import { type AssociationAddress, type AssociationCheckResult, type AssociationGroup, type FirmwareUpdateOptions, type FirmwareUpdateResult, KEXFailType } from "@zwave-js/cc"; import { type ControllerCapabilities, ControllerRole, ControllerStatus, LongRangeChannel, type MaybeNotKnown, type MaybeUnknown, NodeIDType, NodeType, RFRegion, type RFRegionInfo, type RSSI, type Route, RouteKind, type SerialApiInitData, type UnknownZWaveChipType, ValueDB, type ZWaveApiVersion, type ZWaveDataRate, ZWaveLibraryTypes } from "@zwave-js/core"; import { type MigrateNVMOptions, type NVMAdapter } from "@zwave-js/nvmedit"; import { FunctionType } from "@zwave-js/serial"; import { ExtendedNVMOperationsCommand, type NVMId, SerialAPISetupCommand, type SerialAPISetup_GetPowerlevelResponse } from "@zwave-js/serial/serialapi"; import { type BytesView, type ReadonlyObjectKeyMap, type ReadonlyThrowingMap, TypedEventTarget } from "@zwave-js/shared"; import type { StatisticsEventCallbacks } from "../driver/Statistics.js"; import { ZWaveNode } from "../node/Node.js"; import { VirtualNode } from "../node/VirtualNode.js"; import { type LifelineRoutes } from "../node/_Types.js"; import { type ControllerStatistics, ControllerStatisticsHost } from "./ControllerStatistics.js"; import { ZWaveFeature } from "./Features.js"; import { type ExclusionOptions, type FoundNode, type InclusionOptions, type InclusionResult, InclusionState, InclusionStrategy, type JoinNetworkOptions, JoinNetworkResult, LeaveNetworkResult, type PlannedProvisioningEntry, RemoveNodeReason, type ReplaceNodeOptions, type SmartStartProvisioningEntry } from "./Inclusion.js"; import { type ControllerProprietary } from "./Proprietary.js"; import type { FirmwareUpdateInfo, GetFirmwareUpdatesOptions, RebuildRoutesOptions, RebuildRoutesStatus, SDKVersion } from "./_Types.js"; interface ControllerEventCallbacks extends StatisticsEventCallbacks { "inclusion failed": () => void; "exclusion failed": () => void; "inclusion started": (strategy: InclusionStrategy) => void; "exclusion started": () => void; "inclusion stopped": () => void; "exclusion stopped": () => void; "inclusion state changed": (state: InclusionState) => void; "node found": (node: FoundNode) => void; "node added": (node: ZWaveNode, result: InclusionResult) => void; "node removed": (node: ZWaveNode, reason: RemoveNodeReason) => void; "network found": (homeId: number, ownNodeId: number) => void; "joining network failed": () => void; "network joined": () => void; "network left": () => void; "leaving network failed": () => void; "rebuild routes progress": (progress: ReadonlyMap) => void; "rebuild routes done": (result: ReadonlyMap) => void; identify: (node: ZWaveNode) => void; "status changed": (status: ControllerStatus) => void; } export type ControllerEvents = Extract; export interface ZWaveController extends ControllerStatisticsHost { } export declare class ZWaveController extends TypedEventTarget { private readonly driver; private _type; get type(): MaybeNotKnown; private _protocolVersion; get protocolVersion(): MaybeNotKnown; private _sdkVersion; get sdkVersion(): MaybeNotKnown; private _zwaveApiVersion; get zwaveApiVersion(): MaybeNotKnown; private _zwaveChipType; get zwaveChipType(): MaybeNotKnown; private _homeId; /** A 32bit number identifying the current network */ get homeId(): MaybeNotKnown; private _ownNodeId; /** The ID of the controller in the current network */ get ownNodeId(): MaybeNotKnown; private _dsk; /** * The device specific key (DSK) of the controller in binary format. */ getDSK(): Promise; /** @deprecated Use {@link role} instead */ get isPrimary(): MaybeNotKnown; private _isPrimary; private _isSecondary; private _isUsingHomeIdFromOtherNetwork; /** @deprecated Use {@link role} instead */ get isUsingHomeIdFromOtherNetwork(): MaybeNotKnown; private _isSISPresent; get isSISPresent(): MaybeNotKnown; private _wasRealPrimary; /** @deprecated Use {@link role} instead */ get wasRealPrimary(): MaybeNotKnown; private _isSIS; get isSIS(): MaybeNotKnown; private _isSUC; get isSUC(): MaybeNotKnown; private _noNodesIncluded; private _nodeType; get nodeType(): MaybeNotKnown; /** Checks if the SDK version is greater than the given one */ sdkVersionGt(version: SDKVersion): MaybeNotKnown; /** Checks if the SDK version is greater than or equal to the given one */ sdkVersionGte(version: SDKVersion): MaybeNotKnown; /** Checks if the SDK version is lower than the given one */ sdkVersionLt(version: SDKVersion): MaybeNotKnown; /** Checks if the SDK version is lower than or equal to the given one */ sdkVersionLte(version: SDKVersion): MaybeNotKnown; private _manufacturerId; get manufacturerId(): MaybeNotKnown; private _productType; get productType(): MaybeNotKnown; private _productId; get productId(): MaybeNotKnown; private _firmwareVersion; get firmwareVersion(): MaybeNotKnown; private _supportedFunctionTypes; get supportedFunctionTypes(): MaybeNotKnown; private _status; /** * Which status the controller is believed to be in */ get status(): ControllerStatus; /** * Checks if a given Z-Wave function type is supported by this controller. * Returns `NOT_KNOWN`/`undefined` if this information isn't known yet. */ isFunctionSupported(functionType: FunctionType): MaybeNotKnown; private _supportedSerialAPISetupCommands; get supportedSerialAPISetupCommands(): readonly SerialAPISetupCommand[] | undefined; /** * Checks if a given Serial API setup command is supported by this controller. * Returns `NOT_KNOWN`/`undefined` if this information isn't known yet. */ isSerialAPISetupCommandSupported(command: SerialAPISetupCommand): MaybeNotKnown; /** * Tests if the controller supports a certain feature. * Returns `undefined` if this information isn't known yet. */ supportsFeature(feature: ZWaveFeature): MaybeNotKnown; /** Throws if the controller does not support a certain feature */ private assertFeature; private _sucNodeId; get sucNodeId(): MaybeNotKnown; private _supportsTimers; get supportsTimers(): MaybeNotKnown; private _supportedRegions; /** Which RF regions are supported by the controller, including information about them */ get supportedRegions(): MaybeNotKnown>>; private _rfRegion; /** Which RF region the controller is currently set to, or `undefined` if it could not be determined (yet). This value is cached and can be changed through {@link setRFRegion}. */ get rfRegion(): MaybeNotKnown; private _txPower; /** The transmit power used for Z-Wave mesh, or `undefined` if it could not be determined (yet). This value is cached and can be changed through {@link setPowerlevel}. */ get txPower(): MaybeNotKnown; private _powerlevelCalibration; /** The calibration value for the transmit power, or `undefined` if it could not be determined (yet). This value is cached and can be changed through {@link setPowerlevel}. */ get powerlevelCalibration(): MaybeNotKnown; private _supportsLongRange; /** Whether the controller supports the Z-Wave Long Range protocol */ get supportsLongRange(): MaybeNotKnown; private _maxLongRangePowerlevel; /** The maximum powerlevel to use for Z-Wave Long Range, or `undefined` if it could not be determined (yet). This value is cached and can be changed through {@link setMaxLongRangePowerlevel}. */ get maxLongRangePowerlevel(): MaybeNotKnown; private _longRangeChannel; /** The channel to use for Z-Wave Long Range, or `undefined` if it could not be determined (yet). This value is cached and can be changed through {@link setLongRangeChannel}. */ get longRangeChannel(): MaybeNotKnown; private _supportsLongRangeAutoChannelSelection; /** Whether automatic LR channel selection is supported, or `undefined` if it could not be determined (yet). */ get supportsLongRangeAutoChannelSelection(): MaybeNotKnown; private _maxPayloadSize; /** The maximum payload size that can be transmitted with a Z-Wave explorer frame */ get maxPayloadSize(): MaybeNotKnown; private _maxPayloadSizeLR; /** The maximum payload size that can be transmitted with a Z-Wave Long Range frame */ get maxPayloadSizeLR(): MaybeNotKnown; private _nodes; /** A dictionary of the nodes connected to this controller */ get nodes(): ReadonlyThrowingMap; private _nodeIdType; /** Whether the controller is configured to use 8 or 16 bit node IDs */ get nodeIdType(): NodeIDType; /** Returns the node with the given DSK */ getNodeByDSK(dsk: BytesView | string): ZWaveNode | undefined; /** Returns the controller node's value DB */ get valueDB(): ValueDB; private _powerlevel; /** The role of the controller on the network */ get role(): MaybeNotKnown; /** Returns whether learn mode may be enabled on this controller */ get isLearnModePermitted(): boolean; /** Returns whether the routes are currently being rebuilt for one or more nodes. */ get isRebuildingRoutes(): boolean; /** * Returns a reference to the (virtual) broadcast node, which allows sending commands to all nodes. * This automatically groups nodes by security class, ignores nodes that cannot be controlled via multicast/broadcast, and will fall back to multicast(s) if necessary. */ getBroadcastNode(): VirtualNode; /** * Returns a reference to the (virtual) broadcast node for Z-Wave Long Range, which allows sending commands to all LR nodes. * This automatically groups nodes by security