open-nomad/nomad/node_endpoint_test.go

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package nomad
import (
"errors"
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"fmt"
"net"
"reflect"
"strings"
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"testing"
"time"
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memdb "github.com/hashicorp/go-memdb"
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msgpackrpc "github.com/hashicorp/net-rpc-msgpackrpc"
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"github.com/hashicorp/nomad/acl"
"github.com/hashicorp/nomad/command/agent/consul"
"github.com/hashicorp/nomad/helper"
"github.com/hashicorp/nomad/helper/uuid"
"github.com/hashicorp/nomad/nomad/mock"
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"github.com/hashicorp/nomad/nomad/state"
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"github.com/hashicorp/nomad/nomad/structs"
"github.com/hashicorp/nomad/testutil"
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vapi "github.com/hashicorp/vault/api"
"github.com/kr/pretty"
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"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
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)
func TestClientEndpoint_Register(t *testing.T) {
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t.Parallel()
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require := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
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// Check that we have no client connections
require.Empty(s1.connectedNodes())
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// Create the register request
node := mock.Node()
req := &structs.NodeRegisterRequest{
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Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
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}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", req, &resp); err != nil {
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t.Fatalf("err: %v", err)
}
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if resp.Index == 0 {
t.Fatalf("bad index: %d", resp.Index)
}
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// Check that we have the client connections
nodes := s1.connectedNodes()
require.Len(nodes, 1)
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require.Contains(nodes, node.ID)
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// Check for the node in the FSM
state := s1.fsm.State()
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ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out == nil {
t.Fatalf("expected node")
}
if out.CreateIndex != resp.Index {
t.Fatalf("index mis-match")
}
if out.ComputedClass == "" {
t.Fatal("ComputedClass not set")
}
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// Close the connection and check that we remove the client connections
require.Nil(codec.Close())
testutil.WaitForResult(func() (bool, error) {
nodes := s1.connectedNodes()
return len(nodes) == 0, nil
}, func(err error) {
t.Fatalf("should have no clients")
})
}
// This test asserts that we only track node connections if they are not from
// forwarded RPCs. This is essential otherwise we will think a Yamux session to
// a Nomad server is actually the session to the node.
func TestClientEndpoint_Register_NodeConn_Forwarded(t *testing.T) {
t.Parallel()
require := require.New(t)
s1, cleanupS1 := TestServer(t, func(c *Config) {
c.BootstrapExpect = 2
})
defer cleanupS1()
s2, cleanupS2 := TestServer(t, func(c *Config) {
Simplify Bootstrap logic in tests This change updates tests to honor `BootstrapExpect` exclusively when forming test clusters and removes test only knobs, e.g. `config.DevDisableBootstrap`. Background: Test cluster creation is fragile. Test servers don't follow the BootstapExpected route like production clusters. Instead they start as single node clusters and then get rejoin and may risk causing brain split or other test flakiness. The test framework expose few knobs to control those (e.g. `config.DevDisableBootstrap` and `config.Bootstrap`) that control whether a server should bootstrap the cluster. These flags are confusing and it's unclear when to use: their usage in multi-node cluster isn't properly documented. Furthermore, they have some bad side-effects as they don't control Raft library: If `config.DevDisableBootstrap` is true, the test server may not immediately attempt to bootstrap a cluster, but after an election timeout (~50ms), Raft may force a leadership election and win it (with only one vote) and cause a split brain. The knobs are also confusing as Bootstrap is an overloaded term. In BootstrapExpect, we refer to bootstrapping the cluster only after N servers are connected. But in tests and the knobs above, it refers to whether the server is a single node cluster and shouldn't wait for any other server. Changes: This commit makes two changes: First, it relies on `BootstrapExpected` instead of `Bootstrap` and/or `DevMode` flags. This change is relatively trivial. Introduce a `Bootstrapped` flag to track if the cluster is bootstrapped. This allows us to keep `BootstrapExpected` immutable. Previously, the flag was a config value but it gets set to 0 after cluster bootstrap completes.
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c.BootstrapExpect = 2
})
defer cleanupS2()
TestJoin(t, s1, s2)
testutil.WaitForLeader(t, s1.RPC)
testutil.WaitForLeader(t, s2.RPC)
// Determine the non-leader server
var leader, nonLeader *Server
if s1.IsLeader() {
leader = s1
nonLeader = s2
} else {
leader = s2
nonLeader = s1
}
// Send the requests to the non-leader
codec := rpcClient(t, nonLeader)
// Check that we have no client connections
require.Empty(nonLeader.connectedNodes())
require.Empty(leader.connectedNodes())
// Create the register request
node := mock.Node()
req := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", req, &resp); err != nil {
t.Fatalf("err: %v", err)
}
if resp.Index == 0 {
t.Fatalf("bad index: %d", resp.Index)
}
// Check that we have the client connections on the non leader
nodes := nonLeader.connectedNodes()
require.Len(nodes, 1)
require.Contains(nodes, node.ID)
// Check that we have no client connections on the leader
nodes = leader.connectedNodes()
require.Empty(nodes)
// Check for the node in the FSM
state := leader.State()
testutil.WaitForResult(func() (bool, error) {
out, err := state.NodeByID(nil, node.ID)
if err != nil {
return false, err
}
if out == nil {
return false, fmt.Errorf("expected node")
}
if out.CreateIndex != resp.Index {
return false, fmt.Errorf("index mis-match")
}
if out.ComputedClass == "" {
return false, fmt.Errorf("ComputedClass not set")
}
return true, nil
}, func(err error) {
t.Fatalf("err: %v", err)
})
// Close the connection and check that we remove the client connections
require.Nil(codec.Close())
testutil.WaitForResult(func() (bool, error) {
nodes := nonLeader.connectedNodes()
return len(nodes) == 0, nil
}, func(err error) {
t.Fatalf("should have no clients")
})
}
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func TestClientEndpoint_Register_SecretMismatch(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
req := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", req, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Update the nodes SecretID
node.SecretID = uuid.Generate()
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err := msgpackrpc.CallWithCodec(codec, "Node.Register", req, &resp)
if err == nil || !strings.Contains(err.Error(), "Not registering") {
t.Fatalf("Expecting error regarding mismatching secret id: %v", err)
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}
}
// Test the deprecated single node deregistration path
func TestClientEndpoint_DeregisterOne(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Deregister
dereg := &structs.NodeDeregisterRequest{
NodeID: node.ID,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Deregister", dereg, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index == 0 {
t.Fatalf("bad index: %d", resp2.Index)
}
// Check for the node in the FSM
state := s1.fsm.State()
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ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out != nil {
t.Fatalf("unexpected node")
}
}
func TestClientEndpoint_Deregister_ACL(t *testing.T) {
t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the node
node := mock.Node()
node1 := mock.Node()
state := s1.fsm.State()
if err := state.UpsertNode(structs.MsgTypeTestSetup, 1, node); err != nil {
t.Fatalf("err: %v", err)
}
if err := state.UpsertNode(structs.MsgTypeTestSetup, 2, node1); err != nil {
t.Fatalf("err: %v", err)
}
// Create the policy and tokens
validToken := mock.CreatePolicyAndToken(t, state, 1001, "test-valid", mock.NodePolicy(acl.PolicyWrite))
invalidToken := mock.CreatePolicyAndToken(t, state, 1003, "test-invalid", mock.NodePolicy(acl.PolicyRead))
// Deregister without any token and expect it to fail
dereg := &structs.NodeBatchDeregisterRequest{
NodeIDs: []string{node.ID},
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.BatchDeregister", dereg, &resp); err == nil {
t.Fatalf("node de-register succeeded")
}
// Deregister with a valid token
dereg.AuthToken = validToken.SecretID
if err := msgpackrpc.CallWithCodec(codec, "Node.BatchDeregister", dereg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Check for the node in the FSM
ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out != nil {
t.Fatalf("unexpected node")
}
// Deregister with an invalid token.
dereg1 := &structs.NodeBatchDeregisterRequest{
NodeIDs: []string{node1.ID},
WriteRequest: structs.WriteRequest{Region: "global"},
}
dereg1.AuthToken = invalidToken.SecretID
if err := msgpackrpc.CallWithCodec(codec, "Node.BatchDeregister", dereg1, &resp); err == nil {
t.Fatalf("rpc should not have succeeded")
}
// Try with a root token
dereg1.AuthToken = root.SecretID
if err := msgpackrpc.CallWithCodec(codec, "Node.BatchDeregister", dereg1, &resp); err != nil {
t.Fatalf("err: %v", err)
}
}
func TestClientEndpoint_Deregister_Vault(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Swap the servers Vault Client
tvc := &TestVaultClient{}
s1.vault = tvc
// Put some Vault accessors in the state store for that node
state := s1.fsm.State()
va1 := mock.VaultAccessor()
va1.NodeID = node.ID
va2 := mock.VaultAccessor()
va2.NodeID = node.ID
state.UpsertVaultAccessor(100, []*structs.VaultAccessor{va1, va2})
// Deregister
dereg := &structs.NodeBatchDeregisterRequest{
NodeIDs: []string{node.ID},
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.BatchDeregister", dereg, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index == 0 {
t.Fatalf("bad index: %d", resp2.Index)
}
// Check for the node in the FSM
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ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out != nil {
t.Fatalf("unexpected node")
}
// Check that the endpoint revoked the tokens
if l := len(tvc.RevokedTokens); l != 2 {
t.Fatalf("Deregister revoked %d tokens; want 2", l)
}
}
func TestClientEndpoint_UpdateStatus(t *testing.T) {
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t.Parallel()
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require := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
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// Check that we have no client connections
require.Empty(s1.connectedNodes())
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Check for heartbeat interval
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ttl := resp.HeartbeatTTL
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if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
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t.Fatalf("bad: %#v", ttl)
}
// Update the status
dereg := &structs.NodeUpdateStatusRequest{
NodeID: node.ID,
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Status: structs.NodeStatusInit,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.UpdateStatus", dereg, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index == 0 {
t.Fatalf("bad index: %d", resp2.Index)
}
// Check for heartbeat interval
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ttl = resp2.HeartbeatTTL
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if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
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t.Fatalf("bad: %#v", ttl)
}
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// Check that we have the client connections
nodes := s1.connectedNodes()
require.Len(nodes, 1)
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require.Contains(nodes, node.ID)
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// Check for the node in the FSM
state := s1.fsm.State()
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ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out == nil {
t.Fatalf("expected node")
}
if out.ModifyIndex != resp2.Index {
t.Fatalf("index mis-match")
}
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// Close the connection and check that we remove the client connections
require.Nil(codec.Close())
testutil.WaitForResult(func() (bool, error) {
nodes := s1.connectedNodes()
return len(nodes) == 0, nil
}, func(err error) {
t.Fatalf("should have no clients")
})
}
func TestClientEndpoint_UpdateStatus_Vault(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Check for heartbeat interval
ttl := resp.HeartbeatTTL
if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
t.Fatalf("bad: %#v", ttl)
}
// Swap the servers Vault Client
tvc := &TestVaultClient{}
s1.vault = tvc
// Put some Vault accessors in the state store for that node
state := s1.fsm.State()
va1 := mock.VaultAccessor()
va1.NodeID = node.ID
va2 := mock.VaultAccessor()
va2.NodeID = node.ID
state.UpsertVaultAccessor(100, []*structs.VaultAccessor{va1, va2})
// Update the status to be down
dereg := &structs.NodeUpdateStatusRequest{
NodeID: node.ID,
Status: structs.NodeStatusDown,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.UpdateStatus", dereg, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index == 0 {
t.Fatalf("bad index: %d", resp2.Index)
}
// Check that the endpoint revoked the tokens
if l := len(tvc.RevokedTokens); l != 2 {
t.Fatalf("Deregister revoked %d tokens; want 2", l)
}
}
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func TestClientEndpoint_UpdateStatus_HeartbeatRecovery(t *testing.T) {
t.Parallel()
require := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Check that we have no client connections
require.Empty(s1.connectedNodes())
// Create the register request but make the node down
node := mock.Node()
node.Status = structs.NodeStatusDown
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
require.NoError(msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp))
// Update the status
dereg := &structs.NodeUpdateStatusRequest{
NodeID: node.ID,
Status: structs.NodeStatusInit,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeUpdateResponse
require.NoError(msgpackrpc.CallWithCodec(codec, "Node.UpdateStatus", dereg, &resp2))
require.NotZero(resp2.Index)
// Check for heartbeat interval
ttl := resp2.HeartbeatTTL
if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
t.Fatalf("bad: %#v", ttl)
}
// Check for the node in the FSM
state := s1.fsm.State()
ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
require.NoError(err)
require.NotNil(out)
require.EqualValues(resp2.Index, out.ModifyIndex)
require.Len(out.Events, 2)
require.Equal(NodeHeartbeatEventReregistered, out.Events[1].Message)
}
func TestClientEndpoint_Register_GetEvals(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Register a system job.
