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pigweed / third_party / github / project-chip / connectedhomeip / f3a9fe9df28b2008e8d0f6b2cb70ef6f3c73404b / . / src / darwin / Framework / CHIP / MTRDeviceController.mm
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/**
*
* Copyright (c) 2020-2023 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/MTRCommissionableBrowserResult.h>
#import <Matter/MTRDefines.h>
#import <Matter/MTRDeviceControllerParameters.h>
#import "MTRDeviceController_Internal.h"
#import "MTRAsyncWorkQueue.h"
#import "MTRBaseDevice_Internal.h"
#import "MTRCommissioningParameters.h"
#import "MTRConversion.h"
#import "MTRDefines_Internal.h"
#import "MTRDeviceControllerFactory_Internal.h"
#import "MTRDeviceControllerLocalTestStorage.h"
#import "MTRDeviceControllerStartupParams.h"
#import "MTRDeviceControllerStartupParams_Internal.h"
#import "MTRDeviceControllerXPCParameters.h"
#import "MTRDeviceController_Concrete.h"
#import "MTRDeviceController_XPC.h"
#import "MTRDeviceController_XPC_Internal.h"
#import "MTRDevice_Concrete.h"
#import "MTRDevice_Internal.h"
#import "MTRError_Internal.h"
#import "MTRKeypair.h"
#import "MTRLogging_Internal.h"
#import "MTRMetricKeys.h"
#import "MTRMetricsCollector.h"
#import "MTRPersistentStorageDelegateBridge.h"
#import "MTRSetupPayload.h"
#import "MTRTimeUtils.h"
#import "MTRUnfairLock.h"
#import "MTRUtilities.h"
#import "NSDataSpanConversion.h"
#import "NSStringSpanConversion.h"
#include <app/server/Dnssd.h>
#include <crypto/CHIPCryptoPAL.h>
#include <atomic>
#include <dns_sd.h>
#include <string>
#import <os/lock.h>
static NSString * const kErrorSpake2pVerifierGenerationFailed = @"PASE verifier generation failed";
static NSString * const kErrorSpake2pVerifierSerializationFailed = @"PASE verifier serialization failed";
typedef void (^SyncWorkQueueBlock)(void);
typedef id (^SyncWorkQueueBlockWithReturnValue)(void);
typedef BOOL (^SyncWorkQueueBlockWithBoolReturnValue)(void);
using namespace chip::Tracing::DarwinFramework;
@interface MTRDeviceControllerDelegateInfo : NSObject
- (instancetype)initWithDelegate:(id<MTRDeviceControllerDelegate>)delegate queue:(dispatch_queue_t)queue;
@property (nonatomic, weak, readonly) id<MTRDeviceControllerDelegate> delegate;
@property (nonatomic, readonly) dispatch_queue_t queue;
@end
@implementation MTRDeviceControllerDelegateInfo
@synthesize delegate = _delegate, queue = _queue;
- (instancetype)initWithDelegate:(id<MTRDeviceControllerDelegate>)delegate queue:(dispatch_queue_t)queue
{
if (!(self = [super init])) {
return nil;
}
_delegate = delegate;
_queue = queue;
return self;
}
@end
@implementation MTRDeviceController {
os_unfair_lock _underlyingDeviceMapLock;
// For now, we just ensure that access to _suspended is atomic, but don't
// guarantee atomicity of the the entire suspend/resume operation. The
// expectation is that suspend/resume on a given controller happen on some
// specific queue, so can't race against each other.
std::atomic<bool> _suspended;
NSMutableArray<MTRDeviceControllerDelegateInfo *> * _delegates;
id<MTRDeviceControllerDelegate> _strongDelegateForSetDelegateAPI;
}
@synthesize uniqueIdentifier = _uniqueIdentifier;
- (os_unfair_lock_t)deviceMapLock
{
return &_underlyingDeviceMapLock;
}
- (instancetype)initForSubclasses:(BOOL)startSuspended
{
if (self = [super init]) {
// nothing, as superclass of MTRDeviceController is NSObject
}
_underlyingDeviceMapLock = OS_UNFAIR_LOCK_INIT;
_suspended = startSuspended;
_nodeIDToDeviceMap = [NSMapTable strongToWeakObjectsMapTable];
_delegates = [NSMutableArray array];
return self;
}
- (nullable MTRDeviceController *)initWithParameters:(MTRDeviceControllerAbstractParameters *)parameters error:(NSError * __autoreleasing *)error
{
// Dispatch to the right non-abstract implementation.
