src/controller/java/AndroidDeviceControllerWrapper.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *   Copyright (c) 2020-2022 Project CHIP Authors
  *   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.
  *
  */
 #pragma once

 #include <lib/support/JniReferences.h>

 #include <memory>
 #include <vector>

 #include <jni.h>

 #include <controller/CHIPDeviceController.h>
 #include <credentials/GroupDataProviderImpl.h>
 #include <credentials/PersistentStorageOpCertStore.h>
 #include <credentials/attestation_verifier/DacOnlyPartialAttestationVerifier.h>
 #include <lib/support/TimeUtils.h>
 #include <platform/internal/DeviceNetworkInfo.h>

 #ifdef JAVA_MATTER_CONTROLLER_TEST
 #include <controller/ExampleOperationalCredentialsIssuer.h>
 #include <controller/ExamplePersistentStorage.h>
 #else
 #include "AndroidOperationalCredentialsIssuer.h"
 #include <platform/android/AndroidChipPlatform-JNI.h>
 #include <platform/android/CHIPP256KeypairBridge.h>
 #endif // JAVA_MATTER_CONTROLLER_TEST

 /**
  * This class contains all relevant information for the JNI view of CHIPDeviceController
  * to handle all controller-related processing.
  *
  * Generally it contains the DeviceController class itself, plus any related delegates/callbacks.
  */
 class AndroidDeviceControllerWrapper : public chip::Controller::DevicePairingDelegate, public chip::PersistentStorageDelegate
 {
 public:
     ~AndroidDeviceControllerWrapper();

     chip::Controller::DeviceCommissioner * Controller() { return mController.get(); }
     void SetJavaObjectRef(JavaVM * vm, jobject obj);
     jobject JavaObjectRef() { return mJavaObjectRef; }
     jlong ToJNIHandle();

 #ifndef JAVA_MATTER_CONTROLLER_TEST
     /**
      * Returns a CHIPP256KeypairBridge which can be used to delegate signing operations
      * to a KeypairDelegate in the Java layer. Note that this will always return a pointer
      * to the same instance, once initialized.
      */
     CHIPP256KeypairBridge * GetP256KeypairBridge()
     {
         if (mKeypairBridge == nullptr)
         {
             mKeypairBridge = chip::Platform::New<CHIPP256KeypairBridge>();
         }
         return mKeypairBridge;
     }
 #endif // JAVA_MATTER_CONTROLLER_TEST

     void CallJavaMethod(const char * methodName, jint argument);
     CHIP_ERROR InitializeOperationalCredentialsIssuer();

     /**
      * Convert network credentials from Java, and apply them to the commissioning parameters object.
      */
     CHIP_ERROR ApplyNetworkCredentials(chip::Controller::CommissioningParameters & params, jobject networkCredentials);

     /**
      * Update the CommissioningParameters used by the active device commissioner
      */
     CHIP_ERROR UpdateCommissioningParameters(const chip::Controller::CommissioningParameters & params);

     // DevicePairingDelegate implementation
     void OnStatusUpdate(chip::Controller::DevicePairingDelegate::Status status) override;
     void OnPairingComplete(CHIP_ERROR error) override;
     void OnPairingDeleted(CHIP_ERROR error) override;
     void OnCommissioningComplete(chip::NodeId deviceId, CHIP_ERROR error) override;
     void OnCommissioningStatusUpdate(chip::PeerId peerId, chip::Controller::CommissioningStage stageCompleted,
                                      CHIP_ERROR error) override;
     void OnReadCommissioningInfo(const chip::Controller::ReadCommissioningInfo & info) override;
     void OnScanNetworksSuccess(
         const chip::app::Clusters::NetworkCommissioning::Commands::ScanNetworksResponse::DecodableType & dataResponse) override;
     void OnScanNetworksFailure(CHIP_ERROR error) override;

     // PersistentStorageDelegate implementation
     CHIP_ERROR SyncSetKeyValue(const char * key, const void * value, uint16_t size) override;
     CHIP_ERROR SyncGetKeyValue(const char * key, void * buffer, uint16_t & size) override;
     CHIP_ERROR SyncDeleteKeyValue(const char * key) override;

     chip::Controller::AutoCommissioner * GetAutoCommissioner() { return &mAutoCommissioner; }

     chip::Credentials::PartialDACVerifier * GetPartialDACVerifier() { return &mPartialDACVerifier; }

     const chip::Controller::CommissioningParameters & GetCommissioningParameters() const
     {
         return mAutoCommissioner.GetCommissioningParameters();
     }

     static AndroidDeviceControllerWrapper * FromJNIHandle(jlong handle)
     {
         return reinterpret_cast<AndroidDeviceControllerWrapper *>(handle);
     }

