Exemplo n.º 1
0
	s32 inet_pton(s32 af, vm::cptr<char> src, vm::ptr<char> dst)
	{
		libnet.warning("inet_pton(af=%d, src=*0x%x, dst=*0x%x)", af, src, dst);
		return ::inet_pton(af, src.get_ptr(), dst.get_ptr());
	}
Exemplo n.º 2
0
s64 cellSpursSetPriorities(vm::ptr<CellSpurs> spurs, u32 workloadId, vm::ptr<const u8> priorities)
{
#ifdef PRX_DEBUG
	cellSpurs->Warning("cellSpursSetPriorities(spurs_addr=0x%x, workloadId=%d, priorities_addr=0x%x)", spurs.addr(), workloadId, priorities.addr());
	return GetCurrentPPUThread().FastCall2(libsre + 0x8BC0, libsre_rtoc);
#else
	UNIMPLEMENTED_FUNC(cellSpurs);
	return CELL_OK;
#endif
}
Exemplo n.º 3
0
s64 cellSpursEnableExceptionEventHandler(vm::ptr<CellSpurs> spurs, bool flag)
{
#ifdef PRX_DEBUG
	cellSpurs->Warning("cellSpursEnableExceptionEventHandler(spurs_addr=0x%x, flag=%d)", spurs.addr(), flag);
	return GetCurrentPPUThread().FastCall2(libsre + 0xDCC0, libsre_rtoc);
#else
	UNIMPLEMENTED_FUNC(cellSpurs);
	return CELL_OK;
#endif
}
Exemplo n.º 4
0
s64 cellSpursGetSpuThreadGroupId(vm::ptr<CellSpurs> spurs, vm::ptr<be_t<u32>> group)
{
#ifdef PRX_DEBUG
	cellSpurs->Warning("cellSpursGetSpuThreadGroupId(spurs_addr=0x%x, group_addr=0x%x)", spurs.addr(), group.addr());
	return GetCurrentPPUThread().FastCall2(libsre + 0x8B30, libsre_rtoc);
#else
	UNIMPLEMENTED_FUNC(cellSpurs);
	return CELL_OK;
#endif
}
Exemplo n.º 5
0
s64 cellSpursGetSpuThreadId(vm::ptr<CellSpurs> spurs, vm::ptr<be_t<u32>> thread, vm::ptr<be_t<u32>> nThreads)
{
#ifdef PRX_DEBUG
	cellSpurs->Warning("cellSpursGetSpuThreadId(spurs_addr=0x%x, thread_addr=0x%x, nThreads_addr=0x%x)", spurs.addr(), thread.addr(), nThreads.addr());
	return GetCurrentPPUThread().FastCall2(libsre + 0x8A98, libsre_rtoc);
#else
	UNIMPLEMENTED_FUNC(cellSpurs);
	return CELL_OK;
#endif
}
Exemplo n.º 6
0
s32 cellVdecGetPicture(u32 handle, vm::cptr<CellVdecPicFormat> format, vm::ptr<u8> outBuff)
{
	cellVdec.trace("cellVdecGetPicture(handle=0x%x, format=*0x%x, outBuff=*0x%x)", handle, format, outBuff);

	const auto vdec = idm::get<VideoDecoder>(handle);

	if (!vdec || !format)
	{
		return CELL_VDEC_ERROR_ARG;
	}

	VdecFrame vf;
	if (!vdec->frames.try_pop(vf))
	{
		//std::this_thread::sleep_for(std::chrono::milliseconds(1)); // hack
		return CELL_VDEC_ERROR_EMPTY;
	}

	if (!vf.data)
	{
		// hack
		return CELL_OK;
	}

	std::unique_ptr<AVFrame, void(*)(AVFrame*)> frame(vf.data, [](AVFrame* frame)
	{
		av_frame_unref(frame);
		av_frame_free(&frame);
	});

	if (outBuff)
	{
		const auto f = vdec->ctx->pix_fmt;
		const auto w = vdec->ctx->width;
		const auto h = vdec->ctx->height;

		auto out_f = AV_PIX_FMT_YUV420P;

		std::unique_ptr<u8[]> alpha_plane;

		switch (const u32 type = format->formatType)
		{
		case CELL_VDEC_PICFMT_ARGB32_ILV: out_f = AV_PIX_FMT_ARGB; alpha_plane.reset(new u8[w * h]); break;
		case CELL_VDEC_PICFMT_RGBA32_ILV: out_f = AV_PIX_FMT_RGBA; alpha_plane.reset(new u8[w * h]); break;
		case CELL_VDEC_PICFMT_UYVY422_ILV: out_f = AV_PIX_FMT_UYVY422; break;
		case CELL_VDEC_PICFMT_YUV420_PLANAR: out_f = AV_PIX_FMT_YUV420P; break;

		default:
		{
			throw EXCEPTION("Unknown formatType(%d)", type);
		}
		}

		if (format->colorMatrixType != CELL_VDEC_COLOR_MATRIX_TYPE_BT709)
		{
			throw EXCEPTION("Unknown colorMatrixType(%d)", format->colorMatrixType);
		}

		if (alpha_plane)
		{
			memset(alpha_plane.get(), format->alpha, w * h);
		}

		auto in_f = AV_PIX_FMT_YUV420P;

		switch (f)
		{
		case AV_PIX_FMT_YUV420P: in_f = alpha_plane ? AV_PIX_FMT_YUVA420P : AV_PIX_FMT_YUV420P; break;

		default:
		{
			throw EXCEPTION("Unknown pix_fmt(%d)", f);
		}
		}

		std::unique_ptr<SwsContext, void(*)(SwsContext*)> sws(sws_getContext(w, h, in_f, w, h, out_f, SWS_POINT, NULL, NULL, NULL), sws_freeContext);

		u8* in_data[4] = { frame->data[0], frame->data[1], frame->data[2], alpha_plane.get() };
		int in_line[4] = { frame->linesize[0], frame->linesize[1], frame->linesize[2], w * 1 };
		u8* out_data[4] = { outBuff.get_ptr() };
		int out_line[4] = { w * 4 };

		if (!alpha_plane)
		{
			out_data[1] = out_data[0] + w * h;
			out_data[2] = out_data[0] + w * h * 5 / 4;
			out_line[0] = w;
			out_line[1] = w / 2;
			out_line[2] = w / 2;
		}

		sws_scale(sws.get(), in_data, in_line, 0, h, out_data, out_line);

		//const u32 buf_size = align(av_image_get_buffer_size(vdec->ctx->pix_fmt, vdec->ctx->width, vdec->ctx->height, 1), 128);