class, ignores nodes that cannot be controlled via multicast/broadcast, and will fall back to multicast(s) if necessary. */ getBroadcastNodeLR(): VirtualNode; /** * Creates a virtual node that can be used to send one or more multicast commands to several nodes. * This automatically groups nodes by security class and ignores nodes that cannot be controlled via multicast. */ getMulticastGroup(nodeIDs: number[]): VirtualNode; private set provisioningList(value); /** Adds the given entry (DSK and security classes) to the controller's SmartStart provisioning list or replaces an existing entry */ provisionSmartStartNode(entry: PlannedProvisioningEntry): void; /** * Removes the given DSK or node ID from the controller's SmartStart provisioning list. * * **Note:** If this entry corresponds to an included node, it will **NOT** be excluded */ unprovisionSmartStartNode(dskOrNodeId: string | number): void; private getProvisioningEntryInternal; /** * Returns the entry for the given DSK or node ID from the controller's SmartStart provisioning list. */ getProvisioningEntry(dskOrNodeId: string | number): Readonly | undefined; /** * Returns all entries from the controller's SmartStart provisioning list. */ getProvisioningEntries(): SmartStartProvisioningEntry[]; /** Returns whether the SmartStart provisioning list contains active entries that have not been included yet */ hasPlannedProvisioningEntries(): boolean; private isLongRangeCapable; /** * Helper function to determine whether the controller is capable of EU Long Range, * possibly without advertising it */ private isEULongRangeCapable; /** Tries to determine the LR capable replacement of the given region. If none is found, the given region is returned. */ private tryGetLRCapableRegion; private createValueDBForNode; /** * Gets the list of long range nodes from the controller. */ getLongRangeNodes(): Promise; /** * Starts the hardware watchdog on supporting 700+ series controllers. * Returns whether the operation was successful. */ startWatchdog(): Promise; /** * Stops the hardware watchdog on supporting controllers. * Returns whether the operation was successful. */ stopWatchdog(): Promise; private _inclusionState; get inclusionState(): InclusionState; private _smartStartEnabled; /** * Starts the inclusion process of new nodes. * Resolves to true when the process was started, and false if the inclusion was already active. * * @param options Defines the inclusion strategy to use. */ beginInclusion(options?: InclusionOptions): Promise; /** * Returns the task to handle the complete classic inclusion process */ private getBeginClassicInclusionTask; /** * Returns the task to handle the complete classic inclusion process */ private getBeginSmartStartInclusionTask; private performInclusion; private finishInclusion; /** * Stops an active inclusion process. Resolves to true when the controller leaves inclusion mode, * and false if the inclusion was not active. */ stopInclusion(): Promise; private stopInclusionInternal; private enableSmartStart; private disableSmartStart; private pauseSmartStart; /** * Starts the exclusion process of new nodes. * Resolves to true when the process was started, and false if an inclusion or exclusion process was already active. * * @param options Influences the exclusion process and what happens with the Smart Start provisioning list. */ beginExclusion(options?: ExclusionOptions): Promise; /** * Stops an active exclusion process. Resolves to true when the controller leaves exclusion mode, * and false if the exclusion was not active. */ stopExclusion(): Promise; private stopExclusionInternal; /** * Returns the task to handle the complete exclusion process */ private getExclusionTask; private performExclusion; private _proxyInclusionMachine; private _proxyInclusionInitiateTimeout; private updateProxyInclusionMachine; private proxyBootstrap; private secureBootstrapS0; private _bootstrappingS2NodeId; private cancelBootstrapS2Promise; cancelSecureBootstrapS2(reason: KEXFailType): void; private secureBootstrapS2; private _rebuildRoutesProgress; /** * If routes are currently being rebuilt for the entire network, this returns the current progress. * The information is the same as in the `"rebuild routes progress"` event. */ get rebuildRoutesProgress(): ReadonlyMap | undefined; /** * Starts the process of rebuilding routes for all alive nodes in the network, * requesting updated neighbor lists and assigning fresh routes to * association targets. * * Returns `true` if the process was started, otherwise `false`. Also returns * `false` if the process was already active. */ beginRebuildingRoutes(options?: RebuildRoutesOptions): boolean; private rebuildRoutesInternal; private getRebuildRoutesTask; /** * Stops the route rebuilding process. Resolves false if the process was not active, true otherwise. */ stopRebuildingRoutes(): boolean; /** * Rebuilds routes for a single alive node in the network, * updating the neighbor list and assigning fresh routes to * association targets. * * Returns `true` if the process succeeded, `false` otherwise. */ rebuildNodeRoutes(nodeId: number): Promise; private rebuildNodeRoutesInternal; private getRebuildNodeRoutesTask; /** Configures the given Node to be SUC/SIS or not */ configureSUC(nodeId: number, enableSUC: boolean, enableSIS: boolean): Promise; /** * Instructs the controller to assign static routes from the given end node to the SUC. * This will assign up to 4 routes, depending on the network topology (that the controller knows about). */ assignSUCReturnRoutes(nodeId: number): Promise; /** * Returns which custom static routes are currently assigned from the given end node to the SUC. * * **Note:** This only considers routes that were assigned using {@link assignCustomSUCReturnRoutes}. * If another controller has assigned routes in the meantime, this information may be out of date. */ getCustomSUCReturnRoutesCached(nodeId: number): Route[]; private setCustomSUCReturnRoutesCached; /** * Assigns static routes from the given end node to the SUC. Unlike {@link assignSUCReturnRoutes}, this method assigns * the given routes instead of having the controller calculate them. At most 4 routes can be assigned. If less are * specified, the remaining routes are cleared. * * To mark a route as a priority route, pass it as the optional `priorityRoute` parameter. At most 3 routes of the * `routes` array will then be used as fallback routes. * * **Note:** Calling {@link assignSUCReturnRoutes} or {@link deleteSUCReturnRoutes} will override the custom routes. * * Returns `true` when the process was successful, or `false` if at least one step failed. */ assignCustomSUCReturnRoutes(nodeId: number, routes: Route[], priorityRoute?: Route): Promise; /** * Instructs the controller to assign static routes from the given end node to the SUC. * This will assign up to 4 routes, depending on the network topology (that the controller knows about). */ deleteSUCReturnRoutes(nodeId: number): Promise; /** * Returns which custom static routes are currently assigned between the given end nodes. * * **Note:** This only considers routes that were assigned using {@link assignCustomReturnRoutes}. * If another controller has assigned routes in the meantime, this information may be out of date. */ getCustomReturnRoutesCached(nodeId: number, destinationNodeId: number): Route[]; private setCustomReturnRoutesCached; private clearCustomReturnRoutesCached; /** * Instructs the controller to assign static routes between the two given end nodes. * This will assign up to 4 routes, depending on the network topology (that the controller knows about). */ assignReturnRoutes(nodeId: number, destinationNodeId: number): Promise; /** * Assigns static routes between the two given end nodes. Unlike {@link assignReturnRoutes}, this method assigns * the given routes instead of having the controller calculate them. At most 4 routes can be assigned. If less are * specified, the remaining routes are cleared. * * **Note:** Calling {@link assignReturnRoutes} or {@link deleteReturnRoutes} will override the custom routes. */ assignCustomReturnRoutes(nodeId: number, destinationNodeId: number, routes: Route[], priorityRoute?: Route): Promise; /** * Instructs the controller to delete all static routes between the given node and all * other end nodes, including the priority return routes. */ deleteReturnRoutes(nodeId: number): Promise; /** * Assigns a priority route between two end nodes. This route will always be used for the first transmission attempt. * @param nodeId The ID of the source node of the route * @param destinationNodeId The ID of the destination node of the route * @param repeaters The IDs of the nodes that should be used as repeaters, or an empty array for direct connection * @param routeSpeed The transmission speed to use for the route */ assignPriorityReturnRoute(nodeId: number, destinationNodeId: number, repeaters: number[], routeSpeed: ZWaveDataRate): Promise; private hasPriorityReturnRouteCached; private setPriorityReturnRouteCached; private clearPriorityReturnRoutesCached; /** * Returns which priority route is currently assigned between the given end nodes. * * **Note:** This is using cached information, since there's no way to