@project-serum/anchor#Wallet TypeScript Examples
The following examples show how to use
@project-serum/anchor#Wallet.
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Example #1
| Source File: index.ts From protocol with Apache License 2.0 | 6 votes |
|
export async function createMetadata(
program: anchor.Program,
user: anchor.web3.Keypair | Wallet,
): Promise<Metadata> {
const [metadataAddress, metadataNonce] = await getMetadataProgramAddress(
program,
user.publicKey,
);
const tx = await program.rpc.createMetadata(new anchor.BN(metadataNonce), {
accounts: {
user: user.publicKey,
metadata: metadataAddress,
rent: anchor.web3.SYSVAR_RENT_PUBKEY,
systemProgram: anchor.web3.SystemProgram.programId,
},
signers: 'secretKey' in user ? [user] : [],
});
await waitForFinality(program, tx);
return await getMetadata(program, user.publicKey);
}
Example #2
| Source File: index.ts From protocol with Apache License 2.0 | 6 votes |
|
export async function deleteMetadata(
program: anchor.Program,
user: anchor.web3.Keypair | Wallet,
): Promise<void> {
const [metadataAddress, metadataNonce] = await getMetadataProgramAddress(
program,
user.publicKey,
);
await program.rpc.closeMetadata(new anchor.BN(metadataNonce), {
accounts: {
user: user.publicKey,
metadata: metadataAddress,
rent: anchor.web3.SYSVAR_RENT_PUBKEY,
systemProgram: anchor.web3.SystemProgram.programId,
},
signers: 'secretKey' in user ? [user] : [],
});
}
Example #3
| Source File: index.ts From protocol with Apache License 2.0 | 6 votes |
|
export async function getDialects(
program: anchor.Program,
user: anchor.web3.Keypair | Wallet,
encryptionProps?: EncryptionProps,
): Promise<DialectAccount[]> {
const metadata = await getMetadata(program, user.publicKey);
const enabledSubscriptions = metadata.subscriptions.filter(
(it) => it.enabled,
);
return Promise.all(
enabledSubscriptions.map(async ({ pubkey }) =>
getDialect(program, pubkey, encryptionProps),
),
).then((dialects) =>
dialects.sort(
({ dialect: d1 }, { dialect: d2 }) =>
d2.lastMessageTimestamp - d1.lastMessageTimestamp,
),
);
}
Example #4
| Source File: index.ts From protocol with Apache License 2.0 | 6 votes |
|
export async function createDialect(
program: anchor.Program,
owner: anchor.web3.Keypair | Wallet,
members: Member[],
encrypted = false,
encryptionProps?: EncryptionProps,
): Promise<DialectAccount> {
const sortedMembers = members.sort((a, b) =>
a.publicKey.toBuffer().compare(b.publicKey.toBuffer()),
);
const [publicKey, nonce] = await getDialectProgramAddress(
program,
sortedMembers,
);
// TODO: assert owner in members
const keyedMembers = sortedMembers.reduce(
(ms, m, idx) => ({ ...ms, [`member${idx}`]: m.publicKey }),
{},
);
const tx = await program.rpc.createDialect(
new anchor.BN(nonce),
encrypted,
sortedMembers.map((m) => m.scopes),
{
accounts: {
dialect: publicKey,
owner: owner.publicKey,
...keyedMembers,
rent: anchor.web3.SYSVAR_RENT_PUBKEY,
systemProgram: anchor.web3.SystemProgram.programId,
},
signers: 'secretKey' in owner ? [owner] : [],
},
);
await waitForFinality(program, tx);
return await getDialectForMembers(program, members, encryptionProps);
}
Example #5
| Source File: index.ts From protocol with Apache License 2.0 | 6 votes |
|
export async function deleteDialect(
program: anchor.Program,
{ dialect }: DialectAccount,
owner: anchor.web3.Keypair | Wallet,
): Promise<void> {
const [dialectPublicKey, nonce] = await getDialectProgramAddress(
program,
dialect.members,
);
await program.rpc.closeDialect(new anchor.BN(nonce), {
accounts: {
dialect: dialectPublicKey,
owner: owner.publicKey,
rent: anchor.web3.SYSVAR_RENT_PUBKEY,
systemProgram: anchor.web3.SystemProgram.programId,
},
signers: 'secretKey' in owner ? [owner] : [],
});
}
Example #6
| Source File: index.ts From protocol with Apache License 2.0 | 5 votes |
|
/*
Messages
*/
export async function sendMessage(
program: anchor.Program,
{ dialect, publicKey }: DialectAccount,
sender: anchor.web3.Keypair | Wallet,
text: string,
encryptionProps?: EncryptionProps,
): Promise<Message> {
const [dialectPublicKey, nonce] = await getDialectProgramAddress(
program,
dialect.members,
);
const textSerde = TextSerdeFactory.create(
{
encrypted: dialect.encrypted,
members: dialect.members,
},
encryptionProps,
);
const serializedText = textSerde.serialize(text);
await program.rpc.sendMessage(
new anchor.BN(nonce),
Buffer.from(serializedText),
{
accounts: {
dialect: dialectPublicKey,
sender: sender ? sender.publicKey : program.provider.wallet.publicKey,
member0: dialect.members[0].publicKey,
member1: dialect.members[1].publicKey,
rent: anchor.web3.SYSVAR_RENT_PUBKEY,
systemProgram: anchor.web3.SystemProgram.programId,
},
signers: sender && 'secretKey' in sender ? [sender] : [],
},
);
const d = await getDialect(program, publicKey, encryptionProps);
return d.dialect.messages[d.dialect.nextMessageIdx - 1]; // TODO: Support ring
}
Example #7
| Source File: user_position.ts From jet-engine with GNU Affero General Public License v3.0 | 5 votes |
|
async function getBitcoinPosition() {
// This users positions will be fetched
const userAddress = new PublicKey("6XEn2q37nqsYQB5R79nueGi6n3uhgjiDwxoJeAVzWvaS")
//transaction commitment options
const options = AnchorProvider.defaultOptions()
const connection = new Connection("https://api.devnet.solana.com", options)
// A wallet is not required in this example
const wallet = undefined as any as Wallet
const provider = new AnchorProvider(connection, wallet, options)
// Load the Anchor IDL from RPC
const client = await JetClient.connect(provider, true)
// Load devnet market data from RPC
const market = await JetMarket.load(client, JET_MARKET_ADDRESS_DEVNET)
// Load all reserves
const reserves = await JetReserve.loadMultiple(client, market)
// Load user data
const user = await JetUser.load(client, market, reserves, userAddress)
// create obligation
const obligation = JetObligation.create(
market,
user,
reserves.map(reserve => reserve.data)
)
// All these can be condensed to
const userObligation = await JetObligation.load(client, JET_MARKET_ADDRESS_DEVNET, reserves, userAddress)
// Locate the bitcoin position and log some information
const bitcoinMint = new PublicKey("5ym2kCTCcqCHutbQXnPdsGAGFMEVQBQzTQ1CPun9W5A5")
// Get btc position by filtering out token mint address