		//// TODO: zero padding bytes

		//int err = av_image_copy_to_buffer(outBuff.get_ptr(), buf_size, frame->data, frame->linesize, vdec->ctx->pix_fmt, frame->width, frame->height, 1);
		//if (err < 0)
		//{
		//	cellVdec.Fatal("cellVdecGetPicture: av_image_copy_to_buffer failed (err=0x%x)", err);
		//}
	}

	return CELL_OK;
}
Exemplo n.º 7
0
int cellNetCtlAddHandler(vm::ptr<cellNetCtlHandler> handler, vm::ptr<void> arg, vm::ptr<s32> hid)
{
	cellNetCtl.Todo("cellNetCtlAddHandler(handler_addr=0x%x, arg_addr=0x%x, hid_addr=0x%x)", handler.addr(), arg.addr(), hid.addr());

	return CELL_OK;
}
Exemplo n.º 8
0
s32 cellSailPlayerSetPaused(vm::ptr<CellSailPlayer> pSelf, bool paused)
{
	cellSail.Todo("cellSailPlayerSetPaused(pSelf_addr=0x%x, paused=%d)", pSelf.addr(), paused);
	return CELL_OK;
}
Exemplo n.º 9
0
s32 cellSailPlayerIsPaused(vm::ptr<CellSailPlayer> pSelf)
{
	cellSail.Warning("cellSailPlayerIsPaused(pSelf_addr=0x%x)", pSelf.addr());
	return pSelf->paused;
}
Exemplo n.º 10
0
s32 cellSailPlayerGetDescriptorCount(vm::ptr<CellSailPlayer> pSelf)
{
	cellSail.Warning("cellSailPlayerGetDescriptorCount(pSelf_addr=0x%x)", pSelf.addr());
	return pSelf->descriptors;
}
Exemplo n.º 11
0
s32 cellSailDescriptorSetAutoSelection(vm::ptr<CellSailDescriptor> pSelf, bool autoSelection)
{
	cellSail.Warning("cellSailDescriptorSetAutoSelection(pSelf_addr=0x%x, autoSelection=%s)", pSelf.addr(), autoSelection ? "true" : "false");

	if (pSelf) {
		pSelf->autoSelection = autoSelection;
		return autoSelection;
	}

	return CELL_OK;
}
Exemplo n.º 12
0
s32 cellSailMemAllocatorInitialize(vm::ptr<CellSailMemAllocator> pSelf, vm::ptr<CellSailMemAllocatorFuncs> pCallbacks)
{
	cellSail.Warning("cellSailMemAllocatorInitialize(pSelf_addr=0x%x, pCallbacks_addr=0x%x)", pSelf.addr(), pCallbacks.addr());

	pSelf->callbacks = pCallbacks;
	// TODO: Create a cellSail thread

	return CELL_OK;
}
Exemplo n.º 13
0
int cellMsgDialogOpen2(u32 type, vm::ptr<const char> msgString, vm::ptr<CellMsgDialogCallback> callback, u32 userData, u32 extParam)
{
	cellSysutil->Warning("cellMsgDialogOpen2(type=0x%x, msgString_addr=0x%x, callback_addr=0x%x, userData=0x%x, extParam=0x%x)",
		type, msgString.addr(), callback.addr(), userData, extParam);
	
	//type |= CELL_MSGDIALOG_TYPE_PROGRESSBAR_SINGLE | CELL_MSGDIALOG_TYPE_BG_INVISIBLE;
	//type |= CELL_MSGDIALOG_TYPE_BUTTON_TYPE_YESNO | CELL_MSGDIALOG_TYPE_DEFAULT_CURSOR_NO;

	MsgDialogState old = msgDialogNone;
	if (!g_msg_dialog_state.compare_exchange_strong(old, msgDialogOpen))
	{
		return CELL_SYSUTIL_ERROR_BUSY;
	}

	g_msg_dialog_wait_until = get_system_time() + 31536000000000ull; // some big value

	switch (type & CELL_MSGDIALOG_TYPE_PROGRESSBAR)
	{
	case CELL_MSGDIALOG_TYPE_PROGRESSBAR_DOUBLE: g_msg_dialog_progress_bar_count = 2; break;
	case CELL_MSGDIALOG_TYPE_PROGRESSBAR_SINGLE: g_msg_dialog_progress_bar_count = 1; break;
	default: g_msg_dialog_progress_bar_count = 0; break; // ???
	}

	std::string msg = msgString.get_ptr();

	thread t("MsgDialog thread", [type, msg, callback, userData, extParam]()
	{
		switch (type & CELL_MSGDIALOG_TYPE_SE_TYPE)
		{
		case CELL_MSGDIALOG_TYPE_SE_TYPE_NORMAL: LOG_WARNING(TTY, "%s", msg.c_str()); break;
		case CELL_MSGDIALOG_TYPE_SE_TYPE_ERROR: LOG_ERROR(TTY, "%s", msg.c_str()); break;
		}

		switch (type & CELL_MSGDIALOG_TYPE_SE_MUTE) // TODO
		{
		case CELL_MSGDIALOG_TYPE_SE_MUTE_OFF: break;
		case CELL_MSGDIALOG_TYPE_SE_MUTE_ON: break;
		}

		g_msg_dialog_status = CELL_MSGDIALOG_BUTTON_NONE;

		volatile bool m_signal = false;
		CallAfter([type, msg, &m_signal]()
		{
			if (Emu.IsStopped()) return;

			MsgDialogCreate(type, msg.c_str(), g_msg_dialog_status);

			m_signal = true;
		});

		while (!m_signal)
		{
			if (Emu.IsStopped())
			{
				cellSysutil->Warning("MsgDialog thread aborted");
				return;
			}
			std::this_thread::sleep_for(std::chrono::milliseconds(1));
		}

		while (g_msg_dialog_state == msgDialogOpen || (s64)(get_system_time() - g_msg_dialog_wait_until) < 0)
		{
			if (Emu.IsStopped())
			{
				g_msg_dialog_state = msgDialogAbort;
				break;
			}
			std::this_thread::sleep_for(std::chrono::milliseconds(1));
		}

		if (callback && (g_msg_dialog_state != msgDialogAbort))
		{
			Emu.GetCallbackManager().Register([callback, userData]() -> s32
			{
				callback((s32)g_msg_dialog_status, userData);
				return CELL_OK;
			});
		}

