Port a Solidity Contract to a Gno Realm
Overview
This guide shows you how to port a Solidity contract Simple Auction
to a Gno Realm auction.gno
with test cases (Test Driven Development (TDD) approach).
You can check the Solidity contract in this link, and here's the code for porting.
// SPDX-License-Identifier: GPL-3.0
pragma solidity ^0.8.4;
contract SimpleAuction {
// Parameters of the auction. Times are either
// absolute unix timestamps (seconds since 1970-01-01)
// or time periods in seconds.
address payable public beneficiary;
uint public auctionEndTime;
// Current state of the auction.
address public highestBidder;
uint public highestBid;
// Allowed withdrawals of previous bids
mapping(address => uint) pendingReturns;
// Set to true at the end, disallows any change.
// By default initialized to `false`.
bool ended;
// Events that will be emitted on changes.
event HighestBidIncreased(address bidder, uint amount);
event AuctionEnded(address winner, uint amount);
// Errors that describe failures.
// The triple-slash comments are so-called natspec
// comments. They will be shown when the user
// is asked to confirm a transaction or
// when an error is displayed.
/// The auction has already ended.
error AuctionAlreadyEnded();
/// There is already a higher or equal bid.
error BidNotHighEnough(uint highestBid);
/// The auction has not ended yet.
error AuctionNotYetEnded();
/// The function auctionEnd has already been called.
error AuctionEndAlreadyCalled();
/// Create a simple auction with `biddingTime`
/// seconds bidding time on behalf of the
/// beneficiary address `beneficiaryAddress`.
constructor(
uint biddingTime,
address payable beneficiaryAddress
) {
beneficiary = beneficiaryAddress;
auctionEndTime = block.timestamp + biddingTime;
}
/// Bid on the auction with the value sent
/// together with this transaction.
/// The value will only be refunded if the
/// auction is not won.
function bid() external payable {
// No arguments are necessary, all
// information is already part of
// the transaction. The keyword payable
// is required for the function to
// be able to receive Ether.
// Revert the call if the bidding
// period is over.
if (block.timestamp > auctionEndTime)
revert AuctionAlreadyEnded();
// If the bid is not higher, send the
// money back (the revert statement
// will revert all changes in this
// function execution including
// it having received the money).
if (msg.value <= highestBid)
revert BidNotHighEnough(highestBid);
if (highestBid != 0) {
// Sending back the money by simply using
// highestBidder.send(highestBid) is a security risk
// because it could execute an untrusted contract.
// It is always safer to let the recipients
// withdraw their money themselves.
pendingReturns[highestBidder] += highestBid;
}
highestBidder = msg.sender;
highestBid = msg.value;
emit HighestBidIncreased(msg.sender, msg.value);
}
/// Withdraw a bid that was overbid.
function withdraw() external returns (bool) {
uint amount = pendingReturns[msg.sender];
if (amount > 0) {
// It is important to set this to zero because the recipient
// can call this function again as part of the receiving call
// before `send` returns.
pendingReturns[msg.sender] = 0;
// msg.sender is not of type `address payable` and must be
// explicitly converted using `payable(msg.sender)` in order
// use the member function `send()`.
if (!payable(msg.sender).send(amount)) {
// No need to call throw here, just reset the amount owing
pendingReturns[msg.sender] = amount;
return false;
}
}
return true;
}
/// End the auction and send the highest bid
/// to the beneficiary.
function auctionEnd() external {
// It is a good guideline to structure functions that interact
// with other contracts (i.e. they call functions or send Ether)
// into three phases:
// 1. checking conditions
// 2. performing actions (potentially changing conditions)
// 3. interacting with other contracts
// If these phases are mixed up, the other contract could call
// back into the current contract and modify the state or cause
// effects (ether payout) to be performed multiple times.
// If functions called internally include interaction with external
// contracts, they also have to be considered interaction with
// external contracts.
