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obs-studio/plugins/decklink/decklink-device-instance.cpp
pkviet 974e64eb23 decklink: Add 2.1 & 4.1 surround layouts 
The list of channel layouts available for decklink input is missing 2.1
& 4.1 layouts.  The commit adds them.  This aligns the decklink input
with the speaker layouts available at outputs.  Having different layouts
as input and output invokes FFmpeg resampler, which remixes the channels
in non trivial way except when downmixing to stereo.  This patch allows
to avoid such uncontrolled remix of channels with decklink input.
2018-01-05 13:44:57 -08:00

412 lines
9.7 KiB
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#include "decklink-device-instance.hpp"
#include "audio-repack.hpp"
#include <util/platform.h>
#include <util/threading.h>
#include <sstream>
#define LOG(level, message, ...) blog(level, "%s: " message, \
obs_source_get_name(this->decklink->GetSource()), ##__VA_ARGS__)
#ifdef _WIN32
#define IS_WIN 1
#else
#define IS_WIN 0
#endif
static inline enum video_format ConvertPixelFormat(BMDPixelFormat format)
{
switch (format) {
case bmdFormat8BitBGRA: return VIDEO_FORMAT_BGRX;
default:
case bmdFormat8BitYUV:;
}
return VIDEO_FORMAT_UYVY;
}
static inline int ConvertChannelFormat(speaker_layout format)
{
switch (format) {
case SPEAKERS_2POINT1:
case SPEAKERS_4POINT0:
case SPEAKERS_4POINT1:
case SPEAKERS_5POINT1:
case SPEAKERS_7POINT1:
return 8;
default:
case SPEAKERS_STEREO:
return 2;
}
}
static inline audio_repack_mode_t ConvertRepackFormat(speaker_layout format)
{
switch (format) {
case SPEAKERS_2POINT1:
return repack_mode_8to3ch_swap23;
case SPEAKERS_4POINT0:
return repack_mode_8to4ch_swap23;
case SPEAKERS_4POINT1:
return repack_mode_8to5ch_swap23;
case SPEAKERS_5POINT1:
return repack_mode_8to6ch_swap23;
case SPEAKERS_7POINT1:
return repack_mode_8ch_swap23_swap46_swap57;
default:
assert(false && "No repack requested");
return (audio_repack_mode_t)-1;
}
}
DeckLinkDeviceInstance::DeckLinkDeviceInstance(DeckLink *decklink_,
DeckLinkDevice *device_) :
currentFrame(), currentPacket(), decklink(decklink_), device(device_)
{
currentPacket.samples_per_sec = 48000;
currentPacket.speakers = SPEAKERS_STEREO;
currentPacket.format = AUDIO_FORMAT_16BIT;
}
DeckLinkDeviceInstance::~DeckLinkDeviceInstance()
{
}
void DeckLinkDeviceInstance::HandleAudioPacket(
IDeckLinkAudioInputPacket *audioPacket,
const uint64_t timestamp)
{
if (audioPacket == nullptr)
return;
void *bytes;
if (audioPacket->GetBytes(&bytes) != S_OK) {
LOG(LOG_WARNING, "Failed to get audio packet data");
return;
}
const uint32_t frameCount = (uint32_t)audioPacket->GetSampleFrameCount();
currentPacket.frames = frameCount;
currentPacket.timestamp = timestamp;
if (decklink && !decklink->buffering) {
currentPacket.timestamp = os_gettime_ns();
currentPacket.timestamp -=
(uint64_t)frameCount * 1000000000ULL /
(uint64_t)currentPacket.samples_per_sec;
}
int maxdevicechannel = device->GetMaxChannel();
bool isWin = IS_WIN;
if (channelFormat != SPEAKERS_UNKNOWN &&
channelFormat != SPEAKERS_MONO &&
channelFormat != SPEAKERS_STEREO &&
maxdevicechannel >= 8 &&
isWin) {
if (audioRepacker->repack((uint8_t *)bytes, frameCount) < 0) {
LOG(LOG_ERROR, "Failed to convert audio packet data");
return;
}
currentPacket.data[0] = (*audioRepacker)->packet_buffer;
} else {