		CallAfter([]()
		{
			MsgDialogDestroy();

			g_msg_dialog_state = msgDialogNone;
		});
	});
	t.detach();

	return CELL_OK;
}
Exemplo n.º 14
0
int cellMsgDialogOpenErrorCode(u32 errorCode, vm::ptr<CellMsgDialogCallback> callback, u32 userData, u32 extParam)
{
	cellSysutil->Warning("cellMsgDialogOpenErrorCode(errorCode=0x%x, callback_addr=0x%x, userData=0x%x, extParam=%d)",
		errorCode, callback.addr(), userData, extParam);

	std::string errorMessage;
	switch (errorCode)
	{
		// Generic errors
	case 0x80010001: errorMessage = "The resource is temporarily unavailable."; break;
	case 0x80010002: errorMessage = "Invalid argument or flag."; break;
	case 0x80010003: errorMessage = "The feature is not yet implemented."; break;
	case 0x80010004: errorMessage = "Memory allocation failed."; break;
	case 0x80010005: errorMessage = "The resource with the specified identifier does not exist."; break;
	case 0x80010006: errorMessage = "The file does not exist."; break;
	case 0x80010007: errorMessage = "The file is in unrecognized format / The file is not a valid ELF file."; break;
	case 0x80010008: errorMessage = "Resource deadlock is avoided."; break;
	case 0x80010009: errorMessage = "Operation not permitted."; break;
	case 0x8001000A: errorMessage = "The device or resource is bus."; break;
	case 0x8001000B: errorMessage = "The operation is timed ou."; break;
	case 0x8001000C: errorMessage = "The operation is aborte."; break;
	case 0x8001000D: errorMessage = "Invalid memory access."; break;
	case 0x8001000F: errorMessage = "State of the target thread is invalid."; break;
	case 0x80010010: errorMessage = "Alignment is invalid."; break;
	case 0x80010011: errorMessage = "Shortage of the kernel resources."; break;
	case 0x80010012: errorMessage = "The file is a directory."; break;
	case 0x80010013: errorMessage = "Operation canceled."; break;
	case 0x80010014: errorMessage = "Entry already exists."; break;
	case 0x80010015: errorMessage = "Port is already connected."; break;
	case 0x80010016: errorMessage = "Port is not connected."; break;
	case 0x80010017: errorMessage = "Failure in authorizing SELF. Program authentication fail."; break;
	case 0x80010018: errorMessage = "The file is not MSELF."; break;
	case 0x80010019: errorMessage = "System version error."; break;
	case 0x8001001A: errorMessage = "Fatal system error occurred while authorizing SELF. SELF auth failure."; break;
	case 0x8001001B: errorMessage = "Math domain violation."; break;
	case 0x8001001C: errorMessage = "Math range violation."; break;
	case 0x8001001D: errorMessage = "Illegal multi-byte sequence in input."; break;
	case 0x8001001E: errorMessage = "File position error."; break;
	case 0x8001001F: errorMessage = "Syscall was interrupted."; break;
	case 0x80010020: errorMessage = "File too large."; break;
	case 0x80010021: errorMessage = "Too many links."; break;
	case 0x80010022: errorMessage = "File table overflow."; break;
	case 0x80010023: errorMessage = "No space left on device."; break;
	case 0x80010024: errorMessage = "Not a TTY."; break;
	case 0x80010025: errorMessage = "Broken pipe."; break;
	case 0x80010026: errorMessage = "Read-only filesystem."; break;
	case 0x80010027: errorMessage = "Illegal seek."; break;
	case 0x80010028: errorMessage = "Arg list too long."; break;
	case 0x80010029: errorMessage = "Access violation."; break;
	case 0x8001002A: errorMessage = "Invalid file descriptor."; break;
	case 0x8001002B: errorMessage = "Filesystem mounting failed."; break;
	case 0x8001002C: errorMessage = "Too many files open."; break;
	case 0x8001002D: errorMessage = "No device."; break;
	case 0x8001002E: errorMessage = "Not a directory."; break;
	case 0x8001002F: errorMessage = "No such device or IO."; break;
	case 0x80010030: errorMessage = "Cross-device link error."; break;
	case 0x80010031: errorMessage = "Bad Message."; break;
	case 0x80010032: errorMessage = "In progress."; break;
	case 0x80010033: errorMessage = "Message size error."; break;
	case 0x80010034: errorMessage = "Name too long."; break;
	case 0x80010035: errorMessage = "No lock."; break;
	case 0x80010036: errorMessage = "Not empty."; break;
	case 0x80010037: errorMessage = "Not supported."; break;
	case 0x80010038: errorMessage = "File-system specific error."; break;
	case 0x80010039: errorMessage = "Overflow occured."; break;
	case 0x8001003A: errorMessage = "Filesystem not mounted."; break;
	case 0x8001003B: errorMessage = "Not SData."; break;
	case 0x8001003C: errorMessage = "Incorrect version in sys_load_param."; break;
	case 0x8001003D: errorMessage = "Pointer is null."; break;
	case 0x8001003E: errorMessage = "Pointer is null."; break;
	default: errorMessage = "An error has occurred."; break;
	}

	char errorCodeHex[12];
	sprintf(errorCodeHex, "\n(%08x)", errorCode);
	errorMessage.append(errorCodeHex);

	u64 status;
	int res = rMessageBox(errorMessage, "Error", rICON_ERROR | rOK);
	switch (res)
	{
	case rOK: status = CELL_MSGDIALOG_BUTTON_OK; break;
	default:
		if (res)
		{
			status = CELL_MSGDIALOG_BUTTON_INVALID;
			break;
		}

		status = CELL_MSGDIALOG_BUTTON_NONE;
		break;
	}

	if (callback)
		callback((s32)status, userData);

	return CELL_OK;
}
Exemplo n.º 15
0
s32 sys_event_flag_wait(u32 eflag_id, u64 bitptn, u32 mode, vm::ptr<u64> result, u64 timeout)
{
	sys_event_flag.Log("sys_event_flag_wait(eflag_id=%d, bitptn=0x%llx, mode=0x%x, result_addr=0x%x, timeout=%lld)",
		eflag_id, bitptn, mode, result.addr(), timeout);

	if (result) *result = 0;

	switch (mode & 0xf)
	{
	case SYS_EVENT_FLAG_WAIT_AND: break;
	case SYS_EVENT_FLAG_WAIT_OR: break;
	default: return CELL_EINVAL;
	}

	switch (mode & ~0xf)
	{
	case 0: break; // ???
	case SYS_EVENT_FLAG_WAIT_CLEAR: break;
	case SYS_EVENT_FLAG_WAIT_CLEAR_ALL: break;
	default: return CELL_EINVAL;
	}

	EventFlag* ef;
	if (!sys_event_flag.CheckId(eflag_id, ef)) return CELL_ESRCH;

	const u32 tid = GetCurrentPPUThread().GetId();