job := mock.SystemJob()
state := s1.fsm.State()
if err := state.UpsertJob(structs.MsgTypeTestSetup, 1, job); err != nil {
t.Fatalf("err: %v", err)
}
// Create the register request going directly to ready
node := mock.Node()
node.Status = structs.NodeStatusReady
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Check for heartbeat interval
ttl := resp.HeartbeatTTL
if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
t.Fatalf("bad: %#v", ttl)
}
// Check for an eval caused by the system job.
if len(resp.EvalIDs) != 1 {
t.Fatalf("expected one eval; got %#v", resp.EvalIDs)
}
evalID := resp.EvalIDs[0]
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ws := memdb.NewWatchSet()
eval, err := state.EvalByID(ws, evalID)
if err != nil {
t.Fatalf("could not get eval %v", evalID)
}
if eval.Type != "system" {
t.Fatalf("unexpected eval type; got %v; want %q", eval.Type, "system")
}
// Check for the node in the FSM
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out, err := state.NodeByID(ws, node.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out == nil {
t.Fatalf("expected node")
}
if out.ModifyIndex != resp.Index {
t.Fatalf("index mis-match")
}
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// Transition it to down and then ready
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node.Status = structs.NodeStatusDown
reg = &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
if len(resp.EvalIDs) != 1 {
t.Fatalf("expected one eval; got %#v", resp.EvalIDs)
}
node.Status = structs.NodeStatusReady
reg = &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
if len(resp.EvalIDs) != 1 {
t.Fatalf("expected one eval; got %#v", resp.EvalIDs)
}
}
func TestClientEndpoint_UpdateStatus_GetEvals(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Register a system job.
job := mock.SystemJob()
state := s1.fsm.State()
if err := state.UpsertJob(structs.MsgTypeTestSetup, 1, job); err != nil {
t.Fatalf("err: %v", err)
}
// Create the register request
node := mock.Node()
node.Status = structs.NodeStatusInit
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Check for heartbeat interval
ttl := resp.HeartbeatTTL
if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
t.Fatalf("bad: %#v", ttl)
}
// Update the status
update := &structs.NodeUpdateStatusRequest{
NodeID: node.ID,
Status: structs.NodeStatusReady,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.UpdateStatus", update, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index == 0 {
t.Fatalf("bad index: %d", resp2.Index)
}
// Check for an eval caused by the system job.
if len(resp2.EvalIDs) != 1 {
t.Fatalf("expected one eval; got %#v", resp2.EvalIDs)
}
evalID := resp2.EvalIDs[0]
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ws := memdb.NewWatchSet()
eval, err := state.EvalByID(ws, evalID)
if err != nil {
t.Fatalf("could not get eval %v", evalID)
}
if eval.Type != "system" {
t.Fatalf("unexpected eval type; got %v; want %q", eval.Type, "system")
}
// Check for heartbeat interval
ttl = resp2.HeartbeatTTL
if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
t.Fatalf("bad: %#v", ttl)
}
// Check for the node in the FSM
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out, err := state.NodeByID(ws, node.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out == nil {
t.Fatalf("expected node")
}
if out.ModifyIndex != resp2.Index {
t.Fatalf("index mis-match")
}
}
func TestClientEndpoint_UpdateStatus_HeartbeatOnly(t *testing.T) {
2017-07-23 22:04:38 +00:00
t.Parallel()
Simplify Bootstrap logic in tests This change updates tests to honor `BootstrapExpect` exclusively when forming test clusters and removes test only knobs, e.g. `config.DevDisableBootstrap`. Background: Test cluster creation is fragile. Test servers don't follow the BootstapExpected route like production clusters. Instead they start as single node clusters and then get rejoin and may risk causing brain split or other test flakiness. The test framework expose few knobs to control those (e.g. `config.DevDisableBootstrap` and `config.Bootstrap`) that control whether a server should bootstrap the cluster. These flags are confusing and it's unclear when to use: their usage in multi-node cluster isn't properly documented. Furthermore, they have some bad side-effects as they don't control Raft library: If `config.DevDisableBootstrap` is true, the test server may not immediately attempt to bootstrap a cluster, but after an election timeout (~50ms), Raft may force a leadership election and win it (with only one vote) and cause a split brain. The knobs are also confusing as Bootstrap is an overloaded term. In BootstrapExpect, we refer to bootstrapping the cluster only after N servers are connected. But in tests and the knobs above, it refers to whether the server is a single node cluster and shouldn't wait for any other server. Changes: This commit makes two changes: First, it relies on `BootstrapExpected` instead of `Bootstrap` and/or `DevMode` flags. This change is relatively trivial. Introduce a `Bootstrapped` flag to track if the cluster is bootstrapped. This allows us to keep `BootstrapExpected` immutable. Previously, the flag was a config value but it gets set to 0 after cluster bootstrap completes.
2020-03-02 15:29:24 +00:00
s1, cleanupS1 := TestServer(t, func(c *Config) {
c.BootstrapExpect = 3
})
defer cleanupS1()
s2, cleanupS2 := TestServer(t, func(c *Config) {
Simplify Bootstrap logic in tests This change updates tests to honor `BootstrapExpect` exclusively when forming test clusters and removes test only knobs, e.g. `config.DevDisableBootstrap`. Background: Test cluster creation is fragile. Test servers don't follow the BootstapExpected route like production clusters. Instead they start as single node clusters and then get rejoin and may risk causing brain split or other test flakiness. The test framework expose few knobs to control those (e.g. `config.DevDisableBootstrap` and `config.Bootstrap`) that control whether a server should bootstrap the cluster. These flags are confusing and it's unclear when to use: their usage in multi-node cluster isn't properly documented. Furthermore, they have some bad side-effects as they don't control Raft library: If `config.DevDisableBootstrap` is true, the test server may not immediately attempt to bootstrap a cluster, but after an election timeout (~50ms), Raft may force a leadership election and win it (with only one vote) and cause a split brain. The knobs are also confusing as Bootstrap is an overloaded term. In BootstrapExpect, we refer to bootstrapping the cluster only after N servers are connected. But in tests and the knobs above, it refers to whether the server is a single node cluster and shouldn't wait for any other server. Changes: This commit makes two changes: First, it relies on `BootstrapExpected` instead of `Bootstrap` and/or `DevMode` flags. This change is relatively trivial. Introduce a `Bootstrapped` flag to track if the cluster is bootstrapped. This allows us to keep `BootstrapExpected` immutable. Previously, the flag was a config value but it gets set to 0 after cluster bootstrap completes.
2020-03-02 15:29:24 +00:00
c.BootstrapExpect = 3
})
defer cleanupS2()
s3, cleanupS3 := TestServer(t, func(c *Config) {
Simplify Bootstrap logic in tests This change updates tests to honor `BootstrapExpect` exclusively when forming test clusters and removes test only knobs, e.g. `config.DevDisableBootstrap`. Background: Test cluster creation is fragile. Test servers don't follow the BootstapExpected route like production clusters. Instead they start as single node clusters and then get rejoin and may risk causing brain split or other test flakiness. The test framework expose few knobs to control those (e.g. `config.DevDisableBootstrap` and `config.Bootstrap`) that control whether a server should bootstrap the cluster. These flags are confusing and it's unclear when to use: their usage in multi-node cluster isn't properly documented. Furthermore, they have some bad side-effects as they don't control Raft library: If `config.DevDisableBootstrap` is true, the test server may not immediately attempt to bootstrap a cluster, but after an election timeout (~50ms), Raft may force a leadership election and win it (with only one vote) and cause a split brain. The knobs are also confusing as Bootstrap is an overloaded term. In BootstrapExpect, we refer to bootstrapping the cluster only after N servers are connected. But in tests and the knobs above, it refers to whether the server is a single node cluster and shouldn't wait for any other server. Changes: This commit makes two changes: First, it relies on `BootstrapExpected` instead of `Bootstrap` and/or `DevMode` flags. This change is relatively trivial. Introduce a `Bootstrapped` flag to track if the cluster is bootstrapped. This allows us to keep `BootstrapExpected` immutable. Previously, the flag was a config value but it gets set to 0 after cluster bootstrap completes.
2020-03-02 15:29:24 +00:00
c.BootstrapExpect = 3
})
defer cleanupS3()
servers := []*Server{s1, s2, s3}
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TestJoin(t, s1, s2, s3)
for _, s := range servers {
testutil.WaitForResult(func() (bool, error) {
peers, _ := s.numPeers()
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return peers == 3, nil
}, func(err error) {
t.Fatalf("should have 3 peers")
})
}
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Check for heartbeat interval
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ttl := resp.HeartbeatTTL
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if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
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t.Fatalf("bad: %#v", ttl)
}
// Check for heartbeat servers
serverAddrs := resp.Servers
if len(serverAddrs) == 0 {
t.Fatalf("bad: %#v", serverAddrs)
}
// Update the status, static state
dereg := &structs.NodeUpdateStatusRequest{
NodeID: node.ID,
Status: node.Status,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.UpdateStatus", dereg, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index != 0 {
t.Fatalf("bad index: %d", resp2.Index)
}
// Check for heartbeat interval
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ttl = resp2.HeartbeatTTL
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if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
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t.Fatalf("bad: %#v", ttl)
}
}
func TestClientEndpoint_UpdateStatus_HeartbeatOnly_Advertise(t *testing.T) {
t.Parallel()
require := require.New(t)
advAddr := "127.0.1.1:1234"
adv, err := net.ResolveTCPAddr("tcp", advAddr)
require.Nil(err)
s1, cleanupS1 := TestServer(t, func(c *Config) {
c.ClientRPCAdvertise = adv
})
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Check for heartbeat interval
ttl := resp.HeartbeatTTL
if ttl < s1.config.MinHeartbeatTTL || ttl > 2*s1.config.MinHeartbeatTTL {
t.Fatalf("bad: %#v", ttl)
}
// Check for heartbeat servers
require.Len(resp.Servers, 1)
require.Equal(resp.Servers[0].RPCAdvertiseAddr, advAddr)
}
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func TestClientEndpoint_UpdateDrain(t *testing.T) {
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t.Parallel()
2018-02-23 18:42:43 +00:00
require := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Disable drainer to prevent drain from completing during test
s1.nodeDrainer.SetEnabled(false, nil)
2015-09-07 03:00:12 +00:00
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
2015-09-07 03:00:12 +00:00
}
// Fetch the response
var resp structs.NodeUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp))
beforeUpdate := time.Now()
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strategy := &structs.DrainStrategy{
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DrainSpec: structs.DrainSpec{
Deadline: 10 * time.Second,
},
2015-09-07 03:00:12 +00:00
}
// Update the status
dereg := &structs.NodeUpdateDrainRequest{
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NodeID: node.ID,
DrainStrategy: strategy,
WriteRequest: structs.WriteRequest{Region: "global"},
2015-09-07 03:00:12 +00:00
}
var resp2 structs.NodeDrainUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp2))
require.NotZero(resp2.Index)
2015-09-07 03:00:12 +00:00
// Check for the node in the FSM
state := s1.fsm.State()
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ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
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require.Nil(err)
require.True(out.Drain)
require.Equal(strategy.Deadline, out.DrainStrategy.Deadline)
require.Len(out.Events, 2)
require.Equal(NodeDrainEventDrainSet, out.Events[1].Message)
// before+deadline should be before the forced deadline
require.True(beforeUpdate.Add(strategy.Deadline).Before(out.DrainStrategy.ForceDeadline))
// now+deadline should be after the forced deadline
require.True(time.Now().Add(strategy.Deadline).After(out.DrainStrategy.ForceDeadline))
drainStartedAt := out.DrainStrategy.StartedAt
// StartedAt should be close to the time the drain started
require.WithinDuration(beforeUpdate, drainStartedAt, 1*time.Second)
// StartedAt shouldn't change if a new request comes while still draining
require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp2))
ws = memdb.NewWatchSet()
out, err = state.NodeByID(ws, node.ID)
require.NoError(err)
require.True(out.DrainStrategy.StartedAt.Equal(drainStartedAt))
// Register a system job
job := mock.SystemJob()
require.Nil(s1.State().UpsertJob(structs.MsgTypeTestSetup, 10, job))
// Update the eligibility and expect evals
dereg.DrainStrategy = nil
dereg.MarkEligible = true
var resp3 structs.NodeDrainUpdateResponse
require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp3))
require.NotZero(resp3.Index)
require.NotZero(resp3.EvalCreateIndex)
require.Len(resp3.EvalIDs, 1)
// Check for updated node in the FSM
ws = memdb.NewWatchSet()
out, err = state.NodeByID(ws, node.ID)
2018-06-06 18:08:42 +00:00
require.NoError(err)
require.Len(out.Events, 4)
require.Equal(NodeDrainEventDrainDisabled, out.Events[3].Message)
// Check that calling UpdateDrain with the same DrainStrategy does not emit
// a node event.
