open-nomad/client/fingerprint_manager.go

409 lines
13 KiB
Go

package client
import (
"fmt"
"log"
"sync"
"time"
"github.com/hashicorp/nomad/client/config"
"github.com/hashicorp/nomad/client/driver"
"github.com/hashicorp/nomad/client/fingerprint"
cstructs "github.com/hashicorp/nomad/client/structs"
"github.com/hashicorp/nomad/nomad/structs"
)
// FingerprintManager runs a client fingerprinters on a continuous basis, and
// updates the client when the node has changed
type FingerprintManager struct {
getConfig func() *config.Config
node *structs.Node
nodeLock sync.Mutex
shutdownCh chan struct{}
// updateNodeAttributes is a callback to the client to update the state of its
// associated node
updateNodeAttributes func(*cstructs.FingerprintResponse) *structs.Node
// updateNodeFromDriver is a callback to the client to update the state of a
// specific driver for the node
updateNodeFromDriver func(string, *structs.DriverInfo, *structs.DriverInfo) *structs.Node
logger *log.Logger
}
// NewFingerprintManager is a constructor that creates and returns an instance
// of FingerprintManager
func NewFingerprintManager(getConfig func() *config.Config,
node *structs.Node,
shutdownCh chan struct{},
updateNodeAttributes func(*cstructs.FingerprintResponse) *structs.Node,
updateNodeFromDriver func(string, *structs.DriverInfo, *structs.DriverInfo) *structs.Node,
logger *log.Logger) *FingerprintManager {
return &FingerprintManager{
getConfig: getConfig,
updateNodeAttributes: updateNodeAttributes,
updateNodeFromDriver: updateNodeFromDriver,
node: node,
shutdownCh: shutdownCh,
logger: logger,
}
}
// setNode updates the current client node
func (fm *FingerprintManager) setNode(node *structs.Node) {
fm.nodeLock.Lock()
defer fm.nodeLock.Unlock()
fm.node = node
}
// getNode returns the current client node
func (fm *FingerprintManager) getNode() *structs.Node {
fm.nodeLock.Lock()
defer fm.nodeLock.Unlock()
return fm.node
}
// Run starts the process of fingerprinting the node. It does an initial pass,
// identifying whitelisted and blacklisted fingerprints/drivers. Then, for
// those which require periotic checking, it starts a periodic process for
// each.
func (fp *FingerprintManager) Run() error {
// First, set up all fingerprints
cfg := fp.getConfig()
whitelistFingerprints := cfg.ReadStringListToMap("fingerprint.whitelist")
whitelistFingerprintsEnabled := len(whitelistFingerprints) > 0
blacklistFingerprints := cfg.ReadStringListToMap("fingerprint.blacklist")
fp.logger.Printf("[DEBUG] client.fingerprint_manager: built-in fingerprints: %v", fingerprint.BuiltinFingerprints())
var availableFingerprints []string
var skippedFingerprints []string
for _, name := range fingerprint.BuiltinFingerprints() {
// Skip modules that are not in the whitelist if it is enabled.
if _, ok := whitelistFingerprints[name]; whitelistFingerprintsEnabled && !ok {
skippedFingerprints = append(skippedFingerprints, name)
continue
}
// Skip modules that are in the blacklist
if _, ok := blacklistFingerprints[name]; ok {
skippedFingerprints = append(skippedFingerprints, name)
continue
}
availableFingerprints = append(availableFingerprints, name)
}
if err := fp.setupFingerprinters(availableFingerprints); err != nil {
return err
}
if len(skippedFingerprints) != 0 {
fp.logger.Printf("[DEBUG] client.fingerprint_manager: fingerprint modules skipped due to white/blacklist: %v", skippedFingerprints)
}
// Next, set up drivers
// Build the white/blacklists of drivers.
whitelistDrivers := cfg.ReadStringListToMap("driver.whitelist")
whitelistDriversEnabled := len(whitelistDrivers) > 0
blacklistDrivers := cfg.ReadStringListToMap("driver.blacklist")
var availDrivers []string
var skippedDrivers []string
for name := range driver.BuiltinDrivers {
// Skip fingerprinting drivers that are not in the whitelist if it is
// enabled.
