コード例 #1
0
ファイル: sys_spu.cpp プロジェクト: DreadIsBack/rpcs3
s32 sys_spu_image_open(vm::ptr<sys_spu_image_t> img, vm::cptr<char> path)
{
	sys_spu.warning("sys_spu_image_open(img=*0x%x, path=*0x%x)", img, path);

	const fs::file f(vfs::get(path.get_ptr()));
	if (!f)
	{
		sys_spu.error("sys_spu_image_open() error: '%s' not found!", path.get_ptr());
		return CELL_ENOENT;
	}

	SceHeader hdr;
	hdr.Load(f);

	if (hdr.CheckMagic())
	{
		throw fmt::exception("sys_spu_image_open() error: '%s' is encrypted! Try to decrypt it manually and try again.", path.get_ptr());
	}

	f.seek(0);

	u32 entry;
	u32 offset = LoadSpuImage(f, entry);

	img->type = SYS_SPU_IMAGE_TYPE_USER;
	img->entry_point = entry;
	img->segs.set(offset); // TODO: writing actual segment info
	img->nsegs = 1; // wrong value

	return CELL_OK;
}
コード例 #2
0
ファイル: sys_spu_.cpp プロジェクト: Klozz/rpcs3
s32 sys_raw_spu_load(s32 id, vm::cptr<char> path, vm::ptr<u32> entry)
{
	sysPrxForUser.warning("sys_raw_spu_load(id=%d, path=*0x%x, entry=*0x%x)", id, path, entry);
	sysPrxForUser.warning("*** path = '%s'", path.get_ptr());

	const fs::file f(vfs::get(path.get_ptr()));
	if (!f)
	{
		sysPrxForUser.error("sys_raw_spu_load() error: '%s' not found!", path.get_ptr());
		return CELL_ENOENT;
	}

	SceHeader hdr;
	hdr.Load(f);

	if (hdr.CheckMagic())
	{
		throw fmt::exception("sys_raw_spu_load() error: '%s' is encrypted! Try to decrypt it manually and try again.", path.get_ptr());
	}

	f.seek(0);

	u32 _entry;
	LoadSpuImage(f, _entry, RAW_SPU_BASE_ADDR + RAW_SPU_OFFSET * id);

	*entry = _entry | 1;

	return CELL_OK;
}
コード例 #3
0
ファイル: unself.cpp プロジェクト: AniLeo/rpcs3
extern bool verify_npdrm_self_headers(const fs::file& self, u8* klic_key)
{
	if (!self)
		return false;

	self.seek(0);

	if (self.size() >= 4 && self.read<u32>() == "SCE\0"_u32)
	{
		// Check the ELF file class (32 or 64 bit).
		bool isElf32 = IsSelfElf32(self);

		// Start the decrypter on this SELF file.
		SELFDecrypter self_dec(self);

		// Load the SELF file headers.
		if (!self_dec.LoadHeaders(isElf32))
		{
			LOG_ERROR(LOADER, "SELF: Failed to load SELF file headers!");
			return false;
		}

		// Load and decrypt the SELF file metadata.
		if (!self_dec.LoadMetadata(klic_key))
		{
			LOG_ERROR(LOADER, "SELF: Failed to load SELF file metadata!");
			return false;
		}
	}
	return true;
}
コード例 #4
0
ファイル: unself.cpp プロジェクト: AniLeo/rpcs3
static bool IsSelfElf32(const fs::file& f)
{
	if (!f) return false;

	f.seek(0);

	SceHeader hdr;
	SelfHeader sh;
	hdr.Load(f);
	sh.Load(f);

	// Locate the class byte and check it.
	u8 elf_class[0x8];

	f.seek(sh.se_elfoff);
	f.read(elf_class, 0x8);

	return (elf_class[4] == 1);
}
コード例 #5
0
ファイル: rpcs3.cpp プロジェクト: sergioengineer/rpcs3
void save_gui_cfg()
{
	YAML::Emitter out;
	out.SetSeqFormat(YAML::Flow);
	out << g_gui_cfg;

	// Save to file
	s_gui_cfg.seek(0);
	s_gui_cfg.trunc(0);
	s_gui_cfg.write(out.c_str(), out.size());
}
コード例 #6
0
ファイル: unself.cpp プロジェクト: AniLeo/rpcs3
static bool CheckDebugSelf(fs::file& s)
{
	if (s.size() < 0x18)
	{
		return false;
	}