require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp3))
ws = memdb.NewWatchSet()
out, err = state.NodeByID(ws, node.ID)
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require.NoError(err)
require.Len(out.Events, 4)
2015-09-07 03:00:12 +00:00
}
2017-09-15 03:33:31 +00:00
func TestClientEndpoint_UpdateDrain_ACL(t *testing.T) {
t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
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require := require.New(t)
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2017-09-15 03:59:18 +00:00
// Create the node
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node := mock.Node()
state := s1.fsm.State()
require.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1, node), "UpsertNode")
2017-09-15 03:33:31 +00:00
2017-09-15 04:41:26 +00:00
// Create the policy and tokens
validToken := mock.CreatePolicyAndToken(t, state, 1001, "test-valid", mock.NodePolicy(acl.PolicyWrite))
invalidToken := mock.CreatePolicyAndToken(t, state, 1003, "test-invalid", mock.NodePolicy(acl.PolicyRead))
2017-09-15 03:33:31 +00:00
// Update the status without a token and expect failure
dereg := &structs.NodeUpdateDrainRequest{
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NodeID: node.ID,
DrainStrategy: &structs.DrainStrategy{
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DrainSpec: structs.DrainSpec{
Deadline: 10 * time.Second,
},
2018-02-23 18:42:43 +00:00
},
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WriteRequest: structs.WriteRequest{Region: "global"},
}
{
var resp structs.NodeDrainUpdateResponse
2017-09-15 17:41:28 +00:00
err := msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp)
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require.NotNil(err, "RPC")
require.Equal(err.Error(), structs.ErrPermissionDenied.Error())
2017-09-15 03:33:31 +00:00
}
// Try with a valid token
2017-10-12 22:16:33 +00:00
dereg.AuthToken = validToken.SecretID
2017-09-15 03:33:31 +00:00
{
var resp structs.NodeDrainUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp), "RPC")
2017-09-15 03:33:31 +00:00
}
// Try with a invalid token
2017-10-12 22:16:33 +00:00
dereg.AuthToken = invalidToken.SecretID
2017-09-15 03:33:31 +00:00
{
var resp structs.NodeDrainUpdateResponse
err := msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp)
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require.NotNil(err, "RPC")
require.Equal(err.Error(), structs.ErrPermissionDenied.Error())
2017-09-15 03:33:31 +00:00
}
// Try with a root token
2017-10-12 22:16:33 +00:00
dereg.AuthToken = root.SecretID
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{
var resp structs.NodeDrainUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp), "RPC")
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}
}
// This test ensures that Nomad marks client state of allocations which are in
// pending/running state to lost when a node is marked as down.
func TestClientEndpoint_Drain_Down(t *testing.T) {
2017-07-23 22:04:38 +00:00
t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
2018-02-23 18:42:43 +00:00
require := require.New(t)
// Register a node
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp))
// Register a service job
var jobResp structs.JobRegisterResponse
job := mock.Job()
job.TaskGroups[0].Count = 1
jobReq := &structs.JobRegisterRequest{
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Job: job,
WriteRequest: structs.WriteRequest{
Region: "global",
Namespace: job.Namespace,
},
}
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require.Nil(msgpackrpc.CallWithCodec(codec, "Job.Register", jobReq, &jobResp))
// Register a system job
var jobResp1 structs.JobRegisterResponse
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job1 := mock.SystemJob()
job1.TaskGroups[0].Count = 1
jobReq1 := &structs.JobRegisterRequest{
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Job: job1,
WriteRequest: structs.WriteRequest{
Region: "global",
Namespace: job1.Namespace,
},
}
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require.Nil(msgpackrpc.CallWithCodec(codec, "Job.Register", jobReq1, &jobResp1))
// Wait for the scheduler to create an allocation
testutil.WaitForResult(func() (bool, error) {
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ws := memdb.NewWatchSet()
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allocs, err := s1.fsm.state.AllocsByJob(ws, job.Namespace, job.ID, true)
if err != nil {
return false, err
}
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allocs1, err := s1.fsm.state.AllocsByJob(ws, job1.Namespace, job1.ID, true)
if err != nil {
return false, err
}
return len(allocs) > 0 && len(allocs1) > 0, nil
}, func(err error) {
t.Fatalf("err: %v", err)
})
// Drain the node
dereg := &structs.NodeUpdateDrainRequest{
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NodeID: node.ID,
DrainStrategy: &structs.DrainStrategy{
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DrainSpec: structs.DrainSpec{
Deadline: -1 * time.Second,
},
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},
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeDrainUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateDrain", dereg, &resp2))
// Mark the node as down
node.Status = structs.NodeStatusDown
reg = &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp))
// Ensure that the allocation has transitioned to lost
testutil.WaitForResult(func() (bool, error) {
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ws := memdb.NewWatchSet()
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summary, err := s1.fsm.state.JobSummaryByID(ws, job.Namespace, job.ID)
if err != nil {
return false, err
}
expectedSummary := &structs.JobSummary{
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JobID: job.ID,
Namespace: job.Namespace,
Summary: map[string]structs.TaskGroupSummary{
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"web": {
Queued: 1,
Lost: 1,
},
},
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Children: new(structs.JobChildrenSummary),
CreateIndex: jobResp.JobModifyIndex,
ModifyIndex: summary.ModifyIndex,
}
if !reflect.DeepEqual(summary, expectedSummary) {
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return false, fmt.Errorf("Service: expected: %#v, actual: %#v", expectedSummary, summary)
}
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summary1, err := s1.fsm.state.JobSummaryByID(ws, job1.Namespace, job1.ID)
if err != nil {
return false, err
}
expectedSummary1 := &structs.JobSummary{
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JobID: job1.ID,
Namespace: job1.Namespace,
Summary: map[string]structs.TaskGroupSummary{
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"web": {
Lost: 1,
},
},
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Children: new(structs.JobChildrenSummary),
CreateIndex: jobResp1.JobModifyIndex,
ModifyIndex: summary1.ModifyIndex,
}
if !reflect.DeepEqual(summary1, expectedSummary1) {
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return false, fmt.Errorf("System: expected: %#v, actual: %#v", expectedSummary1, summary1)
}
return true, nil
}, func(err error) {
t.Fatalf("err: %v", err)
})
}
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func TestClientEndpoint_UpdateEligibility(t *testing.T) {
t.Parallel()
require := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
require.Nil(msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp))
// Update the eligibility
elig := &structs.NodeUpdateEligibilityRequest{
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NodeID: node.ID,
Eligibility: structs.NodeSchedulingIneligible,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeEligibilityUpdateResponse
require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateEligibility", elig, &resp2))
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require.NotZero(resp2.Index)
require.Zero(resp2.EvalCreateIndex)
require.Empty(resp2.EvalIDs)
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// Check for the node in the FSM
state := s1.fsm.State()
out, err := state.NodeByID(nil, node.ID)
require.Nil(err)
require.Equal(out.SchedulingEligibility, structs.NodeSchedulingIneligible)
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require.Len(out.Events, 2)
require.Equal(NodeEligibilityEventIneligible, out.Events[1].Message)
// Register a system job
job := mock.SystemJob()
require.Nil(s1.State().UpsertJob(structs.MsgTypeTestSetup, 10, job))
// Update the eligibility and expect evals
elig.Eligibility = structs.NodeSchedulingEligible
var resp3 structs.NodeEligibilityUpdateResponse
require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateEligibility", elig, &resp3))
require.NotZero(resp3.Index)
require.NotZero(resp3.EvalCreateIndex)
require.Len(resp3.EvalIDs, 1)
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out, err = state.NodeByID(nil, node.ID)
require.Nil(err)
require.Len(out.Events, 3)
require.Equal(NodeEligibilityEventEligible, out.Events[2].Message)
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}
func TestClientEndpoint_UpdateEligibility_ACL(t *testing.T) {
t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
require := require.New(t)
// Create the node
node := mock.Node()
state := s1.fsm.State()
require.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1, node), "UpsertNode")
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// Create the policy and tokens
validToken := mock.CreatePolicyAndToken(t, state, 1001, "test-valid", mock.NodePolicy(acl.PolicyWrite))
invalidToken := mock.CreatePolicyAndToken(t, state, 1003, "test-invalid", mock.NodePolicy(acl.PolicyRead))
// Update the status without a token and expect failure
dereg := &structs.NodeUpdateEligibilityRequest{
NodeID: node.ID,
Eligibility: structs.NodeSchedulingIneligible,
WriteRequest: structs.WriteRequest{Region: "global"},
}
{
var resp structs.NodeEligibilityUpdateResponse
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err := msgpackrpc.CallWithCodec(codec, "Node.UpdateEligibility", dereg, &resp)
require.NotNil(err, "RPC")
require.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a valid token
dereg.AuthToken = validToken.SecretID
{
var resp structs.NodeEligibilityUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateEligibility", dereg, &resp), "RPC")
}
// Try with a invalid token
dereg.AuthToken = invalidToken.SecretID
{
var resp structs.NodeEligibilityUpdateResponse
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err := msgpackrpc.CallWithCodec(codec, "Node.UpdateEligibility", dereg, &resp)
require.NotNil(err, "RPC")
require.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a root token
dereg.AuthToken = root.SecretID
{
var resp structs.NodeEligibilityUpdateResponse
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require.Nil(msgpackrpc.CallWithCodec(codec, "Node.UpdateEligibility", dereg, &resp), "RPC")
}
}
func TestClientEndpoint_GetNode(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Lookup the node
get := &structs.NodeSpecificRequest{
NodeID: node.ID,
QueryOptions: structs.QueryOptions{Region: "global"},
}
var resp2 structs.SingleNodeResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.GetNode", get, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index != resp.Index {
t.Fatalf("Bad index: %d %d", resp2.Index, resp.Index)
}
if resp2.Node.ComputedClass == "" {
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t.Fatalf("bad ComputedClass: %#v", resp2.Node)
}
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// Update the status updated at value
node.StatusUpdatedAt = resp2.Node.StatusUpdatedAt
node.SecretID = ""
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node.Events = resp2.Node.Events
if !reflect.DeepEqual(node, resp2.Node) {
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t.Fatalf("bad: %#v \n %#v", node, resp2.Node)
}
// assert that the node register event was set correctly
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if len(resp2.Node.Events) != 1 {
t.Fatalf("Did not set node events: %#v", resp2.Node)
}
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if resp2.Node.Events[0].Message != state.NodeRegisterEventRegistered {
t.Fatalf("Did not set node register event correctly: %#v", resp2.Node)
}
// Lookup non-existing node
get.NodeID = "12345678-abcd-efab-cdef-123456789abc"
if err := msgpackrpc.CallWithCodec(codec, "Node.GetNode", get, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index != resp.Index {
t.Fatalf("Bad index: %d %d", resp2.Index, resp.Index)
}
if resp2.Node != nil {
t.Fatalf("unexpected node")
}
}
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func TestClientEndpoint_GetNode_ACL(t *testing.T) {
t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
assert := assert.New(t)
// Create the node
node := mock.Node()
state := s1.fsm.State()
assert.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1, node), "UpsertNode")
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// Create the policy and tokens
validToken := mock.CreatePolicyAndToken(t, state, 1001, "test-valid", mock.NodePolicy(acl.PolicyRead))
invalidToken := mock.CreatePolicyAndToken(t, state, 1003, "test-invalid", mock.NodePolicy(acl.PolicyDeny))
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// Lookup the node without a token and expect failure
req := &structs.NodeSpecificRequest{
NodeID: node.ID,
QueryOptions: structs.QueryOptions{Region: "global"},
}
{
var resp structs.SingleNodeResponse
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err := msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
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}
// Try with a valid token
req.AuthToken = validToken.SecretID
{
var resp structs.SingleNodeResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp), "RPC")
assert.Equal(node.ID, resp.Node.ID)
}
// Try with a Node.SecretID
req.AuthToken = node.SecretID
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{
var resp structs.SingleNodeResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp), "RPC")
assert.Equal(node.ID, resp.Node.ID)
}
// Try with a invalid token
req.AuthToken = invalidToken.SecretID
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{
var resp structs.SingleNodeResponse
err := msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a root token
req.AuthToken = root.SecretID
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{
var resp structs.SingleNodeResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp), "RPC")
assert.Equal(node.ID, resp.Node.ID)
}
}
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func TestClientEndpoint_GetNode_Blocking(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the node
node1 := mock.Node()
node2 := mock.Node()
// First create an unrelated node.