if ([parameters isKindOfClass:MTRXPCDeviceControllerParameters.class]) {
MTR_LOG("Starting up with XPC Device Controller Parameters: %@", parameters);
return [[MTRDeviceController_XPC alloc] initWithParameters:parameters error:error];
}
if ([parameters isKindOfClass:MTRDeviceControllerMachServiceXPCParameters.class]) {
// TODO: This will need to at least pass in the uniqueIdentifier, no? initWithMachServiceName:options: seems to
// be declared but not actually implemented...
auto * xpcParameters = static_cast<MTRDeviceControllerMachServiceXPCParameters *>(parameters);
MTR_LOG("Starting up with Mach Service XPC Device Controller Parameters: %@", parameters);
return [[MTRDeviceController_XPC alloc] initWithMachServiceName:xpcParameters.machServiceName options:xpcParameters.connectionOptions];
}
if ([parameters isKindOfClass:MTRDeviceControllerParameters.class]) {
MTR_LOG("Starting up with Device Controller Parameters: %@", parameters);
return [[MTRDeviceController_Concrete alloc] initWithParameters:parameters error:error];
}
MTR_LOG_ERROR("Unsupported type of MTRDeviceControllerAbstractParameters: %@", parameters);
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INVALID_ARGUMENT];
}
return nil;
}
- (NSString *)description
{
return [NSString stringWithFormat:@"<%@: %p, uuid: %@, suspended: %@>", NSStringFromClass(self.class), self, self.uniqueIdentifier, MTR_YES_NO(self.suspended)];
}
- (BOOL)isRunning
{
MTR_ABSTRACT_METHOD();
return NO;
}
#pragma mark - Suspend/resume support
- (BOOL)isSuspended
{
return _suspended;
}
- (void)_notifyDelegatesOfSuspendState
{
BOOL isSuspended = [self isSuspended];
[self _callDelegatesWithBlock:^(id<MTRDeviceControllerDelegate> delegate) {
if ([delegate respondsToSelector:@selector(controller:suspendedChangedTo:)]) {
[delegate controller:self suspendedChangedTo:isSuspended];
}
} logString:__PRETTY_FUNCTION__];
}
- (void)suspend
{
MTR_LOG("%@ suspending", self);
if (![self isRunning]) {
MTR_LOG_ERROR("%@ not running; can't suspend", self);
return;
}
NSArray * devicesToSuspend;
{
std::lock_guard lock(*self.deviceMapLock);
// Set _suspended under the device map lock. This guarantees that
// for any given device exactly one of two things is true:
// * It is in the snapshot we are creating
// * It is created after we have changed our _suspended state.
if (_suspended) {
MTR_LOG("%@ already suspended", self);
return;
}
_suspended = YES;
devicesToSuspend = [self.nodeIDToDeviceMap objectEnumerator].allObjects;
}
MTR_LOG("%@ found %lu devices to suspend", self, static_cast<unsigned long>(devicesToSuspend.count));
for (MTRDevice * device in devicesToSuspend) {
[device controllerSuspended];
}
// TODO: In the concrete class, consider what should happen with:
//
// * Active commissioning sessions (presumably close them?)
// * CASE sessions in general.
// * Possibly try to see whether we can change our fabric entry to not advertise and restart advertising.
[self _notifyDelegatesOfSuspendState];
[self _controllerSuspended];
}
- (void)_controllerSuspended
{
// Subclass hook; nothing to do.
}
- (void)resume
{
MTR_LOG("%@ resuming", self);
if (![self isRunning]) {
MTR_LOG_ERROR("%@ not running; can't resume", self);
return;
}
NSArray * devicesToResume;
{
std::lock_guard lock(*self.deviceMapLock);
// Set _suspended under the device map lock. This guarantees that
// for any given device exactly one of two things is true:
// * It is in the snapshot we are creating
// * It is created after we have changed our _suspended state.
if (!_suspended) {
MTR_LOG("%@ already not suspended", self);
return;
}
_suspended = NO;
devicesToResume = [self.nodeIDToDeviceMap objectEnumerator].allObjects;
}
MTR_LOG("%@ found %lu devices to resume", self, static_cast<unsigned long>(devicesToResume.count));
for (MTRDevice * device in devicesToResume) {
[device controllerResumed];
}
[self _notifyDelegatesOfSuspendState];
[self _controllerResumed];
}
- (void)_controllerResumed
{
// Subclass hook; nothing to do.