	// Get the key version.
	s.seek(0x08);

	const u16 key_version = s.read<le_t<u16>>();

	// Check for DEBUG version.
	if (key_version == 0x80 || key_version == 0xc0)
	{
		LOG_WARNING(LOADER, "Debug SELF detected! Removing fake header...");

		// Get the real elf offset.
		s.seek(0x10);

		// Start at the real elf offset.
		s.seek(key_version == 0x80 ? +s.read<be_t<u64>>() : +s.read<le_t<u64>>());

		// Write the real ELF file back.
		fs::file e = fs::make_stream<std::vector<u8>>();

		// Copy the data.
		char buf[2048];
		while (u64 size = s.read(buf, 2048))
		{
			e.write(buf, size);
		}

		s = std::move(e);
		return true;
	}

	// Leave the file untouched.
	return false;
}
コード例 #7
0
ファイル: unself.cpp プロジェクト: AniLeo/rpcs3
extern fs::file decrypt_self(fs::file elf_or_self, u8* klic_key)
{
	if (!elf_or_self)
	{
		return fs::file{};
	}

	elf_or_self.seek(0);

	// Check SELF header first. Check for a debug SELF.
	if (elf_or_self.size() >= 4 && elf_or_self.read<u32>() == "SCE\0"_u32 && !CheckDebugSelf(elf_or_self))
	{
		// Check the ELF file class (32 or 64 bit).
		bool isElf32 = IsSelfElf32(elf_or_self);

		// Start the decrypter on this SELF file.
		SELFDecrypter self_dec(elf_or_self);

		// Load the SELF file headers.
		if (!self_dec.LoadHeaders(isElf32))
		{
			LOG_ERROR(LOADER, "SELF: Failed to load SELF file headers!");
			return fs::file{};
		}

		// Load and decrypt the SELF file metadata.
		if (!self_dec.LoadMetadata(klic_key))
		{
			LOG_ERROR(LOADER, "SELF: Failed to load SELF file metadata!");
			return fs::file{};
		}

		// Decrypt the SELF file data.
		if (!self_dec.DecryptData())
		{
			LOG_ERROR(LOADER, "SELF: Failed to decrypt SELF file data!");
			return fs::file{};
		}

		// Make a new ELF file from this SELF.
		return self_dec.MakeElf(isElf32);
	}

	return elf_or_self;
}
コード例 #8
0
ファイル: SettingsDialog.cpp プロジェクト: Zangetsu38/rpcs3
SettingsDialog::SettingsDialog(wxWindow* parent)
	: wxDialog(parent, wxID_ANY, "Settings", wxDefaultPosition)
{
	// Load default config
	loaded = YAML::Load(g_cfg_defaults);

	// Incrementally load config.yml
	const fs::file config(fs::get_config_dir() + "/config.yml", fs::read + fs::write + fs::create);
	loaded += YAML::Load(config.to_string());

	std::vector<std::unique_ptr<cfg_adapter>> pads;

	static const u32 width  = 458;
	static const u32 height = 400;

	// Settings panels
	wxNotebook* nb_config = new wxNotebook(this, wxID_ANY, wxPoint(6, 6), wxSize(width, height));
	wxPanel* p_system = new wxPanel(nb_config, wxID_ANY);
	wxPanel* p_core = new wxPanel(nb_config, wxID_ANY);
	wxPanel* p_graphics = new wxPanel(nb_config, wxID_ANY);
	wxPanel* p_audio = new wxPanel(nb_config, wxID_ANY);
	wxPanel* p_io = new wxPanel(nb_config, wxID_ANY);
	wxPanel* p_misc = new wxPanel(nb_config, wxID_ANY);
	wxPanel* p_networking = new wxPanel(nb_config, wxID_ANY);

	nb_config->AddPage(p_core, "Core");
	nb_config->AddPage(p_graphics, "Graphics");
	nb_config->AddPage(p_audio, "Audio");
	nb_config->AddPage(p_io, "Input / Output");
	nb_config->AddPage(p_misc, "Misc");
	nb_config->AddPage(p_networking, "Networking");
	nb_config->AddPage(p_system, "System");

