8c0c8e9aa0
Changes in the CL: 1. Add the buckets scanned bitmask to bgscan. 2. exposed the legacy HAL constants for Bgscan in the HIDL interface. 3. Add a stop method for ring buffer logging. Bug: 35752950 Bug: 33194311 Test: Compiles Change-Id: Idb2031c33c5a237d7447410fb733f8e408a17288
678 lines
26 KiB
Text
678 lines
26 KiB
Text
/*
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* Copyright 2016 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package android.hardware.wifi@1.0;
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import IWifiChipEventCallback;
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import IWifiIface;
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import IWifiApIface;
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import IWifiNanIface;
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import IWifiP2pIface;
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import IWifiStaIface;
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import IWifiRttController;
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/**
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* Interface that represents a chip that must be configured as a single unit.
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* The HAL/driver/firmware will be responsible for determining which phy is used
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* to perform operations like NAN, RTT, etc.
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*/
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interface IWifiChip {
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/**
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* Set of interface types with the maximum number of interfaces that can have
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* one of the specified type for a given ChipIfaceCombination. See
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* ChipIfaceCombination for examples.
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*/
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struct ChipIfaceCombinationLimit {
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vec<IfaceType> types; // Each IfaceType must occur at most once.
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uint32_t maxIfaces;
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};
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/**
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* Set of interfaces that can operate concurrently when in a given mode. See
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* ChipMode below.
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*
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* For example:
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* [{STA} <= 2]
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* At most two STA interfaces are supported
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* [], [STA], [STA+STA]
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*
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* [{STA} <= 1, {NAN} <= 1, {AP} <= 1]
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* Any combination of STA, NAN, AP
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* [], [STA], [NAN], [AP], [STA+NAN], [STA+AP], [NAN+AP], [STA+NAN+AP]
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*
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* [{STA} <= 1, {NAN,P2P} <= 1]
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* Optionally a STA and either NAN or P2P
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* [], [STA], [STA+NAN], [STA+P2P], [NAN], [P2P]
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* Not included [NAN+P2P], [STA+NAN+P2P]
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*
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* [{STA} <= 1, {STA,NAN} <= 1]
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* Optionally a STA and either a second STA or a NAN
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* [], [STA], [STA+NAN], [STA+STA], [NAN]
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* Not included [STA+STA+NAN]
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*/
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struct ChipIfaceCombination {
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vec<ChipIfaceCombinationLimit> limits;
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};
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/**
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* A mode that the chip can be put in. A mode defines a set of constraints on
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* the interfaces that can exist while in that mode. Modes define a unit of
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* configuration where all interfaces must be torn down to switch to a
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* different mode. Some HALs may only have a single mode, but an example where
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* multiple modes would be required is if a chip has different firmwares with
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* different capabilities.
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*
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* When in a mode, it must be possible to perform any combination of creating
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* and removing interfaces as long as at least one of the
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* ChipIfaceCombinations is satisfied. This means that if a chip has two
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* available combinations, [{STA} <= 1] and [{AP} <= 1] then it is expected
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* that exactly one STA interface or one AP interface can be created, but it
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* is not expected that both a STA and AP interface could be created. If it
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* was then there would be a single available combination
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* [{STA} <=1, {AP} <= 1].
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*
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* When switching between two available combinations it is expected that
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* interfaces only supported by the initial combination must be removed until
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* the target combination is also satisfied. At that point new interfaces
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* satisfying only the target combination can be added (meaning the initial
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* combination limits will no longer satisfied). The addition of these new
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* interfaces must not impact the existence of interfaces that satisfy both
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* combinations.
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*
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* For example, a chip with available combinations:
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* [{STA} <= 2, {NAN} <=1] and [{STA} <=1, {NAN} <= 1, {AP} <= 1}]
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* If the chip currently has 3 interfaces STA, STA and NAN and wants to add an
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* AP interface in place of one of the STAs then first one of the STA
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* interfaces must be removed and then the AP interface can be created after
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* the STA had been torn down. During this process the remaining STA and NAN
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* interfaces must not be removed/recreated.
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*
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* If a chip does not support this kind of reconfiguration in this mode then
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* the combinations must be separated into two separate modes. Before
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* switching modes all interfaces must be torn down, the mode switch must be
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* enacted and when it completes the new interfaces must be brought up.
