open-nomad/e2e/workload_id/workload_id_test.go
2023-04-10 15:36:59 +00:00

177 lines
4.1 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package workload_id
import (
"fmt"
"io"
"strconv"
"strings"
"testing"
"github.com/hashicorp/nomad/e2e/e2eutil"
"github.com/hashicorp/nomad/helper/uuid"
"github.com/shoenig/test/must"
)
// TestWorkloadIdentity runs subtests exercising workload identity related
// functionality.
func TestWorkloadIdentity(t *testing.T) {
nomad := e2eutil.NomadClient(t)
e2eutil.WaitForLeader(t, nomad)
e2eutil.WaitForNodesReady(t, nomad, 1)
t.Run("testIdentity", testIdentity)
t.Run("testNobody", testNobody)
}
// testIdentity asserts that the various combinations of identity block
// parameteres produce the expected results.
func testIdentity(t *testing.T) {
nomad := e2eutil.NomadClient(t)
jobID := "identity-" + uuid.Short()
jobIDs := []string{jobID}
t.Cleanup(e2eutil.CleanupJobsAndGC(t, &jobIDs))
// start job
allocs := e2eutil.RegisterAndWaitForAllocs(t, nomad, "./input/identity.nomad", jobID, "")
must.Len(t, 1, allocs)
allocID := allocs[0].ID
// wait for batch alloc to complete
alloc := e2eutil.WaitForAllocStopped(t, nomad, allocID)
must.Eq(t, alloc.ClientStatus, "complete")
assertions := []struct {
task string
env bool
file bool
}{
{
task: "none",
env: false,
file: false,
},
{
task: "empty",
env: false,
file: false,
},
{
task: "env",
env: true,
file: false,
},
{
task: "file",
env: false,
file: true,
},
{
task: "falsey",
env: false,
file: false,
},
}
// Ensure the assertions and input file match
must.Len(t, len(assertions), alloc.Job.TaskGroups[0].Tasks,
must.Sprintf("test and jobspec mismatch"))
for _, tc := range assertions {
logFile := fmt.Sprintf("alloc/logs/%s.stdout.0", tc.task)
fd, err := nomad.AllocFS().Cat(alloc, logFile, nil)
must.NoError(t, err)
logBytes, err := io.ReadAll(fd)
must.NoError(t, err)
logs := string(logBytes)
ps := must.Sprintf("Task: %s Logs: <<EOF\n%sEOF", tc.task, logs)
must.StrHasSuffix(t, "done\n", logs, ps)
lines := strings.Split(logs, "\n")
switch {
case tc.env && tc.file:
must.Len(t, 4, lines, ps)
// Parse the env first
token := parseEnv(t, lines[1], ps)
// Assert the file length matches
n, err := strconv.Atoi(lines[0])
must.NoError(t, err, ps)
must.Eq(t, n, len(token), ps)
case !tc.env && tc.file:
must.Len(t, 3, lines, ps)
// Assert the length is > 10
n, err := strconv.Atoi(lines[0])
must.NoError(t, err, ps)
must.Greater(t, 10, n, ps)
case tc.env && !tc.file:
must.Len(t, 3, lines, ps)
parseEnv(t, lines[0], ps)
case !tc.env && !tc.file:
must.Len(t, 2, lines, ps)
}
}
}
func parseEnv(t *testing.T, line string, ps must.Setting) string {
must.StrHasPrefix(t, "NOMAD_TOKEN=", line, ps)
token := strings.Split(line, "=")[1]
must.Positive(t, len(token), ps)
return token
}
// testNobody asserts that when task.user is set, the nomad_token file is owned
// by that user and has minimal permissions.
//
// Test assumes Client is running as root!
func testNobody(t *testing.T) {
nomad := e2eutil.NomadClient(t)
jobID := "nobodyid-" + uuid.Short()
jobIDs := []string{jobID}
t.Cleanup(e2eutil.CleanupJobsAndGC(t, &jobIDs))
// start job
allocs := e2eutil.RegisterAndWaitForAllocs(t, nomad, "./input/nobody.nomad", jobID, "")
must.Len(t, 1, allocs)
allocID := allocs[0].ID
// wait for batch alloc to complete
alloc := e2eutil.WaitForAllocStopped(t, nomad, allocID)
must.Eq(t, alloc.ClientStatus, "complete")
logFile := "alloc/logs/nobody.stdout.0"
fd, err := nomad.AllocFS().Cat(alloc, logFile, nil)
must.NoError(t, err)
logBytes, err := io.ReadAll(fd)
must.NoError(t, err)
logs := string(logBytes)
must.StrHasSuffix(t, "done\n", logs)
lines := strings.Split(logs, "\n")
must.Len(t, 3, lines)
parts := strings.Split(lines[0], " ")
stats := map[string]string{}
for _, p := range parts {
kvparts := strings.Split(p, "=")
stats[kvparts[0]] = kvparts[1]
}
must.Eq(t, "0600", stats["perms"], must.Sprintf("is the client running as root?"))
must.Eq(t, "nobody", stats["username"], must.Sprintf("is the client running as root?"))
}