open-nomad/e2e/nodedrain/nodedrain.go
2021-08-30 11:08:12 +02:00

356 lines
11 KiB
Go

package nodedrain
import (
"fmt"
"os"
"strings"
"time"
e2e "github.com/hashicorp/nomad/e2e/e2eutil"
"github.com/hashicorp/nomad/e2e/framework"
"github.com/hashicorp/nomad/helper/uuid"
"github.com/hashicorp/nomad/testutil"
)
const ns = ""
type NodeDrainE2ETest struct {
framework.TC
jobIDs []string
nodeIDs []string
}
func init() {
framework.AddSuites(&framework.TestSuite{
Component: "NodeDrain",
CanRunLocal: true,
Consul: true,
Cases: []framework.TestCase{
new(NodeDrainE2ETest),
},
})
}
func (tc *NodeDrainE2ETest) BeforeAll(f *framework.F) {
e2e.WaitForLeader(f.T(), tc.Nomad())
e2e.WaitForNodesReady(f.T(), tc.Nomad(), 2) // needs at least 2 to test migration
}
func (tc *NodeDrainE2ETest) AfterEach(f *framework.F) {
if os.Getenv("NOMAD_TEST_SKIPCLEANUP") == "1" {
return
}
for _, id := range tc.jobIDs {
_, err := e2e.Command("nomad", "job", "stop", "-purge", id)
f.Assert().NoError(err)
}
tc.jobIDs = []string{}
for _, id := range tc.nodeIDs {
_, err := e2e.Command("nomad", "node", "drain", "-disable", "-yes", id)
f.Assert().NoError(err)
}
tc.nodeIDs = []string{}
_, err := e2e.Command("nomad", "system", "gc")
f.Assert().NoError(err)
}
func nodesForJob(jobID string) ([]string, error) {
allocs, err := e2e.AllocsForJob(jobID, ns)
if err != nil {
return nil, err
}
if len(allocs) < 1 {
return nil, fmt.Errorf("no allocs found for job: %v", jobID)
}
nodes := []string{}
for _, alloc := range allocs {
nodes = append(nodes, alloc["Node ID"])
}
return nodes, nil
}
// waitForNodeDrain is a convenience wrapper that polls 'node status'
// until the comparison function over the state of the job's allocs on that
// node returns true
func waitForNodeDrain(nodeID string, comparison func([]map[string]string) bool, wc *e2e.WaitConfig) error {
var got []map[string]string
var err error
interval, retries := wc.OrDefault()
testutil.WaitForResultRetries(retries, func() (bool, error) {
time.Sleep(interval)
got, err = e2e.AllocsForNode(nodeID)
if err != nil {
return false, err
}
return comparison(got), nil
}, func(e error) {
err = fmt.Errorf("node drain status check failed: %v\n%#v", e, got)
})
return err
}
// TestNodeDrainEphemeralMigrate tests that ephermeral_disk migrations work as
// expected even during a node drain.
func (tc *NodeDrainE2ETest) TestNodeDrainEphemeralMigrate(f *framework.F) {
jobID := "test-node-drain-" + uuid.Generate()[0:8]
f.NoError(e2e.Register(jobID, "nodedrain/input/drain_migrate.nomad"))
tc.jobIDs = append(tc.jobIDs, jobID)
expected := []string{"running"}
f.NoError(e2e.WaitForAllocStatusExpected(jobID, ns, expected), "job should be running")
allocs, err := e2e.AllocsForJob(jobID, ns)
f.NoError(err, "could not get allocs for job")
f.Len(allocs, 1, "could not get allocs for job")
oldAllocID := allocs[0]["ID"]
nodes, err := nodesForJob(jobID)
f.NoError(err, "could not get nodes for job")
f.Len(nodes, 1, "could not get nodes for job")
nodeID := nodes[0]
out, err := e2e.Command("nomad", "node", "drain", "-enable", "-yes", "-detach", nodeID)
f.NoError(err, fmt.Sprintf("'nomad node drain' failed: %v\n%v", err, out))
tc.nodeIDs = append(tc.nodeIDs, nodeID)
f.NoError(waitForNodeDrain(nodeID,
func(got []map[string]string) bool {
for _, alloc := range got {
if alloc["ID"] == oldAllocID && alloc["Status"] == "complete" {
return true
}
}
return false
}, &e2e.WaitConfig{Interval: time.Millisecond * 100, Retries: 500},
), "node did not drain")
// wait for the allocation to be migrated
expected = []string{"running", "complete"}
f.NoError(e2e.WaitForAllocStatusExpected(jobID, ns, expected), "job should be running")
allocs, err = e2e.AllocsForJob(jobID, ns)