// 1. Conditions
if (block.timestamp < auctionEndTime)
revert AuctionNotYetEnded();
if (ended)
revert AuctionEndAlreadyCalled();
// 2. Effects
ended = true;
emit AuctionEnded(highestBidder, highestBid);
// 3. Interaction
beneficiary.transfer(highestBid);
}
}
These are the basic concepts of the Simple Auction contract:
- Everyone can send their bids during a bidding period.
- The bids already include sending money / Ether in order to bind the bidders to their bids.
- If the highest bid is raised, the previous highest bidder gets their money back.
- After the end of the bidding period, the contract has to be called manually for the beneficiary to receive their money - contracts cannot activate themselves.
The contract consists of:
- A variable declaration
- Initialization by a constructor
- Three functions
Let's dive into the details of the role of each function, and learn how to port each function into Gno with test cases.
When writing a test case, the following conditions are often used to determine whether the function has been properly executed:
- Value matching
- Error status
- Panic status
Below is a test case helper that will help implement each condition.
Gno - Testcase Helper
func shouldEqual(t *testing.T, got interface{}, expected interface{}) {
t.Helper()
if got != expected {
t.Errorf("expected %v(%T), got %v(%T)", expected, expected, got, got)
}
}
func shouldErr(t *testing.T, err error) {
t.Helper()
if err == nil {
t.Errorf("expected an error, but got nil.")
}
}
func shouldNoErr(t *testing.T, err error) {
t.Helper()
if err != nil {
t.Errorf("expected no error, but got err: %s.", err.Error())
}
}
func shouldPanic(t *testing.T, f func()) {
defer func() {
if r := recover(); r == nil {
t.Errorf("should have panic")
}
}()
f()
}
func shouldNoPanic(t *testing.T, f func()) {
defer func() {
if r := recover(); r != nil {
t.Errorf("should not have panic")
}
}()
f()
}
Variable init - Solidity
// Parameters of the auction. Times are either
// absolute unix timestamps (seconds since 1970-01-01)
// or time periods in seconds.
address payable public beneficiary;
uint public auctionEndTime;
// Current state of the auction.
address public highestBidder;
uint public highestBid;
// Allowed withdrawals of previous bids
mapping(address => uint) pendingReturns;
// Set to true at the end, disallows any change.
// By default initialized to `false`.
bool ended;
// Events that will be emitted on changes.
event HighestBidIncreased(address bidder, uint amount);
event AuctionEnded(address winner, uint amount);
// Errors that describe failures.
// The triple-slash comments are so-called natspec
// comments. They will be shown when the user
// is asked to confirm a transaction or
// when an error is displayed.
/// The auction has already ended.
error AuctionAlreadyEnded();
/// There is already a higher or equal bid.
error BidNotHighEnough(uint highestBid);
/// The auction has not ended yet.
error AuctionNotYetEnded();
/// The function auctionEnd has already been called.
error AuctionEndAlreadyCalled();
/// Create a simple auction with `biddingTime`
/// seconds bidding time on behalf of the
/// beneficiary address `beneficiaryAddress`.
constructor(
uint biddingTime,
address payable beneficiaryAddress
) {
beneficiary = beneficiaryAddress;
auctionEndTime = block.timestamp + biddingTime;
}
address payable public beneficiary;
: Address to receive the amount after the auction's ending.uint public auctionEndTime;
: Auction ending time.address public highestBidder;
: The highest bidder.uint public highestBid;
: The highest bid.mapping(address => uint) pendingReturns;
: Bidder's address and amount to be returned (in case of the highest bid changes).bool ended;
: Whether the auction is closed.