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*/
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struct ChipMode {
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/**
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* Id that can be used to put the chip in this mode.
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*/
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ChipModeId id;
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/**
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* A list of the possible interface combinations that the chip can have
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* while in this mode.
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*/
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vec<ChipIfaceCombination> availableCombinations;
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};
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/**
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* Information about the version of the driver and firmware running this chip.
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*
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* The information in these ASCII strings are vendor specific and does not
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* need to follow any particular format. It may be dumped as part of the bug
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* report.
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*/
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struct ChipDebugInfo {
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string driverDescription;
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string firmwareDescription;
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};
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/**
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* Capabilities exposed by this chip.
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*/
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enum ChipCapabilityMask : uint32_t {
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/**
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* Memory dump of Firmware.
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*/
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DEBUG_MEMORY_FIRMWARE_DUMP = 1 << 0,
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/**
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* Memory dump of Driver.
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*/
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DEBUG_MEMORY_DRIVER_DUMP = 1 << 1,
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/**
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* Connectivity events reported via debug ring buffer.
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*/
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DEBUG_RING_BUFFER_CONNECT_EVENT = 1 << 2,
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/**
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* Power events reported via debug ring buffer.
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*/
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DEBUG_RING_BUFFER_POWER_EVENT = 1 << 3,
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/**
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* Wakelock events reported via debug ring buffer.
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*/
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DEBUG_RING_BUFFER_WAKELOCK_EVENT = 1 << 4,
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/**
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* Vendor data reported via debug ring buffer.
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* This mostly contains firmware event logs.
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*/
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DEBUG_RING_BUFFER_VENDOR_DATA = 1 << 5,
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/**
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* Host wake reasons stats collection.
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*/
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DEBUG_HOST_WAKE_REASON_STATS = 1 << 6,
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/**
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* Error alerts.
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*/
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DEBUG_ERROR_ALERTS = 1 << 7
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};
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/**
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* Get the id assigned to this chip.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
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* @return id Assigned chip Id.
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*/
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getId() generates (WifiStatus status, ChipId id);
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/**
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* Requests notifications of significant events on this chip. Multiple calls
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* to this must register multiple callbacks each of which must receive all
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* events.
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*
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* @param callback An instance of the |IWifiChipEventCallback| HIDL interface
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* object.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
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*/
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registerEventCallback(IWifiChipEventCallback callback) generates (WifiStatus status);
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/**
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* Get the capabilities supported by this chip.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
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* |WifiStatusCode.ERROR_UNKNOWN|
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* @return capabilities Bitset of |ChipCapabilityMask| values.
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*/
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getCapabilities()
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generates (WifiStatus status, bitfield<ChipCapabilityMask> capabilities);
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/**
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* Get the set of operation modes that the chip supports.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
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* @return modes List of modes supported by the device.
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*/
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getAvailableModes() generates (WifiStatus status, vec<ChipMode> modes);
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/**
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* Reconfigure the Chip.
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* Any existing |IWifiIface| objects must be marked invalid after this call.
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* If this fails then the chips is now in an undefined state and
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* configureChip must be called again.
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* Must trigger |IWifiChipEventCallback.onChipReconfigured| on success.
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* Must trigger |IWifiEventCallback.onFailure| on failure.
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*
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* @param modeId The mode that the chip must switch to, corresponding to the
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* id property of the target ChipMode.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
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* |WifiStatusCode.ERROR_UNKNOWN|
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*/
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configureChip(ChipModeId modeId) generates (WifiStatus status);
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/**
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* Get the current mode that the chip is in.
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*
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* @return modeId The mode that the chip is currently configured to,
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* corresponding to the id property of the target ChipMode.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
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*/
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getMode() generates (WifiStatus status, ChipModeId modeId);
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/**
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* Request information about the chip.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
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* |WifiStatusCode.ERROR_UNKNOWN|
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* @return chipDebugInfo Instance of |ChipDebugInfo|.
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*/
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requestChipDebugInfo() generates (WifiStatus status, ChipDebugInfo chipDebugInfo);
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/**
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* Request vendor debug info from the driver.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
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* |WifiStatusCode.ERROR_UNKNOWN|
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* @param blob Vector of bytes retrieved from the driver.
