sdk/objc/unittests/RTCPeerConnectionFactory_xctest.m - src - Git at Google

 /*
  *  Copyright 2018 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #import "api/peerconnection/RTCAudioSource.h"
 #import "api/peerconnection/RTCConfiguration.h"
 #import "api/peerconnection/RTCDataChannel.h"
 #import "api/peerconnection/RTCDataChannelConfiguration.h"
 #import "api/peerconnection/RTCMediaConstraints.h"
 #import "api/peerconnection/RTCMediaStreamTrack.h"
 #import "api/peerconnection/RTCPeerConnection.h"
 #import "api/peerconnection/RTCPeerConnectionFactory.h"
 #import "api/peerconnection/RTCRtpReceiver.h"
 #import "api/peerconnection/RTCRtpSender.h"
 #import "api/peerconnection/RTCRtpTransceiver.h"
 #import "api/peerconnection/RTCVideoSource.h"

 #import <XCTest/XCTest.h>

 @interface RTCPeerConnectionFactoryTests : XCTestCase
 @end

 @implementation RTCPeerConnectionFactoryTests

 - (void)testPeerConnectionLifetime {
   @autoreleasepool {
     RTCConfiguration *config = [[RTCConfiguration alloc] init];

     RTCMediaConstraints *constraints =
         [[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];

     RTCPeerConnectionFactory *factory;
     RTCPeerConnection *peerConnection;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       peerConnection =
           [factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
       [peerConnection close];
       factory = nil;
     }
     peerConnection = nil;
   }

   XCTAssertTrue(true, @"Expect test does not crash");
 }

 - (void)testMediaStreamLifetime {
   @autoreleasepool {
     RTCPeerConnectionFactory *factory;
     RTCMediaStream *mediaStream;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       mediaStream = [factory mediaStreamWithStreamId:@"mediaStream"];
       factory = nil;
     }
     mediaStream = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testDataChannelLifetime {
   @autoreleasepool {
     RTCConfiguration *config = [[RTCConfiguration alloc] init];
     RTCMediaConstraints *constraints =
         [[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];
     RTCDataChannelConfiguration *dataChannelConfig = [[RTCDataChannelConfiguration alloc] init];

     RTCPeerConnectionFactory *factory;
     RTCPeerConnection *peerConnection;
     RTCDataChannel *dataChannel;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       peerConnection =
           [factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
       dataChannel =
           [peerConnection dataChannelForLabel:@"test_channel" configuration:dataChannelConfig];
       XCTAssertNotNil(dataChannel);
       [peerConnection close];
       peerConnection = nil;
       factory = nil;
     }
     dataChannel = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testRTCRtpTransceiverLifetime {
   @autoreleasepool {
     RTCConfiguration *config = [[RTCConfiguration alloc] init];
     config.sdpSemantics = RTCSdpSemanticsUnifiedPlan;
     RTCMediaConstraints *contraints =
         [[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];
     RTCRtpTransceiverInit *init = [[RTCRtpTransceiverInit alloc] init];

     RTCPeerConnectionFactory *factory;
     RTCPeerConnection *peerConnection;
     RTCRtpTransceiver *tranceiver;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       peerConnection =
           [factory peerConnectionWithConfiguration:config constraints:contraints delegate:nil];
       tranceiver = [peerConnection addTransceiverOfType:RTCRtpMediaTypeAudio init:init];
       XCTAssertNotNil(tranceiver);
       [peerConnection close];
       peerConnection = nil;
       factory = nil;
     }
     tranceiver = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testRTCRtpSenderLifetime {
   @autoreleasepool {
     RTCConfiguration *config = [[RTCConfiguration alloc] init];
     RTCMediaConstraints *constraints =
         [[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];

     RTCPeerConnectionFactory *factory;
     RTCPeerConnection *peerConnection;
     RTCRtpSender *sender;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       peerConnection =
           [factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
       sender = [peerConnection senderWithKind:kRTCMediaStreamTrackKindVideo streamId:@"stream"];
       XCTAssertNotNil(sender);
       [peerConnection close];
       peerConnection = nil;
       factory = nil;
     }
     sender = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testRTCRtpReceiverLifetime {
   @autoreleasepool {
     RTCConfiguration *config = [[RTCConfiguration alloc] init];
     RTCMediaConstraints *constraints =
         [[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];

     RTCPeerConnectionFactory *factory;
     RTCPeerConnection *pc1;
     RTCPeerConnection *pc2;

