MTRControllerTests.m

//
//  MTRControllerTests.m
//  MTRControllerTests
/**
 *
 *    Copyright (c) 2021 Project CHIP Authors
 *
 *    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.
 */

#import <Matter/Matter.h>

// system dependencies
#import <XCTest/XCTest.h>

#import "MTRTestKeys.h"
#import "MTRTestOTAProvider.h"
#import "MTRTestStorage.h"

static uint16_t kTestVendorId = 0xFFF1u;

static void CheckStoredOpcertCats(id<MTRStorage> storage, uint8_t fabricIndex, NSSet<NSNumber *> * cats)
{
    __auto_type * certData = [storage storageDataForKey:[NSString stringWithFormat:@"f/%x/n", fabricIndex]];
    XCTAssertNotNil(certData);

    __auto_type * info = [[MTRCertificateInfo alloc] initWithTLVBytes:certData];
    XCTAssertNotNil(info);

    __auto_type * storedCATs = info.subject.caseAuthenticatedTags;
    if (cats == nil) {
        XCTAssertTrue(storedCATs.count == 0);
    } else {
        XCTAssertEqualObjects(storedCATs, cats);
    }
}

@interface MTRControllerTests : XCTestCase

@end

@implementation MTRControllerTests

- (void)testFactoryLifecycle
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);
    XCTAssertFalse([factory isRunning]);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    // Starting again with identical params is a no-op
    __auto_type * factoryParams2 = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams2 error:nil]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);

    // Now try to restart the factory.
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerLifecycle
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // now try to restart the controller
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // now try to restart the controller without providing a vendor id.
    params.vendorID = nil;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testDeprecatedControllerLifecycle
{
    __auto_type * factory = [MTRControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startup:factoryParams]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory startControllerOnNewFabric:params];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // now try to restart the controller
    controller = [factory startControllerOnExistingFabric:params];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // now try to restart the controller without providing a vendor id.
    params.vendorID = nil;
    controller = [factory startControllerOnExistingFabric:params];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory shutdown];
    XCTAssertFalse([factory isRunning]);
}

- (void)testFactoryShutdownShutsDownController
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
    XCTAssertFalse([controller isRunning]);
}

- (void)testControllerMultipleShutdown
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertTrue([controller isRunning]);
    for (int i = 0; i < 5; i++) {
        [controller shutdown];
        XCTAssertFalse([controller isRunning]);
    }

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerWithOTAProviderDelegate
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * otaProvider = [[MTRTestOTAProvider alloc] init];
    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    factoryParams.otaProviderDelegate = otaProvider;
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertTrue([controller isRunning]);
    [controller shutdown];

    // OTA Provider depends on the system state maintained by CHIPDeviceControllerFactory that is destroyed when
    // the controller count goes down to 0. Make sure that a new controller can still be started successfully onto the
    // same fabric.
    MTRDeviceController * controller2 = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertTrue([controller2 isRunning]);
    [controller2 shutdown];

    // Check that a new controller can be started on a different fabric too.
    __auto_type * params2 = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(2) nocSigner:testKeys];
    XCTAssertNotNil(params2);

    params2.vendorID = @(kTestVendorId);

    MTRDeviceController * controller3 = [factory createControllerOnNewFabric:params2 error:nil];
    XCTAssertTrue([controller3 isRunning]);
    [controller3 shutdown];

    // Stop the factory, start it up again and create a controller to ensure that no dead state from the previous
    // ota provider delegate is staying around.
    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);

    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    MTRDeviceController * controller4 = [factory createControllerOnExistingFabric:params2 error:nil];
    XCTAssertTrue([controller4 isRunning]);
    [controller4 shutdown];

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerInvalidAccess
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertTrue([controller isRunning]);
    [controller shutdown];

    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerNewFabricMatchesOldFabric
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // now try to start a new controller on a new fabric but using the
    // same params; this should fail.
    XCTAssertNil([factory createControllerOnNewFabric:params error:nil]);

    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerExistingFabricMatchesRunningController
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    // Now try to start a new controller on the same fabric.  This should fail.
    XCTAssertNil([factory createControllerOnExistingFabric:params error:nil]);

    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerStartControllersOnTwoFabricIds
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * params1 = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params1);

    params1.vendorID = @(kTestVendorId);

    MTRDeviceController * controller1 = [factory createControllerOnNewFabric:params1 error:nil];
    XCTAssertNotNil(controller1);
    XCTAssertTrue([controller1 isRunning]);

    // Now try to start a new controller with the same root but a
    // different fabric id.
    __auto_type * params2 = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(2) nocSigner:testKeys];
    XCTAssertNotNil(params2);

    params2.vendorID = @(kTestVendorId);

