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pigweed / third_party / github / project-chip / connectedhomeip / c8abcfdc3b40ba484650e3a91b84879d4702358b / . / src / darwin / Framework / CHIPTests / MTRPairingTests.m
blob: a5e44fff2632e783e3cd5645a97729331773d1d5 [file] [log] [blame]
/*
*
* Copyright (c) 2022 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.
*/
// module headers
#import <Matter/Matter.h>
#import "MTRErrorTestUtils.h"
#import "MTRTestKeys.h"
#import "MTRTestResetCommissioneeHelper.h"
#import "MTRTestStorage.h"
// system dependencies
#import <XCTest/XCTest.h>
// Fixture: chip-all-clusters-app --KVS "$(mktemp -t chip-test-kvs)" --interface-id -1 \
--dac_provider credentials/development/commissioner_dut/struct_cd_origin_pid_vid_correct/test_case_vector.json \
--product-id 32768 --discriminator 3839
// For manual testing, CASE retry code paths can be tested by adding --faults chip_CASEServerBusy_f1 (or similar)
static const uint16_t kPairingTimeoutInSeconds = 10;
static const uint16_t kTimeoutInSeconds = 3;
static uint64_t sDeviceId = 100000000;
static NSString * kOnboardingPayload = @"MT:Y.K90SO527JA0648G00";
static const uint16_t kLocalPort = 5541;
static const uint16_t kTestVendorId = 0xFFF1u;
// Singleton controller we use.
static MTRDeviceController * sController = nil;
// Keys we can use to restart the controller.
static MTRTestKeys * sTestKeys = nil;
// A no-op MTRDeviceAttestationDelegate which lets us test (by default, in CI)
// commissioning flows that have such a delegate.
@interface NoOpAttestationDelegate : NSObject <MTRDeviceAttestationDelegate>
@property (nonatomic) XCTestExpectation * expectation;
@property (nonatomic) BOOL blockCommissioning;
- (instancetype)initWithExpectation:(XCTestExpectation *)expectation;
// If blockCommissioning is YES, this delegate will never proceed from
// its attestation verification callback.
- (instancetype)initWithExpectation:(XCTestExpectation *)expectation blockCommissioning:(BOOL)blockCommissioning;
@end
@implementation NoOpAttestationDelegate
- (instancetype)initWithExpectation:(XCTestExpectation *)expectation
{
return [self initWithExpectation:expectation blockCommissioning:NO];
}
- (instancetype)initWithExpectation:(XCTestExpectation *)expectation blockCommissioning:(BOOL)blockCommissioning;
{
if (!(self = [super init])) {
return nil;
}
_expectation = expectation;
_blockCommissioning = blockCommissioning;
return self;
}
- (void)deviceAttestationCompletedForController:(MTRDeviceController *)controller
opaqueDeviceHandle:(void *)opaqueDeviceHandle
attestationDeviceInfo:(MTRDeviceAttestationDeviceInfo *)attestationDeviceInfo
error:(NSError * _Nullable)error
{
[self.expectation fulfill];
// Hard-coded to what our example server app uses for now.
XCTAssertEqualObjects(attestationDeviceInfo.vendorID, @(0xFFF2));
XCTAssertEqualObjects(attestationDeviceInfo.productID, @(0x8001));
XCTAssertEqualObjects(attestationDeviceInfo.basicInformationVendorID, @(0xFFF1));
XCTAssertEqualObjects(attestationDeviceInfo.basicInformationProductID, @(0x8000));
if (!self.blockCommissioning) {
[controller continueCommissioningDevice:opaqueDeviceHandle ignoreAttestationFailure:NO error:nil];
}
}
@end
@interface MTRPairingTestControllerDelegate : NSObject <MTRDeviceControllerDelegate>
@property (nonatomic, strong) XCTestExpectation * expectation;
@property (nonatomic, nullable) id<MTRDeviceAttestationDelegate> attestationDelegate;
@property (nonatomic, nullable) NSNumber * failSafeExtension;
@property (nullable) NSError * commissioningCompleteError;
@end
@implementation MTRPairingTestControllerDelegate
- (id)initWithExpectation:(XCTestExpectation *)expectation
attestationDelegate:(id<MTRDeviceAttestationDelegate>)attestationDelegate
failSafeExtension:(NSNumber *)failSafeExtension
{
self = [super init];
if (self) {
_expectation = expectation;
_attestationDelegate = attestationDelegate;
_failSafeExtension = failSafeExtension;
}
return self;
}
- (void)controller:(MTRDeviceController *)controller commissioningSessionEstablishmentDone:(NSError * _Nullable)error
{
XCTAssertNil(error);
__auto_type * params = [[MTRCommissioningParameters alloc] init];
params.deviceAttestationDelegate = self.attestationDelegate;
params.failSafeTimeout = self.failSafeExtension;
NSError * commissionError = nil;
XCTAssertTrue([controller commissionNodeWithID:@(sDeviceId) commissioningParams:params error:&commissionError],
@"Failed to start commissioning for node ID %" PRIu64 ": %@", sDeviceId, commissionError);
// Keep waiting for onCommissioningComplete
}
- (void)controller:(MTRDeviceController *)controller commissioningComplete:(NSError * _Nullable)error
{
self.commissioningCompleteError = error;
[_expectation fulfill];
_expectation = nil;
}
@end
@interface MTRPairingTests : XCTestCase
@property (nullable) MTRPairingTestControllerDelegate * controllerDelegate;
@end
@implementation MTRPairingTests
+ (void)setUp
{
__auto_type * factory = [MTRDeviceControllerFactory sharedInstance];
XCTAssertNotNil(factory);
__auto_type * storage = [[MTRTestStorage alloc] init];
__auto_type * factoryParams = [[MTRDeviceControllerFactoryParams alloc] initWithStorage:storage];
factoryParams.port = @(kLocalPort);
XCTAssertTrue([factory startControllerFactory:factoryParams error:nil]);
XCTAssertNotNil(sTestKeys = [[MTRTestKeys alloc] init]);
// Needs to match what startControllerOnExistingFabric calls elsewhere in
// this file do.
