open-nomad/nomad/deploymentwatcher/deployments_watcher.go

395 lines
11 KiB
Go

package deploymentwatcher
import (
"context"
"fmt"
"sync"
"time"
"golang.org/x/time/rate"
log "github.com/hashicorp/go-hclog"
memdb "github.com/hashicorp/go-memdb"
"github.com/hashicorp/nomad/nomad/state"
"github.com/hashicorp/nomad/nomad/structs"
)
const (
// LimitStateQueriesPerSecond is the number of state queries allowed per
// second
LimitStateQueriesPerSecond = 100.0
// CrossDeploymentUpdateBatchDuration is the duration in which allocation
// desired transition and evaluation creation updates are batched across
// all deployment watchers before committing to Raft.
CrossDeploymentUpdateBatchDuration = 250 * time.Millisecond
)
var (
// notEnabled is the error returned when the deployment watcher is not
// enabled
notEnabled = fmt.Errorf("deployment watcher not enabled")
)
// DeploymentRaftEndpoints exposes the deployment watcher to a set of functions
// to apply data transforms via Raft.
type DeploymentRaftEndpoints interface {
// UpsertJob is used to upsert a job
UpsertJob(job *structs.Job) (uint64, error)
// UpdateDeploymentStatus is used to make a deployment status update
// and potentially create an evaluation.
UpdateDeploymentStatus(u *structs.DeploymentStatusUpdateRequest) (uint64, error)
// UpdateDeploymentPromotion is used to promote canaries in a deployment
UpdateDeploymentPromotion(req *structs.ApplyDeploymentPromoteRequest) (uint64, error)
// UpdateDeploymentAllocHealth is used to set the health of allocations in a
// deployment
UpdateDeploymentAllocHealth(req *structs.ApplyDeploymentAllocHealthRequest) (uint64, error)
// UpdateAllocDesiredTransition is used to update the desired transition
// for allocations.
UpdateAllocDesiredTransition(req *structs.AllocUpdateDesiredTransitionRequest) (uint64, error)
}
// Watcher is used to watch deployments and their allocations created
// by the scheduler and trigger the scheduler when allocation health
// transitions.
type Watcher struct {
enabled bool
logger log.Logger
// queryLimiter is used to limit the rate of blocking queries
queryLimiter *rate.Limiter
// updateBatchDuration is the duration to batch allocation desired
// transition and eval creation across all deployment watchers
updateBatchDuration time.Duration
// raft contains the set of Raft endpoints that can be used by the
// deployments watcher
raft DeploymentRaftEndpoints
// state is the state that is watched for state changes.
state *state.StateStore
// watchers is the set of active watchers, one per deployment
watchers map[string]*deploymentWatcher
// allocUpdateBatcher is used to batch the creation of evaluations and
// allocation desired transition updates
allocUpdateBatcher *AllocUpdateBatcher
// ctx and exitFn are used to cancel the watcher
ctx context.Context
exitFn context.CancelFunc
l sync.RWMutex
}
// NewDeploymentsWatcher returns a deployments watcher that is used to watch
// deployments and trigger the scheduler as needed.
func NewDeploymentsWatcher(logger log.Logger,
raft DeploymentRaftEndpoints, stateQueriesPerSecond float64,
updateBatchDuration time.Duration) *Watcher {
return &Watcher{
raft: raft,
queryLimiter: rate.NewLimiter(rate.Limit(stateQueriesPerSecond), 100),
updateBatchDuration: updateBatchDuration,
logger: logger.Named("deployments_watcher"),
}
}
// SetEnabled is used to control if the watcher is enabled. The watcher
// should only be enabled on the active leader. When being enabled the state is
// passed in as it is no longer valid once a leader election has taken place.