    MTRDeviceController * controller2 = [factory createControllerOnNewFabric:params2 error:nil];
    XCTAssertNotNil(controller2);
    XCTAssertTrue([controller2 isRunning]);

    // Verify that we can't start on an existing fabric while we have a
    // controller on that fabric already.
    XCTAssertNil([factory createControllerOnExistingFabric:params2 error:nil]);

    // Now test restarting the controller on the first fabric while the
    // controller on the second fabric is still running.
    [controller1 shutdown];
    XCTAssertFalse([controller1 isRunning]);

    controller1 = [factory createControllerOnExistingFabric:params1 error:nil];
    XCTAssertNotNil(controller1);
    XCTAssertTrue([controller1 isRunning]);

    // Now test restarting the controller on the second fabric while the
    // controller on the first fabric is still running.
    [controller2 shutdown];
    XCTAssertFalse([controller2 isRunning]);

    controller2 = [factory createControllerOnExistingFabric:params2 error:nil];
    XCTAssertNotNil(controller2);
    XCTAssertTrue([controller2 isRunning]);

    // Shut down everything.
    [controller1 shutdown];
    XCTAssertFalse([controller1 isRunning]);

    [controller2 shutdown];
    XCTAssertFalse([controller2 isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerStartControllerSameFabricWrongSubject
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * root1 = [MTRCertificates createRootCertificate:testKeys issuerID:@1 fabricID:@1 error:nil];
    XCTAssertNotNil(root1);

    __auto_type * root2 = [MTRCertificates createRootCertificate:testKeys issuerID:@1 fabricID:@1 error:nil];
    XCTAssertNotNil(root2);

    __auto_type * root3 = [MTRCertificates createRootCertificate:testKeys issuerID:@2 fabricID:@1 error:nil];
    XCTAssertNotNil(root3);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);
    params.rootCertificate = root1;

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Now try to start a new controller on the same fabric with what should be
    // a compatible root certificate.
    params.rootCertificate = root2;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    NSNumber * nodeId = [controller controllerNodeID];

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Now try to start a new controller on the same fabric but with a root
    // certificate that has a different subject.  This should fail for multipler
    // reasons, including our existing operational certificate not matching this
    // root.
    params.rootCertificate = root3;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    // Now try to start a new controller on the same fabric but with a root
    // certificate that has a different subject while also rotating the
    // operational certificate.  This should fail because our root of trust for
    // the fabric would change if we allowed this.
    params.rootCertificate = root3;
    params.nodeID = nodeId;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerFabricIdRootCertMismatch
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * testKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(testKeys);

    __auto_type * root1 = [MTRCertificates createRootCertificate:testKeys issuerID:@1 fabricID:@1 error:nil];
    XCTAssertNotNil(root1);

    __auto_type * root2 = [MTRCertificates createRootCertificate:testKeys issuerID:@1 fabricID:@2 error:nil];
    XCTAssertNotNil(root2);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:testKeys.ipk fabricID:@(1) nocSigner:testKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Try to start controller when fabric id in root cert subject does not match provided fabric id.
    params.rootCertificate = root2;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    // Start controller when the fabric ids do match.
    params.rootCertificate = root1;
    controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Re-start controller on the new fabric.
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Now try to restart controller on the fabric, but with the wrong fabric id
    // in the root cert.
    params.rootCertificate = root2;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerSignerDoesNotMatchRoot
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * signerKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(signerKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:signerKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);
    params.rootCertificate = root;

    // Try to start controller when there is no ICA and root cert does not match signing key.
    params.rootCertificate = root;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerSignerKeyWithIntermediate
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * intermediateKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys);

    __auto_type * intermediate = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                rootCertificate:root
                                                          intermediatePublicKey:intermediateKeys.publicKey
                                                                       issuerID:nil
                                                                       fabricID:nil
                                                                          error:nil];
    XCTAssertNotNil(intermediate);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Try to start controller when there is an ICA and the ICA cert does not match signing key.
    params.rootCertificate = root;
    params.intermediateCertificate = intermediate;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    // Now start controller with the signing key matching the intermediate cert.
    params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:intermediateKeys];
    params.vendorID = @(kTestVendorId);
    params.rootCertificate = root;
    params.intermediateCertificate = intermediate;
    controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerStartupParamsInvalidFabric
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    // Invalid fabric ID.
    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(0) nocSigner:rootKeys];
    XCTAssertNil(params);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerStartupParamsInvalidVendor
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    // Invalid vendor ID ("standard").
    params.vendorID = @(0);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerStartupNodeIdPreserved
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    NSNumber * nodeId = [controller controllerNodeID];

