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wormhole/cosmwasm/deployment/terra2/test/src/__tests__/bridge.ts

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import {
getEmitterAddressTerra,
parseSequenceFromLogTerra,
setDefaultWasm,
} from "@certusone/wormhole-sdk";
import { Bech32, toHex } from "@cosmjs/encoding";
import { describe, expect, jest, test } from "@jest/globals";
import {
Int,
MsgExecuteContract,
MsgUpdateContractAdmin,
} from "@terra-money/terra.js";
import { keccak256 } from "ethers/lib/utils";
import {
getNativeBalance,
makeProviderAndWallet,
transactWithoutMemo,
} from "../helpers/client";
import { computeGasPaid, parseEventsFromLog } from "../helpers/receipt";
import {
makeGovernanceVaaPayload,
makeTransferVaaPayload,
signAndEncodeVaa,
TEST_SIGNER_PKS,
} from "../helpers/vaa";
import { deploy, deployWithCodeID, storeCode } from "../instantiate";
setDefaultWasm("node");
jest.setTimeout(60000);
const GOVERNANCE_CHAIN = 1;
const GOVERNANCE_ADDRESS =
"0000000000000000000000000000000000000000000000000000000000000004";
const FOREIGN_CHAIN = 2;
const FOREIGN_TOKEN_BRIDGE =
"0000000000000000000000000290FB167208Af455bB137780163b7B7a9a10C16";
const GUARDIAN_SET_INDEX = 0;
const GUARDIAN_ADDRESS = Buffer.from(
"beFA429d57cD18b7F8A4d91A2da9AB4AF05d0FBe",
"hex"
).toString("base64");
const LUNA_ADDRESS =
"01" + keccak256(Buffer.from("uluna", "utf-8")).substring(4); // cut off 0x56 (0x prefix - 1 byte)
const MCK_TOKEN_ID =
"00" +
keccak256(
Buffer.from(
"terra1zwv6feuzhy6a9wekh96cd57lsarmqlwxdypdsplw6zhfncqw6ftqynf7kp",
"utf-8"
)
).substring(4);
const CONSISTENCY_LEVEL = 0;
const CHAIN_ID = 18;
const WASM_WORMHOLE = "../artifacts/wormhole.wasm";
const WASM_SHUTDOWN_WORMHOLE =
"../artifacts/shutdown_core_bridge_cosmwasm.wasm";
const WASM_WRAPPED_ASSET = "../artifacts/cw20_wrapped_2.wasm";
const WASM_TOKEN_BRIDGE = "../artifacts/token_bridge_terra_2.wasm";
const WASM_SHUTDOWN_TOKEN_BRIDGE =
"../artifacts/shutdown_token_bridge_cosmwasm.wasm";
const WASM_MOCK_BRIDGE_INTEGRATION =
"../artifacts/mock_bridge_integration_2.wasm";
const WASM_CW20 = "../artifacts/cw20_base.wasm";
// global map of contract addresses for all tests
const contracts = new Map<string, string>();
// global map of contract code IDs
const code_ids = new Map<string, number>();
// The below was generated with:
// ```worm generate upgrade -g cfb12303a19cde580bb4dd771639b0d26bc68353645571a8cff516ab2ee113a0 -c terra2 -a 11 -m Core```
const TO_CORE_11_VAA =
"01000000000100de73c57650595dc5de301b13d64f0843b9bf4a6ee7c7a8adfc6524cdc5d3e5642ee6fd2745e685a534d2c2f73701843c8f41c74ec78d0edee158f6e274064dea0000000001000000010001000000000000000000000000000000000000000000000000000000000000000400000000002a2e970000000000000000000000000000000000000000000000000000000000436f7265010012000000000000000000000000000000000000000000000000000000000000000b";
// The below was generated with:
// ```worm generate upgrade -g cfb12303a19cde580bb4dd771639b0d26bc68353645571a8cff516ab2ee113a0 -c terra2 -a 16 -m Core```
const TO_CORE_16_VAA =
"01000000000100dbc8e67e8fdc640d3e7a06b75a5127ae70b733505c68000a311c24ecbb7616575519b6e9b52376a9b3f121dd6c97494d2942cae680c6d52eb8b7573636d68f0200000000010000000100010000000000000000000000000000000000000000000000000000000000000004000000000453a8f60000000000000000000000000000000000000000000000000000000000436f72650100120000000000000000000000000000000000000000000000000000000000000010";
// The below was generated with:
// ```worm generate upgrade -g cfb12303a19cde580bb4dd771639b0d26bc68353645571a8cff516ab2ee113a0 -c terra2 -a 13 -m TokenBridge```
const TO_TB_13_VAA =
"010000000001004f8c4a920e8b413fbd3ec90fdb22b9ec71470a5a0073c770887cdf94fbedd1ff148d8432977b76d6a79ef828dd3ae9a46a8f99e9cd344264d612c206d5eff2660000000001000000010001000000000000000000000000000000000000000000000000000000000000000400000000058a2ea000000000000000000000000000000000000000000000546f6b656e427269646765020012000000000000000000000000000000000000000000000000000000000000000d";
// The below was generated with:
// ```worm generate upgrade -g cfb12303a19cde580bb4dd771639b0d26bc68353645571a8cff516ab2ee113a0 -c terra2 -a 17 -m TokenBridge```
