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nest-open-source / nest-guard / 1.0 / openthread / c49dabe037451f9dd90960f80fc536ff3c9e2048 / . / src / core / api / thread_api.cpp
blob: f68ce7d5d2a7b0555178c9e28581539f689ce351 [file] [log] [blame]
/*
* Copyright (c) 2016, 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 (for both FTD and MTD).
*/
#define WPP_NAME "thread_api.tmh"
#include <openthread/config.h>
#include <openthread/thread.h>
#include <openthread/platform/settings.h>
#include "openthread-instance.h"
#include "common/logging.hpp"
#include "common/settings.hpp"
using namespace ot;
uint32_t otThreadGetChildTimeout(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().GetTimeout();
}
void otThreadSetChildTimeout(otInstance *aInstance, uint32_t aTimeout)
{
aInstance->mThreadNetif.GetMle().SetTimeout(aTimeout);
}
const uint8_t *otThreadGetExtendedPanId(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMac().GetExtendedPanId();
}
otError otThreadSetExtendedPanId(otInstance *aInstance, const uint8_t *aExtendedPanId)
{
otError error = OT_ERROR_NONE;
uint8_t mlPrefix[8];
VerifyOrExit(aInstance->mThreadNetif.GetMle().GetRole() == OT_DEVICE_ROLE_DISABLED,
error = OT_ERROR_INVALID_STATE);
aInstance->mThreadNetif.GetMac().SetExtendedPanId(aExtendedPanId);
mlPrefix[0] = 0xfd;
memcpy(mlPrefix + 1, aExtendedPanId, 5);
mlPrefix[6] = 0x00;
mlPrefix[7] = 0x00;
aInstance->mThreadNetif.GetMle().SetMeshLocalPrefix(mlPrefix);
aInstance->mThreadNetif.GetActiveDataset().Clear();
aInstance->mThreadNetif.GetPendingDataset().Clear();
exit:
return error;
}
otError otThreadGetLeaderRloc(otInstance *aInstance, otIp6Address *aAddress)
{
otError error;
VerifyOrExit(aAddress != NULL, error = OT_ERROR_INVALID_ARGS);
error = aInstance->mThreadNetif.GetMle().GetLeaderAddress(*static_cast<Ip6::Address *>(aAddress));
exit:
return error;
}
otLinkModeConfig otThreadGetLinkMode(otInstance *aInstance)
{
otLinkModeConfig config;
uint8_t mode = aInstance->mThreadNetif.GetMle().GetDeviceMode();
memset(&config, 0, sizeof(otLinkModeConfig));
if (mode & Mle::ModeTlv::kModeRxOnWhenIdle)
{
config.mRxOnWhenIdle = 1;
}
if (mode & Mle::ModeTlv::kModeSecureDataRequest)
{
config.mSecureDataRequests = 1;
}
if (mode & Mle::ModeTlv::kModeFFD)
{
config.mDeviceType = 1;
}
if (mode & Mle::ModeTlv::kModeFullNetworkData)
{
config.mNetworkData = 1;
}
return config;
}
otError otThreadSetLinkMode(otInstance *aInstance, otLinkModeConfig aConfig)
{
uint8_t mode = 0;
if (aConfig.mRxOnWhenIdle)
{
mode |= Mle::ModeTlv::kModeRxOnWhenIdle;
}
if (aConfig.mSecureDataRequests)
{
mode |= Mle::ModeTlv::kModeSecureDataRequest;
}
if (aConfig.mDeviceType)
{
mode |= Mle::ModeTlv::kModeFFD;
}
if (aConfig.mNetworkData)
{
mode |= Mle::ModeTlv::kModeFullNetworkData;
}
return aInstance->mThreadNetif.GetMle().SetDeviceMode(mode);
}
const otMasterKey *otThreadGetMasterKey(otInstance *aInstance)
{
return &aInstance->mThreadNetif.GetKeyManager().GetMasterKey();
}
otError otThreadSetMasterKey(otInstance *aInstance, const otMasterKey *aKey)
{
otError error = OT_ERROR_NONE;