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*/
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requestDriverDebugDump() generates (WifiStatus status, vec<uint8_t> blob);
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/**
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* Request vendor debug info from the firmware.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_AVAILABLE|,
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* |WifiStatusCode.ERROR_UNKNOWN|
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* @param blob Vector of bytes retrieved from the driver.
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*/
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requestFirmwareDebugDump() generates (WifiStatus status, vec<uint8_t> blob);
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/**
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* Create an AP iface on the chip.
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*
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* Depending on the mode the chip is configured in, the interface creation
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* may fail (code: |ERROR_NOT_AVAILABLE|) if we've already reached the maximum
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* allowed (specified in |ChipIfaceCombination|) number of ifaces of the AP
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* type.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_SUPPORTED|
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* @return iface HIDL interface object representing the iface if
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* successful, null otherwise.
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*/
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createApIface() generates (WifiStatus status, IWifiApIface iface);
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/**
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* List all the AP iface names configured on the chip.
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* The corresponding |IWifiApIface| object for any iface are
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* retrieved using |getApIface| method.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
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* @return ifnames List of all AP iface names on the chip.
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*/
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getApIfaceNames() generates (WifiStatus status, vec<string> ifnames);
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/**
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* Gets a HIDL interface object for the AP Iface corresponding
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* to the provided ifname.
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*
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* @param ifname Name of the iface.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_INVALID_ARGS|
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* @return iface HIDL interface object representing the iface if
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* it exists, null otherwise.
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*/
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getApIface(string ifname) generates (WifiStatus status, IWifiApIface iface);
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/**
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* Removes the AP Iface with the provided ifname.
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* Any further calls on the corresponding |IWifiApIface| HIDL interface
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* object must fail.
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*
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* @param ifname Name of the iface.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_INVALID_ARGS|
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*/
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removeApIface(string ifname) generates (WifiStatus status);
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/**
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* Create a NAN iface on the chip.
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*
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* Depending on the mode the chip is configured in, the interface creation
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* may fail (code: |ERROR_NOT_AVAILABLE|) if we've already reached the maximum
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* allowed (specified in |ChipIfaceCombination|) number of ifaces of the NAN
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* type.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_SUPPORTED|
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* @return iface HIDL interface object representing the iface if
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* successful, null otherwise.
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*/
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createNanIface() generates (WifiStatus status, IWifiNanIface iface);
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/**
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* List all the NAN iface names configured on the chip.
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* The corresponding |IWifiNanIface| object for any iface are
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* retrieved using |getNanIface| method.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
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* @return ifnames List of all NAN iface names on the chip.
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*/
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getNanIfaceNames() generates (WifiStatus status, vec<string> ifnames);
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/**
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* Gets a HIDL interface object for the NAN Iface corresponding
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* to the provided ifname.
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*
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* @param ifname Name of the iface.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_INVALID_ARGS|
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* @return iface HIDL interface object representing the iface if
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* it exists, null otherwise.
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*/
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getNanIface(string ifname) generates (WifiStatus status, IWifiNanIface iface);
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/**
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* Removes the NAN Iface with the provided ifname.
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* Any further calls on the corresponding |IWifiNanIface| HIDL interface
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* object must fail.
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*
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* @param ifname Name of the iface.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_INVALID_ARGS|
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*/
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removeNanIface(string ifname) generates (WifiStatus status);
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/**
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* Create a P2P iface on the chip.
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*
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* Depending on the mode the chip is configured in, the interface creation
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* may fail (code: |ERROR_NOT_AVAILABLE|) if we've already reached the maximum
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* allowed (specified in |ChipIfaceCombination|) number of ifaces of the P2P
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* type.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_NOT_SUPPORTED|
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* @return iface HIDL interface object representing the iface if
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* successful, null otherwise.
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*/
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createP2pIface() generates (WifiStatus status, IWifiP2pIface iface);
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/**
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* List all the P2P iface names configured on the chip.
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* The corresponding |IWifiP2pIface| object for any iface are
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* retrieved using |getP2pIface| method.
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*
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
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* @return ifnames List of all P2P iface names on the chip.
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*/
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getP2pIfaceNames() generates (WifiStatus status, vec<string> ifnames);
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/**
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* Gets a HIDL interface object for the P2P Iface corresponding
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* to the provided ifname.
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*
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* @param ifname Name of the iface.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_INVALID_ARGS|
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* @return iface HIDL interface object representing the iface if
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* it exists, null otherwise.