const bitcoinPosition = obligation.positions.find(position => position.reserve.tokenMint.equals(bitcoinMint))
if (bitcoinPosition) {
const position: CollateralizedPosition = {
mint: bitcoinPosition.reserve.tokenMint.toBase58(),
deposited: bitcoinPosition.collateralBalance.tokens,
borrowed: bitcoinPosition.loanBalance.tokens,
borrowApr: bitcoinPosition.reserve.borrowApr,
depositApy: bitcoinPosition.reserve.depositApy,
collateralRatio: userObligation.collateralRatio
}
console.log(position)
/**
{
mint: '5ym2kCTCcqCHutbQXnPdsGAGFMEVQBQzTQ1CPun9W5A5',
deposited: 2.000009,
borrowed: 0.500125,
borrowApr: 0.00638284671447752,
depositApy: 0.00012888670151030092,
collateralRatio: 2.2676541147165414
}
*/
}
}
Example #8
| Source File: fees.ts From protocol-v1 with Apache License 2.0 | 4 votes |
|
describe('fees', () => {
const provider = anchor.AnchorProvider.local(undefined, {
preflightCommitment: 'confirmed',
commitment: 'confirmed',
});
const connection = provider.connection;
anchor.setProvider(provider);
const chProgram = anchor.workspace.ClearingHouse as Program;
let clearingHouse: Admin;
let referrerClearingHouse: ClearingHouse;
let userAccountPublicKey: PublicKey;
let usdcMint;
let userUSDCAccount;
// ammInvariant == k == x * y
const mantissaSqrtScale = new BN(Math.sqrt(MARK_PRICE_PRECISION.toNumber()));
const ammInitialQuoteAssetReserve = new anchor.BN(5 * 10 ** 13).mul(
mantissaSqrtScale
);
const ammInitialBaseAssetReserve = new anchor.BN(5 * 10 ** 13).mul(
mantissaSqrtScale
);
const usdcAmount = new BN(10 * 10 ** 6);
let discountMint: Token;
let discountTokenAccount: AccountInfo;
const referrerKeyPair = new Keypair();
let referrerUSDCAccount: Keypair;
let referrerUserAccountPublicKey: PublicKey;
before(async () => {
usdcMint = await mockUSDCMint(provider);
userUSDCAccount = await mockUserUSDCAccount(usdcMint, usdcAmount, provider);
clearingHouse = Admin.from(
connection,
provider.wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.initialize(usdcMint.publicKey, true);
await clearingHouse.subscribe();
const solUsd = await mockOracle(1);
const periodicity = new BN(60 * 60); // 1 HOUR
await clearingHouse.initializeMarket(
Markets[0].marketIndex,
solUsd,
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve,
periodicity
);
[, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
discountMint = await Token.createMint(
connection,
// @ts-ignore
provider.wallet.payer,
provider.wallet.publicKey,
provider.wallet.publicKey,
6,
TOKEN_PROGRAM_ID
);
await clearingHouse.updateDiscountMint(discountMint.publicKey);
discountTokenAccount = await discountMint.getOrCreateAssociatedAccountInfo(
provider.wallet.publicKey
);
provider.connection.requestAirdrop(referrerKeyPair.publicKey, 10 ** 9);
referrerUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
referrerKeyPair.publicKey
);
referrerClearingHouse = ClearingHouse.from(
connection,
new Wallet(referrerKeyPair),
chProgram.programId
);
await referrerClearingHouse.subscribe();
[, referrerUserAccountPublicKey] =
await referrerClearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
referrerUSDCAccount.publicKey
);
});
after(async () => {
await clearingHouse.unsubscribe();
await referrerClearingHouse.unsubscribe();
});
it('Trade no rebate', async () => {
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0),
discountTokenAccount.address
);
const user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9990000)));
assert(user.totalFeePaid.eq(new BN(10000)));
assert(user.totalTokenDiscount.eq(new BN(0)));
assert(user.totalRefereeDiscount.eq(new BN(0)));
});
it('Trade fourth tier rebate', async () => {
await discountMint.mintTo(
discountTokenAccount.address,
// @ts-ignore
provider.wallet.payer,
[],
1000 * 10 ** 6
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0),
discountTokenAccount.address,
referrerUserAccountPublicKey
);
const user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9981000)));
assert(user.totalFeePaid.eq(new BN(19000)));
assert(user.totalTokenDiscount.eq(new BN(500)));
assert(user.totalRefereeDiscount.eq(new BN(500)));
const referrer: any = await clearingHouse.program.account.user.fetch(
referrerUserAccountPublicKey
);
assert(referrer.totalReferralReward.eq(new BN(500)));
});
it('Trade third tier rebate', async () => {
await discountMint.mintTo(
discountTokenAccount.address,
// @ts-ignore
provider.wallet.payer,
[],
10000 * 10 ** 6
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0),
discountTokenAccount.address,
referrerUserAccountPublicKey
);
const user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9972500)));
assert(user.totalFeePaid.eq(new BN(27500)));
assert(user.totalTokenDiscount.eq(new BN(1500)));
assert(user.totalRefereeDiscount.eq(new BN(1000)));
const referrer: any = await clearingHouse.program.account.user.fetch(
referrerUserAccountPublicKey
);
assert(referrer.totalReferralReward.eq(new BN(1000)));
});
it('Trade second tier rebate', async () => {
await discountMint.mintTo(
discountTokenAccount.address,
// @ts-ignore
provider.wallet.payer,
[],
100000 * 10 ** 6
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0),
discountTokenAccount.address,
referrerUserAccountPublicKey
);
const user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9964500)));
assert(user.totalFeePaid.eq(new BN(35500)));
assert(user.totalTokenDiscount.eq(new BN(3000)));
assert(user.totalRefereeDiscount.eq(new BN(1500)));
const referrer: any = await clearingHouse.program.account.user.fetch(
referrerUserAccountPublicKey
);
assert(referrer.totalReferralReward.eq(new BN(1500)));
});
it('Trade first tier rebate', async () => {
await discountMint.mintTo(
discountTokenAccount.address,
// @ts-ignore
provider.wallet.payer,
[],
1000000 * 10 ** 6
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount.mul(new BN(9)).div(new BN(10)),
marketIndex,
new BN(0),
discountTokenAccount.address,
referrerUserAccountPublicKey
);
const user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9957750)));
assert(user.totalFeePaid.eq(new BN(42250)));
assert(user.totalTokenDiscount.eq(new BN(4800)));
assert(user.totalRefereeDiscount.eq(new BN(1950)));
const referrer: any = await clearingHouse.program.account.user.fetch(
referrerUserAccountPublicKey
);
assert(referrer.totalReferralReward.eq(new BN(1950)));
});