currentPacket.data[0] = (uint8_t *)bytes;
}
nextAudioTS = timestamp +
((uint64_t)frameCount * 1000000000ULL / 48000ULL) + 1;
obs_source_output_audio(decklink->GetSource(), &currentPacket);
}
void DeckLinkDeviceInstance::HandleVideoFrame(
IDeckLinkVideoInputFrame *videoFrame, const uint64_t timestamp)
{
if (videoFrame == nullptr)
return;
void *bytes;
if (videoFrame->GetBytes(&bytes) != S_OK) {
LOG(LOG_WARNING, "Failed to get video frame data");
return;
}
currentFrame.data[0] = (uint8_t *)bytes;
currentFrame.linesize[0] = (uint32_t)videoFrame->GetRowBytes();
currentFrame.width = (uint32_t)videoFrame->GetWidth();
currentFrame.height = (uint32_t)videoFrame->GetHeight();
currentFrame.timestamp = timestamp;
obs_source_output_video(decklink->GetSource(), &currentFrame);
}
void DeckLinkDeviceInstance::FinalizeStream()
{
input->SetCallback(nullptr);
input->DisableVideoInput();
if (channelFormat != SPEAKERS_UNKNOWN)
input->DisableAudioInput();
if (audioRepacker != nullptr)
{
delete audioRepacker;
audioRepacker = nullptr;
}
mode = nullptr;
}
//#define LOG_SETUP_VIDEO_FORMAT 1
void DeckLinkDeviceInstance::SetupVideoFormat(DeckLinkDeviceMode *mode_)
{
if (mode_ == nullptr)
return;
currentFrame.format = ConvertPixelFormat(pixelFormat);
colorSpace = decklink->GetColorSpace();
if (colorSpace == VIDEO_CS_DEFAULT) {
const BMDDisplayModeFlags flags = mode_->GetDisplayModeFlags();
if (flags & bmdDisplayModeColorspaceRec709)
activeColorSpace = VIDEO_CS_709;
else if (flags & bmdDisplayModeColorspaceRec601)
activeColorSpace = VIDEO_CS_601;
else
activeColorSpace = VIDEO_CS_DEFAULT;
} else {
activeColorSpace = colorSpace;
}
colorRange = decklink->GetColorRange();
currentFrame.full_range = colorRange == VIDEO_RANGE_FULL;
video_format_get_parameters(activeColorSpace, colorRange,
currentFrame.color_matrix, currentFrame.color_range_min,
currentFrame.color_range_max);
#ifdef LOG_SETUP_VIDEO_FORMAT
LOG(LOG_INFO, "Setup video format: %s, %s, %s",
pixelFormat == bmdFormat8BitYUV ? "YUV" : "RGB",
activeColorSpace == VIDEO_CS_709 ? "BT.709" : "BT.601",
colorRange == VIDEO_RANGE_FULL ? "full" : "limited");
#endif
}
bool DeckLinkDeviceInstance::StartCapture(DeckLinkDeviceMode *mode_)
{
if (mode != nullptr)
return false;
if (mode_ == nullptr)
return false;
LOG(LOG_INFO, "Starting capture...");
if (!device->GetInput(&input))
return false;
BMDVideoInputFlags flags;
bool isauto = mode_->GetName() == "Auto";
if (isauto) {
displayMode = bmdModeNTSC;
pixelFormat = bmdFormat8BitYUV;
flags = bmdVideoInputEnableFormatDetection;
} else {
displayMode = mode_->GetDisplayMode();
pixelFormat = decklink->GetPixelFormat();
flags = bmdVideoInputFlagDefault;
}
const HRESULT videoResult = input->EnableVideoInput(displayMode,
pixelFormat, flags);
if (videoResult != S_OK) {
LOG(LOG_ERROR, "Failed to enable video input");
return false;
}
SetupVideoFormat(mode_);
channelFormat = decklink->GetChannelFormat();
currentPacket.speakers = channelFormat;
int maxdevicechannel = device->GetMaxChannel();
bool isWin = IS_WIN;
if (channelFormat != SPEAKERS_UNKNOWN) {
const int channel = ConvertChannelFormat(channelFormat);
const HRESULT audioResult = input->EnableAudioInput(
bmdAudioSampleRate48kHz, bmdAudioSampleType16bitInteger,
channel);
if (audioResult != S_OK)
LOG(LOG_WARNING, "Failed to enable audio input; continuing...");
if (channelFormat != SPEAKERS_UNKNOWN &&
