ~sk ~pk = let channel_key = Tezos_crypto.Crypto_box.precompute sk pk in let local_nonce, remote_nonce = Tezos_crypto.Crypto_box.generate_nonces ~incoming ~sent_msg ~recv_msg in {channel_key; local_nonce; remote_nonce} (* msg is overwritten and should not be used after this invocation *) let write_chunk ?canceler fd cryptobox_data msg = let open Lwt_result_syntax in let msg_length = Bytes.length msg in let* () = fail_unless (msg_length <= max_content_length) P2p_errors.Invalid_message_size in let encrypted_length = tag_length + msg_length in let payload_length = header_length + encrypted_length in let tag = Bytes.create tag_length in let local_nonce = cryptobox_data.local_nonce in cryptobox_data.local_nonce <- Tezos_crypto.Crypto_box.increment_nonce local_nonce ; Tezos_crypto.Crypto_box.fast_box_noalloc cryptobox_data.channel_key local_nonce tag msg ; let payload = Bytes.create payload_length in TzEndian.set_uint16 payload 0 encrypted_length ; Bytes.blit tag 0 payload header_length tag_length ; Bytes.blit msg 0 payload extrabytes msg_length ; P2p_io_scheduler.write ?canceler fd payload (** Read and decypher data from the fd. Returned buffer's size is lesser than [bufsize] - [tag_length]. *) let read_chunk ?canceler fd cryptobox_data = let open Lwt_result_syntax in let open P2p_buffer_reader in let header_buf = Bytes.create header_length in let* () = read_full ?canceler fd @@ mk_buffer_safe header_buf in let encrypted_length = TzEndian.get_uint16 header_buf 0 in let* () = fail_unless (encrypted_length >= tag_length) P2p_errors.Invalid_incoming_ciphertext_size in let tag = Bytes.create tag_length in let* () = read_full ?canceler fd @@ mk_buffer_safe tag in (* [msg_length] is [>= 0], as guaranteed by the [fail_unless] guard above. *) let msg_length = encrypted_length - tag_length in let msg = Bytes.create msg_length in let* () = read_full ?canceler fd @@ mk_buffer_safe msg in let remote_nonce = cryptobox_data.remote_nonce in cryptobox_data.remote_nonce <- Tezos_crypto.Crypto_box.increment_nonce remote_nonce ; match Tezos_crypto.Crypto_box.fast_box_open_noalloc cryptobox_data.channel_key remote_nonce tag msg with | false -> tzfail P2p_errors.Decipher_error | true -> return msg end (* Note: there is an inconsistency here, since we display an error in bytes, whereas the option is set in kbytes. Also, since the default size is 64kB-1, it is actually impossible to set the default size using the option (the max is 63 kB). *) let check_binary_chunks_size size = let value = size - Crypto.extrabytes in error_unless (value > 0 && value <= Crypto.max_content_length) (P2p_errors.Invalid_chunks_size {value = size; min = Crypto.extrabytes + 1; max = Crypto.bufsize}) module Connection_message = struct type t = { port : int option; public_key : Tezos_crypto.Crypto_box.public_key; proof_of_work_stamp : Tezos_crypto.Crypto_box.nonce; message_nonce : Tezos_crypto.Crypto_box.nonce; version : Network_version.t; } let encoding = let open Data_encoding in conv (fun {port; public_key; proof_of_work_stamp; message_nonce; version} -> let port = match port with None -> 0 | Some port -> port in (port, public_key, proof_of_work_stamp, message_nonce, version)) (fun (port, public_key, proof_of_work_stamp, message_nonce, version) -> let port = if port = 0 then None else Some port in {port; public_key; proof_of_work_stamp; message_nonce; version}) (obj5 (req "port" uint16) (req "pubkey" Tezos_crypto.Crypto_box.public_key_encoding) (req "proof_of_work_stamp" Tezos_crypto.Crypto_box.nonce_encoding) (req "message_nonce" Tezos_crypto.Crypto_box.nonce_encoding) (req "version" Network_version.encoding)) let create identity advertised_port announced_version = let local_nonce_seed = Tezos_crypto.Crypto_box.random_nonce () in { public_key = identity.P2p_identity.public_key; proof_of_work_stamp = identity.proof_of_work_stamp; message_nonce = local_nonce_seed; port = advertised_port; version = announced_version; } let write ~canceler fd message = let open Lwt_result_syntax in let encoded_message_len = Data_encoding.Binary.length encoding message in let* () = fail_unless (encoded_message_len < 1 lsl (Crypto.header_length * 8)) Tezos_base.Data_encoding_wrapper.Unexpected_size_of_decoded_buffer in let len = Crypto.header_length + encoded_message_len in let buf = Bytes.create len in let state = WithExceptions.Option.get ~loc:__LOC__ @@ Data_encoding.Binary.make_writer_state buf ~offset:Crypto.header_length ~allowed_bytes:encoded_message_len in match Data_encoding.Binary.write encoding message state with | Error we -> tzfail (Tezos_base.Data_encoding_wrapper.Encoding_error we) | Ok last -> let* () = fail_unless (last = len) Tezos_base.Data_encoding_wrapper.Unexpected_size_of_encoded_value in TzEndian.set_int16 buf 0 encoded_message_len ; let* () = P2p_io_scheduler.write ~canceler fd buf in (* We return the raw message as it is used later to compute the nonces *) return buf let read ~canceler fd = let open Lwt_result_syntax in let open P2p_buffer_reader in let header_buf = Bytes.create Crypto.header_length in let* () = read_full ~canceler fd @@ mk_buffer_safe header_buf in let len = TzEndian.get_uint16 header_buf 0 in let pos = Crypto.header_length in let buf = Bytes.create (pos + len) in TzEndian.set_uint16 buf 0 len ; let* () = read_full ~canceler fd @@ match mk_buffer ~length_to_copy:len ~pos buf with | Error _ -> (* This call to [mk_buffer] is safe (it can't [Error] out) but we cannot use [mk_buffer_safe], because we need to specify ~len and ~pos. *) assert false | Ok buffer -> buffer in let buf = Bytes.unsafe_to_string buf in match Data_encoding.Binary.read encoding buf pos len with | Error re -> tzfail (P2p_errors.Decoding_error re) | Ok (next_pos, message) -> if next_pos <> pos + len then tzfail (P2p_errors.Decoding_error Data_encoding.Binary.Extra_bytes) else (* TODO: https://gitlab.com/tezos/tezos/-/issues/4604 make the below bytes-to-string copy-conversion unnecessary. This requires making the consumer of the [buf] value ([Crypto_box.generate_nonces]) able to work with strings directly. *) let buf = Bytes.of_string buf in return (message, buf) end module Metadata = struct let write ~canceler metadata_config fd cryptobox_data message = let open Lwt_result_syntax in let encoded_message_len = Data_encoding.Binary.length metadata_config.P2p_params.conn_meta_encoding message in let buf = Bytes.create encoded_message_len in let state = WithExceptions.Option.get ~loc:__LOC__ @@ Data_encoding.Binary.make_writer_state buf ~offset:0 ~allowed_bytes:encoded_message_len in match Data_encoding.Binary.write metadata_config.conn_meta_encoding message state with | Error we -> tzfail (Tezos_base.Data_encoding_wrapper.Encoding_error we) | Ok last -> let* () = fail_unless (last = encoded_message_len) Tezos_base.Data_encoding_wrapper.Unexpected_size_of_encoded_value in Crypto.write_chunk ~canceler fd cryptobox_data buf let read ~canceler metadata_config fd cryptobox_data = let open Lwt_result_syntax in let* buf = Crypto.read_chunk ~canceler fd cryptobox_data in let buf = Bytes.unsafe_to_string buf in let length = String.length buf in let encoding = metadata_config.P2p_params.conn_meta_encoding in match Data_encoding.Binary.read encoding buf 0 length with | Error re -> tzfail (P2p_errors.Decoding_error re) | Ok (read_len, message) -> if read_len <> length then tzfail (P2p_errors.Decoding_error Data_encoding.Binary.Extra_bytes) else return message end module Ack = struct type t = | Ack | Nack_v_0 | Nack of { motive : P2p_rejection.t; potential_peers_to_connect : P2p_point.Id.t list; } let encoding = let open Data_encoding in let ack_encoding = obj1 (req "ack" empty) in let nack_v_0_encoding = obj1 (req "nack_v_0" empty) in let nack_encoding = obj2 (req "nack_motive" P2p_rejection.encoding) (req "nack_list" (Data_encoding.list ~max_length:100 P2p_point.Id.encoding)) in let ack_case tag = case tag ack_encoding ~title:"Ack" (function Ack -> Some () | _ -> None) (fun () -> Ack) in let nack_case tag = case tag nack_encoding ~title:"Nack" (function | Nack {motive; potential_peers_to_connect} -> Some (motive, potential_peers_to_connect) | _ -> None) (fun (motive, lst) -> Nack {motive; potential_peers_to_connect = lst}) in let nack_v_0_case tag = case tag nack_v_0_encoding ~title:"Nack_v_0" (function Nack_v_0 -> Some () | _ -> None) (fun () -> Nack_v_0) in union [ack_case (Tag 0); nack_v_0_case (Tag 255); nack_case (Tag 1)] let write ?canceler fd cryptobox_data message = let open Lwt_result_syntax in let encoded_message_len = Data_encoding.Binary.length encoding message in let buf = Bytes.create encoded_message_len in let state = WithExceptions.Option.get ~loc:__LOC__ @@ Data_encoding.Binary.make_writer_state buf ~offset:0 ~allowed_bytes:encoded_message_len in match Data_encoding.Binary.write encoding message state with | Error we -> tzfail (Tezos_base.Data_encoding_wrapper.Encoding_error we) | Ok last -> let* () = fail_unless (last = encoded_message_len) Tezos_base.Data_encoding_wrapper.Unexpected_size_of_encoded_value in Crypto.write_chunk ?canceler fd cryptobox_data buf let read ?canceler fd cryptobox_data = let open Lwt_result_syntax in let* buf = Crypto.read_chunk ?canceler fd cryptobox_data in let buf = Bytes.unsafe_to_string buf in let length = String.length buf in match Data_encoding.Binary.read encoding buf 0 length with | Error re -> tzfail (P2p_errors.Decoding_error re) | Ok (read_len, message) -> if read_len <> length then tzfail (P2p_errors.Decoding_error Data_encoding.Binary.Extra_bytes) else return message end type 'meta authenticated_connection = { scheduled_conn : P2p_io_scheduler.connection; info : 'meta P2p_connection.Info.t; cryptobox_data : Crypto.data; } let nack {scheduled_conn; cryptobox_data; info} motive potential_peers_to_connect = let open Lwt_syntax in let* nack = if P2p_version.feature_available P2p_version.Nack_with_list info.announced_version.p2p_version then let* () = Events.(emit nack_point_with_list) (info.id_point, potential_peers_to_connect) in Lwt.return (Ack.Nack {motive; potential_peers_to_connect}) else let* () = Events.(emit nack_point_no_point) info.id_point in Lwt.return Ack.Nack_v_0 in let* (_ : unit tzresult) = Ack.write scheduled_conn cryptobox_data nack in Lwt.return_unit (* First step: write and read credentials, makes no difference whether we're trying to connect to a peer or checking an incoming connection, both parties must first introduce themselves. *) let authenticate ~canceler ~proof_of_work_target ~incoming scheduled_conn ((remote_addr, remote_socket_port) as point) ?advertised_port identity announced_version metadata_config = let open Lwt_result_syntax in let*! () = Events.