it('Close position', async () => {
const marketIndex = new BN(0);
await clearingHouse.closePosition(
marketIndex,
discountTokenAccount.address,
referrerUserAccountPublicKey
);
const user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9921000)));
assert(user.totalFeePaid.eq(new BN(79000)));
assert(user.totalTokenDiscount.eq(new BN(14600)));
assert(user.totalRefereeDiscount.eq(new BN(4400)));
const referrer: any = await clearingHouse.program.account.user.fetch(
referrerUserAccountPublicKey
);
assert(referrer.totalReferralReward.eq(new BN(4400)));
});
});
Example #9
| Source File: idempotentCurve.ts From protocol-v1 with Apache License 2.0 | 4 votes |
|
describe('idempotent curve', () => {
const provider = anchor.AnchorProvider.local(undefined, {
commitment: 'confirmed',
preflightCommitment: 'confirmed',
});
const connection = provider.connection;
anchor.setProvider(provider);
const chProgram = anchor.workspace.ClearingHouse as Program;
let usdcMint;
let primaryClearingHouse: Admin;
// ammInvariant == k == x * y
const mantissaSqrtScale = new BN(Math.sqrt(MARK_PRICE_PRECISION.toNumber()));
const ammInitialQuoteAssetReserve = new anchor.BN(5 * 10 ** 13).mul(
mantissaSqrtScale
);
const ammInitialBaseAssetReserve = new anchor.BN(5 * 10 ** 13).mul(
mantissaSqrtScale
);
const usdcAmount = new BN(10 * 10 ** 6);
before(async () => {
usdcMint = await mockUSDCMint(provider);
primaryClearingHouse = Admin.from(
connection,
provider.wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await primaryClearingHouse.initialize(usdcMint.publicKey, true);
await primaryClearingHouse.subscribe();
const solUsd = await mockOracle(1);
const periodicity = new BN(60 * 60); // 1 HOUR
await primaryClearingHouse.initializeMarket(
Markets[0].marketIndex,
solUsd,
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve,
periodicity
);
const newFeeStructure: FeeStructure = {
feeNumerator: new BN(0),
feeDenominator: new BN(1),
discountTokenTiers: {
firstTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
secondTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
thirdTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
fourthTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
},
referralDiscount: {
referrerRewardNumerator: new BN(1),
referrerRewardDenominator: new BN(1),
refereeDiscountNumerator: new BN(1),
refereeDiscountDenominator: new BN(1),
},
};
await primaryClearingHouse.updateFee(newFeeStructure);
});
beforeEach(async () => {
await primaryClearingHouse.moveAmmPrice(
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve,
new BN(0)
);
});
after(async () => {
await primaryClearingHouse.unsubscribe();
});
const shrinkProfitableLong = async (chunks: number) => {
const userKeypair = new Keypair();
await provider.connection.requestAirdrop(userKeypair.publicKey, 10 ** 9);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
userKeypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
new Wallet(userKeypair),
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0)
);
await primaryClearingHouse.moveAmmPrice(
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve.mul(new BN(2)),
new BN(0)
);
let user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
let userPositionsAccount: any =
await clearingHouse.program.account.userPositions.fetch(user.positions);
const numberOfReduces = chunks;
const market = clearingHouse.getMarket(marketIndex);
const baseAssetValue = calculateBaseAssetValue(
market,
userPositionsAccount.positions[0]
);
for (let i = 0; i < numberOfReduces - 1; i++) {
await clearingHouse.openPosition(
PositionDirection.SHORT,
baseAssetValue.div(new BN(numberOfReduces)),
marketIndex,
new BN(0)
);
}
await clearingHouse.closePosition(new BN(0));
user = await clearingHouse.program.account.user.fetch(userAccountPublicKey);
userPositionsAccount =
await clearingHouse.program.account.userPositions.fetch(user.positions);
assert(user.collateral.eq(new BN(19999200)));
assert(userPositionsAccount.positions[0].quoteAssetAmount.eq(new BN(0)));
await clearingHouse.unsubscribe();
};
const shrinkUnprofitableLong = async (chunks: number) => {
const userKeypair = new Keypair();
await provider.connection.requestAirdrop(userKeypair.publicKey, 10 ** 9);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
userKeypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
new Wallet(userKeypair),
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0)
);
await primaryClearingHouse.moveAmmPrice(
ammInitialBaseAssetReserve.mul(new BN(2)),
ammInitialQuoteAssetReserve,
new BN(0)
);
let user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
let userPositionsAccount: any =
await clearingHouse.program.account.userPositions.fetch(user.positions);
const numberOfReduces = chunks;
const market = clearingHouse.getMarket(marketIndex);
const baseAssetValue = calculateBaseAssetValue(
market,
userPositionsAccount.positions[0]
);
for (let i = 0; i < numberOfReduces - 1; i++) {
await clearingHouse.openPosition(
PositionDirection.SHORT,
baseAssetValue.div(new BN(numberOfReduces)),
marketIndex,
new BN(0)
);
}
await clearingHouse.closePosition(new BN(0));
user = await clearingHouse.program.account.user.fetch(userAccountPublicKey);
userPositionsAccount =
await clearingHouse.program.account.userPositions.fetch(user.positions);
assert(user.collateral.eq(new BN(4999850)));
assert(userPositionsAccount.positions[0].quoteAssetAmount.eq(new BN(0)));
await clearingHouse.unsubscribe();
};
const shrinkProfitableShort = async (chunks: number) => {
const userKeypair = new Keypair();
await provider.connection.requestAirdrop(userKeypair.publicKey, 10 ** 9);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
userKeypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
new Wallet(userKeypair),
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.SHORT,
usdcAmount,
marketIndex,
new BN(0)
);
await primaryClearingHouse.moveAmmPrice(
ammInitialBaseAssetReserve.mul(new BN(2)),
ammInitialQuoteAssetReserve,
new BN(0)
);
let user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
let userPositionsAccount: any =
await clearingHouse.program.account.userPositions.fetch(user.positions);
const numberOfReduces = chunks;
const market = clearingHouse.getMarket(marketIndex);
const baseAssetValue = calculateBaseAssetValue(
market,