const TO_TB_17_VAA =
"010000000001004202bfeca22cdff5a24deffee5bcf80574d213f4061b57b3f55bec314c86e37a76f8a05c5aaae3a3f8d7df366d432578c2a9ac64a555f41405f5b66b125d9fef010000000100000001000100000000000000000000000000000000000000000000000000000000000000040000000002746a6300000000000000000000000000000000000000000000546f6b656e4272696467650200120000000000000000000000000000000000000000000000000000000000000011";
/*
Mirror ethereum/test/bridge.js
> should be initialized with the correct signers and values
> should register a foreign bridge implementation correctly
> should accept a valid upgrade
> bridged tokens should only be mint- and burn-able by owner (??)
> should attest a token correctly
> should correctly deploy a wrapped asset for a token attestation
> should correctly update a wrapped asset for a token attestation
> should deposit and log transfers correctly
> should deposit and log fee token transfers correctly
> should transfer out locked assets for a valid transfer vm
> should deposit and log transfer with payload correctly
> should transfer out locked assets for a valid transfer with payload vm
> should mint bridged assets wrappers on transfer from another chain and handle fees correctly
> should handle additional data on token bridge transfer with payload in single transaction when feeRecipient == transferRecipient
> should not allow a redemption from msg.sender other than 'to' on token bridge transfer with payload
> should allow a redemption from msg.sender == 'to' on token bridge transfer with payload and check that sender recieves fee
> should burn bridged assets wrappers on transfer to another chain
> should handle ETH deposits correctly (uluna)
> should handle ETH withdrawals and fees correctly (uluna)
> should handle ETH deposits with payload correctly (uluna)
> should handle ETH withdrawals with payload correctly (uluna)
> should revert on transfer out of a total of > max(uint64) tokens
*/
test("LUNA Hashing", () => {
const knownLuna =
"01fa6c6fbc36d8c245b0a852a43eb5d644e8b4c477b27bfab9537c10945939da";
expect(LUNA_ADDRESS).toBe(knownLuna);
});
test("MCK Hashing", () => {
const knownMck =
"007160d54c6dabbf464c2f9d95d42f4a30aa6ab2da6c71363917e418c4abe689";
expect(MCK_TOKEN_ID).toBe(knownMck);
});
test("Deploy Contracts", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const governanceAddress = Buffer.from(GOVERNANCE_ADDRESS, "hex").toString(
"base64"
);
// wormhole
const wormhole_code = await storeCode(client, wallet, WASM_WORMHOLE); // 11
console.log("wormholeCode:", wormhole_code);
const wormhole = await deployWithCodeID(
client,
wallet,
{
gov_chain: GOVERNANCE_CHAIN,
gov_address: governanceAddress,
guardian_set_expirity: 86400,
initial_guardian_set: {
addresses: [
{
bytes: GUARDIAN_ADDRESS,
},
],
expiration_time: 0,
},
chain_id: 18,
fee_denom: "uluna",
},
"wormhole",
wormhole_code
);
console.log("wormhole deployed at", wormhole);
// token bridge
const wrappedAssetCodeId = await storeCode(
client,
wallet,
WASM_WRAPPED_ASSET
);
const tokenBridge_code = await storeCode(
client,
wallet,
WASM_TOKEN_BRIDGE
);
console.log("TB codeID:", tokenBridge_code); // 13
const tokenBridge = await deployWithCodeID(
client,
wallet,
{
gov_chain: GOVERNANCE_CHAIN,
gov_address: governanceAddress,
wormhole_contract: wormhole,
wrapped_asset_code_id: wrappedAssetCodeId,
chain_id: 18,
native_denom: "uluna",
native_symbol: "LUNA",
native_decimals: 6,
},
"tokenBridge",
tokenBridge_code
);
console.log("tokenBridge deployed at", tokenBridge);
// mock bridge integration
const mockBridgeIntegration = await deploy(
client,
wallet,
WASM_MOCK_BRIDGE_INTEGRATION,
{
token_bridge_contract: tokenBridge,
},
"mockBridgeIntegration"
);
console.log("mockBridgeIntegration deployed at", mockBridgeIntegration);
// test CW20
const cw20 = await deploy(
client,
wallet,
WASM_CW20,
{
name: "MOCK",
symbol: "MCK",
decimals: 6,
initial_balances: [
{
address: wallet.key.accAddress,
amount: "100000000",
},
],
mint: null,
},
"mock"
);
console.log("cw20 deployed at", cw20);
// Only need the code IDs for the shutdown contracts because
// we will only be upgrading the existing contracts.
