205 lines
5.7 KiB
Go
205 lines
5.7 KiB
Go
package maxminddb
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import (
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"fmt"
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"net"
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)
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// Internal structure used to keep track of nodes we still need to visit.
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type netNode struct {
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ip net.IP
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bit uint
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pointer uint
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}
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// Networks represents a set of subnets that we are iterating over.
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type Networks struct {
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err error
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reader *Reader
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nodes []netNode
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lastNode netNode
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skipAliasedNetworks bool
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}
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var (
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allIPv4 = &net.IPNet{IP: make(net.IP, 4), Mask: net.CIDRMask(0, 32)}
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allIPv6 = &net.IPNet{IP: make(net.IP, 16), Mask: net.CIDRMask(0, 128)}
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)
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// NetworksOption are options for Networks and NetworksWithin.
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type NetworksOption func(*Networks)
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// SkipAliasedNetworks is an option for Networks and NetworksWithin that
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// makes them not iterate over aliases of the IPv4 subtree in an IPv6
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// database, e.g., ::ffff:0:0/96, 2001::/32, and 2002::/16.
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//
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// You most likely want to set this. The only reason it isn't the default
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// behavior is to provide backwards compatibility to existing users.
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func SkipAliasedNetworks(networks *Networks) {
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networks.skipAliasedNetworks = true
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}
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// Networks returns an iterator that can be used to traverse all networks in
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// the database.
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//
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// Please note that a MaxMind DB may map IPv4 networks into several locations
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// in an IPv6 database. This iterator will iterate over all of these locations
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// separately. To only iterate over the IPv4 networks once, use the
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// SkipAliasedNetworks option.
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func (r *Reader) Networks(options ...NetworksOption) *Networks {
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var networks *Networks
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if r.Metadata.IPVersion == 6 {
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networks = r.NetworksWithin(allIPv6, options...)
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} else {
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networks = r.NetworksWithin(allIPv4, options...)
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}
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return networks
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}
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// NetworksWithin returns an iterator that can be used to traverse all networks
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// in the database which are contained in a given network.
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//
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// Please note that a MaxMind DB may map IPv4 networks into several locations
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// in an IPv6 database. This iterator will iterate over all of these locations
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// separately. To only iterate over the IPv4 networks once, use the
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// SkipAliasedNetworks option.
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//
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// If the provided network is contained within a network in the database, the
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// iterator will iterate over exactly one network, the containing network.
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func (r *Reader) NetworksWithin(network *net.IPNet, options ...NetworksOption) *Networks {
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if r.Metadata.IPVersion == 4 && network.IP.To4() == nil {
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return &Networks{
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err: fmt.Errorf(
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"error getting networks with '%s': you attempted to use an IPv6 network in an IPv4-only database",
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network.String(),
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),
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}
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}
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networks := &Networks{reader: r}
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for _, option := range options {
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option(networks)
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}
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ip := network.IP
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prefixLength, _ := network.Mask.Size()
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if r.Metadata.IPVersion == 6 && len(ip) == net.IPv4len {
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if networks.skipAliasedNetworks {
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ip = net.IP{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ip[0], ip[1], ip[2], ip[3]}
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} else {
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ip = ip.To16()
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}
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prefixLength += 96
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}
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pointer, bit := r.traverseTree(ip, 0, uint(prefixLength))
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networks.nodes = []netNode{
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{
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ip: ip,
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bit: uint(bit),
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pointer: pointer,
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},
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}
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return networks
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}
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// Next prepares the next network for reading with the Network method. It
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// returns true if there is another network to be processed and false if there
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// are no more networks or if there is an error.
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func (n *Networks) Next() bool {
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if n.err != nil {
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return false
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}
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for len(n.nodes) > 0 {
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node := n.nodes[len(n.nodes)-1]
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n.nodes = n.nodes[:len(n.nodes)-1]
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for node.pointer != n.reader.Metadata.NodeCount {
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// This skips IPv4 aliases without hardcoding the networks that the writer
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// currently aliases.
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if n.skipAliasedNetworks && n.reader.ipv4Start != 0 &&
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node.pointer == n.reader.ipv4Start && !isInIPv4Subtree(node.ip) {
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break
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}
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if node.pointer > n.reader.Metadata.NodeCount {
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n.lastNode = node
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return true
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}
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ipRight := make(net.IP, len(node.ip))
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copy(ipRight, node.ip)
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if len(ipRight) <= int(node.bit>>3) {
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n.err = newInvalidDatabaseError(
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"invalid search tree at %v/%v", ipRight, node.bit)
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return false
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}
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ipRight[node.bit>>3] |= 1 << (7 - (node.bit % 8))
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offset := node.pointer * n.reader.nodeOffsetMult
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rightPointer := n.reader.nodeReader.readRight(offset)
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node.bit++
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n.nodes = append(n.nodes, netNode{
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pointer: rightPointer,
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ip: ipRight,
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bit: node.bit,
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})
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node.pointer = n.reader.nodeReader.readLeft(offset)
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}
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}
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return false
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}
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// Network returns the current network or an error if there is a problem
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// decoding the data for the network. It takes a pointer to a result value to
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// decode the network's data into.
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func (n *Networks) Network(result any) (*net.IPNet, error) {
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if n.err != nil {
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return nil, n.err
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}
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if err := n.reader.retrieveData(n.lastNode.pointer, result); err != nil {
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return nil, err
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}
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ip := n.lastNode.ip
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prefixLength := int(n.lastNode.bit)
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// We do this because uses of SkipAliasedNetworks expect the IPv4 networks
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// to be returned as IPv4 networks. If we are not skipping aliased
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// networks, then the user will get IPv4 networks from the ::FFFF:0:0/96
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// network as Go automatically converts those.
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if n.skipAliasedNetworks && isInIPv4Subtree(ip) {
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ip = ip[12:]
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prefixLength -= 96
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}
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return &net.IPNet{
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IP: ip,
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Mask: net.CIDRMask(prefixLength, len(ip)*8),
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}, nil
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}
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// Err returns an error, if any, that was encountered during iteration.
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func (n *Networks) Err() error {
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return n.err
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}
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// isInIPv4Subtree returns true if the IP is an IPv6 address in the database's
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// IPv4 subtree.
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func isInIPv4Subtree(ip net.IP) bool {
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if len(ip) != 16 {
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return false
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}
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for i := 0; i < 12; i++ {
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if ip[i] != 0 {
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return false
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}
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}
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return true
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}
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