open-nomad/client/state/db_bolt.go

Ignoring revisions in .git-blame-ignore-revs. Click here to bypass and see the normal blame view.

983 lines
26 KiB
Go
Raw Normal View History

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
2018-06-11 20:33:18 +00:00
package state
import (
"bytes"
"fmt"
"os"
"path/filepath"
"time"
hclog "github.com/hashicorp/go-hclog"
client: de-duplicate alloc updates and gate during restore (#17074) When client nodes are restarted, all allocations that have been scheduled on the node have their modify index updated, including terminal allocations. There are several contributing factors: * The `allocSync` method that updates the servers isn't gated on first contact with the servers. This means that if a server updates the desired state while the client is down, the `allocSync` races with the `Node.ClientGetAlloc` RPC. This will typically result in the client updating the server with "running" and then immediately thereafter "complete". * The `allocSync` method unconditionally sends the `Node.UpdateAlloc` RPC even if it's possible to assert that the server has definitely seen the client state. The allocrunner may queue-up updates even if we gate sending them. So then we end up with a race between the allocrunner updating its internal state to overwrite the previous update and `allocSync` sending the bogus or duplicate update. This changeset adds tracking of server-acknowledged state to the allocrunner. This state gets checked in the `allocSync` before adding the update to the batch, and updated when `Node.UpdateAlloc` returns successfully. To implement this we need to be able to equality-check the updates against the last acknowledged state. We also need to add the last acknowledged state to the client state DB, otherwise we'd drop unacknowledged updates across restarts. The client restart test has been expanded to cover a variety of allocation states, including allocs stopped before shutdown, allocs stopped by the server while the client is down, and allocs that have been completely GC'd on the server while the client is down. I've also bench tested scenarios where the task workload is killed while the client is down, resulting in a failed restore. Fixes #16381
2023-05-11 13:05:24 +00:00
arstate "github.com/hashicorp/nomad/client/allocrunner/state"
2018-10-04 23:22:01 +00:00
trstate "github.com/hashicorp/nomad/client/allocrunner/taskrunner/state"
2018-11-01 01:00:30 +00:00
dmstate "github.com/hashicorp/nomad/client/devicemanager/state"
"github.com/hashicorp/nomad/client/dynamicplugins"
driverstate "github.com/hashicorp/nomad/client/pluginmanager/drivermanager/state"
"github.com/hashicorp/nomad/client/serviceregistration/checks"
"github.com/hashicorp/nomad/helper/boltdd"
"github.com/hashicorp/nomad/nomad/structs"
"go.etcd.io/bbolt"
)
/*
The client has a boltDB backed state store. The schema as of 0.9 looks as follows:
meta/
|--> version -> '2' (not msgpack encoded)
|--> upgraded -> time.Now().Format(timeRFC3339)
allocations/
|--> <alloc-id>/
|--> alloc -> allocEntry{*structs.Allocation}
|--> deploy_status -> deployStatusEntry{*structs.AllocDeploymentStatus}
|--> network_status -> networkStatusEntry{*structs.AllocNetworkStatus}
client: de-duplicate alloc updates and gate during restore (#17074) When client nodes are restarted, all allocations that have been scheduled on the node have their modify index updated, including terminal allocations. There are several contributing factors: * The `allocSync` method that updates the servers isn't gated on first contact with the servers. This means that if a server updates the desired state while the client is down, the `allocSync` races with the `Node.ClientGetAlloc` RPC. This will typically result in the client updating the server with "running" and then immediately thereafter "complete". * The `allocSync` method unconditionally sends the `Node.UpdateAlloc` RPC even if it's possible to assert that the server has definitely seen the client state. The allocrunner may queue-up updates even if we gate sending them. So then we end up with a race between the allocrunner updating its internal state to overwrite the previous update and `allocSync` sending the bogus or duplicate update. This changeset adds tracking of server-acknowledged state to the allocrunner. This state gets checked in the `allocSync` before adding the update to the batch, and updated when `Node.UpdateAlloc` returns successfully. To implement this we need to be able to equality-check the updates against the last acknowledged state. We also need to add the last acknowledged state to the client state DB, otherwise we'd drop unacknowledged updates across restarts. The client restart test has been expanded to cover a variety of allocation states, including allocs stopped before shutdown, allocs stopped by the server while the client is down, and allocs that have been completely GC'd on the server while the client is down. I've also bench tested scenarios where the task workload is killed while the client is down, resulting in a failed restore. Fixes #16381
2023-05-11 13:05:24 +00:00
|--> acknowledged_state -> acknowledgedStateEntry{*arstate.State}
|--> task-<name>/
|--> local_state -> *trstate.LocalState # Local-only state
|--> task_state -> *structs.TaskState # Syncs to servers
|--> checks/
|--> check-<id> -> *structs.CheckState # Syncs to servers
devicemanager/
|--> plugin_state -> *dmstate.PluginState
drivermanager/
|--> plugin_state -> *driverstate.PluginState
dynamicplugins/
|--> registry_state -> *dynamicplugins.RegistryState
nodemeta/
|--> meta -> map[string]*string
*/
var (
// metaBucketName is the name of the metadata bucket
metaBucketName = []byte("meta")
// metaVersionKey is the key the state schema version is stored under.