	{
		ef->m_mutex.lock(tid);
		if (ef->m_type == SYS_SYNC_WAITER_SINGLE && ef->waiters.size() > 0)
		{
			ef->m_mutex.unlock(tid);
			return CELL_EPERM;
		}
		EventFlagWaiter rec;
		rec.bitptn = bitptn;
		rec.mode = mode;
		rec.tid = tid;
		ef->waiters.push_back(rec);

		if (ef->check() == tid)
		{
			u64 flags = ef->flags;

			ef->waiters.erase(ef->waiters.end() - 1);

			if (mode & SYS_EVENT_FLAG_WAIT_CLEAR)
			{
				ef->flags &= ~bitptn;
			}
			else if (mode & SYS_EVENT_FLAG_WAIT_CLEAR_ALL)
			{
				ef->flags = 0;
			}

			if (result) *result = flags;

			ef->m_mutex.unlock(tid);
			return CELL_OK;
		}
		ef->m_mutex.unlock(tid);
	}

	u64 counter = 0;
	const u64 max_counter = timeout ? (timeout / 1000) : ~0;

	while (true)
	{
		if (ef->signal.unlock(tid, tid) == SMR_OK)
		{
			ef->m_mutex.lock(tid);
			u64 flags = ef->flags;

			for (u32 i = 0; i < ef->waiters.size(); i++)
			{
				if (ef->waiters[i].tid == tid)
				{
					ef->waiters.erase(ef->waiters.begin() + i);

					if (mode & SYS_EVENT_FLAG_WAIT_CLEAR)
					{
						ef->flags &= ~bitptn;
					}
					else if (mode & SYS_EVENT_FLAG_WAIT_CLEAR_ALL)
					{
						ef->flags = 0;
					}

					if (u32 target = ef->check())
					{
						// if signal, leave both mutexes locked...
						ef->signal.unlock(tid, target);
						ef->m_mutex.unlock(tid, target);
					}
					else
					{
						ef->signal.unlock(tid);
					}

					if (result) *result = flags;

					ef->m_mutex.unlock(tid);
					return CELL_OK;
				}
			}

			ef->signal.unlock(tid);
			ef->m_mutex.unlock(tid);
			return CELL_ECANCELED;
		}

		std::this_thread::sleep_for(std::chrono::milliseconds(1));

		if (counter++ > max_counter)
		{
			ef->m_mutex.lock(tid);

			for (u32 i = 0; i < ef->waiters.size(); i++)
			{
				if (ef->waiters[i].tid == tid)
				{
					ef->waiters.erase(ef->waiters.begin() + i);
					break;
				}
			}

			ef->m_mutex.unlock(tid);
			return CELL_ETIMEDOUT;
		}
		if (Emu.IsStopped())
		{
			sys_event_flag.Warning("sys_event_flag_wait(id=%d) aborted", eflag_id);
			return CELL_OK;
		}
	}
}
Exemplo n.º 16
0
s32 cellSailPlayerGetRepeatMode(vm::ptr<CellSailPlayer> pSelf, vm::ptr<CellSailStartCommand> pCommand)
{
	cellSail.Warning("cellSailPlayerGetRepeatMode(pSelf_addr=0x%x, pCommand_addr=0x%x)", pSelf.addr(), pCommand.addr());

	pCommand = pSelf->playbackCommand;

	return pSelf->repeatMode;
}
Exemplo n.º 17
0
int cellVpostExec(u32 handle, vm::ptr<const u8> inPicBuff, vm::ptr<const CellVpostCtrlParam> ctrlParam,
				  vm::ptr<u8> outPicBuff, vm::ptr<CellVpostPictureInfo> picInfo)
{
	cellVpost->Log("cellVpostExec(handle=0x%x, inPicBuff_addr=0x%x, ctrlParam_addr=0x%x, outPicBuff_addr=0x%x, picInfo_addr=0x%x)",
		handle, inPicBuff.addr(), ctrlParam.addr(), outPicBuff.addr(), picInfo.addr());

	VpostInstance* vpost;
	if (!Emu.GetIdManager().GetIDData(handle, vpost))
	{
		return CELL_VPOST_ERROR_E_ARG_HDL_INVALID;
	}

	s32 w = ctrlParam->inWidth;
	u32 h = ctrlParam->inHeight;
	u32 ow = ctrlParam->outWidth;
	u32 oh = ctrlParam->outHeight;

	ctrlParam->inWindow; // ignored
	if (ctrlParam->inWindow.x) cellVpost->Notice("*** inWindow.x = %d", (u32)ctrlParam->inWindow.x);
	if (ctrlParam->inWindow.y) cellVpost->Notice("*** inWindow.y = %d", (u32)ctrlParam->inWindow.y);
	if (ctrlParam->inWindow.width != w) cellVpost->Notice("*** inWindow.width = %d", (u32)ctrlParam->inWindow.width);
	if (ctrlParam->inWindow.height != h) cellVpost->Notice("*** inWindow.height = %d", (u32)ctrlParam->inWindow.height);
	ctrlParam->outWindow; // ignored
	if (ctrlParam->outWindow.x) cellVpost->Notice("*** outWindow.x = %d", (u32)ctrlParam->outWindow.x);
	if (ctrlParam->outWindow.y) cellVpost->Notice("*** outWindow.y = %d", (u32)ctrlParam->outWindow.y);
	if (ctrlParam->outWindow.width != ow) cellVpost->Notice("*** outWindow.width = %d", (u32)ctrlParam->outWindow.width);
	if (ctrlParam->outWindow.height != oh) cellVpost->Notice("*** outWindow.height = %d", (u32)ctrlParam->outWindow.height);
	ctrlParam->execType; // ignored
	ctrlParam->scalerType; // ignored
	ctrlParam->ipcType; // ignored

	picInfo->inWidth = w; // copy
	picInfo->inHeight = h; // copy
	picInfo->inDepth = CELL_VPOST_PIC_DEPTH_8; // fixed
	picInfo->inScanType = CELL_VPOST_SCAN_TYPE_P; // TODO
	picInfo->inPicFmt = CELL_VPOST_PIC_FMT_IN_YUV420_PLANAR; // fixed
	picInfo->inChromaPosType = ctrlParam->inChromaPosType; // copy
	picInfo->inPicStruct = CELL_VPOST_PIC_STRUCT_PFRM; // TODO
	picInfo->inQuantRange = ctrlParam->inQuantRange; // copy
	picInfo->inColorMatrix = ctrlParam->inColorMatrix; // copy

	picInfo->outWidth = ow; // copy
	picInfo->outHeight = oh; // copy
	picInfo->outDepth = CELL_VPOST_PIC_DEPTH_8; // fixed
	picInfo->outScanType = CELL_VPOST_SCAN_TYPE_P; // TODO
	picInfo->outPicFmt = CELL_VPOST_PIC_FMT_OUT_RGBA_ILV; // TODO
	picInfo->outChromaPosType = ctrlParam->inChromaPosType; // ignored
	picInfo->outPicStruct = picInfo->inPicStruct; // ignored
	picInfo->outQuantRange = ctrlParam->inQuantRange; // ignored
	picInfo->outColorMatrix = ctrlParam->inColorMatrix; // ignored

	picInfo->userData = ctrlParam->userData; // copy
	picInfo->reserved1 = 0;
	picInfo->reserved2 = 0;