     NSArray<RTCRtpReceiver *> *receivers1;
     NSArray<RTCRtpReceiver *> *receivers2;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       pc1 = [factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
       [pc1 senderWithKind:kRTCMediaStreamTrackKindAudio streamId:@"stream"];

       pc2 = [factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
       [pc2 senderWithKind:kRTCMediaStreamTrackKindAudio streamId:@"stream"];

       NSTimeInterval negotiationTimeout = 15;
       XCTAssertTrue([self negotiatePeerConnection:pc1
                                withPeerConnection:pc2
                                negotiationTimeout:negotiationTimeout]);

       XCTAssertEqual(pc1.signalingState, RTCSignalingStateStable);
       XCTAssertEqual(pc2.signalingState, RTCSignalingStateStable);

       receivers1 = pc1.receivers;
       receivers2 = pc2.receivers;
       XCTAssertTrue(receivers1.count > 0);
       XCTAssertTrue(receivers2.count > 0);
       [pc1 close];
       [pc2 close];
       pc1 = nil;
       pc2 = nil;
       factory = nil;
     }
     receivers1 = nil;
     receivers2 = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testAudioSourceLifetime {
   @autoreleasepool {
     RTCPeerConnectionFactory *factory;
     RTCAudioSource *audioSource;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       audioSource = [factory audioSourceWithConstraints:nil];
       XCTAssertNotNil(audioSource);
       factory = nil;
     }
     audioSource = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testVideoSourceLifetime {
   @autoreleasepool {
     RTCPeerConnectionFactory *factory;
     RTCVideoSource *videoSource;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       videoSource = [factory videoSource];
       XCTAssertNotNil(videoSource);
       factory = nil;
     }
     videoSource = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testAudioTrackLifetime {
   @autoreleasepool {
     RTCPeerConnectionFactory *factory;
     RTCAudioTrack *audioTrack;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       audioTrack = [factory audioTrackWithTrackId:@"audioTrack"];
       XCTAssertNotNil(audioTrack);
       factory = nil;
     }
     audioTrack = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (void)testVideoTrackLifetime {
   @autoreleasepool {
     RTCPeerConnectionFactory *factory;
     RTCVideoTrack *videoTrack;

     @autoreleasepool {
       factory = [[RTCPeerConnectionFactory alloc] init];
       videoTrack = [factory videoTrackWithSource:[factory videoSource] trackId:@"videoTrack"];
       XCTAssertNotNil(videoTrack);
       factory = nil;
     }
     videoTrack = nil;
   }

   XCTAssertTrue(true, "Expect test does not crash");
 }

 - (bool)negotiatePeerConnection:(RTCPeerConnection *)pc1
              withPeerConnection:(RTCPeerConnection *)pc2
              negotiationTimeout:(NSTimeInterval)timeout {
   __weak RTCPeerConnection *weakPC1 = pc1;
   __weak RTCPeerConnection *weakPC2 = pc2;
   RTCMediaConstraints *sdpConstraints =
       [[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{
         kRTCMediaConstraintsOfferToReceiveAudio : kRTCMediaConstraintsValueTrue
       }
                                             optionalConstraints:nil];

   dispatch_semaphore_t negotiatedSem = dispatch_semaphore_create(0);
   [weakPC1 offerForConstraints:sdpConstraints
              completionHandler:^(RTCSessionDescription *offer, NSError *error) {
                XCTAssertNil(error);
                XCTAssertNotNil(offer);
                [weakPC1
                    setLocalDescription:offer
                      completionHandler:^(NSError *error) {
                        XCTAssertNil(error);
                        [weakPC2
                            setRemoteDescription:offer
                               completionHandler:^(NSError *error) {
                                 XCTAssertNil(error);
                                 [weakPC2
                                     answerForConstraints:sdpConstraints
                                        completionHandler:^(RTCSessionDescription *answer,
                                                            NSError *error) {
                                          XCTAssertNil(error);
                                          XCTAssertNotNil(answer);
                                          [weakPC2
                                              setLocalDescription:answer
                                                completionHandler:^(NSError *error) {
                                                  XCTAssertNil(error);
                                                  [weakPC1
                                                      setRemoteDescription:answer
                                                         completionHandler:^(NSError *error) {
                                                           XCTAssertNil(error);
                                                           dispatch_semaphore_signal(negotiatedSem);
                                                         }];
                                                }];
                                        }];
                               }];
                      }];
              }];

   return 0 ==
       dispatch_semaphore_wait(negotiatedSem,
                               dispatch_time(DISPATCH_TIME_NOW, (int64_t)(timeout * NSEC_PER_SEC)));
 }