time.AfterFunc(100*time.Millisecond, func() {
if err := state.UpsertNode(structs.MsgTypeTestSetup, 100, node1); err != nil {
t.Fatalf("err: %v", err)
}
})
// Upsert the node we are watching later
time.AfterFunc(200*time.Millisecond, func() {
if err := state.UpsertNode(structs.MsgTypeTestSetup, 200, node2); err != nil {
t.Fatalf("err: %v", err)
}
})
// Lookup the node
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req := &structs.NodeSpecificRequest{
NodeID: node2.ID,
QueryOptions: structs.QueryOptions{
Region: "global",
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MinQueryIndex: 150,
},
}
var resp structs.SingleNodeResponse
start := time.Now()
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if err := msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp); err != nil {
t.Fatalf("err: %v", err)
}
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if elapsed := time.Since(start); elapsed < 200*time.Millisecond {
t.Fatalf("should block (returned in %s) %#v", elapsed, resp)
}
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if resp.Index != 200 {
t.Fatalf("Bad index: %d %d", resp.Index, 200)
}
if resp.Node == nil || resp.Node.ID != node2.ID {
t.Fatalf("bad: %#v", resp.Node)
}
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// Node update triggers watches
time.AfterFunc(100*time.Millisecond, func() {
nodeUpdate := mock.Node()
nodeUpdate.ID = node2.ID
nodeUpdate.Status = structs.NodeStatusDown
if err := state.UpsertNode(structs.MsgTypeTestSetup, 300, nodeUpdate); err != nil {
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t.Fatalf("err: %v", err)
}
})
req.QueryOptions.MinQueryIndex = 250
var resp2 structs.SingleNodeResponse
start = time.Now()
if err := msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
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if elapsed := time.Since(start); elapsed < 100*time.Millisecond {
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t.Fatalf("should block (returned in %s) %#v", elapsed, resp)
}
if resp2.Index != 300 {
t.Fatalf("Bad index: %d %d", resp2.Index, 300)
}
if resp2.Node == nil || resp2.Node.Status != structs.NodeStatusDown {
t.Fatalf("bad: %#v", resp2.Node)
}
// Node delete triggers watches
time.AfterFunc(100*time.Millisecond, func() {
if err := state.DeleteNode(structs.MsgTypeTestSetup, 400, []string{node2.ID}); err != nil {
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t.Fatalf("err: %v", err)
}
})
req.QueryOptions.MinQueryIndex = 350
var resp3 structs.SingleNodeResponse
start = time.Now()
if err := msgpackrpc.CallWithCodec(codec, "Node.GetNode", req, &resp3); err != nil {
t.Fatalf("err: %v", err)
}
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if elapsed := time.Since(start); elapsed < 100*time.Millisecond {
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t.Fatalf("should block (returned in %s) %#v", elapsed, resp)
}
if resp3.Index != 400 {
t.Fatalf("Bad index: %d %d", resp2.Index, 400)
}
if resp3.Node != nil {
t.Fatalf("bad: %#v", resp3.Node)
}
}
func TestClientEndpoint_GetAllocs(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Inject fake evaluations
alloc := mock.Alloc()
alloc.NodeID = node.ID
state := s1.fsm.State()
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state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
err := state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc})
if err != nil {
t.Fatalf("err: %v", err)
}
// Lookup the allocs
get := &structs.NodeSpecificRequest{
NodeID: node.ID,
QueryOptions: structs.QueryOptions{Region: "global"},
}
var resp2 structs.NodeAllocsResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", get, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index != 100 {
t.Fatalf("Bad index: %d %d", resp2.Index, 100)
}
if len(resp2.Allocs) != 1 || resp2.Allocs[0].ID != alloc.ID {
t.Fatalf("bad: %#v", resp2.Allocs)
}
// Lookup non-existing node
get.NodeID = "foobarbaz"
if err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", get, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index != 100 {
t.Fatalf("Bad index: %d %d", resp2.Index, 100)
}
if len(resp2.Allocs) != 0 {
t.Fatalf("unexpected node")
}
}
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func TestClientEndpoint_GetAllocs_ACL_Basic(t *testing.T) {
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t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
assert := assert.New(t)
// Create the node
allocDefaultNS := mock.Alloc()
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node := mock.Node()
allocDefaultNS.NodeID = node.ID
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state := s1.fsm.State()
assert.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1, node), "UpsertNode")
assert.Nil(state.UpsertJobSummary(2, mock.JobSummary(allocDefaultNS.JobID)), "UpsertJobSummary")
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allocs := []*structs.Allocation{allocDefaultNS}
assert.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 5, allocs), "UpsertAllocs")
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// Create the namespace policy and tokens
validDefaultToken := mock.CreatePolicyAndToken(t, state, 1001, "test-default-valid", mock.NodePolicy(acl.PolicyRead)+
mock.NamespacePolicy(structs.DefaultNamespace, "", []string{acl.NamespaceCapabilityReadJob}))
invalidToken := mock.CreatePolicyAndToken(t, state, 1004, "test-invalid",
mock.NamespacePolicy(structs.DefaultNamespace, "", []string{acl.NamespaceCapabilityReadJob}))
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req := &structs.NodeSpecificRequest{
NodeID: node.ID,
QueryOptions: structs.QueryOptions{
Region: "global",
},
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}
// Lookup the node without a token and expect failure
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{
var resp structs.NodeAllocsResponse
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err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
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}
// Try with a valid token for the default namespace
req.AuthToken = validDefaultToken.SecretID
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{
var resp structs.NodeAllocsResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp), "RPC")
assert.Len(resp.Allocs, 1)
assert.Equal(allocDefaultNS.ID, resp.Allocs[0].ID)
}
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// Try with a invalid token
req.AuthToken = invalidToken.SecretID
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{
var resp structs.NodeAllocsResponse
err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a root token
req.AuthToken = root.SecretID
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{
var resp structs.NodeAllocsResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp), "RPC")
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assert.Len(resp.Allocs, 1)
for _, alloc := range resp.Allocs {
switch alloc.ID {
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case allocDefaultNS.ID:
// expected
default:
t.Errorf("unexpected alloc %q for namespace %q", alloc.ID, alloc.Namespace)
}
}
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}
}
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func TestClientEndpoint_GetAllocs_ACL_Namespaces(t *testing.T) {
t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
assert := assert.New(t)
// Create the namespaces
ns1 := mock.Namespace()
ns2 := mock.Namespace()
ns1.Name = "altnamespace"
ns2.Name = "should-only-be-displayed-for-root-ns"
// Create the allocs
allocDefaultNS := mock.Alloc()
allocAltNS := mock.Alloc()
allocAltNS.Namespace = ns1.Name
allocOtherNS := mock.Alloc()
allocOtherNS.Namespace = ns2.Name
node := mock.Node()
allocDefaultNS.NodeID = node.ID
allocAltNS.NodeID = node.ID
allocOtherNS.NodeID = node.ID
state := s1.fsm.State()
assert.Nil(state.UpsertNamespaces(1, []*structs.Namespace{ns1, ns2}), "UpsertNamespaces")
assert.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 2, node), "UpsertNode")
assert.Nil(state.UpsertJobSummary(3, mock.JobSummary(allocDefaultNS.JobID)), "UpsertJobSummary")
assert.Nil(state.UpsertJobSummary(4, mock.JobSummary(allocAltNS.JobID)), "UpsertJobSummary")
assert.Nil(state.UpsertJobSummary(5, mock.JobSummary(allocOtherNS.JobID)), "UpsertJobSummary")
allocs := []*structs.Allocation{allocDefaultNS, allocAltNS, allocOtherNS}
assert.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 6, allocs), "UpsertAllocs")
// Create the namespace policy and tokens
validDefaultToken := mock.CreatePolicyAndToken(t, state, 1001, "test-default-valid", mock.NodePolicy(acl.PolicyRead)+
mock.NamespacePolicy(structs.DefaultNamespace, "", []string{acl.NamespaceCapabilityReadJob}))
validNoNSToken := mock.CreatePolicyAndToken(t, state, 1003, "test-alt-valid", mock.NodePolicy(acl.PolicyRead))
invalidToken := mock.CreatePolicyAndToken(t, state, 1004, "test-invalid",
mock.NamespacePolicy(structs.DefaultNamespace, "", []string{acl.NamespaceCapabilityReadJob}))
// Lookup the node without a token and expect failure
req := &structs.NodeSpecificRequest{
NodeID: node.ID,
QueryOptions: structs.QueryOptions{Region: "global"},
}
{
var resp structs.NodeAllocsResponse
err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a valid token for the default namespace
req.AuthToken = validDefaultToken.SecretID
{
var resp structs.NodeAllocsResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp), "RPC")
assert.Len(resp.Allocs, 1)
assert.Equal(allocDefaultNS.ID, resp.Allocs[0].ID)
}
// Try with a valid token for a namespace with no allocs on this node
req.AuthToken = validNoNSToken.SecretID
{
var resp structs.NodeAllocsResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp), "RPC")
assert.Len(resp.Allocs, 0)
}
// Try with a invalid token
req.AuthToken = invalidToken.SecretID
{
var resp structs.NodeAllocsResponse
err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a root token
req.AuthToken = root.SecretID
{
var resp structs.NodeAllocsResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp), "RPC")
assert.Len(resp.Allocs, 3)
for _, alloc := range resp.Allocs {
switch alloc.ID {
case allocDefaultNS.ID, allocAltNS.ID, allocOtherNS.ID:
// expected
default:
t.Errorf("unexpected alloc %q for namespace %q", alloc.ID, alloc.Namespace)
}
}
}
}
func TestClientEndpoint_GetClientAllocs(t *testing.T) {
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t.Parallel()
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require := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
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// Check that we have no client connections
require.Empty(s1.connectedNodes())
// Create the register request
node := mock.Node()
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state := s1.fsm.State()
require.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 98, node))
// Inject fake evaluations
alloc := mock.Alloc()
alloc.NodeID = node.ID
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state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
err := state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc})
if err != nil {
t.Fatalf("err: %v", err)
}
// Lookup the allocs
get := &structs.NodeSpecificRequest{
NodeID: node.ID,
SecretID: node.SecretID,
