package dhcpd import ( "fmt" "math" "math/big" "net" "github.com/AdguardTeam/AdGuardHome/internal/agherr" ) // ipRange is an inclusive range of IP addresses. A nil range is a range that // doesn't contain any IP addresses. // // It is safe for concurrent use. // // TODO(a.garipov): Perhaps create an optimised version with uint32 for // IPv4 ranges? Or use one of uint128 packages? type ipRange struct { start *big.Int end *big.Int } // maxRangeLen is the maximum IP range length. The bitsets used in servers only // accept uints, which can have the size of 32 bit. const maxRangeLen = math.MaxUint32 // newIPRange creates a new IP address range. start must be less than end. The // resulting range must not be greater than maxRangeLen. func newIPRange(start, end net.IP) (r *ipRange, err error) { defer agherr.Annotate("invalid ip range: %w", &err) // Make sure that both are 16 bytes long to simplify handling in // methods. start, end = start.To16(), end.To16() startInt := (&big.Int{}).SetBytes(start) endInt := (&big.Int{}).SetBytes(end) diff := (&big.Int{}).Sub(endInt, startInt) if diff.Sign() <= 0 { return nil, fmt.Errorf("start is greater than or equal to end") } else if !diff.IsUint64() || diff.Uint64() > maxRangeLen { return nil, fmt.Errorf("range is too large") } r = &ipRange{ start: startInt, end: endInt, } return r, nil } // contains returns true if r contains ip. func (r *ipRange) contains(ip net.IP) (ok bool) { if r == nil { return false } ipInt := (&big.Int{}).SetBytes(ip.To16()) return r.containsInt(ipInt) } // containsInt returns true if r contains ipInt. For internal use only. func (r *ipRange) containsInt(ipInt *big.Int) (ok bool) { return ipInt.Cmp(r.start) >= 0 && ipInt.Cmp(r.end) <= 0 } // ipPredicate is a function that is called on every IP address in // (*ipRange).find. ip is given in the 16-byte form. type ipPredicate func(ip net.IP) (ok bool) // find finds the first IP address in r for which p returns true. ip is in the // 16-byte form. func (r *ipRange) find(p ipPredicate) (ip net.IP) { if r == nil { return nil } ip = make(net.IP, net.IPv6len) _1 := big.NewInt(1) for i := (&big.Int{}).Set(r.start); i.Cmp(r.end) <= 0; i.Add(i, _1) { i.FillBytes(ip) if p(ip) { return ip } } return nil } // offset returns the offset of ip from the beginning of r. It returns 0 and // false if ip is not in r. func (r *ipRange) offset(ip net.IP) (offset uint64, ok bool) { if r == nil { return 0, false } ip = ip.To16() ipInt := (&big.Int{}).SetBytes(ip) if !r.containsInt(ipInt) { return 0, false } offsetInt := (&big.Int{}).Sub(ipInt, r.start) // Assume that the range was checked against maxRangeLen during // construction. return offsetInt.Uint64(), true }