metaVersionKey = []byte("version")
// metaVersion is the value of the state schema version to detect when
// an upgrade is needed. It skips the usual boltdd/msgpack backend to
// be as portable and futureproof as possible.
metaVersion = []byte{'3'}
// metaUpgradedKey is the key that stores the timestamp of the last
// time the schema was upgraded.
metaUpgradedKey = []byte("upgraded")
// allocationsBucketName is the bucket name containing all allocation related
// data
allocationsBucketName = []byte("allocations")
// allocKey is the key Allocations are stored under encapsulated in
// allocEntry structs.
allocKey = []byte("alloc")
// allocDeployStatusKey is the key *structs.AllocDeploymentStatus is
// stored under.
allocDeployStatusKey = []byte("deploy_status")
// allocNetworkStatusKey is the key *structs.AllocNetworkStatus is
// stored under
allocNetworkStatusKey = []byte("network_status")
client: de-duplicate alloc updates and gate during restore (#17074) When client nodes are restarted, all allocations that have been scheduled on the node have their modify index updated, including terminal allocations. There are several contributing factors: * The `allocSync` method that updates the servers isn't gated on first contact with the servers. This means that if a server updates the desired state while the client is down, the `allocSync` races with the `Node.ClientGetAlloc` RPC. This will typically result in the client updating the server with "running" and then immediately thereafter "complete". * The `allocSync` method unconditionally sends the `Node.UpdateAlloc` RPC even if it's possible to assert that the server has definitely seen the client state. The allocrunner may queue-up updates even if we gate sending them. So then we end up with a race between the allocrunner updating its internal state to overwrite the previous update and `allocSync` sending the bogus or duplicate update. This changeset adds tracking of server-acknowledged state to the allocrunner. This state gets checked in the `allocSync` before adding the update to the batch, and updated when `Node.UpdateAlloc` returns successfully. To implement this we need to be able to equality-check the updates against the last acknowledged state. We also need to add the last acknowledged state to the client state DB, otherwise we'd drop unacknowledged updates across restarts. The client restart test has been expanded to cover a variety of allocation states, including allocs stopped before shutdown, allocs stopped by the server while the client is down, and allocs that have been completely GC'd on the server while the client is down. I've also bench tested scenarios where the task workload is killed while the client is down, resulting in a failed restore. Fixes #16381
2023-05-11 13:05:24 +00:00
// acknowledgedStateKey is the key *arstate.State is stored under
acknowledgedStateKey = []byte("acknowledged_state")
// checkResultsBucket is the bucket name in which check query results are stored
checkResultsBucket = []byte("check_results")
// allocations -> $allocid -> task-$taskname -> the keys below
taskLocalStateKey = []byte("local_state")
taskStateKey = []byte("task_state")
// devManagerBucket is the bucket name containing all device manager related
// data
devManagerBucket = []byte("devicemanager")
// driverManagerBucket is the bucket name containing all driver manager
// related data
driverManagerBucket = []byte("drivermanager")
// managerPluginStateKey is the key by which plugin manager plugin state is
// stored at
managerPluginStateKey = []byte("plugin_state")
// dynamicPluginBucketName is the bucket name containing all dynamic plugin
// registry data. each dynamic plugin registry will have its own subbucket.
dynamicPluginBucketName = []byte("dynamicplugins")
// registryStateKey is the key at which dynamic plugin registry state is stored
registryStateKey = []byte("registry_state")
// nodeMetaBucket is the bucket name in which dynamically updated node
// metadata is stored
nodeMetaBucket = []byte("nodemeta")
// nodeMetaKey is the key at which dynamic node metadata is stored.
nodeMetaKey = []byte("meta")
)
// taskBucketName returns the bucket name for the given task name.
func taskBucketName(taskName string) []byte {
return []byte("task-" + taskName)
}
// NewStateDBFunc creates a StateDB given a state directory.
type NewStateDBFunc func(logger hclog.Logger, stateDir string) (StateDB, error)
// GetStateDBFactory returns a func for creating a StateDB
func GetStateDBFactory(devMode bool) NewStateDBFunc {
// Return a noop state db implementation when in debug mode
if devMode {
return func(hclog.Logger, string) (StateDB, error) {
return NoopDB{}, nil
}
}
return NewBoltStateDB
}
// BoltStateDB persists and restores Nomad client state in a boltdb. All
2018-08-22 17:18:49 +00:00
// methods are safe for concurrent access.