// wormhole shutdown contract
const wormhole_shutdown_code = await storeCode(
client,
wallet,
WASM_SHUTDOWN_WORMHOLE
); //
console.log("shutdown wormholeCode:", wormhole_shutdown_code); // 16
// token bridge shutdown contract
const tokenBridge_shutdown_code = await storeCode(
client,
wallet,
WASM_SHUTDOWN_TOKEN_BRIDGE
);
console.log("shutdown TB codeID:", tokenBridge_shutdown_code); // 17
console.log("tokenBridge deployed at", tokenBridge);
contracts.set("wormhole", wormhole);
contracts.set("tokenBridge", tokenBridge);
contracts.set("mockBridgeIntegration", mockBridgeIntegration);
contracts.set("cw20", cw20);
code_ids.set("wormhole", wormhole_code);
code_ids.set("tokenBridge", tokenBridge_code);
code_ids.set("wrappedAsset", wrappedAssetCodeId);
code_ids.set("wormhole_shutdown", wormhole_shutdown_code);
code_ids.set("tokenBridge_shutdown", tokenBridge_shutdown_code);
done();
} catch (e) {
console.error(e);
done("Failed to Deploy Contracts");
}
})();
});
passOnceTests(false, 1);
alwaysPassTests(false, 1);
describe("Upgrade to shutdown contracts Tests", () => {
test("Set admin of contracts to themselves", (done) => {
(async () => {
const [client, wallet] = await makeProviderAndWallet();
try {
const corebridge = contracts.get("wormhole")!;
await wallet
.createAndSignTx({
msgs: [
new MsgUpdateContractAdmin(
wallet.key.accAddress,
corebridge,
corebridge
),
],
memo: "",
})
.then((tx) => client.tx.broadcast(tx))
.then((rs) => console.log(rs));
} catch (e) {
console.error(e);
done("Failed to set admin of core bridge to itself");
}
try {
const tokenbridge = contracts.get("tokenBridge")!;
await wallet
.createAndSignTx({
msgs: [
new MsgUpdateContractAdmin(
wallet.key.accAddress,
tokenbridge,
tokenbridge
),
],
memo: "",
})
.then((tx) => client.tx.broadcast(tx))
.then((rs) => console.log(rs));
done();
} catch (e) {
console.error(e);
done("Failed to set admin of token bridge to itself");
}
})();
});
test("Upgrade to shutdown contracts", (done) => {
(async () => {
const [client, wallet] = await makeProviderAndWallet();
try {
const corebridge = contracts.get("wormhole")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
corebridge,
{
submit_v_a_a: {
vaa: Buffer.from(TO_CORE_16_VAA, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [submitVaa]);
} catch (e) {
console.error(e);
done("Failed to upgrade core bridge to shutdown");
}
try {
const tokenbridge = contracts.get("tokenBridge")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
tokenbridge,
{
submit_vaa: {
data: Buffer.from(TO_TB_17_VAA, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [submitVaa]);
done();
} catch (e) {
console.error(e);
done("Failed to upgrade token bridge to shutdown");
}
})();
});
});
alwaysPassTests(true, 2);
passOnceTests(true, 2);
failInShutdownModeTests(true, 1);
describe("Upgrade to previous non-shutdown contracts Tests", () => {
test("Upgrade to normal contracts", (done) => {
(async () => {
const [client, wallet] = await makeProviderAndWallet();
try {
const corebridge = contracts.get("wormhole")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
corebridge,
{
submit_v_a_a: {
vaa: Buffer.from(TO_CORE_11_VAA, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [submitVaa]);
} catch (e) {
console.error(e);
done("Failed to upgrade core bridge to normal mode");
}
try {
const tokenbridge = contracts.get("tokenBridge")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
tokenbridge,
{
submit_vaa: {
data: Buffer.from(TO_TB_13_VAA, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [submitVaa]);
done();
} catch (e) {
console.error(e);
done("Failed to upgrade token bridge to normal mode");
}
})();
});
});
alwaysPassTests(false, 3);
passOnceTests(false, 2);
failInShutdownModeTests(false, 2);
function passOnceTests(shutdownMode: boolean, pass: number) {
const name: string =
"Pass Once Tests for " +
(shutdownMode ? "shutdown" : "non-shutdown") +
" contracts (pass " +
pass.toString() +
")";
describe(name, () => {
test("Register a Foreign Bridge Implementation", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const vaaPayload = makeGovernanceVaaPayload(