	wxBoxSizer* s_subpanel_core = new wxBoxSizer(wxHORIZONTAL);
	wxBoxSizer* s_subpanel_core1 = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_core2 = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_graphics = new wxBoxSizer(wxHORIZONTAL);
	wxBoxSizer* s_subpanel_graphics1 = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_graphics2 = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_audio = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_io = new wxBoxSizer(wxHORIZONTAL);
	wxBoxSizer* s_subpanel_io1 = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_io2 = new wxBoxSizer(wxVERTICAL);

	wxBoxSizer* s_subpanel_system = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_misc = new wxBoxSizer(wxVERTICAL);
	wxBoxSizer* s_subpanel_networking = new wxBoxSizer(wxVERTICAL);

	// Core
	wxStaticBoxSizer* s_round_core_lle = new wxStaticBoxSizer(wxVERTICAL, p_core, "Load libraries");
	chbox_list_core_lle = new wxCheckListBox(p_core, wxID_ANY, wxDefaultPosition, wxDefaultSize, {}, wxLB_EXTENDED);
	chbox_list_core_lle->Bind(wxEVT_CHECKLISTBOX, &SettingsDialog::OnModuleListItemToggled, this);
	wxTextCtrl* s_module_search_box = new wxTextCtrl(p_core, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, {});
	s_module_search_box->Bind(wxEVT_TEXT, &SettingsDialog::OnSearchBoxTextChanged, this);

	// Graphics
	wxStaticBoxSizer* s_round_gs_render = new wxStaticBoxSizer(wxVERTICAL, p_graphics, "Rendering API");
	wxStaticBoxSizer* s_round_gs_d3d_adapter = new wxStaticBoxSizer(wxVERTICAL, p_graphics, "D3D Adapter");
	wxStaticBoxSizer* s_round_gs_res = new wxStaticBoxSizer(wxVERTICAL, p_graphics, "Resolution");
	wxStaticBoxSizer* s_round_gs_aspect = new wxStaticBoxSizer(wxVERTICAL, p_graphics, "Aspect ratio");
	wxStaticBoxSizer* s_round_gs_frame_limit = new wxStaticBoxSizer(wxVERTICAL, p_graphics, "Frame limit");

	// Input / Output
	wxStaticBoxSizer* s_round_io_pad_handler = new wxStaticBoxSizer(wxVERTICAL, p_io, "Controller handler");
	wxStaticBoxSizer* s_round_io_keyboard_handler = new wxStaticBoxSizer(wxVERTICAL, p_io, "Keyboard handler");
	wxStaticBoxSizer* s_round_io_mouse_handler = new wxStaticBoxSizer(wxVERTICAL, p_io, "Mouse handler");
	wxStaticBoxSizer* s_round_io_camera = new wxStaticBoxSizer(wxVERTICAL, p_io, "Camera");
	wxStaticBoxSizer* s_round_io_camera_type = new wxStaticBoxSizer(wxVERTICAL, p_io, "Camera type");

	// Audio
	wxStaticBoxSizer* s_round_audio_out = new wxStaticBoxSizer(wxVERTICAL, p_audio, "Audio out");

	// Networking
	wxStaticBoxSizer* s_round_net_status = new wxStaticBoxSizer(wxVERTICAL, p_networking, "Connection status");

	// System
	wxStaticBoxSizer* s_round_sys_lang = new wxStaticBoxSizer(wxVERTICAL, p_system, "Language");


	wxRadioBox* rbox_ppu_decoder;
	wxRadioBox* rbox_spu_decoder;
	wxComboBox* cbox_gs_render = new wxComboBox(p_graphics, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_gs_d3d_adapter = new wxComboBox(p_graphics, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_gs_resolution = new wxComboBox(p_graphics, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_gs_aspect = new wxComboBox(p_graphics, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_gs_frame_limit = new wxComboBox(p_graphics, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_pad_handler = new wxComboBox(p_io, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);;
	wxComboBox* cbox_keyboard_handler = new wxComboBox(p_io, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_mouse_handler = new wxComboBox(p_io, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_camera = new wxComboBox(p_io, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_camera_type = new wxComboBox(p_io, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_audio_out = new wxComboBox(p_audio, wxID_ANY, wxEmptyString, wxDefaultPosition, wxSize(150, -1), 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_net_status = new wxComboBox(p_networking, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, 0, NULL, wxCB_READONLY);
	wxComboBox* cbox_sys_lang = new wxComboBox(p_system, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, 0, NULL, wxCB_READONLY);