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], nodeId);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerStartupNodeIdUsed
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Bring up with node id 17.
    params.nodeID = @17;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], @17);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Bring up with a different node id (18).
    params.nodeID = @18;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], @18);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Verify the new node id has been stored.
    params.nodeID = nil;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], @18);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerStartupNodeIdValidation
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Try to bring up with node id 0.
    params.nodeID = @0;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    // Try to bring up with node id that is outside of the operational range.
    params.nodeID = @(0xFFFFFFFF00000000ULL);
    controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    // Verify that we can indeed bring up a controller for this fabric, with a valid node id.
    params.nodeID = @17;
    controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], @17);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerRotateToICA
{
    // Tests that we can switch a fabric from not using an ICA to using an ICA.
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * intermediateKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys);

    __auto_type * intermediate = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                rootCertificate:root
                                                          intermediatePublicKey:intermediateKeys.publicKey
                                                                       issuerID:nil
                                                                       fabricID:nil
                                                                          error:nil];
    XCTAssertNotNil(intermediate);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Create a new fabric without the ICA.
    params.rootCertificate = root;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    NSNumber * nodeId = [controller controllerNodeID];

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Now start controller on the same fabric but using the ICA.
    params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:intermediateKeys];
    params.vendorID = @(kTestVendorId);
    params.rootCertificate = root;
    params.intermediateCertificate = intermediate;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], nodeId);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerRotateFromICA
{
    // Tests that we can switch a fabric from using an ICA to not using an ICA.
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * intermediateKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys);

    __auto_type * intermediate = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                rootCertificate:root
                                                          intermediatePublicKey:intermediateKeys.publicKey
                                                                       issuerID:nil
                                                                       fabricID:nil
                                                                          error:nil];
    XCTAssertNotNil(intermediate);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk
                                                                        fabricID:@(1)
                                                                       nocSigner:intermediateKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Create a new fabric without the ICA.
    params.rootCertificate = root;
    params.intermediateCertificate = intermediate;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    NSNumber * nodeId = [controller controllerNodeID];

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Now start controller on the same fabric but without using the ICA.
    params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    params.vendorID = @(kTestVendorId);
    params.rootCertificate = root;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], nodeId);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerRotateICA
{
    // Tests that we can change the ICA being used for a fabric.
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * intermediateKeys1 = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys1);

    __auto_type * intermediate1 = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                 rootCertificate:root
                                                           intermediatePublicKey:intermediateKeys1.publicKey
                                                                        issuerID:nil
                                                                        fabricID:nil
                                                                           error:nil];
    XCTAssertNotNil(intermediate1);

    __auto_type * intermediateKeys2 = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys2);

    __auto_type * intermediate2 = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                 rootCertificate:root
                                                           intermediatePublicKey:intermediateKeys2.publicKey
                                                                        issuerID:nil
                                                                        fabricID:nil
                                                                           error:nil];
    XCTAssertNotNil(intermediate2);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk
                                                                        fabricID:@(1)
                                                                       nocSigner:intermediateKeys1];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Create a new fabric without the first ICA.
    params.rootCertificate = root;
    params.intermediateCertificate = intermediate1;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    NSNumber * nodeId = [controller controllerNodeID];

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Now start controller on the same fabric but using the second ICA.
    params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:intermediateKeys2];
    params.vendorID = @(kTestVendorId);
    params.rootCertificate = root;
    params.intermediateCertificate = intermediate2;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], nodeId);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerICAWithoutRoot
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * intermediateKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys);

    __auto_type * intermediate = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                rootCertificate:root
                                                          intermediatePublicKey:intermediateKeys.publicKey
                                                                       issuerID:nil
                                                                       fabricID:nil
                                                                          error:nil];
    XCTAssertNotNil(intermediate);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk
                                                                        fabricID:@(1)
                                                                       nocSigner:intermediateKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    // Pass in an intermediate but no root.  Should fail.
    params.intermediateCertificate = intermediate;
    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerProvideFullCertChain
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * intermediateKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys);

    __auto_type * intermediate = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                rootCertificate:root
                                                          intermediatePublicKey:intermediateKeys.publicKey
                                                                       issuerID:nil
                                                                       fabricID:nil
                                                                          error:nil];
    XCTAssertNotNil(intermediate);

