ceremonyclient/go-multiaddr/net/private.go
2024-10-12 11:48:25 -07:00

219 lines
5.5 KiB
Go

package manet
import (
"net"
"strings"
ma "github.com/multiformats/go-multiaddr"
)
// Private4 and Private6 are well-known private networks
var Private4, Private6 []*net.IPNet
var privateCIDR4 = []string{
// localhost
"127.0.0.0/8",
// private networks
"10.0.0.0/8",
"100.64.0.0/10",
"172.16.0.0/12",
"192.168.0.0/16",
// link local
"169.254.0.0/16",
}
var privateCIDR6 = []string{
// localhost
"::1/128",
// ULA reserved
"fc00::/7",
// link local
"fe80::/10",
}
// Unroutable4 and Unroutable6 are well known unroutable address ranges
var Unroutable4, Unroutable6 []*net.IPNet
var unroutableCIDR4 = []string{
"0.0.0.0/8",
"192.0.0.0/26",
"192.0.2.0/24",
"192.88.99.0/24",
"198.18.0.0/15",
"198.51.100.0/24",
"203.0.113.0/24",
"224.0.0.0/4",
"240.0.0.0/4",
"255.255.255.255/32",
}
var unroutableCIDR6 = []string{
"ff00::/8", // multicast
"2001:db8::/32", // documentation
}
var globalUnicast []*net.IPNet
var globalUnicastCIDR6 = []string{
"2000::/3",
}
var nat64CIDRs = []string{
"64:ff9b:1::/48", // RFC 8215
"64:ff9b::/96", // RFC 6052
}
var nat64 []*net.IPNet
// unResolvableDomains do not resolve to an IP address.
// Ref: https://en.wikipedia.org/wiki/Special-use_domain_name#Reserved_domain_names
var unResolvableDomains = []string{
// Reverse DNS Lookup
".in-addr.arpa",
".ip6.arpa",
// RFC 6761: Users MAY assume that queries for "invalid" names will always return NXDOMAIN
// responses
".invalid",
}
// privateUseDomains are reserved for private use and have no central authority for consistent
// address resolution
// Ref: https://en.wikipedia.org/wiki/Special-use_domain_name#Reserved_domain_names
var privateUseDomains = []string{
// RFC 8375: Reserved for home networks
".home.arpa",
// MDNS
".local",
// RFC 6761: No central authority for .test names
".test",
}
// RFC 6761: Users may assume that IPv4 and IPv6 address queries for localhost names will
// always resolve to the respective IP loopback address
const localHostDomain = ".localhost"
func init() {
Private4 = parseCIDR(privateCIDR4)
Private6 = parseCIDR(privateCIDR6)
Unroutable4 = parseCIDR(unroutableCIDR4)
Unroutable6 = parseCIDR(unroutableCIDR6)
globalUnicast = parseCIDR(globalUnicastCIDR6)
nat64 = parseCIDR(nat64CIDRs)
}
func parseCIDR(cidrs []string) []*net.IPNet {
ipnets := make([]*net.IPNet, len(cidrs))
for i, cidr := range cidrs {
_, ipnet, err := net.ParseCIDR(cidr)
if err != nil {
return []*net.IPNet{}
}
ipnets[i] = ipnet
}
return ipnets
}
// IsPublicAddr returns true if the IP part of the multiaddr is a publicly routable address
// or if it's a dns address without a special use domain e.g. .local.
func IsPublicAddr(a ma.Multiaddr) (bool, error) {
isPublic := false
var err error
ma.ForEach(a, func(c ma.Component, e error) bool {
if e != nil {
err = e
return false
}
switch c.Protocol().Code {
case ma.P_IP6ZONE:
return true
case ma.P_IP4:
ip := net.IP(c.RawValue())
isPublic = !inAddrRange(ip, Private4) && !inAddrRange(ip, Unroutable4)
case ma.P_IP6:
ip := net.IP(c.RawValue())
// IP6 documentation prefix(part of Unroutable6) is a subset of the ip6
// global unicast allocation so we ensure that it's not a documentation
// prefix by diffing with Unroutable6
isPublicUnicastAddr := inAddrRange(ip, globalUnicast) && !inAddrRange(ip, Unroutable6)
if isPublicUnicastAddr {
isPublic = true
return false
}
// The WellKnown NAT64 prefix(RFC 6052) can only reference a public IPv4
// address.
// The Local use NAT64 prefix(RFC 8215) can reference private IPv4
// addresses. But since the translation from Local use NAT64 prefix to IPv4
// address is left to the user we have no way of knowing which IPv4 address
// is referenced. We count these as Public addresses because a false
// negative for this method here is generally worse than a false positive.
isPublic = inAddrRange(ip, nat64)
return false
case ma.P_DNS, ma.P_DNS4, ma.P_DNS6, ma.P_DNSADDR:
dnsAddr := c.Value()
isPublic = true
if isSubdomain(dnsAddr, localHostDomain) {
isPublic = false
return false
}
for _, ud := range unResolvableDomains {
if isSubdomain(dnsAddr, ud) {
isPublic = false
return false
}
}
for _, pd := range privateUseDomains {
if isSubdomain(dnsAddr, pd) {
isPublic = false
break
}
}
}
return false
})
return isPublic, err
}
// isSubdomain checks if child is sub domain of parent. It also returns true if child and parent are
// the same domain.
// Parent must have a "." prefix.
func isSubdomain(child, parent string) bool {
return strings.HasSuffix(child, parent) || child == parent[1:]
}
// IsPrivateAddr returns true if the IP part of the mutiaddr is in a private network
func IsPrivateAddr(a ma.Multiaddr) (bool, error) {
isPrivate := false
var err error
ma.ForEach(a, func(c ma.Component, e error) bool {
if e != nil {
err = e
return false
}
switch c.Protocol().Code {
case ma.P_IP6ZONE:
return true
case ma.P_IP4:
isPrivate = inAddrRange(net.IP(c.RawValue()), Private4)
case ma.P_IP6:
isPrivate = inAddrRange(net.IP(c.RawValue()), Private6)
case ma.P_DNS, ma.P_DNS4, ma.P_DNS6, ma.P_DNSADDR:
dnsAddr := c.Value()
if isSubdomain(dnsAddr, localHostDomain) {
isPrivate = true
}
// We don't check for privateUseDomains because private use domains can
// resolve to public IP addresses
}
return false
})
return isPrivate, err
}
func inAddrRange(ip net.IP, ipnets []*net.IPNet) bool {
for _, ipnet := range ipnets {
if ipnet.Contains(ip) {
return true
}
}
return false
}