channelFormat != SPEAKERS_MONO &&
channelFormat != SPEAKERS_STEREO &&
maxdevicechannel >= 8 &&
isWin) {
const audio_repack_mode_t repack_mode = ConvertRepackFormat
(channelFormat);
audioRepacker = new AudioRepacker(repack_mode);
}
}
if (input->SetCallback(this) != S_OK) {
LOG(LOG_ERROR, "Failed to set callback");
FinalizeStream();
return false;
}
if (input->StartStreams() != S_OK) {
LOG(LOG_ERROR, "Failed to start streams");
FinalizeStream();
return false;
}
mode = mode_;
return true;
}
bool DeckLinkDeviceInstance::StopCapture(void)
{
if (mode == nullptr || input == nullptr)
return false;
LOG(LOG_INFO, "Stopping capture of '%s'...",
GetDevice()->GetDisplayName().c_str());
input->StopStreams();
FinalizeStream();
return true;
}
#define TIME_BASE 1000000000
HRESULT STDMETHODCALLTYPE DeckLinkDeviceInstance::VideoInputFrameArrived(
IDeckLinkVideoInputFrame *videoFrame,
IDeckLinkAudioInputPacket *audioPacket)
{
BMDTimeValue videoTS = 0;
BMDTimeValue videoDur = 0;
BMDTimeValue audioTS = 0;
if (videoFrame) {
videoFrame->GetStreamTime(&videoTS, &videoDur, TIME_BASE);
lastVideoTS = (uint64_t)videoTS;
}
if (audioPacket) {
BMDTimeValue newAudioTS = 0;
int64_t diff;
audioPacket->GetPacketTime(&newAudioTS, TIME_BASE);
audioTS = newAudioTS + audioOffset;
diff = (int64_t)audioTS - (int64_t)nextAudioTS;
if (diff > 10000000LL) {
audioOffset -= diff;
audioTS = newAudioTS + audioOffset;
} else if (diff < -1000000) {
audioOffset = 0;
audioTS = newAudioTS;
}
}
if (videoFrame && videoTS >= 0)
HandleVideoFrame(videoFrame, (uint64_t)videoTS);
if (audioPacket && audioTS >= 0)
HandleAudioPacket(audioPacket, (uint64_t)audioTS);
return S_OK;
}
HRESULT STDMETHODCALLTYPE DeckLinkDeviceInstance::VideoInputFormatChanged(
BMDVideoInputFormatChangedEvents events,
IDeckLinkDisplayMode *newMode,
BMDDetectedVideoInputFormatFlags detectedSignalFlags)
{
input->PauseStreams();
mode->SetMode(newMode);
if (events & bmdVideoInputDisplayModeChanged) {
displayMode = mode->GetDisplayMode();
}
if (events & bmdVideoInputColorspaceChanged) {
switch (detectedSignalFlags) {
case bmdDetectedVideoInputRGB444:
pixelFormat = bmdFormat8BitBGRA;
break;
default:
case bmdDetectedVideoInputYCbCr422:
pixelFormat = bmdFormat8BitYUV;
break;
}
}
const HRESULT videoResult = input->EnableVideoInput(displayMode,
pixelFormat, bmdVideoInputEnableFormatDetection);
if (videoResult != S_OK) {
LOG(LOG_ERROR, "Failed to enable video input");
input->StopStreams();
FinalizeStream();
return E_FAIL;
}
SetupVideoFormat(mode);
input->FlushStreams();
input->StartStreams();
return S_OK;
}
ULONG STDMETHODCALLTYPE DeckLinkDeviceInstance::AddRef(void)
{
return os_atomic_inc_long(&refCount);
}
HRESULT STDMETHODCALLTYPE DeckLinkDeviceInstance::QueryInterface(REFIID iid,
LPVOID *ppv)
{
HRESULT result = E_NOINTERFACE;
*ppv = nullptr;
CFUUIDBytes unknown = CFUUIDGetUUIDBytes(IUnknownUUID);
if (memcmp(&iid, &unknown, sizeof(REFIID)) == 0) {
*ppv = this;
AddRef();
result = S_OK;
} else if (memcmp(&iid, &IID_IDeckLinkNotificationCallback,
sizeof(REFIID)) == 0) {
*ppv = (IDeckLinkNotificationCallback *)this;
AddRef();
result = S_OK;
}
return result;
}
ULONG STDMETHODCALLTYPE DeckLinkDeviceInstance::Release(void)
{
const long newRefCount = os_atomic_dec_long(&refCount);
if (newRefCount == 0) {
delete this;
return 0;
}
return newRefCount;
}
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