nebula/handshake.go

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2019-11-19 10:00:20 -07:00
package nebula
const (
handshakeIXPSK0 = 0
handshakeXXPSK0 = 1
)
func HandleIncomingHandshake(f *Interface, addr *udpAddr, packet []byte, h *Header, hostinfo *HostInfo) {
newHostinfo, _ := f.handshakeManager.QueryIndex(h.RemoteIndex)
//TODO: For stage 1 we won't have hostinfo yet but stage 2 and above would require it, this check may be helpful in those cases
//if err != nil {
// l.WithError(err).WithField("udpAddr", addr).Error("Error while finding host info for handshake message")
// return
//}
Add lighthouse.{remoteAllowList,localAllowList} (#217) These settings make it possible to blacklist / whitelist IP addresses that are used for remote connections. `lighthouse.remoteAllowList` filters which remote IPs are allow when fetching from the lighthouse (or, if you are the lighthouse, which IPs you store and forward to querying hosts). By default, any remote IPs are allowed. You can provide CIDRs here with `true` to allow and `false` to deny. The most specific CIDR rule applies to each remote. If all rules are "allow", the default will be "deny", and vice-versa. If both "allow" and "deny" rules are present, then you MUST set a rule for "0.0.0.0/0" as the default. lighthouse: remoteAllowList: # Example to block IPs from this subnet from being used for remote IPs. "172.16.0.0/12": false # A more complicated example, allow public IPs but only private IPs from a specific subnet "0.0.0.0/0": true "10.0.0.0/8": false "10.42.42.0/24": true `lighthouse.localAllowList` has the same logic as above, but it applies to the local addresses we advertise to the lighthouse. Additionally, you can specify an `interfaces` map of regular expressions to match against interface names. The regexp must match the entire name. All interface rules must be either true or false (and the default rule will be the inverse). CIDR rules are matched after interface name rules. Default is all local IP addresses. lighthouse: localAllowList: # Example to blacklist docker interfaces. interfaces: 'docker.*': false # Example to only advertise IPs in this subnet to the lighthouse. "10.0.0.0/8": true
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if !f.lightHouse.remoteAllowList.Allow(udp2ipInt(addr)) {
l.WithField("udpAddr", addr).Debug("lighthouse.remote_allow_list denied incoming handshake")
Add lighthouse.{remoteAllowList,localAllowList} (#217) These settings make it possible to blacklist / whitelist IP addresses that are used for remote connections. `lighthouse.remoteAllowList` filters which remote IPs are allow when fetching from the lighthouse (or, if you are the lighthouse, which IPs you store and forward to querying hosts). By default, any remote IPs are allowed. You can provide CIDRs here with `true` to allow and `false` to deny. The most specific CIDR rule applies to each remote. If all rules are "allow", the default will be "deny", and vice-versa. If both "allow" and "deny" rules are present, then you MUST set a rule for "0.0.0.0/0" as the default. lighthouse: remoteAllowList: # Example to block IPs from this subnet from being used for remote IPs. "172.16.0.0/12": false # A more complicated example, allow public IPs but only private IPs from a specific subnet "0.0.0.0/0": true "10.0.0.0/8": false "10.42.42.0/24": true `lighthouse.localAllowList` has the same logic as above, but it applies to the local addresses we advertise to the lighthouse. Additionally, you can specify an `interfaces` map of regular expressions to match against interface names. The regexp must match the entire name. All interface rules must be either true or false (and the default rule will be the inverse). CIDR rules are matched after interface name rules. Default is all local IP addresses. lighthouse: localAllowList: # Example to blacklist docker interfaces. interfaces: 'docker.*': false # Example to only advertise IPs in this subnet to the lighthouse. "10.0.0.0/8": true
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return
}
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tearDown := false
switch h.Subtype {
case handshakeIXPSK0:
switch h.MessageCounter {
case 1:
tearDown = ixHandshakeStage1(f, addr, newHostinfo, packet, h)
case 2:
tearDown = ixHandshakeStage2(f, addr, newHostinfo, packet, h)
}
}
if tearDown && newHostinfo != nil {
f.handshakeManager.DeleteIndex(newHostinfo.localIndexId)
f.handshakeManager.DeleteVpnIP(newHostinfo.hostId)
}
}