195 lines
4.2 KiB
Go
195 lines
4.2 KiB
Go
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package cidr
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import (
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"encoding/hex"
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"fmt"
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"math"
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"math/big"
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"net"
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)
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// 裂解子网的方式
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const (
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MethodSubnetNum = 0 // 基于子网数量
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MethodHostNum = 1 // 基于主机数量
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)
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var _ CIDR = (*cidr)(nil)
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type CIDR interface {
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CIDR() string
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IP() string
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Network() string
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Broadcast() string
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Mask() string
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MaskSize() (int, int)
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IPRange() (string, string)
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IPCount() *big.Int
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IsIPv4() bool
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IsIPv6() bool
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Equal(string) bool
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Contains(string) bool
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ForEachIP(func(string) error) error
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ForEachIPBeginWith(string, func(string) error) error
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SubNetting(method, num int) ([]*cidr, error)
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}
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type cidr struct {
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ip net.IP
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ipNet *net.IPNet
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}
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// ParseCIDR 解析CIDR网段
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func ParseCIDR(s string) (*cidr, error) {
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i, n, err := net.ParseCIDR(s)
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if err != nil {
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return nil, err
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}
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return &cidr{ip: i, ipNet: n}, nil
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}
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// Equal 判断网段是否相等
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func (c *cidr) Equal(ns string) bool {
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c2, err := ParseCIDR(ns)
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if err != nil {
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return false
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}
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return c.ipNet.IP.Equal(c2.ipNet.IP) /* && c.ipNet.IP.Equal(c2.ip) */
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}
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// IsIPv4 判断是否IPv4
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func (c *cidr) IsIPv4() bool {
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_, bits := c.ipNet.Mask.Size()
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return bits/8 == net.IPv4len
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}
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// IsIPv6 判断是否IPv6
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func (c *cidr) IsIPv6() bool {
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_, bits := c.ipNet.Mask.Size()
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return bits/8 == net.IPv6len
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}
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// Contains 判断IP是否包含在网段中
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func (c *cidr) Contains(ip string) bool {
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return c.ipNet.Contains(net.ParseIP(ip))
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}
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// CIDR 根据子网掩码长度校准后的CIDR
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func (c *cidr) CIDR() string {
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return c.ipNet.String()
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}
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// IP CIDR字符串中的IP部分
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func (c *cidr) IP() string {
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return c.ip.String()
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}
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// Network 网络号
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func (c *cidr) Network() string {
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return c.ipNet.IP.String()
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}
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// MaskSize 子网掩码位数
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func (c *cidr) MaskSize() (ones, bits int) {
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ones, bits = c.ipNet.Mask.Size()
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return
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}
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// Mask 子网掩码
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func (c *cidr) Mask() string {
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mask, _ := hex.DecodeString(c.ipNet.Mask.String())
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return net.IP([]byte(mask)).String()
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}
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// Broadcast 广播地址(网段最后一个IP)
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func (c *cidr) Broadcast() string {
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mask := c.ipNet.Mask
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bcst := make(net.IP, len(c.ipNet.IP))
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copy(bcst, c.ipNet.IP)
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for i := 0; i < len(mask); i++ {
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ipIdx := len(bcst) - i - 1
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bcst[ipIdx] = c.ipNet.IP[ipIdx] | ^mask[len(mask)-i-1]
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}
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return bcst.String()
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}
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// IPRange 起始IP、结束IP
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func (c *cidr) IPRange() (start, end string) {
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return c.Network(), c.Broadcast()
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}
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// IPCount IP数量
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func (c *cidr) IPCount() *big.Int {
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ones, bits := c.ipNet.Mask.Size()
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return big.NewInt(0).Lsh(big.NewInt(1), uint(bits-ones))
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}
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// ForEachIP 遍历网段下所有IP
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func (c *cidr) ForEachIP(iterator func(ip string) error) error {
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next := make(net.IP, len(c.ipNet.IP))
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copy(next, c.ipNet.IP)
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for c.ipNet.Contains(next) {
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if err := iterator(next.String()); err != nil {
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return err
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}
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IncrIP(next)
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}
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return nil
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}
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// ForEachIPBeginWith 从指定IP开始遍历网段下后续的IP
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func (c *cidr) ForEachIPBeginWith(beginIP string, iterator func(ip string) error) error {
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next := net.ParseIP(beginIP)
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for c.ipNet.Contains(next) {
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if err := iterator(next.String()); err != nil {
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return err
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}
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IncrIP(next)
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}
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return nil
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}
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// SubNetting 裂解网段
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func (c *cidr) SubNetting(method, num int) ([]*cidr, error) {
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if num < 1 || (num&(num-1)) != 0 {
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return nil, fmt.Errorf("裂解数量必须是2的次方")
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}
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newOnes := int(math.Log2(float64(num)))
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ones, bits := c.MaskSize()
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switch method {
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default:
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return nil, fmt.Errorf("不支持的裂解方式")
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case MethodSubnetNum:
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newOnes = ones + newOnes
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// 如果子网的掩码长度大于父网段的长度,则无法裂解
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if newOnes > bits {
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return nil, nil
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}
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case MethodHostNum:
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newOnes = bits - newOnes
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// 如果子网的掩码长度小于等于父网段的掩码长度,则无法裂解
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if newOnes <= ones {
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return nil, nil
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}
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// 主机数量转换为子网数量
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num = int(math.Pow(float64(2), float64(newOnes-ones)))
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}
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var cidrs []*cidr
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network := make(net.IP, len(c.ipNet.IP))
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copy(network, c.ipNet.IP)
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for i := 0; i < num; i++ {
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cidr, _ := ParseCIDR(fmt.Sprintf("%v/%v", network.String(), newOnes))
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cidrs = append(cidrs, cidr)
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// 广播地址的下一个IP即为下一段的网络号
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network = net.ParseIP(cidr.Broadcast())
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IncrIP(network)
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}
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return cidrs, nil
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}
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