    __auto_type * operationalKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(operationalKeys);

    __auto_type * operational = [MTRCertificates createOperationalCertificate:intermediateKeys
                                                           signingCertificate:intermediate
                                                         operationalPublicKey:operationalKeys.publicKey
                                                                     fabricID:@123
                                                                       nodeID:@456
                                                        caseAuthenticatedTags:nil
                                                                        error:nil];
    XCTAssertNotNil(operational);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk
                                                              operationalKeypair:operationalKeys
                                                          operationalCertificate:operational
                                                         intermediateCertificate:intermediate
                                                                 rootCertificate:root];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], @456);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Trying to bring up another new fabric with the same root and NOC should fail.
    controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    // Trying to bring up the same fabric should succeed.
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], @456);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerProvideCertChainNoICA
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:nil error:nil];
    XCTAssertNotNil(root);

    __auto_type * operationalKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(operationalKeys);

    __auto_type * operational = [MTRCertificates createOperationalCertificate:rootKeys
                                                           signingCertificate:root
                                                         operationalPublicKey:operationalKeys.publicKey
                                                                     fabricID:@123
                                                                       nodeID:@456
                                                        caseAuthenticatedTags:nil
                                                                        error:nil];
    XCTAssertNotNil(operational);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk
                                                              operationalKeypair:operationalKeys
                                                          operationalCertificate:operational
                                                         intermediateCertificate:nil
                                                                 rootCertificate:root];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], @456);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerCertChainFabricMismatchRoot
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:@111 error:nil];
    XCTAssertNotNil(root);

    __auto_type * operationalKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(operationalKeys);

    __auto_type * operational = [MTRCertificates createOperationalCertificate:rootKeys
                                                           signingCertificate:root
                                                         operationalPublicKey:operationalKeys.publicKey
                                                                     fabricID:@123
                                                                       nodeID:@456
                                                        caseAuthenticatedTags:nil
                                                                        error:nil];
    XCTAssertNotNil(operational);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk
                                                              operationalKeypair:operationalKeys
                                                          operationalCertificate:operational
                                                         intermediateCertificate:nil
                                                                 rootCertificate:root];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerCertChainFabricMismatchIntermediate
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * root = [MTRCertificates createRootCertificate:rootKeys issuerID:nil fabricID:@123 error:nil];
    XCTAssertNotNil(root);

    __auto_type * intermediateKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(intermediateKeys);

    __auto_type * intermediate = [MTRCertificates createIntermediateCertificate:rootKeys
                                                                rootCertificate:root
                                                          intermediatePublicKey:intermediateKeys.publicKey
                                                                       issuerID:nil
                                                                       fabricID:@111
                                                                          error:nil];
    XCTAssertNotNil(intermediate);

    __auto_type * operationalKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(operationalKeys);

    __auto_type * operational = [MTRCertificates createOperationalCertificate:intermediateKeys
                                                           signingCertificate:intermediate
                                                         operationalPublicKey:operationalKeys.publicKey
                                                                     fabricID:@123
                                                                       nodeID:@456
                                                        caseAuthenticatedTags:nil
                                                                        error:nil];
    XCTAssertNotNil(operational);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk
                                                              operationalKeypair:operationalKeys
                                                          operationalCertificate:operational
                                                         intermediateCertificate:intermediate
                                                                 rootCertificate:root];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerExternallyProvidedOperationalKey
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * operationalKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(operationalKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);
    params.operationalKeypair = operationalKeys;

    MTRDeviceController * controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    __auto_type nodeId = [controller controllerNodeID];

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // Trying to bring up the same fabric without specifying the operational
    // keypair should now fail, because we won't know what operational keys to
    // use.
    params.operationalKeypair = nil;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    // But bringing up the controller with provided operational keys should
    // work, and have the same node id.
    params.operationalKeypair = operationalKeys;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], nodeId);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    // And bringing up the controller with a different provided operational key
    // should work too.
    __auto_type * newOperationalKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(newOperationalKeys);

    params.operationalKeypair = newOperationalKeys;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    XCTAssertEqualObjects([controller controllerNodeID], nodeId);

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testControllerCATs
{
    __auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
    XCTAssertNotNil(factory);

    __auto_type * storage = [[MTRTestStorage alloc] init];
    __auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
    XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
    XCTAssertTrue([factory isRunning]);

    __auto_type * rootKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(rootKeys);

    __auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:rootKeys.ipk fabricID:@(1) nocSigner:rootKeys];
    XCTAssertNotNil(params);

    params.vendorID = @(kTestVendorId);