type BoltStateDB struct {
stateDir string
db *boltdd.DB
logger hclog.Logger
}
2018-08-22 17:18:49 +00:00
// NewBoltStateDB creates or opens an existing boltdb state file or returns an
// error.
func NewBoltStateDB(logger hclog.Logger, stateDir string) (StateDB, error) {
fn := filepath.Join(stateDir, "state.db")
// Check to see if the DB already exists
fi, err := os.Stat(fn)
if err != nil && !os.IsNotExist(err) {
return nil, err
}
firstRun := fi == nil
// Timeout to force failure when accessing a data dir that is already in use
timeout := &bbolt.Options{Timeout: 5 * time.Second}
// Create or open the boltdb state database
db, err := boltdd.Open(fn, 0600, timeout)
if err == bbolt.ErrTimeout {
return nil, fmt.Errorf("timed out while opening database, is another Nomad process accessing data_dir %s?", stateDir)
} else if err != nil {
return nil, fmt.Errorf("failed to create state database: %v", err)
}
sdb := &BoltStateDB{
stateDir: stateDir,
db: db,
logger: logger,
}
// If db did not already exist, initialize metadata fields
if firstRun {
if err := sdb.init(); err != nil {
return nil, err
}
}
return sdb, nil
}
func (s *BoltStateDB) Name() string {
return "boltdb"
}
// GetAllAllocations gets all allocations persisted by this client and returns
// a map of alloc ids to errors for any allocations that could not be restored.
//
// If a fatal error was encountered it will be returned and the other two
// values will be nil.
func (s *BoltStateDB) GetAllAllocations() ([]*structs.Allocation, map[string]error, error) {
var allocs []*structs.Allocation
var errs map[string]error
err := s.db.View(func(tx *boltdd.Tx) error {
allocs, errs = s.getAllAllocations(tx)
return nil
})
// db.View itself may return an error, so still check
if err != nil {
return nil, nil, err
}
return allocs, errs, nil
}
// allocEntry wraps values in the Allocations buckets
type allocEntry struct {
Alloc *structs.Allocation
}
func (s *BoltStateDB) getAllAllocations(tx *boltdd.Tx) ([]*structs.Allocation, map[string]error) {
allocs := make([]*structs.Allocation, 0, 10)
errs := map[string]error{}
allocationsBkt := tx.Bucket(allocationsBucketName)
if allocationsBkt == nil {
// No allocs
return allocs, errs
}
// Create a cursor for iteration.
c := allocationsBkt.BoltBucket().Cursor()
// Iterate over all the allocation buckets
for k, _ := c.First(); k != nil; k, _ = c.Next() {
allocID := string(k)
allocBkt := allocationsBkt.Bucket(k)
if allocBkt == nil {
errs[allocID] = fmt.Errorf("missing alloc bucket")
continue
}
2018-08-22 17:18:49 +00:00
var ae allocEntry
if err := allocBkt.Get(allocKey, &ae); err != nil {
errs[allocID] = fmt.Errorf("failed to decode alloc: %v", err)
continue
}
// Handle upgrade path
ae.Alloc.Canonicalize()
ae.Alloc.Job.Canonicalize()
2018-08-22 17:18:49 +00:00
allocs = append(allocs, ae.Alloc)
}
return allocs, errs
}
// PutAllocation stores an allocation or returns an error.
func (s *BoltStateDB) PutAllocation(alloc *structs.Allocation, opts ...WriteOption) error {
return s.updateWithOptions(opts, func(tx *boltdd.Tx) error {
// Retrieve the root allocations bucket
allocsBkt, err := tx.CreateBucketIfNotExists(allocationsBucketName)
if err != nil {
return err
}
// Retrieve the specific allocations bucket
key := []byte(alloc.ID)
allocBkt, err := allocsBkt.CreateBucketIfNotExists(key)
if err != nil {
return err
}
allocState := allocEntry{
Alloc: alloc,
}
return allocBkt.Put(allocKey, &allocState)
})
}
// deployStatusEntry wraps values for DeploymentStatus keys.
type deployStatusEntry struct {
DeploymentStatus *structs.AllocDeploymentStatus
}
// PutDeploymentStatus stores an allocation's DeploymentStatus or returns an
// error.
