Antidote/local_pod_repo/objcTox/Tests/OCTAudioQueueTests.m

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// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#import <XCTest/XCTest.h>
#import <OCMock/OCMock.h>
#import "OCTCAsserts.h"
#import "OCTAudioEngine+Private.h"
#import "OCTAudioQueue.h"
#import "OCTManagerConstants.h"
#include "CoreAudioMocks.h"
@import AVFoundation;
static void *refToSelf;
static AudioQueueInputCallback callForInput;
static AudioQueueOutputCallback callForOutput;
const OCTToxAVPCMData pcm[8] = {2, 4, 6, 8, 10, 12, 14, 16};
OSStatus PASSING_AudioQueueNewOutput(const AudioStreamBasicDescription *inFormat,
AudioQueueOutputCallback inCallbackProc,
void *inUserData,
CFRunLoopRef inCallbackRunLoop,
CFStringRef inCallbackRunLoopMode,
UInt32 inFlags,
AudioQueueRef *outAQ)
{
*outAQ = (void *)0x1234567;
callForOutput = inCallbackProc;
return 0;
}
OSStatus PASSING_AudioQueueNewInput(const AudioStreamBasicDescription *inFormat,
AudioQueueInputCallback inCallbackProc,
void *inUserData,
CFRunLoopRef inCallbackRunLoop,
CFStringRef inCallbackRunLoopMode,
UInt32 inFlags,
AudioQueueRef *outAQ)
{
*outAQ = (void *)0x1234567;
callForInput = inCallbackProc;
return 0;
}
typedef struct NotAudioQueueBuffer {
UInt32 mAudioDataBytesCapacity; // 4 (8)
void *mAudioData; // 8
UInt32 mAudioDataByteSize; // 4 (8)
void *__nullable mUserData; // 8
const UInt32 mPacketDescriptionCapacity; // 4 (8)
AudioStreamPacketDescription *const __nullable mPacketDescriptions; // (8)
UInt32 mPacketDescriptionCount; //  4
} NotAudioQueueBuffer;
OSStatus PASSING_AudioQueueAllocateBuffer(AudioQueueRef inAQ, UInt32 inBufferByteSize, AudioQueueBufferRef *outBuffer)
{
NotAudioQueueBuffer *buf = calloc(sizeof(AudioQueueBuffer) + inBufferByteSize, 1);
buf->mAudioData = ((uint8_t *)buf) + sizeof(struct AudioQueueBuffer);
buf->mAudioDataBytesCapacity = inBufferByteSize;
buf->mAudioDataByteSize = inBufferByteSize;
*outBuffer = (AudioQueueBufferRef)buf;
return 0;
}
OSStatus PASSING_AudioQueueFreeBuffer(AudioQueueRef inAQ, AudioQueueBufferRef inBuffer)
{
free(inBuffer);
return 0;
}
#if ! TARGET_OS_IPHONE
OSStatus PASSING_AudioObjectGetPropertyData(AudioObjectID inObjectID,
const AudioObjectPropertyAddress *inAddress,
UInt32 inQualifierDataSize,
const void *inQualifierData,
UInt32 *ioDataSize,
void *outData)
{
if (inObjectID == kAudioObjectSystemObject) {
CCCAssertTrue(outData != NULL);
CCCAssertTrue(*ioDataSize == sizeof(AudioDeviceID));
*(AudioDeviceID *)outData = 0x1234567;
return 0;
}
if (inAddress->mSelector == kAudioDevicePropertyDeviceUID) {
CFStringRef ret = CFSTR("PXS-04G");
*(CFStringRef *)outData = CFStringCreateCopy(nil, ret);
return 0;
}
return -1;
}
OSStatus FAILING_AudioObjectGetPropertyData(AudioObjectID inObjectID,
const AudioObjectPropertyAddress *inAddress,
UInt32 inQualifierDataSize,
const void *inQualifierData,
UInt32 *ioDataSize,
void *outData)
{
if (inObjectID == kAudioObjectSystemObject) {
return -1;
}
return -1;
}
OSStatus FAILING_AudioObjectGetPropertyData2(AudioObjectID inObjectID,
const AudioObjectPropertyAddress *inAddress,
UInt32 inQualifierDataSize,
const void *inQualifierData,
UInt32 *ioDataSize,
void *outData)
{
if (inObjectID == kAudioObjectSystemObject) {
*(AudioDeviceID *)outData = 0x1234567;
return 0;
}
if (inAddress->mSelector == kAudioDevicePropertyDeviceUID) {
