package client import ( "context" "fmt" "sync" "time" "github.com/hashicorp/nomad/client/devicemanager" "github.com/hashicorp/nomad/client/pluginmanager/csimanager" "github.com/hashicorp/nomad/client/pluginmanager/drivermanager" "github.com/hashicorp/nomad/nomad/structs" ) var ( // batchFirstFingerprintsTimeout is the maximum amount of time to wait for // initial fingerprinting to complete before sending a batched Node update batchFirstFingerprintsTimeout = 50 * time.Second ) // batchFirstFingerprints waits for the first fingerprint response from all // plugin managers and sends a single Node update for all fingerprints. It // should only ever be called once func (c *Client) batchFirstFingerprints() { ctx, cancel := context.WithTimeout(context.Background(), batchFirstFingerprintsTimeout) defer cancel() ch, err := c.pluginManagers.WaitForFirstFingerprint(ctx) if err != nil { c.logger.Warn("failed to batch initial fingerprint updates, switching to incemental updates") goto SEND_BATCH } // Wait for fingerprinting to complete or timeout before processing batches select { case <-ch: case <-ctx.Done(): } SEND_BATCH: c.configLock.Lock() defer c.configLock.Unlock() // csi updates var csiChanged bool c.batchNodeUpdates.batchCSIUpdates(func(name string, info *structs.CSIInfo) { if c.updateNodeFromCSIControllerLocked(name, info) { if c.config.Node.CSIControllerPlugins[name].UpdateTime.IsZero() { c.config.Node.CSIControllerPlugins[name].UpdateTime = time.Now() } csiChanged = true } if c.updateNodeFromCSINodeLocked(name, info) { if c.config.Node.CSINodePlugins[name].UpdateTime.IsZero() { c.config.Node.CSINodePlugins[name].UpdateTime = time.Now() } csiChanged = true } }) // driver node updates var driverChanged bool c.batchNodeUpdates.batchDriverUpdates(func(driver string, info *structs.DriverInfo) { if c.updateNodeFromDriverLocked(driver, info) { c.config.Node.Drivers[driver] = info if c.config.Node.Drivers[driver].UpdateTime.IsZero() { c.config.Node.Drivers[driver].UpdateTime = time.Now() } driverChanged = true } }) // device node updates var devicesChanged bool c.batchNodeUpdates.batchDevicesUpdates(func(devices []*structs.NodeDeviceResource) { if c.updateNodeFromDevicesLocked(devices) { devicesChanged = true } }) // only update the node if changes occurred if driverChanged || devicesChanged || csiChanged { c.updateNodeLocked() } close(c.fpInitialized) } // updateNodeFromCSI receives a CSIInfo struct for the plugin and updates the // node accordingly func (c *Client) updateNodeFromCSI(name string, info *structs.CSIInfo) { c.configLock.Lock() defer c.configLock.Unlock() changed := false if c.updateNodeFromCSIControllerLocked(name, info) { if c.config.Node.CSIControllerPlugins[name].UpdateTime.IsZero() { c.config.Node.CSIControllerPlugins[name].UpdateTime = time.Now() } changed = true } if c.updateNodeFromCSINodeLocked(name, info) { if c.config.Node.CSINodePlugins[name].UpdateTime.IsZero() { c.config.Node.CSINodePlugins[name].UpdateTime = time.Now() } changed = true } if changed { c.updateNodeLocked() } } // updateNodeFromCSIControllerLocked makes the changes to the node from a csi // update but does not send the update to the server. c.configLock must be held // before calling this func. // // It is safe to call for all CSI Updates, but will only perform changes when // a ControllerInfo field is present. func (c *Client) updateNodeFromCSIControllerLocked(name string, info *structs.CSIInfo) bool { var changed bool if info.ControllerInfo == nil { return false } i := info.Copy() i.NodeInfo = nil oldController, hadController := c.config.Node.CSIControllerPlugins[name] if !hadController { // If the controller info has not yet been set, do that here changed = true c.config.Node.CSIControllerPlugins[name] = i } else { // The controller info has already been set, fix it up if !oldController.Equal(i) { c.config.Node.CSIControllerPlugins[name] = i changed = true } // If health state has changed, trigger node event if oldController.Healthy != i.Healthy || oldController.HealthDescription != i.HealthDescription { changed = true if i.HealthDescription != "" { event := structs.NewNodeEvent(). SetSubsystem("CSI"). SetMessage(i.HealthDescription). AddDetail("plugin", name). AddDetail("type", "controller") c.triggerNodeEvent(event) } } } return changed } // updateNodeFromCSINodeLocked makes the changes to the node from a csi // update but does not send the update to the server. c.configLock must be hel // before calling this func. // // It is safe to call for all CSI Updates, but will only perform changes when // a NodeInfo field is present. func (c *Client) updateNodeFromCSINodeLocked(name string, info *structs.CSIInfo) bool { var changed bool if info.NodeInfo == nil { return false } i := info.Copy() i.ControllerInfo = nil oldNode, hadNode := c.config.Node.CSINodePlugins[name] if !hadNode { // If the Node info has not yet been set, do that here changed = true c.config.Node.CSINodePlugins[name] = i } else { // The node info has already been set, fix it up if !oldNode.Equal(info) { c.config.Node.CSINodePlugins[name] = i changed = true } // If health state has changed, trigger node event if oldNode.Healthy != i.Healthy || oldNode.HealthDescription != i.HealthDescription { changed = true if i.HealthDescription != "" { event := structs.NewNodeEvent(). SetSubsystem("CSI"). SetMessage(i.HealthDescription). AddDetail("plugin", name). AddDetail("type", "node") c.triggerNodeEvent(event) } } } return changed } // updateNodeFromDriver receives a DriverInfo struct for the driver and updates // the node accordingly func (c *Client) updateNodeFromDriver(name string, info *structs.DriverInfo) { c.configLock.Lock() defer c.configLock.Unlock() if c.updateNodeFromDriverLocked(name, info) { c.config.Node.Drivers[name] = info if c.config.Node.Drivers[name].UpdateTime.IsZero() { c.config.Node.Drivers[name].UpdateTime = time.Now() } c.updateNodeLocked() } } // updateNodeFromDriverLocked makes the changes to the node from a driver update // but does not send the update to the server. c.configLock must be held before // calling this func func (c *Client) updateNodeFromDriverLocked(name string, info *structs.DriverInfo) bool { var hasChanged bool hadDriver := c.config.Node.Drivers[name] != nil if !hadDriver { // If the driver info has not yet been set, do that here hasChanged = true for attrName, newVal := range info.Attributes { c.config.Node.Attributes[attrName] = newVal } } else { oldVal := c.config.Node.Drivers[name] // The driver info has already been set, fix it up if oldVal.Detected != info.Detected { hasChanged = true } // If health state has change, trigger node event if oldVal.Healthy != info.Healthy || oldVal.HealthDescription != info.HealthDescription { hasChanged = true if info.HealthDescription != "" { event := structs.NewNodeEvent(). SetSubsystem("Driver"). SetMessage(info.HealthDescription). AddDetail("driver", name) c.triggerNodeEvent(event) } } for attrName, newVal := range info.Attributes { oldVal := c.config.Node.Drivers[name].Attributes[attrName] if oldVal == newVal { continue } hasChanged = true if newVal == "" { delete(c.config.Node.Attributes, attrName) } else { c.config.Node.Attributes[attrName] = newVal } } } // COMPAT Remove in Nomad 0.10 // We maintain the driver enabled attribute until all drivers expose // their attributes as DriverInfo driverName := fmt.Sprintf("driver.%s", name) if info.Detected { c.config.Node.Attributes[driverName] = "1" } else { delete(c.config.Node.Attributes, driverName) } return hasChanged } // updateNodeFromFingerprint updates the node with the result of // fingerprinting the node from the diff that was created func (c *Client) updateNodeFromDevices(devices []*structs.NodeDeviceResource) { c.configLock.Lock() defer c.configLock.Unlock() // Not updating node.Resources: the field is deprecated and includes // dispatched task resources and not appropriate for expressing // node available device resources if c.updateNodeFromDevicesLocked(devices) { c.updateNodeLocked() } } // updateNodeFromDevicesLocked updates the node with the results of devices, // but does send the update to the server. c.configLock must be held before // calling this func func (c *Client) updateNodeFromDevicesLocked(devices []*structs.NodeDeviceResource) bool { if !structs.DevicesEquals(c.config.Node.NodeResources.Devices, devices) { c.logger.Debug("new devices detected", "devices", len(devices)) c.config.Node.NodeResources.Devices = devices return true } return false } // batchNodeUpdates allows for batching multiple Node updates from fingerprinting. // Once ready, the batches can be flushed and toggled to stop batching and forward // all updates to a configured callback to be performed incrementally type batchNodeUpdates struct { // access to driver fields must hold driversMu lock drivers map[string]*structs.DriverInfo driversBatched bool driverCB drivermanager.UpdateNodeDriverInfoFn driversMu sync.Mutex // access to devices fields must hold devicesMu lock devices []*structs.NodeDeviceResource devicesBatched bool devicesCB devicemanager.UpdateNodeDevicesFn devicesMu sync.Mutex // access to csi fields must hold csiMu lock csiNodePlugins map[string]*structs.CSIInfo csiControllerPlugins map[string]*structs.CSIInfo csiBatched bool csiCB csimanager.UpdateNodeCSIInfoFunc csiMu sync.Mutex } func newBatchNodeUpdates( driverCB drivermanager.UpdateNodeDriverInfoFn, devicesCB devicemanager.UpdateNodeDevicesFn, csiCB csimanager.UpdateNodeCSIInfoFunc) *batchNodeUpdates { return &batchNodeUpdates{ drivers: make(map[string]*structs.DriverInfo), driverCB: driverCB, devices: []*structs.NodeDeviceResource{}, devicesCB: devicesCB, csiNodePlugins: make(map[string]*structs.CSIInfo), csiControllerPlugins: make(map[string]*structs.CSIInfo), csiCB: csiCB, } } // updateNodeFromCSI implements csimanager.UpdateNodeCSIInfoFunc and is used in // the csi manager to send csi fingerprints to the server. func (b *batchNodeUpdates) updateNodeFromCSI(plugin string, info *structs.CSIInfo) { b.csiMu.Lock() defer b.csiMu.Unlock() if b.csiBatched { b.csiCB(plugin, info) return } // Only one of these is expected to be set, but a future implementation that // explicitly models monolith plugins with a single fingerprinter may set both if info.ControllerInfo != nil { b.csiControllerPlugins[plugin] = info } if info.NodeInfo != nil { b.csiNodePlugins[plugin] = info } } // batchCSIUpdates sends all of the batched CSI updates by calling f for each // plugin batched func (b *batchNodeUpdates) batchCSIUpdates(f csimanager.UpdateNodeCSIInfoFunc) error { b.csiMu.Lock() defer b.csiMu.Unlock() if b.csiBatched { return fmt.Errorf("csi updates already batched") } b.csiBatched = true for plugin, info := range b.csiNodePlugins { f(plugin, info) } for plugin, info := range b.csiControllerPlugins { f(plugin, info) } return nil } // updateNodeFromDriver implements drivermanager.UpdateNodeDriverInfoFn and is // used in the driver manager to send driver fingerprints to func (b *batchNodeUpdates) updateNodeFromDriver(driver string, info *structs.DriverInfo) { b.driversMu.Lock() defer b.driversMu.Unlock() if b.driversBatched { b.driverCB(driver, info) return } b.drivers[driver] = info } // batchDriverUpdates sends all of the batched driver node updates by calling f // for each driver batched func (b *batchNodeUpdates) batchDriverUpdates(f drivermanager.UpdateNodeDriverInfoFn) error { b.driversMu.Lock() defer b.driversMu.Unlock() if b.driversBatched { return fmt.Errorf("driver updates already batched") } b.driversBatched = true for driver, info := range b.drivers { f(driver, info) } return nil } // updateNodeFromDevices implements devicemanager.UpdateNodeDevicesFn and is // used in the device manager to send device fingerprints to func (b *batchNodeUpdates) updateNodeFromDevices(devices []*structs.NodeDeviceResource) { b.devicesMu.Lock() defer b.devicesMu.Unlock() if b.devicesBatched { b.devicesCB(devices) return } b.devices = devices } // batchDevicesUpdates sends the batched device node updates by calling f with // the devices func (b *batchNodeUpdates) batchDevicesUpdates(f devicemanager.UpdateNodeDevicesFn) error { b.devicesMu.Lock() defer b.devicesMu.Unlock() if b.devicesBatched { return fmt.Errorf("devices updates already batched") } b.devicesBatched = true f(b.devices) return nil }