mirror of
https://github.com/espressif/openthread.git
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9f6921cf04
This commit removes unnecessary `#include` directives in core `cpp` files that already include `instance.hpp`. The `instance.hpp` header itself includes all necessary OT core headers and definitions as they are contained within an `ot::Instance`.
529 lines
17 KiB
C++
529 lines
17 KiB
C++
/*
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* Copyright (c) 2016, The OpenThread Authors.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. Neither the name of the copyright holder nor the
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* names of its contributors may be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
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* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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* POSSIBILITY OF SUCH DAMAGE.
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*/
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/**
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* @file
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* This file implements the OpenThread Thread API (for both FTD and MTD).
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*/
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#include "openthread-core-config.h"
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#if OPENTHREAD_FTD || OPENTHREAD_MTD
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#include "instance/instance.hpp"
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using namespace ot;
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uint32_t otThreadGetChildTimeout(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<Mle::MleRouter>().GetTimeout();
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}
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void otThreadSetChildTimeout(otInstance *aInstance, uint32_t aTimeout)
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{
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AsCoreType(aInstance).Get<Mle::MleRouter>().SetTimeout(aTimeout);
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}
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const otExtendedPanId *otThreadGetExtendedPanId(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<MeshCoP::ExtendedPanIdManager>().GetExtPanId();
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}
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otError otThreadSetExtendedPanId(otInstance *aInstance, const otExtendedPanId *aExtendedPanId)
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{
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Error error = kErrorNone;
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Instance &instance = AsCoreType(aInstance);
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const MeshCoP::ExtendedPanId &extPanId = AsCoreType(aExtendedPanId);
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VerifyOrExit(instance.Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
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instance.Get<MeshCoP::ExtendedPanIdManager>().SetExtPanId(extPanId);
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instance.Get<MeshCoP::ActiveDatasetManager>().Clear();
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instance.Get<MeshCoP::PendingDatasetManager>().Clear();
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exit:
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return error;
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}
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otError otThreadGetLeaderRloc(otInstance *aInstance, otIp6Address *aLeaderRloc)
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{
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Error error = kErrorNone;
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VerifyOrExit(!AsCoreType(aInstance).Get<Mle::Mle>().HasRloc16(Mle::kInvalidRloc16), error = kErrorDetached);
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AsCoreType(aInstance).Get<Mle::Mle>().GetLeaderRloc(AsCoreType(aLeaderRloc));
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exit:
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return error;
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}
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otLinkModeConfig otThreadGetLinkMode(otInstance *aInstance)
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{
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otLinkModeConfig config;
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AsCoreType(aInstance).Get<Mle::MleRouter>().GetDeviceMode().Get(config);
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return config;
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}
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otError otThreadSetLinkMode(otInstance *aInstance, otLinkModeConfig aConfig)
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{
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return AsCoreType(aInstance).Get<Mle::MleRouter>().SetDeviceMode(Mle::DeviceMode(aConfig));
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}
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void otThreadGetNetworkKey(otInstance *aInstance, otNetworkKey *aNetworkKey)
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{
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AsCoreType(aInstance).Get<KeyManager>().GetNetworkKey(AsCoreType(aNetworkKey));
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}
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#if OPENTHREAD_CONFIG_PLATFORM_KEY_REFERENCES_ENABLE
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otNetworkKeyRef otThreadGetNetworkKeyRef(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<KeyManager>().GetNetworkKeyRef();
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}
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#endif
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otError otThreadSetNetworkKey(otInstance *aInstance, const otNetworkKey *aKey)
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{
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Error error = kErrorNone;
