/* * 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 MeshCoP Datasets manager to process commands. * */ #include "meshcop/dataset_manager.hpp" #if OPENTHREAD_FTD #include #include #include "coap/coap_message.hpp" #include "common/as_core_type.hpp" #include "common/code_utils.hpp" #include "common/debug.hpp" #include "common/instance.hpp" #include "common/locator_getters.hpp" #include "common/log.hpp" #include "common/random.hpp" #include "common/timer.hpp" #include "meshcop/dataset.hpp" #include "meshcop/meshcop.hpp" #include "meshcop/meshcop_leader.hpp" #include "meshcop/meshcop_tlvs.hpp" #include "thread/thread_netif.hpp" #include "thread/thread_tlvs.hpp" #include "thread/uri_paths.hpp" namespace ot { namespace MeshCoP { RegisterLogModule("DatasetManager"); Error DatasetManager::AppendMleDatasetTlv(Message &aMessage) const { Dataset dataset; IgnoreError(Read(dataset)); return dataset.AppendMleDatasetTlv(GetType(), aMessage); } Error DatasetManager::HandleSet(Coap::Message &aMessage, const Ip6::MessageInfo &aMessageInfo) { Tlv tlv; uint16_t offset = aMessage.GetOffset(); bool isUpdateFromCommissioner = false; bool doesAffectConnectivity = false; bool doesAffectNetworkKey = false; bool hasNetworkKey = false; StateTlv::State state = StateTlv::kReject; Dataset dataset; Timestamp activeTimestamp; ChannelTlv channel; uint16_t sessionId; Ip6::NetworkPrefix meshLocalPrefix; NetworkKey networkKey; uint16_t panId; VerifyOrExit(Get().IsLeader()); // verify that TLV data size is less than maximum TLV value size while (offset < aMessage.GetLength()) { SuccessOrExit(aMessage.Read(offset, tlv)); VerifyOrExit(tlv.GetLength() <= Dataset::kMaxValueSize); offset += sizeof(tlv) + tlv.GetLength(); } // verify that does not overflow dataset buffer VerifyOrExit((offset - aMessage.GetOffset()) <= Dataset::kMaxSize); // verify the request includes a timestamp that is ahead of the locally stored value SuccessOrExit(Tlv::Find(aMessage, activeTimestamp)); if (GetType() == Dataset::kPending) { Timestamp pendingTimestamp; SuccessOrExit(Tlv::Find(aMessage, pendingTimestamp)); VerifyOrExit(Timestamp::Compare(&pendingTimestamp, mLocal.GetTimestamp()) > 0); } else { VerifyOrExit(Timestamp::Compare(&activeTimestamp, mLocal.GetTimestamp()) > 0); } // check channel if (Tlv::FindTlv(aMessage, channel) == kErrorNone) { VerifyOrExit(channel.IsValid()); if (channel.GetChannel() != Get().GetPanChannel()) { doesAffectConnectivity = true; } } // check PAN ID if (Tlv::Find(aMessage, panId) == kErrorNone && panId != Get().GetPanId()) { doesAffectConnectivity = true; } // check mesh local prefix if (Tlv::Find(aMessage, meshLocalPrefix) == kErrorNone && meshLocalPrefix != Get().GetMeshLocalPrefix()) { doesAffectConnectivity = true; } // check network key if (Tlv::Find(aMessage, networkKey) == kErrorNone) { NetworkKey localNetworkKey; hasNetworkKey = true; Get().GetNetworkKey(localNetworkKey); if (networkKey != localNetworkKey) { doesAffectConnectivity = true; doesAffectNetworkKey = true; } } // check active timestamp rollback if (GetType() == Dataset::kPending && (!hasNetworkKey || !doesAffectNetworkKey)) { // no change to network key, active timestamp must be ahead const Timestamp *localActiveTimestamp = Get().GetTimestamp(); VerifyOrExit(Timestamp::Compare(&activeTimestamp, localActiveTimestamp) > 0); } // check commissioner session id if (Tlv::Find(aMessage, sessionId) == kErrorNone) { const CommissionerSessionIdTlv *localId; isUpdateFromCommissioner = true; localId = As( Get().GetCommissioningDataSubTlv(Tlv::kCommissionerSessionId)); VerifyOrExit(localId != nullptr && localId->GetCommissionerSessionId() == sessionId); } // verify an MGMT_ACTIVE_SET.req from a Commissioner does not affect connectivity VerifyOrExit(!isUpdateFromCommissioner || GetType() == Dataset::kPending || !doesAffectConnectivity); if (isUpdateFromCommissioner) { // Thread specification allows partial dataset changes for MGMT_ACTIVE_SET.req/MGMT_PENDING_SET.req // from Commissioner based on existing active dataset. IgnoreError(Get().Read(dataset)); } if (GetType() == Dataset::kPending || !doesAffectConnectivity) { offset = aMessage.GetOffset(); while (offset < aMessage.GetLength()) { DatasetTlv datasetTlv; SuccessOrExit(datasetTlv.ReadFromMessage(aMessage, offset)); switch (datasetTlv.GetType()) { case Tlv::kCommissionerSessionId: // do not store Commissioner Session ID TLV break; case Tlv::kDelayTimer: { DelayTimerTlv &delayTimerTlv = As(datasetTlv); if (doesAffectNetworkKey && delayTimerTlv.GetDelayTimer() < DelayTimerTlv::kDelayTimerDefault) { delayTimerTlv.SetDelayTimer(DelayTimerTlv::kDelayTimerDefault); } else if (delayTimerTlv.GetDelayTimer() < Get().GetDelayTimerMinimal()) { delayTimerTlv.SetDelayTimer(Get().GetDelayTimerMinimal()); } } OT_FALL_THROUGH; default: SuccessOrExit(dataset.SetTlv(datasetTlv)); break; } offset += static_cast(datasetTlv.GetSize()); } SuccessOrExit(Save(dataset)); Get().IncrementVersionAndStableVersion(); } else { Get().ApplyActiveDataset(activeTimestamp, aMessage); } state = StateTlv::kAccept; // notify commissioner if update is from thread device if (!isUpdateFromCommissioner) { const CommissionerSessionIdTlv *localSessionId; Ip6::Address destination; localSessionId = As( Get().GetCommissioningDataSubTlv(Tlv::kCommissionerSessionId)); VerifyOrExit(localSessionId != nullptr); SuccessOrExit( Get().GetCommissionerAloc(destination, localSessionId->GetCommissionerSessionId())); Get().SendDatasetChanged(destination); } exit: if (Get().IsLeader()) { SendSetResponse(aMessage, aMessageInfo, state); } return (state == StateTlv::kAccept) ? kErrorNone : kErrorDrop; } void DatasetManager::SendSetResponse(const Coap::Message &aRequest, const Ip6::MessageInfo &aMessageInfo, StateTlv::State aState) { Error error = kErrorNone; Coap::Message *message; message = Get().NewPriorityResponseMessage(aRequest); VerifyOrExit(message != nullptr, error = kErrorNoBufs); SuccessOrExit(error = Tlv::Append(*message, aState)); SuccessOrExit(error = Get().SendMessage(*message, aMessageInfo)); LogInfo("sent dataset set response"); exit: FreeMessageOnError(message, error); } Error DatasetManager::DatasetTlv::ReadFromMessage(const Message &aMessage, uint16_t aOffset) { Error error = kErrorNone; SuccessOrExit(error = aMessage.Read(aOffset, this, sizeof(Tlv))); VerifyOrExit(GetLength() <= Dataset::kMaxValueSize, error = kErrorParse); SuccessOrExit(error = aMessage.Read(aOffset + sizeof(Tlv), mValue, GetLength())); VerifyOrExit(Tlv::IsValid(*this), error = kErrorParse); exit: return error; } Error ActiveDatasetManager::GenerateLocal(void) { Error error = kErrorNone; Dataset dataset; VerifyOrExit(Get().IsAttached(), error = kErrorInvalidState); VerifyOrExit(!mLocal.IsTimestampPresent(), error = kErrorAlready); IgnoreError(Read(dataset)); if (dataset.GetTlv() == nullptr) { Timestamp timestamp; timestamp.Clear(); IgnoreError(dataset.SetTlv(Tlv::kActiveTimestamp, timestamp)); } if (dataset.GetTlv() == nullptr) { ChannelTlv tlv; tlv.Init(); tlv.SetChannel(Get().GetPanChannel()); IgnoreError(dataset.SetTlv(tlv)); } if (dataset.GetTlv() == nullptr) { ChannelMaskTlv tlv; tlv.Init(); tlv.SetChannelMask(Get().GetSupportedChannelMask().GetMask()); IgnoreError(dataset.SetTlv(tlv)); } if (dataset.GetTlv() == nullptr) { IgnoreError(dataset.SetTlv(Tlv::kExtendedPanId, Get().GetExtPanId())); } if (dataset.GetTlv() == nullptr) { IgnoreError(dataset.SetTlv(Tlv::kMeshLocalPrefix, Get().GetMeshLocalPrefix())); } if (dataset.GetTlv() == nullptr) { NetworkKey networkKey; Get().GetNetworkKey(networkKey); IgnoreError(dataset.SetTlv(Tlv::kNetworkKey, networkKey)); } if (dataset.GetTlv() == nullptr) { NameData nameData = Get().GetNetworkName().GetAsData(); IgnoreError(dataset.SetTlv(Tlv::kNetworkName, nameData.GetBuffer(), nameData.GetLength())); } if (dataset.GetTlv() == nullptr) { IgnoreError(dataset.SetTlv(Tlv::kPanId, Get().GetPanId())); } if (dataset.GetTlv() == nullptr) { Pskc pskc; if (Get().IsPskcSet()) { Get().GetPskc(pskc); } else { SuccessOrExit(error = pskc.GenerateRandom()); } IgnoreError(dataset.SetTlv(Tlv::kPskc, pskc)); } if (dataset.GetTlv() == nullptr) { SecurityPolicyTlv tlv; tlv.Init(); tlv.SetSecurityPolicy(Get().GetSecurityPolicy()); IgnoreError(dataset.SetTlv(tlv)); } SuccessOrExit(error = mLocal.Save(dataset)); IgnoreError(Restore()); LogInfo("Generated local dataset"); exit: return error; } void ActiveDatasetManager::StartLeader(void) { IgnoreError(GenerateLocal()); } template <> void ActiveDatasetManager::HandleTmf(Coap::Message &aMessage, const Ip6::MessageInfo &aMessageInfo) { VerifyOrExit(Get().IsLeader()); SuccessOrExit(DatasetManager::HandleSet(aMessage, aMessageInfo)); IgnoreError(ApplyConfiguration()); exit: return; } void PendingDatasetManager::StartLeader(void) { StartDelayTimer(); } template <> void PendingDatasetManager::HandleTmf(Coap::Message &aMessage, const Ip6::MessageInfo &aMessageInfo) { VerifyOrExit(Get().IsLeader()); SuccessOrExit(DatasetManager::HandleSet(aMessage, aMessageInfo)); StartDelayTimer(); exit: return; } void PendingDatasetManager::ApplyActiveDataset(const Timestamp &aTimestamp, Coap::Message &aMessage) { uint16_t offset = aMessage.GetOffset(); Dataset dataset; VerifyOrExit(Get().IsAttached()); while (offset < aMessage.GetLength()) { DatasetTlv datasetTlv; SuccessOrExit(datasetTlv.ReadFromMessage(aMessage, offset)); offset += static_cast(datasetTlv.GetSize()); IgnoreError(dataset.SetTlv(datasetTlv)); } // add delay timer tlv IgnoreError(dataset.SetTlv(Tlv::kDelayTimer, Get().GetDelayTimerMinimal())); // add pending timestamp tlv dataset.SetTimestamp(Dataset::kPending, aTimestamp); IgnoreError(DatasetManager::Save(dataset)); // reset delay timer StartDelayTimer(); exit: return; } } // namespace MeshCoP } // namespace ot #endif // OPENTHREAD_FTD