VerifyOrExit(aKey != NULL, error = OT_ERROR_INVALID_ARGS);
VerifyOrExit(aInstance->mThreadNetif.GetMle().GetRole() == OT_DEVICE_ROLE_DISABLED,
error = OT_ERROR_INVALID_STATE);
error = aInstance->mThreadNetif.GetKeyManager().SetMasterKey(*aKey);
aInstance->mThreadNetif.GetActiveDataset().Clear();
aInstance->mThreadNetif.GetPendingDataset().Clear();
exit:
return error;
}
const otIp6Address *otThreadGetMeshLocalEid(otInstance *aInstance)
{
return &aInstance->mThreadNetif.GetMle().GetMeshLocal64();
}
const uint8_t *otThreadGetMeshLocalPrefix(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().GetMeshLocalPrefix();
}
otError otThreadSetMeshLocalPrefix(otInstance *aInstance, const uint8_t *aMeshLocalPrefix)
{
otError error = OT_ERROR_NONE;
VerifyOrExit(aInstance->mThreadNetif.GetMle().GetRole() == OT_DEVICE_ROLE_DISABLED,
error = OT_ERROR_INVALID_STATE);
error = aInstance->mThreadNetif.GetMle().SetMeshLocalPrefix(aMeshLocalPrefix);
aInstance->mThreadNetif.GetActiveDataset().Clear();
aInstance->mThreadNetif.GetPendingDataset().Clear();
exit:
return error;
}
const otIp6Address *otThreadGetLinkLocalIp6Address(otInstance *aInstance)
{
return &aInstance->mThreadNetif.GetMle().GetLinkLocalAddress();
}
const char *otThreadGetNetworkName(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMac().GetNetworkName();
}
otError otThreadSetNetworkName(otInstance *aInstance, const char *aNetworkName)
{
otError error = OT_ERROR_NONE;
VerifyOrExit(aInstance->mThreadNetif.GetMle().GetRole() == OT_DEVICE_ROLE_DISABLED,
error = OT_ERROR_INVALID_STATE);
error = aInstance->mThreadNetif.GetMac().SetNetworkName(aNetworkName);
aInstance->mThreadNetif.GetActiveDataset().Clear();
aInstance->mThreadNetif.GetPendingDataset().Clear();
exit:
return error;
}
uint32_t otThreadGetKeySequenceCounter(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetKeyManager().GetCurrentKeySequence();
}
void otThreadSetKeySequenceCounter(otInstance *aInstance, uint32_t aKeySequenceCounter)
{
aInstance->mThreadNetif.GetKeyManager().SetCurrentKeySequence(aKeySequenceCounter);
}
uint32_t otThreadGetKeySwitchGuardTime(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetKeyManager().GetKeySwitchGuardTime();
}
void otThreadSetKeySwitchGuardTime(otInstance *aInstance, uint32_t aKeySwitchGuardTime)
{
aInstance->mThreadNetif.GetKeyManager().SetKeySwitchGuardTime(aKeySwitchGuardTime);
}
otError otThreadBecomeDetached(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().BecomeDetached();
}
otError otThreadBecomeChild(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().BecomeChild(Mle::kAttachAny);
}
otError otThreadGetNextNeighborInfo(otInstance *aInstance, otNeighborInfoIterator *aIterator, otNeighborInfo *aInfo)
{
otError error = OT_ERROR_NONE;
VerifyOrExit((aInfo != NULL) && (aIterator != NULL), error = OT_ERROR_INVALID_ARGS);
error = aInstance->mThreadNetif.GetMle().GetNextNeighborInfo(*aIterator, *aInfo);
exit:
return error;
}
otDeviceRole otThreadGetDeviceRole(otInstance *aInstance)
{
return static_cast<otDeviceRole>(aInstance->mThreadNetif.GetMle().GetRole());
}