func (s *BoltStateDB) PutDeploymentStatus(allocID string, ds *structs.AllocDeploymentStatus) error {
return s.db.Update(func(tx *boltdd.Tx) error {
return putDeploymentStatusImpl(tx, allocID, ds)
})
}
func putDeploymentStatusImpl(tx *boltdd.Tx, allocID string, ds *structs.AllocDeploymentStatus) error {
allocBkt, err := getAllocationBucket(tx, allocID)
if err != nil {
return err
}
entry := deployStatusEntry{
DeploymentStatus: ds,
}
return allocBkt.Put(allocDeployStatusKey, &entry)
}
// GetDeploymentStatus retrieves an allocation's DeploymentStatus or returns an
// error.
func (s *BoltStateDB) GetDeploymentStatus(allocID string) (*structs.AllocDeploymentStatus, error) {
var entry deployStatusEntry
err := s.db.View(func(tx *boltdd.Tx) error {
allAllocsBkt := tx.Bucket(allocationsBucketName)
if allAllocsBkt == nil {
// No state, return
return nil
}
allocBkt := allAllocsBkt.Bucket([]byte(allocID))
if allocBkt == nil {
// No state for alloc, return
return nil
}
return allocBkt.Get(allocDeployStatusKey, &entry)
})
// It's valid for this field to be nil/missing
if boltdd.IsErrNotFound(err) {
return nil, nil
}
if err != nil {
return nil, err
}
return entry.DeploymentStatus, nil
}
// networkStatusEntry wraps values for NetworkStatus keys.
type networkStatusEntry struct {
NetworkStatus *structs.AllocNetworkStatus
}
// PutNetworkStatus stores an allocation's DeploymentStatus or returns an
// error.
func (s *BoltStateDB) PutNetworkStatus(allocID string, ds *structs.AllocNetworkStatus, opts ...WriteOption) error {
return s.updateWithOptions(opts, func(tx *boltdd.Tx) error {
return putNetworkStatusImpl(tx, allocID, ds)
})
}
func putNetworkStatusImpl(tx *boltdd.Tx, allocID string, ds *structs.AllocNetworkStatus) error {
allocBkt, err := getAllocationBucket(tx, allocID)
if err != nil {
return err
}
entry := networkStatusEntry{
NetworkStatus: ds,
}
return allocBkt.Put(allocNetworkStatusKey, &entry)
}
// GetNetworkStatus retrieves an allocation's NetworkStatus or returns an
// error.
func (s *BoltStateDB) GetNetworkStatus(allocID string) (*structs.AllocNetworkStatus, error) {
var entry networkStatusEntry
err := s.db.View(func(tx *boltdd.Tx) error {
allAllocsBkt := tx.Bucket(allocationsBucketName)
if allAllocsBkt == nil {
// No state, return
return nil
}
allocBkt := allAllocsBkt.Bucket([]byte(allocID))
if allocBkt == nil {
// No state for alloc, return
return nil
}
return allocBkt.Get(allocNetworkStatusKey, &entry)
})
// It's valid for this field to be nil/missing
if boltdd.IsErrNotFound(err) {
return nil, nil
}
if err != nil {
return nil, err
}
return entry.NetworkStatus, nil
}
client: de-duplicate alloc updates and gate during restore (#17074) When client nodes are restarted, all allocations that have been scheduled on the node have their modify index updated, including terminal allocations. There are several contributing factors: * The `allocSync` method that updates the servers isn't gated on first contact with the servers. This means that if a server updates the desired state while the client is down, the `allocSync` races with the `Node.ClientGetAlloc` RPC. This will typically result in the client updating the server with "running" and then immediately thereafter "complete". * The `allocSync` method unconditionally sends the `Node.UpdateAlloc` RPC even if it's possible to assert that the server has definitely seen the client state. The allocrunner may queue-up updates even if we gate sending them. So then we end up with a race between the allocrunner updating its internal state to overwrite the previous update and `allocSync` sending the bogus or duplicate update. This changeset adds tracking of server-acknowledged state to the allocrunner. This state gets checked in the `allocSync` before adding the update to the batch, and updated when `Node.UpdateAlloc` returns successfully. To implement this we need to be able to equality-check the updates against the last acknowledged state. We also need to add the last acknowledged state to the client state DB, otherwise we'd drop unacknowledged updates across restarts. The client restart test has been expanded to cover a variety of allocation states, including allocs stopped before shutdown, allocs stopped by the server while the client is down, and allocs that have been completely GC'd on the server while the client is down. I've also bench tested scenarios where the task workload is killed while the client is down, resulting in a failed restore. Fixes #16381
2023-05-11 13:05:24 +00:00
// PutAcknowledgedState stores an allocation's last acknowledged state or
// returns an error if it could not be stored.