userPositionsAccount.positions[0]
);
for (let i = 0; i < numberOfReduces - 1; i++) {
await clearingHouse.openPosition(
PositionDirection.LONG,
baseAssetValue.div(new BN(numberOfReduces)),
marketIndex,
new BN(0)
);
}
await clearingHouse.closePosition(new BN(0));
user = await clearingHouse.program.account.user.fetch(userAccountPublicKey);
userPositionsAccount =
await clearingHouse.program.account.userPositions.fetch(user.positions);
assert(user.collateral.eq(new BN(14999849)));
assert(userPositionsAccount.positions[0].quoteAssetAmount.eq(new BN(0)));
await clearingHouse.unsubscribe();
};
const shrinkUnrofitableShort = async (chunks: number) => {
const userKeypair = new Keypair();
await provider.connection.requestAirdrop(userKeypair.publicKey, 10 ** 9);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
userKeypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
new Wallet(userKeypair),
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.SHORT,
usdcAmount,
marketIndex,
new BN(0)
);
await primaryClearingHouse.moveAmmPrice(
ammInitialBaseAssetReserve.mul(new BN(3)),
ammInitialQuoteAssetReserve.mul(new BN(4)),
new BN(0)
);
let user: any = await clearingHouse.program.account.user.fetch(
userAccountPublicKey
);
let userPositionsAccount: any =
await clearingHouse.program.account.userPositions.fetch(user.positions);
const numberOfReduces = chunks;
const market = clearingHouse.getMarket(marketIndex);
const baseAssetValue = calculateBaseAssetValue(
market,
userPositionsAccount.positions[0]
);
for (let i = 0; i < numberOfReduces - 1; i++) {
await clearingHouse.openPosition(
PositionDirection.LONG,
baseAssetValue.div(new BN(numberOfReduces)),
marketIndex,
new BN(0)
);
}
await clearingHouse.closePosition(new BN(0));
user = await clearingHouse.program.account.user.fetch(userAccountPublicKey);
userPositionsAccount =
await clearingHouse.program.account.userPositions.fetch(user.positions);
assert(user.collateral.eq(new BN(6666311)));
assert(userPositionsAccount.positions[0].quoteAssetAmount.eq(new BN(0)));
await clearingHouse.unsubscribe();
};
it('open and shrink profitable long twice', async () => {
await shrinkProfitableLong(2);
});
it('open and shrink profitable long fource', async () => {
await shrinkProfitableLong(4);
});
it('open and shrink unprofitable long twice', async () => {
await shrinkUnprofitableLong(2);
});
it('open and shrink unprofitable long fource', async () => {
await shrinkUnprofitableLong(4);
});
it('open and shrink profitable short twice', async () => {
await shrinkProfitableShort(2);
});
it('open and shrink profitable short fource', async () => {
await shrinkProfitableShort(4);
});
it('open and shrink unprofitable short twice', async () => {
await shrinkUnrofitableShort(2);
});
it('open and shrink unprofitable short fource', async () => {
await shrinkUnrofitableShort(4);
});
});
Example #10
| Source File: minimumTradeSize.ts From protocol-v1 with Apache License 2.0 | 4 votes |
|
describe('minimum trade size', () => {
const provider = anchor.AnchorProvider.local(undefined, {
commitment: 'confirmed',
preflightCommitment: 'confirmed',
});
const connection = provider.connection;
anchor.setProvider(provider);
const chProgram = anchor.workspace.ClearingHouse as Program;
let usdcMint;
let primaryClearingHouse: Admin;
// ammInvariant == k == x * y
const ammInitialQuoteAssetReserve = new anchor.BN(17 * 10 ** 13);
const ammInitialBaseAssetReserve = new anchor.BN(17 * 10 ** 13);
const invariant = ammInitialQuoteAssetReserve.mul(ammInitialBaseAssetReserve);
const usdcAmount = new BN(10000 * 10 ** 3);
before(async () => {
usdcMint = await mockUSDCMint(provider);
primaryClearingHouse = Admin.from(
connection,
provider.wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await primaryClearingHouse.initialize(usdcMint.publicKey, true);
await primaryClearingHouse.subscribe();
const solUsd = await mockOracle(63000);
const periodicity = new BN(60 * 60); // 1 HOUR
await primaryClearingHouse.initializeMarket(
Markets[0].marketIndex,
solUsd,
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve,
periodicity,
new BN(63000000)
);
const newFeeStructure: FeeStructure = {
feeNumerator: new BN(0),
feeDenominator: new BN(1),
discountTokenTiers: {
firstTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
secondTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
thirdTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
fourthTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
},
referralDiscount: {
referrerRewardNumerator: new BN(1),
referrerRewardDenominator: new BN(1),
refereeDiscountNumerator: new BN(1),
refereeDiscountDenominator: new BN(1),
},
};
await primaryClearingHouse.updateFee(newFeeStructure);
});
beforeEach(async () => {
await primaryClearingHouse.moveAmmPrice(
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve,
new BN(0)
);
});
after(async () => {
await primaryClearingHouse.unsubscribe();
});
it('short round', async () => {
const keypair = new Keypair();
await provider.connection.requestAirdrop(keypair.publicKey, 10 ** 9);
const wallet = new Wallet(keypair);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
keypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.SHORT,
usdcAmount,
marketIndex,
new BN(0)
);
let user: UserAccount =
await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(usdcAmount));
let userPositions: UserPositionsAccount =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
// make price slightly worse so we need to round trade amount
const newBaseAssetReserve = ammInitialBaseAssetReserve
.mul(new BN(9999999))
.div(new BN(10000000));
const newQuoteAssetReserve = invariant.div(newBaseAssetReserve);
await primaryClearingHouse.moveAmmPrice(
newBaseAssetReserve,
newQuoteAssetReserve,
new BN(0)
);
const market = primaryClearingHouse.getMarket(0);
let position = userPositions.positions[0];
const baseAssetValue = calculateBaseAssetValue(market, position);
const expectedBaseAssetValue = new BN(10000188);
assert(position.quoteAssetAmount.eq(usdcAmount));
assert(baseAssetValue.eq(expectedBaseAssetValue));
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0)
);
user = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
userPositions =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
position = userPositions.positions[0];
