package cidr import ( "fmt" "net" "git.loafle.net/commons/util-go/net/converter" ) type cidrRangeIPv4 struct { cidrNet *net.IPNet } func (cr *cidrRangeIPv4) Contains(ip net.IP) bool { return cr.cidrNet.Contains(ip) } func (cr *cidrRangeIPv4) First() net.IP { nIP := cr.Network() return cr.Next(nIP) } func (cr *cidrRangeIPv4) Last() net.IP { bIP := cr.Broadcast() return cr.Previous(bIP) } func (cr *cidrRangeIPv4) Range() []net.IP { fIP := cr.First() if nil == fIP { return nil } lIP := cr.Last() if nil == lIP { return nil } fNum := converter.IPv4ToInt(fIP.To4()) lNum := converter.IPv4ToInt(lIP.To4()) r := make([]net.IP, 0) for i := fNum; i <= lNum; i++ { r = append(r, converter.IntToIPv4(i)) } return r } // (!Contains(startIP) || !Contains(endIP)) return nil // (startIP > endIP) return nil // (nil != startIP && nil != endIP) return (startIP ~ endIP) + include - exclude // (nil == startIP || nil == endIP) return include - exclude func (cr *cidrRangeIPv4) Ranges(startIP net.IP, endIP net.IP, include []net.IP, exclude []net.IP) ([]net.IP, error) { res := make(map[int32]bool) if nil != startIP && nil != endIP { if !cr.Contains(startIP) { return nil, fmt.Errorf("CIDR Range: CIDR not contains start ip[%v]", startIP) } if !cr.Contains(endIP) { return nil, fmt.Errorf("CIDR Range: CIDR not contains end ip[%v]", endIP) } sNum := converter.IPv4ToInt(startIP.To4()) eNum := converter.IPv4ToInt(endIP.To4()) if sNum > eNum { return nil, fmt.Errorf("CIDR Range: Start IP[%v] must smaller then End IP[%v]", startIP, endIP) } for i := sNum; i <= eNum; i++ { res[i] = true } } if nil != include { for _, in := range include { iNum := converter.IPv4ToInt(in.To4()) if _, ok := res[iNum]; !ok { res[iNum] = true } } } if nil != exclude { for _, ex := range exclude { iNum := converter.IPv4ToInt(ex.To4()) if _, ok := res[iNum]; ok { delete(res, iNum) } } } r := make([]net.IP, 0) for k, _ := range res { r = append(r, converter.IntToIPv4(k)) } return r, nil } func (cr *cidrRangeIPv4) Broadcast() net.IP { ip := cr.cidrNet.IP.To4() bIP := net.IPv4(0, 0, 0, 0).To4() for i := 0; i < len(bIP); i++ { bIP[i] = ip[i] | ^cr.cidrNet.Mask[i] } return bIP } func (cr *cidrRangeIPv4) Network() net.IP { ip := cr.cidrNet.IP.To4() return ip.Mask(cr.cidrNet.Mask) } func (cr *cidrRangeIPv4) Next(ip net.IP) net.IP { nNum := converter.IPv4ToInt(ip.To4()) + 1 nIP := converter.IntToIPv4(nNum) if cr.Contains(nIP) { return nIP } return nil } func (cr *cidrRangeIPv4) Previous(ip net.IP) net.IP { nNum := converter.IPv4ToInt(ip.To4()) - 1 nIP := converter.IntToIPv4(nNum) if cr.Contains(nIP) { return nIP } return nil }