Variable init - Gno
var (
receiver = std.Address("g1jg8mtutu9khhfwc4nxmuhcpftf0pajdhfvsqf5")
auctionEndBlock = std.GetHeight() + uint(300) // in blocks
highestBidder std.Address
highestBid = uint(0)
pendingReturns avl.Tree
ended = false
)
Note: In Solidity, the Auction ending time is set by a time basis, but in the above case, it's set by a block basis.
bid() - Solidity
function bid() external payable {
// No arguments are necessary, all
// information is already part of
// the transaction. The keyword payable
// is required for the function to
// be able to receive Ether.
// Revert the call if the bidding
// period is over.
if (block.timestamp > auctionEndTime)
revert AuctionAlreadyEnded();
// If the bid is not higher, send the
// money back (the revert statement
// will revert all changes in this
// function execution including
// it having received the money).
if (msg.value <= highestBid)
revert BidNotHighEnough(highestBid);
if (highestBid != 0) {
// Sending back the money by simply using
// highestBidder.send(highestBid) is a security risk
// because it could execute an untrusted contract.
// It is always safer to let the recipients
// withdraw their money themselves.
pendingReturns[highestBidder] += highestBid;
}
highestBidder = msg.sender;
highestBid = msg.value;
emit HighestBidIncreased(msg.sender, msg.value);
}
bid()
function is for participating in an auction and includes:
- Determining whether an auction is closed.
- Comparing a new bid with the current highest bid.
- Prepare data to return the bid amount to the existing highest bidder in case of the highest bid is increased.
- Update variables with the top bidder & top bid amount.
bid() - Gno
func Bid() {
if std.GetHeight() > auctionEndBlock {
panic("Exceeded auction end block")
}
sentCoins := std.GetOrigSend()
if len(sentCoins) != 1 {
panic("Send only one type of coin")
}
sentAmount := uint(sentCoins[0].Amount)
if sentAmount <= highestBid {
panic("Too few coins sent")
}
// A new bid is higher than the current highest bid
if sentAmount > highestBid {
// If the highest bid is greater than 0,
if highestBid > 0 {
// Need to return the bid amount to the existing highest bidder
// Create an AVL tree and save
pendingReturns.Set(highestBidder.String(), highestBid)
}
// Update the top bidder address
highestBidder = std.GetOrigCaller()
// Update the top bid amount
highestBid = sentAmount
}
}
bid() - Gno Testcase
// Bid Function Test - Send Coin
func TestBidCoins(t *testing.T) {
// Sending two types of coins
std.TestSetOrigCaller(bidder01)
std.TestSetOrigSend(std.Coins{{"ugnot", 0}, {"test", 1}}, nil)
shouldPanic(t, Bid)
// Sending lower amount than the current highest bid
std.TestSetOrigCaller(bidder01)
std.TestSetOrigSend(std.Coins{{"ugnot", 0}}, nil)
shouldPanic(t, Bid)
// Sending more amount than the current highest bid (exceeded)
std.TestSetOrigCaller(bidder01)
std.TestSetOrigSend(std.Coins{{"ugnot", 1}}, nil)
shouldNoPanic(t, Bid)
}
// Bid Function Test - Bid by two or more people
func TestBidCoins(t *testing.T) {
// bidder01 bidding with 1 coin
std.TestSetOrigCaller(bidder01)
std.TestSetOrigSend(std.Coins{{"ugnot", 1}}, nil)
shouldNoPanic(t, Bid)
shouldEqual(t, highestBid, 1)
shouldEqual(t, highestBidder, bidder01)
shouldEqual(t, pendingReturns.Size(), 0)
// bidder02 bidding with 1 coin
std.TestSetOrigCaller(bidder02)
std.TestSetOrigSend(std.Coins{{"ugnot", 1}}, nil)
shouldPanic(t, Bid)
// bidder02 bidding with 2 coins
std.TestSetOrigCaller(bidder02)
std.TestSetOrigSend(std.Coins{{"ugnot", 2}}, nil)
shouldNoPanic(t, Bid)
shouldEqual(t, highestBid, 2)
shouldEqual(t, highestBidder, bidder02)
shouldEqual(t, pendingReturns.Size(), 1)
}
withdraw() - Solidity
/// Withdraw a bid that was overbid.
