blob: c979e0d9cd77a3920a8d6526be923b0497e752d6 [file] [log] [blame]
/*
*
* Copyright (c) 2020 Project CHIP Authors
* Copyright (c) 2013-2017 Nest Labs, Inc.
* All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "ChipDeviceController-ScriptDevicePairingDelegate.h"
#include "lib/support/TypeTraits.h"
#include <app/icd/client/DefaultICDClientStorage.h>
#include <controller/python/chip/native/PyChipError.h>
#include <setup_payload/ManualSetupPayloadGenerator.h>
#include <setup_payload/QRCodeSetupPayloadGenerator.h>
#include <string>
extern chip::app::DefaultICDClientStorage sICDClientStorage;
extern chip::Controller::CommissioningParameters sCommissioningParameters;
extern uint8_t sICDSymmetricKey[chip::Crypto::kAES_CCM128_Key_Length];
namespace chip {
namespace Controller {
namespace {
void OnWindowCompleteStatic(void * context, NodeId deviceId, CHIP_ERROR status, SetupPayload payload)
{
auto self = reinterpret_cast<ScriptDevicePairingDelegate *>(context);
self->OnOpenCommissioningWindow(deviceId, status, payload);
}
} // namespace
ScriptDevicePairingDelegate::ScriptDevicePairingDelegate() : mOpenWindowCallback(OnWindowCompleteStatic, this) {}
void ScriptDevicePairingDelegate::SetKeyExchangeCallback(DevicePairingDelegate_OnPairingCompleteFunct callback)
{
mOnPairingCompleteCallback = callback;
}
void ScriptDevicePairingDelegate::SetCommissioningCompleteCallback(DevicePairingDelegate_OnCommissioningCompleteFunct callback)
{
mOnCommissioningCompleteCallback = callback;
}
void ScriptDevicePairingDelegate::SetCommissioningWindowOpenCallback(DevicePairingDelegate_OnWindowOpenCompleteFunct callback)
{
mOnWindowOpenCompleteCallback = callback;
}
void ScriptDevicePairingDelegate::SetCommissioningSuccessCallback(DevicePairingDelegate_OnCommissioningSuccessFunct callback)
{
mOnCommissioningSuccessCallback = callback;
}
void ScriptDevicePairingDelegate::SetCommissioningFailureCallback(DevicePairingDelegate_OnCommissioningFailureFunct callback)
{
mOnCommissioningFailureCallback = callback;
}
void ScriptDevicePairingDelegate::SetFabricCheckCallback(DevicePairingDelegate_OnFabricCheckFunct callback)
{
mOnFabricCheckCallback = callback;
}
void ScriptDevicePairingDelegate::SetCommissioningStatusUpdateCallback(
DevicePairingDelegate_OnCommissioningStatusUpdateFunct callback)
{
mOnCommissioningStatusUpdateCallback = callback;
}
void ScriptDevicePairingDelegate::OnStatusUpdate(DevicePairingDelegate::Status status)
{
switch (status)
{
case DevicePairingDelegate::Status::SecurePairingSuccess:
ChipLogProgress(Zcl, "Secure Pairing Success");
break;
case DevicePairingDelegate::Status::SecurePairingFailed:
ChipLogError(Zcl, "Secure Pairing Failed");
if (mOnPairingCompleteCallback != nullptr && expectingPairingComplete)
{
// Incorrect state is the same error that chip-tool sends. We are also
// leveraging the on pairing complete callback to indicate that pairing
// has failed.