 #ifdef JAVA_MATTER_CONTROLLER_TEST
     using ExampleOperationalCredentialsIssuerPtr = std::unique_ptr<chip::Controller::ExampleOperationalCredentialsIssuer>;
 #else
     using AndroidOperationalCredentialsIssuerPtr = std::unique_ptr<chip::Controller::AndroidOperationalCredentialsIssuer>;
 #endif

     /**
      * Initializes a new CHIPDeviceController using the given parameters, and returns a pointer to the
      * AndroidDeviceControllerWrapper that holds the underlying controller.
      *
      * If the keypairDelegate is provided, then the rootCertificate, nodeOperationalCertificate, and
      * ipkEpochKey must also be specified. If no operational credentials are specified here, then an
      * ephemeral signing configuration will be generated for you.
      *
      * If there are any errors during the initialization of this controller, then a nullptr will be
      * returned.
      *
      * @param[in] vm the JavaVM
      * @param[in] deviceControllerObj a reference to the Java ChipDeviceController
      * @param[in] nodeId the local node ID to use for this controller instance
      * @param[in] cats the set of CASE authenticated tags
      * @param[in] systemLayer a pointer to the System::Layer instance
      * @param[in] tcpEndpointManager a pointer to a Inet::EndPointManager for TCP connections
      * @param[in] udpEndpointManager a pointer to a Inet::EndPointManager for UDP connections
      * @param[in] opCredsIssuer a pointer to an issuer for Android operational credentials
      * @param[in] keypairDelegate a pointer to a Java KeypairDelegate implementation.
      * @param[in] rootCertificate an X.509 DER-encoded trusted root certificate for this node
      * @param[in] intermediateCertificate an X.509 DER-encoded intermediate certificate for this node
      * @param[in] nodeOperationalCertificate an X.509 DER-encoded operational certificate for this node
      * @param[in] ipkEpochKey the IPK epoch key to use for this node
      * @param[in] listenPort the UDP port to listen on
      * @param[in] controllerVendorId the vendor ID identifying the controller
      * @param[in] failsafeTimerSeconds the failsafe timer in seconds
      * @param[in] attemptNetworkScanWiFi whether to attempt a network scan when configuring the network for a WiFi device
      * @param[in] attemptNetworkScanThread whether to attempt a network scan when configuring the network for a Thread device
      * @param[in] skipCommissioningComplete whether to skip the CASE commissioningComplete command during commissioning
      * @param[out] errInfoOnFailure a pointer to a CHIP_ERROR that will be populated if this method returns nullptr
      */
     static AndroidDeviceControllerWrapper *
     AllocateNew(JavaVM * vm, jobject deviceControllerObj, chip::NodeId nodeId, chip::FabricId fabricId,
                 const chip::CATValues & cats, chip::System::Layer * systemLayer,
                 chip::Inet::EndPointManager<chip::Inet::TCPEndPoint> * tcpEndPointManager,
                 chip::Inet::EndPointManager<chip::Inet::UDPEndPoint> * udpEndPointManager,
 #ifdef JAVA_MATTER_CONTROLLER_TEST
                 ExampleOperationalCredentialsIssuerPtr opCredsIssuer,
 #else
                 AndroidOperationalCredentialsIssuerPtr opCredsIssuer,
 #endif
                 jobject keypairDelegate, jbyteArray rootCertificate, jbyteArray intermediateCertificate,
                 jbyteArray nodeOperationalCertificate, jbyteArray ipkEpochKey, uint16_t listenPort, uint16_t controllerVendorId,
                 uint16_t failsafeTimerSeconds, bool attemptNetworkScanWiFi, bool attemptNetworkScanThread,
                 bool skipCommissioningComplete, CHIP_ERROR * errInfoOnFailure);

 #ifdef JAVA_MATTER_CONTROLLER_TEST
     chip::Controller::ExampleOperationalCredentialsIssuer * GetAndroidOperationalCredentialsIssuer()
 #else
     chip::Controller::AndroidOperationalCredentialsIssuer * GetAndroidOperationalCredentialsIssuer()
 #endif
     {
         return mOpCredsIssuer.get();
     }

 private:
     using ChipDeviceControllerPtr = std::unique_ptr<chip::Controller::DeviceCommissioner>;

