a5562850a7
Co-authored-by: Allen <979347228@qq.com>
181 lines
4.5 KiB
Go
181 lines
4.5 KiB
Go
package integration
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import (
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"testing"
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"github.com/juanfont/headscale"
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"github.com/juanfont/headscale/integration/hsic"
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"github.com/juanfont/headscale/integration/tsic"
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"github.com/stretchr/testify/assert"
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)
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// This tests a different ACL mechanism, if a host _cannot_ connect
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// to another node at all based on ACL, it should just not be part
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// of the NetMap sent to the host. This is slightly different than
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// the other tests as we can just check if the hosts are present
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// or not.
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func TestACLHostsInNetMapTable(t *testing.T) {
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IntegrationSkip(t)
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// NOTE: All want cases currently checks the
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// total count of expected peers, this would
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// typically be the client count of the users
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// they can access minus one (them self).
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tests := map[string]struct {
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users map[string]int
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policy headscale.ACLPolicy
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want map[string]int
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}{
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// Test that when we have no ACL, each client netmap has
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// the amount of peers of the total amount of clients
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"base-acls": {
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users: map[string]int{
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"user1": 2,
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"user2": 2,
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},
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policy: headscale.ACLPolicy{
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ACLs: []headscale.ACL{
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{
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Action: "accept",
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Sources: []string{"*"},
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Destinations: []string{"*:*"},
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},
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},
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}, want: map[string]int{
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"user1": 3, // ns1 + ns2
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"user2": 3, // ns2 + ns1
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},
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},
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// Test that when we have two users, which cannot see
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// eachother, each node has only the number of pairs from
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// their own user.
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"two-isolated-users": {
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users: map[string]int{
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"user1": 2,
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"user2": 2,
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},
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policy: headscale.ACLPolicy{
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ACLs: []headscale.ACL{
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{
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Action: "accept",
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Sources: []string{"user1"},
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Destinations: []string{"user1:*"},
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},
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{
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Action: "accept",
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Sources: []string{"user2"},
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Destinations: []string{"user2:*"},
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},
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},
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}, want: map[string]int{
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"user1": 1,
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"user2": 1,
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},
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},
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// Test that when we have two users, with ACLs and they
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// are restricted to a single port, nodes are still present
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// in the netmap.
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"two-restricted-present-in-netmap": {
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users: map[string]int{
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"user1": 2,
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"user2": 2,
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},
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policy: headscale.ACLPolicy{
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ACLs: []headscale.ACL{
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{
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Action: "accept",
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Sources: []string{"user1"},
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Destinations: []string{"user1:22"},
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},
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{
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Action: "accept",
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Sources: []string{"user2"},
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Destinations: []string{"user2:22"},
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},
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{
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Action: "accept",
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Sources: []string{"user1"},
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Destinations: []string{"user2:22"},
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},
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{
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Action: "accept",
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Sources: []string{"user2"},
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Destinations: []string{"user1:22"},
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},
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},
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}, want: map[string]int{
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"user1": 3,
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"user2": 3,
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},
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},
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// Test that when we have two users, that are isolated,
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// but one can see the others, we have the appropriate number
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// of peers. This will still result in all the peers as we
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// need them present on the other side for the "return path".
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"two-ns-one-isolated": {
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users: map[string]int{
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"user1": 2,
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"user2": 2,
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},
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policy: headscale.ACLPolicy{
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ACLs: []headscale.ACL{
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{
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Action: "accept",
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Sources: []string{"user1"},
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Destinations: []string{"user1:*"},
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},
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{
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Action: "accept",
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Sources: []string{"user2"},
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Destinations: []string{"user2:*"},
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},
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{
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Action: "accept",
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Sources: []string{"user1"},
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Destinations: []string{"user2:*"},
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},
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},
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}, want: map[string]int{
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"user1": 3, // ns1 + ns2
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"user2": 3, // ns1 + ns2 (return path)
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},
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},
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}
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for name, testCase := range tests {
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t.Run(name, func(t *testing.T) {
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scenario, err := NewScenario()
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assert.NoError(t, err)
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spec := testCase.users
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err = scenario.CreateHeadscaleEnv(spec,
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[]tsic.Option{},
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hsic.WithACLPolicy(&testCase.policy),
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// hsic.WithTestName(fmt.Sprintf("aclinnetmap%s", name)),
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)
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assert.NoError(t, err)
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allClients, err := scenario.ListTailscaleClients()
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assert.NoError(t, err)
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err = scenario.WaitForTailscaleSync()
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assert.NoError(t, err)
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// allHostnames, err := scenario.ListTailscaleClientsFQDNs()
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// assert.NoError(t, err)
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for _, client := range allClients {
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status, err := client.Status()
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assert.NoError(t, err)
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user := status.User[status.Self.UserID].LoginName
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assert.Equal(t, (testCase.want[user]), len(status.Peer))
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}
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err = scenario.Shutdown()
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assert.NoError(t, err)
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})
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}
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}
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