f.NoError(err, "could not get allocations for job")
// the task writes its alloc ID to a file if it hasn't been previously
// written, so find the contents of the migrated file and make sure they
// match the old allocation, not the running one
var got string
var fsErr error
testutil.WaitForResultRetries(500, func() (bool, error) {
time.Sleep(time.Millisecond * 100)
for _, alloc := range allocs {
if alloc["Status"] == "running" && alloc["Node ID"] != nodeID && alloc["ID"] != oldAllocID {
got, fsErr = e2e.Command("nomad", "alloc", "fs",
alloc["ID"], fmt.Sprintf("alloc/data/%s", jobID))
if err != nil {
return false, err
}
if strings.TrimSpace(got) == oldAllocID {
return true, nil
} else {
return false, fmt.Errorf("expected %q, got %q", oldAllocID, got)
}
}
}
return false, fmt.Errorf("did not find a migrated alloc")
}, func(e error) {
fsErr = e
})
f.NoError(fsErr, "node drained but migration failed")
}
// TestNodeDrainIgnoreSystem tests that system jobs are left behind when the
// -ignore-system flag is used.
func (tc *NodeDrainE2ETest) TestNodeDrainIgnoreSystem(f *framework.F) {
nodes, err := e2e.NodeStatusListFiltered(
func(section string) bool {
kernelName, err := e2e.GetField(section, "kernel.name")
return err == nil && kernelName == "linux"
})
f.NoError(err, "could not get node status listing")
serviceJobID := "test-node-drain-service-" + uuid.Generate()[0:8]
systemJobID := "test-node-drain-system-" + uuid.Generate()[0:8]
f.NoError(e2e.Register(serviceJobID, "nodedrain/input/drain_simple.nomad"))
tc.jobIDs = append(tc.jobIDs, serviceJobID)
f.NoError(e2e.WaitForAllocStatusExpected(serviceJobID, ns, []string{"running"}))
allocs, err := e2e.AllocsForJob(serviceJobID, ns)
f.NoError(err, "could not get allocs for service job")
f.Len(allocs, 1, "could not get allocs for service job")
oldAllocID := allocs[0]["ID"]
f.NoError(e2e.Register(systemJobID, "nodedrain/input/drain_ignore_system.nomad"))
tc.jobIDs = append(tc.jobIDs, systemJobID)
expected := []string{"running"}
f.NoError(e2e.WaitForAllocStatusExpected(serviceJobID, ns, expected),
"service job should be running")
// can't just give it a static list because the number of nodes can vary
f.NoError(
e2e.WaitForAllocStatusComparison(
func() ([]string, error) { return e2e.AllocStatuses(systemJobID, ns) },
func(got []string) bool {
if len(got) != len(nodes) {
return false
}
for _, status := range got {
if status != "running" {
return false
}
}
return true
}, nil,
),
"system job should be running on every node",
)
jobNodes, err := nodesForJob(serviceJobID)
f.NoError(err, "could not get nodes for job")
f.Len(jobNodes, 1, "could not get nodes for job")
nodeID := jobNodes[0]
out, err := e2e.Command(
"nomad", "node", "drain",
"-ignore-system", "-enable", "-yes", "-detach", nodeID)
f.NoError(err, fmt.Sprintf("'nomad node drain' failed: %v\n%v", err, out))
tc.nodeIDs = append(tc.nodeIDs, nodeID)
f.NoError(waitForNodeDrain(nodeID,
func(got []map[string]string) bool {
for _, alloc := range got {
if alloc["ID"] == oldAllocID && alloc["Status"] == "complete" {
return true
}
}
return false
}, &e2e.WaitConfig{Interval: time.Millisecond * 100, Retries: 500},
), "node did not drain")
allocs, err = e2e.AllocsForJob(systemJobID, ns)
f.NoError(err, "could not query allocs for system job")
f.Equal(len(nodes), len(allocs), "system job should still be running on every node")
for _, alloc := range allocs {
f.Equal("run", alloc["Desired"], "no system allocs should be draining")
f.Equal("running", alloc["Status"], "no system allocs should be draining")
}
}
// TestNodeDrainDeadline tests the enforcement of the node drain deadline so
// that allocations are terminated even if they haven't gracefully exited.
