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I am currently streaming mp3 audio through the Internet. I am using AudioFileStream to parse the mp3 steam comes through a CFReadStreamRef, decode the mp3 using AudioConverterFillComplexBuffer and copy the converted PCM data into a ring buffer and finally play the PCM using RemoteIO.

The problem I am currently facing is the AudioConverterFillComplexBuffer always returns 0 (no error) but the conversion result seems incorrect. In details, I can notice,

A. The UInt32 *ioOutputDataPacketSize keeps the same value I sent in.

B. The convertedData.mBuffers[0].mDataByteSize always been set to the size of the outputbuffer (doesn't matter how big the buffer is).

C. I can only hear clicking noise with the output data.

Below is my procedures for rendering the audio. The same procedure works for my Audio queue implementation so I believe I didn't something wrong in either the place I invoking the AudioConverterFillComplexBuffer or the callback of AudioConverterFillComplexBuffer.

I have been stuck on this issue for a long time. Any help will be highly appreciated.

  1. Open a AudioFileStream.

    // create an audio file stream parser AudioFileTypeID fileTypeHint = kAudioFileMP3Type;
    AudioFileStreamOpen(self, MyPropertyListenerProc, MyPacketsProc, fileTypeHint, &audioFileStream);

  2. Handle the parsed data in the callback function ("MyPacketsProc").

    void MyPacketsProc(void * inClientData, UInt32 inNumberBytes, UInt32 inNumberPackets, const void * inInputData, AudioStreamPacketDescription *inPacketDescriptions) { @synchronized(self) { // Init the audio converter. if (!audioConverter) AudioConverterNew(&asbd, &asbd_out, &audioConverter);

        struct mp3Data mSettings;
        memset(&mSettings, 0, sizeof(mSettings));
    
    
        UInt32 packetsPerBuffer = 0;
        UInt32 outputBufferSize = 1024 * 32; // 32 KB is a good starting point.
        UInt32 sizePerPacket = asbd.mBytesPerPacket;
    
    
        // Calculate the size per buffer.
        // Variable Bit Rate Data.
        if (sizePerPacket == 0)
        {
            UInt32 size = sizeof(sizePerPacket);
            AudioConverterGetProperty(audioConverter, kAudioConverterPropertyMaximumOutputPacketSize, &size, &sizePerPacket);
    
            if (sizePerPacket > outputBufferSize)
                outputBufferSize = sizePerPacket;
    
            packetsPerBuffer = outputBufferSize / sizePerPacket;
        }
        //CBR
        else
            packetsPerBuffer = outputBufferSize / sizePerPacket;
    
    
    
        // Prepare the input data for the callback.
        mSettings.inputBuffer.mDataByteSize = inNumberBytes;
        mSettings.inputBuffer.mData = (void *)inInputData;
        mSettings.inputBuffer.mNumberChannels = 1;
        mSettings.numberPackets = inNumberPackets;
        mSettings.packetDescription = inPacketDescriptions;
    
    
        // Set up our output buffers
        UInt8 * outputBuffer = (UInt8*)malloc(sizeof(UInt8) * outputBufferSize);
        memset(outputBuffer, 0, outputBufferSize);
    
    
        // describe output data buffers into which we can receive data.
        AudioBufferList convertedData;
        convertedData.mNumberBuffers = 1;
        convertedData.mBuffers[0].mNumberChannels = 1;
        convertedData.mBuffers[0].mDataByteSize = outputBufferSize;
        convertedData.mBuffers[0].mData = outputBuffer;
    
        // Convert.
        UInt32 ioOutputDataPackets = packetsPerBuffer;
        OSStatus result = AudioConverterFillComplexBuffer(audioConverter,                
                                                          converterComplexInputDataProc, 
                                                          &mSettings,                          
                                                          &ioOutputDataPackets,          
                                                          &convertedData,            
                                                          NULL                 
                                                          );
    
        // Enqueue the ouput pcm data.
        TPCircularBufferProduceBytes(&m_pcmBuffer, convertedData.mBuffers[0].mData, convertedData.mBuffers[0].mDataByteSize);
        free(outputBuffer);
    }
    

    }

  3. Feed the audio converter from its callback function ("converterComplexInputDataProc").

OSStatus converterComplexInputDataProc(AudioConverterRef inAudioConverter, UInt32* ioNumberDataPackets, AudioBufferList* ioData, AudioStreamPacketDescription** ioDataPacketDescription, void* inUserData) { struct mp3Data THIS = (struct mp3Data) inUserData;

if (THIS->inputBuffer.mDataByteSize > 0)
{
    *ioNumberDataPackets = THIS->numberPackets;
    ioData->mNumberBuffers = 1;
    ioData->mBuffers[0].mDataByteSize = THIS->inputBuffer.mDataByteSize;
    ioData->mBuffers[0].mData = THIS->inputBuffer.mData;
    ioData->mBuffers[0].mNumberChannels = 1;

    if (ioDataPacketDescription)
        *ioDataPacketDescription = THIS->packetDescription;
}
else
    *ioDataPacketDescription = 0;

return 0;

}

  1. Playback using the RemoteIO component.

  2. The input and output AudioStreamBasicDescription.

Input:

Sample Rate: 16000 Format ID: .mp3

Format Flags: 0

Bytes per Packet: 0

Frames per Packet: 576

Bytes per Frame: 0

Channels per Frame: 1

Bits per Channel: 0

output:

Sample Rate: 44100

Format ID: lpcm

Format Flags: 3116

Bytes per Packet: 4

Frames per Packet: 1

Bytes per Frame: 4

Channels per Frame: 1

Bits per Channel: 32

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did you fix this? I can hear some noise in my audio only using iphone 6 – Pablo Martinez Apr 9 at 11:38

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