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Instance &instance = AsCoreType(aInstance);
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VerifyOrExit(instance.Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
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instance.Get<KeyManager>().SetNetworkKey(AsCoreType(aKey));
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instance.Get<MeshCoP::ActiveDatasetManager>().Clear();
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instance.Get<MeshCoP::PendingDatasetManager>().Clear();
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exit:
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return error;
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}
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#if OPENTHREAD_CONFIG_PLATFORM_KEY_REFERENCES_ENABLE
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otError otThreadSetNetworkKeyRef(otInstance *aInstance, otNetworkKeyRef aKeyRef)
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{
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Error error = kErrorNone;
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Instance &instance = AsCoreType(aInstance);
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VerifyOrExit(aKeyRef != 0, error = kErrorInvalidArgs);
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VerifyOrExit(instance.Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
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instance.Get<KeyManager>().SetNetworkKeyRef((aKeyRef));
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instance.Get<MeshCoP::ActiveDatasetManager>().Clear();
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instance.Get<MeshCoP::PendingDatasetManager>().Clear();
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exit:
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return error;
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}
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#endif
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const otIp6Address *otThreadGetRloc(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<Mle::MleRouter>().GetMeshLocalRloc();
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}
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const otIp6Address *otThreadGetMeshLocalEid(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<Mle::MleRouter>().GetMeshLocalEid();
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}
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const otMeshLocalPrefix *otThreadGetMeshLocalPrefix(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<Mle::MleRouter>().GetMeshLocalPrefix();
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}
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otError otThreadSetMeshLocalPrefix(otInstance *aInstance, const otMeshLocalPrefix *aMeshLocalPrefix)
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{
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Error error = kErrorNone;
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VerifyOrExit(AsCoreType(aInstance).Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
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AsCoreType(aInstance).Get<Mle::MleRouter>().SetMeshLocalPrefix(AsCoreType(aMeshLocalPrefix));
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AsCoreType(aInstance).Get<MeshCoP::ActiveDatasetManager>().Clear();
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AsCoreType(aInstance).Get<MeshCoP::PendingDatasetManager>().Clear();
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exit:
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return error;
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}
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const otIp6Address *otThreadGetLinkLocalIp6Address(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<Mle::MleRouter>().GetLinkLocalAddress();
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}
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const otIp6Address *otThreadGetLinkLocalAllThreadNodesMulticastAddress(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<Mle::MleRouter>().GetLinkLocalAllThreadNodesAddress();
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}
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const otIp6Address *otThreadGetRealmLocalAllThreadNodesMulticastAddress(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<Mle::MleRouter>().GetRealmLocalAllThreadNodesAddress();
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}
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otError otThreadGetServiceAloc(otInstance *aInstance, uint8_t aServiceId, otIp6Address *aServiceAloc)
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{
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Error error = kErrorNone;
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VerifyOrExit(!AsCoreType(aInstance).Get<Mle::Mle>().HasRloc16(Mle::kInvalidRloc16), error = kErrorDetached);
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AsCoreType(aInstance).Get<Mle::Mle>().GetServiceAloc(aServiceId, AsCoreType(aServiceAloc));
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exit:
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return error;
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}
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const char *otThreadGetNetworkName(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<MeshCoP::NetworkNameManager>().GetNetworkName().GetAsCString();
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}
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otError otThreadSetNetworkName(otInstance *aInstance, const char *aNetworkName)
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{
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Error error = kErrorNone;
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VerifyOrExit(AsCoreType(aInstance).Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
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#if !OPENTHREAD_CONFIG_ALLOW_EMPTY_NETWORK_NAME
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// Thread interfaces support a zero length name internally for backwards compatibility, but new names
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// must be at least one valid character long.