assert(position.quoteAssetAmount.eq(ZERO));
assert(position.baseAssetAmount.eq(ZERO));
await clearingHouse.unsubscribe();
});
it('short dont round', async () => {
const keypair = new Keypair();
await provider.connection.requestAirdrop(keypair.publicKey, 10 ** 9);
const wallet = new Wallet(keypair);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
keypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.SHORT,
usdcAmount,
marketIndex,
new BN(0)
);
let user: UserAccount =
await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(usdcAmount));
let userPositions: UserPositionsAccount =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
// make price much worse
const newBaseAssetReserve = ammInitialBaseAssetReserve
.mul(new BN(1))
.div(new BN(2));
const newQuoteAssetReserve = invariant.div(newBaseAssetReserve);
await primaryClearingHouse.moveAmmPrice(
newBaseAssetReserve,
newQuoteAssetReserve,
new BN(0)
);
const market = primaryClearingHouse.getMarket(0);
let position = userPositions.positions[0];
const _baseAssetValue = calculateBaseAssetValue(market, position);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0)
);
user = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
userPositions =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
position = userPositions.positions[0];
assert(position.quoteAssetAmount.gt(ZERO));
assert(position.baseAssetAmount.lt(ZERO));
await clearingHouse.unsubscribe();
});
it('long round', async () => {
const keypair = new Keypair();
await provider.connection.requestAirdrop(keypair.publicKey, 10 ** 9);
const wallet = new Wallet(keypair);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
keypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0)
);
let user: UserAccount =
await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(usdcAmount));
let userPositions: UserPositionsAccount =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
// make price slightly worse so we need to round trade amount
const newQuoteAssetReserve = ammInitialBaseAssetReserve
.mul(new BN(9999999))
.div(new BN(10000000));
const newBaseAssetReserve = invariant.div(newQuoteAssetReserve);
await primaryClearingHouse.moveAmmPrice(
newBaseAssetReserve,
newQuoteAssetReserve,
new BN(0)
);
const market = primaryClearingHouse.getMarket(0);
let position = userPositions.positions[0];
const baseAssetValue = calculateBaseAssetValue(market, position);
const expectedBaseAssetValue = new BN(10000002);
assert(position.quoteAssetAmount.eq(usdcAmount));
assert(baseAssetValue.eq(expectedBaseAssetValue));
await clearingHouse.openPosition(
PositionDirection.SHORT,
usdcAmount,
marketIndex,
new BN(0)
);
user = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
userPositions =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
position = userPositions.positions[0];
assert(position.quoteAssetAmount.eq(ZERO));
assert(position.baseAssetAmount.eq(ZERO));
await clearingHouse.unsubscribe();
});
it('short dont round', async () => {
const keypair = new Keypair();
await provider.connection.requestAirdrop(keypair.publicKey, 10 ** 9);
const wallet = new Wallet(keypair);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
keypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
marketIndex,
new BN(0)
);
let user: UserAccount =
await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(usdcAmount));
let userPositions: UserPositionsAccount =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
// make price better so we dont need to round trade amount
const newQuoteAssetReserve = ammInitialBaseAssetReserve
.mul(new BN(4))
.div(new BN(3));
const newBaseAssetReserve = invariant.div(newQuoteAssetReserve);
await primaryClearingHouse.moveAmmPrice(
newBaseAssetReserve,
newQuoteAssetReserve,
new BN(0)
);
const _market = primaryClearingHouse.getMarket(0);
let position = userPositions.positions[0];
await clearingHouse.openPosition(
PositionDirection.SHORT,
usdcAmount,
marketIndex,
new BN(0)
);
user = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
userPositions =
await primaryClearingHouse.program.account.userPositions.fetch(
user.positions
);
position = userPositions.positions[0];
assert(position.quoteAssetAmount.gt(ZERO));
assert(position.baseAssetAmount.gt(ZERO));
await clearingHouse.unsubscribe();
});
});
Example #11
| Source File: roundInFavor.ts From protocol-v1 with Apache License 2.0 | 4 votes |
|
describe('round in favor', () => {
const provider = anchor.AnchorProvider.local();
const connection = provider.connection;
anchor.setProvider(provider);
const chProgram = anchor.workspace.ClearingHouse as Program;
let usdcMint;
let primaryClearingHouse: Admin;
// ammInvariant == k == x * y
const ammInitialQuoteAssetReserve = new anchor.BN(17 * 10 ** 13);
const ammInitialBaseAssetReserve = new anchor.BN(17 * 10 ** 13);
const usdcAmount = new BN(9999 * 10 ** 3);
before(async () => {
usdcMint = await mockUSDCMint(provider);
primaryClearingHouse = Admin.from(
connection,
provider.wallet,
chProgram.programId
);
await primaryClearingHouse.initialize(usdcMint.publicKey, true);
await primaryClearingHouse.subscribe();
const solUsd = await mockOracle(63000);
const periodicity = new BN(60 * 60); // 1 HOUR
await primaryClearingHouse.initializeMarket(
Markets[0].marketIndex,
solUsd,
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve,
periodicity,
new BN(63000000)
);
const newFeeStructure: FeeStructure = {
feeNumerator: new BN(0),
feeDenominator: new BN(1),
discountTokenTiers: {
firstTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
secondTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
thirdTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
fourthTier: {
minimumBalance: new BN(1),
discountNumerator: new BN(1),
discountDenominator: new BN(1),
},
},
referralDiscount: {
referrerRewardNumerator: new BN(1),
referrerRewardDenominator: new BN(1),
refereeDiscountNumerator: new BN(1),
refereeDiscountDenominator: new BN(1),
},
};
await primaryClearingHouse.updateFee(newFeeStructure);
});
after(async () => {
await primaryClearingHouse.unsubscribe();
});
it('short', async () => {
const keypair = new Keypair();
await provider.connection.requestAirdrop(keypair.publicKey, 10 ** 9);
const wallet = new Wallet(keypair);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
keypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
wallet,
chProgram.programId
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.SHORT,
calculateTradeAmount(usdcAmount),
marketIndex,
new BN(0)
);
let user: any = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9999000)));
await clearingHouse.closePosition(marketIndex);
user = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9999000)));
await clearingHouse.unsubscribe();
});
it('long', async () => {
const keypair = new Keypair();
await provider.connection.requestAirdrop(keypair.publicKey, 10 ** 9);
const wallet = new Wallet(keypair);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
keypair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
wallet,
chProgram.programId
);
await clearingHouse.subscribe();
const [, userAccountPublicKey] =
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const marketIndex = new BN(0);
await clearingHouse.openPosition(
PositionDirection.LONG,
calculateTradeAmount(usdcAmount),
marketIndex,
new BN(0)
);
let user: any = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9999000)));
await clearingHouse.closePosition(marketIndex);
user = await primaryClearingHouse.program.account.user.fetch(
userAccountPublicKey
);
assert(user.collateral.eq(new BN(9998999)));
await clearingHouse.unsubscribe();
});
});
Example #12
| Source File: settleAndClaimCollateral.ts From protocol-v1 with Apache License 2.0 | 4 votes |
|
describe('settle and claim collateral', () => {
const provider = anchor.AnchorProvider.local(undefined, {
commitment: 'confirmed',
preflightCommitment: 'confirmed',
});
const connection = provider.connection;
anchor.setProvider(provider);
const chProgram = anchor.workspace.ClearingHouse as Program;
let usdcMint;
let primaryClearingHouse: Admin;
const mantissaSqrtScale = new BN(Math.sqrt(MARK_PRICE_PRECISION.toNumber()));
const ammInitialQuoteAssetReserve = new anchor.BN(5 * 10 ** 13).mul(
mantissaSqrtScale
);
const ammInitialBaseAssetReserve = new anchor.BN(5 * 10 ** 13).mul(
mantissaSqrtScale
);
const usdcAmount = new BN(10 * 10 ** 6);
it('settle and claim collateral', async () => {
usdcMint = await mockUSDCMint(provider);
primaryClearingHouse = Admin.from(
connection,
provider.wallet,
chProgram.programId,
{
commitment: 'confirmed',
}
);
await primaryClearingHouse.initialize(usdcMint.publicKey, true);
await primaryClearingHouse.subscribe();
const solUsd = await mockOracle(1);
const periodicity = new BN(60 * 60); // 1 HOUR
await primaryClearingHouse.initializeMarket(
Markets[0].marketIndex,
solUsd,
ammInitialBaseAssetReserve,
ammInitialQuoteAssetReserve,
periodicity
);
const createUser = async (): Promise<
[ClearingHouse, ClearingHouseUser, PublicKey]
> => {
const userKeyPair = new Keypair();
await provider.connection.requestAirdrop(userKeyPair.publicKey, 10 ** 9);
const userUSDCAccount = await mockUserUSDCAccount(
usdcMint,
usdcAmount,
provider,
userKeyPair.publicKey
);
const clearingHouse = ClearingHouse.from(
connection,
new Wallet(userKeyPair),
chProgram.programId,
{
commitment: 'confirmed',
}
);
await clearingHouse.subscribe();
await clearingHouse.initializeUserAccountAndDepositCollateral(
usdcAmount,
userUSDCAccount.publicKey
);
const clearingHouseUser = ClearingHouseUser.from(
clearingHouse,
userKeyPair.publicKey
);
await clearingHouseUser.subscribe();
return [clearingHouse, clearingHouseUser, userUSDCAccount.publicKey];
};
const [
firstClearingHouse,
firstClearingHouseUser,
firstUSDCTokenAccountPublicKey,
] = await createUser();
const [
secondClearingHouse,
secondClearingHouseUser,
secondUSDCTokenAccountPublicKey,
] = await createUser();
const [
thirdClearingHouse,
thirdClearingHouseUser,
thirdUSDCTokenAccountPublicKey,
] = await createUser();
await secondClearingHouse.openPosition(
PositionDirection.LONG,
usdcAmount,
new BN(0)
);
await primaryClearingHouse.moveAmmPrice(
ammInitialBaseAssetReserve.div(new BN(10)),
ammInitialQuoteAssetReserve,
new BN(0)
);
await primaryClearingHouse.fetchAccounts();
await primaryClearingHouse.adminUpdateUserForgoSettlement(
firstClearingHouseUser.authority
);
await firstClearingHouseUser.fetchAccounts();
assert(
firstClearingHouseUser.getUserAccount().forgoPositionSettlement === 1
);
await primaryClearingHouse.initializeSettlementState();
let settlementState = await primaryClearingHouse.getSettlementAccount();
assert(settlementState.collateralClaimed.eq(ZERO));
assert(
settlementState.collateralAvailableToClaim.eq(usdcAmount.mul(new BN(3)))
);
assert(settlementState.totalSettlementValue.eq(new BN(46244321)));
assert(!settlementState.enabled);
await primaryClearingHouse.updateSettlementStateEnabled(true);
try {
await firstClearingHouse.settlePositionAndClaimCollateral(
firstUSDCTokenAccountPublicKey
);
assert(false);
} catch (e) {
//should throw err
}
assert(secondClearingHouseUser.getUserAccount().hasSettledPosition === 0);
let expectedCollateralClaimed =
secondClearingHouseUser.getClaimableCollateral(settlementState);
await secondClearingHouse.settlePositionAndClaimCollateral(
secondUSDCTokenAccountPublicKey
);
await secondClearingHouseUser.fetchAccounts();
assert(
secondClearingHouseUser
.getUserAccount()
.collateralClaimed.eq(expectedCollateralClaimed)
);
assert(
secondClearingHouseUser
.getUserAccount()
.lastCollateralAvailableToClaim.eq(
settlementState.collateralAvailableToClaim
)
);
assert(secondClearingHouseUser.getUserAccount().hasSettledPosition === 1);
const secondUSDCTokenAccountBalance =
await provider.connection.getTokenAccountBalance(
secondUSDCTokenAccountPublicKey
);
assert(
new BN(secondUSDCTokenAccountBalance.value.amount).eq(
expectedCollateralClaimed
)
);
settlementState = await primaryClearingHouse.getSettlementAccount();
assert(settlementState.collateralClaimed.eq(expectedCollateralClaimed));
expectedCollateralClaimed =
thirdClearingHouseUser.getClaimableCollateral(settlementState);
await thirdClearingHouse.settlePositionAndClaimCollateral(
thirdUSDCTokenAccountPublicKey
);
await thirdClearingHouse.fetchAccounts();
assert(
thirdClearingHouseUser
.getUserAccount()
.collateralClaimed.eq(expectedCollateralClaimed)
);
assert(
thirdClearingHouseUser
.getUserAccount()
.lastCollateralAvailableToClaim.eq(
settlementState.collateralAvailableToClaim
)
);
const thirdUSDCTokenAccountBalance =
