421 lines
8.1 KiB
Go
421 lines
8.1 KiB
Go
package trie
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import (
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"errors"
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"github.com/Dreamacro/clash/log"
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"net"
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"strings"
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)
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const (
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wildcard = "*"
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dotWildcard = ""
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complexWildcard = "+"
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domainStep = "."
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)
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// ErrInvalidDomain means insert domain is invalid
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var ErrInvalidDomain = errors.New("invalid domain")
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// DomainTrie contains the main logic for adding and searching nodes for domain segments.
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// support wildcard domain (e.g *.google.com)
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type DomainTrie struct {
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root *Node
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}
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func ValidAndSplitDomain(domain string) ([]string, bool) {
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if domain != "" && domain[len(domain)-1] == '.' {
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return nil, false
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}
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parts := strings.Split(domain, domainStep)
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if len(parts) == 1 {
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if parts[0] == "" {
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return nil, false
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}
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return parts, true
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}
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for _, part := range parts[1:] {
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if part == "" {
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return nil, false
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}
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}
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return parts, true
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}
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// Insert adds a node to the trie.
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// Support
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// 1. www.example.com
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// 2. *.example.com
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// 3. subdomain.*.example.com
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// 4. .example.com
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// 5. +.example.com
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func (t *DomainTrie) Insert(domain string, data interface{}) error {
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parts, valid := ValidAndSplitDomain(domain)
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if !valid {
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return ErrInvalidDomain
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}
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if parts[0] == complexWildcard {
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t.insert(parts[1:], data)
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parts[0] = dotWildcard
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t.insert(parts, data)
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} else {
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t.insert(parts, data)
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}
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return nil
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}
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func (t *DomainTrie) insert(parts []string, data interface{}) {
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node := t.root
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// reverse storage domain part to save space
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for i := len(parts) - 1; i >= 0; i-- {
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part := parts[i]
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if !node.hasChild(part) {
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node.addChild(part, newNode(nil))
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}
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node = node.getChild(part)
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}
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node.Data = data
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}
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// Search is the most important part of the Trie.
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// Priority as:
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// 1. static part
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// 2. wildcard domain
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// 2. dot wildcard domain
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func (t *DomainTrie) Search(domain string) *Node {
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parts, valid := ValidAndSplitDomain(domain)
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if !valid || parts[0] == "" {
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return nil
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}
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n := t.search(t.root, parts)
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if n == nil || n.Data == nil {
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return nil
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}
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return n
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}
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func (t *DomainTrie) search(node *Node, parts []string) *Node {
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if len(parts) == 0 {
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return node
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}
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if c := node.getChild(parts[len(parts)-1]); c != nil {
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if n := t.search(c, parts[:len(parts)-1]); n != nil {
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return n
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}
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}
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if c := node.getChild(wildcard); c != nil {
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if n := t.search(c, parts[:len(parts)-1]); n != nil {
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return n
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}
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}
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return node.getChild(dotWildcard)
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}
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// New returns a new, empty Trie.
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func New() *DomainTrie {
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return &DomainTrie{root: newNode(nil)}
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}
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type IPV6 bool
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const (
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ipv4GroupMaxValue = 0xFF
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ipv6GroupMaxValue = 0xFFFF
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)
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type IpCidrTrie struct {
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ipv4Trie *IpCidrNode
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ipv6Trie *IpCidrNode
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}
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func NewIpCidrTrie() *IpCidrTrie {
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return &IpCidrTrie{
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ipv4Trie: NewIpCidrNode(false, ipv4GroupMaxValue),
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ipv6Trie: NewIpCidrNode(false, ipv6GroupMaxValue),
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}
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}
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func (trie *IpCidrTrie) AddIpCidr(ipCidr *net.IPNet) error {
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subIpCidr, subCidr, isIpv4, err := ipCidrToSubIpCidr(ipCidr)
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if err != nil {
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return err
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}
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for _, sub := range subIpCidr {
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addIpCidr(trie, isIpv4, sub, subCidr/8)
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}
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return nil
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}
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func (trie *IpCidrTrie) AddIpCidrForString(ipCidr string) error {
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_, ipNet, err := net.ParseCIDR(ipCidr)
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if err != nil {
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return err
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}
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return trie.AddIpCidr(ipNet)
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}
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func (trie *IpCidrTrie) IsContain(ip net.IP) bool {
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ip, isIpv4 := checkAndConverterIp(ip)
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if ip == nil {
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return false
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}
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var groupValues []uint32
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var ipCidrNode *IpCidrNode
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if isIpv4 {
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ipCidrNode = trie.ipv4Trie
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for _, group := range ip {
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groupValues = append(groupValues, uint32(group))
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}
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} else {
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ipCidrNode = trie.ipv6Trie
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for i := 0; i < len(ip); i += 2 {
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groupValues = append(groupValues, getIpv6GroupValue(ip[i], ip[i+1]))
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}
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}
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return search(ipCidrNode, groupValues) != nil
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}
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func (trie *IpCidrTrie) IsContainForString(ipString string) bool {
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return trie.IsContain(net.ParseIP(ipString))
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}
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func ipCidrToSubIpCidr(ipNet *net.IPNet) ([]net.IP, int, bool, error) {
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maskSize, _ := ipNet.Mask.Size()
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var (
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ipList []net.IP
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newMaskSize int
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isIpv4 bool
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err error
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)
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ip, isIpv4 := checkAndConverterIp(ipNet.IP)
