exports.Test = (contractsConfig, afterDeploy) => { describe("ERC20Token", async function() { this.timeout(0); var ERC20Token; var accountsArr; before(function(done) { contractsConfig["ERC20Receiver"] = {}; EmbarkSpec.deployAll(contractsConfig, async function(accounts) { ERC20Token = Token; accountsArr = accounts; await afterDeploy(accounts, Token); done() }); }); it("should transfer 1 token", async function() { let initialBalance0 = await ERC20Token.methods.balanceOf(accountsArr[0]).call(); let initialBalance1 = await ERC20Token.methods.balanceOf(accountsArr[1]).call(); await ERC20Token.methods.transfer(accountsArr[1],1).send({from: accountsArr[0]}); let result0 = await ERC20Token.methods.balanceOf(accountsArr[0]).call(); let result1 = await ERC20Token.methods.balanceOf(accountsArr[1]).call(); assert.equal(result0, +initialBalance0-1, "account 0 balance unexpected"); assert.equal(result1, +initialBalance1+1, "account 1 balance unexpected"); }); it("should set approved amount", async function() { await ERC20Token.methods.approve(accountsArr[2],10000000).send({from: accountsArr[0]}); let result = await ERC20Token.methods.allowance(accountsArr[0], accountsArr[2]).call(); assert.equal(result, 10000000); }); it("should consume allowance amount", async function() { let initialAllowance = await ERC20Token.methods.allowance(accountsArr[0], accountsArr[2]).call(); await ERC20Token.methods.transferFrom(accountsArr[0], accountsArr[0],1).send({from: accountsArr[2]}); let result = await ERC20Token.methods.allowance(accountsArr[0], accountsArr[2]).call(); assert.equal(result, +initialAllowance-1); }); it("should transfer approved amount", async function() { let initialBalance0 = await ERC20Token.methods.balanceOf(accountsArr[0]).call(); let initialBalance1 = await ERC20Token.methods.balanceOf(accountsArr[1]).call(); await ERC20Token.methods.transferFrom(accountsArr[0], accountsArr[1],1).send({from: accountsArr[2]}); let result0 = await ERC20Token.methods.balanceOf(accountsArr[0]).call(); let result1 = await ERC20Token.methods.balanceOf(accountsArr[1]).call(); assert.equal(result0, +initialBalance0-1); assert.equal(result1, +initialBalance1+1); }); it("should unset approved amount", async function() { await ERC20Token.methods.approve(accountsArr[2],0).send({from: accountsArr[0]}); let result = await ERC20Token.methods.allowance(accountsArr[0], accountsArr[2]).call(); assert.equal(result, 0); }); it("should deposit approved amount to contract ERC20Receiver", async function() { await ERC20Token.methods.approve(ERC20Receiver.address,10).send({from: accountsArr[0]}); await ERC20Receiver.methods.depositToken(ERC20Token.address).send({from: accountsArr[0]}); let result = await ERC20Receiver.methods.tokenBalanceOf(ERC20Token.address, accountsArr[0]).call(); assert.equal(result, 10, "ERC20Receiver.tokenBalanceOf("+ERC20Token.address+","+accountsArr[0]+") wrong"); }); it("should witdraw approved amount from contract ERC20Receiver", async function() { let tokenBalance = await ERC20Receiver.methods.tokenBalanceOf(ERC20Token.address, accountsArr[0]).call(); await ERC20Receiver.methods.withdrawToken(ERC20Token.address, tokenBalance).send({from: accountsArr[0]}); tokenBalance = await ERC20Receiver.methods.tokenBalanceOf(ERC20Token.address, accountsArr[0]).call(); assert.equal(tokenBalance, 0, "ERC20Receiver.tokenBalanceOf("+ERC20Token.address+","+accountsArr[0]+") wrong"); }); //TODO: include checks for expected events fired }); }