await provider.connection.getTokenAccountBalance(
thirdUSDCTokenAccountPublicKey
);
assert(
new BN(thirdUSDCTokenAccountBalance.value.amount).eq(
expectedCollateralClaimed
)
);
await primaryClearingHouse.unsubscribe();
await firstClearingHouse.unsubscribe();
await firstClearingHouseUser.unsubscribe();
await secondClearingHouse.unsubscribe();
await secondClearingHouseUser.unsubscribe();
await thirdClearingHouse.unsubscribe();
await thirdClearingHouseUser.unsubscribe();
});
});
Example #13
| Source File: exercise_v2.ts From psyoptions with Apache License 2.0 | 4 votes |
|
describe("exerciseOption", () => {
const payer = anchor.web3.Keypair.generate();
const mintAuthority = anchor.web3.Keypair.generate();
const program = anchor.workspace.PsyAmerican as anchor.Program<PsyAmerican>;
const provider = program.provider;
// @ts-ignore
const wallet = provider.wallet as unknown as anchor.Wallet;
const minter = anchor.web3.Keypair.generate();
const minterProvider = new AnchorProvider(
provider.connection,
new Wallet(minter),
{}
);
const minterProgram = new Program(
program.idl,
program.programId,
minterProvider
);
const exerciser = anchor.web3.Keypair.generate();
const exerciserProvider = new AnchorProvider(
provider.connection,
new Wallet(exerciser),
{}
);
const exerciserProgram = new Program(
program.idl,
program.programId,
exerciserProvider
);
let quoteToken: Token;
let underlyingToken: Token;
let optionToken: Token;
let underlyingAmountPerContract: anchor.BN;
let quoteAmountPerContract: anchor.BN;
let optionMarketKey: PublicKey;
let optionMarket: OptionMarketWithKey;
let exerciseFeeKey: PublicKey;
let exerciserOptionAcct: Keypair;
let exerciserQuoteAcct: Keypair;
let exerciserUnderlyingAcct: Keypair;
let remainingAccounts: AccountMeta[] = [];
let instructions: TransactionInstruction[] = [];
let size = new u64(2);
before(async () => {
// airdrop SOL to the payer and minter
await provider.connection.confirmTransaction(
await provider.connection.requestAirdrop(
payer.publicKey,
100 * LAMPORTS_PER_SOL
),
"confirmed"
);
await provider.connection.confirmTransaction(
await provider.connection.requestAirdrop(
minter.publicKey,
100 * LAMPORTS_PER_SOL
),
"confirmed"
);
await provider.connection.confirmTransaction(
await provider.connection.requestAirdrop(
exerciser.publicKey,
100 * LAMPORTS_PER_SOL
),
"confirmed"
);
});
describe("Non-nft OptionMarket", () => {
before(async () => {
// Initialize a new OptionMarket
({
quoteToken,
underlyingToken,
optionToken,
underlyingAmountPerContract,
quoteAmountPerContract,
optionMarketKey,
exerciseFeeKey,
optionMarket,
remainingAccounts,
instructions,
} = await initSetup(provider, payer, mintAuthority, program));
await initOptionMarket(
program,
payer,
optionMarket,
remainingAccounts,
instructions
);
// Create a new minter
const {
optionAccount: minterOptionAcct,
underlyingAccount: minterUnderlyingAccount,
writerTokenAccount: minterWriterAcct,
} = await createMinter(
provider.connection,
minter,
mintAuthority,
underlyingToken,
new anchor.BN(100)
.mul(optionMarket.underlyingAmountPerContract)
.muln(2)
.toNumber(),
optionMarket.optionMint,
optionMarket.writerTokenMint,
quoteToken
);
// Mint a bunch of contracts to the minter
const { ix: mintOptionsIx } =
await psyAmericanInstructions.mintOptionV2Instruction(
minterProgram,
minterOptionAcct.publicKey,
minterWriterAcct.publicKey,
minterUnderlyingAccount.publicKey,
new anchor.BN(100),
optionMarket
);
await program.provider.sendAndConfirm!(
new Transaction().add(mintOptionsIx),
[minter]
);
// Create an exerciser
({
optionAccount: exerciserOptionAcct,
quoteAccount: exerciserQuoteAcct,
underlyingAccount: exerciserUnderlyingAcct,
} = await createExerciser(
provider.connection,
exerciser,
mintAuthority,
quoteToken,
new anchor.BN(100)
.mul(optionMarket.quoteAmountPerContract)
.muln(2)
.toNumber(),
optionMarket.optionMint,
underlyingToken.publicKey
));
// Transfer a options to the exerciser
await optionToken.transfer(
minterOptionAcct.publicKey,
exerciserOptionAcct.publicKey,
minter,
[],
new u64(100)
);
});
beforeEach(async () => {
size = new u64(2);
});
it("should be properly setup", async () => {
const exerciserOption = await optionToken.getAccountInfo(
exerciserOptionAcct.publicKey
);
assert.equal(exerciserOption.amount.toString(), new u64(100).toString());
});
describe("proper exercise", () => {
it("should burn the option token, swap the quote and underlying assets", async () => {
const optionTokenBefore = await optionToken.getMintInfo();
const underlyingPoolBefore = await underlyingToken.getAccountInfo(
optionMarket.underlyingAssetPool
);
const quotePoolBefore = await quoteToken.getAccountInfo(
optionMarket.quoteAssetPool
);
const exerciserQuoteBefore = await quoteToken.getAccountInfo(
exerciserQuoteAcct.publicKey
);
try {
const instruction =
psyAmericanInstructions.exerciseOptionsV2Instruction(
exerciserProgram,
size,
optionMarket,
exerciserOptionAcct.publicKey,
exerciserUnderlyingAcct.publicKey,
exerciserQuoteAcct.publicKey
);
await exerciserProgram.provider.sendAndConfirm!(
new Transaction().add(instruction)
);
} catch (err) {
console.error((err as AnchorError).error.errorMessage);
throw err;
}
const optionTokenAfter = await optionToken.getMintInfo();
const optionTokenDiff = optionTokenAfter.supply.sub(
optionTokenBefore.supply
);
assert.equal(optionTokenDiff.toString(), size.neg().toString());
const underlyingPoolAfter = await underlyingToken.getAccountInfo(
optionMarket.underlyingAssetPool
);
const underlyingPoolDiff = underlyingPoolAfter.amount.sub(
underlyingPoolBefore.amount
);
assert.equal(
underlyingPoolDiff.toString(),
size.mul(underlyingAmountPerContract).neg().toString()
);
const quotePoolAfter = await quoteToken.getAccountInfo(
optionMarket.quoteAssetPool
);
const quotePoolDiff = quotePoolAfter.amount.sub(quotePoolBefore.amount);
assert.equal(
quotePoolDiff.toString(),
size.mul(quoteAmountPerContract).toString()
);
const exerciserQuoteAfter = await quoteToken.getAccountInfo(
exerciserQuoteAcct.publicKey
);
const exerciserQuoteDiff = exerciserQuoteAfter.amount.sub(
exerciserQuoteBefore.amount
);
const exerciseFee = new BN(0);
assert.equal(
exerciserQuoteDiff.neg().toString(),
exerciseFee.add(size.mul(quoteAmountPerContract)).toString()
);
});
});