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VerifyOrExit(nullptr != aNetworkName && aNetworkName[0] != '\0', error = kErrorInvalidArgs);
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#endif
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error = AsCoreType(aInstance).Get<MeshCoP::NetworkNameManager>().SetNetworkName(aNetworkName);
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AsCoreType(aInstance).Get<MeshCoP::ActiveDatasetManager>().Clear();
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AsCoreType(aInstance).Get<MeshCoP::PendingDatasetManager>().Clear();
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exit:
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return error;
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}
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#if (OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2)
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const char *otThreadGetDomainName(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<MeshCoP::NetworkNameManager>().GetDomainName().GetAsCString();
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}
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otError otThreadSetDomainName(otInstance *aInstance, const char *aDomainName)
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{
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Error error = kErrorNone;
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VerifyOrExit(AsCoreType(aInstance).Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
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error = AsCoreType(aInstance).Get<MeshCoP::NetworkNameManager>().SetDomainName(aDomainName);
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exit:
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return error;
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}
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#if OPENTHREAD_CONFIG_DUA_ENABLE
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otError otThreadSetFixedDuaInterfaceIdentifier(otInstance *aInstance, const otIp6InterfaceIdentifier *aIid)
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{
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Error error = kErrorNone;
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if (aIid)
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{
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error = AsCoreType(aInstance).Get<DuaManager>().SetFixedDuaInterfaceIdentifier(AsCoreType(aIid));
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}
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else
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{
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AsCoreType(aInstance).Get<DuaManager>().ClearFixedDuaInterfaceIdentifier();
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}
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return error;
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}
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const otIp6InterfaceIdentifier *otThreadGetFixedDuaInterfaceIdentifier(otInstance *aInstance)
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{
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Instance &instance = AsCoreType(aInstance);
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const otIp6InterfaceIdentifier *iid = nullptr;
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if (instance.Get<DuaManager>().IsFixedDuaInterfaceIdentifierSet())
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{
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iid = &instance.Get<DuaManager>().GetFixedDuaInterfaceIdentifier();
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}
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return iid;
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}
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#endif // OPENTHREAD_CONFIG_DUA_ENABLE
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#endif // (OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2)
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uint32_t otThreadGetKeySequenceCounter(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<KeyManager>().GetCurrentKeySequence();
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}
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void otThreadSetKeySequenceCounter(otInstance *aInstance, uint32_t aKeySequenceCounter)
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{
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AsCoreType(aInstance).Get<KeyManager>().SetCurrentKeySequence(
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aKeySequenceCounter, KeyManager::kForceUpdate | KeyManager::kGuardTimerUnchanged);
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}
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uint16_t otThreadGetKeySwitchGuardTime(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<KeyManager>().GetKeySwitchGuardTime();
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}
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void otThreadSetKeySwitchGuardTime(otInstance *aInstance, uint16_t aKeySwitchGuardTime)
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{
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AsCoreType(aInstance).Get<KeyManager>().SetKeySwitchGuardTime(aKeySwitchGuardTime);
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}
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otError otThreadBecomeDetached(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<Mle::MleRouter>().BecomeDetached();
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}
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otError otThreadBecomeChild(otInstance *aInstance) { return AsCoreType(aInstance).Get<Mle::MleRouter>().BecomeChild(); }
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otError otThreadGetNextNeighborInfo(otInstance *aInstance, otNeighborInfoIterator *aIterator, otNeighborInfo *aInfo)
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{
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AssertPointerIsNotNull(aIterator);
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return AsCoreType(aInstance).Get<NeighborTable>().GetNextNeighborInfo(*aIterator, AsCoreType(aInfo));
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}