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*/
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getP2pIface(string ifname) generates (WifiStatus status, IWifiP2pIface iface);
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/**
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* Removes the P2P Iface with the provided ifname.
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* Any further calls on the corresponding |IWifiP2pIface| HIDL interface
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* object must fail.
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*
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* @param ifname Name of the iface.
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* @return status WifiStatus of the operation.
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* Possible status codes:
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* |WifiStatusCode.SUCCESS|,
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* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
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* |WifiStatusCode.ERROR_INVALID_ARGS|
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*/
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removeP2pIface(string ifname) generates (WifiStatus status);
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/**
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* Create an STA iface on the chip.
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*
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* Depending on the mode the chip is configured in, the interface creation
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* may fail (code: |ERROR_NOT_AVAILABLE|) if we've already reached the maximum
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* allowed (specified in |ChipIfaceCombination|) number of ifaces of the STA
|
|
* type.
|
|
*
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_NOT_SUPPORTED|
|
|
* @return iface HIDL interface object representing the iface if
|
|
* successful, null otherwise.
|
|
*/
|
|
createStaIface() generates (WifiStatus status, IWifiStaIface iface);
|
|
|
|
/**
|
|
* List all the STA iface names configured on the chip.
|
|
* The corresponding |IWifiStaIface| object for any iface are
|
|
* retrieved using |getStaIface| method.
|
|
*
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
|
|
* @return ifnames List of all STA iface names on the chip.
|
|
*/
|
|
getStaIfaceNames() generates (WifiStatus status, vec<string> ifnames);
|
|
|
|
/**
|
|
* Gets a HIDL interface object for the STA Iface corresponding
|
|
* to the provided ifname.
|
|
*
|
|
* @param ifname Name of the iface.
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_INVALID_ARGS|
|
|
* @return iface HIDL interface object representing the iface if
|
|
* it exists, null otherwise.
|
|
*/
|
|
getStaIface(string ifname) generates (WifiStatus status, IWifiStaIface iface);
|
|
|
|
/**
|
|
* Removes the STA Iface with the provided ifname.
|
|
* Any further calls on the corresponding |IWifiStaIface| HIDL interface
|
|
* object must fail.
|
|
*
|
|
* @param ifname Name of the iface.
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_INVALID_ARGS|
|
|
*/
|
|
removeStaIface(string ifname) generates (WifiStatus status);
|
|
|
|
/**
|
|
* Create a RTTController instance.
|
|
*
|
|
* RTT controller can be either:
|
|
* a) Bound to a specific iface by passing in the corresponding |IWifiIface|
|
|
* object in |iface| param, OR
|
|
* b) Let the implementation decide the iface to use for RTT operations by
|
|
* passing null in |iface| param.
|
|
*
|
|
* @param boundIface HIDL interface object representing the iface if
|
|
* the responder must be bound to a specific iface, null otherwise.
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|
|
|
*/
|
|
createRttController(IWifiIface boundIface)
|
|
generates (WifiStatus status, IWifiRttController rtt);
|
|
|
|
/**
|
|
* WiFi debug ring buffer life cycle is as follow:
|
|
* - At initialization time, framework must call |getDebugRingBuffersStatus|.
|
|
* to obtain the names and list of supported ring buffers.
|
|
* The driver may expose several different rings each holding a different
|
|
* type of data (connection events, power events, etc).
|
|
* - When WiFi operations start framework must call
|
|
* |startLoggingToDebugRingBuffer| to trigger log collection for a specific
|
|
* ring. The vebose level for each ring buffer can be specified in this API.
|
|
* - During wifi operations, driver must periodically report per ring data to
|
|
* framework by invoking the
|
|
* |IWifiChipEventCallback.onDebugRingBufferDataAvailable| callback.
|
|
* - When capturing a bug report, framework must indicate to driver that all
|
|
* the data has to be uploaded urgently by calling
|
|
* |forceDumpToDebugRingBuffer|.
|
|
*
|
|
* The data uploaded by driver must be stored by framework in separate files,
|
|
* with one stream of file per ring. Framework must store the files in pcapng
|
|
* format, allowing for easy merging and parsing with network analyzer tools.
|
|
* TODO: Since we're not longer dumping out the raw data, storing in separate
|
|
* pcapng files for parsing later must not work anymore.