}
- (void)shutdown
{
[self _clearDeviceControllerDelegates];
}
- (nullable NSNumber *)controllerNodeID
{
MTR_ABSTRACT_METHOD();
return nil;
}
- (BOOL)setupCommissioningSessionWithPayload:(MTRSetupPayload *)payload
newNodeID:(NSNumber *)newNodeID
error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)setupCommissioningSessionWithDiscoveredDevice:(MTRCommissionableBrowserResult *)discoveredDevice
payload:(MTRSetupPayload *)payload
newNodeID:(NSNumber *)newNodeID
error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)commissionNodeWithID:(NSNumber *)nodeID
commissioningParams:(MTRCommissioningParameters *)commissioningParams
error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)continueCommissioningDevice:(void *)device
ignoreAttestationFailure:(BOOL)ignoreAttestationFailure
error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)cancelCommissioningForNodeID:(NSNumber *)nodeID error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)startBrowseForCommissionables:(id<MTRCommissionableBrowserDelegate>)delegate queue:(dispatch_queue_t)queue
{
MTR_ABSTRACT_METHOD();
return NO;
}
- (BOOL)stopBrowseForCommissionables
{
MTR_ABSTRACT_METHOD();
return NO;
}
- (void)preWarmCommissioningSession
{
MTR_ABSTRACT_METHOD();
}
- (nullable MTRBaseDevice *)deviceBeingCommissionedWithNodeID:(NSNumber *)nodeID error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return nil;
}
- (MTRBaseDevice *)baseDeviceForNodeID:(NSNumber *)nodeID
{
return [[MTRBaseDevice alloc] initWithNodeID:nodeID controller:self];
}
- (MTRDevice *)_setupDeviceForNodeID:(NSNumber *)nodeID prefetchedClusterData:(NSDictionary<MTRClusterPath *, MTRDeviceClusterData *> *)prefetchedClusterData
{
MTR_ABSTRACT_METHOD();
// We promise to not return nil from this API... return an MTRDevice
// instance, which will largely not be able to do anything useful. This
// only matters when someone subclasses MTRDeviceController in a weird way,
// then tries to create an MTRDevice from their subclass.
return [[MTRDevice alloc] initForSubclassesWithNodeID:nodeID controller:self];
}
- (MTRDevice *)deviceForNodeID:(NSNumber *)nodeID
{
std::lock_guard lock(*self.deviceMapLock);
MTRDevice * deviceToReturn = [_nodeIDToDeviceMap objectForKey:nodeID];
if (!deviceToReturn) {
deviceToReturn = [self _setupDeviceForNodeID:nodeID prefetchedClusterData:nil];
}
return deviceToReturn;
}
- (void)removeDevice:(MTRDevice *)device
{
std::lock_guard lock(*self.deviceMapLock);
auto * nodeID = device.nodeID;
MTRDevice * deviceToRemove = [_nodeIDToDeviceMap objectForKey:nodeID];
if (deviceToRemove == device) {
[deviceToRemove invalidate];
[_nodeIDToDeviceMap removeObjectForKey:nodeID];
} else {
MTR_LOG_ERROR("%@ Error: Cannot remove device %p with nodeID %llu", self, device, nodeID.unsignedLongLongValue);
}
}
- (BOOL)setOperationalCertificateIssuer:(nullable id<MTROperationalCertificateIssuer>)operationalCertificateIssuer
queue:(nullable dispatch_queue_t)queue
{
MTR_ABSTRACT_METHOD();
return NO;
}
+ (nullable NSData *)computePASEVerifierForSetupPasscode:(NSNumber *)setupPasscode
iterations:(NSNumber *)iterations
salt:(NSData *)salt
error:(NSError * __autoreleasing *)error
{
chip::Crypto::Spake2pVerifier verifier;
CHIP_ERROR err = verifier.Generate(iterations.unsignedIntValue, AsByteSpan(salt), setupPasscode.unsignedIntValue);
MATTER_LOG_METRIC_SCOPE(kMetricPASEVerifierForSetupCode, err);
if ([MTRDeviceController checkForError:err logMsg:kErrorSpake2pVerifierGenerationFailed error:error]) {
return nil;
}
uint8_t serializedBuffer[chip::Crypto::kSpake2p_VerifierSerialized_Length];
chip::MutableByteSpan serializedBytes(serializedBuffer);
err = verifier.Serialize(serializedBytes);
if ([MTRDeviceController checkForError:err logMsg:kErrorSpake2pVerifierSerializationFailed error:error]) {
return nil;
}
return AsData(serializedBytes);
}
- (NSData * _Nullable)attestationChallengeForDeviceID:(NSNumber *)deviceID
{
MTR_ABSTRACT_METHOD();
return nil;
}
