// Init API node for connection to targets
func API_INIT(targets ...string) bool {
var err tree_lib.TreeError
err.From = tree_lib.FROM_API_INIT
if len(targets) == 0 {
tree_log.Error(err.From, "For running API client you need to specify target node(s) to connect")
return false
}
for _, n := range targets {
node_info.ChildsNodeInfo[n], err = tree_db.GetNodeInfo(n)
if !err.IsNull() {
tree_log.Error(err.From, fmt.Sprintf("Unable Getting target (%s) node info from Node database, ", n), err.Error())
return false
}
}
rand.Seed(time.Now().UnixNano())
node_info.CurrentNodeInfo = node_info.NodeInfo{
Name: fmt.Sprintf("%s|%s", API_NAME_PREFIX, tree_lib.RandomString(10)),
Childs: targets,
// Getting next prime number based on Unix Timestamp nanoseconds and
// TODO: Think about making this in a different way
Value: tree_lib.NextPrimeNumber((1 * rand.Int63n(100)) + int64(100)),
}
node_info.CurrentNodeValue = big.NewInt(node_info.CurrentNodeInfo.Value)
// Setting node values based on child list
node_info.CalculateChildParentNodeValues()
// After we have child information lets connect to them
node_info.ChildsConnectionUpdate()
return true
}
func init() {
tree_event.ON(tree_event.ON_RESTART_NODE, func(ev *tree_event.Event) {
Restart()
})
go func() {
for {
// After we have child information lets connect to them
node_info.ChildsConnectionUpdate()
time.Sleep(time.Millisecond * 500)
}
}()
}