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otDeviceRole otThreadGetDeviceRole(otInstance *aInstance)
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{
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return MapEnum(AsCoreType(aInstance).Get<Mle::MleRouter>().GetRole());
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}
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const char *otThreadDeviceRoleToString(otDeviceRole aRole) { return Mle::RoleToString(MapEnum(aRole)); }
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otError otThreadGetLeaderData(otInstance *aInstance, otLeaderData *aLeaderData)
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{
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Error error = kErrorNone;
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AssertPointerIsNotNull(aLeaderData);
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VerifyOrExit(AsCoreType(aInstance).Get<Mle::MleRouter>().IsAttached(), error = kErrorDetached);
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*aLeaderData = AsCoreType(aInstance).Get<Mle::MleRouter>().GetLeaderData();
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exit:
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return error;
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}
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uint8_t otThreadGetLeaderRouterId(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<Mle::MleRouter>().GetLeaderId();
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}
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uint8_t otThreadGetLeaderWeight(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<Mle::MleRouter>().GetLeaderData().GetWeighting();
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}
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uint32_t otThreadGetPartitionId(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<Mle::MleRouter>().GetLeaderData().GetPartitionId();
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}
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uint16_t otThreadGetRloc16(otInstance *aInstance) { return AsCoreType(aInstance).Get<Mle::MleRouter>().GetRloc16(); }
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otError otThreadGetParentInfo(otInstance *aInstance, otRouterInfo *aParentInfo)
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{
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return AsCoreType(aInstance).Get<Mle::Mle>().GetParentInfo(AsCoreType(aParentInfo));
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}
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otError otThreadGetParentAverageRssi(otInstance *aInstance, int8_t *aParentRssi)
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{
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Error error = kErrorNone;
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AssertPointerIsNotNull(aParentRssi);
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*aParentRssi = AsCoreType(aInstance).Get<Mle::MleRouter>().GetParent().GetLinkInfo().GetAverageRss();
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VerifyOrExit(*aParentRssi != Radio::kInvalidRssi, error = kErrorFailed);
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exit:
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return error;
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}
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otError otThreadGetParentLastRssi(otInstance *aInstance, int8_t *aLastRssi)
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{
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Error error = kErrorNone;
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AssertPointerIsNotNull(aLastRssi);
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*aLastRssi = AsCoreType(aInstance).Get<Mle::MleRouter>().GetParent().GetLinkInfo().GetLastRss();
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VerifyOrExit(*aLastRssi != Radio::kInvalidRssi, error = kErrorFailed);
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exit:
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return error;
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}
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otError otThreadSearchForBetterParent(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<Mle::Mle>().SearchForBetterParent();
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}
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otError otThreadSetEnabled(otInstance *aInstance, bool aEnabled)
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{
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Error error = kErrorNone;
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if (aEnabled)
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{
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error = AsCoreType(aInstance).Get<Mle::MleRouter>().Start();
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}
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else
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{
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AsCoreType(aInstance).Get<Mle::MleRouter>().Stop();
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}
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return error;
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}
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uint16_t otThreadGetVersion(void) { return kThreadVersion; }
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bool otThreadIsSingleton(otInstance *aInstance)
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{
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bool isSingleton = false;
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#if OPENTHREAD_FTD
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isSingleton = AsCoreType(aInstance).Get<Mle::MleRouter>().IsSingleton();
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#else
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OT_UNUSED_VARIABLE(aInstance);
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#endif
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return isSingleton;
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}
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otError otThreadDiscover(otInstance *aInstance,
