rpcsx/ps3fw/cellAvconfExt.cpp

#include "Emu/Cell/PPUModule.h"
#include "Emu/IdManager.h"
#include "Emu/RSX/rsx_utils.h"
#include "Emu/system_config.h"
#include "stdafx.h"
#include "util/StrUtil.h"

#include "cellAudioIn.h"
#include "cellAudioOut.h"
#include "cellMic.h"
#include "cellVideoOut.h"

#include <optional>

LOG_CHANNEL(cellAvconfExt);

template <>
void fmt_class_string<CellAudioInError>::format(std::string& out, u64 arg)
{
	format_enum(out, arg, [](auto error)
		{
			switch (error)
			{
				STR_CASE(CELL_AUDIO_IN_ERROR_NOT_IMPLEMENTED);
				STR_CASE(CELL_AUDIO_IN_ERROR_ILLEGAL_CONFIGURATION);
				STR_CASE(CELL_AUDIO_IN_ERROR_ILLEGAL_PARAMETER);
				STR_CASE(CELL_AUDIO_IN_ERROR_PARAMETER_OUT_OF_RANGE);
				STR_CASE(CELL_AUDIO_IN_ERROR_DEVICE_NOT_FOUND);
				STR_CASE(CELL_AUDIO_IN_ERROR_UNSUPPORTED_AUDIO_IN);
				STR_CASE(CELL_AUDIO_IN_ERROR_UNSUPPORTED_SOUND_MODE);
				STR_CASE(CELL_AUDIO_IN_ERROR_CONDITION_BUSY);
			}

			return unknown;
		});
}

struct avconf_manager
{
	shared_mutex mutex;
	std::vector<CellAudioInDeviceInfo> devices;
	CellAudioInDeviceMode inDeviceMode =
		CELL_AUDIO_IN_SINGLE_DEVICE_MODE; // TODO: use somewhere

	void copy_device_info(u32 num, vm::ptr<CellAudioInDeviceInfo> info) const;
	std::optional<CellAudioInDeviceInfo>
	get_device_info(vm::cptr<char> name) const;

	avconf_manager();

	avconf_manager(const avconf_manager&) = delete;

	avconf_manager& operator=(const avconf_manager&) = delete;
};

avconf_manager::avconf_manager()
{
	u32 curindex = 0;

	const std::vector<std::string> mic_list =
		fmt::split(g_cfg.audio.microphone_devices.to_string(), {"@@@"});

	if (!mic_list.empty())
	{
		switch (g_cfg.audio.microphone_type)
		{
		case microphone_handler::standard:
			for (u32 index = 0; index < mic_list.size(); index++)
			{
				devices.emplace_back();

				devices[curindex].portType = CELL_AUDIO_IN_PORT_USB;
				devices[curindex].availableModeCount = 1;
				devices[curindex].state = CELL_AUDIO_IN_DEVICE_STATE_AVAILABLE;
				devices[curindex].deviceId = 0xE11CC0DE + curindex;
				devices[curindex].type = 0xC0DEE11C;
				devices[curindex].availableModes[0].type =
					CELL_AUDIO_IN_CODING_TYPE_LPCM;
				devices[curindex].availableModes[0].channel = CELL_AUDIO_IN_CHNUM_2;
				devices[curindex].availableModes[0].fs =
					CELL_AUDIO_IN_FS_8KHZ | CELL_AUDIO_IN_FS_12KHZ |
					CELL_AUDIO_IN_FS_16KHZ | CELL_AUDIO_IN_FS_24KHZ |
					CELL_AUDIO_IN_FS_32KHZ | CELL_AUDIO_IN_FS_48KHZ;
				devices[curindex].deviceNumber = curindex;
				strcpy_trunc(devices[curindex].name, mic_list[index]);

				curindex++;
			}
			break;
		case microphone_handler::real_singstar:
		case microphone_handler::singstar:
			// Only one device for singstar device
			devices.emplace_back();

