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fuchsia / third_party / openthread / 897a29565efb5c0b9590b201fd9287b8c5758c86 / . / src / core / api / thread_ftd_api.cpp
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/*
* Copyright (c) 2016-2017, The OpenThread Authors.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the copyright holder nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/**
* @file
* This file implements the OpenThread Thread API (FTD only).
*/
#include "openthread-core-config.h"
#if OPENTHREAD_FTD
#include <openthread/thread_ftd.h>
#include "common/as_core_type.hpp"
#include "common/locator_getters.hpp"
using namespace ot;
uint16_t otThreadGetMaxAllowedChildren(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<ChildTable>().GetMaxChildrenAllowed();
}
otError otThreadSetMaxAllowedChildren(otInstance *aInstance, uint16_t aMaxChildren)
{
return AsCoreType(aInstance).Get<ChildTable>().SetMaxChildrenAllowed(aMaxChildren);
}
uint8_t otThreadGetMaxChildIpAddresses(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetMaxChildIpAddresses();
}
#if OPENTHREAD_CONFIG_REFERENCE_DEVICE_ENABLE
otError otThreadSetMaxChildIpAddresses(otInstance *aInstance, uint8_t aMaxIpAddresses)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().SetMaxChildIpAddresses(aMaxIpAddresses);
}
#endif
bool otThreadIsRouterEligible(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().IsRouterEligible();
}
otError otThreadSetRouterEligible(otInstance *aInstance, bool aEligible)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().SetRouterEligible(aEligible);
}
otError otThreadSetPreferredRouterId(otInstance *aInstance, uint8_t aRouterId)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().SetPreferredRouterId(aRouterId);
}
uint8_t otThreadGetLocalLeaderWeight(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetLeaderWeight();
}
void otThreadSetLocalLeaderWeight(otInstance *aInstance, uint8_t aWeight)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetLeaderWeight(aWeight);
}
#if OPENTHREAD_CONFIG_REFERENCE_DEVICE_ENABLE
uint32_t otThreadGetPreferredLeaderPartitionId(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetPreferredLeaderPartitionId();
}
void otThreadSetPreferredLeaderPartitionId(otInstance *aInstance, uint32_t aPartitionId)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetPreferredLeaderPartitionId(aPartitionId);
}
#endif
uint16_t otThreadGetJoinerUdpPort(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<MeshCoP::JoinerRouter>().GetJoinerUdpPort();
}
otError otThreadSetJoinerUdpPort(otInstance *aInstance, uint16_t aJoinerUdpPort)
{
AsCoreType(aInstance).Get<MeshCoP::JoinerRouter>().SetJoinerUdpPort(aJoinerUdpPort);
return kErrorNone;
}
uint32_t otThreadGetContextIdReuseDelay(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<NetworkData::Leader>().GetContextIdReuseDelay();
}
void otThreadSetContextIdReuseDelay(otInstance *aInstance, uint32_t aDelay)
{
AsCoreType(aInstance).Get<NetworkData::Leader>().SetContextIdReuseDelay(aDelay);
}
uint8_t otThreadGetNetworkIdTimeout(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetNetworkIdTimeout();
}
void otThreadSetNetworkIdTimeout(otInstance *aInstance, uint8_t aTimeout)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetNetworkIdTimeout(aTimeout);
}
uint8_t otThreadGetRouterUpgradeThreshold(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetRouterUpgradeThreshold();
}
void otThreadSetRouterUpgradeThreshold(otInstance *aInstance, uint8_t aThreshold)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetRouterUpgradeThreshold(aThreshold);
}
otError otThreadReleaseRouterId(otInstance *aInstance, uint8_t aRouterId)
{
Error error = kErrorNone;
VerifyOrExit(aRouterId <= Mle::kMaxRouterId, error = kErrorInvalidArgs);
error = AsCoreType(aInstance).Get<RouterTable>().Release(aRouterId);
exit:
return error;
}
otError otThreadBecomeRouter(otInstance *aInstance)
{
Error error = kErrorInvalidState;
switch (AsCoreType(aInstance).Get<Mle::MleRouter>().GetRole())
{
case Mle::kRoleDisabled:
case Mle::kRoleDetached:
break;
case Mle::kRoleChild:
error = AsCoreType(aInstance).Get<Mle::MleRouter>().BecomeRouter(ThreadStatusTlv::kHaveChildIdRequest);
break;
case Mle::kRoleRouter:
case Mle::kRoleLeader:
error = kErrorNone;
break;
}
return error;
}
otError otThreadBecomeLeader(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().BecomeLeader();
}
uint8_t otThreadGetRouterDowngradeThreshold(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetRouterDowngradeThreshold();
}
void otThreadSetRouterDowngradeThreshold(otInstance *aInstance, uint8_t aThreshold)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetRouterDowngradeThreshold(aThreshold);
}
uint8_t otThreadGetRouterSelectionJitter(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetRouterSelectionJitter();
}
void otThreadSetRouterSelectionJitter(otInstance *aInstance, uint8_t aRouterJitter)
{
IgnoreError(AsCoreType(aInstance).Get<Mle::MleRouter>().SetRouterSelectionJitter(aRouterJitter));
}
otError otThreadGetChildInfoById(otInstance *aInstance, uint16_t aChildId, otChildInfo *aChildInfo)
{
return AsCoreType(aInstance).Get<ChildTable>().GetChildInfoById(aChildId, AsCoreType(aChildInfo));
}
otError otThreadGetChildInfoByIndex(otInstance *aInstance, uint16_t aChildIndex, otChildInfo *aChildInfo)
{
return AsCoreType(aInstance).Get<ChildTable>().GetChildInfoByIndex(aChildIndex, AsCoreType(aChildInfo));
}
otError otThreadGetChildNextIp6Address(otInstance * aInstance,
uint16_t aChildIndex,
otChildIp6AddressIterator *aIterator,
otIp6Address * aAddress)
{
Error error = kErrorNone;
const Child *child;
AssertPointerIsNotNull(aIterator);
AssertPointerIsNotNull(aAddress);
child = AsCoreType(aInstance).Get<ChildTable>().GetChildAtIndex(aChildIndex);
VerifyOrExit(child != nullptr, error = kErrorInvalidArgs);
VerifyOrExit(child->IsStateValidOrRestoring(), error = kErrorInvalidArgs);
{
Child::AddressIterator iter(*child, *aIterator);
VerifyOrExit(!iter.IsDone(), error = kErrorNotFound);
*aAddress = *iter.GetAddress();
iter++;
*aIterator = iter.GetAsIndex();
}
exit:
return error;
}
uint8_t otThreadGetRouterIdSequence(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<RouterTable>().GetRouterIdSequence();
}
uint8_t otThreadGetMaxRouterId(otInstance *aInstance)
{
OT_UNUSED_VARIABLE(aInstance);
return Mle::kMaxRouterId;
}
otError otThreadGetRouterInfo(otInstance *aInstance, uint16_t aRouterId, otRouterInfo *aRouterInfo)
{
return AsCoreType(aInstance).Get<RouterTable>().GetRouterInfo(aRouterId, AsCoreType(aRouterInfo));
}
otError otThreadGetNextCacheEntry(otInstance *aInstance, otCacheEntryInfo *aEntryInfo, otCacheEntryIterator *aIterator)
{
AssertPointerIsNotNull(aIterator);
AssertPointerIsNotNull(aEntryInfo);
return AsCoreType(aInstance).Get<AddressResolver>().GetNextCacheEntry(*aEntryInfo, *aIterator);
}
#if OPENTHREAD_CONFIG_MLE_STEERING_DATA_SET_OOB_ENABLE
void otThreadSetSteeringData(otInstance *aInstance, const otExtAddress *aExtAddress)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetSteeringData(AsCoreTypePtr(aExtAddress));