	wxCheckBox* chbox_core_hook_stfunc = new wxCheckBox(p_core, wxID_ANY, "Hook static functions");
	wxCheckBox* chbox_core_load_liblv2 = new wxCheckBox(p_core, wxID_ANY, "Load liblv2.sprx");
	wxCheckBox* chbox_vfs_enable_host_root = new wxCheckBox(p_system, wxID_ANY, "Enable /host_root/");
	wxCheckBox* chbox_gs_log_prog = new wxCheckBox(p_graphics, wxID_ANY, "Log shader programs");
	wxCheckBox* chbox_gs_dump_depth = new wxCheckBox(p_graphics, wxID_ANY, "Write depth buffer");
	wxCheckBox* chbox_gs_dump_color = new wxCheckBox(p_graphics, wxID_ANY, "Write color buffers");
	wxCheckBox* chbox_gs_read_color = new wxCheckBox(p_graphics, wxID_ANY, "Read color buffers");
	wxCheckBox* chbox_gs_read_depth = new wxCheckBox(p_graphics, wxID_ANY, "Read depth buffer");
	wxCheckBox* chbox_gs_vsync = new wxCheckBox(p_graphics, wxID_ANY, "VSync");
	wxCheckBox* chbox_gs_debug_output = new wxCheckBox(p_graphics, wxID_ANY, "Debug output");
	wxCheckBox* chbox_gs_overlay = new wxCheckBox(p_graphics, wxID_ANY, "Debug overlay");
	wxCheckBox* chbox_gs_gl_legacy_buffers = new wxCheckBox(p_graphics, wxID_ANY, "Use legacy OpenGL buffers");
	wxCheckBox* chbox_audio_dump = new wxCheckBox(p_audio, wxID_ANY, "Dump to file");
	wxCheckBox* chbox_audio_conv = new wxCheckBox(p_audio, wxID_ANY, "Convert to 16-bit");
	wxCheckBox* chbox_hle_exitonstop = new wxCheckBox(p_misc, wxID_ANY, "Exit RPCS3 when process finishes");
	wxCheckBox* chbox_hle_always_start = new wxCheckBox(p_misc, wxID_ANY, "Always start after boot");
	wxCheckBox* chbox_dbg_ap_systemcall = new wxCheckBox(p_misc, wxID_ANY, "Automatically pause at system call");
	wxCheckBox* chbox_dbg_ap_functioncall = new wxCheckBox(p_misc, wxID_ANY, "Automatically pause at function call");

	{
		// Sort string vector alphabetically
		static const auto sort_string_vector = [](std::vector<std::string>& vec)
		{
			std::sort(vec.begin(), vec.end(), [](const std::string &str1, const std::string &str2) { return str1 < str2; });
		};

		auto&& data = loaded["Core"]["Load libraries"].as<std::vector<std::string>, std::initializer_list<std::string>>({});
		sort_string_vector(data);

		// List selected modules first
		for (const auto& unk : data)
		{
			lle_module_list.insert(lle_module_list.end(), std::pair<std::string, bool>(unk, true));
			chbox_list_core_lle->Check(chbox_list_core_lle->Append(unk));
		}

		const std::string& lle_dir = Emu.GetLibDir(); // TODO

		std::unordered_set<std::string> set(data.begin(), data.end());
		std::vector<std::string> lle_module_list_unselected;

		for (const auto& prxf : fs::dir(lle_dir))
		{
			// List found unselected modules
			if (!prxf.is_directory && ppu_prx_object(fs::file(lle_dir + prxf.name)) == elf_error::ok && !set.count(prxf.name))
			{
				lle_module_list_unselected.push_back(prxf.name);
			}
		}

		sort_string_vector(lle_module_list_unselected);

		for (const auto& prxf : lle_module_list_unselected)
		{
			lle_module_list.insert(lle_module_list.end(), std::pair<std::string, bool>(prxf, false));
			chbox_list_core_lle->Check(chbox_list_core_lle->Append(prxf), false);
		}

