Add EIP-5164: Cross-Chain Execution (ethereum#5164)

* Added Cross-Chain Execution EIP * Integrated pull request review changes for EIP 5164 * Added discussion-to link * Updated EIP-5164 according to discussion - Supports public bridges - Make `relayCalls` payable - Add gas limit and caller - Added EIP feedback * Latest Pull Request changes * Changed ERC->EIP * EIP-5164: Fixed up for EIPW bot * EIP-5164: add ReceiverAware specification * EIP-5164: fix EIP-N linting * EIP-5164: improve CrossChainExecutor description * EIP-5164: improve ExecutorAware description Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: remove executor from relayCalls * EIP-5164: reword RelayCalls requirements Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: reword RelayedCalls requirements Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: reword GasLimitTooHigh requirements Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: reword Authentication requirements Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: reword Authentication requirements Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: reword CallFailure requirements Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: reword ExecutedCalls requirements Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: reword Security Considerations Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com> * EIP-5164: update rationale Co-authored-by: Pierrick Turelier <pierrick@turelier.com> Co-authored-by: Pandapip1 <45835846+Pandapip1@users.noreply.github.com>
nachomazzara · Jan 13, 2023 · babd8b6 · babd8b6
1 parent 7f5577a
commit babd8b6
Showing 1 changed file with 200 additions and 0 deletions.
diff --git a/EIPS/eip-5164.md b/EIPS/eip-5164.md
@@ -0,0 +1,200 @@
+---
+eip: 5164
+title: Cross-Chain Execution
+description: Defines an interface that supports execution across EVM networks.
+author: Brendan Asselstine (@asselstine), Pierrick Turelier (@PierrickGT), Anna Carroll (@anna-carroll), Hadrien Croubois (@Amxx), Nam Chu Hoai (@nambrot), Georgios (@geogons), Theo Gonella (@mintcloud), Rafael Solari (@rsolari), Auryn Macmillan (@auryn-macmillan), Nathan Ginnever (@nginnever)
+discussions-to: https://ethereum-magicians.org/t/eip-5164-cross-chain-execution/9658
+status: Draft
+type: Standards Track
+category: ERC
+created: 2022-06-14
+---
+
+## Abstract
+
+This specification defines a cross-chain execution interface for EVM-based blockchains. Developers will be able to have contracts call contracts on other chains. There are two parts to this spec: the "sending" interface and the "executing" interface. The "sending" interface specifies the interface to send a call to another chain; this interface must be implemented by bridges. The "executing" interface must be implemented by the application; it is an interface for executing cross-chain calls. This specification is agnostic of the bridge implementation; it simply standardizes the call interfaces.
+
+## Motivation
+
+Many Ethereum protocols need to coordinate state changes across multiple EVM-based blockchains. These chains often have native or third-party bridges that allow Ethereum contracts to execute code. However, bridges have different APIs so bridge integrations are custom. Each one affords different properties; with varying degrees of security, speed, and control.
+
+## Specification
+
+The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in this document are to be interpreted as described in RFC 2119.
+
+This specification allows contracts on one chain to send messages to contracts on another chain. There are two key interfaces that needs to be implemented:
+
+- `CrossChainRelayer`
+- `CrossChainExecutor`
+
+The `CrossChainRelayer` lives on the origin chain. Users can share a single `CrossChainRelayer` or deploy their own.
+
+The `CrossChainExecutor` lives on the destination chain and executes relayed calls. Users can share a single `CrossChainExecutor` or deploy their own.
+
+### CrossChainRelayer
+
+The `CrossChainRelayer` lives on the chain from which messages are sent. The Relayer's job is to broadcast the messages through a transport layer.
+
+#### Methods
+
+**relayCalls**
+
+`CrossChainRelayer`s MUST emit the `RelayedCalls` event when successfully called.
+
+`CrossChainRelayer`s MUST increment a `nonce` so that each batch of calls can be uniquely identified.
+
+`CrossChainRelayer`s MAY require payment.
