platform_hardware_interfaces/wifi/1.0/IWifiStaIface.hal

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/*
* Copyright 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.hardware.wifi@1.0;
import IWifiIface;
import IWifiStaIfaceEventCallback;
/**
* Interface used to represent a single STA iface.
*/
interface IWifiStaIface extends IWifiIface {
/**
* Mask of capabilities suported by this Iface.
*/
enum StaIfaceCapabilityMask : uint32_t {
/**
* If set indicates that the APF APIs are supported.
* APF (Android Packet Filter) is a BPF like packet filtering
* bytecode executed by the firmware.
*/
APF = 1 << 0,
/**
* If set indicates that the Background Scan APIs are supported.
* Background scan allow the host to send a number of buckets down to the
* firmware. Each bucket contains a set of channels, a period, and some
* parameters about how and when to report results.
*/
BACKGROUND_SCAN = 1 << 1,
/**
* If set indicates that the link layer stats APIs are supported.
*/
LINK_LAYER_STATS = 1 << 2,
/**
* If set indicates that the RSSI monitor APIs are supported.
*/
RSSI_MONITOR = 1 << 3,
/**
* Tracks connection packets' fate.
*/
DEBUG_PACKET_FATE_SUPPORTED = 1 << 4
};
/**
* Requests notifications of significant events on this iface. Multiple calls
* to this must register multiple callbacks each of which must receive all
* events.
*
* @param callback An instance of the |IWifiStaIfaceEventCallback| HIDL interface
* object.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|
*/
registerEventCallback(IWifiStaIfaceEventCallback callback)
generates (WifiStatus status);
/**
* Get the capabilities supported by this STA iface.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
* @return capabilities Bitset of |StaIfaceCapabilityMask| values.
*/
getCapabilities() generates (WifiStatus status, uint32_t capabilities);
/**
* Used to query additional information about the chip's APF capabilities.
* Must fail if |StaIfaceCapabilityMask.APF| is not set.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
* @return capabilities Instance of |StaApfPacketFilterCapabilities|.
*/
getApfPacketFilterCapabilities()
generates (WifiStatus status, StaApfPacketFilterCapabilities capabilities);
/**
* Installs an APF program on this iface, replacing an existing
* program if present.
* Must fail if |StaIfaceCapabilityMask.APF| is not set.
*
* @param cmdId command Id to use for this invocation.
* @param APF Program to be set.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_INVALID_ARGS|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
installApfPacketFilter(CommandId cmdId, vec<uint8_t> program)
generates (WifiStatus status);
/**
* Used to query additional information about the chip's Background Scan capabilities.
* Must fail if |StaIfaceCapabilityMask.BACKGROUND_SCAN| is not set.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
* @return capabilities Instance of |StaBackgroundScanCapabilities|.
*/
getBackgroundScanCapabilities()
generates (WifiStatus status, StaBackgroundScanCapabilities capabilities);
/**
* Used to query the list of valid frequencies (depending on country code set)
* for the provided band. These channels may be specifed in the
* |BackgroundScanBucketParameters.frequenciesInMhz| for a background scan
* request.
* Must fail if |StaIfaceCapabilityMask.BACKGROUND_SCAN| is not set.
*
* @param band Band for which the frequency list is being generated.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
* @return frequencies vector of valid frequencies for the provided band.
*/
getValidFrequenciesForBackgroundScan(StaBackgroundScanBand band)
generates (WifiStatus status, vec<WifiChannelInMhz> frequencies);
/**
* Start a background scan using the given cmdId as an identifier. Only one
* active background scan need be supported.
* Must fail if |StaIfaceCapabilityMask.BACKGROUND_SCAN| is not set.
*
* When this is called all requested buckets must be scanned, starting the
* beginning of the cycle.
*
* For example:
* If there are two buckets specified
* - Bucket 1: period=10s
* - Bucket 2: period=20s
* - Bucket 3: period=30s
* Then the following scans must occur
* - t=0 buckets 1, 2, and 3 are scanned
* - t=10 bucket 1 is scanned
* - t=20 bucket 1 and 2 are scanned
* - t=30 bucket 1 and 3 are scanned
* - t=40 bucket 1 and 2 are scanned
* - t=50 bucket 1 is scanned
* - t=60 buckets 1, 2, and 3 are scanned
* - and the patter repeats
*
* If any scan does not occur or is incomplete (error, interrupted, etc) then
* a cached scan result must still be recorded with the
* WIFI_SCAN_FLAG_INTERRUPTED flag set.
*
* @param cmdId command Id to use for this invocation.