		lle_module_list_unselected.clear();
	}

	radiobox_pad_helper ppu_decoder_modes({ "Core", "PPU decoder" });
	rbox_ppu_decoder = new wxRadioBox(p_core, wxID_ANY, "PPU decoder", wxDefaultPosition, wxSize(-1, -1), ppu_decoder_modes, 1);
	pads.emplace_back(std::make_unique<radiobox_pad>(std::move(ppu_decoder_modes), rbox_ppu_decoder));

	radiobox_pad_helper spu_decoder_modes({ "Core", "SPU decoder" });
	rbox_spu_decoder = new wxRadioBox(p_core, wxID_ANY, "SPU decoder", wxDefaultPosition, wxSize(-1, -1), spu_decoder_modes, 1);
	pads.emplace_back(std::make_unique<radiobox_pad>(std::move(spu_decoder_modes), rbox_spu_decoder));
	rbox_spu_decoder->Enable(3, false); // TODO

	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Core", "Hook static functions" }, chbox_core_hook_stfunc));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Core", "Load liblv2.sprx only" }, chbox_core_load_liblv2));

	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "VFS", "Enable /host_root/" }, chbox_vfs_enable_host_root));

	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Video", "Rendering API" }, cbox_gs_render));
	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Video", "Resolution" }, cbox_gs_resolution));
	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Video", "Aspect ratio" }, cbox_gs_aspect));
	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Video", "Frame limit" }, cbox_gs_frame_limit));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Log shader programs" }, chbox_gs_log_prog));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Write depth buffer" }, chbox_gs_dump_depth));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Write color buffers" }, chbox_gs_dump_color));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Read color buffers" }, chbox_gs_read_color));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Read depth buffer" }, chbox_gs_read_depth));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "VSync" }, chbox_gs_vsync));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Debug output" }, chbox_gs_debug_output));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Debug overlay" }, chbox_gs_overlay));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Video", "Use legacy OpenGL buffers (Debug)" }, chbox_gs_gl_legacy_buffers));

	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Audio", "Renderer" }, cbox_audio_out));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Audio", "Dump to file" }, chbox_audio_dump));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Audio", "Convert to 16-bit" }, chbox_audio_conv));

	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Input/Output", "Controller" }, cbox_pad_handler));
	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Input/Output", "Keyboard" }, cbox_keyboard_handler));
	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Input/Output", "Mouse" }, cbox_mouse_handler));
	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Input/Output", "Camera" }, cbox_camera));
	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Input/Output", "Camera type" }, cbox_camera_type));

	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Net", "Connection status" }, cbox_net_status));

	pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "System", "Language" }, cbox_sys_lang));

	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Miscellaneous", "Exit RPCS3 when process finishes" }, chbox_hle_exitonstop));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Miscellaneous", "Always start after boot" }, chbox_hle_always_start));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Miscellaneous", "Automatically pause at system call" }, chbox_dbg_ap_systemcall));
	pads.emplace_back(std::make_unique<checkbox_pad>(cfg_location{ "Miscellaneous", "Automatically pause at function call" }, chbox_dbg_ap_functioncall));

#ifdef _MSC_VER
	Microsoft::WRL::ComPtr<IDXGIFactory4> dxgi_factory;

	if (SUCCEEDED(CreateDXGIFactory(IID_PPV_ARGS(&dxgi_factory))))
	{
		Microsoft::WRL::ComPtr<IDXGIAdapter> adapter;

		for (UINT id = 0; dxgi_factory->EnumAdapters(id, adapter.ReleaseAndGetAddressOf()) != DXGI_ERROR_NOT_FOUND; id++)
		{
			DXGI_ADAPTER_DESC desc;
			adapter->GetDesc(&desc);
			cbox_gs_d3d_adapter->Append(desc.Description);
		}

		pads.emplace_back(std::make_unique<combobox_pad>(cfg_location{ "Video", "D3D12", "Adapter" }, cbox_gs_d3d_adapter));
	}
	else
#endif
	{
		cbox_gs_d3d_adapter->Enable(false);
	}

	// Core
	s_round_core_lle->Add(chbox_list_core_lle, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_core_lle->Add(s_module_search_box, wxSizerFlags().Border(wxALL, 5).Expand());