return -1;
}
return -1;
}
#endif
OSStatus FAILING_AudioQueueSetProperty(AudioQueueRef inAQ,
AudioQueuePropertyID inID,
const void *inData,
UInt32 inDataSize)
{
if (inID == kAudioQueueProperty_CurrentDevice) {
CCCAssertNotEqual(inData, nil);
CCCAssertEqual(inDataSize, sizeof(CFStringRef *));
return -1;
}
return 0;
}
OSStatus PASSING_AudioQueueStart(AudioQueueRef inAQ,
const AudioTimeStamp *inStartTime)
{
CCCAssert(inAQ != NULL);
return 0;
}
DECLARE_GENERIC_PASS(_AudioQueueDispose)
DECLARE_GENERIC_PASS(_AudioQueueEnqueueBuffer)
DECLARE_GENERIC_PASS(_AudioQueueSetProperty)
DECLARE_GENERIC_PASS(_AudioQueueStop)
DECLARE_GENERIC_FAIL(_AudioQueueDispose)
DECLARE_GENERIC_FAIL(_AudioQueueEnqueueBuffer)
DECLARE_GENERIC_FAIL(_AudioQueueNewInput)
DECLARE_GENERIC_FAIL(_AudioQueueNewOutput)
DECLARE_GENERIC_FAIL(_AudioQueueStart)
DECLARE_GENERIC_FAIL(_AudioQueueStop)
@interface OCTAudioQueueTests : XCTestCase
@property (strong, nonatomic) id audioSession;
@end
@implementation OCTAudioQueueTests
- (void)setUp
{
[super setUp];
refToSelf = (__bridge void *)(self);
#if TARGET_OS_IPHONE
OCMStub([self.audioSession sampleRate]).andReturn(44100.00);
// Put setup code here. This method is called before the invocation of each test method in the class.
#endif
RESTORE_PATCHES
#if ! TARGET_OS_IPHONE
_AudioObjectGetPropertyData = PASSING_AudioObjectGetPropertyData;
#endif
}
- (void)tearDown
{
refToSelf = NULL;
self.audioSession = nil;
// Put teardown code here. This method is called after the invocation of each test method in the class.
[super tearDown];
}
- (void)testInitOutput
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Crystinger" error:&error];
XCTAssertNotNil(oq);
XCTAssertNotEqual([oq getBufferPointer], NULL);
}
- (void)testInitInput
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithInputDeviceID:@"Daxx" error:&error];
XCTAssertNotNil(oq);
XCTAssertNotEqual([oq getBufferPointer], NULL);
}
- (void)testInitFail
{
PATCH_FAILING(_AudioQueueNewOutput);
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Vint" error:&error];
XCTAssertNil(oq);
XCTAssertNotNil(error);
PATCH_FAILING(_AudioQueueNewInput);
error = nil;
oq = [[OCTAudioQueue alloc] initWithInputDeviceID:@"Rita" error:&error];
XCTAssertNil(oq);
XCTAssertNotNil(error);
}
- (void)testInitLater
{
PATCH_FAILING(_AudioQueueSetProperty);
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Elgarde" error:&error];
XCTAssertNil(oq);
XCTAssertNotNil(error);
error = nil;
oq = [[OCTAudioQueue alloc] initWithInputDeviceID:@"Kirin" error:&error];
XCTAssertNil(oq);
XCTAssertNotNil(error);
}
// setting devices only available on OS X
- (void)testSetDevice
{
#if ! TARGET_OS_IPHONE
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithInputDeviceID:@"Undine" error:&error];
XCTAssertNotNil(oq);
BOOL ok = [oq setDeviceID:@"PXS-04G" error:&error];
XCTAssertTrue(ok);
PATCH_FAILING(_AudioQueueSetProperty);
ok = [oq setDeviceID:@"Nyx" error:&error];
XCTAssertFalse(ok);
XCTAssertNotNil(error);
#endif
}
- (void)testSetDefaultDevice
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithInputDeviceID:@"Sayle" error:&error];
XCTAssertNotNil(oq);
#if ! TARGET_OS_IPHONE
BOOL ok = [oq setDeviceID:nil error:&error];
XCTAssertTrue(ok);
_AudioObjectGetPropertyData = FAILING_AudioObjectGetPropertyData;
ok = [oq setDeviceID:nil error:&error];
XCTAssertFalse(ok);
