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solana/web3.js/test/bpf-loader.test.js

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JavaScript
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// @flow
import fs from 'mz/fs';
import {
Connection,
BpfLoader,
Transaction,
sendAndConfirmTransaction,
Account,
} from '../src';
import {mockRpcEnabled} from './__mocks__/node-fetch';
import {url} from './url';
import {newAccountWithLamports} from './new-account-with-lamports';
import {BPF_LOADER_PROGRAM_ID} from '../src/bpf-loader';
if (!mockRpcEnabled) {
// The default of 5 seconds is too slow for live testing sometimes
jest.setTimeout(120000);
}
const NUM_RETRIES = 100; /* allow some number of retries */
test('load BPF C program', async () => {
if (mockRpcEnabled) {
console.log('non-live test skipped');
return;
}
const data = await fs.readFile('test/fixtures/noop-c/noop.so');
const connection = new Connection(url, 'recent');
const {feeCalculator} = await connection.getRecentBlockhash();
const fees =
feeCalculator.lamportsPerSignature *
(BpfLoader.getMinNumSignatures(data.length) + NUM_RETRIES);
const balanceNeeded = await connection.getMinimumBalanceForRentExemption(
data.length,
);
const from = await newAccountWithLamports(connection, fees + balanceNeeded);
const program = new Account();
await BpfLoader.load(connection, from, program, data, BPF_LOADER_PROGRAM_ID);
const transaction = new Transaction().add({
keys: [{pubkey: from.publicKey, isSigner: true, isWritable: true}],
programId: program.publicKey,
});
await sendAndConfirmTransaction(connection, transaction, [from], {
commitment: 'single',
skipPreflight: true,
});
});
describe('load BPF Rust program', () => {
if (mockRpcEnabled) {
console.log('non-live test skipped');
return;
}
const connection = new Connection(url, 'recent');
let program: Account;
let signature: string;
let payerAccount: Account;
let programData: Buffer;
beforeAll(async () => {
programData = await fs.readFile(
'test/fixtures/noop-rust/solana_bpf_rust_noop.so',
);
const {feeCalculator} = await connection.getRecentBlockhash();
const fees =
feeCalculator.lamportsPerSignature *
(BpfLoader.getMinNumSignatures(programData.length) + NUM_RETRIES);
const balanceNeeded = await connection.getMinimumBalanceForRentExemption(
programData.length,
);
payerAccount = await newAccountWithLamports(
connection,
fees + balanceNeeded,
);
// Create program account with low balance
program = await newAccountWithLamports(connection, balanceNeeded - 1);
// First load will fail part way due to lack of funds
const insufficientPayerAccount = await newAccountWithLamports(
connection,
2 * feeCalculator.lamportsPerSignature * 8,
);
const failedLoad = BpfLoader.load(
connection,
insufficientPayerAccount,
program,
programData,
BPF_LOADER_PROGRAM_ID,
);
await expect(failedLoad).rejects.toThrow('Transaction was not confirmed');
// Second load will succeed
await BpfLoader.load(
connection,
payerAccount,
program,
programData,
BPF_LOADER_PROGRAM_ID,
);
const transaction = new Transaction().add({
keys: [
{pubkey: payerAccount.publicKey, isSigner: true, isWritable: true},
],
programId: program.publicKey,
});
signature = await sendAndConfirmTransaction(
connection,
transaction,
[payerAccount],
{
skipPreflight: true,
},
);
});
test('get confirmed transaction', async () => {
const parsedTx = await connection.getParsedConfirmedTransaction(signature);
if (parsedTx === null) {
expect(parsedTx).not.toBeNull();
return;
}
const {signatures, message} = parsedTx.transaction;
expect(signatures[0]).toEqual(signature);
const ix = message.instructions[0];
if (ix.parsed) {
expect('parsed' in ix).toBe(false);
} else {
expect(ix.programId.equals(program.publicKey)).toBe(true);
expect(ix.data).toEqual('');
}
});
test('simulate transaction', async () => {
const simulatedTransaction = new Transaction().add({
keys: [
{pubkey: payerAccount.publicKey, isSigner: true, isWritable: true},
],
programId: program.publicKey,
});
const {err, logs} = (
await connection.simulateTransaction(simulatedTransaction, [payerAccount])
).value;
expect(err).toBeNull();
if (logs === null) {
expect(logs).not.toBeNull();
return;
}
expect(logs.length).toBeGreaterThanOrEqual(2);
expect(logs[0]).toEqual(`Call BPF program ${program.publicKey.toBase58()}`);
expect(logs[logs.length - 1]).toEqual(
`BPF program ${program.publicKey.toBase58()} success`,
);
});
test('simulate transaction without signature verification', async () => {
const simulatedTransaction = new Transaction().add({
keys: [
{pubkey: payerAccount.publicKey, isSigner: true, isWritable: true},
],
programId: program.publicKey,
});
simulatedTransaction.setSigners(payerAccount.publicKey);
const {err, logs} = (
await connection.simulateTransaction(simulatedTransaction)
).value;
expect(err).toBeNull();
if (logs === null) {
expect(logs).not.toBeNull();
return;
}
expect(logs.length).toBeGreaterThanOrEqual(2);
expect(logs[0]).toEqual(`Call BPF program ${program.publicKey.toBase58()}`);
expect(logs[logs.length - 1]).toEqual(
`BPF program ${program.publicKey.toBase58()} success`,
);
});
test('simulate transaction with bad programId', async () => {
const simulatedTransaction = new Transaction().add({
keys: [
{pubkey: payerAccount.publicKey, isSigner: true, isWritable: true},
],
programId: new Account().publicKey,
});
simulatedTransaction.setSigners(payerAccount.publicKey);
const {err, logs} = (
await connection.simulateTransaction(simulatedTransaction)
).value;
expect(err).toEqual('ProgramAccountNotFound');
if (logs === null) {
expect(logs).not.toBeNull();
return;
}
expect(logs.length).toEqual(0);
});
test('reload program', async () => {
expect(
await BpfLoader.load(
connection,
payerAccount,
program,
programData,
BPF_LOADER_PROGRAM_ID,
),
).toBe(false);
});
});
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