QueryOptions: structs.QueryOptions{Region: "global"},
}
var resp2 structs.NodeClientAllocsResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", get, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index != 100 {
t.Fatalf("Bad index: %d %d", resp2.Index, 100)
}
if len(resp2.Allocs) != 1 || resp2.Allocs[alloc.ID] != 100 {
t.Fatalf("bad: %#v", resp2.Allocs)
}
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// Check that we have the client connections
nodes := s1.connectedNodes()
require.Len(nodes, 1)
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require.Contains(nodes, node.ID)
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// Lookup node with bad SecretID
get.SecretID = "foobarbaz"
var resp3 structs.NodeClientAllocsResponse
err = msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", get, &resp3)
if err == nil || !strings.Contains(err.Error(), "does not match") {
t.Fatalf("err: %v", err)
}
// Lookup non-existing node
get.NodeID = uuid.Generate()
var resp4 structs.NodeClientAllocsResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", get, &resp4); err != nil {
t.Fatalf("err: %v", err)
}
if resp4.Index != 100 {
t.Fatalf("Bad index: %d %d", resp3.Index, 100)
}
if len(resp4.Allocs) != 0 {
t.Fatalf("unexpected node %#v", resp3.Allocs)
}
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// Close the connection and check that we remove the client connections
require.Nil(codec.Close())
testutil.WaitForResult(func() (bool, error) {
nodes := s1.connectedNodes()
return len(nodes) == 0, nil
}, func(err error) {
t.Fatalf("should have no clients")
})
}
func TestClientEndpoint_GetClientAllocs_Blocking(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Inject fake evaluations async
now := time.Now().UTC().UnixNano()
alloc := mock.Alloc()
alloc.NodeID = node.ID
alloc.ModifyTime = now
state := s1.fsm.State()
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state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
start := time.Now()
time.AfterFunc(100*time.Millisecond, func() {
err := state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc})
if err != nil {
t.Fatalf("err: %v", err)
}
})
// Lookup the allocs in a blocking query
req := &structs.NodeSpecificRequest{
NodeID: node.ID,
SecretID: node.SecretID,
QueryOptions: structs.QueryOptions{
Region: "global",
MinQueryIndex: 50,
MaxQueryTime: time.Second,
},
}
var resp2 structs.NodeClientAllocsResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", req, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
// Should block at least 100ms
if time.Since(start) < 100*time.Millisecond {
t.Fatalf("too fast")
}
if resp2.Index != 100 {
t.Fatalf("Bad index: %d %d", resp2.Index, 100)
}
if len(resp2.Allocs) != 1 || resp2.Allocs[alloc.ID] != 100 {
t.Fatalf("bad: %#v", resp2.Allocs)
}
iter, err := state.AllocsByIDPrefix(nil, structs.DefaultNamespace, alloc.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
getAllocs := func(iter memdb.ResultIterator) []*structs.Allocation {
var allocs []*structs.Allocation
for {
raw := iter.Next()
if raw == nil {
break
}
allocs = append(allocs, raw.(*structs.Allocation))
}
return allocs
}
out := getAllocs(iter)
if len(out) != 1 {
t.Fatalf("Expected to get one allocation but got:%v", out)
}
if out[0].ModifyTime != now {
t.Fatalf("Invalid modify time %v", out[0].ModifyTime)
}
// Alloc updates fire watches
time.AfterFunc(100*time.Millisecond, func() {
allocUpdate := mock.Alloc()
allocUpdate.NodeID = alloc.NodeID
allocUpdate.ID = alloc.ID
allocUpdate.ClientStatus = structs.AllocClientStatusRunning
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state.UpsertJobSummary(199, mock.JobSummary(allocUpdate.JobID))
err := state.UpsertAllocs(structs.MsgTypeTestSetup, 200, []*structs.Allocation{allocUpdate})
if err != nil {
t.Fatalf("err: %v", err)
}
})
req.QueryOptions.MinQueryIndex = 150
var resp3 structs.NodeClientAllocsResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", req, &resp3); err != nil {
t.Fatalf("err: %v", err)
}
if time.Since(start) < 100*time.Millisecond {
t.Fatalf("too fast")
}
if resp3.Index != 200 {
t.Fatalf("Bad index: %d %d", resp3.Index, 200)
}
if len(resp3.Allocs) != 1 || resp3.Allocs[alloc.ID] != 200 {
t.Fatalf("bad: %#v", resp3.Allocs)
}
}
func TestClientEndpoint_GetClientAllocs_Blocking_GC(t *testing.T) {
t.Parallel()
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assert := assert.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
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assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp))
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Inject fake allocations async
alloc1 := mock.Alloc()
alloc1.NodeID = node.ID
alloc2 := mock.Alloc()
alloc2.NodeID = node.ID
state := s1.fsm.State()
state.UpsertJobSummary(99, mock.JobSummary(alloc1.JobID))
start := time.Now()
time.AfterFunc(100*time.Millisecond, func() {
assert.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc1, alloc2}))
})
// Lookup the allocs in a blocking query
req := &structs.NodeSpecificRequest{
NodeID: node.ID,
SecretID: node.SecretID,
QueryOptions: structs.QueryOptions{
Region: "global",
MinQueryIndex: 50,
MaxQueryTime: time.Second,
},
}
var resp2 structs.NodeClientAllocsResponse
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assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", req, &resp2))
// Should block at least 100ms
if time.Since(start) < 100*time.Millisecond {
t.Fatalf("too fast")
}
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assert.EqualValues(100, resp2.Index)
if assert.Len(resp2.Allocs, 2) {
assert.EqualValues(100, resp2.Allocs[alloc1.ID])
}
// Delete an allocation
time.AfterFunc(100*time.Millisecond, func() {
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assert.Nil(state.DeleteEval(200, nil, []string{alloc2.ID}))
})
req.QueryOptions.MinQueryIndex = 150
var resp3 structs.NodeClientAllocsResponse
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assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", req, &resp3))
if time.Since(start) < 100*time.Millisecond {
t.Fatalf("too fast")
}
assert.EqualValues(200, resp3.Index)
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if assert.Len(resp3.Allocs, 1) {
assert.EqualValues(100, resp3.Allocs[alloc1.ID])
}
}
// A MigrateToken should not be created if an allocation shares the same node
// with its previous allocation
func TestClientEndpoint_GetClientAllocs_WithoutMigrateTokens(t *testing.T) {
t.Parallel()
assert := assert.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Inject fake evaluations
prevAlloc := mock.Alloc()
prevAlloc.NodeID = node.ID
alloc := mock.Alloc()
alloc.NodeID = node.ID
alloc.PreviousAllocation = prevAlloc.ID
alloc.DesiredStatus = structs.AllocClientStatusComplete
state := s1.fsm.State()
state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
err := state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{prevAlloc, alloc})
assert.Nil(err)
// Lookup the allocs
get := &structs.NodeSpecificRequest{
NodeID: node.ID,
SecretID: node.SecretID,
QueryOptions: structs.QueryOptions{Region: "global"},
}
var resp2 structs.NodeClientAllocsResponse
err = msgpackrpc.CallWithCodec(codec, "Node.GetClientAllocs", get, &resp2)
assert.Nil(err)
assert.Equal(uint64(100), resp2.Index)
assert.Equal(2, len(resp2.Allocs))
assert.Equal(uint64(100), resp2.Allocs[alloc.ID])
assert.Equal(0, len(resp2.MigrateTokens))
}
func TestClientEndpoint_GetAllocs_Blocking(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Inject fake evaluations async
alloc := mock.Alloc()
alloc.NodeID = node.ID
state := s1.fsm.State()
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state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
start := time.Now()
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time.AfterFunc(100*time.Millisecond, func() {
err := state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc})
if err != nil {
t.Fatalf("err: %v", err)
}
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})
// Lookup the allocs in a blocking query
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req := &structs.NodeSpecificRequest{
NodeID: node.ID,
QueryOptions: structs.QueryOptions{
Region: "global",
MinQueryIndex: 50,
MaxQueryTime: time.Second,
},
}
var resp2 structs.NodeAllocsResponse
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if err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
// Should block at least 100ms
if time.Since(start) < 100*time.Millisecond {
t.Fatalf("too fast")
}
if resp2.Index != 100 {
t.Fatalf("Bad index: %d %d", resp2.Index, 100)
}
if len(resp2.Allocs) != 1 || resp2.Allocs[0].ID != alloc.ID {
t.Fatalf("bad: %#v", resp2.Allocs)
}
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// Alloc updates fire watches
time.AfterFunc(100*time.Millisecond, func() {
allocUpdate := mock.Alloc()
allocUpdate.NodeID = alloc.NodeID
allocUpdate.ID = alloc.ID
allocUpdate.ClientStatus = structs.AllocClientStatusRunning
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state.UpsertJobSummary(199, mock.JobSummary(allocUpdate.JobID))
err := state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 200, []*structs.Allocation{allocUpdate})
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if err != nil {
t.Fatalf("err: %v", err)
}
})
req.QueryOptions.MinQueryIndex = 150
var resp3 structs.NodeAllocsResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.GetAllocs", req, &resp3); err != nil {
t.Fatalf("err: %v", err)
}
if time.Since(start) < 100*time.Millisecond {
t.Fatalf("too fast")
}
if resp3.Index != 200 {
t.Fatalf("Bad index: %d %d", resp3.Index, 200)
}
if len(resp3.Allocs) != 1 || resp3.Allocs[0].ClientStatus != structs.AllocClientStatusRunning {
t.Fatalf("bad: %#v", resp3.Allocs[0])
}
}
func TestClientEndpoint_UpdateAlloc(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, func(c *Config) {
// Disabling scheduling in this test so that we can
// ensure that the state store doesn't accumulate more evals
// than what we expect the unit test to add
c.NumSchedulers = 0
})
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
require := require.New(t)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
state := s1.fsm.State()
// Inject mock job
job := mock.Job()
job.ID = "mytestjob"
err := state.UpsertJob(structs.MsgTypeTestSetup, 101, job)
require.Nil(err)
// Inject fake allocations
alloc := mock.Alloc()
alloc.JobID = job.ID
alloc.NodeID = node.ID
err = state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
require.Nil(err)
alloc.TaskGroup = job.TaskGroups[0].Name
alloc2 := mock.Alloc()
alloc2.JobID = job.ID
alloc2.NodeID = node.ID
err = state.UpsertJobSummary(99, mock.JobSummary(alloc2.JobID))
require.Nil(err)
alloc2.TaskGroup = job.TaskGroups[0].Name
err = state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc, alloc2})
require.Nil(err)
// Attempt updates of more than one alloc for the same job
clientAlloc1 := new(structs.Allocation)
*clientAlloc1 = *alloc
clientAlloc1.ClientStatus = structs.AllocClientStatusFailed
clientAlloc2 := new(structs.Allocation)
*clientAlloc2 = *alloc2
clientAlloc2.ClientStatus = structs.AllocClientStatusFailed
// Update the alloc
update := &structs.AllocUpdateRequest{
Alloc: []*structs.Allocation{clientAlloc1, clientAlloc2},