if _, ok := whitelistDrivers[name]; whitelistDriversEnabled && !ok {
skippedDrivers = append(skippedDrivers, name)
continue
}
// Skip fingerprinting drivers that are in the blacklist
if _, ok := blacklistDrivers[name]; ok {
skippedDrivers = append(skippedDrivers, name)
continue
}
availDrivers = append(availDrivers, name)
}
if err := fp.setupDrivers(availDrivers); err != nil {
return err
}
if len(skippedDrivers) > 0 {
fp.logger.Printf("[DEBUG] client.fingerprint_manager: drivers skipped due to white/blacklist: %v", skippedDrivers)
}
return nil
}
// setupFingerprints is used to fingerprint the node to see if these attributes are
// supported
func (fm *FingerprintManager) setupFingerprinters(fingerprints []string) error {
var appliedFingerprints []string
for _, name := range fingerprints {
f, err := fingerprint.NewFingerprint(name, fm.logger)
if err != nil {
fm.logger.Printf("[ERR] client.fingerprint_manager: fingerprinting for %v failed: %+v", name, err)
return err
}
detected, err := fm.fingerprint(name, f)
if err != nil {
return err
}
// log the fingerprinters which have been applied
if detected {
appliedFingerprints = append(appliedFingerprints, name)
}
p, period := f.Periodic()
if p {
go fm.runFingerprint(f, period, name)
}
}
fm.logger.Printf("[DEBUG] client.fingerprint_manager: detected fingerprints %v", appliedFingerprints)
return nil
}
// setupDrivers is used to fingerprint the node to see if these drivers are
// supported
func (fm *FingerprintManager) setupDrivers(drivers []string) error {
var availDrivers []string
driverCtx := driver.NewDriverContext("", "", fm.getConfig(), fm.getNode(), fm.logger, nil)
for _, name := range drivers {
d, err := driver.NewDriver(name, driverCtx)
if err != nil {
return err
}
// Pass true for whether the health check is periodic here, so that the
// fingerprinter will not set the initial health check status (this is set
// below, with an empty health status so that a node event is not
// triggered)
// Later, the periodic health checker will update this value for drivers
// where health checks are enabled.
detected, err := fm.fingerprintDriver(name, d, true)
if err != nil {
fm.logger.Printf("[DEBUG] client.fingerprint_manager: fingerprinting driver %v failed: %+v", name, err)
return err
}
// Start a periodic watcher to detect changes to a drivers health and
// attributes.
go fm.watchDriver(d, name)
// Log the fingerprinters which have been applied
if detected {
availDrivers = append(availDrivers, name)
}
}
fm.logger.Printf("[DEBUG] client.fingerprint_manager: detected drivers %v", availDrivers)
return nil
}
// runFingerprint runs each fingerprinter individually on an ongoing basis
func (fm *FingerprintManager) runFingerprint(f fingerprint.Fingerprint, period time.Duration, name string) {
fm.logger.Printf("[DEBUG] client.fingerprint_manager: fingerprinting %s every %v", name, period)
timer := time.NewTimer(period)
defer timer.Stop()
for {
select {
case <-timer.C:
timer.Reset(period)
_, err := fm.fingerprint(name, f)
if err != nil {
fm.logger.Printf("[DEBUG] client.fingerprint_manager: periodic fingerprinting for %v failed: %+v", name, err)
continue
}
case <-fm.shutdownCh:
return
}
}
}
// fingerprint does an initial fingerprint of the client. If the fingerprinter
// is meant to be run continuously, a process is launched to perform this
// fingerprint on an ongoing basis in the background.