GOVERNANCE_CHAIN,
FOREIGN_CHAIN,
FOREIGN_TOKEN_BRIDGE
);
const timestamp = 1;
const nonce = 1;
const sequence = 0;
const signedVaa = signAndEncodeVaa(
timestamp,
nonce,
GOVERNANCE_CHAIN,
GOVERNANCE_ADDRESS,
sequence,
vaaPayload,
TEST_SIGNER_PKS,
GUARDIAN_SET_INDEX,
CONSISTENCY_LEVEL
);
const tokenBridge = contracts.get("tokenBridge")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
tokenBridge,
{
submit_vaa: {
data: Buffer.from(signedVaa, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [
submitVaa,
]);
if (pass > 1) {
console.error(
"Register a Foreign Bridge Implementation should have failed. VAA already executed."
);
done(
"Register a Foreign Bridge Implementation should have failed. VAA already executed."
);
} else {
done();
}
} catch (e) {
if (pass === 1) {
console.error(e);
done("Failed to Register a Foreign Bridge Implementation");
} else {
done();
}
}
})();
});
});
}
function failInShutdownModeTests(shutdownMode: boolean, pass: number) {
const name: string =
"Shutdown mode Tests for " +
(shutdownMode ? "shutdown" : "non-shutdown") +
" contracts (pass " +
pass.toString() +
")";
describe(name, () => {
test("Post a Message", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const wormhole = contracts.get("wormhole")!;
const postMessage = new MsgExecuteContract(
wallet.key.accAddress,
wormhole,
{
post_message: {
message: Buffer.from("0001020304050607", "hex").toString(
"base64"
),
nonce: 69,
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [
postMessage,
]);
const seq0 = parseSequenceFromLogTerra(receipt as any);
expect(seq0).toBe("0");
const receipt2 = await transactWithoutMemo(client, wallet, [
postMessage,
]);
const seq1 = parseSequenceFromLogTerra(receipt2 as any);
expect(seq1).toBe("1");
if (shutdownMode) {
console.error(
"Post a Message should have failed in shutdown mode."
);
done("Post a Message should have failed in shutdown");
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Post a Message");
} else {
done();
}
}
})();
});
test("Register a Foreign Asset", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const signedVaa =
"01000000000100efccb8a5d54162691095c88369b873d93ed4ba9365ed0f94adcf39743bb034be56ce0a94d9b163cb0c63be24b94e31b75e1a5889e3de03db147278d9d3eb7d260100000992abb6000000020000000000000000000000000290fb167208af455bb137780163b7b7a9a10c16000000000000000d0f020000000000000000000000002d8be6bf0baa74e0a907016679cae9190e80dd0a000212544b4e0000000000000000000000000000000000000000000000000000000000457468657265756d205465737420546f6b656e00000000000000000000000000";
const tokenBridge = contracts.get("tokenBridge")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
tokenBridge,
{
submit_vaa: {
data: Buffer.from(signedVaa, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [
submitVaa,
]);
console.log(receipt);
if (shutdownMode) {
console.error(
"Register a Foreign Asset should have failed in shutdown mode."
);
done("Register a Foreign Asset should have failed in shutdown");
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Register a Foreign Asset");
} else {
done();
}
}
})();
});
test("Update a Foreign Asset", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const signedVaa =
"01000000000100d1389731568d9816267accba90abb9db37dcd09738750fae421067f2f7f33f014c2d862e288e9a3149e2d8bcd2e53ffe2ed72dfc5e8eb50c740a0df34c60103f01000011ac2076010000020000000000000000000000000290fb167208af455bb137780163b7b7a9a10c16000000000000000e0f020000000000000000000000002d8be6bf0baa74e0a907016679cae9190e80dd0a000212544b4e0000000000000000000000000000000000000000000000000000000000457468657265756d205465737420546f6b656e00000000000000000000000000";
const tokenBridge = contracts.get("tokenBridge")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
tokenBridge,
{
submit_vaa: {
data: Buffer.from(signedVaa, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [
submitVaa,
]);
console.log(receipt);
if (shutdownMode) {
console.error(
"Update a Foreign Asset should have failed in shutdown mode."
