// Copyright 2019-2020 Parity Technologies (UK) Ltd. // This file is part of Parity Bridges Common. // Parity Bridges Common is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity Bridges Common is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity Bridges Common. If not, see . //! Substrate-to-substrate relay entrypoint. #![warn(missing_docs)] use codec::{Decode, Encode}; use frame_support::weights::{GetDispatchInfo, Weight}; use pallet_bridge_call_dispatch::{CallOrigin, MessagePayload}; use relay_kusama_client::Kusama; use relay_millau_client::{Millau, SigningParams as MillauSigningParams}; use relay_rialto_client::{Rialto, SigningParams as RialtoSigningParams}; use relay_substrate_client::{Chain, ConnectionParams, TransactionSignScheme}; use relay_utils::initialize::initialize_relay; use sp_core::{Bytes, Pair}; use sp_runtime::traits::IdentifyAccount; use std::fmt::Debug; /// Kusama node client. pub type KusamaClient = relay_substrate_client::Client; /// Millau node client. pub type MillauClient = relay_substrate_client::Client; /// Rialto node client. pub type RialtoClient = relay_substrate_client::Client; mod cli; mod headers_initialize; mod headers_maintain; mod headers_pipeline; mod headers_target; mod messages_lane; mod messages_source; mod messages_target; mod millau_headers_to_rialto; mod millau_messages_to_rialto; mod rialto_headers_to_millau; mod rialto_messages_to_millau; fn main() { initialize_relay(); let result = async_std::task::block_on(run_command(cli::parse_args())); if let Err(error) = result { log::error!(target: "bridge", "Failed to start relay: {}", error); } } async fn run_command(command: cli::Command) -> Result<(), String> { match command { cli::Command::InitBridge(arg) => run_init_bridge(arg).await, cli::Command::RelayHeaders(arg) => run_relay_headers(arg).await, cli::Command::RelayMessages(arg) => run_relay_messages(arg).await, cli::Command::SendMessage(arg) => run_send_message(arg).await, cli::Command::EncodeCall(arg) => run_encode_call(arg).await, cli::Command::EncodeMessagePayload(arg) => run_encode_message_payload(arg).await, cli::Command::EstimateFee(arg) => run_estimate_fee(arg).await, } } async fn run_init_bridge(command: cli::InitBridge) -> Result<(), String> { match command { cli::InitBridge::MillauToRialto { millau, rialto, rialto_sign, millau_bridge_params, } => { let millau_client = millau.into_client().await?; let rialto_client = rialto.into_client().await?; let rialto_sign = rialto_sign.parse()?; let rialto_signer_next_index = rialto_client .next_account_index(rialto_sign.signer.public().into()) .await?; headers_initialize::initialize( millau_client, rialto_client.clone(), millau_bridge_params.millau_initial_header, millau_bridge_params.millau_initial_authorities, millau_bridge_params.millau_initial_authorities_set_id, move |initialization_data| { Ok(Bytes( Rialto::sign_transaction( &rialto_client, &rialto_sign.signer, rialto_signer_next_index, rialto_runtime::SudoCall::sudo(Box::new( rialto_runtime::BridgeMillauCall::initialize(initialization_data).into(), )) .into(), ) .encode(), )) }, ) .await; } cli::InitBridge::RialtoToMillau { rialto, millau, millau_sign, rialto_bridge_params, } => { let rialto_client = rialto.into_client().await?; let millau_client = millau.into_client().await?; let millau_sign = millau_sign.parse()?; let millau_signer_next_index = millau_client .next_account_index(millau_sign.signer.public().into()) .await?; headers_initialize::initialize( rialto_client, millau_client.clone(), rialto_bridge_params.rialto_initial_header, rialto_bridge_params.rialto_initial_authorities, rialto_bridge_params.rialto_initial_authorities_set_id, move |initialization_data| { Ok(Bytes( Millau::sign_transaction( &millau_client, &millau_sign.signer, millau_signer_next_index, millau_runtime::SudoCall::sudo(Box::new( millau_runtime::BridgeRialtoCall::initialize(initialization_data).into(), )) .into(), ) .encode(), )) }, ) .await; } } Ok(()) } async fn run_relay_headers(command: cli::RelayHeaders) -> Result<(), String> { match command { cli::RelayHeaders::MillauToRialto { millau, rialto, rialto_sign, prometheus_params, } => { let millau_client = millau.into_client().await?; let rialto_client = rialto.into_client().await?; let rialto_sign = rialto_sign.parse()?; millau_headers_to_rialto::run(millau_client, rialto_client, rialto_sign, prometheus_params.into()).await; } cli::RelayHeaders::RialtoToMillau { rialto, millau, millau_sign, prometheus_params, } => { let rialto_client = rialto.into_client().await?; let millau_client = millau.into_client().await?; let millau_sign = millau_sign.parse()?; rialto_headers_to_millau::run(rialto_client, millau_client, millau_sign, prometheus_params.into()).await; } } Ok(()) } async fn run_relay_messages(command: cli::RelayMessages) -> Result<(), String> { match command { cli::RelayMessages::MillauToRialto { millau, millau_sign, rialto, rialto_sign, prometheus_params, lane, } => { let millau_client = millau.into_client().await?; let millau_sign = millau_sign.parse()?; let rialto_client = rialto.into_client().await?; let rialto_sign = rialto_sign.parse()?; millau_messages_to_rialto::run( millau_client, millau_sign, rialto_client, rialto_sign, lane.into(), prometheus_params.into(), ); } cli::RelayMessages::RialtoToMillau { rialto, rialto_sign, millau, millau_sign, prometheus_params, lane, } => { let rialto_client = rialto.into_client().await?; let rialto_sign = rialto_sign.parse()?; let millau_client = millau.into_client().await?; let millau_sign = millau_sign.parse()?; rialto_messages_to_millau::run( rialto_client, rialto_sign, millau_client, millau_sign, lane.into(), prometheus_params.into(), ); } } Ok(()) } async fn run_send_message(command: cli::SendMessage) -> Result<(), String> { match command { cli::SendMessage::MillauToRialto { millau, millau_sign, rialto_sign, lane, message, dispatch_weight, fee, origin, .. } => { let millau_client = millau.into_client().await?; let millau_sign = millau_sign.parse()?; let rialto_sign = rialto_sign.parse()?; let rialto_call = message.into_call()?; let payload = millau_to_rialto_message_payload(&millau_sign, &rialto_sign, &rialto_call, origin, dispatch_weight); let dispatch_weight = payload.weight; let lane = lane.into(); let fee = get_fee(fee, || { estimate_message_delivery_and_dispatch_fee( &millau_client, bp_rialto::TO_RIALTO_ESTIMATE_MESSAGE_FEE_METHOD, lane, payload.clone(), ) }) .await?; let millau_call = millau_runtime::Call::BridgeRialtoMessageLane( millau_runtime::MessageLaneCall::send_message(lane, payload, fee), ); let signed_millau_call = Millau::sign_transaction( &millau_client, &millau_sign.signer, millau_client .next_account_index(millau_sign.signer.public().clone().into()) .await?, millau_call, ) .encode(); log::info!( target: "bridge", "Sending message to Rialto. Size: {}. Dispatch weight: {}. Fee: {}", signed_millau_call.len(), dispatch_weight, fee, ); millau_client.submit_extrinsic(Bytes(signed_millau_call)).await?; } cli::SendMessage::RialtoToMillau { rialto, rialto_sign, millau_sign, lane, message, dispatch_weight, fee, origin, .. } => { let rialto_client = rialto.into_client().await?; let rialto_sign = rialto_sign.parse()?; let millau_sign = millau_sign.parse()?; let millau_call = message.into_call()?; let payload = rialto_to_millau_message_payload(&rialto_sign, &millau_sign, &millau_call, origin, dispatch_weight); let dispatch_weight = payload.weight; let lane = lane.into(); let fee = get_fee(fee, || { estimate_message_delivery_and_dispatch_fee( &rialto_client, bp_millau::TO_MILLAU_ESTIMATE_MESSAGE_FEE_METHOD, lane, payload.clone(), ) }) .await?; let rialto_call = rialto_runtime::Call::BridgeMillauMessageLane( rialto_runtime::MessageLaneCall::send_message(lane, payload, fee), ); let signed_rialto_call = Rialto::sign_transaction( &rialto_client, &rialto_sign.signer, rialto_client .next_account_index(rialto_sign.signer.public().clone().into()) .await?, rialto_call, ) .encode(); log::info!