			devices[curindex].portType = CELL_AUDIO_IN_PORT_USB;
			devices[curindex].availableModeCount = 1;
			devices[curindex].state = CELL_AUDIO_IN_DEVICE_STATE_AVAILABLE;
			devices[curindex].deviceId = 0x00000001;
			devices[curindex].type = 0x14150000;
			devices[curindex].availableModes[0].type = CELL_AUDIO_IN_CODING_TYPE_LPCM;
			devices[curindex].availableModes[0].channel = CELL_AUDIO_IN_CHNUM_2;
			devices[curindex].availableModes[0].fs =
				CELL_AUDIO_IN_FS_8KHZ | CELL_AUDIO_IN_FS_12KHZ |
				CELL_AUDIO_IN_FS_16KHZ | CELL_AUDIO_IN_FS_24KHZ |
				CELL_AUDIO_IN_FS_32KHZ | CELL_AUDIO_IN_FS_48KHZ;
			devices[curindex].deviceNumber = curindex;
			strcpy_trunc(devices[curindex].name, mic_list[0]);

			curindex++;
			break;
		case microphone_handler::rocksmith:
			devices.emplace_back();

			devices[curindex].portType = CELL_AUDIO_IN_PORT_USB;
			devices[curindex].availableModeCount = 1;
			devices[curindex].state = CELL_AUDIO_IN_DEVICE_STATE_AVAILABLE;
			devices[curindex].deviceId =
				0x12BA00FF; // Specific to rocksmith usb input
			devices[curindex].type = 0xC0DE73C4;
			devices[curindex].availableModes[0].type = CELL_AUDIO_IN_CODING_TYPE_LPCM;
			devices[curindex].availableModes[0].channel = CELL_AUDIO_IN_CHNUM_1;
			devices[curindex].availableModes[0].fs =
				CELL_AUDIO_IN_FS_8KHZ | CELL_AUDIO_IN_FS_12KHZ |
				CELL_AUDIO_IN_FS_16KHZ | CELL_AUDIO_IN_FS_24KHZ |
				CELL_AUDIO_IN_FS_32KHZ | CELL_AUDIO_IN_FS_48KHZ;
			devices[curindex].deviceNumber = curindex;
			strcpy_trunc(devices[curindex].name, mic_list[0]);

			curindex++;
			break;
		case microphone_handler::null:
		default:
			break;
		}
	}

	if (g_cfg.io.camera != camera_handler::null)
	{
		devices.emplace_back();

		devices[curindex].portType = CELL_AUDIO_IN_PORT_USB;
		devices[curindex].availableModeCount = 1;
		devices[curindex].state = CELL_AUDIO_IN_DEVICE_STATE_AVAILABLE;
		devices[curindex].deviceId = 0xDEADBEEF;
		devices[curindex].type = 0xBEEFDEAD;
		devices[curindex].availableModes[0].type = CELL_AUDIO_IN_CODING_TYPE_LPCM;
		devices[curindex].availableModes[0].channel = CELL_AUDIO_IN_CHNUM_NONE;
		devices[curindex].availableModes[0].fs =
			CELL_AUDIO_IN_FS_8KHZ | CELL_AUDIO_IN_FS_12KHZ |
			CELL_AUDIO_IN_FS_16KHZ | CELL_AUDIO_IN_FS_24KHZ |
			CELL_AUDIO_IN_FS_32KHZ | CELL_AUDIO_IN_FS_48KHZ;
		devices[curindex].deviceNumber = curindex;
		strcpy_trunc(devices[curindex].name, "USB Camera");

		curindex++;
	}
}

void avconf_manager::copy_device_info(
	u32 num, vm::ptr<CellAudioInDeviceInfo> info) const
{
	memset(info.get_ptr(), 0, sizeof(CellAudioInDeviceInfo));
	ensure(num < devices.size());
	*info = devices[num];
}