(emit sending_authentication) point in let msg_to_send = Connection_message.create identity advertised_port announced_version in let* sent_msg = Connection_message.write ~canceler scheduled_conn msg_to_send in let* msg, recv_msg = Connection_message.read ~canceler (P2p_io_scheduler.to_readable scheduled_conn) in let remote_listening_port = if incoming then msg.port else Some remote_socket_port in let id_point = (remote_addr, remote_listening_port) in let remote_peer_id = Tezos_crypto.Crypto_box.hash msg.public_key in let* () = fail_unless (Tezos_crypto.Crypto_box.check_proof_of_work msg.public_key msg.proof_of_work_stamp proof_of_work_target) (P2p_errors.Not_enough_proof_of_work remote_peer_id) in let cryptobox_data = Crypto.create_data ~incoming ~recv_msg ~sent_msg ~sk:identity.P2p_identity.secret_key ~pk:msg.public_key in let local_metadata = metadata_config.P2p_params.conn_meta_value () in let* () = Metadata.write ~canceler metadata_config scheduled_conn cryptobox_data local_metadata in let* remote_metadata = Metadata.read ~canceler metadata_config (P2p_io_scheduler.to_readable scheduled_conn) cryptobox_data in (* Check that this connection does not lead to the node itself after reading first encrypted message. *) let* () = fail_unless (remote_peer_id <> identity.P2p_identity.peer_id) (P2p_errors.Myself id_point) in let info = { P2p_connection.Info.peer_id = remote_peer_id; announced_version = msg.version; incoming; id_point; remote_socket_port; private_node = metadata_config.private_node remote_metadata; local_metadata; remote_metadata; } in return (info, {scheduled_conn; info; cryptobox_data}) module Reader = struct type ('msg, 'meta) t = { canceler : Lwt_canceler.t; conn : 'meta authenticated_connection; encoding : 'msg Data_encoding.t; messages : (int * 'msg) tzresult Lwt_pipe.Maybe_bounded.t; mutable worker : unit Lwt.t; } let read_message st init = let rec loop status = let open Lwt_result_syntax in let*! () = Lwt.pause () in let open Data_encoding.Binary in match status with | Success {result; size; stream} -> return (result, size, stream) | Error err -> let*! () = Events.(emit read_error) () in tzfail (P2p_errors.Decoding_error err) | Await decode_next_buf -> let* buf = Crypto.read_chunk ~canceler:st.canceler (P2p_io_scheduler.to_readable st.conn.scheduled_conn) st.conn.cryptobox_data in let*! () = Events.(emit read_event) (Bytes.length buf, st.conn.info.peer_id) in loop (decode_next_buf buf) in loop (Data_encoding.Binary.read_stream ?init st.encoding) let rec worker_loop st stream = let open Lwt_syntax in let* r = let open Lwt_result_syntax in let* msg, size, stream = read_message st stream in protect ~canceler:st.canceler (fun () -> let*! () = Lwt_pipe.Maybe_bounded.push st.messages (Ok (size, msg)) in return_some stream) in match r with | Ok (Some stream) -> worker_loop st (Some stream) | Ok None -> Error_monad.cancel_with_exceptions st.canceler | Error (Canceled :: _) | Error (Exn Lwt_pipe.Closed :: _) -> Events.