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uint32_t aScanChannels,
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uint16_t aPanId,
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bool aJoiner,
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bool aEnableEui64Filtering,
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otHandleActiveScanResult aCallback,
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void *aCallbackContext)
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{
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return AsCoreType(aInstance).Get<Mle::DiscoverScanner>().Discover(
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Mac::ChannelMask(aScanChannels), aPanId, aJoiner, aEnableEui64Filtering,
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/* aFilterIndexes (use hash of factory EUI64) */ nullptr, aCallback, aCallbackContext);
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}
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otError otThreadSetJoinerAdvertisement(otInstance *aInstance,
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uint32_t aOui,
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const uint8_t *aAdvData,
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uint8_t aAdvDataLength)
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{
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return AsCoreType(aInstance).Get<Mle::DiscoverScanner>().SetJoinerAdvertisement(aOui, aAdvData, aAdvDataLength);
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}
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bool otThreadIsDiscoverInProgress(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<Mle::DiscoverScanner>().IsInProgress();
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}
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const otIpCounters *otThreadGetIp6Counters(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<MeshForwarder>().GetCounters();
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}
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void otThreadResetIp6Counters(otInstance *aInstance) { AsCoreType(aInstance).Get<MeshForwarder>().ResetCounters(); }
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#if OPENTHREAD_CONFIG_TX_QUEUE_STATISTICS_ENABLE
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const uint32_t *otThreadGetTimeInQueueHistogram(otInstance *aInstance, uint16_t *aNumBins, uint32_t *aBinInterval)
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{
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AssertPointerIsNotNull(aNumBins);
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AssertPointerIsNotNull(aBinInterval);
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return AsCoreType(aInstance).Get<MeshForwarder>().GetTimeInQueueHistogram(*aNumBins, *aBinInterval);
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}
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uint32_t otThreadGetMaxTimeInQueue(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<MeshForwarder>().GetMaxTimeInQueue();
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}
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void otThreadResetTimeInQueueStat(otInstance *aInstance)
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{
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return AsCoreType(aInstance).Get<MeshForwarder>().ResetTimeInQueueStat();
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}
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#endif
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const otMleCounters *otThreadGetMleCounters(otInstance *aInstance)
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{
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return &AsCoreType(aInstance).Get<Mle::MleRouter>().GetCounters();
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}
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void otThreadResetMleCounters(otInstance *aInstance) { AsCoreType(aInstance).Get<Mle::MleRouter>().ResetCounters(); }
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#if OPENTHREAD_CONFIG_MLE_PARENT_RESPONSE_CALLBACK_API_ENABLE
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void otThreadRegisterParentResponseCallback(otInstance *aInstance,
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otThreadParentResponseCallback aCallback,
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void *aContext)
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{
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AsCoreType(aInstance).Get<Mle::MleRouter>().RegisterParentResponseStatsCallback(aCallback, aContext);
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}
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#endif
|
|
|
|
#if OPENTHREAD_CONFIG_TMF_ANYCAST_LOCATOR_ENABLE
|
|
otError otThreadLocateAnycastDestination(otInstance *aInstance,
|
|
const otIp6Address *aAnycastAddress,
|
|
otThreadAnycastLocatorCallback aCallback,
|
|
void *aContext)
|
|
{
|
|
return AsCoreType(aInstance).Get<AnycastLocator>().Locate(AsCoreType(aAnycastAddress), aCallback, aContext);
|
|
}
|
|
|
|
bool otThreadIsAnycastLocateInProgress(otInstance *aInstance)
|
|
{
|
|
return AsCoreType(aInstance).Get<AnycastLocator>().IsInProgress();
|
|
}
|
|
#endif
|
|
|
|
otError otThreadDetachGracefully(otInstance *aInstance, otDetachGracefullyCallback aCallback, void *aContext)
|
|
{
|
|
return AsCoreType(aInstance).Get<Mle::MleRouter>().DetachGracefully(aCallback, aContext);
|
|
}
|
|
|
|
#if OPENTHREAD_CONFIG_DYNAMIC_STORE_FRAME_AHEAD_COUNTER_ENABLE
|
|
void otThreadSetStoreFrameCounterAhead(otInstance *aInstance, uint32_t aStoreFrameCounterAhead)
|
|
{
|
|
return AsCoreType(aInstance).Get<Mle::Mle>().SetStoreFrameCounterAhead(aStoreFrameCounterAhead);
|
|
}
|
|
|
|
uint32_t otThreadGetStoreFrameCounterAhead(otInstance *aInstance)
|
|
{
|
|
return AsCoreType(aInstance).Get<Mle::Mle>().GetStoreFrameCounterAhead();
|
|
}
|
|
#endif
|
|
|
|
#endif // OPENTHREAD_FTD || OPENTHREAD_MTD
|
|
|
|
#if OPENTHREAD_CONFIG_UPTIME_ENABLE
|
|
void otConvertDurationInSecondsToString(uint32_t aDuration, char *aBuffer, uint16_t aSize)
|
|
{
|
|
StringWriter writer(aBuffer, aSize);
|
|
|
|
Uptime::UptimeToString(Uptime::SecToMsec(aDuration), writer, /* aIncludeMsec */ false);
|
|
}
|
|
#endif
|