     ChipDeviceControllerPtr mController;

     // TODO: This may need to be injected as a GroupDataProvider*
     chip::Credentials::GroupDataProviderImpl mGroupDataProvider;
     // TODO: This may need to be injected as an OperationalCertificateStore *
     chip::Credentials::PersistentStorageOpCertStore mOpCertStore;

     JavaVM * mJavaVM       = nullptr;
     jobject mJavaObjectRef = nullptr;
 #ifdef JAVA_MATTER_CONTROLLER_TEST
     ExampleOperationalCredentialsIssuerPtr mOpCredsIssuer;
     PersistentStorage mExampleStorage;
 #else
     AndroidOperationalCredentialsIssuerPtr mOpCredsIssuer;
     CHIPP256KeypairBridge * mKeypairBridge = nullptr;
 #endif // JAVA_MATTER_CONTROLLER_TEST

     // These fields allow us to release the string/byte array memory later.
     jstring ssidStr                    = nullptr;
     jstring passwordStr                = nullptr;
     const char * ssid                  = nullptr;
     const char * password              = nullptr;
     jbyteArray operationalDatasetBytes = nullptr;
     jbyte * operationalDataset         = nullptr;

     std::vector<uint8_t> mNocCertificate;
     std::vector<uint8_t> mIcacCertificate;
     std::vector<uint8_t> mRcacCertificate;

     chip::Controller::AutoCommissioner mAutoCommissioner;

     chip::Credentials::PartialDACVerifier mPartialDACVerifier;

     AndroidDeviceControllerWrapper(ChipDeviceControllerPtr controller,
 #ifdef JAVA_MATTER_CONTROLLER_TEST
                                    ExampleOperationalCredentialsIssuerPtr opCredsIssuer
 #else
                                    AndroidOperationalCredentialsIssuerPtr opCredsIssuer
 #endif
                                    ) :
         mController(std::move(controller)),
         mOpCredsIssuer(std::move(opCredsIssuer))
     {}
 };

 inline jlong AndroidDeviceControllerWrapper::ToJNIHandle()
 {
     static_assert(sizeof(jlong) >= sizeof(void *), "Need to store a pointer in a java handle");
     return reinterpret_cast<jlong>(this);
 }
	/*
	* Copyright (c) 2020-2022 Project CHIP Authors
	* 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.
	*
	*/
	#pragma once

	#include <lib/support/JniReferences.h>

	#include <memory>
	#include <vector>

	#include <jni.h>

	#include <controller/CHIPDeviceController.h>
	#include <credentials/GroupDataProviderImpl.h>
	#include <credentials/PersistentStorageOpCertStore.h>
	#include <credentials/attestation_verifier/DacOnlyPartialAttestationVerifier.h>
	#include <lib/support/TimeUtils.h>
	#include <platform/internal/DeviceNetworkInfo.h>

	#ifdef JAVA_MATTER_CONTROLLER_TEST
	#include <controller/ExampleOperationalCredentialsIssuer.h>
	#include <controller/ExamplePersistentStorage.h>
	#else
	#include "AndroidOperationalCredentialsIssuer.h"
	#include <platform/android/AndroidChipPlatform-JNI.h>
	#include <platform/android/CHIPP256KeypairBridge.h>
	#endif // JAVA_MATTER_CONTROLLER_TEST

	/**
	* This class contains all relevant information for the JNI view of CHIPDeviceController
	* to handle all controller-related processing.
	*
	* Generally it contains the DeviceController class itself, plus any related delegates/callbacks.
	*/
	class AndroidDeviceControllerWrapper : public chip::Controller::DevicePairingDelegate, public chip::PersistentStorageDelegate
	{
	public:
	~AndroidDeviceControllerWrapper();

	chip::Controller::DeviceCommissioner * Controller() { return mController.get(); }
	void SetJavaObjectRef(JavaVM * vm, jobject obj);
	jobject JavaObjectRef() { return mJavaObjectRef; }
	jlong ToJNIHandle();

	#ifndef JAVA_MATTER_CONTROLLER_TEST
	/**
	* Returns a CHIPP256KeypairBridge which can be used to delegate signing operations
	* to a KeypairDelegate in the Java layer. Note that this will always return a pointer
	* to the same instance, once initialized.
	*/
	CHIPP256KeypairBridge * GetP256KeypairBridge()
	{
	if (mKeypairBridge == nullptr)
	{
	mKeypairBridge = chip::Platform::New<CHIPP256KeypairBridge>();
	}
	return mKeypairBridge;
	}
	#endif // JAVA_MATTER_CONTROLLER_TEST

	void CallJavaMethod(const char * methodName, jint argument);
	CHIP_ERROR InitializeOperationalCredentialsIssuer();