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeAllocsResponse
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start := time.Now()
err = msgpackrpc.CallWithCodec(codec, "Node.UpdateAlloc", update, &resp2)
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require.Nil(err)
require.NotEqual(uint64(0), resp2.Index)
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if diff := time.Since(start); diff < batchUpdateInterval {
t.Fatalf("too fast: %v", diff)
}
// Lookup the alloc
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ws := memdb.NewWatchSet()
out, err := state.AllocByID(ws, alloc.ID)
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require.Nil(err)
require.Equal(structs.AllocClientStatusFailed, out.ClientStatus)
require.True(out.ModifyTime > 0)
// Assert that exactly one eval with TriggeredBy EvalTriggerRetryFailedAlloc exists
evaluations, err := state.EvalsByJob(ws, job.Namespace, job.ID)
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require.Nil(err)
require.True(len(evaluations) != 0)
foundCount := 0
for _, resultEval := range evaluations {
if resultEval.TriggeredBy == structs.EvalTriggerRetryFailedAlloc && resultEval.WaitUntil.IsZero() {
foundCount++
}
}
require.Equal(1, foundCount, "Should create exactly one eval for failed allocs")
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}
func TestClientEndpoint_BatchUpdate(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Inject fake evaluations
alloc := mock.Alloc()
alloc.NodeID = node.ID
state := s1.fsm.State()
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state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
err := state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc})
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if err != nil {
t.Fatalf("err: %v", err)
}
// Attempt update
clientAlloc := new(structs.Allocation)
*clientAlloc = *alloc
clientAlloc.ClientStatus = structs.AllocClientStatusFailed
// Call to do the batch update
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bf := structs.NewBatchFuture()
endpoint := s1.staticEndpoints.Node
endpoint.batchUpdate(bf, []*structs.Allocation{clientAlloc}, nil)
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if err := bf.Wait(); err != nil {
t.Fatalf("err: %v", err)
}
if bf.Index() == 0 {
t.Fatalf("Bad index: %d", bf.Index())
}
// Lookup the alloc
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ws := memdb.NewWatchSet()
out, err := state.AllocByID(ws, alloc.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out.ClientStatus != structs.AllocClientStatusFailed {
t.Fatalf("Bad: %#v", out)
}
}
func TestClientEndpoint_UpdateAlloc_Vault(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
t.Fatalf("err: %v", err)
}
// Swap the servers Vault Client
tvc := &TestVaultClient{}
s1.vault = tvc
// Inject fake allocation and vault accessor
alloc := mock.Alloc()
alloc.NodeID = node.ID
state := s1.fsm.State()
state.UpsertJobSummary(99, mock.JobSummary(alloc.JobID))
if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 100, []*structs.Allocation{alloc}); err != nil {
t.Fatalf("err: %v", err)
}
va := mock.VaultAccessor()
va.NodeID = node.ID
va.AllocID = alloc.ID
if err := state.UpsertVaultAccessor(101, []*structs.VaultAccessor{va}); err != nil {
t.Fatalf("err: %v", err)
}
// Inject mock job
job := mock.Job()
job.ID = alloc.JobID
err := state.UpsertJob(structs.MsgTypeTestSetup, 101, job)
if err != nil {
t.Fatalf("err: %v", err)
}
// Attempt update
clientAlloc := new(structs.Allocation)
*clientAlloc = *alloc
clientAlloc.ClientStatus = structs.AllocClientStatusFailed
// Update the alloc
update := &structs.AllocUpdateRequest{
Alloc: []*structs.Allocation{clientAlloc},
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp2 structs.NodeAllocsResponse
start := time.Now()
if err := msgpackrpc.CallWithCodec(codec, "Node.UpdateAlloc", update, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if resp2.Index == 0 {
t.Fatalf("Bad index: %d", resp2.Index)
}
if diff := time.Since(start); diff < batchUpdateInterval {
t.Fatalf("too fast: %v", diff)
}
// Lookup the alloc
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ws := memdb.NewWatchSet()
out, err := state.AllocByID(ws, alloc.ID)
if err != nil {
t.Fatalf("err: %v", err)
}
if out.ClientStatus != structs.AllocClientStatusFailed {
t.Fatalf("Bad: %#v", out)
}
if l := len(tvc.RevokedTokens); l != 1 {
t.Fatalf("Deregister revoked %d tokens; want 1", l)
}
}
func TestClientEndpoint_CreateNodeEvals(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
testutil.WaitForLeader(t, s1.RPC)
// Inject fake evaluations
alloc := mock.Alloc()
state := s1.fsm.State()
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state.UpsertJobSummary(1, mock.JobSummary(alloc.JobID))
if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 2, []*structs.Allocation{alloc}); err != nil {
t.Fatalf("err: %v", err)
}
// Inject a fake system job.
job := mock.SystemJob()
if err := state.UpsertJob(structs.MsgTypeTestSetup, 3, job); err != nil {
t.Fatalf("err: %v", err)
}
// Create some evaluations
ids, index, err := s1.staticEndpoints.Node.createNodeEvals(alloc.NodeID, 1)
if err != nil {
t.Fatalf("err: %v", err)
}
if index == 0 {
t.Fatalf("bad: %d", index)
}
if len(ids) != 2 {
t.Fatalf("bad: %s", ids)
}
// Lookup the evaluations
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ws := memdb.NewWatchSet()
evalByType := make(map[string]*structs.Evaluation, 2)
for _, id := range ids {
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eval, err := state.EvalByID(ws, id)
if err != nil {
t.Fatalf("err: %v", err)
}
if eval == nil {
t.Fatalf("expected eval")
}
if old, ok := evalByType[eval.Type]; ok {
t.Fatalf("multiple evals of the same type: %v and %v", old, eval)
}
evalByType[eval.Type] = eval
}
if len(evalByType) != 2 {
t.Fatalf("Expected a service and system job; got %#v", evalByType)
}
// Ensure the evals are correct.
for schedType, eval := range evalByType {
expPriority := alloc.Job.Priority
expJobID := alloc.JobID
if schedType == "system" {
expPriority = job.Priority
expJobID = job.ID
}
t.Logf("checking eval: %v", pretty.Sprint(eval))
require.Equal(t, index, eval.CreateIndex)
require.Equal(t, structs.EvalTriggerNodeUpdate, eval.TriggeredBy)
require.Equal(t, alloc.NodeID, eval.NodeID)
require.Equal(t, uint64(1), eval.NodeModifyIndex)
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switch eval.Status {
case structs.EvalStatusPending, structs.EvalStatusComplete:
// success
default:
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t.Fatalf("expected pending or complete, found %v", eval.Status)
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}
require.Equal(t, expPriority, eval.Priority)
require.Equal(t, expJobID, eval.JobID)
require.NotZero(t, eval.CreateTime)
require.NotZero(t, eval.ModifyTime)
}
}
func TestClientEndpoint_Evaluate(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, func(c *Config) {
c.NumSchedulers = 0 // Prevent automatic dequeue
})
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Inject fake evaluations
alloc := mock.Alloc()
node := mock.Node()
node.ID = alloc.NodeID
state := s1.fsm.State()
err := state.UpsertNode(structs.MsgTypeTestSetup, 1, node)
if err != nil {
t.Fatalf("err: %v", err)
}
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state.UpsertJobSummary(2, mock.JobSummary(alloc.JobID))
err = state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{alloc})
if err != nil {
t.Fatalf("err: %v", err)
}
// Re-evaluate
req := &structs.NodeEvaluateRequest{
NodeID: alloc.NodeID,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.NodeUpdateResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Evaluate", req, &resp); err != nil {
t.Fatalf("err: %v", err)
}
if resp.Index == 0 {
t.Fatalf("bad index: %d", resp.Index)
}
// Create some evaluations
ids := resp.EvalIDs
if len(ids) != 1 {
t.Fatalf("bad: %s", ids)
}
// Lookup the evaluation
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ws := memdb.NewWatchSet()
eval, err := state.EvalByID(ws, ids[0])
if err != nil {
t.Fatalf("err: %v", err)
}
if eval == nil {
t.Fatalf("expected eval")
}
if eval.CreateIndex != resp.Index {
t.Fatalf("index mis-match")
}
if eval.Priority != alloc.Job.Priority {
t.Fatalf("bad: %#v", eval)
}
if eval.Type != alloc.Job.Type {
t.Fatalf("bad: %#v", eval)
}
if eval.TriggeredBy != structs.EvalTriggerNodeUpdate {
t.Fatalf("bad: %#v", eval)
}
if eval.JobID != alloc.JobID {
t.Fatalf("bad: %#v", eval)
}
if eval.NodeID != alloc.NodeID {
t.Fatalf("bad: %#v", eval)
}
if eval.NodeModifyIndex != 1 {
t.Fatalf("bad: %#v", eval)
}
if eval.Status != structs.EvalStatusPending {
t.Fatalf("bad: %#v", eval)
}
if eval.CreateTime == 0 {
t.Fatalf("CreateTime is unset: %#v", eval)
}
if eval.ModifyTime == 0 {
t.Fatalf("ModifyTime is unset: %#v", eval)
}
}
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func TestClientEndpoint_Evaluate_ACL(t *testing.T) {
t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
assert := assert.New(t)
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// Create the node with an alloc
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alloc := mock.Alloc()
node := mock.Node()
node.ID = alloc.NodeID
state := s1.fsm.State()
assert.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1, node), "UpsertNode")
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assert.Nil(state.UpsertJobSummary(2, mock.JobSummary(alloc.JobID)), "UpsertJobSummary")
assert.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{alloc}), "UpsertAllocs")
2017-09-15 03:41:44 +00:00
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// Create the policy and tokens
validToken := mock.CreatePolicyAndToken(t, state, 1001, "test-valid", mock.NodePolicy(acl.PolicyWrite))
invalidToken := mock.CreatePolicyAndToken(t, state, 1003, "test-invalid", mock.NodePolicy(acl.PolicyRead))
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// Re-evaluate without a token and expect failure
req := &structs.NodeEvaluateRequest{
NodeID: alloc.NodeID,
WriteRequest: structs.WriteRequest{Region: "global"},
}
{
var resp structs.NodeUpdateResponse
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err := msgpackrpc.CallWithCodec(codec, "Node.Evaluate", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
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}
// Try with a valid token
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req.AuthToken = validToken.SecretID
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{
var resp structs.NodeUpdateResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.Evaluate", req, &resp), "RPC")
}
// Try with a invalid token
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req.AuthToken = invalidToken.SecretID
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{
var resp structs.NodeUpdateResponse
err := msgpackrpc.CallWithCodec(codec, "Node.Evaluate", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a root token
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req.AuthToken = root.SecretID
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{
var resp structs.NodeUpdateResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.Evaluate", req, &resp), "RPC")
}
}