	//u64 stamp0 = get_system_time();
	std::unique_ptr<u8[]> pA(new u8[w*h]);

	memset(pA.get(), (const u8)ctrlParam->outAlpha, w*h);

	//u64 stamp1 = get_system_time();

	SwsContext* sws = sws_getContext(w, h, AV_PIX_FMT_YUVA420P, ow, oh, AV_PIX_FMT_RGBA, SWS_BILINEAR, NULL, NULL, NULL);

	//u64 stamp2 = get_system_time();

	const u8* in_data[4] = { &inPicBuff[0], &inPicBuff[w * h], &inPicBuff[w * h * 5 / 4], pA.get() };
	int in_line[4] = { w, w/2, w/2, w };
	u8* out_data[4] = { outPicBuff.get_ptr(), NULL, NULL, NULL };
	int out_line[4] = { static_cast<int>(ow*4), 0, 0, 0 };

	sws_scale(sws, in_data, in_line, 0, h, out_data, out_line);

	//u64 stamp3 = get_system_time();

	sws_freeContext(sws);

	//ConLog.Write("cellVpostExec() perf (access=%d, getContext=%d, scale=%d, finalize=%d)",
		//stamp1 - stamp0, stamp2 - stamp1, stamp3 - stamp2, get_system_time() - stamp3);
	return CELL_OK;
}
Exemplo n.º 18
0
s32 sys_fs_open(vm::ptr<const char> path, s32 flags, vm::ptr<u32> fd, s32 mode, vm::ptr<const void> arg, u64 size)
{
	sys_fs.Warning("sys_fs_open(path=*0x%x, flags=%#o, fd=*0x%x, mode=%#o, arg=*0x%x, size=0x%llx)", path, flags, fd, mode, arg, size);
	sys_fs.Warning("*** path = '%s'", path.get_ptr());

	if (!path[0])
	{
		sys_fs.Error("sys_fs_open('%s') failed: path is invalid", path.get_ptr());
		return CELL_FS_EINVAL;
	}

	std::string local_path;

	const auto device = Emu.GetVFS().GetDevice(path.get_ptr(), local_path);

	if (!device)
	{
		sys_fs.Error("sys_fs_open('%s') failed: device not mounted", path.get_ptr());
		return CELL_FS_ENOTMOUNTED;
	}

	// TODO: other checks for path

	if (fs::is_dir(local_path))
	{
		sys_fs.Error("sys_fs_open('%s') failed: path is a directory", path.get_ptr());
		return CELL_FS_EISDIR;
	}

	u32 open_mode = 0;

	switch (flags & CELL_FS_O_ACCMODE)
	{
	case CELL_FS_O_RDONLY: open_mode |= o_read; break;
	case CELL_FS_O_WRONLY: open_mode |= o_write; break;
	case CELL_FS_O_RDWR: open_mode |= o_read | o_write; break;
	}

	if (flags & CELL_FS_O_CREAT)
	{
		open_mode |= o_create;
	}

	if (flags & CELL_FS_O_TRUNC)
	{
		open_mode |= o_trunc;
	}

	if (flags & CELL_FS_O_EXCL)
	{
		if (flags & CELL_FS_O_CREAT)
		{
			open_mode |= o_excl;
		}
		else
		{
			open_mode = 0; // error
		}
	}

	if (flags & ~(CELL_FS_O_ACCMODE | CELL_FS_O_CREAT | CELL_FS_O_TRUNC | CELL_FS_O_EXCL))
	{
		open_mode = 0; // error
	}

	if ((flags & CELL_FS_O_ACCMODE) == CELL_FS_O_ACCMODE)
	{
		open_mode = 0; // error
	}

	if (!open_mode)
	{
		sys_fs.Fatal("sys_fs_open('%s'): invalid or unimplemented flags (%#o)", path.get_ptr(), flags);
	}

	std::shared_ptr<vfsStream> file(Emu.GetVFS().OpenFile(path.get_ptr(), open_mode));

	if (!file || !file->IsOpened())
	{
		sys_fs.Error("sys_fs_open('%s'): failed to open file (flags=%#o, mode=%#o)", path.get_ptr(), flags, mode);

		if (open_mode & o_excl)
		{
			return CELL_FS_EEXIST; // approximation
		}

		return CELL_FS_ENOENT;
	}
	
	*fd = Emu.GetIdManager().make<lv2_file_t>(file, mode, flags);

	return CELL_OK;
}
Exemplo n.º 19
0
s32 cellVdecGetPicItem(u32 handle, vm::pptr<CellVdecPicItem> picItem)
{
	cellVdec.trace("cellVdecGetPicItem(handle=0x%x, picItem=**0x%x)", handle, picItem);

	const auto vdec = idm::get<VideoDecoder>(handle);

	if (!vdec)
	{
		return CELL_VDEC_ERROR_ARG;
	}

	VdecFrame vf;
	if (!vdec->frames.try_peek(vf))
	{
		//std::this_thread::sleep_for(std::chrono::milliseconds(1)); // hack
		return CELL_VDEC_ERROR_EMPTY;
	}

	AVFrame& frame = *vf.data;

	const vm::ptr<CellVdecPicItem> info{ vdec->memAddr + vdec->memBias, vm::addr };

	vdec->memBias += 512;
	if (vdec->memBias + 512 > vdec->memSize)
	{
		vdec->memBias = 0;
	}

	info->codecType = vdec->type;
	info->startAddr = 0x00000123; // invalid value (no address for picture)
	info->size = align(av_image_get_buffer_size(vdec->ctx->pix_fmt, vdec->ctx->width, vdec->ctx->height, 1), 128);
	info->auNum = 1;
	info->auPts[0].lower = (u32)(vf.pts);
	info->auPts[0].upper = (u32)(vf.pts >> 32);
	info->auPts[1].lower = (u32)CODEC_TS_INVALID;
	info->auPts[1].upper = (u32)CODEC_TS_INVALID;
	info->auDts[0].lower = (u32)(vf.dts);
	info->auDts[0].upper = (u32)(vf.dts >> 32);
	info->auDts[1].lower = (u32)CODEC_TS_INVALID;
	info->auDts[1].upper = (u32)CODEC_TS_INVALID;
	info->auUserData[0] = vf.userdata;
	info->auUserData[1] = 0;
	info->status = CELL_OK;
	info->attr = CELL_VDEC_PICITEM_ATTR_NORMAL;
	info->picInfo_addr = info.addr() + SIZE_32(CellVdecPicItem);

	if (vdec->type == CELL_VDEC_CODEC_TYPE_AVC)
	{
		const vm::ptr<CellVdecAvcInfo> avc{ info.addr() + SIZE_32(CellVdecPicItem), vm::addr };