query priority routes from a node. * If another controller has assigned routes in the meantime, this information may be out of date. */ getPriorityReturnRouteCached(nodeId: number, destinationNodeId: number): MaybeUnknown | undefined; /** * For the given node, returns all end node destinations and the priority routes to them. * * **Note:** This is using cached information, since there's no way to query priority routes from a node. * If another controller has assigned routes in the meantime, this information may be out of date. */ getPriorityReturnRoutesCached(nodeId: number): Record; /** * Assigns a priority route from an end node to the SUC. This route will always be used for the first transmission attempt. * @param nodeId The ID of the end node for which to assign the route * @param repeaters The IDs of the nodes that should be used as repeaters, or an empty array for direct connection * @param routeSpeed The transmission speed to use for the route */ assignPrioritySUCReturnRoute(nodeId: number, repeaters: number[], routeSpeed: ZWaveDataRate): Promise; private setPrioritySUCReturnRouteCached; /** * Returns which priority route is currently assigned from the given end node to the SUC. * * **Note:** This is using cached information, since there's no way to query priority routes from a node. * If another controller has assigned routes in the meantime, this information may be out of date. */ getPrioritySUCReturnRouteCached(nodeId: number): Route | undefined; private handleRouteAssignmentTransmitReport; /** * Sets the priority route which will always be used for the first transmission attempt from the controller to the given node. * @param destinationNodeId The ID of the node that should be reached via the priority route * @param repeaters The IDs of the nodes that should be used as repeaters, or an empty array for direct connection * @param routeSpeed The transmission speed to use for the route */ setPriorityRoute(destinationNodeId: number, repeaters: number[], routeSpeed: ZWaveDataRate): Promise; /** * Removes the priority route used for the first transmission attempt from the controller to the given node. * @param destinationNodeId The ID of the node that should be reached via the priority route */ removePriorityRoute(destinationNodeId: number): Promise; /** * Returns the priority route which is currently set for a node. * If none is set, either the LWR or the NLWR is returned. * If no route is known yet, this returns `undefined`. * * @param destinationNodeId The ID of the node for which the priority route should be returned */ getPriorityRoute(destinationNodeId: number): Promise<{ routeKind: RouteKind.LWR | RouteKind.NLWR | RouteKind.Application; repeaters: number[]; routeSpeed: ZWaveDataRate; } | undefined>; /** * Returns a dictionary of all association groups of this node or endpoint and their information. * If no endpoint is given, the associations of the root device (endpoint 0) are returned. * This only works AFTER the interview process */ getAssociationGroups(source: AssociationAddress): ReadonlyMap; /** * Returns all association groups that exist on a node and all its endpoints. * The returned map uses the endpoint index as keys and its values are maps of group IDs to their definition */ getAllAssociationGroups(nodeId: number): ReadonlyMap>; /** * Returns all associations (Multi Channel or normal) that are configured on the root device or an endpoint of a node. * If no endpoint is given, the associations of the root device (endpoint 0) are returned. */ getAssociations(source: AssociationAddress): ReadonlyMap; /** * Returns all associations (Multi Channel or normal) that are configured on a node and all its endpoints. * The returned map uses the source node+endpoint as keys and its values are a map of association group IDs to target node+endpoint. */ getAllAssociations(nodeId: number): ReadonlyObjectKeyMap>; /** * Checks if a given association is allowed. */ checkAssociation(source: AssociationAddress, group: number, destination: AssociationAddress): AssociationCheckResult; /** * Adds associations to a node or endpoint. * * **Note:** This method will throw if: * * the source node, endpoint or association group does not exist, * * the source node is a ZWLR node and the destination is not the SIS * * the destination node is a ZWLR node * * the association is not allowed for other reasons (unless `force` is set). In this case, the error's * `context` property will contain an array with all forbidden destinations, each with an added `checkResult` property * which contains the reason why the association is forbidden: * ```ts * { * checkResult: AssociationCheckResult; * nodeId: number; * endpoint?: number | undefined; * }[] * ``` */ addAssociations(source: AssociationAddress, group: number, destinations: AssociationAddress[], options?: { /** * Whether to force creating associations even if they are not allowed. * **Note:** Invalid associations will most likely not work */ force?: boolean; }): Promise; /** * Removes the given associations from a node or endpoint */ removeAssociations(source: AssociationAddress, group: number, destinations: AssociationAddress[]): Promise; /** * Removes a node from all other nodes' associations * WARNING: It is not recommended to await this method */ removeNodeFromAllAssociations(nodeId: number): Promise; /** * Tests if a node is marked as failed in the controller's memory * @param nodeId The id of the node in question */ isFailedNode(nodeId: number): Promise; /** * Removes a failed node from the controller's memory. If the process fails, this will throw an exception with the details why. * @param nodeId The id of the node to remove */ removeFailedNode(nodeId: number): Promise; private getRemoveFailedNodeTask; /** * Replace a failed node from the controller's memory. If the process fails, this will throw an exception with the details why. * @param nodeId The id of the node to replace * @param options Defines the inclusion strategy to use for the replacement node */ replaceFailedNode(nodeId: number, options?: ReplaceNodeOptions): Promise; /** * Returns the task to handle the complete exclusion process */ private getReplaceFailedNodeTask; private replaceFailedNodeTask; /** Configure the RF region at the Z-Wave API Module */ setRFRegion(region: RFRegion): Promise; private setRFRegionInternal; /** Request the current RF region configured at the Z-Wave API Module */ getRFRegion(): Promise; /** * Query the supported regions of the Z-Wave API Module * * **Note:** Applications should prefer using {@link getSupportedRFRegions} instead */ querySupportedRFRegions(): Promise; /** * Query the supported regions of the Z-Wave API Module * * **Note:** Applications should prefer reading the cached value from {@link supportedRFRegions} instead */ queryRFRegionInfo(region: RFRegion): Promise<{ region: RFRegion; supportsZWave: boolean; supportsLongRange: boolean; includesRegion?: RFRegion; }>; /** * Returns the RF regions supported by this controller, or `undefined` if the information is not known yet. * * @param filterSubsets Whether to exclude regions that are subsets of other regions, * for example `USA` which is a subset of `USA (Long Range)` */ getSupportedRFRegions(filterSubsets?: boolean): MaybeNotKnown; private applyLegalPowerlevelLimits; /** Configure the Powerlevel setting of the Z-Wave API */ setPowerlevel(powerlevel: number, measured0dBm: number): Promise; /** Request the Powerlevel setting of the Z-Wave API */ getPowerlevel(): Promise>; /** Configure the maximum TX powerlevel for Z-Wave Long Range */ setMaxLongRangePowerlevel(limit: number): Promise; /** Request the maximum TX powerlevel setting for Z-Wave Long Range */ getMaxLongRangePowerlevel(): Promise; private applyDesiredPowerlevelMesh; private applyDesiredPowerlevelLR; /** * Configure channel to use for Z-Wave Long Range. */ setLongRangeChannel(channel: LongRangeChannel.A | LongRangeChannel.B | LongRangeChannel.Auto): Promise; /** Request the channel setting and capabilities for Z-Wave Long Range */ getLongRangeChannel(): Promise<{ channel: LongRangeChannel; supportsAutoChannelSelection: boolean; }>; trySetNodeIDType(nodeIdType: NodeIDType): Promise; /** * Instructs a node to (re-)discover its neighbors. * * **WARNING:** On some controllers, this can cause new SUC return routes to be assigned. * * @returns `true` if the update was successful and the new neighbors can be retrieved using * {@link getNodeNeighbors}. `false` if the update failed. */ discoverNodeNeighbors(nodeId: number): Promise; /** * Returns the known list of neighbors for a node. * * Throws when the node is a Long Range node. */ getNodeNeighbors(nodeId: number, onlyRepeaters?: boolean): Promise; /** * Returns the known routes the controller will use to communicate with the nodes. * * This information is dynamically built using TX status reports and may not be accurate at all times. * Also, it may not be available immediately after startup or at all if the controller doesn't support this feature. * * **Note:** To keep information returned by this method updated, use the information contained in each node's `"statistics"` event. */ getKnownLifelineRoutes(): ReadonlyMap; /** Request additional information about the