( target: "bridge", "Sending message to Millau. Size: {}. Dispatch weight: {}. Fee: {}", signed_rialto_call.len(), dispatch_weight, fee, ); rialto_client.submit_extrinsic(Bytes(signed_rialto_call)).await?; } } Ok(()) } async fn run_encode_call(call: cli::EncodeCall) -> Result<(), String> { match call { cli::EncodeCall::Rialto { call } => { let call = call.into_call()?; println!("{:?}", HexBytes::encode(&call)); } cli::EncodeCall::Millau { call } => { let call = call.into_call()?; println!("{:?}", HexBytes::encode(&call)); } } Ok(()) } async fn run_encode_message_payload(call: cli::EncodeMessagePayload) -> Result<(), String> { match call { cli::EncodeMessagePayload::RialtoToMillau { payload } => { let payload = payload.into_payload()?; println!("{:?}", HexBytes::encode(&payload)); } cli::EncodeMessagePayload::MillauToRialto { payload } => { let payload = payload.into_payload()?; println!("{:?}", HexBytes::encode(&payload)); } } Ok(()) } async fn run_estimate_fee(cmd: cli::EstimateFee) -> Result<(), String> { match cmd { cli::EstimateFee::RialtoToMillau { rialto, lane, payload } => { let client = rialto.into_client().await?; let lane = lane.into(); let payload = payload.into_payload()?; let fee: Option = estimate_message_delivery_and_dispatch_fee( &client, bp_millau::TO_MILLAU_ESTIMATE_MESSAGE_FEE_METHOD, lane, payload, ) .await?; println!("Fee: {:?}", fee); } cli::EstimateFee::MillauToRialto { millau, lane, payload } => { let client = millau.into_client().await?; let lane = lane.into(); let payload = payload.into_payload()?; let fee: Option = estimate_message_delivery_and_dispatch_fee( &client, bp_rialto::TO_RIALTO_ESTIMATE_MESSAGE_FEE_METHOD, lane, payload, ) .await?; println!("Fee: {:?}", fee); } } Ok(()) } async fn estimate_message_delivery_and_dispatch_fee( client: &relay_substrate_client::Client, estimate_fee_method: &str, lane: bp_message_lane::LaneId, payload: P, ) -> Result, relay_substrate_client::Error> { let encoded_response = client .state_call(estimate_fee_method.into(), (lane, payload).encode().into(), None) .await?; let decoded_response: Option = Decode::decode(&mut &encoded_response.0[..]).map_err(relay_substrate_client::Error::ResponseParseFailed)?; Ok(decoded_response) } fn remark_payload(remark_size: Option>, maximal_allowed_size: u32) -> Vec { match remark_size { Some(cli::ExplicitOrMaximal::Explicit(remark_size)) => vec![0; remark_size], Some(cli::ExplicitOrMaximal::Maximal) => vec![0; maximal_allowed_size as _], None => format!( "Unix time: {}", std::time::SystemTime::now() .duration_since(std::time::SystemTime::UNIX_EPOCH) .unwrap_or_default() .as_secs(), ) .as_bytes() .to_vec(), } } fn message_payload( spec_version: u32, weight: Weight, origin: CallOrigin, call: &impl Encode, ) -> MessagePayload> where SAccountId: Encode + Debug, TPublic: Encode + Debug, TSignature: Encode + Debug, { // Display nicely formatted call. let payload = MessagePayload { spec_version, weight, origin, call: HexBytes::encode(call), }; log::info!(target: "bridge", "Created Message Payload: {:#?}", payload); log::info!(target: "bridge", "Encoded Message Payload: {:?}", HexBytes::encode(&payload)); // re-pack to return `Vec` let MessagePayload { spec_version, weight, origin, call, } = payload; MessagePayload { spec_version, weight, origin, call: call.0, } } fn rialto_to_millau_message_payload( rialto_sign: &RialtoSigningParams, millau_sign: &MillauSigningParams, millau_call: &millau_runtime::Call, origin: cli::Origins, user_specified_dispatch_weight: Option>, ) -> rialto_runtime::millau_messages::ToMillauMessagePayload { let millau_call_weight = prepare_call_dispatch_weight( user_specified_dispatch_weight, cli::ExplicitOrMaximal::Explicit(millau_call.get_dispatch_info().weight), compute_maximal_message_dispatch_weight(bp_millau::max_extrinsic_weight()), ); let rialto_sender_public: bp_rialto::AccountSigner = rialto_sign.signer.public().clone().into(); let rialto_account_id: bp_rialto::AccountId = rialto_sender_public.into_account(); let millau_origin_public = millau_sign.signer.public(); message_payload( millau_runtime::VERSION.spec_version, millau_call_weight, match origin { cli::Origins::Source => CallOrigin::SourceAccount(rialto_account_id), cli::Origins::Target => { let digest = rialto_runtime::millau_account_ownership_digest( &millau_call, rialto_account_id.clone(), millau_runtime::VERSION.spec_version, ); let digest_signature = millau_sign.signer.sign(&digest); CallOrigin::TargetAccount(rialto_account_id, millau_origin_public.into(), digest_signature.into()) } }, &millau_call, ) } fn millau_to_rialto_message_payload( millau_sign: &MillauSigningParams, rialto_sign: &RialtoSigningParams, rialto_call: &rialto_runtime::Call, origin: cli::Origins, user_specified_dispatch_weight: Option>, ) -> millau_runtime::rialto_messages::ToRialtoMessagePayload { let rialto_call_weight = prepare_call_dispatch_weight( user_specified_dispatch_weight, cli::ExplicitOrMaximal::Explicit(rialto_call.get_dispatch_info().weight), compute_maximal_message_dispatch_weight(bp_rialto::max_extrinsic_weight()), ); let millau_sender_public: bp_millau::AccountSigner = millau_sign.signer.public().clone().into(); let millau_account_id: bp_millau::AccountId = millau_sender_public.into_account(); let rialto_origin_public = rialto_sign.signer.public(); message_payload( rialto_runtime::VERSION.spec_version, rialto_call_weight, match origin { cli::Origins::Source => CallOrigin::SourceAccount(millau_account_id), cli::Origins::Target => { let digest = millau_runtime::rialto_account_ownership_digest( &rialto_call, millau_account_id.clone(), rialto_runtime::VERSION.spec_version, ); let digest_signature = rialto_sign.signer.sign(&digest); CallOrigin::TargetAccount(millau_account_id, rialto_origin_public.into(), digest_signature.into()) } }, &rialto_call, ) } fn prepare_call_dispatch_weight( user_specified_dispatch_weight: Option>, weight_from_pre_dispatch_call: cli::ExplicitOrMaximal, maximal_allowed_weight: Weight, ) -> Weight { match user_specified_dispatch_weight.unwrap_or(weight_from_pre_dispatch_call) { cli::ExplicitOrMaximal::Explicit(weight) => weight, cli::ExplicitOrMaximal::Maximal => maximal_allowed_weight, } } async fn get_fee(fee: Option, f: F) -> Result where Fee: Decode, F: FnOnce() -> R, R: std::future::Future, E>>, E: Debug, { match fee { Some(fee) => Ok(fee), None => match f().await { Ok(Some(fee)) => Ok(fee), Ok(None) => Err("Failed to estimate message fee. Message is too heavy?".into()), Err(error) => Err(format!("Failed to estimate message fee: {:?}", error)), }, } } fn compute_maximal_message_dispatch_weight(maximal_extrinsic_weight: Weight) -> Weight { bridge_runtime_common::messages::target::maximal_incoming_message_dispatch_weight(maximal_extrinsic_weight) } fn compute_maximal_message_arguments_size( maximal_source_extrinsic_size: u32, maximal_target_extrinsic_size: u32, ) -> u32 { // assume that both signed extensions and other arguments fit 1KB let service_tx_bytes_on_source_chain = 1024; let maximal_source_extrinsic_size = maximal_source_extrinsic_size - service_tx_bytes_on_source_chain; let maximal_call_size = bridge_runtime_common::messages::target::maximal_incoming_message_size(maximal_target_extrinsic_size); let maximal_call_size = if maximal_call_size > maximal_source_extrinsic_size { maximal_source_extrinsic_size } else { maximal_call_size }; // bytes in Call encoding that are used to encode everything except arguments let service_bytes = 1 + 1 + 4; maximal_call_size - service_bytes } impl crate::cli::MillauToRialtoMessagePayload { /// Parse the CLI parameters and construct message payload. pub fn into_payload( self, ) -> Result>, String> { match self { Self::Raw { data } => MessagePayload::decode(&mut &*data.0) .map_err(|e| format!("Failed to decode Millau's MessagePayload: {:?}", e)), Self::Message { message, sender } => { let spec_version = rialto_runtime::VERSION.spec_version; let origin = CallOrigin::SourceAccount(sender); let call = message.into_call()?; let weight = call.get_dispatch_info().weight; Ok(message_payload(spec_version, weight, origin, &call)) } } } } impl crate::cli::RialtoToMillauMessagePayload { /// Parse the CLI parameters and construct message payload. pub fn into_payload( self, ) -> Result>, String> { match self { Self::Raw { data } => MessagePayload::decode(&mut &*data.0) .map_err(|e| format!