- (BOOL)addServerEndpoint:(MTRServerEndpoint *)endpoint
{
MTR_ABSTRACT_METHOD();
return NO;
}
- (void)removeServerEndpoint:(MTRServerEndpoint *)endpoint queue:(dispatch_queue_t)queue completion:(dispatch_block_t)completion
{
[self removeServerEndpointInternal:endpoint queue:queue completion:completion];
}
- (void)removeServerEndpoint:(MTRServerEndpoint *)endpoint
{
[self removeServerEndpointInternal:endpoint queue:nil completion:nil];
}
- (void)removeServerEndpointInternal:(MTRServerEndpoint *)endpoint queue:(dispatch_queue_t _Nullable)queue completion:(dispatch_block_t _Nullable)completion
{
MTR_ABSTRACT_METHOD();
if (queue != nil && completion != nil) {
dispatch_async(queue, completion);
}
}
+ (BOOL)checkForError:(CHIP_ERROR)errorCode logMsg:(NSString *)logMsg error:(NSError * __autoreleasing *)error
{
if (CHIP_NO_ERROR == errorCode) {
return NO;
}
MTR_LOG_ERROR("Error(%" CHIP_ERROR_FORMAT "): %@ %s", errorCode.Format(), self, [logMsg UTF8String]);
if (error) {
*error = [MTRError errorForCHIPErrorCode:errorCode];
}
return YES;
}
- (void)asyncDispatchToMatterQueue:(dispatch_block_t)block errorHandler:(nullable MTRDeviceErrorHandler)errorHandler
{
// TODO: Figure out how to get callsites to have an MTRDeviceController_Concrete.
MTR_ABSTRACT_METHOD();
errorHandler([MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE]);
}
- (nullable NSNumber *)compressedFabricID
{
MTR_ABSTRACT_METHOD();
return nil;
}
#ifdef DEBUG
+ (void)forceLocalhostAdvertisingOnly
{
auto interfaceIndex = chip::Inet::InterfaceId::PlatformType(kDNSServiceInterfaceIndexLocalOnly);
auto interfaceId = chip::Inet::InterfaceId(interfaceIndex);
chip::app::DnssdServer::Instance().SetInterfaceId(interfaceId);
}
#endif // DEBUG
#pragma mark - MTRDeviceControllerDelegate management
// Note these are implemented in the base class so that XPC subclass can use it as well
- (void)setDeviceControllerDelegate:(id<MTRDeviceControllerDelegate>)delegate queue:(dispatch_queue_t)queue
{
@synchronized(self) {
if (_strongDelegateForSetDelegateAPI) {
if (_strongDelegateForSetDelegateAPI == delegate) {
MTR_LOG("%@ setDeviceControllerDelegate: delegate %p is already set", self, delegate);
return;
}
MTR_LOG("%@ setDeviceControllerDelegate: replacing %p with %p", self, _strongDelegateForSetDelegateAPI, delegate);
[self removeDeviceControllerDelegate:_strongDelegateForSetDelegateAPI];
}
_strongDelegateForSetDelegateAPI = delegate;
[self addDeviceControllerDelegate:delegate queue:queue];
}
}
- (void)addDeviceControllerDelegate:(id<MTRDeviceControllerDelegate>)delegate queue:(dispatch_queue_t)queue
{
@synchronized(self) {
__block BOOL delegateAlreadyAdded = NO;
[self _iterateDelegateInfoWithBlock:^(MTRDeviceControllerDelegateInfo * delegateInfo) {
if (delegateInfo.delegate == delegate) {
delegateAlreadyAdded = YES;
}
}];
if (delegateAlreadyAdded) {
MTR_LOG("%@ addDeviceControllerDelegate: delegate already added", self);
return;
}
MTRDeviceControllerDelegateInfo * newDelegateInfo = [[MTRDeviceControllerDelegateInfo alloc] initWithDelegate:delegate queue:queue];
[_delegates addObject:newDelegateInfo];
MTR_LOG("%@ addDeviceControllerDelegate: added %p total %lu", self, delegate, static_cast<unsigned long>(_delegates.count));
}
}
- (void)removeDeviceControllerDelegate:(id<MTRDeviceControllerDelegate>)delegate
{
@synchronized(self) {
if (_strongDelegateForSetDelegateAPI == delegate) {
_strongDelegateForSetDelegateAPI = nil;
}
__block MTRDeviceControllerDelegateInfo * delegateInfoToRemove = nil;
[self _iterateDelegateInfoWithBlock:^(MTRDeviceControllerDelegateInfo * delegateInfo) {
if (delegateInfo.delegate == delegate) {
delegateInfoToRemove = delegateInfo;
}
}];
if (delegateInfoToRemove) {
[_delegates removeObject:delegateInfoToRemove];
MTR_LOG("%@ removeDeviceControllerDelegate: removed %p remaining %lu", self, delegate, static_cast<unsigned long>(_delegates.count));
} else {
MTR_LOG("%@ removeDeviceControllerDelegate: delegate %p not found in %lu", self, delegate, static_cast<unsigned long>(_delegates.count));