 @end
	/*
	* Copyright 2018 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#import "api/peerconnection/RTCAudioSource.h"
	#import "api/peerconnection/RTCConfiguration.h"
	#import "api/peerconnection/RTCDataChannel.h"
	#import "api/peerconnection/RTCDataChannelConfiguration.h"
	#import "api/peerconnection/RTCMediaConstraints.h"
	#import "api/peerconnection/RTCMediaStreamTrack.h"
	#import "api/peerconnection/RTCPeerConnection.h"
	#import "api/peerconnection/RTCPeerConnectionFactory.h"
	#import "api/peerconnection/RTCRtpReceiver.h"
	#import "api/peerconnection/RTCRtpSender.h"
	#import "api/peerconnection/RTCRtpTransceiver.h"
	#import "api/peerconnection/RTCVideoSource.h"

	#import <XCTest/XCTest.h>

	@interface RTCPeerConnectionFactoryTests : XCTestCase
	@end

	@implementation RTCPeerConnectionFactoryTests

	- (void)testPeerConnectionLifetime {
	@autoreleasepool {
	RTCConfiguration *config = [[RTCConfiguration alloc] init];

	RTCMediaConstraints *constraints =
	[[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];

	RTCPeerConnectionFactory *factory;
	RTCPeerConnection *peerConnection;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	peerConnection =
	[factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
	[peerConnection close];
	factory = nil;
	}
	peerConnection = nil;
	}

	XCTAssertTrue(true, @"Expect test does not crash");
	}

	- (void)testMediaStreamLifetime {
	@autoreleasepool {
	RTCPeerConnectionFactory *factory;
	RTCMediaStream *mediaStream;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	mediaStream = [factory mediaStreamWithStreamId:@"mediaStream"];
	factory = nil;
	}
	mediaStream = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testDataChannelLifetime {
	@autoreleasepool {
	RTCConfiguration *config = [[RTCConfiguration alloc] init];
	RTCMediaConstraints *constraints =
	[[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];
	RTCDataChannelConfiguration *dataChannelConfig = [[RTCDataChannelConfiguration alloc] init];

	RTCPeerConnectionFactory *factory;
	RTCPeerConnection *peerConnection;
	RTCDataChannel *dataChannel;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	peerConnection =
	[factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
	dataChannel =
	[peerConnection dataChannelForLabel:@"test_channel" configuration:dataChannelConfig];
	XCTAssertNotNil(dataChannel);
	[peerConnection close];
	peerConnection = nil;
	factory = nil;
	}
	dataChannel = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testRTCRtpTransceiverLifetime {
	@autoreleasepool {
	RTCConfiguration *config = [[RTCConfiguration alloc] init];
	config.sdpSemantics = RTCSdpSemanticsUnifiedPlan;
	RTCMediaConstraints *contraints =
	[[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];
	RTCRtpTransceiverInit *init = [[RTCRtpTransceiverInit alloc] init];

	RTCPeerConnectionFactory *factory;
	RTCPeerConnection *peerConnection;
	RTCRtpTransceiver *tranceiver;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	peerConnection =
	[factory peerConnectionWithConfiguration:config constraints:contraints delegate:nil];
	tranceiver = [peerConnection addTransceiverOfType:RTCRtpMediaTypeAudio init:init];
	XCTAssertNotNil(tranceiver);
	[peerConnection close];
	peerConnection = nil;
	factory = nil;
	}
	tranceiver = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testRTCRtpSenderLifetime {
	@autoreleasepool {
	RTCConfiguration *config = [[RTCConfiguration alloc] init];
	RTCMediaConstraints *constraints =
	[[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];

	RTCPeerConnectionFactory *factory;
	RTCPeerConnection *peerConnection;
	RTCRtpSender *sender;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	peerConnection =
	[factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
	sender = [peerConnection senderWithKind:kRTCMediaStreamTrackKindVideo streamId:@"stream"];
	XCTAssertNotNil(sender);
	[peerConnection close];
	peerConnection = nil;
	factory = nil;
	}
	sender = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testRTCRtpReceiverLifetime {
	@autoreleasepool {
	RTCConfiguration *config = [[RTCConfiguration alloc] init];
	RTCMediaConstraints *constraints =
	[[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{} optionalConstraints:nil];

	RTCPeerConnectionFactory *factory;
	RTCPeerConnection *pc1;
	RTCPeerConnection *pc2;