func (tc *NodeDrainE2ETest) TestNodeDrainDeadline(f *framework.F) {
f.T().Skip("The behavior is unclear and test assertions don't capture intent. Issue 9902")
jobID := "test-node-drain-" + uuid.Generate()[0:8]
f.NoError(e2e.Register(jobID, "nodedrain/input/drain_deadline.nomad"))
tc.jobIDs = append(tc.jobIDs, jobID)
expected := []string{"running"}
f.NoError(e2e.WaitForAllocStatusExpected(jobID, ns, expected), "job should be running")
nodes, err := nodesForJob(jobID)
f.NoError(err, "could not get nodes for job")
f.Len(nodes, 1, "could not get nodes for job")
nodeID := nodes[0]
f.T().Logf("draining node %v", nodeID)
out, err := e2e.Command(
"nomad", "node", "drain",
"-deadline", "5s",
"-enable", "-yes", "-detach", nodeID)
f.NoError(err, fmt.Sprintf("'nomad node drain %v' failed: %v\n%v", nodeID, err, out))
tc.nodeIDs = append(tc.nodeIDs, nodeID)
// the deadline is 40s but we can't guarantee its instantly terminated at
// that point, so we give it 30s which is well under the 2m kill_timeout in
// the job.
// deadline here needs to account for scheduling and propagation delays.
f.NoError(waitForNodeDrain(nodeID,
func(got []map[string]string) bool {
// FIXME: check the drain job alloc specifically. test
// may pass if client had another completed alloc
for _, alloc := range got {
if alloc["Status"] == "complete" {
return true
}
}
return false
}, &e2e.WaitConfig{Interval: time.Second, Retries: 40},
), "node did not drain immediately following deadline")
}
// TestNodeDrainForce tests the enforcement of the node drain -force flag so
// that allocations are terminated immediately.
func (tc *NodeDrainE2ETest) TestNodeDrainForce(f *framework.F) {
f.T().Skip("The behavior is unclear and test assertions don't capture intent. Issue 9902")
jobID := "test-node-drain-" + uuid.Generate()[0:8]
f.NoError(e2e.Register(jobID, "nodedrain/input/drain_deadline.nomad"))
tc.jobIDs = append(tc.jobIDs, jobID)
expected := []string{"running"}
f.NoError(e2e.WaitForAllocStatusExpected(jobID, ns, expected), "job should be running")
nodes, err := nodesForJob(jobID)
f.NoError(err, "could not get nodes for job")
f.Len(nodes, 1, "could not get nodes for job")
nodeID := nodes[0]
out, err := e2e.Command(
"nomad", "node", "drain",
"-force",
"-enable", "-yes", "-detach", nodeID)
f.NoError(err, fmt.Sprintf("'nomad node drain' failed: %v\n%v", err, out))
tc.nodeIDs = append(tc.nodeIDs, nodeID)
// we've passed -force but we can't guarantee its instantly terminated at
// that point, so we give it 30s which is under the 2m kill_timeout in
// the job
f.NoError(waitForNodeDrain(nodeID,
func(got []map[string]string) bool {
// FIXME: check the drain job alloc specifically. test
// may pass if client had another completed alloc
for _, alloc := range got {
if alloc["Status"] == "complete" {
return true
}
}
return false
}, &e2e.WaitConfig{Interval: time.Second, Retries: 40},
), "node did not drain immediately when forced")
}
// TestNodeDrainKeepIneligible tests that nodes can be kept ineligible for
// scheduling after disabling drain.
func (tc *NodeDrainE2ETest) TestNodeDrainKeepIneligible(f *framework.F) {
nodes, err := e2e.NodeStatusList()
f.NoError(err, "could not get node status listing")
nodeID := nodes[0]["ID"]
out, err := e2e.Command("nomad", "node", "drain", "-enable", "-yes", "-detach", nodeID)
f.NoError(err, fmt.Sprintf("'nomad node drain' failed: %v\n%v", err, out))
tc.nodeIDs = append(tc.nodeIDs, nodeID)
_, err = e2e.Command(
"nomad", "node", "drain",
"-disable", "-keep-ineligible", "-yes", nodeID)
f.NoError(err, fmt.Sprintf("'nomad node drain' failed: %v\n%v", err, out))
nodes, err = e2e.NodeStatusList()
f.NoError(err, "could not get updated node status listing")
f.Equal("ineligible", nodes[0]["Eligibility"])
f.Equal("false", nodes[0]["Drain"])
}