}
}
}
- (void)_clearDeviceControllerDelegates
{
@synchronized(self) {
_strongDelegateForSetDelegateAPI = nil;
[_delegates removeAllObjects];
}
}
// Iterates the delegates, and remove delegate info objects if the delegate object has dealloc'ed
// Returns number of delegates called
- (NSUInteger)_iterateDelegateInfoWithBlock:(void (^_Nullable)(MTRDeviceControllerDelegateInfo * delegateInfo))block
{
@synchronized(self) {
if (!_delegates.count) {
MTR_LOG("%@ No delegates to iterate", self);
return 0;
}
// Opportunistically remove defunct delegate references on every iteration
NSMutableArray * delegatesToRemove = nil;
for (MTRDeviceControllerDelegateInfo * delegateInfo in _delegates) {
id<MTRDeviceControllerDelegate> strongDelegate = delegateInfo.delegate;
if (strongDelegate) {
if (block) {
block(delegateInfo);
}
} else {
if (!delegatesToRemove) {
delegatesToRemove = [NSMutableArray array];
}
[delegatesToRemove addObject:delegateInfo];
}
}
if (delegatesToRemove.count) {
[_delegates removeObjectsInArray:delegatesToRemove];
MTR_LOG("%@ _iterateDelegatesWithBlock: removed %lu remaining %lu", self, static_cast<unsigned long>(delegatesToRemove.count), static_cast<unsigned long>(_delegates.count));
}
return _delegates.count;
}
}
- (void)_callDelegatesWithBlock:(void (^_Nullable)(id<MTRDeviceControllerDelegate> delegate))block logString:(const char *)logString
{
NSUInteger delegatesCalled = [self _iterateDelegateInfoWithBlock:^(MTRDeviceControllerDelegateInfo * delegateInfo) {
id<MTRDeviceControllerDelegate> strongDelegate = delegateInfo.delegate;
dispatch_async(delegateInfo.queue, ^{
block(strongDelegate);
});
}];
MTR_LOG("%@ %lu delegates called for %s", self, static_cast<unsigned long>(delegatesCalled), logString);
}
#if DEBUG
- (NSUInteger)unitTestDelegateCount
{
return [self _iterateDelegateInfoWithBlock:nil];
}
#endif
- (void)controller:(MTRDeviceController *)controller statusUpdate:(MTRCommissioningStatus)status
{
[self _callDelegatesWithBlock:^(id<MTRDeviceControllerDelegate> delegate) {
if ([delegate respondsToSelector:@selector(controller:statusUpdate:)]) {
[delegate controller:controller statusUpdate:status];
}
} logString:__PRETTY_FUNCTION__];
}
- (void)controller:(MTRDeviceController *)controller commissioningSessionEstablishmentDone:(NSError * _Nullable)error
{
[self _callDelegatesWithBlock:^(id<MTRDeviceControllerDelegate> delegate) {
if ([delegate respondsToSelector:@selector(controller:commissioningSessionEstablishmentDone:)]) {
[delegate controller:controller commissioningSessionEstablishmentDone:error];
}
} logString:__PRETTY_FUNCTION__];
}
- (void)controller:(MTRDeviceController *)controller
commissioningComplete:(NSError * _Nullable)error
nodeID:(NSNumber * _Nullable)nodeID
metrics:(MTRMetrics *)metrics
{
[self _callDelegatesWithBlock:^(id<MTRDeviceControllerDelegate> delegate) {
if ([delegate respondsToSelector:@selector(controller:commissioningComplete:nodeID:metrics:)]) {
[delegate controller:controller commissioningComplete:error nodeID:nodeID metrics:metrics];
} else if ([delegate respondsToSelector:@selector(controller:commissioningComplete:nodeID:)]) {
[delegate controller:controller commissioningComplete:error nodeID:nodeID];
} else if ([delegate respondsToSelector:@selector(controller:commissioningComplete:)]) {
[delegate controller:controller commissioningComplete:error];
}
} logString:__PRETTY_FUNCTION__];
}
- (void)controller:(MTRDeviceController *)controller readCommissioningInfo:(MTRProductIdentity *)info
{
[self _callDelegatesWithBlock:^(id<MTRDeviceControllerDelegate> delegate) {
if ([delegate respondsToSelector:@selector(controller:readCommissioningInfo:)]) {
[delegate controller:controller readCommissioningInfo:info];
}
} logString:__PRETTY_FUNCTION__];
}
@end
// TODO: This should not be in the superclass: either move to
// MTRDeviceController_Concrete.mm, or move into a separate .h/.mm pair of
// files.