__auto_type * params = [[MTRDeviceControllerStartupParams alloc] initWithIPK:sTestKeys.ipk fabricID:@(1) nocSigner:sTestKeys];
params.vendorID = @(kTestVendorId);
XCTAssertNotNil(sController = [factory createControllerOnNewFabric:params error:nil]);
}
+ (void)tearDown
{
[sController shutdown];
XCTAssertFalse([sController isRunning]);
sController = nil;
[[MTRDeviceControllerFactory sharedInstance] stopControllerFactory];
}
- (void)setUp
{
[super setUp];
[self setContinueAfterFailure:NO];
}
- (void)tearDown
{
[sController setDeviceControllerDelegate:(id _Nonnull) nil queue:dispatch_get_main_queue()]; // TODO: do we need a clearDeviceControllerDelegate API?
self.controllerDelegate = nil;
}
// attestationDelegate and failSafeExtension can both be nil
- (void)doPairingTestWithAttestationDelegate:(id<MTRDeviceAttestationDelegate>)attestationDelegate failSafeExtension:(NSNumber *)failSafeExtension
{
// Don't reuse node ids, because that will confuse us.
++sDeviceId;
XCTestExpectation * expectation = [self expectationWithDescription:@"Commissioning Complete"];
__auto_type * controllerDelegate = [[MTRPairingTestControllerDelegate alloc] initWithExpectation:expectation
attestationDelegate:attestationDelegate
failSafeExtension:failSafeExtension];
dispatch_queue_t callbackQueue = dispatch_queue_create("com.chip.pairing", DISPATCH_QUEUE_SERIAL_WITH_AUTORELEASE_POOL);
[sController setDeviceControllerDelegate:controllerDelegate queue:callbackQueue];
self.controllerDelegate = controllerDelegate;
NSError * error;
__auto_type * payload = [MTRSetupPayload setupPayloadWithOnboardingPayload:kOnboardingPayload error:&error];
XCTAssertNotNil(payload);
XCTAssertNil(error);
XCTAssertTrue([sController setupCommissioningSessionWithPayload:payload newNodeID:@(sDeviceId) error:&error]);
XCTAssertNil(error);
[self waitForExpectations:@[ expectation ] timeout:kPairingTimeoutInSeconds];
XCTAssertNil(controllerDelegate.commissioningCompleteError);
ResetCommissionee([MTRBaseDevice deviceWithNodeID:@(sDeviceId) controller:sController], dispatch_get_main_queue(), self,
kTimeoutInSeconds);
}
- (void)test001_PairWithoutAttestationDelegate
{
[self doPairingTestWithAttestationDelegate:nil failSafeExtension:nil];
}
- (void)test002_PairWithAttestationDelegateNoFailsafeExtension
{
XCTestExpectation * expectation = [self expectationWithDescription:@"Attestation delegate called"];
[self doPairingTestWithAttestationDelegate:[[NoOpAttestationDelegate alloc] initWithExpectation:expectation]
failSafeExtension:nil];
[self waitForExpectations:@[ expectation ] timeout:kTimeoutInSeconds];
}
- (void)test003_PairWithAttestationDelegateFailsafeExtensionShort
{
XCTestExpectation * expectation = [self expectationWithDescription:@"Attestation delegate called"];
// Extend by a time that is going to be smaller than the 60s default we
// already have set via CHIP_DEVICE_CONFIG_FAILSAFE_EXPIRY_LENGTH_SEC on the
// server side, minus whatever time that has likely passed.
[self doPairingTestWithAttestationDelegate:[[NoOpAttestationDelegate alloc] initWithExpectation:expectation]
failSafeExtension:@(30)];
[self waitForExpectations:@[ expectation ] timeout:kTimeoutInSeconds];
}
- (void)test004_PairWithAttestationDelegateFailsafeExtensionLong
{
XCTestExpectation * expectation = [self expectationWithDescription:@"Attestation delegate called"];
// Extend by a time that is going to be larger than the 60s default we
// already have set via CHIP_DEVICE_CONFIG_FAILSAFE_EXPIRY_LENGTH_SEC on the
// server side.