	/**
	* Convert network credentials from Java, and apply them to the commissioning parameters object.
	*/
	CHIP_ERROR ApplyNetworkCredentials(chip::Controller::CommissioningParameters & params, jobject networkCredentials);

	/**
	* Update the CommissioningParameters used by the active device commissioner
	*/
	CHIP_ERROR UpdateCommissioningParameters(const chip::Controller::CommissioningParameters & params);

	// DevicePairingDelegate implementation
	void OnStatusUpdate(chip::Controller::DevicePairingDelegate::Status status) override;
	void OnPairingComplete(CHIP_ERROR error) override;
	void OnPairingDeleted(CHIP_ERROR error) override;
	void OnCommissioningComplete(chip::NodeId deviceId, CHIP_ERROR error) override;
	void OnCommissioningStatusUpdate(chip::PeerId peerId, chip::Controller::CommissioningStage stageCompleted,
	CHIP_ERROR error) override;
	void OnReadCommissioningInfo(const chip::Controller::ReadCommissioningInfo & info) override;
	void OnScanNetworksSuccess(
	const chip::app::Clusters::NetworkCommissioning::Commands::ScanNetworksResponse::DecodableType & dataResponse) override;
	void OnScanNetworksFailure(CHIP_ERROR error) override;

	// PersistentStorageDelegate implementation
	CHIP_ERROR SyncSetKeyValue(const char * key, const void * value, uint16_t size) override;
	CHIP_ERROR SyncGetKeyValue(const char * key, void * buffer, uint16_t & size) override;
	CHIP_ERROR SyncDeleteKeyValue(const char * key) override;

	chip::Controller::AutoCommissioner * GetAutoCommissioner() { return &mAutoCommissioner; }

	chip::Credentials::PartialDACVerifier * GetPartialDACVerifier() { return &mPartialDACVerifier; }

	const chip::Controller::CommissioningParameters & GetCommissioningParameters() const
	{
	return mAutoCommissioner.GetCommissioningParameters();
	}

	static AndroidDeviceControllerWrapper * FromJNIHandle(jlong handle)
	{
	return reinterpret_cast<AndroidDeviceControllerWrapper *>(handle);
	}

	#ifdef JAVA_MATTER_CONTROLLER_TEST
	using ExampleOperationalCredentialsIssuerPtr = std::unique_ptr<chip::Controller::ExampleOperationalCredentialsIssuer>;
	#else
	using AndroidOperationalCredentialsIssuerPtr = std::unique_ptr<chip::Controller::AndroidOperationalCredentialsIssuer>;
	#endif