|
|
*/
|
|
/**
|
|
* API to get the status of all ring buffers supported by driver.
|
|
*
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
|
|
* |WifiStatusCode.NOT_AVAILABLE|,
|
|
* |WifiStatusCode.UNKNOWN|
|
|
* @return ringBuffers Vector of |WifiDebugRingBufferStatus| corresponding to the
|
|
* status of each ring bufffer on the device.
|
|
*/
|
|
getDebugRingBuffersStatus() generates (WifiStatus status,
|
|
vec<WifiDebugRingBufferStatus> ringBuffers);
|
|
|
|
/**
|
|
* API to trigger the debug data collection.
|
|
*
|
|
* @param ringName represent the name of the ring for which data collection
|
|
* shall start. This can be retrieved via the corresponding
|
|
* |WifiDebugRingBufferStatus|.
|
|
* @parm maxIntervalInSec Maximum interval in seconds for driver to invoke
|
|
* |onDebugRingBufferData|, ignore if zero.
|
|
* @parm minDataSizeInBytes: Minimum data size in buffer for driver to invoke
|
|
* |onDebugRingBufferData|, ignore if zero.
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
|
|
* |WifiStatusCode.NOT_AVAILABLE|,
|
|
* |WifiStatusCode.UNKNOWN|
|
|
*/
|
|
startLoggingToDebugRingBuffer(string ringName,
|
|
WifiDebugRingBufferVerboseLevel verboseLevel,
|
|
uint32_t maxIntervalInSec,
|
|
uint32_t minDataSizeInBytes)
|
|
generates (WifiStatus status);
|
|
|
|
/**
|
|
* API to force dump data into the corresponding ring buffer.
|
|
* This is to be invoked during bugreport collection.
|
|
*
|
|
* @param ringName represent the name of the ring for which data collection
|
|
* shall be forced. This can be retrieved via the corresponding
|
|
* |WifiDebugRingBufferStatus|.
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
|
|
* |WifiStatusCode.ERROR_NOT_STARTED|,
|
|
* |WifiStatusCode.NOT_AVAILABLE|,
|
|
* |WifiStatusCode.UNKNOWN|
|
|
*/
|
|
forceDumpToDebugRingBuffer(string ringName) generates (WifiStatus status);
|
|
|
|
/**
|
|
* API to stop the debug data collection for all ring buffers.
|
|
*
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
|
|
* |WifiStatusCode.NOT_AVAILABLE|,
|
|
* |WifiStatusCode.UNKNOWN|
|
|
*/
|
|
stopLoggingToDebugRingBuffer() generates (WifiStatus status);
|
|
|
|
/**
|
|
* API to retrieve the wifi wake up reason stats for debugging.
|
|
* The driver is expected to start maintaining these stats once the chip
|
|
* is configured using |configureChip|. These stats must be reset whenever
|
|
* the chip is reconfigured or the HAL is stopped.
|
|
*
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
|
|
* |WifiStatusCode.NOT_AVAILABLE|,
|
|
* |WifiStatusCode.UNKNOWN|
|
|
* @return stats Instance of |WifiDebugHostWakeReasonStats|.
|
|
*/
|
|
getDebugHostWakeReasonStats()
|
|
generates (WifiStatus status, WifiDebugHostWakeReasonStats stats);
|
|
|
|
/**
|
|
* API to enable/disable alert notifications from the chip.
|
|
* These alerts must be used to notify framework of any fatal error events
|
|
* that the chip encounters via |IWifiChipEventCallback.onDebugErrorAlert| method.
|
|
* Must fail if |ChipCapabilityMask.DEBUG_ERROR_ALERTS| is not set.
|
|
*
|
|
* @param enable true to enable, false to disable.
|
|
* @return status WifiStatus of the operation.
|
|
* Possible status codes:
|
|
* |WifiStatusCode.SUCCESS|,
|
|
* |WifiStatusCode.ERROR_WIFI_CHIP_INVALID|,
|
|
* |WifiStatusCode.ERROR_NOT_SUPPORTED|,
|
|
* |WifiStatusCode.NOT_AVAILABLE|,
|
|
* |WifiStatusCode.UNKNOWN|
|
|
*/
|
|
enableDebugErrorAlerts(bool enable) generates (WifiStatus status);
|
|
};
|