// run ExecTx and wait for the Call event on given addr
// returns the msg data and an error/exception
func execTxWaitEvent(t *testing.T, blockCache *BlockCache, tx types.Tx, eventid string) (interface{}, string) {
evsw := events.NewEventSwitch()
evsw.Start()
ch := make(chan interface{})
evsw.AddListenerForEvent("test", eventid, func(msg types.EventData) {
ch <- msg
})
evc := events.NewEventCache(evsw)
go func() {
if err := ExecTx(blockCache, tx, true, evc); err != nil {
ch <- err.Error()
}
evc.Flush()
}()
ticker := time.NewTicker(5 * time.Second)
var msg interface{}
select {
case msg = <-ch:
case <-ticker.C:
return nil, ExceptionTimeOut
}
switch ev := msg.(type) {
case types.EventDataTx:
return ev, ev.Exception
case types.EventDataCall:
return ev, ev.Exception
case string:
return nil, ev
default:
return ev, ""
}
}
// subscribes to an AccCall, runs the vm, returns the exception
func runVMWaitEvents(t *testing.T, ourVm *VM, caller, callee *Account, subscribeAddr, contractCode []byte, gas int64) string {
// we need to catch the event from the CALL to check for exceptions
evsw := events.NewEventSwitch()
evsw.Start()
ch := make(chan interface{})
fmt.Printf("subscribe to %x\n", subscribeAddr)
evsw.AddListenerForEvent("test", types.EventStringAccCall(subscribeAddr), func(msg types.EventData) {
ch <- msg
})
evc := events.NewEventCache(evsw)
ourVm.SetFireable(evc)
go func() {
start := time.Now()
output, err := ourVm.Call(caller, callee, contractCode, []byte{}, 0, &gas)
fmt.Printf("Output: %v Error: %v\n", output, err)
fmt.Println("Call took:", time.Since(start))
if err != nil {
ch <- err.Error()
}
evc.Flush()
}()
msg := <-ch
switch ev := msg.(type) {
case types.EventDataTx:
return ev.Exception
case types.EventDataCall:
return ev.Exception
case string:
return ev
}
return ""
}
// Tests logs and events.
func TestLog4(t *testing.T) {
st := newAppState()
// Create accounts
account1 := &Account{
Address: LeftPadWord256(makeBytes(20)),
}
account2 := &Account{
Address: LeftPadWord256(makeBytes(20)),
}
st.accounts[account1.Address.String()] = account1
st.accounts[account2.Address.String()] = account2
ourVm := NewVM(st, newParams(), Zero256, nil)
eventSwitch := events.NewEventSwitch()
_, err := eventSwitch.Start()
if err != nil {
t.Errorf("Failed to start eventSwitch: %v", err)
}
eventID := types.EventStringLogEvent(account2.Address.Postfix(20))
doneChan := make(chan struct{}, 1)
eventSwitch.AddListenerForEvent("test", eventID, func(event types.EventData) {
logEvent := event.(types.EventDataLog)
// No need to test address as this event would not happen if it wasn't correct
if !reflect.DeepEqual(logEvent.Topics, expectedTopics) {
t.Errorf("Event topics are wrong. Got: %v. Expected: %v", logEvent.Topics, expectedTopics)
}
if !bytes.Equal(logEvent.Data, expectedData) {
t.Errorf("Event data is wrong. Got: %s. Expected: %s", logEvent.Data, expectedData)
}
if logEvent.Height != expectedHeight {
t.Errorf("Event block height is wrong. Got: %d. Expected: %d", logEvent.Height, expectedHeight)
}
doneChan <- struct{}{}
})
ourVm.SetFireable(eventSwitch)
var gas int64 = 100000
mstore8 := byte(MSTORE8)
push1 := byte(PUSH1)
log4 := byte(LOG4)
stop := byte(STOP)
code := []byte{
push1, 16, // data value
push1, 0, // memory slot
mstore8,
push1, 4, // topic 4
push1, 3, // topic 3
push1, 2, // topic 2
push1, 1, // topic 1
push1, 1, // size of data
push1, 0, // data starts at this offset
log4,
stop,
}
_, err = ourVm.Call(account1, account2, code, []byte{}, 0, &gas)
<-doneChan
if err != nil {
t.Fatal(err)
}
}