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ipList, newMaskSize, err = subIpCidr(ip, maskSize, isIpv4)
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return ipList, newMaskSize, isIpv4, err
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}
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func subIpCidr(ip net.IP, maskSize int, isIpv4 bool) ([]net.IP, int, error) {
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var subIpCidrList []net.IP
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groupSize := 8
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if !isIpv4 {
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groupSize = 16
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}
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if maskSize%groupSize == 0 {
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return append(subIpCidrList, ip), maskSize, nil
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}
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lastByteMaskSize := maskSize % 8
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lastByteMaskIndex := maskSize / 8
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subIpCidrNum := 0xFF >> lastByteMaskSize
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for i := 0; i < subIpCidrNum; i++ {
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subIpCidr := make([]byte, len(ip))
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copy(subIpCidr, ip)
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subIpCidr[lastByteMaskIndex] += byte(i)
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subIpCidrList = append(subIpCidrList, subIpCidr)
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}
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newMaskSize := (lastByteMaskIndex + 1) * 8
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if !isIpv4 {
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newMaskSize = (lastByteMaskIndex/2 + 1) * 16
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}
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return subIpCidrList, newMaskSize, nil
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}
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func addIpCidr(trie *IpCidrTrie, isIpv4 bool, ip net.IP, groupSize int) {
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if isIpv4 {
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addIpv4Cidr(trie, ip, groupSize)
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} else {
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addIpv6Cidr(trie, ip, groupSize)
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}
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}
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func addIpv4Cidr(trie *IpCidrTrie, ip net.IP, groupSize int) {
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preNode := trie.ipv4Trie
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node := preNode.getChild(uint32(ip[0]))
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if node == nil {
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err := preNode.addChild(uint32(ip[0]))
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if err != nil {
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return
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}
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node = preNode.getChild(uint32(ip[0]))
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}
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for i := 1; i < groupSize; i++ {
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if node.Mark {
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return
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}
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groupValue := uint32(ip[i])
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if !node.hasChild(groupValue) {
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err := node.addChild(groupValue)
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if err != nil {
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log.Errorln(err.Error())
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}
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}
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preNode = node
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node = node.getChild(groupValue)
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if node == nil {
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err := preNode.addChild(uint32(ip[i-1]))
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if err != nil {
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return
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}
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node = preNode.getChild(uint32(ip[i-1]))
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}
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}
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node.Mark = true
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cleanChild(node)
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}
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func addIpv6Cidr(trie *IpCidrTrie, ip net.IP, groupSize int) {
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preNode := trie.ipv6Trie
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node := preNode.getChild(getIpv6GroupValue(ip[0], ip[1]))
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if node == nil {
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err := preNode.addChild(getIpv6GroupValue(ip[0], ip[1]))
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if err != nil {
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return
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}
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node = preNode.getChild(getIpv6GroupValue(ip[0], ip[1]))
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}
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for i := 2; i < groupSize; i += 2 {
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if node.Mark {
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return
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}
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groupValue := getIpv6GroupValue(ip[i], ip[i+1])
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if !node.hasChild(groupValue) {
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err := node.addChild(groupValue)
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if err != nil {
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log.Errorln(err.Error())
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}
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}
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preNode = node
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node = node.getChild(groupValue)
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if node == nil {
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err := preNode.addChild(getIpv6GroupValue(ip[i-2], ip[i-1]))
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if err != nil {
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return
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}
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node = preNode.getChild(getIpv6GroupValue(ip[i-2], ip[i-1]))
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}
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}
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node.Mark = true
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cleanChild(node)
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}
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func getIpv6GroupValue(high, low byte) uint32 {
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return (uint32(high) << 8) | uint32(low)
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}
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func cleanChild(node *IpCidrNode) {
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for i := uint32(0); i < uint32(len(node.child)); i++ {
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delete(node.child, i)
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}
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}
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func search(root *IpCidrNode, groupValues []uint32) *IpCidrNode {
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node := root.getChild(groupValues[0])
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if node == nil || node.Mark {
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return node
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}
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for _, value := range groupValues[1:] {
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if !node.hasChild(value) {
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return nil
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}
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node = node.getChild(value)
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if node == nil || node.Mark {
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return node
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}
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}
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return nil
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}
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// return net.IP To4 or To16 and is ipv4
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func checkAndConverterIp(ip net.IP) (net.IP, bool) {
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ipResult := ip.To4()
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if ipResult == nil {
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ipResult = ip.To16()
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if ipResult == nil {
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return nil, false
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}
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return ipResult, false
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}
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return ipResult, true
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}
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var (
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ErrorOverMaxValue = errors.New("the value don't over max value")
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)
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type IpCidrNode struct {
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Mark bool
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child map[uint32]*IpCidrNode
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maxValue uint32
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}
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func NewIpCidrNode(mark bool, maxValue uint32) *IpCidrNode {
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ipCidrNode := &IpCidrNode{
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Mark: mark,
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child: map[uint32]*IpCidrNode{},
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maxValue: maxValue,
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}
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return ipCidrNode
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}
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func (n *IpCidrNode) addChild(value uint32) error {
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if value > n.maxValue {
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return ErrorOverMaxValue
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}
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n.child[value] = NewIpCidrNode(false, n.maxValue)
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return nil
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}
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func (n *IpCidrNode) hasChild(value uint32) bool {
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return n.getChild(value) != nil
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}
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func (n *IpCidrNode) getChild(value uint32) *IpCidrNode {
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if value <= n.maxValue {
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return n.child[value]
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}
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return nil
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}
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