);
done("Update a Foreign Asset should have failed in shutdown");
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Update a Foreign Asset");
} else {
done();
}
}
})();
});
test("Initiate Transfer (native denom)", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const tokenBridge = contracts.get("tokenBridge")!;
// transfer uluna
const denom = "uluna";
const recipientAddress =
"0000000000000000000000004206942069420694206942069420694206942069";
const amount = "100000000"; // one benjamin
const relayerFee = "1000000"; // one dolla
const walletAddress = wallet.key.accAddress;
// need to deposit before initiating transfer
const deposit = new MsgExecuteContract(
wallet.key.accAddress,
tokenBridge,
{
deposit_tokens: {},
},
{ [denom]: amount }
);
const initiateTransfer = new MsgExecuteContract(
walletAddress,
tokenBridge as string,
{
initiate_transfer: {
asset: {
amount,
info: {
native_token: {
denom,
},
},
},
recipient_chain: 2,
recipient: Buffer.from(recipientAddress, "hex").toString(
"base64"
),
fee: relayerFee,
nonce: 69,
},
}
);
// check balances
const balanceBefore = await getNativeBalance(
client,
tokenBridge,
denom
);
// execute outbound transfer
await transactWithoutMemo(client, wallet, [deposit]);
const receipt = await transactWithoutMemo(client, wallet, [
initiateTransfer,
]);
const balanceAfter = await getNativeBalance(
client,
tokenBridge,
denom
);
expect(balanceBefore.add(amount).eq(balanceAfter)).toBeTruthy();
if (shutdownMode) {
console.error(
"Initiate Transfer (native denom) should have failed in shutdown mode."
);
done(
"Initiate Transfer (native denom) should have failed in shutdown"
);
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Initiate Transfer (native denom)");
} else {
done();
}
}
})();
});
test("Complete Transfer (native denom)", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const tokenBridge = contracts.get("tokenBridge")!;
const denom = "uluna";
const amount = "100000000"; // one benjamin
const relayerFee = "1000000"; // one dolla
const walletAddress = wallet.key.accAddress;
const recipient = "terra17lmam6zguazs5q5u6z5mmx76uj63gldnse2pdp"; // test2
const encodedTo = nativeToHex(recipient);
const vaaPayload = makeTransferVaaPayload(
1,
amount,
LUNA_ADDRESS,
encodedTo,
CHAIN_ID,
relayerFee,
undefined
);
const timestamp = 0;
const nonce = 0;
const sequence = 0;
const signedVaa = signAndEncodeVaa(
timestamp,
nonce,
FOREIGN_CHAIN,
FOREIGN_TOKEN_BRIDGE,
sequence,
vaaPayload,
TEST_SIGNER_PKS,
GUARDIAN_SET_INDEX,
CONSISTENCY_LEVEL
);
// check balances
const walletBalanceBefore = await getNativeBalance(
client,
walletAddress,
denom
);
const recipientBalanceBefore = await getNativeBalance(
client,
recipient,
denom
);
const bridgeBalanceBefore = await getNativeBalance(
client,
tokenBridge,
denom
);
const submitVaa = new MsgExecuteContract(walletAddress, tokenBridge, {
submit_vaa: {
data: Buffer.from(signedVaa, "hex").toString("base64"),
},
});
// execute outbound transfer with signed vaa
const receipt = await transactWithoutMemo(client, wallet, [
submitVaa,
]);
// check wallet (relayer) balance change
const walletBalanceAfter = await getNativeBalance(
client,
walletAddress,
denom
);
const gasPaid = computeGasPaid(receipt);
const walletExpectedChange = new Int(relayerFee).sub(gasPaid);
// due to rounding, we should expect the balances to reconcile
// within 1 unit (equivalent to 1e-6 uluna). Best-case scenario
// we end up with slightly more balance than expected
const reconciled = walletBalanceAfter
.minus(walletExpectedChange)
.minus(walletBalanceBefore);
expect(
reconciled.greaterThanOrEqualTo("0") &&
reconciled.lessThanOrEqualTo("1")
).toBeTruthy();
const recipientBalanceAfter = await getNativeBalance(
client,
recipient,
denom
);
const recipientExpectedChange = new Int(amount).sub(relayerFee);
expect(
recipientBalanceBefore
.add(recipientExpectedChange)
.eq(recipientBalanceAfter)
).toBeTruthy();
// check bridge balance change
const bridgeExpectedChange = new Int(amount);
const bridgeBalanceAfter = await getNativeBalance(
client,
tokenBridge,
denom
);
expect(
bridgeBalanceBefore.sub(bridgeExpectedChange).eq(bridgeBalanceAfter)
).toBeTruthy();
if (shutdownMode) {
console.error(
"Complete Transfer (native denom) should have failed in shutdown mode."