@implementation MTRDevicePairingDelegateShim
- (instancetype)initWithDelegate:(id<MTRDevicePairingDelegate>)delegate
{
if (self = [super init]) {
_delegate = delegate;
}
return self;
}
- (BOOL)respondsToSelector:(SEL)selector
{
if (selector == @selector(controller:statusUpdate:)) {
return [self.delegate respondsToSelector:@selector(onStatusUpdate:)];
}
if (selector == @selector(controller:commissioningSessionEstablishmentDone:)) {
return [self.delegate respondsToSelector:@selector(onPairingComplete:)];
}
if (selector == @selector(controller:commissioningComplete:)) {
return [self.delegate respondsToSelector:@selector(onCommissioningComplete:)];
}
return [super respondsToSelector:selector];
}
- (void)controller:(MTRDeviceController *)controller statusUpdate:(MTRCommissioningStatus)status
{
[self.delegate onStatusUpdate:static_cast<MTRPairingStatus>(status)];
}
- (void)controller:(MTRDeviceController *)controller commissioningSessionEstablishmentDone:(NSError * _Nullable)error
{
[self.delegate onPairingComplete:error];
}
- (void)controller:(MTRDeviceController *)controller commissioningComplete:(NSError * _Nullable)error
{
[self.delegate onCommissioningComplete:error];
}
- (void)onPairingDeleted:(NSError * _Nullable)error
{
[self.delegate onPairingDeleted:error];
}
@end
/**
* Shim to allow us to treat an MTRNOCChainIssuer as an
* MTROperationalCertificateIssuer.
*/
// TODO: This should not be in the superclass: either move to
// MTRDeviceController_Concrete.mm, or move into a separate .h/.mm pair of
// files.
@interface MTROperationalCertificateChainIssuerShim : NSObject <MTROperationalCertificateIssuer>
@property (nonatomic, readonly) id<MTRNOCChainIssuer> nocChainIssuer;
@property (nonatomic, readonly) BOOL shouldSkipAttestationCertificateValidation;
- (instancetype)initWithIssuer:(id<MTRNOCChainIssuer>)nocChainIssuer;
@end
@implementation MTROperationalCertificateChainIssuerShim
- (instancetype)initWithIssuer:(id<MTRNOCChainIssuer>)nocChainIssuer
{
if (self = [super init]) {
_nocChainIssuer = nocChainIssuer;
_shouldSkipAttestationCertificateValidation = YES;
}
return self;
}
- (void)issueOperationalCertificateForRequest:(MTROperationalCSRInfo *)csrInfo
attestationInfo:(MTRDeviceAttestationInfo *)attestationInfo
controller:(MTRDeviceController *)controller
completion:(void (^)(MTROperationalCertificateChain * _Nullable info,
NSError * _Nullable error))completion
{
CSRInfo * oldCSRInfo = [[CSRInfo alloc] initWithNonce:csrInfo.csrNonce
elements:csrInfo.csrElementsTLV
elementsSignature:csrInfo.attestationSignature
csr:csrInfo.csr];
NSData * _Nullable firmwareInfo = attestationInfo.firmwareInfo;
if (firmwareInfo == nil) {
firmwareInfo = [NSData data];
}
AttestationInfo * oldAttestationInfo =
[[AttestationInfo alloc] initWithChallenge:attestationInfo.challenge
nonce:attestationInfo.nonce
elements:attestationInfo.elementsTLV
elementsSignature:attestationInfo.elementsSignature
dac:attestationInfo.deviceAttestationCertificate
pai:attestationInfo.productAttestationIntermediateCertificate
certificationDeclaration:attestationInfo.certificationDeclaration
firmwareInfo:firmwareInfo];
[self.nocChainIssuer
onNOCChainGenerationNeeded:oldCSRInfo
attestationInfo:oldAttestationInfo
