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CustomChanIbcApp.sol
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CustomChanIbcApp.sol
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//SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.9;
import '@open-ibc/vibc-core-smart-contracts/contracts/libs/Ibc.sol';
import '@open-ibc/vibc-core-smart-contracts/contracts/interfaces/IbcReceiver.sol';
import '@open-ibc/vibc-core-smart-contracts/contracts/interfaces/IbcDispatcher.sol';
import '@open-ibc/vibc-core-smart-contracts/contracts/interfaces/ProofVerifier.sol';
// CustomChanIbcApp is a contract that can be used as a base contract
// for IBC-enabled contracts that send packets over a custom IBC channel.
contract CustomChanIbcApp is IbcReceiverBase, IbcReceiver {
// received packet as chain B
IbcPacket[] public recvedPackets;
// received ack packet as chain A
AckPacket[] public ackPackets;
// received timeout packet as chain A
IbcPacket[] public timeoutPackets;
struct ChannelMapping {
bytes32 channelId;
bytes32 cpChannelId;
}
// ChannelMapping array with the channel IDs of the connected channels
ChannelMapping[] public connectedChannels;
// add supported versions (format to be negotiated between apps)
string[] supportedVersions = ['1.0'];
constructor(IbcDispatcher _dispatcher) IbcReceiverBase(_dispatcher) {}
function updateDispatcher(IbcDispatcher _dispatcher) external onlyOwner {
dispatcher = _dispatcher;
}
function getConnectedChannels() external view returns (ChannelMapping[] memory) {
return connectedChannels;
}
function updateSupportedVersions(string[] memory _supportedVersions) external onlyOwner {
supportedVersions = _supportedVersions;
}
/**
* @dev Implement a function to send a packet that calls the dispatcher.sendPacket function
* It has the following function handle:
* function sendPacket(bytes32 channelId, bytes calldata payload, uint64 timeoutTimestamp) external;
*/
/**
* @dev Packet lifecycle callback that implements packet receipt logic and returns and acknowledgement packet.
* MUST be overriden by the inheriting contract.
*
* @param packet the IBC packet encoded by the source and relayed by the relayer.
*/
function onRecvPacket(IbcPacket memory packet) external virtual onlyIbcDispatcher returns (AckPacket memory ackPacket) {
recvedPackets.push(packet);
// do logic
return AckPacket(true, abi.encodePacked('{ "account": "account", "reply": "got the message" }'));
}
/**
* @dev Packet lifecycle callback that implements packet acknowledgment logic.
* MUST be overriden by the inheriting contract.
*
* @param packet the IBC packet encoded by the source and relayed by the relayer.
* @param ack the acknowledgment packet encoded by the destination and relayed by the relayer.
*/
function onAcknowledgementPacket(IbcPacket calldata packet, AckPacket calldata ack) external virtual onlyIbcDispatcher {
ackPackets.push(ack);
// do logic
}
/**
* @dev Packet lifecycle callback that implements packet receipt logic and return and acknowledgement packet.
* MUST be overriden by the inheriting contract.
* NOT SUPPORTED YET
*
* @param packet the IBC packet encoded by the counterparty and relayed by the relayer
*/
function onTimeoutPacket(IbcPacket calldata packet) external virtual onlyIbcDispatcher {
timeoutPackets.push(packet);
// do logic
}
/**
* @dev Create a custom channel between two IbcReceiver contracts
* @param local a CounterParty struct with the local chain's portId and version (channelId can be empty)
* @param ordering the channel ordering (NONE, UNORDERED, ORDERED) equivalent to (0, 1, 2)
* @param feeEnabled in production, you'll want to enable this to avoid spamming create channel calls (costly for relayers)
* @param connectionHops 2 connection hops to connect to the destination via Polymer
* @param counterparty the address of the destination chain contract you want to connect to
* @param proof ICS23 proof struct with dummy data (only needed on ChanOpenTry)
*/
function createChannel(
CounterParty calldata local,
uint8 ordering,
bool feeEnabled,
string[] calldata connectionHops,
CounterParty calldata counterparty,
Ics23Proof calldata proof
) external virtual onlyOwner{
dispatcher.openIbcChannel(
IbcChannelReceiver(address(this)),
local,
ChannelOrder(ordering),
feeEnabled,
connectionHops,
counterparty,
proof
);
}
function onOpenIbcChannel(
string calldata version,
ChannelOrder,
bool,
string[] calldata,
CounterParty calldata counterparty
) external view virtual onlyIbcDispatcher returns (string memory selectedVersion) {
if (bytes(counterparty.portId).length <= 8) {
revert invalidCounterPartyPortId();
}
/**
* Version selection is determined by if the callback is invoked on behalf of ChanOpenInit or ChanOpenTry.
* ChanOpenInit: self version should be provided whereas the counterparty version is empty.
* ChanOpenTry: counterparty version should be provided whereas the self version is empty.
* In both cases, the selected version should be in the supported versions list.
*/
bool foundVersion = false;
selectedVersion = keccak256(abi.encodePacked(version)) == keccak256(abi.encodePacked(''))
? counterparty.version
: version;
for (uint256 i = 0; i < supportedVersions.length; i++) {
if (keccak256(abi.encodePacked(selectedVersion)) == keccak256(abi.encodePacked(supportedVersions[i]))) {
foundVersion = true;
break;
}
}
require(foundVersion, 'Unsupported version');
// if counterpartyVersion is not empty, then it must be the same foundVersion
if (keccak256(abi.encodePacked(counterparty.version)) != keccak256(abi.encodePacked(''))) {
require(
keccak256(abi.encodePacked(counterparty.version)) == keccak256(abi.encodePacked(selectedVersion)),
'Version mismatch'
);
}
// do logic
return selectedVersion;
}
function onConnectIbcChannel(
bytes32 channelId,
bytes32 counterpartyChannelId,
string calldata counterpartyVersion
) external virtual onlyIbcDispatcher {
// ensure negotiated version is supported
bool foundVersion = false;
for (uint256 i = 0; i < supportedVersions.length; i++) {
if (keccak256(abi.encodePacked(counterpartyVersion)) == keccak256(abi.encodePacked(supportedVersions[i]))) {
foundVersion = true;
break;
}
}
require(foundVersion, 'Unsupported version');
// do logic
ChannelMapping memory channelMapping = ChannelMapping({
channelId: channelId,
cpChannelId: counterpartyChannelId
});
connectedChannels.push(channelMapping);
}
function onCloseIbcChannel(bytes32 channelId, string calldata, bytes32) external virtual onlyIbcDispatcher {
// logic to determin if the channel should be closed
bool channelFound = false;
for (uint256 i = 0; i < connectedChannels.length; i++) {
if (connectedChannels[i].channelId == channelId) {
for (uint256 j = i; j < connectedChannels.length - 1; j++) {
connectedChannels[j] = connectedChannels[j + 1];
}
connectedChannels.pop();
channelFound = true;
break;
}
}
require(channelFound, 'Channel not found');
// do logic
}
/**
* This func triggers channel closure from the dApp.
* Func args can be arbitary, as long as dispatcher.closeIbcChannel is invoked propperly.
*/
function triggerChannelClose(bytes32 channelId) external virtual onlyOwner {
dispatcher.closeIbcChannel(channelId);
}
}