);
done(
"Complete Transfer (native denom) should have failed in shutdown"
);
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Complete Transfer (native denom)");
} else {
done();
}
}
})();
});
// transfer with payload tests
test("Initiate Transfer With Payload (native denom)", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const tokenBridge = contracts.get("tokenBridge")!;
// transfer uluna
const denom = "uluna";
const recipientAddress =
"0000000000000000000000004206942069420694206942069420694206942069";
const amount = "100000000"; // one benjamin
const relayerFee = "1000000"; // one dolla
const myPayload = "ABC";
const walletAddress = wallet.key.accAddress;
// need to deposit before initiating transfer
const deposit = new MsgExecuteContract(
walletAddress,
tokenBridge,
{
deposit_tokens: {},
},
{ [denom]: amount }
);
const initiateTransferWithPayload = new MsgExecuteContract(
walletAddress,
tokenBridge as string,
{
initiate_transfer_with_payload: {
asset: {
amount,
info: {
native_token: {
denom,
},
},
},
recipient_chain: 2,
recipient: Buffer.from(recipientAddress, "hex").toString(
"base64"
),
fee: relayerFee,
payload: Buffer.from(myPayload, "ascii").toString("base64"),
nonce: 69,
},
}
);
// check balances
const balanceBefore = await getNativeBalance(
client,
tokenBridge,
denom
);
// execute outbound transfer with payload
const receipt = await transactWithoutMemo(client, wallet, [
deposit,
initiateTransferWithPayload,
]);
console.log(receipt);
const jsonLog = JSON.parse(receipt.raw_log);
let message = "";
jsonLog.map((row: any) => {
row.events.map((event: any) => {
event.attributes.map((attribute: any) => {
if (attribute.key === "message.message") {
message = attribute.value;
}
});
});
});
// payload type
let last = 0;
let len = 2;
expect(message.substring(last, last + len)).toEqual("03");
last += len;
// amount
len = 64;
expect(message.substring(last, last + len)).toEqual(
"0000000000000000000000000000000000000000000000000000000005f5e100"
);
last += len;
// token address
len = 64;
expect(message.substring(last, last + len)).toEqual(
"01fa6c6fbc36d8c245b0a852a43eb5d644e8b4c477b27bfab9537c10945939da"
);
last += len;
// token chain
len = 4;
expect(message.substring(last, last + len)).toEqual("0012");
last += len;
// recipient address
len = 64;
expect(message.substring(last, last + len)).toEqual(
"0000000000000000000000004206942069420694206942069420694206942069"
);
last += len;
// recipient chain
len = 4;
expect(message.substring(last, last + len)).toEqual("0002");
last += len;
// sender address
len = 64;
expect(message.substring(last, last + len)).toEqual(
await getEmitterAddressTerra(walletAddress)
);
last += len;
// payload
expect(message.substring(last)).toEqual(
Buffer.from(myPayload, "ascii").toString("hex")
);
const balanceAfter = await getNativeBalance(
client,
tokenBridge,
denom
);
expect(balanceBefore.add(amount).eq(balanceAfter)).toBeTruthy();
if (shutdownMode) {
console.error(
"Initiate Transfer With Payload (native denom) should have failed in shutdown mode."