* @params Background scan parameters.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_INVALID_ARGS|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
startBackgroundScan(CommandId cmdId, StaBackgroundScanParameters params)
generates (WifiStatus status);
/**
* Stop the background scan started.
* Must fail if |StaIfaceCapabilityMask.BACKGROUND_SCAN| is not set.
*
* @param cmdId command Id corresponding to the request.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_STARTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
stopBackgroundScan(CommandId cmdId) generates (WifiStatus status);
/**
* Enable link layer stats collection.
* Must fail if |StaIfaceCapabilityMask.LINK_LAYER_STATS| is not set.
*
* Radio statistics (once started) must not stop until disabled.
* Iface statistics (once started) reset and start afresh after each
* connection until disabled.
*
* @param debug Set for field debug mode. Driver must collect all
* statistics regardless of performance impact.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
enableLinkLayerStatsCollection(bool debug)
generates (WifiStatus status);
/**
* Disable link layer stats collection.
* Must fail if |StaIfaceCapabilityMask.LINK_LAYER_STATS| is not set.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_STARTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
disableLinkLayerStatsCollection() generates (WifiStatus status);
/**
* Retrieve the latest link layer stats.
* Must fail if |StaIfaceCapabilityMask.LINK_LAYER_STATS| is not set or if
* link layer stats collection hasn't been explicitly enabled.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_STARTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
* @return stats Instance of |LinkLayerStats|.
*/
getLinkLayerStats() generates (WifiStatus status, StaLinkLayerStats stats);
/**
* Start RSSI monitoring on the currently connected access point.
* Once the monitoring is enabled,
* |IWifiStaIfaceEventCallback.onRssiThresholdBreached| callback must be
* invoked to indicate if the RSSI goes above |maxRssi| or below |minRssi|.
* Must fail if |StaIfaceCapabilityMask.RSSI_MONITOR| is not set.
*
* @param cmdId command Id to use for this invocation.
* @param maxRssi Maximum RSSI threshold.
* @param minRssi Minimum RSSI threshold.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_ARGS_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
startRssiMonitoring(CommandId cmdId, Rssi maxRssi, Rssi minRssi)
generates (WifiStatus status);
/**
* Stop RSSI monitoring.
* Must fail if |StaIfaceCapabilityMask.RSSI_MONITOR| is not set.
*
* @param cmdId command Id corresponding to the request.
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_STARTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
stopRssiMonitoring(CommandId cmdId) generates (WifiStatus status);
/**
* API to start packet fate monitoring.
* - Once stared, monitoring must remain active until HAL is unloaded.
* - When HAL is unloaded, all packet fate buffers must be cleared.
* - The packet fates are used to monitor the state of packets transmitted/
* received during association.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
startDebugPacketFateMonitoring() generates (WifiStatus status);
/**
* API to stop packet fate monitoring.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_STARTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
*/
stopDebugPacketFateMonitoring() generates (WifiStatus status);
/**
* API to retrieve fates of outbound packets.
* - HAL implementation must return the fates of
* all the frames transmitted for the most recent association.
* The fate reports must follow the same order as their respective
* packets.
* - HAL implementation may choose (but is not required) to include
* reports for management frames.
* - Packets reported by firmware, but not recognized by driver,
* must be included. However, the ordering of the corresponding
* reports is at the discretion of HAL implementation.
* - Framework must be able to call this API multiple times for the same
* association.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_STARTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
* @return fates Vector of |WifiDebugTxPacketFateReport| instances corresponding
* to the packet fates.
*/
getDebugTxPacketFates()
generates (WifiStatus status, vec<WifiDebugTxPacketFateReport> fates);
/**
* API to retrieve fates of inbound packets.
* - HAL implementation must return the fates of
* all the frames received for the most recent association.
* The fate reports must follow the same order as their respective
* packets.
* - HAL implementation may choose (but is not required) to include
* reports for management frames.
* - Packets reported by firmware, but not recognized by driver,
* must be included. However, the ordering of the corresponding
* reports is at the discretion of HAL implementation.
* - Framework must be able to call this API multiple times for the same
* association.
*
* @return status WifiStatus of the operation.
* Possible status codes:
* |WifiStatusCode.SUCCESS|,
* |WifiStatusCode.ERROR_WIFI_IFACE_INVALID|,
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
* |WifiStatusCode.ERROR_NOT_STARTED|,
* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
* |WifiStatusCode.ERROR_UNKNOWN|
* @return fates Vector of |WifiDebugRxPacketFateReport| instances corresponding
* to the packet fates.
*/
getDebugRxPacketFates()
generates (WifiStatus status, vec<WifiDebugRxPacketFateReport> fates);
};