akvirtualcamera/cmio/VirtualCamera/src/device.cpp
2020-07-27 21:43:21 -03:00

335 lines
9.1 KiB
C++

/* akvirtualcamera, virtual camera for Mac and Windows.
* Copyright (C) 2020 Gonzalo Exequiel Pedone
*
* akvirtualcamera is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* akvirtualcamera is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with akvirtualcamera. If not, see <http://www.gnu.org/licenses/>.
*
* Web-Site: http://webcamoid.github.io/
*/
#include "device.h"
#include "utils.h"
#include "VCamUtils/src/logger/logger.h"
AkVCam::Device::Device(CMIOHardwarePlugInRef pluginInterface,
bool registerObject):
AkVCam::Object(pluginInterface)
{
this->m_className = "Device";
this->m_classID = kCMIODeviceClassID;
if (registerObject) {
this->createObject();
this->registerObject();
}
}
AkVCam::Device::~Device()
{
this->registerStreams(false);
this->registerObject(false);
}
OSStatus AkVCam::Device::createObject()
{
AkLogFunction();
if (!this->m_pluginInterface
|| !*this->m_pluginInterface)
return kCMIOHardwareUnspecifiedError;
CMIOObjectID deviceID = 0;
auto status =
CMIOObjectCreate(this->m_pluginInterface,
kCMIOObjectSystemObject,
this->m_classID,
&deviceID);
if (status == kCMIOHardwareNoError) {
this->m_isCreated = true;
this->m_objectID = deviceID;
AkLogInfo() << "Created device: " << this->m_objectID << std::endl;
}
return status;
}
OSStatus AkVCam::Device::registerObject(bool regist)
{
AkLogFunction();
OSStatus status = kCMIOHardwareUnspecifiedError;
if (!this->m_isCreated
|| !this->m_pluginInterface
|| !*this->m_pluginInterface)
return status;
if (regist) {
status = CMIOObjectsPublishedAndDied(this->m_pluginInterface,
kCMIOObjectSystemObject,
1,
&this->m_objectID,
0,
nullptr);
} else {
status = CMIOObjectsPublishedAndDied(this->m_pluginInterface,
kCMIOObjectSystemObject,
0,
nullptr,
1,
&this->m_objectID);
}
return status;
}
AkVCam::StreamPtr AkVCam::Device::addStream()
{
AkLogFunction();
auto stream = StreamPtr(new Stream(false, this));
if (stream->createObject() == kCMIOHardwareNoError) {
this->m_streams[stream->objectID()] = stream;
this->updateStreamsProperty();
return stream;
}
return StreamPtr();
}
std::list<AkVCam::StreamPtr> AkVCam::Device::addStreams(int n)
{
AkLogFunction();
std::list<StreamPtr> streams;
for (int i = 0; i < n; i++) {
auto stream = StreamPtr(new Stream(false, this));
if (stream->createObject() != kCMIOHardwareNoError)
return std::list<StreamPtr>();
streams.push_back(stream);
}
for (auto &stream: streams) {
this->m_streams[stream->objectID()] = stream;
this->updateStreamsProperty();
}
return streams;
}
OSStatus AkVCam::Device::registerStreams(bool regist)
{
AkLogFunction();
OSStatus status = kCMIOHardwareUnspecifiedError;
if (!this->m_isCreated
|| !this->m_pluginInterface
|| !*this->m_pluginInterface
|| this->m_streams.empty())
return status;
std::vector<CMIOObjectID> streams;
for (auto &stream: this->m_streams)
streams.push_back(stream.first);
if (regist) {
status = CMIOObjectsPublishedAndDied(this->m_pluginInterface,
kCMIOObjectSystemObject,
UInt32(streams.size()),
streams.data(),
0,
nullptr);
} else {
status = CMIOObjectsPublishedAndDied(this->m_pluginInterface,
kCMIOObjectSystemObject,
0,
nullptr,
UInt32(streams.size()),
streams.data());
}
return status;
}
std::string AkVCam::Device::deviceId() const
{
return this->m_deviceId;
}
void AkVCam::Device::setDeviceId(const std::string &deviceId)
{
this->m_deviceId = deviceId;
}
void AkVCam::Device::stopStreams()