func (fm *FingerprintManager) fingerprint(name string, f fingerprint.Fingerprint) (bool, error) {
var response cstructs.FingerprintResponse
fm.nodeLock.Lock()
request := &cstructs.FingerprintRequest{Config: fm.getConfig(), Node: fm.node}
err := f.Fingerprint(request, &response)
fm.nodeLock.Unlock()
if err != nil {
return false, err
}
if node := fm.updateNodeAttributes(&response); node != nil {
fm.setNode(node)
}
return response.Detected, nil
}
// watchDrivers facilitates the different periods between fingerprint and
// health checking a driver
func (fm *FingerprintManager) watchDriver(d driver.Driver, name string) {
var fingerprintTicker, healthTicker <-chan time.Time
// Determine whether the fingerprinter is periodic and health checking
isPeriodic, fingerprintPeriod := d.Periodic()
hc, isHealthCheck := d.(fingerprint.HealthCheck)
// Nothing to do since the state of this driver will never change
if !isPeriodic && !isHealthCheck {
return
}
// Setup the required tickers
if isPeriodic {
ticker := time.NewTicker(fingerprintPeriod)
fingerprintTicker = ticker.C
defer ticker.Stop()
fm.logger.Printf("[DEBUG] client.fingerprint_manager: fingerprinting driver %s every %v", name, fingerprintPeriod)
}
var isHealthCheckPeriodic bool
if isHealthCheck {
// Determine the interval at which to health check
req := &cstructs.HealthCheckIntervalRequest{}
var healthCheckResp cstructs.HealthCheckIntervalResponse
if err := hc.GetHealthCheckInterval(req, &healthCheckResp); err != nil {
fm.logger.Printf("[ERR] client.fingerprint_manager: error getting health check interval for driver %s: %v", name, err)
} else if healthCheckResp.Eligible {
isHealthCheckPeriodic = true
ticker := time.NewTicker(healthCheckResp.Period)
healthTicker = ticker.C
defer ticker.Stop()
fm.logger.Printf("[DEBUG] client.fingerprint_manager: health checking driver %s every %v", name, healthCheckResp.Period)
}
}
driverEverDetected := false
for {
select {
case <-fm.shutdownCh:
return
case <-fingerprintTicker:
if _, err := fm.fingerprintDriver(name, d, isHealthCheckPeriodic); err != nil {
fm.logger.Printf("[DEBUG] client.fingerprint_manager: periodic fingerprinting for driver %v failed: %+v", name, err)
}
fm.nodeLock.Lock()
driver, detected := fm.node.Drivers[name]
// Memoize the driver detected status, so that we know whether to run the
// health check or not.
if detected && driver != nil && driver.Detected {
if !driverEverDetected {
driverEverDetected = true
}
}
fm.nodeLock.Unlock()
case <-healthTicker:
if driverEverDetected {
if err := fm.runDriverHealthCheck(name, hc); err != nil {
fm.logger.Printf("[DEBUG] client.fingerprint_manager: health checking for %v failed: %v", name, err)
}
}
}
}
}
// fingerprintDriver is a temporary solution to move towards DriverInfo and
// away from annotating a node's attributes to demonstrate support for a
// particular driver. Takes the FingerprintResponse and converts it to the
// proper DriverInfo update and then sets the prefix attributes as well
func (fm *FingerprintManager) fingerprintDriver(name string, f fingerprint.Fingerprint, hasPeriodicHealthCheck bool) (bool, error) {
var response cstructs.FingerprintResponse
fm.nodeLock.Lock()
// Determine if the driver has been detected before.
originalNode, haveDriver := fm.node.Drivers[name]
firstDetection := !haveDriver
// Determine if the driver is healthy
var driverIsHealthy bool
if haveDriver && originalNode.Healthy {
driverIsHealthy = true
}
// Fingerprint the driver.
request := &cstructs.FingerprintRequest{Config: fm.getConfig(), Node: fm.node}
err := f.Fingerprint(request, &response)
fm.nodeLock.Unlock()
if err != nil {
return false, err
}
// Remove the health check attribute indicating the status of the driver,
// as the overall driver info object should indicate this.
delete(response.Attributes, fmt.Sprintf("driver.%s", name))
fingerprintInfo := &structs.DriverInfo{
Attributes: response.Attributes,
Detected: response.Detected,
}
// We set the health status based on the detection state of the driver if:
// * It is the first time we are fingerprinting the driver. This gives all
// drivers an initial health.
// * If the driver becomes undetected. This gives us an immediate unhealthy
// state and description when it transistions from detected and healthy to
// undetected.
// * If the driver does not have its own health checks. Then we always
// couple the states.
var healthInfo *structs.DriverInfo
if firstDetection || !hasPeriodicHealthCheck || !response.Detected && driverIsHealthy {
state := " "
if !response.Detected {
state = " not "
}
healthInfo = &structs.DriverInfo{
Healthy: response.Detected,
HealthDescription: fmt.Sprintf("Driver %s is%sdetected", name, state),
UpdateTime: time.Now(),
}
}
if node := fm.updateNodeFromDriver(name, fingerprintInfo, healthInfo); node != nil {
fm.setNode(node)
}
return response.Detected, nil
}
// runDriverHealthCheck checks the health of the specified resource.
func (fm *FingerprintManager) runDriverHealthCheck(name string, hc fingerprint.HealthCheck) error {
request := &cstructs.HealthCheckRequest{}
var response cstructs.HealthCheckResponse
if err := hc.HealthCheck(request, &response); err != nil {
return err
}
// Update the status of the node irregardless if there was an error- in the
// case of periodic health checks, an error will occur if a health check
// fails
if node := fm.updateNodeFromDriver(name, nil, response.Drivers[name]); node != nil {
fm.setNode(node)
}
return nil
}