func AddAToRegionCache(dst string, srcIP string, R []dns.RR, edns_h *dns.RR_Header, edns *dns.EDNS0_SUBNET) {
var dn *DomainNode
var domainNodeExist bool = false
var retry = 0
var e *MyError.MyError
for domainNodeExist = false; (domainNodeExist == false) && (retry < 5); {
// wait for goroutine 'StoreDomainNodeToCache' in GetSOARecord to be finished
dn, e = DomainRRCache.GetDomainNodeFromCacheWithName(dst)
if e != nil {
// here ,may be nil
// error! need return
//fmt.Println(utils.GetDebugLine(),
// " GetARecord : have not got cache GetDomainNodeFromCacheWithName, need waite ", e)
utils.ServerLogger.Error("GetARecord : have not got cache GetDomainNodeFromCacheWithName, need waite %s", e.Error())
time.Sleep(1 * time.Second)
if e.ErrorNo == MyError.ERROR_NOTFOUND {
retry++
} else {
utils.ServerLogger.Critical("GetARecord error %s", e.Error())
//fmt.Println(utils.GetDebugLine(), e)
// todo: need to log error
}
} else {
domainNodeExist = true
//fmt.Println(utils.GetDebugLine(), "GetARecord: ", dn)
utils.ServerLogger.Debug("GetARecord dn: %s", dn.Domain.DomainName, dn.DomainRegionTree)
}
}
if domainNodeExist == false && retry >= 5 {
utils.ServerLogger.Warning("DomainRRCache.GetDomainNodeFromCacheWithName(dst) dst:", dst, " retry for ", retry,
" times,but no result!")
} else {
//dn.InitRegionTree()
utils.ServerLogger.Debug("Got dn :", dn)
regiontree := dn.DomainRegionTree
////todo: Need to be combined with the go func within GetAFromMySQLBackend
//var startIP, endIP uint32
//if config.RC.MySQLEnabled /** && config.RC.MySQLRegionEnabled **/ {
// region, ee := RRMySQL.GetRegionWithIPFromMySQL(utils.Ip4ToInt32(utils.StrToIP(srcIP)))
// if ee != nil {
// //fmt.Println(utils.GetDebugLine(), "Error GetRegionWithIPFromMySQL:", ee)
// utils.ServerLogger.Error("Error GetRegionWithIPFromMySQL: %s", ee.Error())
// } else {
// startIP, endIP = region.Region.StarIP, region.Region.EndIP
// //fmt.Println(utils.GetDebugLine(), region.Region, startIP, endIP)
// }
//
//} else {
// // startIP, endIP = iplookup.GetIpinfoStartEndWithIPString(srcIP)
//}
//cidrmask := utils.GetCIDRMaskWithUint32Range(startIP, endIP)
//fmt.Println(utils.GetDebugLine(), "Search client region info with srcIP: ",
// srcIP, " StartIP : ", startIP, "==", utils.Int32ToIP4(startIP).String(),
// " EndIP: ", endIP, "==", utils.Int32ToIP4(endIP).String(), " cidrmask : ", cidrmask)
if edns != nil {
var ipnet *net.IPNet
ipnet, e := utils.ParseEdnsIPNet(edns.Address, edns.SourceScope, edns.Family)
if e != nil {
utils.ServerLogger.Error("utils.ParseEdnsIPNet error:", edns)
}
netaddr, mask := utils.IpNetToInt32(ipnet)
//fmt.Println(utils.GetDebugLine(), "Got Edns client subnet from ecs query, netaddr : ", netaddr,
// " mask : ", mask)
utils.ServerLogger.Debug("Got Edns client subnet from ecs query, netaddr : ", netaddr, " mask : ", mask)
//if (netaddr != startIP) || (mask != cidrmask) {