func (s *BoltStateDB) PutAcknowledgedState(allocID string, state *arstate.State, opts ...WriteOption) error {
return s.updateWithOptions(opts, func(tx *boltdd.Tx) error {
allocBkt, err := getAllocationBucket(tx, allocID)
if err != nil {
return err
}
entry := acknowledgedStateEntry{
State: state,
}
return allocBkt.Put(acknowledgedStateKey, &entry)
})
}
// GetAcknowledgedState retrieves an allocation's last acknowledged state
func (s *BoltStateDB) GetAcknowledgedState(allocID string) (*arstate.State, error) {
var entry acknowledgedStateEntry
err := s.db.View(func(tx *boltdd.Tx) error {
allAllocsBkt := tx.Bucket(allocationsBucketName)
if allAllocsBkt == nil {
// No state, return
return nil
}
allocBkt := allAllocsBkt.Bucket([]byte(allocID))
if allocBkt == nil {
// No state for alloc, return
return nil
}
return allocBkt.Get(acknowledgedStateKey, &entry)
})
// It's valid for this field to be nil/missing
if boltdd.IsErrNotFound(err) {
return nil, nil
}
if err != nil {
return nil, err
}
return entry.State, nil
}
// GetTaskRunnerState returns the LocalState and TaskState for a
// TaskRunner. LocalState or TaskState will be nil if they do not exist.
//
// If an error is encountered both LocalState and TaskState will be nil.
func (s *BoltStateDB) GetTaskRunnerState(allocID, taskName string) (*trstate.LocalState, *structs.TaskState, error) {
var ls *trstate.LocalState
var ts *structs.TaskState
err := s.db.View(func(tx *boltdd.Tx) error {
allAllocsBkt := tx.Bucket(allocationsBucketName)
if allAllocsBkt == nil {
// No state, return
return nil
}
allocBkt := allAllocsBkt.Bucket([]byte(allocID))
if allocBkt == nil {
// No state for alloc, return
return nil
}
taskBkt := allocBkt.Bucket(taskBucketName(taskName))
if taskBkt == nil {
// No state for task, return
return nil
}
// Restore Local State if it exists
ls = &trstate.LocalState{}
if err := taskBkt.Get(taskLocalStateKey, ls); err != nil {
if !boltdd.IsErrNotFound(err) {
return fmt.Errorf("failed to read local task runner state: %v", err)
}
// Key not found, reset ls to nil
ls = nil
}
// Restore Task State if it exists
ts = &structs.TaskState{}
if err := taskBkt.Get(taskStateKey, ts); err != nil {
if !boltdd.IsErrNotFound(err) {
return fmt.Errorf("failed to read task state: %v", err)
}
// Key not found, reset ts to nil
ts = nil
}
return nil
})
if err != nil {
return nil, nil, err
}
return ls, ts, nil
}
// PutTaskRunnerLocalState stores TaskRunner's LocalState or returns an error.
func (s *BoltStateDB) PutTaskRunnerLocalState(allocID, taskName string, val *trstate.LocalState) error {
return s.db.Update(func(tx *boltdd.Tx) error {
return putTaskRunnerLocalStateImpl(tx, allocID, taskName, val)
})
}
// putTaskRunnerLocalStateImpl stores TaskRunner's LocalState in an ongoing
// transaction or returns an error.
func putTaskRunnerLocalStateImpl(tx *boltdd.Tx, allocID, taskName string, val *trstate.LocalState) error {
taskBkt, err := getTaskBucket(tx, allocID, taskName)
if err != nil {
return fmt.Errorf("failed to retrieve allocation bucket: %v", err)
}
if err := taskBkt.Put(taskLocalStateKey, val); err != nil {
return fmt.Errorf("failed to write task_runner state: %v", err)
}
return nil
}
// PutTaskState stores a task's state or returns an error.
func (s *BoltStateDB) PutTaskState(allocID, taskName string, state *structs.TaskState) error {
return s.db.Update(func(tx *boltdd.Tx) error {
return putTaskStateImpl(tx, allocID, taskName, state)
})
}
// putTaskStateImpl stores a task's state in an ongoing transaction or returns
// an error.
func putTaskStateImpl(tx *boltdd.Tx, allocID, taskName string, state *structs.TaskState) error {
taskBkt, err := getTaskBucket(tx, allocID, taskName)
if err != nil {
return fmt.Errorf("failed to retrieve allocation bucket: %v", err)
}
return taskBkt.Put(taskStateKey, state)
}
// DeleteTaskBucket is used to delete a task bucket if it exists.
func (s *BoltStateDB) DeleteTaskBucket(allocID, taskName string) error {
return s.db.Update(func(tx *boltdd.Tx) error {
// Retrieve the root allocations bucket
allocations := tx.Bucket(allocationsBucketName)
if allocations == nil {
return nil
}
// Retrieve the specific allocations bucket
alloc := allocations.Bucket([]byte(allocID))
if alloc == nil {
return nil
}
// Check if the bucket exists
key := taskBucketName(taskName)
return alloc.DeleteBucket(key)
})
}
// DeleteAllocationBucket is used to delete an allocation bucket if it exists.
func (s *BoltStateDB) DeleteAllocationBucket(allocID string, opts ...WriteOption) error {
return s.updateWithOptions(opts, func(tx *boltdd.Tx) error {
// Retrieve the root allocations bucket
allocations := tx.Bucket(allocationsBucketName)
if allocations == nil {
return nil
}
key := []byte(allocID)
return allocations.DeleteBucket(key)
})
}
// Close releases all database resources and unlocks the database file on disk.