otError otThreadGetLeaderData(otInstance *aInstance, otLeaderData *aLeaderData)
{
otError error;
VerifyOrExit(aLeaderData != NULL, error = OT_ERROR_INVALID_ARGS);
error = aInstance->mThreadNetif.GetMle().GetLeaderData(*aLeaderData);
exit:
return error;
}
uint8_t otThreadGetLeaderRouterId(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().GetLeaderDataTlv().GetLeaderRouterId();
}
uint8_t otThreadGetLeaderWeight(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().GetLeaderDataTlv().GetWeighting();
}
uint32_t otThreadGetPartitionId(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().GetLeaderDataTlv().GetPartitionId();
}
uint16_t otThreadGetRloc16(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().GetRloc16();
}
otError otThreadGetParentInfo(otInstance *aInstance, otRouterInfo *aParentInfo)
{
otError error = OT_ERROR_NONE;
Router *parent;
VerifyOrExit(aParentInfo != NULL, error = OT_ERROR_INVALID_ARGS);
parent = aInstance->mThreadNetif.GetMle().GetParent();
memcpy(aParentInfo->mExtAddress.m8, &parent->GetExtAddress(), sizeof(aParentInfo->mExtAddress));
aParentInfo->mRloc16 = parent->GetRloc16();
aParentInfo->mRouterId = Mle::Mle::GetRouterId(parent->GetRloc16());
aParentInfo->mNextHop = parent->GetNextHop();
aParentInfo->mPathCost = parent->GetCost();
aParentInfo->mLinkQualityIn = parent->GetLinkInfo().GetLinkQuality(aInstance->mThreadNetif.GetMac().GetNoiseFloor());
aParentInfo->mLinkQualityOut = parent->GetLinkQualityOut();
aParentInfo->mAge = static_cast<uint8_t>(Timer::MsecToSec(Timer::GetNow() - parent->GetLastHeard()));
aParentInfo->mAllocated = parent->IsAllocated();
aParentInfo->mLinkEstablished = parent->GetState() == Neighbor::kStateValid;
exit:
return error;
}
otError otThreadGetParentAverageRssi(otInstance *aInstance, int8_t *aParentRssi)
{
otError error = OT_ERROR_NONE;
Router *parent;
VerifyOrExit(aParentRssi != NULL, error = OT_ERROR_INVALID_ARGS);
parent = aInstance->mThreadNetif.GetMle().GetParent();
*aParentRssi = parent->GetLinkInfo().GetAverageRss();
VerifyOrExit(*aParentRssi != OT_RADIO_RSSI_INVALID, error = OT_ERROR_FAILED);
exit:
return error;
}
otError otThreadGetParentLastRssi(otInstance *aInstance, int8_t *aLastRssi)
{
otError error = OT_ERROR_NONE;
Router *parent;
VerifyOrExit(aLastRssi != NULL, error = OT_ERROR_INVALID_ARGS);
parent = aInstance->mThreadNetif.GetMle().GetParent();
*aLastRssi = parent->GetLinkInfo().GetLastRss();
VerifyOrExit(*aLastRssi != OT_RADIO_RSSI_INVALID, error = OT_ERROR_FAILED);
exit:
return error;
}
const char *otGetVersionString(void)
{
/**
* PLATFORM_VERSION_ATTR_PREFIX and PLATFORM_VERSION_ATTR_SUFFIX are
* intended to be used to specify compiler directives to indicate
* what linker section the platform version string should be stored.
*
* This is useful for specifying an exact locaiton of where the version
* string will be located so that it can be easily retrieved from the
* raw firmware image.
*
* If PLATFORM_VERSION_ATTR_PREFIX is unspecified, the keyword `static`
* is used instead.
*
* If both are unspecified, the location of the string in the firmware
* image will be undefined and may change.