("Failed to decode Rialto's MessagePayload: {:?}", e)), Self::Message { message, sender } => { let spec_version = millau_runtime::VERSION.spec_version; let origin = CallOrigin::SourceAccount(sender); let call = message.into_call()?; let weight = call.get_dispatch_info().weight; Ok(message_payload(spec_version, weight, origin, &call)) } } } } impl crate::cli::RialtoSigningParams { /// Parse CLI parameters into typed signing params. pub fn parse(self) -> Result { RialtoSigningParams::from_suri(&self.rialto_signer, self.rialto_signer_password.as_deref()) .map_err(|e| format!("Failed to parse rialto-signer: {:?}", e)) } } impl crate::cli::MillauSigningParams { /// Parse CLI parameters into typed signing params. pub fn parse(self) -> Result { MillauSigningParams::from_suri(&self.millau_signer, self.millau_signer_password.as_deref()) .map_err(|e| format!("Failed to parse millau-signer: {:?}", e)) } } impl crate::cli::MillauConnectionParams { /// Convert CLI connection parameters into Millau RPC Client. pub async fn into_client(self) -> relay_substrate_client::Result { MillauClient::new(ConnectionParams { host: self.millau_host, port: self.millau_port, }) .await } } impl crate::cli::RialtoConnectionParams { /// Convert CLI connection parameters into Rialto RPC Client. pub async fn into_client(self) -> relay_substrate_client::Result { RialtoClient::new(ConnectionParams { host: self.rialto_host, port: self.rialto_port, }) .await } } impl crate::cli::ToRialtoMessage { /// Convert CLI call request into runtime `Call` instance. pub fn into_call(self) -> Result { let call = match self { cli::ToRialtoMessage::Raw { data } => { Decode::decode(&mut &*data.0).map_err(|e| format!("Unable to decode message: {:#?}", e))? } cli::ToRialtoMessage::Remark { remark_size } => { rialto_runtime::Call::System(rialto_runtime::SystemCall::remark(remark_payload( remark_size, compute_maximal_message_arguments_size( bp_millau::max_extrinsic_size(), bp_rialto::max_extrinsic_size(), ), ))) } cli::ToRialtoMessage::Transfer { recipient, amount } => { rialto_runtime::Call::Balances(rialto_runtime::BalancesCall::transfer(recipient, amount)) } }; log::info!(target: "bridge", "Generated Rialto call: {:#?}", call); log::info!(target: "bridge", "Weight of Rialto call: {}", call.get_dispatch_info().weight); log::info!(target: "bridge", "Encoded Rialto call: {:?}", HexBytes::encode(&call)); Ok(call) } } impl crate::cli::ToMillauMessage { /// Convert CLI call request into runtime `Call` instance. pub fn into_call(self) -> Result { let call = match self { cli::ToMillauMessage::Raw { data } => { Decode::decode(&mut &*data.0).map_err(|e| format!("Unable to decode message: {:#?}", e))? } cli::ToMillauMessage::Remark { remark_size } => { millau_runtime::Call::System(millau_runtime::SystemCall::remark(remark_payload( remark_size, compute_maximal_message_arguments_size( bp_rialto::max_extrinsic_size(), bp_millau::max_extrinsic_size(), ), ))) } cli::ToMillauMessage::Transfer { recipient, amount } => { millau_runtime::Call::Balances(millau_runtime::BalancesCall::transfer(recipient, amount)) } }; log::info!(target: "bridge", "Generated Millau call: {:#?}", call); log::info!(target: "bridge", "Weight of Millau call: {}", call.get_dispatch_info().weight); log::info!(target: "bridge", "Encoded Millau call: {:?}", HexBytes::encode(&call)); Ok(call) } } /// Nicer formatting for raw bytes vectors. #[derive(Encode, Decode)] struct HexBytes(Vec); impl Debug for HexBytes { fn fmt(&self, fmt: &mut std::fmt::Formatter) -> std::fmt::Result { write!