(emit connection_closed) st.conn.info.peer_id | Error _ as err -> if Lwt_pipe.Maybe_bounded.is_closed st.messages then () else (* best-effort push to the messages, we ignore failures *) (ignore : bool -> unit) @@ Lwt_pipe.Maybe_bounded.push_now st.messages err ; Error_monad.cancel_with_exceptions st.canceler let run ?size conn encoding canceler = let compute_size = function | Ok (size, _) -> (Sys.word_size / 8 * 11) + size + Lwt_pipe.Maybe_bounded.push_overhead | Error _ -> 0 (* we push Error only when we close the socket, we don't fear memory leaks in that case... *) in let bound = Option.map (fun max -> (max, compute_size)) size in let st = { canceler; conn; encoding; messages = Lwt_pipe.Maybe_bounded.create ?bound (); worker = Lwt.return_unit; } in Lwt_canceler.on_cancel st.canceler (fun () -> Lwt_pipe.Maybe_bounded.close st.messages ; Lwt.return_unit) ; st.worker <- Lwt_utils.worker "reader" ~on_event:Internal_event.Lwt_worker_logger.on_event ~run:(fun () -> worker_loop st None) ~cancel:(fun () -> Error_monad.cancel_with_exceptions st.canceler) ; st let shutdown st = Error_monad.cancel_with_exceptions st.canceler end type 'msg encoded_message = bytes list let copy_encoded_message = List.map Bytes.copy module Writer = struct type ('msg, 'meta) t = { canceler : Lwt_canceler.t; conn : 'meta authenticated_connection; encoding : 'msg Data_encoding.t; messages : (Bytes.t list * unit tzresult Lwt.u option) Lwt_pipe.Maybe_bounded.t; mutable worker : unit Lwt.t; binary_chunks_size : int; (* in bytes *) } let send_message st buf = let open Lwt_result_syntax in let rec loop = function | [] -> return_unit | buf :: l -> let* () = Crypto.write_chunk ~canceler:st.canceler st.conn.scheduled_conn st.conn.cryptobox_data buf in let*! () = Events.(emit write_event) (Bytes.length buf, st.conn.info.peer_id) in loop l in loop buf let encode_message (st : ('msg, _) t) msg = match Data_encoding.Binary.to_bytes st.encoding msg with | Error we -> Result_syntax.tzfail (Tezos_base.Data_encoding_wrapper.Encoding_error we) | Ok bytes -> Ok (Utils.cut st.binary_chunks_size bytes) let rec worker_loop st = let open Lwt_syntax in let* () = Lwt.pause () in let* r = protect ~canceler:st.canceler (fun () -> Lwt_result.ok @@ Lwt_pipe.Maybe_bounded.pop st.messages) in match r with | Error (Canceled :: _) | Error (Exn Lwt_pipe.Closed :: _) -> Events.(emit connection_closed) st.conn.info.peer_id | Error err -> let* () = Events.(emit write_error) (err, st.conn.info.peer_id) in Error_monad.cancel_with_exceptions st.canceler | Ok (buf, wakener) -> ( let* res = send_message st buf in match res with | Ok () -> Option.iter (fun u -> Lwt.wakeup_later u res) wakener ; worker_loop st | Error err -> ( Option.iter (fun u -> Lwt.wakeup_later u (Result_syntax.tzfail P2p_errors.Connection_closed)) wakener ; match err with | (Canceled | Exn Lwt_pipe.Closed) :: _ -> Events.(emit connection_closed) st.conn.info.peer_id | P2p_errors.Connection_closed :: _ -> let* () = Events.(emit connection_closed) st.conn.info.peer_id in Error_monad.cancel_with_exceptions st.canceler | err -> let* () = Events.(emit write_error) (err, st.conn.info.peer_id) in Error_monad.cancel_with_exceptions st.canceler)) let run ?size ?binary_chunks_size conn encoding canceler = let binary_chunks_size = match binary_chunks_size with | None -> Crypto.max_content_length | Some size -> let size = size - Crypto.extrabytes in assert (size > 0) ; assert (size <= Crypto.max_content_length) ; size in let compute_size = let buf_list_size = List.fold_left (fun sz buf -> sz + Bytes.length buf + (2 * Sys.word_size)) 0 in function | buf_l, None -> Sys.word_size + buf_list_size buf_l + Lwt_pipe.Maybe_bounded.push_overhead | buf_l, Some _ -> (2 * Sys.word_size) + buf_list_size buf_l + Lwt_pipe.Maybe_bounded.push_overhead in let bound = Option.map (fun max -> (max, compute_size)) size in let st = { canceler; conn; encoding; messages = Lwt_pipe.Maybe_bounded.create ?bound (); worker = Lwt.return_unit; binary_chunks_size; } in Lwt_canceler.on_cancel st.canceler (fun () -> Lwt_pipe.Maybe_bounded.close