// All transactions must be closed before closing the database.
func (s *BoltStateDB) Close() error {
return s.db.Close()
}
// getAllocationBucket returns the bucket used to persist state about a
// particular allocation. If the root allocation bucket or the specific
2017-05-02 20:31:56 +00:00
// allocation bucket doesn't exist, it will be created as long as the
// transaction is writable.
func getAllocationBucket(tx *boltdd.Tx, allocID string) (*boltdd.Bucket, error) {
2017-05-02 20:31:56 +00:00
var err error
w := tx.Writable()
// Retrieve the root allocations bucket
allocations := tx.Bucket(allocationsBucketName)
2017-05-02 20:31:56 +00:00
if allocations == nil {
if !w {
return nil, fmt.Errorf("Allocations bucket doesn't exist and transaction is not writable")
}
allocations, err = tx.CreateBucketIfNotExists(allocationsBucketName)
2017-05-02 20:31:56 +00:00
if err != nil {
return nil, err
}
}
// Retrieve the specific allocations bucket
2017-05-02 20:31:56 +00:00
key := []byte(allocID)
alloc := allocations.Bucket(key)
if alloc == nil {
if !w {
return nil, fmt.Errorf("Allocation bucket doesn't exist and transaction is not writable")
}
alloc, err = allocations.CreateBucket(key)
if err != nil {
return nil, err
}
}
return alloc, nil
}
// getTaskBucket returns the bucket used to persist state about a
// particular task. If the root allocation bucket, the specific
2017-05-02 20:31:56 +00:00
// allocation or task bucket doesn't exist, they will be created as long as the
// transaction is writable.
func getTaskBucket(tx *boltdd.Tx, allocID, taskName string) (*boltdd.Bucket, error) {
alloc, err := getAllocationBucket(tx, allocID)
2017-05-02 20:31:56 +00:00
if err != nil {
return nil, err
}
// Retrieve the specific task bucket
w := tx.Writable()
key := taskBucketName(taskName)
2017-05-02 20:31:56 +00:00
task := alloc.Bucket(key)
if task == nil {
if !w {
return nil, fmt.Errorf("Task bucket doesn't exist and transaction is not writable")
}
task, err = alloc.CreateBucket(key)
if err != nil {
return nil, err
}
}
return task, nil
}
// PutDevicePluginState stores the device manager's plugin state or returns an
// error.
2018-11-01 01:00:30 +00:00
func (s *BoltStateDB) PutDevicePluginState(ps *dmstate.PluginState) error {
return s.db.Update(func(tx *boltdd.Tx) error {
// Retrieve the root device manager bucket
devBkt, err := tx.CreateBucketIfNotExists(devManagerBucket)
if err != nil {
return err
}
return devBkt.Put(managerPluginStateKey, ps)
})
}
// GetDevicePluginState stores the device manager's plugin state or returns an
// error.
2018-11-01 01:00:30 +00:00
func (s *BoltStateDB) GetDevicePluginState() (*dmstate.PluginState, error) {
var ps *dmstate.PluginState
err := s.db.View(func(tx *boltdd.Tx) error {
devBkt := tx.Bucket(devManagerBucket)
if devBkt == nil {
// No state, return
return nil
}
// Restore Plugin State if it exists
2018-11-01 01:00:30 +00:00
ps = &dmstate.PluginState{}
if err := devBkt.Get(managerPluginStateKey, ps); err != nil {
if !boltdd.IsErrNotFound(err) {
return fmt.Errorf("failed to read device manager plugin state: %v", err)
}
// Key not found, reset ps to nil
ps = nil
}
return nil
})
if err != nil {
return nil, err
}
return ps, nil
}
// PutDriverPluginState stores the driver manager's plugin state or returns an
// error.
func (s *BoltStateDB) PutDriverPluginState(ps *driverstate.PluginState) error {
return s.db.Update(func(tx *boltdd.Tx) error {
// Retrieve the root driver manager bucket
driverBkt, err := tx.CreateBucketIfNotExists(driverManagerBucket)
if err != nil {
return err
}
return driverBkt.Put(managerPluginStateKey, ps)
})
}
// GetDriverPluginState stores the driver manager's plugin state or returns an
// error.