function withdraw() external returns (bool) {
uint amount = pendingReturns[msg.sender];
if (amount > 0) {
// It is important to set this to zero because the recipient
// can call this function again as part of the receiving call
// before `send` returns.
pendingReturns[msg.sender] = 0;
// msg.sender is not of type `address payable` and must be
// explicitly converted using `payable(msg.sender)` in order
// use the member function `send()`.
if (!payable(msg.sender).send(amount)) {
// No need to call throw here, just reset the amount owing
pendingReturns[msg.sender] = amount;
return false;
}
}
return true;
}
withdraw()
is to return the bid amount to the existing highest bidder in case of the highest bid changes and includes:
- When called, determine if there's a bid amount to be returned to the address.
- (If there's an amount to be returned) Before returning, set the previously recorded amount to
0
and return the actual amount.
withdraw() - Gno
func Withdraw() {
// Query the return amount to non-highest bidders
amount, _ := pendingReturns.Get(std.GetOrigCaller().String())
if amount > 0 {
// If there's an amount, reset the amount first,
pendingReturns.Set(std.GetOrigCaller().String(), 0)
// Return the exceeded amount
banker := std.GetBanker(std.BankerTypeRealmSend)
pkgAddr := std.GetOrigPkgAddr()
banker.SendCoins(pkgAddr, std.GetOrigCaller(), std.Coins{{"ugnot", amount.(int64)}})
}
}
withdraw() - Gno Testcase
// Withdraw Function Test
func TestWithdraw(t *testing.T) {
// If there's no participants for return
shouldEqual(t, pendingReturns.Size(), 0)
// If there's participants for return (data generation
returnAddr := bidder01.String()
returnAmount := int64(3)
pendingReturns.Set(returnAddr, returnAmount)
shouldEqual(t, pendingReturns.Size(), 1)
shouldEqual(t, pendingReturns.Has(returnAddr), true)
banker := std.GetBanker(std.BankerTypeRealmSend)
pkgAddr := std.GetOrigPkgAddr()
banker.SendCoins(pkgAddr, std.Address(returnAddr), std.Coins{{"ugnot", returnAmount}})
shouldEqual(t, banker.GetCoins(std.Address(returnAddr)).String(), "3ugnot")
}
auctionEnd() - Solidity
/// End the auction and send the highest bid
/// to the beneficiary.
function auctionEnd() external {
// It is a good guideline to structure functions that interact
// with other contracts (i.e. they call functions or send Ether)
// into three phases:
// 1. checking conditions
// 2. performing actions (potentially changing conditions)
// 3. interacting with other contracts
// If these phases are mixed up, the other contract could call
// back into the current contract and modify the state or cause
// effects (ether payout) to be performed multiple times.
// If functions called internally include interaction with external
// contracts, they also have to be considered interaction with
// external contracts.
// 1. Conditions
if (block.timestamp < auctionEndTime)
revert AuctionNotYetEnded();
if (ended)
revert AuctionEndAlreadyCalled();
// 2. Effects
ended = true;
emit AuctionEnded(highestBidder, highestBid);
// 3. Interaction
beneficiary.transfer(highestBid);
}
auctionEnd()
function is for ending the auction and includes:
- Determines if the auction should end by comparing the end time.
- Determines if the auction has already ended or not.
- (If not ended) End the auction.