	/**
	* Initializes a new CHIPDeviceController using the given parameters, and returns a pointer to the
	* AndroidDeviceControllerWrapper that holds the underlying controller.
	*
	* If the keypairDelegate is provided, then the rootCertificate, nodeOperationalCertificate, and
	* ipkEpochKey must also be specified. If no operational credentials are specified here, then an
	* ephemeral signing configuration will be generated for you.
	*
	* If there are any errors during the initialization of this controller, then a nullptr will be
	* returned.
	*
	* @param[in] vm the JavaVM
	* @param[in] deviceControllerObj a reference to the Java ChipDeviceController
	* @param[in] nodeId the local node ID to use for this controller instance
	* @param[in] cats the set of CASE authenticated tags
	* @param[in] systemLayer a pointer to the System::Layer instance
	* @param[in] tcpEndpointManager a pointer to a Inet::EndPointManager for TCP connections
	* @param[in] udpEndpointManager a pointer to a Inet::EndPointManager for UDP connections
	* @param[in] opCredsIssuer a pointer to an issuer for Android operational credentials
	* @param[in] keypairDelegate a pointer to a Java KeypairDelegate implementation.
	* @param[in] rootCertificate an X.509 DER-encoded trusted root certificate for this node
	* @param[in] intermediateCertificate an X.509 DER-encoded intermediate certificate for this node
	* @param[in] nodeOperationalCertificate an X.509 DER-encoded operational certificate for this node
	* @param[in] ipkEpochKey the IPK epoch key to use for this node
	* @param[in] listenPort the UDP port to listen on
	* @param[in] controllerVendorId the vendor ID identifying the controller
	* @param[in] failsafeTimerSeconds the failsafe timer in seconds
	* @param[in] attemptNetworkScanWiFi whether to attempt a network scan when configuring the network for a WiFi device
	* @param[in] attemptNetworkScanThread whether to attempt a network scan when configuring the network for a Thread device
	* @param[in] skipCommissioningComplete whether to skip the CASE commissioningComplete command during commissioning
	* @param[out] errInfoOnFailure a pointer to a CHIP_ERROR that will be populated if this method returns nullptr
	*/
	static AndroidDeviceControllerWrapper *
	AllocateNew(JavaVM * vm, jobject deviceControllerObj, chip::NodeId nodeId, chip::FabricId fabricId,
	const chip::CATValues & cats, chip::System::Layer * systemLayer,
	chip::Inet::EndPointManager<chip::Inet::TCPEndPoint> * tcpEndPointManager,
	chip::Inet::EndPointManager<chip::Inet::UDPEndPoint> * udpEndPointManager,
	#ifdef JAVA_MATTER_CONTROLLER_TEST
	ExampleOperationalCredentialsIssuerPtr opCredsIssuer,
	#else
	AndroidOperationalCredentialsIssuerPtr opCredsIssuer,
	#endif
	jobject keypairDelegate, jbyteArray rootCertificate, jbyteArray intermediateCertificate,
	jbyteArray nodeOperationalCertificate, jbyteArray ipkEpochKey, uint16_t listenPort, uint16_t controllerVendorId,
	uint16_t failsafeTimerSeconds, bool attemptNetworkScanWiFi, bool attemptNetworkScanThread,
	bool skipCommissioningComplete, CHIP_ERROR * errInfoOnFailure);

	#ifdef JAVA_MATTER_CONTROLLER_TEST
	chip::Controller::ExampleOperationalCredentialsIssuer * GetAndroidOperationalCredentialsIssuer()
	#else
	chip::Controller::AndroidOperationalCredentialsIssuer * GetAndroidOperationalCredentialsIssuer()
	#endif
	{
	return mOpCredsIssuer.get();
	}

	private:
	using ChipDeviceControllerPtr = std::unique_ptr<chip::Controller::DeviceCommissioner>;

	ChipDeviceControllerPtr mController;

	// TODO: This may need to be injected as a GroupDataProvider*
	chip::Credentials::GroupDataProviderImpl mGroupDataProvider;
	// TODO: This may need to be injected as an OperationalCertificateStore *
	chip::Credentials::PersistentStorageOpCertStore mOpCertStore;

	JavaVM * mJavaVM = nullptr;
	jobject mJavaObjectRef = nullptr;
	#ifdef JAVA_MATTER_CONTROLLER_TEST
	ExampleOperationalCredentialsIssuerPtr mOpCredsIssuer;
	PersistentStorage mExampleStorage;
	#else
	AndroidOperationalCredentialsIssuerPtr mOpCredsIssuer;
	CHIPP256KeypairBridge * mKeypairBridge = nullptr;
	#endif // JAVA_MATTER_CONTROLLER_TEST

	// These fields allow us to release the string/byte array memory later.
	jstring ssidStr = nullptr;
	jstring passwordStr = nullptr;
	const char * ssid = nullptr;
	const char * password = nullptr;
	jbyteArray operationalDatasetBytes = nullptr;
	jbyte * operationalDataset = nullptr;

	std::vector<uint8_t> mNocCertificate;
	std::vector<uint8_t> mIcacCertificate;
	std::vector<uint8_t> mRcacCertificate;

	chip::Controller::AutoCommissioner mAutoCommissioner;

	chip::Credentials::PartialDACVerifier mPartialDACVerifier;

	AndroidDeviceControllerWrapper(ChipDeviceControllerPtr controller,
	#ifdef JAVA_MATTER_CONTROLLER_TEST
	ExampleOperationalCredentialsIssuerPtr opCredsIssuer
	#else
	AndroidOperationalCredentialsIssuerPtr opCredsIssuer
	#endif
	) :
	mController(std::move(controller)),
	mOpCredsIssuer(std::move(opCredsIssuer))
	{}
	};

	inline jlong AndroidDeviceControllerWrapper::ToJNIHandle()
	{
	static_assert(sizeof(jlong) >= sizeof(void *), "Need to store a pointer in a java handle");
	return reinterpret_cast<jlong>(this);
	}