func (s *BoltStateDB) GetDriverPluginState() (*driverstate.PluginState, error) {
var ps *driverstate.PluginState
err := s.db.View(func(tx *boltdd.Tx) error {
driverBkt := tx.Bucket(driverManagerBucket)
if driverBkt == nil {
// No state, return
return nil
}
// Restore Plugin State if it exists
ps = &driverstate.PluginState{}
if err := driverBkt.Get(managerPluginStateKey, ps); err != nil {
if !boltdd.IsErrNotFound(err) {
return fmt.Errorf("failed to read driver manager plugin state: %v", err)
}
// Key not found, reset ps to nil
ps = nil
}
return nil
})
if err != nil {
return nil, err
}
return ps, nil
}
// PutDynamicPluginRegistryState stores the dynamic plugin registry's
// state or returns an error.
func (s *BoltStateDB) PutDynamicPluginRegistryState(ps *dynamicplugins.RegistryState) error {
return s.db.Update(func(tx *boltdd.Tx) error {
// Retrieve the root dynamic plugin manager bucket
dynamicBkt, err := tx.CreateBucketIfNotExists(dynamicPluginBucketName)
if err != nil {
return err
}
return dynamicBkt.Put(registryStateKey, ps)
})
}
// GetDynamicPluginRegistryState stores the dynamic plugin registry's
// registry state or returns an error.
func (s *BoltStateDB) GetDynamicPluginRegistryState() (*dynamicplugins.RegistryState, error) {
var ps *dynamicplugins.RegistryState
err := s.db.View(func(tx *boltdd.Tx) error {
dynamicBkt := tx.Bucket(dynamicPluginBucketName)
if dynamicBkt == nil {
// No state, return
return nil
}
// Restore Plugin State if it exists
ps = &dynamicplugins.RegistryState{}
if err := dynamicBkt.Get(registryStateKey, ps); err != nil {
if !boltdd.IsErrNotFound(err) {
return fmt.Errorf("failed to read dynamic plugin registry state: %v", err)
}
// Key not found, reset ps to nil
ps = nil
}
return nil
})
if err != nil {
return nil, err
}
return ps, nil
}
func keyForCheck(allocID string, checkID structs.CheckID) []byte {
return []byte(fmt.Sprintf("%s_%s", allocID, checkID))
}
// PutCheckResult puts qr into the state store.
func (s *BoltStateDB) PutCheckResult(allocID string, qr *structs.CheckQueryResult) error {
return s.db.Update(func(tx *boltdd.Tx) error {
bkt, err := tx.CreateBucketIfNotExists(checkResultsBucket)
if err != nil {
return err
}
key := keyForCheck(allocID, qr.ID)
return bkt.Put(key, qr)
})
}
// GetCheckResults gets the check results associated with allocID from the state store.
func (s *BoltStateDB) GetCheckResults() (checks.ClientResults, error) {
m := make(checks.ClientResults)
err := s.db.View(func(tx *boltdd.Tx) error {
bkt := tx.Bucket(checkResultsBucket)
if bkt == nil {
return nil // nothing set yet
}
if err := boltdd.Iterate(bkt, nil, func(key []byte, qr structs.CheckQueryResult) {
parts := bytes.SplitN(key, []byte("_"), 2)
allocID, _ := parts[0], parts[1]
m.Insert(string(allocID), &qr)
}); err != nil {
return err
}
return nil
})
return m, err
}
func (s *BoltStateDB) DeleteCheckResults(allocID string, checkIDs []structs.CheckID) error {
return s.db.Update(func(tx *boltdd.Tx) error {
bkt := tx.Bucket(checkResultsBucket)
if bkt == nil {
return nil // nothing set yet
}
for _, id := range checkIDs {
key := keyForCheck(allocID, id)
if err := bkt.Delete(key); err != nil {
return err
}
}
return nil
})
}
func (s *BoltStateDB) PurgeCheckResults(allocID string) error {
return s.db.Update(func(tx *boltdd.Tx) error {
bkt := tx.Bucket(checkResultsBucket)
if bkt == nil {
return nil // nothing set yet
}
return bkt.DeletePrefix([]byte(allocID + "_"))
})
}
// PutNodeMeta sets dynamic node metadata for merging with the copy from the
// Client's config.