);
done(
"Initiate Transfer With Payload (native denom) should have failed in shutdown"
);
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Initiate Transfer With Payload (native denom)");
} else {
done();
}
}
})();
});
test("Complete Transfer With Payload (native denom)", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const tokenBridge = contracts.get("tokenBridge")!;
const mockBridgeIntegration = contracts.get("mockBridgeIntegration")!;
const denom = "uluna";
const amount = "100000000"; // one benjamin
const relayerFee = "1000000"; // one dolla
const walletAddress = wallet.key.accAddress;
const encodedTo = nativeToHex(mockBridgeIntegration);
const additionalPayload = "All your base are belong to us";
const vaaPayload = makeTransferVaaPayload(
3,
amount,
LUNA_ADDRESS,
encodedTo,
CHAIN_ID,
relayerFee, // now sender_address
additionalPayload
);
const timestamp = 1;
const nonce = 1;
const sequence = 2;
const signedVaa = signAndEncodeVaa(
timestamp,
nonce,
FOREIGN_CHAIN,
FOREIGN_TOKEN_BRIDGE,
sequence,
vaaPayload,
TEST_SIGNER_PKS,
GUARDIAN_SET_INDEX,
CONSISTENCY_LEVEL
);
// check balances before execute
const contractBalanceBefore = await getNativeBalance(
client,
mockBridgeIntegration,
denom
);
const bridgeBalanceBefore = await getNativeBalance(
client,
tokenBridge,
denom
);
const submitVaa = new MsgExecuteContract(
walletAddress,
mockBridgeIntegration,
{
complete_transfer_with_payload: {
data: Buffer.from(signedVaa, "hex").toString("base64"),
},
}
);
// execute outbound transfer with signed vaa
const receipt = await transactWithoutMemo(client, wallet, [
submitVaa,
]);
// check contract balance change
const contractBalanceAfter = await getNativeBalance(
client,
mockBridgeIntegration,
denom
);
const contractExpectedChange = new Int(amount);
expect(
contractBalanceBefore
.add(contractExpectedChange)
.eq(contractBalanceAfter)
).toBeTruthy();
// cehck bridge balance change
const bridgeExpectedChange = new Int(amount);
const bridgeBalanceAfter = await getNativeBalance(
client,
tokenBridge,
denom
);
expect(
bridgeBalanceBefore.sub(bridgeExpectedChange).eq(bridgeBalanceAfter)
).toBeTruthy();
// verify payload
const events = parseEventsFromLog(receipt);
const response: any[] = events.find((event) => {
return event.type == "wasm";
}).attributes;
const transferPayloadResponse = response.find((item) => {
return item.key == "transfer_payload";
});
expect(
Buffer.from(transferPayloadResponse.value, "base64").toString()
).toEqual(additionalPayload);
if (shutdownMode) {
console.error(
"Complete Transfer With Payload (native denom) should have failed in shutdown mode."
);
done(
"Complete Transfer With Payload (native denom) should have failed in shutdown"
);
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Complete Transfer With Payload (native denom)");
} else {
done();
}
}
})();
});
test("Throw on Complete Transfer With Payload If Someone Else Redeems VAA", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const tokenBridge = contracts.get("tokenBridge")!;
const mockBridgeIntegration = contracts.get("mockBridgeIntegration")!;
const denom = "uluna";
const amount = "100000000"; // one benjamin
const relayerFee = "1000000"; // one dolla
const walletAddress = wallet.key.accAddress;
const encodedTo = nativeToHex(mockBridgeIntegration);
const additionalPayload = "All your base are belong to us";
const vaaPayload = makeTransferVaaPayload(
3,
amount,
LUNA_ADDRESS,
encodedTo,
CHAIN_ID,
relayerFee,
additionalPayload
);
const timestamp = 1;
const nonce = 1;
const sequence = 3;
const signedVaa = signAndEncodeVaa(
timestamp,
nonce,
FOREIGN_CHAIN,
FOREIGN_TOKEN_BRIDGE,
sequence,
vaaPayload,
TEST_SIGNER_PKS,
GUARDIAN_SET_INDEX,
CONSISTENCY_LEVEL
);
let expectedErrorFound = false;
try {
const submitVaa = new MsgExecuteContract(
walletAddress,
tokenBridge,
{
complete_transfer_with_payload: {
data: Buffer.from(signedVaa, "hex").toString("base64"),
relayer: walletAddress,
},
}
);
// execute outbound transfer with signed vaa
const receipt = await transactWithoutMemo(client, wallet, [
submitVaa,
]);
} catch (e) {
const errorMsg: string = e.response.data.message;
expectedErrorFound = errorMsg.includes(
"transfers with payload can only be redeemed by the recipient"
);
}
expect(expectedErrorFound).toBeTruthy();
if (shutdownMode) {
console.error(
"Throw on Complete Transfer With Payload If Someone Else Redeems VAA should have failed in shutdown mode."
);
done(
"Throw on Complete Transfer With Payload If Someone Else Redeems VAA should have failed in shutdown"
);
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done(
"Failed to Throw on Complete Transfer With Payload If Someone Else Redeems VAA"
);
} else {
done();
}
}
})();
});
test("Attest a Native Asset", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const tokenBridge = contracts.get("tokenBridge")!;
const attest = new MsgExecuteContract(
wallet.key.accAddress,
tokenBridge,
{
create_asset_meta: {
asset_info: {
native_token: { denom: "uluna" },
},
nonce: 69,
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [attest]);
if (shutdownMode) {
console.error(
"Attest a Native Asset should have failed in shutdown mode."