onNOCChainGenerationComplete:^(NSData * operationalCertificate, NSData * intermediateCertificate, NSData * rootCertificate,
NSData * _Nullable ipk, NSNumber * _Nullable adminSubject, NSError * __autoreleasing * error) {
auto * chain = [[MTROperationalCertificateChain alloc] initWithOperationalCertificate:operationalCertificate
intermediateCertificate:intermediateCertificate
rootCertificate:rootCertificate
adminSubject:adminSubject];
completion(chain, nil);
if (error != nil) {
*error = nil;
}
}];
}
@end
@implementation MTRDeviceController (Deprecated)
- (NSNumber *)controllerNodeId
{
return self.controllerNodeID;
}
- (nullable NSData *)fetchAttestationChallengeForDeviceId:(uint64_t)deviceId
{
return [self attestationChallengeForDeviceID:@(deviceId)];
}
- (BOOL)getBaseDevice:(uint64_t)deviceID queue:(dispatch_queue_t)queue completionHandler:(MTRDeviceConnectionCallback)completion
{
MTR_ABSTRACT_METHOD();
return NO;
}
- (BOOL)pairDevice:(uint64_t)deviceID
discriminator:(uint16_t)discriminator
setupPINCode:(uint32_t)setupPINCode
error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)pairDevice:(uint64_t)deviceID
address:(NSString *)address
port:(uint16_t)port
setupPINCode:(uint32_t)setupPINCode
error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)pairDevice:(uint64_t)deviceID onboardingPayload:(NSString *)onboardingPayload error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (BOOL)commissionDevice:(uint64_t)deviceID
commissioningParams:(MTRCommissioningParameters *)commissioningParams
error:(NSError * __autoreleasing *)error
{
return [self commissionNodeWithID:@(deviceID) commissioningParams:commissioningParams error:error];
}
- (BOOL)stopDevicePairing:(uint64_t)deviceID error:(NSError * __autoreleasing *)error
{
return [self cancelCommissioningForNodeID:@(deviceID) error:error];
}
- (MTRBaseDevice *)getDeviceBeingCommissioned:(uint64_t)deviceId error:(NSError * __autoreleasing *)error
{
return [self deviceBeingCommissionedWithNodeID:@(deviceId) error:error];
}
- (BOOL)openPairingWindow:(uint64_t)deviceID duration:(NSUInteger)duration error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return NO;
}
- (nullable NSString *)openPairingWindowWithPIN:(uint64_t)deviceID
duration:(NSUInteger)duration
discriminator:(NSUInteger)discriminator
setupPIN:(NSUInteger)setupPIN
error:(NSError * __autoreleasing *)error
{
MTR_ABSTRACT_METHOD();
if (error) {
*error = [MTRError errorForCHIPErrorCode:CHIP_ERROR_INCORRECT_STATE];
}
return nil;
}
- (nullable NSData *)computePaseVerifier:(uint32_t)setupPincode iterations:(uint32_t)iterations salt:(NSData *)salt
{
return [MTRDeviceController computePASEVerifierForSetupPasscode:@(setupPincode) iterations:@(iterations) salt:salt error:nil];
}
- (void)setPairingDelegate:(id<MTRDevicePairingDelegate>)delegate queue:(dispatch_queue_t)queue
{
auto * delegateShim = [[MTRDevicePairingDelegateShim alloc] initWithDelegate:delegate];
[self setDeviceControllerDelegate:delegateShim queue:queue];
}
- (void)setNocChainIssuer:(id<MTRNOCChainIssuer>)nocChainIssuer queue:(dispatch_queue_t)queue
{
[self setOperationalCertificateIssuer:[[MTROperationalCertificateChainIssuerShim alloc] initWithIssuer:nocChainIssuer]
queue:queue];
}
@end