[self doPairingTestWithAttestationDelegate:[[NoOpAttestationDelegate alloc] initWithExpectation:expectation]
failSafeExtension:@(90)];
[self waitForExpectations:@[ expectation ] timeout:kTimeoutInSeconds];
}
- (void)doPairingAndWaitForProgress:(NSString *)trigger attestationDelegate:(nullable id<MTRDeviceAttestationDelegate>)attestationDelegate
{
XCTestExpectation * expectation = [self expectationWithDescription:@"Trigger message seen"];
expectation.assertForOverFulfill = NO;
MTRSetLogCallback(MTRLogTypeDetail, ^(MTRLogType type, NSString * moduleName, NSString * message) {
if ([message containsString:trigger]) {
[expectation fulfill];
}
});
XCTestExpectation * attestationExpectation;
if (attestationDelegate == nil) {
attestationExpectation = [self expectationWithDescription:@"Attestation delegate called"];
attestationDelegate = [[NoOpAttestationDelegate alloc] initWithExpectation:attestationExpectation];
}
// Make sure we exercise the codepath that has an attestation delegate and
// extends the fail-safe while waiting for that delegate. And make sure our
// fail-safe extension is long enough that we actually trigger a fail-safe
// extension (so longer than the 1-minute default).
__auto_type * controllerDelegate = [[MTRPairingTestControllerDelegate alloc] initWithExpectation:nil
attestationDelegate:attestationDelegate
failSafeExtension:@(90)];
[sController setDeviceControllerDelegate:controllerDelegate queue:dispatch_get_main_queue()];
self.controllerDelegate = controllerDelegate;
__auto_type * payload = [MTRSetupPayload setupPayloadWithOnboardingPayload:kOnboardingPayload error:NULL];
XCTAssertNotNil(payload);
NSError * error;
XCTAssertTrue([sController setupCommissioningSessionWithPayload:payload newNodeID:@(++sDeviceId) error:&error]);
XCTAssertNil(error);
[self waitForExpectations:@[ expectation ] timeout:kPairingTimeoutInSeconds];
if (attestationExpectation) {
[self waitForExpectations:@[ attestationExpectation ] timeout:kTimeoutInSeconds];
}
MTRSetLogCallback(0, nil);
}
- (void)doPairingTestAfterCancellationAtProgress:(NSString *)trigger attestationDelegate:(nullable id<MTRDeviceAttestationDelegate>)attestationDelegate
{
// Run pairing up and wait for the trigger
[self doPairingAndWaitForProgress:trigger attestationDelegate:attestationDelegate];
// Call StopPairing and wait for the commissioningComplete callback
XCTestExpectation * expectation = [self expectationWithDescription:@"commissioningComplete delegate method called"];
self.controllerDelegate.expectation = expectation;
NSError * error;
XCTAssertTrue([sController stopDevicePairing:sDeviceId error:&error], @"stopDevicePairing failed: %@", error);
[self waitForExpectations:@[ expectation ] timeout:kTimeoutInSeconds];
// Validate that the completion correctly indicated cancellation
error = self.controllerDelegate.commissioningCompleteError;
XCTAssertEqualObjects(error.domain, MTRErrorDomain);
XCTAssertEqual(error.code, MTRErrorCodeCancelled);
// Now pair again. If the previous attempt was cancelled correctly this should work fine.
[self doPairingTestWithAttestationDelegate:nil failSafeExtension:nil];
}
- (void)doPairingTestAfterCancellationAtProgress:(NSString *)trigger
{
[self doPairingTestAfterCancellationAtProgress:trigger attestationDelegate:nil];
}
- (void)test005_pairingAfterCancellation_ReadCommissioningInfo
{
// @"Sending read request for commissioning information"
[self doPairingTestAfterCancellationAtProgress:@"Performing next commissioning step 'ReadCommissioningInfo'"];
}
- (void)test006_pairingAfterCancellation_ConfigRegulatoryCommand
{
[self doPairingTestAfterCancellationAtProgress:@"Performing next commissioning step 'ConfigRegulatory'"];
}
- (void)test007_pairingAfterCancellation_FindOperational
{
// Ensure CASE establishment has started by waiting for 'FindOrEstablishSession'
[self doPairingTestAfterCancellationAtProgress:@"FindOrEstablishSession:"];
}
- (void)test008_pairingAfterCancellation_DeviceAttestationVerification
{
// Cancel pairing while we are waiting for our client to decide what to do
// with the attestation information we got.
XCTestExpectation * attestationExpectation = [self expectationWithDescription:@"Blocking attestation delegate called"];
__auto_type * attestationDelegate = [[NoOpAttestationDelegate alloc] initWithExpectation:attestationExpectation blockCommissioning:YES];
[self doPairingTestAfterCancellationAtProgress:@"Successfully extended fail-safe timer to handle DA failure" attestationDelegate:attestationDelegate];
[self waitForExpectations:@[ attestationExpectation ] timeout:kTimeoutInSeconds];
}
@end