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func TestClientEndpoint_ListNodes(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
node.HostVolumes = map[string]*structs.ClientHostVolumeConfig{
"foo": {
Name: "foo",
Path: "/",
ReadOnly: true,
},
}
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reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
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}
// Fetch the response
var resp structs.GenericResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp); err != nil {
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t.Fatalf("err: %v", err)
}
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Lookup the node
get := &structs.NodeListRequest{
QueryOptions: structs.QueryOptions{Region: "global"},
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}
var resp2 structs.NodeListResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.List", get, &resp2); err != nil {
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t.Fatalf("err: %v", err)
}
if resp2.Index != resp.Index {
t.Fatalf("Bad index: %d %d", resp2.Index, resp.Index)
}
require.Len(t, resp2.Nodes, 1)
require.Equal(t, node.ID, resp2.Nodes[0].ID)
// #7344 - Assert HostVolumes are included in stub
require.Equal(t, node.HostVolumes, resp2.Nodes[0].HostVolumes)
// #9055 - Assert Resources are *not* included by default
require.Nil(t, resp2.Nodes[0].NodeResources)
require.Nil(t, resp2.Nodes[0].ReservedResources)
// Lookup the node with prefix
get = &structs.NodeListRequest{
QueryOptions: structs.QueryOptions{Region: "global", Prefix: node.ID[:4]},
}
var resp3 structs.NodeListResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.List", get, &resp3); err != nil {
t.Fatalf("err: %v", err)
}
if resp3.Index != resp.Index {
t.Fatalf("Bad index: %d %d", resp3.Index, resp2.Index)
}
if len(resp3.Nodes) != 1 {
t.Fatalf("bad: %#v", resp3.Nodes)
}
if resp3.Nodes[0].ID != node.ID {
t.Fatalf("bad: %#v", resp3.Nodes[0])
2015-09-06 21:28:29 +00:00
}
}
func TestClientEndpoint_ListNodes_Fields(t *testing.T) {
t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the register request
node := mock.Node()
reg := &structs.NodeRegisterRequest{
Node: node,
WriteRequest: structs.WriteRequest{Region: "global"},
}
// Fetch the response
var resp structs.GenericResponse
require.NoError(t, msgpackrpc.CallWithCodec(codec, "Node.Register", reg, &resp))
node.CreateIndex = resp.Index
node.ModifyIndex = resp.Index
// Lookup the node with fields
get := &structs.NodeListRequest{
QueryOptions: structs.QueryOptions{Region: "global"},
Fields: &structs.NodeStubFields{
Resources: true,
},
}
var resp2 structs.NodeListResponse
require.NoError(t, msgpackrpc.CallWithCodec(codec, "Node.List", get, &resp2))
require.Equal(t, resp.Index, resp2.Index)
require.Len(t, resp2.Nodes, 1)
require.Equal(t, node.ID, resp2.Nodes[0].ID)
require.NotNil(t, resp2.Nodes[0].NodeResources)
require.NotNil(t, resp2.Nodes[0].ReservedResources)
}
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func TestClientEndpoint_ListNodes_ACL(t *testing.T) {
t.Parallel()
s1, root, cleanupS1 := TestACLServer(t, nil)
defer cleanupS1()
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codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
assert := assert.New(t)
// Create the node
node := mock.Node()
state := s1.fsm.State()
assert.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1, node), "UpsertNode")
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// Create the namespace policy and tokens
validToken := mock.CreatePolicyAndToken(t, state, 1001, "test-valid", mock.NodePolicy(acl.PolicyRead))
invalidToken := mock.CreatePolicyAndToken(t, state, 1003, "test-invalid", mock.NodePolicy(acl.PolicyDeny))
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// Lookup the node without a token and expect failure
req := &structs.NodeListRequest{
QueryOptions: structs.QueryOptions{Region: "global"},
}
{
var resp structs.NodeListResponse
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err := msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
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}
// Try with a valid token
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req.AuthToken = validToken.SecretID
2017-09-15 05:01:18 +00:00
{
var resp structs.NodeListResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp), "RPC")
assert.Equal(node.ID, resp.Nodes[0].ID)
}
// Try with a invalid token
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req.AuthToken = invalidToken.SecretID
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{
var resp structs.NodeListResponse
err := msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp)
assert.NotNil(err, "RPC")
assert.Equal(err.Error(), structs.ErrPermissionDenied.Error())
}
// Try with a root token
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req.AuthToken = root.SecretID
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{
var resp structs.NodeListResponse
assert.Nil(msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp), "RPC")
assert.Equal(node.ID, resp.Nodes[0].ID)
}
}
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func TestClientEndpoint_ListNodes_Blocking(t *testing.T) {
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t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Disable drainer to prevent drain from completing during test
s1.nodeDrainer.SetEnabled(false, nil)
// Create the node
node := mock.Node()
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// Node upsert triggers watches
errCh := make(chan error, 1)
timer := time.AfterFunc(100*time.Millisecond, func() {
errCh <- state.UpsertNode(structs.MsgTypeTestSetup, 2, node)
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})
defer timer.Stop()
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req := &structs.NodeListRequest{
QueryOptions: structs.QueryOptions{
Region: "global",
MinQueryIndex: 1,
},
}
start := time.Now()
var resp structs.NodeListResponse
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if err := msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp); err != nil {
t.Fatalf("err: %v", err)
}
if err := <-errCh; err != nil {
t.Fatalf("error from timer: %v", err)
}
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if elapsed := time.Since(start); elapsed < 100*time.Millisecond {
t.Fatalf("should block (returned in %s) %#v", elapsed, resp)
}
if resp.Index != 2 {
t.Fatalf("Bad index: %d %d", resp.Index, 2)
}
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if len(resp.Nodes) != 1 || resp.Nodes[0].ID != node.ID {
t.Fatalf("bad: %#v", resp.Nodes)
}
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// Node drain updates trigger watches.
time.AfterFunc(100*time.Millisecond, func() {
2018-02-23 18:42:43 +00:00
s := &structs.DrainStrategy{
2018-02-26 22:34:32 +00:00
DrainSpec: structs.DrainSpec{
Deadline: 10 * time.Second,
},
2018-02-23 18:42:43 +00:00
}
errCh <- state.UpdateNodeDrain(structs.MsgTypeTestSetup, 3, node.ID, s, false, 0, nil)
2015-10-28 19:29:06 +00:00
})
req.MinQueryIndex = 2
var resp2 structs.NodeListResponse
start = time.Now()
if err := msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp2); err != nil {
t.Fatalf("err: %v", err)
}
if err := <-errCh; err != nil {
t.Fatalf("error from timer: %v", err)
}
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if elapsed := time.Since(start); elapsed < 100*time.Millisecond {
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t.Fatalf("should block (returned in %s) %#v", elapsed, resp2)
2015-10-28 19:29:06 +00:00
}
if resp2.Index != 3 {
t.Fatalf("Bad index: %d %d", resp2.Index, 3)
}
if len(resp2.Nodes) != 1 || !resp2.Nodes[0].Drain {
t.Fatalf("bad: %#v", resp2.Nodes)
}
// Node status update triggers watches
time.AfterFunc(100*time.Millisecond, func() {
errCh <- state.UpdateNodeStatus(structs.MsgTypeTestSetup, 40, node.ID, structs.NodeStatusDown, 0, nil)
2015-10-28 19:29:06 +00:00
})
2018-02-23 18:42:43 +00:00
req.MinQueryIndex = 38
2015-10-28 19:29:06 +00:00
var resp3 structs.NodeListResponse
start = time.Now()
if err := msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp3); err != nil {
t.Fatalf("err: %v", err)
}
if err := <-errCh; err != nil {
t.Fatalf("error from timer: %v", err)
}
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if elapsed := time.Since(start); elapsed < 100*time.Millisecond {
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t.Fatalf("should block (returned in %s) %#v", elapsed, resp3)
2015-10-28 19:29:06 +00:00
}
2018-02-23 18:42:43 +00:00
if resp3.Index != 40 {
t.Fatalf("Bad index: %d %d", resp3.Index, 40)
2015-10-28 19:29:06 +00:00
}
if len(resp3.Nodes) != 1 || resp3.Nodes[0].Status != structs.NodeStatusDown {
t.Fatalf("bad: %#v", resp3.Nodes)
}
// Node delete triggers watches.
time.AfterFunc(100*time.Millisecond, func() {
errCh <- state.DeleteNode(structs.MsgTypeTestSetup, 50, []string{node.ID})
2015-10-28 19:29:06 +00:00
})
2018-02-23 18:42:43 +00:00
req.MinQueryIndex = 45
2015-10-28 19:29:06 +00:00
var resp4 structs.NodeListResponse
start = time.Now()
if err := msgpackrpc.CallWithCodec(codec, "Node.List", req, &resp4); err != nil {
t.Fatalf("err: %v", err)
}
if err := <-errCh; err != nil {
t.Fatalf("error from timer: %v", err)
}
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if elapsed := time.Since(start); elapsed < 100*time.Millisecond {
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t.Fatalf("should block (returned in %s) %#v", elapsed, resp4)
2015-10-28 19:29:06 +00:00
}
2018-02-23 18:42:43 +00:00
if resp4.Index != 50 {
t.Fatalf("Bad index: %d %d", resp4.Index, 50)
2015-10-28 19:29:06 +00:00
}
if len(resp4.Nodes) != 0 {
t.Fatalf("bad: %#v", resp4.Nodes)
}
}
2016-02-22 02:51:34 +00:00
2016-08-19 20:13:51 +00:00
func TestClientEndpoint_DeriveVaultToken_Bad(t *testing.T) {
2017-07-23 22:04:38 +00:00
t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
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state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Create the node
node := mock.Node()
if err := state.UpsertNode(structs.MsgTypeTestSetup, 2, node); err != nil {
2016-08-19 20:13:51 +00:00
t.Fatalf("err: %v", err)
}
// Create an alloc
alloc := mock.Alloc()
task := alloc.Job.TaskGroups[0].Tasks[0]
tasks := []string{task.Name}
if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{alloc}); err != nil {
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t.Fatalf("err: %v", err)
}
req := &structs.DeriveVaultTokenRequest{
NodeID: node.ID,
SecretID: uuid.Generate(),
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AllocID: alloc.ID,
Tasks: tasks,
QueryOptions: structs.QueryOptions{
Region: "global",
},
}
var resp structs.DeriveVaultTokenResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.DeriveVaultToken", req, &resp); err != nil {
t.Fatalf("bad: %v", err)
}
if resp.Error == nil || !strings.Contains(resp.Error.Error(), "SecretID mismatch") {
t.Fatalf("Expected SecretID mismatch: %v", resp.Error)
2016-08-19 20:13:51 +00:00
}
// Put the correct SecretID
req.SecretID = node.SecretID
// Now we should get an error about the allocation not running on the node
if err := msgpackrpc.CallWithCodec(codec, "Node.DeriveVaultToken", req, &resp); err != nil {
t.Fatalf("bad: %v", err)
}