);
done("Attest a Native Asset should have failed in shutdown");
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Attest a Native Asset");
} else {
done();
}
}
})();
});
test("Attest a CW20", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const tokenBridge = contracts.get("tokenBridge")!;
const attest = new MsgExecuteContract(
wallet.key.accAddress,
tokenBridge,
{
create_asset_meta: {
asset_info: {
token: {
contract_addr: contracts.get("cw20"),
},
},
nonce: 69,
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [attest]);
console.log(receipt);
if (shutdownMode) {
console.error("Attest a CW20 should have failed in shutdown mode.");
done("Attest a CW20 should have failed in shutdown");
} else {
done();
}
} catch (e) {
if (!shutdownMode) {
console.error(e);
done("Failed to Attest a CW20");
} else {
done();
}
}
})();
});
//
// This is the only test the gets rejected in shutdown mode (attestations are not allowed)
// and if it is run more than once (VAA already executed).
//
test("Register a Foreign Asset", (done) => {
(async () => {
try {
const [client, wallet] = await makeProviderAndWallet();
const signedVaa =
"01000000000100efccb8a5d54162691095c88369b873d93ed4ba9365ed0f94adcf39743bb034be56ce0a94d9b163cb0c63be24b94e31b75e1a5889e3de03db147278d9d3eb7d260100000992abb6000000020000000000000000000000000290fb167208af455bb137780163b7b7a9a10c16000000000000000d0f020000000000000000000000002d8be6bf0baa74e0a907016679cae9190e80dd0a000212544b4e0000000000000000000000000000000000000000000000000000000000457468657265756d205465737420546f6b656e00000000000000000000000000";
const tokenBridge = contracts.get("tokenBridge")!;
const submitVaa = new MsgExecuteContract(
wallet.key.accAddress,
tokenBridge,
{
submit_vaa: {
data: Buffer.from(signedVaa, "hex").toString("base64"),
},
}
);
const receipt = await transactWithoutMemo(client, wallet, [
submitVaa,
]);
console.log(receipt);
if (shutdownMode || pass > 1) {
console.error(
"Register a Foreign asset should have failed in shutdown mode."
);
done("Register a Foreign asset should have failed in shutdown");
} else {
done();
}
} catch (e) {
if (!shutdownMode && pass === 1) {
console.error(e);
done("Failed to Register a Foreign Asset");
} else {
done();
}
}
})();
});
});
}
function alwaysPassTests(shutdownMode: boolean, pass: number) {
const name: string =
"Bridge Tests for " +
(shutdownMode ? "shutdown" : "non-shutdown") +
" contracts (pass " +
pass.toString() +
")";
describe(name, () => {
test("Query GuardianSetInfo", (done) => {
(async () => {
try {
const [client] = await makeProviderAndWallet();
const wormhole = contracts.get("wormhole")!;
const result: any = await client.wasm.contractQuery(wormhole, {
guardian_set_info: {},
});
expect(result.guardian_set_index).toBe(0);
expect(result.addresses.length).toBe(1);
expect(result.addresses[0].bytes).toBe(GUARDIAN_ADDRESS);
done();
} catch (e) {
console.error(e);
done("Failed to Query GuardianSetInfo");
}
})();
});
test("Query State", (done) => {
(async () => {
try {
const [client] = await makeProviderAndWallet();
const wormhole = contracts.get("wormhole")!;
const result: any = await client.wasm.contractQuery(wormhole, {
get_state: {},
});
expect(result.fee.amount).toBe("0");
expect(result.fee.denom).toBe("uluna");
done();
} catch (e) {
console.error(e);
done("Failed to Query State");
}
})();
});
test("Query Token", (done) => {
(async () => {
try {
const [client] = await makeProviderAndWallet();
const cw20 = contracts.get("cw20")!;
const result: any = await client.wasm.contractQuery(cw20, {
token_info: {},
});
console.log(result);
done();
} catch (e) {
console.error(e);
done("Failed to Query Token");
}
})();
});
test("Query Chain Registration", (done) => {
(async () => {
try {
const [client] = await makeProviderAndWallet();
const tokenbridge = contracts.get("tokenBridge")!;
const result: any = await client.wasm.contractQuery(tokenbridge, {
chain_registration: {
chain: FOREIGN_CHAIN,
},
});
expect(result).toStrictEqual({
address: Buffer.from(FOREIGN_TOKEN_BRIDGE, "hex").toString("base64")
});
done();
} catch (e) {
console.error(e);
done("Failed to Query Chain Registration");
}
})();
});
});
}
function nativeToHex(address: string) {
return toHex(Bech32.decode(address).data).padStart(64, "0");
}
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