func (w *Watcher) SetEnabled(enabled bool, state *state.StateStore) {
w.l.Lock()
defer w.l.Unlock()
wasEnabled := w.enabled
w.enabled = enabled
if state != nil {
w.state = state
}
// Flush the state to create the necessary objects
w.flush()
// If we are starting now, launch the watch daemon
if enabled && !wasEnabled {
go w.watchDeployments(w.ctx)
}
}
// flush is used to clear the state of the watcher
func (w *Watcher) flush() {
// Stop all the watchers and clear it
for _, watcher := range w.watchers {
watcher.StopWatch()
}
// Kill everything associated with the watcher
if w.exitFn != nil {
w.exitFn()
}
w.watchers = make(map[string]*deploymentWatcher, 32)
w.ctx, w.exitFn = context.WithCancel(context.Background())
w.allocUpdateBatcher = NewAllocUpdateBatcher(w.updateBatchDuration, w.raft, w.ctx)
}
// watchDeployments is the long lived go-routine that watches for deployments to
// add and remove watchers on.
func (w *Watcher) watchDeployments(ctx context.Context) {
dindex := uint64(1)
for {
// Block getting all deployments using the last deployment index.
deployments, idx, err := w.getDeploys(ctx, dindex)
if err != nil {
if err == context.Canceled {
return
}
w.logger.Error("failed to retrieve deployments", "error", err)
}
// Update the latest index
dindex = idx
// Ensure we are tracking the things we should and not tracking what we
// shouldn't be
for _, d := range deployments {
if d.Active() {
if err := w.add(d); err != nil {
w.logger.Error("failed to track deployment", "deployment_id", d.ID, "error", err)
}
} else {
w.remove(d)
}
}
}
}
// getDeploys retrieves all deployments blocking at the given index.
func (w *Watcher) getDeploys(ctx context.Context, minIndex uint64) ([]*structs.Deployment, uint64, error) {
resp, index, err := w.state.BlockingQuery(w.getDeploysImpl, minIndex, ctx)
if err != nil {
return nil, 0, err
}
return resp.([]*structs.Deployment), index, nil
}
// getDeploysImpl retrieves all deployments from the passed state store.
func (w *Watcher) getDeploysImpl(ws memdb.WatchSet, state *state.StateStore) (interface{}, uint64, error) {
iter, err := state.Deployments(ws)
if err != nil {
return nil, 0, err
}
var deploys []*structs.Deployment
for {
raw := iter.Next()
if raw == nil {
break
}
deploy := raw.(*structs.Deployment)
deploys = append(deploys, deploy)
}
// Use the last index that affected the deployment table
index, err := state.Index("deployment")
if err != nil {
return nil, 0, err
}
return deploys, index, nil
}
// add adds a deployment to the watch list
func (w *Watcher) add(d *structs.Deployment) error {
w.l.Lock()
defer w.l.Unlock()
_, err := w.addLocked(d)
return err
}
// addLocked adds a deployment to the watch list and should only be called when
// locked. Creating the deploymentWatcher starts a go routine to .watch() it
func (w *Watcher) addLocked(d *structs.Deployment) (*deploymentWatcher, error) {
// Not enabled so no-op
if !w.enabled {
return nil, nil
}
if !d.Active() {
return nil, fmt.Errorf("deployment %q is terminal", d.ID)
}
// Already watched so just update the deployment
if w, ok := w.watchers[d.ID]; ok {
w.updateDeployment(d)
return nil, nil
}
// Get the job the deployment is referencing
snap, err := w.state.Snapshot()
if err != nil {
return nil, err
}
job, err := snap.JobByID(nil, d.Namespace, d.JobID)
if err != nil {
return nil, err
}
if job == nil {
return nil, fmt.Errorf("deployment %q references unknown job %q", d.ID, d.JobID)
}
watcher := newDeploymentWatcher(w.ctx, w.queryLimiter, w.logger, w.state, d, job, w)
w.watchers[d.ID] = watcher
return watcher, nil
}
// remove stops watching a deployment. This can be because the deployment is
// complete or being deleted.
func (w *Watcher) remove(d *structs.Deployment) {
w.l.Lock()
defer w.l.Unlock()
// Not enabled so no-op
if !w.enabled {
return
}
if watcher, ok := w.watchers[d.ID]; ok {
watcher.StopWatch()
delete(w.watchers, d.ID)
}
}
// forceAdd is used to force a lookup of the given deployment object and create
// a watcher. If the deployment does not exist or is terminal an error is
// returned.