		avc->horizontalSize = frame.width;
		avc->verticalSize = frame.height;
		switch (frame.pict_type)
		{
		case AV_PICTURE_TYPE_I: avc->pictureType[0] = CELL_VDEC_AVC_PCT_I; break;
		case AV_PICTURE_TYPE_P: avc->pictureType[0] = CELL_VDEC_AVC_PCT_P; break;
		case AV_PICTURE_TYPE_B: avc->pictureType[0] = CELL_VDEC_AVC_PCT_B; break;
		default: cellVdec.error("cellVdecGetPicItem(AVC): unknown pict_type value (0x%x)", frame.pict_type);
		}
		avc->pictureType[1] = CELL_VDEC_AVC_PCT_UNKNOWN; // ???
		avc->idrPictureFlag = false; // ???
		avc->aspect_ratio_idc = CELL_VDEC_AVC_ARI_SAR_UNSPECIFIED; // ???
		avc->sar_height = 0;
		avc->sar_width = 0;
		avc->pic_struct = CELL_VDEC_AVC_PSTR_FRAME; // ???
		avc->picOrderCount[0] = 0; // ???
		avc->picOrderCount[1] = 0;
		avc->vui_parameters_present_flag = true; // ???
		avc->frame_mbs_only_flag = true; // ??? progressive
		avc->video_signal_type_present_flag = true; // ???
		avc->video_format = CELL_VDEC_AVC_VF_COMPONENT; // ???
		avc->video_full_range_flag = false; // ???
		avc->colour_description_present_flag = true;
		avc->colour_primaries = CELL_VDEC_AVC_CP_ITU_R_BT_709_5; // ???
		avc->transfer_characteristics = CELL_VDEC_AVC_TC_ITU_R_BT_709_5;
		avc->matrix_coefficients = CELL_VDEC_AVC_MXC_ITU_R_BT_709_5; // important
		avc->timing_info_present_flag = true;
		
		switch (vf.frc)
		{
		case CELL_VDEC_FRC_24000DIV1001: avc->frameRateCode = CELL_VDEC_AVC_FRC_24000DIV1001; break;
		case CELL_VDEC_FRC_24: avc->frameRateCode = CELL_VDEC_AVC_FRC_24; break;
		case CELL_VDEC_FRC_25: avc->frameRateCode = CELL_VDEC_AVC_FRC_25; break;
		case CELL_VDEC_FRC_30000DIV1001: avc->frameRateCode = CELL_VDEC_AVC_FRC_30000DIV1001; break;
		case CELL_VDEC_FRC_30: avc->frameRateCode = CELL_VDEC_AVC_FRC_30; break;
		case CELL_VDEC_FRC_50: avc->frameRateCode = CELL_VDEC_AVC_FRC_50; break;
		case CELL_VDEC_FRC_60000DIV1001: avc->frameRateCode = CELL_VDEC_AVC_FRC_60000DIV1001; break;
		case CELL_VDEC_FRC_60: avc->frameRateCode = CELL_VDEC_AVC_FRC_60; break;
		default: cellVdec.error("cellVdecGetPicItem(AVC): unknown frc value (0x%x)", vf.frc);
		}

		avc->fixed_frame_rate_flag = true;
		avc->low_delay_hrd_flag = true; // ???
		avc->entropy_coding_mode_flag = true; // ???
		avc->nalUnitPresentFlags = 0; // ???
		avc->ccDataLength[0] = 0;
		avc->ccDataLength[1] = 0;
		avc->reserved[0] = 0;
		avc->reserved[1] = 0;
	}
	else if (vdec->type == CELL_VDEC_CODEC_TYPE_DIVX)
	{
		auto dvx = vm::ptr<CellVdecDivxInfo>::make(info.addr() + SIZE_32(CellVdecPicItem));

		switch (frame.pict_type)
		{
		case AV_PICTURE_TYPE_I: dvx->pictureType = CELL_VDEC_DIVX_VCT_I; break;
		case AV_PICTURE_TYPE_P: dvx->pictureType = CELL_VDEC_DIVX_VCT_P; break;
		case AV_PICTURE_TYPE_B: dvx->pictureType = CELL_VDEC_DIVX_VCT_B; break;
		default: cellVdec.error("cellVdecGetPicItem(DivX): unknown pict_type value (0x%x)", frame.pict_type);
		}
		dvx->horizontalSize = frame.width;
		dvx->verticalSize = frame.height;
		dvx->pixelAspectRatio = CELL_VDEC_DIVX_ARI_PAR_1_1; // ???
		dvx->parHeight = 0;
		dvx->parWidth = 0;
		dvx->colourDescription = false; // ???
		dvx->colourPrimaries = CELL_VDEC_DIVX_CP_ITU_R_BT_709; // ???
		dvx->transferCharacteristics = CELL_VDEC_DIVX_TC_ITU_R_BT_709; // ???
		dvx->matrixCoefficients = CELL_VDEC_DIVX_MXC_ITU_R_BT_709; // ???
		dvx->pictureStruct = CELL_VDEC_DIVX_PSTR_FRAME; // ???
		switch (vf.frc)
		{
		case CELL_VDEC_FRC_24000DIV1001: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_24000DIV1001; break;
		case CELL_VDEC_FRC_24: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_24; break;
		case CELL_VDEC_FRC_25: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_25; break;
		case CELL_VDEC_FRC_30000DIV1001: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_30000DIV1001; break;
		case CELL_VDEC_FRC_30: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_30; break;
		case CELL_VDEC_FRC_50: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_50; break;
		case CELL_VDEC_FRC_60000DIV1001: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_60000DIV1001; break;
		case CELL_VDEC_FRC_60: dvx->frameRateCode = CELL_VDEC_DIVX_FRC_60; break;
		default: cellVdec.error("cellVdecGetPicItem(DivX): unknown frc value (0x%x)", vf.frc);
		}
	}
	else if (vdec->type == CELL_VDEC_CODEC_TYPE_MPEG2)
	{
		auto mp2 = vm::ptr<CellVdecMpeg2Info>::make(info.addr() + SIZE_32(CellVdecPicItem));

		throw EXCEPTION("MPEG2");
	}

	*picItem = info;
	return CELL_OK;
}
Exemplo n.º 20
0
s32 sys_lwcond_wait(vm::ptr<sys_lwcond_t> lwcond, u64 timeout)
{
	sys_lwcond.Log("sys_lwcond_wait(lwcond_addr=0x%x, timeout=%lld)", lwcond.addr(), timeout);

	Lwcond* lw;
	if (!Emu.GetIdManager().GetIDData((u32)lwcond->lwcond_queue, lw))
	{
		return CELL_ESRCH;
	}

	auto mutex = vm::ptr<sys_lwmutex_t>::make(lwcond->lwmutex.addr());
	u32 tid_le = GetCurrentPPUThread().GetId();
	be_t<u32> tid = be_t<u32>::make(tid_le);