std::optional<CellAudioInDeviceInfo>
avconf_manager::get_device_info(vm::cptr<char> name) const
{
	for (const CellAudioInDeviceInfo& device : devices)
	{
		if (strncmp(device.name, name.get_ptr(), sizeof(device.name)) == 0)
		{
			return device;
		}
	}

	return std::nullopt;
}

error_code cellAudioOutUnregisterDevice(u32 deviceNumber)
{
	cellAvconfExt.todo("cellAudioOutUnregisterDevice(deviceNumber=0x%x)",
		deviceNumber);
	return CELL_OK;
}

error_code cellAudioOutGetDeviceInfo2(u32 deviceNumber, u32 deviceIndex,
	vm::ptr<CellAudioOutDeviceInfo2> info)
{
	cellAvconfExt.todo("cellAudioOutGetDeviceInfo2(deviceNumber=0x%x, "
					   "deviceIndex=0x%x, info=*0x%x)",
		deviceNumber, deviceIndex, info);

	if (deviceIndex != 0 || !info)
	{
		return CELL_AUDIO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	return CELL_OK;
}

error_code cellVideoOutSetXVColor(u32 unk1, u32 unk2, u32 unk3)
{
	cellAvconfExt.todo("cellVideoOutSetXVColor(unk1=0x%x, unk2=0x%x, unk3=0x%x)",
		unk1, unk2, unk3);

	if (unk1 != 0)
	{
		return CELL_VIDEO_OUT_ERROR_NOT_IMPLEMENTED;
	}

	return CELL_OK;
}

error_code cellVideoOutSetupDisplay(u32 videoOut)
{
	cellAvconfExt.todo("cellVideoOutSetupDisplay(videoOut=%d)", videoOut);

	if (videoOut != CELL_VIDEO_OUT_SECONDARY)
	{
		return CELL_VIDEO_OUT_ERROR_UNSUPPORTED_VIDEO_OUT;
	}

	return CELL_OK;
}

error_code cellAudioInGetDeviceInfo(u32 deviceNumber, u32 deviceIndex,
	vm::ptr<CellAudioInDeviceInfo> info)
{
	cellAvconfExt.trace("cellAudioInGetDeviceInfo(deviceNumber=0x%x, "
						"deviceIndex=0x%x, info=*0x%x)",
		deviceNumber, deviceIndex, info);

	if (deviceIndex != 0 || !info)
	{
		return CELL_AUDIO_IN_ERROR_ILLEGAL_PARAMETER;
	}

	auto& av_manager = g_fxo->get<avconf_manager>();
	std::lock_guard lock(av_manager.mutex);

	if (deviceNumber >= av_manager.devices.size())
		return CELL_AUDIO_OUT_ERROR_DEVICE_NOT_FOUND;

	av_manager.copy_device_info(deviceNumber, info);

	return CELL_OK;
}

error_code cellVideoOutConvertCursorColor(u32 videoOut,
	s32 displaybuffer_format, f32 gamma,
	s32 source_buffer_format,
	vm::ptr<void> src_addr,
	vm::ptr<u32> dest_addr, s32 num)
{
	cellAvconfExt.todo(
		"cellVideoOutConvertCursorColor(videoOut=%d, displaybuffer_format=0x%x, "
		"gamma=0x%x, source_buffer_format=0x%x, src_addr=*0x%x, dest_addr=*0x%x, "
		"num=0x%x)",
		videoOut, displaybuffer_format, gamma, source_buffer_format, src_addr,
		dest_addr, num);

	if (!dest_addr || num == 0)
	{
		return CELL_VIDEO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	if (displaybuffer_format >
			CELL_VIDEO_OUT_BUFFER_COLOR_FORMAT_R16G16B16X16_FLOAT ||
		src_addr)
	{
		return CELL_VIDEO_OUT_ERROR_PARAMETER_OUT_OF_RANGE;
	}