controller/Z-Wave chip */ getSerialApiInitData(): Promise; /** Determines the controller's network role/capabilities */ getControllerCapabilities(): Promise; /** Turns the Z-Wave radio on or off */ toggleRF(enabled: boolean): Promise; private _nvm; /** Provides access to the controller's non-volatile memory */ get nvm(): NVMAdapter; private firmwareUpdateNVMGetNewImage; private firmwareUpdateNVMUpdateCRC16; /** * **Z-Wave 500 series only** * * Returns information of the controller's external NVM */ getNVMId(): Promise; /** * **Z-Wave 500 series only** * * Reads a byte from the external NVM at the given offset */ externalNVMReadByte(offset: number): Promise; /** * **Z-Wave 500 series only** * * Writes a byte to the external NVM at the given offset * **WARNING:** This function can write in the full NVM address space and is not offset to start at the application area. * Take care not to accidentally overwrite the protocol NVM area! * * @returns `true` when writing succeeded, `false` otherwise */ externalNVMWriteByte(offset: number, data: number): Promise; /** * **Z-Wave 500 series only** * * Reads a buffer from the external NVM at the given offset */ externalNVMReadBuffer(offset: number, length: number): Promise; /** * **Z-Wave 700+ series only** * * Reads a buffer from the external NVM at the given offset * * **Note:** Prefer {@link externalNVMReadBufferExt} if supported, as that command supports larger NVMs than 64 KiB. */ externalNVMReadBuffer700(offset: number, length: number): Promise<{ buffer: BytesView; endOfFile: boolean; }>; /** * **Z-Wave 700+ series only** * * Reads a buffer from the external NVM at the given offset * * **Note:** If supported, this command should be preferred over {@link externalNVMReadBuffer700} as it supports larger NVMs than 64 KiB. */ externalNVMReadBufferExt(offset: number, length: number): Promise<{ buffer: BytesView; endOfFile: boolean; }>; /** * **Z-Wave 500 series only** * * Writes a buffer to the external NVM at the given offset * **WARNING:** This function can write in the full NVM address space and is not offset to start at the application area. * Take care not to accidentally overwrite the protocol NVM area! * * @returns `true` when writing succeeded, `false` otherwise */ externalNVMWriteBuffer(offset: number, buffer: BytesView): Promise; /** * **Z-Wave 700+ series only** * * Writes a buffer to the external NVM at the given offset * * **Note:** Prefer {@link externalNVMWriteBufferExt} if supported, as that command supports larger NVMs than 64 KiB. * * **WARNING:** This function can write in the full NVM address space and is not offset to start at the application area. * Take care not to accidentally overwrite the protocol NVM area! */ externalNVMWriteBuffer700(offset: number, buffer: BytesView): Promise<{ endOfFile: boolean; }>; /** * **Z-Wave 700+ series only** * * Writes a buffer to the external NVM at the given offset * * **Note:** If supported, this command should be preferred over {@link externalNVMWriteBuffer700} as it supports larger NVMs than 64 KiB. * * **WARNING:** This function can write in the full NVM address space and is not offset to start at the application area. * Take care not to accidentally overwrite the protocol NVM area! */ externalNVMWriteBufferExt(offset: number, buffer: BytesView): Promise<{ endOfFile: boolean; }>; /** * **Z-Wave 700+ series only** * * Opens the controller's external NVM for reading/writing and returns the NVM size * * **Note:** Prefer {@link externalNVMOpenExt} if supported, as that command supports larger NVMs than 64 KiB. */ externalNVMOpen(): Promise; /** * **Z-Wave 700+ series only** * * Opens the controller's external NVM for reading/writing and returns the NVM size and supported operations. * * **Note:** If supported, this command should be preferred over {@link externalNVMOpen} as it supports larger NVMs than 64 KiB. */ externalNVMOpenExt(): Promise<{ size: number; supportedOperations: ExtendedNVMOperationsCommand[]; }>; /** * **Z-Wave 700+ series only** * * Closes the controller's external NVM * * **Note:** Prefer {@link externalNVMCloseExt} if supported, as that command supports larger NVMs than 64 KiB. */ externalNVMClose(): Promise; /** * **Z-Wave 700+ series only** * * Closes the controller's external NVM * * **Note:** If supported, this command should be preferred over {@link externalNVMClose} as it supports larger NVMs than 64 KiB. */ externalNVMCloseExt(): Promise; /** * Creates a backup of the NVM and returns the raw data as a Buffer. The Z-Wave radio is turned off/on automatically. * @param onProgress Can be used to monitor the progress of the