    //
    // Trying to bring up a controller with too-long CATs should fail.
    //
    __auto_type * tooLongCATs = [NSSet setWithObjects:@(0x10001), @(0x20001), @(0x30001), @(0x40001), nil];
    params.caseAuthenticatedTags = tooLongCATs;
    MTRDeviceController * controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    //
    // Trying to bring up a controller that has an invalid CAT value should
    // fail.
    //
    __auto_type * invalidCATs = [NSSet setWithObjects:@(0x10001), @(0x20001), @(0x0), nil];
    params.caseAuthenticatedTags = invalidCATs;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    //
    // Bring up a controller with valid CATs
    //
    __auto_type * validCATs = [NSSet setWithObjects:@(0x10001), @(0x20007), @(0x30005), nil];
    params.nodeID = @(17);
    params.caseAuthenticatedTags = validCATs;
    controller = [factory createControllerOnNewFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    // Check that the resulting certificate has the right CATs and node ID
    CheckStoredOpcertCats(storage, 1, validCATs);
    XCTAssertEqualObjects([controller controllerNodeID], @(17));

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    //
    // Trying to bring up the same fabric without specifying any node id
    // should not allow trying to specify the same CATs.
    //
    params.nodeID = nil;
    params.caseAuthenticatedTags = validCATs;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    //
    // Trying to bring up the same fabric without specifying any node id
    // should not allow trying to specify different CATs.
    //
    __auto_type * newCATs = [NSSet setWithObjects:@(0x20005), @(0x70009), @(0x80004), nil];
    XCTAssertNotEqualObjects(validCATs, newCATs);
    params.nodeID = nil;
    params.caseAuthenticatedTags = newCATs;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    //
    // Trying to bring up the same fabric without specifying any node id
    // should end up using the existing CATs.
    //
    params.nodeID = nil;
    params.caseAuthenticatedTags = nil;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    // Check that the resulting certificate has the right CATs and node ID
    CheckStoredOpcertCats(storage, 1, validCATs);
    XCTAssertEqualObjects([controller controllerNodeID], @(17));

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    //
    // Trying to bring up the same fabric without specifying any node id
    // should end up using the existing CATs, even if a new
    // operational key is specified.
    //
    __auto_type * operationalKeys = [[MTRTestKeys alloc] init];
    XCTAssertNotNil(operationalKeys);
    params.nodeID = nil;
    params.operationalKeypair = operationalKeys;
    params.caseAuthenticatedTags = nil;

    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    // Check that the resulting certificate has the right CATs and node ID
    CheckStoredOpcertCats(storage, 1, validCATs);
    XCTAssertEqualObjects([controller controllerNodeID], @(17));

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    //
    // Trying to bring up the same fabric while specifying the node ID, even if
    // it's the same one, should pick up the new CATs.
    //
    params.nodeID = @(17);
    params.operationalKeypair = operationalKeys;
    params.caseAuthenticatedTags = newCATs;

    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    // Check that the resulting certificate has the right CATs and node ID
    CheckStoredOpcertCats(storage, 1, newCATs);
    XCTAssertEqualObjects([controller controllerNodeID], @(17));

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    //
    // Trying to bring up the same fabric while specifying the node ID should
    // let us remove CATs altogether.
    //
    params.nodeID = @(17);
    params.operationalKeypair = operationalKeys;
    params.caseAuthenticatedTags = nil;

    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNotNil(controller);
    XCTAssertTrue([controller isRunning]);

    // Check that the resulting certificate has the right CATs and node ID
    CheckStoredOpcertCats(storage, 1, nil);
    XCTAssertEqualObjects([controller controllerNodeID], @(17));

    [controller shutdown];
    XCTAssertFalse([controller isRunning]);

    //
    // Trying to bring up the same fabric with too-long CATs should fail, if we
    // are taking the provided CATs into account.
    //
    params.nodeID = @(17);
    params.operationalKeypair = operationalKeys;
    params.caseAuthenticatedTags = tooLongCATs;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    //
    // Trying to bring up the same fabric with invalid CATs should fail, if we
    // are taking the provided CATs into account.
    //
    params.nodeID = @(17);
    params.operationalKeypair = operationalKeys;
    params.caseAuthenticatedTags = invalidCATs;
    controller = [factory createControllerOnExistingFabric:params error:nil];
    XCTAssertNil(controller);

    [factory stopControllerFactory];
    XCTAssertFalse([factory isRunning]);
}

- (void)testSetMRPParameters
{
    // Can be called before starting the factory
    XCTAssertFalse(MTRDeviceControllerFactory.sharedInstance.running);
    MTRSetMessageReliabilityParameters(@2000, @2000, @2000, @2000);

    // Now reset back to the default state, so timings in other tests are not
    // affected.
    MTRSetMessageReliabilityParameters(nil, nil, nil, nil);
}

@end