	SleepQueue* sq = nullptr;
	Emu.GetIdManager().GetIDData((u32)mutex->sleep_queue, sq);

	if (mutex->mutex.GetOwner() != tid)
	{
		sys_lwcond.Warning("sys_lwcond_wait(id=%d) failed (EPERM)", (u32)lwcond->lwcond_queue);
		return CELL_EPERM; // caller must own this lwmutex
	}

	lw->m_queue.push(tid_le);

	if (mutex->recursive_count.ToBE() != se32(1))
	{
		sys_lwcond.Warning("sys_lwcond_wait(id=%d): associated mutex had wrong recursive value (%d)",
			(u32)lwcond->lwcond_queue, (u32)mutex->recursive_count);
	}
	mutex->recursive_count = 0;

	if (sq)
	{
		mutex->mutex.unlock(tid, be_t<u32>::make(mutex->attribute.ToBE() == se32(SYS_SYNC_PRIORITY) ? sq->pop_prio() : sq->pop()));
	}
	else if (mutex->attribute.ToBE() == se32(SYS_SYNC_RETRY))
	{
		mutex->mutex.unlock(tid); // SYS_SYNC_RETRY
	}
	else
	{
		sys_lwcond.Warning("sys_lwcond_wait(id=%d): associated mutex had invalid sleep queue (%d)",
			(u32)lwcond->lwcond_queue, (u32)mutex->sleep_queue);
	}

	u64 counter = 0;
	const u64 max_counter = timeout ? (timeout / 1000) : ~0;

	while (true)
	{
		if (lw->signal.unlock(tid, tid) == SMR_OK)
		{
			switch (mutex->lock(tid, 0))
			{
			case CELL_OK: break;
			case static_cast<int>(CELL_EDEADLK): sys_lwcond.Warning("sys_lwcond_wait(id=%d): associated mutex was locked",
								   (u32)lwcond->lwcond_queue); return CELL_OK;
			case static_cast<int>(CELL_ESRCH): sys_lwcond.Warning("sys_lwcond_wait(id=%d): associated mutex not found (%d)",
								 (u32)lwcond->lwcond_queue, (u32)mutex->sleep_queue); return CELL_ESRCH;
			case static_cast<int>(CELL_EINVAL): goto abort;
			}

			mutex->recursive_count = 1;
			lw->signal.unlock(tid);
			return CELL_OK;
		}

		std::this_thread::sleep_for(std::chrono::milliseconds(1));

		if (counter++ > max_counter)
		{
			lw->m_queue.invalidate(tid_le);
			return CELL_ETIMEDOUT;
		}
		if (Emu.IsStopped())
		{
			goto abort;
		}
	}

abort:
	sys_lwcond.Warning("sys_lwcond_wait(id=%d) aborted", (u32)lwcond->lwcond_queue);
	return CELL_OK;
}
Exemplo n.º 21
0
s64 cellSpursAttributeSetSpuThreadGroupType(vm::ptr<CellSpursAttribute> attr, s32 type)
{
	cellSpurs->Warning("cellSpursAttributeSetSpuThreadGroupType(attr_addr=0x%x, type=%d)", attr.addr(), type);

#ifdef PRX_DEBUG
	return GetCurrentPPUThread().FastCall2(libsre + 0x70C8, libsre_rtoc);
#else
	attr->attr->_setSpuThreadGroupType(type);

	return CELL_OK;
#endif
}
Exemplo n.º 22
0
s32 cellSurMixerCreate(vm::cptr<CellSurMixerConfig> config)
{
	libmixer.Warning("cellSurMixerCreate(config=*0x%x)", config);

	g_surmx.audio_port = g_audio.open_port();

	if (!~g_surmx.audio_port)
	{
		return CELL_LIBMIXER_ERROR_FULL;
	}

	g_surmx.priority = config->priority;
	g_surmx.ch_strips_1 = config->chStrips1;
	g_surmx.ch_strips_2 = config->chStrips2;
	g_surmx.ch_strips_6 = config->chStrips6;
	g_surmx.ch_strips_8 = config->chStrips8;

	AudioPortConfig& port = g_audio.ports[g_surmx.audio_port];

	port.channel = 8;
	port.block = 16;
	port.attr = 0;
	port.addr = g_audio.buffer + AUDIO_PORT_OFFSET * g_surmx.audio_port;
	port.read_index_addr = g_audio.indexes + sizeof(u64) * g_surmx.audio_port;
	port.size = port.channel * port.block * AUDIO_SAMPLES * sizeof(float);
	port.tag = 0;
	port.level = 1.0f;
	port.level_set.data = { 1.0f, 0.0f };

	libmixer.Warning("*** audio port opened (port=%d)", g_surmx.audio_port);

	mixcount = 0;
	surMixerCb.set(0);

	libmixer.Warning("*** surMixer created (ch1=%d, ch2=%d, ch6=%d, ch8=%d)", config->chStrips1, config->chStrips2, config->chStrips6, config->chStrips8);

	auto ppu = Emu.GetIdManager().make_ptr<PPUThread>("Surmixer Thread");
	ppu->prio = 1001;
	ppu->stack_size = 0x10000;
	ppu->custom_task = [](PPUThread& CPU)
	{
		AudioPortConfig& port = g_audio.ports[g_surmx.audio_port];

		while (port.state.load() != AUDIO_PORT_STATE_CLOSED && !Emu.IsStopped())
		{
			if (mixcount > (port.tag + 0)) // adding positive value (1-15): preemptive buffer filling (hack)
			{
				std::this_thread::sleep_for(std::chrono::milliseconds(1)); // hack
				continue;
			}

			if (port.state.load() == AUDIO_PORT_STATE_STARTED)
			{
				//u64 stamp0 = get_system_time();

				memset(mixdata, 0, sizeof(mixdata));
				if (surMixerCb)
				{
					surMixerCb(CPU, surMixerCbArg, (u32)mixcount, 256);
				}

				//u64 stamp1 = get_system_time();