*/
#ifdef PLATFORM_VERSION_ATTR_PREFIX
PLATFORM_VERSION_ATTR_PREFIX
#else
static
#endif
const char sVersion[] =
PACKAGE_NAME "/" PACKAGE_VERSION
#ifdef PLATFORM_INFO
"; " PLATFORM_INFO
#endif
#if defined(__DATE__)
"; " __DATE__ " " __TIME__
#endif
#ifdef PLATFORM_VERSION_ATTR_SUFFIX
PLATFORM_VERSION_ATTR_SUFFIX
#endif
; // Trailing semicolon to end statement.
return sVersion;
}
#if OPENTHREAD_FTD || OPENTHREAD_ENABLE_MTD_NETWORK_DIAGNOSTIC
void otThreadSetReceiveDiagnosticGetCallback(otInstance *aInstance, otReceiveDiagnosticGetCallback aCallback,
void *aCallbackContext)
{
aInstance->mThreadNetif.GetNetworkDiagnostic().SetReceiveDiagnosticGetCallback(aCallback, aCallbackContext);
}
otError otThreadSendDiagnosticGet(otInstance *aInstance, const otIp6Address *aDestination,
const uint8_t aTlvTypes[], uint8_t aCount)
{
return aInstance->mThreadNetif.GetNetworkDiagnostic().SendDiagnosticGet(*static_cast<const Ip6::Address *>
(aDestination),
aTlvTypes,
aCount);
}
otError otThreadSendDiagnosticReset(otInstance *aInstance, const otIp6Address *aDestination,
const uint8_t aTlvTypes[], uint8_t aCount)
{
return aInstance->mThreadNetif.GetNetworkDiagnostic().SendDiagnosticReset(*static_cast<const Ip6::Address *>
(aDestination),
aTlvTypes,
aCount);
}
#endif // OPENTHREAD_FTD || OPENTHREAD_ENABLE_MTD_NETWORK_DIAGNOSTIC
otError otThreadSetEnabled(otInstance *aInstance, bool aEnabled)
{
otError error = OT_ERROR_NONE;
otLogFuncEntry();
if (aEnabled)
{
VerifyOrExit(aInstance->mThreadNetif.GetMac().GetPanId() != Mac::kPanIdBroadcast,
error = OT_ERROR_INVALID_STATE);
error = aInstance->mThreadNetif.GetMle().Start(true, false);
}
else
{
error = aInstance->mThreadNetif.GetMle().Stop(true);
}
exit:
otLogFuncExitErr(error);
return error;
}
bool otThreadGetAutoStart(otInstance *aInstance)
{
#if OPENTHREAD_CONFIG_ENABLE_AUTO_START_SUPPORT
uint8_t autoStart = 0;
uint16_t autoStartLength = sizeof(autoStart);
if (otPlatSettingsGet(aInstance, Settings::kKeyThreadAutoStart, 0, &autoStart, &autoStartLength) !=
OT_ERROR_NONE)
{
autoStart = 0;
}
return autoStart != 0;
#else
OT_UNUSED_VARIABLE(aInstance);
return false;
#endif
}
otError otThreadSetAutoStart(otInstance *aInstance, bool aStartAutomatically)
{
#if OPENTHREAD_CONFIG_ENABLE_AUTO_START_SUPPORT
uint8_t autoStart = aStartAutomatically ? 1 : 0;
return otPlatSettingsSet(aInstance, Settings::kKeyThreadAutoStart, &autoStart, sizeof(autoStart));
#else
OT_UNUSED_VARIABLE(aInstance);
OT_UNUSED_VARIABLE(aStartAutomatically);
return OT_ERROR_NOT_IMPLEMENTED;
#endif
}
bool otThreadIsSingleton(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().IsSingleton();
}
otError otThreadDiscover(otInstance *aInstance, uint32_t aScanChannels, uint16_t aPanId, bool aJoiner,
bool aEnableEui64Filtering, otHandleActiveScanResult aCallback, void *aCallbackContext)
{
return aInstance->mThreadNetif.GetMle().Discover(aScanChannels, aPanId, aJoiner, aEnableEui64Filtering, aCallback,
aCallbackContext);
}
bool otThreadIsDiscoverInProgress(otInstance *aInstance)
{
return aInstance->mThreadNetif.GetMle().IsDiscoverInProgress();
}
const otIpCounters *otThreadGetIp6Counters(otInstance *aInstance)
{
return &aInstance->mThreadNetif.GetMeshForwarder().GetCounters();
}