{
for (auto &stream: this->m_streams)
stream.second->stop();
}
void AkVCam::Device::serverStateChanged(IpcBridge::ServerState state)
{
for (auto &stream: this->m_streams)
stream.second->serverStateChanged(state);
}
void AkVCam::Device::frameReady(const AkVCam::VideoFrame &frame)
{
for (auto &stream: this->m_streams)
stream.second->frameReady(frame);
}
void AkVCam::Device::setBroadcasting(const std::string &broadcaster)
{
for (auto &stream: this->m_streams)
stream.second->setBroadcasting(broadcaster);
}
void AkVCam::Device::setMirror(bool horizontalMirror, bool verticalMirror)
{
for (auto &stream: this->m_streams)
stream.second->setMirror(horizontalMirror, verticalMirror);
}
void AkVCam::Device::setScaling(Scaling scaling)
{
for (auto &stream: this->m_streams)
stream.second->setScaling(scaling);
}
void AkVCam::Device::setAspectRatio(AspectRatio aspectRatio)
{
for (auto &stream: this->m_streams)
stream.second->setAspectRatio(aspectRatio);
}
void AkVCam::Device::setSwapRgb(bool swap)
{
for (auto &stream: this->m_streams)
stream.second->setSwapRgb(swap);
}
OSStatus AkVCam::Device::suspend()
{
AkLogFunction();
AkLogDebug() << "STUB" << std::endl;
return kCMIOHardwareUnspecifiedError;
}
OSStatus AkVCam::Device::resume()
{
AkLogFunction();
AkLogDebug() << "STUB" << std::endl;
return kCMIOHardwareUnspecifiedError;
}
OSStatus AkVCam::Device::startStream(CMIOStreamID stream)
{
AkLogFunction();
UInt32 isRunning = 0;
this->m_properties.getProperty(kCMIODevicePropertyDeviceIsRunning,
&isRunning);
if (isRunning)
return kCMIOHardwareUnspecifiedError;
if (!this->m_streams.count(stream))
return kCMIOHardwareNotRunningError;
if (!this->m_streams[stream]->start())
return kCMIOHardwareNotRunningError;
bool deviceRunning = true;
for (auto &stream: this->m_streams)
deviceRunning &= stream.second->running();
if (deviceRunning) {
this->m_properties.setProperty(kCMIODevicePropertyDeviceIsRunning,
UInt32(1));
auto address = this->address(kCMIODevicePropertyDeviceIsRunning);
this->propertyChanged(1, &address);
}
AKVCAM_EMIT(this, AddListener, this->m_deviceId)
return kCMIOHardwareNoError;
}
OSStatus AkVCam::Device::stopStream(CMIOStreamID stream)
{
AkLogFunction();
UInt32 isRunning = 0;
this->m_properties.getProperty(kCMIODevicePropertyDeviceIsRunning,
&isRunning);
if (!isRunning)
return kCMIOHardwareNotRunningError;
if (!this->m_streams.count(stream))
return kCMIOHardwareNotRunningError;
this->m_streams[stream]->stop();
bool deviceRunning = false;
for (auto &stream: this->m_streams)
deviceRunning |= stream.second->running();
if (!deviceRunning) {
this->m_properties.setProperty(kCMIODevicePropertyDeviceIsRunning,
UInt32(0));
auto address = this->address(kCMIODevicePropertyDeviceIsRunning);
this->propertyChanged(1, &address);
}
AKVCAM_EMIT(this, RemoveListener, this->m_deviceId)
return kCMIOHardwareNoError;
}
OSStatus AkVCam::Device::processAVCCommand(CMIODeviceAVCCommand *ioAVCCommand)
{
UNUSED(ioAVCCommand);
AkLogFunction();
AkLogDebug() << "STUB" << std::endl;
return kCMIOHardwareUnspecifiedError;
}
OSStatus AkVCam::Device::processRS422Command(CMIODeviceRS422Command *ioRS422Command)
{
UNUSED(ioRS422Command);
AkLogFunction();
AkLogDebug() << "STUB" << std::endl;
return kCMIOHardwareUnspecifiedError;
}
void AkVCam::Device::updateStreamsProperty()
{
std::vector<ObjectPtr> streams;
for (auto &stream: this->m_streams)
streams.push_back(stream.second);
this->m_properties.setProperty(kCMIODevicePropertyStreams, streams);
}