	if (displaybuffer_format <
		CELL_VIDEO_OUT_BUFFER_COLOR_FORMAT_R16G16B16X16_FLOAT)
	{
		if (gamma < 0.8f || gamma > 1.2f)
		{
			return CELL_VIDEO_OUT_ERROR_PARAMETER_OUT_OF_RANGE;
		}
	}

	error_code cellVideoOutGetConvertCursorColorInfo(
		vm::ptr<u8> rgbOutputRange); // Forward declaration

	vm::var<u8> rgbOutputRange;
	if (error_code error =
			cellVideoOutGetConvertCursorColorInfo(rgbOutputRange))
	{
		return error;
	}

	return CELL_OK;
}

error_code cellVideoOutGetGamma(u32 videoOut, vm::ptr<f32> gamma)
{
	cellAvconfExt.warning("cellVideoOutGetGamma(videoOut=%d, gamma=*0x%x)",
		videoOut, gamma);

	if (!gamma)
	{
		return CELL_VIDEO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	if (videoOut != CELL_VIDEO_OUT_PRIMARY)
	{
		return CELL_VIDEO_OUT_ERROR_UNSUPPORTED_VIDEO_OUT;
	}

	const auto& conf = g_fxo->get<rsx::avconf>();

	*gamma = conf.gamma;

	return CELL_OK;
}

error_code
cellAudioInGetAvailableDeviceInfo(u32 count,
	vm::ptr<CellAudioInDeviceInfo> device_info)
{
	cellAvconfExt.trace("cellAudioInGetAvailableDeviceInfo(count=%d, info=*0x%x)",
		count, device_info);

	if (count > 16 || !device_info)
	{
		return CELL_AUDIO_IN_ERROR_ILLEGAL_PARAMETER;
	}

	auto& av_manager = g_fxo->get<avconf_manager>();
	std::lock_guard lock(av_manager.mutex);

	u32 num_devices_returned = std::min<u32>(count, ::size32(av_manager.devices));

	for (u32 index = 0; index < num_devices_returned; index++)
	{
		av_manager.copy_device_info(index, device_info + index);
	}

	CellAudioInDeviceInfo disconnected_device{};
	disconnected_device.state = CELL_AUDIO_OUT_DEVICE_STATE_UNAVAILABLE;
	disconnected_device.deviceNumber = 0xff;

	for (u32 index = num_devices_returned; index < count; index++)
	{
		device_info[index] = disconnected_device;
	}

	return not_an_error(num_devices_returned);
}

error_code
cellAudioOutGetAvailableDeviceInfo(u32 count,
	vm::ptr<CellAudioOutDeviceInfo2> info)
{
	cellAvconfExt.todo(
		"cellAudioOutGetAvailableDeviceInfo(count=0x%x, info=*0x%x)", count,
		info);

	if (count > 16 || !info)
	{
		return CELL_AUDIO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	return not_an_error(0); // number of available devices
}

error_code cellVideoOutSetGamma(u32 videoOut, f32 gamma)
{
	cellAvconfExt.trace("cellVideoOutSetGamma(videoOut=%d, gamma=%f)", videoOut,
		gamma);

	if (gamma < 0.8f || gamma > 1.2f)
	{
		return CELL_VIDEO_OUT_ERROR_PARAMETER_OUT_OF_RANGE;
	}

	if (videoOut != CELL_VIDEO_OUT_PRIMARY)
	{
		return CELL_VIDEO_OUT_ERROR_UNSUPPORTED_VIDEO_OUT;
	}

	auto& conf = g_fxo->get<rsx::avconf>();
	conf.gamma = gamma;

	return CELL_OK;
}

error_code
cellAudioOutRegisterDevice(u64 deviceType, vm::cptr<char> name,
	vm::ptr<CellAudioOutRegistrationOption> option,
	vm::ptr<CellAudioOutDeviceConfiguration> config)
{
	cellAvconfExt.todo("cellAudioOutRegisterDevice(deviceType=0x%llx, name=%s, "
					   "option=*0x%x, config=*0x%x)",
		deviceType, name, option, config);