	// Rendering
	s_round_gs_render->Add(cbox_gs_render, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_gs_d3d_adapter->Add(cbox_gs_d3d_adapter, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_gs_res->Add(cbox_gs_resolution, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_gs_aspect->Add(cbox_gs_aspect, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_gs_frame_limit->Add(cbox_gs_frame_limit, wxSizerFlags().Border(wxALL, 5).Expand());

	// Input/Output
	s_round_io_pad_handler->Add(cbox_pad_handler, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_io_keyboard_handler->Add(cbox_keyboard_handler, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_io_mouse_handler->Add(cbox_mouse_handler, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_io_camera->Add(cbox_camera, wxSizerFlags().Border(wxALL, 5).Expand());
	s_round_io_camera_type->Add(cbox_camera_type, wxSizerFlags().Border(wxALL, 5).Expand());

	s_round_audio_out->Add(cbox_audio_out, wxSizerFlags().Border(wxALL, 5).Expand());

	// Networking
	s_round_net_status->Add(cbox_net_status, wxSizerFlags().Border(wxALL, 5).Expand());

	// System
	s_round_sys_lang->Add(cbox_sys_lang, wxSizerFlags().Border(wxALL, 5).Expand());

	// Core
	s_subpanel_core1->Add(rbox_ppu_decoder, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_core1->Add(rbox_spu_decoder, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_core1->Add(chbox_core_hook_stfunc, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_core1->Add(chbox_core_load_liblv2, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_core2->Add(s_round_core_lle, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_core->Add(s_subpanel_core1);
	s_subpanel_core->Add(s_subpanel_core2);

	// Graphics
	s_subpanel_graphics1->Add(s_round_gs_render, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics1->Add(s_round_gs_res, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics1->Add(s_round_gs_d3d_adapter, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics1->Add(chbox_gs_dump_color, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics1->Add(chbox_gs_read_color, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics1->Add(chbox_gs_dump_depth, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics1->Add(chbox_gs_read_depth, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics1->Add(chbox_gs_gl_legacy_buffers, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics2->Add(s_round_gs_aspect, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics2->Add(s_round_gs_frame_limit, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics2->AddSpacer(68);
	s_subpanel_graphics2->Add(chbox_gs_debug_output, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics2->Add(chbox_gs_overlay, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics2->Add(chbox_gs_log_prog, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics2->Add(chbox_gs_vsync, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_graphics->Add(s_subpanel_graphics1);
	s_subpanel_graphics->Add(s_subpanel_graphics2);

	// Input - Output
	s_subpanel_io1->Add(s_round_io_pad_handler, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_io1->Add(s_round_io_keyboard_handler, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_io1->Add(s_round_io_mouse_handler, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_io2->Add(s_round_io_camera, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_io2->Add(s_round_io_camera_type, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_io->Add(s_subpanel_io1);
	s_subpanel_io->Add(s_subpanel_io2);

	// Audio
	s_subpanel_audio->Add(s_round_audio_out, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_audio->Add(chbox_audio_dump, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_audio->Add(chbox_audio_conv, wxSizerFlags().Border(wxALL, 5).Expand());

	// Miscellaneous
	s_subpanel_misc->Add(chbox_hle_exitonstop, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_misc->Add(chbox_hle_always_start, wxSizerFlags().Border(wxALL, 5).Expand());

	// Auto Pause
	s_subpanel_misc->Add(chbox_dbg_ap_systemcall, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_misc->Add(chbox_dbg_ap_functioncall, wxSizerFlags().Border(wxALL, 5).Expand());

	// Networking
	s_subpanel_networking->Add(s_round_net_status, wxSizerFlags().Border(wxALL, 5).Expand());

	// System
	s_subpanel_system->Add(chbox_vfs_enable_host_root, wxSizerFlags().Border(wxALL, 5).Expand());
	s_subpanel_system->Add(s_round_sys_lang, wxSizerFlags().Border(wxALL, 5).Expand());

	// Buttons
	wxBoxSizer* s_b_panel(new wxBoxSizer(wxHORIZONTAL));
	s_b_panel->Add(new wxButton(this, wxID_OK), wxSizerFlags().Border(wxALL, 5).Bottom());
	s_b_panel->Add(new wxButton(this, wxID_CANCEL), wxSizerFlags().Border(wxALL, 5).Bottom());