operation, which may take several seconds up to a few minutes depending on the NVM size * @returns The raw NVM buffer */ backupNVMRaw(onProgress?: (bytesRead: number, total: number) => void): Promise; private backupNVMRaw500; private backupNVMRaw700; /** * Restores an NVM backup that was created with `backupNVMRaw`. The Z-Wave radio is turned off/on automatically. * If the given buffer is in a different NVM format, it is converted automatically. If a conversion is required but not supported, the operation will be aborted. * * **WARNING:** If both the source and target NVM use an an unsupported format, they will NOT be checked for compatibility! * * **WARNING:** A failure during this process may brick your controller. Use at your own risk! * * @param nvmData The NVM backup to be restored * @param convertProgress Can be used to monitor the progress of the NVM conversion, which may take several seconds up to a few minutes depending on the NVM size * @param restoreProgress Can be used to monitor the progress of the restore operation, which may take several seconds up to a few minutes depending on the NVM size * @param migrateOptions Influence which data should be preserved during a migration */ restoreNVM(nvmData: BytesView, convertProgress?: (bytesRead: number, total: number) => void, restoreProgress?: (bytesWritten: number, total: number) => void, migrateOptions?: MigrateNVMOptions): Promise; /** * Restores an NVM backup that was created with `backupNVMRaw`. The Z-Wave radio is turned off/on automatically. * * **WARNING:** The given buffer is NOT checked for compatibility with the current stick. To have Z-Wave JS do that, use the {@link restoreNVM} method instead. * * **WARNING:** A failure during this process may brick your controller. Use at your own risk! * @param nvmData The raw NVM backup to be restored * @param onProgress Can be used to monitor the progress of the operation, which may take several seconds up to a few minutes depending on the NVM size */ restoreNVMRaw(nvmData: BytesView, onProgress?: (bytesWritten: number, total: number) => void): Promise; private restoreNVMRaw500; private restoreNVMRaw700; /** * Request the most recent background RSSI levels detected by the controller. * * **Note:** This only returns useful values if something was transmitted recently. */ getBackgroundRSSI(): Promise<{ rssiChannel0: RSSI; rssiChannel1: RSSI; rssiChannel2?: RSSI; rssiChannel3?: RSSI; }>; /** * Returns whether an OTA firmware update is in progress for any node. */ isAnyOTAFirmwareUpdateInProgress(): boolean; /** * Retrieves the available firmware updates for the given node from the Z-Wave JS firmware update service. * * **Note:** This requires an API key to be set in the driver options, or passed using the `options` parameter. */ getAvailableFirmwareUpdates(nodeId: number, options?: GetFirmwareUpdatesOptions): Promise; /** * Retrieves the available firmware updates for all ready nodes from the Z-Wave JS firmware update service. * * **Note:** This requires an API key to be set in the driver options, or passed using the `options` parameter. * * @returns A map where the keys are node IDs and the values are available firmware updates. Devices missing from the map are unknown to the firmware update service. */ getAllAvailableFirmwareUpdates(options?: GetFirmwareUpdatesOptions): Promise>; private ensureFirmwareDeviceIdMatches; /** * Downloads the desired firmware update(s) from the Z-Wave JS firmware update service and updates the firmware of the given node. * @param updateInfo The desired entry from the updates array that was returned by {@link getAvailableFirmwareUpdates}. * Before applying the update, Z-Wave JS will check whether the device IDs, firmware version and region match. * * The return value indicates whether the update was successful. * **WARNING:** This method will throw instead of returning `false` if invalid arguments are passed or downloading files or starting an update fails. */ firmwareUpdateOTA(nodeId: number, updateInfo: FirmwareUpdateInfo, options?: FirmwareUpdateOptions): Promise; private _currentLearnMode; private _joinNetworkOptions; beginJoiningNetwork(options?: JoinNetworkOptions): Promise; stopJoiningNetwork(): Promise; beginLeavingNetwork(): Promise; stopLeavingNetwork(): Promise; private handleLearnModeCallback; private expectSecurityBootstrapS0; private expectSecurityBootstrapS2; private afterJoiningNetwork; private _proprietary; /** Provides access to hardware-specific Serial API functionality */ get proprietary(): ControllerProprietary; destroy(): void; } export {}; //# sourceMappingURL=Controller.d.ts.map