//
// This overwrites existing dynamic node metadata entirely.
func (s *BoltStateDB) PutNodeMeta(meta map[string]*string) error {
return s.db.Update(func(tx *boltdd.Tx) error {
b, err := tx.CreateBucketIfNotExists(nodeMetaBucket)
if err != nil {
return err
}
return b.Put(nodeMetaKey, meta)
})
}
// GetNodeMeta retrieves node metadata for merging with the copy from
// the Client's config.
func (s *BoltStateDB) GetNodeMeta() (m map[string]*string, err error) {
err = s.db.View(func(tx *boltdd.Tx) error {
b := tx.Bucket(nodeMetaBucket)
if b == nil {
return nil
}
m, err = getNodeMeta(b)
return err
})
return m, err
}
func getNodeMeta(b *boltdd.Bucket) (map[string]*string, error) {
m := make(map[string]*string)
if err := b.Get(nodeMetaKey, m); err != nil {
if !boltdd.IsErrNotFound(err) {
return nil, err
}
}
return m, nil
}
// init initializes metadata entries in a newly created state database.
func (s *BoltStateDB) init() error {
return s.db.Update(func(tx *boltdd.Tx) error {
return addMeta(tx.BoltTx())
})
}
client: de-duplicate alloc updates and gate during restore (#17074) When client nodes are restarted, all allocations that have been scheduled on the node have their modify index updated, including terminal allocations. There are several contributing factors: * The `allocSync` method that updates the servers isn't gated on first contact with the servers. This means that if a server updates the desired state while the client is down, the `allocSync` races with the `Node.ClientGetAlloc` RPC. This will typically result in the client updating the server with "running" and then immediately thereafter "complete". * The `allocSync` method unconditionally sends the `Node.UpdateAlloc` RPC even if it's possible to assert that the server has definitely seen the client state. The allocrunner may queue-up updates even if we gate sending them. So then we end up with a race between the allocrunner updating its internal state to overwrite the previous update and `allocSync` sending the bogus or duplicate update. This changeset adds tracking of server-acknowledged state to the allocrunner. This state gets checked in the `allocSync` before adding the update to the batch, and updated when `Node.UpdateAlloc` returns successfully. To implement this we need to be able to equality-check the updates against the last acknowledged state. We also need to add the last acknowledged state to the client state DB, otherwise we'd drop unacknowledged updates across restarts. The client restart test has been expanded to cover a variety of allocation states, including allocs stopped before shutdown, allocs stopped by the server while the client is down, and allocs that have been completely GC'd on the server while the client is down. I've also bench tested scenarios where the task workload is killed while the client is down, resulting in a failed restore. Fixes #16381
2023-05-11 13:05:24 +00:00
// acknowledgedStateEntry wraps values in the acknowledged_state bucket, so we
// can expand it in the future if need be
type acknowledgedStateEntry struct {
State *arstate.State
}
// updateWithOptions enables adjustments to db.Update operation, including Batch mode.
func (s *BoltStateDB) updateWithOptions(opts []WriteOption, updateFn func(tx *boltdd.Tx) error) error {
writeOpts := mergeWriteOptions(opts)
if writeOpts.BatchMode {
// In Batch mode, BoltDB opportunistically combines multiple concurrent writes into one or
// several transactions. See boltdb.Batch() documentation for details.
return s.db.Batch(updateFn)
} else {
return s.db.Update(updateFn)
}
}
// Upgrade bolt state db from 0.8 schema to 0.9 schema. Noop if already using
// 0.9 schema. Creates a backup before upgrading.
func (s *BoltStateDB) Upgrade() error {
// Check to see if the underlying DB needs upgrading.
upgrade09, upgrade13, err := NeedsUpgrade(s.db.BoltDB())
if err != nil {
return err
}
if !upgrade09 && !upgrade13 {
// No upgrade needed!
return nil
}
// Upgraded needed. Backup the boltdb first.
backupFileName := filepath.Join(s.stateDir, "state.db.backup")
if err := backupDB(s.db.BoltDB(), backupFileName); err != nil {
return fmt.Errorf("error backing up state db: %v", err)
}
// Perform the upgrade
if err := s.db.Update(func(tx *boltdd.Tx) error {
if upgrade09 {
if err := UpgradeAllocs(s.logger, tx); err != nil {
return err
}
}
if upgrade13 {
if err := UpgradeDynamicPluginRegistry(s.logger, tx); err != nil {
return err
}
}
// Add standard metadata
if err := addMeta(tx.BoltTx()); err != nil {
return err
}
// Write the time the upgrade was done
bkt, err := tx.CreateBucketIfNotExists(metaBucketName)
if err != nil {
return err
}
return bkt.Put(metaUpgradedKey, time.Now().Format(time.RFC3339))
}); err != nil {
return err
}
s.logger.Info("successfully upgraded state")
return nil
}
// DB allows access to the underlying BoltDB for testing purposes.
func (s *BoltStateDB) DB() *boltdd.DB {
return s.db
}