}
#endif
void otThreadGetPskc(otInstance *aInstance, otPskc *aPskc)
{
AsCoreType(aInstance).Get<KeyManager>().GetPskc(AsCoreType(aPskc));
}
#if OPENTHREAD_CONFIG_PLATFORM_KEY_REFERENCES_ENABLE
otPskcRef otThreadGetPskcRef(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<KeyManager>().GetPskcRef();
}
#endif
otError otThreadSetPskc(otInstance *aInstance, const otPskc *aPskc)
{
Error error = kErrorNone;
VerifyOrExit(AsCoreType(aInstance).Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
AsCoreType(aInstance).Get<KeyManager>().SetPskc(AsCoreType(aPskc));
AsCoreType(aInstance).Get<MeshCoP::ActiveDatasetManager>().Clear();
AsCoreType(aInstance).Get<MeshCoP::PendingDatasetManager>().Clear();
exit:
return error;
}
#if OPENTHREAD_CONFIG_PLATFORM_KEY_REFERENCES_ENABLE
otError otThreadSetPskcRef(otInstance *aInstance, otPskcRef aKeyRef)
{
Error error = kErrorNone;
Instance &instance = AsCoreType(aInstance);
VerifyOrExit(aKeyRef != 0, error = kErrorInvalidArgs);
VerifyOrExit(instance.Get<Mle::MleRouter>().IsDisabled(), error = kErrorInvalidState);
instance.Get<KeyManager>().SetPskcRef(aKeyRef);
instance.Get<MeshCoP::ActiveDatasetManager>().Clear();
instance.Get<MeshCoP::PendingDatasetManager>().Clear();
exit:
return error;
}
#endif
int8_t otThreadGetParentPriority(otInstance *aInstance)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().GetAssignParentPriority();
}
otError otThreadSetParentPriority(otInstance *aInstance, int8_t aParentPriority)
{
return AsCoreType(aInstance).Get<Mle::MleRouter>().SetAssignParentPriority(aParentPriority);
}
void otThreadRegisterNeighborTableCallback(otInstance *aInstance, otNeighborTableCallback aCallback)
{
AsCoreType(aInstance).Get<NeighborTable>().RegisterCallback(aCallback);
}
void otThreadSetDiscoveryRequestCallback(otInstance * aInstance,
otThreadDiscoveryRequestCallback aCallback,
void * aContext)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetDiscoveryRequestCallback(aCallback, aContext);
}
#if OPENTHREAD_CONFIG_REFERENCE_DEVICE_ENABLE
void otThreadSendAddressNotification(otInstance * aInstance,
otIp6Address * aDestination,
otIp6Address * aTarget,
otIp6InterfaceIdentifier *aMlIid)
{
AsCoreType(aInstance).Get<AddressResolver>().SendAddressQueryResponse(AsCoreType(aTarget), AsCoreType(aMlIid),
nullptr, AsCoreType(aDestination));
}
#if OPENTHREAD_CONFIG_BACKBONE_ROUTER_DUA_NDPROXYING_ENABLE
otError otThreadSendProactiveBackboneNotification(otInstance * aInstance,
otIp6Address * aTarget,
otIp6InterfaceIdentifier *aMlIid,
uint32_t aTimeSinceLastTransaction)
{
return AsCoreType(aInstance).Get<BackboneRouter::Manager>().SendProactiveBackboneNotification(
AsCoreType(aTarget), AsCoreType(aMlIid), aTimeSinceLastTransaction);
}
#endif
void otThreadSetCcmEnabled(otInstance *aInstance, bool aEnabled)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetCcmEnabled(aEnabled);
}
void otThreadSetThreadVersionCheckEnabled(otInstance *aInstance, bool aEnabled)
{
AsCoreType(aInstance).Get<Mle::MleRouter>().SetThreadVersionCheckEnabled(aEnabled);
}
#endif
#if OPENTHREAD_CONFIG_REFERENCE_DEVICE_ENABLE
void otThreadGetRouterIdRange(otInstance *aInstance, uint8_t *aMinRouterId, uint8_t *aMaxRouterId)
{
AsCoreType(aInstance).Get<RouterTable>().GetRouterIdRange(*aMinRouterId, *aMaxRouterId);
}
otError otThreadSetRouterIdRange(otInstance *aInstance, uint8_t aMinRouterId, uint8_t aMaxRouterId)
{
return AsCoreType(aInstance).Get<RouterTable>().SetRouterIdRange(aMinRouterId, aMaxRouterId);
}
#endif
#endif // OPENTHREAD_FTD