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4fec709bb1
* compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
356 lines
7.6 KiB
Go
356 lines
7.6 KiB
Go
package routemanager
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import (
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"net/netip"
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"testing"
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"time"
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"github.com/netbirdio/netbird/client/internal/routemanager/static"
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"github.com/netbirdio/netbird/route"
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)
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func TestGetBestrouteFromStatuses(t *testing.T) {
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testCases := []struct {
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name string
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statuses map[route.ID]routerPeerStatus
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expectedRouteID route.ID
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currentRoute route.ID
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existingRoutes map[route.ID]*route.Route
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}{
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{
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name: "one route",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: false,
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direct: true,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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},
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currentRoute: "",
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expectedRouteID: "route1",
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},
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{
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name: "one connected routes with relayed and direct",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: true,
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direct: true,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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},
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currentRoute: "",
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expectedRouteID: "route1",
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},
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{
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name: "one connected routes with relayed and no direct",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: true,
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direct: false,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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},
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currentRoute: "",
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expectedRouteID: "route1",
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},
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{
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name: "no connected peers",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: false,
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relayed: false,
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direct: false,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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},
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currentRoute: "",
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expectedRouteID: "",
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},
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{
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name: "multiple connected peers with different metrics",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: false,
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direct: true,
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},
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"route2": {
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connected: true,
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relayed: false,
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direct: true,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: 9000,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "",
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expectedRouteID: "route1",
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},
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{
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name: "multiple connected peers with one relayed",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: false,
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direct: true,
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},
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"route2": {
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connected: true,
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relayed: true,
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direct: true,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "",
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expectedRouteID: "route1",
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},
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{
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name: "multiple connected peers with one direct",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: false,
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direct: true,
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},
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"route2": {
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connected: true,
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relayed: false,
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direct: false,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "",
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expectedRouteID: "route1",
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},
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{
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name: "multiple connected peers with different latencies",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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latency: 300 * time.Millisecond,
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},
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"route2": {
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connected: true,
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latency: 10 * time.Millisecond,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "",
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expectedRouteID: "route2",
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},
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{
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name: "should ignore routes with latency 0",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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latency: 0 * time.Millisecond,
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},
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"route2": {
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connected: true,
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latency: 10 * time.Millisecond,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "",
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expectedRouteID: "route2",
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},
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{
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name: "current route with similar score and similar but slightly worse latency should not change",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: false,
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direct: true,
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latency: 15 * time.Millisecond,
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},
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"route2": {
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connected: true,
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relayed: false,
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direct: true,
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latency: 10 * time.Millisecond,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "route1",
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expectedRouteID: "route1",
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},
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{
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name: "current route with bad score should be changed to route with better score",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: false,
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direct: true,
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latency: 200 * time.Millisecond,
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},
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"route2": {
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connected: true,
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relayed: false,
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direct: true,
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latency: 10 * time.Millisecond,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "route1",
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expectedRouteID: "route2",
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},
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{
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name: "current chosen route doesn't exist anymore",
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statuses: map[route.ID]routerPeerStatus{
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"route1": {
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connected: true,
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relayed: false,
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direct: true,
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latency: 20 * time.Millisecond,
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},
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"route2": {
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connected: true,
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relayed: false,
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direct: true,
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latency: 10 * time.Millisecond,
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},
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},
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existingRoutes: map[route.ID]*route.Route{
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"route1": {
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ID: "route1",
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Metric: route.MaxMetric,
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Peer: "peer1",
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},
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"route2": {
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ID: "route2",
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Metric: route.MaxMetric,
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Peer: "peer2",
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},
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},
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currentRoute: "routeDoesntExistAnymore",
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expectedRouteID: "route2",
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},
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}
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for _, tc := range testCases {
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t.Run(tc.name, func(t *testing.T) {
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currentRoute := &route.Route{
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ID: "routeDoesntExistAnymore",
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}
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if tc.currentRoute != "" {
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currentRoute = tc.existingRoutes[tc.currentRoute]
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}
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// create new clientNetwork
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client := &clientNetwork{
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handler: static.NewRoute(&route.Route{Network: netip.MustParsePrefix("192.168.0.0/24")}, nil, nil),
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routes: tc.existingRoutes,
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currentChosen: currentRoute,
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}
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chosenRoute := client.getBestRouteFromStatuses(tc.statuses)
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if chosenRoute != tc.expectedRouteID {
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t.Errorf("expected routeID %s, got %s", tc.expectedRouteID, chosenRoute)
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}
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})
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}
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}
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