st.messages ; let rec loop () = match Lwt_pipe.Maybe_bounded.pop_now st.messages with | exception Lwt_pipe.Closed -> () | None -> () | Some (_, None) -> loop () | Some (_, Some w) -> Lwt.wakeup_later w (error_with_exn Lwt_pipe.Closed) ; loop () in loop () ; Lwt.return_unit) ; st.worker <- Lwt_utils.worker "writer" ~on_event:Internal_event.Lwt_worker_logger.on_event ~run:(fun () -> worker_loop st) ~cancel:(fun () -> Error_monad.cancel_with_exceptions st.canceler) ; st let shutdown st = let open Lwt_syntax in let* () = Error_monad.cancel_with_exceptions st.canceler in st.worker end type ('msg, 'meta) t = { conn : 'meta authenticated_connection; reader : ('msg, 'meta) Reader.t; writer : ('msg, 'meta) Writer.t; } let equal {conn = {scheduled_conn = conn2; _}; _} {conn = {scheduled_conn = conn1; _}; _} = P2p_io_scheduler.id conn1 = P2p_io_scheduler.id conn2 let pp ppf {conn; _} = P2p_connection.Info.pp (fun _ _ -> ()) ppf conn.info let info {conn; _} = conn.info let local_metadata {conn; _} = conn.info.local_metadata let remote_metadata {conn; _} = conn.info.remote_metadata let private_node {conn; _} = conn.info.private_node let accept ?incoming_message_queue_size ?outgoing_message_queue_size ?binary_chunks_size ~canceler conn encoding = let open Lwt_result_syntax in let on_error reason err = let rw_trace = match err with | [P2p_errors.Connection_closed] -> TzTrace.cons P2p_errors.Rejected_socket_connection err | [P2p_errors.Decipher_error] -> TzTrace.cons P2p_errors.Invalid_auth err | _ -> err in let*! close_tzr = P2p_io_scheduler.close ~reason conn.scheduled_conn in match close_tzr with | Error close_trace -> (* If an error occurs when closing the scheduled_conn, errors from read or write is kept and combined with it. *) Lwt.return_error (TzTrace.conp rw_trace close_trace) | Ok () -> Lwt.return_error rw_trace in let* () = protect (fun () -> Ack.write ~canceler conn.scheduled_conn conn.cryptobox_data Ack) ~on_error:(fun err -> on_error (Accept_write_error err) err) in let* ack = protect (fun () -> Ack.read ~canceler (P2p_io_scheduler.to_readable conn.scheduled_conn) conn.cryptobox_data) ~on_error:(fun err -> on_error (Ack_read_error err) err) in match ack with | Ack -> let canceler = Lwt_canceler.create () in let reader = Reader.run ?size:incoming_message_queue_size conn encoding canceler and writer = Writer.run ?size:outgoing_message_queue_size ?binary_chunks_size conn encoding canceler in let conn = {conn; reader; writer} in Lwt_canceler.on_cancel canceler (fun () -> let open Lwt_syntax in let* (_ : unit tzresult) = P2p_io_scheduler.close conn.conn.scheduled_conn in Lwt.return_unit) ; return conn | Nack_v_0 -> tzfail (P2p_errors.Rejected_by_nack {motive = P2p_rejection.No_motive; alternative_points = None}) | Nack {motive; potential_peers_to_connect} -> tzfail (P2p_errors.Rejected_by_nack {motive; alternative_points = Some potential_peers_to_connect}) let catch_closed_pipe f = let open Lwt_result_syntax in let*! r = Lwt.catch f (function | Lwt_pipe.Closed -> tzfail P2p_errors.Connection_closed | exn -> fail_with_exn exn) in match r with | Error (Exn Lwt_pipe.Closed :: _) -> tzfail P2p_errors.Connection_closed | (Error _ | Ok _) as v -> Lwt.return v let write {writer; _} msg = let open Lwt_result_syntax in catch_closed_pipe (fun () -> let*? buf = Writer.encode_message writer msg in let*! () = Lwt_pipe.Maybe_bounded.push writer.messages (buf, None) in return_unit) let write_sync {writer; _} msg = let open Lwt_result_syntax in catch_closed_pipe (fun () -> let waiter, wakener = Lwt.wait () in let*? buf = Writer.encode_message writer msg in let*! () = Lwt_pipe.Maybe_bounded.push writer.messages (buf, Some wakener) in waiter) let encode {writer : ('msg, _) Writer.t; _} msg = Writer.encode_message writer msg let write_encoded_now {writer; _} buf = let open Result_syntax in try Ok (Lwt_pipe.Maybe_bounded.push_now writer.messages (buf, None)) with Lwt_pipe.Closed -> tzfail P2p_errors.Connection_closed let write_now t msg = let open Result_syntax in let* buf = encode t msg in write_encoded_now t buf let rec split_bytes size bytes = if Bytes.length bytes <= size then [bytes] else Bytes.sub bytes 0 size :: split_bytes size (Bytes.sub bytes size (Bytes.length bytes - size)) let raw_write_sync {writer; _} bytes = let open Lwt_syntax in let bytes = split_bytes writer.binary_chunks_size bytes in catch_closed_pipe (fun () -> let waiter, wakener = Lwt.wait () in let* () = Lwt_pipe.Maybe_bounded.push writer.messages (bytes, Some wakener) in waiter) let read {reader; _} = catch_closed_pipe (fun () -> Lwt_pipe.Maybe_bounded.pop reader.messages) let read_now {reader; _} = try Lwt_pipe.Maybe_bounded.pop_now reader.messages with Lwt_pipe.Closed -> Some (Result_syntax.tzfail P2p_errors.Connection_closed) let stat {conn = {scheduled_conn; _}; _} = P2p_io_scheduler.stat scheduled_conn let add_closing_reason ~reason st = P2p_io_scheduler.add_closing_reason ~reason st.conn.scheduled_conn let close ?(wait = false) ~reason st = let open Lwt_syntax in let* () = if not wait then Lwt.return_unit else ( Lwt_pipe.Maybe_bounded.close st.reader.messages ; Lwt_pipe.Maybe_bounded.close st.writer.messages ; st.writer.worker) in (* [st.conn.scheduled_conn] is closed by [Reader.shutdown] and [Writer.shutdown], the reason must be added before. *) P2p_io_scheduler.add_closing_reason ~reason st.conn.scheduled_conn ; let* () = Reader.shutdown st.reader in let* () = Writer.shutdown st.writer in Lwt.return_unit module Internal_for_tests = struct module Connection_message = struct type t = Connection_message.t let get_public_key t = t.Connection_message.public_key let write = Connection_message.write let read = Connection_message.read end module Metadata = struct let write = Metadata.write end let raw_write_sync = raw_write_sync let mock_authenticated_connection default_metadata = let secret_key, public_key, _pkh = Tezos_crypto.Crypto_box.random_keypair () in let cryptobox_data = Crypto. { channel_key = Tezos_crypto.Crypto_box.precompute secret_key public_key; local_nonce = Tezos_crypto.Crypto_box.zero_nonce; remote_nonce = Tezos_crypto.Crypto_box.zero_nonce; } in let scheduled_conn = let f2d_t = Lwt_main.run (P2p_fd.socket ()) in P2p_io_scheduler.register (P2p_io_scheduler.create ~read_buffer_size:0 ()) f2d_t in let info = P2p_connection.Internal_for_tests.Info.mock default_metadata in {scheduled_conn; info; cryptobox_data} module Crypto = struct type data = Crypto.data let create_data = Crypto.create_data end let make_crashing_encoding () : 'a Data_encoding.t = Data_encoding.conv (fun _ -> assert false) (fun _ -> assert false) Data_encoding.unit let mock ?(reader = Lwt_pipe.Maybe_bounded.create ()) ?(writer = Lwt_pipe.Maybe_bounded.create ()) conn = let reader = Reader. { canceler = Lwt_canceler.create (); conn; encoding = make_crashing_encoding (); messages = reader; worker = Lwt.return_unit; } in let writer = Writer. { canceler = Lwt_canceler.create (); conn; encoding = make_crashing_encoding (); messages = writer; worker = Lwt.return_unit; binary_chunks_size = 0; } in {conn; reader; writer} end