if resp.Error == nil || !strings.Contains(resp.Error.Error(), "not running on Node") {
t.Fatalf("Expected not running on node error: %v", resp.Error)
2016-08-19 20:13:51 +00:00
}
// Update to be running on the node
alloc.NodeID = node.ID
if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 4, []*structs.Allocation{alloc}); err != nil {
2016-08-19 20:13:51 +00:00
t.Fatalf("err: %v", err)
}
// Now we should get an error about the job not needing any Vault secrets
if err := msgpackrpc.CallWithCodec(codec, "Node.DeriveVaultToken", req, &resp); err != nil {
t.Fatalf("bad: %v", err)
}
if resp.Error == nil || !strings.Contains(resp.Error.Error(), "does not require") {
t.Fatalf("Expected no policies error: %v", resp.Error)
2016-08-19 20:13:51 +00:00
}
// Update to be terminal
alloc.DesiredStatus = structs.AllocDesiredStatusStop
if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 5, []*structs.Allocation{alloc}); err != nil {
2016-08-19 20:13:51 +00:00
t.Fatalf("err: %v", err)
}
// Now we should get an error about the job not needing any Vault secrets
if err := msgpackrpc.CallWithCodec(codec, "Node.DeriveVaultToken", req, &resp); err != nil {
t.Fatalf("bad: %v", err)
}
if resp.Error == nil || !strings.Contains(resp.Error.Error(), "terminal") {
t.Fatalf("Expected terminal allocation error: %v", resp.Error)
2016-08-19 20:13:51 +00:00
}
}
func TestClientEndpoint_DeriveVaultToken(t *testing.T) {
2017-07-23 22:04:38 +00:00
t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
2016-08-19 20:13:51 +00:00
state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Enable vault and allow authenticated
2016-10-11 20:28:18 +00:00
tr := true
s1.config.VaultConfig.Enabled = &tr
s1.config.VaultConfig.AllowUnauthenticated = &tr
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// Replace the Vault Client on the server
tvc := &TestVaultClient{}
s1.vault = tvc
// Create the node
node := mock.Node()
if err := state.UpsertNode(structs.MsgTypeTestSetup, 2, node); err != nil {
2016-08-19 20:13:51 +00:00
t.Fatalf("err: %v", err)
}
// Create an alloc an allocation that has vault policies required
alloc := mock.Alloc()
alloc.NodeID = node.ID
task := alloc.Job.TaskGroups[0].Tasks[0]
tasks := []string{task.Name}
task.Vault = &structs.Vault{Policies: []string{"a", "b"}}
if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{alloc}); err != nil {
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t.Fatalf("err: %v", err)
}
// Return a secret for the task
token := uuid.Generate()
accessor := uuid.Generate()
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ttl := 10
secret := &vapi.Secret{
WrapInfo: &vapi.SecretWrapInfo{
Token: token,
WrappedAccessor: accessor,
TTL: ttl,
},
}
tvc.SetCreateTokenSecret(alloc.ID, task.Name, secret)
req := &structs.DeriveVaultTokenRequest{
NodeID: node.ID,
SecretID: node.SecretID,
AllocID: alloc.ID,
Tasks: tasks,
QueryOptions: structs.QueryOptions{
Region: "global",
},
}
var resp structs.DeriveVaultTokenResponse
if err := msgpackrpc.CallWithCodec(codec, "Node.DeriveVaultToken", req, &resp); err != nil {
t.Fatalf("bad: %v", err)
}
if resp.Error != nil {
t.Fatalf("bad: %v", resp.Error)
}
2016-08-19 20:13:51 +00:00
// Check the state store and ensure that we created a VaultAccessor
2017-02-08 05:22:48 +00:00
ws := memdb.NewWatchSet()
va, err := state.VaultAccessor(ws, accessor)
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if err != nil {
t.Fatalf("bad: %v", err)
}
if va == nil {
t.Fatalf("bad: %v", va)
}
if va.CreateIndex == 0 {
t.Fatalf("bad: %v", va)
}
va.CreateIndex = 0
expected := &structs.VaultAccessor{
AllocID: alloc.ID,
Task: task.Name,
NodeID: alloc.NodeID,
Accessor: accessor,
CreationTTL: ttl,
}
if !reflect.DeepEqual(expected, va) {
t.Fatalf("Got %#v; want %#v", va, expected)
}
}
func TestClientEndpoint_DeriveVaultToken_VaultError(t *testing.T) {
2017-07-23 22:04:38 +00:00
t.Parallel()
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Enable vault and allow authenticated
tr := true
s1.config.VaultConfig.Enabled = &tr
s1.config.VaultConfig.AllowUnauthenticated = &tr
// Replace the Vault Client on the server
tvc := &TestVaultClient{}
s1.vault = tvc
// Create the node
node := mock.Node()
if err := state.UpsertNode(structs.MsgTypeTestSetup, 2, node); err != nil {
t.Fatalf("err: %v", err)
}
// Create an alloc an allocation that has vault policies required
alloc := mock.Alloc()
alloc.NodeID = node.ID
task := alloc.Job.TaskGroups[0].Tasks[0]
tasks := []string{task.Name}
task.Vault = &structs.Vault{Policies: []string{"a", "b"}}
if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{alloc}); err != nil {
t.Fatalf("err: %v", err)
}
// Return an error when creating the token
tvc.SetCreateTokenError(alloc.ID, task.Name,
structs.NewRecoverableError(fmt.Errorf("recover"), true))
req := &structs.DeriveVaultTokenRequest{
NodeID: node.ID,
SecretID: node.SecretID,
AllocID: alloc.ID,
Tasks: tasks,
QueryOptions: structs.QueryOptions{
Region: "global",
},
}
var resp structs.DeriveVaultTokenResponse
err := msgpackrpc.CallWithCodec(codec, "Node.DeriveVaultToken", req, &resp)
if err != nil {
t.Fatalf("bad: %v", err)
}
if resp.Error == nil || !resp.Error.IsRecoverable() {
t.Fatalf("bad: %+v", resp.Error)
}
}
func TestClientEndpoint_taskUsesConnect(t *testing.T) {
t.Parallel()
try := func(t *testing.T, task *structs.Task, exp bool) {
result := taskUsesConnect(task)
require.Equal(t, exp, result)
}
t.Run("task uses connect", func(t *testing.T) {
try(t, &structs.Task{
// see nomad.newConnectTask for how this works
Name: "connect-proxy-myservice",
Kind: "connect-proxy:myservice",
}, true)
})
t.Run("task does not use connect", func(t *testing.T) {
try(t, &structs.Task{
Name: "mytask",
Kind: "incorrect:mytask",
}, false)
})
t.Run("task does not exist", func(t *testing.T) {
try(t, nil, false)
})
}
func TestClientEndpoint_tasksNotUsingConnect(t *testing.T) {
t.Parallel()
taskGroup := &structs.TaskGroup{
Name: "testgroup",
Tasks: []*structs.Task{{
Name: "connect-proxy-service1",
Kind: structs.NewTaskKind(structs.ConnectProxyPrefix, "service1"),
}, {
Name: "incorrect-task3",
Kind: "incorrect:task3",
}, {
Name: "connect-proxy-service4",
Kind: structs.NewTaskKind(structs.ConnectProxyPrefix, "service4"),
}, {
Name: "incorrect-task5",
Kind: "incorrect:task5",
}, {
Name: "task6",
Kind: structs.NewTaskKind(structs.ConnectNativePrefix, "service6"),
}},
}
requestingTasks := []string{
"connect-proxy-service1", // yes
"task2", // does not exist
"task3", // no
"connect-proxy-service4", // yes
"task5", // no
"task6", // yes, native
}
notConnect, usingConnect := connectTasks(taskGroup, requestingTasks)
notConnectExp := []string{"task2", "task3", "task5"}
usingConnectExp := []connectTask{
{TaskName: "connect-proxy-service1", TaskKind: "connect-proxy:service1"},
{TaskName: "connect-proxy-service4", TaskKind: "connect-proxy:service4"},
{TaskName: "task6", TaskKind: "connect-native:service6"},
}
require.Equal(t, notConnectExp, notConnect)
require.Equal(t, usingConnectExp, usingConnect)
}
func mutateConnectJob(t *testing.T, job *structs.Job) {
var jch jobConnectHook
_, warnings, err := jch.Mutate(job)
require.Empty(t, warnings)
require.NoError(t, err)
}
func TestClientEndpoint_DeriveSIToken(t *testing.T) {
t.Parallel()
r := require.New(t)
s1, cleanupS1 := TestServer(t, nil) // already sets consul mocks
defer cleanupS1()
state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Set allow unauthenticated (no operator token required)
s1.config.ConsulConfig.AllowUnauthenticated = helper.BoolToPtr(true)
// Create the node
node := mock.Node()
err := state.UpsertNode(structs.MsgTypeTestSetup, 2, node)
r.NoError(err)
// Create an alloc with a typical connect service (sidecar) defined
alloc := mock.ConnectAlloc()
alloc.NodeID = node.ID
mutateConnectJob(t, alloc.Job) // appends sidecar task
sidecarTask := alloc.Job.TaskGroups[0].Tasks[1]
err = state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{alloc})
r.NoError(err)
request := &structs.DeriveSITokenRequest{
NodeID: node.ID,
SecretID: node.SecretID,
AllocID: alloc.ID,
Tasks: []string{sidecarTask.Name},
QueryOptions: structs.QueryOptions{Region: "global"},
}
var response structs.DeriveSITokenResponse
err = msgpackrpc.CallWithCodec(codec, "Node.DeriveSIToken", request, &response)
r.NoError(err)
r.Nil(response.Error)
// Check the state store and ensure we created a Consul SI Token Accessor
ws := memdb.NewWatchSet()
accessors, err := state.SITokenAccessorsByNode(ws, node.ID)
r.NoError(err)
r.Equal(1, len(accessors)) // only asked for one
r.Equal("connect-proxy-testconnect", accessors[0].TaskName) // set by the mock
r.Equal(node.ID, accessors[0].NodeID) // should match
r.Equal(alloc.ID, accessors[0].AllocID) // should match
r.True(helper.IsUUID(accessors[0].AccessorID)) // should be set
r.Greater(accessors[0].CreateIndex, uint64(3)) // more than 3rd
}
func TestClientEndpoint_DeriveSIToken_ConsulError(t *testing.T) {
t.Parallel()
r := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// Set allow unauthenticated (no operator token required)
s1.config.ConsulConfig.AllowUnauthenticated = helper.BoolToPtr(true)
// Create the node
node := mock.Node()
err := state.UpsertNode(structs.MsgTypeTestSetup, 2, node)
r.NoError(err)
// Create an alloc with a typical connect service (sidecar) defined
alloc := mock.ConnectAlloc()
alloc.NodeID = node.ID
mutateConnectJob(t, alloc.Job) // appends sidecar task
sidecarTask := alloc.Job.TaskGroups[0].Tasks[1]
// rejigger the server to use a broken mock consul
mockACLsAPI := consul.NewMockACLsAPI(s1.logger)
mockACLsAPI.SetError(structs.NewRecoverableError(errors.New("consul recoverable error"), true))
m := NewConsulACLsAPI(mockACLsAPI, s1.logger, nil)
s1.consulACLs = m
err = state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{alloc})
r.NoError(err)
request := &structs.DeriveSITokenRequest{
NodeID: node.ID,
SecretID: node.SecretID,
AllocID: alloc.ID,
Tasks: []string{sidecarTask.Name},
QueryOptions: structs.QueryOptions{Region: "global"},
}
var response structs.DeriveSITokenResponse
err = msgpackrpc.CallWithCodec(codec, "Node.DeriveSIToken", request, &response)
r.NoError(err)
r.NotNil(response.Error) // error should be set
r.True(response.Error.IsRecoverable()) // and is recoverable
}
func TestClientEndpoint_EmitEvents(t *testing.T) {
t.Parallel()
require := require.New(t)
s1, cleanupS1 := TestServer(t, nil)
defer cleanupS1()
state := s1.fsm.State()
codec := rpcClient(t, s1)
testutil.WaitForLeader(t, s1.RPC)
// create a node that we can register our event to
node := mock.Node()
err := state.UpsertNode(structs.MsgTypeTestSetup, 2, node)
require.Nil(err)
nodeEvent := &structs.NodeEvent{
Message: "Registration failed",
Subsystem: "Server",
2018-03-27 17:50:09 +00:00
Timestamp: time.Now(),
}
nodeEvents := map[string][]*structs.NodeEvent{node.ID: {nodeEvent}}
req := structs.EmitNodeEventsRequest{
NodeEvents: nodeEvents,
WriteRequest: structs.WriteRequest{Region: "global"},
}
var resp structs.GenericResponse
err = msgpackrpc.CallWithCodec(codec, "Node.EmitEvents", &req, &resp)
require.Nil(err)
require.NotEqual(uint64(0), resp.Index)
// Check for the node in the FSM
ws := memdb.NewWatchSet()
out, err := state.NodeByID(ws, node.ID)
require.Nil(err)
require.False(len(out.Events) < 2)
}