expectingPairingComplete = false;
mOnPairingCompleteCallback(ToPyChipError(CHIP_ERROR_INCORRECT_STATE));
}
break;
}
}
void ScriptDevicePairingDelegate::OnPairingComplete(CHIP_ERROR error)
{
if (mOnPairingCompleteCallback != nullptr && expectingPairingComplete)
{
expectingPairingComplete = false;
mOnPairingCompleteCallback(ToPyChipError(error));
}
}
void ScriptDevicePairingDelegate::OnCommissioningComplete(NodeId nodeId, CHIP_ERROR error)
{
if (mOnCommissioningCompleteCallback != nullptr)
{
mOnCommissioningCompleteCallback(nodeId, ToPyChipError(error));
}
}
void ScriptDevicePairingDelegate::OnCommissioningSuccess(PeerId peerId)
{
if (mOnCommissioningSuccessCallback != nullptr)
{
mOnCommissioningSuccessCallback(peerId);
}
}
void ScriptDevicePairingDelegate::OnCommissioningFailure(PeerId peerId, CHIP_ERROR error, CommissioningStage stageFailed,
Optional<Credentials::AttestationVerificationResult> additionalErrorInfo)
{
if (mOnCommissioningFailureCallback != nullptr)
{
mOnCommissioningFailureCallback(peerId, error, stageFailed, additionalErrorInfo);
}
}
void ScriptDevicePairingDelegate::OnCommissioningStatusUpdate(PeerId peerId, CommissioningStage stageCompleted, CHIP_ERROR error)
{
if (mOnCommissioningStatusUpdateCallback != nullptr)
{
mOnCommissioningStatusUpdateCallback(peerId, stageCompleted, error);
}
}
void ScriptDevicePairingDelegate::OnOpenCommissioningWindow(NodeId deviceId, CHIP_ERROR status, SetupPayload payload)
{
if (mOnWindowOpenCompleteCallback != nullptr)
{
std::string setupManualCode;
std::string setupQRCode;
ManualSetupPayloadGenerator(payload).payloadDecimalStringRepresentation(setupManualCode);
QRCodeSetupPayloadGenerator(payload).payloadBase38Representation(setupQRCode);
ChipLogProgress(Zcl, "SetupManualCode = %s", setupManualCode.c_str());
ChipLogProgress(Zcl, "SetupQRCode = %s", setupQRCode.c_str());
mOnWindowOpenCompleteCallback(deviceId, payload.setUpPINCode, setupManualCode.c_str(), setupQRCode.c_str(),
ToPyChipError(status));
}
if (mWindowOpener != nullptr)
{
Platform::Delete(mWindowOpener);
mWindowOpener = nullptr;
}
}
void ScriptDevicePairingDelegate::OnFabricCheck(NodeId matchingNodeId)
{
if (matchingNodeId == kUndefinedNodeId)
{
ChipLogProgress(Zcl, "No matching fabric found");
}
else
{
ChipLogProgress(Zcl, "Matching fabric found");
}
if (mOnFabricCheckCallback != nullptr)
{
mOnFabricCheckCallback(matchingNodeId);
}
}
Callback::Callback<Controller::OnOpenCommissioningWindow> *
ScriptDevicePairingDelegate::GetOpenWindowCallback(Controller::CommissioningWindowOpener * context)
{
mWindowOpener = context;
return &mOpenWindowCallback;
}
void ScriptDevicePairingDelegate::OnICDRegistrationComplete(ScopedNodeId nodeId, uint32_t icdCounter)
{
app::ICDClientInfo clientInfo;
clientInfo.peer_node = nodeId;
clientInfo.monitored_subject = sCommissioningParameters.GetICDMonitoredSubject().Value();
clientInfo.start_icd_counter = icdCounter;
CHIP_ERROR err = sICDClientStorage.SetKey(clientInfo, ByteSpan(sICDSymmetricKey));
if (err == CHIP_NO_ERROR)
{
err = sICDClientStorage.StoreEntry(clientInfo);
}
if (err != CHIP_NO_ERROR)
{
sICDClientStorage.RemoveKey(clientInfo);
ChipLogError(Controller, "Failed to persist symmetric key for " ChipLogFormatX64 ": %s",
ChipLogValueX64(nodeId.GetNodeId()), err.AsString());
return;
}
ChipLogProgress(Controller, "Saved ICD Symmetric key for " ChipLogFormatX64, ChipLogValueX64(nodeId.GetNodeId()));
ChipLogProgress(Controller,
"ICD Registration Complete for device " ChipLogFormatX64 " / Check-In NodeID: " ChipLogFormatX64
" / Monitored Subject: " ChipLogFormatX64 " / ICDCounter %u",
ChipLogValueX64(nodeId.GetNodeId()), ChipLogValueX64(sCommissioningParameters.GetICDCheckInNodeId().Value()),
ChipLogValueX64(clientInfo.monitored_subject), icdCounter);
}
void ScriptDevicePairingDelegate::OnICDStayActiveComplete(ScopedNodeId deviceId, uint32_t promisedActiveDuration)
{
ChipLogProgress(Controller, "ICD Stay Active Complete for device " ChipLogFormatX64 " / promisedActiveDuration: %u",
ChipLogValueX64(deviceId.GetNodeId()), promisedActiveDuration);
}
} // namespace Controller
} // namespace chip