describe("quote asset pool is not the same as the OptionMarket", () => {
let badQuoteAssetPoolAcct: Keypair;
beforeEach(async () => {
// Create a new token account and set it as the mintFeeKey
const { tokenAccount } = await initNewTokenAccount(
provider.connection,
FEE_OWNER_KEY,
quoteToken.publicKey,
payer
);
badQuoteAssetPoolAcct = tokenAccount;
});
it("should error", async () => {
try {
const instruction =
psyAmericanInstructions.exerciseOptionsV2Instruction(
exerciserProgram,
size,
{
...optionMarket,
quoteAssetPool: badQuoteAssetPoolAcct.publicKey,
},
exerciserOptionAcct.publicKey,
exerciserUnderlyingAcct.publicKey,
exerciserQuoteAcct.publicKey
);
await exerciserProgram.provider.sendAndConfirm!(
new Transaction().add(instruction)
);
assert.ok(false);
} catch (err) {
const programError = parseTransactionError(err);
console.log("*** programError", programError);
const errMsg =
"Quote pool account does not match the value on the OptionMarket";
assert.equal(programError.msg, errMsg);
}
});
});
describe("Underlying asset pool is not the same as the OptionMarket", () => {
let badUnderlyingAssetPoolAcct: Keypair;
beforeEach(async () => {
// Create a new token account and set it as the mintFeeKey
const { tokenAccount } = await initNewTokenAccount(
provider.connection,
FEE_OWNER_KEY,
underlyingToken.publicKey,
payer
);
badUnderlyingAssetPoolAcct = tokenAccount;
});
it("should error", async () => {
try {
const instruction =
psyAmericanInstructions.exerciseOptionsV2Instruction(
exerciserProgram,
size,
{
...optionMarket,
underlyingAssetPool: badUnderlyingAssetPoolAcct.publicKey,
},
exerciserOptionAcct.publicKey,
exerciserUnderlyingAcct.publicKey,
exerciserQuoteAcct.publicKey
);
await exerciserProgram.provider.sendAndConfirm!(
new Transaction().add(instruction)
);
assert.ok(false);
} catch (err) {
const programError = parseTransactionError(err);
const errMsg =
"Underlying pool account does not match the value on the OptionMarket";
assert.equal(programError.msg, errMsg);
}
});
});
describe("Underlying destination mint is not the same as the underlying asset", () => {
let badUnderlyingDest: Keypair;
beforeEach(async () => {
// Create a new token account and set it as the mintFeeKey
const { tokenAccount } = await initNewTokenAccount(
provider.connection,
FEE_OWNER_KEY,
quoteToken.publicKey,
payer
);
badUnderlyingDest = tokenAccount;
});
it("should error", async () => {
try {
const instruction =
psyAmericanInstructions.exerciseOptionsV2Instruction(
exerciserProgram,
size,
optionMarket,
exerciserOptionAcct.publicKey,
badUnderlyingDest.publicKey,
exerciserQuoteAcct.publicKey
);
await exerciserProgram.provider.sendAndConfirm!(
new Transaction().add(instruction)
);
assert.ok(false);
} catch (err) {
const programError = parseTransactionError(err);
const errMsg =
"Underlying destination mint must match underlying asset mint address";
assert.equal(programError.msg, errMsg);
}
});
});
describe("OptionToken Mint is not the same as the OptionMarket", () => {
let badOptionToken: Token;
beforeEach(async () => {
// Create a new token account and set it as the mintFeeKey
const { mintAccount } = await initNewTokenMint(
provider.connection,
FEE_OWNER_KEY,
payer
);
badOptionToken = new Token(
provider.connection,
mintAccount.publicKey,
TOKEN_PROGRAM_ID,
payer
);
});
it("should error", async () => {
try {
const instruction =
psyAmericanInstructions.exerciseOptionsV2Instruction(
exerciserProgram,
size,
{ ...optionMarket, optionMint: badOptionToken.publicKey },
exerciserOptionAcct.publicKey,
exerciserUnderlyingAcct.publicKey,
exerciserQuoteAcct.publicKey
);
await exerciserProgram.provider.sendAndConfirm!(
new Transaction().add(instruction)
);
assert.ok(false);
} catch (err) {
const programError = parseTransactionError(err);
const errMsg =
"OptionToken mint does not match the value on the OptionMarket";
assert.equal(programError.msg, errMsg);
}
});
});
});
describe("Expired option market", () => {
before(async () => {
// Initialize a new OptionMarket
({
quoteToken,
underlyingToken,
optionToken,
underlyingAmountPerContract,
quoteAmountPerContract,
optionMarketKey,
exerciseFeeKey,
optionMarket,
remainingAccounts,
instructions,
} = await initSetup(provider, payer, mintAuthority, program, {
// set expiration to 2 seconds from now
expiration: new anchor.BN(new Date().getTime() / 1000 + 4),
}));
await initOptionMarket(
program,
payer,
optionMarket,
remainingAccounts,
instructions
);
// Create a new minter
const {
optionAccount: minterOptionAcct,
underlyingAccount: minterUnderlyingAccount,
writerTokenAccount: minterWriterAcct,
} = await createMinter(
provider.connection,
minter,
mintAuthority,
underlyingToken,
new anchor.BN(100)
.mul(optionMarket.underlyingAmountPerContract)
.muln(2)
.toNumber(),
optionMarket.optionMint,
optionMarket.writerTokenMint,
quoteToken
);
// Mint a bunch of contracts to the minter
const { ix: mintOptionsIx } =
await psyAmericanInstructions.mintOptionV2Instruction(
minterProgram,
minterOptionAcct.publicKey,
minterWriterAcct.publicKey,
minterUnderlyingAccount.publicKey,
new anchor.BN(100),
optionMarket
);
await program.provider.sendAndConfirm!(
new Transaction().add(mintOptionsIx),
[minter]
);
// Create an exerciser
({
optionAccount: exerciserOptionAcct,
quoteAccount: exerciserQuoteAcct,
underlyingAccount: exerciserUnderlyingAcct,
} = await createExerciser(
provider.connection,
exerciser,
mintAuthority,
quoteToken,
new anchor.BN(100)
.mul(optionMarket.quoteAmountPerContract)
.muln(2)
.toNumber(),
optionMarket.optionMint,
optionMarket.underlyingAssetMint
));
// Transfer a options to the exerciser
await optionToken.transfer(
minterOptionAcct.publicKey,
exerciserOptionAcct.publicKey,
minter,
[],
new u64(100)
);
});
beforeEach(async () => {
size = new u64(2);
});
it("should error", async () => {
try {
await wait(3000);
const instruction =
psyAmericanInstructions.exerciseOptionsV2Instruction(
exerciserProgram,
size,
optionMarket,
exerciserOptionAcct.publicKey,
exerciserUnderlyingAcct.publicKey,
exerciserQuoteAcct.publicKey
);
await exerciserProgram.provider.sendAndConfirm!(
new Transaction().add(instruction)
);
assert.ok(false);
} catch (err) {
const programError = parseTransactionError(err);
const errMsg = "OptionMarket is expired, can't exercise";
assert.equal(programError.msg, errMsg);
}
});
});
});