	if (option || !name)
	{
		return CELL_AUDIO_IN_ERROR_ILLEGAL_PARAMETER; // Strange choice for an error
	}

	return not_an_error(0); // device number
}

error_code cellAudioOutSetDeviceMode(u32 deviceMode)
{
	cellAvconfExt.todo("cellAudioOutSetDeviceMode(deviceMode=0x%x)", deviceMode);

	if (deviceMode > CELL_AUDIO_OUT_MULTI_DEVICE_MODE_2)
	{
		return CELL_AUDIO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	return CELL_OK;
}

error_code cellAudioInSetDeviceMode(u32 deviceMode)
{
	cellAvconfExt.todo("cellAudioInSetDeviceMode(deviceMode=0x%x)", deviceMode);

	switch (deviceMode)
	{
	case CELL_AUDIO_IN_SINGLE_DEVICE_MODE:
	case CELL_AUDIO_IN_MULTI_DEVICE_MODE:
	case CELL_AUDIO_IN_MULTI_DEVICE_MODE_2:
	case CELL_AUDIO_IN_MULTI_DEVICE_MODE_10:
		break;
	default:
		return CELL_AUDIO_IN_ERROR_ILLEGAL_PARAMETER;
	}

	auto& av_manager = g_fxo->get<avconf_manager>();
	std::lock_guard lock(av_manager.mutex);

	av_manager.inDeviceMode = static_cast<CellAudioInDeviceMode>(deviceMode);

	return CELL_OK;
}

error_code
cellAudioInRegisterDevice(u64 deviceType, vm::cptr<char> name,
	vm::ptr<CellAudioInRegistrationOption> option,
	vm::ptr<CellAudioInDeviceConfiguration> config)
{
	cellAvconfExt.todo("cellAudioInRegisterDevice(deviceType=0x%llx, name=%s, "
					   "option=*0x%x, config=*0x%x)",
		deviceType, name, option, config);

	// option must be null, volume can be 1 (soft) to 5 (loud) (raises question
	// about check for volume = 0)
	if (option || !config || !name || config->volume > 5)
	{
		return CELL_AUDIO_IN_ERROR_ILLEGAL_PARAMETER;
	}

	auto& av_manager = g_fxo->get<avconf_manager>();
	const std::lock_guard lock(av_manager.mutex);

	std::optional<CellAudioInDeviceInfo> info = av_manager.get_device_info(name);
	if (!info || !memchr(info->name, '\0', sizeof(info->name)))
	{
		// TODO
		return CELL_AUDIO_IN_ERROR_DEVICE_NOT_FOUND;
	}

	auto& mic_thr = g_fxo->get<mic_thread>();
	const std::lock_guard mic_lock(mic_thr.mutex);
	const u32 device_number = mic_thr.register_device(info->name);

	return not_an_error(device_number);
}

error_code cellAudioInUnregisterDevice(u32 deviceNumber)
{
	cellAvconfExt.todo("cellAudioInUnregisterDevice(deviceNumber=0x%x)",
		deviceNumber);

	auto& mic_thr = g_fxo->get<mic_thread>();
	const std::lock_guard lock(mic_thr.mutex);
	mic_thr.unregister_device(deviceNumber);

	return CELL_OK;
}

error_code cellVideoOutGetScreenSize(u32 videoOut, vm::ptr<f32> screenSize)
{
	cellAvconfExt.warning(
		"cellVideoOutGetScreenSize(videoOut=%d, screenSize=*0x%x)", videoOut,
		screenSize);

	if (!screenSize)
	{
		return CELL_VIDEO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	if (videoOut != CELL_VIDEO_OUT_PRIMARY)
	{
		return CELL_VIDEO_OUT_ERROR_UNSUPPORTED_VIDEO_OUT;
	}

	if (g_cfg.video.stereo_render_mode != stereo_render_mode_options::disabled)
	{
		// Return Playstation 3D display value
		// Some games call this function when 3D is enabled
		*screenSize = 24.f;
		return CELL_OK;
	}