- (If not ended) Send the highest bid amount to the recipient.
auctionEnd() - Gno
func AuctionEnd() {
if std.GetHeight() < auctionEndBlock {
panic("Auction hasn't ended")
}
if ended {
panic("Auction has ended")
}
ended = true
// Send the highest bid to the recipient
banker := std.GetBanker(std.BankerTypeRealmSend)
pkgAddr := std.GetOrigPkgAddr()
banker.SendCoins(pkgAddr, receiver, std.Coins{{"ugnot", int64(highestBid)}})
}
auctionEnd() - Gno Testcase
// AuctionEnd() Function Test
func TestAuctionEnd(t *testing.T) {
// Auction is ongoing
shouldPanic(t, AuctionEnd)
// Auction ends
highestBid = 3
std.TestSkipHeights(500)
shouldNoPanic(t, AuctionEnd)
shouldEqual(t, ended, true)
banker := std.GetBanker(std.BankerTypeRealmSend)
shouldEqual(t, banker.GetCoins(receiver).String(), "3ugnot")
// Auction has already ended
shouldPanic(t, AuctionEnd)
shouldEqual(t, ended, true)
}
Precautions for Running Test Cases
- Each test function should be executed separately one by one, to return all passes without any errors.
- Same as Go, Gno doesn't support
setup()
&teardown()
functions. So running two or more test functions simultaneously can result in tainted data. - If you want to do the whole test at once, make it into a single function as below:
// The whole test
func TestFull(t *testing.T) {
bidder01 := testutils.TestAddress("bidder01") // g1vf5kger9wgcrzh6lta047h6lta047h6lufftkw
bidder02 := testutils.TestAddress("bidder02") // g1vf5kger9wgcryh6lta047h6lta047h6lnhe2x2
// Variables test
{
shouldEqual(t, highestBidder, "")
shouldEqual(t, receiver, "g1jg8mtutu9khhfwc4nxmuhcpftf0pajdhfvsqf5")
shouldEqual(t, auctionEndBlock, 423)
shouldEqual(t, highestBid, 0)
shouldEqual(t, pendingReturns.Size(), 0)
shouldEqual(t, ended, false)
}
// Send two or more types of coins
{
std.TestSetOrigCaller(bidder01)
std.TestSetOrigSend(std.Coins{{"ugnot", 0}, {"test", 1}}, nil)
shouldPanic(t, Bid)
}
// Send less than the highest bid
{
std.TestSetOrigCaller(bidder01)
std.TestSetOrigSend(std.Coins{{"ugnot", 0}}, nil)
shouldPanic(t, Bid)
}
// Send more than the highest bid
{
std.TestSetOrigCaller(bidder01)
std.TestSetOrigSend(std.Coins{{"ugnot", 1}}, nil)
shouldNoPanic(t, Bid)
shouldEqual(t, pendingReturns.Size(), 0)
shouldEqual(t, highestBid, 1)
shouldEqual(t, highestBidder, "g1vf5kger9wgcrzh6lta047h6lta047h6lufftkw")
}
// Other participants in the auction
{
// Send less amount than the current highest bid (current: 1)
std.TestSetOrigCaller(bidder02)
std.TestSetOrigSend(std.Coins{{"ugnot", 1}}, nil)
shouldPanic(t, Bid)
// Send more amount than the current highest bid (exceeded)
std.TestSetOrigCaller(bidder02)
std.TestSetOrigSend(std.Coins{{"ugnot", 2}}, nil)
shouldNoPanic(t, Bid)
shouldEqual(t, highestBid, 2)
shouldEqual(t, highestBidder, "g1vf5kger9wgcryh6lta047h6lta047h6lnhe2x2")
shouldEqual(t, pendingReturns.Size(), 1) // Return to the existing bidder
shouldEqual(t, pendingReturns.Has("g1vf5kger9wgcrzh6lta047h6lta047h6lufftkw"), true)
}
// Auction ends
{
std.TestSkipHeights(150)
shouldPanic(t, AuctionEnd)
shouldEqual(t, ended, false)
std.TestSkipHeights(301)
shouldNoPanic(t, AuctionEnd)
shouldEqual(t, ended, true)
banker := std.GetBanker(std.BankerTypeRealmSend)
shouldEqual(t, banker.GetCoins(receiver).String(), "2ugnot")
}
}