	NSArray<RTCRtpReceiver > receivers1;
	NSArray<RTCRtpReceiver > receivers2;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	pc1 = [factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
	[pc1 senderWithKind:kRTCMediaStreamTrackKindAudio streamId:@"stream"];

	pc2 = [factory peerConnectionWithConfiguration:config constraints:constraints delegate:nil];
	[pc2 senderWithKind:kRTCMediaStreamTrackKindAudio streamId:@"stream"];

	NSTimeInterval negotiationTimeout = 15;
	XCTAssertTrue([self negotiatePeerConnection:pc1
	withPeerConnection:pc2
	negotiationTimeout:negotiationTimeout]);

	XCTAssertEqual(pc1.signalingState, RTCSignalingStateStable);
	XCTAssertEqual(pc2.signalingState, RTCSignalingStateStable);

	receivers1 = pc1.receivers;
	receivers2 = pc2.receivers;
	XCTAssertTrue(receivers1.count > 0);
	XCTAssertTrue(receivers2.count > 0);
	[pc1 close];
	[pc2 close];
	pc1 = nil;
	pc2 = nil;
	factory = nil;
	}
	receivers1 = nil;
	receivers2 = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testAudioSourceLifetime {
	@autoreleasepool {
	RTCPeerConnectionFactory *factory;
	RTCAudioSource *audioSource;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	audioSource = [factory audioSourceWithConstraints:nil];
	XCTAssertNotNil(audioSource);
	factory = nil;
	}
	audioSource = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testVideoSourceLifetime {
	@autoreleasepool {
	RTCPeerConnectionFactory *factory;
	RTCVideoSource *videoSource;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	videoSource = [factory videoSource];
	XCTAssertNotNil(videoSource);
	factory = nil;
	}
	videoSource = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testAudioTrackLifetime {
	@autoreleasepool {
	RTCPeerConnectionFactory *factory;
	RTCAudioTrack *audioTrack;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	audioTrack = [factory audioTrackWithTrackId:@"audioTrack"];
	XCTAssertNotNil(audioTrack);
	factory = nil;
	}
	audioTrack = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (void)testVideoTrackLifetime {
	@autoreleasepool {
	RTCPeerConnectionFactory *factory;
	RTCVideoTrack *videoTrack;

	@autoreleasepool {
	factory = [[RTCPeerConnectionFactory alloc] init];
	videoTrack = [factory videoTrackWithSource:[factory videoSource] trackId:@"videoTrack"];
	XCTAssertNotNil(videoTrack);
	factory = nil;
	}
	videoTrack = nil;
	}

	XCTAssertTrue(true, "Expect test does not crash");
	}

	- (bool)negotiatePeerConnection:(RTCPeerConnection *)pc1
	withPeerConnection:(RTCPeerConnection *)pc2
	negotiationTimeout:(NSTimeInterval)timeout {
	__weak RTCPeerConnection *weakPC1 = pc1;
	__weak RTCPeerConnection *weakPC2 = pc2;
	RTCMediaConstraints *sdpConstraints =
	[[RTCMediaConstraints alloc] initWithMandatoryConstraints:@{
	kRTCMediaConstraintsOfferToReceiveAudio : kRTCMediaConstraintsValueTrue
	}
	optionalConstraints:nil];

	dispatch_semaphore_t negotiatedSem = dispatch_semaphore_create(0);
	[weakPC1 offerForConstraints:sdpConstraints
	completionHandler:^(RTCSessionDescription offer, NSError error) {
	XCTAssertNil(error);
	XCTAssertNotNil(offer);
	[weakPC1
	setLocalDescription:offer
	completionHandler:^(NSError *error) {
	XCTAssertNil(error);
	[weakPC2
	setRemoteDescription:offer
	completionHandler:^(NSError *error) {
	XCTAssertNil(error);
	[weakPC2
	answerForConstraints:sdpConstraints
	completionHandler:^(RTCSessionDescription *answer,
	NSError *error) {
	XCTAssertNil(error);
	XCTAssertNotNil(answer);
	[weakPC2
	setLocalDescription:answer
	completionHandler:^(NSError *error) {
	XCTAssertNil(error);
	[weakPC1
	setRemoteDescription:answer
	completionHandler:^(NSError *error) {
	XCTAssertNil(error);
	dispatch_semaphore_signal(negotiatedSem);
	}];
	}];
	}];
	}];
	}];
	}];

	return 0 ==
	dispatch_semaphore_wait(negotiatedSem,
	dispatch_time(DISPATCH_TIME_NOW, (int64_t)(timeout * NSEC_PER_SEC)));
	}

	@end