(fmt, "0x{}", hex::encode(&self.0)) } } impl HexBytes { /// Encode given object and wrap into nicely formatted bytes. pub fn encode(t: &T) -> Self { Self(t.encode()) } } #[cfg(test)] mod tests { use super::*; use bp_message_lane::source_chain::TargetHeaderChain; use sp_core::Pair; use sp_runtime::traits::{IdentifyAccount, Verify}; #[test] fn millau_signature_is_valid_on_rialto() { let millau_sign = relay_millau_client::SigningParams::from_suri("//Dave", None).unwrap(); let call = rialto_runtime::Call::System(rialto_runtime::SystemCall::remark(vec![])); let millau_public: bp_millau::AccountSigner = millau_sign.signer.public().clone().into(); let millau_account_id: bp_millau::AccountId = millau_public.into_account(); let digest = millau_runtime::rialto_account_ownership_digest( &call, millau_account_id, rialto_runtime::VERSION.spec_version, ); let rialto_signer = relay_rialto_client::SigningParams::from_suri("//Dave", None).unwrap(); let signature = rialto_signer.signer.sign(&digest); assert!(signature.verify(&digest[..], &rialto_signer.signer.public())); } #[test] fn rialto_signature_is_valid_on_millau() { let rialto_sign = relay_rialto_client::SigningParams::from_suri("//Dave", None).unwrap(); let call = millau_runtime::Call::System(millau_runtime::SystemCall::remark(vec![])); let rialto_public: bp_rialto::AccountSigner = rialto_sign.signer.public().clone().into(); let rialto_account_id: bp_rialto::AccountId = rialto_public.into_account(); let digest = rialto_runtime::millau_account_ownership_digest( &call, rialto_account_id, millau_runtime::VERSION.spec_version, ); let millau_signer = relay_millau_client::SigningParams::from_suri("//Dave", None).unwrap(); let signature = millau_signer.signer.sign(&digest); assert!(signature.verify(&digest[..], &millau_signer.signer.public())); } #[test] fn maximal_rialto_to_millau_message_arguments_size_is_computed_correctly() { use rialto_runtime::millau_messages::Millau; let maximal_remark_size = compute_maximal_message_arguments_size(bp_rialto::max_extrinsic_size(), bp_millau::max_extrinsic_size()); let call: millau_runtime::Call = millau_runtime::SystemCall::remark(vec![42; maximal_remark_size as _]).into(); let payload = message_payload( Default::default(), call.get_dispatch_info().weight, pallet_bridge_call_dispatch::CallOrigin::SourceRoot, &call, ); assert_eq!(Millau::verify_message(&payload), Ok(())); let call: millau_runtime::Call = millau_runtime::SystemCall::remark(vec![42; (maximal_remark_size + 1) as _]).into(); let payload = message_payload( Default::default(), call.get_dispatch_info().weight, pallet_bridge_call_dispatch::CallOrigin::SourceRoot, &call, ); assert!(Millau::verify_message(&payload).is_err()); } #[test] fn maximal_size_remark_to_rialto_is_generated_correctly() { assert!( bridge_runtime_common::messages::target::maximal_incoming_message_size( bp_rialto::max_extrinsic_size() ) > bp_millau::max_extrinsic_size(), "We can't actually send maximal messages to Rialto from Millau, because Millau extrinsics can't be that large", ) } #[test] fn maximal_rialto_to_millau_message_dispatch_weight_is_computed_correctly() { use rialto_runtime::millau_messages::Millau; let maximal_dispatch_weight = compute_maximal_message_dispatch_weight(bp_millau::max_extrinsic_weight()); let call: millau_runtime::Call = rialto_runtime::SystemCall::remark(vec![]).into(); let payload = message_payload( Default::default(), maximal_dispatch_weight, pallet_bridge_call_dispatch::CallOrigin::SourceRoot, &call, ); assert_eq!(Millau::verify_message(&payload), Ok(())); let payload = message_payload( Default::default(), maximal_dispatch_weight + 1, pallet_bridge_call_dispatch::CallOrigin::SourceRoot, &call, ); assert!(Millau::verify_message(&payload).is_err()); } #[test] fn maximal_weight_fill_block_to_rialto_is_generated_correctly() { use millau_runtime::rialto_messages::Rialto; let maximal_dispatch_weight = compute_maximal_message_dispatch_weight(bp_rialto::max_extrinsic_weight()); let call: rialto_runtime::Call = millau_runtime::SystemCall::remark(vec![]).into(); let payload = message_payload( Default::default(), maximal_dispatch_weight, pallet_bridge_call_dispatch::CallOrigin::SourceRoot, &call, ); assert_eq!(Rialto::verify_message(&payload), Ok(())); let payload = message_payload( Default::default(), maximal_dispatch_weight + 1, pallet_bridge_call_dispatch::CallOrigin::SourceRoot, &call, ); assert!(Rialto::verify_message(&payload).is_err()); } }