func (w *Watcher) forceAdd(dID string) (*deploymentWatcher, error) {
snap, err := w.state.Snapshot()
if err != nil {
return nil, err
}
deployment, err := snap.DeploymentByID(nil, dID)
if err != nil {
return nil, err
}
if deployment == nil {
return nil, fmt.Errorf("unknown deployment %q", dID)
}
return w.addLocked(deployment)
}
// getOrCreateWatcher returns the deployment watcher for the given deployment ID.
func (w *Watcher) getOrCreateWatcher(dID string) (*deploymentWatcher, error) {
w.l.Lock()
defer w.l.Unlock()
// Not enabled so no-op
if !w.enabled {
return nil, notEnabled
}
watcher, ok := w.watchers[dID]
if ok {
return watcher, nil
}
return w.forceAdd(dID)
}
// SetAllocHealth is used to set the health of allocations for a deployment. If
// there are any unhealthy allocations, the deployment is updated to be failed.
// Otherwise the allocations are updated and an evaluation is created.
func (w *Watcher) SetAllocHealth(req *structs.DeploymentAllocHealthRequest, resp *structs.DeploymentUpdateResponse) error {
watcher, err := w.getOrCreateWatcher(req.DeploymentID)
if err != nil {
return err
}
return watcher.SetAllocHealth(req, resp)
}
// PromoteDeployment is used to promote a deployment. If promote is false,
// deployment is marked as failed. Otherwise the deployment is updated and an
// evaluation is created.
func (w *Watcher) PromoteDeployment(req *structs.DeploymentPromoteRequest, resp *structs.DeploymentUpdateResponse) error {
watcher, err := w.getOrCreateWatcher(req.DeploymentID)
if err != nil {
return err
}
return watcher.PromoteDeployment(req, resp)
}
// PauseDeployment is used to toggle the pause state on a deployment. If the
// deployment is being unpaused, an evaluation is created.
func (w *Watcher) PauseDeployment(req *structs.DeploymentPauseRequest, resp *structs.DeploymentUpdateResponse) error {
watcher, err := w.getOrCreateWatcher(req.DeploymentID)
if err != nil {
return err
}
return watcher.PauseDeployment(req, resp)
}
// FailDeployment is used to fail the deployment.
func (w *Watcher) FailDeployment(req *structs.DeploymentFailRequest, resp *structs.DeploymentUpdateResponse) error {
watcher, err := w.getOrCreateWatcher(req.DeploymentID)
if err != nil {
return err
}
return watcher.FailDeployment(req, resp)
}
// createUpdate commits the given allocation desired transition and evaluation
// to Raft but batches the commit with other calls.
func (w *Watcher) createUpdate(allocs map[string]*structs.DesiredTransition, eval *structs.Evaluation) (uint64, error) {
return w.allocUpdateBatcher.CreateUpdate(allocs, eval).Results()
}
// upsertJob commits the given job to Raft
func (w *Watcher) upsertJob(job *structs.Job) (uint64, error) {
return w.raft.UpsertJob(job)
}
// upsertDeploymentStatusUpdate commits the given deployment update and optional
// evaluation to Raft
func (w *Watcher) upsertDeploymentStatusUpdate(
u *structs.DeploymentStatusUpdate,
e *structs.Evaluation,
j *structs.Job) (uint64, error) {
return w.raft.UpdateDeploymentStatus(&structs.DeploymentStatusUpdateRequest{
DeploymentUpdate: u,
Eval: e,
Job: j,
})
}
// upsertDeploymentPromotion commits the given deployment promotion to Raft
func (w *Watcher) upsertDeploymentPromotion(req *structs.ApplyDeploymentPromoteRequest) (uint64, error) {
return w.raft.UpdateDeploymentPromotion(req)
}
// upsertDeploymentAllocHealth commits the given allocation health changes to
// Raft
func (w *Watcher) upsertDeploymentAllocHealth(req *structs.ApplyDeploymentAllocHealthRequest) (uint64, error) {
return w.raft.UpdateDeploymentAllocHealth(req)
}