XCTAssertNotNil(error);
_AudioObjectGetPropertyData = FAILING_AudioObjectGetPropertyData2;
error = nil;
ok = [oq setDeviceID:nil error:&error];
XCTAssertFalse(ok);
XCTAssertNotNil(error);
#endif
}
- (void)testStartStop
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Naivy" error:&error];
XCTAssertNotNil(oq);
XCTAssertNotEqual([oq getBufferPointer], NULL);
BOOL ok = [oq begin:&error];
XCTAssertTrue(ok);
ok = [oq stop:&error];
XCTAssertTrue(ok);
}
- (void)testStartFail
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Vervain" error:&error];
XCTAssertNotNil(oq);
PATCH_FAILING(_AudioQueueStart);
BOOL ok = [oq begin:&error];
XCTAssertFalse(ok);
XCTAssertNotNil(error);
ok = [oq stop:&error];
XCTAssertTrue(ok);
}
- (void)testStopFail
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Raijin" error:&error];
XCTAssertNotNil(oq);
PATCH_FAILING(_AudioQueueStop);
BOOL ok = [oq begin:&error];
XCTAssertTrue(ok);
ok = [oq stop:&error];
XCTAssertFalse(ok);
XCTAssertNotNil(error);
}
- (void)testChangeSampleRate
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Minari" error:&error];
XCTAssertNotNil(oq);
BOOL ok = [oq begin:&error];
XCTAssertTrue(ok);
ok = [oq updateSampleRate:96000.0 numberOfChannels:2.0 error:&error];
XCTAssertTrue(ok);
}
- (void)testChangeSampleRateFail
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Medis" error:&error];
XCTAssertNotNil(oq);
BOOL ok = [oq begin:&error];
XCTAssertTrue(ok);
PATCH_FAILING(_AudioQueueNewOutput);
ok = [oq updateSampleRate:96000.0 numberOfChannels:2.0 error:&error];
XCTAssertFalse(ok);
XCTAssertNotNil(error);
PATCH_PASSING(_AudioQueueNewOutput);
ok = [oq begin:&error];
XCTAssertTrue(ok);
}
- (void)testFillOutput
{
// TODO investigate failing test on travis
// NSError *error = nil;
// OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithOutputDeviceID:@"Shadogan" error:&error];
// XCTAssertNotNil(oq);
// BOOL ok = [oq begin:&error];
// XCTAssertTrue(ok);
// AudioQueueBufferRef buf;
// // Allocate some extra space because the implementation is supposed to fill
// // it with 0 if there's not enough data in the ring.
// PASSING_AudioQueueAllocateBuffer(nil, 32, &buf);
// XCTAssertNotEqual(buf, NULL);
// TPCircularBufferProduceBytes([oq getBufferPointer], pcm, 16);
// callForOutput((__bridge void *)(oq), (void *)0x1234567, buf);
// OCTToxAVPCMData checkPCM[16];
// memset((void *)checkPCM, 0, 32);
// memcpy((void *)checkPCM, pcm, 16);
// XCTAssertTrue(memcmp(buf->mAudioData, checkPCM, 32) == 0);
// PASSING_AudioQueueFreeBuffer(nil, buf);
}
- (void)testFillInput
{
NSError *error = nil;
OCTAudioQueue *oq = [[OCTAudioQueue alloc] initWithInputDeviceID:@"Nelly" error:&error];
XCTAssertNotNil(oq);
BOOL ok = [oq begin:&error];
XCTAssertTrue(ok);
AudioQueueBufferRef buf;
PASSING_AudioQueueAllocateBuffer(nil, 4, &buf);
XCTAssertNotEqual(buf, NULL);
__block BOOL sbreak = NO;
oq.sendDataBlock = ^(void *data, OCTToxAVSampleCount samples, OCTToxAVSampleRate srate, OCTToxAVChannels nchan) {
sbreak = YES;
};
int times = 0;
while (! sbreak && times < 2000) {
memcpy(buf->mAudioData, pcm, 4);
callForInput((__bridge void *_Nullable)(oq),
(void *)0x1234567,
buf,
(void *)0x1,
0,
NULL);
}
XCTAssertTrue(times < 2000);
// we just have to make sure sendDataBlock is called
XCTAssertTrue(sbreak);
PASSING_AudioQueueFreeBuffer(nil, buf);
}
@end