	//	TODO: Use virtual screen size
#ifdef _WIN32
	//	HDC screen = GetDC(NULL);
	//	float diagonal = roundf(sqrtf((powf(float(GetDeviceCaps(screen,
	// HORZSIZE)), 2) + powf(float(GetDeviceCaps(screen, VERTSIZE)), 2))) *
	// 0.0393f);
#else
	// TODO: Linux implementation, without using wx
	// float diagonal = roundf(sqrtf((powf(wxGetDisplaySizeMM().GetWidth(), 2) +
	// powf(wxGetDisplaySizeMM().GetHeight(), 2))) * 0.0393f);
#endif

	return CELL_VIDEO_OUT_ERROR_VALUE_IS_NOT_SET;
}

error_code cellVideoOutSetCopyControl(u32 videoOut, u32 control)
{
	cellAvconfExt.todo("cellVideoOutSetCopyControl(videoOut=%d, control=0x%x)",
		videoOut, control);

	if (control > CELL_VIDEO_OUT_COPY_CONTROL_COPY_NEVER)
	{
		return CELL_VIDEO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	return CELL_OK;
}

error_code cellVideoOutConfigure2()
{
	cellAvconfExt.todo("cellVideoOutConfigure2()");

	if (false) // TODO
	{
		return CELL_VIDEO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	if (false) // TODO
	{
		return CELL_VIDEO_OUT_ERROR_PARAMETER_OUT_OF_RANGE;
	}

	return CELL_OK;
}

error_code cellAudioOutGetConfiguration2()
{
	cellAvconfExt.todo("cellAudioOutGetConfiguration2()");

	if (false) // TODO
	{
		return CELL_AUDIO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	return CELL_OK;
}

error_code cellAudioOutConfigure2()
{
	cellAvconfExt.todo("cellAudioOutConfigure2()");

	if (false) // TODO
	{
		return CELL_AUDIO_OUT_ERROR_ILLEGAL_PARAMETER;
	}

	return CELL_OK;
}

error_code cellVideoOutGetResolutionAvailability2()
{
	cellAvconfExt.todo("cellVideoOutGetResolutionAvailability2()");
	return CELL_OK;
}

DECLARE(ppu_module_manager::cellAvconfExt)("cellSysutilAvconfExt", []()
	{
		REG_FUNC(cellSysutilAvconfExt, cellAudioOutUnregisterDevice);
		REG_FUNC(cellSysutilAvconfExt, cellAudioOutGetDeviceInfo2);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutSetXVColor);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutSetupDisplay);
		REG_FUNC(cellSysutilAvconfExt, cellAudioInGetDeviceInfo);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutConvertCursorColor);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutGetGamma);
		REG_FUNC(cellSysutilAvconfExt, cellAudioInGetAvailableDeviceInfo);
		REG_FUNC(cellSysutilAvconfExt, cellAudioOutGetAvailableDeviceInfo);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutSetGamma);
		REG_FUNC(cellSysutilAvconfExt, cellAudioOutRegisterDevice);
		REG_FUNC(cellSysutilAvconfExt, cellAudioOutSetDeviceMode);
		REG_FUNC(cellSysutilAvconfExt, cellAudioInSetDeviceMode);
		REG_FUNC(cellSysutilAvconfExt, cellAudioInRegisterDevice);
		REG_FUNC(cellSysutilAvconfExt, cellAudioInUnregisterDevice);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutGetScreenSize);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutSetCopyControl);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutConfigure2);
		REG_FUNC(cellSysutilAvconfExt, cellAudioOutGetConfiguration2);
		REG_FUNC(cellSysutilAvconfExt, cellAudioOutConfigure2);
		REG_FUNC(cellSysutilAvconfExt, cellVideoOutGetResolutionAvailability2);
	});