// //fmt.Println(utils.GetDebugLine(), "iplookup data dose not match edns query result , netaddr : ",
// // netaddr, "<->", startIP, " mask: ", mask, "<->", cidrmask)
// utils.ServerLogger.Debug("iplookup data dose not match edns query result , netaddr : ", netaddr, "<->", startIP, " mask: ", mask, "<->", cidrmask)
//}
//// if there is no region info in region table of mysql db or no info in ipdb
//if cidrmask <= 0 || startIP <= 0 {
// startIP = netaddr
// cidrmask = mask
//}
r, _ := NewRegion(R, netaddr, mask)
// Parse edns client subnet
utils.ServerLogger.Debug("GetAFromDNSBackend: ", " edns_h: ", edns_h, " edns: ", edns)
regiontree.AddRegionToCache(r)
} else {
//todo: get StartIP/EndIP from iplookup module
// netaddr, mask := DefaultNetaddr, DefaultMask
r, _ := NewRegion(R, DefaultRadixNetaddr, DefaultRadixNetMask)
//todo: modify to go func,so you can cathe the result
regiontree.AddRegionToCache(r)
//fmt.Println(utils.GetDebugLine(), "GetAFromDNSBackend: AddRegionToCache: ", r)
//fmt.Println(regionTree.GetRegionFromCacheWithAddr(startIP, cidrmask))
}
//todo: modify to go func,so you can cathe the result
//Add timer for auto refrech the RegionCache
go func(dst, srcIP string, r dns.RR, regionTree *RegionTree) {
//fmt.Println(utils.GetDebugLine(), " Refresh record after ", r.Header().Ttl-5,
// " Second, dst: ", dst, " srcIP: ", srcIP, " ns_a: ", ns_a, "add timer ")
time.AfterFunc((time.Duration(r.Header().Ttl-5))*time.Second,
func() {
GetAFromDNSBackend(dst, srcIP)
//todo:add timer for update region cache
utils.QueryLogger.Info("Need to refresh for domain:", dst, " srcIP: ", srcIP)
})
}(dst, srcIP, R[0], regiontree)
}
}
func TestMubitRadix(t *testing.T) {
cidrNet := []string{
"10.0.0.2/8",
"10.20.0.0/14",
"10.21.0.0/16",
"192.168.0.0/16",
"192.168.2.0/24",
"8.0.0.0/9",
"8.8.8.0/24",
"0.0.0.0/0",
// "128.0.0.0/1",
}
ip2Find := []string{
"10.20.1.2",
"10.22.1.2",
"10.19.0.1",
"10.21.0.1",
"192.168.2.3",
"10.22.0.5",
"202.106.0.20",
"172.16.3.133",
"8.8.8.8",
"8.8.7.1",
}
RadixTree := NewDomainRegionTree()
for _, x := range cidrNet {
i, n, e := net.ParseCIDR(x)
if e != nil {
t.Log(e.Error())
t.Fail()
continue
}
a, m := utils.IpNetToInt32(n)
RadixTree.AddRegionToCache(&Region{
NetworkAddr: a,
NetworkMask: m,
RR: []dns.RR{
dns.RR(&dns.A{
A: i,
Hdr: dns.RR_Header{
Rrtype: 1,
Class: 1,
Ttl: 60,
},
}),
},
})
}
// For default route
RadixTree.AddRegionToCache(&Region{
NetworkAddr: DefaultRadixNetaddr,
NetworkMask: DefaultRadixNetMask,
RR: []dns.RR{
dns.RR(&dns.A{
A: utils.Int32ToIP4(DefaultRadixNetaddr),
Hdr: dns.RR_Header{
Rrtype: 1,
Class: 1,
Ttl: 60,
},
}),
},
})
for _, i := range ip2Find {
ii := utils.Ip4ToInt32(utils.StrToIP(i))
r, e := RadixTree.GetRegionFromCacheWithAddr(ii, DefaultRadixSearchMask)
if e != nil {
t.Log(e)
t.Log(i)
t.Fail()
} else {
t.Log(r)
}
}
RadixTree.Radix32.Do(func(r1 *bitradix.Radix32, i int) {
t.Log(r1.Key(), r1.Value, r1.Bits())
})
}
