Yes, race conditions (in the sense of a shared resource having an inconsistent value due to order of events) can still happen anywhere that there's a point of suspension that could lead to other code being run (with threads its at any line), take for example this piece of async code that is entirely single threaded:
var accountBalance = 0;
async function getAccountBalance() {
// Suppose this was asynchronously from a database or something
return accountBalance;
};
async function setAccountBalance(value) {
// Suppose this was asynchronously from a database or something
accountBalance = value;
};
async function increment(value, incr) {
return value + incr;
};
async function add$50() {
var balance, newBalance;
balance = await getAccountBalance();
newBalance = await increment(balance, 50);
await setAccountBalance(newBalance);
};
async function main() {
var transaction1, transaction2;
transaction1 = add$50();
transaction2 = add$50();
await transaction1;
await transaction2;
console.log('$' + await getAccountBalance());
// Can print either $50 or $100
// which it prints is dependent on what order
// things arrived on the message queue, for this very simple
// dummy implementation it actually prints $50 because
// all values are added to the message queue immediately
// so it actually alternates between the two async functions
};
main();
This code has suspension points at every single await and as such could context switch between the two functions at a bad time producing "$50" rather than the expected "$100", this is essentially the same example as Wikipedia's example for Race Conditions in threads but with explicit points of suspension/re-entry.
Just like threads though you can solve such race conditions with things like a Lock (aka mutex). So we could prevent the above race condition in the same way as threads:
var accountBalance = 0;
class Lock {
constructor() {
this._locked = false;
this._waiting = [];
}
lock() {
var unlock = () => {
var nextResolve;
if (this._waiting.length > 0) {
nextResolve = this._waiting.pop(0);
nextResolve(unlock);
} else {
this._locked = false;
}
};
if (this._locked) {
return new Promise((resolve) => {
this._waiting.push(resolve);
});
} else {
this._locked = true;
return new Promise((resolve) => {
resolve(unlock);
});
}
}
}
var account = new Lock();
async function getAccountBalance() {
// Suppose this was asynchronously from a database or something
return accountBalance;
};
async function setAccountBalance(value) {
// Suppose this was asynchronously from a database or something
accountBalance = value;
};
async function increment(value, incr) {
return value + incr;
};
async function add$50() {
var unlock, balance, newBalance;
unlock = await account.lock();
balance = await getAccountBalance();
newBalance = await increment(balance, 50);
await setAccountBalance(newBalance);
await unlock();
};
async function main() {
var transaction1, transaction2;
transaction1 = add$50();
transaction2 = add$50();
await transaction1;
await transaction2;
console.log('$' + await getAccountBalance()); // Now will always be $100 regardless
};
main();