+
+```solidity
+struct Call {
+  address target;
+  bytes data;
+}
+
+interface CrossChainRelayer {
+    function relayCalls(Call[] calldata calls, uint256 gasLimit) external payable;
+}
+```
+
+```yaml
+- name: relayCalls
+  type: function
+  stateMutability: payable
+  inputs:
+    - name: calls
+      type: Call[]
+    - name: gasLimit
+      type: uint256
+```
+
+#### Events
+
+**RelayedCalls**
+
+The `RelayedCalls` event MUST be emitted by the `CrossChainRelayer` when `relayCalls` is called.
+
+```solidity
+interface CrossChainRelayer {
+  event RelayedCalls(
+      uint256 indexed nonce,
+      address indexed sender,
+      CrossChainExecutor indexed executor,
+      Call[] calls,
+      uint256 gasLimit
+  );
+}
+```
+
+```yaml
+- name: RelayedCalls
+  type: event
+  inputs:
+    - name: nonce
+      indexed: true
+      type: uint256
+    - name: sender
+      indexed: true
+      type: address
+    - name: executor
+      indexed: true
+      type: address
+    - name: calls
+      type: Call[]
+    - name: gasLimit
+      type: uint256
+```
+
+#### Error handling
+
+**GasLimitTooHigh**
+
+`CrossChainRelayer`s MAY revert with `GasLimitTooHigh` if the `gasLimit` passed to `relayCalls` is higher than the maximum gas limit accepted by the bridge being used.
+
+```solidity
+interface CrossChainRelayer {
+  error GasLimitTooHigh(
+    uint256 gasLimit,
+    uint256 maxGasLimit
+  );
+}
+```
+
+### CrossChainExecutor
+
+The `CrossChainExecutor` executes relayed calls. Developers must implement a `CrossChainExecutor` in order to execute messages on the receiving chain.
+
+#### Authentication
+
+`CrossChainRelayer`s SHOULD authenticate that the call has been performed by the bridge transport layer.
+
+`CrossChainRelayer`s SHOULD use [EIP-2771](./eip-2771.md) for authentication and append the address of the Transaction Signer (20 bytes of data) on the origin chain to the end of the call data being executed.
+
+#### Error handling
+
+**CallFailure**
+
+`CrossChainRelayer`s SHOULD revert with `CallFailure` if a call fails.
+
+```solidity
+interface CrossChainExecutor {
+  error CallFailure(
+    Call call,
+    bytes errorData
+  );
+}
+```
+
+#### Events
+
+**ExecutedCalls**
+
+`ExecutedCalls` MUST be emitted once calls have been executed.
+
+```solidity
+interface CrossChainExecutor {
+  event ExecutedCalls(
+    CrossChainRelayer indexed relayer,
+    uint256 indexed nonce,
+    address indexed caller
+  );
+}
+```
+
+```yaml
+- name: ExecutedCalls
+  type: event
+  inputs:
+    - name: relayer
+      indexed: true
+      type: CrossChainRelayer
+    - name: nonce
+      indexed: true
+      type: uint256
+    - name: caller
+      indexed: true
+      type: address
+```
+
+### ExecutorAware
+
+The `ExecutorAware` interface follows [EIP-2771](./eip-2771.md) and allows applications to verify where the call originated from.
+
+## Rationale
+
+The Relayer address is passed to the executor so that the execution can easily be traced by a client using the relayer address and nonce. A third party just needs to be aware of a list of Relayers and a list of Executors and can trace execution across all of them.
+
+Calls are relayed in batches because it is such a common action. Rather than have implementors take different approaches to encoding multiple calls into the `data` portion, this spec includes call batching to take away any guess work.
+
+Some bridges may require payment in the native currency, so the `relayCalls` function is payable.
+
+## Backwards Compatibility
+
+This specification is compatible with existing governance systems as it offers simple cross-chain execution.
+
+## Security Considerations
+
+Bridge trust profiles are variable, so users must understand that bridge security depends on the implementation.
+
+## Copyright
+
+Copyright and related rights waived via [CC0](../LICENSE.md).