	// Resize panels
	SetSizerAndFit(s_subpanel_core, false);
	SetSizerAndFit(s_subpanel_graphics, false);
	SetSizerAndFit(s_subpanel_io, false);
	SetSizerAndFit(s_subpanel_audio, false);
	SetSizerAndFit(s_subpanel_misc, false);
	SetSizerAndFit(s_subpanel_networking, false);
	SetSizerAndFit(s_subpanel_system, false);
	SetSizerAndFit(s_b_panel, false);

	SetSize(width + 26, height + 80);

	if (ShowModal() == wxID_OK)
	{
		std::set<std::string> lle_selected;

		for (auto& i : lle_module_list)
		{
			if (i.second) // selected
			{
				lle_selected.emplace(i.first);
			}
		}

		saved.reset();
		saved["Core"]["Load libraries"] = std::vector<std::string>(lle_selected.begin(), lle_selected.end());

		for (auto& pad : pads)
		{
			pad->save();
		}

		loaded += saved;
		YAML::Emitter out;
		emit(out, loaded);

		// Save config
		config.seek(0);
		config.trunc(0);
		config.write(out.c_str(), out.size());
	}
}
コード例 #9
0
ファイル: unedat.cpp プロジェクト: cornytrace/rpcs3
// Decrypts full file
fs::file DecryptEDAT(const fs::file& input, const std::string& input_file_name, int mode, const std::string& rap_file_name, u8 *custom_klic, bool verbose)
{
	// Prepare the files.
	input.seek(0);

	// Set keys (RIF and DEVKLIC).
	std::array<u8, 0x10> rifKey{ 0 };
	unsigned char devklic[0x10] = { 0 };
	
	// Select the EDAT key mode.
	switch (mode) 
	{
	case 0:
		break;
	case 1:
		memcpy(devklic, NP_KLIC_FREE, 0x10);
		break;
	case 2:
		memcpy(devklic, NP_OMAC_KEY_2, 0x10);
		break;
	case 3:
		memcpy(devklic, NP_OMAC_KEY_3, 0x10);
		break;
	case 4:
		memcpy(devklic, NP_KLIC_KEY, 0x10);
		break;
	case 5:
		memcpy(devklic, NP_PSX_KEY, 0x10);
		break;
	case 6:
		memcpy(devklic, NP_PSP_KEY_1, 0x10);
		break;
	case 7:
		memcpy(devklic, NP_PSP_KEY_2, 0x10);
		break;
	case 8: 
		{
			if (custom_klic != NULL)
				memcpy(devklic, custom_klic, 0x10);
			else
			{
				LOG_ERROR(LOADER, "EDAT: Invalid custom klic!");
				return fs::file{};
			}
			break;
		}
	default:
		LOG_ERROR(LOADER, "EDAT: Invalid mode!");
		return fs::file{};
	}

	// Read the RAP file, if provided.
	if (rap_file_name.size())
	{
		fs::file rap(rap_file_name);

		rifKey = GetEdatRifKeyFromRapFile(rap);
	}

	// Delete the bad output file if any errors arise.
	fs::file output = fs::make_stream<std::vector<u8>>();
	if (extract_all_data(&input, &output, input_file_name.c_str(), devklic, rifKey.data(), verbose))
	{
		output.release();
		return fs::file{};
	}
	
	output.seek(0);
	return output;
}
コード例 #10
0
ファイル: PSF.cpp プロジェクト: AniLeo/rpcs3
	void save_object(const fs::file& stream, const psf::registry& psf)
	{
		std::vector<def_table_t> indices; indices.reserve(psf.size());

		// Generate indices and calculate key table length
		std::size_t key_offset = 0, data_offset = 0;

		for (const auto& entry : psf)
		{
			def_table_t index;
			index.key_off = ::narrow<u32>(key_offset);
			index.param_fmt = entry.second.type();
			index.param_len = entry.second.size();
			index.param_max = entry.second.max();
			index.data_off = ::narrow<u32>(data_offset);

			// Update offsets:
			key_offset += ::narrow<u32>(entry.first.size() + 1); // key size
			data_offset += index.param_max;

			indices.push_back(index);
		}

		// Align next section (data) offset
		key_offset = ::align(key_offset, 4);