				{
					std::lock_guard<std::mutex> lock(mixer_mutex);

					for (auto& p : ssp) if (p.m_active && p.m_created)
					{
						auto v = vm::ptrl<s16>::make(p.m_addr); // 16-bit LE audio data
						float left = 0.0f;
						float right = 0.0f;
						float speed = fabs(p.m_speed);
						float fpos = 0.0f;
						for (s32 i = 0; i < 256; i++) if (p.m_active)
						{
							u32 pos = p.m_position;
							s32 pos_inc = 0;
							if (p.m_speed > 0.0f) // select direction
							{
								pos_inc = 1;
							}
							else if (p.m_speed < 0.0f)
							{
								pos_inc = -1;
							}
							s32 shift = i - (int)fpos; // change playback speed (simple and rough)
							if (shift > 0)
							{
								// slow playback
								pos_inc = 0; // duplicate one sample at this time
								fpos += 1.0f;
								fpos += speed;
							}
							else if (shift < 0)
							{
								// fast playback
								i--; // mix two sample into one at this time
								fpos -= 1.0f;
							}
							else
							{
								fpos += speed;
							}
							p.m_position += (u32)pos_inc;
							if (p.m_channels == 1) // get mono data
							{
								left = right = (float)v[pos] / 0x8000 * p.m_level;
							}
							else if (p.m_channels == 2) // get stereo data
							{
								left = (float)v[pos * 2 + 0] / 0x8000 * p.m_level;
								right = (float)v[pos * 2 + 1] / 0x8000 * p.m_level;
							}
							if (p.m_connected) // mix
							{
								// TODO: m_x, m_y, m_z ignored
								mixdata[i * 8 + 0] += left;
								mixdata[i * 8 + 1] += right;
							}
							if ((p.m_position == p.m_samples && p.m_speed > 0.0f) ||
								(p.m_position == ~0 && p.m_speed < 0.0f)) // loop or stop
							{
								if (p.m_loop_mode == CELL_SSPLAYER_LOOP_ON)
								{
									p.m_position = p.m_loop_start;
								}
								else if (p.m_loop_mode == CELL_SSPLAYER_ONESHOT_CONT)
								{
									p.m_position -= (u32)pos_inc; // restore position
								}
								else // oneshot
								{
									p.m_active = false;
									p.m_position = p.m_loop_start; // TODO: check value
								}
							}
						}
					}
				}

				//u64 stamp2 = get_system_time();

				auto buf = vm::get_ptr<be_t<float>>(port.addr + (mixcount % port.block) * port.channel * AUDIO_SAMPLES * sizeof(float));

				for (u32 i = 0; i < (sizeof(mixdata) / sizeof(float)); i++)
				{
					// reverse byte order
					buf[i] = mixdata[i];
				}

				//u64 stamp3 = get_system_time();

				//ConLog.Write("Libmixer perf: start=%lld (cb=%lld, ssp=%lld, finalize=%lld)", stamp0 - m_config.start_time, stamp1 - stamp0, stamp2 - stamp1, stamp3 - stamp2);
			}

			mixcount++;
		}

		{
			std::lock_guard<std::mutex> lock(mixer_mutex);
			ssp.clear();
		}
		
		surMixerCb.set(0);

		const u32 id = CPU.GetId();

		CallAfter([id]()
		{
			Emu.GetIdManager().remove<PPUThread>(id);
		});
	};

	return CELL_OK;
}
Exemplo n.º 23
0
s64 cellSpursInitialize(vm::ptr<CellSpurs> spurs, s32 nSpus, s32 spuPriority, s32 ppuPriority, bool exitIfNoWork)
{
	cellSpurs->Warning("cellSpursInitialize(spurs_addr=0x%x, nSpus=%d, spuPriority=%d, ppuPriority=%d, exitIfNoWork=%d)", spurs.addr(), nSpus, spuPriority, ppuPriority, exitIfNoWork);

#ifdef PRX_DEBUG
	return GetCurrentPPUThread().FastCall2(libsre + 0x8480, libsre_rtoc);
#else
	SPURSManagerAttribute *attr = new SPURSManagerAttribute(nSpus, spuPriority, ppuPriority, exitIfNoWork);
	spurs->spurs = new SPURSManager(attr);

	return CELL_OK;
#endif
}
Exemplo n.º 24
0
s32 sys_ppu_thread_join(u64 thread_id, vm::ptr<be_t<u64>> vptr)
{
	sys_ppu_thread.Warning("sys_ppu_thread_join(thread_id=%lld, vptr_addr=0x%x)", thread_id, vptr.addr());

	CPUThread* thr = Emu.GetCPU().GetThread(thread_id);
	if(!thr) return CELL_ESRCH;

	while (thr->IsAlive())
	{
		if (Emu.IsStopped())
		{
			sys_ppu_thread.Warning("sys_ppu_thread_join(%d) aborted", thread_id);
			return CELL_OK;
		}
		std::this_thread::sleep_for(std::chrono::milliseconds(1));
	}

	*vptr = thr->GetExitStatus();
	return CELL_OK;
}
Exemplo n.º 25
0
s64 cellSpursSetMaxContention(vm::ptr<CellSpurs> spurs, u32 workloadId, u32 maxContention)
{
#ifdef PRX_DEBUG
	cellSpurs->Warning("cellSpursSetMaxContention(spurs_addr=0x%x, workloadId=%d, maxContention=%d)", spurs.addr(), workloadId, maxContention);
	return GetCurrentPPUThread().FastCall2(libsre + 0x8E90, libsre_rtoc);
#else
	UNIMPLEMENTED_FUNC(cellSpurs);
	return CELL_OK;
#endif
}
Exemplo n.º 26
0
	void memcpy(vm::ptr<void> dst, vm::cptr<void> src, u32 size)
	{
		sceLibc.warning("memcpy(dst=*0x%x, src=*0x%x, size=0x%x)", dst, src, size);

		::memcpy(dst.get_ptr(), src.get_ptr(), size);
	}
Exemplo n.º 27
0
s64 cellSpursSetPreemptionVictimHints(vm::ptr<CellSpurs> spurs, vm::ptr<const bool> isPreemptible)
{
#ifdef PRX_DEBUG
	cellSpurs->Warning("cellSpursSetPreemptionVictimHints(spurs_addr=0x%x, isPreemptible_addr=0x%x)", spurs.addr(), isPreemptible.addr());
	return GetCurrentPPUThread().FastCall2(libsre + 0xF5A4, libsre_rtoc);
#else
	UNIMPLEMENTED_FUNC(cellSpurs);
	return CELL_OK;
#endif
}
Exemplo n.º 28
0
	void memset(vm::ptr<void> dst, s32 value, u32 size)
	{
		sceLibc.warning("memset(dst=*0x%x, value=%d, size=0x%x)", dst, value, size);

		::memset(dst.get_ptr(), value, size);
	}
Exemplo n.º 29
0
s64 cellSpursEventFlagWait(vm::ptr<CellSpursEventFlag> eventFlag, vm::ptr<be_t<u16>> mask, u32 mode)
{
#ifdef PRX_DEBUG
	cellSpurs->Warning("cellSpursEventFlagWait(eventFlag_addr=0x%x, mask_addr=0x%x, mode=%d)", eventFlag.addr(), mask.addr(), mode);
	return GetCurrentPPUThread().FastCall2(libsre + 0x15E68, libsre_rtoc);
#else
	UNIMPLEMENTED_FUNC(cellSpurs);
	return CELL_OK;
#endif
}
Exemplo n.º 30
0
	vm::ref<s32> get_h_errno()
	{
		initialize_tls();

		return g_tls_net_data.ref(&_tls_data_t::_h_errno);
	}