		// Generate header
		header_t header;
		header.magic = "\0PSF"_u32;
		header.version = 0x101;
		header.off_key_table = ::narrow<u32>(sizeof(header_t) + sizeof(def_table_t) * psf.size());
		header.off_data_table = ::narrow<u32>(header.off_key_table + key_offset);
		header.entries_num = ::narrow<u32>(psf.size());

		// Save header and indices
		stream.write(header);
		stream.write(indices);

		// Save key table
		for (const auto& entry : psf)
		{
			stream.write(entry.first);
			stream.write('\0');
		}

		// Skip padding
		stream.trunc(stream.seek(header.off_data_table));

		// Save data
		for (const auto& entry : psf)
		{
			const auto fmt = entry.second.type();
			const u32 max = entry.second.max();

			if (fmt == format::integer && max == sizeof(u32))
			{
				const le_t<u32> value = entry.second.as_integer();
				stream.write(value);
			}
			else if (fmt == format::string || fmt == format::array)
			{
				const std::string& value = entry.second.as_string();
				const std::size_t size = std::min<std::size_t>(max, value.size());

				if (value.size() + (fmt == format::string) > max)
				{
					// TODO: check real limitations of PSF format
					LOG_ERROR(LOADER, "Entry value shrinkage (key='%s', value='%s', size=0x%zx, max=0x%x)", entry.first, value, size, max);
				}

				stream.write(value);
				stream.trunc(stream.seek(max - size, fs::seek_cur)); // Skip up to max_size
			}
			else
			{
				fmt::throw_exception("Invalid entry format (key='%s', fmt=0x%x)" HERE, entry.first, fmt);
			}
		}
	}
コード例 #11
0
ファイル: PSF.cpp プロジェクト: AniLeo/rpcs3
	registry load_object(const fs::file& stream)
	{
		registry result;

		// Hack for empty input (TODO)
		if (!stream)
		{
			return result;
		}

		// Get header
		header_t header;
		verify(HERE), stream.read(header);

		// Check magic and version
		verify(HERE),
			header.magic == "\0PSF"_u32,
			header.version == 0x101,
			sizeof(header_t) + header.entries_num * sizeof(def_table_t) <= header.off_key_table,
			header.off_key_table <= header.off_data_table,
			header.off_data_table <= stream.size();

		// Get indices
		std::vector<def_table_t> indices;
		verify(HERE), stream.read(indices, header.entries_num);

		// Get keys
		std::string keys;
		verify(HERE), stream.seek(header.off_key_table) == header.off_key_table;
		verify(HERE), stream.read(keys, header.off_data_table - header.off_key_table);

		// Load entries
		for (u32 i = 0; i < header.entries_num; ++i)
		{
			verify(HERE), indices[i].key_off < header.off_data_table - header.off_key_table;

			// Get key name (null-terminated string)
			std::string key(keys.data() + indices[i].key_off);

			// Check entry
			verify(HERE),
				result.count(key) == 0,
				indices[i].param_len <= indices[i].param_max,
				indices[i].data_off < stream.size() - header.off_data_table,
				indices[i].param_max < stream.size() - indices[i].data_off;

			// Seek data pointer
			stream.seek(header.off_data_table + indices[i].data_off);

			if (indices[i].param_fmt == format::integer && indices[i].param_max == sizeof(u32) && indices[i].param_len == sizeof(u32))
			{
				// Integer data
				le_t<u32> value;
				verify(HERE), stream.read(value);

				result.emplace(std::piecewise_construct,
					std::forward_as_tuple(std::move(key)),
					std::forward_as_tuple(value));
			}
			else if (indices[i].param_fmt == format::string || indices[i].param_fmt == format::array)
			{
				// String/array data
				std::string value;
				verify(HERE), stream.read(value, indices[i].param_len);

				if (indices[i].param_fmt == format::string)
				{
					// Find null terminator
					value.resize(std::strlen(value.c_str()));
				}

				result.emplace(std::piecewise_construct,
					std::forward_as_tuple(std::move(key)),
					std::forward_as_tuple(indices[i].param_fmt, indices[i].param_max, std::move(value)));
			}
			else
			{
				// Possibly unsupported format, entry ignored
				LOG_ERROR(LOADER, "Unknown entry format (key='%s', fmt=0x%x, len=0x%x, max=0x%x)", key, indices[i].param_fmt, indices[i].param_len, indices[i].param_max);
			}
		}

		return result;
	}